Merge "defconfig: Create symbolic link for arm defconfigs"
diff --git a/LICENSE.txt b/LICENSE.txt
new file mode 100644
index 0000000..7a8348b
--- /dev/null
+++ b/LICENSE.txt
@@ -0,0 +1,6 @@
+
+Copyright (C) 2018 NXP Semiconductors, All Rights Reserved.
+
+This program is free software; you can redistribute it and/or modify
+it under the terms of the GNU General Public License version 2 as
+published by the Free Software Foundation.
diff --git a/Makefile b/Makefile
old mode 100755
new mode 100644
diff --git a/arch/arm64/boot/dts/qcom/apq8009-robot-som-refboard.dts b/arch/arm64/boot/dts/qcom/apq8009-robot-som-refboard.dts
index f57383c..d654bf8 100644
--- a/arch/arm64/boot/dts/qcom/apq8009-robot-som-refboard.dts
+++ b/arch/arm64/boot/dts/qcom/apq8009-robot-som-refboard.dts
@@ -1,5 +1,5 @@
/*
- * Copyright (c) 2018-2019, The Linux Foundation. All rights reserved.
+ * Copyright (c) 2018-2020, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
@@ -20,6 +20,7 @@
#include "msm8909-pm8916-camera.dtsi"
#include "msm8909-pm8916-camera-sensor-robot-som.dtsi"
#include "dsi-panel-osd-disp-fwvga-video.dtsi"
+#include "dsi-panel-ili9806e-fwvga-video.dtsi"
/ {
model = "Qualcomm Technologies, Inc. APQ8009 Robot SOM refboard";
@@ -400,6 +401,17 @@
qcom,mdss-dsi-pwm-gpio = <&pm8916_mpps 4 0>;
};
+&dsi_ili9806e_fwvga_video {
+ qcom,mdss-dsi-pwm-gpio = <&pm8916_mpps 4 0>;
+ qcom,mdss-dsi-bl-pmic-control-type = "bl_ctrl_wled";
+ qcom,mdss-dsi-panel-timings-phy-v2 = [
+ 1E 1A 04 05 02 03 04 a0
+ 1E 1A 04 05 02 03 04 a0
+ 1E 1A 04 05 02 03 04 a0
+ 1E 1A 04 05 02 03 04 a0
+ 1E 0B 03 04 02 03 04 a0];
+};
+
&pmx_mdss {
mdss_dsi_active: mdss_dsi_active {
mux {
diff --git a/arch/arm64/boot/dts/qcom/dsi-panel-ili9806e-fwvga-video.dtsi b/arch/arm64/boot/dts/qcom/dsi-panel-ili9806e-fwvga-video.dtsi
new file mode 100644
index 0000000..7b9331c
--- /dev/null
+++ b/arch/arm64/boot/dts/qcom/dsi-panel-ili9806e-fwvga-video.dtsi
@@ -0,0 +1,182 @@
+/* Copyright (c) 2014-2015, 2020, The Linux Foundation. All rights reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 and
+ * only version 2 as published by the Free Software Foundation.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ */
+
+&mdss_mdp {
+ dsi_ili9806e_fwvga_video: qcom,mdss_dsi_ili9806e_fwvga_video {
+ qcom,mdss-dsi-panel-name =
+ "ili9806e fwvga video mode dsi panel";
+ qcom,mdss-dsi-panel-type = "dsi_video_mode";
+ qcom,mdss-dsi-panel-framerate = <60>;
+ qcom,mdss-dsi-virtual-channel-id = <0>;
+ qcom,mdss-dsi-stream = <0>;
+ qcom,mdss-dsi-panel-width = <480>;
+ qcom,mdss-dsi-panel-height = <854>;
+ qcom,mdss-dsi-h-front-porch = <200>;
+ qcom,mdss-dsi-h-back-porch = <60>;
+ qcom,mdss-dsi-h-pulse-width = <10>;
+ qcom,mdss-dsi-h-sync-skew = <0>;
+ qcom,mdss-dsi-v-back-porch = <20>;
+ qcom,mdss-dsi-v-front-porch = <20>;
+ qcom,mdss-dsi-v-pulse-width = <2>;
+ qcom,mdss-dsi-h-left-border = <0>;
+ qcom,mdss-dsi-h-right-border = <0>;
+ qcom,mdss-dsi-v-top-border = <0>;
+ qcom,mdss-dsi-v-bottom-border = <0>;
+ qcom,mdss-dsi-bpp = <24>;
+ qcom,mdss-dsi-color-order = <0>;
+ qcom,mdss-dsi-underflow-color = <0xff>;
+ qcom,mdss-dsi-border-color = <0>;
+ /* qcom,mdss-dsi-panel-orientation = "180"; */
+ qcom,mdss-dsi-on-command =
+ [39 01 00 00 00 00 06 FF FF 98 06 04 01
+ 39 01 00 00 00 00 02 08 10
+ 39 01 00 00 00 00 02 21 01
+ 39 01 00 00 00 00 02 22 00
+ 39 01 00 00 00 00 02 30 01
+ 39 01 00 00 00 00 02 31 02
+ 39 01 00 00 00 00 02 40 11
+ 39 01 00 00 00 00 02 41 33
+ 39 01 00 00 00 00 02 42 03
+ 39 01 00 00 00 00 02 43 09
+ 39 01 00 00 00 00 02 44 04
+ 39 01 00 00 00 00 02 50 78
+ 39 01 00 00 00 00 02 51 78
+ 39 01 00 00 00 00 02 52 00
+ 39 01 00 00 00 00 02 53 80
+ 39 01 00 00 00 00 02 57 50
+ 39 01 00 00 00 00 02 60 07
+ 39 01 00 00 00 00 02 61 00
+ 39 01 00 00 00 00 02 62 08
+ 39 01 00 00 00 00 02 63 00
+ 39 01 00 00 00 00 02 A0 00
+ 39 01 00 00 00 00 02 A1 03
+ 39 01 00 00 00 00 02 A2 06
+ 39 01 00 00 00 00 02 A3 08
+ 39 01 00 00 00 00 02 A4 01
+ 39 01 00 00 00 00 02 A5 0C
+ 39 01 00 00 00 00 02 A6 0D
+ 39 01 00 00 00 00 02 A7 02
+ 39 01 00 00 00 00 02 A8 07
+ 39 01 00 00 00 00 02 A9 0B
+ 39 01 00 00 00 00 02 AA 0F
+ 39 01 00 00 00 00 02 AB 02
+ 39 01 00 00 00 00 02 AC 04
+ 39 01 00 00 00 00 02 AD 15
+ 39 01 00 00 00 00 02 AE 10
+ 39 01 00 00 00 00 02 AF 00
+ 39 01 00 00 00 00 02 C0 00
+ 39 01 00 00 00 00 02 C1 0C
+ 39 01 00 00 00 00 02 C2 13
+ 39 01 00 00 00 00 02 C3 11
+ 39 01 00 00 00 00 02 C4 09
+ 39 01 00 00 00 00 02 C5 06
+ 39 01 00 00 00 00 02 C6 04
+ 39 01 00 00 00 00 02 C7 07
+ 39 01 00 00 00 00 02 C8 07
+ 39 01 00 00 00 00 02 C9 09
+ 39 01 00 00 00 00 02 CA 15
+ 39 01 00 00 00 00 02 CB 0D
+ 39 01 00 00 00 00 02 CC 13
+ 39 01 00 00 00 00 02 CD 21
+ 39 01 00 00 00 00 02 CE 14
+ 39 01 00 00 00 00 02 CF 00
+ 39 01 00 00 00 00 06 FF FF 98 06 04 06
+ 39 01 00 00 00 00 02 00 20
+ 39 01 00 00 00 00 02 01 04
+ 39 01 00 00 00 00 02 02 00
+ 39 01 00 00 00 00 02 03 0A
+ 39 01 00 00 00 00 02 04 09
+ 39 01 00 00 00 00 02 05 09
+ 39 01 00 00 00 00 02 06 98
+ 39 01 00 00 00 00 02 07 02
+ 39 01 00 00 00 00 02 08 07
+ 39 01 00 00 00 00 02 09 80
+ 39 01 00 00 00 00 02 0A 00
+ 39 01 00 00 00 00 02 0B 00
+ 39 01 00 00 00 00 02 0C 09
+ 39 01 00 00 00 00 02 0D 09
+ 39 01 00 00 00 00 02 0E 00
+ 39 01 00 00 00 00 02 0F 00
+ 39 01 00 00 00 00 02 10 77
+ 39 01 00 00 00 00 02 11 F0
+ 39 01 00 00 00 00 02 12 01
+ 39 01 00 00 00 00 02 13 00
+ 39 01 00 00 00 00 02 14 00
+ 39 01 00 00 00 00 02 15 43
+ 39 01 00 00 00 00 02 16 0B
+ 39 01 00 00 00 00 02 17 00
+ 39 01 00 00 00 00 02 18 00
+ 39 01 00 00 00 00 02 19 00
+ 39 01 00 00 00 00 02 1A 00
+ 39 01 00 00 00 00 02 1B 00
+ 39 01 00 00 00 00 02 1C 00
+ 39 01 00 00 00 00 02 1D 00
+ 39 01 00 00 00 00 02 20 01
+ 39 01 00 00 00 00 02 21 23
+ 39 01 00 00 00 00 02 22 45
+ 39 01 00 00 00 00 02 23 67
+ 39 01 00 00 00 00 02 24 01
+ 39 01 00 00 00 00 02 25 23
+ 39 01 00 00 00 00 02 26 45
+ 39 01 00 00 00 00 02 27 67
+ 39 01 00 00 00 00 02 30 13
+ 39 01 00 00 00 00 02 31 22
+ 39 01 00 00 00 00 02 32 22
+ 39 01 00 00 00 00 02 33 22
+ 39 01 00 00 00 00 02 34 22
+ 39 01 00 00 00 00 02 35 BB
+ 39 01 00 00 00 00 02 36 AA
+ 39 01 00 00 00 00 02 37 DD
+ 39 01 00 00 00 00 02 38 CC
+ 39 01 00 00 00 00 02 39 22
+ 39 01 00 00 00 00 02 3A 66
+ 39 01 00 00 00 00 02 3B 22
+ 39 01 00 00 00 00 02 3C 88
+ 39 01 00 00 00 00 02 3D 22
+ 39 01 00 00 00 00 02 3E 22
+ 39 01 00 00 00 00 02 3F 22
+ 39 01 00 00 00 00 02 40 22
+ 39 01 00 00 00 00 06 FF FF 98 06 04 07
+ 39 01 00 00 00 00 02 18 1D
+ 39 01 00 00 00 00 02 02 77
+ 39 01 00 00 00 00 02 06 13
+ 39 01 00 00 00 00 06 FF FF 98 06 04 06
+ 39 01 00 00 00 00 02 52 10
+ 39 01 00 00 00 00 02 53 10
+ 39 01 00 00 00 00 06 FF FF 98 06 04 00
+ 39 01 00 00 00 00 02 20 00
+ 39 01 00 00 00 00 02 0B 01
+ 39 01 00 00 00 00 02 36 02
+ 05 01 00 00 78 00 02 11 00
+ 05 01 00 00 00 00 02 29 00];
+ qcom,mdss-dsi-off-command = [05 01 00 00 32 00 02 28 00
+ 05 01 00 00 78 00 02 10 00];
+ qcom,mdss-dsi-on-command-state = "dsi_lp_mode";
+ qcom,mdss-dsi-off-command-state = "dsi_hs_mode";
+ qcom,mdss-dsi-h-sync-pulse = <1>;
+ qcom,mdss-dsi-traffic-mode = "burst_mode";
+ qcom,mdss-dsi-lane-map = "lane_map_0123";
+ qcom,mdss-dsi-bllp-eof-power-mode;
+ qcom,mdss-dsi-bllp-power-mode;
+ qcom,mdss-dsi-lane-0-state;
+ qcom,mdss-dsi-lane-1-state;
+ qcom,mdss-dsi-panel-timings =
+ [7D 24 19 00 34 31 1D 26 2A 03 04 00];
+ qcom,mdss-dsi-t-clk-post = <0x0A>;
+ qcom,mdss-dsi-t-clk-pre = <0x1C>;
+ qcom,mdss-dsi-bl-min-level = <0>;
+ qcom,mdss-dsi-bl-max-level = <255>;
+ qcom,mdss-dsi-dma-trigger = "trigger_sw";
+ qcom,mdss-dsi-mdp-trigger = "none";
+ qcom,mdss-dsi-reset-sequence = <1 20>, <0 20>, <1 20>;
+ };
+};
diff --git a/drivers/platform/msm/ipa/ipa_v3/ipa_client.c b/drivers/platform/msm/ipa/ipa_v3/ipa_client.c
index d08cf0b..b9a4283 100644
--- a/drivers/platform/msm/ipa/ipa_v3/ipa_client.c
+++ b/drivers/platform/msm/ipa/ipa_v3/ipa_client.c
@@ -756,12 +756,13 @@
if (ipa_ep_idx >= ipa3_ctx->ipa_num_pipes ||
ipa3_ctx->ep[ipa_ep_idx].valid == 0) {
IPAERR("bad parm.\n");
- return -EINVAL;
+ result = -EINVAL;
+ goto ipa_cfg_ep_fail;
}
result = ipa3_cfg_ep_cfg(ipa_ep_idx, ¶ms->ipa_ep_cfg.cfg);
if (result) {
IPAERR("fail to configure QMB.\n");
- return result;
+ goto ipa_cfg_ep_fail;
}
}
@@ -903,6 +904,7 @@
&dev_scratch);
if (gsi_res != GSI_STATUS_SUCCESS) {
IPAERR("Error writing device scratch: %d\n", gsi_res);
+ IPA_ACTIVE_CLIENTS_DEC_SIMPLE();
return -EFAULT;
}
IPA_ACTIVE_CLIENTS_DEC_SIMPLE();
diff --git a/drivers/platform/msm/ipa/ipa_v3/ipa_uc_wdi.c b/drivers/platform/msm/ipa/ipa_v3/ipa_uc_wdi.c
index 3cbc0c6..8811805 100644
--- a/drivers/platform/msm/ipa/ipa_v3/ipa_uc_wdi.c
+++ b/drivers/platform/msm/ipa/ipa_v3/ipa_uc_wdi.c
@@ -1,4 +1,4 @@
-/* Copyright (c) 2012-2018, The Linux Foundation. All rights reserved.
+/* Copyright (c) 2012-2018, 2020 The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
@@ -1290,15 +1290,18 @@
if (result) {
result = -EFAULT;
+ if (!ep->keep_ipa_awake)
+ IPA_ACTIVE_CLIENTS_DEC_EP(
+ ipa3_get_client_mapping(clnt_hdl));
goto uc_timeout;
}
ipa3_delete_dflt_flt_rules(clnt_hdl);
ipa_release_uc_smmu_mappings(ep->client);
+ if (!ep->keep_ipa_awake)
+ IPA_ACTIVE_CLIENTS_DEC_EP(ipa3_get_client_mapping(clnt_hdl));
memset(&ipa3_ctx->ep[clnt_hdl], 0, sizeof(struct ipa3_ep_context));
- IPA_ACTIVE_CLIENTS_DEC_EP(ipa3_get_client_mapping(clnt_hdl));
-
IPADBG("client (ep: %d) disconnected\n", clnt_hdl);
/* for AP+STA stats update */
@@ -1364,7 +1367,8 @@
if (rsrc_grp.rsrc_grp == -1) {
IPAERR("invalid group for client %d\n", ep->client);
WARN_ON(1);
- return -EFAULT;
+ result = -EFAULT;
+ goto uc_timeout;
}
IPADBG("Setting group %d for pipe %d\n",
@@ -1378,11 +1382,11 @@
holb_cfg.tmr_val = 0;
result = ipa3_cfg_ep_holb(clnt_hdl, &holb_cfg);
}
- IPA_ACTIVE_CLIENTS_DEC_EP(ipa3_get_client_mapping(clnt_hdl));
ep->uc_offload_state |= IPA_WDI_ENABLED;
IPADBG("client (ep: %d) enabled\n", clnt_hdl);
uc_timeout:
+ IPA_ACTIVE_CLIENTS_DEC_EP(ipa3_get_client_mapping(clnt_hdl));
return result;
}
@@ -1475,12 +1479,12 @@
ep_cfg_ctrl.ipa_ep_delay = true;
ipa3_cfg_ep_ctrl(clnt_hdl, &ep_cfg_ctrl);
}
- IPA_ACTIVE_CLIENTS_DEC_EP(ipa3_get_client_mapping(clnt_hdl));
ep->uc_offload_state &= ~IPA_WDI_ENABLED;
IPADBG("client (ep: %d) disabled\n", clnt_hdl);
uc_timeout:
+ IPA_ACTIVE_CLIENTS_DEC_EP(ipa3_get_client_mapping(clnt_hdl));
return result;
}
@@ -1748,11 +1752,11 @@
result = -EFAULT;
goto uc_timeout;
}
- IPA_ACTIVE_CLIENTS_DEC_EP(ipa3_get_client_mapping(clnt_hdl));
IPADBG("client (ep: %d) qmap_id %d updated\n", clnt_hdl, qmap_id);
uc_timeout:
+ IPA_ACTIVE_CLIENTS_DEC_EP(ipa3_get_client_mapping(clnt_hdl));
return result;
}
diff --git a/drivers/soc/qcom/icnss.c b/drivers/soc/qcom/icnss.c
index f7bd0d9..945d02f 100644
--- a/drivers/soc/qcom/icnss.c
+++ b/drivers/soc/qcom/icnss.c
@@ -1,4 +1,4 @@
-/* Copyright (c) 2015-2019, The Linux Foundation. All rights reserved.
+/* Copyright (c) 2015-2020, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
@@ -3857,6 +3857,7 @@
int s1_bypass = 1;
int fast = 1;
int stall_disable = 1;
+ int non_fatal_faults = 1;
int ret = 0;
icnss_pr_dbg("Initializing SMMU\n");
@@ -3910,6 +3911,16 @@
goto set_attr_fail;
}
icnss_pr_dbg("SMMU STALL DISABLE map set\n");
+
+ ret = iommu_domain_set_attr(mapping->domain,
+ DOMAIN_ATTR_NON_FATAL_FAULTS,
+ &non_fatal_faults);
+ if (ret) {
+ icnss_pr_err("Failed to set SMMU non_fatal_faults attribute, err = %d\n",
+ ret);
+ goto set_attr_fail;
+ }
+ icnss_pr_dbg("SMMU NON FATAL map set\n");
}
ret = arm_iommu_attach_device(&priv->pdev->dev, mapping);
diff --git a/inc/config.h b/inc/config.h
new file mode 100644
index 0000000..a7eb863
--- /dev/null
+++ b/inc/config.h
@@ -0,0 +1,34 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+/*
+ Linux kernel specific definitions used by code shared with
+ Linux/Windows user space.
+*/
+
+#ifndef __CONFIG_LINUX_KERNEL_INC__
+#define __CONFIG_LINUX_KERNEL_INC__
+
+#include <linux/ctype.h>
+#include <linux/delay.h>
+#include <linux/slab.h>
+#include <linux/crc32.h>
+#include <linux/ftrace.h>
+
+#define _ASSERT(e)
+#define PRINT_ASSERT(e)if ((e)) printk(KERN_ERR "PrintAssert:%s (%s:%d) error code:%d\n",__FUNCTION__,__FILE__,__LINE__, e)
+
+#if defined(CONFIG_TRACING) && defined(DEBUG)
+ #define tfa98xx_trace_printk(...) trace_printk(__VA_ARGS__)
+#else
+ #define tfa98xx_trace_printk(...)
+#endif
+
+#endif /* __CONFIG_LINUX_KERNEL_INC__ */
+
diff --git a/inc/dbgprint.h b/inc/dbgprint.h
new file mode 100644
index 0000000..4555452
--- /dev/null
+++ b/inc/dbgprint.h
@@ -0,0 +1,158 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _DBGPRINT_H
+# define _DBGPRINT_H
+
+/* Debugging macro's. */
+# ifndef DEBUG
+# define DEBUG
+# endif
+
+# ifndef ASSERT
+//#define ASSERT
+# endif
+ //TODO wwwim
+# ifndef _ASSERT
+ #define _ASSERT(e)
+# endif
+
+# ifndef PREFIX
+# define PREFIX "tfa98xx: "
+# define DRIVER_NAME "tfa98xx"
+# endif
+
+#ifdef __KERNEL__
+
+# ifdef DEBUG
+# define _DEBUG(level,fmt,va...) do {\
+ if (unlikely(debug >= (level))) \
+ printk(KERN_INFO PREFIX "%s:%d: "fmt,__func__,__LINE__,##va); \
+ } while (0)
+
+# else
+# define _DEBUG(level,fmt,va...) do {} while(0)
+# endif
+
+# define MSG(fmt,va...) printk(KERN_INFO PREFIX "%s:%d: "fmt,__func__,__LINE__,##va)
+# define _ERRORMSG(fmt,va...) printk(KERN_ERR PREFIX "ERROR %s:%d: "fmt,__func__,__LINE__, ##va)
+
+
+# define DEBUG0(x...) MSG(x)
+# define DEBUG1(x...) _DEBUG(1,x)
+# define DEBUG2(x...) _DEBUG(2,x)
+# define DEBUG3(x...) _DEBUG(3,x)
+# define ERRORMSG(x...) _ERRORMSG(x)
+# define PRINT(x...) printk(x)
+# define PRINT_ERROR(x...) printk(KERN_INFO PREFIX " **ERROR** " x)
+# define PRINT_ASSERT(e)if ((e)) printk(KERN_ERR "PrintAssert:%s (%s:%d) error code:%d\n",__FUNCTION__,__FILE__,__LINE__, e)
+
+# define PRINT_ENTRY DEBUG2("+[%s]\n", __func__)
+# define PRINT_EXIT DEBUG2("-[%s]\n", __func__)
+
+# ifdef ASSERT
+# define assert(cond,action) do { if (unlikely(!(cond))) { DEBUG0("Assert: %s\n",#cond); action; }} while(0)
+# else
+# define assert(cond,action) do { } while (0)
+# endif
+
+#else /* __KERNEL__ */
+#if defined(WIN32) || defined(_X64)
+#include <stdio.h>
+/* user mode */
+# ifdef DEBUG
+# define _DEBUGMSG(level,fmt,...) printf(PREFIX "%s:%d: "fmt,__FUNCTION__,__LINE__,__VA_ARGS__);
+# else
+# define _DEBUGMSG(level,fmt,...) do {} while(0)
+# endif
+
+# define _ERRORMSG(fmt,...) printf(PREFIX "%s:%s:%d: "fmt,__FILE__,__FUNCTION__,__LINE__,__VA_ARGS__)
+
+# define DEBUG0(...) MSG(__VA_ARGS__)
+# define DEBUG1(...) _DEBUGMSG(1,__VA_ARGS__)
+# define DEBUG2(...) _DEBUGMSG(2,__VA_ARGS__)
+# define DEBUG3(...) _DEBUGMSG(3,__VA_ARGS__)
+# define ERRORMSG(fmt,...) _ERRORMSG(fmt,__VA_ARGS__)
+# define PRINT(...) printf(__VA_ARGS__)
+/*
+# define PRINT(...) { FILE *stream; \
+ if((stream = freopen("nxp_tfa.txt", "ab+", stdout)) == NULL) exit(-1); \
+ printf(__VA_ARGS__); \
+ freopen( "CON", "ab+", stdout ); \
+ }
+*/
+# define PRINT_ERROR(...) fprintf(stderr,__VA_ARGS__)
+# define PRINT_FILE(file,...) fprintf(file,__VA_ARGS__)
+# define PRINT_ASSERT(e)if ((e)) fprintf(stderr, "PrintAssert:%s (%s:%d) error code:%d\n",__FUNCTION__,__FILE__,__LINE__, e)
+//# define PRINT_ASSERT(e) if ((e)) fprintf(stderr, "PrintAssert:%s (%s:%d) %s\n",__FUNCTION__,__FILE__,__LINE__, Tfa98xx_GetErrorString(e))
+
+#elif defined(__CODE_RED)
+#include "app_global.h"
+# ifdef DEBUG
+# define _DEBUG(level,fmt,va...) TB_TRACE_INF(TbTracePfx2("tfa",TB_FUNC,va))
+//printf(PREFIX "%s:%d: "fmt,__func__,__LINE__,##va);
+# else
+# define _DEBUG(level,fmt,va...) do {} while(0)
+# endif
+
+# define MSG(fmt,...) TB_TRACE_INF(TbTracePfx2("tfa",TB_FUNC,__VA_ARGS__))
+//printf(PREFIX "%s:%s:%d: "fmt,__FILE__,__func__,__LINE__,##va)
+//TB_TRACE_INF(TbTracePfx2(APP_PFX,TB_FUNC,"path=%s, chan=%u, muted=%s, vol=%d\n",
+// path->isRecording ? "recording" : "playback",
+// i,
+// channelVol.currentMuteValue ? "YES" : "NO",
+// channelVol.currentVolumeValue
+// ));
+//# define _ERRORMSG(fmt,va...) TB_TRACE_INF(TbTracePfx2("tfa",TB_FUNC,va))
+# define ERRORMSG(...) TB_TRACE_INF(TbTracePfx2("tfa",TB_FUNC,__VA_ARGS__))
+//fprintf(stderr, PREFIX "ERROR %s:%s:%d: "fmt,__FILE__,__func__,__LINE__, ##va)
+
+# define DEBUG0(x...) MSG(x)
+# define DEBUG1(x...) _DEBUG(1,x)
+# define DEBUG2(x...) _DEBUG(2,x)
+# define DEBUG3(x...) _DEBUG(3,x)
+//# define ERRORMSG(x...) _ERRORMSG(x)
+# define PRINT(x...) TB_TRACE_INF(TbTracePfx2("tfa",TB_FUNC,x))
+//printf(x)
+# define PRINT_ERROR(x...) TB_TRACE_INF(TbTracePfx2("tfa",TB_FUNC,x))
+//fprintf(stderr,__VA_ARGS__)
+# define PRINT_FILE(file,x...) TB_TRACE_INF(TbTracePfx2("tfa",TB_FUNC,x))
+//fprintf(file,__VA_ARGS__)
+# define PRINT_ASSERT(e)
+//TB_TRACE_INF(TbTracePfx2("tfa",TB_FUNC,Tfa98xx_GetErrorString(e)))
+//if ((e)) fprintf(stderr, "PrintAssert:%s (%s:%d) %s\n",__FUNCTION__,__FILE__,__LINE__, Tfa98xx_GetErrorString(e))
+#else
+#include <stdio.h>
+/* user mode */
+# ifdef DEBUG
+# define _DEBUG(level,fmt,va...) printf(PREFIX "%s:%d: "fmt,__func__,__LINE__,##va);
+# else
+# define _DEBUG(level,fmt,va...) do {} while(0)
+# endif
+
+# define MSG(fmt,va...) printf(PREFIX "%s:%s:%d: "fmt,__FILE__,__func__,__LINE__,##va)
+# define _ERRORMSG(fmt,va...) fprintf(stderr, PREFIX "ERROR %s:%s:%d: "fmt,__FILE__,__func__,__LINE__, ##va)
+
+# define DEBUG0(x...) MSG(x)
+# define DEBUG1(x...) _DEBUG(1,x)
+# define DEBUG2(x...) _DEBUG(2,x)
+# define DEBUG3(x...) _DEBUG(3,x)
+# define ERRORMSG(x...) _ERRORMSG(x)
+# define PRINT(x...) printf(x)
+# define PRINT_ERROR(...) fprintf(stderr,__VA_ARGS__)
+# define PRINT_FILE(file,...) fprintf(file,__VA_ARGS__)
+# define PRINT_ASSERT(e)if ((e)) fprintf(stderr, "PrintAssert:%s (%s:%d) error code:%d\n",__FUNCTION__,__FILE__,__LINE__, e)
+//# define PRINT_ASSERT(e) if ((e)) fprintf(stderr, "PrintAssert:%s (%s:%d) %s\n",__FUNCTION__,__FILE__,__LINE__, Tfa98xx_GetErrorString(e))
+
+
+#endif /* WIN32 */
+
+#endif /* user */
+
+#endif /* _DBGPRINT_H --------------- */
diff --git a/inc/tfa.h b/inc/tfa.h
new file mode 100644
index 0000000..7711769
--- /dev/null
+++ b/inc/tfa.h
@@ -0,0 +1,42 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFA_H_
+#define TFA_H_
+
+/* set the limit for the container file length */
+#define TFA_MAX_CNT_LENGTH (256*1024)
+
+extern struct tfa_device **devs;
+
+/**
+ * tfa error return codes
+ */
+enum tfa_error {
+ tfa_error_ok, /**< no error */
+ tfa_error_device, /**< no response from device */
+ tfa_error_bad_param,/**< parameter no accepted */
+ tfa_error_noclock, /**< required clock not present */
+ tfa_error_timeout, /**< a timeout occurred */
+ tfa_error_dsp, /**< a DSP error was returned */
+ tfa_error_container,/**< no or wrong container file */
+ tfa_error_max /**< impossible value, max enum */
+};
+
+enum Tfa98xx_Error tfa_write_filters(struct tfa_device *tfa, int prof_idx);
+
+struct tfa_device ** tfa_devs_create(int count);
+void tfa_devs_destroy(int count);
+
+struct tfa_device ** tfa_get_device_struct(void);
+
+int tfa_plop_noise_interrupt(struct tfa_device *tfa, int profile, int vstep);
+void tfa_lp_mode_interrupt(struct tfa_device *tfa);
+
+#endif /* TFA_H_ */
diff --git a/inc/tfa1_tfafieldnames.h b/inc/tfa1_tfafieldnames.h
new file mode 100644
index 0000000..138b212
--- /dev/null
+++ b/inc/tfa1_tfafieldnames.h
@@ -0,0 +1,904 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+#define TFA9897_I2CVERSION 34
+typedef enum nxpTfa1BfEnumList {
+ TFA1_BF_VDDS = 0x0000, /*!< Power-on-reset flag */
+ TFA1_BF_PLLS = 0x0010, /*!< PLL lock */
+ TFA1_BF_OTDS = 0x0020, /*!< Over Temperature Protection alarm */
+ TFA1_BF_OVDS = 0x0030, /*!< Over Voltage Protection alarm */
+ TFA1_BF_UVDS = 0x0040, /*!< Under Voltage Protection alarm */
+ TFA1_BF_OCDS = 0x0050, /*!< Over Current Protection alarm */
+ TFA1_BF_CLKS = 0x0060, /*!< Clocks stable flag */
+ TFA1_BF_CLIPS = 0x0070, /*!< Amplifier clipping */
+ TFA1_BF_MTPB = 0x0080, /*!< MTP busy */
+ TFA1_BF_NOCLK = 0x0090, /*!< Flag lost clock from clock generation unit */
+ TFA1_BF_SPKS = 0x00a0, /*!< Speaker error flag */
+ TFA1_BF_ACS = 0x00b0, /*!< Cold Start flag */
+ TFA1_BF_SWS = 0x00c0, /*!< Flag Engage */
+ TFA1_BF_WDS = 0x00d0, /*!< Flag watchdog reset */
+ TFA1_BF_AMPS = 0x00e0, /*!< Amplifier is enabled by manager */
+ TFA1_BF_AREFS = 0x00f0, /*!< References are enabled by manager */
+ TFA1_BF_BATS = 0x0109, /*!< Battery voltage readout; 0 .. 5.5 [V] */
+ TFA1_BF_TEMPS = 0x0208, /*!< Temperature readout from the temperature sensor */
+ TFA1_BF_REV = 0x030b, /*!< Device type number is B97 */
+ TFA1_BF_RCV = 0x0420, /*!< Enable Receiver Mode */
+ TFA1_BF_CHS12 = 0x0431, /*!< Channel Selection TDM input for Coolflux */
+ TFA1_BF_INPLVL= 0x0450, /*!< Input level selection control */
+ TFA1_BF_CHSA = 0x0461, /*!< Input selection for amplifier */
+ TFA1_BF_I2SDOE= 0x04b0, /*!< Enable data output */
+ TFA1_BF_AUDFS = 0x04c3, /*!< Audio sample rate setting */
+ TFA1_BF_BSSCR = 0x0501, /*!< Protection Attack Time */
+ TFA1_BF_BSST = 0x0523, /*!< ProtectionThreshold */
+ TFA1_BF_BSSRL = 0x0561, /*!< Protection Maximum Reduction */
+ TFA1_BF_BSSRR = 0x0582, /*!< Battery Protection Release Time */
+ TFA1_BF_BSSHY = 0x05b1, /*!< Battery Protection Hysteresis */
+ TFA1_BF_BSSR = 0x05e0, /*!< battery voltage for I2C read out only */
+ TFA1_BF_BSSBY = 0x05f0, /*!< bypass clipper battery protection */
+ TFA1_BF_DPSA = 0x0600, /*!< Enable dynamic powerstage activation */
+ TFA1_BF_CFSM = 0x0650, /*!< Soft mute in CoolFlux */
+ TFA1_BF_BSSS = 0x0670, /*!< BatSenseSteepness */
+ TFA1_BF_VOL = 0x0687, /*!< volume control (in CoolFlux) */
+ TFA1_BF_DCVO = 0x0702, /*!< Boost Voltage */
+ TFA1_BF_DCMCC = 0x0733, /*!< Max boost coil current - step of 175 mA */
+ TFA1_BF_DCIE = 0x07a0, /*!< Adaptive boost mode */
+ TFA1_BF_DCSR = 0x07b0, /*!< Soft RampUp/Down mode for DCDC controller */
+ TFA1_BF_DCPAVG= 0x07c0, /*!< ctrl_peak2avg for analog part of DCDC */
+ TFA1_BF_TROS = 0x0800, /*!< Select external temperature also the ext_temp will be put on the temp read out */
+ TFA1_BF_EXTTS = 0x0818, /*!< external temperature setting to be given by host */
+ TFA1_BF_PWDN = 0x0900, /*!< Device Mode */
+ TFA1_BF_I2CR = 0x0910, /*!< I2C Reset */
+ TFA1_BF_CFE = 0x0920, /*!< Enable CoolFlux */
+ TFA1_BF_AMPE = 0x0930, /*!< Enable Amplifier */
+ TFA1_BF_DCA = 0x0940, /*!< EnableBoost */
+ TFA1_BF_SBSL = 0x0950, /*!< Coolflux configured */
+ TFA1_BF_AMPC = 0x0960, /*!< Selection on how Amplifier is enabled */
+ TFA1_BF_DCDIS = 0x0970, /*!< DCDC not connected */
+ TFA1_BF_PSDR = 0x0980, /*!< IDDQ test amplifier */
+ TFA1_BF_DCCV = 0x0991, /*!< Coil Value */
+ TFA1_BF_CCFD = 0x09b0, /*!< Selection CoolFlux Clock */
+ TFA1_BF_INTPAD= 0x09c1, /*!< INT pad configuration control */
+ TFA1_BF_IPLL = 0x09e0, /*!< PLL input reference clock selection */
+ TFA1_BF_MTPK = 0x0b07, /*!< 5Ah, 90d To access KEY1_Protected registers (Default for engineering) */
+ TFA1_BF_CVFDLY= 0x0c25, /*!< Fractional delay adjustment between current and voltage sense */
+ TFA1_BF_TDMPRF= 0x1011, /*!< TDM_usecase */
+ TFA1_BF_TDMEN = 0x1030, /*!< TDM interface control */
+ TFA1_BF_TDMCKINV= 0x1040, /*!< TDM clock inversion */
+ TFA1_BF_TDMFSLN= 0x1053, /*!< TDM FS length */
+ TFA1_BF_TDMFSPOL= 0x1090, /*!< TDM FS polarity */
+ TFA1_BF_TDMSAMSZ= 0x10a4, /*!< TDM Sample Size for all tdm sinks/sources */
+ TFA1_BF_TDMSLOTS= 0x1103, /*!< Number of slots */
+ TFA1_BF_TDMSLLN= 0x1144, /*!< Slot length */
+ TFA1_BF_TDMBRMG= 0x1194, /*!< Bits remaining */
+ TFA1_BF_TDMDDEL= 0x11e0, /*!< Data delay */
+ TFA1_BF_TDMDADJ= 0x11f0, /*!< Data adjustment */
+ TFA1_BF_TDMTXFRM= 0x1201, /*!< TXDATA format */
+ TFA1_BF_TDMUUS0= 0x1221, /*!< TXDATA format unused slot sd0 */
+ TFA1_BF_TDMUUS1= 0x1241, /*!< TXDATA format unused slot sd1 */
+ TFA1_BF_TDMSI0EN= 0x1270, /*!< TDM sink0 enable */
+ TFA1_BF_TDMSI1EN= 0x1280, /*!< TDM sink1 enable */
+ TFA1_BF_TDMSI2EN= 0x1290, /*!< TDM sink2 enable */
+ TFA1_BF_TDMSO0EN= 0x12a0, /*!< TDM source0 enable */
+ TFA1_BF_TDMSO1EN= 0x12b0, /*!< TDM source1 enable */
+ TFA1_BF_TDMSO2EN= 0x12c0, /*!< TDM source2 enable */
+ TFA1_BF_TDMSI0IO= 0x12d0, /*!< tdm_sink0_io */
+ TFA1_BF_TDMSI1IO= 0x12e0, /*!< tdm_sink1_io */
+ TFA1_BF_TDMSI2IO= 0x12f0, /*!< tdm_sink2_io */
+ TFA1_BF_TDMSO0IO= 0x1300, /*!< tdm_source0_io */
+ TFA1_BF_TDMSO1IO= 0x1310, /*!< tdm_source1_io */
+ TFA1_BF_TDMSO2IO= 0x1320, /*!< tdm_source2_io */
+ TFA1_BF_TDMSI0SL= 0x1333, /*!< sink0_slot [GAIN IN] */
+ TFA1_BF_TDMSI1SL= 0x1373, /*!< sink1_slot [CH1 IN] */
+ TFA1_BF_TDMSI2SL= 0x13b3, /*!< sink2_slot [CH2 IN] */
+ TFA1_BF_TDMSO0SL= 0x1403, /*!< source0_slot [GAIN OUT] */
+ TFA1_BF_TDMSO1SL= 0x1443, /*!< source1_slot [Voltage Sense] */
+ TFA1_BF_TDMSO2SL= 0x1483, /*!< source2_slot [Current Sense] */
+ TFA1_BF_NBCK = 0x14c3, /*!< NBCK */
+ TFA1_BF_INTOVDDS= 0x2000, /*!< flag_por_int_out */
+ TFA1_BF_INTOPLLS= 0x2010, /*!< flag_pll_lock_int_out */
+ TFA1_BF_INTOOTDS= 0x2020, /*!< flag_otpok_int_out */
+ TFA1_BF_INTOOVDS= 0x2030, /*!< flag_ovpok_int_out */
+ TFA1_BF_INTOUVDS= 0x2040, /*!< flag_uvpok_int_out */
+ TFA1_BF_INTOOCDS= 0x2050, /*!< flag_ocp_alarm_int_out */
+ TFA1_BF_INTOCLKS= 0x2060, /*!< flag_clocks_stable_int_out */
+ TFA1_BF_INTOCLIPS= 0x2070, /*!< flag_clip_int_out */
+ TFA1_BF_INTOMTPB= 0x2080, /*!< mtp_busy_int_out */
+ TFA1_BF_INTONOCLK= 0x2090, /*!< flag_lost_clk_int_out */
+ TFA1_BF_INTOSPKS= 0x20a0, /*!< flag_cf_speakererror_int_out */
+ TFA1_BF_INTOACS= 0x20b0, /*!< flag_cold_started_int_out */
+ TFA1_BF_INTOSWS= 0x20c0, /*!< flag_engage_int_out */
+ TFA1_BF_INTOWDS= 0x20d0, /*!< flag_watchdog_reset_int_out */
+ TFA1_BF_INTOAMPS= 0x20e0, /*!< flag_enbl_amp_int_out */
+ TFA1_BF_INTOAREFS= 0x20f0, /*!< flag_enbl_ref_int_out */
+ TFA1_BF_INTOACK= 0x2201, /*!< Interrupt status register output - Corresponding flag */
+ TFA1_BF_INTIVDDS= 0x2300, /*!< flag_por_int_in */
+ TFA1_BF_INTIPLLS= 0x2310, /*!< flag_pll_lock_int_in */
+ TFA1_BF_INTIOTDS= 0x2320, /*!< flag_otpok_int_in */
+ TFA1_BF_INTIOVDS= 0x2330, /*!< flag_ovpok_int_in */
+ TFA1_BF_INTIUVDS= 0x2340, /*!< flag_uvpok_int_in */
+ TFA1_BF_INTIOCDS= 0x2350, /*!< flag_ocp_alarm_int_in */
+ TFA1_BF_INTICLKS= 0x2360, /*!< flag_clocks_stable_int_in */
+ TFA1_BF_INTICLIPS= 0x2370, /*!< flag_clip_int_in */
+ TFA1_BF_INTIMTPB= 0x2380, /*!< mtp_busy_int_in */
+ TFA1_BF_INTINOCLK= 0x2390, /*!< flag_lost_clk_int_in */
+ TFA1_BF_INTISPKS= 0x23a0, /*!< flag_cf_speakererror_int_in */
+ TFA1_BF_INTIACS= 0x23b0, /*!< flag_cold_started_int_in */
+ TFA1_BF_INTISWS= 0x23c0, /*!< flag_engage_int_in */
+ TFA1_BF_INTIWDS= 0x23d0, /*!< flag_watchdog_reset_int_in */
+ TFA1_BF_INTIAMPS= 0x23e0, /*!< flag_enbl_amp_int_in */
+ TFA1_BF_INTIAREFS= 0x23f0, /*!< flag_enbl_ref_int_in */
+ TFA1_BF_INTIACK= 0x2501, /*!< Interrupt register input */
+ TFA1_BF_INTENVDDS= 0x2600, /*!< flag_por_int_enable */
+ TFA1_BF_INTENPLLS= 0x2610, /*!< flag_pll_lock_int_enable */
+ TFA1_BF_INTENOTDS= 0x2620, /*!< flag_otpok_int_enable */
+ TFA1_BF_INTENOVDS= 0x2630, /*!< flag_ovpok_int_enable */
+ TFA1_BF_INTENUVDS= 0x2640, /*!< flag_uvpok_int_enable */
+ TFA1_BF_INTENOCDS= 0x2650, /*!< flag_ocp_alarm_int_enable */
+ TFA1_BF_INTENCLKS= 0x2660, /*!< flag_clocks_stable_int_enable */
+ TFA1_BF_INTENCLIPS= 0x2670, /*!< flag_clip_int_enable */
+ TFA1_BF_INTENMTPB= 0x2680, /*!< mtp_busy_int_enable */
+ TFA1_BF_INTENNOCLK= 0x2690, /*!< flag_lost_clk_int_enable */
+ TFA1_BF_INTENSPKS= 0x26a0, /*!< flag_cf_speakererror_int_enable */
+ TFA1_BF_INTENACS= 0x26b0, /*!< flag_cold_started_int_enable */
+ TFA1_BF_INTENSWS= 0x26c0, /*!< flag_engage_int_enable */
+ TFA1_BF_INTENWDS= 0x26d0, /*!< flag_watchdog_reset_int_enable */
+ TFA1_BF_INTENAMPS= 0x26e0, /*!< flag_enbl_amp_int_enable */
+ TFA1_BF_INTENAREFS= 0x26f0, /*!< flag_enbl_ref_int_enable */
+ TFA1_BF_INTENACK= 0x2801, /*!< Interrupt enable register */
+ TFA1_BF_INTPOLVDDS= 0x2900, /*!< flag_por_int_pol */
+ TFA1_BF_INTPOLPLLS= 0x2910, /*!< flag_pll_lock_int_pol */
+ TFA1_BF_INTPOLOTDS= 0x2920, /*!< flag_otpok_int_pol */
+ TFA1_BF_INTPOLOVDS= 0x2930, /*!< flag_ovpok_int_pol */
+ TFA1_BF_INTPOLUVDS= 0x2940, /*!< flag_uvpok_int_pol */
+ TFA1_BF_INTPOLOCDS= 0x2950, /*!< flag_ocp_alarm_int_pol */
+ TFA1_BF_INTPOLCLKS= 0x2960, /*!< flag_clocks_stable_int_pol */
+ TFA1_BF_INTPOLCLIPS= 0x2970, /*!< flag_clip_int_pol */
+ TFA1_BF_INTPOLMTPB= 0x2980, /*!< mtp_busy_int_pol */
+ TFA1_BF_INTPOLNOCLK= 0x2990, /*!< flag_lost_clk_int_pol */
+ TFA1_BF_INTPOLSPKS= 0x29a0, /*!< flag_cf_speakererror_int_pol */
+ TFA1_BF_INTPOLACS= 0x29b0, /*!< flag_cold_started_int_pol */
+ TFA1_BF_INTPOLSWS= 0x29c0, /*!< flag_engage_int_pol */
+ TFA1_BF_INTPOLWDS= 0x29d0, /*!< flag_watchdog_reset_int_pol */
+ TFA1_BF_INTPOLAMPS= 0x29e0, /*!< flag_enbl_amp_int_pol */
+ TFA1_BF_INTPOLAREFS= 0x29f0, /*!< flag_enbl_ref_int_pol */
+ TFA1_BF_INTPOLACK= 0x2b01, /*!< Interrupt status flags polarity register */
+ TFA1_BF_CLIP = 0x4900, /*!< Bypass clip control */
+ TFA1_BF_CIMTP = 0x62b0, /*!< start copying all the data from i2cregs_mtp to mtp [Key 2 protected] */
+ TFA1_BF_RST = 0x7000, /*!< Reset CoolFlux DSP */
+ TFA1_BF_DMEM = 0x7011, /*!< Target memory for access */
+ TFA1_BF_AIF = 0x7030, /*!< Autoincrement-flag for memory-address */
+ TFA1_BF_CFINT = 0x7040, /*!< Interrupt CoolFlux DSP */
+ TFA1_BF_REQ = 0x7087, /*!< request for access (8 channels) */
+ TFA1_BF_REQCMD= 0x7080, /*!< Firmware event request rpc command */
+ TFA1_BF_REQRST= 0x7090, /*!< Firmware event request reset restart */
+ TFA1_BF_REQMIPS= 0x70a0, /*!< Firmware event request short on mips */
+ TFA1_BF_REQMUTED= 0x70b0, /*!< Firmware event request mute sequence ready */
+ TFA1_BF_REQVOL= 0x70c0, /*!< Firmware event request volume ready */
+ TFA1_BF_REQDMG= 0x70d0, /*!< Firmware event request speaker damage detected */
+ TFA1_BF_REQCAL= 0x70e0, /*!< Firmware event request calibration completed */
+ TFA1_BF_REQRSV= 0x70f0, /*!< Firmware event request reserved */
+ TFA1_BF_MADD = 0x710f, /*!< memory-address to be accessed */
+ TFA1_BF_MEMA = 0x720f, /*!< activate memory access (24- or 32-bits data is written/read to/from memory */
+ TFA1_BF_ERR = 0x7307, /*!< Coolflux error flags */
+ TFA1_BF_ACK = 0x7387, /*!< acknowledge of requests (8 channels) */
+ TFA1_BF_MTPOTC= 0x8000, /*!< Calibration schedule (key2 protected) */
+ TFA1_BF_MTPEX = 0x8010, /*!< (key2 protected) */
+} nxpTfa1BfEnumList_t;
+#define TFA1_NAMETABLE static tfaBfName_t Tfa1DatasheetNames[]= {\
+ { 0x0, "VDDS"}, /* Power-on-reset flag , */\
+ { 0x10, "PLLS"}, /* PLL lock , */\
+ { 0x20, "OTDS"}, /* Over Temperature Protection alarm , */\
+ { 0x30, "OVDS"}, /* Over Voltage Protection alarm , */\
+ { 0x40, "UVDS"}, /* Under Voltage Protection alarm , */\
+ { 0x50, "OCDS"}, /* Over Current Protection alarm , */\
+ { 0x60, "CLKS"}, /* Clocks stable flag , */\
+ { 0x70, "CLIPS"}, /* Amplifier clipping , */\
+ { 0x80, "MTPB"}, /* MTP busy , */\
+ { 0x90, "NOCLK"}, /* Flag lost clock from clock generation unit , */\
+ { 0xa0, "SPKS"}, /* Speaker error flag , */\
+ { 0xb0, "ACS"}, /* Cold Start flag , */\
+ { 0xc0, "SWS"}, /* Flag Engage , */\
+ { 0xd0, "WDS"}, /* Flag watchdog reset , */\
+ { 0xe0, "AMPS"}, /* Amplifier is enabled by manager , */\
+ { 0xf0, "AREFS"}, /* References are enabled by manager , */\
+ { 0x109, "BATS"}, /* Battery voltage readout; 0 .. 5.5 [V] , */\
+ { 0x208, "TEMPS"}, /* Temperature readout from the temperature sensor , */\
+ { 0x30b, "REV"}, /* Device type number is B97 , */\
+ { 0x420, "RCV"}, /* Enable Receiver Mode , */\
+ { 0x431, "CHS12"}, /* Channel Selection TDM input for Coolflux , */\
+ { 0x450, "INPLVL"}, /* Input level selection control , */\
+ { 0x461, "CHSA"}, /* Input selection for amplifier , */\
+ { 0x4b0, "I2SDOE"}, /* Enable data output , */\
+ { 0x4c3, "AUDFS"}, /* Audio sample rate setting , */\
+ { 0x501, "SSCR"}, /* Protection Attack Time , */\
+ { 0x523, "SST"}, /* ProtectionThreshold , */\
+ { 0x561, "SSRL"}, /* Protection Maximum Reduction , */\
+ { 0x582, "SSRR"}, /* Battery Protection Release Time , */\
+ { 0x5b1, "SSHY"}, /* Battery Protection Hysteresis , */\
+ { 0x5e0, "SSR"}, /* battery voltage for I2C read out only , */\
+ { 0x5f0, "SSBY"}, /* bypass clipper battery protection , */\
+ { 0x600, "DPSA"}, /* Enable dynamic powerstage activation , */\
+ { 0x650, "CFSM"}, /* Soft mute in CoolFlux , */\
+ { 0x670, "SSS"}, /* BatSenseSteepness , */\
+ { 0x687, "VOL"}, /* volume control (in CoolFlux) , */\
+ { 0x702, "DCVO"}, /* Boost Voltage , */\
+ { 0x733, "DCMCC"}, /* Max boost coil current - step of 175 mA , */\
+ { 0x7a0, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x7b0, "DCSR"}, /* Soft RampUp/Down mode for DCDC controller , */\
+ { 0x7c0, "DCPAVG"}, /* ctrl_peak2avg for analog part of DCDC , */\
+ { 0x800, "TROS"}, /* Select external temperature also the ext_temp will be put on the temp read out , */\
+ { 0x818, "EXTTS"}, /* external temperature setting to be given by host , */\
+ { 0x900, "PWDN"}, /* Device Mode , */\
+ { 0x910, "I2CR"}, /* I2C Reset , */\
+ { 0x920, "CFE"}, /* Enable CoolFlux , */\
+ { 0x930, "AMPE"}, /* Enable Amplifier , */\
+ { 0x940, "DCA"}, /* EnableBoost , */\
+ { 0x950, "SBSL"}, /* Coolflux configured , */\
+ { 0x960, "AMPC"}, /* Selection on how Amplifier is enabled , */\
+ { 0x970, "DCDIS"}, /* DCDC not connected , */\
+ { 0x980, "PSDR"}, /* IDDQ test amplifier , */\
+ { 0x991, "DCCV"}, /* Coil Value , */\
+ { 0x9b0, "CCFD"}, /* Selection CoolFlux Clock , */\
+ { 0x9c1, "INTPAD"}, /* INT pad configuration control , */\
+ { 0x9e0, "IPLL"}, /* PLL input reference clock selection , */\
+ { 0xb07, "MTPK"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0xc25, "CVFDLY"}, /* Fractional delay adjustment between current and voltage sense, */\
+ { 0x1011, "TDMPRF"}, /* TDM_usecase , */\
+ { 0x1030, "TDMEN"}, /* TDM interface control , */\
+ { 0x1040, "TDMCKINV"}, /* TDM clock inversion , */\
+ { 0x1053, "TDMFSLN"}, /* TDM FS length , */\
+ { 0x1090, "TDMFSPOL"}, /* TDM FS polarity , */\
+ { 0x10a4, "TDMSAMSZ"}, /* TDM Sample Size for all tdm sinks/sources , */\
+ { 0x1103, "TDMSLOTS"}, /* Number of slots , */\
+ { 0x1144, "TDMSLLN"}, /* Slot length , */\
+ { 0x1194, "TDMBRMG"}, /* Bits remaining , */\
+ { 0x11e0, "TDMDDEL"}, /* Data delay , */\
+ { 0x11f0, "TDMDADJ"}, /* Data adjustment , */\
+ { 0x1201, "TDMTXFRM"}, /* TXDATA format , */\
+ { 0x1221, "TDMUUS0"}, /* TXDATA format unused slot sd0 , */\
+ { 0x1241, "TDMUUS1"}, /* TXDATA format unused slot sd1 , */\
+ { 0x1270, "TDMSI0EN"}, /* TDM sink0 enable , */\
+ { 0x1280, "TDMSI1EN"}, /* TDM sink1 enable , */\
+ { 0x1290, "TDMSI2EN"}, /* TDM sink2 enable , */\
+ { 0x12a0, "TDMSO0EN"}, /* TDM source0 enable , */\
+ { 0x12b0, "TDMSO1EN"}, /* TDM source1 enable , */\
+ { 0x12c0, "TDMSO2EN"}, /* TDM source2 enable , */\
+ { 0x12d0, "TDMSI0IO"}, /* tdm_sink0_io , */\
+ { 0x12e0, "TDMSI1IO"}, /* tdm_sink1_io , */\
+ { 0x12f0, "TDMSI2IO"}, /* tdm_sink2_io , */\
+ { 0x1300, "TDMSO0IO"}, /* tdm_source0_io , */\
+ { 0x1310, "TDMSO1IO"}, /* tdm_source1_io , */\
+ { 0x1320, "TDMSO2IO"}, /* tdm_source2_io , */\
+ { 0x1333, "TDMSI0SL"}, /* sink0_slot [GAIN IN] , */\
+ { 0x1373, "TDMSI1SL"}, /* sink1_slot [CH1 IN] , */\
+ { 0x13b3, "TDMSI2SL"}, /* sink2_slot [CH2 IN] , */\
+ { 0x1403, "TDMSO0SL"}, /* source0_slot [GAIN OUT] , */\
+ { 0x1443, "TDMSO1SL"}, /* source1_slot [Voltage Sense] , */\
+ { 0x1483, "TDMSO2SL"}, /* source2_slot [Current Sense] , */\
+ { 0x14c3, "NBCK"}, /* NBCK , */\
+ { 0x2000, "INTOVDDS"}, /* flag_por_int_out , */\
+ { 0x2010, "INTOPLLS"}, /* flag_pll_lock_int_out , */\
+ { 0x2020, "INTOOTDS"}, /* flag_otpok_int_out , */\
+ { 0x2030, "INTOOVDS"}, /* flag_ovpok_int_out , */\
+ { 0x2040, "INTOUVDS"}, /* flag_uvpok_int_out , */\
+ { 0x2050, "INTOOCDS"}, /* flag_ocp_alarm_int_out , */\
+ { 0x2060, "INTOCLKS"}, /* flag_clocks_stable_int_out , */\
+ { 0x2070, "INTOCLIPS"}, /* flag_clip_int_out , */\
+ { 0x2080, "INTOMTPB"}, /* mtp_busy_int_out , */\
+ { 0x2090, "INTONOCLK"}, /* flag_lost_clk_int_out , */\
+ { 0x20a0, "INTOSPKS"}, /* flag_cf_speakererror_int_out , */\
+ { 0x20b0, "INTOACS"}, /* flag_cold_started_int_out , */\
+ { 0x20c0, "INTOSWS"}, /* flag_engage_int_out , */\
+ { 0x20d0, "INTOWDS"}, /* flag_watchdog_reset_int_out , */\
+ { 0x20e0, "INTOAMPS"}, /* flag_enbl_amp_int_out , */\
+ { 0x20f0, "INTOAREFS"}, /* flag_enbl_ref_int_out , */\
+ { 0x2201, "INTOACK"}, /* Interrupt status register output - Corresponding flag, */\
+ { 0x2300, "INTIVDDS"}, /* flag_por_int_in , */\
+ { 0x2310, "INTIPLLS"}, /* flag_pll_lock_int_in , */\
+ { 0x2320, "INTIOTDS"}, /* flag_otpok_int_in , */\
+ { 0x2330, "INTIOVDS"}, /* flag_ovpok_int_in , */\
+ { 0x2340, "INTIUVDS"}, /* flag_uvpok_int_in , */\
+ { 0x2350, "INTIOCDS"}, /* flag_ocp_alarm_int_in , */\
+ { 0x2360, "INTICLKS"}, /* flag_clocks_stable_int_in , */\
+ { 0x2370, "INTICLIPS"}, /* flag_clip_int_in , */\
+ { 0x2380, "INTIMTPB"}, /* mtp_busy_int_in , */\
+ { 0x2390, "INTINOCLK"}, /* flag_lost_clk_int_in , */\
+ { 0x23a0, "INTISPKS"}, /* flag_cf_speakererror_int_in , */\
+ { 0x23b0, "INTIACS"}, /* flag_cold_started_int_in , */\
+ { 0x23c0, "INTISWS"}, /* flag_engage_int_in , */\
+ { 0x23d0, "INTIWDS"}, /* flag_watchdog_reset_int_in , */\
+ { 0x23e0, "INTIAMPS"}, /* flag_enbl_amp_int_in , */\
+ { 0x23f0, "INTIAREFS"}, /* flag_enbl_ref_int_in , */\
+ { 0x2501, "INTIACK"}, /* Interrupt register input , */\
+ { 0x2600, "INTENVDDS"}, /* flag_por_int_enable , */\
+ { 0x2610, "INTENPLLS"}, /* flag_pll_lock_int_enable , */\
+ { 0x2620, "INTENOTDS"}, /* flag_otpok_int_enable , */\
+ { 0x2630, "INTENOVDS"}, /* flag_ovpok_int_enable , */\
+ { 0x2640, "INTENUVDS"}, /* flag_uvpok_int_enable , */\
+ { 0x2650, "INTENOCDS"}, /* flag_ocp_alarm_int_enable , */\
+ { 0x2660, "INTENCLKS"}, /* flag_clocks_stable_int_enable , */\
+ { 0x2670, "INTENCLIPS"}, /* flag_clip_int_enable , */\
+ { 0x2680, "INTENMTPB"}, /* mtp_busy_int_enable , */\
+ { 0x2690, "INTENNOCLK"}, /* flag_lost_clk_int_enable , */\
+ { 0x26a0, "INTENSPKS"}, /* flag_cf_speakererror_int_enable , */\
+ { 0x26b0, "INTENACS"}, /* flag_cold_started_int_enable , */\
+ { 0x26c0, "INTENSWS"}, /* flag_engage_int_enable , */\
+ { 0x26d0, "INTENWDS"}, /* flag_watchdog_reset_int_enable , */\
+ { 0x26e0, "INTENAMPS"}, /* flag_enbl_amp_int_enable , */\
+ { 0x26f0, "INTENAREFS"}, /* flag_enbl_ref_int_enable , */\
+ { 0x2801, "INTENACK"}, /* Interrupt enable register , */\
+ { 0x2900, "INTPOLVDDS"}, /* flag_por_int_pol , */\
+ { 0x2910, "INTPOLPLLS"}, /* flag_pll_lock_int_pol , */\
+ { 0x2920, "INTPOLOTDS"}, /* flag_otpok_int_pol , */\
+ { 0x2930, "INTPOLOVDS"}, /* flag_ovpok_int_pol , */\
+ { 0x2940, "INTPOLUVDS"}, /* flag_uvpok_int_pol , */\
+ { 0x2950, "INTPOLOCDS"}, /* flag_ocp_alarm_int_pol , */\
+ { 0x2960, "INTPOLCLKS"}, /* flag_clocks_stable_int_pol , */\
+ { 0x2970, "INTPOLCLIPS"}, /* flag_clip_int_pol , */\
+ { 0x2980, "INTPOLMTPB"}, /* mtp_busy_int_pol , */\
+ { 0x2990, "INTPOLNOCLK"}, /* flag_lost_clk_int_pol , */\
+ { 0x29a0, "INTPOLSPKS"}, /* flag_cf_speakererror_int_pol , */\
+ { 0x29b0, "INTPOLACS"}, /* flag_cold_started_int_pol , */\
+ { 0x29c0, "INTPOLSWS"}, /* flag_engage_int_pol , */\
+ { 0x29d0, "INTPOLWDS"}, /* flag_watchdog_reset_int_pol , */\
+ { 0x29e0, "INTPOLAMPS"}, /* flag_enbl_amp_int_pol , */\
+ { 0x29f0, "INTPOLAREFS"}, /* flag_enbl_ref_int_pol , */\
+ { 0x2b01, "INTPOLACK"}, /* Interrupt status flags polarity register , */\
+ { 0x4900, "CLIP"}, /* Bypass clip control , */\
+ { 0x62b0, "CIMTP"}, /* start copying all the data from i2cregs_mtp to mtp [Key 2 protected], */\
+ { 0x7000, "RST"}, /* Reset CoolFlux DSP , */\
+ { 0x7011, "DMEM"}, /* Target memory for access , */\
+ { 0x7030, "AIF"}, /* Autoincrement-flag for memory-address , */\
+ { 0x7040, "CFINT"}, /* Interrupt CoolFlux DSP , */\
+ { 0x7087, "REQ"}, /* request for access (8 channels) , */\
+ { 0x7080, "REQCMD"}, /* Firmware event request rpc command , */\
+ { 0x7090, "REQRST"}, /* Firmware event request reset restart , */\
+ { 0x70a0, "REQMIPS"}, /* Firmware event request short on mips , */\
+ { 0x70b0, "REQMUTED"}, /* Firmware event request mute sequence ready , */\
+ { 0x70c0, "REQVOL"}, /* Firmware event request volume ready , */\
+ { 0x70d0, "REQDMG"}, /* Firmware event request speaker damage detected , */\
+ { 0x70e0, "REQCAL"}, /* Firmware event request calibration completed , */\
+ { 0x70f0, "REQRSV"}, /* Firmware event request reserved , */\
+ { 0x710f, "MADD"}, /* memory-address to be accessed , */\
+ { 0x720f, "MEMA"}, /* activate memory access (24- or 32-bits data is written/read to/from memory, */\
+ { 0x7307, "ERR"}, /* Coolflux error flags , */\
+ { 0x7387, "ACK"}, /* acknowledge of requests (8 channels) , */\
+ { 0x7380, "ACKCMD"}, /* Firmware event acknowledge rpc command , */\
+ { 0x7390, "ACKRST"}, /* Firmware event acknowledge reset restart , */\
+ { 0x73a0, "ACKMIPS"}, /* Firmware event acknowledge short on mips , */\
+ { 0x73b0, "ACKMUTED"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x73c0, "ACKVOL"}, /* Firmware event acknowledge volume ready , */\
+ { 0x73d0, "ACKDMG"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x73e0, "ACKCAL"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x73f0, "ACKRSV"}, /* Firmware event acknowledge reserved , */\
+ { 0x8000, "MTPOTC"}, /* Calibration schedule (key2 protected) , */\
+ { 0x8010, "MTPEX"}, /* (key2 protected) , */\
+ { 0x8045, "SWPROFIL" },\
+ { 0x80a5, "SWVSTEP" },\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA1_BITNAMETABLE static tfaBfName_t Tfa1BitNames[]= {\
+ { 0x0, "flag_por"}, /* Power-on-reset flag , */\
+ { 0x10, "flag_pll_lock"}, /* PLL lock , */\
+ { 0x20, "flag_otpok"}, /* Over Temperature Protection alarm , */\
+ { 0x30, "flag_ovpok"}, /* Over Voltage Protection alarm , */\
+ { 0x40, "flag_uvpok"}, /* Under Voltage Protection alarm , */\
+ { 0x50, "flag_ocp_alarm"}, /* Over Current Protection alarm , */\
+ { 0x60, "flag_clocks_stable"}, /* Clocks stable flag , */\
+ { 0x70, "flag_clip"}, /* Amplifier clipping , */\
+ { 0x80, "mtp_busy"}, /* MTP busy , */\
+ { 0x90, "flag_lost_clk"}, /* Flag lost clock from clock generation unit , */\
+ { 0xa0, "flag_cf_speakererror"}, /* Speaker error flag , */\
+ { 0xb0, "flag_cold_started"}, /* Cold Start flag , */\
+ { 0xc0, "flag_engage"}, /* Flag Engage , */\
+ { 0xd0, "flag_watchdog_reset"}, /* Flag watchdog reset , */\
+ { 0xe0, "flag_enbl_amp"}, /* Amplifier is enabled by manager , */\
+ { 0xf0, "flag_enbl_ref"}, /* References are enabled by manager , */\
+ { 0x109, "bat_adc"}, /* Battery voltage readout; 0 .. 5.5 [V] , */\
+ { 0x208, "temp_adc"}, /* Temperature readout from the temperature sensor , */\
+ { 0x30b, "rev_reg"}, /* Device type number is B97 , */\
+ { 0x420, "ctrl_rcv"}, /* Enable Receiver Mode , */\
+ { 0x431, "chan_sel"}, /* Channel Selection TDM input for Coolflux , */\
+ { 0x450, "input_level"}, /* Input level selection control , */\
+ { 0x461, "vamp_sel"}, /* Input selection for amplifier , */\
+ { 0x4c3, "audio_fs"}, /* Audio sample rate setting , */\
+ { 0x501, "vbat_prot_attacktime"}, /* Protection Attack Time , */\
+ { 0x523, "vbat_prot_thlevel"}, /* ProtectionThreshold , */\
+ { 0x561, "vbat_prot_max_reduct"}, /* Protection Maximum Reduction , */\
+ { 0x582, "vbat_prot_release_t"}, /* Battery Protection Release Time , */\
+ { 0x5b1, "vbat_prot_hysterese"}, /* Battery Protection Hysteresis , */\
+ { 0x5d0, "reset_min_vbat"}, /* reset clipper , */\
+ { 0x5e0, "sel_vbat"}, /* battery voltage for I2C read out only , */\
+ { 0x5f0, "bypass_clipper"}, /* bypass clipper battery protection , */\
+ { 0x600, "dpsa"}, /* Enable dynamic powerstage activation , */\
+ { 0x650, "cf_mute"}, /* Soft mute in CoolFlux , */\
+ { 0x670, "batsense_steepness"}, /* BatSenseSteepness , */\
+ { 0x687, "vol"}, /* volume control (in CoolFlux) , */\
+ { 0x702, "boost_volt"}, /* Boost Voltage , */\
+ { 0x733, "boost_cur"}, /* Max boost coil current - step of 175 mA , */\
+ { 0x7a0, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x7b0, "boost_speed"}, /* Soft RampUp/Down mode for DCDC controller , */\
+ { 0x7c0, "boost_peak2avg"}, /* ctrl_peak2avg for analog part of DCDC , */\
+ { 0x800, "ext_temp_sel"}, /* Select external temperature also the ext_temp will be put on the temp read out , */\
+ { 0x818, "ext_temp"}, /* external temperature setting to be given by host , */\
+ { 0x8b2, "dcdc_synchronisation"}, /* DCDC synchronisation off + 7 positions , */\
+ { 0x900, "powerdown"}, /* Device Mode , */\
+ { 0x910, "reset"}, /* I2C Reset , */\
+ { 0x920, "enbl_coolflux"}, /* Enable CoolFlux , */\
+ { 0x930, "enbl_amplifier"}, /* Enable Amplifier , */\
+ { 0x940, "enbl_boost"}, /* EnableBoost , */\
+ { 0x950, "coolflux_configured"}, /* Coolflux configured , */\
+ { 0x960, "sel_enbl_amplifier"}, /* Selection on how Amplifier is enabled , */\
+ { 0x970, "dcdcoff_mode"}, /* DCDC not connected , */\
+ { 0x980, "iddqtest"}, /* IDDQ test amplifier , */\
+ { 0x991, "coil_value"}, /* Coil Value , */\
+ { 0x9b0, "sel_cf_clock"}, /* Selection CoolFlux Clock , */\
+ { 0x9c1, "int_pad_io"}, /* INT pad configuration control , */\
+ { 0x9e0, "sel_fs_bck"}, /* PLL input reference clock selection , */\
+ { 0x9f0, "sel_scl_cf_clock"}, /* Coolflux sub-system clock , */\
+ { 0xb07, "mtpkey2"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0xc00, "enbl_volt_sense"}, /* Voltage sense enabling control bit , */\
+ { 0xc10, "vsense_pwm_sel"}, /* Voltage sense PWM source selection control , */\
+ { 0xc25, "vi_frac_delay"}, /* Fractional delay adjustment between current and voltage sense, */\
+ { 0xc80, "sel_voltsense_out"}, /* TDM output data selection control , */\
+ { 0xc90, "vsense_bypass_avg"}, /* Voltage Sense Average Block Bypass , */\
+ { 0xd05, "cf_frac_delay"}, /* Fractional delay adjustment between current and voltage sense by firmware, */\
+ { 0xe00, "bypass_dcdc_curr_prot"}, /* Control to switch off dcdc current reduction with bat protection, */\
+ { 0xe80, "disable_clock_sh_prot"}, /* disable clock_sh protection , */\
+ { 0xe96, "reserve_reg_1_15_9"}, /* , */\
+ { 0x1011, "tdm_usecase"}, /* TDM_usecase , */\
+ { 0x1030, "tdm_enable"}, /* TDM interface control , */\
+ { 0x1040, "tdm_clk_inversion"}, /* TDM clock inversion , */\
+ { 0x1053, "tdm_fs_ws_length"}, /* TDM FS length , */\
+ { 0x1090, "tdm_fs_ws_polarity"}, /* TDM FS polarity , */\
+ { 0x10a4, "tdm_sample_size"}, /* TDM Sample Size for all tdm sinks/sources , */\
+ { 0x1103, "tdm_nb_of_slots"}, /* Number of slots , */\
+ { 0x1144, "tdm_slot_length"}, /* Slot length , */\
+ { 0x1194, "tdm_bits_remaining"}, /* Bits remaining , */\
+ { 0x11e0, "tdm_data_delay"}, /* Data delay , */\
+ { 0x11f0, "tdm_data_adjustment"}, /* Data adjustment , */\
+ { 0x1201, "tdm_txdata_format"}, /* TXDATA format , */\
+ { 0x1221, "tdm_txdata_format_unused_slot_sd0"}, /* TXDATA format unused slot sd0 , */\
+ { 0x1241, "tdm_txdata_format_unused_slot_sd1"}, /* TXDATA format unused slot sd1 , */\
+ { 0x1270, "tdm_sink0_enable"}, /* TDM sink0 enable , */\
+ { 0x1280, "tdm_sink1_enable"}, /* TDM sink1 enable , */\
+ { 0x1290, "tdm_sink2_enable"}, /* TDM sink2 enable , */\
+ { 0x12a0, "tdm_source0_enable"}, /* TDM source0 enable , */\
+ { 0x12b0, "tdm_source1_enable"}, /* TDM source1 enable , */\
+ { 0x12c0, "tdm_source2_enable"}, /* TDM source2 enable , */\
+ { 0x12d0, "tdm_sink0_io"}, /* tdm_sink0_io , */\
+ { 0x12e0, "tdm_sink1_io"}, /* tdm_sink1_io , */\
+ { 0x12f0, "tdm_sink2_io"}, /* tdm_sink2_io , */\
+ { 0x1300, "tdm_source0_io"}, /* tdm_source0_io , */\
+ { 0x1310, "tdm_source1_io"}, /* tdm_source1_io , */\
+ { 0x1320, "tdm_source2_io"}, /* tdm_source2_io , */\
+ { 0x1333, "tdm_sink0_slot"}, /* sink0_slot [GAIN IN] , */\
+ { 0x1373, "tdm_sink1_slot"}, /* sink1_slot [CH1 IN] , */\
+ { 0x13b3, "tdm_sink2_slot"}, /* sink2_slot [CH2 IN] , */\
+ { 0x1403, "tdm_source0_slot"}, /* source0_slot [GAIN OUT] , */\
+ { 0x1443, "tdm_source1_slot"}, /* source1_slot [Voltage Sense] , */\
+ { 0x1483, "tdm_source2_slot"}, /* source2_slot [Current Sense] , */\
+ { 0x14c3, "tdm_nbck"}, /* NBCK , */\
+ { 0x1500, "flag_tdm_lut_error"}, /* TDM LUT error flag , */\
+ { 0x1512, "flag_tdm_status"}, /* TDM interface status bits , */\
+ { 0x1540, "flag_tdm_error"}, /* TDM interface error indicator , */\
+ { 0x2000, "flag_por_int_out"}, /* flag_por_int_out , */\
+ { 0x2010, "flag_pll_lock_int_out"}, /* flag_pll_lock_int_out , */\
+ { 0x2020, "flag_otpok_int_out"}, /* flag_otpok_int_out , */\
+ { 0x2030, "flag_ovpok_int_out"}, /* flag_ovpok_int_out , */\
+ { 0x2040, "flag_uvpok_int_out"}, /* flag_uvpok_int_out , */\
+ { 0x2050, "flag_ocp_alarm_int_out"}, /* flag_ocp_alarm_int_out , */\
+ { 0x2060, "flag_clocks_stable_int_out"}, /* flag_clocks_stable_int_out , */\
+ { 0x2070, "flag_clip_int_out"}, /* flag_clip_int_out , */\
+ { 0x2080, "mtp_busy_int_out"}, /* mtp_busy_int_out , */\
+ { 0x2090, "flag_lost_clk_int_out"}, /* flag_lost_clk_int_out , */\
+ { 0x20a0, "flag_cf_speakererror_int_out"}, /* flag_cf_speakererror_int_out , */\
+ { 0x20b0, "flag_cold_started_int_out"}, /* flag_cold_started_int_out , */\
+ { 0x20c0, "flag_engage_int_out"}, /* flag_engage_int_out , */\
+ { 0x20d0, "flag_watchdog_reset_int_out"}, /* flag_watchdog_reset_int_out , */\
+ { 0x20e0, "flag_enbl_amp_int_out"}, /* flag_enbl_amp_int_out , */\
+ { 0x20f0, "flag_enbl_ref_int_out"}, /* flag_enbl_ref_int_out , */\
+ { 0x2100, "flag_voutcomp_int_out"}, /* flag_voutcomp_int_out , */\
+ { 0x2110, "flag_voutcomp93_int_out"}, /* flag_voutcomp93_int_out , */\
+ { 0x2120, "flag_voutcomp86_int_out"}, /* flag_voutcomp86_int_out , */\
+ { 0x2130, "flag_hiz_int_out"}, /* flag_hiz_int_out , */\
+ { 0x2140, "flag_ocpokbst_int_out"}, /* flag_ocpokbst_int_out , */\
+ { 0x2150, "flag_peakcur_int_out"}, /* flag_peakcur_int_out , */\
+ { 0x2160, "flag_ocpokap_int_out"}, /* flag_ocpokap_int_out , */\
+ { 0x2170, "flag_ocpokan_int_out"}, /* flag_ocpokan_int_out , */\
+ { 0x2180, "flag_ocpokbp_int_out"}, /* flag_ocpokbp_int_out , */\
+ { 0x2190, "flag_ocpokbn_int_out"}, /* flag_ocpokbn_int_out , */\
+ { 0x21a0, "flag_adc10_ready_int_out"}, /* flag_adc10_ready_int_out , */\
+ { 0x21b0, "flag_clipa_high_int_out"}, /* flag_clipa_high_int_out , */\
+ { 0x21c0, "flag_clipa_low_int_out"}, /* flag_clipa_low_int_out , */\
+ { 0x21d0, "flag_clipb_high_int_out"}, /* flag_clipb_high_int_out , */\
+ { 0x21e0, "flag_clipb_low_int_out"}, /* flag_clipb_low_int_out , */\
+ { 0x21f0, "flag_tdm_error_int_out"}, /* flag_tdm_error_int_out , */\
+ { 0x2201, "interrupt_out3"}, /* Interrupt status register output - Corresponding flag, */\
+ { 0x2300, "flag_por_int_in"}, /* flag_por_int_in , */\
+ { 0x2310, "flag_pll_lock_int_in"}, /* flag_pll_lock_int_in , */\
+ { 0x2320, "flag_otpok_int_in"}, /* flag_otpok_int_in , */\
+ { 0x2330, "flag_ovpok_int_in"}, /* flag_ovpok_int_in , */\
+ { 0x2340, "flag_uvpok_int_in"}, /* flag_uvpok_int_in , */\
+ { 0x2350, "flag_ocp_alarm_int_in"}, /* flag_ocp_alarm_int_in , */\
+ { 0x2360, "flag_clocks_stable_int_in"}, /* flag_clocks_stable_int_in , */\
+ { 0x2370, "flag_clip_int_in"}, /* flag_clip_int_in , */\
+ { 0x2380, "mtp_busy_int_in"}, /* mtp_busy_int_in , */\
+ { 0x2390, "flag_lost_clk_int_in"}, /* flag_lost_clk_int_in , */\
+ { 0x23a0, "flag_cf_speakererror_int_in"}, /* flag_cf_speakererror_int_in , */\
+ { 0x23b0, "flag_cold_started_int_in"}, /* flag_cold_started_int_in , */\
+ { 0x23c0, "flag_engage_int_in"}, /* flag_engage_int_in , */\
+ { 0x23d0, "flag_watchdog_reset_int_in"}, /* flag_watchdog_reset_int_in , */\
+ { 0x23e0, "flag_enbl_amp_int_in"}, /* flag_enbl_amp_int_in , */\
+ { 0x23f0, "flag_enbl_ref_int_in"}, /* flag_enbl_ref_int_in , */\
+ { 0x2400, "flag_voutcomp_int_in"}, /* flag_voutcomp_int_in , */\
+ { 0x2410, "flag_voutcomp93_int_in"}, /* flag_voutcomp93_int_in , */\
+ { 0x2420, "flag_voutcomp86_int_in"}, /* flag_voutcomp86_int_in , */\
+ { 0x2430, "flag_hiz_int_in"}, /* flag_hiz_int_in , */\
+ { 0x2440, "flag_ocpokbst_int_in"}, /* flag_ocpokbst_int_in , */\
+ { 0x2450, "flag_peakcur_int_in"}, /* flag_peakcur_int_in , */\
+ { 0x2460, "flag_ocpokap_int_in"}, /* flag_ocpokap_int_in , */\
+ { 0x2470, "flag_ocpokan_int_in"}, /* flag_ocpokan_int_in , */\
+ { 0x2480, "flag_ocpokbp_int_in"}, /* flag_ocpokbp_int_in , */\
+ { 0x2490, "flag_ocpokbn_int_in"}, /* flag_ocpokbn_int_in , */\
+ { 0x24a0, "flag_adc10_ready_int_in"}, /* flag_adc10_ready_int_in , */\
+ { 0x24b0, "flag_clipa_high_int_in"}, /* flag_clipa_high_int_in , */\
+ { 0x24c0, "flag_clipa_low_int_in"}, /* flag_clipa_low_int_in , */\
+ { 0x24d0, "flag_clipb_high_int_in"}, /* flag_clipb_high_int_in , */\
+ { 0x24e0, "flag_clipb_low_int_in"}, /* flag_clipb_low_int_in , */\
+ { 0x24f0, "flag_tdm_error_int_in"}, /* flag_tdm_error_int_in , */\
+ { 0x2501, "interrupt_in3"}, /* Interrupt register input , */\
+ { 0x2600, "flag_por_int_enable"}, /* flag_por_int_enable , */\
+ { 0x2610, "flag_pll_lock_int_enable"}, /* flag_pll_lock_int_enable , */\
+ { 0x2620, "flag_otpok_int_enable"}, /* flag_otpok_int_enable , */\
+ { 0x2630, "flag_ovpok_int_enable"}, /* flag_ovpok_int_enable , */\
+ { 0x2640, "flag_uvpok_int_enable"}, /* flag_uvpok_int_enable , */\
+ { 0x2650, "flag_ocp_alarm_int_enable"}, /* flag_ocp_alarm_int_enable , */\
+ { 0x2660, "flag_clocks_stable_int_enable"}, /* flag_clocks_stable_int_enable , */\
+ { 0x2670, "flag_clip_int_enable"}, /* flag_clip_int_enable , */\
+ { 0x2680, "mtp_busy_int_enable"}, /* mtp_busy_int_enable , */\
+ { 0x2690, "flag_lost_clk_int_enable"}, /* flag_lost_clk_int_enable , */\
+ { 0x26a0, "flag_cf_speakererror_int_enable"}, /* flag_cf_speakererror_int_enable , */\
+ { 0x26b0, "flag_cold_started_int_enable"}, /* flag_cold_started_int_enable , */\
+ { 0x26c0, "flag_engage_int_enable"}, /* flag_engage_int_enable , */\
+ { 0x26d0, "flag_watchdog_reset_int_enable"}, /* flag_watchdog_reset_int_enable , */\
+ { 0x26e0, "flag_enbl_amp_int_enable"}, /* flag_enbl_amp_int_enable , */\
+ { 0x26f0, "flag_enbl_ref_int_enable"}, /* flag_enbl_ref_int_enable , */\
+ { 0x2700, "flag_voutcomp_int_enable"}, /* flag_voutcomp_int_enable , */\
+ { 0x2710, "flag_voutcomp93_int_enable"}, /* flag_voutcomp93_int_enable , */\
+ { 0x2720, "flag_voutcomp86_int_enable"}, /* flag_voutcomp86_int_enable , */\
+ { 0x2730, "flag_hiz_int_enable"}, /* flag_hiz_int_enable , */\
+ { 0x2740, "flag_ocpokbst_int_enable"}, /* flag_ocpokbst_int_enable , */\
+ { 0x2750, "flag_peakcur_int_enable"}, /* flag_peakcur_int_enable , */\
+ { 0x2760, "flag_ocpokap_int_enable"}, /* flag_ocpokap_int_enable , */\
+ { 0x2770, "flag_ocpokan_int_enable"}, /* flag_ocpokan_int_enable , */\
+ { 0x2780, "flag_ocpokbp_int_enable"}, /* flag_ocpokbp_int_enable , */\
+ { 0x2790, "flag_ocpokbn_int_enable"}, /* flag_ocpokbn_int_enable , */\
+ { 0x27a0, "flag_adc10_ready_int_enable"}, /* flag_adc10_ready_int_enable , */\
+ { 0x27b0, "flag_clipa_high_int_enable"}, /* flag_clipa_high_int_enable , */\
+ { 0x27c0, "flag_clipa_low_int_enable"}, /* flag_clipa_low_int_enable , */\
+ { 0x27d0, "flag_clipb_high_int_enable"}, /* flag_clipb_high_int_enable , */\
+ { 0x27e0, "flag_clipb_low_int_enable"}, /* flag_clipb_low_int_enable , */\
+ { 0x27f0, "flag_tdm_error_int_enable"}, /* flag_tdm_error_int_enable , */\
+ { 0x2801, "interrupt_enable3"}, /* Interrupt enable register , */\
+ { 0x2900, "flag_por_int_pol"}, /* flag_por_int_pol , */\
+ { 0x2910, "flag_pll_lock_int_pol"}, /* flag_pll_lock_int_pol , */\
+ { 0x2920, "flag_otpok_int_pol"}, /* flag_otpok_int_pol , */\
+ { 0x2930, "flag_ovpok_int_pol"}, /* flag_ovpok_int_pol , */\
+ { 0x2940, "flag_uvpok_int_pol"}, /* flag_uvpok_int_pol , */\
+ { 0x2950, "flag_ocp_alarm_int_pol"}, /* flag_ocp_alarm_int_pol , */\
+ { 0x2960, "flag_clocks_stable_int_pol"}, /* flag_clocks_stable_int_pol , */\
+ { 0x2970, "flag_clip_int_pol"}, /* flag_clip_int_pol , */\
+ { 0x2980, "mtp_busy_int_pol"}, /* mtp_busy_int_pol , */\
+ { 0x2990, "flag_lost_clk_int_pol"}, /* flag_lost_clk_int_pol , */\
+ { 0x29a0, "flag_cf_speakererror_int_pol"}, /* flag_cf_speakererror_int_pol , */\
+ { 0x29b0, "flag_cold_started_int_pol"}, /* flag_cold_started_int_pol , */\
+ { 0x29c0, "flag_engage_int_pol"}, /* flag_engage_int_pol , */\
+ { 0x29d0, "flag_watchdog_reset_int_pol"}, /* flag_watchdog_reset_int_pol , */\
+ { 0x29e0, "flag_enbl_amp_int_pol"}, /* flag_enbl_amp_int_pol , */\
+ { 0x29f0, "flag_enbl_ref_int_pol"}, /* flag_enbl_ref_int_pol , */\
+ { 0x2a00, "flag_voutcomp_int_pol"}, /* flag_voutcomp_int_pol , */\
+ { 0x2a10, "flag_voutcomp93_int_pol"}, /* flag_voutcomp93_int_pol , */\
+ { 0x2a20, "flag_voutcomp86_int_pol"}, /* flag_voutcomp86_int_pol , */\
+ { 0x2a30, "flag_hiz_int_pol"}, /* flag_hiz_int_pol , */\
+ { 0x2a40, "flag_ocpokbst_int_pol"}, /* flag_ocpokbst_int_pol , */\
+ { 0x2a50, "flag_peakcur_int_pol"}, /* flag_peakcur_int_pol , */\
+ { 0x2a60, "flag_ocpokap_int_pol"}, /* flag_ocpokap_int_pol , */\
+ { 0x2a70, "flag_ocpokan_int_pol"}, /* flag_ocpokan_int_pol , */\
+ { 0x2a80, "flag_ocpokbp_int_pol"}, /* flag_ocpokbp_int_pol , */\
+ { 0x2a90, "flag_ocpokbn_int_pol"}, /* flag_ocpokbn_int_pol , */\
+ { 0x2aa0, "flag_adc10_ready_int_pol"}, /* flag_adc10_ready_int_pol , */\
+ { 0x2ab0, "flag_clipa_high_int_pol"}, /* flag_clipa_high_int_pol , */\
+ { 0x2ac0, "flag_clipa_low_int_pol"}, /* flag_clipa_low_int_pol , */\
+ { 0x2ad0, "flag_clipb_high_int_pol"}, /* flag_clipb_high_int_pol , */\
+ { 0x2ae0, "flag_clipb_low_int_pol"}, /* flag_clipb_low_int_pol , */\
+ { 0x2af0, "flag_tdm_error_int_pol"}, /* flag_tdm_error_int_pol , */\
+ { 0x2b01, "status_polarity3"}, /* Interrupt status flags polarity register , */\
+ { 0x3000, "flag_voutcomp"}, /* flag_voutcomp, indication Vset is larger than Vbat, */\
+ { 0x3010, "flag_voutcomp93"}, /* flag_voutcomp93, indication Vset is larger than 1.07* Vbat, */\
+ { 0x3020, "flag_voutcomp86"}, /* flag_voutcomp86, indication Vset is larger than 1.14* Vbat, */\
+ { 0x3030, "flag_hiz"}, /* flag_hiz, indication Vbst is larger than Vbat , */\
+ { 0x3040, "flag_ocpokbst"}, /* flag_ocpokbst, indication no over current in boost converter pmos switch, */\
+ { 0x3050, "flag_peakcur"}, /* flag_peakcur, indication current is max in dcdc converter, */\
+ { 0x3060, "flag_ocpokap"}, /* flag_ocpokap, indication no over current in amplifier "a" pmos output stage, */\
+ { 0x3070, "flag_ocpokan"}, /* flag_ocpokan, indication no over current in amplifier "a" nmos output stage, */\
+ { 0x3080, "flag_ocpokbp"}, /* flag_ocpokbp, indication no over current in amplifier "b" pmos output stage, */\
+ { 0x3090, "flag_ocpokbn"}, /* flag_ocpokbn, indication no over current in amplifier"b" nmos output stage, */\
+ { 0x30a0, "flag_adc10_ready"}, /* flag_adc10_ready, indication adc10 is ready , */\
+ { 0x30b0, "flag_clipa_high"}, /* flag_clipa_high, indication pmos amplifier "a" is clipping, */\
+ { 0x30c0, "flag_clipa_low"}, /* flag_clipa_low, indication nmos amplifier "a" is clipping, */\
+ { 0x30d0, "flag_clipb_high"}, /* flag_clipb_high, indication pmos amplifier "b" is clipping, */\
+ { 0x30e0, "flag_clipb_low"}, /* flag_clipb_low, indication nmos amplifier "b" is clipping, */\
+ { 0x310f, "mtp_man_data_out"}, /* single word read from MTP (manual copy) , */\
+ { 0x3200, "key01_locked"}, /* key01_locked, indication key 1 is locked , */\
+ { 0x3210, "key02_locked"}, /* key02_locked, indication key 2 is locked , */\
+ { 0x3225, "mtp_ecc_tcout"}, /* mtp_ecc_tcout , */\
+ { 0x3280, "mtpctrl_valid_test_rd"}, /* mtp test readout for read , */\
+ { 0x3290, "mtpctrl_valid_test_wr"}, /* mtp test readout for write , */\
+ { 0x32a0, "flag_in_alarm_state"}, /* Alarm state , */\
+ { 0x32b0, "mtp_ecc_err2"}, /* two or more bit errors detected in MTP, can not reconstruct value, */\
+ { 0x32c0, "mtp_ecc_err1"}, /* one bit error detected in MTP, reconstructed value, */\
+ { 0x32d0, "mtp_mtp_hvf"}, /* high voltage ready flag for MTP , */\
+ { 0x32f0, "mtp_zero_check_fail"}, /* zero check failed (tbd) for MTP , */\
+ { 0x3309, "data_adc10_tempbat"}, /* data_adc10_tempbat[9;0], adc 10 data output for testing, */\
+ { 0x400f, "hid_code"}, /* 5A6Bh, 23147d to access registers (Default for engineering), */\
+ { 0x4100, "bypass_hp"}, /* Bypass_High Pass Filter , */\
+ { 0x4110, "hard_mute"}, /* Hard Mute , */\
+ { 0x4120, "soft_mute"}, /* Soft Mute , */\
+ { 0x4134, "pwm_delay"}, /* PWM DelayBits to set the delay , */\
+ { 0x4180, "pwm_shape"}, /* PWM Shape , */\
+ { 0x4190, "pwm_bitlength"}, /* PWM Bitlength in noise shaper , */\
+ { 0x4203, "drive"}, /* Drive bits to select amount of power stage amplifier, */\
+ { 0x4240, "reclock_pwm"}, /* , */\
+ { 0x4250, "reclock_voltsense"}, /* , */\
+ { 0x4281, "dpsalevel"}, /* DPSA Threshold level , */\
+ { 0x42a1, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x42c0, "coincidence"}, /* Prevent simultaneously switching of output stage , */\
+ { 0x42d0, "kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x4306, "drivebst"}, /* Drive bits to select the powertransistor sections boost converter, */\
+ { 0x43a0, "ocptestbst"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0);For new ocp (ctrl_reversebst is 1);, */\
+ { 0x43d0, "test_abistfft_enbl"}, /* FFT coolflux , */\
+ { 0x43f0, "test_bcontrol"}, /* test _bcontrol , */\
+ { 0x4400, "reversebst"}, /* OverCurrent Protection selection of power stage boost converter, */\
+ { 0x4410, "sensetest"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0x4420, "enbl_engagebst"}, /* Enable power stage dcdc controller , */\
+ { 0x4470, "enbl_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x4480, "enbl_voutcomp"}, /* Enable vout comparators , */\
+ { 0x4490, "enbl_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x44a0, "enbl_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x44b0, "enbl_hizcom"}, /* Enable hiz comparator , */\
+ { 0x44c0, "enbl_peakcur"}, /* Enable peak current , */\
+ { 0x44d0, "bypass_ovpglitch"}, /* Bypass OVP Glitch Filter , */\
+ { 0x44e0, "enbl_windac"}, /* Enable window dac , */\
+ { 0x44f0, "enbl_powerbst"}, /* Enable line of the powerstage , */\
+ { 0x4507, "ocp_thr"}, /* ocp_thr threshold level for OCP , */\
+ { 0x4580, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0x4590, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0x45a0, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0x45b0, "bypass_otp"}, /* Bypass OTP , */\
+ { 0x45c0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0x45d0, "bypass_ocpcounter"}, /* BypassOCPCounter , */\
+ { 0x45e0, "bypass_lost_clk"}, /* Bypasslost_clk detector , */\
+ { 0x45f0, "vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0x4600, "bypass_gc"}, /* bypass_gc, bypasses the CS gain correction , */\
+ { 0x4610, "cs_gain_control"}, /* gain control by means of MTP or i2c; 0 is MTP , */\
+ { 0x4627, "cs_gain"}, /* + / - 128 steps in steps of 1/4 percent 2's compliment, */\
+ { 0x46a0, "bypass_lp"}, /* bypass Low-Pass filter in temperature sensor , */\
+ { 0x46b0, "bypass_pwmcounter"}, /* bypass_pwmcounter , */\
+ { 0x46c0, "cs_negfixed"}, /* does not switch to neg , */\
+ { 0x46d2, "cs_neghyst"}, /* switches to neg depending on level , */\
+ { 0x4700, "switch_fb"}, /* switch_fb , */\
+ { 0x4713, "se_hyst"}, /* se_hyst , */\
+ { 0x4754, "se_level"}, /* se_level , */\
+ { 0x47a5, "ktemp"}, /* temperature compensation trimming , */\
+ { 0x4800, "cs_negin"}, /* negin , */\
+ { 0x4810, "cs_sein"}, /* cs_sein , */\
+ { 0x4820, "cs_coincidence"}, /* Coincidence current sense , */\
+ { 0x4830, "iddqtestbst"}, /* for iddq testing in powerstage of boost convertor , */\
+ { 0x4840, "coincidencebst"}, /* Switch protection on to prevent simultaneously switching power stages bst and amp, */\
+ { 0x4876, "delay_se_neg"}, /* delay of se and neg , */\
+ { 0x48e1, "cs_ttrack"}, /* sample & hold track time , */\
+ { 0x4900, "bypass_clip"}, /* Bypass clip control , */\
+ { 0x4920, "cf_cgate_off"}, /* to disable clock gating in the coolflux , */\
+ { 0x4940, "clipfast"}, /* clock switch for battery protection clipper, it switches back to old frequency, */\
+ { 0x4950, "cs_8ohm"}, /* 8 ohm mode for current sense (gain mode) , */\
+ { 0x4974, "delay_clock_sh"}, /* delay_sh, tunes S7H delay , */\
+ { 0x49c0, "inv_clksh"}, /* Invert the sample/hold clock for current sense ADC, */\
+ { 0x49d0, "inv_neg"}, /* Invert neg signal , */\
+ { 0x49e0, "inv_se"}, /* Invert se signal , */\
+ { 0x49f0, "setse"}, /* switches between Single Ende and differential mode; 1 is single ended, */\
+ { 0x4a12, "adc10_sel"}, /* select the input to convert the 10b ADC , */\
+ { 0x4a60, "adc10_reset"}, /* Global asynchronous reset (active HIGH) 10 bit ADC, */\
+ { 0x4a81, "adc10_test"}, /* Test mode selection signal 10 bit ADC , */\
+ { 0x4aa0, "bypass_lp_vbat"}, /* lp filter in batt sensor , */\
+ { 0x4ae0, "dc_offset"}, /* switch offset control on/off, is decimator offset control, */\
+ { 0x4af0, "tsense_hibias"}, /* bit to set the biasing in temp sensor to high , */\
+ { 0x4b00, "adc13_iset"}, /* Micadc Setting of current consumption. Debug use only, */\
+ { 0x4b14, "adc13_gain"}, /* Micadc gain setting (2-compl) , */\
+ { 0x4b61, "adc13_slowdel"}, /* Micadc Delay setting for internal clock. Debug use only, */\
+ { 0x4b83, "adc13_offset"}, /* Micadc ADC offset setting , */\
+ { 0x4bc0, "adc13_bsoinv"}, /* Micadc bit stream output invert mode for test , */\
+ { 0x4bd0, "adc13_resonator_enable"}, /* Micadc Give extra SNR with less stability. Debug use only, */\
+ { 0x4be0, "testmicadc"}, /* Mux at input of MICADC for test purpose , */\
+ { 0x4c0f, "abist_offset"}, /* offset control for ABIST testing , */\
+ { 0x4d05, "windac"}, /* for testing direct control windac , */\
+ { 0x4dc3, "pwm_dcc_cnt"}, /* control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0x4e04, "slopecur"}, /* for testing direct control slopecur , */\
+ { 0x4e50, "ctrl_dem"}, /* dyn element matching control, rest of codes are optional, */\
+ { 0x4ed0, "enbl_pwm_dcc"}, /* to enable direct control of pwm duty cycle , */\
+ { 0x5007, "gain"}, /* Gain setting of the gain multiplier , */\
+ { 0x5081, "sourceb"}, /* Set OUTB to , */\
+ { 0x50a1, "sourcea"}, /* Set OUTA to , */\
+ { 0x50c1, "sourcebst"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0x50e0, "tdm_enable_loopback"}, /* TDM loopback test , */\
+ { 0x5104, "pulselengthbst"}, /* pulse length setting test input for boost converter, */\
+ { 0x5150, "bypasslatchbst"}, /* bypass_latch in boost converter , */\
+ { 0x5160, "invertbst"}, /* invert pwmbst test signal , */\
+ { 0x5174, "pulselength"}, /* pulse length setting test input for amplifier , */\
+ { 0x51c0, "bypasslatch"}, /* bypass_latch in PWM source selection module , */\
+ { 0x51d0, "invertb"}, /* invert pwmb test signal , */\
+ { 0x51e0, "inverta"}, /* invert pwma test signal , */\
+ { 0x51f0, "bypass_ctrlloop"}, /* bypass_ctrlloop bypasses the control loop of the amplifier, */\
+ { 0x5210, "test_rdsona"}, /* tbd for rdson testing , */\
+ { 0x5220, "test_rdsonb"}, /* tbd for rdson testing , */\
+ { 0x5230, "test_rdsonbst"}, /* tbd for rdson testing , */\
+ { 0x5240, "test_cvia"}, /* tbd for rdson testing , */\
+ { 0x5250, "test_cvib"}, /* tbd for rdson testing , */\
+ { 0x5260, "test_cvibst"}, /* tbd for rdson testing , */\
+ { 0x5306, "digimuxa_sel"}, /* DigimuxA input selection control (see Digimux list for details), */\
+ { 0x5376, "digimuxb_sel"}, /* DigimuxB input selection control (see Digimux list for details), */\
+ { 0x5400, "hs_mode"}, /* hs_mode, high speed mode I2C bus , */\
+ { 0x5412, "test_parametric_io"}, /* test_parametric_io for testing pads , */\
+ { 0x5440, "enbl_ringo"}, /* enbl_ringo, for test purpose to check with ringo , */\
+ { 0x5456, "digimuxc_sel"}, /* DigimuxC input selection control (see Digimux list for details), */\
+ { 0x54c0, "dio_ehs"}, /* Slew control for DIO in output mode , */\
+ { 0x54d0, "gainio_ehs"}, /* Slew control for GAINIO in output mode , */\
+ { 0x550d, "enbl_amp"}, /* enbl_amp for testing to enable all analoge blocks in amplifier, */\
+ { 0x5600, "use_direct_ctrls"}, /* use_direct_ctrls, to overrule several functions direct for testing, */\
+ { 0x5610, "rst_datapath"}, /* rst_datapath, datapath reset , */\
+ { 0x5620, "rst_cgu"}, /* rst_cgu, cgu reset , */\
+ { 0x5637, "enbl_ref"}, /* for testing to enable all analoge blocks in references, */\
+ { 0x56b0, "enbl_engage"}, /* Enable output stage amplifier , */\
+ { 0x56c0, "use_direct_clk_ctrl"}, /* use_direct_clk_ctrl, to overrule several functions direct for testing, */\
+ { 0x56d0, "use_direct_pll_ctrl"}, /* use_direct_pll_ctrl, to overrule several functions direct for testing, */\
+ { 0x56e0, "use_direct_ctrls_2"}, /* use_direct_sourseamp_ctrls, to overrule several functions direct for testing, */\
+ { 0x5707, "anamux"}, /* Anamux control , */\
+ { 0x57c0, "ocptest"}, /* ctrl_ocptest, deactivates the over current protection in the power stages of the amplifier. The ocp flag signals stay active., */\
+ { 0x57e0, "otptest"}, /* otptest, test mode otp amplifier , */\
+ { 0x57f0, "reverse"}, /* 1: Normal mode, slope is controlled , */\
+ { 0x5813, "pll_selr"}, /* pll_selr , */\
+ { 0x5854, "pll_selp"}, /* pll_selp , */\
+ { 0x58a5, "pll_seli"}, /* pll_seli , */\
+ { 0x5950, "pll_mdec_msb"}, /* most significant bits of pll_mdec[16] , */\
+ { 0x5960, "pll_ndec_msb"}, /* most significant bits of pll_ndec[9] , */\
+ { 0x5970, "pll_frm"}, /* pll_frm , */\
+ { 0x5980, "pll_directi"}, /* pll_directi , */\
+ { 0x5990, "pll_directo"}, /* pll_directo , */\
+ { 0x59a0, "enbl_pll"}, /* enbl_pll , */\
+ { 0x59f0, "pll_bypass"}, /* pll_bypass , */\
+ { 0x5a0f, "tsig_freq"}, /* tsig_freq, internal sinus test generator, frequency control, */\
+ { 0x5b02, "tsig_freq_msb"}, /* select internal sinus test generator, frequency control msb bits, */\
+ { 0x5b30, "inject_tsig"}, /* inject_tsig, control bit to switch to internal sinus test generator, */\
+ { 0x5b44, "adc10_prog_sample"}, /* control ADC10 , */\
+ { 0x5c0f, "pll_mdec"}, /* bits 15..0 of pll_mdec[16;0] , */\
+ { 0x5d06, "pll_pdec"}, /* pll_pdec , */\
+ { 0x5d78, "pll_ndec"}, /* bits 8..0 of pll_ndec[9;0] , */\
+ { 0x6007, "mtpkey1"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0x6185, "mtp_ecc_tcin"}, /* Mtp_ecc_tcin , */\
+ { 0x6203, "mtp_man_address_in"}, /* address from I2C regs for writing one word single mtp, */\
+ { 0x6260, "mtp_ecc_eeb"}, /* enable code bit generation (active low!) , */\
+ { 0x6270, "mtp_ecc_ecb"}, /* enable correction signal (active low!) , */\
+ { 0x6280, "man_copy_mtp_to_iic"}, /* start copying single word from mtp to i2cregs_mtp , */\
+ { 0x6290, "man_copy_iic_to_mtp"}, /* start copying single word from i2cregs_mtp to mtp [Key 1 protected], */\
+ { 0x62a0, "auto_copy_mtp_to_iic"}, /* start copying all the data from mtp to i2cregs_mtp, */\
+ { 0x62b0, "auto_copy_iic_to_mtp"}, /* start copying all the data from i2cregs_mtp to mtp [Key 2 protected], */\
+ { 0x62d2, "mtp_speed_mode"}, /* Speed mode , */\
+ { 0x6340, "mtp_direct_enable"}, /* mtp_direct_enable (key1 protected) , */\
+ { 0x6350, "mtp_direct_wr"}, /* mtp_direct_wr (key1 protected) , */\
+ { 0x6360, "mtp_direct_rd"}, /* mtp_direct_rd (key1 protected) , */\
+ { 0x6370, "mtp_direct_rst"}, /* mtp_direct_rst (key1 protected) , */\
+ { 0x6380, "mtp_direct_ers"}, /* mtp_direct_ers (key1 protected) , */\
+ { 0x6390, "mtp_direct_prg"}, /* mtp_direct_prg (key1 protected) , */\
+ { 0x63a0, "mtp_direct_epp"}, /* mtp_direct_epp (key1 protected) , */\
+ { 0x63b4, "mtp_direct_test"}, /* mtp_direct_test (key1 protected) , */\
+ { 0x640f, "mtp_man_data_in"}, /* single word to be written to MTP (manual copy) , */\
+ { 0x7000, "cf_rst_dsp"}, /* Reset CoolFlux DSP , */\
+ { 0x7011, "cf_dmem"}, /* Target memory for access , */\
+ { 0x7030, "cf_aif"}, /* Autoincrement-flag for memory-address , */\
+ { 0x7040, "cf_int"}, /* Interrupt CoolFlux DSP , */\
+ { 0x7087, "cf_req"}, /* request for access (8 channels) , */\
+ { 0x710f, "cf_madd"}, /* memory-address to be accessed , */\
+ { 0x720f, "cf_mema"}, /* activate memory access (24- or 32-bits data is written/read to/from memory, */\
+ { 0x7307, "cf_err"}, /* Coolflux error flags , */\
+ { 0x7387, "cf_ack"}, /* acknowledge of requests (8 channels) , */\
+ { 0x8000, "calibration_onetime"}, /* Calibration schedule (key2 protected) , */\
+ { 0x8010, "calibr_ron_done"}, /* (key2 protected) , */\
+ { 0x8105, "calibr_vout_offset"}, /* calibr_vout_offset (DCDCoffset) 2's compliment (key1 protected), */\
+ { 0x8163, "calibr_delta_gain"}, /* delta gain for vamp (alpha) 2's compliment (key1 protected), */\
+ { 0x81a5, "calibr_offs_amp"}, /* offset for vamp (Ampoffset) 2's compliment (key1 protected), */\
+ { 0x8207, "calibr_gain_cs"}, /* gain current sense (Imeasalpha) 2's compliment (key1 protected), */\
+ { 0x8284, "calibr_temp_offset"}, /* temperature offset 2's compliment (key1 protected), */\
+ { 0x82d2, "calibr_temp_gain"}, /* temperature gain 2's compliment (key1 protected) , */\
+ { 0x830f, "calibr_ron"}, /* Ron resistance of coil (key1 protected) , */\
+ { 0x8505, "type_bits_HW"}, /* Key1_Protected_MTP5 , */\
+ { 0x8601, "type_bits_1_0_SW"}, /* MTP-control SW , */\
+ { 0x8681, "type_bits_8_9_SW"}, /* MTP-control SW , */\
+ { 0x870f, "type_bits2_SW"}, /* MTP-control SW2 , */\
+ { 0x8806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0x8870, "htol_iic_addr_en"}, /* HTOL_I2C_Address_Enable , */\
+ { 0x8881, "ctrl_ovp_response"}, /* OVP response control , */\
+ { 0x88a0, "disable_ovp_alarm_state"}, /* OVP alarm state control , */\
+ { 0x88b0, "enbl_stretch_ovp"}, /* OVP alram strech control , */\
+ { 0x88c0, "cf_debug_mode"}, /* Coolflux debug mode , */\
+ { 0x8a0f, "production_data1"}, /* (key1 protected) , */\
+ { 0x8b0f, "production_data2"}, /* (key1 protected) , */\
+ { 0x8c0f, "production_data3"}, /* (key1 protected) , */\
+ { 0x8d0f, "production_data4"}, /* (key1 protected) , */\
+ { 0x8e0f, "production_data5"}, /* (key1 protected) , */\
+ { 0x8f0f, "production_data6"}, /* (key1 protected) , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+enum tfa1_irq {
+ tfa1_irq_vdds = 0,
+ tfa1_irq_plls = 1,
+ tfa1_irq_ds = 2,
+ tfa1_irq_vds = 3,
+ tfa1_irq_uvds = 4,
+ tfa1_irq_cds = 5,
+ tfa1_irq_clks = 6,
+ tfa1_irq_clips = 7,
+ tfa1_irq_mtpb = 8,
+ tfa1_irq_clk = 9,
+ tfa1_irq_spks = 10,
+ tfa1_irq_acs = 11,
+ tfa1_irq_sws = 12,
+ tfa1_irq_wds = 13,
+ tfa1_irq_amps = 14,
+ tfa1_irq_arefs = 15,
+ tfa1_irq_ack = 32,
+ tfa1_irq_max = 33,
+ tfa1_irq_all = -1 /* all irqs */};
+
+#define TFA1_IRQ_NAMETABLE static tfaIrqName_t Tfa1IrqNames[]= {\
+ { 0, "VDDS"},\
+ { 1, "PLLS"},\
+ { 2, "DS"},\
+ { 3, "VDS"},\
+ { 4, "UVDS"},\
+ { 5, "CDS"},\
+ { 6, "CLKS"},\
+ { 7, "CLIPS"},\
+ { 8, "MTPB"},\
+ { 9, "CLK"},\
+ { 10, "SPKS"},\
+ { 11, "ACS"},\
+ { 12, "SWS"},\
+ { 13, "WDS"},\
+ { 14, "AMPS"},\
+ { 15, "AREFS"},\
+ { 16, "16"},\
+ { 17, "17"},\
+ { 18, "18"},\
+ { 19, "19"},\
+ { 20, "20"},\
+ { 21, "21"},\
+ { 22, "22"},\
+ { 23, "23"},\
+ { 24, "24"},\
+ { 25, "25"},\
+ { 26, "26"},\
+ { 27, "27"},\
+ { 28, "28"},\
+ { 29, "29"},\
+ { 30, "30"},\
+ { 31, "31"},\
+ { 32, "ACK"},\
+ { 33, "33"},\
+};
diff --git a/inc/tfa2_tfafieldnames_N1C.h b/inc/tfa2_tfafieldnames_N1C.h
new file mode 100644
index 0000000..09c0083
--- /dev/null
+++ b/inc/tfa2_tfafieldnames_N1C.h
@@ -0,0 +1,1526 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+#define TFA9888_I2CVERSION 18
+typedef enum nxpTfa2BfEnumList {
+ TFA2_BF_PWDN = 0x0000, /*!< Powerdown selection */
+ TFA2_BF_I2CR = 0x0010, /*!< I2C Reset - Auto clear */
+ TFA2_BF_CFE = 0x0020, /*!< Enable CoolFlux */
+ TFA2_BF_AMPE = 0x0030, /*!< Activate Amplifier */
+ TFA2_BF_DCA = 0x0040, /*!< Activate DC-to-DC converter */
+ TFA2_BF_SBSL = 0x0050, /*!< Coolflux configured */
+ TFA2_BF_AMPC = 0x0060, /*!< CoolFlux controls amplifier */
+ TFA2_BF_INTP = 0x0071, /*!< Interrupt config */
+ TFA2_BF_FSSSEL= 0x0091, /*!< Audio sample reference */
+ TFA2_BF_BYPOCP= 0x00b0, /*!< Bypass OCP */
+ TFA2_BF_TSTOCP= 0x00c0, /*!< OCP testing control */
+ TFA2_BF_AMPINSEL= 0x0101, /*!< Amplifier input selection */
+ TFA2_BF_MANSCONF= 0x0120, /*!< I2C configured */
+ TFA2_BF_MANCOLD= 0x0130, /*!< Execute cold start */
+ TFA2_BF_MANAOOSC= 0x0140, /*!< Internal osc off at PWDN */
+ TFA2_BF_MANROBOD= 0x0150, /*!< Reaction on BOD */
+ TFA2_BF_BODE = 0x0160, /*!< BOD Enable */
+ TFA2_BF_BODHYS= 0x0170, /*!< BOD Hysteresis */
+ TFA2_BF_BODFILT= 0x0181, /*!< BOD filter */
+ TFA2_BF_BODTHLVL= 0x01a1, /*!< BOD threshold */
+ TFA2_BF_MUTETO= 0x01d0, /*!< Time out SB mute sequence */
+ TFA2_BF_RCVNS = 0x01e0, /*!< Noise shaper selection */
+ TFA2_BF_MANWDE= 0x01f0, /*!< Watchdog manager reaction */
+ TFA2_BF_AUDFS = 0x0203, /*!< Sample rate (fs) */
+ TFA2_BF_INPLEV= 0x0240, /*!< TDM output attenuation */
+ TFA2_BF_FRACTDEL= 0x0255, /*!< V/I Fractional delay */
+ TFA2_BF_BYPHVBF= 0x02b0, /*!< Bypass HVBAT filter */
+ TFA2_BF_LDOBYP= 0x02c0, /*!< Receiver LDO bypass */
+ TFA2_BF_REV = 0x030f, /*!< Revision info */
+ TFA2_BF_REFCKEXT= 0x0401, /*!< PLL external ref clock */
+ TFA2_BF_REFCKSEL= 0x0420, /*!< PLL internal ref clock */
+ TFA2_BF_SSLEFTE= 0x0500, /*!< Enable left channel */
+ TFA2_BF_SSRIGHTE= 0x0510, /*!< Enable right channel */
+ TFA2_BF_VSLEFTE= 0x0520, /*!< Voltage sense left */
+ TFA2_BF_VSRIGHTE= 0x0530, /*!< Voltage sense right */
+ TFA2_BF_CSLEFTE= 0x0540, /*!< Current sense left */
+ TFA2_BF_CSRIGHTE= 0x0550, /*!< Current sense right */
+ TFA2_BF_SSPDME= 0x0560, /*!< Sub-system PDM */
+ TFA2_BF_STGAIN= 0x0d18, /*!< Side tone gain */
+ TFA2_BF_PDMSMUTE= 0x0da0, /*!< Side tone soft mute */
+ TFA2_BF_SWVSTEP= 0x0e06, /*!< Register for the host SW to record the current active vstep */
+ TFA2_BF_VDDS = 0x1000, /*!< POR */
+ TFA2_BF_PLLS = 0x1010, /*!< PLL lock */
+ TFA2_BF_OTDS = 0x1020, /*!< OTP alarm */
+ TFA2_BF_OVDS = 0x1030, /*!< OVP alarm */
+ TFA2_BF_UVDS = 0x1040, /*!< UVP alarm */
+ TFA2_BF_CLKS = 0x1050, /*!< Clocks stable */
+ TFA2_BF_MTPB = 0x1060, /*!< MTP busy */
+ TFA2_BF_NOCLK = 0x1070, /*!< Lost clock */
+ TFA2_BF_SPKS = 0x1080, /*!< Speaker error */
+ TFA2_BF_ACS = 0x1090, /*!< Cold Start */
+ TFA2_BF_SWS = 0x10a0, /*!< Amplifier engage */
+ TFA2_BF_WDS = 0x10b0, /*!< Watchdog */
+ TFA2_BF_AMPS = 0x10c0, /*!< Amplifier enable */
+ TFA2_BF_AREFS = 0x10d0, /*!< References enable */
+ TFA2_BF_ADCCR = 0x10e0, /*!< Control ADC */
+ TFA2_BF_BODNOK= 0x10f0, /*!< BOD */
+ TFA2_BF_DCIL = 0x1100, /*!< DCDC current limiting */
+ TFA2_BF_DCDCA = 0x1110, /*!< DCDC active */
+ TFA2_BF_DCOCPOK= 0x1120, /*!< DCDC OCP nmos */
+ TFA2_BF_DCHVBAT= 0x1140, /*!< DCDC level 1x */
+ TFA2_BF_DCH114= 0x1150, /*!< DCDC level 1.14x */
+ TFA2_BF_DCH107= 0x1160, /*!< DCDC level 1.07x */
+ TFA2_BF_STMUTEB= 0x1170, /*!< side tone (un)mute busy */
+ TFA2_BF_STMUTE= 0x1180, /*!< side tone mute state */
+ TFA2_BF_TDMLUTER= 0x1190, /*!< TDM LUT error */
+ TFA2_BF_TDMSTAT= 0x11a2, /*!< TDM status bits */
+ TFA2_BF_TDMERR= 0x11d0, /*!< TDM error */
+ TFA2_BF_HAPTIC= 0x11e0, /*!< Status haptic driver */
+ TFA2_BF_OCPOAPL= 0x1200, /*!< OCPOK pmos A left */
+ TFA2_BF_OCPOANL= 0x1210, /*!< OCPOK nmos A left */
+ TFA2_BF_OCPOBPL= 0x1220, /*!< OCPOK pmos B left */
+ TFA2_BF_OCPOBNL= 0x1230, /*!< OCPOK nmos B left */
+ TFA2_BF_CLIPAHL= 0x1240, /*!< Clipping A left to Vddp */
+ TFA2_BF_CLIPALL= 0x1250, /*!< Clipping A left to gnd */
+ TFA2_BF_CLIPBHL= 0x1260, /*!< Clipping B left to Vddp */
+ TFA2_BF_CLIPBLL= 0x1270, /*!< Clipping B left to gnd */
+ TFA2_BF_OCPOAPRC= 0x1280, /*!< OCPOK pmos A RCV */
+ TFA2_BF_OCPOANRC= 0x1290, /*!< OCPOK nmos A RCV */
+ TFA2_BF_OCPOBPRC= 0x12a0, /*!< OCPOK pmos B RCV */
+ TFA2_BF_OCPOBNRC= 0x12b0, /*!< OCPOK nmos B RCV */
+ TFA2_BF_RCVLDOR= 0x12c0, /*!< RCV LDO regulates */
+ TFA2_BF_RCVLDOBR= 0x12d0, /*!< Receiver LDO ready */
+ TFA2_BF_OCDSL = 0x12e0, /*!< OCP left amplifier */
+ TFA2_BF_CLIPSL= 0x12f0, /*!< Amplifier left clipping */
+ TFA2_BF_OCPOAPR= 0x1300, /*!< OCPOK pmos A right */
+ TFA2_BF_OCPOANR= 0x1310, /*!< OCPOK nmos A right */
+ TFA2_BF_OCPOBPR= 0x1320, /*!< OCPOK pmos B right */
+ TFA2_BF_OCPOBNR= 0x1330, /*!< OCPOK nmos B right */
+ TFA2_BF_CLIPAHR= 0x1340, /*!< Clipping A right to Vddp */
+ TFA2_BF_CLIPALR= 0x1350, /*!< Clipping A right to gnd */
+ TFA2_BF_CLIPBHR= 0x1360, /*!< Clipping B left to Vddp */
+ TFA2_BF_CLIPBLR= 0x1370, /*!< Clipping B right to gnd */
+ TFA2_BF_OCDSR = 0x1380, /*!< OCP right amplifier */
+ TFA2_BF_CLIPSR= 0x1390, /*!< Amplifier right clipping */
+ TFA2_BF_OCPOKMC= 0x13a0, /*!< OCPOK MICVDD */
+ TFA2_BF_MANALARM= 0x13b0, /*!< Alarm state */
+ TFA2_BF_MANWAIT1= 0x13c0, /*!< Wait HW I2C settings */
+ TFA2_BF_MANWAIT2= 0x13d0, /*!< Wait CF config */
+ TFA2_BF_MANMUTE= 0x13e0, /*!< Audio mute sequence */
+ TFA2_BF_MANOPER= 0x13f0, /*!< Operating state */
+ TFA2_BF_SPKSL = 0x1400, /*!< Left speaker status */
+ TFA2_BF_SPKSR = 0x1410, /*!< Right speaker status */
+ TFA2_BF_CLKOOR= 0x1420, /*!< External clock status */
+ TFA2_BF_MANSTATE= 0x1433, /*!< Device manager status */
+ TFA2_BF_BATS = 0x1509, /*!< Battery voltage (V) */
+ TFA2_BF_TEMPS = 0x1608, /*!< IC Temperature (C) */
+ TFA2_BF_TDMUC = 0x2003, /*!< Usecase setting */
+ TFA2_BF_TDME = 0x2040, /*!< Enable interface */
+ TFA2_BF_TDMMODE= 0x2050, /*!< Slave/master */
+ TFA2_BF_TDMCLINV= 0x2060, /*!< Reception data to BCK clock */
+ TFA2_BF_TDMFSLN= 0x2073, /*!< FS length (master mode only) */
+ TFA2_BF_TDMFSPOL= 0x20b0, /*!< FS polarity */
+ TFA2_BF_TDMNBCK= 0x20c3, /*!< N-BCK's in FS */
+ TFA2_BF_TDMSLOTS= 0x2103, /*!< N-slots in Frame */
+ TFA2_BF_TDMSLLN= 0x2144, /*!< N-bits in slot */
+ TFA2_BF_TDMBRMG= 0x2194, /*!< N-bits remaining */
+ TFA2_BF_TDMDEL= 0x21e0, /*!< data delay to FS */
+ TFA2_BF_TDMADJ= 0x21f0, /*!< data adjustment */
+ TFA2_BF_TDMOOMP= 0x2201, /*!< Received audio compression */
+ TFA2_BF_TDMSSIZE= 0x2224, /*!< Sample size per slot */
+ TFA2_BF_TDMTXDFO= 0x2271, /*!< Format unused bits */
+ TFA2_BF_TDMTXUS0= 0x2291, /*!< Format unused slots GAINIO */
+ TFA2_BF_TDMTXUS1= 0x22b1, /*!< Format unused slots DIO1 */
+ TFA2_BF_TDMTXUS2= 0x22d1, /*!< Format unused slots DIO2 */
+ TFA2_BF_TDMLE = 0x2310, /*!< Control audio left */
+ TFA2_BF_TDMRE = 0x2320, /*!< Control audio right */
+ TFA2_BF_TDMVSRE= 0x2340, /*!< Control voltage sense right */
+ TFA2_BF_TDMCSRE= 0x2350, /*!< Control current sense right */
+ TFA2_BF_TDMVSLE= 0x2360, /*!< Voltage sense left control */
+ TFA2_BF_TDMCSLE= 0x2370, /*!< Current sense left control */
+ TFA2_BF_TDMCFRE= 0x2380, /*!< DSP out right control */
+ TFA2_BF_TDMCFLE= 0x2390, /*!< DSP out left control */
+ TFA2_BF_TDMCF3E= 0x23a0, /*!< AEC ref left control */
+ TFA2_BF_TDMCF4E= 0x23b0, /*!< AEC ref right control */
+ TFA2_BF_TDMPD1E= 0x23c0, /*!< PDM 1 control */
+ TFA2_BF_TDMPD2E= 0x23d0, /*!< PDM 2 control */
+ TFA2_BF_TDMLIO= 0x2421, /*!< IO audio left */
+ TFA2_BF_TDMRIO= 0x2441, /*!< IO audio right */
+ TFA2_BF_TDMVSRIO= 0x2481, /*!< IO voltage sense right */
+ TFA2_BF_TDMCSRIO= 0x24a1, /*!< IO current sense right */
+ TFA2_BF_TDMVSLIO= 0x24c1, /*!< IO voltage sense left */
+ TFA2_BF_TDMCSLIO= 0x24e1, /*!< IO current sense left */
+ TFA2_BF_TDMCFRIO= 0x2501, /*!< IO dspout right */
+ TFA2_BF_TDMCFLIO= 0x2521, /*!< IO dspout left */
+ TFA2_BF_TDMCF3IO= 0x2541, /*!< IO AEC ref left control */
+ TFA2_BF_TDMCF4IO= 0x2561, /*!< IO AEC ref right control */
+ TFA2_BF_TDMPD1IO= 0x2581, /*!< IO pdm1 */
+ TFA2_BF_TDMPD2IO= 0x25a1, /*!< IO pdm2 */
+ TFA2_BF_TDMLS = 0x2643, /*!< Position audio left */
+ TFA2_BF_TDMRS = 0x2683, /*!< Position audio right */
+ TFA2_BF_TDMVSRS= 0x2703, /*!< Position voltage sense right */
+ TFA2_BF_TDMCSRS= 0x2743, /*!< Position current sense right */
+ TFA2_BF_TDMVSLS= 0x2783, /*!< Position voltage sense left */
+ TFA2_BF_TDMCSLS= 0x27c3, /*!< Position current sense left */
+ TFA2_BF_TDMCFRS= 0x2803, /*!< Position dspout right */
+ TFA2_BF_TDMCFLS= 0x2843, /*!< Position dspout left */
+ TFA2_BF_TDMCF3S= 0x2883, /*!< Position AEC ref left control */
+ TFA2_BF_TDMCF4S= 0x28c3, /*!< Position AEC ref right control */
+ TFA2_BF_TDMPD1S= 0x2903, /*!< Position pdm1 */
+ TFA2_BF_TDMPD2S= 0x2943, /*!< Position pdm2 */
+ TFA2_BF_PDMSM = 0x3100, /*!< PDM control */
+ TFA2_BF_PDMSTSEL= 0x3111, /*!< Side tone input */
+ TFA2_BF_PDMLSEL= 0x3130, /*!< PDM data selection for left channel during PDM direct mode */
+ TFA2_BF_PDMRSEL= 0x3140, /*!< PDM data selection for right channel during PDM direct mode */
+ TFA2_BF_MICVDDE= 0x3150, /*!< Enable MICVDD */
+ TFA2_BF_PDMCLRAT= 0x3201, /*!< PDM BCK/Fs ratio */
+ TFA2_BF_PDMGAIN= 0x3223, /*!< PDM gain */
+ TFA2_BF_PDMOSEL= 0x3263, /*!< PDM output selection - RE/FE data combination */
+ TFA2_BF_SELCFHAPD= 0x32a0, /*!< Select the source for haptic data output (not for customer) */
+ TFA2_BF_HAPTIME= 0x3307, /*!< Duration (ms) */
+ TFA2_BF_HAPLEVEL= 0x3387, /*!< DC value (FFS) */
+ TFA2_BF_GPIODIN= 0x3403, /*!< Receiving value */
+ TFA2_BF_GPIOCTRL= 0x3500, /*!< GPIO master control over GPIO1/2 ports (not for customer) */
+ TFA2_BF_GPIOCONF= 0x3513, /*!< Configuration */
+ TFA2_BF_GPIODOUT= 0x3553, /*!< Transmitting value */
+ TFA2_BF_ISTVDDS= 0x4000, /*!< Status POR */
+ TFA2_BF_ISTPLLS= 0x4010, /*!< Status PLL lock */
+ TFA2_BF_ISTOTDS= 0x4020, /*!< Status OTP alarm */
+ TFA2_BF_ISTOVDS= 0x4030, /*!< Status OVP alarm */
+ TFA2_BF_ISTUVDS= 0x4040, /*!< Status UVP alarm */
+ TFA2_BF_ISTCLKS= 0x4050, /*!< Status clocks stable */
+ TFA2_BF_ISTMTPB= 0x4060, /*!< Status MTP busy */
+ TFA2_BF_ISTNOCLK= 0x4070, /*!< Status lost clock */
+ TFA2_BF_ISTSPKS= 0x4080, /*!< Status speaker error */
+ TFA2_BF_ISTACS= 0x4090, /*!< Status cold start */
+ TFA2_BF_ISTSWS= 0x40a0, /*!< Status amplifier engage */
+ TFA2_BF_ISTWDS= 0x40b0, /*!< Status watchdog */
+ TFA2_BF_ISTAMPS= 0x40c0, /*!< Status amplifier enable */
+ TFA2_BF_ISTAREFS= 0x40d0, /*!< Status Ref enable */
+ TFA2_BF_ISTADCCR= 0x40e0, /*!< Status Control ADC */
+ TFA2_BF_ISTBODNOK= 0x40f0, /*!< Status BOD */
+ TFA2_BF_ISTBSTCU= 0x4100, /*!< Status DCDC current limiting */
+ TFA2_BF_ISTBSTHI= 0x4110, /*!< Status DCDC active */
+ TFA2_BF_ISTBSTOC= 0x4120, /*!< Status DCDC OCP */
+ TFA2_BF_ISTBSTPKCUR= 0x4130, /*!< Status bst peakcur */
+ TFA2_BF_ISTBSTVC= 0x4140, /*!< Status DCDC level 1x */
+ TFA2_BF_ISTBST86= 0x4150, /*!< Status DCDC level 1.14x */
+ TFA2_BF_ISTBST93= 0x4160, /*!< Status DCDC level 1.07x */
+ TFA2_BF_ISTRCVLD= 0x4170, /*!< Status rcvldop ready */
+ TFA2_BF_ISTOCPL= 0x4180, /*!< Status ocp alarm left */
+ TFA2_BF_ISTOCPR= 0x4190, /*!< Status ocp alarm right */
+ TFA2_BF_ISTMWSRC= 0x41a0, /*!< Status Waits HW I2C settings */
+ TFA2_BF_ISTMWCFC= 0x41b0, /*!< Status waits CF config */
+ TFA2_BF_ISTMWSMU= 0x41c0, /*!< Status Audio mute sequence */
+ TFA2_BF_ISTCFMER= 0x41d0, /*!< Status cfma error */
+ TFA2_BF_ISTCFMAC= 0x41e0, /*!< Status cfma ack */
+ TFA2_BF_ISTCLKOOR= 0x41f0, /*!< Status flag_clk_out_of_range */
+ TFA2_BF_ISTTDMER= 0x4200, /*!< Status tdm error */
+ TFA2_BF_ISTCLPL= 0x4210, /*!< Status clip left */
+ TFA2_BF_ISTCLPR= 0x4220, /*!< Status clip right */
+ TFA2_BF_ISTOCPM= 0x4230, /*!< Status mic ocpok */
+ TFA2_BF_ICLVDDS= 0x4400, /*!< Clear POR */
+ TFA2_BF_ICLPLLS= 0x4410, /*!< Clear PLL lock */
+ TFA2_BF_ICLOTDS= 0x4420, /*!< Clear OTP alarm */
+ TFA2_BF_ICLOVDS= 0x4430, /*!< Clear OVP alarm */
+ TFA2_BF_ICLUVDS= 0x4440, /*!< Clear UVP alarm */
+ TFA2_BF_ICLCLKS= 0x4450, /*!< Clear clocks stable */
+ TFA2_BF_ICLMTPB= 0x4460, /*!< Clear mtp busy */
+ TFA2_BF_ICLNOCLK= 0x4470, /*!< Clear lost clk */
+ TFA2_BF_ICLSPKS= 0x4480, /*!< Clear speaker error */
+ TFA2_BF_ICLACS= 0x4490, /*!< Clear cold started */
+ TFA2_BF_ICLSWS= 0x44a0, /*!< Clear amplifier engage */
+ TFA2_BF_ICLWDS= 0x44b0, /*!< Clear watchdog */
+ TFA2_BF_ICLAMPS= 0x44c0, /*!< Clear enbl amp */
+ TFA2_BF_ICLAREFS= 0x44d0, /*!< Clear ref enable */
+ TFA2_BF_ICLADCCR= 0x44e0, /*!< Clear control ADC */
+ TFA2_BF_ICLBODNOK= 0x44f0, /*!< Clear BOD */
+ TFA2_BF_ICLBSTCU= 0x4500, /*!< Clear DCDC current limiting */
+ TFA2_BF_ICLBSTHI= 0x4510, /*!< Clear DCDC active */
+ TFA2_BF_ICLBSTOC= 0x4520, /*!< Clear DCDC OCP */
+ TFA2_BF_ICLBSTPC= 0x4530, /*!< Clear bst peakcur */
+ TFA2_BF_ICLBSTVC= 0x4540, /*!< Clear DCDC level 1x */
+ TFA2_BF_ICLBST86= 0x4550, /*!< Clear DCDC level 1.14x */
+ TFA2_BF_ICLBST93= 0x4560, /*!< Clear DCDC level 1.07x */
+ TFA2_BF_ICLRCVLD= 0x4570, /*!< Clear rcvldop ready */
+ TFA2_BF_ICLOCPL= 0x4580, /*!< Clear ocp alarm left */
+ TFA2_BF_ICLOCPR= 0x4590, /*!< Clear ocp alarm right */
+ TFA2_BF_ICLMWSRC= 0x45a0, /*!< Clear wait HW I2C settings */
+ TFA2_BF_ICLMWCFC= 0x45b0, /*!< Clear wait cf config */
+ TFA2_BF_ICLMWSMU= 0x45c0, /*!< Clear audio mute sequence */
+ TFA2_BF_ICLCFMER= 0x45d0, /*!< Clear cfma err */
+ TFA2_BF_ICLCFMAC= 0x45e0, /*!< Clear cfma ack */
+ TFA2_BF_ICLCLKOOR= 0x45f0, /*!< Clear flag_clk_out_of_range */
+ TFA2_BF_ICLTDMER= 0x4600, /*!< Clear tdm error */
+ TFA2_BF_ICLCLPL= 0x4610, /*!< Clear clip left */
+ TFA2_BF_ICLCLPR= 0x4620, /*!< Clear clip right */
+ TFA2_BF_ICLOCPM= 0x4630, /*!< Clear mic ocpok */
+ TFA2_BF_IEVDDS= 0x4800, /*!< Enable por */
+ TFA2_BF_IEPLLS= 0x4810, /*!< Enable pll lock */
+ TFA2_BF_IEOTDS= 0x4820, /*!< Enable OTP alarm */
+ TFA2_BF_IEOVDS= 0x4830, /*!< Enable OVP alarm */
+ TFA2_BF_IEUVDS= 0x4840, /*!< Enable UVP alarm */
+ TFA2_BF_IECLKS= 0x4850, /*!< Enable clocks stable */
+ TFA2_BF_IEMTPB= 0x4860, /*!< Enable mtp busy */
+ TFA2_BF_IENOCLK= 0x4870, /*!< Enable lost clk */
+ TFA2_BF_IESPKS= 0x4880, /*!< Enable speaker error */
+ TFA2_BF_IEACS = 0x4890, /*!< Enable cold started */
+ TFA2_BF_IESWS = 0x48a0, /*!< Enable amplifier engage */
+ TFA2_BF_IEWDS = 0x48b0, /*!< Enable watchdog */
+ TFA2_BF_IEAMPS= 0x48c0, /*!< Enable enbl amp */
+ TFA2_BF_IEAREFS= 0x48d0, /*!< Enable ref enable */
+ TFA2_BF_IEADCCR= 0x48e0, /*!< Enable Control ADC */
+ TFA2_BF_IEBODNOK= 0x48f0, /*!< Enable BOD */
+ TFA2_BF_IEBSTCU= 0x4900, /*!< Enable DCDC current limiting */
+ TFA2_BF_IEBSTHI= 0x4910, /*!< Enable DCDC active */
+ TFA2_BF_IEBSTOC= 0x4920, /*!< Enable DCDC OCP */
+ TFA2_BF_IEBSTPC= 0x4930, /*!< Enable bst peakcur */
+ TFA2_BF_IEBSTVC= 0x4940, /*!< Enable DCDC level 1x */
+ TFA2_BF_IEBST86= 0x4950, /*!< Enable DCDC level 1.14x */
+ TFA2_BF_IEBST93= 0x4960, /*!< Enable DCDC level 1.07x */
+ TFA2_BF_IERCVLD= 0x4970, /*!< Enable rcvldop ready */
+ TFA2_BF_IEOCPL= 0x4980, /*!< Enable ocp alarm left */
+ TFA2_BF_IEOCPR= 0x4990, /*!< Enable ocp alarm right */
+ TFA2_BF_IEMWSRC= 0x49a0, /*!< Enable waits HW I2C settings */
+ TFA2_BF_IEMWCFC= 0x49b0, /*!< Enable man wait cf config */
+ TFA2_BF_IEMWSMU= 0x49c0, /*!< Enable man Audio mute sequence */
+ TFA2_BF_IECFMER= 0x49d0, /*!< Enable cfma err */
+ TFA2_BF_IECFMAC= 0x49e0, /*!< Enable cfma ack */
+ TFA2_BF_IECLKOOR= 0x49f0, /*!< Enable flag_clk_out_of_range */
+ TFA2_BF_IETDMER= 0x4a00, /*!< Enable tdm error */
+ TFA2_BF_IECLPL= 0x4a10, /*!< Enable clip left */
+ TFA2_BF_IECLPR= 0x4a20, /*!< Enable clip right */
+ TFA2_BF_IEOCPM1= 0x4a30, /*!< Enable mic ocpok */
+ TFA2_BF_IPOVDDS= 0x4c00, /*!< Polarity por */
+ TFA2_BF_IPOPLLS= 0x4c10, /*!< Polarity pll lock */
+ TFA2_BF_IPOOTDS= 0x4c20, /*!< Polarity OTP alarm */
+ TFA2_BF_IPOOVDS= 0x4c30, /*!< Polarity OVP alarm */
+ TFA2_BF_IPOUVDS= 0x4c40, /*!< Polarity UVP alarm */
+ TFA2_BF_IPOCLKS= 0x4c50, /*!< Polarity clocks stable */
+ TFA2_BF_IPOMTPB= 0x4c60, /*!< Polarity mtp busy */
+ TFA2_BF_IPONOCLK= 0x4c70, /*!< Polarity lost clk */
+ TFA2_BF_IPOSPKS= 0x4c80, /*!< Polarity speaker error */
+ TFA2_BF_IPOACS= 0x4c90, /*!< Polarity cold started */
+ TFA2_BF_IPOSWS= 0x4ca0, /*!< Polarity amplifier engage */
+ TFA2_BF_IPOWDS= 0x4cb0, /*!< Polarity watchdog */
+ TFA2_BF_IPOAMPS= 0x4cc0, /*!< Polarity enbl amp */
+ TFA2_BF_IPOAREFS= 0x4cd0, /*!< Polarity ref enable */
+ TFA2_BF_IPOADCCR= 0x4ce0, /*!< Polarity Control ADC */
+ TFA2_BF_IPOBODNOK= 0x4cf0, /*!< Polarity BOD */
+ TFA2_BF_IPOBSTCU= 0x4d00, /*!< Polarity DCDC current limiting */
+ TFA2_BF_IPOBSTHI= 0x4d10, /*!< Polarity DCDC active */
+ TFA2_BF_IPOBSTOC= 0x4d20, /*!< Polarity DCDC OCP */
+ TFA2_BF_IPOBSTPC= 0x4d30, /*!< Polarity bst peakcur */
+ TFA2_BF_IPOBSTVC= 0x4d40, /*!< Polarity DCDC level 1x */
+ TFA2_BF_IPOBST86= 0x4d50, /*!< Polarity DCDC level 1.14x */
+ TFA2_BF_IPOBST93= 0x4d60, /*!< Polarity DCDC level 1.07x */
+ TFA2_BF_IPORCVLD= 0x4d70, /*!< Polarity rcvldop ready */
+ TFA2_BF_IPOOCPL= 0x4d80, /*!< Polarity ocp alarm left */
+ TFA2_BF_IPOOCPR= 0x4d90, /*!< Polarity ocp alarm right */
+ TFA2_BF_IPOMWSRC= 0x4da0, /*!< Polarity waits HW I2C settings */
+ TFA2_BF_IPOMWCFC= 0x4db0, /*!< Polarity man wait cf config */
+ TFA2_BF_IPOMWSMU= 0x4dc0, /*!< Polarity man audio mute sequence */
+ TFA2_BF_IPOCFMER= 0x4dd0, /*!< Polarity cfma err */
+ TFA2_BF_IPOCFMAC= 0x4de0, /*!< Polarity cfma ack */
+ TFA2_BF_IPCLKOOR= 0x4df0, /*!< Polarity flag_clk_out_of_range */
+ TFA2_BF_IPOTDMER= 0x4e00, /*!< Polarity tdm error */
+ TFA2_BF_IPOCLPL= 0x4e10, /*!< Polarity clip left */
+ TFA2_BF_IPOCLPR= 0x4e20, /*!< Polarity clip right */
+ TFA2_BF_IPOOCPM= 0x4e30, /*!< Polarity mic ocpok */
+ TFA2_BF_BSSCR = 0x5001, /*!< Battery protection attack Time */
+ TFA2_BF_BSST = 0x5023, /*!< Battery protection threshold voltage level */
+ TFA2_BF_BSSRL = 0x5061, /*!< Battery protection maximum reduction */
+ TFA2_BF_BSSRR = 0x5082, /*!< Battery protection release time */
+ TFA2_BF_BSSHY = 0x50b1, /*!< Battery protection hysteresis */
+ TFA2_BF_BSSR = 0x50e0, /*!< Battery voltage read out */
+ TFA2_BF_BSSBY = 0x50f0, /*!< Bypass HW clipper */
+ TFA2_BF_BSSS = 0x5100, /*!< Vbat prot steepness */
+ TFA2_BF_INTSMUTE= 0x5110, /*!< Soft mute HW */
+ TFA2_BF_CFSML = 0x5120, /*!< Soft mute FW left */
+ TFA2_BF_CFSMR = 0x5130, /*!< Soft mute FW right */
+ TFA2_BF_HPFBYPL= 0x5140, /*!< Bypass HPF left */
+ TFA2_BF_HPFBYPR= 0x5150, /*!< Bypass HPF right */
+ TFA2_BF_DPSAL = 0x5160, /*!< Enable DPSA left */
+ TFA2_BF_DPSAR = 0x5170, /*!< Enable DPSA right */
+ TFA2_BF_VOL = 0x5187, /*!< FW volume control for primary audio channel */
+ TFA2_BF_HNDSFRCV= 0x5200, /*!< Selection receiver */
+ TFA2_BF_CLIPCTRL= 0x5222, /*!< Clip control setting */
+ TFA2_BF_AMPGAIN= 0x5257, /*!< Amplifier gain */
+ TFA2_BF_SLOPEE= 0x52d0, /*!< Enables slope control */
+ TFA2_BF_SLOPESET= 0x52e1, /*!< Set slope */
+ TFA2_BF_VOLSEC= 0x5a07, /*!< FW volume control for secondary audio channel */
+ TFA2_BF_SWPROFIL= 0x5a87, /*!< Software profile data */
+ TFA2_BF_DCVO = 0x7002, /*!< Boost voltage */
+ TFA2_BF_DCMCC = 0x7033, /*!< Max coil current */
+ TFA2_BF_DCCV = 0x7071, /*!< Coil Value */
+ TFA2_BF_DCIE = 0x7090, /*!< Adaptive boost mode */
+ TFA2_BF_DCSR = 0x70a0, /*!< Soft ramp up/down */
+ TFA2_BF_DCSYNCP= 0x70b2, /*!< DCDC synchronization off + 7 positions */
+ TFA2_BF_DCDIS = 0x70e0, /*!< DCDC on/off */
+ TFA2_BF_RST = 0x9000, /*!< Reset */
+ TFA2_BF_DMEM = 0x9011, /*!< Target memory */
+ TFA2_BF_AIF = 0x9030, /*!< Auto increment */
+ TFA2_BF_CFINT = 0x9040, /*!< Interrupt - auto clear */
+ TFA2_BF_CFCGATE= 0x9050, /*!< Coolflux clock gating disabling control */
+ TFA2_BF_REQ = 0x9087, /*!< request for access (8 channels) */
+ TFA2_BF_REQCMD= 0x9080, /*!< Firmware event request rpc command */
+ TFA2_BF_REQRST= 0x9090, /*!< Firmware event request reset restart */
+ TFA2_BF_REQMIPS= 0x90a0, /*!< Firmware event request short on mips */
+ TFA2_BF_REQMUTED= 0x90b0, /*!< Firmware event request mute sequence ready */
+ TFA2_BF_REQVOL= 0x90c0, /*!< Firmware event request volume ready */
+ TFA2_BF_REQDMG= 0x90d0, /*!< Firmware event request speaker damage detected */
+ TFA2_BF_REQCAL= 0x90e0, /*!< Firmware event request calibration completed */
+ TFA2_BF_REQRSV= 0x90f0, /*!< Firmware event request reserved */
+ TFA2_BF_MADD = 0x910f, /*!< Memory address */
+ TFA2_BF_MEMA = 0x920f, /*!< Activate memory access */
+ TFA2_BF_ERR = 0x9307, /*!< Error flags */
+ TFA2_BF_ACK = 0x9387, /*!< Acknowledge of requests */
+ TFA2_BF_ACKCMD= 0x9380, /*!< Firmware event acknowledge rpc command */
+ TFA2_BF_ACKRST= 0x9390, /*!< Firmware event acknowledge reset restart */
+ TFA2_BF_ACKMIPS= 0x93a0, /*!< Firmware event acknowledge short on mips */
+ TFA2_BF_ACKMUTED= 0x93b0, /*!< Firmware event acknowledge mute sequence ready */
+ TFA2_BF_ACKVOL= 0x93c0, /*!< Firmware event acknowledge volume ready */
+ TFA2_BF_ACKDMG= 0x93d0, /*!< Firmware event acknowledge speaker damage detected */
+ TFA2_BF_ACKCAL= 0x93e0, /*!< Firmware event acknowledge calibration completed */
+ TFA2_BF_ACKRSV= 0x93f0, /*!< Firmware event acknowledge reserved */
+ TFA2_BF_MTPK = 0xa107, /*!< MTP KEY2 register */
+ TFA2_BF_KEY1LOCKED= 0xa200, /*!< Indicates KEY1 is locked */
+ TFA2_BF_KEY2LOCKED= 0xa210, /*!< Indicates KEY2 is locked */
+ TFA2_BF_CIMTP = 0xa360, /*!< Start copying data from I2C mtp registers to mtp */
+ TFA2_BF_MTPRDMSB= 0xa50f, /*!< MSB word of MTP manual read data */
+ TFA2_BF_MTPRDLSB= 0xa60f, /*!< LSB word of MTP manual read data */
+ TFA2_BF_EXTTS = 0xb108, /*!< External temperature (C) */
+ TFA2_BF_TROS = 0xb190, /*!< Select temp Speaker calibration */
+ TFA2_BF_MTPOTC= 0xf000, /*!< Calibration schedule */
+ TFA2_BF_MTPEX = 0xf010, /*!< Calibration Ron executed */
+ TFA2_BF_DCMCCAPI= 0xf020, /*!< Calibration current limit DCDC */
+ TFA2_BF_DCMCCSB= 0xf030, /*!< Sign bit for delta calibration current limit DCDC */
+ TFA2_BF_USERDEF= 0xf042, /*!< Calibration delta current limit DCDC */
+ TFA2_BF_R25CL = 0xf40f, /*!< Ron resistance of left channel speaker coil */
+ TFA2_BF_R25CR = 0xf50f, /*!< Ron resistance of right channel speaker coil */
+} nxpTfa2BfEnumList_t;
+#define TFA2_NAMETABLE static tfaBfName_t Tfa2DatasheetNames[]= {\
+ { 0x0, "PWDN"}, /* Powerdown selection , */\
+ { 0x10, "I2CR"}, /* I2C Reset - Auto clear , */\
+ { 0x20, "CFE"}, /* Enable CoolFlux , */\
+ { 0x30, "AMPE"}, /* Activate Amplifier , */\
+ { 0x40, "DCA"}, /* Activate DC-to-DC converter , */\
+ { 0x50, "SBSL"}, /* Coolflux configured , */\
+ { 0x60, "AMPC"}, /* CoolFlux controls amplifier , */\
+ { 0x71, "INTP"}, /* Interrupt config , */\
+ { 0x91, "FSSSEL"}, /* Audio sample reference , */\
+ { 0xb0, "BYPOCP"}, /* Bypass OCP , */\
+ { 0xc0, "TSTOCP"}, /* OCP testing control , */\
+ { 0x101, "AMPINSEL"}, /* Amplifier input selection , */\
+ { 0x120, "MANSCONF"}, /* I2C configured , */\
+ { 0x130, "MANCOLD"}, /* Execute cold start , */\
+ { 0x140, "MANAOOSC"}, /* Internal osc off at PWDN , */\
+ { 0x150, "MANROBOD"}, /* Reaction on BOD , */\
+ { 0x160, "BODE"}, /* BOD Enable , */\
+ { 0x170, "BODHYS"}, /* BOD Hysteresis , */\
+ { 0x181, "BODFILT"}, /* BOD filter , */\
+ { 0x1a1, "BODTHLVL"}, /* BOD threshold , */\
+ { 0x1d0, "MUTETO"}, /* Time out SB mute sequence , */\
+ { 0x1e0, "RCVNS"}, /* Noise shaper selection , */\
+ { 0x1f0, "MANWDE"}, /* Watchdog manager reaction , */\
+ { 0x203, "AUDFS"}, /* Sample rate (fs) , */\
+ { 0x240, "INPLEV"}, /* TDM output attenuation , */\
+ { 0x255, "FRACTDEL"}, /* V/I Fractional delay , */\
+ { 0x2b0, "BYPHVBF"}, /* Bypass HVBAT filter , */\
+ { 0x2c0, "LDOBYP"}, /* Receiver LDO bypass , */\
+ { 0x30f, "REV"}, /* Revision info , */\
+ { 0x401, "REFCKEXT"}, /* PLL external ref clock , */\
+ { 0x420, "REFCKSEL"}, /* PLL internal ref clock , */\
+ { 0x500, "SSLEFTE"}, /* Enable left channel , */\
+ { 0x510, "SSRIGHTE"}, /* Enable right channel , */\
+ { 0x520, "VSLEFTE"}, /* Voltage sense left , */\
+ { 0x530, "VSRIGHTE"}, /* Voltage sense right , */\
+ { 0x540, "CSLEFTE"}, /* Current sense left , */\
+ { 0x550, "CSRIGHTE"}, /* Current sense right , */\
+ { 0x560, "SSPDME"}, /* Sub-system PDM , */\
+ { 0xd18, "STGAIN"}, /* Side tone gain , */\
+ { 0xda0, "PDMSMUTE"}, /* Side tone soft mute , */\
+ { 0xe06, "SWVSTEP"}, /* Register for the host SW to record the current active vstep, */\
+ { 0x1000, "VDDS"}, /* POR , */\
+ { 0x1010, "PLLS"}, /* PLL lock , */\
+ { 0x1020, "OTDS"}, /* OTP alarm , */\
+ { 0x1030, "OVDS"}, /* OVP alarm , */\
+ { 0x1040, "UVDS"}, /* UVP alarm , */\
+ { 0x1050, "CLKS"}, /* Clocks stable , */\
+ { 0x1060, "MTPB"}, /* MTP busy , */\
+ { 0x1070, "NOCLK"}, /* Lost clock , */\
+ { 0x1080, "SPKS"}, /* Speaker error , */\
+ { 0x1090, "ACS"}, /* Cold Start , */\
+ { 0x10a0, "SWS"}, /* Amplifier engage , */\
+ { 0x10b0, "WDS"}, /* Watchdog , */\
+ { 0x10c0, "AMPS"}, /* Amplifier enable , */\
+ { 0x10d0, "AREFS"}, /* References enable , */\
+ { 0x10e0, "ADCCR"}, /* Control ADC , */\
+ { 0x10f0, "BODNOK"}, /* BOD , */\
+ { 0x1100, "DCIL"}, /* DCDC current limiting , */\
+ { 0x1110, "DCDCA"}, /* DCDC active , */\
+ { 0x1120, "DCOCPOK"}, /* DCDC OCP nmos , */\
+ { 0x1140, "DCHVBAT"}, /* DCDC level 1x , */\
+ { 0x1150, "DCH114"}, /* DCDC level 1.14x , */\
+ { 0x1160, "DCH107"}, /* DCDC level 1.07x , */\
+ { 0x1170, "STMUTEB"}, /* side tone (un)mute busy , */\
+ { 0x1180, "STMUTE"}, /* side tone mute state , */\
+ { 0x1190, "TDMLUTER"}, /* TDM LUT error , */\
+ { 0x11a2, "TDMSTAT"}, /* TDM status bits , */\
+ { 0x11d0, "TDMERR"}, /* TDM error , */\
+ { 0x11e0, "HAPTIC"}, /* Status haptic driver , */\
+ { 0x1200, "OCPOAPL"}, /* OCPOK pmos A left , */\
+ { 0x1210, "OCPOANL"}, /* OCPOK nmos A left , */\
+ { 0x1220, "OCPOBPL"}, /* OCPOK pmos B left , */\
+ { 0x1230, "OCPOBNL"}, /* OCPOK nmos B left , */\
+ { 0x1240, "CLIPAHL"}, /* Clipping A left to Vddp , */\
+ { 0x1250, "CLIPALL"}, /* Clipping A left to gnd , */\
+ { 0x1260, "CLIPBHL"}, /* Clipping B left to Vddp , */\
+ { 0x1270, "CLIPBLL"}, /* Clipping B left to gnd , */\
+ { 0x1280, "OCPOAPRC"}, /* OCPOK pmos A RCV , */\
+ { 0x1290, "OCPOANRC"}, /* OCPOK nmos A RCV , */\
+ { 0x12a0, "OCPOBPRC"}, /* OCPOK pmos B RCV , */\
+ { 0x12b0, "OCPOBNRC"}, /* OCPOK nmos B RCV , */\
+ { 0x12c0, "RCVLDOR"}, /* RCV LDO regulates , */\
+ { 0x12d0, "RCVLDOBR"}, /* Receiver LDO ready , */\
+ { 0x12e0, "OCDSL"}, /* OCP left amplifier , */\
+ { 0x12f0, "CLIPSL"}, /* Amplifier left clipping , */\
+ { 0x1300, "OCPOAPR"}, /* OCPOK pmos A right , */\
+ { 0x1310, "OCPOANR"}, /* OCPOK nmos A right , */\
+ { 0x1320, "OCPOBPR"}, /* OCPOK pmos B right , */\
+ { 0x1330, "OCPOBNR"}, /* OCPOK nmos B right , */\
+ { 0x1340, "CLIPAHR"}, /* Clipping A right to Vddp , */\
+ { 0x1350, "CLIPALR"}, /* Clipping A right to gnd , */\
+ { 0x1360, "CLIPBHR"}, /* Clipping B left to Vddp , */\
+ { 0x1370, "CLIPBLR"}, /* Clipping B right to gnd , */\
+ { 0x1380, "OCDSR"}, /* OCP right amplifier , */\
+ { 0x1390, "CLIPSR"}, /* Amplifier right clipping , */\
+ { 0x13a0, "OCPOKMC"}, /* OCPOK MICVDD , */\
+ { 0x13b0, "MANALARM"}, /* Alarm state , */\
+ { 0x13c0, "MANWAIT1"}, /* Wait HW I2C settings , */\
+ { 0x13d0, "MANWAIT2"}, /* Wait CF config , */\
+ { 0x13e0, "MANMUTE"}, /* Audio mute sequence , */\
+ { 0x13f0, "MANOPER"}, /* Operating state , */\
+ { 0x1400, "SPKSL"}, /* Left speaker status , */\
+ { 0x1410, "SPKSR"}, /* Right speaker status , */\
+ { 0x1420, "CLKOOR"}, /* External clock status , */\
+ { 0x1433, "MANSTATE"}, /* Device manager status , */\
+ { 0x1509, "BATS"}, /* Battery voltage (V) , */\
+ { 0x1608, "TEMPS"}, /* IC Temperature (C) , */\
+ { 0x2003, "TDMUC"}, /* Usecase setting , */\
+ { 0x2040, "TDME"}, /* Enable interface , */\
+ { 0x2050, "TDMMODE"}, /* Slave/master , */\
+ { 0x2060, "TDMCLINV"}, /* Reception data to BCK clock , */\
+ { 0x2073, "TDMFSLN"}, /* FS length (master mode only) , */\
+ { 0x20b0, "TDMFSPOL"}, /* FS polarity , */\
+ { 0x20c3, "TDMNBCK"}, /* N-BCK's in FS , */\
+ { 0x2103, "TDMSLOTS"}, /* N-slots in Frame , */\
+ { 0x2144, "TDMSLLN"}, /* N-bits in slot , */\
+ { 0x2194, "TDMBRMG"}, /* N-bits remaining , */\
+ { 0x21e0, "TDMDEL"}, /* data delay to FS , */\
+ { 0x21f0, "TDMADJ"}, /* data adjustment , */\
+ { 0x2201, "TDMOOMP"}, /* Received audio compression , */\
+ { 0x2224, "TDMSSIZE"}, /* Sample size per slot , */\
+ { 0x2271, "TDMTXDFO"}, /* Format unused bits , */\
+ { 0x2291, "TDMTXUS0"}, /* Format unused slots GAINIO , */\
+ { 0x22b1, "TDMTXUS1"}, /* Format unused slots DIO1 , */\
+ { 0x22d1, "TDMTXUS2"}, /* Format unused slots DIO2 , */\
+ { 0x2310, "TDMLE"}, /* Control audio left , */\
+ { 0x2320, "TDMRE"}, /* Control audio right , */\
+ { 0x2340, "TDMVSRE"}, /* Control voltage sense right , */\
+ { 0x2350, "TDMCSRE"}, /* Control current sense right , */\
+ { 0x2360, "TDMVSLE"}, /* Voltage sense left control , */\
+ { 0x2370, "TDMCSLE"}, /* Current sense left control , */\
+ { 0x2380, "TDMCFRE"}, /* DSP out right control , */\
+ { 0x2390, "TDMCFLE"}, /* DSP out left control , */\
+ { 0x23a0, "TDMCF3E"}, /* AEC ref left control , */\
+ { 0x23b0, "TDMCF4E"}, /* AEC ref right control , */\
+ { 0x23c0, "TDMPD1E"}, /* PDM 1 control , */\
+ { 0x23d0, "TDMPD2E"}, /* PDM 2 control , */\
+ { 0x2421, "TDMLIO"}, /* IO audio left , */\
+ { 0x2441, "TDMRIO"}, /* IO audio right , */\
+ { 0x2481, "TDMVSRIO"}, /* IO voltage sense right , */\
+ { 0x24a1, "TDMCSRIO"}, /* IO current sense right , */\
+ { 0x24c1, "TDMVSLIO"}, /* IO voltage sense left , */\
+ { 0x24e1, "TDMCSLIO"}, /* IO current sense left , */\
+ { 0x2501, "TDMCFRIO"}, /* IO dspout right , */\
+ { 0x2521, "TDMCFLIO"}, /* IO dspout left , */\
+ { 0x2541, "TDMCF3IO"}, /* IO AEC ref left control , */\
+ { 0x2561, "TDMCF4IO"}, /* IO AEC ref right control , */\
+ { 0x2581, "TDMPD1IO"}, /* IO pdm1 , */\
+ { 0x25a1, "TDMPD2IO"}, /* IO pdm2 , */\
+ { 0x2643, "TDMLS"}, /* Position audio left , */\
+ { 0x2683, "TDMRS"}, /* Position audio right , */\
+ { 0x2703, "TDMVSRS"}, /* Position voltage sense right , */\
+ { 0x2743, "TDMCSRS"}, /* Position current sense right , */\
+ { 0x2783, "TDMVSLS"}, /* Position voltage sense left , */\
+ { 0x27c3, "TDMCSLS"}, /* Position current sense left , */\
+ { 0x2803, "TDMCFRS"}, /* Position dspout right , */\
+ { 0x2843, "TDMCFLS"}, /* Position dspout left , */\
+ { 0x2883, "TDMCF3S"}, /* Position AEC ref left control , */\
+ { 0x28c3, "TDMCF4S"}, /* Position AEC ref right control , */\
+ { 0x2903, "TDMPD1S"}, /* Position pdm1 , */\
+ { 0x2943, "TDMPD2S"}, /* Position pdm2 , */\
+ { 0x3100, "PDMSM"}, /* PDM control , */\
+ { 0x3111, "PDMSTSEL"}, /* Side tone input , */\
+ { 0x3130, "PDMLSEL"}, /* PDM data selection for left channel during PDM direct mode, */\
+ { 0x3140, "PDMRSEL"}, /* PDM data selection for right channel during PDM direct mode, */\
+ { 0x3150, "MICVDDE"}, /* Enable MICVDD , */\
+ { 0x3201, "PDMCLRAT"}, /* PDM BCK/Fs ratio , */\
+ { 0x3223, "PDMGAIN"}, /* PDM gain , */\
+ { 0x3263, "PDMOSEL"}, /* PDM output selection - RE/FE data combination , */\
+ { 0x32a0, "SELCFHAPD"}, /* Select the source for haptic data output (not for customer), */\
+ { 0x3307, "HAPTIME"}, /* Duration (ms) , */\
+ { 0x3387, "HAPLEVEL"}, /* DC value (FFS) , */\
+ { 0x3403, "GPIODIN"}, /* Receiving value , */\
+ { 0x3500, "GPIOCTRL"}, /* GPIO master control over GPIO1/2 ports (not for customer), */\
+ { 0x3513, "GPIOCONF"}, /* Configuration , */\
+ { 0x3553, "GPIODOUT"}, /* Transmitting value , */\
+ { 0x4000, "ISTVDDS"}, /* Status POR , */\
+ { 0x4010, "ISTPLLS"}, /* Status PLL lock , */\
+ { 0x4020, "ISTOTDS"}, /* Status OTP alarm , */\
+ { 0x4030, "ISTOVDS"}, /* Status OVP alarm , */\
+ { 0x4040, "ISTUVDS"}, /* Status UVP alarm , */\
+ { 0x4050, "ISTCLKS"}, /* Status clocks stable , */\
+ { 0x4060, "ISTMTPB"}, /* Status MTP busy , */\
+ { 0x4070, "ISTNOCLK"}, /* Status lost clock , */\
+ { 0x4080, "ISTSPKS"}, /* Status speaker error , */\
+ { 0x4090, "ISTACS"}, /* Status cold start , */\
+ { 0x40a0, "ISTSWS"}, /* Status amplifier engage , */\
+ { 0x40b0, "ISTWDS"}, /* Status watchdog , */\
+ { 0x40c0, "ISTAMPS"}, /* Status amplifier enable , */\
+ { 0x40d0, "ISTAREFS"}, /* Status Ref enable , */\
+ { 0x40e0, "ISTADCCR"}, /* Status Control ADC , */\
+ { 0x40f0, "ISTBODNOK"}, /* Status BOD , */\
+ { 0x4100, "ISTBSTCU"}, /* Status DCDC current limiting , */\
+ { 0x4110, "ISTBSTHI"}, /* Status DCDC active , */\
+ { 0x4120, "ISTBSTOC"}, /* Status DCDC OCP , */\
+ { 0x4130, "ISTBSTPKCUR"}, /* Status bst peakcur , */\
+ { 0x4140, "ISTBSTVC"}, /* Status DCDC level 1x , */\
+ { 0x4150, "ISTBST86"}, /* Status DCDC level 1.14x , */\
+ { 0x4160, "ISTBST93"}, /* Status DCDC level 1.07x , */\
+ { 0x4170, "ISTRCVLD"}, /* Status rcvldop ready , */\
+ { 0x4180, "ISTOCPL"}, /* Status ocp alarm left , */\
+ { 0x4190, "ISTOCPR"}, /* Status ocp alarm right , */\
+ { 0x41a0, "ISTMWSRC"}, /* Status Waits HW I2C settings , */\
+ { 0x41b0, "ISTMWCFC"}, /* Status waits CF config , */\
+ { 0x41c0, "ISTMWSMU"}, /* Status Audio mute sequence , */\
+ { 0x41d0, "ISTCFMER"}, /* Status cfma error , */\
+ { 0x41e0, "ISTCFMAC"}, /* Status cfma ack , */\
+ { 0x41f0, "ISTCLKOOR"}, /* Status flag_clk_out_of_range , */\
+ { 0x4200, "ISTTDMER"}, /* Status tdm error , */\
+ { 0x4210, "ISTCLPL"}, /* Status clip left , */\
+ { 0x4220, "ISTCLPR"}, /* Status clip right , */\
+ { 0x4230, "ISTOCPM"}, /* Status mic ocpok , */\
+ { 0x4400, "ICLVDDS"}, /* Clear POR , */\
+ { 0x4410, "ICLPLLS"}, /* Clear PLL lock , */\
+ { 0x4420, "ICLOTDS"}, /* Clear OTP alarm , */\
+ { 0x4430, "ICLOVDS"}, /* Clear OVP alarm , */\
+ { 0x4440, "ICLUVDS"}, /* Clear UVP alarm , */\
+ { 0x4450, "ICLCLKS"}, /* Clear clocks stable , */\
+ { 0x4460, "ICLMTPB"}, /* Clear mtp busy , */\
+ { 0x4470, "ICLNOCLK"}, /* Clear lost clk , */\
+ { 0x4480, "ICLSPKS"}, /* Clear speaker error , */\
+ { 0x4490, "ICLACS"}, /* Clear cold started , */\
+ { 0x44a0, "ICLSWS"}, /* Clear amplifier engage , */\
+ { 0x44b0, "ICLWDS"}, /* Clear watchdog , */\
+ { 0x44c0, "ICLAMPS"}, /* Clear enbl amp , */\
+ { 0x44d0, "ICLAREFS"}, /* Clear ref enable , */\
+ { 0x44e0, "ICLADCCR"}, /* Clear control ADC , */\
+ { 0x44f0, "ICLBODNOK"}, /* Clear BOD , */\
+ { 0x4500, "ICLBSTCU"}, /* Clear DCDC current limiting , */\
+ { 0x4510, "ICLBSTHI"}, /* Clear DCDC active , */\
+ { 0x4520, "ICLBSTOC"}, /* Clear DCDC OCP , */\
+ { 0x4530, "ICLBSTPC"}, /* Clear bst peakcur , */\
+ { 0x4540, "ICLBSTVC"}, /* Clear DCDC level 1x , */\
+ { 0x4550, "ICLBST86"}, /* Clear DCDC level 1.14x , */\
+ { 0x4560, "ICLBST93"}, /* Clear DCDC level 1.07x , */\
+ { 0x4570, "ICLRCVLD"}, /* Clear rcvldop ready , */\
+ { 0x4580, "ICLOCPL"}, /* Clear ocp alarm left , */\
+ { 0x4590, "ICLOCPR"}, /* Clear ocp alarm right , */\
+ { 0x45a0, "ICLMWSRC"}, /* Clear wait HW I2C settings , */\
+ { 0x45b0, "ICLMWCFC"}, /* Clear wait cf config , */\
+ { 0x45c0, "ICLMWSMU"}, /* Clear audio mute sequence , */\
+ { 0x45d0, "ICLCFMER"}, /* Clear cfma err , */\
+ { 0x45e0, "ICLCFMAC"}, /* Clear cfma ack , */\
+ { 0x45f0, "ICLCLKOOR"}, /* Clear flag_clk_out_of_range , */\
+ { 0x4600, "ICLTDMER"}, /* Clear tdm error , */\
+ { 0x4610, "ICLCLPL"}, /* Clear clip left , */\
+ { 0x4620, "ICLCLPR"}, /* Clear clip right , */\
+ { 0x4630, "ICLOCPM"}, /* Clear mic ocpok , */\
+ { 0x4800, "IEVDDS"}, /* Enable por , */\
+ { 0x4810, "IEPLLS"}, /* Enable pll lock , */\
+ { 0x4820, "IEOTDS"}, /* Enable OTP alarm , */\
+ { 0x4830, "IEOVDS"}, /* Enable OVP alarm , */\
+ { 0x4840, "IEUVDS"}, /* Enable UVP alarm , */\
+ { 0x4850, "IECLKS"}, /* Enable clocks stable , */\
+ { 0x4860, "IEMTPB"}, /* Enable mtp busy , */\
+ { 0x4870, "IENOCLK"}, /* Enable lost clk , */\
+ { 0x4880, "IESPKS"}, /* Enable speaker error , */\
+ { 0x4890, "IEACS"}, /* Enable cold started , */\
+ { 0x48a0, "IESWS"}, /* Enable amplifier engage , */\
+ { 0x48b0, "IEWDS"}, /* Enable watchdog , */\
+ { 0x48c0, "IEAMPS"}, /* Enable enbl amp , */\
+ { 0x48d0, "IEAREFS"}, /* Enable ref enable , */\
+ { 0x48e0, "IEADCCR"}, /* Enable Control ADC , */\
+ { 0x48f0, "IEBODNOK"}, /* Enable BOD , */\
+ { 0x4900, "IEBSTCU"}, /* Enable DCDC current limiting , */\
+ { 0x4910, "IEBSTHI"}, /* Enable DCDC active , */\
+ { 0x4920, "IEBSTOC"}, /* Enable DCDC OCP , */\
+ { 0x4930, "IEBSTPC"}, /* Enable bst peakcur , */\
+ { 0x4940, "IEBSTVC"}, /* Enable DCDC level 1x , */\
+ { 0x4950, "IEBST86"}, /* Enable DCDC level 1.14x , */\
+ { 0x4960, "IEBST93"}, /* Enable DCDC level 1.07x , */\
+ { 0x4970, "IERCVLD"}, /* Enable rcvldop ready , */\
+ { 0x4980, "IEOCPL"}, /* Enable ocp alarm left , */\
+ { 0x4990, "IEOCPR"}, /* Enable ocp alarm right , */\
+ { 0x49a0, "IEMWSRC"}, /* Enable waits HW I2C settings , */\
+ { 0x49b0, "IEMWCFC"}, /* Enable man wait cf config , */\
+ { 0x49c0, "IEMWSMU"}, /* Enable man Audio mute sequence , */\
+ { 0x49d0, "IECFMER"}, /* Enable cfma err , */\
+ { 0x49e0, "IECFMAC"}, /* Enable cfma ack , */\
+ { 0x49f0, "IECLKOOR"}, /* Enable flag_clk_out_of_range , */\
+ { 0x4a00, "IETDMER"}, /* Enable tdm error , */\
+ { 0x4a10, "IECLPL"}, /* Enable clip left , */\
+ { 0x4a20, "IECLPR"}, /* Enable clip right , */\
+ { 0x4a30, "IEOCPM1"}, /* Enable mic ocpok , */\
+ { 0x4c00, "IPOVDDS"}, /* Polarity por , */\
+ { 0x4c10, "IPOPLLS"}, /* Polarity pll lock , */\
+ { 0x4c20, "IPOOTDS"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "IPOOVDS"}, /* Polarity OVP alarm , */\
+ { 0x4c40, "IPOUVDS"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "IPOCLKS"}, /* Polarity clocks stable , */\
+ { 0x4c60, "IPOMTPB"}, /* Polarity mtp busy , */\
+ { 0x4c70, "IPONOCLK"}, /* Polarity lost clk , */\
+ { 0x4c80, "IPOSPKS"}, /* Polarity speaker error , */\
+ { 0x4c90, "IPOACS"}, /* Polarity cold started , */\
+ { 0x4ca0, "IPOSWS"}, /* Polarity amplifier engage , */\
+ { 0x4cb0, "IPOWDS"}, /* Polarity watchdog , */\
+ { 0x4cc0, "IPOAMPS"}, /* Polarity enbl amp , */\
+ { 0x4cd0, "IPOAREFS"}, /* Polarity ref enable , */\
+ { 0x4ce0, "IPOADCCR"}, /* Polarity Control ADC , */\
+ { 0x4cf0, "IPOBODNOK"}, /* Polarity BOD , */\
+ { 0x4d00, "IPOBSTCU"}, /* Polarity DCDC current limiting , */\
+ { 0x4d10, "IPOBSTHI"}, /* Polarity DCDC active , */\
+ { 0x4d20, "IPOBSTOC"}, /* Polarity DCDC OCP , */\
+ { 0x4d30, "IPOBSTPC"}, /* Polarity bst peakcur , */\
+ { 0x4d40, "IPOBSTVC"}, /* Polarity DCDC level 1x , */\
+ { 0x4d50, "IPOBST86"}, /* Polarity DCDC level 1.14x , */\
+ { 0x4d60, "IPOBST93"}, /* Polarity DCDC level 1.07x , */\
+ { 0x4d70, "IPORCVLD"}, /* Polarity rcvldop ready , */\
+ { 0x4d80, "IPOOCPL"}, /* Polarity ocp alarm left , */\
+ { 0x4d90, "IPOOCPR"}, /* Polarity ocp alarm right , */\
+ { 0x4da0, "IPOMWSRC"}, /* Polarity waits HW I2C settings , */\
+ { 0x4db0, "IPOMWCFC"}, /* Polarity man wait cf config , */\
+ { 0x4dc0, "IPOMWSMU"}, /* Polarity man audio mute sequence , */\
+ { 0x4dd0, "IPOCFMER"}, /* Polarity cfma err , */\
+ { 0x4de0, "IPOCFMAC"}, /* Polarity cfma ack , */\
+ { 0x4df0, "IPCLKOOR"}, /* Polarity flag_clk_out_of_range , */\
+ { 0x4e00, "IPOTDMER"}, /* Polarity tdm error , */\
+ { 0x4e10, "IPOCLPL"}, /* Polarity clip left , */\
+ { 0x4e20, "IPOCLPR"}, /* Polarity clip right , */\
+ { 0x4e30, "IPOOCPM"}, /* Polarity mic ocpok , */\
+ { 0x5001, "BSSCR"}, /* Battery protection attack Time , */\
+ { 0x5023, "BSST"}, /* Battery protection threshold voltage level , */\
+ { 0x5061, "BSSRL"}, /* Battery protection maximum reduction , */\
+ { 0x5082, "BSSRR"}, /* Battery protection release time , */\
+ { 0x50b1, "BSSHY"}, /* Battery protection hysteresis , */\
+ { 0x50e0, "BSSR"}, /* Battery voltage read out , */\
+ { 0x50f0, "BSSBY"}, /* Bypass HW clipper , */\
+ { 0x5100, "BSSS"}, /* Vbat prot steepness , */\
+ { 0x5110, "INTSMUTE"}, /* Soft mute HW , */\
+ { 0x5120, "CFSML"}, /* Soft mute FW left , */\
+ { 0x5130, "CFSMR"}, /* Soft mute FW right , */\
+ { 0x5140, "HPFBYPL"}, /* Bypass HPF left , */\
+ { 0x5150, "HPFBYPR"}, /* Bypass HPF right , */\
+ { 0x5160, "DPSAL"}, /* Enable DPSA left , */\
+ { 0x5170, "DPSAR"}, /* Enable DPSA right , */\
+ { 0x5187, "VOL"}, /* FW volume control for primary audio channel , */\
+ { 0x5200, "HNDSFRCV"}, /* Selection receiver , */\
+ { 0x5222, "CLIPCTRL"}, /* Clip control setting , */\
+ { 0x5257, "AMPGAIN"}, /* Amplifier gain , */\
+ { 0x52d0, "SLOPEE"}, /* Enables slope control , */\
+ { 0x52e1, "SLOPESET"}, /* Set slope , */\
+ { 0x5a07, "VOLSEC"}, /* FW volume control for secondary audio channel , */\
+ { 0x5a87, "SWPROFIL"}, /* Software profile data , */\
+ { 0x7002, "DCVO"}, /* Boost voltage , */\
+ { 0x7033, "DCMCC"}, /* Max coil current , */\
+ { 0x7071, "DCCV"}, /* Coil Value , */\
+ { 0x7090, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x70a0, "DCSR"}, /* Soft ramp up/down , */\
+ { 0x70b2, "DCSYNCP"}, /* DCDC synchronization off + 7 positions , */\
+ { 0x70e0, "DCDIS"}, /* DCDC on/off , */\
+ { 0x9000, "RST"}, /* Reset , */\
+ { 0x9011, "DMEM"}, /* Target memory , */\
+ { 0x9030, "AIF"}, /* Auto increment , */\
+ { 0x9040, "CFINT"}, /* Interrupt - auto clear , */\
+ { 0x9050, "CFCGATE"}, /* Coolflux clock gating disabling control , */\
+ { 0x9080, "REQCMD"}, /* Firmware event request rpc command , */\
+ { 0x9090, "REQRST"}, /* Firmware event request reset restart , */\
+ { 0x90a0, "REQMIPS"}, /* Firmware event request short on mips , */\
+ { 0x90b0, "REQMUTED"}, /* Firmware event request mute sequence ready , */\
+ { 0x90c0, "REQVOL"}, /* Firmware event request volume ready , */\
+ { 0x90d0, "REQDMG"}, /* Firmware event request speaker damage detected , */\
+ { 0x90e0, "REQCAL"}, /* Firmware event request calibration completed , */\
+ { 0x90f0, "REQRSV"}, /* Firmware event request reserved , */\
+ { 0x910f, "MADD"}, /* Memory address , */\
+ { 0x920f, "MEMA"}, /* Activate memory access , */\
+ { 0x9307, "ERR"}, /* Error flags , */\
+ { 0x9387, "ACK"}, /* Acknowledge of requests , */\
+ { 0x9380, "ACKCMD"}, /* Firmware event acknowledge rpc command , */\
+ { 0x9390, "ACKRST"}, /* Firmware event acknowledge reset restart , */\
+ { 0x93a0, "ACKMIPS"}, /* Firmware event acknowledge short on mips , */\
+ { 0x93b0, "ACKMUTED"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x93c0, "ACKVOL"}, /* Firmware event acknowledge volume ready , */\
+ { 0x93d0, "ACKDMG"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x93e0, "ACKCAL"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x93f0, "ACKRSV"}, /* Firmware event acknowledge reserved , */\
+ { 0xa107, "MTPK"}, /* MTP KEY2 register , */\
+ { 0xa200, "KEY1LOCKED"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "KEY2LOCKED"}, /* Indicates KEY2 is locked , */\
+ { 0xa360, "CIMTP"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa50f, "MTPRDMSB"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "MTPRDLSB"}, /* LSB word of MTP manual read data , */\
+ { 0xb108, "EXTTS"}, /* External temperature (C) , */\
+ { 0xb190, "TROS"}, /* Select temp Speaker calibration , */\
+ { 0xf000, "MTPOTC"}, /* Calibration schedule , */\
+ { 0xf010, "MTPEX"}, /* Calibration Ron executed , */\
+ { 0xf020, "DCMCCAPI"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "DCMCCSB"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "USERDEF"}, /* Calibration delta current limit DCDC , */\
+ { 0xf40f, "R25CL"}, /* Ron resistance of left channel speaker coil , */\
+ { 0xf50f, "R25CR"}, /* Ron resistance of right channel speaker coil , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA2_BITNAMETABLE static tfaBfName_t Tfa2BitNames[]= {\
+ { 0x0, "powerdown"}, /* Powerdown selection , */\
+ { 0x10, "reset"}, /* I2C Reset - Auto clear , */\
+ { 0x20, "enbl_coolflux"}, /* Enable CoolFlux , */\
+ { 0x30, "enbl_amplifier"}, /* Activate Amplifier , */\
+ { 0x40, "enbl_boost"}, /* Activate DC-to-DC converter , */\
+ { 0x50, "coolflux_configured"}, /* Coolflux configured , */\
+ { 0x60, "sel_enbl_amplifier"}, /* CoolFlux controls amplifier , */\
+ { 0x71, "int_pad_io"}, /* Interrupt config , */\
+ { 0x91, "fs_pulse_sel"}, /* Audio sample reference , */\
+ { 0xb0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0xc0, "test_ocp"}, /* OCP testing control , */\
+ { 0x101, "vamp_sel"}, /* Amplifier input selection , */\
+ { 0x120, "src_set_configured"}, /* I2C configured , */\
+ { 0x130, "execute_cold_start"}, /* Execute cold start , */\
+ { 0x140, "enbl_osc1m_auto_off"}, /* Internal osc off at PWDN , */\
+ { 0x150, "man_enbl_brown_out"}, /* Reaction on BOD , */\
+ { 0x160, "enbl_bod"}, /* BOD Enable , */\
+ { 0x170, "enbl_bod_hyst"}, /* BOD Hysteresis , */\
+ { 0x181, "bod_delay"}, /* BOD filter , */\
+ { 0x1a1, "bod_lvlsel"}, /* BOD threshold , */\
+ { 0x1d0, "disable_mute_time_out"}, /* Time out SB mute sequence , */\
+ { 0x1e0, "pwm_sel_rcv_ns"}, /* Noise shaper selection , */\
+ { 0x1f0, "man_enbl_watchdog"}, /* Watchdog manager reaction , */\
+ { 0x203, "audio_fs"}, /* Sample rate (fs) , */\
+ { 0x240, "input_level"}, /* TDM output attenuation , */\
+ { 0x255, "cs_frac_delay"}, /* V/I Fractional delay , */\
+ { 0x2b0, "bypass_hvbat_filter"}, /* Bypass HVBAT filter , */\
+ { 0x2c0, "ctrl_rcvldop_bypass"}, /* Receiver LDO bypass , */\
+ { 0x30f, "device_rev"}, /* Revision info , */\
+ { 0x401, "pll_clkin_sel"}, /* PLL external ref clock , */\
+ { 0x420, "pll_clkin_sel_osc"}, /* PLL internal ref clock , */\
+ { 0x500, "enbl_spkr_ss_left"}, /* Enable left channel , */\
+ { 0x510, "enbl_spkr_ss_right"}, /* Enable right channel , */\
+ { 0x520, "enbl_volsense_left"}, /* Voltage sense left , */\
+ { 0x530, "enbl_volsense_right"}, /* Voltage sense right , */\
+ { 0x540, "enbl_cursense_left"}, /* Current sense left , */\
+ { 0x550, "enbl_cursense_right"}, /* Current sense right , */\
+ { 0x560, "enbl_pdm_ss"}, /* Sub-system PDM , */\
+ { 0xd00, "side_tone_gain_sel"}, /* PDM side tone gain selector , */\
+ { 0xd18, "side_tone_gain"}, /* Side tone gain , */\
+ { 0xda0, "mute_side_tone"}, /* Side tone soft mute , */\
+ { 0xe06, "ctrl_digtoana"}, /* Register for the host SW to record the current active vstep, */\
+ { 0xe70, "enbl_cmfb_left"}, /* Current sense common mode feedback control for left channel, */\
+ { 0xf0f, "hidden_code"}, /* 5A6Bh, 23147d to access registers (default for engineering), */\
+ { 0x1000, "flag_por"}, /* POR , */\
+ { 0x1010, "flag_pll_lock"}, /* PLL lock , */\
+ { 0x1020, "flag_otpok"}, /* OTP alarm , */\
+ { 0x1030, "flag_ovpok"}, /* OVP alarm , */\
+ { 0x1040, "flag_uvpok"}, /* UVP alarm , */\
+ { 0x1050, "flag_clocks_stable"}, /* Clocks stable , */\
+ { 0x1060, "flag_mtp_busy"}, /* MTP busy , */\
+ { 0x1070, "flag_lost_clk"}, /* Lost clock , */\
+ { 0x1080, "flag_cf_speakererror"}, /* Speaker error , */\
+ { 0x1090, "flag_cold_started"}, /* Cold Start , */\
+ { 0x10a0, "flag_engage"}, /* Amplifier engage , */\
+ { 0x10b0, "flag_watchdog_reset"}, /* Watchdog , */\
+ { 0x10c0, "flag_enbl_amp"}, /* Amplifier enable , */\
+ { 0x10d0, "flag_enbl_ref"}, /* References enable , */\
+ { 0x10e0, "flag_adc10_ready"}, /* Control ADC , */\
+ { 0x10f0, "flag_bod_vddd_nok"}, /* BOD , */\
+ { 0x1100, "flag_bst_bstcur"}, /* DCDC current limiting , */\
+ { 0x1110, "flag_bst_hiz"}, /* DCDC active , */\
+ { 0x1120, "flag_bst_ocpok"}, /* DCDC OCP nmos , */\
+ { 0x1130, "flag_bst_peakcur"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1140, "flag_bst_voutcomp"}, /* DCDC level 1x , */\
+ { 0x1150, "flag_bst_voutcomp86"}, /* DCDC level 1.14x , */\
+ { 0x1160, "flag_bst_voutcomp93"}, /* DCDC level 1.07x , */\
+ { 0x1170, "flag_soft_mute_busy"}, /* side tone (un)mute busy , */\
+ { 0x1180, "flag_soft_mute_state"}, /* side tone mute state , */\
+ { 0x1190, "flag_tdm_lut_error"}, /* TDM LUT error , */\
+ { 0x11a2, "flag_tdm_status"}, /* TDM status bits , */\
+ { 0x11d0, "flag_tdm_error"}, /* TDM error , */\
+ { 0x11e0, "flag_haptic_busy"}, /* Status haptic driver , */\
+ { 0x1200, "flag_ocpokap_left"}, /* OCPOK pmos A left , */\
+ { 0x1210, "flag_ocpokan_left"}, /* OCPOK nmos A left , */\
+ { 0x1220, "flag_ocpokbp_left"}, /* OCPOK pmos B left , */\
+ { 0x1230, "flag_ocpokbn_left"}, /* OCPOK nmos B left , */\
+ { 0x1240, "flag_clipa_high_left"}, /* Clipping A left to Vddp , */\
+ { 0x1250, "flag_clipa_low_left"}, /* Clipping A left to gnd , */\
+ { 0x1260, "flag_clipb_high_left"}, /* Clipping B left to Vddp , */\
+ { 0x1270, "flag_clipb_low_left"}, /* Clipping B left to gnd , */\
+ { 0x1280, "flag_ocpokap_rcv"}, /* OCPOK pmos A RCV , */\
+ { 0x1290, "flag_ocpokan_rcv"}, /* OCPOK nmos A RCV , */\
+ { 0x12a0, "flag_ocpokbp_rcv"}, /* OCPOK pmos B RCV , */\
+ { 0x12b0, "flag_ocpokbn_rcv"}, /* OCPOK nmos B RCV , */\
+ { 0x12c0, "flag_rcvldop_ready"}, /* RCV LDO regulates , */\
+ { 0x12d0, "flag_rcvldop_bypassready"}, /* Receiver LDO ready , */\
+ { 0x12e0, "flag_ocp_alarm_left"}, /* OCP left amplifier , */\
+ { 0x12f0, "flag_clip_left"}, /* Amplifier left clipping , */\
+ { 0x1300, "flag_ocpokap_right"}, /* OCPOK pmos A right , */\
+ { 0x1310, "flag_ocpokan_right"}, /* OCPOK nmos A right , */\
+ { 0x1320, "flag_ocpokbp_right"}, /* OCPOK pmos B right , */\
+ { 0x1330, "flag_ocpokbn_right"}, /* OCPOK nmos B right , */\
+ { 0x1340, "flag_clipa_high_right"}, /* Clipping A right to Vddp , */\
+ { 0x1350, "flag_clipa_low_right"}, /* Clipping A right to gnd , */\
+ { 0x1360, "flag_clipb_high_right"}, /* Clipping B left to Vddp , */\
+ { 0x1370, "flag_clipb_low_right"}, /* Clipping B right to gnd , */\
+ { 0x1380, "flag_ocp_alarm_right"}, /* OCP right amplifier , */\
+ { 0x1390, "flag_clip_right"}, /* Amplifier right clipping , */\
+ { 0x13a0, "flag_mic_ocpok"}, /* OCPOK MICVDD , */\
+ { 0x13b0, "flag_man_alarm_state"}, /* Alarm state , */\
+ { 0x13c0, "flag_man_wait_src_settings"}, /* Wait HW I2C settings , */\
+ { 0x13d0, "flag_man_wait_cf_config"}, /* Wait CF config , */\
+ { 0x13e0, "flag_man_start_mute_audio"}, /* Audio mute sequence , */\
+ { 0x13f0, "flag_man_operating_state"}, /* Operating state , */\
+ { 0x1400, "flag_cf_speakererror_left"}, /* Left speaker status , */\
+ { 0x1410, "flag_cf_speakererror_right"}, /* Right speaker status , */\
+ { 0x1420, "flag_clk_out_of_range"}, /* External clock status , */\
+ { 0x1433, "man_state"}, /* Device manager status , */\
+ { 0x1509, "bat_adc"}, /* Battery voltage (V) , */\
+ { 0x1608, "temp_adc"}, /* IC Temperature (C) , */\
+ { 0x2003, "tdm_usecase"}, /* Usecase setting , */\
+ { 0x2040, "tdm_enable"}, /* Enable interface , */\
+ { 0x2050, "tdm_mode"}, /* Slave/master , */\
+ { 0x2060, "tdm_clk_inversion"}, /* Reception data to BCK clock , */\
+ { 0x2073, "tdm_fs_ws_length"}, /* FS length (master mode only) , */\
+ { 0x20b0, "tdm_fs_ws_polarity"}, /* FS polarity , */\
+ { 0x20c3, "tdm_nbck"}, /* N-BCK's in FS , */\
+ { 0x2103, "tdm_nb_of_slots"}, /* N-slots in Frame , */\
+ { 0x2144, "tdm_slot_length"}, /* N-bits in slot , */\
+ { 0x2194, "tdm_bits_remaining"}, /* N-bits remaining , */\
+ { 0x21e0, "tdm_data_delay"}, /* data delay to FS , */\
+ { 0x21f0, "tdm_data_adjustment"}, /* data adjustment , */\
+ { 0x2201, "tdm_audio_sample_compression"}, /* Received audio compression , */\
+ { 0x2224, "tdm_sample_size"}, /* Sample size per slot , */\
+ { 0x2271, "tdm_txdata_format"}, /* Format unused bits , */\
+ { 0x2291, "tdm_txdata_format_unused_slot_sd0"}, /* Format unused slots GAINIO , */\
+ { 0x22b1, "tdm_txdata_format_unused_slot_sd1"}, /* Format unused slots DIO1 , */\
+ { 0x22d1, "tdm_txdata_format_unused_slot_sd2"}, /* Format unused slots DIO2 , */\
+ { 0x2300, "tdm_sink0_enable"}, /* Control gainin (not used in DSP) , */\
+ { 0x2310, "tdm_sink1_enable"}, /* Control audio left , */\
+ { 0x2320, "tdm_sink2_enable"}, /* Control audio right , */\
+ { 0x2330, "tdm_source0_enable"}, /* Control gainout (not used in DSP) , */\
+ { 0x2340, "tdm_source1_enable"}, /* Control voltage sense right , */\
+ { 0x2350, "tdm_source2_enable"}, /* Control current sense right , */\
+ { 0x2360, "tdm_source3_enable"}, /* Voltage sense left control , */\
+ { 0x2370, "tdm_source4_enable"}, /* Current sense left control , */\
+ { 0x2380, "tdm_source5_enable"}, /* DSP out right control , */\
+ { 0x2390, "tdm_source6_enable"}, /* DSP out left control , */\
+ { 0x23a0, "tdm_source7_enable"}, /* AEC ref left control , */\
+ { 0x23b0, "tdm_source8_enable"}, /* AEC ref right control , */\
+ { 0x23c0, "tdm_source9_enable"}, /* PDM 1 control , */\
+ { 0x23d0, "tdm_source10_enable"}, /* PDM 2 control , */\
+ { 0x2401, "tdm_sink0_io"}, /* IO gainin (not used in DSP) , */\
+ { 0x2421, "tdm_sink1_io"}, /* IO audio left , */\
+ { 0x2441, "tdm_sink2_io"}, /* IO audio right , */\
+ { 0x2461, "tdm_source0_io"}, /* IO gainout (not used in DSP) , */\
+ { 0x2481, "tdm_source1_io"}, /* IO voltage sense right , */\
+ { 0x24a1, "tdm_source2_io"}, /* IO current sense right , */\
+ { 0x24c1, "tdm_source3_io"}, /* IO voltage sense left , */\
+ { 0x24e1, "tdm_source4_io"}, /* IO current sense left , */\
+ { 0x2501, "tdm_source5_io"}, /* IO dspout right , */\
+ { 0x2521, "tdm_source6_io"}, /* IO dspout left , */\
+ { 0x2541, "tdm_source7_io"}, /* IO AEC ref left control , */\
+ { 0x2561, "tdm_source8_io"}, /* IO AEC ref right control , */\
+ { 0x2581, "tdm_source9_io"}, /* IO pdm1 , */\
+ { 0x25a1, "tdm_source10_io"}, /* IO pdm2 , */\
+ { 0x2603, "tdm_sink0_slot"}, /* Position gainin (not used in DSP) , */\
+ { 0x2643, "tdm_sink1_slot"}, /* Position audio left , */\
+ { 0x2683, "tdm_sink2_slot"}, /* Position audio right , */\
+ { 0x26c3, "tdm_source0_slot"}, /* Position gainout (not used in DSP) , */\
+ { 0x2703, "tdm_source1_slot"}, /* Position voltage sense right , */\
+ { 0x2743, "tdm_source2_slot"}, /* Position current sense right , */\
+ { 0x2783, "tdm_source3_slot"}, /* Position voltage sense left , */\
+ { 0x27c3, "tdm_source4_slot"}, /* Position current sense left , */\
+ { 0x2803, "tdm_source5_slot"}, /* Position dspout right , */\
+ { 0x2843, "tdm_source6_slot"}, /* Position dspout left , */\
+ { 0x2883, "tdm_source7_slot"}, /* Position AEC ref left control , */\
+ { 0x28c3, "tdm_source8_slot"}, /* Position AEC ref right control , */\
+ { 0x2903, "tdm_source9_slot"}, /* Position pdm1 , */\
+ { 0x2943, "tdm_source10_slot"}, /* Position pdm2 , */\
+ { 0x3100, "pdm_mode"}, /* PDM control , */\
+ { 0x3111, "pdm_side_tone_sel"}, /* Side tone input , */\
+ { 0x3130, "pdm_left_sel"}, /* PDM data selection for left channel during PDM direct mode, */\
+ { 0x3140, "pdm_right_sel"}, /* PDM data selection for right channel during PDM direct mode, */\
+ { 0x3150, "enbl_micvdd"}, /* Enable MICVDD , */\
+ { 0x3160, "bypass_micvdd_ocp"}, /* Bypass control for the MICVDD OCP flag processing , */\
+ { 0x3201, "pdm_nbck"}, /* PDM BCK/Fs ratio , */\
+ { 0x3223, "pdm_gain"}, /* PDM gain , */\
+ { 0x3263, "sel_pdm_out_data"}, /* PDM output selection - RE/FE data combination , */\
+ { 0x32a0, "sel_cf_haptic_data"}, /* Select the source for haptic data output (not for customer), */\
+ { 0x3307, "haptic_duration"}, /* Duration (ms) , */\
+ { 0x3387, "haptic_data"}, /* DC value (FFS) , */\
+ { 0x3403, "gpio_datain"}, /* Receiving value , */\
+ { 0x3500, "gpio_ctrl"}, /* GPIO master control over GPIO1/2 ports (not for customer), */\
+ { 0x3513, "gpio_dir"}, /* Configuration , */\
+ { 0x3553, "gpio_dataout"}, /* Transmitting value , */\
+ { 0x4000, "int_out_flag_por"}, /* Status POR , */\
+ { 0x4010, "int_out_flag_pll_lock"}, /* Status PLL lock , */\
+ { 0x4020, "int_out_flag_otpok"}, /* Status OTP alarm , */\
+ { 0x4030, "int_out_flag_ovpok"}, /* Status OVP alarm , */\
+ { 0x4040, "int_out_flag_uvpok"}, /* Status UVP alarm , */\
+ { 0x4050, "int_out_flag_clocks_stable"}, /* Status clocks stable , */\
+ { 0x4060, "int_out_flag_mtp_busy"}, /* Status MTP busy , */\
+ { 0x4070, "int_out_flag_lost_clk"}, /* Status lost clock , */\
+ { 0x4080, "int_out_flag_cf_speakererror"}, /* Status speaker error , */\
+ { 0x4090, "int_out_flag_cold_started"}, /* Status cold start , */\
+ { 0x40a0, "int_out_flag_engage"}, /* Status amplifier engage , */\
+ { 0x40b0, "int_out_flag_watchdog_reset"}, /* Status watchdog , */\
+ { 0x40c0, "int_out_flag_enbl_amp"}, /* Status amplifier enable , */\
+ { 0x40d0, "int_out_flag_enbl_ref"}, /* Status Ref enable , */\
+ { 0x40e0, "int_out_flag_adc10_ready"}, /* Status Control ADC , */\
+ { 0x40f0, "int_out_flag_bod_vddd_nok"}, /* Status BOD , */\
+ { 0x4100, "int_out_flag_bst_bstcur"}, /* Status DCDC current limiting , */\
+ { 0x4110, "int_out_flag_bst_hiz"}, /* Status DCDC active , */\
+ { 0x4120, "int_out_flag_bst_ocpok"}, /* Status DCDC OCP , */\
+ { 0x4130, "int_out_flag_bst_peakcur"}, /* Status bst peakcur , */\
+ { 0x4140, "int_out_flag_bst_voutcomp"}, /* Status DCDC level 1x , */\
+ { 0x4150, "int_out_flag_bst_voutcomp86"}, /* Status DCDC level 1.14x , */\
+ { 0x4160, "int_out_flag_bst_voutcomp93"}, /* Status DCDC level 1.07x , */\
+ { 0x4170, "int_out_flag_rcvldop_ready"}, /* Status rcvldop ready , */\
+ { 0x4180, "int_out_flag_ocp_alarm_left"}, /* Status ocp alarm left , */\
+ { 0x4190, "int_out_flag_ocp_alarm_right"}, /* Status ocp alarm right , */\
+ { 0x41a0, "int_out_flag_man_wait_src_settings"}, /* Status Waits HW I2C settings , */\
+ { 0x41b0, "int_out_flag_man_wait_cf_config"}, /* Status waits CF config , */\
+ { 0x41c0, "int_out_flag_man_start_mute_audio"}, /* Status Audio mute sequence , */\
+ { 0x41d0, "int_out_flag_cfma_err"}, /* Status cfma error , */\
+ { 0x41e0, "int_out_flag_cfma_ack"}, /* Status cfma ack , */\
+ { 0x41f0, "int_out_flag_clk_out_of_range"}, /* Status flag_clk_out_of_range , */\
+ { 0x4200, "int_out_flag_tdm_error"}, /* Status tdm error , */\
+ { 0x4210, "int_out_flag_clip_left"}, /* Status clip left , */\
+ { 0x4220, "int_out_flag_clip_right"}, /* Status clip right , */\
+ { 0x4230, "int_out_flag_mic_ocpok"}, /* Status mic ocpok , */\
+ { 0x4400, "int_in_flag_por"}, /* Clear POR , */\
+ { 0x4410, "int_in_flag_pll_lock"}, /* Clear PLL lock , */\
+ { 0x4420, "int_in_flag_otpok"}, /* Clear OTP alarm , */\
+ { 0x4430, "int_in_flag_ovpok"}, /* Clear OVP alarm , */\
+ { 0x4440, "int_in_flag_uvpok"}, /* Clear UVP alarm , */\
+ { 0x4450, "int_in_flag_clocks_stable"}, /* Clear clocks stable , */\
+ { 0x4460, "int_in_flag_mtp_busy"}, /* Clear mtp busy , */\
+ { 0x4470, "int_in_flag_lost_clk"}, /* Clear lost clk , */\
+ { 0x4480, "int_in_flag_cf_speakererror"}, /* Clear speaker error , */\
+ { 0x4490, "int_in_flag_cold_started"}, /* Clear cold started , */\
+ { 0x44a0, "int_in_flag_engage"}, /* Clear amplifier engage , */\
+ { 0x44b0, "int_in_flag_watchdog_reset"}, /* Clear watchdog , */\
+ { 0x44c0, "int_in_flag_enbl_amp"}, /* Clear enbl amp , */\
+ { 0x44d0, "int_in_flag_enbl_ref"}, /* Clear ref enable , */\
+ { 0x44e0, "int_in_flag_adc10_ready"}, /* Clear control ADC , */\
+ { 0x44f0, "int_in_flag_bod_vddd_nok"}, /* Clear BOD , */\
+ { 0x4500, "int_in_flag_bst_bstcur"}, /* Clear DCDC current limiting , */\
+ { 0x4510, "int_in_flag_bst_hiz"}, /* Clear DCDC active , */\
+ { 0x4520, "int_in_flag_bst_ocpok"}, /* Clear DCDC OCP , */\
+ { 0x4530, "int_in_flag_bst_peakcur"}, /* Clear bst peakcur , */\
+ { 0x4540, "int_in_flag_bst_voutcomp"}, /* Clear DCDC level 1x , */\
+ { 0x4550, "int_in_flag_bst_voutcomp86"}, /* Clear DCDC level 1.14x , */\
+ { 0x4560, "int_in_flag_bst_voutcomp93"}, /* Clear DCDC level 1.07x , */\
+ { 0x4570, "int_in_flag_rcvldop_ready"}, /* Clear rcvldop ready , */\
+ { 0x4580, "int_in_flag_ocp_alarm_left"}, /* Clear ocp alarm left , */\
+ { 0x4590, "int_in_flag_ocp_alarm_right"}, /* Clear ocp alarm right , */\
+ { 0x45a0, "int_in_flag_man_wait_src_settings"}, /* Clear wait HW I2C settings , */\
+ { 0x45b0, "int_in_flag_man_wait_cf_config"}, /* Clear wait cf config , */\
+ { 0x45c0, "int_in_flag_man_start_mute_audio"}, /* Clear audio mute sequence , */\
+ { 0x45d0, "int_in_flag_cfma_err"}, /* Clear cfma err , */\
+ { 0x45e0, "int_in_flag_cfma_ack"}, /* Clear cfma ack , */\
+ { 0x45f0, "int_in_flag_clk_out_of_range"}, /* Clear flag_clk_out_of_range , */\
+ { 0x4600, "int_in_flag_tdm_error"}, /* Clear tdm error , */\
+ { 0x4610, "int_in_flag_clip_left"}, /* Clear clip left , */\
+ { 0x4620, "int_in_flag_clip_right"}, /* Clear clip right , */\
+ { 0x4630, "int_in_flag_mic_ocpok"}, /* Clear mic ocpok , */\
+ { 0x4800, "int_enable_flag_por"}, /* Enable por , */\
+ { 0x4810, "int_enable_flag_pll_lock"}, /* Enable pll lock , */\
+ { 0x4820, "int_enable_flag_otpok"}, /* Enable OTP alarm , */\
+ { 0x4830, "int_enable_flag_ovpok"}, /* Enable OVP alarm , */\
+ { 0x4840, "int_enable_flag_uvpok"}, /* Enable UVP alarm , */\
+ { 0x4850, "int_enable_flag_clocks_stable"}, /* Enable clocks stable , */\
+ { 0x4860, "int_enable_flag_mtp_busy"}, /* Enable mtp busy , */\
+ { 0x4870, "int_enable_flag_lost_clk"}, /* Enable lost clk , */\
+ { 0x4880, "int_enable_flag_cf_speakererror"}, /* Enable speaker error , */\
+ { 0x4890, "int_enable_flag_cold_started"}, /* Enable cold started , */\
+ { 0x48a0, "int_enable_flag_engage"}, /* Enable amplifier engage , */\
+ { 0x48b0, "int_enable_flag_watchdog_reset"}, /* Enable watchdog , */\
+ { 0x48c0, "int_enable_flag_enbl_amp"}, /* Enable enbl amp , */\
+ { 0x48d0, "int_enable_flag_enbl_ref"}, /* Enable ref enable , */\
+ { 0x48e0, "int_enable_flag_adc10_ready"}, /* Enable Control ADC , */\
+ { 0x48f0, "int_enable_flag_bod_vddd_nok"}, /* Enable BOD , */\
+ { 0x4900, "int_enable_flag_bst_bstcur"}, /* Enable DCDC current limiting , */\
+ { 0x4910, "int_enable_flag_bst_hiz"}, /* Enable DCDC active , */\
+ { 0x4920, "int_enable_flag_bst_ocpok"}, /* Enable DCDC OCP , */\
+ { 0x4930, "int_enable_flag_bst_peakcur"}, /* Enable bst peakcur , */\
+ { 0x4940, "int_enable_flag_bst_voutcomp"}, /* Enable DCDC level 1x , */\
+ { 0x4950, "int_enable_flag_bst_voutcomp86"}, /* Enable DCDC level 1.14x , */\
+ { 0x4960, "int_enable_flag_bst_voutcomp93"}, /* Enable DCDC level 1.07x , */\
+ { 0x4970, "int_enable_flag_rcvldop_ready"}, /* Enable rcvldop ready , */\
+ { 0x4980, "int_enable_flag_ocp_alarm_left"}, /* Enable ocp alarm left , */\
+ { 0x4990, "int_enable_flag_ocp_alarm_right"}, /* Enable ocp alarm right , */\
+ { 0x49a0, "int_enable_flag_man_wait_src_settings"}, /* Enable waits HW I2C settings , */\
+ { 0x49b0, "int_enable_flag_man_wait_cf_config"}, /* Enable man wait cf config , */\
+ { 0x49c0, "int_enable_flag_man_start_mute_audio"}, /* Enable man Audio mute sequence , */\
+ { 0x49d0, "int_enable_flag_cfma_err"}, /* Enable cfma err , */\
+ { 0x49e0, "int_enable_flag_cfma_ack"}, /* Enable cfma ack , */\
+ { 0x49f0, "int_enable_flag_clk_out_of_range"}, /* Enable flag_clk_out_of_range , */\
+ { 0x4a00, "int_enable_flag_tdm_error"}, /* Enable tdm error , */\
+ { 0x4a10, "int_enable_flag_clip_left"}, /* Enable clip left , */\
+ { 0x4a20, "int_enable_flag_clip_right"}, /* Enable clip right , */\
+ { 0x4a30, "int_enable_flag_mic_ocpok"}, /* Enable mic ocpok , */\
+ { 0x4c00, "int_polarity_flag_por"}, /* Polarity por , */\
+ { 0x4c10, "int_polarity_flag_pll_lock"}, /* Polarity pll lock , */\
+ { 0x4c20, "int_polarity_flag_otpok"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "int_polarity_flag_ovpok"}, /* Polarity OVP alarm , */\
+ { 0x4c40, "int_polarity_flag_uvpok"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "int_polarity_flag_clocks_stable"}, /* Polarity clocks stable , */\
+ { 0x4c60, "int_polarity_flag_mtp_busy"}, /* Polarity mtp busy , */\
+ { 0x4c70, "int_polarity_flag_lost_clk"}, /* Polarity lost clk , */\
+ { 0x4c80, "int_polarity_flag_cf_speakererror"}, /* Polarity speaker error , */\
+ { 0x4c90, "int_polarity_flag_cold_started"}, /* Polarity cold started , */\
+ { 0x4ca0, "int_polarity_flag_engage"}, /* Polarity amplifier engage , */\
+ { 0x4cb0, "int_polarity_flag_watchdog_reset"}, /* Polarity watchdog , */\
+ { 0x4cc0, "int_polarity_flag_enbl_amp"}, /* Polarity enbl amp , */\
+ { 0x4cd0, "int_polarity_flag_enbl_ref"}, /* Polarity ref enable , */\
+ { 0x4ce0, "int_polarity_flag_adc10_ready"}, /* Polarity Control ADC , */\
+ { 0x4cf0, "int_polarity_flag_bod_vddd_nok"}, /* Polarity BOD , */\
+ { 0x4d00, "int_polarity_flag_bst_bstcur"}, /* Polarity DCDC current limiting , */\
+ { 0x4d10, "int_polarity_flag_bst_hiz"}, /* Polarity DCDC active , */\
+ { 0x4d20, "int_polarity_flag_bst_ocpok"}, /* Polarity DCDC OCP , */\
+ { 0x4d30, "int_polarity_flag_bst_peakcur"}, /* Polarity bst peakcur , */\
+ { 0x4d40, "int_polarity_flag_bst_voutcomp"}, /* Polarity DCDC level 1x , */\
+ { 0x4d50, "int_polarity_flag_bst_voutcomp86"}, /* Polarity DCDC level 1.14x , */\
+ { 0x4d60, "int_polarity_flag_bst_voutcomp93"}, /* Polarity DCDC level 1.07x , */\
+ { 0x4d70, "int_polarity_flag_rcvldop_ready"}, /* Polarity rcvldop ready , */\
+ { 0x4d80, "int_polarity_flag_ocp_alarm_left"}, /* Polarity ocp alarm left , */\
+ { 0x4d90, "int_polarity_flag_ocp_alarm_right"}, /* Polarity ocp alarm right , */\
+ { 0x4da0, "int_polarity_flag_man_wait_src_settings"}, /* Polarity waits HW I2C settings , */\
+ { 0x4db0, "int_polarity_flag_man_wait_cf_config"}, /* Polarity man wait cf config , */\
+ { 0x4dc0, "int_polarity_flag_man_start_mute_audio"}, /* Polarity man audio mute sequence , */\
+ { 0x4dd0, "int_polarity_flag_cfma_err"}, /* Polarity cfma err , */\
+ { 0x4de0, "int_polarity_flag_cfma_ack"}, /* Polarity cfma ack , */\
+ { 0x4df0, "int_polarity_flag_clk_out_of_range"}, /* Polarity flag_clk_out_of_range , */\
+ { 0x4e00, "int_polarity_flag_tdm_error"}, /* Polarity tdm error , */\
+ { 0x4e10, "int_polarity_flag_clip_left"}, /* Polarity clip left , */\
+ { 0x4e20, "int_polarity_flag_clip_right"}, /* Polarity clip right , */\
+ { 0x4e30, "int_polarity_flag_mic_ocpok"}, /* Polarity mic ocpok , */\
+ { 0x5001, "vbat_prot_attack_time"}, /* Battery protection attack Time , */\
+ { 0x5023, "vbat_prot_thlevel"}, /* Battery protection threshold voltage level , */\
+ { 0x5061, "vbat_prot_max_reduct"}, /* Battery protection maximum reduction , */\
+ { 0x5082, "vbat_prot_release_time"}, /* Battery protection release time , */\
+ { 0x50b1, "vbat_prot_hysterese"}, /* Battery protection hysteresis , */\
+ { 0x50d0, "rst_min_vbat"}, /* Reset clipper - Auto clear , */\
+ { 0x50e0, "sel_vbat"}, /* Battery voltage read out , */\
+ { 0x50f0, "bypass_clipper"}, /* Bypass HW clipper , */\
+ { 0x5100, "batsense_steepness"}, /* Vbat prot steepness , */\
+ { 0x5110, "soft_mute"}, /* Soft mute HW , */\
+ { 0x5120, "cf_mute_left"}, /* Soft mute FW left , */\
+ { 0x5130, "cf_mute_right"}, /* Soft mute FW right , */\
+ { 0x5140, "bypass_hp_left"}, /* Bypass HPF left , */\
+ { 0x5150, "bypass_hp_right"}, /* Bypass HPF right , */\
+ { 0x5160, "enbl_dpsa_left"}, /* Enable DPSA left , */\
+ { 0x5170, "enbl_dpsa_right"}, /* Enable DPSA right , */\
+ { 0x5187, "cf_volume"}, /* FW volume control for primary audio channel , */\
+ { 0x5200, "ctrl_rcv"}, /* Selection receiver , */\
+ { 0x5210, "ctrl_rcv_fb_100k"}, /* Selection of feedback resistor for receiver mode (not for customer), */\
+ { 0x5222, "ctrl_cc"}, /* Clip control setting , */\
+ { 0x5257, "gain"}, /* Amplifier gain , */\
+ { 0x52d0, "ctrl_slopectrl"}, /* Enables slope control , */\
+ { 0x52e1, "ctrl_slope"}, /* Set slope , */\
+ { 0x5301, "dpsa_level"}, /* DPSA threshold levels , */\
+ { 0x5321, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x5340, "clipfast"}, /* Clock selection for HW clipper for battery protection, */\
+ { 0x5350, "bypass_lp"}, /* Bypass the low power filter inside temperature sensor, */\
+ { 0x5360, "enbl_low_latency"}, /* CF low latency outputs for add module , */\
+ { 0x5400, "first_order_mode"}, /* Overrule to 1st order mode of control stage when clipping, */\
+ { 0x5410, "bypass_ctrlloop"}, /* Switch amplifier into open loop configuration , */\
+ { 0x5420, "fb_hz"}, /* Feedback resistor set to high ohmic , */\
+ { 0x5430, "icomp_engage"}, /* Engage of icomp , */\
+ { 0x5440, "ctrl_kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x5450, "icomp_engage_overrule"}, /* To overrule the functional icomp_engage signal during validation, */\
+ { 0x5503, "ctrl_dem"}, /* Enable DEM icomp and DEM one bit dac , */\
+ { 0x5543, "ctrl_dem_mismatch"}, /* Enable DEM icomp mismatch for testing , */\
+ { 0x5581, "dpsa_drive"}, /* Control of the number of power stage sections, total of 4 sections. Each section is 1/4 of the total power stages., */\
+ { 0x560a, "enbl_amp_left"}, /* Switch on the class-D power sections, each part of the analog sections can be switched on/off individually - Left channel, */\
+ { 0x56b0, "enbl_engage_left"}, /* Enables/engage power stage and control loop - left channel, */\
+ { 0x570a, "enbl_amp_right"}, /* Switch on the class-D power sections, each part of the analog sections can be switched on/off individually - Right channel, */\
+ { 0x57b0, "enbl_engage_right"}, /* Enables/engage power stage and control loop - right channel, */\
+ { 0x5800, "hard_mute_left"}, /* Hard mute - PWM module left , */\
+ { 0x5810, "hard_mute_right"}, /* Hard mute - PWM module right , */\
+ { 0x5820, "pwm_shape"}, /* PWM shape , */\
+ { 0x5830, "pwm_bitlength"}, /* PWM bit length in noise shaper , */\
+ { 0x5844, "pwm_delay"}, /* PWM delay bits to set the delay, clockd is 1/(k*2048*fs), */\
+ { 0x5890, "reclock_pwm"}, /* Reclock the pwm signal inside analog , */\
+ { 0x58a0, "reclock_voltsense"}, /* Reclock the voltage sense pwm signal , */\
+ { 0x58b0, "enbl_pwm_phase_shift_left"}, /* Control for pwm phase shift, inverted function - left channel, */\
+ { 0x58c0, "enbl_pwm_phase_shift_right"}, /* Control for pwm phase shift - right channel , */\
+ { 0x5900, "ctrl_rcvldop_pulldown"}, /* Pulldown of LDO (2.7V) , */\
+ { 0x5910, "ctrl_rcvldop_test_comp"}, /* Enable testing of LDO comparator , */\
+ { 0x5920, "ctrl_rcvldop_test_loadedldo"}, /* Load connected to rcvldo , */\
+ { 0x5930, "enbl_rcvldop"}, /* Enables the LDO (2.7) , */\
+ { 0x5a07, "cf_volume_sec"}, /* FW volume control for secondary audio channel , */\
+ { 0x5a87, "sw_profile"}, /* Software profile data , */\
+ { 0x7002, "boost_volt"}, /* Boost voltage , */\
+ { 0x7033, "boost_cur"}, /* Max coil current , */\
+ { 0x7071, "bst_coil_value"}, /* Coil Value , */\
+ { 0x7090, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x70a0, "boost_speed"}, /* Soft ramp up/down , */\
+ { 0x70b2, "dcdc_synchronisation"}, /* DCDC synchronization off + 7 positions , */\
+ { 0x70e0, "dcdcoff_mode"}, /* DCDC on/off , */\
+ { 0x7104, "bst_drive"}, /* Binary coded drive setting for boost converter power stage, */\
+ { 0x7151, "bst_scalecur"}, /* For testing direct control scale current , */\
+ { 0x7174, "bst_slopecur"}, /* For testing direct control slope current , */\
+ { 0x71c1, "bst_slope"}, /* Boost slope speed , */\
+ { 0x71e0, "bst_bypass_bstcur"}, /* Bypass control for boost current settings , */\
+ { 0x71f0, "bst_bypass_bstfoldback"}, /* Bypass control for boost foldback , */\
+ { 0x7200, "enbl_bst_engage"}, /* Enable power stage dcdc controller , */\
+ { 0x7210, "enbl_bst_hizcom"}, /* Enable hiz comparator , */\
+ { 0x7220, "enbl_bst_peak2avg"}, /* Enable boost peak2avg functionality , */\
+ { 0x7230, "enbl_bst_peakcur"}, /* Enable peak current , */\
+ { 0x7240, "enbl_bst_power"}, /* Enable line of the powerstage , */\
+ { 0x7250, "enbl_bst_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x7260, "enbl_bst_voutcomp"}, /* Enable vout comparators , */\
+ { 0x7270, "enbl_bst_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x7280, "enbl_bst_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x7290, "enbl_bst_windac"}, /* Enable window dac , */\
+ { 0x72a5, "bst_windac"}, /* for testing direct control windac , */\
+ { 0x7300, "boost_alg"}, /* Control for boost adaptive loop gain , */\
+ { 0x7311, "boost_loopgain"}, /* DCDC boost loopgain setting , */\
+ { 0x7332, "bst_freq"}, /* DCDC bost frequency control , */\
+ { 0x8001, "sel_clk_cs"}, /* Current sense clock duty cycle control , */\
+ { 0x8021, "micadc_speed"}, /* Current sense clock for MiCADC selection - 32/44.1/48 KHz Fs band only, */\
+ { 0x8040, "cs_dc_offset"}, /* Current sense decimator offset control , */\
+ { 0x8050, "cs_gain_control"}, /* Current sense gain control , */\
+ { 0x8060, "cs_bypass_gc"}, /* Bypasses the CS gain correction , */\
+ { 0x8087, "cs_gain"}, /* Current sense gain , */\
+ { 0x8110, "invertpwm_left"}, /* Current sense common mode feedback pwm invert control for left channel, */\
+ { 0x8122, "cmfb_gain_left"}, /* Current sense common mode feedback control gain for left channel, */\
+ { 0x8154, "cmfb_offset_left"}, /* Current sense common mode feedback control offset for left channel, */\
+ { 0x8200, "enbl_cmfb_right"}, /* Current sense common mode feedback control for right channel, */\
+ { 0x8210, "invertpwm_right"}, /* Current sense common mode feedback pwm invert control for right channel, */\
+ { 0x8222, "cmfb_gain_right"}, /* Current sense common mode feedback control gain for right channel, */\
+ { 0x8254, "cmfb_offset_right"}, /* Current sense common mode feedback control offset for right channel, */\
+ { 0x8305, "cs_ktemp"}, /* Current sense temperature compensation trimming (1 - VALUE*TEMP)*signal, */\
+ { 0x8400, "cs_adc_bsoinv"}, /* Bitstream inversion for current sense ADC , */\
+ { 0x8421, "cs_adc_hifreq"}, /* Frequency mode current sense ADC , */\
+ { 0x8440, "cs_adc_nortz"}, /* Return to zero for current sense ADC , */\
+ { 0x8453, "cs_adc_offset"}, /* Micadc ADC offset setting , */\
+ { 0x8490, "cs_adc_slowdel"}, /* Select delay for current sense ADC (internal decision circuitry), */\
+ { 0x84a4, "cs_adc_gain"}, /* Gain setting for current sense ADC (two's complement), */\
+ { 0x8500, "cs_resonator_enable"}, /* Enable for resonator to improve SRN , */\
+ { 0x8510, "cs_classd_tran_skip"}, /* Skip current sense connection during a classD amplifier transition, */\
+ { 0x8530, "cs_inn_short"}, /* Short current sense negative to common mode , */\
+ { 0x8540, "cs_inp_short"}, /* Short current sense positive to common mode , */\
+ { 0x8550, "cs_ldo_bypass"}, /* Bypass current sense LDO , */\
+ { 0x8560, "cs_ldo_pulldown"}, /* Pull down current sense LDO, only valid if left_enbl_cs_ldo is high, */\
+ { 0x8574, "cs_ldo_voset"}, /* Current sense LDO voltage level setting (two's complement), */\
+ { 0x8600, "enbl_cs_adc_left"}, /* Enable current sense ADC , */\
+ { 0x8610, "enbl_cs_inn1_left"}, /* Enable connection of current sense negative1 , */\
+ { 0x8630, "enbl_cs_inp1_left"}, /* Enable connection of current sense positive1 , */\
+ { 0x8650, "enbl_cs_ldo_left"}, /* Enable current sense LDO , */\
+ { 0x8660, "enbl_cs_nofloating_n_left"}, /* Connect current sense negative to gnda at transitions of booster or classd amplifiers. Otherwise floating (0), */\
+ { 0x8670, "enbl_cs_nofloating_p_left"}, /* Connect current sense positive to gnda at transitions of booster or classd amplifiers. Otherwise floating (0), */\
+ { 0x8680, "enbl_cs_vbatldo_left"}, /* Enable of current sense LDO , */\
+ { 0x8700, "enbl_cs_adc_right"}, /* Enable current sense ADC , */\
+ { 0x8710, "enbl_cs_inn1_right"}, /* Enable connection of current sense negative1 , */\
+ { 0x8730, "enbl_cs_inp1_right"}, /* Enable connection of current sense positive1 , */\
+ { 0x8750, "enbl_cs_ldo_right"}, /* Enable current sense LDO , */\
+ { 0x8760, "enbl_cs_nofloating_n_right"}, /* Connect current sense negative to gnda at transitions of booster or classd amplifiers. Otherwise floating (0), */\
+ { 0x8770, "enbl_cs_nofloating_p_right"}, /* Connect current sense positive to gnda at transitions of booster or classd amplifiers. Otherwise floating (0), */\
+ { 0x8780, "enbl_cs_vbatldo_right"}, /* Enable of current sense LDO , */\
+ { 0x8800, "volsense_pwm_sel"}, /* Voltage sense PWM source selection control , */\
+ { 0x8810, "volsense_dc_offset"}, /* Voltage sense decimator offset control , */\
+ { 0x9000, "cf_rst_dsp"}, /* Reset , */\
+ { 0x9011, "cf_dmem"}, /* Target memory , */\
+ { 0x9030, "cf_aif"}, /* Auto increment , */\
+ { 0x9040, "cf_int"}, /* Interrupt - auto clear , */\
+ { 0x9050, "cf_cgate_off"}, /* Coolflux clock gating disabling control , */\
+ { 0x9080, "cf_req_cmd"}, /* Firmware event request rpc command , */\
+ { 0x9090, "cf_req_reset"}, /* Firmware event request reset restart , */\
+ { 0x90a0, "cf_req_mips"}, /* Firmware event request short on mips , */\
+ { 0x90b0, "cf_req_mute_ready"}, /* Firmware event request mute sequence ready , */\
+ { 0x90c0, "cf_req_volume_ready"}, /* Firmware event request volume ready , */\
+ { 0x90d0, "cf_req_damage"}, /* Firmware event request speaker damage detected , */\
+ { 0x90e0, "cf_req_calibrate_ready"}, /* Firmware event request calibration completed , */\
+ { 0x90f0, "cf_req_reserved"}, /* Firmware event request reserved , */\
+ { 0x910f, "cf_madd"}, /* Memory address , */\
+ { 0x920f, "cf_mema"}, /* Activate memory access , */\
+ { 0x9307, "cf_err"}, /* Error flags , */\
+ { 0x9387, "cf_ack"}, /* Acknowledge of requests , */\
+ { 0x9380, "cf_ack_cmd"}, /* Firmware event acknowledge rpc command , */\
+ { 0x9390, "cf_ack_reset"}, /* Firmware event acknowledge reset restart , */\
+ { 0x93a0, "cf_ack_mips"}, /* Firmware event acknowledge short on mips , */\
+ { 0x93b0, "cf_ack_mute_ready"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x93c0, "cf_ack_volume_ready"}, /* Firmware event acknowledge volume ready , */\
+ { 0x93d0, "cf_ack_damage"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x93e0, "cf_ack_calibrate_ready"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x93f0, "cf_ack_reserved"}, /* Firmware event acknowledge reserved , */\
+ { 0x980f, "ivt_addr0_msb"}, /* Coolflux interrupt vector table address0 MSB , */\
+ { 0x990f, "ivt_addr0_lsb"}, /* Coolflux interrupt vector table address0 LSB , */\
+ { 0x9a0f, "ivt_addr1_msb"}, /* Coolflux interrupt vector table address1 MSB , */\
+ { 0x9b0f, "ivt_addr1_lsb"}, /* Coolflux interrupt vector table address1 LSB , */\
+ { 0x9c0f, "ivt_addr2_msb"}, /* Coolflux interrupt vector table address2 MSB , */\
+ { 0x9d0f, "ivt_addr2_lsb"}, /* Coolflux interrupt vector table address2 LSB , */\
+ { 0x9e0f, "ivt_addr3_msb"}, /* Coolflux interrupt vector table address3 MSB , */\
+ { 0x9f0f, "ivt_addr3_lsb"}, /* Coolflux interrupt vector table address3 LSB , */\
+ { 0xa007, "mtpkey1"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0xa107, "mtpkey2"}, /* MTP KEY2 register , */\
+ { 0xa200, "key01_locked"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "key02_locked"}, /* Indicates KEY2 is locked , */\
+ { 0xa302, "mtp_man_address_in"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0xa330, "man_copy_mtp_to_iic"}, /* Start copying single word from mtp to I2C mtp register, */\
+ { 0xa340, "man_copy_iic_to_mtp"}, /* Start copying single word from I2C mtp register to mtp, */\
+ { 0xa350, "auto_copy_mtp_to_iic"}, /* Start copying all the data from mtp to I2C mtp registers, */\
+ { 0xa360, "auto_copy_iic_to_mtp"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa400, "faim_set_clkws"}, /* Sets the faim controller clock wait state register, */\
+ { 0xa410, "faim_sel_evenrows"}, /* All even rows of the faim are selected, active high, */\
+ { 0xa420, "faim_sel_oddrows"}, /* All odd rows of the faim are selected, all rows in combination with sel_evenrows, */\
+ { 0xa430, "faim_program_only"}, /* Skip the erase access at wr_faim command (write-program-marginread), */\
+ { 0xa440, "faim_erase_only"}, /* Skip the program access at wr_faim command (write-erase-marginread), */\
+ { 0xa50f, "mtp_man_data_out_msb"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "mtp_man_data_out_lsb"}, /* LSB word of MTP manual read data , */\
+ { 0xa70f, "mtp_man_data_in_msb"}, /* MSB word of write data for MTP manual write , */\
+ { 0xa80f, "mtp_man_data_in_lsb"}, /* LSB word of write data for MTP manual write , */\
+ { 0xb010, "bypass_ocpcounter"}, /* Bypass OCP Counter , */\
+ { 0xb020, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0xb030, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0xb040, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0xb050, "bypass_otp"}, /* Bypass OTP , */\
+ { 0xb060, "bypass_lost_clk"}, /* Bypass lost clock detector , */\
+ { 0xb070, "ctrl_vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0xb087, "ocp_threshold"}, /* OCP threshold level , */\
+ { 0xb108, "ext_temp"}, /* External temperature (C) , */\
+ { 0xb190, "ext_temp_sel"}, /* Select temp Speaker calibration , */\
+ { 0xc000, "use_direct_ctrls"}, /* Direct control to overrule several functions for testing, */\
+ { 0xc010, "rst_datapath"}, /* Direct control for datapath reset , */\
+ { 0xc020, "rst_cgu"}, /* Direct control for cgu reset , */\
+ { 0xc038, "enbl_ref"}, /* Switch on the analog references, each part of the references can be switched on/off individually, */\
+ { 0xc0d0, "enbl_ringo"}, /* Enable the ring oscillator for test purpose , */\
+ { 0xc0e0, "use_direct_clk_ctrl"}, /* Direct clock control to overrule several functions for testing, */\
+ { 0xc0f0, "use_direct_pll_ctrl"}, /* Direct PLL control to overrule several functions for testing, */\
+ { 0xc100, "enbl_tsense"}, /* Temperature sensor enable control - I2C direct mode, */\
+ { 0xc110, "tsense_hibias"}, /* Bit to set the biasing in temp sensor to high , */\
+ { 0xc120, "enbl_flag_vbg"}, /* Enable flagging of bandgap out of control , */\
+ { 0xc20f, "abist_offset"}, /* Offset control for ABIST testing (two's complement), */\
+ { 0xc300, "bypasslatch"}, /* Bypass latch , */\
+ { 0xc311, "sourcea"}, /* Set OUTA to , */\
+ { 0xc331, "sourceb"}, /* Set OUTB to , */\
+ { 0xc350, "inverta"}, /* Invert pwma test signal , */\
+ { 0xc360, "invertb"}, /* Invert pwmb test signal , */\
+ { 0xc374, "pulselength"}, /* Pulse length setting test input for amplifier (clock d - k*2048*fs), */\
+ { 0xc3c0, "tdm_enable_loopback"}, /* TDM loopback test , */\
+ { 0xc3d0, "test_abistfft_enbl"}, /* FFT Coolflux , */\
+ { 0xc3e0, "test_pwr_switch"}, /* Test mode for digital power switches core sw/mem sw/micvdd sw, */\
+ { 0xc400, "bst_bypasslatch"}, /* Bypass latch in boost converter , */\
+ { 0xc411, "bst_source"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0xc430, "bst_invertb"}, /* Invert pwmbst test signal , */\
+ { 0xc444, "bst_pulselength"}, /* Pulse length setting test input for boost converter , */\
+ { 0xc490, "test_bst_ctrlsthv"}, /* Test mode for boost control stage , */\
+ { 0xc4a0, "test_bst_iddq"}, /* IDDQ testing in power stage of boost converter , */\
+ { 0xc4b0, "test_bst_rdson"}, /* RDSON testing - boost power stage , */\
+ { 0xc4c0, "test_bst_cvi"}, /* CVI testing - boost power stage , */\
+ { 0xc4d0, "test_bst_ocp"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0), For new ocp (ctrl_reversebst is 1), */\
+ { 0xc4e0, "test_bst_sense"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0xc500, "test_cvi"}, /* Analog BIST, switch choose which transistor will be used as current source (also cross coupled sources possible), */\
+ { 0xc510, "test_discrete"}, /* Test function noise measurement , */\
+ { 0xc520, "test_iddq"}, /* Set the power stages in iddq mode for gate stress., */\
+ { 0xc540, "test_rdson"}, /* Analog BIST, switch to enable Rdson measurement , */\
+ { 0xc550, "test_sdelta"}, /* Analog BIST, noise test , */\
+ { 0xc570, "test_enbl_cs"}, /* Enable for digimux mode of current sense , */\
+ { 0xc600, "enbl_pwm_dcc"}, /* Enables direct control of pwm duty cycle for DCDC power stage, */\
+ { 0xc613, "pwm_dcc_cnt"}, /* Control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0xc650, "enbl_ldo_stress"}, /* Enable stress of internal supply voltages powerstages, */\
+ { 0xc660, "bypass_diosw_ovp"}, /* Bypass ovp for memory switch diosw , */\
+ { 0xc670, "enbl_powerswitch"}, /* Vddd core power switch control - overrules the manager control, */\
+ { 0xc707, "digimuxa_sel"}, /* DigimuxA input selection control routed to GPIO1 (see Digimux list for details), */\
+ { 0xc787, "digimuxb_sel"}, /* DigimuxB input selection control routed to GPIO2 (see Digimux list for details), */\
+ { 0xc807, "digimuxc_sel"}, /* DigimuxC input selection control routed to GPIO3 (see Digimux list for details), */\
+ { 0xc887, "digimuxd_sel"}, /* DigimuxD input selection control routed to GPIO4 (see Digimux list for details), */\
+ { 0xc901, "dio1_ehs"}, /* Speed/load setting for DIO1 IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc921, "dio2_ehs"}, /* Speed/load setting for DIO2 IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc941, "gainio_ehs"}, /* Speed/load setting for GAINIO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc961, "pdmo_ehs"}, /* Speed/load setting for PDMO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc981, "int_ehs"}, /* Speed/load setting for INT IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc9a1, "tdo_ehs"}, /* Speed/load setting for TDO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc9c0, "hs_mode"}, /* I2C high speed mode control , */\
+ { 0xca00, "enbl_anamux1"}, /* Enable anamux1 , */\
+ { 0xca10, "enbl_anamux2"}, /* Enable anamux2 , */\
+ { 0xca20, "enbl_anamux3"}, /* Enable anamux3 , */\
+ { 0xca30, "enbl_anamux4"}, /* Enable anamux4 , */\
+ { 0xca40, "enbl_anamux5"}, /* Enable anamux5 , */\
+ { 0xca50, "enbl_anamux6"}, /* Enable anamux6 , */\
+ { 0xca60, "enbl_anamux7"}, /* Enable anamux7 , */\
+ { 0xca74, "anamux1"}, /* Anamux selection control - anamux on TEST1 , */\
+ { 0xcb04, "anamux2"}, /* Anamux selection control - anamux on TEST2 , */\
+ { 0xcb54, "anamux3"}, /* Anamux selection control - anamux on TEST3 , */\
+ { 0xcba4, "anamux4"}, /* Anamux selection control - anamux on TEST4 , */\
+ { 0xcc04, "anamux5"}, /* Anamux selection control - anamux on TEST5 , */\
+ { 0xcc54, "anamux6"}, /* Anamux selection control - anamux on TEST6 , */\
+ { 0xcca4, "anamux7"}, /* Anamux selection control - anamux on TEST7 , */\
+ { 0xcd05, "pll_seli"}, /* PLL SELI - I2C direct PLL control mode only , */\
+ { 0xcd64, "pll_selp"}, /* PLL SELP - I2C direct PLL control mode only , */\
+ { 0xcdb3, "pll_selr"}, /* PLL SELR - I2C direct PLL control mode only , */\
+ { 0xcdf0, "pll_frm"}, /* PLL free running mode control; 1 in TCB direct control mode, else this control bit, */\
+ { 0xce09, "pll_ndec"}, /* PLL NDEC - I2C direct PLL control mode only , */\
+ { 0xcea0, "pll_mdec_msb"}, /* MSB of pll_mdec - I2C direct PLL control mode only, */\
+ { 0xceb0, "enbl_pll"}, /* Enables PLL in I2C direct PLL control mode only , */\
+ { 0xcec0, "enbl_osc"}, /* Enables OSC1M in I2C direct control mode only , */\
+ { 0xced0, "pll_bypass"}, /* PLL bypass control in I2C direct PLL control mode only, */\
+ { 0xcee0, "pll_directi"}, /* PLL directi control in I2C direct PLL control mode only, */\
+ { 0xcef0, "pll_directo"}, /* PLL directo control in I2C direct PLL control mode only, */\
+ { 0xcf0f, "pll_mdec_lsb"}, /* Bits 15..0 of PLL MDEC are I2C direct PLL control mode only, */\
+ { 0xd006, "pll_pdec"}, /* PLL PDEC - I2C direct PLL control mode only , */\
+ { 0xd10f, "tsig_freq_lsb"}, /* Internal sinus test generator frequency control , */\
+ { 0xd202, "tsig_freq_msb"}, /* Select internal sinus test generator, frequency control msb bits, */\
+ { 0xd230, "inject_tsig"}, /* Control bit to switch to internal sinus test generator, */\
+ { 0xd243, "tsig_gain_left"}, /* Test signal gain for left channel , */\
+ { 0xd283, "tsig_gain_right"}, /* Test signal gain for right channel , */\
+ { 0xd300, "adc10_reset"}, /* Reset for ADC10 - I2C direct control mode , */\
+ { 0xd311, "adc10_test"}, /* Test mode selection signal for ADC10 - I2C direct control mode, */\
+ { 0xd332, "adc10_sel"}, /* Select the input to convert for ADC10 - I2C direct control mode, */\
+ { 0xd364, "adc10_prog_sample"}, /* ADC10 program sample setting - I2C direct control mode, */\
+ { 0xd3b0, "adc10_enbl"}, /* Enable ADC10 - I2C direct control mode , */\
+ { 0xd3c0, "bypass_lp_vbat"}, /* Bypass control for Low pass filter in batt sensor , */\
+ { 0xd409, "data_adc10_tempbat"}, /* ADC 10 data output data for testing , */\
+ { 0xd506, "ctrl_digtoana_hidden"}, /* Spare digital to analog control bits - Hidden , */\
+ { 0xd570, "enbl_clk_out_of_range"}, /* Clock out of range , */\
+ { 0xf000, "calibration_onetime"}, /* Calibration schedule , */\
+ { 0xf010, "calibr_ron_done"}, /* Calibration Ron executed , */\
+ { 0xf020, "calibr_dcdc_api_calibrate"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "calibr_dcdc_delta_sign"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "calibr_dcdc_delta"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "calibr_speaker_info"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf105, "calibr_vout_offset"}, /* DCDC offset calibration 2's complement (key1 protected), */\
+ { 0xf163, "calibr_gain_left"}, /* HW gain module - left channel (2's complement) , */\
+ { 0xf1a5, "calibr_offset_left"}, /* Offset for amplifier, HW gain module - left channel (2's complement), */\
+ { 0xf203, "calibr_gain_right"}, /* HW gain module - right channel (2's complement) , */\
+ { 0xf245, "calibr_offset_right"}, /* Offset for amplifier, HW gain module - right channel (2's complement), */\
+ { 0xf2a3, "calibr_rcvldop_trim"}, /* Trimming of LDO (2.7V) , */\
+ { 0xf307, "calibr_gain_cs_left"}, /* Current sense gain - left channel (signed two's complement format), */\
+ { 0xf387, "calibr_gain_cs_right"}, /* Current sense gain - right channel (signed two's complement format), */\
+ { 0xf40f, "calibr_R25C_L"}, /* Ron resistance of left channel speaker coil , */\
+ { 0xf50f, "calibr_R25C_R"}, /* Ron resistance of right channel speaker coil , */\
+ { 0xf606, "ctrl_offset_a_left"}, /* Offset of left amplifier level shifter A , */\
+ { 0xf686, "ctrl_offset_b_left"}, /* Offset of left amplifier level shifter B , */\
+ { 0xf706, "ctrl_offset_a_right"}, /* Offset of right amplifier level shifter A , */\
+ { 0xf786, "ctrl_offset_b_right"}, /* Offset of right amplifier level shifter B , */\
+ { 0xf806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0xf870, "htol_iic_addr_en"}, /* HTOL I2C address enable control , */\
+ { 0xf884, "calibr_temp_offset"}, /* Temperature offset 2's compliment (key1 protected), */\
+ { 0xf8d2, "calibr_temp_gain"}, /* Temperature gain 2's compliment (key1 protected) , */\
+ { 0xf900, "mtp_lock_dcdcoff_mode"}, /* Disable function dcdcoff_mode , */\
+ { 0xf910, "mtp_lock_enbl_coolflux"}, /* Disable function enbl_coolflux , */\
+ { 0xf920, "mtp_lock_bypass_clipper"}, /* Disable function bypass_clipper , */\
+ { 0xf930, "mtp_lock_max_dcdc_voltage"}, /* Disable programming of max dcdc boost voltage , */\
+ { 0xf943, "calibr_vbg_trim"}, /* Bandgap trimming control , */\
+ { 0xf987, "type_bits_fw"}, /* MTP-control FW - See Firmware I2C API document for details, */\
+ { 0xfa0f, "mtpdataA"}, /* MTPdataA (key1 protected) , */\
+ { 0xfb0f, "mtpdataB"}, /* MTPdataB (key1 protected) , */\
+ { 0xfc0f, "mtpdataC"}, /* MTPdataC (key1 protected) , */\
+ { 0xfd0f, "mtpdataD"}, /* MTPdataD (key1 protected) , */\
+ { 0xfe0f, "mtpdataE"}, /* MTPdataE (key1 protected) , */\
+ { 0xff05, "calibr_osc_delta_ndiv"}, /* Calibration data for OSC1M, signed number representation, */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+enum tfa2_irq {
+ tfa2_irq_stvdds = 0,
+ tfa2_irq_stplls = 1,
+ tfa2_irq_stotds = 2,
+ tfa2_irq_stovds = 3,
+ tfa2_irq_stuvds = 4,
+ tfa2_irq_stclks = 5,
+ tfa2_irq_stmtpb = 6,
+ tfa2_irq_stnoclk = 7,
+ tfa2_irq_stspks = 8,
+ tfa2_irq_stacs = 9,
+ tfa2_irq_stsws = 10,
+ tfa2_irq_stwds = 11,
+ tfa2_irq_stamps = 12,
+ tfa2_irq_starefs = 13,
+ tfa2_irq_stadccr = 14,
+ tfa2_irq_stbodnok = 15,
+ tfa2_irq_stbstcu = 16,
+ tfa2_irq_stbsthi = 17,
+ tfa2_irq_stbstoc = 18,
+ tfa2_irq_stbstpkcur = 19,
+ tfa2_irq_stbstvc = 20,
+ tfa2_irq_stbst86 = 21,
+ tfa2_irq_stbst93 = 22,
+ tfa2_irq_strcvld = 23,
+ tfa2_irq_stocpl = 24,
+ tfa2_irq_stocpr = 25,
+ tfa2_irq_stmwsrc = 26,
+ tfa2_irq_stmwcfc = 27,
+ tfa2_irq_stmwsmu = 28,
+ tfa2_irq_stcfmer = 29,
+ tfa2_irq_stcfmac = 30,
+ tfa2_irq_stclkoor = 31,
+ tfa2_irq_sttdmer = 32,
+ tfa2_irq_stclpl = 33,
+ tfa2_irq_stclpr = 34,
+ tfa2_irq_stocpm = 35,
+ tfa2_irq_max = 36,
+ tfa2_irq_all = -1 /* all irqs */};
+
+#define TFA2_IRQ_NAMETABLE static tfaIrqName_t Tfa2IrqNames[]= {\
+ { 0, "STVDDS"},\
+ { 1, "STPLLS"},\
+ { 2, "STOTDS"},\
+ { 3, "STOVDS"},\
+ { 4, "STUVDS"},\
+ { 5, "STCLKS"},\
+ { 6, "STMTPB"},\
+ { 7, "STNOCLK"},\
+ { 8, "STSPKS"},\
+ { 9, "STACS"},\
+ { 10, "STSWS"},\
+ { 11, "STWDS"},\
+ { 12, "STAMPS"},\
+ { 13, "STAREFS"},\
+ { 14, "STADCCR"},\
+ { 15, "STBODNOK"},\
+ { 16, "STBSTCU"},\
+ { 17, "STBSTHI"},\
+ { 18, "STBSTOC"},\
+ { 19, "STBSTPKCUR"},\
+ { 20, "STBSTVC"},\
+ { 21, "STBST86"},\
+ { 22, "STBST93"},\
+ { 23, "STRCVLD"},\
+ { 24, "STOCPL"},\
+ { 25, "STOCPR"},\
+ { 26, "STMWSRC"},\
+ { 27, "STMWCFC"},\
+ { 28, "STMWSMU"},\
+ { 29, "STCFMER"},\
+ { 30, "STCFMAC"},\
+ { 31, "STCLKOOR"},\
+ { 32, "STTDMER"},\
+ { 33, "STCLPL"},\
+ { 34, "STCLPR"},\
+ { 35, "STOCPM"},\
+ { 36, "36"},\
+};
diff --git a/inc/tfa9872_device_genregs_POR.h b/inc/tfa9872_device_genregs_POR.h
new file mode 100644
index 0000000..4bf88dd
--- /dev/null
+++ b/inc/tfa9872_device_genregs_POR.h
@@ -0,0 +1,125 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9872_DEVICE_GENREGS_H
+#define _TFA9872_DEVICE_GENREGS_H
+
+
+#define TFA9872_SYS_CONTROL0 0x00
+#define TFA9872_SYS_CONTROL1 0x01
+#define TFA9872_SYS_CONTROL2 0x02
+#define TFA9872_DEVICE_REVISION 0x03
+#define TFA9872_CLOCK_CONTROL 0x04
+#define TFA9872_CLOCK_GATING_CONTROL 0x05
+#define TFA9872_SIDE_TONE_CONFIG 0x0d
+#define TFA9872_STATUS_FLAGS0 0x10
+#define TFA9872_STATUS_FLAGS1 0x11
+#define TFA9872_STATUS_FLAGS3 0x13
+#define TFA9872_STATUS_FLAGS4 0x14
+#define TFA9872_BATTERY_VOLTAGE 0x15
+#define TFA9872_TEMPERATURE 0x16
+#define TFA9872_VDDP_VOLTAGE 0x17
+#define TFA9872_TDM_CONFIG0 0x20
+#define TFA9872_TDM_CONFIG1 0x21
+#define TFA9872_TDM_CONFIG2 0x22
+#define TFA9872_TDM_CONFIG3 0x23
+#define TFA9872_TDM_CONFIG6 0x26
+#define TFA9872_TDM_CONFIG7 0x27
+#define TFA9872_PDM_CONFIG0 0x31
+#define TFA9872_INTERRUPT_OUT_REG1 0x40
+#define TFA9872_INTERRUPT_OUT_REG2 0x41
+#define TFA9872_INTERRUPT_OUT_REG3 0x42
+#define TFA9872_INTERRUPT_IN_REG1 0x44
+#define TFA9872_INTERRUPT_IN_REG2 0x45
+#define TFA9872_INTERRUPT_IN_REG3 0x46
+#define TFA9872_INTERRUPT_ENABLE_REG1 0x48
+#define TFA9872_INTERRUPT_ENABLE_REG2 0x49
+#define TFA9872_INTERRUPT_ENABLE_REG3 0x4a
+#define TFA9872_STATUS_POLARITY_REG1 0x4c
+#define TFA9872_STATUS_POLARITY_REG2 0x4d
+#define TFA9872_STATUS_POLARITY_REG3 0x4e
+#define TFA9872_BAT_PROT_CONFIG 0x50
+#define TFA9872_AUDIO_CONTROL 0x51
+#define TFA9872_AMPLIFIER_CONFIG 0x52
+#define TFA9872_PGA_CONTROL0 0x60
+#define TFA9872_GAIN_ATT 0x61
+#define TFA9872_TDM_SOURCE_CTRL 0x68
+#define TFA9872_SAM_CTRL 0x69
+#define TFA9872_STATUS_FLAGS5 0x6e
+#define TFA9872_CURSENSE_COMP 0x6f
+#define TFA9872_DCDC_CONTROL0 0x70
+#define TFA9872_DCDC_CONTROL4 0x74
+#define TFA9872_DCDC_CONTROL5 0x75
+#define TFA9872_MTPKEY2_REG 0xa1
+#define TFA9872_MTP_STATUS 0xa2
+#define TFA9872_KEY_PROTECTED_MTP_CONTROL 0xa3
+#define TFA9872_MTP_DATA_OUT_MSB 0xa5
+#define TFA9872_MTP_DATA_OUT_LSB 0xa6
+#define TFA9872_TEMP_SENSOR_CONFIG 0xb1
+#define TFA9872_SOFTWARE_PROFILE 0xee
+#define TFA9872_SOFTWARE_VSTEP 0xef
+#define TFA9872_KEY2_PROTECTED_MTP0 0xf0
+#define TFA9872_KEY2_PROTECTED_MTP5 0xf5
+#define TFA9872_SYS_CONTROL0_POR 0x0001
+#define TFA9872_SYS_CONTROL1_POR 0x0000
+#define TFA9872_SYS_CONTROL2_POR 0x2828
+#define TFA9872_DEVICE_REVISION_POR 0x3b72
+#define TFA9872_CLOCK_CONTROL_POR 0x0000
+#define TFA9872_CLOCK_GATING_CONTROL_POR 0x1f6a
+#define TFA9872_SIDE_TONE_CONFIG_POR 0x0ebe
+#define TFA9872_STATUS_FLAGS0_POR 0x001d
+#define TFA9872_STATUS_FLAGS1_POR 0x0004
+#define TFA9872_STATUS_FLAGS3_POR 0x000f
+#define TFA9872_STATUS_FLAGS4_POR 0x0000
+#define TFA9872_BATTERY_VOLTAGE_POR 0x03ff
+#define TFA9872_TEMPERATURE_POR 0x0100
+#define TFA9872_VDDP_VOLTAGE_POR 0x0000
+#define TFA9872_TDM_CONFIG0_POR 0x2890
+#define TFA9872_TDM_CONFIG1_POR 0xc1f1
+#define TFA9872_TDM_CONFIG2_POR 0x045c
+#define TFA9872_TDM_CONFIG3_POR 0x0003
+#define TFA9872_TDM_CONFIG6_POR 0x0010
+#define TFA9872_TDM_CONFIG7_POR 0x0001
+#define TFA9872_PDM_CONFIG0_POR 0x0000
+#define TFA9872_INTERRUPT_OUT_REG1_POR 0x0081
+#define TFA9872_INTERRUPT_OUT_REG2_POR 0x0000
+#define TFA9872_INTERRUPT_OUT_REG3_POR 0x0000
+#define TFA9872_INTERRUPT_IN_REG1_POR 0x0000
+#define TFA9872_INTERRUPT_IN_REG2_POR 0x0000
+#define TFA9872_INTERRUPT_IN_REG3_POR 0x0000
+#define TFA9872_INTERRUPT_ENABLE_REG1_POR 0x0001
+#define TFA9872_INTERRUPT_ENABLE_REG2_POR 0x0000
+#define TFA9872_INTERRUPT_ENABLE_REG3_POR 0x0000
+#define TFA9872_STATUS_POLARITY_REG1_POR 0x74e3
+#define TFA9872_STATUS_POLARITY_REG2_POR 0x967b
+#define TFA9872_STATUS_POLARITY_REG3_POR 0x0085
+#define TFA9872_BAT_PROT_CONFIG_POR 0x8091
+#define TFA9872_AUDIO_CONTROL_POR 0x0080
+#define TFA9872_AMPLIFIER_CONFIG_POR 0x7a08
+#define TFA9872_PGA_CONTROL0_POR 0x0000
+#define TFA9872_GAIN_ATT_POR 0x0000
+#define TFA9872_TDM_SOURCE_CTRL_POR 0x0400
+#define TFA9872_SAM_CTRL_POR 0x0000
+#define TFA9872_STATUS_FLAGS5_POR 0x0007
+#define TFA9872_CURSENSE_COMP_POR 0x02e4
+#define TFA9872_DCDC_CONTROL0_POR 0x06e6
+#define TFA9872_DCDC_CONTROL4_POR 0xd913
+#define TFA9872_DCDC_CONTROL5_POR 0x118a
+#define TFA9872_MTPKEY2_REG_POR 0x0000
+#define TFA9872_MTP_STATUS_POR 0x0003
+#define TFA9872_KEY_PROTECTED_MTP_CONTROL_POR 0x0000
+#define TFA9872_MTP_DATA_OUT_MSB_POR 0x0000
+#define TFA9872_MTP_DATA_OUT_LSB_POR 0x0000
+#define TFA9872_TEMP_SENSOR_CONFIG_POR 0x0000
+#define TFA9872_SOFTWARE_PROFILE_POR 0x0000
+#define TFA9872_SOFTWARE_VSTEP_POR 0x0000
+#define TFA9872_KEY2_PROTECTED_MTP0_POR 0x0000
+#define TFA9872_KEY2_PROTECTED_MTP5_POR 0x0000
+
+#endif /* _TFA9872_DEVICE_GENREGS_H */
diff --git a/inc/tfa9872_tfafieldnames.h b/inc/tfa9872_tfafieldnames.h
new file mode 100644
index 0000000..8e943e5
--- /dev/null
+++ b/inc/tfa9872_tfafieldnames.h
@@ -0,0 +1,1221 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9872_TFAFIELDNAMES_H
+#define _TFA9872_TFAFIELDNAMES_H
+
+#define TFA9872_I2CVERSION_N1A 26
+#define TFA9872_I2CVERSION_N1B 29
+#define TFA9872_I2CVERSION_N1B2 25
+
+typedef enum nxpTfa9872BfEnumList {
+ TFA9872_BF_PWDN = 0x0000, /*!< Powerdown selection */
+ TFA9872_BF_I2CR = 0x0010, /*!< I2C Reset - Auto clear */
+ TFA9872_BF_AMPE = 0x0030, /*!< Activate Amplifier */
+ TFA9872_BF_DCA = 0x0040, /*!< Activate DC-to-DC converter */
+ TFA9872_BF_INTP = 0x0071, /*!< Interrupt config */
+ TFA9872_BF_BYPOCP= 0x00b0, /*!< Bypass OCP */
+ TFA9872_BF_TSTOCP= 0x00c0, /*!< OCP testing control */
+ TFA9872_BF_MANSCONF= 0x0120, /*!< I2C configured */
+ TFA9872_BF_MANAOOSC= 0x0140, /*!< Internal osc off at PWDN */
+ TFA9872_BF_MUTETO= 0x01d0, /*!< Time out SB mute sequence */
+ TFA9872_BF_RCVNS = 0x01e0, /*!< Noise shaper selection */
+ TFA9872_BF_AUDFS = 0x0203, /*!< Sample rate (fs) */
+ TFA9872_BF_INPLEV= 0x0240, /*!< TDM output attenuation */
+ TFA9872_BF_FRACTDEL= 0x0255, /*!< V/I Fractional delay */
+ TFA9872_BF_BYPHVBF= 0x02b0, /*!< Bypass HVBAT filter */
+ TFA9872_BF_REV = 0x030f, /*!< Revision info */
+ TFA9872_BF_REFCKEXT= 0x0401, /*!< PLL external ref clock */
+ TFA9872_BF_REFCKSEL= 0x0420, /*!< PLL internal ref clock */
+ TFA9872_BF_SSE = 0x0510, /*!< Enable speaker path */
+ TFA9872_BF_VSE = 0x0530, /*!< Voltage sense */
+ TFA9872_BF_CSE = 0x0550, /*!< Current sense */
+ TFA9872_BF_SSPDME= 0x0560, /*!< Sub-system PDM */
+ TFA9872_BF_PGAE = 0x0580, /*!< Enable PGA chop clock */
+ TFA9872_BF_SSTDME= 0x0590, /*!< Sub-system TDM */
+ TFA9872_BF_SSPBSTE= 0x05a0, /*!< Sub-system boost */
+ TFA9872_BF_SSADCE= 0x05b0, /*!< Sub-system ADC */
+ TFA9872_BF_SSFAIME= 0x05c0, /*!< Sub-system FAIM */
+ TFA9872_BF_STGAIN= 0x0d18, /*!< Side tone gain */
+ TFA9872_BF_STSMUTE= 0x0da0, /*!< Side tone soft mute */
+ TFA9872_BF_ST1C = 0x0db0, /*!< side tone one s complement */
+ TFA9872_BF_VDDS = 0x1000, /*!< POR */
+ TFA9872_BF_PLLS = 0x1010, /*!< PLL lock */
+ TFA9872_BF_OTDS = 0x1020, /*!< OTP alarm */
+ TFA9872_BF_OVDS = 0x1030, /*!< OVP alarm */
+ TFA9872_BF_UVDS = 0x1040, /*!< UVP alarm */
+ TFA9872_BF_CLKS = 0x1050, /*!< Clocks stable */
+ TFA9872_BF_MTPB = 0x1060, /*!< MTP busy */
+ TFA9872_BF_NOCLK = 0x1070, /*!< Lost clock */
+ TFA9872_BF_SWS = 0x10a0, /*!< Amplifier engage */
+ TFA9872_BF_AMPS = 0x10c0, /*!< Amplifier enable */
+ TFA9872_BF_AREFS = 0x10d0, /*!< References enable */
+ TFA9872_BF_ADCCR = 0x10e0, /*!< Control ADC */
+ TFA9872_BF_DCIL = 0x1100, /*!< DCDC current limiting */
+ TFA9872_BF_DCDCA = 0x1110, /*!< DCDC active */
+ TFA9872_BF_DCOCPOK= 0x1120, /*!< DCDC OCP nmos */
+ TFA9872_BF_DCHVBAT= 0x1140, /*!< DCDC level 1x */
+ TFA9872_BF_DCH114= 0x1150, /*!< DCDC level 1.14x */
+ TFA9872_BF_DCH107= 0x1160, /*!< DCDC level 1.07x */
+ TFA9872_BF_STMUTEB= 0x1170, /*!< side tone (un)mute busy */
+ TFA9872_BF_STMUTE= 0x1180, /*!< side tone mute state */
+ TFA9872_BF_TDMLUTER= 0x1190, /*!< TDM LUT error */
+ TFA9872_BF_TDMSTAT= 0x11a2, /*!< TDM status bits */
+ TFA9872_BF_TDMERR= 0x11d0, /*!< TDM error */
+ TFA9872_BF_OCPOAP= 0x1300, /*!< OCPOK pmos A */
+ TFA9872_BF_OCPOAN= 0x1310, /*!< OCPOK nmos A */
+ TFA9872_BF_OCPOBP= 0x1320, /*!< OCPOK pmos B */
+ TFA9872_BF_OCPOBN= 0x1330, /*!< OCPOK nmos B */
+ TFA9872_BF_CLIPAH= 0x1340, /*!< Clipping A to Vddp */
+ TFA9872_BF_CLIPAL= 0x1350, /*!< Clipping A to gnd */
+ TFA9872_BF_CLIPBH= 0x1360, /*!< Clipping B to Vddp */
+ TFA9872_BF_CLIPBL= 0x1370, /*!< Clipping B to gnd */
+ TFA9872_BF_OCDS = 0x1380, /*!< OCP amplifier */
+ TFA9872_BF_CLIPS = 0x1390, /*!< Amplifier clipping */
+ TFA9872_BF_OCPOKMC= 0x13a0, /*!< OCPOK MICVDD */
+ TFA9872_BF_MANALARM= 0x13b0, /*!< Alarm state */
+ TFA9872_BF_MANWAIT1= 0x13c0, /*!< Wait HW I2C settings */
+ TFA9872_BF_MANMUTE= 0x13e0, /*!< Audio mute sequence */
+ TFA9872_BF_MANOPER= 0x13f0, /*!< Operating state */
+ TFA9872_BF_CLKOOR= 0x1420, /*!< External clock status */
+ TFA9872_BF_MANSTATE= 0x1433, /*!< Device manager status */
+ TFA9872_BF_DCMODE= 0x1471, /*!< DCDC mode status bits */
+ TFA9872_BF_BATS = 0x1509, /*!< Battery voltage (V) */
+ TFA9872_BF_TEMPS = 0x1608, /*!< IC Temperature (C) */
+ TFA9872_BF_VDDPS = 0x1709, /*!< IC VDDP voltage ( 1023*VDDP/9.5 V) */
+ TFA9872_BF_TDME = 0x2040, /*!< Enable interface */
+ TFA9872_BF_TDMMODE= 0x2050, /*!< Slave/master */
+ TFA9872_BF_TDMCLINV= 0x2060, /*!< Reception data to BCK clock */
+ TFA9872_BF_TDMFSLN= 0x2073, /*!< FS length (master mode only) */
+ TFA9872_BF_TDMFSPOL= 0x20b0, /*!< FS polarity */
+ TFA9872_BF_TDMNBCK= 0x20c3, /*!< N-BCK's in FS */
+ TFA9872_BF_TDMSLOTS= 0x2103, /*!< N-slots in Frame */
+ TFA9872_BF_TDMSLLN= 0x2144, /*!< N-bits in slot */
+ TFA9872_BF_TDMBRMG= 0x2194, /*!< N-bits remaining */
+ TFA9872_BF_TDMDEL= 0x21e0, /*!< data delay to FS */
+ TFA9872_BF_TDMADJ= 0x21f0, /*!< data adjustment */
+ TFA9872_BF_TDMOOMP= 0x2201, /*!< Received audio compression */
+ TFA9872_BF_TDMSSIZE= 0x2224, /*!< Sample size per slot */
+ TFA9872_BF_TDMTXDFO= 0x2271, /*!< Format unused bits */
+ TFA9872_BF_TDMTXUS0= 0x2291, /*!< Format unused slots DATAO */
+ TFA9872_BF_TDMSPKE= 0x2300, /*!< Control audio tdm channel in 0 (spkr + dcdc) */
+ TFA9872_BF_TDMDCE= 0x2310, /*!< Control audio tdm channel in 1 (dcdc) */
+ TFA9872_BF_TDMCSE= 0x2330, /*!< current sense vbat temperature and vddp feedback */
+ TFA9872_BF_TDMVSE= 0x2340, /*!< Voltage sense vbat temperature and vddp feedback */
+ TFA9872_BF_TDMSPKS= 0x2603, /*!< tdm slot for sink 0 (speaker + dcdc) */
+ TFA9872_BF_TDMDCS= 0x2643, /*!< tdm slot for sink 1 (dcdc) */
+ TFA9872_BF_TDMCSS= 0x26c3, /*!< Slot Position of current sense vbat temperature and vddp feedback */
+ TFA9872_BF_TDMVSS= 0x2703, /*!< Slot Position of Voltage sense vbat temperature and vddp feedback */
+ TFA9872_BF_PDMSTSEL= 0x3111, /*!< Side tone input */
+ TFA9872_BF_ISTVDDS= 0x4000, /*!< Status POR */
+ TFA9872_BF_ISTPLLS= 0x4010, /*!< Status PLL lock */
+ TFA9872_BF_ISTOTDS= 0x4020, /*!< Status OTP alarm */
+ TFA9872_BF_ISTOVDS= 0x4030, /*!< Status OVP alarm */
+ TFA9872_BF_ISTUVDS= 0x4040, /*!< Status UVP alarm */
+ TFA9872_BF_ISTCLKS= 0x4050, /*!< Status clocks stable */
+ TFA9872_BF_ISTMTPB= 0x4060, /*!< Status MTP busy */
+ TFA9872_BF_ISTNOCLK= 0x4070, /*!< Status lost clock */
+ TFA9872_BF_ISTSWS= 0x40a0, /*!< Status amplifier engage */
+ TFA9872_BF_ISTAMPS= 0x40c0, /*!< Status amplifier enable */
+ TFA9872_BF_ISTAREFS= 0x40d0, /*!< Status Ref enable */
+ TFA9872_BF_ISTADCCR= 0x40e0, /*!< Status Control ADC */
+ TFA9872_BF_ISTBSTCU= 0x4100, /*!< Status DCDC current limiting */
+ TFA9872_BF_ISTBSTHI= 0x4110, /*!< Status DCDC active */
+ TFA9872_BF_ISTBSTOC= 0x4120, /*!< Status DCDC OCP */
+ TFA9872_BF_ISTBSTPKCUR= 0x4130, /*!< Status bst peakcur */
+ TFA9872_BF_ISTBSTVC= 0x4140, /*!< Status DCDC level 1x */
+ TFA9872_BF_ISTBST86= 0x4150, /*!< Status DCDC level 1.14x */
+ TFA9872_BF_ISTBST93= 0x4160, /*!< Status DCDC level 1.07x */
+ TFA9872_BF_ISTOCPR= 0x4190, /*!< Status ocp alarm */
+ TFA9872_BF_ISTMWSRC= 0x41a0, /*!< Status Waits HW I2C settings */
+ TFA9872_BF_ISTMWSMU= 0x41c0, /*!< Status Audio mute sequence */
+ TFA9872_BF_ISTCLKOOR= 0x41f0, /*!< Status flag_clk_out_of_range */
+ TFA9872_BF_ISTTDMER= 0x4200, /*!< Status tdm error */
+ TFA9872_BF_ISTCLPR= 0x4220, /*!< Status clip */
+ TFA9872_BF_ISTLP0= 0x4240, /*!< Status low power mode0 */
+ TFA9872_BF_ISTLP1= 0x4250, /*!< Status low power mode1 */
+ TFA9872_BF_ISTLA = 0x4260, /*!< Status low noise detection */
+ TFA9872_BF_ISTVDDPH= 0x4270, /*!< Status VDDP greater than VBAT */
+ TFA9872_BF_ICLVDDS= 0x4400, /*!< Clear POR */
+ TFA9872_BF_ICLPLLS= 0x4410, /*!< Clear PLL lock */
+ TFA9872_BF_ICLOTDS= 0x4420, /*!< Clear OTP alarm */
+ TFA9872_BF_ICLOVDS= 0x4430, /*!< Clear OVP alarm */
+ TFA9872_BF_ICLUVDS= 0x4440, /*!< Clear UVP alarm */
+ TFA9872_BF_ICLCLKS= 0x4450, /*!< Clear clocks stable */
+ TFA9872_BF_ICLMTPB= 0x4460, /*!< Clear mtp busy */
+ TFA9872_BF_ICLNOCLK= 0x4470, /*!< Clear lost clk */
+ TFA9872_BF_ICLSWS= 0x44a0, /*!< Clear amplifier engage */
+ TFA9872_BF_ICLAMPS= 0x44c0, /*!< Clear enbl amp */
+ TFA9872_BF_ICLAREFS= 0x44d0, /*!< Clear ref enable */
+ TFA9872_BF_ICLADCCR= 0x44e0, /*!< Clear control ADC */
+ TFA9872_BF_ICLBSTCU= 0x4500, /*!< Clear DCDC current limiting */
+ TFA9872_BF_ICLBSTHI= 0x4510, /*!< Clear DCDC active */
+ TFA9872_BF_ICLBSTOC= 0x4520, /*!< Clear DCDC OCP */
+ TFA9872_BF_ICLBSTPC= 0x4530, /*!< Clear bst peakcur */
+ TFA9872_BF_ICLBSTVC= 0x4540, /*!< Clear DCDC level 1x */
+ TFA9872_BF_ICLBST86= 0x4550, /*!< Clear DCDC level 1.14x */
+ TFA9872_BF_ICLBST93= 0x4560, /*!< Clear DCDC level 1.07x */
+ TFA9872_BF_ICLOCPR= 0x4590, /*!< Clear ocp alarm */
+ TFA9872_BF_ICLMWSRC= 0x45a0, /*!< Clear wait HW I2C settings */
+ TFA9872_BF_ICLMWSMU= 0x45c0, /*!< Clear audio mute sequence */
+ TFA9872_BF_ICLCLKOOR= 0x45f0, /*!< Clear flag_clk_out_of_range */
+ TFA9872_BF_ICLTDMER= 0x4600, /*!< Clear tdm error */
+ TFA9872_BF_ICLCLPR= 0x4620, /*!< Clear clip */
+ TFA9872_BF_ICLLP0= 0x4640, /*!< Clear low power mode0 */
+ TFA9872_BF_ICLLP1= 0x4650, /*!< Clear low power mode1 */
+ TFA9872_BF_ICLLA = 0x4660, /*!< Clear low noise detection */
+ TFA9872_BF_ICLVDDPH= 0x4670, /*!< Clear VDDP greater then VBAT */
+ TFA9872_BF_IEVDDS= 0x4800, /*!< Enable por */
+ TFA9872_BF_IEPLLS= 0x4810, /*!< Enable pll lock */
+ TFA9872_BF_IEOTDS= 0x4820, /*!< Enable OTP alarm */
+ TFA9872_BF_IEOVDS= 0x4830, /*!< Enable OVP alarm */
+ TFA9872_BF_IEUVDS= 0x4840, /*!< Enable UVP alarm */
+ TFA9872_BF_IECLKS= 0x4850, /*!< Enable clocks stable */
+ TFA9872_BF_IEMTPB= 0x4860, /*!< Enable mtp busy */
+ TFA9872_BF_IENOCLK= 0x4870, /*!< Enable lost clk */
+ TFA9872_BF_IESWS = 0x48a0, /*!< Enable amplifier engage */
+ TFA9872_BF_IEAMPS= 0x48c0, /*!< Enable enbl amp */
+ TFA9872_BF_IEAREFS= 0x48d0, /*!< Enable ref enable */
+ TFA9872_BF_IEADCCR= 0x48e0, /*!< Enable Control ADC */
+ TFA9872_BF_IEBSTCU= 0x4900, /*!< Enable DCDC current limiting */
+ TFA9872_BF_IEBSTHI= 0x4910, /*!< Enable DCDC active */
+ TFA9872_BF_IEBSTOC= 0x4920, /*!< Enable DCDC OCP */
+ TFA9872_BF_IEBSTPC= 0x4930, /*!< Enable bst peakcur */
+ TFA9872_BF_IEBSTVC= 0x4940, /*!< Enable DCDC level 1x */
+ TFA9872_BF_IEBST86= 0x4950, /*!< Enable DCDC level 1.14x */
+ TFA9872_BF_IEBST93= 0x4960, /*!< Enable DCDC level 1.07x */
+ TFA9872_BF_IEOCPR= 0x4990, /*!< Enable ocp alarm */
+ TFA9872_BF_IEMWSRC= 0x49a0, /*!< Enable waits HW I2C settings */
+ TFA9872_BF_IEMWSMU= 0x49c0, /*!< Enable man Audio mute sequence */
+ TFA9872_BF_IECLKOOR= 0x49f0, /*!< Enable flag_clk_out_of_range */
+ TFA9872_BF_IETDMER= 0x4a00, /*!< Enable tdm error */
+ TFA9872_BF_IECLPR= 0x4a20, /*!< Enable clip */
+ TFA9872_BF_IELP0 = 0x4a40, /*!< Enable low power mode0 */
+ TFA9872_BF_IELP1 = 0x4a50, /*!< Enable low power mode1 */
+ TFA9872_BF_IELA = 0x4a60, /*!< Enable low noise detection */
+ TFA9872_BF_IEVDDPH= 0x4a70, /*!< Enable VDDP greater tehn VBAT */
+ TFA9872_BF_IPOVDDS= 0x4c00, /*!< Polarity por */
+ TFA9872_BF_IPOPLLS= 0x4c10, /*!< Polarity pll lock */
+ TFA9872_BF_IPOOTDS= 0x4c20, /*!< Polarity OTP alarm */
+ TFA9872_BF_IPOOVDS= 0x4c30, /*!< Polarity OVP alarm */
+ TFA9872_BF_IPOUVDS= 0x4c40, /*!< Polarity UVP alarm */
+ TFA9872_BF_IPOCLKS= 0x4c50, /*!< Polarity clocks stable */
+ TFA9872_BF_IPOMTPB= 0x4c60, /*!< Polarity mtp busy */
+ TFA9872_BF_IPONOCLK= 0x4c70, /*!< Polarity lost clk */
+ TFA9872_BF_IPOSWS= 0x4ca0, /*!< Polarity amplifier engage */
+ TFA9872_BF_IPOAMPS= 0x4cc0, /*!< Polarity enbl amp */
+ TFA9872_BF_IPOAREFS= 0x4cd0, /*!< Polarity ref enable */
+ TFA9872_BF_IPOADCCR= 0x4ce0, /*!< Polarity Control ADC */
+ TFA9872_BF_IPOBSTCU= 0x4d00, /*!< Polarity DCDC current limiting */
+ TFA9872_BF_IPOBSTHI= 0x4d10, /*!< Polarity DCDC active */
+ TFA9872_BF_IPOBSTOC= 0x4d20, /*!< Polarity DCDC OCP */
+ TFA9872_BF_IPOBSTPC= 0x4d30, /*!< Polarity bst peakcur */
+ TFA9872_BF_IPOBSTVC= 0x4d40, /*!< Polarity DCDC level 1x */
+ TFA9872_BF_IPOBST86= 0x4d50, /*!< Polarity DCDC level 1.14x */
+ TFA9872_BF_IPOBST93= 0x4d60, /*!< Polarity DCDC level 1.07x */
+ TFA9872_BF_IPOOCPR= 0x4d90, /*!< Polarity ocp alarm */
+ TFA9872_BF_IPOMWSRC= 0x4da0, /*!< Polarity waits HW I2C settings */
+ TFA9872_BF_IPOMWSMU= 0x4dc0, /*!< Polarity man audio mute sequence */
+ TFA9872_BF_IPCLKOOR= 0x4df0, /*!< Polarity flag_clk_out_of_range */
+ TFA9872_BF_IPOTDMER= 0x4e00, /*!< Polarity tdm error */
+ TFA9872_BF_IPOCLPR= 0x4e20, /*!< Polarity clip right */
+ TFA9872_BF_IPOLP0= 0x4e40, /*!< Polarity low power mode0 */
+ TFA9872_BF_IPOLP1= 0x4e50, /*!< Polarity low power mode1 */
+ TFA9872_BF_IPOLA = 0x4e60, /*!< Polarity low noise mode */
+ TFA9872_BF_IPOVDDPH= 0x4e70, /*!< Polarity VDDP greater than VBAT */
+ TFA9872_BF_BSSCR = 0x5001, /*!< Battery Safeguard attack time */
+ TFA9872_BF_BSST = 0x5023, /*!< Battery Safeguard threshold voltage level */
+ TFA9872_BF_BSSRL = 0x5061, /*!< Battery Safeguard maximum reduction */
+ TFA9872_BF_BSSR = 0x50e0, /*!< Battery voltage read out */
+ TFA9872_BF_BSSBY = 0x50f0, /*!< Bypass battery safeguard */
+ TFA9872_BF_BSSS = 0x5100, /*!< Vbat prot steepness */
+ TFA9872_BF_INTSMUTE= 0x5110, /*!< Soft mute HW */
+ TFA9872_BF_HPFBYP= 0x5150, /*!< Bypass HPF */
+ TFA9872_BF_DPSA = 0x5170, /*!< Enable DPSA */
+ TFA9872_BF_CLIPCTRL= 0x5222, /*!< Clip control setting */
+ TFA9872_BF_AMPGAIN= 0x5257, /*!< Amplifier gain */
+ TFA9872_BF_SLOPEE= 0x52d0, /*!< Enables slope control */
+ TFA9872_BF_SLOPESET= 0x52e0, /*!< Slope speed setting (bin. coded) */
+ TFA9872_BF_PGAGAIN= 0x6081, /*!< PGA gain selection */
+ TFA9872_BF_PGALPE= 0x60b0, /*!< Lowpass enable */
+ TFA9872_BF_LPM0BYP= 0x6110, /*!< bypass low power idle mode */
+ TFA9872_BF_TDMDCG= 0x6123, /*!< Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE) */
+ TFA9872_BF_TDMSPKG= 0x6163, /*!< Total gain depending on INPLEV setting (channel 0) */
+ TFA9872_BF_STIDLEEN= 0x61b0, /*!< enable idle feature for channel 1 */
+ TFA9872_BF_LNMODE= 0x62e1, /*!< ctrl select mode */
+ TFA9872_BF_LPM1MODE= 0x64e1, /*!< low power mode control */
+ TFA9872_BF_LPM1DIS= 0x65c0, /*!< low power mode1 detector control */
+ TFA9872_BF_TDMSRCMAP= 0x6801, /*!< tdm source mapping */
+ TFA9872_BF_TDMSRCAS= 0x6821, /*!< Sensed value A */
+ TFA9872_BF_TDMSRCBS= 0x6841, /*!< Sensed value B */
+ TFA9872_BF_ANCSEL= 0x6881, /*!< anc input */
+ TFA9872_BF_ANC1C = 0x68a0, /*!< ANC one s complement */
+ TFA9872_BF_SAMMODE= 0x6901, /*!< sam enable */
+ TFA9872_BF_SAMSEL= 0x6920, /*!< sam source */
+ TFA9872_BF_PDMOSELH= 0x6931, /*!< pdm out value when pdm_clk is higth */
+ TFA9872_BF_PDMOSELL= 0x6951, /*!< pdm out value when pdm_clk is low */
+ TFA9872_BF_SAMOSEL= 0x6970, /*!< ram output on mode sam and audio */
+ TFA9872_BF_LP0 = 0x6e00, /*!< low power mode 0 detection */
+ TFA9872_BF_LP1 = 0x6e10, /*!< low power mode 1 detection */
+ TFA9872_BF_LA = 0x6e20, /*!< low amplitude detection */
+ TFA9872_BF_VDDPH = 0x6e30, /*!< vddp greater than vbat */
+ TFA9872_BF_DELCURCOMP= 0x6f02, /*!< delay to allign compensation signal with current sense signal */
+ TFA9872_BF_SIGCURCOMP= 0x6f40, /*!< polarity of compensation for current sense */
+ TFA9872_BF_ENCURCOMP= 0x6f50, /*!< enable current sense compensation */
+ TFA9872_BF_SELCLPPWM= 0x6f60, /*!< Select pwm clip flag */
+ TFA9872_BF_LVLCLPPWM= 0x6f72, /*!< set the amount of pwm pulse that may be skipped before clip-flag is triggered */
+ TFA9872_BF_DCVOS = 0x7002, /*!< Second boost voltage level */
+ TFA9872_BF_DCMCC = 0x7033, /*!< Max coil current */
+ TFA9872_BF_DCCV = 0x7071, /*!< Slope compensation current, represents LxF (inductance x frequency) value */
+ TFA9872_BF_DCIE = 0x7090, /*!< Adaptive boost mode */
+ TFA9872_BF_DCSR = 0x70a0, /*!< Soft ramp up/down */
+ TFA9872_BF_DCDIS = 0x70e0, /*!< DCDC on/off */
+ TFA9872_BF_DCPWM = 0x70f0, /*!< DCDC PWM only mode */
+ TFA9872_BF_DCVOF = 0x7402, /*!< 1st boost voltage level */
+ TFA9872_BF_DCTRACK= 0x7430, /*!< Boost algorithm selection, effective only when boost_intelligent is set to 1 */
+ TFA9872_BF_DCTRIP= 0x7444, /*!< 1st Adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9872_BF_DCHOLD= 0x7494, /*!< Hold time for DCDC booster, effective only when boost_intelligent is set to 1 */
+ TFA9872_BF_DCTRIP2= 0x7534, /*!< 2nd Adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9872_BF_DCTRIPT= 0x7584, /*!< Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1 */
+ TFA9872_BF_MTPK = 0xa107, /*!< MTP KEY2 register */
+ TFA9872_BF_KEY1LOCKED= 0xa200, /*!< Indicates KEY1 is locked */
+ TFA9872_BF_KEY2LOCKED= 0xa210, /*!< Indicates KEY2 is locked */
+ TFA9872_BF_CMTPI = 0xa350, /*!< Start copying all the data from mtp to I2C mtp registers */
+ TFA9872_BF_CIMTP = 0xa360, /*!< Start copying data from I2C mtp registers to mtp */
+ TFA9872_BF_MTPRDMSB= 0xa50f, /*!< MSB word of MTP manual read data */
+ TFA9872_BF_MTPRDLSB= 0xa60f, /*!< LSB word of MTP manual read data */
+ TFA9872_BF_EXTTS = 0xb108, /*!< External temperature (C) */
+ TFA9872_BF_TROS = 0xb190, /*!< Select temp Speaker calibration */
+ TFA9872_BF_SWPROFIL= 0xee0f, /*!< Software profile data */
+ TFA9872_BF_SWVSTEP= 0xef0f, /*!< Software vstep information */
+ TFA9872_BF_MTPOTC= 0xf000, /*!< Calibration schedule */
+ TFA9872_BF_MTPEX = 0xf010, /*!< Calibration Ron executed */
+ TFA9872_BF_DCMCCAPI= 0xf020, /*!< Calibration current limit DCDC */
+ TFA9872_BF_DCMCCSB= 0xf030, /*!< Sign bit for delta calibration current limit DCDC */
+ TFA9872_BF_USERDEF= 0xf042, /*!< Calibration delta current limit DCDC */
+ TFA9872_BF_CUSTINFO= 0xf078, /*!< Reserved space for allowing customer to store speaker information */
+ TFA9872_BF_R25C = 0xf50f, /*!< Ron resistance of speaker coil */
+} nxpTfa9872BfEnumList_t;
+#define TFA9872_NAMETABLE static tfaBfName_t Tfa9872DatasheetNames[]= {\
+ { 0x0, "PWDN"}, /* Powerdown selection , */\
+ { 0x10, "I2CR"}, /* I2C Reset - Auto clear , */\
+ { 0x30, "AMPE"}, /* Activate Amplifier , */\
+ { 0x40, "DCA"}, /* Activate DC-to-DC converter , */\
+ { 0x71, "INTP"}, /* Interrupt config , */\
+ { 0xb0, "BYPOCP"}, /* Bypass OCP , */\
+ { 0xc0, "TSTOCP"}, /* OCP testing control , */\
+ { 0x120, "MANSCONF"}, /* I2C configured , */\
+ { 0x140, "MANAOOSC"}, /* Internal osc off at PWDN , */\
+ { 0x1d0, "MUTETO"}, /* Time out SB mute sequence , */\
+ { 0x1e0, "RCVNS"}, /* Noise shaper selection , */\
+ { 0x203, "AUDFS"}, /* Sample rate (fs) , */\
+ { 0x240, "INPLEV"}, /* TDM output attenuation , */\
+ { 0x255, "FRACTDEL"}, /* V/I Fractional delay , */\
+ { 0x2b0, "BYPHVBF"}, /* Bypass HVBAT filter , */\
+ { 0x30f, "REV"}, /* Revision info , */\
+ { 0x401, "REFCKEXT"}, /* PLL external ref clock , */\
+ { 0x420, "REFCKSEL"}, /* PLL internal ref clock , */\
+ { 0x510, "SSE"}, /* Enable speaker path , */\
+ { 0x530, "VSE"}, /* Voltage sense , */\
+ { 0x550, "CSE"}, /* Current sense , */\
+ { 0x560, "SSPDME"}, /* Sub-system PDM , */\
+ { 0x580, "PGAE"}, /* Enable PGA chop clock , */\
+ { 0x590, "SSTDME"}, /* Sub-system TDM , */\
+ { 0x5a0, "SSPBSTE"}, /* Sub-system boost , */\
+ { 0x5b0, "SSADCE"}, /* Sub-system ADC , */\
+ { 0x5c0, "SSFAIME"}, /* Sub-system FAIM , */\
+ { 0xd18, "STGAIN"}, /* Side tone gain , */\
+ { 0xda0, "STSMUTE"}, /* Side tone soft mute , */\
+ { 0xdb0, "ST1C"}, /* side tone one s complement , */\
+ { 0x1000, "VDDS"}, /* POR , */\
+ { 0x1010, "PLLS"}, /* PLL lock , */\
+ { 0x1020, "OTDS"}, /* OTP alarm , */\
+ { 0x1030, "OVDS"}, /* OVP alarm , */\
+ { 0x1040, "UVDS"}, /* UVP alarm , */\
+ { 0x1050, "CLKS"}, /* Clocks stable , */\
+ { 0x1060, "MTPB"}, /* MTP busy , */\
+ { 0x1070, "NOCLK"}, /* Lost clock , */\
+ { 0x10a0, "SWS"}, /* Amplifier engage , */\
+ { 0x10c0, "AMPS"}, /* Amplifier enable , */\
+ { 0x10d0, "AREFS"}, /* References enable , */\
+ { 0x10e0, "ADCCR"}, /* Control ADC , */\
+ { 0x1100, "DCIL"}, /* DCDC current limiting , */\
+ { 0x1110, "DCDCA"}, /* DCDC active , */\
+ { 0x1120, "DCOCPOK"}, /* DCDC OCP nmos , */\
+ { 0x1140, "DCHVBAT"}, /* DCDC level 1x , */\
+ { 0x1150, "DCH114"}, /* DCDC level 1.14x , */\
+ { 0x1160, "DCH107"}, /* DCDC level 1.07x , */\
+ { 0x1170, "STMUTEB"}, /* side tone (un)mute busy , */\
+ { 0x1180, "STMUTE"}, /* side tone mute state , */\
+ { 0x1190, "TDMLUTER"}, /* TDM LUT error , */\
+ { 0x11a2, "TDMSTAT"}, /* TDM status bits , */\
+ { 0x11d0, "TDMERR"}, /* TDM error , */\
+ { 0x1300, "OCPOAP"}, /* OCPOK pmos A , */\
+ { 0x1310, "OCPOAN"}, /* OCPOK nmos A , */\
+ { 0x1320, "OCPOBP"}, /* OCPOK pmos B , */\
+ { 0x1330, "OCPOBN"}, /* OCPOK nmos B , */\
+ { 0x1340, "CLIPAH"}, /* Clipping A to Vddp , */\
+ { 0x1350, "CLIPAL"}, /* Clipping A to gnd , */\
+ { 0x1360, "CLIPBH"}, /* Clipping B to Vddp , */\
+ { 0x1370, "CLIPBL"}, /* Clipping B to gnd , */\
+ { 0x1380, "OCDS"}, /* OCP amplifier , */\
+ { 0x1390, "CLIPS"}, /* Amplifier clipping , */\
+ { 0x13a0, "OCPOKMC"}, /* OCPOK MICVDD , */\
+ { 0x13b0, "MANALARM"}, /* Alarm state , */\
+ { 0x13c0, "MANWAIT1"}, /* Wait HW I2C settings , */\
+ { 0x13e0, "MANMUTE"}, /* Audio mute sequence , */\
+ { 0x13f0, "MANOPER"}, /* Operating state , */\
+ { 0x1420, "CLKOOR"}, /* External clock status , */\
+ { 0x1433, "MANSTATE"}, /* Device manager status , */\
+ { 0x1471, "DCMODE"}, /* DCDC mode status bits , */\
+ { 0x1509, "BATS"}, /* Battery voltage (V) , */\
+ { 0x1608, "TEMPS"}, /* IC Temperature (C) , */\
+ { 0x1709, "VDDPS"}, /* IC VDDP voltage ( 1023*VDDP/9.5 V) , */\
+ { 0x2040, "TDME"}, /* Enable interface , */\
+ { 0x2050, "TDMMODE"}, /* Slave/master , */\
+ { 0x2060, "TDMCLINV"}, /* Reception data to BCK clock , */\
+ { 0x2073, "TDMFSLN"}, /* FS length (master mode only) , */\
+ { 0x20b0, "TDMFSPOL"}, /* FS polarity , */\
+ { 0x20c3, "TDMNBCK"}, /* N-BCK's in FS , */\
+ { 0x2103, "TDMSLOTS"}, /* N-slots in Frame , */\
+ { 0x2144, "TDMSLLN"}, /* N-bits in slot , */\
+ { 0x2194, "TDMBRMG"}, /* N-bits remaining , */\
+ { 0x21e0, "TDMDEL"}, /* data delay to FS , */\
+ { 0x21f0, "TDMADJ"}, /* data adjustment , */\
+ { 0x2201, "TDMOOMP"}, /* Received audio compression , */\
+ { 0x2224, "TDMSSIZE"}, /* Sample size per slot , */\
+ { 0x2271, "TDMTXDFO"}, /* Format unused bits , */\
+ { 0x2291, "TDMTXUS0"}, /* Format unused slots DATAO , */\
+ { 0x2300, "TDMSPKE"}, /* Control audio tdm channel in 0 (spkr + dcdc) , */\
+ { 0x2310, "TDMDCE"}, /* Control audio tdm channel in 1 (dcdc) , */\
+ { 0x2330, "TDMCSE"}, /* current sense vbat temperature and vddp feedback , */\
+ { 0x2340, "TDMVSE"}, /* Voltage sense vbat temperature and vddp feedback , */\
+ { 0x2603, "TDMSPKS"}, /* tdm slot for sink 0 (speaker + dcdc) , */\
+ { 0x2643, "TDMDCS"}, /* tdm slot for sink 1 (dcdc) , */\
+ { 0x26c3, "TDMCSS"}, /* Slot Position of current sense vbat temperature and vddp feedback, */\
+ { 0x2703, "TDMVSS"}, /* Slot Position of Voltage sense vbat temperature and vddp feedback, */\
+ { 0x3111, "PDMSTSEL"}, /* Side tone input , */\
+ { 0x4000, "ISTVDDS"}, /* Status POR , */\
+ { 0x4010, "ISTPLLS"}, /* Status PLL lock , */\
+ { 0x4020, "ISTOTDS"}, /* Status OTP alarm , */\
+ { 0x4030, "ISTOVDS"}, /* Status OVP alarm , */\
+ { 0x4040, "ISTUVDS"}, /* Status UVP alarm , */\
+ { 0x4050, "ISTCLKS"}, /* Status clocks stable , */\
+ { 0x4060, "ISTMTPB"}, /* Status MTP busy , */\
+ { 0x4070, "ISTNOCLK"}, /* Status lost clock , */\
+ { 0x40a0, "ISTSWS"}, /* Status amplifier engage , */\
+ { 0x40c0, "ISTAMPS"}, /* Status amplifier enable , */\
+ { 0x40d0, "ISTAREFS"}, /* Status Ref enable , */\
+ { 0x40e0, "ISTADCCR"}, /* Status Control ADC , */\
+ { 0x4100, "ISTBSTCU"}, /* Status DCDC current limiting , */\
+ { 0x4110, "ISTBSTHI"}, /* Status DCDC active , */\
+ { 0x4120, "ISTBSTOC"}, /* Status DCDC OCP , */\
+ { 0x4130, "ISTBSTPKCUR"}, /* Status bst peakcur , */\
+ { 0x4140, "ISTBSTVC"}, /* Status DCDC level 1x , */\
+ { 0x4150, "ISTBST86"}, /* Status DCDC level 1.14x , */\
+ { 0x4160, "ISTBST93"}, /* Status DCDC level 1.07x , */\
+ { 0x4190, "ISTOCPR"}, /* Status ocp alarm , */\
+ { 0x41a0, "ISTMWSRC"}, /* Status Waits HW I2C settings , */\
+ { 0x41c0, "ISTMWSMU"}, /* Status Audio mute sequence , */\
+ { 0x41f0, "ISTCLKOOR"}, /* Status flag_clk_out_of_range , */\
+ { 0x4200, "ISTTDMER"}, /* Status tdm error , */\
+ { 0x4220, "ISTCLPR"}, /* Status clip , */\
+ { 0x4240, "ISTLP0"}, /* Status low power mode0 , */\
+ { 0x4250, "ISTLP1"}, /* Status low power mode1 , */\
+ { 0x4260, "ISTLA"}, /* Status low noise detection , */\
+ { 0x4270, "ISTVDDPH"}, /* Status VDDP greater than VBAT , */\
+ { 0x4400, "ICLVDDS"}, /* Clear POR , */\
+ { 0x4410, "ICLPLLS"}, /* Clear PLL lock , */\
+ { 0x4420, "ICLOTDS"}, /* Clear OTP alarm , */\
+ { 0x4430, "ICLOVDS"}, /* Clear OVP alarm , */\
+ { 0x4440, "ICLUVDS"}, /* Clear UVP alarm , */\
+ { 0x4450, "ICLCLKS"}, /* Clear clocks stable , */\
+ { 0x4460, "ICLMTPB"}, /* Clear mtp busy , */\
+ { 0x4470, "ICLNOCLK"}, /* Clear lost clk , */\
+ { 0x44a0, "ICLSWS"}, /* Clear amplifier engage , */\
+ { 0x44c0, "ICLAMPS"}, /* Clear enbl amp , */\
+ { 0x44d0, "ICLAREFS"}, /* Clear ref enable , */\
+ { 0x44e0, "ICLADCCR"}, /* Clear control ADC , */\
+ { 0x4500, "ICLBSTCU"}, /* Clear DCDC current limiting , */\
+ { 0x4510, "ICLBSTHI"}, /* Clear DCDC active , */\
+ { 0x4520, "ICLBSTOC"}, /* Clear DCDC OCP , */\
+ { 0x4530, "ICLBSTPC"}, /* Clear bst peakcur , */\
+ { 0x4540, "ICLBSTVC"}, /* Clear DCDC level 1x , */\
+ { 0x4550, "ICLBST86"}, /* Clear DCDC level 1.14x , */\
+ { 0x4560, "ICLBST93"}, /* Clear DCDC level 1.07x , */\
+ { 0x4590, "ICLOCPR"}, /* Clear ocp alarm , */\
+ { 0x45a0, "ICLMWSRC"}, /* Clear wait HW I2C settings , */\
+ { 0x45c0, "ICLMWSMU"}, /* Clear audio mute sequence , */\
+ { 0x45f0, "ICLCLKOOR"}, /* Clear flag_clk_out_of_range , */\
+ { 0x4600, "ICLTDMER"}, /* Clear tdm error , */\
+ { 0x4620, "ICLCLPR"}, /* Clear clip , */\
+ { 0x4640, "ICLLP0"}, /* Clear low power mode0 , */\
+ { 0x4650, "ICLLP1"}, /* Clear low power mode1 , */\
+ { 0x4660, "ICLLA"}, /* Clear low noise detection , */\
+ { 0x4670, "ICLVDDPH"}, /* Clear VDDP greater then VBAT , */\
+ { 0x4800, "IEVDDS"}, /* Enable por , */\
+ { 0x4810, "IEPLLS"}, /* Enable pll lock , */\
+ { 0x4820, "IEOTDS"}, /* Enable OTP alarm , */\
+ { 0x4830, "IEOVDS"}, /* Enable OVP alarm , */\
+ { 0x4840, "IEUVDS"}, /* Enable UVP alarm , */\
+ { 0x4850, "IECLKS"}, /* Enable clocks stable , */\
+ { 0x4860, "IEMTPB"}, /* Enable mtp busy , */\
+ { 0x4870, "IENOCLK"}, /* Enable lost clk , */\
+ { 0x48a0, "IESWS"}, /* Enable amplifier engage , */\
+ { 0x48c0, "IEAMPS"}, /* Enable enbl amp , */\
+ { 0x48d0, "IEAREFS"}, /* Enable ref enable , */\
+ { 0x48e0, "IEADCCR"}, /* Enable Control ADC , */\
+ { 0x4900, "IEBSTCU"}, /* Enable DCDC current limiting , */\
+ { 0x4910, "IEBSTHI"}, /* Enable DCDC active , */\
+ { 0x4920, "IEBSTOC"}, /* Enable DCDC OCP , */\
+ { 0x4930, "IEBSTPC"}, /* Enable bst peakcur , */\
+ { 0x4940, "IEBSTVC"}, /* Enable DCDC level 1x , */\
+ { 0x4950, "IEBST86"}, /* Enable DCDC level 1.14x , */\
+ { 0x4960, "IEBST93"}, /* Enable DCDC level 1.07x , */\
+ { 0x4990, "IEOCPR"}, /* Enable ocp alarm , */\
+ { 0x49a0, "IEMWSRC"}, /* Enable waits HW I2C settings , */\
+ { 0x49c0, "IEMWSMU"}, /* Enable man Audio mute sequence , */\
+ { 0x49f0, "IECLKOOR"}, /* Enable flag_clk_out_of_range , */\
+ { 0x4a00, "IETDMER"}, /* Enable tdm error , */\
+ { 0x4a20, "IECLPR"}, /* Enable clip , */\
+ { 0x4a40, "IELP0"}, /* Enable low power mode0 , */\
+ { 0x4a50, "IELP1"}, /* Enable low power mode1 , */\
+ { 0x4a60, "IELA"}, /* Enable low noise detection , */\
+ { 0x4a70, "IEVDDPH"}, /* Enable VDDP greater tehn VBAT , */\
+ { 0x4c00, "IPOVDDS"}, /* Polarity por , */\
+ { 0x4c10, "IPOPLLS"}, /* Polarity pll lock , */\
+ { 0x4c20, "IPOOTDS"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "IPOOVDS"}, /* Polarity OVP alarm , */\
+ { 0x4c40, "IPOUVDS"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "IPOCLKS"}, /* Polarity clocks stable , */\
+ { 0x4c60, "IPOMTPB"}, /* Polarity mtp busy , */\
+ { 0x4c70, "IPONOCLK"}, /* Polarity lost clk , */\
+ { 0x4ca0, "IPOSWS"}, /* Polarity amplifier engage , */\
+ { 0x4cc0, "IPOAMPS"}, /* Polarity enbl amp , */\
+ { 0x4cd0, "IPOAREFS"}, /* Polarity ref enable , */\
+ { 0x4ce0, "IPOADCCR"}, /* Polarity Control ADC , */\
+ { 0x4d00, "IPOBSTCU"}, /* Polarity DCDC current limiting , */\
+ { 0x4d10, "IPOBSTHI"}, /* Polarity DCDC active , */\
+ { 0x4d20, "IPOBSTOC"}, /* Polarity DCDC OCP , */\
+ { 0x4d30, "IPOBSTPC"}, /* Polarity bst peakcur , */\
+ { 0x4d40, "IPOBSTVC"}, /* Polarity DCDC level 1x , */\
+ { 0x4d50, "IPOBST86"}, /* Polarity DCDC level 1.14x , */\
+ { 0x4d60, "IPOBST93"}, /* Polarity DCDC level 1.07x , */\
+ { 0x4d90, "IPOOCPR"}, /* Polarity ocp alarm , */\
+ { 0x4da0, "IPOMWSRC"}, /* Polarity waits HW I2C settings , */\
+ { 0x4dc0, "IPOMWSMU"}, /* Polarity man audio mute sequence , */\
+ { 0x4df0, "IPCLKOOR"}, /* Polarity flag_clk_out_of_range , */\
+ { 0x4e00, "IPOTDMER"}, /* Polarity tdm error , */\
+ { 0x4e20, "IPOCLPR"}, /* Polarity clip right , */\
+ { 0x4e40, "IPOLP0"}, /* Polarity low power mode0 , */\
+ { 0x4e50, "IPOLP1"}, /* Polarity low power mode1 , */\
+ { 0x4e60, "IPOLA"}, /* Polarity low noise mode , */\
+ { 0x4e70, "IPOVDDPH"}, /* Polarity VDDP greater than VBAT , */\
+ { 0x5001, "BSSCR"}, /* Battery Safeguard attack time , */\
+ { 0x5023, "BSST"}, /* Battery Safeguard threshold voltage level , */\
+ { 0x5061, "BSSRL"}, /* Battery Safeguard maximum reduction , */\
+ { 0x50e0, "BSSR"}, /* Battery voltage read out , */\
+ { 0x50f0, "BSSBY"}, /* Bypass battery safeguard , */\
+ { 0x5100, "BSSS"}, /* Vbat prot steepness , */\
+ { 0x5110, "INTSMUTE"}, /* Soft mute HW , */\
+ { 0x5150, "HPFBYP"}, /* Bypass HPF , */\
+ { 0x5170, "DPSA"}, /* Enable DPSA , */\
+ { 0x5222, "CLIPCTRL"}, /* Clip control setting , */\
+ { 0x5257, "AMPGAIN"}, /* Amplifier gain , */\
+ { 0x52d0, "SLOPEE"}, /* Enables slope control , */\
+ { 0x52e0, "SLOPESET"}, /* Slope speed setting (bin. coded) , */\
+ { 0x6081, "PGAGAIN"}, /* PGA gain selection , */\
+ { 0x60b0, "PGALPE"}, /* Lowpass enable , */\
+ { 0x6110, "LPM0BYP"}, /* bypass low power idle mode , */\
+ { 0x6123, "TDMDCG"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x6163, "TDMSPKG"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x61b0, "STIDLEEN"}, /* enable idle feature for channel 1 , */\
+ { 0x62e1, "LNMODE"}, /* ctrl select mode , */\
+ { 0x64e1, "LPM1MODE"}, /* low power mode control , */\
+ { 0x65c0, "LPM1DIS"}, /* low power mode1 detector control , */\
+ { 0x6801, "TDMSRCMAP"}, /* tdm source mapping , */\
+ { 0x6821, "TDMSRCAS"}, /* Sensed value A , */\
+ { 0x6841, "TDMSRCBS"}, /* Sensed value B , */\
+ { 0x6881, "ANCSEL"}, /* anc input , */\
+ { 0x68a0, "ANC1C"}, /* ANC one s complement , */\
+ { 0x6901, "SAMMODE"}, /* sam enable , */\
+ { 0x6920, "SAMSEL"}, /* sam source , */\
+ { 0x6931, "PDMOSELH"}, /* pdm out value when pdm_clk is higth , */\
+ { 0x6951, "PDMOSELL"}, /* pdm out value when pdm_clk is low , */\
+ { 0x6970, "SAMOSEL"}, /* ram output on mode sam and audio , */\
+ { 0x6e00, "LP0"}, /* low power mode 0 detection , */\
+ { 0x6e10, "LP1"}, /* low power mode 1 detection , */\
+ { 0x6e20, "LA"}, /* low amplitude detection , */\
+ { 0x6e30, "VDDPH"}, /* vddp greater than vbat , */\
+ { 0x6f02, "DELCURCOMP"}, /* delay to allign compensation signal with current sense signal, */\
+ { 0x6f40, "SIGCURCOMP"}, /* polarity of compensation for current sense , */\
+ { 0x6f50, "ENCURCOMP"}, /* enable current sense compensation , */\
+ { 0x6f60, "SELCLPPWM"}, /* Select pwm clip flag , */\
+ { 0x6f72, "LVLCLPPWM"}, /* set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7002, "DCVOS"}, /* Second boost voltage level , */\
+ { 0x7033, "DCMCC"}, /* Max coil current , */\
+ { 0x7071, "DCCV"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7090, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x70a0, "DCSR"}, /* Soft ramp up/down , */\
+ { 0x70e0, "DCDIS"}, /* DCDC on/off , */\
+ { 0x70f0, "DCPWM"}, /* DCDC PWM only mode , */\
+ { 0x7402, "DCVOF"}, /* 1st boost voltage level , */\
+ { 0x7430, "DCTRACK"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7444, "DCTRIP"}, /* 1st Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7494, "DCHOLD"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x7534, "DCTRIP2"}, /* 2nd Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7584, "DCTRIPT"}, /* Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0xa107, "MTPK"}, /* MTP KEY2 register , */\
+ { 0xa200, "KEY1LOCKED"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "KEY2LOCKED"}, /* Indicates KEY2 is locked , */\
+ { 0xa350, "CMTPI"}, /* Start copying all the data from mtp to I2C mtp registers, */\
+ { 0xa360, "CIMTP"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa50f, "MTPRDMSB"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "MTPRDLSB"}, /* LSB word of MTP manual read data , */\
+ { 0xb108, "EXTTS"}, /* External temperature (C) , */\
+ { 0xb190, "TROS"}, /* Select temp Speaker calibration , */\
+ { 0xee0f, "SWPROFIL"}, /* Software profile data , */\
+ { 0xef0f, "SWVSTEP"}, /* Software vstep information , */\
+ { 0xf000, "MTPOTC"}, /* Calibration schedule , */\
+ { 0xf010, "MTPEX"}, /* Calibration Ron executed , */\
+ { 0xf020, "DCMCCAPI"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "DCMCCSB"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "USERDEF"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "CUSTINFO"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf50f, "R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9872_BITNAMETABLE static tfaBfName_t Tfa9872BitNames[]= {\
+ { 0x0, "powerdown"}, /* Powerdown selection , */\
+ { 0x10, "reset"}, /* I2C Reset - Auto clear , */\
+ { 0x30, "enbl_amplifier"}, /* Activate Amplifier , */\
+ { 0x40, "enbl_boost"}, /* Activate DC-to-DC converter , */\
+ { 0x71, "int_pad_io"}, /* Interrupt config , */\
+ { 0xb0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0xc0, "test_ocp"}, /* OCP testing control , */\
+ { 0x120, "src_set_configured"}, /* I2C configured , */\
+ { 0x140, "enbl_osc1m_auto_off"}, /* Internal osc off at PWDN , */\
+ { 0x1d0, "disable_mute_time_out"}, /* Time out SB mute sequence , */\
+ { 0x203, "audio_fs"}, /* Sample rate (fs) , */\
+ { 0x240, "input_level"}, /* TDM output attenuation , */\
+ { 0x255, "cs_frac_delay"}, /* V/I Fractional delay , */\
+ { 0x2b0, "bypass_hvbat_filter"}, /* Bypass HVBAT filter , */\
+ { 0x2d0, "sel_hysteresis"}, /* Select hysteresis for clock range detector , */\
+ { 0x30f, "device_rev"}, /* Revision info , */\
+ { 0x401, "pll_clkin_sel"}, /* PLL external ref clock , */\
+ { 0x420, "pll_clkin_sel_osc"}, /* PLL internal ref clock , */\
+ { 0x510, "enbl_spkr_ss"}, /* Enable speaker path , */\
+ { 0x530, "enbl_volsense"}, /* Voltage sense , */\
+ { 0x550, "enbl_cursense"}, /* Current sense , */\
+ { 0x560, "enbl_pdm_ss"}, /* Sub-system PDM , */\
+ { 0x580, "enbl_pga_chop"}, /* Enable PGA chop clock , */\
+ { 0x590, "enbl_tdm_ss"}, /* Sub-system TDM , */\
+ { 0x5a0, "enbl_bst_ss"}, /* Sub-system boost , */\
+ { 0x5b0, "enbl_adc_ss"}, /* Sub-system ADC , */\
+ { 0x5c0, "enbl_faim_ss"}, /* Sub-system FAIM , */\
+ { 0xd18, "side_tone_gain"}, /* Side tone gain , */\
+ { 0xda0, "mute_side_tone"}, /* Side tone soft mute , */\
+ { 0xdb0, "side_tone_1scomplement"}, /* side tone one s complement , */\
+ { 0xe07, "ctrl_digtoana"}, /* Spare control from digital to analog , */\
+ { 0xf0f, "hidden_code"}, /* 5A6Bh, 23147d to access registers (default for engineering), */\
+ { 0x1000, "flag_por"}, /* POR , */\
+ { 0x1010, "flag_pll_lock"}, /* PLL lock , */\
+ { 0x1020, "flag_otpok"}, /* OTP alarm , */\
+ { 0x1030, "flag_ovpok"}, /* OVP alarm , */\
+ { 0x1040, "flag_uvpok"}, /* UVP alarm , */\
+ { 0x1050, "flag_clocks_stable"}, /* Clocks stable , */\
+ { 0x1060, "flag_mtp_busy"}, /* MTP busy , */\
+ { 0x1070, "flag_lost_clk"}, /* Lost clock , */\
+ { 0x10a0, "flag_engage"}, /* Amplifier engage , */\
+ { 0x10c0, "flag_enbl_amp"}, /* Amplifier enable , */\
+ { 0x10d0, "flag_enbl_ref"}, /* References enable , */\
+ { 0x10e0, "flag_adc10_ready"}, /* Control ADC , */\
+ { 0x1100, "flag_bst_bstcur"}, /* DCDC current limiting , */\
+ { 0x1110, "flag_bst_hiz"}, /* DCDC active , */\
+ { 0x1120, "flag_bst_ocpok"}, /* DCDC OCP nmos , */\
+ { 0x1130, "flag_bst_peakcur"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1140, "flag_bst_voutcomp"}, /* DCDC level 1x , */\
+ { 0x1150, "flag_bst_voutcomp86"}, /* DCDC level 1.14x , */\
+ { 0x1160, "flag_bst_voutcomp93"}, /* DCDC level 1.07x , */\
+ { 0x1170, "flag_soft_mute_busy"}, /* side tone (un)mute busy , */\
+ { 0x1180, "flag_soft_mute_state"}, /* side tone mute state , */\
+ { 0x1190, "flag_tdm_lut_error"}, /* TDM LUT error , */\
+ { 0x11a2, "flag_tdm_status"}, /* TDM status bits , */\
+ { 0x11d0, "flag_tdm_error"}, /* TDM error , */\
+ { 0x1300, "flag_ocpokap"}, /* OCPOK pmos A , */\
+ { 0x1310, "flag_ocpokan"}, /* OCPOK nmos A , */\
+ { 0x1320, "flag_ocpokbp"}, /* OCPOK pmos B , */\
+ { 0x1330, "flag_ocpokbn"}, /* OCPOK nmos B , */\
+ { 0x1340, "flag_clipa_high"}, /* Clipping A to Vddp , */\
+ { 0x1350, "flag_clipa_low"}, /* Clipping A to gnd , */\
+ { 0x1360, "flag_clipb_high"}, /* Clipping B to Vddp , */\
+ { 0x1370, "flag_clipb_low"}, /* Clipping B to gnd , */\
+ { 0x1380, "flag_ocp_alarm"}, /* OCP amplifier , */\
+ { 0x1390, "flag_clip"}, /* Amplifier clipping , */\
+ { 0x13b0, "flag_man_alarm_state"}, /* Alarm state , */\
+ { 0x13c0, "flag_man_wait_src_settings"}, /* Wait HW I2C settings , */\
+ { 0x13e0, "flag_man_start_mute_audio"}, /* Audio mute sequence , */\
+ { 0x13f0, "flag_man_operating_state"}, /* Operating state , */\
+ { 0x1420, "flag_clk_out_of_range"}, /* External clock status , */\
+ { 0x1433, "man_state"}, /* Device manager status , */\
+ { 0x1471, "status_bst_mode"}, /* DCDC mode status bits , */\
+ { 0x1509, "bat_adc"}, /* Battery voltage (V) , */\
+ { 0x1608, "temp_adc"}, /* IC Temperature (C) , */\
+ { 0x1709, "vddp_adc"}, /* IC VDDP voltage ( 1023*VDDP/9.5 V) , */\
+ { 0x2040, "tdm_enable"}, /* Enable interface , */\
+ { 0x2050, "tdm_mode"}, /* Slave/master , */\
+ { 0x2060, "tdm_clk_inversion"}, /* Reception data to BCK clock , */\
+ { 0x2073, "tdm_fs_ws_length"}, /* FS length (master mode only) , */\
+ { 0x20b0, "tdm_fs_ws_polarity"}, /* FS polarity , */\
+ { 0x20c3, "tdm_nbck"}, /* N-BCK's in FS , */\
+ { 0x2103, "tdm_nb_of_slots"}, /* N-slots in Frame , */\
+ { 0x2144, "tdm_slot_length"}, /* N-bits in slot , */\
+ { 0x2194, "tdm_bits_remaining"}, /* N-bits remaining , */\
+ { 0x21e0, "tdm_data_delay"}, /* data delay to FS , */\
+ { 0x21f0, "tdm_data_adjustment"}, /* data adjustment , */\
+ { 0x2201, "tdm_audio_sample_compression"}, /* Received audio compression , */\
+ { 0x2224, "tdm_sample_size"}, /* Sample size per slot , */\
+ { 0x2271, "tdm_txdata_format"}, /* Format unused bits , */\
+ { 0x2291, "tdm_txdata_format_unused_slot_sd0"}, /* Format unused slots DATAO , */\
+ { 0x2300, "tdm_sink0_enable"}, /* Control audio tdm channel in 0 (spkr + dcdc) , */\
+ { 0x2310, "tdm_sink1_enable"}, /* Control audio tdm channel in 1 (dcdc) , */\
+ { 0x2330, "tdm_source0_enable"}, /* current sense vbat temperature and vddp feedback , */\
+ { 0x2340, "tdm_source1_enable"}, /* Voltage sense vbat temperature and vddp feedback , */\
+ { 0x2603, "tdm_sink0_slot"}, /* tdm slot for sink 0 (speaker + dcdc) , */\
+ { 0x2643, "tdm_sink1_slot"}, /* tdm slot for sink 1 (dcdc) , */\
+ { 0x26c3, "tdm_source0_slot"}, /* Slot Position of current sense vbat temperature and vddp feedback, */\
+ { 0x2703, "tdm_source1_slot"}, /* Slot Position of Voltage sense vbat temperature and vddp feedback, */\
+ { 0x3111, "pdm_side_tone_sel"}, /* Side tone input , */\
+ { 0x3201, "pdm_nbck"}, /* PDM BCK/Fs ratio , */\
+ { 0x4000, "int_out_flag_por"}, /* Status POR , */\
+ { 0x4010, "int_out_flag_pll_lock"}, /* Status PLL lock , */\
+ { 0x4020, "int_out_flag_otpok"}, /* Status OTP alarm , */\
+ { 0x4030, "int_out_flag_ovpok"}, /* Status OVP alarm , */\
+ { 0x4040, "int_out_flag_uvpok"}, /* Status UVP alarm , */\
+ { 0x4050, "int_out_flag_clocks_stable"}, /* Status clocks stable , */\
+ { 0x4060, "int_out_flag_mtp_busy"}, /* Status MTP busy , */\
+ { 0x4070, "int_out_flag_lost_clk"}, /* Status lost clock , */\
+ { 0x40a0, "int_out_flag_engage"}, /* Status amplifier engage , */\
+ { 0x40c0, "int_out_flag_enbl_amp"}, /* Status amplifier enable , */\
+ { 0x40d0, "int_out_flag_enbl_ref"}, /* Status Ref enable , */\
+ { 0x40e0, "int_out_flag_adc10_ready"}, /* Status Control ADC , */\
+ { 0x4100, "int_out_flag_bst_bstcur"}, /* Status DCDC current limiting , */\
+ { 0x4110, "int_out_flag_bst_hiz"}, /* Status DCDC active , */\
+ { 0x4120, "int_out_flag_bst_ocpok"}, /* Status DCDC OCP , */\
+ { 0x4130, "int_out_flag_bst_peakcur"}, /* Status bst peakcur , */\
+ { 0x4140, "int_out_flag_bst_voutcomp"}, /* Status DCDC level 1x , */\
+ { 0x4150, "int_out_flag_bst_voutcomp86"}, /* Status DCDC level 1.14x , */\
+ { 0x4160, "int_out_flag_bst_voutcomp93"}, /* Status DCDC level 1.07x , */\
+ { 0x4190, "int_out_flag_ocp_alarm"}, /* Status ocp alarm , */\
+ { 0x41a0, "int_out_flag_man_wait_src_settings"}, /* Status Waits HW I2C settings , */\
+ { 0x41c0, "int_out_flag_man_start_mute_audio"}, /* Status Audio mute sequence , */\
+ { 0x41f0, "int_out_flag_clk_out_of_range"}, /* Status flag_clk_out_of_range , */\
+ { 0x4200, "int_out_flag_tdm_error"}, /* Status tdm error , */\
+ { 0x4220, "int_out_flag_clip"}, /* Status clip , */\
+ { 0x4240, "int_out_flag_lp_detect_mode0"}, /* Status low power mode0 , */\
+ { 0x4250, "int_out_flag_lp_detect_mode1"}, /* Status low power mode1 , */\
+ { 0x4260, "int_out_flag_low_amplitude"}, /* Status low noise detection , */\
+ { 0x4270, "int_out_flag_vddp_gt_vbat"}, /* Status VDDP greater than VBAT , */\
+ { 0x4400, "int_in_flag_por"}, /* Clear POR , */\
+ { 0x4410, "int_in_flag_pll_lock"}, /* Clear PLL lock , */\
+ { 0x4420, "int_in_flag_otpok"}, /* Clear OTP alarm , */\
+ { 0x4430, "int_in_flag_ovpok"}, /* Clear OVP alarm , */\
+ { 0x4440, "int_in_flag_uvpok"}, /* Clear UVP alarm , */\
+ { 0x4450, "int_in_flag_clocks_stable"}, /* Clear clocks stable , */\
+ { 0x4460, "int_in_flag_mtp_busy"}, /* Clear mtp busy , */\
+ { 0x4470, "int_in_flag_lost_clk"}, /* Clear lost clk , */\
+ { 0x44a0, "int_in_flag_engage"}, /* Clear amplifier engage , */\
+ { 0x44c0, "int_in_flag_enbl_amp"}, /* Clear enbl amp , */\
+ { 0x44d0, "int_in_flag_enbl_ref"}, /* Clear ref enable , */\
+ { 0x44e0, "int_in_flag_adc10_ready"}, /* Clear control ADC , */\
+ { 0x4500, "int_in_flag_bst_bstcur"}, /* Clear DCDC current limiting , */\
+ { 0x4510, "int_in_flag_bst_hiz"}, /* Clear DCDC active , */\
+ { 0x4520, "int_in_flag_bst_ocpok"}, /* Clear DCDC OCP , */\
+ { 0x4530, "int_in_flag_bst_peakcur"}, /* Clear bst peakcur , */\
+ { 0x4540, "int_in_flag_bst_voutcomp"}, /* Clear DCDC level 1x , */\
+ { 0x4550, "int_in_flag_bst_voutcomp86"}, /* Clear DCDC level 1.14x , */\
+ { 0x4560, "int_in_flag_bst_voutcomp93"}, /* Clear DCDC level 1.07x , */\
+ { 0x4590, "int_in_flag_ocp_alarm"}, /* Clear ocp alarm , */\
+ { 0x45a0, "int_in_flag_man_wait_src_settings"}, /* Clear wait HW I2C settings , */\
+ { 0x45c0, "int_in_flag_man_start_mute_audio"}, /* Clear audio mute sequence , */\
+ { 0x45f0, "int_in_flag_clk_out_of_range"}, /* Clear flag_clk_out_of_range , */\
+ { 0x4600, "int_in_flag_tdm_error"}, /* Clear tdm error , */\
+ { 0x4620, "int_in_flag_clip"}, /* Clear clip , */\
+ { 0x4640, "int_in_flag_lp_detect_mode0"}, /* Clear low power mode0 , */\
+ { 0x4650, "int_in_flag_lp_detect_mode1"}, /* Clear low power mode1 , */\
+ { 0x4660, "int_in_flag_low_amplitude"}, /* Clear low noise detection , */\
+ { 0x4670, "int_in_flag_vddp_gt_vbat"}, /* Clear VDDP greater then VBAT , */\
+ { 0x4800, "int_enable_flag_por"}, /* Enable por , */\
+ { 0x4810, "int_enable_flag_pll_lock"}, /* Enable pll lock , */\
+ { 0x4820, "int_enable_flag_otpok"}, /* Enable OTP alarm , */\
+ { 0x4830, "int_enable_flag_ovpok"}, /* Enable OVP alarm , */\
+ { 0x4840, "int_enable_flag_uvpok"}, /* Enable UVP alarm , */\
+ { 0x4850, "int_enable_flag_clocks_stable"}, /* Enable clocks stable , */\
+ { 0x4860, "int_enable_flag_mtp_busy"}, /* Enable mtp busy , */\
+ { 0x4870, "int_enable_flag_lost_clk"}, /* Enable lost clk , */\
+ { 0x48a0, "int_enable_flag_engage"}, /* Enable amplifier engage , */\
+ { 0x48c0, "int_enable_flag_enbl_amp"}, /* Enable enbl amp , */\
+ { 0x48d0, "int_enable_flag_enbl_ref"}, /* Enable ref enable , */\
+ { 0x48e0, "int_enable_flag_adc10_ready"}, /* Enable Control ADC , */\
+ { 0x4900, "int_enable_flag_bst_bstcur"}, /* Enable DCDC current limiting , */\
+ { 0x4910, "int_enable_flag_bst_hiz"}, /* Enable DCDC active , */\
+ { 0x4920, "int_enable_flag_bst_ocpok"}, /* Enable DCDC OCP , */\
+ { 0x4930, "int_enable_flag_bst_peakcur"}, /* Enable bst peakcur , */\
+ { 0x4940, "int_enable_flag_bst_voutcomp"}, /* Enable DCDC level 1x , */\
+ { 0x4950, "int_enable_flag_bst_voutcomp86"}, /* Enable DCDC level 1.14x , */\
+ { 0x4960, "int_enable_flag_bst_voutcomp93"}, /* Enable DCDC level 1.07x , */\
+ { 0x4990, "int_enable_flag_ocp_alarm"}, /* Enable ocp alarm , */\
+ { 0x49a0, "int_enable_flag_man_wait_src_settings"}, /* Enable waits HW I2C settings , */\
+ { 0x49c0, "int_enable_flag_man_start_mute_audio"}, /* Enable man Audio mute sequence , */\
+ { 0x49f0, "int_enable_flag_clk_out_of_range"}, /* Enable flag_clk_out_of_range , */\
+ { 0x4a00, "int_enable_flag_tdm_error"}, /* Enable tdm error , */\
+ { 0x4a20, "int_enable_flag_clip"}, /* Enable clip , */\
+ { 0x4a40, "int_enable_flag_lp_detect_mode0"}, /* Enable low power mode0 , */\
+ { 0x4a50, "int_enable_flag_lp_detect_mode1"}, /* Enable low power mode1 , */\
+ { 0x4a60, "int_enable_flag_low_amplitude"}, /* Enable low noise detection , */\
+ { 0x4a70, "int_enable_flag_vddp_gt_vbat"}, /* Enable VDDP greater tehn VBAT , */\
+ { 0x4c00, "int_polarity_flag_por"}, /* Polarity por , */\
+ { 0x4c10, "int_polarity_flag_pll_lock"}, /* Polarity pll lock , */\
+ { 0x4c20, "int_polarity_flag_otpok"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "int_polarity_flag_ovpok"}, /* Polarity OVP alarm , */\
+ { 0x4c40, "int_polarity_flag_uvpok"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "int_polarity_flag_clocks_stable"}, /* Polarity clocks stable , */\
+ { 0x4c60, "int_polarity_flag_mtp_busy"}, /* Polarity mtp busy , */\
+ { 0x4c70, "int_polarity_flag_lost_clk"}, /* Polarity lost clk , */\
+ { 0x4ca0, "int_polarity_flag_engage"}, /* Polarity amplifier engage , */\
+ { 0x4cc0, "int_polarity_flag_enbl_amp"}, /* Polarity enbl amp , */\
+ { 0x4cd0, "int_polarity_flag_enbl_ref"}, /* Polarity ref enable , */\
+ { 0x4ce0, "int_polarity_flag_adc10_ready"}, /* Polarity Control ADC , */\
+ { 0x4d00, "int_polarity_flag_bst_bstcur"}, /* Polarity DCDC current limiting , */\
+ { 0x4d10, "int_polarity_flag_bst_hiz"}, /* Polarity DCDC active , */\
+ { 0x4d20, "int_polarity_flag_bst_ocpok"}, /* Polarity DCDC OCP , */\
+ { 0x4d30, "int_polarity_flag_bst_peakcur"}, /* Polarity bst peakcur , */\
+ { 0x4d40, "int_polarity_flag_bst_voutcomp"}, /* Polarity DCDC level 1x , */\
+ { 0x4d50, "int_polarity_flag_bst_voutcomp86"}, /* Polarity DCDC level 1.14x , */\
+ { 0x4d60, "int_polarity_flag_bst_voutcomp93"}, /* Polarity DCDC level 1.07x , */\
+ { 0x4d90, "int_polarity_flag_ocp_alarm"}, /* Polarity ocp alarm , */\
+ { 0x4da0, "int_polarity_flag_man_wait_src_settings"}, /* Polarity waits HW I2C settings , */\
+ { 0x4dc0, "int_polarity_flag_man_start_mute_audio"}, /* Polarity man audio mute sequence , */\
+ { 0x4df0, "int_polarity_flag_clk_out_of_range"}, /* Polarity flag_clk_out_of_range , */\
+ { 0x4e00, "int_polarity_flag_tdm_error"}, /* Polarity tdm error , */\
+ { 0x4e20, "int_polarity_flag_clip"}, /* Polarity clip right , */\
+ { 0x4e40, "int_polarity_flag_lp_detect_mode0"}, /* Polarity low power mode0 , */\
+ { 0x4e50, "int_polarity_flag_lp_detect_mode1"}, /* Polarity low power mode1 , */\
+ { 0x4e60, "int_polarity_flag_low_amplitude"}, /* Polarity low noise mode , */\
+ { 0x4e70, "int_polarity_flag_vddp_gt_vbat"}, /* Polarity VDDP greater than VBAT , */\
+ { 0x5001, "vbat_prot_attack_time"}, /* Battery Safeguard attack time , */\
+ { 0x5023, "vbat_prot_thlevel"}, /* Battery Safeguard threshold voltage level , */\
+ { 0x5061, "vbat_prot_max_reduct"}, /* Battery Safeguard maximum reduction , */\
+ { 0x50d0, "rst_min_vbat"}, /* Reset clipper - Auto clear , */\
+ { 0x50e0, "sel_vbat"}, /* Battery voltage read out , */\
+ { 0x50f0, "bypass_clipper"}, /* Bypass battery safeguard , */\
+ { 0x5100, "batsense_steepness"}, /* Vbat prot steepness , */\
+ { 0x5110, "soft_mute"}, /* Soft mute HW , */\
+ { 0x5150, "bypass_hp"}, /* Bypass HPF , */\
+ { 0x5170, "enbl_dpsa"}, /* Enable DPSA , */\
+ { 0x5222, "ctrl_cc"}, /* Clip control setting , */\
+ { 0x5257, "gain"}, /* Amplifier gain , */\
+ { 0x52d0, "ctrl_slopectrl"}, /* Enables slope control , */\
+ { 0x52e0, "ctrl_slope"}, /* Slope speed setting (bin. coded) , */\
+ { 0x5301, "dpsa_level"}, /* DPSA threshold levels , */\
+ { 0x5321, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x5340, "clipfast"}, /* Clock selection for HW clipper for Battery Safeguard, */\
+ { 0x5350, "bypass_lp"}, /* Bypass the low power filter inside temperature sensor, */\
+ { 0x5400, "first_order_mode"}, /* Overrule to 1st order mode of control stage when clipping, */\
+ { 0x5410, "bypass_ctrlloop"}, /* Switch amplifier into open loop configuration , */\
+ { 0x5420, "fb_hz"}, /* Feedback resistor set to high ohmic , */\
+ { 0x5430, "icomp_engage"}, /* Engage of icomp , */\
+ { 0x5440, "ctrl_kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x5450, "icomp_engage_overrule"}, /* To overrule the functional icomp_engage signal during validation, */\
+ { 0x5503, "ctrl_dem"}, /* Enable DEM icomp and DEM one bit dac , */\
+ { 0x5543, "ctrl_dem_mismatch"}, /* Enable DEM icomp mismatch for testing , */\
+ { 0x5582, "dpsa_drive"}, /* Drive setting (bin. coded) , */\
+ { 0x570a, "enbl_amp"}, /* Switch on the class-D power sections, each part of the analog sections can be switched on/off individually, */\
+ { 0x57b0, "enbl_engage"}, /* Enables/engage power stage and control loop , */\
+ { 0x57c0, "enbl_engage_pst"}, /* Enables/engage power stage and control loop , */\
+ { 0x5810, "hard_mute"}, /* Hard mute - PWM , */\
+ { 0x5820, "pwm_shape"}, /* PWM shape , */\
+ { 0x5844, "pwm_delay"}, /* PWM delay bits to set the delay, clockd is 1/(k*2048*fs), */\
+ { 0x5890, "reclock_pwm"}, /* Reclock the pwm signal inside analog , */\
+ { 0x58a0, "reclock_voltsense"}, /* Reclock the voltage sense pwm signal , */\
+ { 0x58c0, "enbl_pwm_phase_shift"}, /* Control for pwm phase shift , */\
+ { 0x6081, "pga_gain_set"}, /* PGA gain selection , */\
+ { 0x60b0, "pga_lowpass_enable"}, /* Lowpass enable , */\
+ { 0x60c0, "pga_pwr_enable"}, /* Power enable, directcontrol mode only , */\
+ { 0x60d0, "pga_switch_enable"}, /* Switch enable, directcontrol mode only , */\
+ { 0x60e0, "pga_switch_aux_enable"}, /* Switch enable aux, directcontrol mode only , */\
+ { 0x6100, "force_idle"}, /* force low power in idle mode , */\
+ { 0x6110, "bypass_idle"}, /* bypass low power idle mode , */\
+ { 0x6123, "ctrl_attl"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x6163, "ctrl_attr"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x61a0, "idle_cnt"}, /* idle counter , */\
+ { 0x61b0, "enbl_idle_ch1"}, /* enable idle feature for channel 1 , */\
+ { 0x6265, "zero_lvl"}, /* low noise gain switch zero trigger level , */\
+ { 0x62c1, "ctrl_fb_classd"}, /* class D gain ctrl_fb_50k ctrl_fb_100k , */\
+ { 0x62e1, "lownoisegain_mode"}, /* ctrl select mode , */\
+ { 0x6305, "threshold_lvl"}, /* low noise gain switch trigger level , */\
+ { 0x6365, "hold_time"}, /* ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x6405, "lpm1_cal_offset"}, /* low power mode1 detector ctrl cal_offset from gain module , */\
+ { 0x6465, "lpm1_zero_lvl"}, /* low power mode1 zero crossing detection level , */\
+ { 0x64e1, "lpm1_mode"}, /* low power mode control , */\
+ { 0x6505, "lpm1_threshold_lvl"}, /* low power mode1 amplitude trigger level , */\
+ { 0x6565, "lpm1_hold_time"}, /* low power mode1 detector ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x65c0, "disable_low_power_mode"}, /* low power mode1 detector control , */\
+ { 0x6600, "dcdc_pfm20khz_limit"}, /* DCDC in PFM mode pwm mode is activated each 50us to force a pwm pulse, */\
+ { 0x6611, "dcdc_ctrl_maxzercnt"}, /* DCDC. Number of zero current flags to count before going to pfm mode, */\
+ { 0x6656, "dcdc_vbat_delta_detect"}, /* Threshold before booster is reacting on a delta Vbat (in PFM mode) by temporarily switching to PWM mode, */\
+ { 0x66c0, "dcdc_ignore_vbat"}, /* Ignore an increase on Vbat , */\
+ { 0x6700, "enbl_minion"}, /* Enables minion (small) power stage , */\
+ { 0x6713, "vth_vddpvbat"}, /* select vddp-vbat thres signal , */\
+ { 0x6750, "lpen_vddpvbat"}, /* select vddp-vbat filtred vs unfiltered compare , */\
+ { 0x6801, "tdm_source_mapping"}, /* tdm source mapping , */\
+ { 0x6821, "tdm_sourcea_frame_sel"}, /* Sensed value A , */\
+ { 0x6841, "tdm_sourceb_frame_sel"}, /* Sensed value B , */\
+ { 0x6881, "pdm_anc_sel"}, /* anc input , */\
+ { 0x68a0, "anc_1scomplement"}, /* ANC one s complement , */\
+ { 0x6901, "sam_mode"}, /* sam enable , */\
+ { 0x6920, "sam_src"}, /* sam source , */\
+ { 0x6931, "pdmdat_h_sel"}, /* pdm out value when pdm_clk is higth , */\
+ { 0x6951, "pdmdat_l_sel"}, /* pdm out value when pdm_clk is low , */\
+ { 0x6970, "sam_spkr_sel"}, /* ram output on mode sam and audio , */\
+ { 0x6a02, "rst_min_vbat_delay"}, /* rst_min_vbat delay (nb fs) , */\
+ { 0x6b00, "disable_auto_engage"}, /* disable auto engange , */\
+ { 0x6b10, "sel_tdm_data_valid"}, /* select tdm valid for speaker subsystem , */\
+ { 0x6c02, "ns_hp2ln_criterion"}, /* 0..7 zeroes at ns as threshold to swap from high_power to low_noise, */\
+ { 0x6c32, "ns_ln2hp_criterion"}, /* 0..7 zeroes at ns as threshold to swap from low_noise to high_power, */\
+ { 0x6c69, "spare_out"}, /* spare_out , */\
+ { 0x6d0f, "spare_in"}, /* spare_in , */\
+ { 0x6e00, "flag_lp_detect_mode0"}, /* low power mode 0 detection , */\
+ { 0x6e10, "flag_lp_detect_mode1"}, /* low power mode 1 detection , */\
+ { 0x6e20, "flag_low_amplitude"}, /* low amplitude detection , */\
+ { 0x6e30, "flag_vddp_gt_vbat"}, /* vddp greater than vbat , */\
+ { 0x6f02, "cursense_comp_delay"}, /* delay to allign compensation signal with current sense signal, */\
+ { 0x6f40, "cursense_comp_sign"}, /* polarity of compensation for current sense , */\
+ { 0x6f50, "enbl_cursense_comp"}, /* enable current sense compensation , */\
+ { 0x6f60, "sel_clip_pwms"}, /* Select pwm clip flag , */\
+ { 0x6f72, "pwms_clip_lvl"}, /* set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7002, "scnd_boost_voltage"}, /* Second boost voltage level , */\
+ { 0x7033, "boost_cur"}, /* Max coil current , */\
+ { 0x7071, "bst_slpcmplvl"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7090, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x70a0, "boost_speed"}, /* Soft ramp up/down , */\
+ { 0x70e0, "dcdcoff_mode"}, /* DCDC on/off , */\
+ { 0x70f0, "dcdc_pwmonly"}, /* DCDC PWM only mode , */\
+ { 0x7104, "bst_drive"}, /* Binary coded drive setting for boost converter power stage, */\
+ { 0x7151, "bst_scalecur"}, /* For testing direct control scale current , */\
+ { 0x7174, "bst_slopecur"}, /* For testing direct control slope current , */\
+ { 0x71c1, "bst_slope"}, /* Boost slope speed , */\
+ { 0x71e0, "bst_bypass_bstcur"}, /* Bypass control for boost current settings , */\
+ { 0x71f0, "bst_bypass_bstfoldback"}, /* Bypass control for boost foldback , */\
+ { 0x7200, "enbl_bst_engage"}, /* Enable power stage dcdc controller , */\
+ { 0x7210, "enbl_bst_hizcom"}, /* Enable hiz comparator , */\
+ { 0x7220, "enbl_bst_peak2avg"}, /* Enable boost peak2avg functionality , */\
+ { 0x7230, "enbl_bst_peakcur"}, /* Enable peak current , */\
+ { 0x7240, "enbl_bst_power"}, /* Enable line of the powerstage , */\
+ { 0x7250, "enbl_bst_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x7260, "enbl_bst_voutcomp"}, /* Enable vout comparators , */\
+ { 0x7270, "enbl_bst_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x7280, "enbl_bst_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x7290, "enbl_bst_windac"}, /* Enable window dac , */\
+ { 0x72a5, "bst_windac"}, /* for testing direct control windac , */\
+ { 0x7300, "boost_alg"}, /* Control for boost adaptive loop gain , */\
+ { 0x7311, "boost_loopgain"}, /* DCDC boost loopgain setting , */\
+ { 0x7331, "bst_freq"}, /* DCDC boost frequency control , */\
+ { 0x7402, "frst_boost_voltage"}, /* 1st boost voltage level , */\
+ { 0x7430, "boost_track"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7444, "boost_trip_lvl_1st"}, /* 1st Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7494, "boost_hold_time"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x74e0, "sel_dcdc_envelope_8fs"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x74f0, "ignore_flag_voutcomp86"}, /* Ignore flag_voutcomp86 , */\
+ { 0x7502, "track_decay"}, /* DCDC Boost decay speed after a peak value, effective only when boost_track is set to 1, */\
+ { 0x7534, "boost_trip_lvl_2nd"}, /* 2nd Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7584, "boost_trip_lvl_track"}, /* Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x7620, "pga_test_ldo_bypass"}, /* bypass internal PGA LDO , */\
+ { 0x8001, "sel_clk_cs"}, /* Current sense clock duty cycle control , */\
+ { 0x8021, "micadc_speed"}, /* Current sense clock for MiCADC selection - 32/44.1/48 KHz Fs band only, */\
+ { 0x8050, "cs_gain_control"}, /* Current sense gain control , */\
+ { 0x8060, "cs_bypass_gc"}, /* Bypasses the CS gain correction , */\
+ { 0x8087, "cs_gain"}, /* Current sense gain , */\
+ { 0x8200, "enbl_cmfb"}, /* Current sense common mode feedback control , */\
+ { 0x8210, "invertpwm"}, /* Current sense common mode feedback pwm invert control, */\
+ { 0x8222, "cmfb_gain"}, /* Current sense common mode feedback control gain , */\
+ { 0x8254, "cmfb_offset"}, /* Current sense common mode feedback control offset , */\
+ { 0x82a0, "cs_sam_set"}, /* Enable SAM input for current sense , */\
+ { 0x8305, "cs_ktemp"}, /* Current sense temperature compensation trimming (1 - VALUE*TEMP)*signal, */\
+ { 0x8400, "cs_adc_bsoinv"}, /* Bitstream inversion for current sense ADC , */\
+ { 0x8421, "cs_adc_hifreq"}, /* Frequency mode current sense ADC , */\
+ { 0x8440, "cs_adc_nortz"}, /* Return to zero for current sense ADC , */\
+ { 0x8453, "cs_adc_offset"}, /* Micadc ADC offset setting , */\
+ { 0x8490, "cs_adc_slowdel"}, /* Select delay for current sense ADC (internal decision circuitry), */\
+ { 0x84a4, "cs_adc_gain"}, /* Gain setting for current sense ADC (two's complement), */\
+ { 0x8500, "cs_resonator_enable"}, /* Enable for resonator to improve SRN , */\
+ { 0x8510, "cs_classd_tran_skip"}, /* Skip current sense connection during a classD amplifier transition, */\
+ { 0x8530, "cs_inn_short"}, /* Short current sense negative to common mode , */\
+ { 0x8540, "cs_inp_short"}, /* Short current sense positive to common mode , */\
+ { 0x8550, "cs_ldo_bypass"}, /* Bypass current sense LDO , */\
+ { 0x8560, "cs_ldo_pulldown"}, /* Pull down current sense LDO, only valid if left_enbl_cs_ldo is high, */\
+ { 0x8574, "cs_ldo_voset"}, /* Current sense LDO voltage level setting (two's complement), */\
+ { 0x8700, "enbl_cs_adc"}, /* Enable current sense ADC , */\
+ { 0x8710, "enbl_cs_inn1"}, /* Enable connection of current sense negative1 , */\
+ { 0x8720, "enbl_cs_inn2"}, /* Enable connection of current sense negative2 , */\
+ { 0x8730, "enbl_cs_inp1"}, /* Enable connection of current sense positive1 , */\
+ { 0x8740, "enbl_cs_inp2"}, /* Enable connection of current sense positive2 , */\
+ { 0x8750, "enbl_cs_ldo"}, /* Enable current sense LDO , */\
+ { 0x8760, "enbl_cs_nofloating_n"}, /* Connect current sense negative to gnda at transitions of booster or classd amplifiers. Otherwise floating (0), */\
+ { 0x8770, "enbl_cs_nofloating_p"}, /* Connect current sense positive to gnda at transitions of booster or classd amplifiers. Otherwise floating (0), */\
+ { 0x8780, "enbl_cs_vbatldo"}, /* Enable of current sense LDO , */\
+ { 0x8800, "volsense_pwm_sel"}, /* Voltage sense PWM source selection control , */\
+ { 0x8810, "vol_cur_sense_dc_offset"}, /* voltage and current sense decimator offset control, */\
+ { 0xa007, "mtpkey1"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0xa107, "mtpkey2"}, /* MTP KEY2 register , */\
+ { 0xa200, "key01_locked"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "key02_locked"}, /* Indicates KEY2 is locked , */\
+ { 0xa302, "mtp_man_address_in"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0xa330, "man_copy_mtp_to_iic"}, /* Start copying single word from mtp to I2C mtp register, */\
+ { 0xa340, "man_copy_iic_to_mtp"}, /* Start copying single word from I2C mtp register to mtp, */\
+ { 0xa350, "auto_copy_mtp_to_iic"}, /* Start copying all the data from mtp to I2C mtp registers, */\
+ { 0xa360, "auto_copy_iic_to_mtp"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa400, "faim_set_clkws"}, /* Sets the faim controller clock wait state register, */\
+ { 0xa410, "faim_sel_evenrows"}, /* All even rows of the faim are selected, active high, */\
+ { 0xa420, "faim_sel_oddrows"}, /* All odd rows of the faim are selected, all rows in combination with sel_evenrows, */\
+ { 0xa430, "faim_program_only"}, /* Skip the erase access at wr_faim command (write-program-marginread), */\
+ { 0xa440, "faim_erase_only"}, /* Skip the program access at wr_faim command (write-erase-marginread), */\
+ { 0xa50f, "mtp_man_data_out_msb"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "mtp_man_data_out_lsb"}, /* LSB word of MTP manual read data , */\
+ { 0xa70f, "mtp_man_data_in_msb"}, /* MSB word of write data for MTP manual write , */\
+ { 0xa80f, "mtp_man_data_in_lsb"}, /* LSB word of write data for MTP manual write , */\
+ { 0xb010, "bypass_ocpcounter"}, /* Bypass OCP Counter , */\
+ { 0xb020, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0xb030, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0xb040, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0xb050, "bypass_otp"}, /* Bypass OTP , */\
+ { 0xb060, "bypass_lost_clk"}, /* Bypass lost clock detector , */\
+ { 0xb070, "ctrl_vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0xb087, "ocp_threshold"}, /* OCP threshold level , */\
+ { 0xb108, "ext_temp"}, /* External temperature (C) , */\
+ { 0xb190, "ext_temp_sel"}, /* Select temp Speaker calibration , */\
+ { 0xc000, "use_direct_ctrls"}, /* Direct control to overrule several functions for testing, */\
+ { 0xc010, "rst_datapath"}, /* Direct control for datapath reset , */\
+ { 0xc020, "rst_cgu"}, /* Direct control for cgu reset , */\
+ { 0xc038, "enbl_ref"}, /* Switch on the analog references, each part of the references can be switched on/off individually, */\
+ { 0xc0d0, "enbl_ringo"}, /* Enable the ring oscillator for test purpose , */\
+ { 0xc0e0, "use_direct_clk_ctrl"}, /* Direct clock control to overrule several functions for testing, */\
+ { 0xc0f0, "use_direct_pll_ctrl"}, /* Direct PLL control to overrule several functions for testing, */\
+ { 0xc100, "enbl_tsense"}, /* Temperature sensor enable control - I2C direct mode, */\
+ { 0xc110, "tsense_hibias"}, /* Bit to set the biasing in temp sensor to high , */\
+ { 0xc120, "enbl_flag_vbg"}, /* Enable flagging of bandgap out of control , */\
+ { 0xc20f, "abist_offset"}, /* Offset control for ABIST testing (two's complement), */\
+ { 0xc300, "bypasslatch"}, /* Bypass latch , */\
+ { 0xc311, "sourcea"}, /* Set OUTA to , */\
+ { 0xc331, "sourceb"}, /* Set OUTB to , */\
+ { 0xc350, "inverta"}, /* Invert pwma test signal , */\
+ { 0xc360, "invertb"}, /* Invert pwmb test signal , */\
+ { 0xc374, "pulselength"}, /* Pulse length setting test input for amplifier (clock d - k*2048*fs), */\
+ { 0xc3c0, "tdm_enable_loopback"}, /* TDM loopback test , */\
+ { 0xc400, "bst_bypasslatch"}, /* Bypass latch in boost converter , */\
+ { 0xc411, "bst_source"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0xc430, "bst_invertb"}, /* Invert pwmbst test signal , */\
+ { 0xc444, "bst_pulselength"}, /* Pulse length setting test input for boost converter , */\
+ { 0xc490, "test_bst_ctrlsthv"}, /* Test mode for boost control stage , */\
+ { 0xc4a0, "test_bst_iddq"}, /* IDDQ testing in power stage of boost converter , */\
+ { 0xc4b0, "test_bst_rdson"}, /* RDSON testing - boost power stage , */\
+ { 0xc4c0, "test_bst_cvi"}, /* CVI testing - boost power stage , */\
+ { 0xc4d0, "test_bst_ocp"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0), For new ocp (ctrl_reversebst is 1), */\
+ { 0xc4e0, "test_bst_sense"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0xc500, "test_cvi"}, /* Analog BIST, switch choose which transistor will be used as current source (also cross coupled sources possible), */\
+ { 0xc510, "test_discrete"}, /* Test function noise measurement , */\
+ { 0xc520, "test_iddq"}, /* Set the power stages in iddq mode for gate stress., */\
+ { 0xc540, "test_rdson"}, /* Analog BIST, switch to enable Rdson measurement , */\
+ { 0xc550, "test_sdelta"}, /* Analog BIST, noise test , */\
+ { 0xc570, "test_enbl_cs"}, /* Enable for digimux mode of current sense , */\
+ { 0xc5b0, "pga_test_enable"}, /* Enable PGA test mode , */\
+ { 0xc5c0, "pga_test_offset_enable"}, /* Enable PGA test offset , */\
+ { 0xc5d0, "pga_test_shortinput_enable"}, /* Enable PGA test shortinput , */\
+ { 0xc600, "enbl_pwm_dcc"}, /* Enables direct control of pwm duty cycle for DCDC power stage, */\
+ { 0xc613, "pwm_dcc_cnt"}, /* Control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0xc650, "enbl_ldo_stress"}, /* Enable stress of internal supply voltages powerstages, */\
+ { 0xc707, "digimuxa_sel"}, /* DigimuxA input selection control routed to DATAO (see Digimux list for details), */\
+ { 0xc787, "digimuxb_sel"}, /* DigimuxB input selection control routed to INT (see Digimux list for details), */\
+ { 0xc807, "digimuxc_sel"}, /* DigimuxC input selection control routed to PDMDAT (see Digimux list for details), */\
+ { 0xc981, "int_ehs"}, /* Speed/load setting for INT IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc9c0, "hs_mode"}, /* I2C high speed mode control , */\
+ { 0xca00, "enbl_anamux1"}, /* Enable anamux1 , */\
+ { 0xca10, "enbl_anamux2"}, /* Enable anamux2 , */\
+ { 0xca20, "enbl_anamux3"}, /* Enable anamux3 , */\
+ { 0xca30, "enbl_anamux4"}, /* Enable anamux4 , */\
+ { 0xca74, "anamux1"}, /* Anamux selection control - anamux on TEST1 , */\
+ { 0xcb04, "anamux2"}, /* Anamux selection control - anamux on TEST2 , */\
+ { 0xcb54, "anamux3"}, /* Anamux selection control - anamux on TEST3 , */\
+ { 0xcba4, "anamux4"}, /* Anamux selection control - anamux on TEST4 , */\
+ { 0xcd05, "pll_seli"}, /* PLL SELI - I2C direct PLL control mode only , */\
+ { 0xcd64, "pll_selp"}, /* PLL SELP - I2C direct PLL control mode only , */\
+ { 0xcdb3, "pll_selr"}, /* PLL SELR - I2C direct PLL control mode only , */\
+ { 0xcdf0, "pll_frm"}, /* PLL free running mode control; 1 in TCB direct control mode, else this control bit, */\
+ { 0xce09, "pll_ndec"}, /* PLL NDEC - I2C direct PLL control mode only , */\
+ { 0xcea0, "pll_mdec_msb"}, /* MSB of pll_mdec - I2C direct PLL control mode only, */\
+ { 0xceb0, "enbl_pll"}, /* Enables PLL in I2C direct PLL control mode only , */\
+ { 0xcec0, "enbl_osc"}, /* Enables OSC1M in I2C direct control mode only , */\
+ { 0xced0, "pll_bypass"}, /* PLL bypass control in I2C direct PLL control mode only, */\
+ { 0xcee0, "pll_directi"}, /* PLL directi control in I2C direct PLL control mode only, */\
+ { 0xcef0, "pll_directo"}, /* PLL directo control in I2C direct PLL control mode only, */\
+ { 0xcf0f, "pll_mdec_lsb"}, /* Bits 15..0 of PLL MDEC are I2C direct PLL control mode only, */\
+ { 0xd006, "pll_pdec"}, /* PLL PDEC - I2C direct PLL control mode only , */\
+ { 0xd10f, "tsig_freq_lsb"}, /* Internal sinus test generator frequency control , */\
+ { 0xd202, "tsig_freq_msb"}, /* Select internal sinus test generator, frequency control msb bits, */\
+ { 0xd230, "inject_tsig"}, /* Control bit to switch to internal sinus test generator, */\
+ { 0xd283, "tsig_gain"}, /* Test signal gain , */\
+ { 0xd300, "adc10_reset"}, /* Reset for ADC10 - I2C direct control mode , */\
+ { 0xd311, "adc10_test"}, /* Test mode selection signal for ADC10 - I2C direct control mode, */\
+ { 0xd332, "adc10_sel"}, /* Select the input to convert for ADC10 - I2C direct control mode, */\
+ { 0xd364, "adc10_prog_sample"}, /* ADC10 program sample setting - I2C direct control mode, */\
+ { 0xd3b0, "adc10_enbl"}, /* Enable ADC10 - I2C direct control mode , */\
+ { 0xd3c0, "bypass_lp_vbat"}, /* Bypass control for Low pass filter in batt sensor , */\
+ { 0xd409, "data_adc10_tempbat"}, /* ADC 10 data output data for testing , */\
+ { 0xd507, "ctrl_digtoana_hidden"}, /* Spare digital to analog control bits - Hidden , */\
+ { 0xd580, "enbl_clk_out_of_range"}, /* Clock out of range , */\
+ { 0xd621, "clkdiv_audio_sel"}, /* Audio clock divider selection in direct clock control mode, */\
+ { 0xd641, "clkdiv_muxa_sel"}, /* DCDC MUXA clock divider selection in direct clock control mode, */\
+ { 0xd661, "clkdiv_muxb_sel"}, /* DCDC MUXB clock divider selection in direct clock control mode, */\
+ { 0xd701, "pdmdat_ehs"}, /* Speed/load setting for PDMDAT IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xd721, "datao_ehs"}, /* Speed/load setting for DATAO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xd740, "bck_ehs"}, /* Speed/load setting for DATAO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xd750, "datai_ehs"}, /* Speed/load setting for DATAO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xd760, "pdmclk_ehs"}, /* Speed/load setting for DATAO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xd800, "source_in_testmode"}, /* tdm source in test mode (return only current and voltage sense), */\
+ { 0xd810, "gainatt_feedback"}, /* gainatt feedback to tdm , */\
+ { 0xd822, "test_parametric_io"}, /* test io parametric , */\
+ { 0xd850, "ctrl_bst_clk_lp1"}, /* boost clock control in low power mode1 , */\
+ { 0xd861, "test_spare_out1"}, /* test spare out 1 , */\
+ { 0xd880, "bst_dcmbst"}, /* dcm boost , */\
+ { 0xd890, "pdm_loopback"}, /* pdm loop back to tdm , */\
+ { 0xd8a1, "force_pga_clock"}, /* force pga clock , */\
+ { 0xd8c3, "test_spare_out2"}, /* test spare out 1 , */\
+ { 0xee0f, "sw_profile"}, /* Software profile data , */\
+ { 0xef0f, "sw_vstep"}, /* Software vstep information , */\
+ { 0xf000, "calibration_onetime"}, /* Calibration schedule , */\
+ { 0xf010, "calibr_ron_done"}, /* Calibration Ron executed , */\
+ { 0xf020, "calibr_dcdc_api_calibrate"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "calibr_dcdc_delta_sign"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "calibr_dcdc_delta"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "calibr_speaker_info"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf105, "calibr_vout_offset"}, /* DCDC offset calibration 2's complement (key1 protected), */\
+ { 0xf163, "spare_mpt1_9_6"}, /* HW gain module - left channel (2's complement) , */\
+ { 0xf1a5, "spare_mpt1_15_10"}, /* Offset for amplifier, HW gain module - left channel (2's complement), */\
+ { 0xf203, "calibr_gain"}, /* HW gain module (2's complement) , */\
+ { 0xf245, "calibr_offset"}, /* Offset for amplifier, HW gain module (2's complement), */\
+ { 0xf2a3, "spare_mpt2_13_10"}, /* Trimming of LDO (2.7V) , */\
+ { 0xf307, "spare_mpt3_7_0"}, /* SPARE , */\
+ { 0xf387, "calibr_gain_cs"}, /* Current sense gain (signed two's complement format), */\
+ { 0xf40f, "spare_mtp4_15_0"}, /* SPARE , */\
+ { 0xf50f, "calibr_R25C_R"}, /* Ron resistance of speaker coil , */\
+ { 0xf606, "spare_mpt6_6_0"}, /* SPARE , */\
+ { 0xf686, "spare_mpt6_14_8"}, /* Offset of left amplifier level shifter B , */\
+ { 0xf706, "ctrl_offset_a"}, /* Offset of level shifter A , */\
+ { 0xf786, "ctrl_offset_b"}, /* Offset of amplifier level shifter B , */\
+ { 0xf806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0xf870, "htol_iic_addr_en"}, /* HTOL I2C address enable control , */\
+ { 0xf884, "calibr_temp_offset"}, /* Temperature offset 2's compliment (key1 protected), */\
+ { 0xf8d2, "calibr_temp_gain"}, /* Temperature gain 2's compliment (key1 protected) , */\
+ { 0xf900, "mtp_lock_dcdcoff_mode"}, /* Disable function dcdcoff_mode , */\
+ { 0xf910, "disable_sam_mode"}, /* Disable same mode , */\
+ { 0xf920, "mtp_lock_bypass_clipper"}, /* Disable function bypass_clipper , */\
+ { 0xf930, "mtp_lock_max_dcdc_voltage"}, /* Disable programming of max dcdc boost voltage , */\
+ { 0xf943, "calibr_vbg_trim"}, /* Bandgap trimming control , */\
+ { 0xf980, "mtp_enbl_amp_in_state_alarm"}, /* Enbl_amp in alarm state , */\
+ { 0xf990, "mtp_enbl_pwm_delay_clock_gating"}, /* pwm delay clock auto gating , */\
+ { 0xf9a0, "mtp_enbl_ocp_clock_gating"}, /* ocpclock auto gating , */\
+ { 0xf9b0, "mtp_gate_cgu_clock_for_test"}, /* cgu test clock control , */\
+ { 0xf9c3, "spare_mtp9_15_12"}, /* MTP-control FW - See Firmware I2C API document for details, */\
+ { 0xfa0f, "mtpdataA"}, /* MTPdataA (key1 protected) , */\
+ { 0xfb0f, "mtpdataB"}, /* MTPdataB (key1 protected) , */\
+ { 0xfc0f, "mtpdataC"}, /* MTPdataC (key1 protected) , */\
+ { 0xfd0f, "mtpdataD"}, /* MTPdataD (key1 protected) , */\
+ { 0xfe0f, "mtpdataE"}, /* MTPdataE (key1 protected) , */\
+ { 0xff07, "calibr_osc_delta_ndiv"}, /* Calibration data for OSC1M, signed number representation, */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+enum tfa9872_irq {
+ tfa9872_irq_stvdds = 0,
+ tfa9872_irq_stplls = 1,
+ tfa9872_irq_stotds = 2,
+ tfa9872_irq_stovds = 3,
+ tfa9872_irq_stuvds = 4,
+ tfa9872_irq_stclks = 5,
+ tfa9872_irq_stmtpb = 6,
+ tfa9872_irq_stnoclk = 7,
+ tfa9872_irq_stsws = 10,
+ tfa9872_irq_stamps = 12,
+ tfa9872_irq_starefs = 13,
+ tfa9872_irq_stadccr = 14,
+ tfa9872_irq_stbstcu = 16,
+ tfa9872_irq_stbsthi = 17,
+ tfa9872_irq_stbstoc = 18,
+ tfa9872_irq_stbstpkcur = 19,
+ tfa9872_irq_stbstvc = 20,
+ tfa9872_irq_stbst86 = 21,
+ tfa9872_irq_stbst93 = 22,
+ tfa9872_irq_stocpr = 25,
+ tfa9872_irq_stmwsrc = 26,
+ tfa9872_irq_stmwsmu = 28,
+ tfa9872_irq_stclkoor = 31,
+ tfa9872_irq_sttdmer = 32,
+ tfa9872_irq_stclpr = 34,
+ tfa9872_irq_stlp0 = 36,
+ tfa9872_irq_stlp1 = 37,
+ tfa9872_irq_stla = 38,
+ tfa9872_irq_stvddph = 39,
+ tfa9872_irq_max = 40,
+ tfa9872_irq_all = -1 /* all irqs */};
+
+#define TFA9872_IRQ_NAMETABLE static tfaIrqName_t Tfa9872IrqNames[]= {\
+ { 0, "STVDDS"},\
+ { 1, "STPLLS"},\
+ { 2, "STOTDS"},\
+ { 3, "STOVDS"},\
+ { 4, "STUVDS"},\
+ { 5, "STCLKS"},\
+ { 6, "STMTPB"},\
+ { 7, "STNOCLK"},\
+ { 8, "8"},\
+ { 9, "9"},\
+ { 10, "STSWS"},\
+ { 11, "11"},\
+ { 12, "STAMPS"},\
+ { 13, "STAREFS"},\
+ { 14, "STADCCR"},\
+ { 15, "15"},\
+ { 16, "STBSTCU"},\
+ { 17, "STBSTHI"},\
+ { 18, "STBSTOC"},\
+ { 19, "STBSTPKCUR"},\
+ { 20, "STBSTVC"},\
+ { 21, "STBST86"},\
+ { 22, "STBST93"},\
+ { 23, "23"},\
+ { 24, "24"},\
+ { 25, "STOCPR"},\
+ { 26, "STMWSRC"},\
+ { 27, "27"},\
+ { 28, "STMWSMU"},\
+ { 29, "29"},\
+ { 30, "30"},\
+ { 31, "STCLKOOR"},\
+ { 32, "STTDMER"},\
+ { 33, "33"},\
+ { 34, "STCLPR"},\
+ { 35, "35"},\
+ { 36, "STLP0"},\
+ { 37, "STLP1"},\
+ { 38, "STLA"},\
+ { 39, "STVDDPH"},\
+ { 40, "40"},\
+};
+#endif /* _TFA9872_TFAFIELDNAMES_H */
diff --git a/inc/tfa9874_tfafieldnames.h b/inc/tfa9874_tfafieldnames.h
new file mode 100644
index 0000000..ca7f320
--- /dev/null
+++ b/inc/tfa9874_tfafieldnames.h
@@ -0,0 +1,836 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9874_TFAFIELDNAMES_H
+#define _TFA9874_TFAFIELDNAMES_H
+
+
+#define TFA9874_I2CVERSION 1.16
+
+typedef enum nxpTfa9874BfEnumList {
+ TFA9874_BF_PWDN = 0x0000, /*!< Powerdown selection */
+ TFA9874_BF_I2CR = 0x0010, /*!< I2C Reset - Auto clear */
+ TFA9874_BF_AMPE = 0x0030, /*!< Activate Amplifier */
+ TFA9874_BF_DCA = 0x0040, /*!< Activate DC-to-DC converter */
+ TFA9874_BF_INTP = 0x0071, /*!< Interrupt config */
+ TFA9874_BF_BYPOCP= 0x00b0, /*!< Bypass OCP */
+ TFA9874_BF_TSTOCP= 0x00c0, /*!< OCP testing control */
+ TFA9874_BF_MANSCONF= 0x0120, /*!< I2C configured */
+ TFA9874_BF_MANAOOSC= 0x0140, /*!< Internal osc off at PWDN */
+ TFA9874_BF_MUTETO= 0x01d0, /*!< Time out SB mute sequence */
+ TFA9874_BF_OPENMTP= 0x01e0, /*!< Control for FAIM protection */
+ TFA9874_BF_AUDFS = 0x0203, /*!< Sample rate (fs) */
+ TFA9874_BF_INPLEV= 0x0240, /*!< TDM output attenuation */
+ TFA9874_BF_FRACTDEL= 0x0255, /*!< V/I Fractional delay */
+ TFA9874_BF_REV = 0x030f, /*!< Revision info */
+ TFA9874_BF_REFCKEXT= 0x0401, /*!< PLL external ref clock */
+ TFA9874_BF_REFCKSEL= 0x0420, /*!< PLL internal ref clock */
+ TFA9874_BF_SSFAIME= 0x05c0, /*!< Sub-system FAIM */
+ TFA9874_BF_AMPOCRT= 0x0802, /*!< Amplifier on-off criteria for shutdown */
+ TFA9874_BF_VDDS = 0x1000, /*!< POR */
+ TFA9874_BF_DCOCPOK= 0x1010, /*!< DCDC OCP nmos (sticky register , clear on read) */
+ TFA9874_BF_OTDS = 0x1020, /*!< OTP alarm (sticky register , clear on read) */
+ TFA9874_BF_OCDS = 0x1030, /*!< OCP amplifier (sticky register , clear on read) */
+ TFA9874_BF_UVDS = 0x1040, /*!< UVP alarm (sticky register , clear on read) */
+ TFA9874_BF_MANALARM= 0x1050, /*!< Alarm state */
+ TFA9874_BF_TDMERR= 0x1060, /*!< TDM error */
+ TFA9874_BF_NOCLK = 0x1070, /*!< Lost clock (sticky register , clear on read) */
+ TFA9874_BF_DCIL = 0x1100, /*!< DCDC current limiting */
+ TFA9874_BF_DCDCA = 0x1110, /*!< DCDC active (sticky register , clear on read) */
+ TFA9874_BF_DCHVBAT= 0x1130, /*!< DCDC level 1x */
+ TFA9874_BF_DCH114= 0x1140, /*!< DCDC level 1.14x */
+ TFA9874_BF_DCH107= 0x1150, /*!< DCDC level 1.07x */
+ TFA9874_BF_PLLS = 0x1160, /*!< PLL lock */
+ TFA9874_BF_CLKS = 0x1170, /*!< Clocks stable */
+ TFA9874_BF_TDMLUTER= 0x1180, /*!< TDM LUT error */
+ TFA9874_BF_TDMSTAT= 0x1192, /*!< TDM status bits */
+ TFA9874_BF_MTPB = 0x11c0, /*!< MTP busy */
+ TFA9874_BF_SWS = 0x11d0, /*!< Amplifier engage */
+ TFA9874_BF_AMPS = 0x11e0, /*!< Amplifier enable */
+ TFA9874_BF_AREFS = 0x11f0, /*!< References enable */
+ TFA9874_BF_OCPOAP= 0x1300, /*!< OCPOK pmos A */
+ TFA9874_BF_OCPOAN= 0x1310, /*!< OCPOK nmos A */
+ TFA9874_BF_OCPOBP= 0x1320, /*!< OCPOK pmos B */
+ TFA9874_BF_OCPOBN= 0x1330, /*!< OCPOK nmos B */
+ TFA9874_BF_OVDS = 0x1380, /*!< OVP alarm */
+ TFA9874_BF_CLIPS = 0x1390, /*!< Amplifier clipping */
+ TFA9874_BF_ADCCR = 0x13a0, /*!< Control ADC */
+ TFA9874_BF_MANWAIT1= 0x13c0, /*!< Wait HW I2C settings */
+ TFA9874_BF_MANMUTE= 0x13e0, /*!< Audio mute sequence */
+ TFA9874_BF_MANOPER= 0x13f0, /*!< Operating state */
+ TFA9874_BF_CLKOOR= 0x1420, /*!< External clock status */
+ TFA9874_BF_MANSTATE= 0x1433, /*!< Device manager status */
+ TFA9874_BF_DCMODE= 0x1471, /*!< DCDC mode status bits */
+ TFA9874_BF_BATS = 0x1509, /*!< Battery voltage (V) */
+ TFA9874_BF_TEMPS = 0x1608, /*!< IC Temperature (C) */
+ TFA9874_BF_VDDPS = 0x1709, /*!< IC VDDP voltage ( 1023*VDDP/13 V) */
+ TFA9874_BF_TDME = 0x2040, /*!< Enable interface */
+ TFA9874_BF_TDMMODE= 0x2050, /*!< Slave/master */
+ TFA9874_BF_TDMCLINV= 0x2060, /*!< Reception data to BCK clock */
+ TFA9874_BF_TDMFSLN= 0x2073, /*!< FS length (master mode only) */
+ TFA9874_BF_TDMFSPOL= 0x20b0, /*!< FS polarity */
+ TFA9874_BF_TDMNBCK= 0x20c3, /*!< N-BCK's in FS */
+ TFA9874_BF_TDMSLOTS= 0x2103, /*!< N-slots in Frame */
+ TFA9874_BF_TDMSLLN= 0x2144, /*!< N-bits in slot */
+ TFA9874_BF_TDMBRMG= 0x2194, /*!< N-bits remaining */
+ TFA9874_BF_TDMDEL= 0x21e0, /*!< data delay to FS */
+ TFA9874_BF_TDMADJ= 0x21f0, /*!< data adjustment */
+ TFA9874_BF_TDMOOMP= 0x2201, /*!< Received audio compression */
+ TFA9874_BF_TDMSSIZE= 0x2224, /*!< Sample size per slot */
+ TFA9874_BF_TDMTXDFO= 0x2271, /*!< Format unused bits */
+ TFA9874_BF_TDMTXUS0= 0x2291, /*!< Format unused slots DATAO */
+ TFA9874_BF_TDMSPKE= 0x2300, /*!< Control audio tdm channel in 0 (spkr + dcdc) */
+ TFA9874_BF_TDMDCE= 0x2310, /*!< Control audio tdm channel in 1 (dcdc) */
+ TFA9874_BF_TDMCSE= 0x2330, /*!< current sense vbat temperature and vddp feedback */
+ TFA9874_BF_TDMVSE= 0x2340, /*!< Voltage sense vbat temperature and vddp feedback */
+ TFA9874_BF_TDMSPKS= 0x2603, /*!< tdm slot for sink 0 (speaker + dcdc) */
+ TFA9874_BF_TDMDCS= 0x2643, /*!< tdm slot for sink 1 (dcdc) */
+ TFA9874_BF_TDMCSS= 0x26c3, /*!< Slot Position of current sense vbat temperature and vddp feedback */
+ TFA9874_BF_TDMVSS= 0x2703, /*!< Slot Position of Voltage sense vbat temperature and vddp feedback */
+ TFA9874_BF_ISTVDDS= 0x4000, /*!< Status POR */
+ TFA9874_BF_ISTBSTOC= 0x4010, /*!< Status DCDC OCP */
+ TFA9874_BF_ISTOTDS= 0x4020, /*!< Status OTP alarm */
+ TFA9874_BF_ISTOCPR= 0x4030, /*!< Status ocp alarm */
+ TFA9874_BF_ISTUVDS= 0x4040, /*!< Status UVP alarm */
+ TFA9874_BF_ISTMANALARM= 0x4050, /*!< Status nanager Alarm state */
+ TFA9874_BF_ISTTDMER= 0x4060, /*!< Status tdm error */
+ TFA9874_BF_ISTNOCLK= 0x4070, /*!< Status lost clock */
+ TFA9874_BF_ICLVDDS= 0x4400, /*!< Clear POR */
+ TFA9874_BF_ICLBSTOC= 0x4410, /*!< Clear DCDC OCP */
+ TFA9874_BF_ICLOTDS= 0x4420, /*!< Clear OTP alarm */
+ TFA9874_BF_ICLOCPR= 0x4430, /*!< Clear ocp alarm */
+ TFA9874_BF_ICLUVDS= 0x4440, /*!< Clear UVP alarm */
+ TFA9874_BF_ICLMANALARM= 0x4450, /*!< clear nanager Alarm state */
+ TFA9874_BF_ICLTDMER= 0x4460, /*!< Clear tdm error */
+ TFA9874_BF_ICLNOCLK= 0x4470, /*!< Clear lost clk */
+ TFA9874_BF_IEVDDS= 0x4800, /*!< Enable por */
+ TFA9874_BF_IEBSTOC= 0x4810, /*!< Enable DCDC OCP */
+ TFA9874_BF_IEOTDS= 0x4820, /*!< Enable OTP alarm */
+ TFA9874_BF_IEOCPR= 0x4830, /*!< Enable ocp alarm */
+ TFA9874_BF_IEUVDS= 0x4840, /*!< Enable UVP alarm */
+ TFA9874_BF_IEMANALARM= 0x4850, /*!< Enable nanager Alarm state */
+ TFA9874_BF_IETDMER= 0x4860, /*!< Enable tdm error */
+ TFA9874_BF_IENOCLK= 0x4870, /*!< Enable lost clk */
+ TFA9874_BF_IPOVDDS= 0x4c00, /*!< Polarity por */
+ TFA9874_BF_IPOBSTOC= 0x4c10, /*!< Polarity DCDC OCP */
+ TFA9874_BF_IPOOTDS= 0x4c20, /*!< Polarity OTP alarm */
+ TFA9874_BF_IPOOCPR= 0x4c30, /*!< Polarity ocp alarm */
+ TFA9874_BF_IPOUVDS= 0x4c40, /*!< Polarity UVP alarm */
+ TFA9874_BF_IPOMANALARM= 0x4c50, /*!< Polarity nanager Alarm state */
+ TFA9874_BF_IPOTDMER= 0x4c60, /*!< Polarity tdm error */
+ TFA9874_BF_IPONOCLK= 0x4c70, /*!< Polarity lost clk */
+ TFA9874_BF_BSSCR = 0x5001, /*!< Battery Safeguard attack time */
+ TFA9874_BF_BSST = 0x5023, /*!< Battery Safeguard threshold voltage level */
+ TFA9874_BF_BSSRL = 0x5061, /*!< Battery Safeguard maximum reduction */
+ TFA9874_BF_VBATFLTL= 0x5080, /*!< vbat filter limit */
+ TFA9874_BF_BSSR = 0x50e0, /*!< Battery voltage read out */
+ TFA9874_BF_BSSBY = 0x50f0, /*!< Bypass battery safeguard */
+ TFA9874_BF_BSSS = 0x5100, /*!< Vbat prot steepness */
+ TFA9874_BF_HPFBYP= 0x5150, /*!< Bypass HPF */
+ TFA9874_BF_DPSA = 0x5170, /*!< Enable DPSA */
+ TFA9874_BF_CLIPCTRL= 0x5222, /*!< Clip control setting */
+ TFA9874_BF_AMPGAIN= 0x5257, /*!< Amplifier gain */
+ TFA9874_BF_SLOPEE= 0x52d0, /*!< Enables slope control */
+ TFA9874_BF_SLOPESET= 0x52e0, /*!< Slope speed setting (bin. coded) */
+ TFA9874_BF_TDMDCG= 0x6123, /*!< Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE) */
+ TFA9874_BF_TDMSPKG= 0x6163, /*!< Total gain depending on INPLEV setting (channel 0) */
+ TFA9874_BF_LNMODE= 0x62e1, /*!< ctrl select mode */
+ TFA9874_BF_LPM1MODE= 0x64e1, /*!< low power mode control */
+ TFA9874_BF_TDMSRCMAP= 0x6802, /*!< tdm source mapping */
+ TFA9874_BF_TDMSRCAS= 0x6831, /*!< Sensed value A */
+ TFA9874_BF_TDMSRCBS= 0x6851, /*!< Sensed value B */
+ TFA9874_BF_TDMSRCACLIP= 0x6871, /*!< clip information (analog /digital) for source0 */
+ TFA9874_BF_TDMSRCBCLIP= 0x6891, /*!< clip information (analog /digital) for source1 */
+ TFA9874_BF_LP1 = 0x6e10, /*!< low power mode 1 detection */
+ TFA9874_BF_LA = 0x6e20, /*!< low amplitude detection */
+ TFA9874_BF_VDDPH = 0x6e30, /*!< vddp greater than vbat */
+ TFA9874_BF_DELCURCOMP= 0x6f02, /*!< delay to allign compensation signal with current sense signal */
+ TFA9874_BF_SIGCURCOMP= 0x6f40, /*!< polarity of compensation for current sense */
+ TFA9874_BF_ENCURCOMP= 0x6f50, /*!< enable current sense compensation */
+ TFA9874_BF_LVLCLPPWM= 0x6f72, /*!< set the amount of pwm pulse that may be skipped before clip-flag is triggered */
+ TFA9874_BF_DCMCC = 0x7033, /*!< Max coil current */
+ TFA9874_BF_DCCV = 0x7071, /*!< Slope compensation current, represents LxF (inductance x frequency) value */
+ TFA9874_BF_DCIE = 0x7090, /*!< Adaptive boost mode */
+ TFA9874_BF_DCSR = 0x70a0, /*!< Soft ramp up/down */
+ TFA9874_BF_DCDIS = 0x70e0, /*!< DCDC on/off */
+ TFA9874_BF_DCPWM = 0x70f0, /*!< DCDC PWM only mode */
+ TFA9874_BF_DCTRACK= 0x7430, /*!< Boost algorithm selection, effective only when boost_intelligent is set to 1 */
+ TFA9874_BF_DCTRIP= 0x7444, /*!< 1st Adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9874_BF_DCHOLD= 0x7494, /*!< Hold time for DCDC booster, effective only when boost_intelligent is set to 1 */
+ TFA9874_BF_DCINT = 0x74e0, /*!< Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1 */
+ TFA9874_BF_DCTRIP2= 0x7534, /*!< 2nd Adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9874_BF_DCTRIPT= 0x7584, /*!< Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1 */
+ TFA9874_BF_DCTRIPHYSTE= 0x75f0, /*!< Enable hysteresis on booster trip levels */
+ TFA9874_BF_DCVOF = 0x7635, /*!< First boost voltage level */
+ TFA9874_BF_DCVOS = 0x7695, /*!< Second boost voltage level */
+ TFA9874_BF_MTPK = 0xa107, /*!< MTP KEY2 register */
+ TFA9874_BF_KEY1LOCKED= 0xa200, /*!< Indicates KEY1 is locked */
+ TFA9874_BF_KEY2LOCKED= 0xa210, /*!< Indicates KEY2 is locked */
+ TFA9874_BF_CIMTP = 0xa360, /*!< Start copying data from I2C mtp registers to mtp */
+ TFA9874_BF_MTPRDMSB= 0xa50f, /*!< MSB word of MTP manual read data */
+ TFA9874_BF_MTPRDLSB= 0xa60f, /*!< LSB word of MTP manual read data */
+ TFA9874_BF_EXTTS = 0xb108, /*!< External temperature (C) */
+ TFA9874_BF_TROS = 0xb190, /*!< Select temp Speaker calibration */
+ TFA9874_BF_SWPROFIL= 0xee0f, /*!< Software profile data */
+ TFA9874_BF_SWVSTEP= 0xef0f, /*!< Software vstep information */
+ TFA9874_BF_MTPOTC= 0xf000, /*!< Calibration schedule */
+ TFA9874_BF_MTPEX = 0xf010, /*!< Calibration Ron executed */
+ TFA9874_BF_DCMCCAPI= 0xf020, /*!< Calibration current limit DCDC */
+ TFA9874_BF_DCMCCSB= 0xf030, /*!< Sign bit for delta calibration current limit DCDC */
+ TFA9874_BF_USERDEF= 0xf042, /*!< Calibration delta current limit DCDC */
+ TFA9874_BF_CUSTINFO= 0xf078, /*!< Reserved space for allowing customer to store speaker information */
+ TFA9874_BF_R25C = 0xf50f, /*!< Ron resistance of speaker coil */
+} nxpTfa9874BfEnumList_t;
+#define TFA9874_NAMETABLE static tfaBfName_t Tfa9874DatasheetNames[]= {\
+ { 0x0, "PWDN"}, /* Powerdown selection , */\
+ { 0x10, "I2CR"}, /* I2C Reset - Auto clear , */\
+ { 0x30, "AMPE"}, /* Activate Amplifier , */\
+ { 0x40, "DCA"}, /* Activate DC-to-DC converter , */\
+ { 0x71, "INTP"}, /* Interrupt config , */\
+ { 0xb0, "BYPOCP"}, /* Bypass OCP , */\
+ { 0xc0, "TSTOCP"}, /* OCP testing control , */\
+ { 0x120, "MANSCONF"}, /* I2C configured , */\
+ { 0x140, "MANAOOSC"}, /* Internal osc off at PWDN , */\
+ { 0x1d0, "MUTETO"}, /* Time out SB mute sequence , */\
+ { 0x1e0, "OPENMTP"}, /* Control for FAIM protection , */\
+ { 0x203, "AUDFS"}, /* Sample rate (fs) , */\
+ { 0x240, "INPLEV"}, /* TDM output attenuation , */\
+ { 0x255, "FRACTDEL"}, /* V/I Fractional delay , */\
+ { 0x30f, "REV"}, /* Revision info , */\
+ { 0x401, "REFCKEXT"}, /* PLL external ref clock , */\
+ { 0x420, "REFCKSEL"}, /* PLL internal ref clock , */\
+ { 0x5c0, "SSFAIME"}, /* Sub-system FAIM , */\
+ { 0x802, "AMPOCRT"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0x1000, "VDDS"}, /* POR , */\
+ { 0x1010, "DCOCPOK"}, /* DCDC OCP nmos (sticky register , clear on read) , */\
+ { 0x1020, "OTDS"}, /* OTP alarm (sticky register , clear on read) , */\
+ { 0x1030, "OCDS"}, /* OCP amplifier (sticky register , clear on read), */\
+ { 0x1040, "UVDS"}, /* UVP alarm (sticky register , clear on read) , */\
+ { 0x1050, "MANALARM"}, /* Alarm state , */\
+ { 0x1060, "TDMERR"}, /* TDM error , */\
+ { 0x1070, "NOCLK"}, /* Lost clock (sticky register , clear on read) , */\
+ { 0x1100, "DCIL"}, /* DCDC current limiting , */\
+ { 0x1110, "DCDCA"}, /* DCDC active (sticky register , clear on read) , */\
+ { 0x1130, "DCHVBAT"}, /* DCDC level 1x , */\
+ { 0x1140, "DCH114"}, /* DCDC level 1.14x , */\
+ { 0x1150, "DCH107"}, /* DCDC level 1.07x , */\
+ { 0x1160, "PLLS"}, /* PLL lock , */\
+ { 0x1170, "CLKS"}, /* Clocks stable , */\
+ { 0x1180, "TDMLUTER"}, /* TDM LUT error , */\
+ { 0x1192, "TDMSTAT"}, /* TDM status bits , */\
+ { 0x11c0, "MTPB"}, /* MTP busy , */\
+ { 0x11d0, "SWS"}, /* Amplifier engage , */\
+ { 0x11e0, "AMPS"}, /* Amplifier enable , */\
+ { 0x11f0, "AREFS"}, /* References enable , */\
+ { 0x1300, "OCPOAP"}, /* OCPOK pmos A , */\
+ { 0x1310, "OCPOAN"}, /* OCPOK nmos A , */\
+ { 0x1320, "OCPOBP"}, /* OCPOK pmos B , */\
+ { 0x1330, "OCPOBN"}, /* OCPOK nmos B , */\
+ { 0x1380, "OVDS"}, /* OVP alarm , */\
+ { 0x1390, "CLIPS"}, /* Amplifier clipping , */\
+ { 0x13a0, "ADCCR"}, /* Control ADC , */\
+ { 0x13c0, "MANWAIT1"}, /* Wait HW I2C settings , */\
+ { 0x13e0, "MANMUTE"}, /* Audio mute sequence , */\
+ { 0x13f0, "MANOPER"}, /* Operating state , */\
+ { 0x1420, "CLKOOR"}, /* External clock status , */\
+ { 0x1433, "MANSTATE"}, /* Device manager status , */\
+ { 0x1471, "DCMODE"}, /* DCDC mode status bits , */\
+ { 0x1509, "BATS"}, /* Battery voltage (V) , */\
+ { 0x1608, "TEMPS"}, /* IC Temperature (C) , */\
+ { 0x1709, "VDDPS"}, /* IC VDDP voltage ( 1023*VDDP/13 V) , */\
+ { 0x2040, "TDME"}, /* Enable interface , */\
+ { 0x2050, "TDMMODE"}, /* Slave/master , */\
+ { 0x2060, "TDMCLINV"}, /* Reception data to BCK clock , */\
+ { 0x2073, "TDMFSLN"}, /* FS length (master mode only) , */\
+ { 0x20b0, "TDMFSPOL"}, /* FS polarity , */\
+ { 0x20c3, "TDMNBCK"}, /* N-BCK's in FS , */\
+ { 0x2103, "TDMSLOTS"}, /* N-slots in Frame , */\
+ { 0x2144, "TDMSLLN"}, /* N-bits in slot , */\
+ { 0x2194, "TDMBRMG"}, /* N-bits remaining , */\
+ { 0x21e0, "TDMDEL"}, /* data delay to FS , */\
+ { 0x21f0, "TDMADJ"}, /* data adjustment , */\
+ { 0x2201, "TDMOOMP"}, /* Received audio compression , */\
+ { 0x2224, "TDMSSIZE"}, /* Sample size per slot , */\
+ { 0x2271, "TDMTXDFO"}, /* Format unused bits , */\
+ { 0x2291, "TDMTXUS0"}, /* Format unused slots DATAO , */\
+ { 0x2300, "TDMSPKE"}, /* Control audio tdm channel in 0 (spkr + dcdc) , */\
+ { 0x2310, "TDMDCE"}, /* Control audio tdm channel in 1 (dcdc) , */\
+ { 0x2330, "TDMCSE"}, /* current sense vbat temperature and vddp feedback , */\
+ { 0x2340, "TDMVSE"}, /* Voltage sense vbat temperature and vddp feedback , */\
+ { 0x2603, "TDMSPKS"}, /* tdm slot for sink 0 (speaker + dcdc) , */\
+ { 0x2643, "TDMDCS"}, /* tdm slot for sink 1 (dcdc) , */\
+ { 0x26c3, "TDMCSS"}, /* Slot Position of current sense vbat temperature and vddp feedback, */\
+ { 0x2703, "TDMVSS"}, /* Slot Position of Voltage sense vbat temperature and vddp feedback, */\
+ { 0x4000, "ISTVDDS"}, /* Status POR , */\
+ { 0x4010, "ISTBSTOC"}, /* Status DCDC OCP , */\
+ { 0x4020, "ISTOTDS"}, /* Status OTP alarm , */\
+ { 0x4030, "ISTOCPR"}, /* Status ocp alarm , */\
+ { 0x4040, "ISTUVDS"}, /* Status UVP alarm , */\
+ { 0x4050, "ISTMANALARM"}, /* Status nanager Alarm state , */\
+ { 0x4060, "ISTTDMER"}, /* Status tdm error , */\
+ { 0x4070, "ISTNOCLK"}, /* Status lost clock , */\
+ { 0x4400, "ICLVDDS"}, /* Clear POR , */\
+ { 0x4410, "ICLBSTOC"}, /* Clear DCDC OCP , */\
+ { 0x4420, "ICLOTDS"}, /* Clear OTP alarm , */\
+ { 0x4430, "ICLOCPR"}, /* Clear ocp alarm , */\
+ { 0x4440, "ICLUVDS"}, /* Clear UVP alarm , */\
+ { 0x4450, "ICLMANALARM"}, /* clear nanager Alarm state , */\
+ { 0x4460, "ICLTDMER"}, /* Clear tdm error , */\
+ { 0x4470, "ICLNOCLK"}, /* Clear lost clk , */\
+ { 0x4800, "IEVDDS"}, /* Enable por , */\
+ { 0x4810, "IEBSTOC"}, /* Enable DCDC OCP , */\
+ { 0x4820, "IEOTDS"}, /* Enable OTP alarm , */\
+ { 0x4830, "IEOCPR"}, /* Enable ocp alarm , */\
+ { 0x4840, "IEUVDS"}, /* Enable UVP alarm , */\
+ { 0x4850, "IEMANALARM"}, /* Enable nanager Alarm state , */\
+ { 0x4860, "IETDMER"}, /* Enable tdm error , */\
+ { 0x4870, "IENOCLK"}, /* Enable lost clk , */\
+ { 0x4c00, "IPOVDDS"}, /* Polarity por , */\
+ { 0x4c10, "IPOBSTOC"}, /* Polarity DCDC OCP , */\
+ { 0x4c20, "IPOOTDS"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "IPOOCPR"}, /* Polarity ocp alarm , */\
+ { 0x4c40, "IPOUVDS"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "IPOMANALARM"}, /* Polarity nanager Alarm state , */\
+ { 0x4c60, "IPOTDMER"}, /* Polarity tdm error , */\
+ { 0x4c70, "IPONOCLK"}, /* Polarity lost clk , */\
+ { 0x5001, "BSSCR"}, /* Battery Safeguard attack time , */\
+ { 0x5023, "BSST"}, /* Battery Safeguard threshold voltage level , */\
+ { 0x5061, "BSSRL"}, /* Battery Safeguard maximum reduction , */\
+ { 0x5080, "VBATFLTL"}, /* vbat filter limit , */\
+ { 0x50e0, "BSSR"}, /* Battery voltage read out , */\
+ { 0x50f0, "BSSBY"}, /* Bypass battery safeguard , */\
+ { 0x5100, "BSSS"}, /* Vbat prot steepness , */\
+ { 0x5150, "HPFBYP"}, /* Bypass HPF , */\
+ { 0x5170, "DPSA"}, /* Enable DPSA , */\
+ { 0x5222, "CLIPCTRL"}, /* Clip control setting , */\
+ { 0x5257, "AMPGAIN"}, /* Amplifier gain , */\
+ { 0x52d0, "SLOPEE"}, /* Enables slope control , */\
+ { 0x52e0, "SLOPESET"}, /* Slope speed setting (bin. coded) , */\
+ { 0x6123, "TDMDCG"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x6163, "TDMSPKG"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x62e1, "LNMODE"}, /* ctrl select mode , */\
+ { 0x64e1, "LPM1MODE"}, /* low power mode control , */\
+ { 0x6802, "TDMSRCMAP"}, /* tdm source mapping , */\
+ { 0x6831, "TDMSRCAS"}, /* Sensed value A , */\
+ { 0x6851, "TDMSRCBS"}, /* Sensed value B , */\
+ { 0x6871, "TDMSRCACLIP"}, /* clip information (analog /digital) for source0 , */\
+ { 0x6891, "TDMSRCBCLIP"}, /* clip information (analog /digital) for source1 , */\
+ { 0x6e10, "LP1"}, /* low power mode 1 detection , */\
+ { 0x6e20, "LA"}, /* low amplitude detection , */\
+ { 0x6e30, "VDDPH"}, /* vddp greater than vbat , */\
+ { 0x6f02, "DELCURCOMP"}, /* delay to allign compensation signal with current sense signal, */\
+ { 0x6f40, "SIGCURCOMP"}, /* polarity of compensation for current sense , */\
+ { 0x6f50, "ENCURCOMP"}, /* enable current sense compensation , */\
+ { 0x6f72, "LVLCLPPWM"}, /* set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7033, "DCMCC"}, /* Max coil current , */\
+ { 0x7071, "DCCV"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7090, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x70a0, "DCSR"}, /* Soft ramp up/down , */\
+ { 0x70e0, "DCDIS"}, /* DCDC on/off , */\
+ { 0x70f0, "DCPWM"}, /* DCDC PWM only mode , */\
+ { 0x7430, "DCTRACK"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7444, "DCTRIP"}, /* 1st Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7494, "DCHOLD"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x74e0, "DCINT"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x7534, "DCTRIP2"}, /* 2nd Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7584, "DCTRIPT"}, /* Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x75f0, "DCTRIPHYSTE"}, /* Enable hysteresis on booster trip levels , */\
+ { 0x7635, "DCVOF"}, /* First boost voltage level , */\
+ { 0x7695, "DCVOS"}, /* Second boost voltage level , */\
+ { 0xa107, "MTPK"}, /* MTP KEY2 register , */\
+ { 0xa200, "KEY1LOCKED"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "KEY2LOCKED"}, /* Indicates KEY2 is locked , */\
+ { 0xa360, "CIMTP"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa50f, "MTPRDMSB"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "MTPRDLSB"}, /* LSB word of MTP manual read data , */\
+ { 0xb108, "EXTTS"}, /* External temperature (C) , */\
+ { 0xb190, "TROS"}, /* Select temp Speaker calibration , */\
+ { 0xee0f, "SWPROFIL"}, /* Software profile data , */\
+ { 0xef0f, "SWVSTEP"}, /* Software vstep information , */\
+ { 0xf000, "MTPOTC"}, /* Calibration schedule , */\
+ { 0xf010, "MTPEX"}, /* Calibration Ron executed , */\
+ { 0xf020, "DCMCCAPI"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "DCMCCSB"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "USERDEF"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "CUSTINFO"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf50f, "R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9874_BITNAMETABLE static tfaBfName_t Tfa9874BitNames[]= {\
+ { 0x0, "powerdown"}, /* Powerdown selection , */\
+ { 0x10, "reset"}, /* I2C Reset - Auto clear , */\
+ { 0x30, "enbl_amplifier"}, /* Activate Amplifier , */\
+ { 0x40, "enbl_boost"}, /* Activate DC-to-DC converter , */\
+ { 0x71, "int_pad_io"}, /* Interrupt config , */\
+ { 0xb0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0xc0, "test_ocp"}, /* OCP testing control , */\
+ { 0x120, "src_set_configured"}, /* I2C configured , */\
+ { 0x140, "enbl_osc1m_auto_off"}, /* Internal osc off at PWDN , */\
+ { 0x1d0, "disable_mute_time_out"}, /* Time out SB mute sequence , */\
+ { 0x1e0, "unprotect_faim"}, /* Control for FAIM protection , */\
+ { 0x203, "audio_fs"}, /* Sample rate (fs) , */\
+ { 0x240, "input_level"}, /* TDM output attenuation , */\
+ { 0x255, "cs_frac_delay"}, /* V/I Fractional delay , */\
+ { 0x2d0, "sel_hysteresis"}, /* Select hysteresis for clock range detector , */\
+ { 0x30f, "device_rev"}, /* Revision info , */\
+ { 0x401, "pll_clkin_sel"}, /* PLL external ref clock , */\
+ { 0x420, "pll_clkin_sel_osc"}, /* PLL internal ref clock , */\
+ { 0x5c0, "enbl_faim_ss"}, /* Sub-system FAIM , */\
+ { 0x802, "ctrl_on2off_criterion"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0xe07, "ctrl_digtoana"}, /* Spare control from digital to analog , */\
+ { 0xf0f, "hidden_code"}, /* 5A6Bh, 23147d to access registers (default for engineering), */\
+ { 0x1000, "flag_por"}, /* POR , */\
+ { 0x1010, "flag_bst_ocpok"}, /* DCDC OCP nmos (sticky register , clear on read) , */\
+ { 0x1020, "flag_otpok"}, /* OTP alarm (sticky register , clear on read) , */\
+ { 0x1030, "flag_ocp_alarm"}, /* OCP amplifier (sticky register , clear on read), */\
+ { 0x1040, "flag_uvpok"}, /* UVP alarm (sticky register , clear on read) , */\
+ { 0x1050, "flag_man_alarm_state"}, /* Alarm state , */\
+ { 0x1060, "flag_tdm_error"}, /* TDM error , */\
+ { 0x1070, "flag_lost_clk"}, /* Lost clock (sticky register , clear on read) , */\
+ { 0x1100, "flag_bst_bstcur"}, /* DCDC current limiting , */\
+ { 0x1110, "flag_bst_hiz"}, /* DCDC active (sticky register , clear on read) , */\
+ { 0x1120, "flag_bst_peakcur"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1130, "flag_bst_voutcomp"}, /* DCDC level 1x , */\
+ { 0x1140, "flag_bst_voutcomp86"}, /* DCDC level 1.14x , */\
+ { 0x1150, "flag_bst_voutcomp93"}, /* DCDC level 1.07x , */\
+ { 0x1160, "flag_pll_lock"}, /* PLL lock , */\
+ { 0x1170, "flag_clocks_stable"}, /* Clocks stable , */\
+ { 0x1180, "flag_tdm_lut_error"}, /* TDM LUT error , */\
+ { 0x1192, "flag_tdm_status"}, /* TDM status bits , */\
+ { 0x11c0, "flag_mtp_busy"}, /* MTP busy , */\
+ { 0x11d0, "flag_engage"}, /* Amplifier engage , */\
+ { 0x11e0, "flag_enbl_amp"}, /* Amplifier enable , */\
+ { 0x11f0, "flag_enbl_ref"}, /* References enable , */\
+ { 0x1300, "flag_ocpokap"}, /* OCPOK pmos A , */\
+ { 0x1310, "flag_ocpokan"}, /* OCPOK nmos A , */\
+ { 0x1320, "flag_ocpokbp"}, /* OCPOK pmos B , */\
+ { 0x1330, "flag_ocpokbn"}, /* OCPOK nmos B , */\
+ { 0x1380, "flag_ovpok"}, /* OVP alarm , */\
+ { 0x1390, "flag_clip"}, /* Amplifier clipping , */\
+ { 0x13a0, "flag_adc10_ready"}, /* Control ADC , */\
+ { 0x13c0, "flag_man_wait_src_settings"}, /* Wait HW I2C settings , */\
+ { 0x13e0, "flag_man_start_mute_audio"}, /* Audio mute sequence , */\
+ { 0x13f0, "flag_man_operating_state"}, /* Operating state , */\
+ { 0x1420, "flag_clk_out_of_range"}, /* External clock status , */\
+ { 0x1433, "man_state"}, /* Device manager status , */\
+ { 0x1471, "status_bst_mode"}, /* DCDC mode status bits , */\
+ { 0x1509, "bat_adc"}, /* Battery voltage (V) , */\
+ { 0x1608, "temp_adc"}, /* IC Temperature (C) , */\
+ { 0x1709, "vddp_adc"}, /* IC VDDP voltage ( 1023*VDDP/13 V) , */\
+ { 0x2040, "tdm_enable"}, /* Enable interface , */\
+ { 0x2050, "tdm_mode"}, /* Slave/master , */\
+ { 0x2060, "tdm_clk_inversion"}, /* Reception data to BCK clock , */\
+ { 0x2073, "tdm_fs_ws_length"}, /* FS length (master mode only) , */\
+ { 0x20b0, "tdm_fs_ws_polarity"}, /* FS polarity , */\
+ { 0x20c3, "tdm_nbck"}, /* N-BCK's in FS , */\
+ { 0x2103, "tdm_nb_of_slots"}, /* N-slots in Frame , */\
+ { 0x2144, "tdm_slot_length"}, /* N-bits in slot , */\
+ { 0x2194, "tdm_bits_remaining"}, /* N-bits remaining , */\
+ { 0x21e0, "tdm_data_delay"}, /* data delay to FS , */\
+ { 0x21f0, "tdm_data_adjustment"}, /* data adjustment , */\
+ { 0x2201, "tdm_audio_sample_compression"}, /* Received audio compression , */\
+ { 0x2224, "tdm_sample_size"}, /* Sample size per slot , */\
+ { 0x2271, "tdm_txdata_format"}, /* Format unused bits , */\
+ { 0x2291, "tdm_txdata_format_unused_slot_sd0"}, /* Format unused slots DATAO , */\
+ { 0x2300, "tdm_sink0_enable"}, /* Control audio tdm channel in 0 (spkr + dcdc) , */\
+ { 0x2310, "tdm_sink1_enable"}, /* Control audio tdm channel in 1 (dcdc) , */\
+ { 0x2330, "tdm_source0_enable"}, /* current sense vbat temperature and vddp feedback , */\
+ { 0x2340, "tdm_source1_enable"}, /* Voltage sense vbat temperature and vddp feedback , */\
+ { 0x2603, "tdm_sink0_slot"}, /* tdm slot for sink 0 (speaker + dcdc) , */\
+ { 0x2643, "tdm_sink1_slot"}, /* tdm slot for sink 1 (dcdc) , */\
+ { 0x26c3, "tdm_source0_slot"}, /* Slot Position of current sense vbat temperature and vddp feedback, */\
+ { 0x2703, "tdm_source1_slot"}, /* Slot Position of Voltage sense vbat temperature and vddp feedback, */\
+ { 0x4000, "int_out_flag_por"}, /* Status POR , */\
+ { 0x4010, "int_out_flag_bst_ocpok"}, /* Status DCDC OCP , */\
+ { 0x4020, "int_out_flag_otpok"}, /* Status OTP alarm , */\
+ { 0x4030, "int_out_flag_ocp_alarm"}, /* Status ocp alarm , */\
+ { 0x4040, "int_out_flag_uvpok"}, /* Status UVP alarm , */\
+ { 0x4050, "int_out_flag_man_alarm_state"}, /* Status nanager Alarm state , */\
+ { 0x4060, "int_out_flag_tdm_error"}, /* Status tdm error , */\
+ { 0x4070, "int_out_flag_lost_clk"}, /* Status lost clock , */\
+ { 0x4400, "int_in_flag_por"}, /* Clear POR , */\
+ { 0x4410, "int_in_flag_bst_ocpok"}, /* Clear DCDC OCP , */\
+ { 0x4420, "int_in_flag_otpok"}, /* Clear OTP alarm , */\
+ { 0x4430, "int_in_flag_ocp_alarm"}, /* Clear ocp alarm , */\
+ { 0x4440, "int_in_flag_uvpok"}, /* Clear UVP alarm , */\
+ { 0x4450, "int_in_flag_man_alarm_state"}, /* clear nanager Alarm state , */\
+ { 0x4460, "int_in_flag_tdm_error"}, /* Clear tdm error , */\
+ { 0x4470, "int_in_flag_lost_clk"}, /* Clear lost clk , */\
+ { 0x4800, "int_enable_flag_por"}, /* Enable por , */\
+ { 0x4810, "int_enable_flag_bst_ocpok"}, /* Enable DCDC OCP , */\
+ { 0x4820, "int_enable_flag_otpok"}, /* Enable OTP alarm , */\
+ { 0x4830, "int_enable_flag_ocp_alarm"}, /* Enable ocp alarm , */\
+ { 0x4840, "int_enable_flag_uvpok"}, /* Enable UVP alarm , */\
+ { 0x4850, "int_enable_flag_man_alarm_state"}, /* Enable nanager Alarm state , */\
+ { 0x4860, "int_enable_flag_tdm_error"}, /* Enable tdm error , */\
+ { 0x4870, "int_enable_flag_lost_clk"}, /* Enable lost clk , */\
+ { 0x4c00, "int_polarity_flag_por"}, /* Polarity por , */\
+ { 0x4c10, "int_polarity_flag_bst_ocpok"}, /* Polarity DCDC OCP , */\
+ { 0x4c20, "int_polarity_flag_otpok"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "int_polarity_flag_ocp_alarm"}, /* Polarity ocp alarm , */\
+ { 0x4c40, "int_polarity_flag_uvpok"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "int_polarity_flag_man_alarm_state"}, /* Polarity nanager Alarm state , */\
+ { 0x4c60, "int_polarity_flag_tdm_error"}, /* Polarity tdm error , */\
+ { 0x4c70, "int_polarity_flag_lost_clk"}, /* Polarity lost clk , */\
+ { 0x5001, "vbat_prot_attack_time"}, /* Battery Safeguard attack time , */\
+ { 0x5023, "vbat_prot_thlevel"}, /* Battery Safeguard threshold voltage level , */\
+ { 0x5061, "vbat_prot_max_reduct"}, /* Battery Safeguard maximum reduction , */\
+ { 0x5080, "vbat_flt_limit"}, /* vbat filter limit , */\
+ { 0x50d0, "rst_min_vbat"}, /* Reset clipper - Auto clear , */\
+ { 0x50e0, "sel_vbat"}, /* Battery voltage read out , */\
+ { 0x50f0, "bypass_clipper"}, /* Bypass battery safeguard , */\
+ { 0x5100, "batsense_steepness"}, /* Vbat prot steepness , */\
+ { 0x5150, "bypass_hp"}, /* Bypass HPF , */\
+ { 0x5170, "enbl_dpsa"}, /* Enable DPSA , */\
+ { 0x5222, "ctrl_cc"}, /* Clip control setting , */\
+ { 0x5257, "gain"}, /* Amplifier gain , */\
+ { 0x52d0, "ctrl_slopectrl"}, /* Enables slope control , */\
+ { 0x52e0, "ctrl_slope"}, /* Slope speed setting (bin. coded) , */\
+ { 0x5301, "dpsa_level"}, /* DPSA threshold levels , */\
+ { 0x5321, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x5340, "clipfast"}, /* Clock selection for HW clipper for Battery Safeguard, */\
+ { 0x5350, "bypass_lp"}, /* Bypass the low power filter inside temperature sensor, */\
+ { 0x5400, "first_order_mode"}, /* Overrule to 1st order mode of control stage when clipping, */\
+ { 0x5410, "bypass_ctrlloop"}, /* Switch amplifier into open loop configuration , */\
+ { 0x5430, "icomp_engage"}, /* Engage of icomp , */\
+ { 0x5440, "ctrl_kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x5450, "icomp_engage_overrule"}, /* To overrule the functional icomp_engage signal during validation, */\
+ { 0x5503, "ctrl_dem"}, /* Enable DEM icomp and DEM one bit dac , */\
+ { 0x5543, "ctrl_dem_mismatch"}, /* Enable DEM icomp mismatch for testing , */\
+ { 0x5582, "dpsa_drive"}, /* Drive setting (bin. coded) , */\
+ { 0x5690, "sel_pwm_delay_src"}, /* Control for selection for PWM delay line source , */\
+ { 0x56a1, "enbl_odd_up_even_down"}, /* Control for PWM reference sawtooth generartion , */\
+ { 0x570a, "enbl_amp"}, /* Switch on the class-D power sections, each part of the analog sections can be switched on/off individually, */\
+ { 0x57b0, "enbl_engage"}, /* Enables/engage power stage and control loop , */\
+ { 0x57c0, "enbl_engage_pst"}, /* Enables/engage power stage and control loop , */\
+ { 0x5810, "hard_mute"}, /* Hard mute - PWM , */\
+ { 0x5820, "pwm_shape"}, /* PWM shape , */\
+ { 0x5844, "pwm_delay"}, /* PWM delay bits to set the delay, clockd is 1/(k*2048*fs), */\
+ { 0x5890, "reclock_pwm"}, /* Reclock the pwm signal inside analog , */\
+ { 0x58a0, "reclock_voltsense"}, /* Reclock the voltage sense pwm signal , */\
+ { 0x58c0, "enbl_pwm_phase_shift"}, /* Control for pwm phase shift , */\
+ { 0x6123, "ctrl_attl"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x6163, "ctrl_attr"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x6265, "zero_lvl"}, /* low noise gain switch zero trigger level , */\
+ { 0x62c1, "ctrl_fb_resistor"}, /* Select amplifier feedback resistor connection , */\
+ { 0x62e1, "lownoisegain_mode"}, /* ctrl select mode , */\
+ { 0x6305, "threshold_lvl"}, /* low noise gain switch trigger level , */\
+ { 0x6365, "hold_time"}, /* ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x6405, "lpm1_cal_offset"}, /* low power mode1 detector ctrl cal_offset from gain module , */\
+ { 0x6465, "lpm1_zero_lvl"}, /* low power mode1 zero crossing detection level , */\
+ { 0x64e1, "lpm1_mode"}, /* low power mode control , */\
+ { 0x6505, "lpm1_threshold_lvl"}, /* low power mode1 amplitude trigger level , */\
+ { 0x6565, "lpm1_hold_time"}, /* low power mode1 detector ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x65c0, "disable_low_power_mode"}, /* low power mode1 detector control , */\
+ { 0x6600, "dcdc_pfm20khz_limit"}, /* DCDC in PFM mode pwm mode is activated each 50us to force a pwm pulse, */\
+ { 0x6611, "dcdc_ctrl_maxzercnt"}, /* DCDC. Number of zero current flags to count before going to pfm mode, */\
+ { 0x6656, "dcdc_vbat_delta_detect"}, /* Threshold before booster is reacting on a delta Vbat (in PFM mode) by temporarily switching to PWM mode, */\
+ { 0x66c0, "dcdc_ignore_vbat"}, /* Ignore an increase on Vbat , */\
+ { 0x6700, "enbl_minion"}, /* Enables minion (small) power stage , */\
+ { 0x6713, "vth_vddpvbat"}, /* select vddp-vbat thres signal , */\
+ { 0x6750, "lpen_vddpvbat"}, /* select vddp-vbat filtred vs unfiltered compare , */\
+ { 0x6761, "ctrl_rfb"}, /* Feedback resistor selection - I2C direct mode , */\
+ { 0x6802, "tdm_source_mapping"}, /* tdm source mapping , */\
+ { 0x6831, "tdm_sourcea_frame_sel"}, /* Sensed value A , */\
+ { 0x6851, "tdm_sourceb_frame_sel"}, /* Sensed value B , */\
+ { 0x6871, "tdm_source0_clip_sel"}, /* clip information (analog /digital) for source0 , */\
+ { 0x6891, "tdm_source1_clip_sel"}, /* clip information (analog /digital) for source1 , */\
+ { 0x6a02, "rst_min_vbat_delay"}, /* rst_min_vbat delay (nb fs) , */\
+ { 0x6b00, "disable_auto_engage"}, /* disable auto engange , */\
+ { 0x6b10, "disable_engage"}, /* disable engange , */\
+ { 0x6c02, "ns_hp2ln_criterion"}, /* 0..7 zeroes at ns as threshold to swap from high_power to low_noise, */\
+ { 0x6c32, "ns_ln2hp_criterion"}, /* 0..7 zeroes at ns as threshold to swap from low_noise to high_power, */\
+ { 0x6c69, "spare_out"}, /* spare_out , */\
+ { 0x6d0f, "spare_in"}, /* spare_in , */\
+ { 0x6e10, "flag_lp_detect_mode1"}, /* low power mode 1 detection , */\
+ { 0x6e20, "flag_low_amplitude"}, /* low amplitude detection , */\
+ { 0x6e30, "flag_vddp_gt_vbat"}, /* vddp greater than vbat , */\
+ { 0x6f02, "cursense_comp_delay"}, /* delay to allign compensation signal with current sense signal, */\
+ { 0x6f40, "cursense_comp_sign"}, /* polarity of compensation for current sense , */\
+ { 0x6f50, "enbl_cursense_comp"}, /* enable current sense compensation , */\
+ { 0x6f72, "pwms_clip_lvl"}, /* set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7033, "boost_cur"}, /* Max coil current , */\
+ { 0x7071, "bst_slpcmplvl"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7090, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x70a0, "boost_speed"}, /* Soft ramp up/down , */\
+ { 0x70e0, "dcdcoff_mode"}, /* DCDC on/off , */\
+ { 0x70f0, "dcdc_pwmonly"}, /* DCDC PWM only mode , */\
+ { 0x7104, "bst_drive"}, /* Binary coded drive setting for boost converter power stage, */\
+ { 0x7151, "bst_scalecur"}, /* For testing direct control scale current , */\
+ { 0x7174, "bst_slopecur"}, /* For testing direct control slope current , */\
+ { 0x71c1, "bst_slope"}, /* Boost slope speed , */\
+ { 0x71e0, "bst_bypass_bstcur"}, /* Bypass control for boost current settings , */\
+ { 0x71f0, "bst_bypass_bstfoldback"}, /* Bypass control for boost foldback , */\
+ { 0x7200, "enbl_bst_engage"}, /* Enable power stage dcdc controller , */\
+ { 0x7210, "enbl_bst_hizcom"}, /* Enable hiz comparator , */\
+ { 0x7220, "enbl_bst_peak2avg"}, /* Enable boost peak2avg functionality , */\
+ { 0x7230, "enbl_bst_peakcur"}, /* Enable peak current , */\
+ { 0x7240, "enbl_bst_power"}, /* Enable line of the powerstage , */\
+ { 0x7250, "enbl_bst_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x7260, "enbl_bst_voutcomp"}, /* Enable vout comparators , */\
+ { 0x7270, "enbl_bst_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x7280, "enbl_bst_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x7290, "enbl_bst_windac"}, /* Enable window dac , */\
+ { 0x72a5, "bst_windac"}, /* for testing direct control windac , */\
+ { 0x7300, "boost_alg"}, /* Control for boost adaptive loop gain , */\
+ { 0x7311, "boost_loopgain"}, /* DCDC boost loopgain setting , */\
+ { 0x7331, "bst_freq"}, /* DCDC boost frequency control , */\
+ { 0x7360, "bst_use_new_zercur_detect"}, /* Enable new zero current detection for boost control, */\
+ { 0x7430, "boost_track"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7444, "boost_trip_lvl_1st"}, /* 1st Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7494, "boost_hold_time"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x74e0, "sel_dcdc_envelope_8fs"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x74f0, "ignore_flag_voutcomp86"}, /* Determines the maximum PWM frequency be the most efficient in relation to the Booster inductor value, */\
+ { 0x7534, "boost_trip_lvl_2nd"}, /* 2nd Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7584, "boost_trip_lvl_track"}, /* Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x75f0, "enbl_trip_hyst"}, /* Enable hysteresis on booster trip levels , */\
+ { 0x7635, "frst_boost_voltage"}, /* First boost voltage level , */\
+ { 0x7695, "scnd_boost_voltage"}, /* Second boost voltage level , */\
+ { 0x8001, "sel_clk_cs"}, /* Current sense clock duty cycle control , */\
+ { 0x8021, "micadc_speed"}, /* Current sense clock for MiCADC selection - 32/44.1/48 KHz Fs band only, */\
+ { 0x8050, "cs_gain_control"}, /* Current sense gain control , */\
+ { 0x8060, "cs_bypass_gc"}, /* Bypasses the CS gain correction , */\
+ { 0x8087, "cs_gain"}, /* Current sense gain , */\
+ { 0x8210, "invertpwm"}, /* Current sense common mode feedback pwm invert control, */\
+ { 0x8305, "cs_ktemp"}, /* Current sense temperature compensation trimming (1 - VALUE*TEMP)*signal, */\
+ { 0x8364, "cs_ktemp2"}, /* Second order temperature compensation coefficient , */\
+ { 0x8400, "cs_adc_bsoinv"}, /* Bitstream inversion for current sense ADC , */\
+ { 0x8421, "cs_adc_hifreq"}, /* Frequency mode current sense ADC , */\
+ { 0x8440, "cs_adc_nortz"}, /* Return to zero for current sense ADC , */\
+ { 0x8453, "cs_adc_offset"}, /* Micadc ADC offset setting , */\
+ { 0x8490, "cs_adc_slowdel"}, /* Select delay for current sense ADC (internal decision circuitry), */\
+ { 0x84a4, "cs_adc_gain"}, /* Gain setting for current sense ADC (two's complement), */\
+ { 0x8500, "cs_resonator_enable"}, /* Enable for resonator to improve SRN , */\
+ { 0x8510, "cs_classd_tran_skip"}, /* Skip current sense connection during a classD amplifier transition, */\
+ { 0x8530, "cs_inn_short"}, /* Short current sense negative to common mode , */\
+ { 0x8540, "cs_inp_short"}, /* Short current sense positive to common mode , */\
+ { 0x8550, "cs_ldo_bypass"}, /* Bypass current sense LDO , */\
+ { 0x8560, "cs_ldo_pulldown"}, /* Pull down current sense LDO, only valid if left_enbl_cs_ldo is high, */\
+ { 0x8574, "cs_ldo_voset"}, /* Current sense LDO voltage level setting (two's complement), */\
+ { 0x8700, "enbl_cs_adc"}, /* Enable current sense ADC , */\
+ { 0x8710, "enbl_cs_inn1"}, /* Enable connection of current sense negative1 , */\
+ { 0x8720, "enbl_cs_inn2"}, /* Enable connection of current sense negative2 , */\
+ { 0x8730, "enbl_cs_inp1"}, /* Enable connection of current sense positive1 , */\
+ { 0x8740, "enbl_cs_inp2"}, /* Enable connection of current sense positive2 , */\
+ { 0x8750, "enbl_cs_ldo"}, /* Enable current sense LDO , */\
+ { 0x8780, "enbl_cs_vbatldo"}, /* Enable of current sense LDO , */\
+ { 0x8790, "enbl_dc_filter"}, /* Control for enabling the DC blocking filter for voltage and current sense, */\
+ { 0x8801, "volsense_pwm_sel"}, /* Voltage sense source selection control , */\
+ { 0x8850, "vs_gain_control"}, /* Voltage sense gain control , */\
+ { 0x8860, "vs_bypass_gc"}, /* Bypasses the VS gain correction , */\
+ { 0x8870, "vs_igen_supply"}, /* Switch internal supply of current generator , */\
+ { 0x8887, "vs_gain"}, /* voltage sense gain , */\
+ { 0x8c00, "vs_adc_bsoinv"}, /* Bitstream inversion for voltage sense ADC , */\
+ { 0x8c40, "vs_adc_nortz"}, /* Return to zero for voltage sense ADC , */\
+ { 0x8c90, "vs_adc_slowdel"}, /* Select delay for voltage sense ADC (internal decision circuitry), */\
+ { 0x8d10, "vs_classd_tran_skip"}, /* Skip voltage sense connection during a classD amplifier transition, */\
+ { 0x8d30, "vs_inn_short"}, /* Short voltage sense negative to common mode , */\
+ { 0x8d40, "vs_inp_short"}, /* Short voltage sense positive to common mode , */\
+ { 0x8d50, "vs_ldo_bypass"}, /* Bypass voltage sense LDO , */\
+ { 0x8d60, "vs_ldo_pulldown"}, /* Pull down voltage sense LDO, only valid if left_enbl_cs_ldo is high, */\
+ { 0x8d74, "vs_ldo_voset"}, /* Voltage sense LDO voltage level setting (two's complement), */\
+ { 0x8f00, "enbl_vs_adc"}, /* Enable voltage sense ADC (Direct Control only only others done by manager), */\
+ { 0x8f10, "enbl_vs_inn1"}, /* Enable connection of voltage sense negative1 , */\
+ { 0x8f20, "enbl_vs_inn2"}, /* Enable connection of voltage sense negative2 , */\
+ { 0x8f30, "enbl_vs_inp1"}, /* Enable connection of voltage sense positive1 , */\
+ { 0x8f40, "enbl_vs_inp2"}, /* Enable connection of voltage sense positive2 , */\
+ { 0x8f50, "enbl_vs_ldo"}, /* Enable voltage sense LDO (Direct Control only only others done by manager), */\
+ { 0x8f80, "enbl_vs_vbatldo"}, /* Enable of voltage sense LDO (Direct Control only others done by manager), */\
+ { 0xa007, "mtpkey1"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0xa107, "mtpkey2"}, /* MTP KEY2 register , */\
+ { 0xa200, "key01_locked"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "key02_locked"}, /* Indicates KEY2 is locked , */\
+ { 0xa302, "mtp_man_address_in"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0xa330, "man_copy_mtp_to_iic"}, /* Start copying single word from mtp to I2C mtp register, */\
+ { 0xa340, "man_copy_iic_to_mtp"}, /* Start copying single word from I2C mtp register to mtp, */\
+ { 0xa350, "auto_copy_mtp_to_iic"}, /* Start copying all the data from mtp to I2C mtp registers, */\
+ { 0xa360, "auto_copy_iic_to_mtp"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa400, "faim_set_clkws"}, /* Sets the faim controller clock wait state register, */\
+ { 0xa410, "faim_sel_evenrows"}, /* All even rows of the faim are selected, active high, */\
+ { 0xa420, "faim_sel_oddrows"}, /* All odd rows of the faim are selected, all rows in combination with sel_evenrows, */\
+ { 0xa430, "faim_program_only"}, /* Skip the erase access at wr_faim command (write-program-marginread), */\
+ { 0xa440, "faim_erase_only"}, /* Skip the program access at wr_faim command (write-erase-marginread), */\
+ { 0xa50f, "mtp_man_data_out_msb"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "mtp_man_data_out_lsb"}, /* LSB word of MTP manual read data , */\
+ { 0xa70f, "mtp_man_data_in_msb"}, /* MSB word of write data for MTP manual write , */\
+ { 0xa80f, "mtp_man_data_in_lsb"}, /* LSB word of write data for MTP manual write , */\
+ { 0xb010, "bypass_ocpcounter"}, /* Bypass OCP Counter , */\
+ { 0xb020, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0xb030, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0xb040, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0xb050, "bypass_otp"}, /* Bypass OTP , */\
+ { 0xb060, "bypass_lost_clk"}, /* Bypass lost clock detector , */\
+ { 0xb070, "ctrl_vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0xb087, "ocp_threshold"}, /* OCP threshold level , */\
+ { 0xb108, "ext_temp"}, /* External temperature (C) , */\
+ { 0xb190, "ext_temp_sel"}, /* Select temp Speaker calibration , */\
+ { 0xc000, "use_direct_ctrls"}, /* Direct control to overrule several functions for testing, */\
+ { 0xc010, "rst_datapath"}, /* Direct control for datapath reset , */\
+ { 0xc020, "rst_cgu"}, /* Direct control for cgu reset , */\
+ { 0xc038, "enbl_ref"}, /* Switch on the analog references, each part of the references can be switched on/off individually, */\
+ { 0xc0c0, "use_direct_vs_ctrls"}, /* voltage sense Direct control to overrule several functions for testing, */\
+ { 0xc0d0, "enbl_ringo"}, /* Enable the ring oscillator for test purpose , */\
+ { 0xc0e0, "use_direct_clk_ctrl"}, /* Direct clock control to overrule several functions for testing, */\
+ { 0xc0f0, "use_direct_pll_ctrl"}, /* Direct PLL control to overrule several functions for testing, */\
+ { 0xc100, "enbl_tsense"}, /* Temperature sensor enable control - I2C direct mode, */\
+ { 0xc110, "tsense_hibias"}, /* Bit to set the biasing in temp sensor to high , */\
+ { 0xc120, "enbl_flag_vbg"}, /* Enable flagging of bandgap out of control , */\
+ { 0xc20f, "abist_offset"}, /* Offset control for ABIST testing (two's complement), */\
+ { 0xc300, "bypasslatch"}, /* Bypass latch , */\
+ { 0xc311, "sourcea"}, /* Set OUTA to , */\
+ { 0xc331, "sourceb"}, /* Set OUTB to , */\
+ { 0xc350, "inverta"}, /* Invert pwma test signal , */\
+ { 0xc360, "invertb"}, /* Invert pwmb test signal , */\
+ { 0xc374, "pulselength"}, /* Pulse length setting test input for amplifier (clock d - k*2048*fs), */\
+ { 0xc3c0, "tdm_enable_loopback"}, /* TDM loopback test , */\
+ { 0xc400, "bst_bypasslatch"}, /* Bypass latch in boost converter , */\
+ { 0xc411, "bst_source"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0xc430, "bst_invertb"}, /* Invert pwmbst test signal , */\
+ { 0xc444, "bst_pulselength"}, /* Pulse length setting test input for boost converter , */\
+ { 0xc490, "test_bst_ctrlsthv"}, /* Test mode for boost control stage , */\
+ { 0xc4a0, "test_bst_iddq"}, /* IDDQ testing in power stage of boost converter , */\
+ { 0xc4b0, "test_bst_rdson"}, /* RDSON testing - boost power stage , */\
+ { 0xc4c0, "test_bst_cvi"}, /* CVI testing - boost power stage , */\
+ { 0xc4d0, "test_bst_ocp"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0), For new ocp (ctrl_reversebst is 1), */\
+ { 0xc4e0, "test_bst_sense"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0xc500, "test_cvi"}, /* Analog BIST, switch choose which transistor will be used as current source (also cross coupled sources possible), */\
+ { 0xc510, "test_discrete"}, /* Test function noise measurement , */\
+ { 0xc520, "test_iddq"}, /* Set the power stages in iddq mode for gate stress., */\
+ { 0xc540, "test_rdson"}, /* Analog BIST, switch to enable Rdson measurement , */\
+ { 0xc550, "test_sdelta"}, /* Analog BIST, noise test , */\
+ { 0xc570, "test_enbl_cs"}, /* Enable for digimux mode of current sense , */\
+ { 0xc580, "test_enbl_vs"}, /* Enable for digimux mode of voltage sense , */\
+ { 0xc600, "enbl_pwm_dcc"}, /* Enables direct control of pwm duty cycle for DCDC power stage, */\
+ { 0xc613, "pwm_dcc_cnt"}, /* Control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0xc650, "enbl_ldo_stress"}, /* Enable stress of internal supply voltages powerstages, */\
+ { 0xc707, "digimuxa_sel"}, /* DigimuxA input selection control routed to DATAO (see Digimux list for details), */\
+ { 0xc787, "digimuxb_sel"}, /* DigimuxB input selection control routed to INT (see Digimux list for details), */\
+ { 0xc807, "digimuxc_sel"}, /* DigimuxC input selection control routed to PDMDAT (see Digimux list for details), */\
+ { 0xc981, "int_ehs"}, /* Speed/load setting for INT IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc9c0, "hs_mode"}, /* I2C high speed mode control , */\
+ { 0xca00, "enbl_anamux1"}, /* Enable anamux1 , */\
+ { 0xca10, "enbl_anamux2"}, /* Enable anamux2 , */\
+ { 0xca20, "enbl_anamux3"}, /* Enable anamux3 , */\
+ { 0xca30, "enbl_anamux4"}, /* Enable anamux4 , */\
+ { 0xca74, "anamux1"}, /* Anamux selection control - anamux on TEST1 , */\
+ { 0xcb04, "anamux2"}, /* Anamux selection control - anamux on TEST2 , */\
+ { 0xcb53, "anamux3"}, /* Anamux selection control - anamux on TEST3 , */\
+ { 0xcba3, "anamux4"}, /* Anamux selection control - anamux on TEST4 , */\
+ { 0xcd05, "pll_seli"}, /* PLL SELI - I2C direct PLL control mode only , */\
+ { 0xcd64, "pll_selp"}, /* PLL SELP - I2C direct PLL control mode only , */\
+ { 0xcdb3, "pll_selr"}, /* PLL SELR - I2C direct PLL control mode only , */\
+ { 0xcdf0, "pll_frm"}, /* PLL free running mode control; 1 in TCB direct control mode, else this control bit, */\
+ { 0xce09, "pll_ndec"}, /* PLL NDEC - I2C direct PLL control mode only , */\
+ { 0xcea0, "pll_mdec_msb"}, /* MSB of pll_mdec - I2C direct PLL control mode only, */\
+ { 0xceb0, "enbl_pll"}, /* Enables PLL in I2C direct PLL control mode only , */\
+ { 0xcec0, "enbl_osc"}, /* Enables OSC1M in I2C direct control mode only , */\
+ { 0xced0, "pll_bypass"}, /* PLL bypass control in I2C direct PLL control mode only, */\
+ { 0xcee0, "pll_directi"}, /* PLL directi control in I2C direct PLL control mode only, */\
+ { 0xcef0, "pll_directo"}, /* PLL directo control in I2C direct PLL control mode only, */\
+ { 0xcf0f, "pll_mdec_lsb"}, /* Bits 15..0 of PLL MDEC are I2C direct PLL control mode only, */\
+ { 0xd006, "pll_pdec"}, /* PLL PDEC - I2C direct PLL control mode only , */\
+ { 0xd10f, "tsig_freq_lsb"}, /* Internal sinus test generator frequency control , */\
+ { 0xd202, "tsig_freq_msb"}, /* Select internal sinus test generator, frequency control msb bits, */\
+ { 0xd230, "inject_tsig"}, /* Control bit to switch to internal sinus test generator, */\
+ { 0xd283, "tsig_gain"}, /* Test signal gain , */\
+ { 0xd300, "adc10_reset"}, /* Reset for ADC10 - I2C direct control mode , */\
+ { 0xd311, "adc10_test"}, /* Test mode selection signal for ADC10 - I2C direct control mode, */\
+ { 0xd332, "adc10_sel"}, /* Select the input to convert for ADC10 - I2C direct control mode, */\
+ { 0xd364, "adc10_prog_sample"}, /* ADC10 program sample setting - I2C direct control mode, */\
+ { 0xd3b0, "adc10_enbl"}, /* Enable ADC10 - I2C direct control mode , */\
+ { 0xd3c0, "bypass_lp_vbat"}, /* Bypass control for Low pass filter in batt sensor , */\
+ { 0xd409, "data_adc10_tempbat"}, /* ADC 10 data output data for testing , */\
+ { 0xd507, "ctrl_digtoana_hidden"}, /* Spare digital to analog control bits - Hidden , */\
+ { 0xd580, "enbl_clk_out_of_range"}, /* Clock out of range , */\
+ { 0xd621, "clkdiv_audio_sel"}, /* Audio clock divider selection in direct clock control mode, */\
+ { 0xd641, "clkdiv_muxa_sel"}, /* DCDC MUXA clock divider selection in direct clock control mode, */\
+ { 0xd661, "clkdiv_muxb_sel"}, /* DCDC MUXB clock divider selection in direct clock control mode, */\
+ { 0xd721, "datao_ehs"}, /* Speed/load setting for DATAO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xd740, "bck_ehs"}, /* High-speed and standard/fast mode selection for BCK IO cell (see IIC3V3 IO cell datasheet), */\
+ { 0xd750, "datai_ehs"}, /* High-speed and standard/fast mode selection for DATAI IO cell (see IIC3V3 IO cell datasheet), */\
+ { 0xd800, "source_in_testmode"}, /* tdm source in test mode (return only current and voltage sense), */\
+ { 0xd810, "gainatt_feedback"}, /* gainatt feedback to tdm , */\
+ { 0xd822, "test_parametric_io"}, /* test io parametric , */\
+ { 0xd850, "ctrl_bst_clk_lp1"}, /* boost clock control in low power mode1 , */\
+ { 0xd861, "test_spare_out1"}, /* test spare out 1 , */\
+ { 0xd880, "bst_dcmbst"}, /* dcm boost , */\
+ { 0xd8c3, "test_spare_out2"}, /* test spare out 1 , */\
+ { 0xee0f, "sw_profile"}, /* Software profile data , */\
+ { 0xef0f, "sw_vstep"}, /* Software vstep information , */\
+ { 0xf000, "calibration_onetime"}, /* Calibration schedule , */\
+ { 0xf010, "calibr_ron_done"}, /* Calibration Ron executed , */\
+ { 0xf020, "calibr_dcdc_api_calibrate"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "calibr_dcdc_delta_sign"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "calibr_dcdc_delta"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "calibr_speaker_info"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf105, "calibr_vout_offset"}, /* DCDC offset calibration 2's complement (key1 protected), */\
+ { 0xf169, "spare_mpt1_15_6"}, /* SPARE , */\
+ { 0xf203, "calibr_gain"}, /* HW gain module (2's complement) , */\
+ { 0xf245, "calibr_offset"}, /* Offset for amplifier, HW gain module (2's complement), */\
+ { 0xf2a5, "spare_mtp2_15_10"}, /* SPARE , */\
+ { 0xf307, "calibr_gain_vs"}, /* Voltage sense gain , */\
+ { 0xf387, "calibr_gain_cs"}, /* Current sense gain (signed two's complement format), */\
+ { 0xf407, "spare_mtp4_15_0"}, /* SPARE , */\
+ { 0xf487, "vs_trim"}, /* VS Trimming , */\
+ { 0xf50f, "calibr_R25C_R"}, /* Ron resistance of speaker coil , */\
+ { 0xf60f, "spare_mpt6_6_0"}, /* SPARE , */\
+ { 0xf706, "ctrl_offset_a"}, /* Offset of level shifter A , */\
+ { 0xf770, "spare_mtp7_07"}, /* SPARE , */\
+ { 0xf786, "ctrl_offset_b"}, /* Offset of amplifier level shifter B , */\
+ { 0xf7f0, "spare_mtp7_15"}, /* SPARE , */\
+ { 0xf806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0xf870, "htol_iic_addr_en"}, /* HTOL I2C address enable control , */\
+ { 0xf884, "calibr_temp_offset"}, /* Temperature offset 2's compliment (key1 protected), */\
+ { 0xf8d2, "calibr_temp_gain"}, /* Temperature gain 2's compliment (key1 protected) , */\
+ { 0xf900, "mtp_lock_dcdcoff_mode"}, /* Disable function dcdcoff_mode , */\
+ { 0xf910, "spare_mtp9_1"}, /* SPARE , */\
+ { 0xf920, "mtp_lock_bypass_clipper"}, /* Disable function bypass_clipper , */\
+ { 0xf930, "mtp_lock_max_dcdc_voltage"}, /* Force Boost in follower mode , */\
+ { 0xf943, "calibr_vbg_trim"}, /* Bandgap trimming control , */\
+ { 0xf980, "spare_mtp9_8"}, /* SPARE , */\
+ { 0xf990, "mtp_enbl_pwm_delay_clock_gating"}, /* pwm delay clock auto gating , */\
+ { 0xf9a0, "mtp_enbl_ocp_clock_gating"}, /* ocpclock auto gating , */\
+ { 0xf9b0, "mtp_gate_cgu_clock_for_test"}, /* cgu test clock control , */\
+ { 0xf9c0, "mtp_tdm_pad_sel"}, /* tdm pad selection , */\
+ { 0xf9d2, "spare_mtp9_15_12"}, /* MTP-control FW - See Firmware I2C API document for details, */\
+ { 0xfa0f, "mtpdataA"}, /* MTPdataA (key1 protected) , */\
+ { 0xfb0f, "mtpdataB"}, /* MTPdataB (key1 protected) , */\
+ { 0xfc0f, "mtpdataC"}, /* MTPdataC (key1 protected) , */\
+ { 0xfd0f, "mtpdataD"}, /* MTPdataD (key1 protected) , */\
+ { 0xfe0f, "mtpdataE"}, /* MTPdataE (key1 protected) , */\
+ { 0xff07, "calibr_osc_delta_ndiv"}, /* Calibration data for OSC1M, signed number representation, */\
+ { 0xff87, "spare_mtp7_15_08"}, /* SPARE , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+enum tfa9874_irq {
+ tfa9874_irq_stvdds = 0,
+ tfa9874_irq_stbstoc = 1,
+ tfa9874_irq_stotds = 2,
+ tfa9874_irq_stocpr = 3,
+ tfa9874_irq_stuvds = 4,
+ tfa9874_irq_stmanalarm = 5,
+ tfa9874_irq_sttdmer = 6,
+ tfa9874_irq_stnoclk = 7,
+ tfa9874_irq_max = 8,
+ tfa9874_irq_all = -1 /* all irqs */};
+
+#define TFA9874_IRQ_NAMETABLE static tfaIrqName_t Tfa9874IrqNames[]= {\
+ { 0, "STVDDS"},\
+ { 1, "STBSTOC"},\
+ { 2, "STOTDS"},\
+ { 3, "STOCPR"},\
+ { 4, "STUVDS"},\
+ { 5, "STMANALARM"},\
+ { 6, "STTDMER"},\
+ { 7, "STNOCLK"},\
+ { 8, "8"},\
+};
+#endif /* _TFA9874_TFAFIELDNAMES_H */
diff --git a/inc/tfa9878_tfafieldnames.h b/inc/tfa9878_tfafieldnames.h
new file mode 100644
index 0000000..f11d2a3
--- /dev/null
+++ b/inc/tfa9878_tfafieldnames.h
@@ -0,0 +1,973 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9878_TFAFIELDNAMES_H
+#define _TFA9878_TFAFIELDNAMES_H
+
+
+#define TFA9878_I2CVERSION 12
+
+typedef enum nxpTfa9878BfEnumList {
+ TFA9878_BF_PWDN = 0x0000, /*!< Powerdown selection */
+ TFA9878_BF_I2CR = 0x0010, /*!< I2C Reset - Auto clear */
+ TFA9878_BF_AMPE = 0x0030, /*!< Activate Amplifier */
+ TFA9878_BF_DCA = 0x0040, /*!< Activate DC-to-DC converter */
+ TFA9878_BF_INTP = 0x0071, /*!< Interrupt config */
+ TFA9878_BF_FSSSEL= 0x0090, /*!< Audio sample reference */
+ TFA9878_BF_BYPOCP= 0x00b0, /*!< Bypass OCP */
+ TFA9878_BF_TSTOCP= 0x00c0, /*!< OCP testing control */
+ TFA9878_BF_AMPINSEL= 0x0101, /*!< Amplifier input selection */
+ TFA9878_BF_MANSCONF= 0x0120, /*!< I2C configured */
+ TFA9878_BF_DCINSEL= 0x0131, /*!< VAMP_OUT2 input selection */
+ TFA9878_BF_MUTETO= 0x0160, /*!< Time out SB mute sequence */
+ TFA9878_BF_MANROBOD= 0x0170, /*!< Reaction on BOD */
+ TFA9878_BF_BODE = 0x0180, /*!< Enable BOD (only in direct control mode) */
+ TFA9878_BF_BODHYS= 0x0190, /*!< Enable Hysteresis of BOD */
+ TFA9878_BF_BODFILT= 0x01a1, /*!< BOD filter */
+ TFA9878_BF_BODTHLVL= 0x01c1, /*!< BOD threshold */
+ TFA9878_BF_OPENMTP= 0x01e0, /*!< Control for FAIM protection */
+ TFA9878_BF_DISFCRBST= 0x01f0, /*!< disable boost control with FRCBST */
+ TFA9878_BF_AUDFS = 0x0203, /*!< Sample rate (fs) */
+ TFA9878_BF_INPLEV= 0x0240, /*!< TDM output attenuation */
+ TFA9878_BF_FRACTDEL= 0x0255, /*!< V/I Fractional delay */
+ TFA9878_BF_AMPINPSEL= 0x02b1, /*!< amp input selection */
+ TFA9878_BF_PDMRATE= 0x02d0, /*!< Pdm rate */
+ TFA9878_BF_REV = 0x030f, /*!< Revision info */
+ TFA9878_BF_REFCKEXT= 0x0401, /*!< PLL external ref clock */
+ TFA9878_BF_REFCKSEL= 0x0420, /*!< PLL internal ref clock */
+ TFA9878_BF_SWCLKSEL= 0x0432, /*!< Sound Wire clock frequnecy */
+ TFA9878_BF_MANAOOSC= 0x0460, /*!< Internal osc off at PWDN */
+ TFA9878_BF_FSSYNCEN= 0x0480, /*!< Enable FS synchronisation for clock divider */
+ TFA9878_BF_CLKREFSYNCEN= 0x0490, /*!< Enable PLL reference clock synchronisation for clock divider */
+ TFA9878_BF_AUTOFROSEL= 0x04a0, /*!< override automatic OSC selection mechanism */
+ TFA9878_BF_SWFRSYNC= 0x04b0, /*!< Selection SW signal reference for Stream Synchronization */
+ TFA9878_BF_CGUSYNCDCG= 0x0500, /*!< Clock gating control for CGU synchronisation module */
+ TFA9878_BF_FRCCLKSPKR= 0x0510, /*!< force active the speaker sub-system clock when in idle power */
+ TFA9878_BF_SSFAIME= 0x05c0, /*!< Sub-system FAIM */
+ TFA9878_BF_CLKCHKLO= 0x0707, /*!< Clock check Low Threshold */
+ TFA9878_BF_CLKCHKHI= 0x0787, /*!< Clock check Higher Threshold */
+ TFA9878_BF_AMPOCRT= 0x0802, /*!< Amplifier on-off criteria for shutdown */
+ TFA9878_BF_VDDS = 0x1000, /*!< POR */
+ TFA9878_BF_DCOCPOK= 0x1010, /*!< DCDC OCP nmos (sticky register , clear on read) */
+ TFA9878_BF_OTDS = 0x1020, /*!< OTP alarm (sticky register , clear on read) */
+ TFA9878_BF_OCDS = 0x1030, /*!< OCP amplifier (sticky register , clear on read) */
+ TFA9878_BF_UVDS = 0x1040, /*!< UVP alarm (sticky register , clear on read) */
+ TFA9878_BF_MANALARM= 0x1050, /*!< Alarm state */
+ TFA9878_BF_CLKS = 0x1060, /*!< Clocks stable */
+ TFA9878_BF_MTPB = 0x1070, /*!< MTP busy */
+ TFA9878_BF_NOCLK = 0x1080, /*!< Lost clock (sticky register , clear on read) */
+ TFA9878_BF_BODNOK= 0x1090, /*!< BOD Flag - VDD NOT OK */
+ TFA9878_BF_TDMERR= 0x10a0, /*!< TDM error */
+ TFA9878_BF_DCIL = 0x1100, /*!< DCDC current limiting */
+ TFA9878_BF_DCDCA = 0x1110, /*!< DCDC active (sticky register , clear on read) */
+ TFA9878_BF_DCDCPC= 0x1120, /*!< Indicates current is max in DC-to-DC converter */
+ TFA9878_BF_DCHVBAT= 0x1130, /*!< DCDC level 1x */
+ TFA9878_BF_DCH114= 0x1140, /*!< DCDC level 1.14x */
+ TFA9878_BF_DCH107= 0x1150, /*!< DCDC level 1.07x */
+ TFA9878_BF_PLLS = 0x1160, /*!< PLL lock */
+ TFA9878_BF_TDMLUTER= 0x1180, /*!< TDM LUT error */
+ TFA9878_BF_CLKOOR= 0x11c0, /*!< External clock status */
+ TFA9878_BF_SWS = 0x11d0, /*!< Amplifier engage */
+ TFA9878_BF_AMPS = 0x11e0, /*!< Amplifier enable */
+ TFA9878_BF_AREFS = 0x11f0, /*!< References enable */
+ TFA9878_BF_OCPOAP= 0x1300, /*!< OCPOK pmos B */
+ TFA9878_BF_OCPOAN= 0x1310, /*!< OCPOK pmos A */
+ TFA9878_BF_OCPOBP= 0x1320, /*!< OCPOK nmos B */
+ TFA9878_BF_OCPOBN= 0x1330, /*!< OCPOK nmos A */
+ TFA9878_BF_OVDS = 0x1380, /*!< OVP alarm */
+ TFA9878_BF_CLIPS = 0x1390, /*!< Amplifier clipping */
+ TFA9878_BF_ADCCR = 0x13a0, /*!< Control ADC */
+ TFA9878_BF_MANWAIT1= 0x13c0, /*!< Wait HW I2C settings */
+ TFA9878_BF_MANMUTE= 0x13e0, /*!< Audio mute sequence */
+ TFA9878_BF_MANOPER= 0x13f0, /*!< Operating state */
+ TFA9878_BF_TDMSTAT= 0x1402, /*!< TDM status bits */
+ TFA9878_BF_MANSTATE= 0x1433, /*!< Device manager status */
+ TFA9878_BF_AMPSTE= 0x1473, /*!< Amplifier control status */
+ TFA9878_BF_DCMODE= 0x14b1, /*!< DCDC mode status bits */
+ TFA9878_BF_BATS = 0x1509, /*!< Battery voltage (V) */
+ TFA9878_BF_TEMPS = 0x1608, /*!< IC Temperature (C) */
+ TFA9878_BF_VDDPS = 0x1709, /*!< IC VDDP voltage ( 1023*VDDP/13 V) */
+ TFA9878_BF_TDME = 0x2000, /*!< Enable interface */
+ TFA9878_BF_TDMSLOTS= 0x2013, /*!< N-slots in Frame */
+ TFA9878_BF_TDMCLINV= 0x2060, /*!< Reception data to BCK clock */
+ TFA9878_BF_TDMFSLN= 0x2073, /*!< FS length */
+ TFA9878_BF_TDMFSPOL= 0x20b0, /*!< FS polarity */
+ TFA9878_BF_TDMNBCK= 0x20c3, /*!< N-BCK's in FS */
+ TFA9878_BF_TDMSLLN= 0x2144, /*!< N-bits in slot */
+ TFA9878_BF_TDMBRMG= 0x2194, /*!< N-bits remaining */
+ TFA9878_BF_TDMDEL= 0x21e0, /*!< data delay to FS */
+ TFA9878_BF_TDMADJ= 0x21f0, /*!< data adjustment */
+ TFA9878_BF_TDMOOMP= 0x2201, /*!< Received audio compression */
+ TFA9878_BF_TDMSSIZE= 0x2224, /*!< Sample size per slot */
+ TFA9878_BF_TDMTXDFO= 0x2271, /*!< Format unused bits */
+ TFA9878_BF_TDMTXUS0= 0x2291, /*!< Format unused slots DATAO */
+ TFA9878_BF_TDMSPKE= 0x2300, /*!< Control audio tdm channel in 0 */
+ TFA9878_BF_TDMDCE= 0x2310, /*!< Control audio tdm channel in 1 */
+ TFA9878_BF_TDMCSE= 0x2330, /*!< current sense vbat temperature and vddp feedback */
+ TFA9878_BF_TDMVSE= 0x2340, /*!< Voltage sense vbat temperature and vddp feedback */
+ TFA9878_BF_TDMSPKS= 0x2603, /*!< tdm slot for sink 0 */
+ TFA9878_BF_TDMDCS= 0x2643, /*!< tdm slot for sink 1 */
+ TFA9878_BF_TDMCSS= 0x26c3, /*!< Slot Position of current sense vbat temperature and vddp feedback */
+ TFA9878_BF_TDMVSS= 0x2703, /*!< Slot Position of Voltage sense vbat temperature and vddp feedback */
+ TFA9878_BF_ISTVDDS= 0x4000, /*!< Status POR */
+ TFA9878_BF_ISTBSTOC= 0x4010, /*!< Status DCDC OCP */
+ TFA9878_BF_ISTOTDS= 0x4020, /*!< Status OTP alarm */
+ TFA9878_BF_ISTOCPR= 0x4030, /*!< Status ocp alarm */
+ TFA9878_BF_ISTUVDS= 0x4040, /*!< Status UVP alarm */
+ TFA9878_BF_ISTMANALARM= 0x4050, /*!< Status nanager Alarm state */
+ TFA9878_BF_ISTTDMER= 0x4060, /*!< Status tdm error */
+ TFA9878_BF_ISTNOCLK= 0x4070, /*!< Status lost clock */
+ TFA9878_BF_ISTBODNOK= 0x4080, /*!< Status BOD event */
+ TFA9878_BF_ICLVDDS= 0x4400, /*!< Clear POR */
+ TFA9878_BF_ICLBSTOC= 0x4410, /*!< Clear DCDC OCP */
+ TFA9878_BF_ICLOTDS= 0x4420, /*!< Clear OTP alarm */
+ TFA9878_BF_ICLOCPR= 0x4430, /*!< Clear ocp alarm */
+ TFA9878_BF_ICLUVDS= 0x4440, /*!< Clear UVP alarm */
+ TFA9878_BF_ICLMANALARM= 0x4450, /*!< Clear manager Alarm state */
+ TFA9878_BF_ICLTDMER= 0x4460, /*!< Clear tdm error */
+ TFA9878_BF_ICLNOCLK= 0x4470, /*!< Clear lost clk */
+ TFA9878_BF_ICLBODNOK= 0x4480, /*!< Clear BOD event */
+ TFA9878_BF_IEVDDS= 0x4800, /*!< Enable por */
+ TFA9878_BF_IEBSTOC= 0x4810, /*!< Enable DCDC OCP */
+ TFA9878_BF_IEOTDS= 0x4820, /*!< Enable OTP alarm */
+ TFA9878_BF_IEOCPR= 0x4830, /*!< Enable ocp alarm */
+ TFA9878_BF_IEUVDS= 0x4840, /*!< Enable UVP alarm */
+ TFA9878_BF_IEMANALARM= 0x4850, /*!< Enable nanager Alarm state */
+ TFA9878_BF_IETDMER= 0x4860, /*!< Enable tdm error */
+ TFA9878_BF_IENOCLK= 0x4870, /*!< Enable lost clk */
+ TFA9878_BF_IEBODNOK= 0x4880, /*!< Enable BOD trigger */
+ TFA9878_BF_IPOVDDS= 0x4c00, /*!< Polarity por */
+ TFA9878_BF_IPOBSTOC= 0x4c10, /*!< Polarity DCDC OCP */
+ TFA9878_BF_IPOOTDS= 0x4c20, /*!< Polarity OTP alarm */
+ TFA9878_BF_IPOOCPR= 0x4c30, /*!< Polarity ocp alarm */
+ TFA9878_BF_IPOUVDS= 0x4c40, /*!< Polarity UVP alarm */
+ TFA9878_BF_IPOMANALARM= 0x4c50, /*!< Polarity nanager Alarm state */
+ TFA9878_BF_IPOTDMER= 0x4c60, /*!< Polarity tdm error */
+ TFA9878_BF_IPONOCLK= 0x4c70, /*!< Polarity lost clk */
+ TFA9878_BF_IPOBODNOK= 0x4c80, /*!< Polarity BOD trigger */
+ TFA9878_BF_BSSCR = 0x5001, /*!< Battery Safeguard attack time (with K = 1 at sample rate fs of 32kHz, 44,1 kHz or 48kHz ; with K = 2 at sample rate fs 16 kHz . With K =0.5 at sample rate of 96 kHz) */
+ TFA9878_BF_BSST = 0x5023, /*!< Battery Safeguard threshold voltage level */
+ TFA9878_BF_BSSRL = 0x5061, /*!< Battery Safeguard maximum reduction */
+ TFA9878_BF_BSSR = 0x50e0, /*!< Battery voltage read out */
+ TFA9878_BF_BSSBY = 0x50f0, /*!< Bypass battery safeguard */
+ TFA9878_BF_BSSS = 0x5100, /*!< Vbat prot steepness */
+ TFA9878_BF_HPFBYP= 0x5150, /*!< Bypass HPF */
+ TFA9878_BF_DPSA = 0x5170, /*!< Enable DPSA */
+ TFA9878_BF_CLIPCTRL= 0x5222, /*!< Clip control setting */
+ TFA9878_BF_AMPGAIN= 0x5257, /*!< Amplifier gain */
+ TFA9878_BF_SLOPEE= 0x52d0, /*!< Enables slope control */
+ TFA9878_BF_SLOPESET= 0x52e0, /*!< Slope speed setting (bin. coded) */
+ TFA9878_BF_BYPDLYLINE= 0x52f0, /*!< Bypass the interpolator delay line */
+ TFA9878_BF_TDMDCG= 0x5f23, /*!< Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE) */
+ TFA9878_BF_TDMSPKG= 0x5f63, /*!< Total gain depending on INPLEV setting (channel 0) */
+ TFA9878_BF_IPM = 0x60e1, /*!< Idle power mode control */
+ TFA9878_BF_LNMODE= 0x62e1, /*!< ctrl select mode */
+ TFA9878_BF_LPM1MODE= 0x64e1, /*!< low power mode control */
+ TFA9878_BF_TDMSRCMAP= 0x6802, /*!< tdm source mapping */
+ TFA9878_BF_TDMSRCAS= 0x6831, /*!< Sensed value A */
+ TFA9878_BF_TDMSRCBS= 0x6851, /*!< Sensed value B */
+ TFA9878_BF_TDMSRCACLIP= 0x6871, /*!< clip information (analog /digital) for source0 */
+ TFA9878_BF_TDMSRCBCLIP= 0x6891, /*!< clip information (analog /digital) for source1 */
+ TFA9878_BF_LP0 = 0x6e00, /*!< Idle power mode */
+ TFA9878_BF_LP1 = 0x6e10, /*!< low power mode 1 detection */
+ TFA9878_BF_LA = 0x6e20, /*!< low amplitude detection */
+ TFA9878_BF_VDDPH = 0x6e30, /*!< vddp greater than vbat */
+ TFA9878_BF_DELCURCOMP= 0x6f02, /*!< delay to allign compensation signal with current sense signal */
+ TFA9878_BF_SIGCURCOMP= 0x6f40, /*!< polarity of compensation for current sense */
+ TFA9878_BF_ENCURCOMP= 0x6f50, /*!< enable current sense compensation */
+ TFA9878_BF_LVLCLPPWM= 0x6f72, /*!< set the amount of pwm pulse that may be skipped before clip-flag is triggered */
+ TFA9878_BF_DCMCC = 0x7003, /*!< Max coil current */
+ TFA9878_BF_DCCV = 0x7041, /*!< Slope compensation current, represents LxF (inductance x frequency) value */
+ TFA9878_BF_DCIE = 0x7060, /*!< Adaptive boost mode */
+ TFA9878_BF_DCSR = 0x7070, /*!< Soft ramp up/down */
+ TFA9878_BF_DCOVL = 0x7085, /*!< Threshold level to activate active overshoot control */
+ TFA9878_BF_DCDIS = 0x70e0, /*!< DCDC on/off */
+ TFA9878_BF_DCPWM = 0x70f0, /*!< DCDC PWM only mode */
+ TFA9878_BF_DCTRACK= 0x7430, /*!< Boost algorithm selection, effective only when boost_intelligent is set to 1 */
+ TFA9878_BF_DCTRIP= 0x7444, /*!< 1st Adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9878_BF_DCHOLD= 0x7494, /*!< Hold time for DCDC booster, effective only when boost_intelligent is set to 1 */
+ TFA9878_BF_DCINT = 0x74e0, /*!< Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1 */
+ TFA9878_BF_DCTRIP2= 0x7534, /*!< 2nd Adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9878_BF_DCTRIPT= 0x7584, /*!< Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1 */
+ TFA9878_BF_DCTRIPHYSTE= 0x75f0, /*!< Enable hysteresis on booster trip levels */
+ TFA9878_BF_DCVOF = 0x7635, /*!< First boost voltage level */
+ TFA9878_BF_DCVOS = 0x7695, /*!< Second boost voltage level */
+ TFA9878_BF_MTPK = 0xa107, /*!< MTP KEY2 register */
+ TFA9878_BF_KEY1LOCKED= 0xa200, /*!< Indicates KEY1 is locked */
+ TFA9878_BF_KEY2LOCKED= 0xa210, /*!< Indicates KEY2 is locked */
+ TFA9878_BF_MTPADDR= 0xa302, /*!< MTP address from I2C register for read/writing mtp in manual single word mode */
+ TFA9878_BF_MTPRDMSB= 0xa50f, /*!< MSB word of MTP manual read data */
+ TFA9878_BF_MTPRDLSB= 0xa60f, /*!< LSB word of MTP manual read data */
+ TFA9878_BF_MTPWRMSB= 0xa70f, /*!< MSB word of write data for MTP manual write */
+ TFA9878_BF_MTPWRLSB= 0xa80f, /*!< LSB word of write data for MTP manual write */
+ TFA9878_BF_EXTTS = 0xb108, /*!< External temperature (C) */
+ TFA9878_BF_TROS = 0xb190, /*!< Select temp Speaker calibration */
+ TFA9878_BF_PLLINSI= 0xcd05, /*!< PLL INSELI - PLL direct bandwidth control mode only with pll_bandsel set to 1 */
+ TFA9878_BF_PLLINSP= 0xcd64, /*!< PLL INSELP - PLL direct bandwidth control mode only with pll_bandsel set to 1 */
+ TFA9878_BF_PLLINSR= 0xcdb3, /*!< PLL INSELR - PLL direct bandwidth control mode only with pll_bandsel set to 1 */
+ TFA9878_BF_PLLBDSEL= 0xcdf0, /*!< PLL bandwidth selection control, USE WITH CAUTION */
+ TFA9878_BF_PLLNDEC= 0xce09, /*!< PLL NDEC in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9878_BF_PLLMDECM= 0xcea0, /*!< MSB of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9878_BF_PLLBP = 0xceb0, /*!< PLL bypass control during functional mode */
+ TFA9878_BF_PLLDI = 0xcec0, /*!< PLL directi control in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9878_BF_PLLDO = 0xced0, /*!< PLL directo control in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9878_BF_PLLCLKSTB= 0xcee0, /*!< PLL FRM clock stable control in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9878_BF_PLLFRM= 0xcef0, /*!< PLL free running mode control in functional mode */
+ TFA9878_BF_PLLMDECL= 0xcf0f, /*!< Bits 15..0 of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9878_BF_PLLPDEC= 0xd006, /*!< PLL PDEC in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9878_BF_PLLDCTRL= 0xd070, /*!< Enabled PLL direct control mode, overrules the PLL LUT with I2C register values */
+ TFA9878_BF_PLLLIMOFF= 0xd090, /*!< PLL up limiter control in PLL direct bandwidth control mode, pll_bandsel set to 1 */
+ TFA9878_BF_PLLSTRTM= 0xd0a2, /*!< PLL startup time selection control */
+ TFA9878_BF_SWPROFIL= 0xe00f, /*!< Software profile data */
+ TFA9878_BF_SWVSTEP= 0xe10f, /*!< Software vstep information */
+ TFA9878_BF_MTPOTC= 0xf000, /*!< Calibration schedule */
+ TFA9878_BF_MTPEX = 0xf010, /*!< Calibration Ron executed */
+ TFA9878_BF_DCMCCAPI= 0xf020, /*!< Calibration current limit DCDC */
+ TFA9878_BF_DCMCCSB= 0xf030, /*!< Sign bit for delta calibration current limit DCDC */
+ TFA9878_BF_USERDEF= 0xf042, /*!< Calibration delta current limit DCDC */
+ TFA9878_BF_CUSTINFO= 0xf078, /*!< Reserved space for allowing customer to store speaker information */
+ TFA9878_BF_R25C = 0xf50f, /*!< Ron resistance of speaker coil */
+} nxpTfa9878BfEnumList_t;
+#define TFA9878_NAMETABLE static tfaBfName_t Tfa9878DatasheetNames[]= {\
+ { 0x0, "PWDN"}, /* Powerdown selection , */\
+ { 0x10, "I2CR"}, /* I2C Reset - Auto clear , */\
+ { 0x30, "AMPE"}, /* Activate Amplifier , */\
+ { 0x40, "DCA"}, /* Activate DC-to-DC converter , */\
+ { 0x71, "INTP"}, /* Interrupt config , */\
+ { 0x90, "FSSSEL"}, /* Audio sample reference , */\
+ { 0xb0, "BYPOCP"}, /* Bypass OCP , */\
+ { 0xc0, "TSTOCP"}, /* OCP testing control , */\
+ { 0x101, "AMPINSEL"}, /* Amplifier input selection , */\
+ { 0x120, "MANSCONF"}, /* I2C configured , */\
+ { 0x131, "DCINSEL"}, /* VAMP_OUT2 input selection , */\
+ { 0x160, "MUTETO"}, /* Time out SB mute sequence , */\
+ { 0x170, "MANROBOD"}, /* Reaction on BOD , */\
+ { 0x180, "BODE"}, /* Enable BOD (only in direct control mode) , */\
+ { 0x190, "BODHYS"}, /* Enable Hysteresis of BOD , */\
+ { 0x1a1, "BODFILT"}, /* BOD filter , */\
+ { 0x1c1, "BODTHLVL"}, /* BOD threshold , */\
+ { 0x1e0, "OPENMTP"}, /* Control for FAIM protection , */\
+ { 0x1f0, "DISFCRBST"}, /* disable boost control with FRCBST , */\
+ { 0x203, "AUDFS"}, /* Sample rate (fs) , */\
+ { 0x240, "INPLEV"}, /* TDM output attenuation , */\
+ { 0x255, "FRACTDEL"}, /* V/I Fractional delay , */\
+ { 0x2b1, "AMPINPSEL"}, /* amp input selection , */\
+ { 0x2d0, "PDMRATE"}, /* Pdm rate , */\
+ { 0x30f, "REV"}, /* Revision info , */\
+ { 0x401, "REFCKEXT"}, /* PLL external ref clock , */\
+ { 0x420, "REFCKSEL"}, /* PLL internal ref clock , */\
+ { 0x432, "SWCLKSEL"}, /* Sound Wire clock frequnecy , */\
+ { 0x460, "MANAOOSC"}, /* Internal osc off at PWDN , */\
+ { 0x480, "FSSYNCEN"}, /* Enable FS synchronisation for clock divider , */\
+ { 0x490, "CLKREFSYNCEN"}, /* Enable PLL reference clock synchronisation for clock divider, */\
+ { 0x4a0, "AUTOFROSEL"}, /* override automatic OSC selection mechanism , */\
+ { 0x4b0, "SWFRSYNC"}, /* Selection SW signal reference for Stream Synchronization , */\
+ { 0x500, "CGUSYNCDCG"}, /* Clock gating control for CGU synchronisation module, */\
+ { 0x510, "FRCCLKSPKR"}, /* force active the speaker sub-system clock when in idle power, */\
+ { 0x5c0, "SSFAIME"}, /* Sub-system FAIM , */\
+ { 0x707, "CLKCHKLO"}, /* Clock check Low Threshold , */\
+ { 0x787, "CLKCHKHI"}, /* Clock check Higher Threshold , */\
+ { 0x802, "AMPOCRT"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0x1000, "VDDS"}, /* POR , */\
+ { 0x1010, "DCOCPOK"}, /* DCDC OCP nmos (sticky register , clear on read) , */\
+ { 0x1020, "OTDS"}, /* OTP alarm (sticky register , clear on read) , */\
+ { 0x1030, "OCDS"}, /* OCP amplifier (sticky register , clear on read), */\
+ { 0x1040, "UVDS"}, /* UVP alarm (sticky register , clear on read) , */\
+ { 0x1050, "MANALARM"}, /* Alarm state , */\
+ { 0x1060, "CLKS"}, /* Clocks stable , */\
+ { 0x1070, "MTPB"}, /* MTP busy , */\
+ { 0x1080, "NOCLK"}, /* Lost clock (sticky register , clear on read) , */\
+ { 0x1090, "BODNOK"}, /* BOD Flag - VDD NOT OK , */\
+ { 0x10a0, "TDMERR"}, /* TDM error , */\
+ { 0x1100, "DCIL"}, /* DCDC current limiting , */\
+ { 0x1110, "DCDCA"}, /* DCDC active (sticky register , clear on read) , */\
+ { 0x1120, "DCDCPC"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1130, "DCHVBAT"}, /* DCDC level 1x , */\
+ { 0x1140, "DCH114"}, /* DCDC level 1.14x , */\
+ { 0x1150, "DCH107"}, /* DCDC level 1.07x , */\
+ { 0x1160, "PLLS"}, /* PLL lock , */\
+ { 0x1180, "TDMLUTER"}, /* TDM LUT error , */\
+ { 0x11c0, "CLKOOR"}, /* External clock status , */\
+ { 0x11d0, "SWS"}, /* Amplifier engage , */\
+ { 0x11e0, "AMPS"}, /* Amplifier enable , */\
+ { 0x11f0, "AREFS"}, /* References enable , */\
+ { 0x1300, "OCPOAP"}, /* OCPOK pmos B , */\
+ { 0x1310, "OCPOAN"}, /* OCPOK pmos A , */\
+ { 0x1320, "OCPOBP"}, /* OCPOK nmos B , */\
+ { 0x1330, "OCPOBN"}, /* OCPOK nmos A , */\
+ { 0x1380, "OVDS"}, /* OVP alarm , */\
+ { 0x1390, "CLIPS"}, /* Amplifier clipping , */\
+ { 0x13a0, "ADCCR"}, /* Control ADC , */\
+ { 0x13c0, "MANWAIT1"}, /* Wait HW I2C settings , */\
+ { 0x13e0, "MANMUTE"}, /* Audio mute sequence , */\
+ { 0x13f0, "MANOPER"}, /* Operating state , */\
+ { 0x1402, "TDMSTAT"}, /* TDM status bits , */\
+ { 0x1433, "MANSTATE"}, /* Device manager status , */\
+ { 0x1473, "AMPSTE"}, /* Amplifier control status , */\
+ { 0x14b1, "DCMODE"}, /* DCDC mode status bits , */\
+ { 0x1509, "BATS"}, /* Battery voltage (V) , */\
+ { 0x1608, "TEMPS"}, /* IC Temperature (C) , */\
+ { 0x1709, "VDDPS"}, /* IC VDDP voltage ( 1023*VDDP/13 V) , */\
+ { 0x2000, "TDME"}, /* Enable interface , */\
+ { 0x2013, "TDMSLOTS"}, /* N-slots in Frame , */\
+ { 0x2060, "TDMCLINV"}, /* Reception data to BCK clock , */\
+ { 0x2073, "TDMFSLN"}, /* FS length , */\
+ { 0x20b0, "TDMFSPOL"}, /* FS polarity , */\
+ { 0x20c3, "TDMNBCK"}, /* N-BCK's in FS , */\
+ { 0x2144, "TDMSLLN"}, /* N-bits in slot , */\
+ { 0x2194, "TDMBRMG"}, /* N-bits remaining , */\
+ { 0x21e0, "TDMDEL"}, /* data delay to FS , */\
+ { 0x21f0, "TDMADJ"}, /* data adjustment , */\
+ { 0x2201, "TDMOOMP"}, /* Received audio compression , */\
+ { 0x2224, "TDMSSIZE"}, /* Sample size per slot , */\
+ { 0x2271, "TDMTXDFO"}, /* Format unused bits , */\
+ { 0x2291, "TDMTXUS0"}, /* Format unused slots DATAO , */\
+ { 0x2300, "TDMSPKE"}, /* Control audio tdm channel in 0 , */\
+ { 0x2310, "TDMDCE"}, /* Control audio tdm channel in 1 , */\
+ { 0x2330, "TDMCSE"}, /* current sense vbat temperature and vddp feedback , */\
+ { 0x2340, "TDMVSE"}, /* Voltage sense vbat temperature and vddp feedback , */\
+ { 0x2603, "TDMSPKS"}, /* tdm slot for sink 0 , */\
+ { 0x2643, "TDMDCS"}, /* tdm slot for sink 1 , */\
+ { 0x26c3, "TDMCSS"}, /* Slot Position of current sense vbat temperature and vddp feedback, */\
+ { 0x2703, "TDMVSS"}, /* Slot Position of Voltage sense vbat temperature and vddp feedback, */\
+ { 0x4000, "ISTVDDS"}, /* Status POR , */\
+ { 0x4010, "ISTBSTOC"}, /* Status DCDC OCP , */\
+ { 0x4020, "ISTOTDS"}, /* Status OTP alarm , */\
+ { 0x4030, "ISTOCPR"}, /* Status ocp alarm , */\
+ { 0x4040, "ISTUVDS"}, /* Status UVP alarm , */\
+ { 0x4050, "ISTMANALARM"}, /* Status nanager Alarm state , */\
+ { 0x4060, "ISTTDMER"}, /* Status tdm error , */\
+ { 0x4070, "ISTNOCLK"}, /* Status lost clock , */\
+ { 0x4080, "ISTBODNOK"}, /* Status BOD event , */\
+ { 0x4400, "ICLVDDS"}, /* Clear POR , */\
+ { 0x4410, "ICLBSTOC"}, /* Clear DCDC OCP , */\
+ { 0x4420, "ICLOTDS"}, /* Clear OTP alarm , */\
+ { 0x4430, "ICLOCPR"}, /* Clear ocp alarm , */\
+ { 0x4440, "ICLUVDS"}, /* Clear UVP alarm , */\
+ { 0x4450, "ICLMANALARM"}, /* Clear manager Alarm state , */\
+ { 0x4460, "ICLTDMER"}, /* Clear tdm error , */\
+ { 0x4470, "ICLNOCLK"}, /* Clear lost clk , */\
+ { 0x4480, "ICLBODNOK"}, /* Clear BOD event , */\
+ { 0x4800, "IEVDDS"}, /* Enable por , */\
+ { 0x4810, "IEBSTOC"}, /* Enable DCDC OCP , */\
+ { 0x4820, "IEOTDS"}, /* Enable OTP alarm , */\
+ { 0x4830, "IEOCPR"}, /* Enable ocp alarm , */\
+ { 0x4840, "IEUVDS"}, /* Enable UVP alarm , */\
+ { 0x4850, "IEMANALARM"}, /* Enable nanager Alarm state , */\
+ { 0x4860, "IETDMER"}, /* Enable tdm error , */\
+ { 0x4870, "IENOCLK"}, /* Enable lost clk , */\
+ { 0x4880, "IEBODNOK"}, /* Enable BOD trigger , */\
+ { 0x4c00, "IPOVDDS"}, /* Polarity por , */\
+ { 0x4c10, "IPOBSTOC"}, /* Polarity DCDC OCP , */\
+ { 0x4c20, "IPOOTDS"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "IPOOCPR"}, /* Polarity ocp alarm , */\
+ { 0x4c40, "IPOUVDS"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "IPOMANALARM"}, /* Polarity nanager Alarm state , */\
+ { 0x4c60, "IPOTDMER"}, /* Polarity tdm error , */\
+ { 0x4c70, "IPONOCLK"}, /* Polarity lost clk , */\
+ { 0x4c80, "IPOBODNOK"}, /* Polarity BOD trigger , */\
+ { 0x5001, "BSSCR"}, /* Battery Safeguard attack time (with K = 1 at sample rate fs of 32kHz, 44,1 kHz or 48kHz ; with K = 2 at sample rate fs 16 kHz . With K =0.5 at sample rate of 96 kHz), */\
+ { 0x5023, "BSST"}, /* Battery Safeguard threshold voltage level , */\
+ { 0x5061, "BSSRL"}, /* Battery Safeguard maximum reduction , */\
+ { 0x50e0, "BSSR"}, /* Battery voltage read out , */\
+ { 0x50f0, "BSSBY"}, /* Bypass battery safeguard , */\
+ { 0x5100, "BSSS"}, /* Vbat prot steepness , */\
+ { 0x5150, "HPFBYP"}, /* Bypass HPF , */\
+ { 0x5170, "DPSA"}, /* Enable DPSA , */\
+ { 0x5222, "CLIPCTRL"}, /* Clip control setting , */\
+ { 0x5257, "AMPGAIN"}, /* Amplifier gain , */\
+ { 0x52d0, "SLOPEE"}, /* Enables slope control , */\
+ { 0x52e0, "SLOPESET"}, /* Slope speed setting (bin. coded) , */\
+ { 0x52f0, "BYPDLYLINE"}, /* Bypass the interpolator delay line , */\
+ { 0x5f23, "TDMDCG"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x5f63, "TDMSPKG"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x60e1, "IPM"}, /* Idle power mode control , */\
+ { 0x62e1, "LNMODE"}, /* ctrl select mode , */\
+ { 0x64e1, "LPM1MODE"}, /* low power mode control , */\
+ { 0x6802, "TDMSRCMAP"}, /* tdm source mapping , */\
+ { 0x6831, "TDMSRCAS"}, /* Sensed value A , */\
+ { 0x6851, "TDMSRCBS"}, /* Sensed value B , */\
+ { 0x6871, "TDMSRCACLIP"}, /* clip information (analog /digital) for source0 , */\
+ { 0x6891, "TDMSRCBCLIP"}, /* clip information (analog /digital) for source1 , */\
+ { 0x6e00, "LP0"}, /* Idle power mode , */\
+ { 0x6e10, "LP1"}, /* low power mode 1 detection , */\
+ { 0x6e20, "LA"}, /* low amplitude detection , */\
+ { 0x6e30, "VDDPH"}, /* vddp greater than vbat , */\
+ { 0x6f02, "DELCURCOMP"}, /* delay to allign compensation signal with current sense signal, */\
+ { 0x6f40, "SIGCURCOMP"}, /* polarity of compensation for current sense , */\
+ { 0x6f50, "ENCURCOMP"}, /* enable current sense compensation , */\
+ { 0x6f72, "LVLCLPPWM"}, /* set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7003, "DCMCC"}, /* Max coil current , */\
+ { 0x7041, "DCCV"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7060, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x7070, "DCSR"}, /* Soft ramp up/down , */\
+ { 0x7085, "DCOVL"}, /* Threshold level to activate active overshoot control, */\
+ { 0x70e0, "DCDIS"}, /* DCDC on/off , */\
+ { 0x70f0, "DCPWM"}, /* DCDC PWM only mode , */\
+ { 0x7430, "DCTRACK"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7444, "DCTRIP"}, /* 1st Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7494, "DCHOLD"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x74e0, "DCINT"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x7534, "DCTRIP2"}, /* 2nd Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7584, "DCTRIPT"}, /* Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x75f0, "DCTRIPHYSTE"}, /* Enable hysteresis on booster trip levels , */\
+ { 0x7635, "DCVOF"}, /* First boost voltage level , */\
+ { 0x7695, "DCVOS"}, /* Second boost voltage level , */\
+ { 0xa107, "MTPK"}, /* MTP KEY2 register , */\
+ { 0xa200, "KEY1LOCKED"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "KEY2LOCKED"}, /* Indicates KEY2 is locked , */\
+ { 0xa302, "MTPADDR"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0xa50f, "MTPRDMSB"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "MTPRDLSB"}, /* LSB word of MTP manual read data , */\
+ { 0xa70f, "MTPWRMSB"}, /* MSB word of write data for MTP manual write , */\
+ { 0xa80f, "MTPWRLSB"}, /* LSB word of write data for MTP manual write , */\
+ { 0xb108, "EXTTS"}, /* External temperature (C) , */\
+ { 0xb190, "TROS"}, /* Select temp Speaker calibration , */\
+ { 0xcd05, "PLLINSI"}, /* PLL INSELI - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcd64, "PLLINSP"}, /* PLL INSELP - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcdb3, "PLLINSR"}, /* PLL INSELR - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcdf0, "PLLBDSEL"}, /* PLL bandwidth selection control, USE WITH CAUTION , */\
+ { 0xce09, "PLLNDEC"}, /* PLL NDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcea0, "PLLMDECM"}, /* MSB of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xceb0, "PLLBP"}, /* PLL bypass control during functional mode , */\
+ { 0xcec0, "PLLDI"}, /* PLL directi control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xced0, "PLLDO"}, /* PLL directo control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcee0, "PLLCLKSTB"}, /* PLL FRM clock stable control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcef0, "PLLFRM"}, /* PLL free running mode control in functional mode , */\
+ { 0xcf0f, "PLLMDECL"}, /* Bits 15..0 of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xd006, "PLLPDEC"}, /* PLL PDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xd070, "PLLDCTRL"}, /* Enabled PLL direct control mode, overrules the PLL LUT with I2C register values, */\
+ { 0xd090, "PLLLIMOFF"}, /* PLL up limiter control in PLL direct bandwidth control mode, pll_bandsel set to 1, */\
+ { 0xd0a2, "PLLSTRTM"}, /* PLL startup time selection control , */\
+ { 0xe00f, "SWPROFIL"}, /* Software profile data , */\
+ { 0xe10f, "SWVSTEP"}, /* Software vstep information , */\
+ { 0xf000, "MTPOTC"}, /* Calibration schedule , */\
+ { 0xf010, "MTPEX"}, /* Calibration Ron executed , */\
+ { 0xf020, "DCMCCAPI"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "DCMCCSB"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "USERDEF"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "CUSTINFO"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf50f, "R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9878_BITNAMETABLE static tfaBfName_t Tfa9878BitNames[]= {\
+ { 0x0, "powerdown"}, /* Powerdown selection , */\
+ { 0x10, "reset"}, /* I2C Reset - Auto clear , */\
+ { 0x30, "enbl_amplifier"}, /* Activate Amplifier , */\
+ { 0x40, "enbl_boost"}, /* Activate DC-to-DC converter , */\
+ { 0x71, "int_pad_io"}, /* Interrupt config , */\
+ { 0x90, "fs_pulse_sel"}, /* Audio sample reference , */\
+ { 0xb0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0xc0, "test_ocp"}, /* OCP testing control , */\
+ { 0xd0, "sel_man_wait_time"}, /* Manager wait time selection control , */\
+ { 0x101, "vamp_sel1"}, /* Amplifier input selection , */\
+ { 0x120, "src_set_configured"}, /* I2C configured , */\
+ { 0x131, "vamp_sel2"}, /* VAMP_OUT2 input selection , */\
+ { 0x160, "disable_mute_time_out"}, /* Time out SB mute sequence , */\
+ { 0x170, "man_enbl_brown"}, /* Reaction on BOD , */\
+ { 0x180, "bod_enbl"}, /* Enable BOD (only in direct control mode) , */\
+ { 0x190, "bod_hyst_enbl"}, /* Enable Hysteresis of BOD , */\
+ { 0x1a1, "bod_delay_set"}, /* BOD filter , */\
+ { 0x1c1, "bod_lvl_set"}, /* BOD threshold , */\
+ { 0x1e0, "unprotect_faim"}, /* Control for FAIM protection , */\
+ { 0x1f0, "disable_frcbst"}, /* disable boost control with FRCBST , */\
+ { 0x203, "audio_fs"}, /* Sample rate (fs) , */\
+ { 0x240, "input_level"}, /* TDM output attenuation , */\
+ { 0x255, "cs_frac_delay"}, /* V/I Fractional delay , */\
+ { 0x2b1, "amp_input_sel"}, /* amp input selection , */\
+ { 0x2d0, "pdm_rate"}, /* Pdm rate , */\
+ { 0x30f, "device_rev"}, /* Revision info , */\
+ { 0x401, "pll_clkin_sel"}, /* PLL external ref clock , */\
+ { 0x420, "pll_clkin_sel_osc"}, /* PLL internal ref clock , */\
+ { 0x432, "sw_clk_sel"}, /* Sound Wire clock frequnecy , */\
+ { 0x460, "enbl_osc_auto_off"}, /* Internal osc off at PWDN , */\
+ { 0x480, "enbl_fs_sync"}, /* Enable FS synchronisation for clock divider , */\
+ { 0x490, "enbl_clkref_sync"}, /* Enable PLL reference clock synchronisation for clock divider, */\
+ { 0x4a0, "override_auto_sel_osc"}, /* override automatic OSC selection mechanism , */\
+ { 0x4b0, "sw_sync_sel"}, /* Selection SW signal reference for Stream Synchronization , */\
+ { 0x500, "disable_cgu_sync_cgate"}, /* Clock gating control for CGU synchronisation module, */\
+ { 0x510, "force_spkr_clk"}, /* force active the speaker sub-system clock when in idle power, */\
+ { 0x5c0, "enbl_faim_ss"}, /* Sub-system FAIM , */\
+ { 0x707, "clkchk_th_lo"}, /* Clock check Low Threshold , */\
+ { 0x787, "clkchk_th_hi"}, /* Clock check Higher Threshold , */\
+ { 0x802, "ctrl_on2off_criterion"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0xe07, "ctrl_digtoana"}, /* Spare control from digital to analog , */\
+ { 0xf0f, "hidden_code"}, /* 5A6Bh, 23147d to access registers (default for engineering), */\
+ { 0x1000, "flag_por"}, /* POR , */\
+ { 0x1010, "flag_bst_ocpok"}, /* DCDC OCP nmos (sticky register , clear on read) , */\
+ { 0x1020, "flag_otpok"}, /* OTP alarm (sticky register , clear on read) , */\
+ { 0x1030, "flag_ocp_alarm"}, /* OCP amplifier (sticky register , clear on read), */\
+ { 0x1040, "flag_uvpok"}, /* UVP alarm (sticky register , clear on read) , */\
+ { 0x1050, "flag_man_alarm_state"}, /* Alarm state , */\
+ { 0x1060, "flag_clocks_stable"}, /* Clocks stable , */\
+ { 0x1070, "flag_mtp_busy"}, /* MTP busy , */\
+ { 0x1080, "flag_lost_clk"}, /* Lost clock (sticky register , clear on read) , */\
+ { 0x1090, "flag_bod_vddd_nok"}, /* BOD Flag - VDD NOT OK , */\
+ { 0x10a0, "flag_tdm_error"}, /* TDM error , */\
+ { 0x1100, "flag_bst_bstcur"}, /* DCDC current limiting , */\
+ { 0x1110, "flag_bst_hiz"}, /* DCDC active (sticky register , clear on read) , */\
+ { 0x1120, "flag_bst_peakcur"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1130, "flag_bst_voutcomp"}, /* DCDC level 1x , */\
+ { 0x1140, "flag_bst_voutcomp86"}, /* DCDC level 1.14x , */\
+ { 0x1150, "flag_bst_voutcomp93"}, /* DCDC level 1.07x , */\
+ { 0x1160, "flag_pll_lock"}, /* PLL lock , */\
+ { 0x1180, "flag_tdm_lut_error"}, /* TDM LUT error , */\
+ { 0x11c0, "flag_clk_out_of_range"}, /* External clock status , */\
+ { 0x11d0, "flag_engage"}, /* Amplifier engage , */\
+ { 0x11e0, "flag_enbl_amp"}, /* Amplifier enable , */\
+ { 0x11f0, "flag_enbl_ref"}, /* References enable , */\
+ { 0x1300, "flag_ocpokbp"}, /* OCPOK pmos B , */\
+ { 0x1310, "flag_ocpokap"}, /* OCPOK pmos A , */\
+ { 0x1320, "flag_ocpokbn"}, /* OCPOK nmos B , */\
+ { 0x1330, "flag_ocpokan"}, /* OCPOK nmos A , */\
+ { 0x1380, "flag_ovpok"}, /* OVP alarm , */\
+ { 0x1390, "flag_clip"}, /* Amplifier clipping , */\
+ { 0x13a0, "flag_adc10_ready"}, /* Control ADC , */\
+ { 0x13c0, "flag_man_wait_src_settings"}, /* Wait HW I2C settings , */\
+ { 0x13e0, "flag_man_start_mute_audio"}, /* Audio mute sequence , */\
+ { 0x13f0, "flag_man_operating_state"}, /* Operating state , */\
+ { 0x1402, "flag_tdm_status"}, /* TDM status bits , */\
+ { 0x1433, "man_state"}, /* Device manager status , */\
+ { 0x1473, "amp_ctrl_state"}, /* Amplifier control status , */\
+ { 0x14b1, "status_bst_mode"}, /* DCDC mode status bits , */\
+ { 0x1509, "bat_adc"}, /* Battery voltage (V) , */\
+ { 0x1608, "temp_adc"}, /* IC Temperature (C) , */\
+ { 0x1709, "vddp_adc"}, /* IC VDDP voltage ( 1023*VDDP/13 V) , */\
+ { 0x2000, "tdm_enable"}, /* Enable interface , */\
+ { 0x2013, "tdm_nb_of_slots"}, /* N-slots in Frame , */\
+ { 0x2060, "tdm_clk_inversion"}, /* Reception data to BCK clock , */\
+ { 0x2073, "tdm_fs_ws_length"}, /* FS length , */\
+ { 0x20b0, "tdm_fs_ws_polarity"}, /* FS polarity , */\
+ { 0x20c3, "tdm_nbck"}, /* N-BCK's in FS , */\
+ { 0x2144, "tdm_slot_length"}, /* N-bits in slot , */\
+ { 0x2194, "tdm_bits_remaining"}, /* N-bits remaining , */\
+ { 0x21e0, "tdm_data_delay"}, /* data delay to FS , */\
+ { 0x21f0, "tdm_data_adjustment"}, /* data adjustment , */\
+ { 0x2201, "tdm_audio_sample_compression"}, /* Received audio compression , */\
+ { 0x2224, "tdm_sample_size"}, /* Sample size per slot , */\
+ { 0x2271, "tdm_txdata_format"}, /* Format unused bits , */\
+ { 0x2291, "tdm_txdata_format_unused_slot_sd0"}, /* Format unused slots DATAO , */\
+ { 0x2300, "tdm_sink0_enable"}, /* Control audio tdm channel in 0 , */\
+ { 0x2310, "tdm_sink1_enable"}, /* Control audio tdm channel in 1 , */\
+ { 0x2330, "tdm_source0_enable"}, /* current sense vbat temperature and vddp feedback , */\
+ { 0x2340, "tdm_source1_enable"}, /* Voltage sense vbat temperature and vddp feedback , */\
+ { 0x2603, "tdm_sink0_slot"}, /* tdm slot for sink 0 , */\
+ { 0x2643, "tdm_sink1_slot"}, /* tdm slot for sink 1 , */\
+ { 0x26c3, "tdm_source0_slot"}, /* Slot Position of current sense vbat temperature and vddp feedback, */\
+ { 0x2703, "tdm_source1_slot"}, /* Slot Position of Voltage sense vbat temperature and vddp feedback, */\
+ { 0x4000, "int_out_flag_por"}, /* Status POR , */\
+ { 0x4010, "int_out_flag_bst_ocpok"}, /* Status DCDC OCP , */\
+ { 0x4020, "int_out_flag_otpok"}, /* Status OTP alarm , */\
+ { 0x4030, "int_out_flag_ocp_alarm"}, /* Status ocp alarm , */\
+ { 0x4040, "int_out_flag_uvpok"}, /* Status UVP alarm , */\
+ { 0x4050, "int_out_flag_man_alarm_state"}, /* Status nanager Alarm state , */\
+ { 0x4060, "int_out_flag_tdm_error"}, /* Status tdm error , */\
+ { 0x4070, "int_out_flag_lost_clk"}, /* Status lost clock , */\
+ { 0x4080, "int_out_flag_bod_vddd_nok"}, /* Status BOD event , */\
+ { 0x4400, "int_in_flag_por"}, /* Clear POR , */\
+ { 0x4410, "int_in_flag_bst_ocpok"}, /* Clear DCDC OCP , */\
+ { 0x4420, "int_in_flag_otpok"}, /* Clear OTP alarm , */\
+ { 0x4430, "int_in_flag_ocp_alarm"}, /* Clear ocp alarm , */\
+ { 0x4440, "int_in_flag_uvpok"}, /* Clear UVP alarm , */\
+ { 0x4450, "int_in_flag_man_alarm_state"}, /* Clear manager Alarm state , */\
+ { 0x4460, "int_in_flag_tdm_error"}, /* Clear tdm error , */\
+ { 0x4470, "int_in_flag_lost_clk"}, /* Clear lost clk , */\
+ { 0x4480, "int_in_flag_bod_vddd_nok"}, /* Clear BOD event , */\
+ { 0x4800, "int_enable_flag_por"}, /* Enable por , */\
+ { 0x4810, "int_enable_flag_bst_ocpok"}, /* Enable DCDC OCP , */\
+ { 0x4820, "int_enable_flag_otpok"}, /* Enable OTP alarm , */\
+ { 0x4830, "int_enable_flag_ocp_alarm"}, /* Enable ocp alarm , */\
+ { 0x4840, "int_enable_flag_uvpok"}, /* Enable UVP alarm , */\
+ { 0x4850, "int_enable_flag_man_alarm_state"}, /* Enable nanager Alarm state , */\
+ { 0x4860, "int_enable_flag_tdm_error"}, /* Enable tdm error , */\
+ { 0x4870, "int_enable_flag_lost_clk"}, /* Enable lost clk , */\
+ { 0x4880, "int_enable_flag_bod_vddd_nok"}, /* Enable BOD trigger , */\
+ { 0x4c00, "int_polarity_flag_por"}, /* Polarity por , */\
+ { 0x4c10, "int_polarity_flag_bst_ocpok"}, /* Polarity DCDC OCP , */\
+ { 0x4c20, "int_polarity_flag_otpok"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "int_polarity_flag_ocp_alarm"}, /* Polarity ocp alarm , */\
+ { 0x4c40, "int_polarity_flag_uvpok"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "int_polarity_flag_man_alarm_state"}, /* Polarity nanager Alarm state , */\
+ { 0x4c60, "int_polarity_flag_tdm_error"}, /* Polarity tdm error , */\
+ { 0x4c70, "int_polarity_flag_lost_clk"}, /* Polarity lost clk , */\
+ { 0x4c80, "int_polarity_flag_bod_vddd_nok"}, /* Polarity BOD trigger , */\
+ { 0x5001, "vbat_prot_attack_time"}, /* Battery Safeguard attack time (with K = 1 at sample rate fs of 32kHz, 44,1 kHz or 48kHz ; with K = 2 at sample rate fs 16 kHz . With K =0.5 at sample rate of 96 kHz), */\
+ { 0x5023, "vbat_prot_thlevel"}, /* Battery Safeguard threshold voltage level , */\
+ { 0x5061, "vbat_prot_max_reduct"}, /* Battery Safeguard maximum reduction , */\
+ { 0x50d0, "rst_min_vbat"}, /* Reset clipper - Auto clear , */\
+ { 0x50e0, "sel_vbat"}, /* Battery voltage read out , */\
+ { 0x50f0, "bypass_clipper"}, /* Bypass battery safeguard , */\
+ { 0x5100, "batsense_steepness"}, /* Vbat prot steepness , */\
+ { 0x5150, "bypass_hp"}, /* Bypass HPF , */\
+ { 0x5170, "enbl_dpsa"}, /* Enable DPSA , */\
+ { 0x5222, "ctrl_cc"}, /* Clip control setting , */\
+ { 0x5257, "gain"}, /* Amplifier gain , */\
+ { 0x52d0, "ctrl_slopectrl"}, /* Enables slope control , */\
+ { 0x52e0, "ctrl_slope"}, /* Slope speed setting (bin. coded) , */\
+ { 0x52f0, "bypass_dly_line"}, /* Bypass the interpolator delay line , */\
+ { 0x5301, "dpsa_level"}, /* DPSA threshold levels , */\
+ { 0x5321, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x5350, "bypass_lp"}, /* Bypass the low pass filter inside temperature sensor, */\
+ { 0x5400, "first_order_mode"}, /* Overrule to 1st order mode of control stage when clipping, */\
+ { 0x5430, "icomp_engage"}, /* Engage of icomp , */\
+ { 0x5440, "ctrl_kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x5450, "icomp_engage_overrule"}, /* To overrule the functional icomp_engage signal during validation, */\
+ { 0x5463, "ctrl_dem"}, /* Enable DEM icomp and DEM one bit dac , */\
+ { 0x5500, "bypass_ctrlloop"}, /* Switch amplifier into open loop configuration , */\
+ { 0x5513, "ctrl_dem_mismatch"}, /* Enable DEM icomp mismatch for testing , */\
+ { 0x5552, "dpsa_drive"}, /* Drive setting (bin. coded) , */\
+ { 0x5600, "ref_iref_enbl"}, /* Enable of reference current for OCP , */\
+ { 0x5631, "ref_irefdist_set_ctrl"}, /* Scaling of reference current for OCP , */\
+ { 0x5652, "ref_irefdist_test_enbl"}, /* Enable of test-function of distribution of reference current, used for OCP. When enabled, the current will to to anamux iso powerstages. Using e.g. 011 it will add the current of powerstage P and N., */\
+ { 0x570a, "enbl_amp"}, /* Switch on the class-D power sections, each part of the analog sections can be switched on/off individually, */\
+ { 0x57b0, "enbl_engage"}, /* Enables/engage power stage and control loop , */\
+ { 0x57c0, "enbl_engage_pst"}, /* Enables/engage power stage and control loop , */\
+ { 0x5810, "hard_mute"}, /* Hard mute - PWM , */\
+ { 0x5844, "pwm_delay"}, /* PWM delay bits to set the delay, clockd is 1/(k*2048*fs), */\
+ { 0x5890, "reclock_pwm"}, /* Reclock the pwm signal inside analog , */\
+ { 0x58a0, "reclock_voltsense"}, /* Reclock the voltage sense pwm signal , */\
+ { 0x58c0, "enbl_pwm_phase_shift"}, /* Control for pwm phase shift , */\
+ { 0x5900, "pwm_clk_sel"}, /* Control for selection for PWM delay line source , */\
+ { 0x5910, "sel_pwm_delay_src"}, /* Control for selection for PWM delay line source , */\
+ { 0x5f23, "ctrl_attl"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x5f63, "ctrl_attr"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x6005, "idle_power_cal_offset"}, /* Idle power mode detector ctrl cal_offset from gain module , */\
+ { 0x6065, "idle_power_zero_lvl"}, /* IIdle power mode zero crossing detection level , */\
+ { 0x60e1, "idle_power_mode"}, /* Idle power mode control , */\
+ { 0x6105, "idle_power_threshold_lvl"}, /* Idle power mode amplitude trigger level , */\
+ { 0x6165, "idle_power_hold_time"}, /* Idle power mode detector ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x61c0, "disable_idle_power_mode"}, /* Idle power mode detector control , */\
+ { 0x6265, "zero_lvl"}, /* low noise gain switch zero trigger level , */\
+ { 0x62c1, "ctrl_fb_resistor"}, /* Select amplifier feedback resistor connection , */\
+ { 0x62e1, "lownoisegain_mode"}, /* ctrl select mode , */\
+ { 0x6305, "threshold_lvl"}, /* low noise gain switch trigger level , */\
+ { 0x6365, "hold_time"}, /* ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x6405, "lpm1_cal_offset"}, /* low power mode1 detector ctrl cal_offset from gain module , */\
+ { 0x6465, "lpm1_zero_lvl"}, /* low power mode1 zero crossing detection level , */\
+ { 0x64e1, "lpm1_mode"}, /* low power mode control , */\
+ { 0x6505, "lpm1_threshold_lvl"}, /* low power mode1 amplitude trigger level , */\
+ { 0x6565, "lpm1_hold_time"}, /* low power mode1 detector ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x65c0, "disable_low_power_mode"}, /* low power mode1 detector control , */\
+ { 0x6600, "dcdc_pfm20khz_limit"}, /* DCDC in PFM mode pwm mode is activated each 50us to force a pwm pulse, */\
+ { 0x6611, "dcdc_ctrl_maxzercnt"}, /* DCDC. Number of zero current flags to count before going to pfm mode, */\
+ { 0x6656, "dcdc_vbat_delta_detect"}, /* Threshold before booster is reacting on a delta Vbat (in PFM mode) by temporarily switching to PWM mode, */\
+ { 0x66c0, "dcdc_ignore_vbat"}, /* Ignore an increase on Vbat , */\
+ { 0x6700, "enbl_minion"}, /* Enables minion (small) power stage , */\
+ { 0x6713, "vth_vddpvbat"}, /* select vddp-vbat thres signal , */\
+ { 0x6750, "lpen_vddpvbat"}, /* select vddp-vbat filtred vs unfiltered compare , */\
+ { 0x6761, "ctrl_rfb"}, /* Feedback resistor selection - I2C direct mode , */\
+ { 0x6802, "tdm_source_mapping"}, /* tdm source mapping , */\
+ { 0x6831, "tdm_sourcea_frame_sel"}, /* Sensed value A , */\
+ { 0x6851, "tdm_sourceb_frame_sel"}, /* Sensed value B , */\
+ { 0x6871, "tdm_source0_clip_sel"}, /* clip information (analog /digital) for source0 , */\
+ { 0x6891, "tdm_source1_clip_sel"}, /* clip information (analog /digital) for source1 , */\
+ { 0x6a02, "rst_min_vbat_delay"}, /* rst_min_vbat delay (nb fs) , */\
+ { 0x6b00, "disable_auto_engage"}, /* disable auto engange , */\
+ { 0x6b10, "disable_engage"}, /* disable engange , */\
+ { 0x6c02, "ns_hp2ln_criterion"}, /* 0..7 zeroes at ns as threshold to swap from high_power to low_noise, */\
+ { 0x6c32, "ns_ln2hp_criterion"}, /* 0..7 zeroes at ns as threshold to swap from low_noise to high_power, */\
+ { 0x6c69, "spare_out"}, /* spare_out , */\
+ { 0x6d0f, "spare_in"}, /* spare_in , */\
+ { 0x6e00, "flag_idle_power_mode"}, /* Idle power mode , */\
+ { 0x6e10, "flag_lp_detect_mode1"}, /* low power mode 1 detection , */\
+ { 0x6e20, "flag_low_amplitude"}, /* low amplitude detection , */\
+ { 0x6e30, "flag_vddp_gt_vbat"}, /* vddp greater than vbat , */\
+ { 0x6f02, "cursense_comp_delay"}, /* delay to allign compensation signal with current sense signal, */\
+ { 0x6f40, "cursense_comp_sign"}, /* polarity of compensation for current sense , */\
+ { 0x6f50, "enbl_cursense_comp"}, /* enable current sense compensation , */\
+ { 0x6f72, "pwms_clip_lvl"}, /* set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7003, "boost_cur"}, /* Max coil current , */\
+ { 0x7041, "bst_slpcmplvl"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7060, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x7070, "boost_speed"}, /* Soft ramp up/down , */\
+ { 0x7085, "overshoot_correction_lvl"}, /* Threshold level to activate active overshoot control, */\
+ { 0x70e0, "dcdcoff_mode"}, /* DCDC on/off , */\
+ { 0x70f0, "dcdc_pwmonly"}, /* DCDC PWM only mode , */\
+ { 0x7104, "bst_drive"}, /* Binary coded drive setting for boost converter power stage, */\
+ { 0x7151, "bst_scalecur"}, /* For testing direct control scale current , */\
+ { 0x7174, "bst_slopecur"}, /* For testing direct control slope current , */\
+ { 0x71c1, "bst_slope"}, /* Boost slope speed , */\
+ { 0x71e0, "bst_bypass_bstcur"}, /* Bypass control for boost current settings , */\
+ { 0x71f0, "bst_bypass_bstfoldback"}, /* Bypass control for boost foldback , */\
+ { 0x7200, "enbl_bst_engage"}, /* Enable power stage dcdc controller , */\
+ { 0x7210, "enbl_bst_hizcom"}, /* Enable hiz comparator , */\
+ { 0x7220, "enbl_bst_peak2avg"}, /* Enable boost peak2avg functionality , */\
+ { 0x7230, "enbl_bst_peakcur"}, /* Enable peak current , */\
+ { 0x7240, "enbl_bst_power"}, /* Enable line of the powerstage , */\
+ { 0x7250, "enbl_bst_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x7260, "enbl_bst_voutcomp"}, /* Enable vout comparators , */\
+ { 0x7270, "enbl_bst_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x7280, "enbl_bst_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x7290, "enbl_bst_windac"}, /* Enable window dac , */\
+ { 0x72a5, "bst_windac"}, /* for testing direct control windac , */\
+ { 0x7300, "boost_alg"}, /* Control for boost adaptive loop gain , */\
+ { 0x7311, "boost_loopgain"}, /* DCDC boost loopgain setting , */\
+ { 0x7331, "bst_freq"}, /* DCDC boost frequency control , */\
+ { 0x7360, "bst_use_new_zercur_detect"}, /* Enable new zero current detection for boost control, */\
+ { 0x7430, "boost_track"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7444, "boost_trip_lvl_1st"}, /* 1st Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7494, "boost_hold_time"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x74e0, "sel_dcdc_envelope_8fs"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x74f0, "ignore_flag_voutcomp86"}, /* Determines the maximum PWM frequency be the most efficient in relation to the Booster inductor value, */\
+ { 0x7534, "boost_trip_lvl_2nd"}, /* 2nd Adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7584, "boost_trip_lvl_track"}, /* Track Adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x75f0, "enbl_trip_hyst"}, /* Enable hysteresis on booster trip levels , */\
+ { 0x7635, "frst_boost_voltage"}, /* First boost voltage level , */\
+ { 0x7695, "scnd_boost_voltage"}, /* Second boost voltage level , */\
+ { 0x8050, "cs_gain_control"}, /* Current sense gain control , */\
+ { 0x8060, "cs_bypass_gc"}, /* Bypasses the CS gain correction , */\
+ { 0x8087, "cs_gain"}, /* Current sense gain , */\
+ { 0x8210, "invertpwm"}, /* Current sense common mode feedback pwm invert control, */\
+ { 0x8305, "cs_ktemp"}, /* Current sense temperature compensation trimming (1 - VALUE*TEMP)*signal, */\
+ { 0x8364, "cs_ktemp2"}, /* Second order temperature compensation coefficient , */\
+ { 0x8400, "cs_adc_bsoinv"}, /* Bitstream inversion for current sense ADC , */\
+ { 0x8440, "cs_adc_nortz"}, /* Return to zero for current sense ADC , */\
+ { 0x8490, "cs_adc_slowdel"}, /* Select delay for current sense ADC (internal decision circuitry), */\
+ { 0x8510, "cs_classd_tran_skip"}, /* Skip current sense connection during a classD amplifier transition, */\
+ { 0x8530, "cs_inn_short"}, /* Short current sense negative to common mode , */\
+ { 0x8540, "cs_inp_short"}, /* Short current sense positive to common mode , */\
+ { 0x8550, "cs_ldo_bypass"}, /* Bypass current sense LDO , */\
+ { 0x8560, "cs_ldo_pulldown"}, /* Pull down current sense LDO, only valid if left_enbl_cs_ldo is high, */\
+ { 0x8574, "cs_ldo_voset"}, /* Current sense LDO voltage level setting (two's complement), */\
+ { 0x8700, "enbl_cs_adc"}, /* Enable current sense ADC , */\
+ { 0x8710, "enbl_cs_inn1"}, /* Enable connection of current sense negative1 , */\
+ { 0x8720, "enbl_cs_inn2"}, /* Enable connection of current sense negative2 , */\
+ { 0x8730, "enbl_cs_inp1"}, /* Enable connection of current sense positive1 , */\
+ { 0x8740, "enbl_cs_inp2"}, /* Enable connection of current sense positive2 , */\
+ { 0x8750, "enbl_cs_ldo"}, /* Enable current sense LDO , */\
+ { 0x8780, "enbl_cs_vbatldo"}, /* Enable of current sense LDO , */\
+ { 0x8790, "enbl_dc_filter"}, /* Control for enabling the DC blocking filter for voltage and current sense, */\
+ { 0x8850, "vs_gain_control"}, /* Voltage sense gain control , */\
+ { 0x8860, "vs_bypass_gc"}, /* Bypasses the VS gain correction , */\
+ { 0x8887, "vs_gain"}, /* voltage sense gain , */\
+ { 0x8c00, "vs_adc_bsoinv"}, /* Bitstream inversion for voltage sense ADC , */\
+ { 0x8c40, "vs_adc_nortz"}, /* Return to zero for voltage sense ADC , */\
+ { 0x8c90, "vs_adc_slowdel"}, /* Select delay for voltage sense ADC (internal decision circuitry), */\
+ { 0x8d30, "vs_inn_short"}, /* Short voltage sense negative to common mode , */\
+ { 0x8d40, "vs_inp_short"}, /* Short voltage sense positive to common mode , */\
+ { 0x8d50, "vs_ldo_bypass"}, /* Bypass voltage sense LDO , */\
+ { 0x8d60, "vs_ldo_pulldown"}, /* Pull down voltage sense LDO, only valid if left_enbl_cs_ldo is high, */\
+ { 0x8d74, "vs_ldo_voset"}, /* Voltage sense LDO voltage level setting (two's complement), */\
+ { 0x8f00, "enbl_vs_adc"}, /* Enable voltage sense ADC (Direct Control only only others done by manager), */\
+ { 0x8f10, "enbl_vs_inn1"}, /* Enable connection of voltage sense negative1 , */\
+ { 0x8f20, "enbl_vs_inn2"}, /* Enable connection of voltage sense negative2 , */\
+ { 0x8f30, "enbl_vs_inp1"}, /* Enable connection of voltage sense positive1 , */\
+ { 0x8f40, "enbl_vs_inp2"}, /* Enable connection of voltage sense positive2 , */\
+ { 0x8f50, "enbl_vs_ldo"}, /* Enable voltage sense LDO (Direct Control only only others done by manager), */\
+ { 0x8f80, "enbl_vs_vbatldo"}, /* Enable of voltage sense LDO (Direct Control only others done by manager), */\
+ { 0xa007, "mtpkey1"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0xa107, "mtpkey2"}, /* MTP KEY2 register , */\
+ { 0xa200, "key01_locked"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "key02_locked"}, /* Indicates KEY2 is locked , */\
+ { 0xa302, "mtp_man_address_in"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0xa330, "man_copy_mtp_to_iic"}, /* Start copying single word from mtp to I2C mtp register, */\
+ { 0xa340, "man_copy_iic_to_mtp"}, /* Start copying single word from I2C mtp register to mtp, */\
+ { 0xa350, "auto_copy_mtp_to_iic"}, /* Start copying all the data from mtp to I2C mtp registers, */\
+ { 0xa360, "auto_copy_iic_to_mtp"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa400, "faim_set_clkws"}, /* Sets the faim controller clock wait state register, */\
+ { 0xa410, "faim_sel_evenrows"}, /* All even rows of the faim are selected, active high, */\
+ { 0xa420, "faim_sel_oddrows"}, /* All odd rows of the faim are selected, all rows in combination with sel_evenrows, */\
+ { 0xa430, "faim_program_only"}, /* Skip the erase access at wr_faim command (write-program-marginread), */\
+ { 0xa440, "faim_erase_only"}, /* Skip the program access at wr_faim command (write-erase-marginread), */\
+ { 0xa50f, "mtp_man_data_out_msb"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "mtp_man_data_out_lsb"}, /* LSB word of MTP manual read data , */\
+ { 0xa70f, "mtp_man_data_in_msb"}, /* MSB word of write data for MTP manual write , */\
+ { 0xa80f, "mtp_man_data_in_lsb"}, /* LSB word of write data for MTP manual write , */\
+ { 0xb010, "bypass_ocpcounter"}, /* Bypass OCP Counter , */\
+ { 0xb020, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0xb030, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0xb040, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0xb050, "bypass_otp"}, /* Bypass OTP , */\
+ { 0xb060, "bypass_lost_clk"}, /* Bypass lost clock detector , */\
+ { 0xb070, "ctrl_vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0xb087, "ocp_threshold"}, /* OCP threshold level , */\
+ { 0xb108, "ext_temp"}, /* External temperature (C) , */\
+ { 0xb190, "ext_temp_sel"}, /* Select temp Speaker calibration , */\
+ { 0xc000, "use_direct_ctrls"}, /* Direct control to overrule several functions for testing, */\
+ { 0xc010, "rst_datapath"}, /* Direct control for datapath reset , */\
+ { 0xc020, "rst_cgu"}, /* Direct control for cgu reset , */\
+ { 0xc038, "enbl_ref"}, /* Switch on the analog references, each part of the references can be switched on/off individually, */\
+ { 0xc0c0, "use_direct_vs_ctrls"}, /* voltage sense Direct control to overrule several functions for testing, */\
+ { 0xc0d0, "enbl_ringo"}, /* Enable the ring oscillator for test purpose , */\
+ { 0xc0e0, "enbl_pll"}, /* Enables PLL in I2C direct control mode only , */\
+ { 0xc0f0, "enbl_fro"}, /* Enables FRO8M in I2C direct control mode only , */\
+ { 0xc100, "enbl_tsense"}, /* Temperature sensor enable control - I2C direct mode, */\
+ { 0xc110, "tsense_hibias"}, /* Bit to set the biasing in temp sensor to high , */\
+ { 0xc120, "enbl_flag_vbg"}, /* Enable flagging of bandgap out of control , */\
+ { 0xc20f, "abist_offset"}, /* Offset control for ABIST testing (two's complement), */\
+ { 0xc300, "bypasslatch"}, /* Bypass latch , */\
+ { 0xc311, "sourcea"}, /* Set OUTA to , */\
+ { 0xc331, "sourceb"}, /* Set OUTB to , */\
+ { 0xc350, "inverta"}, /* Invert pwma test signal , */\
+ { 0xc360, "invertb"}, /* Invert pwmb test signal , */\
+ { 0xc374, "pulselength"}, /* Pulse length setting test input for amplifier (clock d - k*2048*fs ), */\
+ { 0xc3c0, "tdm_enable_loopback"}, /* TDM loopback test , */\
+ { 0xc400, "bst_bypasslatch"}, /* Bypass latch in boost converter , */\
+ { 0xc411, "bst_source"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0xc430, "bst_invertb"}, /* Invert pwmbst test signal , */\
+ { 0xc444, "bst_pulselength"}, /* Pulse length setting test input for boost converter , */\
+ { 0xc490, "test_bst_ctrlsthv"}, /* Test mode for boost control stage , */\
+ { 0xc4a0, "test_bst_iddq"}, /* IDDQ testing in power stage of boost converter , */\
+ { 0xc4b0, "test_bst_rdson"}, /* RDSON testing - boost power stage , */\
+ { 0xc4c0, "test_bst_cvi"}, /* CVI testing - boost power stage , */\
+ { 0xc4d0, "test_bst_ocp"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0), For new ocp (ctrl_reversebst is 1), */\
+ { 0xc4e0, "test_bst_sense"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0xc500, "test_cvi"}, /* Analog BIST, switch choose which transistor will be used as current source (also cross coupled sources possible), */\
+ { 0xc510, "test_discrete"}, /* Test function noise measurement , */\
+ { 0xc520, "test_iddq"}, /* Set the power stages in iddq mode for gate stress., */\
+ { 0xc540, "test_rdson"}, /* Analog BIST, switch to enable Rdson measurement , */\
+ { 0xc550, "test_sdelta"}, /* Analog BIST, noise test , */\
+ { 0xc570, "test_enbl_cs"}, /* Enable for digimux mode of current sense , */\
+ { 0xc580, "test_enbl_vs"}, /* Enable for digimux mode of voltage sense , */\
+ { 0xc600, "enbl_pwm_dcc"}, /* Enables direct control of pwm duty cycle for DCDC power stage, */\
+ { 0xc613, "pwm_dcc_cnt"}, /* Control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0xc650, "enbl_ldo_stress"}, /* Enable stress of internal supply voltages powerstages, */\
+ { 0xc707, "digimuxa_sel"}, /* DigimuxA input selection control routed to DATAO (see Digimux list for details), */\
+ { 0xc787, "digimuxb_sel"}, /* DigimuxB input selection control routed to INT (see Digimux list for details), */\
+ { 0xc807, "digimuxc_sel"}, /* DigimuxC input selection control routed to ADS1 (see Digimux list for details), */\
+ { 0xc981, "int_ehs"}, /* Speed/load setting for INT IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc9c0, "hs_mode"}, /* I2C high speed mode control , */\
+ { 0xc9d1, "sw_hs_mode"}, /* Speed/load setting for SW IO cell, clk or data mode range (see SWMF IO cell datasheet), */\
+ { 0xca00, "enbl_anamux1"}, /* Enable anamux1 , */\
+ { 0xca10, "enbl_anamux2"}, /* Enable anamux2 , */\
+ { 0xca20, "enbl_anamux3"}, /* Enable anamux3 , */\
+ { 0xca30, "enbl_anamux4"}, /* Enable anamux4 , */\
+ { 0xca74, "anamux1"}, /* Anamux selection control - anamux on TEST1 , */\
+ { 0xcac0, "open_frcbst_ensw_switch"}, /* Save test2 configuration before enable anamux2 (open test2 switch and save test2 setting) , */\
+ { 0xcb04, "anamux2"}, /* Anamux selection control - anamux on FRCBST/TEST2 , */\
+ { 0xcb53, "anamux3"}, /* Anamux selection control - anamux on VSN/TEST3 , */\
+ { 0xcba3, "anamux4"}, /* Anamux selection control - anamux on VSP/TEST4 , */\
+ { 0xcd05, "pll_inseli"}, /* PLL INSELI - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcd64, "pll_inselp"}, /* PLL INSELP - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcdb3, "pll_inselr"}, /* PLL INSELR - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcdf0, "pll_bandsel"}, /* PLL bandwidth selection control, USE WITH CAUTION , */\
+ { 0xce09, "pll_ndec"}, /* PLL NDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcea0, "pll_mdec_msb"}, /* MSB of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xceb0, "pll_bypass"}, /* PLL bypass control during functional mode , */\
+ { 0xcec0, "pll_directi"}, /* PLL directi control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xced0, "pll_directo"}, /* PLL directo control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcee0, "pll_frm_clockstable"}, /* PLL FRM clock stable control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcef0, "pll_frm"}, /* PLL free running mode control in functional mode , */\
+ { 0xcf0f, "pll_mdec_lsb"}, /* Bits 15..0 of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xd006, "pll_pdec"}, /* PLL PDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xd070, "use_direct_pll_ctrl"}, /* Enabled PLL direct control mode, overrules the PLL LUT with I2C register values, */\
+ { 0xd090, "pll_limup_off"}, /* PLL up limiter control in PLL direct bandwidth control mode, pll_bandsel set to 1, */\
+ { 0xd0a2, "sel_pll_startup_time"}, /* PLL startup time selection control , */\
+ { 0xd10f, "tsig_freq_lsb"}, /* Internal sinus test generator frequency control , */\
+ { 0xd202, "tsig_freq_msb"}, /* Select internal sinus test generator, frequency control msb bits, */\
+ { 0xd230, "inject_tsig"}, /* Control bit to switch to internal sinus test generator, */\
+ { 0xd283, "tsig_gain"}, /* Test signal gain , */\
+ { 0xd300, "adc10_reset"}, /* Reset for ADC10 - I2C direct control mode , */\
+ { 0xd311, "adc10_test"}, /* Test mode selection signal for ADC10 - I2C direct control mode, */\
+ { 0xd332, "adc10_sel"}, /* Select the input to convert for ADC10 - I2C direct control mode, */\
+ { 0xd364, "adc10_prog_sample"}, /* ADC10 program sample setting - I2C direct control mode, */\
+ { 0xd3b0, "adc10_enbl"}, /* Enable ADC10 - I2C direct control mode , */\
+ { 0xd3c0, "bypass_lp_vbat"}, /* Bypass control for Low pass filter in batt sensor , */\
+ { 0xd409, "data_adc10_tempbat"}, /* ADC 10 data output data for testing , */\
+ { 0xd507, "ctrl_digtoana_hidden"}, /* Spare digital to analog control bits - Hidden , */\
+ { 0xd580, "enbl_clk_out_of_range"}, /* Clock out of range , */\
+ { 0xd721, "datao_ehs"}, /* Speed/load setting for DATAO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xd740, "bck_ehs"}, /* High-speed and standard/fast mode selection for BCK IO cell (see IIC3V3 IO cell datasheet), */\
+ { 0xd750, "datai_ehs"}, /* High-speed and standard/fast mode selection for DATAI IO cell (see IIC3V3 IO cell datasheet), */\
+ { 0xd800, "source_in_testmode"}, /* tdm source in test mode (return only current and voltage sense), */\
+ { 0xd810, "gainatt_tdm_feedback"}, /* gainatt feedback to tdm , */\
+ { 0xd822, "test_parametric_io"}, /* test io parametric , */\
+ { 0xd850, "ctrl_bst_clk_lp1"}, /* boost clock control in low power mode1 , */\
+ { 0xd861, "test_spare_out1"}, /* test spare out 1 , */\
+ { 0xd880, "bst_dcmbst"}, /* dcm boost , */\
+ { 0xd890, "gainatt_sw_feedback"}, /* gainatt feedback to sw , */\
+ { 0xd8c3, "test_spare_out2"}, /* test spare out 1 , */\
+ { 0xd900, "enbl_frocal"}, /* Enable FRO calibration , */\
+ { 0xd910, "start_fro_calibration"}, /* Start FRO8 Calibration , */\
+ { 0xd920, "enbl_irefcal"}, /* Enable IREF calibration , */\
+ { 0xd930, "start_iref_calibration"}, /* Start IREF Calibration , */\
+ { 0xda00, "fro_calibration_done"}, /* FRO8 Calibration done - Read Only , */\
+ { 0xda15, "fro_auto_trim_val"}, /* Calibration value from Auto Calibration block, to be written into MTP - Read Only, */\
+ { 0xda80, "iref_calibration_done"}, /* IREF Calibration done - Read Only , */\
+ { 0xda94, "iref_auto_trim_val"}, /* Calibration value from Auto Calibration block, to be written into MTP - Read Only, */\
+ { 0xdae0, "iref_calibration_error"}, /* IREF Calibration done - Read Only , */\
+ { 0xe00f, "sw_profile"}, /* Software profile data , */\
+ { 0xe10f, "sw_vstep"}, /* Software vstep information , */\
+ { 0xf000, "calibration_onetime"}, /* Calibration schedule , */\
+ { 0xf010, "calibr_ron_done"}, /* Calibration Ron executed , */\
+ { 0xf020, "calibr_dcdc_api_calibrate"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "calibr_dcdc_delta_sign"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "calibr_dcdc_delta"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "calibr_speaker_info"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf105, "calibr_vout_offset"}, /* DCDC offset calibration 2's complement (key1 protected), */\
+ { 0xf169, "spare_mtp1_15_6"}, /* SPARE , */\
+ { 0xf203, "calibr_gain"}, /* HW gain module (2's complement) , */\
+ { 0xf245, "calibr_offset"}, /* Offset for amplifier, HW gain module (2's complement), */\
+ { 0xf2a4, "optimal_pwm_delay"}, /* PWM delay bits to set the delay, clockd is 1/(k*2048*fs), */\
+ { 0xf2f0, "enbl_optimal_pwm_delay"}, /* optimized pwm delay function enabled , */\
+ { 0xf307, "calibr_gain_vs1"}, /* Voltage sense gain when external voltage sensing input is selected, */\
+ { 0xf387, "calibr_gain_vs2"}, /* Voltage sense gain when internal voltage sensing input is selected, */\
+ { 0xf407, "vs_trim1"}, /* VS Trimming when external voltage sensing input is selected, */\
+ { 0xf487, "vs_trim2"}, /* VS Trimming when internal voltage sensing input is selected, */\
+ { 0xf50f, "calibr_R25C_R"}, /* Ron resistance of speaker coil , */\
+ { 0xf607, "calibr_gain_cs"}, /* Current sense gain (signed two's complement format), */\
+ { 0xf687, "spare_mpt6_15_06"}, /* SPARE , */\
+ { 0xf706, "ctrl_offset_a"}, /* Offset of level shifter A , */\
+ { 0xf770, "spare_mtp7_07"}, /* SPARE , */\
+ { 0xf786, "ctrl_offset_b"}, /* Offset of amplifier level shifter B , */\
+ { 0xf7f0, "spare_mtp7_15"}, /* SPARE , */\
+ { 0xf806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0xf870, "htol_iic_addr_en"}, /* HTOL I2C address enable control , */\
+ { 0xf884, "calibr_temp_offset"}, /* Temperature offset 2's compliment (key1 protected), */\
+ { 0xf8d2, "calibr_temp_gain"}, /* Temperature gain 2's compliment (key1 protected) , */\
+ { 0xf900, "mtp_lock_dcdcoff_mode"}, /* Disable function dcdcoff_mode , */\
+ { 0xf910, "spare_mtp9_1"}, /* SPARE , */\
+ { 0xf920, "mtp_lock_bypass_clipper"}, /* Disable function bypass_clipper , */\
+ { 0xf930, "mtp_lock_max_dcdc_voltage"}, /* Force Boost in follower mode , */\
+ { 0xf943, "calibr_vbg_trim"}, /* Bandgap trimming control , */\
+ { 0xf980, "spare_mtp9_8"}, /* SPARE , */\
+ { 0xf990, "mtp_enbl_pwm_delay_clock_gating"}, /* pwm delay clock auto gating , */\
+ { 0xf9a0, "mtp_enbl_ocp_clock_gating"}, /* ocpclock auto gating , */\
+ { 0xf9b0, "mtp_gate_cgu_clock_for_test"}, /* cgu test clock control , */\
+ { 0xf9c0, "mtp_tdm_pad_sel"}, /* tdm pad selection , */\
+ { 0xf9d2, "spare_mtp9_15_12"}, /* MTP-control FW - See Firmware I2C API document for details, */\
+ { 0xfa0f, "mtpdataA"}, /* MTPdataA (key1 protected) , */\
+ { 0xfb0f, "mtpdataB"}, /* MTPdataB (key1 protected) , */\
+ { 0xfc0f, "mtpdataC"}, /* MTPdataC (key1 protected) , */\
+ { 0xfd0f, "mtpdataD"}, /* MTPdataD (key1 protected) , */\
+ { 0xfe0f, "mtpdataE"}, /* MTPdataE (key1 protected) , */\
+ { 0xff05, "fro_trim"}, /* 8 MHz oscillator trim code , */\
+ { 0xff61, "fro_shortnwell"}, /* Short 4 or 6 n-well resistors , */\
+ { 0xff81, "fro_boost"}, /* Self bias current selection , */\
+ { 0xffa4, "calibr_iref_trim"}, /* Trimming control of reference current for OCP , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+enum tfa9878_irq {
+ tfa9878_irq_stvdds = 0,
+ tfa9878_irq_stbstoc = 1,
+ tfa9878_irq_stotds = 2,
+ tfa9878_irq_stocpr = 3,
+ tfa9878_irq_stuvds = 4,
+ tfa9878_irq_stmanalarm = 5,
+ tfa9878_irq_sttdmer = 6,
+ tfa9878_irq_stnoclk = 7,
+ tfa9878_irq_stbodnok = 8,
+ tfa9878_irq_max = 9,
+ tfa9878_irq_all = -1 /* all irqs */};
+
+#define TFA9878_IRQ_NAMETABLE static tfaIrqName_t Tfa9878IrqNames[]= {\
+ { 0, "STVDDS"},\
+ { 1, "STBSTOC"},\
+ { 2, "STOTDS"},\
+ { 3, "STOCPR"},\
+ { 4, "STUVDS"},\
+ { 5, "STMANALARM"},\
+ { 6, "STTDMER"},\
+ { 7, "STNOCLK"},\
+ { 8, "STBODNOK"},\
+ { 9, "9"},\
+};
+#endif /* _TFA9878_TFAFIELDNAMES_H */
diff --git a/inc/tfa9887_tfafieldnames.h b/inc/tfa9887_tfafieldnames.h
new file mode 100644
index 0000000..cd30524
--- /dev/null
+++ b/inc/tfa9887_tfafieldnames.h
@@ -0,0 +1,65 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+#define TFA9887_I2CVERSION 34
+#define TFA9895_I2CVERSION 34
+#define TFA9887_NAMETABLE static tfaBfName_t Tfa9887DatasheetNames[]= {\
+ { 0x402, "I2SF"}, /* I2SFormat data 1 input: , */\
+ { 0x431, "CHS12"}, /* ChannelSelection data1 input (In CoolFlux) , */\
+ { 0x450, "CHS3"}, /* ChannelSelection data 2 input (coolflux input, the DCDC converter gets the other signal), */\
+ { 0x461, "CHSA"}, /* Input selection for amplifier , */\
+ { 0x4b0, "I2SDOE"}, /* Enable data output , */\
+ { 0x4c3, "I2SSR"}, /* sample rate setting , */\
+ { 0x500, "BSSBY"}, /* , */\
+ { 0x511, "BSSCR"}, /* 00 = 0.56 dB/Sample , */\
+ { 0x532, "BSST"}, /* 000 = 2.92V , */\
+ { 0x5f0, "I2SDOC"}, /* selection data out , */\
+ { 0xa02, "DOLS"}, /* Output selection dataout left channel , */\
+ { 0xa32, "DORS"}, /* Output selection dataout right channel , */\
+ { 0xa62, "SPKL"}, /* Selection speaker induction , */\
+ { 0xa91, "SPKR"}, /* Selection speaker impedance , */\
+ { 0xab3, "DCFG"}, /* DCDC speaker current compensation gain , */\
+ { 0x4134, "PWMDEL"}, /* PWM DelayBits to set the delay , */\
+ { 0x4180, "PWMSH"}, /* PWM Shape , */\
+ { 0x4190, "PWMRE"}, /* PWM Bitlength in noise shaper , */\
+ { 0x48e1, "TCC"}, /* sample & hold track time: , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9887_BITNAMETABLE static tfaBfName_t Tfa9887BitNames[]= {\
+ { 0x402, "i2s_seti"}, /* I2SFormat data 1 input: , */\
+ { 0x431, "chan_sel1"}, /* ChannelSelection data1 input (In CoolFlux) , */\
+ { 0x450, "lr_sw_i2si2"}, /* ChannelSelection data 2 input (coolflux input, the DCDC converter gets the other signal), */\
+ { 0x461, "input_sel"}, /* Input selection for amplifier , */\
+ { 0x4b0, "enbl_datao"}, /* Enable data output , */\
+ { 0x4c3, "i2s_fs"}, /* sample rate setting , */\
+ { 0x500, "bypass_clipper"}, /* , */\
+ { 0x511, "vbat_prot_attacktime[1:0]"}, /* 00 = 0.56 dB/Sample , */\
+ { 0x532, "vbat_prot_thlevel[2:0]"}, /* 000 = 2.92V , */\
+ { 0x5d0, "reset_min_vbat"}, /* to reset the clipper via I2C in case the CF is bypassed, */\
+ { 0x5f0, "datao_sel"}, /* selection data out , */\
+ { 0xa02, "sel_i2so_l"}, /* Output selection dataout left channel , */\
+ { 0xa32, "sel_i2so_r"}, /* Output selection dataout right channel , */\
+ { 0xa62, "ctrl_spkr_coil"}, /* Selection speaker induction , */\
+ { 0xa91, "ctrl_spr_res"}, /* Selection speaker impedance , */\
+ { 0xab3, "ctrl_dcdc_spkr_i_comp_gain"}, /* DCDC speaker current compensation gain , */\
+ { 0xaf0, "ctrl_dcdc_spkr_i_comp_sign"}, /* DCDC speaker current compensation sign , */\
+ { 0x4100, "bypass_hp"}, /* bypass_hp, to bypass the hp filter byhind the CoolFlux, */\
+ { 0x4110, "hard_mute"}, /* hard mute setting in HW , */\
+ { 0x4120, "soft_mute"}, /* Soft mute setting in HW , */\
+ { 0x4134, "PWM_Delay[4:0]"}, /* PWM DelayBits to set the delay , */\
+ { 0x4180, "PWM_Shape"}, /* PWM Shape , */\
+ { 0x4190, "PWM_BitLength"}, /* PWM Bitlength in noise shaper , */\
+ { 0x4800, "ctrl_negin"}, /* , */\
+ { 0x4810, "ctrl_cs_sein"}, /* , */\
+ { 0x4820, "ctrl_coincidencecs"}, /* HIGH => Prevent dcdc switching during clk_cs_clksh, */\
+ { 0x4876, "delay_se_neg[6:0]"}, /* delayshiftse2 , */\
+ { 0x48e1, "ctrl_cs_ttrack[1:0]"}, /* sample & hold track time: , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
diff --git a/inc/tfa9890_tfafieldnames.h b/inc/tfa9890_tfafieldnames.h
new file mode 100644
index 0000000..2b42c35
--- /dev/null
+++ b/inc/tfa9890_tfafieldnames.h
@@ -0,0 +1,80 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+#define TFA9890_I2CVERSION 34
+#define TFA9890_NAMETABLE static tfaBfName_t Tfa9890DatasheetNames[]= {\
+ { 0x402, "I2SF"}, /* I2SFormat data 1 input: , */\
+ { 0x431, "CHS12"}, /* ChannelSelection data1 input (In CoolFlux) , */\
+ { 0x450, "CHS3"}, /* ChannelSelection data 2 input (coolflux input, the DCDC converter gets the other signal), */\
+ { 0x461, "CHSA"}, /* Input selection for amplifier , */\
+ { 0x481, "I2SDOC"}, /* selection data out , */\
+ { 0x4a0, "DISP"}, /* idp protection , */\
+ { 0x4b0, "I2SDOE"}, /* Enable data output , */\
+ { 0x4c3, "I2SSR"}, /* sample rate setting , */\
+ { 0x732, "DCMCC"}, /* Max boost coil current - step of 500 mA , */\
+ { 0x9c0, "CCFD"}, /* Selection CoolFlux Clock , */\
+ { 0x9d0, "ISEL"}, /* selection input 1 or 2 , */\
+ { 0xa02, "DOLS"}, /* Output selection dataout left channel , */\
+ { 0xa32, "DORS"}, /* Output selection dataout right channel , */\
+ { 0xa62, "SPKL"}, /* Selection speaker induction , */\
+ { 0xa91, "SPKR"}, /* Selection speaker impedance , */\
+ { 0xab3, "DCFG"}, /* DCDC speaker current compensation gain , */\
+ { 0xf00, "VDDD"}, /* mask flag_por for interupt generation , */\
+ { 0xf10, "OTDD"}, /* mask flag_otpok for interupt generation , */\
+ { 0xf20, "OVDD"}, /* mask flag_ovpok for interupt generation , */\
+ { 0xf30, "UVDD"}, /* mask flag_uvpok for interupt generation , */\
+ { 0xf40, "OCDD"}, /* mask flag_ocp_alarm for interupt generation , */\
+ { 0xf50, "CLKD"}, /* mask flag_clocks_stable for interupt generation , */\
+ { 0xf60, "DCCD"}, /* mask flag_pwrokbst for interupt generation , */\
+ { 0xf70, "SPKD"}, /* mask flag_cf_speakererror for interupt generation , */\
+ { 0xf80, "WDD"}, /* mask flag_watchdog_reset for interupt generation , */\
+ { 0xf90, "LCLK"}, /* mask flag_lost_clk for interupt generation , */\
+ { 0xfe0, "INT"}, /* enabling interrupt , */\
+ { 0xff0, "INTP"}, /* Setting polarity interupt , */\
+ { 0x8f0f, "VERSION"}, /* (key1 protected) , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9890_BITNAMETABLE static tfaBfName_t Tfa9890BitNames[]= {\
+ { 0x402, "i2s_seti"}, /* I2SFormat data 1 input: , */\
+ { 0x431, "chan_sel1"}, /* ChannelSelection data1 input (In CoolFlux) , */\
+ { 0x450, "lr_sw_i2si2"}, /* ChannelSelection data 2 input (coolflux input, the DCDC converter gets the other signal), */\
+ { 0x461, "input_sel"}, /* Input selection for amplifier , */\
+ { 0x481, "datao_sel"}, /* selection data out , */\
+ { 0x4a0, "disable_idp"}, /* idp protection , */\
+ { 0x4b0, "enbl_datao"}, /* Enable data output , */\
+ { 0x4c3, "i2s_fs"}, /* sample rate setting , */\
+ { 0x732, "ctrl_bstcur"}, /* Max boost coil current - step of 500 mA , */\
+ { 0x9c0, "sel_cf_clk"}, /* Selection CoolFlux Clock , */\
+ { 0x9d0, "intf_sel"}, /* selection input 1 or 2 , */\
+ { 0xa02, "sel_i2so_l"}, /* Output selection dataout left channel , */\
+ { 0xa32, "sel_i2so_r"}, /* Output selection dataout right channel , */\
+ { 0xa62, "ctrl_spkr_coil"}, /* Selection speaker induction , */\
+ { 0xa91, "ctrl_spr_res"}, /* Selection speaker impedance , */\
+ { 0xab3, "ctrl_dcdc_spkr_i_comp_gain"}, /* DCDC speaker current compensation gain , */\
+ { 0xaf0, "ctrl_dcdc_spkr_i_comp_sign"}, /* DCDC speaker current compensation sign , */\
+ { 0xf00, "flag_por_mask"}, /* mask flag_por for interupt generation , */\
+ { 0xf10, "flag_otpok_mask"}, /* mask flag_otpok for interupt generation , */\
+ { 0xf20, "flag_ovpok_mask"}, /* mask flag_ovpok for interupt generation , */\
+ { 0xf30, "flag_uvpok_mask"}, /* mask flag_uvpok for interupt generation , */\
+ { 0xf40, "flag_ocp_alarm_mask"}, /* mask flag_ocp_alarm for interupt generation , */\
+ { 0xf50, "flag_clocks_stable_mask"}, /* mask flag_clocks_stable for interupt generation , */\
+ { 0xf60, "flag_pwrokbst_mask"}, /* mask flag_pwrokbst for interupt generation , */\
+ { 0xf70, "flag_cf_speakererror_mask"}, /* mask flag_cf_speakererror for interupt generation , */\
+ { 0xf80, "flag_watchdog_reset_mask"}, /* mask flag_watchdog_reset for interupt generation , */\
+ { 0xf90, "flag_lost_clk_mask"}, /* mask flag_lost_clk for interupt generation , */\
+ { 0xfe0, "enable_interrupt"}, /* enabling interrupt , */\
+ { 0xff0, "invert_int_polarity"}, /* Setting polarity interupt , */\
+ { 0x4700, "switch_fb"}, /* switch_fb , */\
+ { 0x4713, "se_hyst"}, /* se_hyst , */\
+ { 0x4754, "se_level"}, /* se_level , */\
+ { 0x47a5, "ktemp"}, /* temperature compensation trimming , */\
+ { 0x8f0f, "production_data6"}, /* (key1 protected) , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
diff --git a/inc/tfa9891_genregs.h b/inc/tfa9891_genregs.h
new file mode 100644
index 0000000..8071895
--- /dev/null
+++ b/inc/tfa9891_genregs.h
@@ -0,0 +1,1129 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFA9891_GENREGS_H
+#define TFA9891_GENREGS_H
+
+
+#define TFA98XX_STATUSREG 0x00
+#define TFA98XX_BATTERYVOLTAGE 0x01
+#define TFA9891_TEMPERATURE 0x02
+#define TFA98XX_REVISIONNUMBER 0x03
+#define TFA98XX_I2SREG 0x04
+#define TFA98XX_BAT_PROT 0x05
+#define TFA98XX_AUDIO_CTR 0x06
+#define TFA98XX_DCDCBOOST 0x07
+#define TFA98XX_SPKR_CALIBRATION 0x08
+#define TFA98XX_SYS_CTRL 0x09
+#define TFA98XX_I2S_SEL_REG 0x0a
+#define TFA98XX_HIDDEN_MTP_KEY2 0x0b
+#define TFA98XX_INTERRUPT_REG 0x0f
+#define TFA98XX_PDM_CTRL 0x10
+#define TFA98XX_PDM_OUT_CTRL 0x11
+#define TFA98XX_PDM_DS4_R 0x12
+#define TFA98XX_PDM_DS4_L 0x13
+#define TFA98XX_CTRL_SAAM_PGA 0x22
+#define TFA98XX_MISC_CTRL 0x25
+#define TFA98XX_CURRENTSENSE1 0x46
+#define TFA98XX_CURRENTSENSE4 0x49
+#define TFA98XX_HIDDEN_MTP_CTRL_REG3 0x62
+#define TFA9891_CF_CONTROLS 0x70
+#define TFA9891_CF_MAD 0x71
+#define TFA9891_CF_MEM 0x72
+#define TFA9891_CF_STATUS 0x73
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP 0x80
+
+/*
+ * (0x00)-StatusReg
+ */
+
+/*
+ * POR
+ */
+#define TFA98XX_STATUSREG_VDDS (0x1<<0)
+#define TFA98XX_STATUSREG_VDDS_POS 0
+#define TFA98XX_STATUSREG_VDDS_LEN 1
+#define TFA98XX_STATUSREG_VDDS_MAX 1
+#define TFA98XX_STATUSREG_VDDS_MSK 0x1
+
+/*
+ * PLL_LOCK
+ */
+#define TFA98XX_STATUSREG_PLLS (0x1<<1)
+#define TFA98XX_STATUSREG_PLLS_POS 1
+#define TFA98XX_STATUSREG_PLLS_LEN 1
+#define TFA98XX_STATUSREG_PLLS_MAX 1
+#define TFA98XX_STATUSREG_PLLS_MSK 0x2
+
+/*
+ * flag_otpok
+ */
+#define TFA98XX_STATUSREG_OTDS (0x1<<2)
+#define TFA98XX_STATUSREG_OTDS_POS 2
+#define TFA98XX_STATUSREG_OTDS_LEN 1
+#define TFA98XX_STATUSREG_OTDS_MAX 1
+#define TFA98XX_STATUSREG_OTDS_MSK 0x4
+
+/*
+ * flag_ovpok
+ */
+#define TFA98XX_STATUSREG_OVDS (0x1<<3)
+#define TFA98XX_STATUSREG_OVDS_POS 3
+#define TFA98XX_STATUSREG_OVDS_LEN 1
+#define TFA98XX_STATUSREG_OVDS_MAX 1
+#define TFA98XX_STATUSREG_OVDS_MSK 0x8
+
+/*
+ * flag_uvpok
+ */
+#define TFA98XX_STATUSREG_UVDS (0x1<<4)
+#define TFA98XX_STATUSREG_UVDS_POS 4
+#define TFA98XX_STATUSREG_UVDS_LEN 1
+#define TFA98XX_STATUSREG_UVDS_MAX 1
+#define TFA98XX_STATUSREG_UVDS_MSK 0x10
+
+/*
+ * flag_OCP_alarm
+ */
+#define TFA98XX_STATUSREG_OCDS (0x1<<5)
+#define TFA98XX_STATUSREG_OCDS_POS 5
+#define TFA98XX_STATUSREG_OCDS_LEN 1
+#define TFA98XX_STATUSREG_OCDS_MAX 1
+#define TFA98XX_STATUSREG_OCDS_MSK 0x20
+
+/*
+ * flag_clocks_stable
+ */
+#define TFA98XX_STATUSREG_CLKS (0x1<<6)
+#define TFA98XX_STATUSREG_CLKS_POS 6
+#define TFA98XX_STATUSREG_CLKS_LEN 1
+#define TFA98XX_STATUSREG_CLKS_MAX 1
+#define TFA98XX_STATUSREG_CLKS_MSK 0x40
+
+/*
+ * CLIP
+ */
+#define TFA98XX_STATUSREG_CLIPS (0x1<<7)
+#define TFA98XX_STATUSREG_CLIPS_POS 7
+#define TFA98XX_STATUSREG_CLIPS_LEN 1
+#define TFA98XX_STATUSREG_CLIPS_MAX 1
+#define TFA98XX_STATUSREG_CLIPS_MSK 0x80
+
+/*
+ * mtp_busy
+ */
+#define TFA98XX_STATUSREG_MTPB (0x1<<8)
+#define TFA98XX_STATUSREG_MTPB_POS 8
+#define TFA98XX_STATUSREG_MTPB_LEN 1
+#define TFA98XX_STATUSREG_MTPB_MAX 1
+#define TFA98XX_STATUSREG_MTPB_MSK 0x100
+
+/*
+ * flag_pwrokbst
+ */
+#define TFA98XX_STATUSREG_DCCS (0x1<<9)
+#define TFA98XX_STATUSREG_DCCS_POS 9
+#define TFA98XX_STATUSREG_DCCS_LEN 1
+#define TFA98XX_STATUSREG_DCCS_MAX 1
+#define TFA98XX_STATUSREG_DCCS_MSK 0x200
+
+/*
+ * flag_cf_speakererror
+ */
+#define TFA98XX_STATUSREG_SPKS (0x1<<10)
+#define TFA98XX_STATUSREG_SPKS_POS 10
+#define TFA98XX_STATUSREG_SPKS_LEN 1
+#define TFA98XX_STATUSREG_SPKS_MAX 1
+#define TFA98XX_STATUSREG_SPKS_MSK 0x400
+
+/*
+ * flag_cold_started
+ */
+#define TFA98XX_STATUSREG_ACS (0x1<<11)
+#define TFA98XX_STATUSREG_ACS_POS 11
+#define TFA98XX_STATUSREG_ACS_LEN 1
+#define TFA98XX_STATUSREG_ACS_MAX 1
+#define TFA98XX_STATUSREG_ACS_MSK 0x800
+
+/*
+ * flag_engage
+ */
+#define TFA98XX_STATUSREG_SWS (0x1<<12)
+#define TFA98XX_STATUSREG_SWS_POS 12
+#define TFA98XX_STATUSREG_SWS_LEN 1
+#define TFA98XX_STATUSREG_SWS_MAX 1
+#define TFA98XX_STATUSREG_SWS_MSK 0x1000
+
+/*
+ * flag_watchdog_reset
+ */
+#define TFA98XX_STATUSREG_WDS (0x1<<13)
+#define TFA98XX_STATUSREG_WDS_POS 13
+#define TFA98XX_STATUSREG_WDS_LEN 1
+#define TFA98XX_STATUSREG_WDS_MAX 1
+#define TFA98XX_STATUSREG_WDS_MSK 0x2000
+
+/*
+ * flag_enbl_amp
+ */
+#define TFA98XX_STATUSREG_AMPS (0x1<<14)
+#define TFA98XX_STATUSREG_AMPS_POS 14
+#define TFA98XX_STATUSREG_AMPS_LEN 1
+#define TFA98XX_STATUSREG_AMPS_MAX 1
+#define TFA98XX_STATUSREG_AMPS_MSK 0x4000
+
+/*
+ * flag_enbl_ref
+ */
+#define TFA98XX_STATUSREG_AREFS (0x1<<15)
+#define TFA98XX_STATUSREG_AREFS_POS 15
+#define TFA98XX_STATUSREG_AREFS_LEN 1
+#define TFA98XX_STATUSREG_AREFS_MAX 1
+#define TFA98XX_STATUSREG_AREFS_MSK 0x8000
+
+/*
+ * (0x01)-BatteryVoltage
+ */
+
+/*
+ * bat_adc
+ */
+#define TFA98XX_BATTERYVOLTAGE_BATS (0x3ff<<0)
+#define TFA98XX_BATTERYVOLTAGE_BATS_POS 0
+#define TFA98XX_BATTERYVOLTAGE_BATS_LEN 10
+#define TFA98XX_BATTERYVOLTAGE_BATS_MAX 1023
+#define TFA98XX_BATTERYVOLTAGE_BATS_MSK 0x3ff
+
+
+/*
+ * (0x02)-Temperature
+ */
+
+/*
+ * temp_adc
+ */
+#define TFA9891_TEMPERATURE_TEMPS (0x1ff<<0)
+#define TFA9891_TEMPERATURE_TEMPS_POS 0
+#define TFA9891_TEMPERATURE_TEMPS_LEN 9
+#define TFA9891_TEMPERATURE_TEMPS_MAX 511
+#define TFA9891_TEMPERATURE_TEMPS_MSK 0x1ff
+
+
+/*
+ * (0x03)-RevisionNumber
+ */
+
+/*
+ * rev_reg
+ */
+#define TFA98XX_REVISIONNUMBER_REV (0xff<<0)
+#define TFA98XX_REVISIONNUMBER_REV_POS 0
+#define TFA98XX_REVISIONNUMBER_REV_LEN 8
+#define TFA98XX_REVISIONNUMBER_REV_MAX 255
+#define TFA98XX_REVISIONNUMBER_REV_MSK 0xff
+
+
+/*
+ * (0x04)-I2SReg
+ */
+
+/*
+ * i2s_seti
+ */
+#define TFA98XX_I2SREG_I2SF (0x7<<0)
+#define TFA98XX_I2SREG_I2SF_POS 0
+#define TFA98XX_I2SREG_I2SF_LEN 3
+#define TFA98XX_I2SREG_I2SF_MAX 7
+#define TFA98XX_I2SREG_I2SF_MSK 0x7
+
+/*
+ * chan_sel1
+ */
+#define TFA98XX_I2SREG_CHS12 (0x3<<3)
+#define TFA98XX_I2SREG_CHS12_POS 3
+#define TFA98XX_I2SREG_CHS12_LEN 2
+#define TFA98XX_I2SREG_CHS12_MAX 3
+#define TFA98XX_I2SREG_CHS12_MSK 0x18
+
+/*
+ * lr_sw_i2si2
+ */
+#define TFA98XX_I2SREG_CHS3 (0x1<<5)
+#define TFA98XX_I2SREG_CHS3_POS 5
+#define TFA98XX_I2SREG_CHS3_LEN 1
+#define TFA98XX_I2SREG_CHS3_MAX 1
+#define TFA98XX_I2SREG_CHS3_MSK 0x20
+
+/*
+ * input_sel
+ */
+#define TFA98XX_I2SREG_CHSA (0x3<<6)
+#define TFA98XX_I2SREG_CHSA_POS 6
+#define TFA98XX_I2SREG_CHSA_LEN 2
+#define TFA98XX_I2SREG_CHSA_MAX 3
+#define TFA98XX_I2SREG_CHSA_MSK 0xc0
+
+/*
+ * datao_sel
+ */
+#define TFA98XX_I2SREG_I2SDOC (0x3<<8)
+#define TFA98XX_I2SREG_I2SDOC_POS 8
+#define TFA98XX_I2SREG_I2SDOC_LEN 2
+#define TFA98XX_I2SREG_I2SDOC_MAX 3
+#define TFA98XX_I2SREG_I2SDOC_MSK 0x300
+
+/*
+ * disable_idp
+ */
+#define TFA98XX_I2SREG_DISP (0x1<<10)
+#define TFA98XX_I2SREG_DISP_POS 10
+#define TFA98XX_I2SREG_DISP_LEN 1
+#define TFA98XX_I2SREG_DISP_MAX 1
+#define TFA98XX_I2SREG_DISP_MSK 0x400
+
+/*
+ * enbl_datao
+ */
+#define TFA98XX_I2SREG_I2SDOE (0x1<<11)
+#define TFA98XX_I2SREG_I2SDOE_POS 11
+#define TFA98XX_I2SREG_I2SDOE_LEN 1
+#define TFA98XX_I2SREG_I2SDOE_MAX 1
+#define TFA98XX_I2SREG_I2SDOE_MSK 0x800
+
+/*
+ * i2s_fs
+ */
+#define TFA98XX_I2SREG_I2SSR (0xf<<12)
+#define TFA98XX_I2SREG_I2SSR_POS 12
+#define TFA98XX_I2SREG_I2SSR_LEN 4
+#define TFA98XX_I2SREG_I2SSR_MAX 15
+#define TFA98XX_I2SREG_I2SSR_MSK 0xf000
+
+
+/*
+ * (0x05)-bat_prot
+ */
+
+/*
+ * vbat_prot_attacktime
+ */
+#define TFA98XX_BAT_PROT_BSSCR (0x3<<0)
+#define TFA98XX_BAT_PROT_BSSCR_POS 0
+#define TFA98XX_BAT_PROT_BSSCR_LEN 2
+#define TFA98XX_BAT_PROT_BSSCR_MAX 3
+#define TFA98XX_BAT_PROT_BSSCR_MSK 0x3
+
+/*
+ * vbat_prot_thlevel
+ */
+#define TFA98XX_BAT_PROT_BSST (0xf<<2)
+#define TFA98XX_BAT_PROT_BSST_POS 2
+#define TFA98XX_BAT_PROT_BSST_LEN 4
+#define TFA98XX_BAT_PROT_BSST_MAX 15
+#define TFA98XX_BAT_PROT_BSST_MSK 0x3c
+
+/*
+ * vbat_prot_max_reduct
+ */
+#define TFA98XX_BAT_PROT_BSSRL (0x3<<6)
+#define TFA98XX_BAT_PROT_BSSRL_POS 6
+#define TFA98XX_BAT_PROT_BSSRL_LEN 2
+#define TFA98XX_BAT_PROT_BSSRL_MAX 3
+#define TFA98XX_BAT_PROT_BSSRL_MSK 0xc0
+
+/*
+ * vbat_prot_release_t
+ */
+#define TFA98XX_BAT_PROT_BSSRR (0x7<<8)
+#define TFA98XX_BAT_PROT_BSSRR_POS 8
+#define TFA98XX_BAT_PROT_BSSRR_LEN 3
+#define TFA98XX_BAT_PROT_BSSRR_MAX 7
+#define TFA98XX_BAT_PROT_BSSRR_MSK 0x700
+
+/*
+ * vbat_prot_hysterese
+ */
+#define TFA98XX_BAT_PROT_BSSHY (0x3<<11)
+#define TFA98XX_BAT_PROT_BSSHY_POS 11
+#define TFA98XX_BAT_PROT_BSSHY_LEN 2
+#define TFA98XX_BAT_PROT_BSSHY_MAX 3
+#define TFA98XX_BAT_PROT_BSSHY_MSK 0x1800
+
+/*
+ * sel_vbat
+ */
+#define TFA98XX_BAT_PROT_BSSR (0x1<<14)
+#define TFA98XX_BAT_PROT_BSSR_POS 14
+#define TFA98XX_BAT_PROT_BSSR_LEN 1
+#define TFA98XX_BAT_PROT_BSSR_MAX 1
+#define TFA98XX_BAT_PROT_BSSR_MSK 0x4000
+
+/*
+ * bypass_clipper
+ */
+#define TFA98XX_BAT_PROT_BSSBY (0x1<<15)
+#define TFA98XX_BAT_PROT_BSSBY_POS 15
+#define TFA98XX_BAT_PROT_BSSBY_LEN 1
+#define TFA98XX_BAT_PROT_BSSBY_MAX 1
+#define TFA98XX_BAT_PROT_BSSBY_MSK 0x8000
+
+
+/*
+ * (0x06)-audio_ctr
+ */
+
+/*
+ * dpsa
+ */
+#define TFA98XX_AUDIO_CTR_DPSA (0x1<<0)
+#define TFA98XX_AUDIO_CTR_DPSA_POS 0
+#define TFA98XX_AUDIO_CTR_DPSA_LEN 1
+#define TFA98XX_AUDIO_CTR_DPSA_MAX 1
+#define TFA98XX_AUDIO_CTR_DPSA_MSK 0x1
+
+/*
+ * ctrl_slope
+ */
+#define TFA98XX_AUDIO_CTR_AMPSL (0xf<<1)
+#define TFA98XX_AUDIO_CTR_AMPSL_POS 1
+#define TFA98XX_AUDIO_CTR_AMPSL_LEN 4
+#define TFA98XX_AUDIO_CTR_AMPSL_MAX 15
+#define TFA98XX_AUDIO_CTR_AMPSL_MSK 0x1e
+
+/*
+ * cf_mute
+ */
+#define TFA98XX_AUDIO_CTR_CFSM (0x1<<5)
+#define TFA98XX_AUDIO_CTR_CFSM_POS 5
+#define TFA98XX_AUDIO_CTR_CFSM_LEN 1
+#define TFA98XX_AUDIO_CTR_CFSM_MAX 1
+#define TFA98XX_AUDIO_CTR_CFSM_MSK 0x20
+
+/*
+ * ctrl_batsensesteepness
+ */
+#define TFA98XX_AUDIO_CTR_BSSS (0x1<<7)
+#define TFA98XX_AUDIO_CTR_BSSS_POS 7
+#define TFA98XX_AUDIO_CTR_BSSS_LEN 1
+#define TFA98XX_AUDIO_CTR_BSSS_MAX 1
+#define TFA98XX_AUDIO_CTR_BSSS_MSK 0x80
+
+/*
+ * vol
+ */
+#define TFA98XX_AUDIO_CTR_VOL (0xff<<8)
+#define TFA98XX_AUDIO_CTR_VOL_POS 8
+#define TFA98XX_AUDIO_CTR_VOL_LEN 8
+#define TFA98XX_AUDIO_CTR_VOL_MAX 255
+#define TFA98XX_AUDIO_CTR_VOL_MSK 0xff00
+
+
+/*
+ * (0x07)-DCDCboost
+ */
+
+/*
+ * ctrl_bstvolt
+ */
+#define TFA98XX_DCDCBOOST_DCVO (0x7<<0)
+#define TFA98XX_DCDCBOOST_DCVO_POS 0
+#define TFA98XX_DCDCBOOST_DCVO_LEN 3
+#define TFA98XX_DCDCBOOST_DCVO_MAX 7
+#define TFA98XX_DCDCBOOST_DCVO_MSK 0x7
+
+/*
+ * ctrl_bstcur
+ */
+#define TFA98XX_DCDCBOOST_DCMCC (0x7<<3)
+#define TFA98XX_DCDCBOOST_DCMCC_POS 3
+#define TFA98XX_DCDCBOOST_DCMCC_LEN 3
+#define TFA98XX_DCDCBOOST_DCMCC_MAX 7
+#define TFA98XX_DCDCBOOST_DCMCC_MSK 0x38
+
+/*
+ * boost_intel
+ */
+#define TFA98XX_DCDCBOOST_DCIE (0x1<<10)
+#define TFA98XX_DCDCBOOST_DCIE_POS 10
+#define TFA98XX_DCDCBOOST_DCIE_LEN 1
+#define TFA98XX_DCDCBOOST_DCIE_MAX 1
+#define TFA98XX_DCDCBOOST_DCIE_MSK 0x400
+
+/*
+ * boost_speed
+ */
+#define TFA98XX_DCDCBOOST_DCSR (0x1<<11)
+#define TFA98XX_DCDCBOOST_DCSR_POS 11
+#define TFA98XX_DCDCBOOST_DCSR_LEN 1
+#define TFA98XX_DCDCBOOST_DCSR_MAX 1
+#define TFA98XX_DCDCBOOST_DCSR_MSK 0x800
+
+
+/*
+ * (0x08)-spkr_calibration
+ */
+
+/*
+ * ext_temp_sel
+ */
+#define TFA98XX_SPKR_CALIBRATION_TROS (0x1<<0)
+#define TFA98XX_SPKR_CALIBRATION_TROS_POS 0
+#define TFA98XX_SPKR_CALIBRATION_TROS_LEN 1
+#define TFA98XX_SPKR_CALIBRATION_TROS_MAX 1
+#define TFA98XX_SPKR_CALIBRATION_TROS_MSK 0x1
+
+/*
+ * ext_temp
+ */
+#define TFA98XX_SPKR_CALIBRATION_EXTTS (0x1ff<<1)
+#define TFA98XX_SPKR_CALIBRATION_EXTTS_POS 1
+#define TFA98XX_SPKR_CALIBRATION_EXTTS_LEN 9
+#define TFA98XX_SPKR_CALIBRATION_EXTTS_MAX 511
+#define TFA98XX_SPKR_CALIBRATION_EXTTS_MSK 0x3fe
+
+
+/*
+ * (0x09)-sys_ctrl
+ */
+
+/*
+ * PowerDown
+ */
+#define TFA98XX_SYS_CTRL_PWDN (0x1<<0)
+#define TFA98XX_SYS_CTRL_PWDN_POS 0
+#define TFA98XX_SYS_CTRL_PWDN_LEN 1
+#define TFA98XX_SYS_CTRL_PWDN_MAX 1
+#define TFA98XX_SYS_CTRL_PWDN_MSK 0x1
+
+/*
+ * reset
+ */
+#define TFA98XX_SYS_CTRL_I2CR (0x1<<1)
+#define TFA98XX_SYS_CTRL_I2CR_POS 1
+#define TFA98XX_SYS_CTRL_I2CR_LEN 1
+#define TFA98XX_SYS_CTRL_I2CR_MAX 1
+#define TFA98XX_SYS_CTRL_I2CR_MSK 0x2
+
+/*
+ * enbl_coolflux
+ */
+#define TFA98XX_SYS_CTRL_CFE (0x1<<2)
+#define TFA98XX_SYS_CTRL_CFE_POS 2
+#define TFA98XX_SYS_CTRL_CFE_LEN 1
+#define TFA98XX_SYS_CTRL_CFE_MAX 1
+#define TFA98XX_SYS_CTRL_CFE_MSK 0x4
+
+/*
+ * enbl_amplifier
+ */
+#define TFA98XX_SYS_CTRL_AMPE (0x1<<3)
+#define TFA98XX_SYS_CTRL_AMPE_POS 3
+#define TFA98XX_SYS_CTRL_AMPE_LEN 1
+#define TFA98XX_SYS_CTRL_AMPE_MAX 1
+#define TFA98XX_SYS_CTRL_AMPE_MSK 0x8
+
+/*
+ * enbl_boost
+ */
+#define TFA98XX_SYS_CTRL_DCA (0x1<<4)
+#define TFA98XX_SYS_CTRL_DCA_POS 4
+#define TFA98XX_SYS_CTRL_DCA_LEN 1
+#define TFA98XX_SYS_CTRL_DCA_MAX 1
+#define TFA98XX_SYS_CTRL_DCA_MSK 0x10
+
+/*
+ * cf_configured
+ */
+#define TFA98XX_SYS_CTRL_SBSL (0x1<<5)
+#define TFA98XX_SYS_CTRL_SBSL_POS 5
+#define TFA98XX_SYS_CTRL_SBSL_LEN 1
+#define TFA98XX_SYS_CTRL_SBSL_MAX 1
+#define TFA98XX_SYS_CTRL_SBSL_MSK 0x20
+
+/*
+ * sel_enbl_amplifier
+ */
+#define TFA98XX_SYS_CTRL_AMPC (0x1<<6)
+#define TFA98XX_SYS_CTRL_AMPC_POS 6
+#define TFA98XX_SYS_CTRL_AMPC_LEN 1
+#define TFA98XX_SYS_CTRL_AMPC_MAX 1
+#define TFA98XX_SYS_CTRL_AMPC_MSK 0x40
+
+/*
+ * dcdcoff_mode
+ */
+#define TFA98XX_SYS_CTRL_DCDIS (0x1<<7)
+#define TFA98XX_SYS_CTRL_DCDIS_POS 7
+#define TFA98XX_SYS_CTRL_DCDIS_LEN 1
+#define TFA98XX_SYS_CTRL_DCDIS_MAX 1
+#define TFA98XX_SYS_CTRL_DCDIS_MSK 0x80
+
+/*
+ * cttr_iddqtest
+ */
+#define TFA98XX_SYS_CTRL_PSDR (0x1<<8)
+#define TFA98XX_SYS_CTRL_PSDR_POS 8
+#define TFA98XX_SYS_CTRL_PSDR_LEN 1
+#define TFA98XX_SYS_CTRL_PSDR_MAX 1
+#define TFA98XX_SYS_CTRL_PSDR_MSK 0x100
+
+/*
+ * ctrl_coil_value
+ */
+#define TFA98XX_SYS_CTRL_DCCV (0x3<<9)
+#define TFA98XX_SYS_CTRL_DCCV_POS 9
+#define TFA98XX_SYS_CTRL_DCCV_LEN 2
+#define TFA98XX_SYS_CTRL_DCCV_MAX 3
+#define TFA98XX_SYS_CTRL_DCCV_MSK 0x600
+
+/*
+ * ctrl_sel_cf_clock
+ */
+#define TFA98XX_SYS_CTRL_CCFD (0x3<<11)
+#define TFA98XX_SYS_CTRL_CCFD_POS 11
+#define TFA98XX_SYS_CTRL_CCFD_LEN 2
+#define TFA98XX_SYS_CTRL_CCFD_MAX 3
+#define TFA98XX_SYS_CTRL_CCFD_MSK 0x1800
+
+/*
+ * intf_sel
+ */
+#define TFA98XX_SYS_CTRL_ISEL (0x1<<13)
+#define TFA98XX_SYS_CTRL_ISEL_POS 13
+#define TFA98XX_SYS_CTRL_ISEL_LEN 1
+#define TFA98XX_SYS_CTRL_ISEL_MAX 1
+#define TFA98XX_SYS_CTRL_ISEL_MSK 0x2000
+
+/*
+ * sel_ws_bck
+ */
+#define TFA98XX_SYS_CTRL_IPLL (0x1<<14)
+#define TFA98XX_SYS_CTRL_IPLL_POS 14
+#define TFA98XX_SYS_CTRL_IPLL_LEN 1
+#define TFA98XX_SYS_CTRL_IPLL_MAX 1
+#define TFA98XX_SYS_CTRL_IPLL_MSK 0x4000
+
+
+/*
+ * (0x0a)-I2S_sel_reg
+ */
+
+/*
+ * sel_i2so_l
+ */
+#define TFA98XX_I2S_SEL_REG_DOLS (0x7<<0)
+#define TFA98XX_I2S_SEL_REG_DOLS_POS 0
+#define TFA98XX_I2S_SEL_REG_DOLS_LEN 3
+#define TFA98XX_I2S_SEL_REG_DOLS_MAX 7
+#define TFA98XX_I2S_SEL_REG_DOLS_MSK 0x7
+
+/*
+ * sel_i2so_r
+ */
+#define TFA98XX_I2S_SEL_REG_DORS (0x7<<3)
+#define TFA98XX_I2S_SEL_REG_DORS_POS 3
+#define TFA98XX_I2S_SEL_REG_DORS_LEN 3
+#define TFA98XX_I2S_SEL_REG_DORS_MAX 7
+#define TFA98XX_I2S_SEL_REG_DORS_MSK 0x38
+
+/*
+ * ctrl_spkr_coil
+ */
+#define TFA98XX_I2S_SEL_REG_SPKL (0x7<<6)
+#define TFA98XX_I2S_SEL_REG_SPKL_POS 6
+#define TFA98XX_I2S_SEL_REG_SPKL_LEN 3
+#define TFA98XX_I2S_SEL_REG_SPKL_MAX 7
+#define TFA98XX_I2S_SEL_REG_SPKL_MSK 0x1c0
+
+/*
+ * ctrl_spr_res
+ */
+#define TFA98XX_I2S_SEL_REG_SPKR (0x3<<9)
+#define TFA98XX_I2S_SEL_REG_SPKR_POS 9
+#define TFA98XX_I2S_SEL_REG_SPKR_LEN 2
+#define TFA98XX_I2S_SEL_REG_SPKR_MAX 3
+#define TFA98XX_I2S_SEL_REG_SPKR_MSK 0x600
+
+/*
+ * ctrl_dcdc_spkr_i_comp_gain
+ */
+#define TFA98XX_I2S_SEL_REG_DCFG (0xf<<11)
+#define TFA98XX_I2S_SEL_REG_DCFG_POS 11
+#define TFA98XX_I2S_SEL_REG_DCFG_LEN 4
+#define TFA98XX_I2S_SEL_REG_DCFG_MAX 15
+#define TFA98XX_I2S_SEL_REG_DCFG_MSK 0x7800
+
+
+/*
+ * (0x0b)-Hidden_mtp_key2
+ */
+
+/*
+ * MTP_key2
+ */
+#define TFA98XX_HIDDEN_MTP_KEY2_MTPK (0xff<<0)
+#define TFA98XX_HIDDEN_MTP_KEY2_MTPK_POS 0
+#define TFA98XX_HIDDEN_MTP_KEY2_MTPK_LEN 8
+#define TFA98XX_HIDDEN_MTP_KEY2_MTPK_MAX 255
+#define TFA98XX_HIDDEN_MTP_KEY2_MTPK_MSK 0xff
+
+
+/*
+ * (0x0f)-interrupt_reg
+ */
+
+/*
+ * flag_por_mask
+ */
+#define TFA98XX_INTERRUPT_REG_VDDD (0x1<<0)
+#define TFA98XX_INTERRUPT_REG_VDDD_POS 0
+#define TFA98XX_INTERRUPT_REG_VDDD_LEN 1
+#define TFA98XX_INTERRUPT_REG_VDDD_MAX 1
+#define TFA98XX_INTERRUPT_REG_VDDD_MSK 0x1
+
+/*
+ * flag_otpok_mask
+ */
+#define TFA98XX_INTERRUPT_REG_OTDD (0x1<<1)
+#define TFA98XX_INTERRUPT_REG_OTDD_POS 1
+#define TFA98XX_INTERRUPT_REG_OTDD_LEN 1
+#define TFA98XX_INTERRUPT_REG_OTDD_MAX 1
+#define TFA98XX_INTERRUPT_REG_OTDD_MSK 0x2
+
+/*
+ * flag_ovpok_mask
+ */
+#define TFA98XX_INTERRUPT_REG_OVDD (0x1<<2)
+#define TFA98XX_INTERRUPT_REG_OVDD_POS 2
+#define TFA98XX_INTERRUPT_REG_OVDD_LEN 1
+#define TFA98XX_INTERRUPT_REG_OVDD_MAX 1
+#define TFA98XX_INTERRUPT_REG_OVDD_MSK 0x4
+
+/*
+ * flag_uvpok_mask
+ */
+#define TFA98XX_INTERRUPT_REG_UVDD (0x1<<3)
+#define TFA98XX_INTERRUPT_REG_UVDD_POS 3
+#define TFA98XX_INTERRUPT_REG_UVDD_LEN 1
+#define TFA98XX_INTERRUPT_REG_UVDD_MAX 1
+#define TFA98XX_INTERRUPT_REG_UVDD_MSK 0x8
+
+/*
+ * flag_ocp_alarm_mask
+ */
+#define TFA98XX_INTERRUPT_REG_OCDD (0x1<<4)
+#define TFA98XX_INTERRUPT_REG_OCDD_POS 4
+#define TFA98XX_INTERRUPT_REG_OCDD_LEN 1
+#define TFA98XX_INTERRUPT_REG_OCDD_MAX 1
+#define TFA98XX_INTERRUPT_REG_OCDD_MSK 0x10
+
+/*
+ * flag_clocks_stable_mask
+ */
+#define TFA98XX_INTERRUPT_REG_CLKD (0x1<<5)
+#define TFA98XX_INTERRUPT_REG_CLKD_POS 5
+#define TFA98XX_INTERRUPT_REG_CLKD_LEN 1
+#define TFA98XX_INTERRUPT_REG_CLKD_MAX 1
+#define TFA98XX_INTERRUPT_REG_CLKD_MSK 0x20
+
+/*
+ * flag_pwrokbst_mask
+ */
+#define TFA98XX_INTERRUPT_REG_DCCD (0x1<<6)
+#define TFA98XX_INTERRUPT_REG_DCCD_POS 6
+#define TFA98XX_INTERRUPT_REG_DCCD_LEN 1
+#define TFA98XX_INTERRUPT_REG_DCCD_MAX 1
+#define TFA98XX_INTERRUPT_REG_DCCD_MSK 0x40
+
+/*
+ * flag_cf_speakererror_mask
+ */
+#define TFA98XX_INTERRUPT_REG_SPKD (0x1<<7)
+#define TFA98XX_INTERRUPT_REG_SPKD_POS 7
+#define TFA98XX_INTERRUPT_REG_SPKD_LEN 1
+#define TFA98XX_INTERRUPT_REG_SPKD_MAX 1
+#define TFA98XX_INTERRUPT_REG_SPKD_MSK 0x80
+
+/*
+ * flag_watchdog_reset_mask
+ */
+#define TFA98XX_INTERRUPT_REG_WDD (0x1<<8)
+#define TFA98XX_INTERRUPT_REG_WDD_POS 8
+#define TFA98XX_INTERRUPT_REG_WDD_LEN 1
+#define TFA98XX_INTERRUPT_REG_WDD_MAX 1
+#define TFA98XX_INTERRUPT_REG_WDD_MSK 0x100
+
+/*
+ * enable_interrupt
+ */
+#define TFA98XX_INTERRUPT_REG_INT (0x1<<14)
+#define TFA98XX_INTERRUPT_REG_INT_POS 14
+#define TFA98XX_INTERRUPT_REG_INT_LEN 1
+#define TFA98XX_INTERRUPT_REG_INT_MAX 1
+#define TFA98XX_INTERRUPT_REG_INT_MSK 0x4000
+
+/*
+ * invert_int_polarity
+ */
+#define TFA98XX_INTERRUPT_REG_INTP (0x1<<15)
+#define TFA98XX_INTERRUPT_REG_INTP_POS 15
+#define TFA98XX_INTERRUPT_REG_INTP_LEN 1
+#define TFA98XX_INTERRUPT_REG_INTP_MAX 1
+#define TFA98XX_INTERRUPT_REG_INTP_MSK 0x8000
+
+
+/*
+ * (0x10)-pdm_ctrl
+ */
+
+/*
+ * pdm_i2s_input
+ */
+#define TFA98XX_PDM_CTRL_PDMSEL (0x1<<0)
+#define TFA98XX_PDM_CTRL_PDMSEL_POS 0
+#define TFA98XX_PDM_CTRL_PDMSEL_LEN 1
+#define TFA98XX_PDM_CTRL_PDMSEL_MAX 1
+#define TFA98XX_PDM_CTRL_PDMSEL_MSK 0x1
+
+/*
+ * I2S_master_ena
+ */
+#define TFA98XX_PDM_CTRL_I2SMOUTEN (0x1<<1)
+#define TFA98XX_PDM_CTRL_I2SMOUTEN_POS 1
+#define TFA98XX_PDM_CTRL_I2SMOUTEN_LEN 1
+#define TFA98XX_PDM_CTRL_I2SMOUTEN_MAX 1
+#define TFA98XX_PDM_CTRL_I2SMOUTEN_MSK 0x2
+
+/*
+ * pdm_out_sel_r
+ */
+#define TFA98XX_PDM_CTRL_PDMORSEL (0x3<<2)
+#define TFA98XX_PDM_CTRL_PDMORSEL_POS 2
+#define TFA98XX_PDM_CTRL_PDMORSEL_LEN 2
+#define TFA98XX_PDM_CTRL_PDMORSEL_MAX 3
+#define TFA98XX_PDM_CTRL_PDMORSEL_MSK 0xc
+
+/*
+ * pdm_out_sel_l
+ */
+#define TFA98XX_PDM_CTRL_PDMOLSEL (0x3<<4)
+#define TFA98XX_PDM_CTRL_PDMOLSEL_POS 4
+#define TFA98XX_PDM_CTRL_PDMOLSEL_LEN 2
+#define TFA98XX_PDM_CTRL_PDMOLSEL_MAX 3
+#define TFA98XX_PDM_CTRL_PDMOLSEL_MSK 0x30
+
+/*
+ * micdat_out_sel
+ */
+#define TFA98XX_PDM_CTRL_PADSEL (0x3<<6)
+#define TFA98XX_PDM_CTRL_PADSEL_POS 6
+#define TFA98XX_PDM_CTRL_PADSEL_LEN 2
+#define TFA98XX_PDM_CTRL_PADSEL_MAX 3
+#define TFA98XX_PDM_CTRL_PADSEL_MSK 0xc0
+
+
+/*
+ * (0x11)-pdm_out_ctrl
+ */
+
+/*
+ * secure_dly
+ */
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDEN (0x1<<0)
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDEN_POS 0
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDEN_LEN 1
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDEN_MAX 1
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDEN_MSK 0x1
+
+/*
+ * d_out_valid_rf_mux
+ */
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDCF (0x1<<1)
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDCF_POS 1
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDCF_LEN 1
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDCF_MAX 1
+#define TFA98XX_PDM_OUT_CTRL_PDMOSDCF_MSK 0x2
+
+/*
+ * Speak_As_Mic_en
+ */
+#define TFA98XX_PDM_OUT_CTRL_SAAMEN (0x1<<4)
+#define TFA98XX_PDM_OUT_CTRL_SAAMEN_POS 4
+#define TFA98XX_PDM_OUT_CTRL_SAAMEN_LEN 1
+#define TFA98XX_PDM_OUT_CTRL_SAAMEN_MAX 1
+#define TFA98XX_PDM_OUT_CTRL_SAAMEN_MSK 0x10
+
+/*
+ * speak_as_mic_lp_mode
+ */
+#define TFA98XX_PDM_OUT_CTRL_SAAMLPEN (0x1<<5)
+#define TFA98XX_PDM_OUT_CTRL_SAAMLPEN_POS 5
+#define TFA98XX_PDM_OUT_CTRL_SAAMLPEN_LEN 1
+#define TFA98XX_PDM_OUT_CTRL_SAAMLPEN_MAX 1
+#define TFA98XX_PDM_OUT_CTRL_SAAMLPEN_MSK 0x20
+
+/*
+ * pdm_out_rate
+ */
+#define TFA98XX_PDM_OUT_CTRL_PDMOINTEN (0x1<<6)
+#define TFA98XX_PDM_OUT_CTRL_PDMOINTEN_POS 6
+#define TFA98XX_PDM_OUT_CTRL_PDMOINTEN_LEN 1
+#define TFA98XX_PDM_OUT_CTRL_PDMOINTEN_MAX 1
+#define TFA98XX_PDM_OUT_CTRL_PDMOINTEN_MSK 0x40
+
+
+/*
+ * (0x12)-pdm_ds4_r
+ */
+
+/*
+ * ds4_g1_r
+ */
+#define TFA98XX_PDM_DS4_R_PDMORG1 (0xf<<0)
+#define TFA98XX_PDM_DS4_R_PDMORG1_POS 0
+#define TFA98XX_PDM_DS4_R_PDMORG1_LEN 4
+#define TFA98XX_PDM_DS4_R_PDMORG1_MAX 15
+#define TFA98XX_PDM_DS4_R_PDMORG1_MSK 0xf
+
+/*
+ * ds4_g2_r
+ */
+#define TFA98XX_PDM_DS4_R_PDMORG2 (0xf<<4)
+#define TFA98XX_PDM_DS4_R_PDMORG2_POS 4
+#define TFA98XX_PDM_DS4_R_PDMORG2_LEN 4
+#define TFA98XX_PDM_DS4_R_PDMORG2_MAX 15
+#define TFA98XX_PDM_DS4_R_PDMORG2_MSK 0xf0
+
+
+/*
+ * (0x13)-pdm_ds4_l
+ */
+
+/*
+ * ds4_g1_l
+ */
+#define TFA98XX_PDM_DS4_L_PDMOLG1 (0xf<<0)
+#define TFA98XX_PDM_DS4_L_PDMOLG1_POS 0
+#define TFA98XX_PDM_DS4_L_PDMOLG1_LEN 4
+#define TFA98XX_PDM_DS4_L_PDMOLG1_MAX 15
+#define TFA98XX_PDM_DS4_L_PDMOLG1_MSK 0xf
+
+/*
+ * ds4_g2_l
+ */
+#define TFA98XX_PDM_DS4_L_PDMOLG2 (0xf<<4)
+#define TFA98XX_PDM_DS4_L_PDMOLG2_POS 4
+#define TFA98XX_PDM_DS4_L_PDMOLG2_LEN 4
+#define TFA98XX_PDM_DS4_L_PDMOLG2_MAX 15
+#define TFA98XX_PDM_DS4_L_PDMOLG2_MSK 0xf0
+
+
+/*
+ * (0x22)-ctrl_saam_pga
+ */
+
+/*
+ * Ctrl_saam_pga_gain
+ */
+#define TFA98XX_CTRL_SAAM_PGA_SAAMGAIN (0x7<<0)
+#define TFA98XX_CTRL_SAAM_PGA_SAAMGAIN_POS 0
+#define TFA98XX_CTRL_SAAM_PGA_SAAMGAIN_LEN 3
+#define TFA98XX_CTRL_SAAM_PGA_SAAMGAIN_MAX 7
+#define TFA98XX_CTRL_SAAM_PGA_SAAMGAIN_MSK 0x7
+
+/*
+ * ctrl_saam_pga_src
+ */
+#define TFA98XX_CTRL_SAAM_PGA_SAAMPGACTRL (0x1<<5)
+#define TFA98XX_CTRL_SAAM_PGA_SAAMPGACTRL_POS 5
+#define TFA98XX_CTRL_SAAM_PGA_SAAMPGACTRL_LEN 1
+#define TFA98XX_CTRL_SAAM_PGA_SAAMPGACTRL_MAX 1
+#define TFA98XX_CTRL_SAAM_PGA_SAAMPGACTRL_MSK 0x20
+
+
+/*
+ * (0x25)-misc_ctrl
+ */
+
+/*
+ * pll_fcco
+ */
+#define TFA98XX_MISC_CTRL_PLLCCOSEL (0x1<<0)
+#define TFA98XX_MISC_CTRL_PLLCCOSEL_POS 0
+#define TFA98XX_MISC_CTRL_PLLCCOSEL_LEN 1
+#define TFA98XX_MISC_CTRL_PLLCCOSEL_MAX 1
+#define TFA98XX_MISC_CTRL_PLLCCOSEL_MSK 0x1
+
+
+/*
+ * (0x46)-CurrentSense1
+ */
+
+/*
+ * bypass_gc
+ */
+#define TFA98XX_CURRENTSENSE1_CSBYPGC (0x1<<0)
+#define TFA98XX_CURRENTSENSE1_CSBYPGC_POS 0
+#define TFA98XX_CURRENTSENSE1_CSBYPGC_LEN 1
+#define TFA98XX_CURRENTSENSE1_CSBYPGC_MAX 1
+#define TFA98XX_CURRENTSENSE1_CSBYPGC_MSK 0x1
+
+
+/*
+ * (0x49)-CurrentSense4
+ */
+
+/*
+ * ctrl_bypassclip
+ */
+#define TFA98XX_CURRENTSENSE4_CLIP (0x1<<0)
+#define TFA98XX_CURRENTSENSE4_CLIP_POS 0
+#define TFA98XX_CURRENTSENSE4_CLIP_LEN 1
+#define TFA98XX_CURRENTSENSE4_CLIP_MAX 1
+#define TFA98XX_CURRENTSENSE4_CLIP_MSK 0x1
+
+/*
+ * ctrl_bypassclip2
+ */
+#define TFA98XX_CURRENTSENSE4_CLIP2 (0x1<<1)
+#define TFA98XX_CURRENTSENSE4_CLIP2_POS 1
+#define TFA98XX_CURRENTSENSE4_CLIP2_LEN 1
+#define TFA98XX_CURRENTSENSE4_CLIP2_MAX 1
+#define TFA98XX_CURRENTSENSE4_CLIP2_MSK 0x2
+
+
+/*
+ * (0x62)-Hidden_mtp_ctrl_reg3
+ */
+
+
+/*
+ * (0x70)-cf_controls
+ */
+
+/*
+ * cf_rst_dsp
+ */
+#define TFA98XX_CF_CONTROLS_RST (0x1<<0)
+#define TFA98XX_CF_CONTROLS_RST_POS 0
+#define TFA98XX_CF_CONTROLS_RST_LEN 1
+#define TFA98XX_CF_CONTROLS_RST_MAX 1
+#define TFA98XX_CF_CONTROLS_RST_MSK 0x1
+
+/*
+ * cf_dmem
+ */
+#define TFA98XX_CF_CONTROLS_DMEM (0x3<<1)
+#define TFA98XX_CF_CONTROLS_DMEM_POS 1
+#define TFA98XX_CF_CONTROLS_DMEM_LEN 2
+#define TFA98XX_CF_CONTROLS_DMEM_MAX 3
+#define TFA98XX_CF_CONTROLS_DMEM_MSK 0x6
+
+/*
+ * cf_aif
+ */
+#define TFA98XX_CF_CONTROLS_AIF (0x1<<3)
+#define TFA98XX_CF_CONTROLS_AIF_POS 3
+#define TFA98XX_CF_CONTROLS_AIF_LEN 1
+#define TFA98XX_CF_CONTROLS_AIF_MAX 1
+#define TFA98XX_CF_CONTROLS_AIF_MSK 0x8
+
+/*
+ * cf_int
+ */
+#define TFA98XX_CF_CONTROLS_CFINT (0x1<<4)
+#define TFA98XX_CF_CONTROLS_CFINT_POS 4
+#define TFA98XX_CF_CONTROLS_CFINT_LEN 1
+#define TFA98XX_CF_CONTROLS_CFINT_MAX 1
+#define TFA98XX_CF_CONTROLS_CFINT_MSK 0x10
+
+/*
+ * cf_req
+ */
+#define TFA98XX_CF_CONTROLS_REQ (0xff<<8)
+#define TFA98XX_CF_CONTROLS_REQ_POS 8
+#define TFA98XX_CF_CONTROLS_REQ_LEN 8
+#define TFA98XX_CF_CONTROLS_REQ_MAX 255
+#define TFA98XX_CF_CONTROLS_REQ_MSK 0xff00
+
+
+/*
+ * (0x71)-cf_mad
+ */
+
+/*
+ * cf_madd
+ */
+#define TFA9891_CF_MAD_MADD (0xffff<<0)
+#define TFA9891_CF_MAD_MADD_POS 0
+#define TFA9891_CF_MAD_MADD_LEN 16
+#define TFA9891_CF_MAD_MADD_MAX 65535
+#define TFA9891_CF_MAD_MADD_MSK 0xffff
+
+
+/*
+ * (0x72)-cf_mem
+ */
+
+/*
+ * cf_mema
+ */
+#define TFA9891_CF_MEM_MEMA (0xffff<<0)
+#define TFA9891_CF_MEM_MEMA_POS 0
+#define TFA9891_CF_MEM_MEMA_LEN 16
+#define TFA9891_CF_MEM_MEMA_MAX 65535
+#define TFA9891_CF_MEM_MEMA_MSK 0xffff
+
+
+/*
+ * (0x73)-cf_status
+ */
+
+/*
+ * cf_err
+ */
+#define TFA9891_CF_STATUS_ERR (0xff<<0)
+#define TFA9891_CF_STATUS_ERR_POS 0
+#define TFA9891_CF_STATUS_ERR_LEN 8
+#define TFA9891_CF_STATUS_ERR_MAX 255
+#define TFA9891_CF_STATUS_ERR_MSK 0xff
+
+/*
+ * cf_ack
+ */
+#define TFA9891_CF_STATUS_ACK (0xff<<8)
+#define TFA9891_CF_STATUS_ACK_POS 8
+#define TFA9891_CF_STATUS_ACK_LEN 8
+#define TFA9891_CF_STATUS_ACK_MAX 255
+#define TFA9891_CF_STATUS_ACK_MSK 0xff00
+
+
+/*
+ * (0x80)-Key2Protected_spkr_cal_mtp
+ */
+
+/*
+ * calibration_onetime
+ */
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPOTC (0x1<<0)
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPOTC_POS 0
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPOTC_LEN 1
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPOTC_MAX 1
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPOTC_MSK 0x1
+
+/*
+ * calibr_ron_done
+ */
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPEX (0x1<<1)
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPEX_POS 1
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPEX_LEN 1
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPEX_MAX 1
+#define TFA98XX_KEY2PROTECTED_SPKR_CAL_MTP_MTPEX_MSK 0x2
+
+#endif /* TFA9891_GENREGS_H */
diff --git a/inc/tfa9891_tfafieldnames.h b/inc/tfa9891_tfafieldnames.h
new file mode 100644
index 0000000..d18683a
--- /dev/null
+++ b/inc/tfa9891_tfafieldnames.h
@@ -0,0 +1,512 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFA_INC_TFA9891_TFAFIELDNAMES_H_
+#define TFA_INC_TFA9891_TFAFIELDNAMES_H_
+
+#define TFA9891_I2CVERSION 13
+
+
+#define TFA9891_NAMETABLE static tfaBfName_t Tfa9891DatasheetNames[]= {\
+ { 0x0, "VDDS"}, /* POR , */\
+ { 0x10, "PLLS"}, /* PLL , */\
+ { 0x20, "OTDS"}, /* OTP , */\
+ { 0x30, "OVDS"}, /* OVP , */\
+ { 0x40, "UVDS"}, /* UVP , */\
+ { 0x50, "OCDS"}, /* OCP , */\
+ { 0x60, "CLKS"}, /* Clocks , */\
+ { 0x70, "CLIPS"}, /* CLIP , */\
+ { 0x80, "MTPB"}, /* MTP , */\
+ { 0x90, "DCCS"}, /* BOOST , */\
+ { 0xa0, "SPKS"}, /* Speaker , */\
+ { 0xb0, "ACS"}, /* cold start flag , */\
+ { 0xc0, "SWS"}, /* flag engage , */\
+ { 0xd0, "WDS"}, /* flag watchdog reset , */\
+ { 0xe0, "AMPS"}, /* amplifier is enabled by manager , */\
+ { 0xf0, "AREFS"}, /* references are enabled by manager , */\
+ { 0x109, "BATS"}, /* Battery voltage readout; 0[V]..5.5[V] , */\
+ { 0x208, "TEMPS"}, /* Temperature readout , */\
+ { 0x307, "REV"}, /* Device Revision , */\
+ { 0x402, "I2SF"}, /* I2SFormat data 1 input , */\
+ { 0x431, "CHS12"}, /* ChannelSelection data1 input (In CoolFlux) , */\
+ { 0x450, "CHS3"}, /* Channel Selection data 2 input (coolflux input, the DCDC converter gets the other signal), */\
+ { 0x461, "CHSA"}, /* Input selection for amplifier , */\
+ { 0x481, "I2SDOC"}, /* Selection for I2S data out , */\
+ { 0x4a0, "DISP"}, /* idp protection , */\
+ { 0x4b0, "I2SDOE"}, /* Enable data output , */\
+ { 0x4c3, "I2SSR"}, /* sample rate setting , */\
+ { 0x501, "BSSCR"}, /* ProtectionAttackTime , */\
+ { 0x523, "BSST"}, /* ProtectionThreshold , */\
+ { 0x561, "BSSRL"}, /* ProtectionMaximumReduction , */\
+ { 0x582, "BSSRR"}, /* Protection Release Timer , */\
+ { 0x5b1, "BSSHY"}, /* ProtectionHysterese , */\
+ { 0x5e0, "BSSR"}, /* battery voltage for I2C read out only , */\
+ { 0x5f0, "BSSBY"}, /* bypass clipper battery protection , */\
+ { 0x600, "DPSA"}, /* Enable dynamic powerstage activation , */\
+ { 0x613, "AMPSL"}, /* control slope , */\
+ { 0x650, "CFSM"}, /* Soft mute in CoolFlux , */\
+ { 0x670, "BSSS"}, /* batsensesteepness , */\
+ { 0x687, "VOL"}, /* volume control (in CoolFlux) , */\
+ { 0x702, "DCVO"}, /* Boost voltage , */\
+ { 0x732, "DCMCC"}, /* Max boost coil current , */\
+ { 0x7a0, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x7b0, "DCSR"}, /* Soft RampUp/Down mode for DCDC controller , */\
+ { 0x800, "TROS"}, /* select external temperature also the ext_temp will be put on the temp read out , */\
+ { 0x818, "EXTTS"}, /* external temperature setting to be given by host , */\
+ { 0x900, "PWDN"}, /* ON/OFF , */\
+ { 0x910, "I2CR"}, /* I2CReset , */\
+ { 0x920, "CFE"}, /* EnableCoolFlux , */\
+ { 0x930, "AMPE"}, /* EnableAmplifier , */\
+ { 0x940, "DCA"}, /* EnableBoost , */\
+ { 0x950, "SBSL"}, /* Coolflux configured , */\
+ { 0x960, "AMPC"}, /* Selection on how AmplifierEnabling , */\
+ { 0x970, "DCDIS"}, /* DCDC not connected , */\
+ { 0x980, "PSDR"}, /* Iddq test amplifier , */\
+ { 0x991, "DCCV"}, /* Coil Value , */\
+ { 0x9b1, "CCFD"}, /* Selection CoolFluxClock , */\
+ { 0x9d0, "ISEL"}, /* Interface Selection , */\
+ { 0x9e0, "IPLL"}, /* selection input PLL for lock , */\
+ { 0xa02, "DOLS"}, /* Output selection dataout left channel , */\
+ { 0xa32, "DORS"}, /* Output selection dataout right channel , */\
+ { 0xa62, "SPKL"}, /* Selection speaker induction , */\
+ { 0xa91, "SPKR"}, /* Selection speaker impedance , */\
+ { 0xab3, "DCFG"}, /* DCDC speaker current compensation gain , */\
+ { 0xb07, "MTPK"}, /* MTP KEY2 register , */\
+ { 0xf00, "VDDD"}, /* mask flag_por for interupt generation , */\
+ { 0xf10, "OTDD"}, /* mask flag_otpok for interupt generation , */\
+ { 0xf20, "OVDD"}, /* mask flag_ovpok for interupt generation , */\
+ { 0xf30, "UVDD"}, /* mask flag_uvpok for interupt generation , */\
+ { 0xf40, "OCDD"}, /* mask flag_ocp_alarm for interupt generation , */\
+ { 0xf50, "CLKD"}, /* mask flag_clocks_stable for interupt generation , */\
+ { 0xf60, "DCCD"}, /* mask flag_pwrokbst for interupt generation , */\
+ { 0xf70, "SPKD"}, /* mask flag_cf_speakererror for interupt generation , */\
+ { 0xf80, "WDD"}, /* mask flag_watchdog_reset for interupt generation , */\
+ { 0xfe0, "INT"}, /* enabling interrupt , */\
+ { 0xff0, "INTP"}, /* Setting polarity interupt , */\
+ { 0x1000, "PDMSEL"}, /* Audio input interface mode , */\
+ { 0x1010, "I2SMOUTEN"}, /* I2S Master enable (CLK and WS pads) , */\
+ { 0x1021, "PDMORSEL"}, /* PDM Output right channel source selection , */\
+ { 0x1041, "PDMOLSEL"}, /* PDM Output Left/Mono channel source selection , */\
+ { 0x1061, "PADSEL"}, /* Output interface mode and ball selection , */\
+ { 0x1100, "PDMOSDEN"}, /* Secure delay Cell , */\
+ { 0x1110, "PDMOSDCF"}, /* Rising Falling Resync control Mux , */\
+ { 0x1140, "SAAMEN"}, /* Speaker As a Mic feature ON/OFF , */\
+ { 0x1150, "SAAMLPEN"}, /* speaker_as_mic low power mode (only in PDM_out mode), */\
+ { 0x1160, "PDMOINTEN"}, /* PDM output interpolation ratio , */\
+ { 0x1203, "PDMORG1"}, /* PDM Interpolator Right Channel DS4 G1 Gain Value , */\
+ { 0x1243, "PDMORG2"}, /* PDM Interpolator Right Channel DS4 G2 Gain Value , */\
+ { 0x1303, "PDMOLG1"}, /* PDM Interpolator Left Channel DS4 G1 Gain Value , */\
+ { 0x1343, "PDMOLG2"}, /* PDM Interpolator Left Channel DS4 G2 Gain Value , */\
+ { 0x2202, "SAAMGAIN"}, /* pga gain , */\
+ { 0x2250, "SAAMPGACTRL"}, /* 0 = active input common mode voltage source at the attenuator/PGA level, */\
+ { 0x2500, "PLLCCOSEL"}, /* pll cco frequency , */\
+ { 0x4600, "CSBYPGC"}, /* bypass_gc, bypasses the CS gain correction , */\
+ { 0x4900, "CLIP"}, /* Bypass clip control (function depending on digimux clip_x), */\
+ { 0x4910, "CLIP2"}, /* Bypass clip control (function depending on digimux clip_x), */\
+ { 0x62b0, "CIMTP"}, /* start copying all the data from i2cregs_mtp to mtp [Key 2 protected], */\
+ { 0x7000, "RST"}, /* Reset CoolFlux DSP , */\
+ { 0x7011, "DMEM"}, /* Target memory for access , */\
+ { 0x7030, "AIF"}, /* Autoincrement-flag for memory-address , */\
+ { 0x7040, "CFINT"}, /* Interrupt CoolFlux DSP , */\
+ { 0x7087, "REQ"}, /* request for access (8 channels) , */\
+ { 0x710f, "MADD"}, /* memory-address to be accessed , */\
+ { 0x720f, "MEMA"}, /* activate memory access (24- or 32-bits data is written/read to/from memory, */\
+ { 0x7307, "ERR"}, /* cf error Flags , */\
+ { 0x7387, "ACK"}, /* acknowledge of requests (8 channels")" , */\
+ { 0x8000, "MTPOTC"}, /* Calibration schedule (key2 protected) , */\
+ { 0x8010, "MTPEX"}, /* (key2 protected) calibration of Ron has been executed, */\
+ { 0x8045, "SWPROFIL" },\
+ { 0x80a5, "SWVSTEP" },\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9891_BITNAMETABLE static tfaBfName_t Tfa9891BitNames[]= {\
+ { 0x0, "POR"}, /* POR , */\
+ { 0x10, "PLL_LOCK"}, /* PLL , */\
+ { 0x20, "flag_otpok"}, /* OTP , */\
+ { 0x30, "flag_ovpok"}, /* OVP , */\
+ { 0x40, "flag_uvpok"}, /* UVP , */\
+ { 0x50, "flag_OCP_alarm"}, /* OCP , */\
+ { 0x60, "flag_clocks_stable"}, /* Clocks , */\
+ { 0x70, "CLIP"}, /* CLIP , */\
+ { 0x80, "mtp_busy"}, /* MTP , */\
+ { 0x90, "flag_pwrokbst"}, /* BOOST , */\
+ { 0xa0, "flag_cf_speakererror"}, /* Speaker , */\
+ { 0xb0, "flag_cold_started"}, /* cold start flag , */\
+ { 0xc0, "flag_engage"}, /* flag engage , */\
+ { 0xd0, "flag_watchdog_reset"}, /* flag watchdog reset , */\
+ { 0xe0, "flag_enbl_amp"}, /* amplifier is enabled by manager , */\
+ { 0xf0, "flag_enbl_ref"}, /* references are enabled by manager , */\
+ { 0x109, "bat_adc"}, /* Battery voltage readout; 0[V]..5.5[V] , */\
+ { 0x208, "temp_adc"}, /* Temperature readout , */\
+ { 0x307, "rev_reg"}, /* Device Revision , */\
+ { 0x402, "i2s_seti"}, /* I2SFormat data 1 input , */\
+ { 0x431, "chan_sel1"}, /* ChannelSelection data1 input (In CoolFlux) , */\
+ { 0x450, "lr_sw_i2si2"}, /* Channel Selection data 2 input (coolflux input, the DCDC converter gets the other signal), */\
+ { 0x461, "input_sel"}, /* Input selection for amplifier , */\
+ { 0x481, "datao_sel"}, /* Selection for I2S data out , */\
+ { 0x4a0, "disable_idp"}, /* idp protection , */\
+ { 0x4b0, "enbl_datao"}, /* Enable data output , */\
+ { 0x4c3, "i2s_fs"}, /* sample rate setting , */\
+ { 0x501, "vbat_prot_attacktime"}, /* ProtectionAttackTime , */\
+ { 0x523, "vbat_prot_thlevel"}, /* ProtectionThreshold , */\
+ { 0x561, "vbat_prot_max_reduct"}, /* ProtectionMaximumReduction , */\
+ { 0x582, "vbat_prot_release_t"}, /* Protection Release Timer , */\
+ { 0x5b1, "vbat_prot_hysterese"}, /* ProtectionHysterese , */\
+ { 0x5d0, "reset_min_vbat"}, /* reset clipper , */\
+ { 0x5e0, "sel_vbat"}, /* battery voltage for I2C read out only , */\
+ { 0x5f0, "bypass_clipper"}, /* bypass clipper battery protection , */\
+ { 0x600, "dpsa"}, /* Enable dynamic powerstage activation , */\
+ { 0x613, "ctrl_slope"}, /* control slope , */\
+ { 0x650, "cf_mute"}, /* Soft mute in CoolFlux , */\
+ { 0x660, "sel_other_vamp"}, /* Input selection for the second channel of the DCDC inteligent mode detector, */\
+ { 0x670, "ctrl_batsensesteepness"}, /* batsensesteepness , */\
+ { 0x687, "vol"}, /* volume control (in CoolFlux) , */\
+ { 0x702, "ctrl_bstvolt"}, /* Boost voltage , */\
+ { 0x732, "ctrl_bstcur"}, /* Max boost coil current , */\
+ { 0x761, "ctrl_slopebst_1_0"}, /* Setting for the slope of the boost converter power stage, */\
+ { 0x781, "ctrl_slopebst_3_2"}, /* Setting for the part of the power transistor voltage to be used in peak current mode control, */\
+ { 0x7a0, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x7b0, "boost_speed"}, /* Soft RampUp/Down mode for DCDC controller , */\
+ { 0x7c1, "ctrl_delay_comp_dcdc"}, /* delay compensation in current patg compared to delay in the audio path (relative) , */\
+ { 0x7e0, "boost_input"}, /* Selection intelligent boost detector input , */\
+ { 0x7f0, "ctrl_supplysense"}, /* ADC10 input selection , */\
+ { 0x800, "ext_temp_sel"}, /* select external temperature also the ext_temp will be put on the temp read out , */\
+ { 0x818, "ext_temp"}, /* external temperature setting to be given by host , */\
+ { 0x8a0, "ctrl_spk_coilpvp_bst"}, /* Peak voltage protection boost converter , */\
+ { 0x8b2, "ctrl_dcdc_synchronisation"}, /* DCDC synchronisation off + 7 positions , */\
+ { 0x8e0, "ctrl_cs_samplevalid"}, /* sample valid moment for CS in single sample moment mode, */\
+ { 0x900, "PowerDown"}, /* ON/OFF , */\
+ { 0x910, "reset"}, /* I2CReset , */\
+ { 0x920, "enbl_coolflux"}, /* EnableCoolFlux , */\
+ { 0x930, "enbl_amplifier"}, /* EnableAmplifier , */\
+ { 0x940, "enbl_boost"}, /* EnableBoost , */\
+ { 0x950, "cf_configured"}, /* Coolflux configured , */\
+ { 0x960, "sel_enbl_amplifier"}, /* Selection on how AmplifierEnabling , */\
+ { 0x970, "dcdcoff_mode"}, /* DCDC not connected , */\
+ { 0x980, "cttr_iddqtest"}, /* Iddq test amplifier , */\
+ { 0x991, "ctrl_coil_value"}, /* Coil Value , */\
+ { 0x9b1, "ctrl_sel_cf_clock"}, /* Selection CoolFluxClock , */\
+ { 0x9d0, "intf_sel"}, /* Interface Selection , */\
+ { 0x9e0, "sel_ws_bck"}, /* selection input PLL for lock , */\
+ { 0xa02, "sel_i2so_l"}, /* Output selection dataout left channel , */\
+ { 0xa32, "sel_i2so_r"}, /* Output selection dataout right channel , */\
+ { 0xa62, "ctrl_spkr_coil"}, /* Selection speaker induction , */\
+ { 0xa91, "ctrl_spr_res"}, /* Selection speaker impedance , */\
+ { 0xab3, "ctrl_dcdc_spkr_i_comp_gain"}, /* DCDC speaker current compensation gain , */\
+ { 0xaf0, "ctrl_dcdc_spkr_i_comp_sign"}, /* DCDC speaker current compensation sign , */\
+ { 0xb07, "MTP_key2"}, /* MTP KEY2 register , */\
+ { 0xc0c, "clk_sync_delay"}, /* Delay count for clock synchronisation , */\
+ { 0xcf0, "enbl_clk_sync"}, /* Enable CGU clock synchronisation , */\
+ { 0xd0c, "adc_sync_delay"}, /* Delay count for ADC synchronisation , */\
+ { 0xdf0, "enable_adc_sync"}, /* Enable ADC synchronisation , */\
+ { 0xe00, "bypass_dcdc_curr_prot"}, /* to switch off dcdc reduction with bat prot , */\
+ { 0xe24, "ctrl_digtoana6_2"}, /* for extra connections digital to analog , */\
+ { 0xe70, "switch_on_icomp"}, /* icomp dem switch , */\
+ { 0xe87, "reserve_reg_1_7_0"}, /* reserved , */\
+ { 0xf00, "flag_por_mask"}, /* mask flag_por for interupt generation , */\
+ { 0xf10, "flag_otpok_mask"}, /* mask flag_otpok for interupt generation , */\
+ { 0xf20, "flag_ovpok_mask"}, /* mask flag_ovpok for interupt generation , */\
+ { 0xf30, "flag_uvpok_mask"}, /* mask flag_uvpok for interupt generation , */\
+ { 0xf40, "flag_ocp_alarm_mask"}, /* mask flag_ocp_alarm for interupt generation , */\
+ { 0xf50, "flag_clocks_stable_mask"}, /* mask flag_clocks_stable for interupt generation , */\
+ { 0xf60, "flag_pwrokbst_mask"}, /* mask flag_pwrokbst for interupt generation , */\
+ { 0xf70, "flag_cf_speakererror_mask"}, /* mask flag_cf_speakererror for interupt generation , */\
+ { 0xf80, "flag_watchdog_reset_mask"}, /* mask flag_watchdog_reset for interupt generation , */\
+ { 0xf90, "flag_lost_clk_mask"}, /* mask flag_lost_clk for interupt generation , */\
+ { 0xfe0, "enable_interrupt"}, /* enabling interrupt , */\
+ { 0xff0, "invert_int_polarity"}, /* Setting polarity interupt , */\
+ { 0x1000, "pdm_i2s_input"}, /* Audio input interface mode , */\
+ { 0x1010, "I2S_master_ena"}, /* I2S Master enable (CLK and WS pads) , */\
+ { 0x1021, "pdm_out_sel_r"}, /* PDM Output right channel source selection , */\
+ { 0x1041, "pdm_out_sel_l"}, /* PDM Output Left/Mono channel source selection , */\
+ { 0x1061, "micdat_out_sel"}, /* Output interface mode and ball selection , */\
+ { 0x1100, "secure_dly"}, /* Secure delay Cell , */\
+ { 0x1110, "d_out_valid_rf_mux"}, /* Rising Falling Resync control Mux , */\
+ { 0x1140, "Speak_As_Mic_en"}, /* Speaker As a Mic feature ON/OFF , */\
+ { 0x1150, "speak_as_mic_lp_mode"}, /* speaker_as_mic low power mode (only in PDM_out mode), */\
+ { 0x1160, "pdm_out_rate"}, /* PDM output interpolation ratio , */\
+ { 0x1203, "ds4_g1_r"}, /* PDM Interpolator Right Channel DS4 G1 Gain Value , */\
+ { 0x1243, "ds4_g2_r"}, /* PDM Interpolator Right Channel DS4 G2 Gain Value , */\
+ { 0x1303, "ds4_g1_l"}, /* PDM Interpolator Left Channel DS4 G1 Gain Value , */\
+ { 0x1343, "ds4_g2_l"}, /* PDM Interpolator Left Channel DS4 G2 Gain Value , */\
+ { 0x1400, "clk_secure_dly"}, /* Secure delay Cell on clock path , */\
+ { 0x1410, "data_secure_dly"}, /* Secure delay Cell enable on PDM data path , */\
+ { 0x2202, "Ctrl_saam_pga_gain"}, /* pga gain , */\
+ { 0x2250, "ctrl_saam_pga_src"}, /* 0 = active input common mode voltage source at the attenuator/PGA level, */\
+ { 0x2300, "flag_saam_spare"}, /* spare flag , */\
+ { 0x2400, "ctrl_saam_pga_tm"}, /* enables PGA test mode , */\
+ { 0x2500, "pll_fcco"}, /* pll cco frequency , */\
+ { 0x3000, "flag_hi_small"}, /* positive small window dcdc converter , */\
+ { 0x3010, "flag_hi_large"}, /* positive large window dcdc converter , */\
+ { 0x3020, "flag_lo_small"}, /* negative small window dcdc converter , */\
+ { 0x3030, "flag_lo_large"}, /* negative large window dcdc converter , */\
+ { 0x3040, "flag_voutcomp"}, /* flag_voutcomp, indication Vset is larger than Vbat, */\
+ { 0x3050, "flag_voutcomp93"}, /* flag_voutcomp93, indication Vset is larger than 1.07* Vbat , */\
+ { 0x3060, "flag_voutcomp86"}, /* flag_voutcomp86, indication Vset is larger than 1.14* Vbat , */\
+ { 0x3070, "flag_hiz"}, /* flag_hiz, indication Vbst is larger than Vbat , */\
+ { 0x3080, "flag_hi_peak"}, /* flag_hi_peak, indication hi_peak , */\
+ { 0x3090, "flag_ocpokbst"}, /* flag_ocpokbst, indication no over current in boost converter pmos switch, */\
+ { 0x30a0, "flag_peakcur"}, /* flag_peakcur, indication current is max in dcdc converter, */\
+ { 0x30b0, "flag_ocpokap"}, /* flag_ocpokap, indication no over current in amplifier "a" pmos output stage, */\
+ { 0x30c0, "flag_ocpokan"}, /* flag_ocpokan, indication no over current in amplifier "a" nmos output stage, */\
+ { 0x30d0, "flag_ocpokbp"}, /* flag_ocpokbp, indication no over current in amplifier "b" pmos output stage, */\
+ { 0x30e0, "flag_ocpokbn"}, /* flag_ocpokbn, indication no over current in amplifier"b" nmos output stage, */\
+ { 0x30f0, "lost_clk"}, /* lost_clk, lost clock indication CGU , */\
+ { 0x310f, "mtp_man_data_out"}, /* single word read from MTP (manual copy) , */\
+ { 0x3200, "key01_locked"}, /* key01_locked, indication key 1 is locked , */\
+ { 0x3210, "key02_locked"}, /* key02_locked, indication key 2 is locked , */\
+ { 0x3225, "mtp_ecc_tcout"}, /* mtp_ecc_tcout , */\
+ { 0x3280, "mtpctrl_valid_test_rd"}, /* mtp test readout for read , */\
+ { 0x3290, "mtpctrl_valid_test_wr"}, /* mtp test readout for write , */\
+ { 0x32a0, "flag_in_alarm_state"}, /* alarm state , */\
+ { 0x32b0, "mtp_ecc_err2"}, /* two or more bit errors detected in MTP, can not reconstruct value, */\
+ { 0x32c0, "mtp_ecc_err1"}, /* one bit error detected in MTP, reconstructed value, */\
+ { 0x32d0, "mtp_mtp_hvf"}, /* high voltage ready flag for MTP , */\
+ { 0x32f0, "mtp_zero_check_fail"}, /* zero check failed (tbd) for MTP , */\
+ { 0x3300, "flag_adc10_ready"}, /* flag_adc10_ready, indication adc10 is ready , */\
+ { 0x3310, "flag_clipa_high"}, /* flag_clipa_high, indication pmos amplifier "a" is clipping, */\
+ { 0x3320, "flag_clipa_low"}, /* flag_clipa_low, indication nmos amplifier "a" is clipping, */\
+ { 0x3330, "flag_clipb_high"}, /* flag_clipb_high, indication pmos amplifier "b" is clipping, */\
+ { 0x3340, "flag_clipb_low"}, /* flag_clipb_low, indication nmos amplifier "b" is clipping, */\
+ { 0x3359, "data_adc10_tempbat"}, /* adc 10 data output for testing , */\
+ { 0x33f0, "flag_vddd_comp_nok"}, /* power switch flag 2 for testing , */\
+ { 0x400f, "hid_code"}, /* hidden code , */\
+ { 0x4100, "bypass_hp"}, /* Bypass_High Pass Filter , */\
+ { 0x4110, "hard_mute"}, /* Hard Mute , */\
+ { 0x4120, "soft_mute"}, /* Soft Mute , */\
+ { 0x4134, "PWM_Delay"}, /* PWM DelayBits to set the delay , */\
+ { 0x4180, "PWM_Shape"}, /* PWM Shape , */\
+ { 0x4190, "PWM_BitLength"}, /* PWM Bitlength in noise shaper , */\
+ { 0x4207, "ctrl_drive"}, /* drive bits to select amount of power stages amplifier, */\
+ { 0x4281, "dpsalevel"}, /* DPSA Threshold level , */\
+ { 0x42a1, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x42c0, "ctrl_coincidence"}, /* Prevent simultaneously switching of output stage , */\
+ { 0x42d0, "ctrl_kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x42e0, "ctrl_test_sdeltaoffset"}, /* ctrl_test_sdeltaoffset , */\
+ { 0x42f0, "ctrl_test_sdeltaclk"}, /* ctrl_test_sdeltaclk , */\
+ { 0x4309, "ctrl_drivebst"}, /* Drive bits to select the powertransistor sections boost converter, */\
+ { 0x43a0, "ctrl_ocptestbst"}, /* Boost OCP. , */\
+ { 0x43c0, "enbl_hi_peak"}, /* enable for high peak comparator , */\
+ { 0x43d0, "test_abistfft_enbl"}, /* FFT coolflux , */\
+ { 0x43e0, "ctrl_sensetest_amp"}, /* sensetest amplifier , */\
+ { 0x43f0, "test_bcontrol"}, /* test _bcontrol , */\
+ { 0x4400, "ctrl_reversebst"}, /* OverCurrent Protection selection of power stage boost converter, */\
+ { 0x4410, "ctrl_sensetest"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0x4420, "enbl_engagebst"}, /* Enable power stage dcdc controller , */\
+ { 0x4430, "enbl_hi_small"}, /* Enable bit of hi (small) comparator , */\
+ { 0x4440, "enbl_hi_large"}, /* Enable bit of hi (large) comparator , */\
+ { 0x4450, "enbl_lo_small"}, /* Enable bit of lo (small) comparator , */\
+ { 0x4460, "enbl_lo_large"}, /* Enable bit of lo (large) comparator , */\
+ { 0x4470, "enbl_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x4480, "enbl_voutcomp"}, /* Enable vout comparators , */\
+ { 0x4490, "enbl_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x44a0, "enbl_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x44b0, "enbl_hizcom"}, /* Enable hiz comparator , */\
+ { 0x44c0, "enbl_pcdac"}, /* Enable peak current dac , */\
+ { 0x44d0, "enbl_pccomp"}, /* Enable peak current comparator , */\
+ { 0x44e0, "enbl_windac"}, /* Enable window dac , */\
+ { 0x44f0, "enbl_powerbst"}, /* Enable line of the powerstage , */\
+ { 0x4507, "ocp_thr"}, /* ocp_thr threshold level for OCP , */\
+ { 0x4580, "bypass_glitchfilter"}, /* Bypass glitchfilter , */\
+ { 0x4590, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0x45a0, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0x45b0, "bypass_otp"}, /* Bypass OTP , */\
+ { 0x45c0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0x45d0, "bypass_ocpcounter"}, /* BypassOCPCounter , */\
+ { 0x45e0, "bypass_lost_clk"}, /* Bypasslost_clk detector , */\
+ { 0x45f0, "vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0x4600, "bypass_gc"}, /* bypass_gc, bypasses the CS gain correction , */\
+ { 0x4610, "cs_gain_control"}, /* gain control by means of MTP or i2c , */\
+ { 0x4627, "cs_gain"}, /* + / - 128 steps in steps of 1/4 % 2's compliment , */\
+ { 0x46a0, "bypass_lp"}, /* bypass Low-Pass filter in temperature sensor , */\
+ { 0x46b0, "bypass_pwmcounter"}, /* bypass_pwmcounter , */\
+ { 0x46c0, "ctrl_cs_negfixed"}, /* does not switch to neg , */\
+ { 0x46d2, "ctrl_cs_neghyst"}, /* switches to neg depending on level , */\
+ { 0x4700, "switch_fb"}, /* switch_fb , */\
+ { 0x4713, "se_hyst"}, /* se_hyst , */\
+ { 0x4754, "se_level"}, /* se_level , */\
+ { 0x47a5, "ktemp"}, /* temperature compensation trimming , */\
+ { 0x4800, "ctrl_negin"}, /* negin , */\
+ { 0x4810, "ctrl_cs_sein"}, /* cs_sein , */\
+ { 0x4820, "ctrl_coincidencecs"}, /* Coincidence current sense , */\
+ { 0x4830, "ctrl_iddqtestbst"}, /* for iddq testing in powerstage of boost convertor , */\
+ { 0x4840, "ctrl_coincidencebst"}, /* Switch protection on to prevent simultaniously switching power stages bst and amp, */\
+ { 0x4851, "clock_sh_sel"}, /* Clock SH selection , */\
+ { 0x4876, "delay_se_neg"}, /* delay of se and neg , */\
+ { 0x48e1, "ctrl_cs_ttrack"}, /* sample & hold track time , */\
+ { 0x4900, "ctrl_bypassclip"}, /* Bypass clip control (function depending on digimux clip_x), */\
+ { 0x4910, "ctrl_bypassclip2"}, /* Bypass clip control (function depending on digimux clip_x), */\
+ { 0x4920, "ctrl_clkgateCFoff"}, /* to disable clock gating in the coolflux , */\
+ { 0x4930, "ctrl_testabst"}, /* testabst , */\
+ { 0x4940, "ctrl_clipfast"}, /* clock switch for battery protection clipper, it switches back to old frequency, */\
+ { 0x4950, "ctrl_cs_8ohm"}, /* 8 ohm mode for current sense (gain mode) , */\
+ { 0x4960, "reserved"}, /* reserved , */\
+ { 0x4974, "delay_clock_sh"}, /* delay_sh, tunes S7H delay , */\
+ { 0x49c0, "inv_clksh"}, /* Invert the sample/hold clock for current sense ADC, */\
+ { 0x49d0, "inv_neg"}, /* Invert neg signal , */\
+ { 0x49e0, "inv_se"}, /* Invert se signal , */\
+ { 0x49f0, "setse"}, /* switches between Single Ende and differentail mode, */\
+ { 0x4a12, "ctrl_adc10_sel"}, /* select the input to convert the 10b ADC , */\
+ { 0x4a60, "ctrl_adc10_reset"}, /* Global asynchronous reset (active HIGH) 10 bit ADC, */\
+ { 0x4a81, "ctrl_adc10_test"}, /* Test mode selection signal 10 bit ADC , */\
+ { 0x4aa0, "ctrl_bypass_lp_vbat"}, /* lp filter in batt sensor , */\
+ { 0x4ae0, "ctrl_dc_offset"}, /* switch offset control on/off, is decimator offset control, */\
+ { 0x4af0, "ctrl_tsense_hibias"}, /* bit to set the biasing in temp sensor to high , */\
+ { 0x4b00, "ctrl_adc13_iset"}, /* Micadc Setting of current consumption. Debug use only, */\
+ { 0x4b14, "ctrl_adc13_gain"}, /* Micadc gain setting (2-compl) , */\
+ { 0x4b61, "ctrl_adc13_slowdel"}, /* Micadc Delay setting for internal clock. Debug use only, */\
+ { 0x4b83, "ctrl_adc13_offset"}, /* Micadc ADC offset setting , */\
+ { 0x4bc0, "ctrl_adc13_bsoinv"}, /* Micadc bit stream output invert mode for test , */\
+ { 0x4bd0, "ctrl_adc13_resonator_enable"}, /* Micadc Give extra SNR with less stability. Debug use only, */\
+ { 0x4be0, "ctrl_testmicadc"}, /* Mux at input of MICADC for test purpose , */\
+ { 0x4c0f, "ctrl_offset"}, /* offset control for ABIST testing , */\
+ { 0x4d05, "ctrl_windac"}, /* for testing direct control windac , */\
+ { 0x4d65, "ctrl_peakcur"}, /* Control peakcur , */\
+ { 0x4dc3, "pwm_dcc_cnt"}, /* control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0x4e04, "ctrl_slopecur"}, /* for testing direct control slopecur , */\
+ { 0x4e53, "ctrl_dem"}, /* dyn element matching control, rest of codes are optional, */\
+ { 0x4e93, "ctrl_demmismatch"}, /* dyn element matching add offset , */\
+ { 0x4ed0, "enbl_pwm_dcc"}, /* to enable direct control of pwm duty cycle , */\
+ { 0x5007, "gain"}, /* gain setting of the gain multiplier gain need to increase with factor 1.41 (3dB), */\
+ { 0x5081, "ctrl_sourceb"}, /* Set OUTB to , */\
+ { 0x50a1, "ctrl_sourcea"}, /* Set OUTA to , */\
+ { 0x50c1, "ctrl_sourcebst"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0x50e1, "ctrl_test_mono"}, /* ABIST mode to add both amplifier halfs as stereo or one amplifier half as mono, */\
+ { 0x5104, "pulselengthbst"}, /* pulselength setting test input for boost converter , */\
+ { 0x5150, "ctrl_bypasslatchbst"}, /* bypass_latch in boost converter , */\
+ { 0x5160, "invertbst"}, /* invert pwmbst test signal , */\
+ { 0x5174, "pulselength"}, /* pulselength setting test input for amplifier , */\
+ { 0x51c0, "ctrl_bypasslatch"}, /* bypass_latch in boost convert , */\
+ { 0x51d0, "invertb"}, /* invert pwmb test signal , */\
+ { 0x51e0, "inverta"}, /* invert pwma test signal , */\
+ { 0x51f0, "ctrl_bypass_ctrlloop"}, /* bypass_ctrlloop bypasses the control loop of the amplifier, */\
+ { 0x5200, "ctrl_test_discrete"}, /* tbd for rdson testing , */\
+ { 0x5210, "ctrl_test_rdsona"}, /* tbd for rdson testing , */\
+ { 0x5220, "ctrl_test_rdsonb"}, /* tbd for rdson testing , */\
+ { 0x5230, "ctrl_test_rdsonbst"}, /* tbd for rdson testing , */\
+ { 0x5240, "ctrl_test_cvia"}, /* tbd for rdson testing , */\
+ { 0x5250, "ctrl_test_cvib"}, /* tbd for rdson testing , */\
+ { 0x5260, "ctrl_test_cvibst"}, /* tbd for rdson testing , */\
+ { 0x5290, "test_bypass_pwmdiscretea"}, /* for testing ( ABIST) , */\
+ { 0x52a0, "test_bypass_pwmdiscreteb"}, /* for testing ( ABIST) , */\
+ { 0x52b0, "ctrl_clipc_forcehigh"}, /* test signal for clipcontrol , */\
+ { 0x52c0, "ctrl_clipc_forcelow"}, /* test signal for clipcontrol , */\
+ { 0x52d0, "ctrl_test_sdelta"}, /* for testing ( ABIST) , */\
+ { 0x52e0, "ctrl_test_swhvp"}, /* for testing ( ABIST) , */\
+ { 0x52f0, "test_gain_reduction"}, /* test gain reduction , */\
+ { 0x5303, "ctrl_digimux_out_test1"}, /* Digimux TEST1 out , */\
+ { 0x5343, "ctrl_digimux_out_test2"}, /* Digimux TEST2 out. output flag_clipa_low depending on cntr_bypassclip setting, */\
+ { 0x5383, "ctrl_digimux_out_data1"}, /* Digimux DATA1 out (output flag_clipb_high depending on cntr_bypassclip setting), */\
+ { 0x53c3, "ctrl_digimux_out_data3"}, /* Digimux DATA3 out (output flag_clipx_x depending on cntr_bypassclip setting), */\
+ { 0x5400, "hs_mode"}, /* hs_mode, high speed mode I2C bus , */\
+ { 0x5412, "test_parametric_io"}, /* test_parametric_io for testing pads , */\
+ { 0x5440, "enbl_ringo"}, /* enbl_ringo, for test purpose to check with ringo , */\
+ { 0x5480, "ctrl_cliplevel"}, /* Clip level , */\
+ { 0x5491, "ctrl_anamux_sel"}, /* anamux selection , */\
+ { 0x54b0, "test_vdddsw_dio"}, /* to overrule the power switches for memory , */\
+ { 0x54c0, "ctrl_bypass_diosw_ovp"}, /* To disable the overvoltage protection of vddd_dio_sw, */\
+ { 0x54d0, "test_vddd_sw"}, /* test vdd sw , */\
+ { 0x54e0, "test_vddd_sw_comp"}, /* test vdd sw comp , */\
+ { 0x550e, "enbl_amp"}, /* enbl_amp for testing to enable all analoge blocks in amplifier, */\
+ { 0x55f0, "fr_fsp"}, /* extr free running clock mode for testing , */\
+ { 0x5600, "use_direct_ctrls"}, /* use_direct_ctrls, to overrule several functions direct for testing, */\
+ { 0x5610, "rst_datapath"}, /* rst_datapath, datapath reset , */\
+ { 0x5620, "rst_cgu"}, /* rst_cgu, cgu reset , */\
+ { 0x5637, "enbl_ref"}, /* for testing to enable all analoge blocks in references, */\
+ { 0x56b0, "enbl_engage"}, /* Enable output stage amplifier , */\
+ { 0x56c0, "use_direct_clk_ctrl"}, /* use_direct_clk_ctrl, to overrule several functions direct for testing, */\
+ { 0x56d0, "use_direct_pll_ctrl"}, /* use_direct_pll_ctrl, to overrule several functions direct for test, */\
+ { 0x56e0, "use_direct_ctrls_2"}, /* use_direct_sourseamp_ctrls, to overrule several functions direct for testing, */\
+ { 0x5707, "ctrl_anamux_out_test1"}, /* Anamux control , */\
+ { 0x5782, "ctrl_zero"}, /* Bandwith control feedbackloop , */\
+ { 0x57b0, "enbl_ldo_stress"}, /* LDO stress function frinch capacitors , */\
+ { 0x57c0, "ctrl_ocptest"}, /* ctrl_ocptest, deactivates the over current protection in the power stages of the amplifier. The ocp flag signals stay active., */\
+ { 0x57e0, "ctrl_otptest"}, /* otptest, test mode otp amplifier , */\
+ { 0x57f0, "ctrl_reverse"}, /* CTRL revers , */\
+ { 0x5802, "pll_mdec_msb"}, /* most significant bits pll_mdec , */\
+ { 0x5833, "pll_selr"}, /* pll_selr , */\
+ { 0x5874, "pll_selp"}, /* pll_selp , */\
+ { 0x58c3, "pll_seli"}, /* pll_seli , */\
+ { 0x5900, "pll_psel"}, /* pll_psel , */\
+ { 0x5910, "use_direct_pll_psel"}, /* use_direct_pll_psel , */\
+ { 0x5923, "nbck"}, /* NBCK , */\
+ { 0x5960, "auto_nbck"}, /* AUTO_NBCK , */\
+ { 0x5970, "pll_frm"}, /* pll_frm , */\
+ { 0x5980, "pll_directi"}, /* pll_directi , */\
+ { 0x5990, "pll_directo"}, /* pll_directo , */\
+ { 0x59a0, "enbl_PLL"}, /* enbl_PLL , */\
+ { 0x59b0, "sel_clkout"}, /* SEL_CLKOUT , */\
+ { 0x59e0, "fr_lost_clk"}, /* fr_lost_clk , */\
+ { 0x59f0, "pll_bypass"}, /* pll_bypass , */\
+ { 0x5a0f, "tsig_freq"}, /* tsig_freq, internal sinus test generator, frequency control, */\
+ { 0x5b02, "tsig_freq_msb"}, /* select internal sinus test generator, frequency control msb bits, */\
+ { 0x5b30, "inject_tsig"}, /* inject_tsig, control bit to switch to internal sinus test generator, */\
+ { 0x5b44, "ctrl_adc10_prog_sample"}, /* control ADC10 , */\
+ { 0x5c01, "pll_ndec_msb"}, /* most significant bits of pll_ndec , */\
+ { 0x5c2d, "pll_mdec"}, /* bits 13..0 of pll_mdec , */\
+ { 0x5d06, "pll_pdec"}, /* pll_pdec , */\
+ { 0x5d87, "pll_ndec"}, /* bits 7..0 of pll_ndec , */\
+ { 0x5e00, "pdm_ch_sel_reg"}, /* PDM channel selection , */\
+ { 0x5e10, "pdm_iis_rst_reg"}, /* PDM Interface reset , */\
+ { 0x5e20, "clk_src_sel_reg"}, /* WS Source Selection , */\
+ { 0x5e70, "pdm_resync_bypass"}, /* PDM resynchronization bypass , */\
+ { 0x6007, "MTP_key1"}, /* MTP Key1 , */\
+ { 0x6185, "mtp_ecc_tcin"}, /* Mtp_ecc_tcin , */\
+ { 0x6203, "mtp_man_address_in"}, /* address from i2cregs for writing one word single mtp, */\
+ { 0x6260, "mtp_ecc_eeb"}, /* enable code bit generation (active low!) , */\
+ { 0x6270, "mtp_ecc_ecb"}, /* enable correction signal (active low!) , */\
+ { 0x6280, "man_copy_mtp_to_iic"}, /* start copying single word from mtp to i2cregs_mtp , */\
+ { 0x6290, "man_copy_iic_to_mtp"}, /* start copying single word from i2cregs_mtp to mtp [Key 1 protected], */\
+ { 0x62a0, "auto_copy_mtp_to_iic"}, /* start copying all the data from mtp to i2cregs_mtp, */\
+ { 0x62b0, "auto_copy_iic_to_mtp"}, /* start copying all the data from i2cregs_mtp to mtp [Key 2 protected], */\
+ { 0x62d2, "mtp_speed_mode"}, /* Speed mode , */\
+ { 0x6340, "mtp_dircet_enable"}, /* mtp_direct_enable (key1 protected) , */\
+ { 0x6350, "mtp_direct_wr"}, /* mtp_direct_wr (key1 protected) direct value for mtp pin wr. To be enabled via iic2mtp_mtp_direct_enable, */\
+ { 0x6360, "mtp_direct_rd"}, /* mtp_direct_rd (key1 protected) direct value for mtp pin rd. To be enabled via iic2mtp_mtp_direct_enable, */\
+ { 0x6370, "mtp_direct_rst"}, /* mtp_direct_rst (key1 protected) direct value for mtp pin rst. To be enabled via iic2mtp_mtp_direct_enable, */\
+ { 0x6380, "mtp_direct_ers"}, /* mtp_direct_ers (key1 protected) direct value for mtp pin ers. To be enabled via iic2mtp_mtp_direct_enable, */\
+ { 0x6390, "mtp_direct_prg"}, /* mtp_direct_prg (key1 protected) direct value for mtp pin prg. To be enabled via iic2mtp_mtp_direct_enable, */\
+ { 0x63a0, "mtp_direct_epp"}, /* mtp_direct_epp (key1 protected) direct value for mtp pin epp. To be enabled via iic2mtp_mtp_direct_enable, */\
+ { 0x63b4, "mtp_direct_test"}, /* mtp_direct_test (key1 protected) , */\
+ { 0x640f, "mtp_man_data_in"}, /* single wordt be written to MTP (manual copy) , */\
+ { 0x7000, "cf_rst_dsp"}, /* Reset CoolFlux DSP , */\
+ { 0x7011, "cf_dmem"}, /* Target memory for access , */\
+ { 0x7030, "cf_aif"}, /* Autoincrement-flag for memory-address , */\
+ { 0x7040, "cf_int"}, /* Interrupt CoolFlux DSP , */\
+ { 0x7087, "cf_req"}, /* request for access (8 channels) , */\
+ { 0x710f, "cf_madd"}, /* memory-address to be accessed , */\
+ { 0x720f, "cf_mema"}, /* activate memory access (24- or 32-bits data is written/read to/from memory, */\
+ { 0x7307, "cf_err"}, /* cf error Flags , */\
+ { 0x7387, "cf_ack"}, /* acknowledge of requests (8 channels")" , */\
+ { 0x8000, "calibration_onetime"}, /* Calibration schedule (key2 protected) , */\
+ { 0x8010, "calibr_ron_done"}, /* (key2 protected) calibration of Ron has been executed, */\
+ { 0x8105, "calibr_vout_offset"}, /* calibr_vout_offset (DCDCoffset) 2's compliment (key1 protected), */\
+ { 0x8163, "calibr_delta_gain"}, /* delta gain for vamp (alpha) 2's compliment (key1 protected), */\
+ { 0x81a5, "calibr_offs_amp"}, /* offset for vamp (Ampoffset) 2's compliment (key1 protected), */\
+ { 0x8207, "calibr_gain_cs"}, /* gain current sense (Imeasalpha) 2's compliment (key1 protected), */\
+ { 0x8284, "calibr_temp_offset"}, /* temperature offset 2's compliment (key1 protected), */\
+ { 0x82d2, "calibr_temp_gain"}, /* temperature gain 2's compliment (key1 protected) , */\
+ { 0x830f, "calibr_ron"}, /* Ron resistance of coil (key1 protected) , */\
+ { 0x8406, "ctrl_offset_a"}, /* Offset of amplifier level shifter , */\
+ { 0x8486, "ctrl_offset_b"}, /* Offset of amplifier level shifter , */\
+ { 0x850f, "type_bits_HW"}, /* HW Bits , */\
+ { 0x860f, "type_bits1_SW"}, /* MTP-control SW1 , */\
+ { 0x870f, "type_bits2_SW"}, /* MTP-control SW2 , */\
+ { 0x8a0f, "production_data1"}, /* (key1 protected) , */\
+ { 0x8b0f, "production_data2"}, /* (key1 protected) , */\
+ { 0x8c0f, "production_data3"}, /* (key1 protected) , */\
+ { 0x8d0f, "production_data4"}, /* (key1 protected) , */\
+ { 0x8e0f, "production_data5"}, /* (key1 protected) , */\
+ { 0x8f0f, "production_data6"}, /* (key1 protected) , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+
+#endif /* TFA_INC_TFA9891_TFAFIELDNAMES_H_ */
diff --git a/inc/tfa9894_tfafieldnames.h b/inc/tfa9894_tfafieldnames.h
new file mode 100644
index 0000000..ee676b7
--- /dev/null
+++ b/inc/tfa9894_tfafieldnames.h
@@ -0,0 +1,1072 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9894_TFAFIELDNAMES_H
+#define _TFA9894_TFAFIELDNAMES_H
+
+
+#define TFA9894_I2CVERSION 17.0
+
+typedef enum nxpTfa9894BfEnumList {
+ TFA9894_BF_PWDN = 0x0000, /*!< Powerdown control */
+ TFA9894_BF_I2CR = 0x0010, /*!< I2C Reset - Auto clear */
+ TFA9894_BF_CFE = 0x0020, /*!< Enable CoolFlux DSP */
+ TFA9894_BF_AMPE = 0x0030, /*!< Enable Amplifier */
+ TFA9894_BF_DCA = 0x0040, /*!< Enable DCDC Boost converter */
+ TFA9894_BF_SBSL = 0x0050, /*!< Coolflux configured */
+ TFA9894_BF_AMPC = 0x0060, /*!< CoolFlux control over amplifier */
+ TFA9894_BF_INTP = 0x0071, /*!< Interrupt config */
+ TFA9894_BF_FSSSEL= 0x0090, /*!< Audio sample reference */
+ TFA9894_BF_BYPOCP= 0x00a0, /*!< Bypass OCP */
+ TFA9894_BF_TSTOCP= 0x00b0, /*!< OCP testing control */
+ TFA9894_BF_BSSS = 0x00c0, /*!< Vbat protection steepness */
+ TFA9894_BF_HPFBYP= 0x00d0, /*!< Bypass High Pass Filter */
+ TFA9894_BF_DPSA = 0x00e0, /*!< Enable DPSA */
+ TFA9894_BF_AMPINSEL= 0x0101, /*!< Amplifier input selection */
+ TFA9894_BF_MANSCONF= 0x0120, /*!< Device I2C settings configured */
+ TFA9894_BF_MANCOLD= 0x0130, /*!< Execute cold start */
+ TFA9894_BF_MANROBOD= 0x0140, /*!< Reaction on BOD */
+ TFA9894_BF_BODE = 0x0150, /*!< Enable BOD (only in direct control mode) */
+ TFA9894_BF_BODHYS= 0x0160, /*!< Enable Hysteresis of BOD */
+ TFA9894_BF_BODFILT= 0x0171, /*!< BOD filter */
+ TFA9894_BF_BODTHLVL= 0x0191, /*!< BOD threshold */
+ TFA9894_BF_MUTETO= 0x01b0, /*!< Time out SB mute sequence */
+ TFA9894_BF_MANWDE= 0x01c0, /*!< Watchdog enable */
+ TFA9894_BF_OPENMTP= 0x01e0, /*!< Control for FAIM protection */
+ TFA9894_BF_FAIMVBGOVRRL= 0x01f0, /*!< Overrule the enabling of VBG for faim erase/write access */
+ TFA9894_BF_AUDFS = 0x0203, /*!< Audio sample rate Fs */
+ TFA9894_BF_INPLEV= 0x0240, /*!< TDM output attenuation */
+ TFA9894_BF_FRACTDEL= 0x0255, /*!< Current sense fractional delay */
+ TFA9894_BF_TDMPRES= 0x02b1, /*!< Control for HW manager */
+ TFA9894_BF_AMPOCRT= 0x02d2, /*!< Amplifier on-off criteria for shutdown */
+ TFA9894_BF_REV = 0x030f, /*!< Revision info */
+ TFA9894_BF_REFCKEXT= 0x0401, /*!< PLL external reference clock */
+ TFA9894_BF_REFCKSEL= 0x0420, /*!< PLL internal reference clock */
+ TFA9894_BF_MCLKSEL= 0x0432, /*!< Master Clock Selection */
+ TFA9894_BF_MANAOOSC= 0x0460, /*!< Internal OSC1M off at PWDN */
+ TFA9894_BF_ACKCLDDIS= 0x0470, /*!< Automatic PLL reference clock selection for cold start */
+ TFA9894_BF_SPKSSEN= 0x0510, /*!< Enable speaker sub-system */
+ TFA9894_BF_MTPSSEN= 0x0520, /*!< Enable FAIM sub-system */
+ TFA9894_BF_WDTCLKEN= 0x0530, /*!< Enable Coolflux watchdog clock */
+ TFA9894_BF_VDDS = 0x1000, /*!< POR */
+ TFA9894_BF_PLLS = 0x1010, /*!< PLL Lock */
+ TFA9894_BF_OTDS = 0x1020, /*!< OTP alarm */
+ TFA9894_BF_OVDS = 0x1030, /*!< OVP alarm */
+ TFA9894_BF_UVDS = 0x1040, /*!< UVP alarm */
+ TFA9894_BF_OCDS = 0x1050, /*!< OCP amplifier (sticky register, clear on read) */
+ TFA9894_BF_CLKS = 0x1060, /*!< Clocks stable */
+ TFA9894_BF_MTPB = 0x1070, /*!< MTP busy */
+ TFA9894_BF_NOCLK = 0x1080, /*!< Lost clock */
+ TFA9894_BF_ACS = 0x1090, /*!< Cold Start */
+ TFA9894_BF_WDS = 0x10a0, /*!< Watchdog */
+ TFA9894_BF_SWS = 0x10b0, /*!< Amplifier engage */
+ TFA9894_BF_AMPS = 0x10c0, /*!< Amplifier enable */
+ TFA9894_BF_AREFS = 0x10d0, /*!< References enable */
+ TFA9894_BF_ADCCR = 0x10e0, /*!< Control ADC */
+ TFA9894_BF_BODNOK= 0x10f0, /*!< BOD Flag - VDD NOT OK */
+ TFA9894_BF_DCIL = 0x1100, /*!< DCDC current limiting */
+ TFA9894_BF_DCDCA = 0x1110, /*!< DCDC active (sticky register, clear on read) */
+ TFA9894_BF_DCOCPOK= 0x1120, /*!< DCDC OCP nmos (sticky register, clear on read) */
+ TFA9894_BF_DCHVBAT= 0x1140, /*!< DCDC level 1x */
+ TFA9894_BF_DCH114= 0x1150, /*!< DCDC level 1.14x */
+ TFA9894_BF_DCH107= 0x1160, /*!< DCDC level 1.07x */
+ TFA9894_BF_SPKS = 0x1170, /*!< Speaker status */
+ TFA9894_BF_CLKOOR= 0x1180, /*!< External clock status */
+ TFA9894_BF_MANALARM= 0x1190, /*!< Alarm state */
+ TFA9894_BF_TDMERR= 0x11a0, /*!< TDM error */
+ TFA9894_BF_TDMLUTER= 0x11b0, /*!< TDM lookup table error */
+ TFA9894_BF_OCPOAP= 0x1200, /*!< OCPOK pmos A */
+ TFA9894_BF_OCPOAN= 0x1210, /*!< OCPOK nmos A */
+ TFA9894_BF_OCPOBP= 0x1220, /*!< OCPOK pmos B */
+ TFA9894_BF_OCPOBN= 0x1230, /*!< OCPOK nmos B */
+ TFA9894_BF_CLIPS = 0x1240, /*!< Amplifier clipping */
+ TFA9894_BF_MANMUTE= 0x1250, /*!< Audio mute sequence */
+ TFA9894_BF_MANOPER= 0x1260, /*!< Device in Operating state */
+ TFA9894_BF_LP1 = 0x1270, /*!< Low power MODE1 detection */
+ TFA9894_BF_LA = 0x1280, /*!< Low amplitude detection */
+ TFA9894_BF_VDDPH = 0x1290, /*!< VDDP greater than VBAT flag */
+ TFA9894_BF_TDMSTAT= 0x1402, /*!< TDM Status bits */
+ TFA9894_BF_MANSTATE= 0x1433, /*!< Device Manager status */
+ TFA9894_BF_DCMODE= 0x14b1, /*!< DCDC mode status bits */
+ TFA9894_BF_BATS = 0x1509, /*!< Battery voltage (V) */
+ TFA9894_BF_TEMPS = 0x1608, /*!< IC Temperature (C) */
+ TFA9894_BF_VDDPS = 0x1709, /*!< IC VDDP voltage (1023*VDDP/13V) */
+ TFA9894_BF_TDME = 0x2000, /*!< Enable interface */
+ TFA9894_BF_TDMSPKE= 0x2010, /*!< Control audio tdm channel in sink0 */
+ TFA9894_BF_TDMDCE= 0x2020, /*!< Control audio tdm channel in sink1 */
+ TFA9894_BF_TDMCSE= 0x2030, /*!< Source 0 enable */
+ TFA9894_BF_TDMVSE= 0x2040, /*!< Source 1 enable */
+ TFA9894_BF_TDMCFE= 0x2050, /*!< Source 2 enable */
+ TFA9894_BF_TDMCF2E= 0x2060, /*!< Source 3 enable */
+ TFA9894_BF_TDMCLINV= 0x2070, /*!< Reception data to BCK clock */
+ TFA9894_BF_TDMFSPOL= 0x2080, /*!< FS polarity */
+ TFA9894_BF_TDMDEL= 0x2090, /*!< Data delay to FS */
+ TFA9894_BF_TDMADJ= 0x20a0, /*!< Data adjustment */
+ TFA9894_BF_TDMOOMP= 0x20b1, /*!< Received audio compression */
+ TFA9894_BF_TDMNBCK= 0x2103, /*!< TDM NBCK - Bit clock to FS ratio */
+ TFA9894_BF_TDMFSLN= 0x2143, /*!< FS length (master mode only) */
+ TFA9894_BF_TDMSLOTS= 0x2183, /*!< N-slots in Frame */
+ TFA9894_BF_TDMTXDFO= 0x21c1, /*!< Format unused bits */
+ TFA9894_BF_TDMTXUS0= 0x21e1, /*!< Format unused slots DATAO */
+ TFA9894_BF_TDMSLLN= 0x2204, /*!< N-bits in slot */
+ TFA9894_BF_TDMBRMG= 0x2254, /*!< N-bits remaining */
+ TFA9894_BF_TDMSSIZE= 0x22a4, /*!< Sample size per slot */
+ TFA9894_BF_TDMSPKS= 0x2303, /*!< TDM slot for sink 0 */
+ TFA9894_BF_TDMDCS= 0x2343, /*!< TDM slot for sink 1 */
+ TFA9894_BF_TDMCFSEL= 0x2381, /*!< TDM Source 2 data selection */
+ TFA9894_BF_TDMCF2SEL= 0x23a1, /*!< TDM Source 3 data selection */
+ TFA9894_BF_TDMCSS= 0x2403, /*!< Slot Position of source 0 data */
+ TFA9894_BF_TDMVSS= 0x2443, /*!< Slot Position of source 1 data */
+ TFA9894_BF_TDMCFS= 0x2483, /*!< Slot Position of source 2 data */
+ TFA9894_BF_TDMCF2S= 0x24c3, /*!< Slot Position of source 3 data */
+ TFA9894_BF_ISTVDDS= 0x4000, /*!< Status POR */
+ TFA9894_BF_ISTBSTOC= 0x4010, /*!< Status DCDC OCP */
+ TFA9894_BF_ISTOTDS= 0x4020, /*!< Status OTP alarm */
+ TFA9894_BF_ISTOCPR= 0x4030, /*!< Status OCP alarm */
+ TFA9894_BF_ISTUVDS= 0x4040, /*!< Status UVP alarm */
+ TFA9894_BF_ISTMANALARM= 0x4050, /*!< Status manager alarm state */
+ TFA9894_BF_ISTTDMER= 0x4060, /*!< Status TDM error */
+ TFA9894_BF_ISTNOCLK= 0x4070, /*!< Status lost clock */
+ TFA9894_BF_ISTCFMER= 0x4080, /*!< Status cfma error */
+ TFA9894_BF_ISTCFMAC= 0x4090, /*!< Status cfma ack */
+ TFA9894_BF_ISTSPKS= 0x40a0, /*!< Status coolflux speaker error */
+ TFA9894_BF_ISTACS= 0x40b0, /*!< Status cold started */
+ TFA9894_BF_ISTWDS= 0x40c0, /*!< Status watchdog reset */
+ TFA9894_BF_ISTBODNOK= 0x40d0, /*!< Status brown out detect */
+ TFA9894_BF_ISTLP1= 0x40e0, /*!< Status low power mode1 detect */
+ TFA9894_BF_ISTCLKOOR= 0x40f0, /*!< Status clock out of range */
+ TFA9894_BF_ICLVDDS= 0x4400, /*!< Clear POR */
+ TFA9894_BF_ICLBSTOC= 0x4410, /*!< Clear DCDC OCP */
+ TFA9894_BF_ICLOTDS= 0x4420, /*!< Clear OTP alarm */
+ TFA9894_BF_ICLOCPR= 0x4430, /*!< Clear OCP alarm */
+ TFA9894_BF_ICLUVDS= 0x4440, /*!< Clear UVP alarm */
+ TFA9894_BF_ICLMANALARM= 0x4450, /*!< Clear manager alarm state */
+ TFA9894_BF_ICLTDMER= 0x4460, /*!< Clear TDM error */
+ TFA9894_BF_ICLNOCLK= 0x4470, /*!< Clear lost clk */
+ TFA9894_BF_ICLCFMER= 0x4480, /*!< Clear cfma err */
+ TFA9894_BF_ICLCFMAC= 0x4490, /*!< Clear cfma ack */
+ TFA9894_BF_ICLSPKS= 0x44a0, /*!< Clear coolflux speaker error */
+ TFA9894_BF_ICLACS= 0x44b0, /*!< Clear cold started */
+ TFA9894_BF_ICLWDS= 0x44c0, /*!< Clear watchdog reset */
+ TFA9894_BF_ICLBODNOK= 0x44d0, /*!< Clear brown out detect */
+ TFA9894_BF_ICLLP1= 0x44e0, /*!< Clear low power mode1 detect */
+ TFA9894_BF_ICLCLKOOR= 0x44f0, /*!< Clear clock out of range */
+ TFA9894_BF_IEVDDS= 0x4800, /*!< Enable POR */
+ TFA9894_BF_IEBSTOC= 0x4810, /*!< Enable DCDC OCP */
+ TFA9894_BF_IEOTDS= 0x4820, /*!< Enable OTP alarm */
+ TFA9894_BF_IEOCPR= 0x4830, /*!< Enable OCP alarm */
+ TFA9894_BF_IEUVDS= 0x4840, /*!< Enable UVP alarm */
+ TFA9894_BF_IEMANALARM= 0x4850, /*!< Enable Manager Alarm state */
+ TFA9894_BF_IETDMER= 0x4860, /*!< Enable TDM error */
+ TFA9894_BF_IENOCLK= 0x4870, /*!< Enable lost clk */
+ TFA9894_BF_IECFMER= 0x4880, /*!< Enable cfma err */
+ TFA9894_BF_IECFMAC= 0x4890, /*!< Enable cfma ack */
+ TFA9894_BF_IESPKS= 0x48a0, /*!< Enable coolflux speaker error */
+ TFA9894_BF_IEACS = 0x48b0, /*!< Enable cold started */
+ TFA9894_BF_IEWDS = 0x48c0, /*!< Enable watchdog reset */
+ TFA9894_BF_IEBODNOK= 0x48d0, /*!< Enable brown out detect */
+ TFA9894_BF_IELP1 = 0x48e0, /*!< Enable low power mode1 detect */
+ TFA9894_BF_IECLKOOR= 0x48f0, /*!< Enable clock out of range */
+ TFA9894_BF_IPOVDDS= 0x4c00, /*!< Polarity POR */
+ TFA9894_BF_IPOBSTOC= 0x4c10, /*!< Polarity DCDC OCP */
+ TFA9894_BF_IPOOTDS= 0x4c20, /*!< Polarity OTP alarm */
+ TFA9894_BF_IPOOCPR= 0x4c30, /*!< Polarity ocp alarm */
+ TFA9894_BF_IPOUVDS= 0x4c40, /*!< Polarity UVP alarm */
+ TFA9894_BF_IPOMANALARM= 0x4c50, /*!< Polarity manager alarm state */
+ TFA9894_BF_IPOTDMER= 0x4c60, /*!< Polarity TDM error */
+ TFA9894_BF_IPONOCLK= 0x4c70, /*!< Polarity lost clk */
+ TFA9894_BF_IPOCFMER= 0x4c80, /*!< Polarity cfma err */
+ TFA9894_BF_IPOCFMAC= 0x4c90, /*!< Polarity cfma ack */
+ TFA9894_BF_IPOSPKS= 0x4ca0, /*!< Polarity coolflux speaker error */
+ TFA9894_BF_IPOACS= 0x4cb0, /*!< Polarity cold started */
+ TFA9894_BF_IPOWDS= 0x4cc0, /*!< Polarity watchdog reset */
+ TFA9894_BF_IPOBODNOK= 0x4cd0, /*!< Polarity brown out detect */
+ TFA9894_BF_IPOLP1= 0x4ce0, /*!< Polarity low power mode1 detect */
+ TFA9894_BF_IPOCLKOOR= 0x4cf0, /*!< Polarity clock out of range */
+ TFA9894_BF_BSSCR = 0x5001, /*!< Battery safeguard attack time */
+ TFA9894_BF_BSST = 0x5023, /*!< Battery safeguard threshold voltage level */
+ TFA9894_BF_BSSRL = 0x5061, /*!< Battery safeguard maximum reduction */
+ TFA9894_BF_BSSRR = 0x5082, /*!< Battery safeguard release time */
+ TFA9894_BF_BSSHY = 0x50b1, /*!< Battery Safeguard hysteresis */
+ TFA9894_BF_BSSR = 0x50e0, /*!< Battery voltage read out */
+ TFA9894_BF_BSSBY = 0x50f0, /*!< Bypass HW clipper */
+ TFA9894_BF_CFSM = 0x5130, /*!< Coolflux firmware soft mute control */
+ TFA9894_BF_VOL = 0x5187, /*!< CF firmware volume control */
+ TFA9894_BF_CLIPCTRL= 0x5202, /*!< Clip control setting */
+ TFA9894_BF_SLOPEE= 0x5230, /*!< Enables slope control */
+ TFA9894_BF_SLOPESET= 0x5240, /*!< Slope speed setting (binary coded) */
+ TFA9894_BF_AMPGAIN= 0x5287, /*!< Amplifier gain */
+ TFA9894_BF_TDMDCG= 0x5703, /*!< Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE) */
+ TFA9894_BF_TDMSPKG= 0x5743, /*!< Total gain depending on INPLEV setting (channel 0) */
+ TFA9894_BF_DCINSEL= 0x5781, /*!< VAMP_OUT2 input selection */
+ TFA9894_BF_LNMODE= 0x5881, /*!< Low noise gain mode control */
+ TFA9894_BF_LPM1MODE= 0x5ac1, /*!< Low power mode control */
+ TFA9894_BF_TDMSRCMAP= 0x5d02, /*!< TDM source mapping */
+ TFA9894_BF_TDMSRCAS= 0x5d31, /*!< Sensed value A */
+ TFA9894_BF_TDMSRCBS= 0x5d51, /*!< Sensed value B */
+ TFA9894_BF_TDMSRCACLIP= 0x5d71, /*!< Clip information (analog /digital) for source0 */
+ TFA9894_BF_TDMSRCBCLIP= 0x5d91, /*!< Clip information (analog /digital) for source1 */
+ TFA9894_BF_DELCURCOMP= 0x6102, /*!< Delay to allign compensation signal with current sense signal */
+ TFA9894_BF_SIGCURCOMP= 0x6130, /*!< Polarity of compensation for current sense */
+ TFA9894_BF_ENCURCOMP= 0x6140, /*!< Enable current sense compensation */
+ TFA9894_BF_LVLCLPPWM= 0x6152, /*!< Set the amount of pwm pulse that may be skipped before clip-flag is triggered */
+ TFA9894_BF_DCVOF = 0x7005, /*!< First Boost Voltage Level */
+ TFA9894_BF_DCVOS = 0x7065, /*!< Second Boost Voltage Level */
+ TFA9894_BF_DCMCC = 0x70c3, /*!< Max Coil Current */
+ TFA9894_BF_DCCV = 0x7101, /*!< Slope compensation current, represents LxF (inductance x frequency) value */
+ TFA9894_BF_DCIE = 0x7120, /*!< Adaptive boost mode */
+ TFA9894_BF_DCSR = 0x7130, /*!< Soft ramp up/down */
+ TFA9894_BF_DCDIS = 0x7140, /*!< DCDC on/off */
+ TFA9894_BF_DCPWM = 0x7150, /*!< DCDC PWM only mode */
+ TFA9894_BF_DCTRACK= 0x7160, /*!< Boost algorithm selection, effective only when boost_intelligent is set to 1 */
+ TFA9894_BF_DCENVSEL= 0x7170, /*!< Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1 */
+ TFA9894_BF_DCTRIP= 0x7204, /*!< 1st adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9894_BF_DCTRIP2= 0x7254, /*!< 2nd adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9894_BF_DCTRIPT= 0x72a4, /*!< Track adaptive boost trip levels, effective only when boost_intelligent is set to 1 */
+ TFA9894_BF_DCTRIPHYSTE= 0x72f0, /*!< Enable hysteresis on booster trip levels */
+ TFA9894_BF_DCHOLD= 0x7304, /*!< Hold time for DCDC booster, effective only when boost_intelligent is set to 1 */
+ TFA9894_BF_RST = 0x9000, /*!< Reset for Coolflux DSP */
+ TFA9894_BF_DMEM = 0x9011, /*!< Target memory for CFMA using I2C interface */
+ TFA9894_BF_AIF = 0x9030, /*!< Auto increment */
+ TFA9894_BF_CFINT = 0x9040, /*!< Coolflux Interrupt - auto clear */
+ TFA9894_BF_CFCGATE= 0x9050, /*!< Coolflux clock gating disabling control */
+ TFA9894_BF_REQCMD= 0x9080, /*!< Firmware event request rpc command */
+ TFA9894_BF_REQRST= 0x9090, /*!< Firmware event request reset restart */
+ TFA9894_BF_REQMIPS= 0x90a0, /*!< Firmware event request short on mips */
+ TFA9894_BF_REQMUTED= 0x90b0, /*!< Firmware event request mute sequence ready */
+ TFA9894_BF_REQVOL= 0x90c0, /*!< Firmware event request volume ready */
+ TFA9894_BF_REQDMG= 0x90d0, /*!< Firmware event request speaker damage detected */
+ TFA9894_BF_REQCAL= 0x90e0, /*!< Firmware event request calibration completed */
+ TFA9894_BF_REQRSV= 0x90f0, /*!< Firmware event request reserved */
+ TFA9894_BF_MADD = 0x910f, /*!< CF memory address */
+ TFA9894_BF_MEMA = 0x920f, /*!< Activate memory access */
+ TFA9894_BF_ERR = 0x9307, /*!< CF error flags */
+ TFA9894_BF_ACKCMD= 0x9380, /*!< Firmware event acknowledge rpc command */
+ TFA9894_BF_ACKRST= 0x9390, /*!< Firmware event acknowledge reset restart */
+ TFA9894_BF_ACKMIPS= 0x93a0, /*!< Firmware event acknowledge short on mips */
+ TFA9894_BF_ACKMUTED= 0x93b0, /*!< Firmware event acknowledge mute sequence ready */
+ TFA9894_BF_ACKVOL= 0x93c0, /*!< Firmware event acknowledge volume ready */
+ TFA9894_BF_ACKDMG= 0x93d0, /*!< Firmware event acknowledge speaker damage detected */
+ TFA9894_BF_ACKCAL= 0x93e0, /*!< Firmware event acknowledge calibration completed */
+ TFA9894_BF_ACKRSV= 0x93f0, /*!< Firmware event acknowledge reserved */
+ TFA9894_BF_MTPK = 0xa107, /*!< KEY2 to access KEY2 protected registers, customer key */
+ TFA9894_BF_KEY1LOCKED= 0xa200, /*!< Indicates KEY1 is locked */
+ TFA9894_BF_KEY2LOCKED= 0xa210, /*!< Indicates KEY2 is locked */
+ TFA9894_BF_CMTPI = 0xa350, /*!< Start copying all the data from mtp to I2C mtp registers - auto clear */
+ TFA9894_BF_CIMTP = 0xa360, /*!< Start copying data from I2C mtp registers to mtp - auto clear */
+ TFA9894_BF_MTPRDMSB= 0xa50f, /*!< MSB word of MTP manual read data */
+ TFA9894_BF_MTPRDLSB= 0xa60f, /*!< LSB word of MTP manual read data */
+ TFA9894_BF_EXTTS = 0xb108, /*!< External temperature (C) */
+ TFA9894_BF_TROS = 0xb190, /*!< Select temp Speaker calibration */
+ TFA9894_BF_SWPROFIL= 0xe00f, /*!< Software profile data */
+ TFA9894_BF_SWVSTEP= 0xe10f, /*!< Software vstep information */
+ TFA9894_BF_MTPOTC= 0xf000, /*!< Calibration schedule */
+ TFA9894_BF_MTPEX = 0xf010, /*!< Calibration Ron executed */
+ TFA9894_BF_DCMCCAPI= 0xf020, /*!< Calibration current limit DCDC */
+ TFA9894_BF_DCMCCSB= 0xf030, /*!< Sign bit for delta calibration current limit DCDC */
+ TFA9894_BF_USERDEF= 0xf042, /*!< Calibration delta current limit DCDC */
+ TFA9894_BF_CUSTINFO= 0xf078, /*!< Reserved space for allowing customer to store speaker information */
+ TFA9894_BF_R25C = 0xf50f, /*!< Ron resistance of speaker coil */
+} nxpTfa9894BfEnumList_t;
+#define TFA9894_NAMETABLE static tfaBfName_t Tfa9894DatasheetNames[]= {\
+ { 0x0, "PWDN"}, /* Powerdown control , */\
+ { 0x10, "I2CR"}, /* I2C Reset - Auto clear , */\
+ { 0x20, "CFE"}, /* Enable CoolFlux DSP , */\
+ { 0x30, "AMPE"}, /* Enable Amplifier , */\
+ { 0x40, "DCA"}, /* Enable DCDC Boost converter , */\
+ { 0x50, "SBSL"}, /* Coolflux configured , */\
+ { 0x60, "AMPC"}, /* CoolFlux control over amplifier , */\
+ { 0x71, "INTP"}, /* Interrupt config , */\
+ { 0x90, "FSSSEL"}, /* Audio sample reference , */\
+ { 0xa0, "BYPOCP"}, /* Bypass OCP , */\
+ { 0xb0, "TSTOCP"}, /* OCP testing control , */\
+ { 0xc0, "BSSS"}, /* Vbat protection steepness , */\
+ { 0xd0, "HPFBYP"}, /* Bypass High Pass Filter , */\
+ { 0xe0, "DPSA"}, /* Enable DPSA , */\
+ { 0x101, "AMPINSEL"}, /* Amplifier input selection , */\
+ { 0x120, "MANSCONF"}, /* Device I2C settings configured , */\
+ { 0x130, "MANCOLD"}, /* Execute cold start , */\
+ { 0x140, "MANROBOD"}, /* Reaction on BOD , */\
+ { 0x150, "BODE"}, /* Enable BOD (only in direct control mode) , */\
+ { 0x160, "BODHYS"}, /* Enable Hysteresis of BOD , */\
+ { 0x171, "BODFILT"}, /* BOD filter , */\
+ { 0x191, "BODTHLVL"}, /* BOD threshold , */\
+ { 0x1b0, "MUTETO"}, /* Time out SB mute sequence , */\
+ { 0x1c0, "MANWDE"}, /* Watchdog enable , */\
+ { 0x1e0, "OPENMTP"}, /* Control for FAIM protection , */\
+ { 0x1f0, "FAIMVBGOVRRL"}, /* Overrule the enabling of VBG for faim erase/write access, */\
+ { 0x203, "AUDFS"}, /* Audio sample rate Fs , */\
+ { 0x240, "INPLEV"}, /* TDM output attenuation , */\
+ { 0x255, "FRACTDEL"}, /* Current sense fractional delay , */\
+ { 0x2b1, "TDMPRES"}, /* Control for HW manager , */\
+ { 0x2d2, "AMPOCRT"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0x30f, "REV"}, /* Revision info , */\
+ { 0x401, "REFCKEXT"}, /* PLL external reference clock , */\
+ { 0x420, "REFCKSEL"}, /* PLL internal reference clock , */\
+ { 0x432, "MCLKSEL"}, /* Master Clock Selection , */\
+ { 0x460, "MANAOOSC"}, /* Internal OSC1M off at PWDN , */\
+ { 0x470, "ACKCLDDIS"}, /* Automatic PLL reference clock selection for cold start, */\
+ { 0x510, "SPKSSEN"}, /* Enable speaker sub-system , */\
+ { 0x520, "MTPSSEN"}, /* Enable FAIM sub-system , */\
+ { 0x530, "WDTCLKEN"}, /* Enable Coolflux watchdog clock , */\
+ { 0x1000, "VDDS"}, /* POR , */\
+ { 0x1010, "PLLS"}, /* PLL Lock , */\
+ { 0x1020, "OTDS"}, /* OTP alarm , */\
+ { 0x1030, "OVDS"}, /* OVP alarm , */\
+ { 0x1040, "UVDS"}, /* UVP alarm , */\
+ { 0x1050, "OCDS"}, /* OCP amplifier (sticky register, clear on read) , */\
+ { 0x1060, "CLKS"}, /* Clocks stable , */\
+ { 0x1070, "MTPB"}, /* MTP busy , */\
+ { 0x1080, "NOCLK"}, /* Lost clock , */\
+ { 0x1090, "ACS"}, /* Cold Start , */\
+ { 0x10a0, "WDS"}, /* Watchdog , */\
+ { 0x10b0, "SWS"}, /* Amplifier engage , */\
+ { 0x10c0, "AMPS"}, /* Amplifier enable , */\
+ { 0x10d0, "AREFS"}, /* References enable , */\
+ { 0x10e0, "ADCCR"}, /* Control ADC , */\
+ { 0x10f0, "BODNOK"}, /* BOD Flag - VDD NOT OK , */\
+ { 0x1100, "DCIL"}, /* DCDC current limiting , */\
+ { 0x1110, "DCDCA"}, /* DCDC active (sticky register, clear on read) , */\
+ { 0x1120, "DCOCPOK"}, /* DCDC OCP nmos (sticky register, clear on read) , */\
+ { 0x1140, "DCHVBAT"}, /* DCDC level 1x , */\
+ { 0x1150, "DCH114"}, /* DCDC level 1.14x , */\
+ { 0x1160, "DCH107"}, /* DCDC level 1.07x , */\
+ { 0x1170, "SPKS"}, /* Speaker status , */\
+ { 0x1180, "CLKOOR"}, /* External clock status , */\
+ { 0x1190, "MANALARM"}, /* Alarm state , */\
+ { 0x11a0, "TDMERR"}, /* TDM error , */\
+ { 0x11b0, "TDMLUTER"}, /* TDM lookup table error , */\
+ { 0x1200, "OCPOAP"}, /* OCPOK pmos A , */\
+ { 0x1210, "OCPOAN"}, /* OCPOK nmos A , */\
+ { 0x1220, "OCPOBP"}, /* OCPOK pmos B , */\
+ { 0x1230, "OCPOBN"}, /* OCPOK nmos B , */\
+ { 0x1240, "CLIPS"}, /* Amplifier clipping , */\
+ { 0x1250, "MANMUTE"}, /* Audio mute sequence , */\
+ { 0x1260, "MANOPER"}, /* Device in Operating state , */\
+ { 0x1270, "LP1"}, /* Low power MODE1 detection , */\
+ { 0x1280, "LA"}, /* Low amplitude detection , */\
+ { 0x1290, "VDDPH"}, /* VDDP greater than VBAT flag , */\
+ { 0x1402, "TDMSTAT"}, /* TDM Status bits , */\
+ { 0x1433, "MANSTATE"}, /* Device Manager status , */\
+ { 0x14b1, "DCMODE"}, /* DCDC mode status bits , */\
+ { 0x1509, "BATS"}, /* Battery voltage (V) , */\
+ { 0x1608, "TEMPS"}, /* IC Temperature (C) , */\
+ { 0x1709, "VDDPS"}, /* IC VDDP voltage (1023*VDDP/13V) , */\
+ { 0x2000, "TDME"}, /* Enable interface , */\
+ { 0x2010, "TDMSPKE"}, /* Control audio tdm channel in sink0 , */\
+ { 0x2020, "TDMDCE"}, /* Control audio tdm channel in sink1 , */\
+ { 0x2030, "TDMCSE"}, /* Source 0 enable , */\
+ { 0x2040, "TDMVSE"}, /* Source 1 enable , */\
+ { 0x2050, "TDMCFE"}, /* Source 2 enable , */\
+ { 0x2060, "TDMCF2E"}, /* Source 3 enable , */\
+ { 0x2070, "TDMCLINV"}, /* Reception data to BCK clock , */\
+ { 0x2080, "TDMFSPOL"}, /* FS polarity , */\
+ { 0x2090, "TDMDEL"}, /* Data delay to FS , */\
+ { 0x20a0, "TDMADJ"}, /* Data adjustment , */\
+ { 0x20b1, "TDMOOMP"}, /* Received audio compression , */\
+ { 0x2103, "TDMNBCK"}, /* TDM NBCK - Bit clock to FS ratio , */\
+ { 0x2143, "TDMFSLN"}, /* FS length (master mode only) , */\
+ { 0x2183, "TDMSLOTS"}, /* N-slots in Frame , */\
+ { 0x21c1, "TDMTXDFO"}, /* Format unused bits , */\
+ { 0x21e1, "TDMTXUS0"}, /* Format unused slots DATAO , */\
+ { 0x2204, "TDMSLLN"}, /* N-bits in slot , */\
+ { 0x2254, "TDMBRMG"}, /* N-bits remaining , */\
+ { 0x22a4, "TDMSSIZE"}, /* Sample size per slot , */\
+ { 0x2303, "TDMSPKS"}, /* TDM slot for sink 0 , */\
+ { 0x2343, "TDMDCS"}, /* TDM slot for sink 1 , */\
+ { 0x2381, "TDMCFSEL"}, /* TDM Source 2 data selection , */\
+ { 0x23a1, "TDMCF2SEL"}, /* TDM Source 3 data selection , */\
+ { 0x2403, "TDMCSS"}, /* Slot Position of source 0 data , */\
+ { 0x2443, "TDMVSS"}, /* Slot Position of source 1 data , */\
+ { 0x2483, "TDMCFS"}, /* Slot Position of source 2 data , */\
+ { 0x24c3, "TDMCF2S"}, /* Slot Position of source 3 data , */\
+ { 0x4000, "ISTVDDS"}, /* Status POR , */\
+ { 0x4010, "ISTBSTOC"}, /* Status DCDC OCP , */\
+ { 0x4020, "ISTOTDS"}, /* Status OTP alarm , */\
+ { 0x4030, "ISTOCPR"}, /* Status OCP alarm , */\
+ { 0x4040, "ISTUVDS"}, /* Status UVP alarm , */\
+ { 0x4050, "ISTMANALARM"}, /* Status manager alarm state , */\
+ { 0x4060, "ISTTDMER"}, /* Status TDM error , */\
+ { 0x4070, "ISTNOCLK"}, /* Status lost clock , */\
+ { 0x4080, "ISTCFMER"}, /* Status cfma error , */\
+ { 0x4090, "ISTCFMAC"}, /* Status cfma ack , */\
+ { 0x40a0, "ISTSPKS"}, /* Status coolflux speaker error , */\
+ { 0x40b0, "ISTACS"}, /* Status cold started , */\
+ { 0x40c0, "ISTWDS"}, /* Status watchdog reset , */\
+ { 0x40d0, "ISTBODNOK"}, /* Status brown out detect , */\
+ { 0x40e0, "ISTLP1"}, /* Status low power mode1 detect , */\
+ { 0x40f0, "ISTCLKOOR"}, /* Status clock out of range , */\
+ { 0x4400, "ICLVDDS"}, /* Clear POR , */\
+ { 0x4410, "ICLBSTOC"}, /* Clear DCDC OCP , */\
+ { 0x4420, "ICLOTDS"}, /* Clear OTP alarm , */\
+ { 0x4430, "ICLOCPR"}, /* Clear OCP alarm , */\
+ { 0x4440, "ICLUVDS"}, /* Clear UVP alarm , */\
+ { 0x4450, "ICLMANALARM"}, /* Clear manager alarm state , */\
+ { 0x4460, "ICLTDMER"}, /* Clear TDM error , */\
+ { 0x4470, "ICLNOCLK"}, /* Clear lost clk , */\
+ { 0x4480, "ICLCFMER"}, /* Clear cfma err , */\
+ { 0x4490, "ICLCFMAC"}, /* Clear cfma ack , */\
+ { 0x44a0, "ICLSPKS"}, /* Clear coolflux speaker error , */\
+ { 0x44b0, "ICLACS"}, /* Clear cold started , */\
+ { 0x44c0, "ICLWDS"}, /* Clear watchdog reset , */\
+ { 0x44d0, "ICLBODNOK"}, /* Clear brown out detect , */\
+ { 0x44e0, "ICLLP1"}, /* Clear low power mode1 detect , */\
+ { 0x44f0, "ICLCLKOOR"}, /* Clear clock out of range , */\
+ { 0x4800, "IEVDDS"}, /* Enable POR , */\
+ { 0x4810, "IEBSTOC"}, /* Enable DCDC OCP , */\
+ { 0x4820, "IEOTDS"}, /* Enable OTP alarm , */\
+ { 0x4830, "IEOCPR"}, /* Enable OCP alarm , */\
+ { 0x4840, "IEUVDS"}, /* Enable UVP alarm , */\
+ { 0x4850, "IEMANALARM"}, /* Enable Manager Alarm state , */\
+ { 0x4860, "IETDMER"}, /* Enable TDM error , */\
+ { 0x4870, "IENOCLK"}, /* Enable lost clk , */\
+ { 0x4880, "IECFMER"}, /* Enable cfma err , */\
+ { 0x4890, "IECFMAC"}, /* Enable cfma ack , */\
+ { 0x48a0, "IESPKS"}, /* Enable coolflux speaker error , */\
+ { 0x48b0, "IEACS"}, /* Enable cold started , */\
+ { 0x48c0, "IEWDS"}, /* Enable watchdog reset , */\
+ { 0x48d0, "IEBODNOK"}, /* Enable brown out detect , */\
+ { 0x48e0, "IELP1"}, /* Enable low power mode1 detect , */\
+ { 0x48f0, "IECLKOOR"}, /* Enable clock out of range , */\
+ { 0x4c00, "IPOVDDS"}, /* Polarity POR , */\
+ { 0x4c10, "IPOBSTOC"}, /* Polarity DCDC OCP , */\
+ { 0x4c20, "IPOOTDS"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "IPOOCPR"}, /* Polarity ocp alarm , */\
+ { 0x4c40, "IPOUVDS"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "IPOMANALARM"}, /* Polarity manager alarm state , */\
+ { 0x4c60, "IPOTDMER"}, /* Polarity TDM error , */\
+ { 0x4c70, "IPONOCLK"}, /* Polarity lost clk , */\
+ { 0x4c80, "IPOCFMER"}, /* Polarity cfma err , */\
+ { 0x4c90, "IPOCFMAC"}, /* Polarity cfma ack , */\
+ { 0x4ca0, "IPOSPKS"}, /* Polarity coolflux speaker error , */\
+ { 0x4cb0, "IPOACS"}, /* Polarity cold started , */\
+ { 0x4cc0, "IPOWDS"}, /* Polarity watchdog reset , */\
+ { 0x4cd0, "IPOBODNOK"}, /* Polarity brown out detect , */\
+ { 0x4ce0, "IPOLP1"}, /* Polarity low power mode1 detect , */\
+ { 0x4cf0, "IPOCLKOOR"}, /* Polarity clock out of range , */\
+ { 0x5001, "BSSCR"}, /* Battery safeguard attack time , */\
+ { 0x5023, "BSST"}, /* Battery safeguard threshold voltage level , */\
+ { 0x5061, "BSSRL"}, /* Battery safeguard maximum reduction , */\
+ { 0x5082, "BSSRR"}, /* Battery safeguard release time , */\
+ { 0x50b1, "BSSHY"}, /* Battery Safeguard hysteresis , */\
+ { 0x50e0, "BSSR"}, /* Battery voltage read out , */\
+ { 0x50f0, "BSSBY"}, /* Bypass HW clipper , */\
+ { 0x5130, "CFSM"}, /* Coolflux firmware soft mute control , */\
+ { 0x5187, "VOL"}, /* CF firmware volume control , */\
+ { 0x5202, "CLIPCTRL"}, /* Clip control setting , */\
+ { 0x5230, "SLOPEE"}, /* Enables slope control , */\
+ { 0x5240, "SLOPESET"}, /* Slope speed setting (binary coded) , */\
+ { 0x5287, "AMPGAIN"}, /* Amplifier gain , */\
+ { 0x5703, "TDMDCG"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x5743, "TDMSPKG"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x5781, "DCINSEL"}, /* VAMP_OUT2 input selection , */\
+ { 0x5881, "LNMODE"}, /* Low noise gain mode control , */\
+ { 0x5ac1, "LPM1MODE"}, /* Low power mode control , */\
+ { 0x5d02, "TDMSRCMAP"}, /* TDM source mapping , */\
+ { 0x5d31, "TDMSRCAS"}, /* Sensed value A , */\
+ { 0x5d51, "TDMSRCBS"}, /* Sensed value B , */\
+ { 0x5d71, "TDMSRCACLIP"}, /* Clip information (analog /digital) for source0 , */\
+ { 0x5d91, "TDMSRCBCLIP"}, /* Clip information (analog /digital) for source1 , */\
+ { 0x6102, "DELCURCOMP"}, /* Delay to allign compensation signal with current sense signal, */\
+ { 0x6130, "SIGCURCOMP"}, /* Polarity of compensation for current sense , */\
+ { 0x6140, "ENCURCOMP"}, /* Enable current sense compensation , */\
+ { 0x6152, "LVLCLPPWM"}, /* Set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7005, "DCVOF"}, /* First Boost Voltage Level , */\
+ { 0x7065, "DCVOS"}, /* Second Boost Voltage Level , */\
+ { 0x70c3, "DCMCC"}, /* Max Coil Current , */\
+ { 0x7101, "DCCV"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7120, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x7130, "DCSR"}, /* Soft ramp up/down , */\
+ { 0x7140, "DCDIS"}, /* DCDC on/off , */\
+ { 0x7150, "DCPWM"}, /* DCDC PWM only mode , */\
+ { 0x7160, "DCTRACK"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7170, "DCENVSEL"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x7204, "DCTRIP"}, /* 1st adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7254, "DCTRIP2"}, /* 2nd adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x72a4, "DCTRIPT"}, /* Track adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x72f0, "DCTRIPHYSTE"}, /* Enable hysteresis on booster trip levels , */\
+ { 0x7304, "DCHOLD"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x9000, "RST"}, /* Reset for Coolflux DSP , */\
+ { 0x9011, "DMEM"}, /* Target memory for CFMA using I2C interface , */\
+ { 0x9030, "AIF"}, /* Auto increment , */\
+ { 0x9040, "CFINT"}, /* Coolflux Interrupt - auto clear , */\
+ { 0x9050, "CFCGATE"}, /* Coolflux clock gating disabling control , */\
+ { 0x9080, "REQCMD"}, /* Firmware event request rpc command , */\
+ { 0x9090, "REQRST"}, /* Firmware event request reset restart , */\
+ { 0x90a0, "REQMIPS"}, /* Firmware event request short on mips , */\
+ { 0x90b0, "REQMUTED"}, /* Firmware event request mute sequence ready , */\
+ { 0x90c0, "REQVOL"}, /* Firmware event request volume ready , */\
+ { 0x90d0, "REQDMG"}, /* Firmware event request speaker damage detected , */\
+ { 0x90e0, "REQCAL"}, /* Firmware event request calibration completed , */\
+ { 0x90f0, "REQRSV"}, /* Firmware event request reserved , */\
+ { 0x910f, "MADD"}, /* CF memory address , */\
+ { 0x920f, "MEMA"}, /* Activate memory access , */\
+ { 0x9307, "ERR"}, /* CF error flags , */\
+ { 0x9380, "ACKCMD"}, /* Firmware event acknowledge rpc command , */\
+ { 0x9390, "ACKRST"}, /* Firmware event acknowledge reset restart , */\
+ { 0x93a0, "ACKMIPS"}, /* Firmware event acknowledge short on mips , */\
+ { 0x93b0, "ACKMUTED"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x93c0, "ACKVOL"}, /* Firmware event acknowledge volume ready , */\
+ { 0x93d0, "ACKDMG"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x93e0, "ACKCAL"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x93f0, "ACKRSV"}, /* Firmware event acknowledge reserved , */\
+ { 0xa107, "MTPK"}, /* KEY2 to access KEY2 protected registers, customer key, */\
+ { 0xa200, "KEY1LOCKED"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "KEY2LOCKED"}, /* Indicates KEY2 is locked , */\
+ { 0xa350, "CMTPI"}, /* Start copying all the data from mtp to I2C mtp registers - auto clear, */\
+ { 0xa360, "CIMTP"}, /* Start copying data from I2C mtp registers to mtp - auto clear, */\
+ { 0xa50f, "MTPRDMSB"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "MTPRDLSB"}, /* LSB word of MTP manual read data , */\
+ { 0xb108, "EXTTS"}, /* External temperature (C) , */\
+ { 0xb190, "TROS"}, /* Select temp Speaker calibration , */\
+ { 0xe00f, "SWPROFIL"}, /* Software profile data , */\
+ { 0xe10f, "SWVSTEP"}, /* Software vstep information , */\
+ { 0xf000, "MTPOTC"}, /* Calibration schedule , */\
+ { 0xf010, "MTPEX"}, /* Calibration Ron executed , */\
+ { 0xf020, "DCMCCAPI"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "DCMCCSB"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "USERDEF"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "CUSTINFO"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf50f, "R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9894_BITNAMETABLE static tfaBfName_t Tfa9894BitNames[]= {\
+ { 0x0, "powerdown"}, /* Powerdown control , */\
+ { 0x10, "reset"}, /* I2C Reset - Auto clear , */\
+ { 0x20, "enbl_coolflux"}, /* Enable CoolFlux DSP , */\
+ { 0x30, "enbl_amplifier"}, /* Enable Amplifier , */\
+ { 0x40, "enbl_boost"}, /* Enable DCDC Boost converter , */\
+ { 0x50, "coolflux_configured"}, /* Coolflux configured , */\
+ { 0x60, "sel_enbl_amplifier"}, /* CoolFlux control over amplifier , */\
+ { 0x71, "int_pad_io"}, /* Interrupt config , */\
+ { 0x90, "fs_pulse_sel"}, /* Audio sample reference , */\
+ { 0xa0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0xb0, "test_ocp"}, /* OCP testing control , */\
+ { 0xc0, "batsense_steepness"}, /* Vbat protection steepness , */\
+ { 0xd0, "bypass_hp"}, /* Bypass High Pass Filter , */\
+ { 0xe0, "enbl_dpsa"}, /* Enable DPSA , */\
+ { 0xf0, "sel_hysteresis"}, /* Select hysteresis for clock range detector , */\
+ { 0x101, "vamp_sel1"}, /* Amplifier input selection , */\
+ { 0x120, "src_set_configured"}, /* Device I2C settings configured , */\
+ { 0x130, "execute_cold_start"}, /* Execute cold start , */\
+ { 0x140, "man_enbl_brown_out"}, /* Reaction on BOD , */\
+ { 0x150, "bod_enbl"}, /* Enable BOD (only in direct control mode) , */\
+ { 0x160, "bod_hyst_enbl"}, /* Enable Hysteresis of BOD , */\
+ { 0x171, "bod_delay_set"}, /* BOD filter , */\
+ { 0x191, "bod_lvl_set"}, /* BOD threshold , */\
+ { 0x1b0, "disable_mute_time_out"}, /* Time out SB mute sequence , */\
+ { 0x1c0, "man_enbl_watchdog"}, /* Watchdog enable , */\
+ { 0x1d0, "disable_engage"}, /* Disable Engage , */\
+ { 0x1e0, "unprotect_faim"}, /* Control for FAIM protection , */\
+ { 0x1f0, "faim_enable_vbg"}, /* Overrule the enabling of VBG for faim erase/write access, */\
+ { 0x203, "audio_fs"}, /* Audio sample rate Fs , */\
+ { 0x240, "input_level"}, /* TDM output attenuation , */\
+ { 0x255, "cs_frac_delay"}, /* Current sense fractional delay , */\
+ { 0x2b1, "use_tdm_presence"}, /* Control for HW manager , */\
+ { 0x2d2, "ctrl_on2off_criterion"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0x30f, "device_rev"}, /* Revision info , */\
+ { 0x401, "pll_clkin_sel"}, /* PLL external reference clock , */\
+ { 0x420, "pll_clkin_sel_osc"}, /* PLL internal reference clock , */\
+ { 0x432, "mclk_sel"}, /* Master Clock Selection , */\
+ { 0x460, "enbl_osc1m_auto_off"}, /* Internal OSC1M off at PWDN , */\
+ { 0x470, "disable_auto_sel_refclk"}, /* Automatic PLL reference clock selection for cold start, */\
+ { 0x510, "enbl_spkr_ss"}, /* Enable speaker sub-system , */\
+ { 0x520, "enbl_faim_ss"}, /* Enable FAIM sub-system , */\
+ { 0x530, "enbl_wdt_clk"}, /* Enable Coolflux watchdog clock , */\
+ { 0xe07, "ctrl_digtoana"}, /* Spare control from digital to analog , */\
+ { 0xf0f, "hidden_code"}, /* Hidden code to enable access to hidden register. (0x5A6B/23147 default for engineering), */\
+ { 0x1000, "flag_por"}, /* POR , */\
+ { 0x1010, "flag_pll_lock"}, /* PLL Lock , */\
+ { 0x1020, "flag_otpok"}, /* OTP alarm , */\
+ { 0x1030, "flag_ovpok"}, /* OVP alarm , */\
+ { 0x1040, "flag_uvpok"}, /* UVP alarm , */\
+ { 0x1050, "flag_ocp_alarm"}, /* OCP amplifier (sticky register, clear on read) , */\
+ { 0x1060, "flag_clocks_stable"}, /* Clocks stable , */\
+ { 0x1070, "flag_mtp_busy"}, /* MTP busy , */\
+ { 0x1080, "flag_lost_clk"}, /* Lost clock , */\
+ { 0x1090, "flag_cold_started"}, /* Cold Start , */\
+ { 0x10a0, "flag_watchdog_reset"}, /* Watchdog , */\
+ { 0x10b0, "flag_engage"}, /* Amplifier engage , */\
+ { 0x10c0, "flag_enbl_amp"}, /* Amplifier enable , */\
+ { 0x10d0, "flag_enbl_ref"}, /* References enable , */\
+ { 0x10e0, "flag_adc10_ready"}, /* Control ADC , */\
+ { 0x10f0, "flag_bod_vddd_nok"}, /* BOD Flag - VDD NOT OK , */\
+ { 0x1100, "flag_bst_bstcur"}, /* DCDC current limiting , */\
+ { 0x1110, "flag_bst_hiz"}, /* DCDC active (sticky register, clear on read) , */\
+ { 0x1120, "flag_bst_ocpok"}, /* DCDC OCP nmos (sticky register, clear on read) , */\
+ { 0x1130, "flag_bst_peakcur"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1140, "flag_bst_voutcomp"}, /* DCDC level 1x , */\
+ { 0x1150, "flag_bst_voutcomp86"}, /* DCDC level 1.14x , */\
+ { 0x1160, "flag_bst_voutcomp93"}, /* DCDC level 1.07x , */\
+ { 0x1170, "flag_cf_speakererror"}, /* Speaker status , */\
+ { 0x1180, "flag_clk_out_of_range"}, /* External clock status , */\
+ { 0x1190, "flag_man_alarm_state"}, /* Alarm state , */\
+ { 0x11a0, "flag_tdm_error"}, /* TDM error , */\
+ { 0x11b0, "flag_tdm_lut_error"}, /* TDM lookup table error , */\
+ { 0x1200, "flag_ocpokap"}, /* OCPOK pmos A , */\
+ { 0x1210, "flag_ocpokan"}, /* OCPOK nmos A , */\
+ { 0x1220, "flag_ocpokbp"}, /* OCPOK pmos B , */\
+ { 0x1230, "flag_ocpokbn"}, /* OCPOK nmos B , */\
+ { 0x1240, "flag_clip"}, /* Amplifier clipping , */\
+ { 0x1250, "flag_man_start_mute_audio"}, /* Audio mute sequence , */\
+ { 0x1260, "flag_man_operating_state"}, /* Device in Operating state , */\
+ { 0x1270, "flag_lp_detect_mode1"}, /* Low power MODE1 detection , */\
+ { 0x1280, "flag_low_amplitude"}, /* Low amplitude detection , */\
+ { 0x1290, "flag_vddp_gt_vbat"}, /* VDDP greater than VBAT flag , */\
+ { 0x1402, "tdm_status"}, /* TDM Status bits , */\
+ { 0x1433, "man_state"}, /* Device Manager status , */\
+ { 0x1473, "amp_ctrl_state"}, /* Amplifier control status , */\
+ { 0x14b1, "status_bst_mode"}, /* DCDC mode status bits , */\
+ { 0x1509, "bat_adc"}, /* Battery voltage (V) , */\
+ { 0x1608, "temp_adc"}, /* IC Temperature (C) , */\
+ { 0x1709, "vddp_adc"}, /* IC VDDP voltage (1023*VDDP/13V) , */\
+ { 0x2000, "tdm_enable"}, /* Enable interface , */\
+ { 0x2010, "tdm_sink0_enable"}, /* Control audio tdm channel in sink0 , */\
+ { 0x2020, "tdm_sink1_enable"}, /* Control audio tdm channel in sink1 , */\
+ { 0x2030, "tdm_source0_enable"}, /* Source 0 enable , */\
+ { 0x2040, "tdm_source1_enable"}, /* Source 1 enable , */\
+ { 0x2050, "tdm_source2_enable"}, /* Source 2 enable , */\
+ { 0x2060, "tdm_source3_enable"}, /* Source 3 enable , */\
+ { 0x2070, "tdm_clk_inversion"}, /* Reception data to BCK clock , */\
+ { 0x2080, "tdm_fs_ws_polarity"}, /* FS polarity , */\
+ { 0x2090, "tdm_data_delay"}, /* Data delay to FS , */\
+ { 0x20a0, "tdm_data_adjustment"}, /* Data adjustment , */\
+ { 0x20b1, "tdm_audio_sample_compression"}, /* Received audio compression , */\
+ { 0x2103, "tdm_nbck"}, /* TDM NBCK - Bit clock to FS ratio , */\
+ { 0x2143, "tdm_fs_ws_length"}, /* FS length (master mode only) , */\
+ { 0x2183, "tdm_nb_of_slots"}, /* N-slots in Frame , */\
+ { 0x21c1, "tdm_txdata_format"}, /* Format unused bits , */\
+ { 0x21e1, "tdm_txdata_format_unused_slot"}, /* Format unused slots DATAO , */\
+ { 0x2204, "tdm_slot_length"}, /* N-bits in slot , */\
+ { 0x2254, "tdm_bits_remaining"}, /* N-bits remaining , */\
+ { 0x22a4, "tdm_sample_size"}, /* Sample size per slot , */\
+ { 0x2303, "tdm_sink0_slot"}, /* TDM slot for sink 0 , */\
+ { 0x2343, "tdm_sink1_slot"}, /* TDM slot for sink 1 , */\
+ { 0x2381, "tdm_source2_sel"}, /* TDM Source 2 data selection , */\
+ { 0x23a1, "tdm_source3_sel"}, /* TDM Source 3 data selection , */\
+ { 0x2403, "tdm_source0_slot"}, /* Slot Position of source 0 data , */\
+ { 0x2443, "tdm_source1_slot"}, /* Slot Position of source 1 data , */\
+ { 0x2483, "tdm_source2_slot"}, /* Slot Position of source 2 data , */\
+ { 0x24c3, "tdm_source3_slot"}, /* Slot Position of source 3 data , */\
+ { 0x4000, "int_out_flag_por"}, /* Status POR , */\
+ { 0x4010, "int_out_flag_bst_ocpok"}, /* Status DCDC OCP , */\
+ { 0x4020, "int_out_flag_otpok"}, /* Status OTP alarm , */\
+ { 0x4030, "int_out_flag_ocp_alarm"}, /* Status OCP alarm , */\
+ { 0x4040, "int_out_flag_uvpok"}, /* Status UVP alarm , */\
+ { 0x4050, "int_out_flag_man_alarm_state"}, /* Status manager alarm state , */\
+ { 0x4060, "int_out_flag_tdm_error"}, /* Status TDM error , */\
+ { 0x4070, "int_out_flag_lost_clk"}, /* Status lost clock , */\
+ { 0x4080, "int_out_flag_cfma_err"}, /* Status cfma error , */\
+ { 0x4090, "int_out_flag_cfma_ack"}, /* Status cfma ack , */\
+ { 0x40a0, "int_out_flag_cf_speakererror"}, /* Status coolflux speaker error , */\
+ { 0x40b0, "int_out_flag_cold_started"}, /* Status cold started , */\
+ { 0x40c0, "int_out_flag_watchdog_reset"}, /* Status watchdog reset , */\
+ { 0x40d0, "int_out_flag_bod_vddd_nok"}, /* Status brown out detect , */\
+ { 0x40e0, "int_out_flag_lp_detect_mode1"}, /* Status low power mode1 detect , */\
+ { 0x40f0, "int_out_flag_clk_out_of_range"}, /* Status clock out of range , */\
+ { 0x4400, "int_in_flag_por"}, /* Clear POR , */\
+ { 0x4410, "int_in_flag_bst_ocpok"}, /* Clear DCDC OCP , */\
+ { 0x4420, "int_in_flag_otpok"}, /* Clear OTP alarm , */\
+ { 0x4430, "int_in_flag_ocp_alarm"}, /* Clear OCP alarm , */\
+ { 0x4440, "int_in_flag_uvpok"}, /* Clear UVP alarm , */\
+ { 0x4450, "int_in_flag_man_alarm_state"}, /* Clear manager alarm state , */\
+ { 0x4460, "int_in_flag_tdm_error"}, /* Clear TDM error , */\
+ { 0x4470, "int_in_flag_lost_clk"}, /* Clear lost clk , */\
+ { 0x4480, "int_in_flag_cfma_err"}, /* Clear cfma err , */\
+ { 0x4490, "int_in_flag_cfma_ack"}, /* Clear cfma ack , */\
+ { 0x44a0, "int_in_flag_cf_speakererror"}, /* Clear coolflux speaker error , */\
+ { 0x44b0, "int_in_flag_cold_started"}, /* Clear cold started , */\
+ { 0x44c0, "int_in_flag_watchdog_reset"}, /* Clear watchdog reset , */\
+ { 0x44d0, "int_in_flag_bod_vddd_nok"}, /* Clear brown out detect , */\
+ { 0x44e0, "int_in_flag_lp_detect_mode1"}, /* Clear low power mode1 detect , */\
+ { 0x44f0, "int_in_flag_clk_out_of_range"}, /* Clear clock out of range , */\
+ { 0x4800, "int_enable_flag_por"}, /* Enable POR , */\
+ { 0x4810, "int_enable_flag_bst_ocpok"}, /* Enable DCDC OCP , */\
+ { 0x4820, "int_enable_flag_otpok"}, /* Enable OTP alarm , */\
+ { 0x4830, "int_enable_flag_ocp_alarm"}, /* Enable OCP alarm , */\
+ { 0x4840, "int_enable_flag_uvpok"}, /* Enable UVP alarm , */\
+ { 0x4850, "int_enable_flag_man_alarm_state"}, /* Enable Manager Alarm state , */\
+ { 0x4860, "int_enable_flag_tdm_error"}, /* Enable TDM error , */\
+ { 0x4870, "int_enable_flag_lost_clk"}, /* Enable lost clk , */\
+ { 0x4880, "int_enable_flag_cfma_err"}, /* Enable cfma err , */\
+ { 0x4890, "int_enable_flag_cfma_ack"}, /* Enable cfma ack , */\
+ { 0x48a0, "int_enable_flag_cf_speakererror"}, /* Enable coolflux speaker error , */\
+ { 0x48b0, "int_enable_flag_cold_started"}, /* Enable cold started , */\
+ { 0x48c0, "int_enable_flag_watchdog_reset"}, /* Enable watchdog reset , */\
+ { 0x48d0, "int_enable_flag_bod_vddd_nok"}, /* Enable brown out detect , */\
+ { 0x48e0, "int_enable_flag_lp_detect_mode1"}, /* Enable low power mode1 detect , */\
+ { 0x48f0, "int_enable_flag_clk_out_of_range"}, /* Enable clock out of range , */\
+ { 0x4c00, "int_polarity_flag_por"}, /* Polarity POR , */\
+ { 0x4c10, "int_polarity_flag_bst_ocpok"}, /* Polarity DCDC OCP , */\
+ { 0x4c20, "int_polarity_flag_otpok"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "int_polarity_flag_ocp_alarm"}, /* Polarity ocp alarm , */\
+ { 0x4c40, "int_polarity_flag_uvpok"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "int_polarity_flag_man_alarm_state"}, /* Polarity manager alarm state , */\
+ { 0x4c60, "int_polarity_flag_tdm_error"}, /* Polarity TDM error , */\
+ { 0x4c70, "int_polarity_flag_lost_clk"}, /* Polarity lost clk , */\
+ { 0x4c80, "int_polarity_flag_cfma_err"}, /* Polarity cfma err , */\
+ { 0x4c90, "int_polarity_flag_cfma_ack"}, /* Polarity cfma ack , */\
+ { 0x4ca0, "int_polarity_flag_cf_speakererror"}, /* Polarity coolflux speaker error , */\
+ { 0x4cb0, "int_polarity_flag_cold_started"}, /* Polarity cold started , */\
+ { 0x4cc0, "int_polarity_flag_watchdog_reset"}, /* Polarity watchdog reset , */\
+ { 0x4cd0, "int_polarity_flag_bod_vddd_nok"}, /* Polarity brown out detect , */\
+ { 0x4ce0, "int_polarity_flag_lp_detect_mode1"}, /* Polarity low power mode1 detect , */\
+ { 0x4cf0, "int_polarity_flag_clk_out_of_range"}, /* Polarity clock out of range , */\
+ { 0x5001, "vbat_prot_attack_time"}, /* Battery safeguard attack time , */\
+ { 0x5023, "vbat_prot_thlevel"}, /* Battery safeguard threshold voltage level , */\
+ { 0x5061, "vbat_prot_max_reduct"}, /* Battery safeguard maximum reduction , */\
+ { 0x5082, "vbat_prot_release_time"}, /* Battery safeguard release time , */\
+ { 0x50b1, "vbat_prot_hysterese"}, /* Battery Safeguard hysteresis , */\
+ { 0x50d0, "rst_min_vbat"}, /* Reset clipper - auto clear , */\
+ { 0x50e0, "sel_vbat"}, /* Battery voltage read out , */\
+ { 0x50f0, "bypass_clipper"}, /* Bypass HW clipper , */\
+ { 0x5130, "cf_mute"}, /* Coolflux firmware soft mute control , */\
+ { 0x5187, "cf_volume"}, /* CF firmware volume control , */\
+ { 0x5202, "ctrl_cc"}, /* Clip control setting , */\
+ { 0x5230, "ctrl_slopectrl"}, /* Enables slope control , */\
+ { 0x5240, "ctrl_slope"}, /* Slope speed setting (binary coded) , */\
+ { 0x5287, "gain"}, /* Amplifier gain , */\
+ { 0x5301, "dpsa_level"}, /* DPSA threshold levels , */\
+ { 0x5321, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x5340, "clipfast"}, /* Clock selection for HW clipper for battery safeguard, */\
+ { 0x5350, "bypass_lp"}, /* Bypass the low power filter inside temperature sensor, */\
+ { 0x5360, "first_order_mode"}, /* Overrule to 1st order mode of control stage when clipping, */\
+ { 0x5370, "icomp_engage"}, /* Engage of icomp , */\
+ { 0x5380, "ctrl_kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x5390, "icomp_engage_overrule"}, /* To overrule the functional icomp_engage signal during validation, */\
+ { 0x53a3, "ctrl_dem"}, /* Enable DEM icomp and DEM one bit dac , */\
+ { 0x5400, "bypass_ctrlloop"}, /* Switch amplifier into open loop configuration , */\
+ { 0x5413, "ctrl_dem_mismatch"}, /* Enable DEM icomp mismatch for testing , */\
+ { 0x5452, "dpsa_drive"}, /* Drive setting (binary coded) , */\
+ { 0x550a, "enbl_amp"}, /* Switch on the class-D power sections, each part of the analog sections can be switched on/off individually, */\
+ { 0x55b0, "enbl_engage"}, /* Enables/engage power stage and control loop , */\
+ { 0x55c0, "enbl_engage_pst"}, /* Enables/engage power stage and control loop , */\
+ { 0x5600, "pwm_shape"}, /* PWM shape , */\
+ { 0x5614, "pwm_delay"}, /* PWM delay bits to set the delay, clockd is 1/(k*2048*fs), */\
+ { 0x5660, "reclock_pwm"}, /* Reclock the PWM signal inside analog , */\
+ { 0x5670, "reclock_voltsense"}, /* Reclock the voltage sense PWM signal , */\
+ { 0x5680, "enbl_pwm_phase_shift"}, /* Control for PWM phase shift , */\
+ { 0x5690, "sel_pwm_delay_src"}, /* Control for selection for PWM delay line source , */\
+ { 0x56a1, "enbl_odd_up_even_down"}, /* Control for PWM reference sawtooth generartion , */\
+ { 0x5703, "ctrl_att_dcdc"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x5743, "ctrl_att_spkr"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x5781, "vamp_sel2"}, /* VAMP_OUT2 input selection , */\
+ { 0x5805, "zero_lvl"}, /* Low noise gain switch zero trigger level , */\
+ { 0x5861, "ctrl_fb_resistor"}, /* Select amplifier feedback resistor connection , */\
+ { 0x5881, "lownoisegain_mode"}, /* Low noise gain mode control , */\
+ { 0x5905, "threshold_lvl"}, /* Low noise gain switch trigger level , */\
+ { 0x5965, "hold_time"}, /* Low noise mode hold time before entering into low noise mode, */\
+ { 0x5a05, "lpm1_cal_offset"}, /* Low power mode1 detector ctrl cal_offset from gain module , */\
+ { 0x5a65, "lpm1_zero_lvl"}, /* Low power mode1 zero crossing detection level , */\
+ { 0x5ac1, "lpm1_mode"}, /* Low power mode control , */\
+ { 0x5b05, "lpm1_threshold_lvl"}, /* Low power mode1 amplitude trigger level , */\
+ { 0x5b65, "lpm1_hold_time"}, /* Low power mode hold time before entering into low power mode, */\
+ { 0x5bc0, "disable_low_power_mode"}, /* Low power mode1 detector control , */\
+ { 0x5c00, "enbl_minion"}, /* Enables minion (small) power stage , */\
+ { 0x5c13, "vth_vddpvbat"}, /* Select vddp-vbat threshold signal , */\
+ { 0x5c50, "lpen_vddpvbat"}, /* Select vddp-vbat filtred vs unfiltered compare , */\
+ { 0x5c61, "ctrl_rfb"}, /* Feedback resistor selection - I2C direct mode , */\
+ { 0x5d02, "tdm_source_mapping"}, /* TDM source mapping , */\
+ { 0x5d31, "tdm_sourcea_frame_sel"}, /* Sensed value A , */\
+ { 0x5d51, "tdm_sourceb_frame_sel"}, /* Sensed value B , */\
+ { 0x5d71, "tdm_source0_clip_sel"}, /* Clip information (analog /digital) for source0 , */\
+ { 0x5d91, "tdm_source1_clip_sel"}, /* Clip information (analog /digital) for source1 , */\
+ { 0x5e02, "rst_min_vbat_delay"}, /* Delay for reseting the min_vbat value inside HW Clipper (number of Fs pulses), */\
+ { 0x5e30, "rst_min_vbat_sel"}, /* Control for selecting reset signal for min_bat , */\
+ { 0x5f00, "hard_mute"}, /* Hard mute - PWM , */\
+ { 0x5f12, "ns_hp2ln_criterion"}, /* 0..7 zeroes at ns as threshold to swap from high_power to low_noise, */\
+ { 0x5f42, "ns_ln2hp_criterion"}, /* 0..7 zeroes at ns as threshold to swap from low_noise to high_power, */\
+ { 0x5f78, "spare_out"}, /* Spare out register , */\
+ { 0x600f, "spare_in"}, /* Spare IN , */\
+ { 0x6102, "cursense_comp_delay"}, /* Delay to allign compensation signal with current sense signal, */\
+ { 0x6130, "cursense_comp_sign"}, /* Polarity of compensation for current sense , */\
+ { 0x6140, "enbl_cursense_comp"}, /* Enable current sense compensation , */\
+ { 0x6152, "pwms_clip_lvl"}, /* Set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7005, "frst_boost_voltage"}, /* First Boost Voltage Level , */\
+ { 0x7065, "scnd_boost_voltage"}, /* Second Boost Voltage Level , */\
+ { 0x70c3, "boost_cur"}, /* Max Coil Current , */\
+ { 0x7101, "bst_slpcmplvl"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7120, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x7130, "boost_speed"}, /* Soft ramp up/down , */\
+ { 0x7140, "dcdcoff_mode"}, /* DCDC on/off , */\
+ { 0x7150, "dcdc_pwmonly"}, /* DCDC PWM only mode , */\
+ { 0x7160, "boost_track"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7170, "sel_dcdc_envelope_8fs"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x7180, "ignore_flag_voutcomp86"}, /* Determines the maximum PWM frequency be the most efficient in relation to the Booster inductor value, */\
+ { 0x7204, "boost_trip_lvl_1st"}, /* 1st adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7254, "boost_trip_lvl_2nd"}, /* 2nd adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x72a4, "boost_trip_lvl_track"}, /* Track adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x72f0, "enbl_trip_hyst"}, /* Enable hysteresis on booster trip levels , */\
+ { 0x7304, "boost_hold_time"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x7350, "dcdc_pfm20khz_limit"}, /* DCDC in PFM mode pwm mode is activated each 50us to force a pwm pulse, */\
+ { 0x7361, "dcdc_ctrl_maxzercnt"}, /* Number of zero current flags to count before going to pfm mode, */\
+ { 0x7386, "dcdc_vbat_delta_detect"}, /* Threshold before booster is reacting on a delta Vbat (in PFM mode) by temporarily switching to PWM mode, */\
+ { 0x73f0, "dcdc_ignore_vbat"}, /* Ignore an increase on Vbat , */\
+ { 0x7404, "bst_drive"}, /* Binary coded drive setting for boost converter power stage, */\
+ { 0x7451, "bst_scalecur"}, /* For testing direct control scale current , */\
+ { 0x7474, "bst_slopecur"}, /* For testing direct control slope current , */\
+ { 0x74c1, "bst_slope"}, /* Boost slope speed , */\
+ { 0x74e0, "bst_bypass_bstcur"}, /* Bypass control for boost current settings , */\
+ { 0x74f0, "bst_bypass_bstfoldback"}, /* Bypass control for boost foldback , */\
+ { 0x7500, "enbl_bst_engage"}, /* Enable power stage dcdc controller , */\
+ { 0x7510, "enbl_bst_hizcom"}, /* Enable hiz comparator , */\
+ { 0x7520, "enbl_bst_peakcur"}, /* Enable peak current , */\
+ { 0x7530, "enbl_bst_power"}, /* Enable line of the powerstage , */\
+ { 0x7540, "enbl_bst_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x7550, "enbl_bst_voutcomp"}, /* Enable vout comparators , */\
+ { 0x7560, "enbl_bst_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x7570, "enbl_bst_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x7580, "enbl_bst_windac"}, /* Enable window dac , */\
+ { 0x7595, "bst_windac"}, /* For testing direct control windac , */\
+ { 0x7600, "boost_alg"}, /* Control for boost adaptive loop gain , */\
+ { 0x7611, "boost_loopgain"}, /* DCDC boost loopgain setting , */\
+ { 0x7631, "bst_freq"}, /* DCDC boost frequency control , */\
+ { 0x7650, "enbl_bst_peak2avg"}, /* Enable boost peak2avg functionality , */\
+ { 0x7660, "bst_use_new_zercur_detect"}, /* Enable new zero current detection for boost control, */\
+ { 0x8001, "sel_clk_cs"}, /* Current sense clock duty cycle control , */\
+ { 0x8021, "micadc_speed"}, /* Current sense clock for MiCADC selection - 32/44.1/48 KHz Fs band only, */\
+ { 0x8040, "cs_gain_control"}, /* Current sense gain control , */\
+ { 0x8050, "cs_bypass_gc"}, /* Bypasses the CS gain correction , */\
+ { 0x8060, "invertpwm"}, /* Current sense common mode feedback pwm invert control, */\
+ { 0x8087, "cs_gain"}, /* Current sense gain , */\
+ { 0x8105, "cs_ktemp"}, /* Current sense temperature compensation trimming (1 - VALUE*TEMP) * signal, */\
+ { 0x8164, "cs_ktemp2"}, /* Second order temperature compensation coefficient , */\
+ { 0x81b0, "enbl_cs_adc"}, /* Enable current sense ADC , */\
+ { 0x81c0, "enbl_cs_inn1"}, /* Enable connection of current sense negative1 , */\
+ { 0x81d0, "enbl_cs_inn2"}, /* Enable connection of current sense negative2 , */\
+ { 0x81e0, "enbl_cs_inp1"}, /* Enable connection of current sense positive1 , */\
+ { 0x81f0, "enbl_cs_inp2"}, /* Enable connection of current sense positive2 , */\
+ { 0x8200, "enbl_cs_ldo"}, /* Enable current sense LDO , */\
+ { 0x8210, "enbl_cs_vbatldo"}, /* Enable of current sense LDO , */\
+ { 0x8220, "cs_adc_bsoinv"}, /* Bitstream inversion for current sense ADC , */\
+ { 0x8231, "cs_adc_hifreq"}, /* Frequency mode current sense ADC , */\
+ { 0x8250, "cs_adc_nortz"}, /* Return to zero for current sense ADC , */\
+ { 0x8263, "cs_adc_offset"}, /* Micadc ADC offset setting , */\
+ { 0x82a0, "cs_adc_slowdel"}, /* Select delay for current sense ADC (internal decision circuitry), */\
+ { 0x82b4, "cs_adc_gain"}, /* Gain setting for current sense ADC (two's complement), */\
+ { 0x8300, "cs_resonator_enable"}, /* Enable for resonator to improve SRN , */\
+ { 0x8310, "cs_classd_tran_skip"}, /* Skip current sense connection during a classD amplifier transition, */\
+ { 0x8320, "cs_inn_short"}, /* Short current sense negative to common mode , */\
+ { 0x8330, "cs_inp_short"}, /* Short current sense positive to common mode , */\
+ { 0x8340, "cs_ldo_bypass"}, /* Bypass current sense LDO , */\
+ { 0x8350, "cs_ldo_pulldown"}, /* Pull down current sense LDO, only valid if enbl_cs_ldo is high, */\
+ { 0x8364, "cs_ldo_voset"}, /* Current sense LDO voltage level setting (two's complement), */\
+ { 0x8800, "ctrl_vs_igen_supply"}, /* Control for selecting supply for VS current generator, */\
+ { 0x8810, "ctrl_vs_force_div2"}, /* Select input resistive divider gain , */\
+ { 0x8820, "enbl_dc_filter"}, /* Control for enabling the DC blocking filter for voltage and current sense, */\
+ { 0x8901, "volsense_pwm_sel"}, /* Voltage sense source selection control , */\
+ { 0x8920, "vs_gain_control"}, /* Voltage sense gain control , */\
+ { 0x8930, "vs_bypass_gc"}, /* Bypasses the VS gain correction , */\
+ { 0x8940, "vs_adc_bsoinv"}, /* Bitstream inversion for voltage sense ADC , */\
+ { 0x8950, "vs_adc_nortz"}, /* Return to zero for voltage sense ADC , */\
+ { 0x8960, "vs_adc_slowdel"}, /* Select delay for voltage sense ADC (internal decision circuitry), */\
+ { 0x8970, "vs_classd_tran_skip"}, /* Skip voltage sense connection during a classD amplifier transition, */\
+ { 0x8987, "vs_gain"}, /* Voltage sense gain , */\
+ { 0x8a00, "vs_inn_short"}, /* Short voltage sense negative to common mode , */\
+ { 0x8a10, "vs_inp_short"}, /* Short voltage sense positive to common mode , */\
+ { 0x8a20, "vs_ldo_bypass"}, /* Bypass voltage sense LDO , */\
+ { 0x8a30, "vs_ldo_pulldown"}, /* Pull down voltage sense LDO, only valid if enbl_cs_ldo is high, */\
+ { 0x8a44, "vs_ldo_voset"}, /* Voltage sense LDO voltage level setting (two's complement), */\
+ { 0x8a90, "enbl_vs_adc"}, /* Enable voltage sense ADC , */\
+ { 0x8aa0, "enbl_vs_inn1"}, /* Enable connection of voltage sense negative1 , */\
+ { 0x8ab0, "enbl_vs_inn2"}, /* Enable connection of voltage sense negative2 , */\
+ { 0x8ac0, "enbl_vs_inp1"}, /* Enable connection of voltage sense positive1 , */\
+ { 0x8ad0, "enbl_vs_inp2"}, /* Enable connection of voltage sense positive2 , */\
+ { 0x8ae0, "enbl_vs_ldo"}, /* Enable voltage sense LDO , */\
+ { 0x8af0, "enbl_vs_vbatldo"}, /* Enable of voltage sense LDO , */\
+ { 0x9000, "cf_rst_dsp"}, /* Reset for Coolflux DSP , */\
+ { 0x9011, "cf_dmem"}, /* Target memory for CFMA using I2C interface , */\
+ { 0x9030, "cf_aif"}, /* Auto increment , */\
+ { 0x9040, "cf_int"}, /* Coolflux Interrupt - auto clear , */\
+ { 0x9050, "cf_cgate_off"}, /* Coolflux clock gating disabling control , */\
+ { 0x9080, "cf_req_cmd"}, /* Firmware event request rpc command , */\
+ { 0x9090, "cf_req_reset"}, /* Firmware event request reset restart , */\
+ { 0x90a0, "cf_req_mips"}, /* Firmware event request short on mips , */\
+ { 0x90b0, "cf_req_mute_ready"}, /* Firmware event request mute sequence ready , */\
+ { 0x90c0, "cf_req_volume_ready"}, /* Firmware event request volume ready , */\
+ { 0x90d0, "cf_req_damage"}, /* Firmware event request speaker damage detected , */\
+ { 0x90e0, "cf_req_calibrate_ready"}, /* Firmware event request calibration completed , */\
+ { 0x90f0, "cf_req_reserved"}, /* Firmware event request reserved , */\
+ { 0x910f, "cf_madd"}, /* CF memory address , */\
+ { 0x920f, "cf_mema"}, /* Activate memory access , */\
+ { 0x9307, "cf_err"}, /* CF error flags , */\
+ { 0x9380, "cf_ack_cmd"}, /* Firmware event acknowledge rpc command , */\
+ { 0x9390, "cf_ack_reset"}, /* Firmware event acknowledge reset restart , */\
+ { 0x93a0, "cf_ack_mips"}, /* Firmware event acknowledge short on mips , */\
+ { 0x93b0, "cf_ack_mute_ready"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x93c0, "cf_ack_volume_ready"}, /* Firmware event acknowledge volume ready , */\
+ { 0x93d0, "cf_ack_damage"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x93e0, "cf_ack_calibrate_ready"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x93f0, "cf_ack_reserved"}, /* Firmware event acknowledge reserved , */\
+ { 0xa007, "mtpkey1"}, /* KEY1 To access KEY1 protected registers 0x5A/90d (default for engineering), */\
+ { 0xa107, "mtpkey2"}, /* KEY2 to access KEY2 protected registers, customer key, */\
+ { 0xa200, "key01_locked"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "key02_locked"}, /* Indicates KEY2 is locked , */\
+ { 0xa302, "mtp_man_address_in"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0xa330, "man_copy_mtp_to_iic"}, /* Start copying single word from MTP to I2C mtp register - auto clear, */\
+ { 0xa340, "man_copy_iic_to_mtp"}, /* Start copying single word from I2C mtp register to mtp - auto clear, */\
+ { 0xa350, "auto_copy_mtp_to_iic"}, /* Start copying all the data from mtp to I2C mtp registers - auto clear, */\
+ { 0xa360, "auto_copy_iic_to_mtp"}, /* Start copying data from I2C mtp registers to mtp - auto clear, */\
+ { 0xa400, "faim_set_clkws"}, /* Sets the FaIM controller clock wait state register, */\
+ { 0xa410, "faim_sel_evenrows"}, /* All even rows of the FaIM are selected, active high, */\
+ { 0xa420, "faim_sel_oddrows"}, /* All odd rows of the FaIM are selected, all rows in combination with sel_evenrows, */\
+ { 0xa430, "faim_program_only"}, /* Skip the erase access at wr_faim command (write-program-marginread), */\
+ { 0xa440, "faim_erase_only"}, /* Skip the program access at wr_faim command (write-erase-marginread), */\
+ { 0xa50f, "mtp_man_data_out_msb"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "mtp_man_data_out_lsb"}, /* LSB word of MTP manual read data , */\
+ { 0xa70f, "mtp_man_data_in_msb"}, /* MSB word of write data for MTP manual write , */\
+ { 0xa80f, "mtp_man_data_in_lsb"}, /* LSB word of write data for MTP manual write , */\
+ { 0xb000, "bypass_ocpcounter"}, /* Bypass OCP Counter , */\
+ { 0xb010, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0xb020, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0xb030, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0xb040, "bypass_otp"}, /* Bypass OTP , */\
+ { 0xb050, "bypass_lost_clk"}, /* Bypass lost clock detector , */\
+ { 0xb060, "ctrl_vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0xb070, "disable_main_ctrl_change_prot"}, /* Disable main control change protection , */\
+ { 0xb087, "ocp_threshold"}, /* OCP threshold level , */\
+ { 0xb108, "ext_temp"}, /* External temperature (C) , */\
+ { 0xb190, "ext_temp_sel"}, /* Select temp Speaker calibration , */\
+ { 0xc000, "use_direct_ctrls"}, /* Direct control to overrule several functions for testing, */\
+ { 0xc010, "rst_datapath"}, /* Direct control for datapath reset , */\
+ { 0xc020, "rst_cgu"}, /* Direct control for cgu reset , */\
+ { 0xc038, "enbl_ref"}, /* Switch on the analog references, each part of the references can be switched on/off individually, */\
+ { 0xc0c0, "use_direct_vs_ctrls"}, /* Voltage sense direct control to overrule several functions for testing, */\
+ { 0xc0d0, "enbl_ringo"}, /* Enable the ring oscillator for test purpose , */\
+ { 0xc0e0, "use_direct_clk_ctrl"}, /* Direct clock control to overrule several functions for testing, */\
+ { 0xc0f0, "use_direct_pll_ctrl"}, /* Direct PLL control to overrule several functions for testing, */\
+ { 0xc100, "enbl_tsense"}, /* Temperature sensor enable control - I2C direct mode, */\
+ { 0xc110, "tsense_hibias"}, /* Bit to set the biasing in temp sensor to high , */\
+ { 0xc120, "enbl_flag_vbg"}, /* Enable flagging of bandgap out of control , */\
+ { 0xc20f, "abist_offset"}, /* Offset control for ABIST testing (two's complement), */\
+ { 0xc300, "bypasslatch"}, /* Bypass latch , */\
+ { 0xc311, "sourcea"}, /* Set OUTA to , */\
+ { 0xc331, "sourceb"}, /* Set OUTB to , */\
+ { 0xc350, "inverta"}, /* Invert pwma test signal , */\
+ { 0xc360, "invertb"}, /* Invert pwmb test signal , */\
+ { 0xc374, "pulselength"}, /* Pulse length setting test input for amplifier (clock d - k*2048*fs), */\
+ { 0xc3d0, "test_abistfft_enbl"}, /* Enable ABIST with FFT on Coolflux DSP , */\
+ { 0xc400, "bst_bypasslatch"}, /* Bypass latch in boost converter , */\
+ { 0xc411, "bst_source"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0xc430, "bst_invertb"}, /* Invert pwmbst test signal , */\
+ { 0xc444, "bst_pulselength"}, /* Pulse length setting test input for boost converter , */\
+ { 0xc490, "test_bst_ctrlsthv"}, /* Test mode for boost control stage , */\
+ { 0xc4a0, "test_bst_iddq"}, /* IDDQ testing in power stage of boost converter , */\
+ { 0xc4b0, "test_bst_rdson"}, /* RDSON testing - boost power stage , */\
+ { 0xc4c0, "test_bst_cvi"}, /* CVI testing - boost power stage , */\
+ { 0xc4d0, "test_bst_ocp"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0), For new ocp (ctrl_reversebst is 1), */\
+ { 0xc4e0, "test_bst_sense"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0xc500, "test_cvi"}, /* Analog BIST, switch choose which transistor will be used as current source (also cross coupled sources possible), */\
+ { 0xc510, "test_discrete"}, /* Test function noise measurement , */\
+ { 0xc520, "test_iddq"}, /* Set the power stages in iddq mode for gate stress., */\
+ { 0xc530, "test_rdson"}, /* Analog BIST, switch to enable Rdson measurement , */\
+ { 0xc540, "test_sdelta"}, /* Analog BIST, noise test , */\
+ { 0xc550, "test_enbl_cs"}, /* Enable for digimux mode of current sense , */\
+ { 0xc560, "test_enbl_vs"}, /* Enable for digimux mode of voltage sense , */\
+ { 0xc570, "enbl_pwm_dcc"}, /* Enables direct control of pwm duty cycle for DCDC power stage, */\
+ { 0xc583, "pwm_dcc_cnt"}, /* Control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0xc5c0, "enbl_ldo_stress"}, /* Enable stress of internal supply voltages powerstages, */\
+ { 0xc607, "digimuxa_sel"}, /* DigimuxA input selection control routed to DATAO , */\
+ { 0xc687, "digimuxb_sel"}, /* DigimuxB input selection control routed to INT , */\
+ { 0xc707, "digimuxc_sel"}, /* DigimuxC input selection control routed to ADS1 , */\
+ { 0xc800, "enbl_anamux1"}, /* Enable anamux1 , */\
+ { 0xc810, "enbl_anamux2"}, /* Enable anamux2 , */\
+ { 0xc820, "enbl_anamux3"}, /* Enable anamux3 , */\
+ { 0xc830, "enbl_anamux4"}, /* Enable anamux4 , */\
+ { 0xc844, "anamux1"}, /* Anamux selection control - anamux on TEST1 , */\
+ { 0xc894, "anamux2"}, /* Anamux selection control - anamux on TEST2 , */\
+ { 0xc903, "anamux3"}, /* Anamux selection control - anamux on TEST3 , */\
+ { 0xc943, "anamux4"}, /* Anamux selection control - anamux on TEST4 , */\
+ { 0xca05, "pll_seli"}, /* PLL SELI - I2C direct PLL control mode only , */\
+ { 0xca64, "pll_selp"}, /* PLL SELP - I2C direct PLL control mode only , */\
+ { 0xcab3, "pll_selr"}, /* PLL SELR - I2C direct PLL control mode only , */\
+ { 0xcaf0, "pll_frm"}, /* PLL free running mode control; 1 in TCB direct control mode, else this control bit, */\
+ { 0xcb09, "pll_ndec"}, /* PLL NDEC - I2C direct PLL control mode only , */\
+ { 0xcba0, "pll_mdec_msb"}, /* MSB of PLL_mdec - I2C direct PLL control mode only, */\
+ { 0xcbb0, "enbl_pll"}, /* Enables PLL in I2C direct PLL control mode only , */\
+ { 0xcbc0, "enbl_osc"}, /* Enables OSC1M in I2C direct control mode only , */\
+ { 0xcbd0, "pll_bypass"}, /* PLL bypass control in I2C direct PLL control mode only, */\
+ { 0xcbe0, "pll_directi"}, /* PLL directi control in I2C direct PLL control mode only, */\
+ { 0xcbf0, "pll_directo"}, /* PLL directo control in I2C direct PLL control mode only, */\
+ { 0xcc0f, "pll_mdec_lsb"}, /* Bits 15..0 of PLL MDEC are I2C direct PLL control mode only, */\
+ { 0xcd06, "pll_pdec"}, /* PLL PDEC - I2C direct PLL control mode only , */\
+ { 0xce0f, "tsig_freq_lsb"}, /* Internal sinus test generator frequency control , */\
+ { 0xcf02, "tsig_freq_msb"}, /* Select internal sinus test generator, frequency control msb bits, */\
+ { 0xcf33, "tsig_gain"}, /* Test signal gain , */\
+ { 0xd000, "adc10_reset"}, /* Reset for ADC10 - I2C direct control mode , */\
+ { 0xd011, "adc10_test"}, /* Test mode selection signal for ADC10 - I2C direct control mode, */\
+ { 0xd032, "adc10_sel"}, /* Select the input to convert for ADC10 - I2C direct control mode, */\
+ { 0xd064, "adc10_prog_sample"}, /* ADC10 program sample setting - I2C direct control mode, */\
+ { 0xd0b0, "adc10_enbl"}, /* Enable ADC10 - I2C direct control mode , */\
+ { 0xd0c0, "bypass_lp_vbat"}, /* Bypass control for Low pass filter in batt sensor , */\
+ { 0xd109, "data_adc10_tempbat"}, /* ADC 10 data output data for testing , */\
+ { 0xd201, "clkdiv_audio_sel"}, /* Audio clock divider selection in direct clock control mode, */\
+ { 0xd221, "clkdiv_muxa_sel"}, /* DCDC MUXA clock divider selection in direct clock control mode, */\
+ { 0xd241, "clkdiv_muxb_sel"}, /* DCDC MUXB clock divider selection in direct clock control mode, */\
+ { 0xd301, "int_ehs"}, /* Speed/load setting for INT IO cell, clk or data mode range (see SLIMMF IO datasheet), */\
+ { 0xd321, "datao_ehs"}, /* Speed/load setting for DATAO IO cell, clk or data mode range (see SLIMMF IO datasheet), */\
+ { 0xd340, "hs_mode"}, /* I2C high speed mode control , */\
+ { 0xd407, "ctrl_digtoana_hidden"}, /* Spare digital to analog control bits - Hidden , */\
+ { 0xd480, "enbl_clk_out_of_range"}, /* Clock out of range , */\
+ { 0xd491, "sel_wdt_clk"}, /* Watch dog clock divider settings , */\
+ { 0xd4b0, "inject_tsig"}, /* Control bit to switch to internal sinus test generator, */\
+ { 0xd500, "source_in_testmode"}, /* TDM source in test mode (return only current and voltage sense), */\
+ { 0xd510, "gainatt_feedback"}, /* Gainatt feedback to tdm , */\
+ { 0xd522, "test_parametric_io"}, /* Test IO parametric , */\
+ { 0xd550, "ctrl_bst_clk_lp1"}, /* Boost clock control in low power mode1 , */\
+ { 0xd561, "test_spare_out1"}, /* Test spare out 1 , */\
+ { 0xd580, "bst_dcmbst"}, /* DCM boost , */\
+ { 0xd593, "test_spare_out2"}, /* Test spare out 2 , */\
+ { 0xe00f, "sw_profile"}, /* Software profile data , */\
+ { 0xe10f, "sw_vstep"}, /* Software vstep information , */\
+ { 0xf000, "calibration_onetime"}, /* Calibration schedule , */\
+ { 0xf010, "calibr_ron_done"}, /* Calibration Ron executed , */\
+ { 0xf020, "calibr_dcdc_api_calibrate"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "calibr_dcdc_delta_sign"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "calibr_dcdc_delta"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "calibr_speaker_info"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf105, "calibr_vout_offset"}, /* DCDC offset calibration 2's complement (key1 protected), */\
+ { 0xf163, "calibr_vbg_trim"}, /* Bandgap trimming control , */\
+ { 0xf203, "calibr_gain"}, /* HW gain module (2's complement) , */\
+ { 0xf245, "calibr_offset"}, /* Offset for amplifier, HW gain module (2's complement), */\
+ { 0xf307, "calibr_gain_vs"}, /* Voltage sense gain , */\
+ { 0xf387, "calibr_gain_cs"}, /* Current sense gain (signed two's complement format), */\
+ { 0xf40f, "mtpdata4"}, /* MTP4 data , */\
+ { 0xf50f, "calibr_R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xf60f, "mtpdata6"}, /* MTP6 data , */\
+ { 0xf706, "ctrl_offset_a"}, /* Offset of level shifter A , */\
+ { 0xf786, "ctrl_offset_b"}, /* Offset of amplifier level shifter B , */\
+ { 0xf806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0xf870, "htol_iic_addr_en"}, /* HTOL I2C address enable control , */\
+ { 0xf884, "calibr_temp_offset"}, /* Temperature offset 2's compliment (key1 protected), */\
+ { 0xf8d2, "calibr_temp_gain"}, /* Temperature gain 2's compliment (key1 protected) , */\
+ { 0xf900, "mtp_lock_dcdcoff_mode"}, /* Disable functionality of dcdcoff_mode bit , */\
+ { 0xf910, "mtp_lock_enbl_coolflux"}, /* Disable functionality of enbl_coolflux bit , */\
+ { 0xf920, "mtp_lock_bypass_clipper"}, /* Disable function bypass_clipper , */\
+ { 0xf930, "mtp_enbl_pwm_delay_clock_gating"}, /* PWM delay clock auto gating , */\
+ { 0xf940, "mtp_enbl_ocp_clock_gating"}, /* OCP clock auto gating , */\
+ { 0xf950, "mtp_gate_cgu_clock_for_test"}, /* CGU test clock control , */\
+ { 0xf987, "type_bits_fw"}, /* MTP control for firmware features - See Firmware I2C API document for details, */\
+ { 0xfa0f, "mtpdataA"}, /* MTPdataA , */\
+ { 0xfb0f, "mtpdataB"}, /* MTPdataB , */\
+ { 0xfc0f, "mtpdataC"}, /* MTPdataC , */\
+ { 0xfd0f, "mtpdataD"}, /* MTPdataD , */\
+ { 0xfe0f, "mtpdataE"}, /* MTPdataE , */\
+ { 0xff07, "calibr_osc_delta_ndiv"}, /* Calibration data for OSC1M, signed number representation, */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+enum tfa9894_irq {
+ tfa9894_irq_max = -1,
+ tfa9894_irq_all = -1 /* all irqs */};
+
+#define TFA9894_IRQ_NAMETABLE static tfaIrqName_t Tfa9894IrqNames[]= {\
+};
+#endif /* _TFA9894_TFAFIELDNAMES_H */
diff --git a/inc/tfa9894_tfafieldnames_N2.h b/inc/tfa9894_tfafieldnames_N2.h
new file mode 100644
index 0000000..f4ff8af
--- /dev/null
+++ b/inc/tfa9894_tfafieldnames_N2.h
@@ -0,0 +1,1123 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9894_TFAFIELDNAMES_N2_H
+#define _TFA9894_TFAFIELDNAMES_N2_H
+
+
+#define TFA9894N2_I2CVERSION 25.0
+
+typedef enum nxpTfa9894N2BfEnumList {
+ TFA9894N2_BF_PWDN = 0x0000, /*!< Powerdown control */
+ TFA9894N2_BF_I2CR = 0x0010, /*!< I2C Reset - Auto clear */
+ TFA9894N2_BF_CFE = 0x0020, /*!< Enable CoolFlux DSP */
+ TFA9894N2_BF_AMPE = 0x0030, /*!< Enable Amplifier */
+ TFA9894N2_BF_DCA = 0x0040, /*!< Enable DCDC Boost converter */
+ TFA9894N2_BF_SBSL = 0x0050, /*!< Coolflux configured */
+ TFA9894N2_BF_AMPC = 0x0060, /*!< CoolFlux control over amplifier */
+ TFA9894N2_BF_INTP = 0x0071, /*!< Interrupt config */
+ TFA9894N2_BF_FSSSEL= 0x0090, /*!< Audio sample reference */
+ TFA9894N2_BF_BYPOCP= 0x00a0, /*!< Bypass OCP */
+ TFA9894N2_BF_TSTOCP= 0x00b0, /*!< OCP testing control */
+ TFA9894N2_BF_BSSS = 0x00c0, /*!< Vbat protection steepness */
+ TFA9894N2_BF_HPFBYP= 0x00d0, /*!< Bypass High Pass Filter */
+ TFA9894N2_BF_DPSA = 0x00e0, /*!< Enable DPSA */
+ TFA9894N2_BF_AMPINSEL= 0x0101, /*!< Amplifier input selection */
+ TFA9894N2_BF_MANSCONF= 0x0120, /*!< Device I2C settings configured */
+ TFA9894N2_BF_MANCOLD= 0x0130, /*!< Execute cold start */
+ TFA9894N2_BF_MANROBOD= 0x0140, /*!< Reaction on BOD */
+ TFA9894N2_BF_BODE = 0x0150, /*!< Enable BOD (only in direct control mode) */
+ TFA9894N2_BF_BODHYS= 0x0160, /*!< Enable Hysteresis of BOD */
+ TFA9894N2_BF_BODFILT= 0x0171, /*!< BOD filter */
+ TFA9894N2_BF_BODTHLVL= 0x0191, /*!< BOD threshold */
+ TFA9894N2_BF_MUTETO= 0x01b0, /*!< Time out SB mute sequence */
+ TFA9894N2_BF_MANWDE= 0x01c0, /*!< Watchdog enable */
+ TFA9894N2_BF_OPENMTP= 0x01e0, /*!< Control for FAIM protection */
+ TFA9894N2_BF_FAIMVBGOVRRL= 0x01f0, /*!< Overrule the enabling of VBG for faim erase/write access */
+ TFA9894N2_BF_AUDFS = 0x0203, /*!< Audio sample rate Fs */
+ TFA9894N2_BF_INPLEV= 0x0240, /*!< TDM output attenuation */
+ TFA9894N2_BF_FRACTDEL= 0x0255, /*!< Current sense fractional delay */
+ TFA9894N2_BF_TDMPRES= 0x02b1, /*!< Control for HW manager */
+ TFA9894N2_BF_AMPOCRT= 0x02d2, /*!< Amplifier on-off criteria for shutdown */
+ TFA9894N2_BF_REV = 0x030f, /*!< Revision info */
+ TFA9894N2_BF_REFCKEXT= 0x0401, /*!< PLL external reference clock */
+ TFA9894N2_BF_REFCKSEL= 0x0420, /*!< PLL internal reference clock */
+ TFA9894N2_BF_MCLKSEL= 0x0432, /*!< Master Clock Selection */
+ TFA9894N2_BF_MANAOOSC= 0x0460, /*!< Internal OSC1M off at PWDN */
+ TFA9894N2_BF_ACKCLDDIS= 0x0470, /*!< Automatic PLL reference clock selection for cold start */
+ TFA9894N2_BF_FSSYNCEN= 0x0480, /*!< Enable FS synchronisation for clock divider */
+ TFA9894N2_BF_CLKREFSYNCEN= 0x0490, /*!< Enable PLL reference clock synchronisation for clock divider */
+ TFA9894N2_BF_PLLSTUP= 0x04a0, /*!< PLL startup time configuration */
+ TFA9894N2_BF_CGUSYNCDCG= 0x0500, /*!< Clock gating control for CGU synchronisation module */
+ TFA9894N2_BF_SPKSSEN= 0x0510, /*!< Enable speaker sub-system */
+ TFA9894N2_BF_MTPSSEN= 0x0520, /*!< Enable FAIM sub-system */
+ TFA9894N2_BF_WDTCLKEN= 0x0530, /*!< Enable Coolflux watchdog clock */
+ TFA9894N2_BF_VDDS = 0x1000, /*!< POR */
+ TFA9894N2_BF_PLLS = 0x1010, /*!< PLL Lock */
+ TFA9894N2_BF_OTDS = 0x1020, /*!< OTP alarm */
+ TFA9894N2_BF_OVDS = 0x1030, /*!< OVP alarm */
+ TFA9894N2_BF_UVDS = 0x1040, /*!< UVP alarm */
+ TFA9894N2_BF_OCDS = 0x1050, /*!< OCP amplifier (sticky register, clear on read) */
+ TFA9894N2_BF_CLKS = 0x1060, /*!< Clocks stable */
+ TFA9894N2_BF_MTPB = 0x1070, /*!< MTP busy */
+ TFA9894N2_BF_NOCLK = 0x1080, /*!< Lost clock */
+ TFA9894N2_BF_ACS = 0x1090, /*!< Cold Start */
+ TFA9894N2_BF_WDS = 0x10a0, /*!< Watchdog */
+ TFA9894N2_BF_SWS = 0x10b0, /*!< Amplifier engage */
+ TFA9894N2_BF_AMPS = 0x10c0, /*!< Amplifier enable */
+ TFA9894N2_BF_AREFS = 0x10d0, /*!< References enable */
+ TFA9894N2_BF_ADCCR = 0x10e0, /*!< Control ADC */
+ TFA9894N2_BF_BODNOK= 0x10f0, /*!< BOD Flag - VDD NOT OK */
+ TFA9894N2_BF_DCIL = 0x1100, /*!< DCDC current limiting */
+ TFA9894N2_BF_DCDCA = 0x1110, /*!< DCDC active (sticky register, clear on read) */
+ TFA9894N2_BF_DCOCPOK= 0x1120, /*!< DCDC OCP nmos (sticky register, clear on read) */
+ TFA9894N2_BF_DCHVBAT= 0x1140, /*!< DCDC level 1x */
+ TFA9894N2_BF_DCH114= 0x1150, /*!< DCDC level 1.14x */
+ TFA9894N2_BF_DCH107= 0x1160, /*!< DCDC level 1.07x */
+ TFA9894N2_BF_SPKS = 0x1170, /*!< Speaker status */
+ TFA9894N2_BF_CLKOOR= 0x1180, /*!< External clock status */
+ TFA9894N2_BF_MANALARM= 0x1190, /*!< Alarm state */
+ TFA9894N2_BF_TDMERR= 0x11a0, /*!< TDM error */
+ TFA9894N2_BF_TDMLUTER= 0x11b0, /*!< TDM lookup table error */
+ TFA9894N2_BF_NOAUDCLK= 0x11c0, /*!< Lost Audio clock */
+ TFA9894N2_BF_OCPOAP= 0x1200, /*!< OCPOK pmos A */
+ TFA9894N2_BF_OCPOAN= 0x1210, /*!< OCPOK nmos A */
+ TFA9894N2_BF_OCPOBP= 0x1220, /*!< OCPOK pmos B */
+ TFA9894N2_BF_OCPOBN= 0x1230, /*!< OCPOK nmos B */
+ TFA9894N2_BF_CLIPS = 0x1240, /*!< Amplifier clipping */
+ TFA9894N2_BF_MANMUTE= 0x1250, /*!< Audio mute sequence */
+ TFA9894N2_BF_MANOPER= 0x1260, /*!< Device in Operating state */
+ TFA9894N2_BF_LP1 = 0x1270, /*!< Low power MODE1 detection */
+ TFA9894N2_BF_LA = 0x1280, /*!< Low amplitude detection */
+ TFA9894N2_BF_VDDPH = 0x1290, /*!< VDDP greater than VBAT flag */
+ TFA9894N2_BF_TDMSTAT= 0x1302, /*!< TDM Status bits */
+ TFA9894N2_BF_MANSTATE= 0x1333, /*!< Device Manager status */
+ TFA9894N2_BF_DCMODE= 0x13b1, /*!< DCDC mode status bits */
+ TFA9894N2_BF_BATS = 0x1509, /*!< Battery voltage (V) */
+ TFA9894N2_BF_TEMPS = 0x1608, /*!< IC Temperature (C) */
+ TFA9894N2_BF_VDDPS = 0x1709, /*!< IC VDDP voltage (1023*VDDP/13V) */
+ TFA9894N2_BF_TDME = 0x2000, /*!< Enable interface */
+ TFA9894N2_BF_TDMSPKE= 0x2010, /*!< Control audio tdm channel in sink0 */
+ TFA9894N2_BF_TDMDCE= 0x2020, /*!< Control audio tdm channel in sink1 */
+ TFA9894N2_BF_TDMCSE= 0x2030, /*!< Source 0 enable */
+ TFA9894N2_BF_TDMVSE= 0x2040, /*!< Source 1 enable */
+ TFA9894N2_BF_TDMCFE= 0x2050, /*!< Source 2 enable */
+ TFA9894N2_BF_TDMCF2E= 0x2060, /*!< Source 3 enable */
+ TFA9894N2_BF_TDMCLINV= 0x2070, /*!< Reception data to BCK clock */
+ TFA9894N2_BF_TDMFSPOL= 0x2080, /*!< FS polarity */
+ TFA9894N2_BF_TDMDEL= 0x2090, /*!< Data delay to FS */
+ TFA9894N2_BF_TDMADJ= 0x20a0, /*!< Data adjustment */
+ TFA9894N2_BF_TDMOOMP= 0x20b1, /*!< Received audio compression */
+ TFA9894N2_BF_TDMNBCK= 0x2103, /*!< TDM NBCK - Bit clock to FS ratio */
+ TFA9894N2_BF_TDMFSLN= 0x2143, /*!< FS length (master mode only) */
+ TFA9894N2_BF_TDMSLOTS= 0x2183, /*!< N-slots in Frame */
+ TFA9894N2_BF_TDMTXDFO= 0x21c1, /*!< Format unused bits */
+ TFA9894N2_BF_TDMTXUS0= 0x21e1, /*!< Format unused slots DATAO */
+ TFA9894N2_BF_TDMSLLN= 0x2204, /*!< N-bits in slot */
+ TFA9894N2_BF_TDMBRMG= 0x2254, /*!< N-bits remaining */
+ TFA9894N2_BF_TDMSSIZE= 0x22a4, /*!< Sample size per slot */
+ TFA9894N2_BF_TDMSPKS= 0x2303, /*!< TDM slot for sink 0 */
+ TFA9894N2_BF_TDMDCS= 0x2343, /*!< TDM slot for sink 1 */
+ TFA9894N2_BF_TDMCFSEL= 0x2381, /*!< TDM Source 2 data selection */
+ TFA9894N2_BF_TDMCF2SEL= 0x23a1, /*!< TDM Source 3 data selection */
+ TFA9894N2_BF_TDMCSS= 0x2403, /*!< Slot position of source 0 data */
+ TFA9894N2_BF_TDMVSS= 0x2443, /*!< Slot position of source 1 data */
+ TFA9894N2_BF_TDMCFS= 0x2483, /*!< Slot position of source 2 data */
+ TFA9894N2_BF_TDMCF2S= 0x24c3, /*!< Slot position of source 3 data */
+ TFA9894N2_BF_ISTVDDS= 0x4000, /*!< Status POR */
+ TFA9894N2_BF_ISTBSTOC= 0x4010, /*!< Status DCDC OCP */
+ TFA9894N2_BF_ISTOTDS= 0x4020, /*!< Status OTP alarm */
+ TFA9894N2_BF_ISTOCPR= 0x4030, /*!< Status OCP alarm */
+ TFA9894N2_BF_ISTUVDS= 0x4040, /*!< Status UVP alarm */
+ TFA9894N2_BF_ISTMANALARM= 0x4050, /*!< Status manager alarm state */
+ TFA9894N2_BF_ISTTDMER= 0x4060, /*!< Status TDM error */
+ TFA9894N2_BF_ISTNOCLK= 0x4070, /*!< Status lost clock */
+ TFA9894N2_BF_ISTCFMER= 0x4080, /*!< Status cfma error */
+ TFA9894N2_BF_ISTCFMAC= 0x4090, /*!< Status cfma ack */
+ TFA9894N2_BF_ISTSPKS= 0x40a0, /*!< Status coolflux speaker error */
+ TFA9894N2_BF_ISTACS= 0x40b0, /*!< Status cold started */
+ TFA9894N2_BF_ISTWDS= 0x40c0, /*!< Status watchdog reset */
+ TFA9894N2_BF_ISTBODNOK= 0x40d0, /*!< Status brown out detect */
+ TFA9894N2_BF_ISTLP1= 0x40e0, /*!< Status low power mode1 detect */
+ TFA9894N2_BF_ISTCLKOOR= 0x40f0, /*!< Status clock out of range */
+ TFA9894N2_BF_ICLVDDS= 0x4400, /*!< Clear POR */
+ TFA9894N2_BF_ICLBSTOC= 0x4410, /*!< Clear DCDC OCP */
+ TFA9894N2_BF_ICLOTDS= 0x4420, /*!< Clear OTP alarm */
+ TFA9894N2_BF_ICLOCPR= 0x4430, /*!< Clear OCP alarm */
+ TFA9894N2_BF_ICLUVDS= 0x4440, /*!< Clear UVP alarm */
+ TFA9894N2_BF_ICLMANALARM= 0x4450, /*!< Clear manager alarm state */
+ TFA9894N2_BF_ICLTDMER= 0x4460, /*!< Clear TDM error */
+ TFA9894N2_BF_ICLNOCLK= 0x4470, /*!< Clear lost clk */
+ TFA9894N2_BF_ICLCFMER= 0x4480, /*!< Clear cfma err */
+ TFA9894N2_BF_ICLCFMAC= 0x4490, /*!< Clear cfma ack */
+ TFA9894N2_BF_ICLSPKS= 0x44a0, /*!< Clear coolflux speaker error */
+ TFA9894N2_BF_ICLACS= 0x44b0, /*!< Clear cold started */
+ TFA9894N2_BF_ICLWDS= 0x44c0, /*!< Clear watchdog reset */
+ TFA9894N2_BF_ICLBODNOK= 0x44d0, /*!< Clear brown out detect */
+ TFA9894N2_BF_ICLLP1= 0x44e0, /*!< Clear low power mode1 detect */
+ TFA9894N2_BF_ICLCLKOOR= 0x44f0, /*!< Clear clock out of range */
+ TFA9894N2_BF_IEVDDS= 0x4800, /*!< Enable POR */
+ TFA9894N2_BF_IEBSTOC= 0x4810, /*!< Enable DCDC OCP */
+ TFA9894N2_BF_IEOTDS= 0x4820, /*!< Enable OTP alarm */
+ TFA9894N2_BF_IEOCPR= 0x4830, /*!< Enable OCP alarm */
+ TFA9894N2_BF_IEUVDS= 0x4840, /*!< Enable UVP alarm */
+ TFA9894N2_BF_IEMANALARM= 0x4850, /*!< Enable Manager Alarm state */
+ TFA9894N2_BF_IETDMER= 0x4860, /*!< Enable TDM error */
+ TFA9894N2_BF_IENOCLK= 0x4870, /*!< Enable lost clk */
+ TFA9894N2_BF_IECFMER= 0x4880, /*!< Enable cfma err */
+ TFA9894N2_BF_IECFMAC= 0x4890, /*!< Enable cfma ack */
+ TFA9894N2_BF_IESPKS= 0x48a0, /*!< Enable coolflux speaker error */
+ TFA9894N2_BF_IEACS = 0x48b0, /*!< Enable cold started */
+ TFA9894N2_BF_IEWDS = 0x48c0, /*!< Enable watchdog reset */
+ TFA9894N2_BF_IEBODNOK= 0x48d0, /*!< Enable brown out detect */
+ TFA9894N2_BF_IELP1 = 0x48e0, /*!< Enable low power mode1 detect */
+ TFA9894N2_BF_IECLKOOR= 0x48f0, /*!< Enable clock out of range */
+ TFA9894N2_BF_IPOVDDS= 0x4c00, /*!< Polarity POR */
+ TFA9894N2_BF_IPOBSTOC= 0x4c10, /*!< Polarity DCDC OCP */
+ TFA9894N2_BF_IPOOTDS= 0x4c20, /*!< Polarity OTP alarm */
+ TFA9894N2_BF_IPOOCPR= 0x4c30, /*!< Polarity ocp alarm */
+ TFA9894N2_BF_IPOUVDS= 0x4c40, /*!< Polarity UVP alarm */
+ TFA9894N2_BF_IPOMANALARM= 0x4c50, /*!< Polarity manager alarm state */
+ TFA9894N2_BF_IPOTDMER= 0x4c60, /*!< Polarity TDM error */
+ TFA9894N2_BF_IPONOCLK= 0x4c70, /*!< Polarity lost clk */
+ TFA9894N2_BF_IPOCFMER= 0x4c80, /*!< Polarity cfma err */
+ TFA9894N2_BF_IPOCFMAC= 0x4c90, /*!< Polarity cfma ack */
+ TFA9894N2_BF_IPOSPKS= 0x4ca0, /*!< Polarity coolflux speaker error */
+ TFA9894N2_BF_IPOACS= 0x4cb0, /*!< Polarity cold started */
+ TFA9894N2_BF_IPOWDS= 0x4cc0, /*!< Polarity watchdog reset */
+ TFA9894N2_BF_IPOBODNOK= 0x4cd0, /*!< Polarity brown out detect */
+ TFA9894N2_BF_IPOLP1= 0x4ce0, /*!< Polarity low power mode1 detect */
+ TFA9894N2_BF_IPOCLKOOR= 0x4cf0, /*!< Polarity clock out of range */
+ TFA9894N2_BF_BSSCR = 0x5001, /*!< Battery safeguard attack time */
+ TFA9894N2_BF_BSST = 0x5023, /*!< Battery safeguard threshold voltage level */
+ TFA9894N2_BF_BSSRL = 0x5061, /*!< Battery safeguard maximum reduction */
+ TFA9894N2_BF_BSSRR = 0x5082, /*!< Battery safeguard release time */
+ TFA9894N2_BF_BSSHY = 0x50b1, /*!< Battery Safeguard hysteresis */
+ TFA9894N2_BF_BSSR = 0x50e0, /*!< Battery voltage read out */
+ TFA9894N2_BF_BSSBY = 0x50f0, /*!< Bypass HW clipper */
+ TFA9894N2_BF_CFSM = 0x5130, /*!< Coolflux firmware soft mute control */
+ TFA9894N2_BF_VOL = 0x5187, /*!< CF firmware volume control */
+ TFA9894N2_BF_CLIPCTRL= 0x5202, /*!< Clip control setting */
+ TFA9894N2_BF_SLOPEE= 0x5230, /*!< Enables slope control */
+ TFA9894N2_BF_SLOPESET= 0x5240, /*!< Slope speed setting (binary coded) */
+ TFA9894N2_BF_BYPDLYLINE= 0x5250, /*!< Bypass the interpolator delay line */
+ TFA9894N2_BF_AMPGAIN= 0x5287, /*!< Amplifier gain */
+ TFA9894N2_BF_TDMDCG= 0x5703, /*!< Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE) */
+ TFA9894N2_BF_TDMSPKG= 0x5743, /*!< Total gain depending on INPLEV setting (channel 0) */
+ TFA9894N2_BF_DCINSEL= 0x5781, /*!< VAMP_OUT2 input selection */
+ TFA9894N2_BF_LNMODE= 0x5881, /*!< Low noise gain mode control */
+ TFA9894N2_BF_LPM1MODE= 0x5ac1, /*!< Low power mode control */
+ TFA9894N2_BF_TDMSRCMAP= 0x5d02, /*!< TDM source mapping */
+ TFA9894N2_BF_TDMSRCAS= 0x5d31, /*!< Sensed value A */
+ TFA9894N2_BF_TDMSRCBS= 0x5d51, /*!< Sensed value B */
+ TFA9894N2_BF_TDMSRCACLIP= 0x5d71, /*!< Clip information (analog /digital) for source0 */
+ TFA9894N2_BF_TDMSRCBCLIP= 0x5d91, /*!< Clip information (analog /digital) for source1 */
+ TFA9894N2_BF_DELCURCOMP= 0x6102, /*!< Delay to allign compensation signal with current sense signal */
+ TFA9894N2_BF_SIGCURCOMP= 0x6130, /*!< Polarity of compensation for current sense */
+ TFA9894N2_BF_ENCURCOMP= 0x6140, /*!< Enable current sense compensation */
+ TFA9894N2_BF_LVLCLPPWM= 0x6152, /*!< Set the amount of pwm pulse that may be skipped before clip-flag is triggered */
+ TFA9894N2_BF_DCVOF = 0x7005, /*!< First Boost Voltage Level */
+ TFA9894N2_BF_DCVOS = 0x7065, /*!< Second Boost Voltage Level */
+ TFA9894N2_BF_DCMCC = 0x70c3, /*!< Max Coil Current */
+ TFA9894N2_BF_DCCV = 0x7101, /*!< Slope compensation current, represents LxF (inductance x frequency) value */
+ TFA9894N2_BF_DCIE = 0x7120, /*!< Adaptive boost mode */
+ TFA9894N2_BF_DCSR = 0x7130, /*!< Soft ramp up/down */
+ TFA9894N2_BF_DCDIS = 0x7140, /*!< DCDC on/off */
+ TFA9894N2_BF_DCPWM = 0x7150, /*!< DCDC PWM only mode */
+ TFA9894N2_BF_DCTRACK= 0x7160, /*!< Boost algorithm selection, effective only when boost_intelligent is set to 1 */
+ TFA9894N2_BF_DCENVSEL= 0x7170, /*!< Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1 */
+ TFA9894N2_BF_OVSCTLVL= 0x7195, /*!< Threshold level to activate active overshoot control */
+ TFA9894N2_BF_DCTRIP= 0x7204, /*!< 1st adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9894N2_BF_DCTRIP2= 0x7254, /*!< 2nd adaptive boost trip levels, effective only when DCIE is set to 1 */
+ TFA9894N2_BF_DCTRIPT= 0x72a4, /*!< Track adaptive boost trip levels, effective only when boost_intelligent is set to 1 */
+ TFA9894N2_BF_DCTRIPHYSTE= 0x72f0, /*!< Enable hysteresis on booster trip levels */
+ TFA9894N2_BF_DCHOLD= 0x7304, /*!< Hold time / Hysteresis for DCDC booster, effective only when boost_intelligent is set to 1 */
+ TFA9894N2_BF_RST = 0x9000, /*!< Reset for Coolflux DSP */
+ TFA9894N2_BF_DMEM = 0x9011, /*!< Target memory for CFMA using I2C interface */
+ TFA9894N2_BF_AIF = 0x9030, /*!< Auto increment */
+ TFA9894N2_BF_CFINT = 0x9040, /*!< Coolflux Interrupt - auto clear */
+ TFA9894N2_BF_CFCGATE= 0x9050, /*!< Coolflux clock gating disabling control */
+ TFA9894N2_BF_REQCMD= 0x9080, /*!< Firmware event request rpc command */
+ TFA9894N2_BF_REQRST= 0x9090, /*!< Firmware event request reset restart */
+ TFA9894N2_BF_REQMIPS= 0x90a0, /*!< Firmware event request short on mips */
+ TFA9894N2_BF_REQMUTED= 0x90b0, /*!< Firmware event request mute sequence ready */
+ TFA9894N2_BF_REQVOL= 0x90c0, /*!< Firmware event request volume ready */
+ TFA9894N2_BF_REQDMG= 0x90d0, /*!< Firmware event request speaker damage detected */
+ TFA9894N2_BF_REQCAL= 0x90e0, /*!< Firmware event request calibration completed */
+ TFA9894N2_BF_REQRSV= 0x90f0, /*!< Firmware event request reserved */
+ TFA9894N2_BF_MADD = 0x910f, /*!< CF memory address */
+ TFA9894N2_BF_MEMA = 0x920f, /*!< Activate memory access */
+ TFA9894N2_BF_ERR = 0x9307, /*!< CF error flags */
+ TFA9894N2_BF_ACKCMD= 0x9380, /*!< Firmware event acknowledge rpc command */
+ TFA9894N2_BF_ACKRST= 0x9390, /*!< Firmware event acknowledge reset restart */
+ TFA9894N2_BF_ACKMIPS= 0x93a0, /*!< Firmware event acknowledge short on mips */
+ TFA9894N2_BF_ACKMUTED= 0x93b0, /*!< Firmware event acknowledge mute sequence ready */
+ TFA9894N2_BF_ACKVOL= 0x93c0, /*!< Firmware event acknowledge volume ready */
+ TFA9894N2_BF_ACKDMG= 0x93d0, /*!< Firmware event acknowledge speaker damage detected */
+ TFA9894N2_BF_ACKCAL= 0x93e0, /*!< Firmware event acknowledge calibration completed */
+ TFA9894N2_BF_ACKRSV= 0x93f0, /*!< Firmware event acknowledge reserved */
+ TFA9894N2_BF_MTPK = 0xa107, /*!< KEY2 to access KEY2 protected registers, customer key */
+ TFA9894N2_BF_KEY1LOCKED= 0xa200, /*!< Indicates KEY1 is locked */
+ TFA9894N2_BF_KEY2LOCKED= 0xa210, /*!< Indicates KEY2 is locked */
+ TFA9894N2_BF_CMTPI = 0xa350, /*!< Start copying all the data from mtp to I2C mtp registers - auto clear */
+ TFA9894N2_BF_CIMTP = 0xa360, /*!< Start copying data from I2C mtp registers to mtp - auto clear */
+ TFA9894N2_BF_MTPRDMSB= 0xa50f, /*!< MSB word of MTP manual read data */
+ TFA9894N2_BF_MTPRDLSB= 0xa60f, /*!< LSB word of MTP manual read data */
+ TFA9894N2_BF_EXTTS = 0xb108, /*!< External temperature (C) */
+ TFA9894N2_BF_TROS = 0xb190, /*!< Select temp Speaker calibration */
+ TFA9894N2_BF_PLLINSELI= 0xca05, /*!< PLL INSELI - PLL direct bandwidth control mode only with pll_bandsel set to 1 */
+ TFA9894N2_BF_PLLINSELP= 0xca64, /*!< PLL INSELP - PLL direct bandwidth control mode only with pll_bandsel set to 1 */
+ TFA9894N2_BF_PLLINSELR= 0xcab3, /*!< PLL INSELR - PLL direct bandwidth control mode only with pll_bandsel set to 1 */
+ TFA9894N2_BF_PLLNDEC= 0xcb09, /*!< PLL NDEC in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9894N2_BF_PLLMDECMSB= 0xcba0, /*!< MSB of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9894N2_BF_PLLBYPASS= 0xcbb0, /*!< PLL bypass control during functional mode */
+ TFA9894N2_BF_PLLDIRECTI= 0xcbc0, /*!< PLL directi control in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9894N2_BF_PLLDIRECTO= 0xcbd0, /*!< PLL directo control in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9894N2_BF_PLLFRMSTBL= 0xcbe0, /*!< PLL FRM clock stable control in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9894N2_BF_PLLFRM= 0xcbf0, /*!< PLL free running mode control in functional mode */
+ TFA9894N2_BF_PLLMDECLSB= 0xcc0f, /*!< Bits 15..0 of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9894N2_BF_PLLPDEC= 0xcd06, /*!< PLL PDEC in direct control mode only, use_direct_pll_ctrl set to 1 */
+ TFA9894N2_BF_DIRECTPLL= 0xcd70, /*!< Enabled PLL direct control mode, overrules the PLL LUT with I2C register values */
+ TFA9894N2_BF_DIRECTCLK= 0xcd80, /*!< Enabled CGU clock divider direct control mode */
+ TFA9894N2_BF_PLLLIM= 0xcd90, /*!< PLL up limiter control in PLL direct bandwidth control mode, pll_bandsel set to 1 */
+ TFA9894N2_BF_SWPROFIL= 0xe00f, /*!< Software profile data */
+ TFA9894N2_BF_SWVSTEP= 0xe10f, /*!< Software vstep information */
+ TFA9894N2_BF_MTPOTC= 0xf000, /*!< Calibration schedule */
+ TFA9894N2_BF_MTPEX = 0xf010, /*!< Calibration Ron executed */
+ TFA9894N2_BF_DCMCCAPI= 0xf020, /*!< Calibration current limit DCDC */
+ TFA9894N2_BF_DCMCCSB= 0xf030, /*!< Sign bit for delta calibration current limit DCDC */
+ TFA9894N2_BF_USERDEF= 0xf042, /*!< Calibration delta current limit DCDC */
+ TFA9894N2_BF_CUSTINFO= 0xf078, /*!< Reserved space for allowing customer to store speaker information */
+ TFA9894N2_BF_R25C = 0xf50f, /*!< Ron resistance of speaker coil */
+} nxpTfa9894N2BfEnumList_t;
+#define TFA9894N2_NAMETABLE static tfaBfName_t Tfa9894N2DatasheetNames[]= {\
+ { 0x0, "PWDN"}, /* Powerdown control , */\
+ { 0x10, "I2CR"}, /* I2C Reset - Auto clear , */\
+ { 0x20, "CFE"}, /* Enable CoolFlux DSP , */\
+ { 0x30, "AMPE"}, /* Enable Amplifier , */\
+ { 0x40, "DCA"}, /* Enable DCDC Boost converter , */\
+ { 0x50, "SBSL"}, /* Coolflux configured , */\
+ { 0x60, "AMPC"}, /* CoolFlux control over amplifier , */\
+ { 0x71, "INTP"}, /* Interrupt config , */\
+ { 0x90, "FSSSEL"}, /* Audio sample reference , */\
+ { 0xa0, "BYPOCP"}, /* Bypass OCP , */\
+ { 0xb0, "TSTOCP"}, /* OCP testing control , */\
+ { 0xc0, "BSSS"}, /* Vbat protection steepness , */\
+ { 0xd0, "HPFBYP"}, /* Bypass High Pass Filter , */\
+ { 0xe0, "DPSA"}, /* Enable DPSA , */\
+ { 0x101, "AMPINSEL"}, /* Amplifier input selection , */\
+ { 0x120, "MANSCONF"}, /* Device I2C settings configured , */\
+ { 0x130, "MANCOLD"}, /* Execute cold start , */\
+ { 0x140, "MANROBOD"}, /* Reaction on BOD , */\
+ { 0x150, "BODE"}, /* Enable BOD (only in direct control mode) , */\
+ { 0x160, "BODHYS"}, /* Enable Hysteresis of BOD , */\
+ { 0x171, "BODFILT"}, /* BOD filter , */\
+ { 0x191, "BODTHLVL"}, /* BOD threshold , */\
+ { 0x1b0, "MUTETO"}, /* Time out SB mute sequence , */\
+ { 0x1c0, "MANWDE"}, /* Watchdog enable , */\
+ { 0x1e0, "OPENMTP"}, /* Control for FAIM protection , */\
+ { 0x1f0, "FAIMVBGOVRRL"}, /* Overrule the enabling of VBG for faim erase/write access, */\
+ { 0x203, "AUDFS"}, /* Audio sample rate Fs , */\
+ { 0x240, "INPLEV"}, /* TDM output attenuation , */\
+ { 0x255, "FRACTDEL"}, /* Current sense fractional delay , */\
+ { 0x2b1, "TDMPRES"}, /* Control for HW manager , */\
+ { 0x2d2, "AMPOCRT"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0x30f, "REV"}, /* Revision info , */\
+ { 0x401, "REFCKEXT"}, /* PLL external reference clock , */\
+ { 0x420, "REFCKSEL"}, /* PLL internal reference clock , */\
+ { 0x432, "MCLKSEL"}, /* Master Clock Selection , */\
+ { 0x460, "MANAOOSC"}, /* Internal OSC1M off at PWDN , */\
+ { 0x470, "ACKCLDDIS"}, /* Automatic PLL reference clock selection for cold start, */\
+ { 0x480, "FSSYNCEN"}, /* Enable FS synchronisation for clock divider , */\
+ { 0x490, "CLKREFSYNCEN"}, /* Enable PLL reference clock synchronisation for clock divider, */\
+ { 0x4a0, "PLLSTUP"}, /* PLL startup time configuration , */\
+ { 0x500, "CGUSYNCDCG"}, /* Clock gating control for CGU synchronisation module, */\
+ { 0x510, "SPKSSEN"}, /* Enable speaker sub-system , */\
+ { 0x520, "MTPSSEN"}, /* Enable FAIM sub-system , */\
+ { 0x530, "WDTCLKEN"}, /* Enable Coolflux watchdog clock , */\
+ { 0x1000, "VDDS"}, /* POR , */\
+ { 0x1010, "PLLS"}, /* PLL Lock , */\
+ { 0x1020, "OTDS"}, /* OTP alarm , */\
+ { 0x1030, "OVDS"}, /* OVP alarm , */\
+ { 0x1040, "UVDS"}, /* UVP alarm , */\
+ { 0x1050, "OCDS"}, /* OCP amplifier (sticky register, clear on read) , */\
+ { 0x1060, "CLKS"}, /* Clocks stable , */\
+ { 0x1070, "MTPB"}, /* MTP busy , */\
+ { 0x1080, "NOCLK"}, /* Lost clock , */\
+ { 0x1090, "ACS"}, /* Cold Start , */\
+ { 0x10a0, "WDS"}, /* Watchdog , */\
+ { 0x10b0, "SWS"}, /* Amplifier engage , */\
+ { 0x10c0, "AMPS"}, /* Amplifier enable , */\
+ { 0x10d0, "AREFS"}, /* References enable , */\
+ { 0x10e0, "ADCCR"}, /* Control ADC , */\
+ { 0x10f0, "BODNOK"}, /* BOD Flag - VDD NOT OK , */\
+ { 0x1100, "DCIL"}, /* DCDC current limiting , */\
+ { 0x1110, "DCDCA"}, /* DCDC active (sticky register, clear on read) , */\
+ { 0x1120, "DCOCPOK"}, /* DCDC OCP nmos (sticky register, clear on read) , */\
+ { 0x1140, "DCHVBAT"}, /* DCDC level 1x , */\
+ { 0x1150, "DCH114"}, /* DCDC level 1.14x , */\
+ { 0x1160, "DCH107"}, /* DCDC level 1.07x , */\
+ { 0x1170, "SPKS"}, /* Speaker status , */\
+ { 0x1180, "CLKOOR"}, /* External clock status , */\
+ { 0x1190, "MANALARM"}, /* Alarm state , */\
+ { 0x11a0, "TDMERR"}, /* TDM error , */\
+ { 0x11b0, "TDMLUTER"}, /* TDM lookup table error , */\
+ { 0x11c0, "NOAUDCLK"}, /* Lost Audio clock , */\
+ { 0x1200, "OCPOAP"}, /* OCPOK pmos A , */\
+ { 0x1210, "OCPOAN"}, /* OCPOK nmos A , */\
+ { 0x1220, "OCPOBP"}, /* OCPOK pmos B , */\
+ { 0x1230, "OCPOBN"}, /* OCPOK nmos B , */\
+ { 0x1240, "CLIPS"}, /* Amplifier clipping , */\
+ { 0x1250, "MANMUTE"}, /* Audio mute sequence , */\
+ { 0x1260, "MANOPER"}, /* Device in Operating state , */\
+ { 0x1270, "LP1"}, /* Low power MODE1 detection , */\
+ { 0x1280, "LA"}, /* Low amplitude detection , */\
+ { 0x1290, "VDDPH"}, /* VDDP greater than VBAT flag , */\
+ { 0x1302, "TDMSTAT"}, /* TDM Status bits , */\
+ { 0x1333, "MANSTATE"}, /* Device Manager status , */\
+ { 0x13b1, "DCMODE"}, /* DCDC mode status bits , */\
+ { 0x1509, "BATS"}, /* Battery voltage (V) , */\
+ { 0x1608, "TEMPS"}, /* IC Temperature (C) , */\
+ { 0x1709, "VDDPS"}, /* IC VDDP voltage (1023*VDDP/13V) , */\
+ { 0x2000, "TDME"}, /* Enable interface , */\
+ { 0x2010, "TDMSPKE"}, /* Control audio tdm channel in sink0 , */\
+ { 0x2020, "TDMDCE"}, /* Control audio tdm channel in sink1 , */\
+ { 0x2030, "TDMCSE"}, /* Source 0 enable , */\
+ { 0x2040, "TDMVSE"}, /* Source 1 enable , */\
+ { 0x2050, "TDMCFE"}, /* Source 2 enable , */\
+ { 0x2060, "TDMCF2E"}, /* Source 3 enable , */\
+ { 0x2070, "TDMCLINV"}, /* Reception data to BCK clock , */\
+ { 0x2080, "TDMFSPOL"}, /* FS polarity , */\
+ { 0x2090, "TDMDEL"}, /* Data delay to FS , */\
+ { 0x20a0, "TDMADJ"}, /* Data adjustment , */\
+ { 0x20b1, "TDMOOMP"}, /* Received audio compression , */\
+ { 0x2103, "TDMNBCK"}, /* TDM NBCK - Bit clock to FS ratio , */\
+ { 0x2143, "TDMFSLN"}, /* FS length (master mode only) , */\
+ { 0x2183, "TDMSLOTS"}, /* N-slots in Frame , */\
+ { 0x21c1, "TDMTXDFO"}, /* Format unused bits , */\
+ { 0x21e1, "TDMTXUS0"}, /* Format unused slots DATAO , */\
+ { 0x2204, "TDMSLLN"}, /* N-bits in slot , */\
+ { 0x2254, "TDMBRMG"}, /* N-bits remaining , */\
+ { 0x22a4, "TDMSSIZE"}, /* Sample size per slot , */\
+ { 0x2303, "TDMSPKS"}, /* TDM slot for sink 0 , */\
+ { 0x2343, "TDMDCS"}, /* TDM slot for sink 1 , */\
+ { 0x2381, "TDMCFSEL"}, /* TDM Source 2 data selection , */\
+ { 0x23a1, "TDMCF2SEL"}, /* TDM Source 3 data selection , */\
+ { 0x2403, "TDMCSS"}, /* Slot position of source 0 data , */\
+ { 0x2443, "TDMVSS"}, /* Slot position of source 1 data , */\
+ { 0x2483, "TDMCFS"}, /* Slot position of source 2 data , */\
+ { 0x24c3, "TDMCF2S"}, /* Slot position of source 3 data , */\
+ { 0x4000, "ISTVDDS"}, /* Status POR , */\
+ { 0x4010, "ISTBSTOC"}, /* Status DCDC OCP , */\
+ { 0x4020, "ISTOTDS"}, /* Status OTP alarm , */\
+ { 0x4030, "ISTOCPR"}, /* Status OCP alarm , */\
+ { 0x4040, "ISTUVDS"}, /* Status UVP alarm , */\
+ { 0x4050, "ISTMANALARM"}, /* Status manager alarm state , */\
+ { 0x4060, "ISTTDMER"}, /* Status TDM error , */\
+ { 0x4070, "ISTNOCLK"}, /* Status lost clock , */\
+ { 0x4080, "ISTCFMER"}, /* Status cfma error , */\
+ { 0x4090, "ISTCFMAC"}, /* Status cfma ack , */\
+ { 0x40a0, "ISTSPKS"}, /* Status coolflux speaker error , */\
+ { 0x40b0, "ISTACS"}, /* Status cold started , */\
+ { 0x40c0, "ISTWDS"}, /* Status watchdog reset , */\
+ { 0x40d0, "ISTBODNOK"}, /* Status brown out detect , */\
+ { 0x40e0, "ISTLP1"}, /* Status low power mode1 detect , */\
+ { 0x40f0, "ISTCLKOOR"}, /* Status clock out of range , */\
+ { 0x4400, "ICLVDDS"}, /* Clear POR , */\
+ { 0x4410, "ICLBSTOC"}, /* Clear DCDC OCP , */\
+ { 0x4420, "ICLOTDS"}, /* Clear OTP alarm , */\
+ { 0x4430, "ICLOCPR"}, /* Clear OCP alarm , */\
+ { 0x4440, "ICLUVDS"}, /* Clear UVP alarm , */\
+ { 0x4450, "ICLMANALARM"}, /* Clear manager alarm state , */\
+ { 0x4460, "ICLTDMER"}, /* Clear TDM error , */\
+ { 0x4470, "ICLNOCLK"}, /* Clear lost clk , */\
+ { 0x4480, "ICLCFMER"}, /* Clear cfma err , */\
+ { 0x4490, "ICLCFMAC"}, /* Clear cfma ack , */\
+ { 0x44a0, "ICLSPKS"}, /* Clear coolflux speaker error , */\
+ { 0x44b0, "ICLACS"}, /* Clear cold started , */\
+ { 0x44c0, "ICLWDS"}, /* Clear watchdog reset , */\
+ { 0x44d0, "ICLBODNOK"}, /* Clear brown out detect , */\
+ { 0x44e0, "ICLLP1"}, /* Clear low power mode1 detect , */\
+ { 0x44f0, "ICLCLKOOR"}, /* Clear clock out of range , */\
+ { 0x4800, "IEVDDS"}, /* Enable POR , */\
+ { 0x4810, "IEBSTOC"}, /* Enable DCDC OCP , */\
+ { 0x4820, "IEOTDS"}, /* Enable OTP alarm , */\
+ { 0x4830, "IEOCPR"}, /* Enable OCP alarm , */\
+ { 0x4840, "IEUVDS"}, /* Enable UVP alarm , */\
+ { 0x4850, "IEMANALARM"}, /* Enable Manager Alarm state , */\
+ { 0x4860, "IETDMER"}, /* Enable TDM error , */\
+ { 0x4870, "IENOCLK"}, /* Enable lost clk , */\
+ { 0x4880, "IECFMER"}, /* Enable cfma err , */\
+ { 0x4890, "IECFMAC"}, /* Enable cfma ack , */\
+ { 0x48a0, "IESPKS"}, /* Enable coolflux speaker error , */\
+ { 0x48b0, "IEACS"}, /* Enable cold started , */\
+ { 0x48c0, "IEWDS"}, /* Enable watchdog reset , */\
+ { 0x48d0, "IEBODNOK"}, /* Enable brown out detect , */\
+ { 0x48e0, "IELP1"}, /* Enable low power mode1 detect , */\
+ { 0x48f0, "IECLKOOR"}, /* Enable clock out of range , */\
+ { 0x4c00, "IPOVDDS"}, /* Polarity POR , */\
+ { 0x4c10, "IPOBSTOC"}, /* Polarity DCDC OCP , */\
+ { 0x4c20, "IPOOTDS"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "IPOOCPR"}, /* Polarity ocp alarm , */\
+ { 0x4c40, "IPOUVDS"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "IPOMANALARM"}, /* Polarity manager alarm state , */\
+ { 0x4c60, "IPOTDMER"}, /* Polarity TDM error , */\
+ { 0x4c70, "IPONOCLK"}, /* Polarity lost clk , */\
+ { 0x4c80, "IPOCFMER"}, /* Polarity cfma err , */\
+ { 0x4c90, "IPOCFMAC"}, /* Polarity cfma ack , */\
+ { 0x4ca0, "IPOSPKS"}, /* Polarity coolflux speaker error , */\
+ { 0x4cb0, "IPOACS"}, /* Polarity cold started , */\
+ { 0x4cc0, "IPOWDS"}, /* Polarity watchdog reset , */\
+ { 0x4cd0, "IPOBODNOK"}, /* Polarity brown out detect , */\
+ { 0x4ce0, "IPOLP1"}, /* Polarity low power mode1 detect , */\
+ { 0x4cf0, "IPOCLKOOR"}, /* Polarity clock out of range , */\
+ { 0x5001, "BSSCR"}, /* Battery safeguard attack time , */\
+ { 0x5023, "BSST"}, /* Battery safeguard threshold voltage level , */\
+ { 0x5061, "BSSRL"}, /* Battery safeguard maximum reduction , */\
+ { 0x5082, "BSSRR"}, /* Battery safeguard release time , */\
+ { 0x50b1, "BSSHY"}, /* Battery Safeguard hysteresis , */\
+ { 0x50e0, "BSSR"}, /* Battery voltage read out , */\
+ { 0x50f0, "BSSBY"}, /* Bypass HW clipper , */\
+ { 0x5130, "CFSM"}, /* Coolflux firmware soft mute control , */\
+ { 0x5187, "VOL"}, /* CF firmware volume control , */\
+ { 0x5202, "CLIPCTRL"}, /* Clip control setting , */\
+ { 0x5230, "SLOPEE"}, /* Enables slope control , */\
+ { 0x5240, "SLOPESET"}, /* Slope speed setting (binary coded) , */\
+ { 0x5250, "BYPDLYLINE"}, /* Bypass the interpolator delay line , */\
+ { 0x5287, "AMPGAIN"}, /* Amplifier gain , */\
+ { 0x5703, "TDMDCG"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x5743, "TDMSPKG"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x5781, "DCINSEL"}, /* VAMP_OUT2 input selection , */\
+ { 0x5881, "LNMODE"}, /* Low noise gain mode control , */\
+ { 0x5ac1, "LPM1MODE"}, /* Low power mode control , */\
+ { 0x5d02, "TDMSRCMAP"}, /* TDM source mapping , */\
+ { 0x5d31, "TDMSRCAS"}, /* Sensed value A , */\
+ { 0x5d51, "TDMSRCBS"}, /* Sensed value B , */\
+ { 0x5d71, "TDMSRCACLIP"}, /* Clip information (analog /digital) for source0 , */\
+ { 0x5d91, "TDMSRCBCLIP"}, /* Clip information (analog /digital) for source1 , */\
+ { 0x6102, "DELCURCOMP"}, /* Delay to allign compensation signal with current sense signal, */\
+ { 0x6130, "SIGCURCOMP"}, /* Polarity of compensation for current sense , */\
+ { 0x6140, "ENCURCOMP"}, /* Enable current sense compensation , */\
+ { 0x6152, "LVLCLPPWM"}, /* Set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7005, "DCVOF"}, /* First Boost Voltage Level , */\
+ { 0x7065, "DCVOS"}, /* Second Boost Voltage Level , */\
+ { 0x70c3, "DCMCC"}, /* Max Coil Current , */\
+ { 0x7101, "DCCV"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7120, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x7130, "DCSR"}, /* Soft ramp up/down , */\
+ { 0x7140, "DCDIS"}, /* DCDC on/off , */\
+ { 0x7150, "DCPWM"}, /* DCDC PWM only mode , */\
+ { 0x7160, "DCTRACK"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7170, "DCENVSEL"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x7195, "OVSCTLVL"}, /* Threshold level to activate active overshoot control, */\
+ { 0x7204, "DCTRIP"}, /* 1st adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7254, "DCTRIP2"}, /* 2nd adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x72a4, "DCTRIPT"}, /* Track adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x72f0, "DCTRIPHYSTE"}, /* Enable hysteresis on booster trip levels , */\
+ { 0x7304, "DCHOLD"}, /* Hold time / Hysteresis for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x9000, "RST"}, /* Reset for Coolflux DSP , */\
+ { 0x9011, "DMEM"}, /* Target memory for CFMA using I2C interface , */\
+ { 0x9030, "AIF"}, /* Auto increment , */\
+ { 0x9040, "CFINT"}, /* Coolflux Interrupt - auto clear , */\
+ { 0x9050, "CFCGATE"}, /* Coolflux clock gating disabling control , */\
+ { 0x9080, "REQCMD"}, /* Firmware event request rpc command , */\
+ { 0x9090, "REQRST"}, /* Firmware event request reset restart , */\
+ { 0x90a0, "REQMIPS"}, /* Firmware event request short on mips , */\
+ { 0x90b0, "REQMUTED"}, /* Firmware event request mute sequence ready , */\
+ { 0x90c0, "REQVOL"}, /* Firmware event request volume ready , */\
+ { 0x90d0, "REQDMG"}, /* Firmware event request speaker damage detected , */\
+ { 0x90e0, "REQCAL"}, /* Firmware event request calibration completed , */\
+ { 0x90f0, "REQRSV"}, /* Firmware event request reserved , */\
+ { 0x910f, "MADD"}, /* CF memory address , */\
+ { 0x920f, "MEMA"}, /* Activate memory access , */\
+ { 0x9307, "ERR"}, /* CF error flags , */\
+ { 0x9380, "ACKCMD"}, /* Firmware event acknowledge rpc command , */\
+ { 0x9390, "ACKRST"}, /* Firmware event acknowledge reset restart , */\
+ { 0x93a0, "ACKMIPS"}, /* Firmware event acknowledge short on mips , */\
+ { 0x93b0, "ACKMUTED"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x93c0, "ACKVOL"}, /* Firmware event acknowledge volume ready , */\
+ { 0x93d0, "ACKDMG"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x93e0, "ACKCAL"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x93f0, "ACKRSV"}, /* Firmware event acknowledge reserved , */\
+ { 0xa107, "MTPK"}, /* KEY2 to access KEY2 protected registers, customer key, */\
+ { 0xa200, "KEY1LOCKED"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "KEY2LOCKED"}, /* Indicates KEY2 is locked , */\
+ { 0xa350, "CMTPI"}, /* Start copying all the data from mtp to I2C mtp registers - auto clear, */\
+ { 0xa360, "CIMTP"}, /* Start copying data from I2C mtp registers to mtp - auto clear, */\
+ { 0xa50f, "MTPRDMSB"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "MTPRDLSB"}, /* LSB word of MTP manual read data , */\
+ { 0xb108, "EXTTS"}, /* External temperature (C) , */\
+ { 0xb190, "TROS"}, /* Select temp Speaker calibration , */\
+ { 0xca05, "PLLINSELI"}, /* PLL INSELI - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xca64, "PLLINSELP"}, /* PLL INSELP - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcab3, "PLLINSELR"}, /* PLL INSELR - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcb09, "PLLNDEC"}, /* PLL NDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcba0, "PLLMDECMSB"}, /* MSB of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcbb0, "PLLBYPASS"}, /* PLL bypass control during functional mode , */\
+ { 0xcbc0, "PLLDIRECTI"}, /* PLL directi control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcbd0, "PLLDIRECTO"}, /* PLL directo control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcbe0, "PLLFRMSTBL"}, /* PLL FRM clock stable control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcbf0, "PLLFRM"}, /* PLL free running mode control in functional mode , */\
+ { 0xcc0f, "PLLMDECLSB"}, /* Bits 15..0 of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcd06, "PLLPDEC"}, /* PLL PDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcd70, "DIRECTPLL"}, /* Enabled PLL direct control mode, overrules the PLL LUT with I2C register values, */\
+ { 0xcd80, "DIRECTCLK"}, /* Enabled CGU clock divider direct control mode , */\
+ { 0xcd90, "PLLLIM"}, /* PLL up limiter control in PLL direct bandwidth control mode, pll_bandsel set to 1, */\
+ { 0xe00f, "SWPROFIL"}, /* Software profile data , */\
+ { 0xe10f, "SWVSTEP"}, /* Software vstep information , */\
+ { 0xf000, "MTPOTC"}, /* Calibration schedule , */\
+ { 0xf010, "MTPEX"}, /* Calibration Ron executed , */\
+ { 0xf020, "DCMCCAPI"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "DCMCCSB"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "USERDEF"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "CUSTINFO"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf50f, "R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9894N2_BITNAMETABLE static tfaBfName_t Tfa9894N2BitNames[]= {\
+ { 0x0, "powerdown"}, /* Powerdown control , */\
+ { 0x10, "reset"}, /* I2C Reset - Auto clear , */\
+ { 0x20, "enbl_coolflux"}, /* Enable CoolFlux DSP , */\
+ { 0x30, "enbl_amplifier"}, /* Enable Amplifier , */\
+ { 0x40, "enbl_boost"}, /* Enable DCDC Boost converter , */\
+ { 0x50, "coolflux_configured"}, /* Coolflux configured , */\
+ { 0x60, "sel_enbl_amplifier"}, /* CoolFlux control over amplifier , */\
+ { 0x71, "int_pad_io"}, /* Interrupt config , */\
+ { 0x90, "fs_pulse_sel"}, /* Audio sample reference , */\
+ { 0xa0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0xb0, "test_ocp"}, /* OCP testing control , */\
+ { 0xc0, "batsense_steepness"}, /* Vbat protection steepness , */\
+ { 0xd0, "bypass_hp"}, /* Bypass High Pass Filter , */\
+ { 0xe0, "enbl_dpsa"}, /* Enable DPSA , */\
+ { 0xf0, "sel_hysteresis"}, /* Select hysteresis for clock range detector , */\
+ { 0x101, "vamp_sel1"}, /* Amplifier input selection , */\
+ { 0x120, "src_set_configured"}, /* Device I2C settings configured , */\
+ { 0x130, "execute_cold_start"}, /* Execute cold start , */\
+ { 0x140, "man_enbl_brown_out"}, /* Reaction on BOD , */\
+ { 0x150, "bod_enbl"}, /* Enable BOD (only in direct control mode) , */\
+ { 0x160, "bod_hyst_enbl"}, /* Enable Hysteresis of BOD , */\
+ { 0x171, "bod_delay_set"}, /* BOD filter , */\
+ { 0x191, "bod_lvl_set"}, /* BOD threshold , */\
+ { 0x1b0, "disable_mute_time_out"}, /* Time out SB mute sequence , */\
+ { 0x1c0, "man_enbl_watchdog"}, /* Watchdog enable , */\
+ { 0x1d0, "disable_engage"}, /* Disable Engage , */\
+ { 0x1e0, "unprotect_faim"}, /* Control for FAIM protection , */\
+ { 0x1f0, "faim_enable_vbg"}, /* Overrule the enabling of VBG for faim erase/write access, */\
+ { 0x203, "audio_fs"}, /* Audio sample rate Fs , */\
+ { 0x240, "input_level"}, /* TDM output attenuation , */\
+ { 0x255, "cs_frac_delay"}, /* Current sense fractional delay , */\
+ { 0x2b1, "use_tdm_presence"}, /* Control for HW manager , */\
+ { 0x2d2, "ctrl_on2off_criterion"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0x30f, "device_rev"}, /* Revision info , */\
+ { 0x401, "pll_clkin_sel"}, /* PLL external reference clock , */\
+ { 0x420, "pll_clkin_sel_osc"}, /* PLL internal reference clock , */\
+ { 0x432, "mclk_sel"}, /* Master Clock Selection , */\
+ { 0x460, "enbl_osc1m_auto_off"}, /* Internal OSC1M off at PWDN , */\
+ { 0x470, "disable_auto_sel_refclk"}, /* Automatic PLL reference clock selection for cold start, */\
+ { 0x480, "enbl_fs_sync"}, /* Enable FS synchronisation for clock divider , */\
+ { 0x490, "enbl_clkref_sync"}, /* Enable PLL reference clock synchronisation for clock divider, */\
+ { 0x4a0, "pll_slow_startup"}, /* PLL startup time configuration , */\
+ { 0x500, "disable_cgu_sync_cgate"}, /* Clock gating control for CGU synchronisation module, */\
+ { 0x510, "enbl_spkr_ss"}, /* Enable speaker sub-system , */\
+ { 0x520, "enbl_faim_ss"}, /* Enable FAIM sub-system , */\
+ { 0x530, "enbl_wdt_clk"}, /* Enable Coolflux watchdog clock , */\
+ { 0xe07, "ctrl_digtoana"}, /* Spare control from digital to analog , */\
+ { 0xf0f, "hidden_code"}, /* Hidden code to enable access to hidden register. (0x5A6B/23147 default for engineering), */\
+ { 0x1000, "flag_por"}, /* POR , */\
+ { 0x1010, "flag_pll_lock"}, /* PLL Lock , */\
+ { 0x1020, "flag_otpok"}, /* OTP alarm , */\
+ { 0x1030, "flag_ovpok"}, /* OVP alarm , */\
+ { 0x1040, "flag_uvpok"}, /* UVP alarm , */\
+ { 0x1050, "flag_ocp_alarm"}, /* OCP amplifier (sticky register, clear on read) , */\
+ { 0x1060, "flag_clocks_stable"}, /* Clocks stable , */\
+ { 0x1070, "flag_mtp_busy"}, /* MTP busy , */\
+ { 0x1080, "flag_lost_clk"}, /* Lost clock , */\
+ { 0x1090, "flag_cold_started"}, /* Cold Start , */\
+ { 0x10a0, "flag_watchdog_reset"}, /* Watchdog , */\
+ { 0x10b0, "flag_engage"}, /* Amplifier engage , */\
+ { 0x10c0, "flag_enbl_amp"}, /* Amplifier enable , */\
+ { 0x10d0, "flag_enbl_ref"}, /* References enable , */\
+ { 0x10e0, "flag_adc10_ready"}, /* Control ADC , */\
+ { 0x10f0, "flag_bod_vddd_nok"}, /* BOD Flag - VDD NOT OK , */\
+ { 0x1100, "flag_bst_bstcur"}, /* DCDC current limiting , */\
+ { 0x1110, "flag_bst_hiz"}, /* DCDC active (sticky register, clear on read) , */\
+ { 0x1120, "flag_bst_ocpok"}, /* DCDC OCP nmos (sticky register, clear on read) , */\
+ { 0x1130, "flag_bst_peakcur"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1140, "flag_bst_voutcomp"}, /* DCDC level 1x , */\
+ { 0x1150, "flag_bst_voutcomp86"}, /* DCDC level 1.14x , */\
+ { 0x1160, "flag_bst_voutcomp93"}, /* DCDC level 1.07x , */\
+ { 0x1170, "flag_cf_speakererror"}, /* Speaker status , */\
+ { 0x1180, "flag_clk_out_of_range"}, /* External clock status , */\
+ { 0x1190, "flag_man_alarm_state"}, /* Alarm state , */\
+ { 0x11a0, "flag_tdm_error"}, /* TDM error , */\
+ { 0x11b0, "flag_tdm_lut_error"}, /* TDM lookup table error , */\
+ { 0x11c0, "flag_lost_audio_clk"}, /* Lost Audio clock , */\
+ { 0x1200, "flag_ocpokap"}, /* OCPOK pmos A , */\
+ { 0x1210, "flag_ocpokan"}, /* OCPOK nmos A , */\
+ { 0x1220, "flag_ocpokbp"}, /* OCPOK pmos B , */\
+ { 0x1230, "flag_ocpokbn"}, /* OCPOK nmos B , */\
+ { 0x1240, "flag_clip"}, /* Amplifier clipping , */\
+ { 0x1250, "flag_man_start_mute_audio"}, /* Audio mute sequence , */\
+ { 0x1260, "flag_man_operating_state"}, /* Device in Operating state , */\
+ { 0x1270, "flag_lp_detect_mode1"}, /* Low power MODE1 detection , */\
+ { 0x1280, "flag_low_amplitude"}, /* Low amplitude detection , */\
+ { 0x1290, "flag_vddp_gt_vbat"}, /* VDDP greater than VBAT flag , */\
+ { 0x1302, "tdm_status"}, /* TDM Status bits , */\
+ { 0x1333, "man_state"}, /* Device Manager status , */\
+ { 0x1373, "amp_ctrl_state"}, /* Amplifier control status , */\
+ { 0x13b1, "status_bst_mode"}, /* DCDC mode status bits , */\
+ { 0x1509, "bat_adc"}, /* Battery voltage (V) , */\
+ { 0x1608, "temp_adc"}, /* IC Temperature (C) , */\
+ { 0x1709, "vddp_adc"}, /* IC VDDP voltage (1023*VDDP/13V) , */\
+ { 0x2000, "tdm_enable"}, /* Enable interface , */\
+ { 0x2010, "tdm_sink0_enable"}, /* Control audio tdm channel in sink0 , */\
+ { 0x2020, "tdm_sink1_enable"}, /* Control audio tdm channel in sink1 , */\
+ { 0x2030, "tdm_source0_enable"}, /* Source 0 enable , */\
+ { 0x2040, "tdm_source1_enable"}, /* Source 1 enable , */\
+ { 0x2050, "tdm_source2_enable"}, /* Source 2 enable , */\
+ { 0x2060, "tdm_source3_enable"}, /* Source 3 enable , */\
+ { 0x2070, "tdm_clk_inversion"}, /* Reception data to BCK clock , */\
+ { 0x2080, "tdm_fs_ws_polarity"}, /* FS polarity , */\
+ { 0x2090, "tdm_data_delay"}, /* Data delay to FS , */\
+ { 0x20a0, "tdm_data_adjustment"}, /* Data adjustment , */\
+ { 0x20b1, "tdm_audio_sample_compression"}, /* Received audio compression , */\
+ { 0x2103, "tdm_nbck"}, /* TDM NBCK - Bit clock to FS ratio , */\
+ { 0x2143, "tdm_fs_ws_length"}, /* FS length (master mode only) , */\
+ { 0x2183, "tdm_nb_of_slots"}, /* N-slots in Frame , */\
+ { 0x21c1, "tdm_txdata_format"}, /* Format unused bits , */\
+ { 0x21e1, "tdm_txdata_format_unused_slot"}, /* Format unused slots DATAO , */\
+ { 0x2204, "tdm_slot_length"}, /* N-bits in slot , */\
+ { 0x2254, "tdm_bits_remaining"}, /* N-bits remaining , */\
+ { 0x22a4, "tdm_sample_size"}, /* Sample size per slot , */\
+ { 0x2303, "tdm_sink0_slot"}, /* TDM slot for sink 0 , */\
+ { 0x2343, "tdm_sink1_slot"}, /* TDM slot for sink 1 , */\
+ { 0x2381, "tdm_source2_sel"}, /* TDM Source 2 data selection , */\
+ { 0x23a1, "tdm_source3_sel"}, /* TDM Source 3 data selection , */\
+ { 0x2403, "tdm_source0_slot"}, /* Slot position of source 0 data , */\
+ { 0x2443, "tdm_source1_slot"}, /* Slot position of source 1 data , */\
+ { 0x2483, "tdm_source2_slot"}, /* Slot position of source 2 data , */\
+ { 0x24c3, "tdm_source3_slot"}, /* Slot position of source 3 data , */\
+ { 0x4000, "int_out_flag_por"}, /* Status POR , */\
+ { 0x4010, "int_out_flag_bst_ocpok"}, /* Status DCDC OCP , */\
+ { 0x4020, "int_out_flag_otpok"}, /* Status OTP alarm , */\
+ { 0x4030, "int_out_flag_ocp_alarm"}, /* Status OCP alarm , */\
+ { 0x4040, "int_out_flag_uvpok"}, /* Status UVP alarm , */\
+ { 0x4050, "int_out_flag_man_alarm_state"}, /* Status manager alarm state , */\
+ { 0x4060, "int_out_flag_tdm_error"}, /* Status TDM error , */\
+ { 0x4070, "int_out_flag_lost_clk"}, /* Status lost clock , */\
+ { 0x4080, "int_out_flag_cfma_err"}, /* Status cfma error , */\
+ { 0x4090, "int_out_flag_cfma_ack"}, /* Status cfma ack , */\
+ { 0x40a0, "int_out_flag_cf_speakererror"}, /* Status coolflux speaker error , */\
+ { 0x40b0, "int_out_flag_cold_started"}, /* Status cold started , */\
+ { 0x40c0, "int_out_flag_watchdog_reset"}, /* Status watchdog reset , */\
+ { 0x40d0, "int_out_flag_bod_vddd_nok"}, /* Status brown out detect , */\
+ { 0x40e0, "int_out_flag_lp_detect_mode1"}, /* Status low power mode1 detect , */\
+ { 0x40f0, "int_out_flag_clk_out_of_range"}, /* Status clock out of range , */\
+ { 0x4400, "int_in_flag_por"}, /* Clear POR , */\
+ { 0x4410, "int_in_flag_bst_ocpok"}, /* Clear DCDC OCP , */\
+ { 0x4420, "int_in_flag_otpok"}, /* Clear OTP alarm , */\
+ { 0x4430, "int_in_flag_ocp_alarm"}, /* Clear OCP alarm , */\
+ { 0x4440, "int_in_flag_uvpok"}, /* Clear UVP alarm , */\
+ { 0x4450, "int_in_flag_man_alarm_state"}, /* Clear manager alarm state , */\
+ { 0x4460, "int_in_flag_tdm_error"}, /* Clear TDM error , */\
+ { 0x4470, "int_in_flag_lost_clk"}, /* Clear lost clk , */\
+ { 0x4480, "int_in_flag_cfma_err"}, /* Clear cfma err , */\
+ { 0x4490, "int_in_flag_cfma_ack"}, /* Clear cfma ack , */\
+ { 0x44a0, "int_in_flag_cf_speakererror"}, /* Clear coolflux speaker error , */\
+ { 0x44b0, "int_in_flag_cold_started"}, /* Clear cold started , */\
+ { 0x44c0, "int_in_flag_watchdog_reset"}, /* Clear watchdog reset , */\
+ { 0x44d0, "int_in_flag_bod_vddd_nok"}, /* Clear brown out detect , */\
+ { 0x44e0, "int_in_flag_lp_detect_mode1"}, /* Clear low power mode1 detect , */\
+ { 0x44f0, "int_in_flag_clk_out_of_range"}, /* Clear clock out of range , */\
+ { 0x4800, "int_enable_flag_por"}, /* Enable POR , */\
+ { 0x4810, "int_enable_flag_bst_ocpok"}, /* Enable DCDC OCP , */\
+ { 0x4820, "int_enable_flag_otpok"}, /* Enable OTP alarm , */\
+ { 0x4830, "int_enable_flag_ocp_alarm"}, /* Enable OCP alarm , */\
+ { 0x4840, "int_enable_flag_uvpok"}, /* Enable UVP alarm , */\
+ { 0x4850, "int_enable_flag_man_alarm_state"}, /* Enable Manager Alarm state , */\
+ { 0x4860, "int_enable_flag_tdm_error"}, /* Enable TDM error , */\
+ { 0x4870, "int_enable_flag_lost_clk"}, /* Enable lost clk , */\
+ { 0x4880, "int_enable_flag_cfma_err"}, /* Enable cfma err , */\
+ { 0x4890, "int_enable_flag_cfma_ack"}, /* Enable cfma ack , */\
+ { 0x48a0, "int_enable_flag_cf_speakererror"}, /* Enable coolflux speaker error , */\
+ { 0x48b0, "int_enable_flag_cold_started"}, /* Enable cold started , */\
+ { 0x48c0, "int_enable_flag_watchdog_reset"}, /* Enable watchdog reset , */\
+ { 0x48d0, "int_enable_flag_bod_vddd_nok"}, /* Enable brown out detect , */\
+ { 0x48e0, "int_enable_flag_lp_detect_mode1"}, /* Enable low power mode1 detect , */\
+ { 0x48f0, "int_enable_flag_clk_out_of_range"}, /* Enable clock out of range , */\
+ { 0x4c00, "int_polarity_flag_por"}, /* Polarity POR , */\
+ { 0x4c10, "int_polarity_flag_bst_ocpok"}, /* Polarity DCDC OCP , */\
+ { 0x4c20, "int_polarity_flag_otpok"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "int_polarity_flag_ocp_alarm"}, /* Polarity ocp alarm , */\
+ { 0x4c40, "int_polarity_flag_uvpok"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "int_polarity_flag_man_alarm_state"}, /* Polarity manager alarm state , */\
+ { 0x4c60, "int_polarity_flag_tdm_error"}, /* Polarity TDM error , */\
+ { 0x4c70, "int_polarity_flag_lost_clk"}, /* Polarity lost clk , */\
+ { 0x4c80, "int_polarity_flag_cfma_err"}, /* Polarity cfma err , */\
+ { 0x4c90, "int_polarity_flag_cfma_ack"}, /* Polarity cfma ack , */\
+ { 0x4ca0, "int_polarity_flag_cf_speakererror"}, /* Polarity coolflux speaker error , */\
+ { 0x4cb0, "int_polarity_flag_cold_started"}, /* Polarity cold started , */\
+ { 0x4cc0, "int_polarity_flag_watchdog_reset"}, /* Polarity watchdog reset , */\
+ { 0x4cd0, "int_polarity_flag_bod_vddd_nok"}, /* Polarity brown out detect , */\
+ { 0x4ce0, "int_polarity_flag_lp_detect_mode1"}, /* Polarity low power mode1 detect , */\
+ { 0x4cf0, "int_polarity_flag_clk_out_of_range"}, /* Polarity clock out of range , */\
+ { 0x5001, "vbat_prot_attack_time"}, /* Battery safeguard attack time , */\
+ { 0x5023, "vbat_prot_thlevel"}, /* Battery safeguard threshold voltage level , */\
+ { 0x5061, "vbat_prot_max_reduct"}, /* Battery safeguard maximum reduction , */\
+ { 0x5082, "vbat_prot_release_time"}, /* Battery safeguard release time , */\
+ { 0x50b1, "vbat_prot_hysterese"}, /* Battery Safeguard hysteresis , */\
+ { 0x50d0, "rst_min_vbat"}, /* Reset clipper - auto clear , */\
+ { 0x50e0, "sel_vbat"}, /* Battery voltage read out , */\
+ { 0x50f0, "bypass_clipper"}, /* Bypass HW clipper , */\
+ { 0x5130, "cf_mute"}, /* Coolflux firmware soft mute control , */\
+ { 0x5187, "cf_volume"}, /* CF firmware volume control , */\
+ { 0x5202, "ctrl_cc"}, /* Clip control setting , */\
+ { 0x5230, "ctrl_slopectrl"}, /* Enables slope control , */\
+ { 0x5240, "ctrl_slope"}, /* Slope speed setting (binary coded) , */\
+ { 0x5250, "bypass_dly_line"}, /* Bypass the interpolator delay line , */\
+ { 0x5287, "gain"}, /* Amplifier gain , */\
+ { 0x5301, "dpsa_level"}, /* DPSA threshold levels , */\
+ { 0x5321, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x5340, "clipfast"}, /* Clock selection for HW clipper for battery safeguard, */\
+ { 0x5350, "bypass_lp"}, /* Bypass the low power filter inside temperature sensor, */\
+ { 0x5360, "first_order_mode"}, /* Overrule to 1st order mode of control stage when clipping, */\
+ { 0x5370, "icomp_engage"}, /* Engage of icomp , */\
+ { 0x5380, "ctrl_kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x5390, "icomp_engage_overrule"}, /* To overrule the functional icomp_engage signal during validation, */\
+ { 0x53a3, "ctrl_dem"}, /* Enable DEM icomp and DEM one bit dac , */\
+ { 0x5400, "bypass_ctrlloop"}, /* Switch amplifier into open loop configuration , */\
+ { 0x5413, "ctrl_dem_mismatch"}, /* Enable DEM icomp mismatch for testing , */\
+ { 0x5452, "dpsa_drive"}, /* Drive setting (binary coded) , */\
+ { 0x550a, "enbl_amp"}, /* Switch on the class-D power sections, each part of the analog sections can be switched on/off individually, */\
+ { 0x55b0, "enbl_engage"}, /* Enables/engage power stage and control loop , */\
+ { 0x55c0, "enbl_engage_pst"}, /* Enables/engage power stage and control loop , */\
+ { 0x5600, "pwm_shape"}, /* PWM shape , */\
+ { 0x5614, "pwm_delay"}, /* PWM delay bits to set the delay, clockd is 1/(k*2048*fs), */\
+ { 0x5660, "reclock_pwm"}, /* Reclock the PWM signal inside analog , */\
+ { 0x5670, "reclock_voltsense"}, /* Reclock the voltage sense PWM signal , */\
+ { 0x5680, "enbl_pwm_phase_shift"}, /* Control for PWM phase shift , */\
+ { 0x5690, "sel_pwm_delay_src"}, /* Control for selection for PWM delay line source , */\
+ { 0x56a1, "enbl_odd_up_even_down"}, /* Control for PWM reference sawtooth generartion , */\
+ { 0x5703, "ctrl_att_dcdc"}, /* Second channel gain in case of stereo using a single coil. (Total gain depending on INPLEV). (In case of mono OR stereo using 2 separate DCDC channel 1 should be disabled using TDMDCE), */\
+ { 0x5743, "ctrl_att_spkr"}, /* Total gain depending on INPLEV setting (channel 0), */\
+ { 0x5781, "vamp_sel2"}, /* VAMP_OUT2 input selection , */\
+ { 0x5805, "zero_lvl"}, /* Low noise gain switch zero trigger level , */\
+ { 0x5861, "ctrl_fb_resistor"}, /* Select amplifier feedback resistor connection , */\
+ { 0x5881, "lownoisegain_mode"}, /* Low noise gain mode control , */\
+ { 0x5905, "threshold_lvl"}, /* Low noise gain switch trigger level , */\
+ { 0x5965, "hold_time"}, /* Low noise mode hold time before entering into low noise mode, */\
+ { 0x5a05, "lpm1_cal_offset"}, /* Low power mode1 detector ctrl cal_offset from gain module , */\
+ { 0x5a65, "lpm1_zero_lvl"}, /* Low power mode1 zero crossing detection level , */\
+ { 0x5ac1, "lpm1_mode"}, /* Low power mode control , */\
+ { 0x5b05, "lpm1_threshold_lvl"}, /* Low power mode1 amplitude trigger level , */\
+ { 0x5b65, "lpm1_hold_time"}, /* Low power mode hold time before entering into low power mode, */\
+ { 0x5bc0, "disable_low_power_mode"}, /* Low power mode1 detector control , */\
+ { 0x5c00, "enbl_minion"}, /* Enables minion (small) power stage , */\
+ { 0x5c13, "vth_vddpvbat"}, /* Select vddp-vbat threshold signal , */\
+ { 0x5c50, "lpen_vddpvbat"}, /* Select vddp-vbat filtred vs unfiltered compare , */\
+ { 0x5c61, "ctrl_rfb"}, /* Feedback resistor selection - I2C direct mode , */\
+ { 0x5d02, "tdm_source_mapping"}, /* TDM source mapping , */\
+ { 0x5d31, "tdm_sourcea_frame_sel"}, /* Sensed value A , */\
+ { 0x5d51, "tdm_sourceb_frame_sel"}, /* Sensed value B , */\
+ { 0x5d71, "tdm_source0_clip_sel"}, /* Clip information (analog /digital) for source0 , */\
+ { 0x5d91, "tdm_source1_clip_sel"}, /* Clip information (analog /digital) for source1 , */\
+ { 0x5e02, "rst_min_vbat_delay"}, /* Delay for reseting the min_vbat value inside HW Clipper (number of Fs pulses), */\
+ { 0x5e30, "rst_min_vbat_sel"}, /* Control for selecting reset signal for min_bat , */\
+ { 0x5f00, "hard_mute"}, /* Hard mute - PWM , */\
+ { 0x5f12, "ns_hp2ln_criterion"}, /* 0..7 zeroes at ns as threshold to swap from high_power to low_noise, */\
+ { 0x5f42, "ns_ln2hp_criterion"}, /* 0..7 zeroes at ns as threshold to swap from low_noise to high_power, */\
+ { 0x5f78, "spare_out"}, /* Spare out register , */\
+ { 0x600f, "spare_in"}, /* Spare IN , */\
+ { 0x6102, "cursense_comp_delay"}, /* Delay to allign compensation signal with current sense signal, */\
+ { 0x6130, "cursense_comp_sign"}, /* Polarity of compensation for current sense , */\
+ { 0x6140, "enbl_cursense_comp"}, /* Enable current sense compensation , */\
+ { 0x6152, "pwms_clip_lvl"}, /* Set the amount of pwm pulse that may be skipped before clip-flag is triggered, */\
+ { 0x7005, "frst_boost_voltage"}, /* First Boost Voltage Level , */\
+ { 0x7065, "scnd_boost_voltage"}, /* Second Boost Voltage Level , */\
+ { 0x70c3, "boost_cur"}, /* Max Coil Current , */\
+ { 0x7101, "bst_slpcmplvl"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7120, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x7130, "boost_speed"}, /* Soft ramp up/down , */\
+ { 0x7140, "dcdcoff_mode"}, /* DCDC on/off , */\
+ { 0x7150, "dcdc_pwmonly"}, /* DCDC PWM only mode , */\
+ { 0x7160, "boost_track"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7170, "sel_dcdc_envelope_8fs"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x7180, "ignore_flag_voutcomp86"}, /* Determines the maximum PWM frequency be the most efficient in relation to the Booster inductor value, */\
+ { 0x7195, "overshoot_correction_lvl"}, /* Threshold level to activate active overshoot control, */\
+ { 0x7204, "boost_trip_lvl_1st"}, /* 1st adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x7254, "boost_trip_lvl_2nd"}, /* 2nd adaptive boost trip levels, effective only when DCIE is set to 1, */\
+ { 0x72a4, "boost_trip_lvl_track"}, /* Track adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x72f0, "enbl_trip_hyst"}, /* Enable hysteresis on booster trip levels , */\
+ { 0x7304, "boost_hold_time"}, /* Hold time / Hysteresis for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x7350, "dcdc_pfm20khz_limit"}, /* DCDC in PFM mode pwm mode is activated each 50us to force a pwm pulse, */\
+ { 0x7361, "dcdc_ctrl_maxzercnt"}, /* Number of zero current flags to count before going to pfm mode, */\
+ { 0x7386, "dcdc_vbat_delta_detect"}, /* Threshold before booster is reacting on a delta Vbat (in PFM mode) by temporarily switching to PWM mode, */\
+ { 0x73f0, "dcdc_ignore_vbat"}, /* Ignore an increase on Vbat , */\
+ { 0x7404, "bst_drive"}, /* Binary coded drive setting for boost converter power stage, */\
+ { 0x7451, "bst_scalecur"}, /* For testing direct control scale current , */\
+ { 0x7474, "bst_slopecur"}, /* For testing direct control slope current , */\
+ { 0x74c1, "bst_slope"}, /* Boost slope speed , */\
+ { 0x74e0, "bst_bypass_bstcur"}, /* Bypass control for boost current settings , */\
+ { 0x74f0, "bst_bypass_bstfoldback"}, /* Bypass control for boost foldback , */\
+ { 0x7500, "enbl_bst_engage"}, /* Enable power stage dcdc controller , */\
+ { 0x7510, "enbl_bst_hizcom"}, /* Enable hiz comparator , */\
+ { 0x7520, "enbl_bst_peakcur"}, /* Enable peak current , */\
+ { 0x7530, "enbl_bst_power"}, /* Enable line of the powerstage , */\
+ { 0x7540, "enbl_bst_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x7550, "enbl_bst_voutcomp"}, /* Enable vout comparators , */\
+ { 0x7560, "enbl_bst_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x7570, "enbl_bst_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x7580, "enbl_bst_windac"}, /* Enable window dac , */\
+ { 0x7595, "bst_windac"}, /* For testing direct control windac , */\
+ { 0x7600, "boost_alg"}, /* Control for boost adaptive loop gain , */\
+ { 0x7611, "boost_loopgain"}, /* DCDC boost loopgain setting , */\
+ { 0x7631, "bst_freq"}, /* DCDC boost frequency control , */\
+ { 0x7650, "enbl_bst_peak2avg"}, /* Enable boost peak2avg functionality , */\
+ { 0x7660, "bst_use_new_zercur_detect"}, /* Enable new zero current detection for boost control, */\
+ { 0x8001, "sel_clk_cs"}, /* Current sense clock duty cycle control , */\
+ { 0x8021, "micadc_speed"}, /* Current sense clock for MiCADC selection - 32/44.1/48 KHz Fs band only, */\
+ { 0x8040, "cs_gain_control"}, /* Current sense gain control , */\
+ { 0x8050, "cs_bypass_gc"}, /* Bypasses the CS gain correction , */\
+ { 0x8060, "invertpwm"}, /* Current sense common mode feedback pwm invert control, */\
+ { 0x8087, "cs_gain"}, /* Current sense gain , */\
+ { 0x8105, "cs_ktemp"}, /* Current sense temperature compensation trimming (1 - VALUE*TEMP) * signal, */\
+ { 0x8164, "cs_ktemp2"}, /* Second order temperature compensation coefficient , */\
+ { 0x81b0, "enbl_cs_adc"}, /* Enable current sense ADC , */\
+ { 0x81c0, "enbl_cs_inn1"}, /* Enable connection of current sense negative1 , */\
+ { 0x81d0, "enbl_cs_inn2"}, /* Enable connection of current sense negative2 , */\
+ { 0x81e0, "enbl_cs_inp1"}, /* Enable connection of current sense positive1 , */\
+ { 0x81f0, "enbl_cs_inp2"}, /* Enable connection of current sense positive2 , */\
+ { 0x8200, "enbl_cs_ldo"}, /* Enable current sense LDO , */\
+ { 0x8210, "enbl_cs_vbatldo"}, /* Enable of current sense LDO , */\
+ { 0x8220, "cs_adc_bsoinv"}, /* Bitstream inversion for current sense ADC , */\
+ { 0x8231, "cs_adc_hifreq"}, /* Frequency mode current sense ADC , */\
+ { 0x8250, "cs_adc_nortz"}, /* Return to zero for current sense ADC , */\
+ { 0x8263, "cs_adc_offset"}, /* Micadc ADC offset setting , */\
+ { 0x82a0, "cs_adc_slowdel"}, /* Select delay for current sense ADC (internal decision circuitry), */\
+ { 0x82b4, "cs_adc_gain"}, /* Gain setting for current sense ADC (two's complement), */\
+ { 0x8300, "cs_resonator_enable"}, /* Enable for resonator to improve SRN , */\
+ { 0x8310, "cs_classd_tran_skip"}, /* Skip current sense connection during a classD amplifier transition, */\
+ { 0x8320, "cs_inn_short"}, /* Short current sense negative to common mode , */\
+ { 0x8330, "cs_inp_short"}, /* Short current sense positive to common mode , */\
+ { 0x8340, "cs_ldo_bypass"}, /* Bypass current sense LDO , */\
+ { 0x8350, "cs_ldo_pulldown"}, /* Pull down current sense LDO, only valid if enbl_cs_ldo is high, */\
+ { 0x8364, "cs_ldo_voset"}, /* Current sense LDO voltage level setting (two's complement), */\
+ { 0x8800, "ctrl_vs_igen_supply"}, /* Control for selecting supply for VS current generator, */\
+ { 0x8810, "ctrl_vs_force_div2"}, /* Select input resistive divider gain , */\
+ { 0x8820, "enbl_dc_filter"}, /* Control for enabling the DC blocking filter for voltage and current sense, */\
+ { 0x8901, "volsense_pwm_sel"}, /* Voltage sense source selection control , */\
+ { 0x8920, "vs_gain_control"}, /* Voltage sense gain control , */\
+ { 0x8930, "vs_bypass_gc"}, /* Bypasses the VS gain correction , */\
+ { 0x8940, "vs_adc_bsoinv"}, /* Bitstream inversion for voltage sense ADC , */\
+ { 0x8950, "vs_adc_nortz"}, /* Return to zero for voltage sense ADC , */\
+ { 0x8960, "vs_adc_slowdel"}, /* Select delay for voltage sense ADC (internal decision circuitry), */\
+ { 0x8970, "vs_classd_tran_skip"}, /* Skip voltage sense connection during a classD amplifier transition, */\
+ { 0x8987, "vs_gain"}, /* Voltage sense gain , */\
+ { 0x8a00, "vs_inn_short"}, /* Short voltage sense negative to common mode , */\
+ { 0x8a10, "vs_inp_short"}, /* Short voltage sense positive to common mode , */\
+ { 0x8a20, "vs_ldo_bypass"}, /* Bypass voltage sense LDO , */\
+ { 0x8a30, "vs_ldo_pulldown"}, /* Pull down voltage sense LDO, only valid if enbl_cs_ldo is high, */\
+ { 0x8a44, "vs_ldo_voset"}, /* Voltage sense LDO voltage level setting (two's complement), */\
+ { 0x8a90, "enbl_vs_adc"}, /* Enable voltage sense ADC , */\
+ { 0x8aa0, "enbl_vs_inn1"}, /* Enable connection of voltage sense negative1 , */\
+ { 0x8ab0, "enbl_vs_inn2"}, /* Enable connection of voltage sense negative2 , */\
+ { 0x8ac0, "enbl_vs_inp1"}, /* Enable connection of voltage sense positive1 , */\
+ { 0x8ad0, "enbl_vs_inp2"}, /* Enable connection of voltage sense positive2 , */\
+ { 0x8ae0, "enbl_vs_ldo"}, /* Enable voltage sense LDO , */\
+ { 0x8af0, "enbl_vs_vbatldo"}, /* Enable of voltage sense LDO , */\
+ { 0x9000, "cf_rst_dsp"}, /* Reset for Coolflux DSP , */\
+ { 0x9011, "cf_dmem"}, /* Target memory for CFMA using I2C interface , */\
+ { 0x9030, "cf_aif"}, /* Auto increment , */\
+ { 0x9040, "cf_int"}, /* Coolflux Interrupt - auto clear , */\
+ { 0x9050, "cf_cgate_off"}, /* Coolflux clock gating disabling control , */\
+ { 0x9080, "cf_req_cmd"}, /* Firmware event request rpc command , */\
+ { 0x9090, "cf_req_reset"}, /* Firmware event request reset restart , */\
+ { 0x90a0, "cf_req_mips"}, /* Firmware event request short on mips , */\
+ { 0x90b0, "cf_req_mute_ready"}, /* Firmware event request mute sequence ready , */\
+ { 0x90c0, "cf_req_volume_ready"}, /* Firmware event request volume ready , */\
+ { 0x90d0, "cf_req_damage"}, /* Firmware event request speaker damage detected , */\
+ { 0x90e0, "cf_req_calibrate_ready"}, /* Firmware event request calibration completed , */\
+ { 0x90f0, "cf_req_reserved"}, /* Firmware event request reserved , */\
+ { 0x910f, "cf_madd"}, /* CF memory address , */\
+ { 0x920f, "cf_mema"}, /* Activate memory access , */\
+ { 0x9307, "cf_err"}, /* CF error flags , */\
+ { 0x9380, "cf_ack_cmd"}, /* Firmware event acknowledge rpc command , */\
+ { 0x9390, "cf_ack_reset"}, /* Firmware event acknowledge reset restart , */\
+ { 0x93a0, "cf_ack_mips"}, /* Firmware event acknowledge short on mips , */\
+ { 0x93b0, "cf_ack_mute_ready"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x93c0, "cf_ack_volume_ready"}, /* Firmware event acknowledge volume ready , */\
+ { 0x93d0, "cf_ack_damage"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x93e0, "cf_ack_calibrate_ready"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x93f0, "cf_ack_reserved"}, /* Firmware event acknowledge reserved , */\
+ { 0xa007, "mtpkey1"}, /* KEY1 To access KEY1 protected registers 0x5A/90d (default for engineering), */\
+ { 0xa107, "mtpkey2"}, /* KEY2 to access KEY2 protected registers, customer key, */\
+ { 0xa200, "key01_locked"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "key02_locked"}, /* Indicates KEY2 is locked , */\
+ { 0xa302, "mtp_man_address_in"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0xa330, "man_copy_mtp_to_iic"}, /* Start copying single word from MTP to I2C mtp register - auto clear, */\
+ { 0xa340, "man_copy_iic_to_mtp"}, /* Start copying single word from I2C mtp register to mtp - auto clear, */\
+ { 0xa350, "auto_copy_mtp_to_iic"}, /* Start copying all the data from mtp to I2C mtp registers - auto clear, */\
+ { 0xa360, "auto_copy_iic_to_mtp"}, /* Start copying data from I2C mtp registers to mtp - auto clear, */\
+ { 0xa400, "faim_set_clkws"}, /* Sets the FaIM controller clock wait state register, */\
+ { 0xa410, "faim_sel_evenrows"}, /* All even rows of the FaIM are selected, active high, */\
+ { 0xa420, "faim_sel_oddrows"}, /* All odd rows of the FaIM are selected, all rows in combination with sel_evenrows, */\
+ { 0xa430, "faim_program_only"}, /* Skip the erase access at wr_faim command (write-program-marginread), */\
+ { 0xa440, "faim_erase_only"}, /* Skip the program access at wr_faim command (write-erase-marginread), */\
+ { 0xa50f, "mtp_man_data_out_msb"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "mtp_man_data_out_lsb"}, /* LSB word of MTP manual read data , */\
+ { 0xa70f, "mtp_man_data_in_msb"}, /* MSB word of write data for MTP manual write , */\
+ { 0xa80f, "mtp_man_data_in_lsb"}, /* LSB word of write data for MTP manual write , */\
+ { 0xb000, "bypass_ocpcounter"}, /* Bypass OCP Counter , */\
+ { 0xb010, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0xb020, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0xb030, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0xb040, "bypass_otp"}, /* Bypass OTP , */\
+ { 0xb050, "bypass_lost_clk"}, /* Bypass lost clock detector , */\
+ { 0xb060, "ctrl_vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0xb070, "disable_main_ctrl_change_prot"}, /* Disable main control change protection , */\
+ { 0xb087, "ocp_threshold"}, /* OCP threshold level , */\
+ { 0xb108, "ext_temp"}, /* External temperature (C) , */\
+ { 0xb190, "ext_temp_sel"}, /* Select temp Speaker calibration , */\
+ { 0xc000, "use_direct_ctrls"}, /* Direct control to overrule several functions for testing, */\
+ { 0xc010, "rst_datapath"}, /* Direct control for datapath reset , */\
+ { 0xc020, "rst_cgu"}, /* Direct control for cgu reset , */\
+ { 0xc038, "enbl_ref"}, /* Switch on the analog references, each part of the references can be switched on/off individually, */\
+ { 0xc0c0, "use_direct_vs_ctrls"}, /* Voltage sense direct control to overrule several functions for testing, */\
+ { 0xc0d0, "enbl_ringo"}, /* Enable the ring oscillator for test purpose , */\
+ { 0xc0e0, "enbl_pll"}, /* Enables PLL in I2C direct control mode only , */\
+ { 0xc0f0, "enbl_osc"}, /* Enables OSC in I2C direct control mode only , */\
+ { 0xc100, "enbl_tsense"}, /* Temperature sensor enable control - I2C direct mode, */\
+ { 0xc110, "tsense_hibias"}, /* Bit to set the biasing in temp sensor to high , */\
+ { 0xc120, "enbl_flag_vbg"}, /* Enable flagging of bandgap out of control , */\
+ { 0xc20f, "abist_offset"}, /* Offset control for ABIST testing (two's complement), */\
+ { 0xc300, "bypasslatch"}, /* Bypass latch , */\
+ { 0xc311, "sourcea"}, /* Set OUTA to , */\
+ { 0xc331, "sourceb"}, /* Set OUTB to , */\
+ { 0xc350, "inverta"}, /* Invert pwma test signal , */\
+ { 0xc360, "invertb"}, /* Invert pwmb test signal , */\
+ { 0xc374, "pulselength"}, /* Pulse length setting test input for amplifier (clock d - k*2048*fs), */\
+ { 0xc3d0, "test_abistfft_enbl"}, /* Enable ABIST with FFT on Coolflux DSP , */\
+ { 0xc400, "bst_bypasslatch"}, /* Bypass latch in boost converter , */\
+ { 0xc411, "bst_source"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0xc430, "bst_invertb"}, /* Invert pwmbst test signal , */\
+ { 0xc444, "bst_pulselength"}, /* Pulse length setting test input for boost converter , */\
+ { 0xc490, "test_bst_ctrlsthv"}, /* Test mode for boost control stage , */\
+ { 0xc4a0, "test_bst_iddq"}, /* IDDQ testing in power stage of boost converter , */\
+ { 0xc4b0, "test_bst_rdson"}, /* RDSON testing - boost power stage , */\
+ { 0xc4c0, "test_bst_cvi"}, /* CVI testing - boost power stage , */\
+ { 0xc4d0, "test_bst_ocp"}, /* Boost Converter Over Current Protection , */\
+ { 0xc4e0, "test_bst_sense"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0xc500, "test_cvi"}, /* Analog BIST, switch choose which transistor will be used as current source (also cross coupled sources possible), */\
+ { 0xc510, "test_discrete"}, /* Test function noise measurement , */\
+ { 0xc520, "test_iddq"}, /* Set the power stages in iddq mode for gate stress., */\
+ { 0xc530, "test_rdson"}, /* Analog BIST, switch to enable Rdson measurement , */\
+ { 0xc540, "test_sdelta"}, /* Analog BIST, noise test , */\
+ { 0xc550, "test_enbl_cs"}, /* Enable for digimux mode of current sense , */\
+ { 0xc560, "test_enbl_vs"}, /* Enable for digimux mode of voltage sense , */\
+ { 0xc570, "enbl_pwm_dcc"}, /* Enables direct control of pwm duty cycle for DCDC power stage, */\
+ { 0xc583, "pwm_dcc_cnt"}, /* Control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0xc5c0, "enbl_ldo_stress"}, /* Enable stress of internal supply voltages powerstages, */\
+ { 0xc607, "digimuxa_sel"}, /* DigimuxA input selection control routed to DATAO , */\
+ { 0xc687, "digimuxb_sel"}, /* DigimuxB input selection control routed to INT , */\
+ { 0xc707, "digimuxc_sel"}, /* DigimuxC input selection control routed to ADS1 , */\
+ { 0xc800, "enbl_anamux1"}, /* Enable anamux1 , */\
+ { 0xc810, "enbl_anamux2"}, /* Enable anamux2 , */\
+ { 0xc820, "enbl_anamux3"}, /* Enable anamux3 , */\
+ { 0xc830, "enbl_anamux4"}, /* Enable anamux4 , */\
+ { 0xc844, "anamux1"}, /* Anamux selection control - anamux on TEST1 , */\
+ { 0xc894, "anamux2"}, /* Anamux selection control - anamux on TEST2 , */\
+ { 0xc903, "anamux3"}, /* Anamux selection control - anamux on TEST3 , */\
+ { 0xc943, "anamux4"}, /* Anamux selection control - anamux on TEST4 , */\
+ { 0xca05, "pll_inseli"}, /* PLL INSELI - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xca64, "pll_inselp"}, /* PLL INSELP - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcab3, "pll_inselr"}, /* PLL INSELR - PLL direct bandwidth control mode only with pll_bandsel set to 1, */\
+ { 0xcaf0, "pll_bandsel"}, /* PLL bandwidth selection control, USE WITH CAUTION , */\
+ { 0xcb09, "pll_ndec"}, /* PLL NDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcba0, "pll_mdec_msb"}, /* MSB of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcbb0, "pll_bypass"}, /* PLL bypass control during functional mode , */\
+ { 0xcbc0, "pll_directi"}, /* PLL directi control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcbd0, "pll_directo"}, /* PLL directo control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcbe0, "pll_frm_clockstable"}, /* PLL FRM clock stable control in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcbf0, "pll_frm"}, /* PLL free running mode control in functional mode , */\
+ { 0xcc0f, "pll_mdec_lsb"}, /* Bits 15..0 of PLL MDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcd06, "pll_pdec"}, /* PLL PDEC in direct control mode only, use_direct_pll_ctrl set to 1, */\
+ { 0xcd70, "use_direct_pll_ctrl"}, /* Enabled PLL direct control mode, overrules the PLL LUT with I2C register values, */\
+ { 0xcd80, "use_direct_clk_ctrl"}, /* Enabled CGU clock divider direct control mode , */\
+ { 0xcd90, "pll_limup_off"}, /* PLL up limiter control in PLL direct bandwidth control mode, pll_bandsel set to 1, */\
+ { 0xce0f, "tsig_freq_lsb"}, /* Internal sinus test generator frequency control , */\
+ { 0xcf02, "tsig_freq_msb"}, /* Select internal sinus test generator, frequency control msb bits, */\
+ { 0xcf33, "tsig_gain"}, /* Test signal gain , */\
+ { 0xd000, "adc10_reset"}, /* Reset for ADC10 - I2C direct control mode , */\
+ { 0xd011, "adc10_test"}, /* Test mode selection signal for ADC10 - I2C direct control mode, */\
+ { 0xd032, "adc10_sel"}, /* Select the input to convert for ADC10 - I2C direct control mode, */\
+ { 0xd064, "adc10_prog_sample"}, /* ADC10 program sample setting - I2C direct control mode, */\
+ { 0xd0b0, "adc10_enbl"}, /* Enable ADC10 - I2C direct control mode , */\
+ { 0xd0c0, "bypass_lp_vbat"}, /* Bypass control for Low pass filter in batt sensor , */\
+ { 0xd109, "data_adc10_tempbat"}, /* ADC 10 data output data for testing , */\
+ { 0xd201, "clkdiv_audio_sel"}, /* Audio clock divider selection in direct clock control mode, */\
+ { 0xd301, "int_ehs"}, /* Speed/load setting for INT IO cell, clk or data mode range (see SLIMMF IO datasheet), */\
+ { 0xd321, "datao_ehs"}, /* Speed/load setting for DATAO IO cell, clk or data mode range (see SLIMMF IO datasheet), */\
+ { 0xd340, "hs_mode"}, /* I2C high speed mode control , */\
+ { 0xd407, "ctrl_digtoana_hidden"}, /* Spare digital to analog control bits - Hidden , */\
+ { 0xd480, "enbl_clk_out_of_range"}, /* Clock out of range , */\
+ { 0xd491, "sel_wdt_clk"}, /* Watch dog clock divider settings , */\
+ { 0xd4b0, "inject_tsig"}, /* Control bit to switch to internal sinus test generator, */\
+ { 0xd500, "source_in_testmode"}, /* TDM source in test mode (return only current and voltage sense), */\
+ { 0xd510, "gainatt_feedback"}, /* Gainatt feedback to tdm , */\
+ { 0xd522, "test_parametric_io"}, /* Test IO parametric , */\
+ { 0xd550, "ctrl_bst_clk_lp1"}, /* Boost clock control in low power mode1 , */\
+ { 0xd561, "test_spare_out1"}, /* Test spare out 1 , */\
+ { 0xd580, "bst_dcmbst"}, /* DCM boost , */\
+ { 0xd593, "test_spare_out2"}, /* Test spare out 2 , */\
+ { 0xe00f, "sw_profile"}, /* Software profile data , */\
+ { 0xe10f, "sw_vstep"}, /* Software vstep information , */\
+ { 0xf000, "calibration_onetime"}, /* Calibration schedule , */\
+ { 0xf010, "calibr_ron_done"}, /* Calibration Ron executed , */\
+ { 0xf020, "calibr_dcdc_api_calibrate"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "calibr_dcdc_delta_sign"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "calibr_dcdc_delta"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "calibr_speaker_info"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf105, "calibr_vout_offset"}, /* DCDC offset calibration 2's complement (key1 protected), */\
+ { 0xf163, "calibr_vbg_trim"}, /* Bandgap trimming control , */\
+ { 0xf203, "calibr_gain"}, /* HW gain module (2's complement) , */\
+ { 0xf245, "calibr_offset"}, /* Offset for amplifier, HW gain module (2's complement), */\
+ { 0xf307, "calibr_gain_vs"}, /* Voltage sense gain , */\
+ { 0xf387, "calibr_gain_cs"}, /* Current sense gain (signed two's complement format), */\
+ { 0xf40f, "mtpdata4"}, /* MTP4 data , */\
+ { 0xf50f, "calibr_R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xf60f, "mtpdata6"}, /* MTP6 data , */\
+ { 0xf706, "ctrl_offset_a"}, /* Offset of level shifter A , */\
+ { 0xf786, "ctrl_offset_b"}, /* Offset of amplifier level shifter B , */\
+ { 0xf806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0xf870, "htol_iic_addr_en"}, /* HTOL I2C address enable control , */\
+ { 0xf884, "calibr_temp_offset"}, /* Temperature offset 2's compliment (key1 protected), */\
+ { 0xf8d2, "calibr_temp_gain"}, /* Temperature gain 2's compliment (key1 protected) , */\
+ { 0xf900, "mtp_lock_dcdcoff_mode"}, /* Disable functionality of dcdcoff_mode bit , */\
+ { 0xf910, "mtp_lock_enbl_coolflux"}, /* Disable functionality of enbl_coolflux bit , */\
+ { 0xf920, "mtp_lock_bypass_clipper"}, /* Disable function bypass_clipper , */\
+ { 0xf930, "mtp_enbl_pwm_delay_clock_gating"}, /* PWM delay clock auto gating , */\
+ { 0xf940, "mtp_enbl_ocp_clock_gating"}, /* OCP clock auto gating , */\
+ { 0xf987, "type_bits_fw"}, /* MTP control for firmware features - See Firmware I2C API document for details, */\
+ { 0xfa0f, "mtpdataA"}, /* MTPdataA , */\
+ { 0xfb0f, "mtpdataB"}, /* MTPdataB , */\
+ { 0xfc0f, "mtpdataC"}, /* MTPdataC , */\
+ { 0xfd0f, "mtpdataD"}, /* MTPdataD , */\
+ { 0xfe0f, "mtpdataE"}, /* MTPdataE , */\
+ { 0xff07, "calibr_osc_delta_ndiv"}, /* Calibration data for OSC1M, signed number representation, */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+#if 0
+enum tfa9894_irq {
+ tfa9894_irq_max = -1,
+ tfa9894_irq_all = -1 /* all irqs */};
+#endif//
+#define TFA9894_IRQ_NAMETABLE static tfaIrqName_t Tfa9894IrqNames[]= {\
+};
+#endif /* _TFA9894_TFAFIELDNAMES_H */
diff --git a/inc/tfa9896_tfafieldnames.h b/inc/tfa9896_tfafieldnames.h
new file mode 100644
index 0000000..dc5e461
--- /dev/null
+++ b/inc/tfa9896_tfafieldnames.h
@@ -0,0 +1,923 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9896_TFAFIELDNAMES_H
+#define _TFA9896_TFAFIELDNAMES_H
+
+
+#define TFA9896_I2CVERSION 16
+
+typedef enum nxpTFA9896BfEnumList {
+ TFA9896_BF_VDDS = 0x0000, /*!< Power-on-reset flag (auto clear by reading) */
+ TFA9896_BF_PLLS = 0x0010, /*!< PLL lock to programmed frequency */
+ TFA9896_BF_OTDS = 0x0020, /*!< Over Temperature Protection alarm */
+ TFA9896_BF_OVDS = 0x0030, /*!< Over Voltage Protection alarm */
+ TFA9896_BF_UVDS = 0x0040, /*!< Under Voltage Protection alarm */
+ TFA9896_BF_OCDS = 0x0050, /*!< Over Current Protection alarm */
+ TFA9896_BF_CLKS = 0x0060, /*!< Clocks stable flag */
+ TFA9896_BF_CLIPS = 0x0070, /*!< Amplifier clipping */
+ TFA9896_BF_MTPB = 0x0080, /*!< MTP busy copying data to/from I2C registers */
+ TFA9896_BF_NOCLK = 0x0090, /*!< lost clock detection (reference input clock) */
+ TFA9896_BF_SPKS = 0x00a0, /*!< Speaker error */
+ TFA9896_BF_ACS = 0x00b0, /*!< Cold Start required */
+ TFA9896_BF_SWS = 0x00c0, /*!< Amplifier engage (Amp Switching) */
+ TFA9896_BF_WDS = 0x00d0, /*!< watchdog reset (activates reset) */
+ TFA9896_BF_AMPS = 0x00e0, /*!< Amplifier is enabled by manager */
+ TFA9896_BF_AREFS = 0x00f0, /*!< References are enabled by manager */
+ TFA9896_BF_BATS = 0x0109, /*!< Battery voltage from ADC readout */
+ TFA9896_BF_TEMPS = 0x0208, /*!< Temperature readout from the temperature sensor ( C) */
+ TFA9896_BF_REV = 0x030f, /*!< Device revision information */
+ TFA9896_BF_RCV = 0x0420, /*!< Enable receiver mode */
+ TFA9896_BF_CHS12 = 0x0431, /*!< Channel Selection TDM input for Coolflux */
+ TFA9896_BF_INPLVL= 0x0450, /*!< Input level selection attenuator ( */
+ TFA9896_BF_CHSA = 0x0461, /*!< Input selection for amplifier */
+ TFA9896_BF_AUDFS = 0x04c3, /*!< Audio sample rate setting */
+ TFA9896_BF_BSSCR = 0x0501, /*!< Batteery protection attack time */
+ TFA9896_BF_BSST = 0x0523, /*!< Battery protection threshold level */
+ TFA9896_BF_BSSRL = 0x0561, /*!< Battery protection maximum reduction */
+ TFA9896_BF_BSSRR = 0x0582, /*!< Battery protection release time */
+ TFA9896_BF_BSSHY = 0x05b1, /*!< Battery Protection Hysteresis */
+ TFA9896_BF_BSSR = 0x05e0, /*!< Battery voltage value for read out (only) */
+ TFA9896_BF_BSSBY = 0x05f0, /*!< Bypass clipper battery protection */
+ TFA9896_BF_DPSA = 0x0600, /*!< Enable dynamic powerstage activation (DPSA) */
+ TFA9896_BF_ATTEN = 0x0613, /*!< Gain attenuation setting */
+ TFA9896_BF_CFSM = 0x0650, /*!< Soft mute in CoolFlux */
+ TFA9896_BF_BSSS = 0x0670, /*!< Battery sense steepness */
+ TFA9896_BF_VOL = 0x0687, /*!< Coolflux volume control */
+ TFA9896_BF_DCVO2 = 0x0702, /*!< Second Boost Voltage */
+ TFA9896_BF_DCMCC = 0x0733, /*!< Max boost coil current - step of 175 mA */
+ TFA9896_BF_DCVO1 = 0x0772, /*!< First Boost Voltage */
+ TFA9896_BF_DCIE = 0x07a0, /*!< Adaptive boost mode */
+ TFA9896_BF_DCSR = 0x07b0, /*!< Soft Rampup/down mode for DCDC controller */
+ TFA9896_BF_DCPAVG= 0x07c0, /*!< ctrl_peak2avg for analog part of DCDC */
+ TFA9896_BF_DCPWM = 0x07d0, /*!< DCDC PWM only mode */
+ TFA9896_BF_TROS = 0x0800, /*!< Selection ambient temperature for speaker calibration */
+ TFA9896_BF_EXTTS = 0x0818, /*!< External temperature for speaker calibration (C) */
+ TFA9896_BF_PWDN = 0x0900, /*!< powerdown selection */
+ TFA9896_BF_I2CR = 0x0910, /*!< All I2C registers reset to default */
+ TFA9896_BF_CFE = 0x0920, /*!< Enable CoolFlux */
+ TFA9896_BF_AMPE = 0x0930, /*!< Enable Amplifier */
+ TFA9896_BF_DCA = 0x0940, /*!< Enable DCDC Boost converter */
+ TFA9896_BF_SBSL = 0x0950, /*!< Coolflux configured */
+ TFA9896_BF_AMPC = 0x0960, /*!< Selection if Coolflux enables amplifier */
+ TFA9896_BF_DCDIS = 0x0970, /*!< DCDC boost converter not connected */
+ TFA9896_BF_PSDR = 0x0980, /*!< IDDQ amplifier test selection */
+ TFA9896_BF_INTPAD= 0x09c1, /*!< INT pad (interrupt bump output) configuration */
+ TFA9896_BF_IPLL = 0x09e0, /*!< PLL input reference clock selection */
+ TFA9896_BF_DCTRIP= 0x0a04, /*!< Adaptive boost trip levels (effective only when boost_intel is set to 1) */
+ TFA9896_BF_DCHOLD= 0x0a54, /*!< Hold time for DCDC booster (effective only when boost_intel is set to 1) */
+ TFA9896_BF_MTPK = 0x0b07, /*!< KEY2 to access key2 protected registers (default for engineering) */
+ TFA9896_BF_CVFDLY= 0x0c25, /*!< Fractional delay adjustment between current and voltage sense */
+ TFA9896_BF_OPENMTP= 0x0ec0, /*!< Enable programming of the MTP memory */
+ TFA9896_BF_TDMPRF= 0x1011, /*!< TDM usecase selection control */
+ TFA9896_BF_TDMEN = 0x1030, /*!< TDM interface enable */
+ TFA9896_BF_TDMCKINV= 0x1040, /*!< TDM clock inversion, receive on */
+ TFA9896_BF_TDMFSLN= 0x1053, /*!< TDM FS length */
+ TFA9896_BF_TDMFSPOL= 0x1090, /*!< TDM FS polarity (start frame) */
+ TFA9896_BF_TDMSAMSZ= 0x10a4, /*!< TDM sample size for all TDM sinks and sources */
+ TFA9896_BF_TDMSLOTS= 0x1103, /*!< TDM number of slots */
+ TFA9896_BF_TDMSLLN= 0x1144, /*!< TDM slot length */
+ TFA9896_BF_TDMBRMG= 0x1194, /*!< TDM bits remaining after the last slot */
+ TFA9896_BF_TDMDDEL= 0x11e0, /*!< TDM data delay */
+ TFA9896_BF_TDMDADJ= 0x11f0, /*!< TDM data adjustment */
+ TFA9896_BF_TDMTXFRM= 0x1201, /*!< TDM TXDATA format */
+ TFA9896_BF_TDMUUS0= 0x1221, /*!< TDM TXDATA format unused slot SD0 */
+ TFA9896_BF_TDMUUS1= 0x1241, /*!< TDM TXDATA format unused slot SD1 */
+ TFA9896_BF_TDMSI0EN= 0x1270, /*!< TDM sink0 enable */
+ TFA9896_BF_TDMSI1EN= 0x1280, /*!< TDM sink1 enable */
+ TFA9896_BF_TDMSI2EN= 0x1290, /*!< TDM sink2 enable */
+ TFA9896_BF_TDMSO0EN= 0x12a0, /*!< TDM source0 enable */
+ TFA9896_BF_TDMSO1EN= 0x12b0, /*!< TDM source1 enable */
+ TFA9896_BF_TDMSO2EN= 0x12c0, /*!< TDM source2 enable */
+ TFA9896_BF_TDMSI0IO= 0x12d0, /*!< TDM sink0 IO selection */
+ TFA9896_BF_TDMSI1IO= 0x12e0, /*!< TDM sink1 IO selection */
+ TFA9896_BF_TDMSI2IO= 0x12f0, /*!< TDM sink2 IO selection */
+ TFA9896_BF_TDMSO0IO= 0x1300, /*!< TDM source0 IO selection */
+ TFA9896_BF_TDMSO1IO= 0x1310, /*!< TDM source1 IO selection */
+ TFA9896_BF_TDMSO2IO= 0x1320, /*!< TDM source2 IO selection */
+ TFA9896_BF_TDMSI0SL= 0x1333, /*!< TDM sink0 slot position [GAIN IN] */
+ TFA9896_BF_TDMSI1SL= 0x1373, /*!< TDM sink1 slot position [CH1 IN] */
+ TFA9896_BF_TDMSI2SL= 0x13b3, /*!< TDM sink2 slot position [CH2 IN] */
+ TFA9896_BF_TDMSO0SL= 0x1403, /*!< TDM source0 slot position [GAIN OUT] */
+ TFA9896_BF_TDMSO1SL= 0x1443, /*!< TDM source1 slot position [Voltage Sense] */
+ TFA9896_BF_TDMSO2SL= 0x1483, /*!< TDM source2 slot position [Current Sense] */
+ TFA9896_BF_NBCK = 0x14c3, /*!< TDM NBCK bit clock ratio */
+ TFA9896_BF_INTOVDDS= 0x2000, /*!< flag_por_int_out */
+ TFA9896_BF_INTOPLLS= 0x2010, /*!< flag_pll_lock_int_out */
+ TFA9896_BF_INTOOTDS= 0x2020, /*!< flag_otpok_int_out */
+ TFA9896_BF_INTOOVDS= 0x2030, /*!< flag_ovpok_int_out */
+ TFA9896_BF_INTOUVDS= 0x2040, /*!< flag_uvpok_int_out */
+ TFA9896_BF_INTOOCDS= 0x2050, /*!< flag_ocp_alarm_int_out */
+ TFA9896_BF_INTOCLKS= 0x2060, /*!< flag_clocks_stable_int_out */
+ TFA9896_BF_INTOCLIPS= 0x2070, /*!< flag_clip_int_out */
+ TFA9896_BF_INTOMTPB= 0x2080, /*!< mtp_busy_int_out */
+ TFA9896_BF_INTONOCLK= 0x2090, /*!< flag_lost_clk_int_out */
+ TFA9896_BF_INTOSPKS= 0x20a0, /*!< flag_cf_speakererror_int_out */
+ TFA9896_BF_INTOACS= 0x20b0, /*!< flag_cold_started_int_out */
+ TFA9896_BF_INTOSWS= 0x20c0, /*!< flag_engage_int_out */
+ TFA9896_BF_INTOWDS= 0x20d0, /*!< flag_watchdog_reset_int_out */
+ TFA9896_BF_INTOAMPS= 0x20e0, /*!< flag_enbl_amp_int_out */
+ TFA9896_BF_INTOAREFS= 0x20f0, /*!< flag_enbl_ref_int_out */
+ TFA9896_BF_INTOERR= 0x2200, /*!< flag_cfma_err_int_out */
+ TFA9896_BF_INTOACK= 0x2210, /*!< flag_cfma_ack_int_out */
+ TFA9896_BF_INTIVDDS= 0x2300, /*!< flag_por_int_in */
+ TFA9896_BF_INTIPLLS= 0x2310, /*!< flag_pll_lock_int_in */
+ TFA9896_BF_INTIOTDS= 0x2320, /*!< flag_otpok_int_in */
+ TFA9896_BF_INTIOVDS= 0x2330, /*!< flag_ovpok_int_in */
+ TFA9896_BF_INTIUVDS= 0x2340, /*!< flag_uvpok_int_in */
+ TFA9896_BF_INTIOCDS= 0x2350, /*!< flag_ocp_alarm_int_in */
+ TFA9896_BF_INTICLKS= 0x2360, /*!< flag_clocks_stable_int_in */
+ TFA9896_BF_INTICLIPS= 0x2370, /*!< flag_clip_int_in */
+ TFA9896_BF_INTIMTPB= 0x2380, /*!< mtp_busy_int_in */
+ TFA9896_BF_INTINOCLK= 0x2390, /*!< flag_lost_clk_int_in */
+ TFA9896_BF_INTISPKS= 0x23a0, /*!< flag_cf_speakererror_int_in */
+ TFA9896_BF_INTIACS= 0x23b0, /*!< flag_cold_started_int_in */
+ TFA9896_BF_INTISWS= 0x23c0, /*!< flag_engage_int_in */
+ TFA9896_BF_INTIWDS= 0x23d0, /*!< flag_watchdog_reset_int_in */
+ TFA9896_BF_INTIAMPS= 0x23e0, /*!< flag_enbl_amp_int_in */
+ TFA9896_BF_INTIAREFS= 0x23f0, /*!< flag_enbl_ref_int_in */
+ TFA9896_BF_INTIERR= 0x2500, /*!< flag_cfma_err_int_in */
+ TFA9896_BF_INTIACK= 0x2510, /*!< flag_cfma_ack_int_in */
+ TFA9896_BF_INTENVDDS= 0x2600, /*!< flag_por_int_enable */
+ TFA9896_BF_INTENPLLS= 0x2610, /*!< flag_pll_lock_int_enable */
+ TFA9896_BF_INTENOTDS= 0x2620, /*!< flag_otpok_int_enable */
+ TFA9896_BF_INTENOVDS= 0x2630, /*!< flag_ovpok_int_enable */
+ TFA9896_BF_INTENUVDS= 0x2640, /*!< flag_uvpok_int_enable */
+ TFA9896_BF_INTENOCDS= 0x2650, /*!< flag_ocp_alarm_int_enable */
+ TFA9896_BF_INTENCLKS= 0x2660, /*!< flag_clocks_stable_int_enable */
+ TFA9896_BF_INTENCLIPS= 0x2670, /*!< flag_clip_int_enable */
+ TFA9896_BF_INTENMTPB= 0x2680, /*!< mtp_busy_int_enable */
+ TFA9896_BF_INTENNOCLK= 0x2690, /*!< flag_lost_clk_int_enable */
+ TFA9896_BF_INTENSPKS= 0x26a0, /*!< flag_cf_speakererror_int_enable */
+ TFA9896_BF_INTENACS= 0x26b0, /*!< flag_cold_started_int_enable */
+ TFA9896_BF_INTENSWS= 0x26c0, /*!< flag_engage_int_enable */
+ TFA9896_BF_INTENWDS= 0x26d0, /*!< flag_watchdog_reset_int_enable */
+ TFA9896_BF_INTENAMPS= 0x26e0, /*!< flag_enbl_amp_int_enable */
+ TFA9896_BF_INTENAREFS= 0x26f0, /*!< flag_enbl_ref_int_enable */
+ TFA9896_BF_INTENERR= 0x2800, /*!< flag_cfma_err_int_enable */
+ TFA9896_BF_INTENACK= 0x2810, /*!< flag_cfma_ack_int_enable */
+ TFA9896_BF_INTPOLVDDS= 0x2900, /*!< flag_por_int_pol */
+ TFA9896_BF_INTPOLPLLS= 0x2910, /*!< flag_pll_lock_int_pol */
+ TFA9896_BF_INTPOLOTDS= 0x2920, /*!< flag_otpok_int_pol */
+ TFA9896_BF_INTPOLOVDS= 0x2930, /*!< flag_ovpok_int_pol */
+ TFA9896_BF_INTPOLUVDS= 0x2940, /*!< flag_uvpok_int_pol */
+ TFA9896_BF_INTPOLOCDS= 0x2950, /*!< flag_ocp_alarm_int_pol */
+ TFA9896_BF_INTPOLCLKS= 0x2960, /*!< flag_clocks_stable_int_pol */
+ TFA9896_BF_INTPOLCLIPS= 0x2970, /*!< flag_clip_int_pol */
+ TFA9896_BF_INTPOLMTPB= 0x2980, /*!< mtp_busy_int_pol */
+ TFA9896_BF_INTPOLNOCLK= 0x2990, /*!< flag_lost_clk_int_pol */
+ TFA9896_BF_INTPOLSPKS= 0x29a0, /*!< flag_cf_speakererror_int_pol */
+ TFA9896_BF_INTPOLACS= 0x29b0, /*!< flag_cold_started_int_pol */
+ TFA9896_BF_INTPOLSWS= 0x29c0, /*!< flag_engage_int_pol */
+ TFA9896_BF_INTPOLWDS= 0x29d0, /*!< flag_watchdog_reset_int_pol */
+ TFA9896_BF_INTPOLAMPS= 0x29e0, /*!< flag_enbl_amp_int_pol */
+ TFA9896_BF_INTPOLAREFS= 0x29f0, /*!< flag_enbl_ref_int_pol */
+ TFA9896_BF_INTPOLERR= 0x2b00, /*!< flag_cfma_err_int_pol */
+ TFA9896_BF_INTPOLACK= 0x2b10, /*!< flag_cfma_ack_int_pol */
+ TFA9896_BF_CLIP = 0x4900, /*!< Bypass clip control */
+ TFA9896_BF_CIMTP = 0x62b0, /*!< Start copying data from I2C mtp registers to mtp */
+ TFA9896_BF_RST = 0x7000, /*!< Reset CoolFlux DSP */
+ TFA9896_BF_DMEM = 0x7011, /*!< Target memory for access */
+ TFA9896_BF_AIF = 0x7030, /*!< Auto increment flag for memory-address */
+ TFA9896_BF_CFINT = 0x7040, /*!< CF Interrupt - auto clear */
+ TFA9896_BF_REQ = 0x7087, /*!< CF request for accessing the 8 channels */
+ TFA9896_BF_MADD = 0x710f, /*!< Memory address */
+ TFA9896_BF_MEMA = 0x720f, /*!< Activate memory access */
+ TFA9896_BF_ERR = 0x7307, /*!< CF error flags */
+ TFA9896_BF_ACK = 0x7387, /*!< CF acknowledgement of the requests channels */
+ TFA9896_BF_MTPOTC= 0x8000, /*!< Calibration schedule selection */
+ TFA9896_BF_MTPEX = 0x8010, /*!< Calibration of RON status bit */
+} nxpTFA9896BfEnumList_t;
+#define TFA9896_NAMETABLE static tfaBfName_t Tfa9896DatasheetNames[]= {\
+ { 0x0, "VDDS"}, /* Power-on-reset flag (auto clear by reading) , */\
+ { 0x10, "PLLS"}, /* PLL lock to programmed frequency , */\
+ { 0x20, "OTDS"}, /* Over Temperature Protection alarm , */\
+ { 0x30, "OVDS"}, /* Over Voltage Protection alarm , */\
+ { 0x40, "UVDS"}, /* Under Voltage Protection alarm , */\
+ { 0x50, "OCDS"}, /* Over Current Protection alarm , */\
+ { 0x60, "CLKS"}, /* Clocks stable flag , */\
+ { 0x70, "CLIPS"}, /* Amplifier clipping , */\
+ { 0x80, "MTPB"}, /* MTP busy copying data to/from I2C registers , */\
+ { 0x90, "NOCLK"}, /* lost clock detection (reference input clock) , */\
+ { 0xa0, "SPKS"}, /* Speaker error , */\
+ { 0xb0, "ACS"}, /* Cold Start required , */\
+ { 0xc0, "SWS"}, /* Amplifier engage (Amp Switching) , */\
+ { 0xd0, "WDS"}, /* watchdog reset (activates reset) , */\
+ { 0xe0, "AMPS"}, /* Amplifier is enabled by manager , */\
+ { 0xf0, "AREFS"}, /* References are enabled by manager , */\
+ { 0x109, "BATS"}, /* Battery voltage from ADC readout , */\
+ { 0x208, "TEMPS"}, /* Temperature readout from the temperature sensor ( C), */\
+ { 0x30f, "REV"}, /* Device revision information , */\
+ { 0x420, "RCV"}, /* Enable receiver mode , */\
+ { 0x431, "CHS12"}, /* Channel Selection TDM input for Coolflux , */\
+ { 0x450, "INPLVL"}, /* Input level selection attenuator ( , */\
+ { 0x461, "CHSA"}, /* Input selection for amplifier , */\
+ { 0x4c3, "AUDFS"}, /* Audio sample rate setting , */\
+ { 0x501, "BSSCR"}, /* Batteery protection attack time , */\
+ { 0x523, "BSST"}, /* Battery protection threshold level , */\
+ { 0x561, "BSSRL"}, /* Battery protection maximum reduction , */\
+ { 0x582, "BSSRR"}, /* Battery protection release time , */\
+ { 0x5b1, "BSSHY"}, /* Battery Protection Hysteresis , */\
+ { 0x5e0, "BSSR"}, /* Battery voltage value for read out (only) , */\
+ { 0x5f0, "BSSBY"}, /* Bypass clipper battery protection , */\
+ { 0x600, "DPSA"}, /* Enable dynamic powerstage activation (DPSA) , */\
+ { 0x613, "ATTEN"}, /* Gain attenuation setting , */\
+ { 0x650, "CFSM"}, /* Soft mute in CoolFlux , */\
+ { 0x670, "BSSS"}, /* Battery sense steepness , */\
+ { 0x687, "VOL"}, /* Coolflux volume control , */\
+ { 0x702, "DCVO2"}, /* Second Boost Voltage , */\
+ { 0x733, "DCMCC"}, /* Max boost coil current - step of 175 mA , */\
+ { 0x772, "DCVO1"}, /* First Boost Voltage , */\
+ { 0x7a0, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x7b0, "DCSR"}, /* Soft Rampup/down mode for DCDC controller , */\
+ { 0x7c0, "DCPAVG"}, /* ctrl_peak2avg for analog part of DCDC , */\
+ { 0x7d0, "DCPWM"}, /* DCDC PWM only mode , */\
+ { 0x800, "TROS"}, /* Selection ambient temperature for speaker calibration , */\
+ { 0x818, "EXTTS"}, /* External temperature for speaker calibration (C) , */\
+ { 0x900, "PWDN"}, /* powerdown selection , */\
+ { 0x910, "I2CR"}, /* All I2C registers reset to default , */\
+ { 0x920, "CFE"}, /* Enable CoolFlux , */\
+ { 0x930, "AMPE"}, /* Enable Amplifier , */\
+ { 0x940, "DCA"}, /* Enable DCDC Boost converter , */\
+ { 0x950, "SBSL"}, /* Coolflux configured , */\
+ { 0x960, "AMPC"}, /* Selection if Coolflux enables amplifier , */\
+ { 0x970, "DCDIS"}, /* DCDC boost converter not connected , */\
+ { 0x980, "PSDR"}, /* IDDQ amplifier test selection , */\
+ { 0x9c1, "INTPAD"}, /* INT pad (interrupt bump output) configuration , */\
+ { 0x9e0, "IPLL"}, /* PLL input reference clock selection , */\
+ { 0xa04, "DCTRIP"}, /* Adaptive boost trip levels (effective only when boost_intel is set to 1), */\
+ { 0xa54, "DCHOLD"}, /* Hold time for DCDC booster (effective only when boost_intel is set to 1), */\
+ { 0xb07, "MTPK"}, /* KEY2 to access key2 protected registers (default for engineering), */\
+ { 0xc25, "CVFDLY"}, /* Fractional delay adjustment between current and voltage sense, */\
+ { 0xec0, "OPENMTP"}, /* Enable programming of the MTP memory , */\
+ { 0x1011, "TDMPRF"}, /* TDM usecase selection control , */\
+ { 0x1030, "TDMEN"}, /* TDM interface enable , */\
+ { 0x1040, "TDMCKINV"}, /* TDM clock inversion, receive on , */\
+ { 0x1053, "TDMFSLN"}, /* TDM FS length , */\
+ { 0x1090, "TDMFSPOL"}, /* TDM FS polarity (start frame) , */\
+ { 0x10a4, "TDMSAMSZ"}, /* TDM sample size for all TDM sinks and sources , */\
+ { 0x1103, "TDMSLOTS"}, /* TDM number of slots , */\
+ { 0x1144, "TDMSLLN"}, /* TDM slot length , */\
+ { 0x1194, "TDMBRMG"}, /* TDM bits remaining after the last slot , */\
+ { 0x11e0, "TDMDDEL"}, /* TDM data delay , */\
+ { 0x11f0, "TDMDADJ"}, /* TDM data adjustment , */\
+ { 0x1201, "TDMTXFRM"}, /* TDM TXDATA format , */\
+ { 0x1221, "TDMUUS0"}, /* TDM TXDATA format unused slot SD0 , */\
+ { 0x1241, "TDMUUS1"}, /* TDM TXDATA format unused slot SD1 , */\
+ { 0x1270, "TDMSI0EN"}, /* TDM sink0 enable , */\
+ { 0x1280, "TDMSI1EN"}, /* TDM sink1 enable , */\
+ { 0x1290, "TDMSI2EN"}, /* TDM sink2 enable , */\
+ { 0x12a0, "TDMSO0EN"}, /* TDM source0 enable , */\
+ { 0x12b0, "TDMSO1EN"}, /* TDM source1 enable , */\
+ { 0x12c0, "TDMSO2EN"}, /* TDM source2 enable , */\
+ { 0x12d0, "TDMSI0IO"}, /* TDM sink0 IO selection , */\
+ { 0x12e0, "TDMSI1IO"}, /* TDM sink1 IO selection , */\
+ { 0x12f0, "TDMSI2IO"}, /* TDM sink2 IO selection , */\
+ { 0x1300, "TDMSO0IO"}, /* TDM source0 IO selection , */\
+ { 0x1310, "TDMSO1IO"}, /* TDM source1 IO selection , */\
+ { 0x1320, "TDMSO2IO"}, /* TDM source2 IO selection , */\
+ { 0x1333, "TDMSI0SL"}, /* TDM sink0 slot position [GAIN IN] , */\
+ { 0x1373, "TDMSI1SL"}, /* TDM sink1 slot position [CH1 IN] , */\
+ { 0x13b3, "TDMSI2SL"}, /* TDM sink2 slot position [CH2 IN] , */\
+ { 0x1403, "TDMSO0SL"}, /* TDM source0 slot position [GAIN OUT] , */\
+ { 0x1443, "TDMSO1SL"}, /* TDM source1 slot position [Voltage Sense] , */\
+ { 0x1483, "TDMSO2SL"}, /* TDM source2 slot position [Current Sense] , */\
+ { 0x14c3, "NBCK"}, /* TDM NBCK bit clock ratio , */\
+ { 0x2000, "INTOVDDS"}, /* flag_por_int_out , */\
+ { 0x2010, "INTOPLLS"}, /* flag_pll_lock_int_out , */\
+ { 0x2020, "INTOOTDS"}, /* flag_otpok_int_out , */\
+ { 0x2030, "INTOOVDS"}, /* flag_ovpok_int_out , */\
+ { 0x2040, "INTOUVDS"}, /* flag_uvpok_int_out , */\
+ { 0x2050, "INTOOCDS"}, /* flag_ocp_alarm_int_out , */\
+ { 0x2060, "INTOCLKS"}, /* flag_clocks_stable_int_out , */\
+ { 0x2070, "INTOCLIPS"}, /* flag_clip_int_out , */\
+ { 0x2080, "INTOMTPB"}, /* mtp_busy_int_out , */\
+ { 0x2090, "INTONOCLK"}, /* flag_lost_clk_int_out , */\
+ { 0x20a0, "INTOSPKS"}, /* flag_cf_speakererror_int_out , */\
+ { 0x20b0, "INTOACS"}, /* flag_cold_started_int_out , */\
+ { 0x20c0, "INTOSWS"}, /* flag_engage_int_out , */\
+ { 0x20d0, "INTOWDS"}, /* flag_watchdog_reset_int_out , */\
+ { 0x20e0, "INTOAMPS"}, /* flag_enbl_amp_int_out , */\
+ { 0x20f0, "INTOAREFS"}, /* flag_enbl_ref_int_out , */\
+ { 0x2200, "INTOERR"}, /* flag_cfma_err_int_out , */\
+ { 0x2210, "INTOACK"}, /* flag_cfma_ack_int_out , */\
+ { 0x2300, "INTIVDDS"}, /* flag_por_int_in , */\
+ { 0x2310, "INTIPLLS"}, /* flag_pll_lock_int_in , */\
+ { 0x2320, "INTIOTDS"}, /* flag_otpok_int_in , */\
+ { 0x2330, "INTIOVDS"}, /* flag_ovpok_int_in , */\
+ { 0x2340, "INTIUVDS"}, /* flag_uvpok_int_in , */\
+ { 0x2350, "INTIOCDS"}, /* flag_ocp_alarm_int_in , */\
+ { 0x2360, "INTICLKS"}, /* flag_clocks_stable_int_in , */\
+ { 0x2370, "INTICLIPS"}, /* flag_clip_int_in , */\
+ { 0x2380, "INTIMTPB"}, /* mtp_busy_int_in , */\
+ { 0x2390, "INTINOCLK"}, /* flag_lost_clk_int_in , */\
+ { 0x23a0, "INTISPKS"}, /* flag_cf_speakererror_int_in , */\
+ { 0x23b0, "INTIACS"}, /* flag_cold_started_int_in , */\
+ { 0x23c0, "INTISWS"}, /* flag_engage_int_in , */\
+ { 0x23d0, "INTIWDS"}, /* flag_watchdog_reset_int_in , */\
+ { 0x23e0, "INTIAMPS"}, /* flag_enbl_amp_int_in , */\
+ { 0x23f0, "INTIAREFS"}, /* flag_enbl_ref_int_in , */\
+ { 0x2500, "INTIERR"}, /* flag_cfma_err_int_in , */\
+ { 0x2510, "INTIACK"}, /* flag_cfma_ack_int_in , */\
+ { 0x2600, "INTENVDDS"}, /* flag_por_int_enable , */\
+ { 0x2610, "INTENPLLS"}, /* flag_pll_lock_int_enable , */\
+ { 0x2620, "INTENOTDS"}, /* flag_otpok_int_enable , */\
+ { 0x2630, "INTENOVDS"}, /* flag_ovpok_int_enable , */\
+ { 0x2640, "INTENUVDS"}, /* flag_uvpok_int_enable , */\
+ { 0x2650, "INTENOCDS"}, /* flag_ocp_alarm_int_enable , */\
+ { 0x2660, "INTENCLKS"}, /* flag_clocks_stable_int_enable , */\
+ { 0x2670, "INTENCLIPS"}, /* flag_clip_int_enable , */\
+ { 0x2680, "INTENMTPB"}, /* mtp_busy_int_enable , */\
+ { 0x2690, "INTENNOCLK"}, /* flag_lost_clk_int_enable , */\
+ { 0x26a0, "INTENSPKS"}, /* flag_cf_speakererror_int_enable , */\
+ { 0x26b0, "INTENACS"}, /* flag_cold_started_int_enable , */\
+ { 0x26c0, "INTENSWS"}, /* flag_engage_int_enable , */\
+ { 0x26d0, "INTENWDS"}, /* flag_watchdog_reset_int_enable , */\
+ { 0x26e0, "INTENAMPS"}, /* flag_enbl_amp_int_enable , */\
+ { 0x26f0, "INTENAREFS"}, /* flag_enbl_ref_int_enable , */\
+ { 0x2800, "INTENERR"}, /* flag_cfma_err_int_enable , */\
+ { 0x2810, "INTENACK"}, /* flag_cfma_ack_int_enable , */\
+ { 0x2900, "INTPOLVDDS"}, /* flag_por_int_pol , */\
+ { 0x2910, "INTPOLPLLS"}, /* flag_pll_lock_int_pol , */\
+ { 0x2920, "INTPOLOTDS"}, /* flag_otpok_int_pol , */\
+ { 0x2930, "INTPOLOVDS"}, /* flag_ovpok_int_pol , */\
+ { 0x2940, "INTPOLUVDS"}, /* flag_uvpok_int_pol , */\
+ { 0x2950, "INTPOLOCDS"}, /* flag_ocp_alarm_int_pol , */\
+ { 0x2960, "INTPOLCLKS"}, /* flag_clocks_stable_int_pol , */\
+ { 0x2970, "INTPOLCLIPS"}, /* flag_clip_int_pol , */\
+ { 0x2980, "INTPOLMTPB"}, /* mtp_busy_int_pol , */\
+ { 0x2990, "INTPOLNOCLK"}, /* flag_lost_clk_int_pol , */\
+ { 0x29a0, "INTPOLSPKS"}, /* flag_cf_speakererror_int_pol , */\
+ { 0x29b0, "INTPOLACS"}, /* flag_cold_started_int_pol , */\
+ { 0x29c0, "INTPOLSWS"}, /* flag_engage_int_pol , */\
+ { 0x29d0, "INTPOLWDS"}, /* flag_watchdog_reset_int_pol , */\
+ { 0x29e0, "INTPOLAMPS"}, /* flag_enbl_amp_int_pol , */\
+ { 0x29f0, "INTPOLAREFS"}, /* flag_enbl_ref_int_pol , */\
+ { 0x2b00, "INTPOLERR"}, /* flag_cfma_err_int_pol , */\
+ { 0x2b10, "INTPOLACK"}, /* flag_cfma_ack_int_pol , */\
+ { 0x4900, "CLIP"}, /* Bypass clip control , */\
+ { 0x62b0, "CIMTP"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0x7000, "RST"}, /* Reset CoolFlux DSP , */\
+ { 0x7011, "DMEM"}, /* Target memory for access , */\
+ { 0x7030, "AIF"}, /* Auto increment flag for memory-address , */\
+ { 0x7040, "CFINT"}, /* CF Interrupt - auto clear , */\
+ { 0x7087, "REQ"}, /* CF request for accessing the 8 channels , */\
+ { 0x710f, "MADD"}, /* Memory address , */\
+ { 0x720f, "MEMA"}, /* Activate memory access , */\
+ { 0x7307, "ERR"}, /* CF error flags , */\
+ { 0x7387, "ACK"}, /* CF acknowledgement of the requests channels , */\
+ { 0x8000, "MTPOTC"}, /* Calibration schedule selection , */\
+ { 0x8010, "MTPEX"}, /* Calibration of RON status bit , */\
+ { 0x8045, "SWPROFIL" },\
+ { 0x80a5, "SWVSTEP" },\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9896_BITNAMETABLE static tfaBfName_t Tfa9896BitNames[]= {\
+ { 0x0, "flag_por"}, /* Power-on-reset flag (auto clear by reading) , */\
+ { 0x10, "flag_pll_lock"}, /* PLL lock to programmed frequency , */\
+ { 0x20, "flag_otpok"}, /* Over Temperature Protection alarm , */\
+ { 0x30, "flag_ovpok"}, /* Over Voltage Protection alarm , */\
+ { 0x40, "flag_uvpok"}, /* Under Voltage Protection alarm , */\
+ { 0x50, "flag_ocp_alarm"}, /* Over Current Protection alarm , */\
+ { 0x60, "flag_clocks_stable"}, /* Clocks stable flag , */\
+ { 0x70, "flag_clip"}, /* Amplifier clipping , */\
+ { 0x80, "mtp_busy"}, /* MTP busy copying data to/from I2C registers , */\
+ { 0x90, "flag_lost_clk"}, /* lost clock detection (reference input clock) , */\
+ { 0xa0, "flag_cf_speakererror"}, /* Speaker error , */\
+ { 0xb0, "flag_cold_started"}, /* Cold Start required , */\
+ { 0xc0, "flag_engage"}, /* Amplifier engage (Amp Switching) , */\
+ { 0xd0, "flag_watchdog_reset"}, /* watchdog reset (activates reset) , */\
+ { 0xe0, "flag_enbl_amp"}, /* Amplifier is enabled by manager , */\
+ { 0xf0, "flag_enbl_ref"}, /* References are enabled by manager , */\
+ { 0x109, "bat_adc"}, /* Battery voltage from ADC readout , */\
+ { 0x208, "temp_adc"}, /* Temperature readout from the temperature sensor ( C), */\
+ { 0x30f, "device_rev"}, /* Device revision information , */\
+ { 0x420, "ctrl_rcv"}, /* Enable receiver mode , */\
+ { 0x431, "chan_sel"}, /* Channel Selection TDM input for Coolflux , */\
+ { 0x450, "input_level"}, /* Input level selection attenuator ( , */\
+ { 0x461, "vamp_sel"}, /* Input selection for amplifier , */\
+ { 0x4c3, "audio_fs"}, /* Audio sample rate setting , */\
+ { 0x501, "vbat_prot_attacktime"}, /* Batteery protection attack time , */\
+ { 0x523, "vbat_prot_thlevel"}, /* Battery protection threshold level , */\
+ { 0x561, "vbat_prot_max_reduct"}, /* Battery protection maximum reduction , */\
+ { 0x582, "vbat_prot_release_t"}, /* Battery protection release time , */\
+ { 0x5b1, "vbat_prot_hysterese"}, /* Battery Protection Hysteresis , */\
+ { 0x5d0, "reset_min_vbat"}, /* Battery supply safeguard clipper reset ( if CF_DSP is bypassed), */\
+ { 0x5e0, "sel_vbat"}, /* Battery voltage value for read out (only) , */\
+ { 0x5f0, "bypass_clipper"}, /* Bypass clipper battery protection , */\
+ { 0x600, "dpsa"}, /* Enable dynamic powerstage activation (DPSA) , */\
+ { 0x613, "ctrl_att"}, /* Gain attenuation setting , */\
+ { 0x650, "cf_mute"}, /* Soft mute in CoolFlux , */\
+ { 0x670, "batsense_steepness"}, /* Battery sense steepness , */\
+ { 0x687, "vol"}, /* Coolflux volume control , */\
+ { 0x702, "scnd_boost_voltage"}, /* Second Boost Voltage , */\
+ { 0x733, "boost_cur"}, /* Max boost coil current - step of 175 mA , */\
+ { 0x772, "frst_boost_voltage"}, /* First Boost Voltage , */\
+ { 0x7a0, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x7b0, "boost_speed"}, /* Soft Rampup/down mode for DCDC controller , */\
+ { 0x7c0, "boost_peak2avg"}, /* ctrl_peak2avg for analog part of DCDC , */\
+ { 0x7d0, "dcdc_pwmonly"}, /* DCDC PWM only mode , */\
+ { 0x7e0, "ignore_flag_voutcomp86"}, /* Ignore flag_voutcomp86 (flag from analog) , */\
+ { 0x800, "ext_temp_sel"}, /* Selection ambient temperature for speaker calibration , */\
+ { 0x818, "ext_temp"}, /* External temperature for speaker calibration (C) , */\
+ { 0x900, "powerdown"}, /* powerdown selection , */\
+ { 0x910, "reset"}, /* All I2C registers reset to default , */\
+ { 0x920, "enbl_coolflux"}, /* Enable CoolFlux , */\
+ { 0x930, "enbl_amplifier"}, /* Enable Amplifier , */\
+ { 0x940, "enbl_boost"}, /* Enable DCDC Boost converter , */\
+ { 0x950, "coolflux_configured"}, /* Coolflux configured , */\
+ { 0x960, "sel_enbl_amplifier"}, /* Selection if Coolflux enables amplifier , */\
+ { 0x970, "dcdcoff_mode"}, /* DCDC boost converter not connected , */\
+ { 0x980, "iddqtest"}, /* IDDQ amplifier test selection , */\
+ { 0x9c1, "int_pad_io"}, /* INT pad (interrupt bump output) configuration , */\
+ { 0x9e0, "sel_fs_bck"}, /* PLL input reference clock selection , */\
+ { 0x9f0, "sel_scl_cf_clock"}, /* Coolflux sub-system clock selection , */\
+ { 0xa04, "boost_trip_lvl"}, /* Adaptive boost trip levels (effective only when boost_intel is set to 1), */\
+ { 0xa54, "boost_hold_time"}, /* Hold time for DCDC booster (effective only when boost_intel is set to 1), */\
+ { 0xaa1, "bst_slpcmplvl"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0xb07, "mtpkey2"}, /* KEY2 to access key2 protected registers (default for engineering), */\
+ { 0xc00, "enbl_volt_sense"}, /* Voltage sense enabling control bit , */\
+ { 0xc10, "vsense_pwm_sel"}, /* Voltage sense source selection , */\
+ { 0xc25, "vi_frac_delay"}, /* Fractional delay adjustment between current and voltage sense, */\
+ { 0xc80, "sel_voltsense_out"}, /* TDM output data selection for AEC , */\
+ { 0xc90, "vsense_bypass_avg"}, /* Voltage sense average block bypass , */\
+ { 0xd05, "cf_frac_delay"}, /* Fractional delay adjustment between current and voltage sense by firmware, */\
+ { 0xe00, "bypass_dcdc_curr_prot"}, /* Control to switch off dcdc current reduction with bat protection, */\
+ { 0xe10, "bypass_ocp"}, /* Bypass OCP (digital IP block) , */\
+ { 0xe20, "ocptest"}, /* ocptest (analog IP block) enable , */\
+ { 0xe80, "disable_clock_sh_prot"}, /* Disable clock_sh protection , */\
+ { 0xe92, "reserve_reg_15_09"}, /* Spare control bits for future usage , */\
+ { 0xec0, "unprotect_mtp"}, /* Enable programming of the MTP memory , */\
+ { 0xed2, "reserve_reg_15_13"}, /* Spare control bits for future usage , */\
+ { 0xf00, "dcdc_pfm20khz_limit"}, /* DCDC in PFM mode forcing each 50us a pwm pulse , */\
+ { 0xf11, "dcdc_ctrl_maxzercnt"}, /* DCDC number of zero current flags required to go to pfm mode, */\
+ { 0xf36, "dcdc_vbat_delta_detect"}, /* DCDC threshold required on a delta Vbat (in PFM mode) switching to PWM mode, */\
+ { 0xfa0, "dcdc_ignore_vbat"}, /* Ignore an increase on Vbat , */\
+ { 0x1011, "tdm_usecase"}, /* TDM usecase selection control , */\
+ { 0x1030, "tdm_enable"}, /* TDM interface enable , */\
+ { 0x1040, "tdm_clk_inversion"}, /* TDM clock inversion, receive on , */\
+ { 0x1053, "tdm_fs_ws_length"}, /* TDM FS length , */\
+ { 0x1090, "tdm_fs_ws_polarity"}, /* TDM FS polarity (start frame) , */\
+ { 0x10a4, "tdm_sample_size"}, /* TDM sample size for all TDM sinks and sources , */\
+ { 0x1103, "tdm_nb_of_slots"}, /* TDM number of slots , */\
+ { 0x1144, "tdm_slot_length"}, /* TDM slot length , */\
+ { 0x1194, "tdm_bits_remaining"}, /* TDM bits remaining after the last slot , */\
+ { 0x11e0, "tdm_data_delay"}, /* TDM data delay , */\
+ { 0x11f0, "tdm_data_adjustment"}, /* TDM data adjustment , */\
+ { 0x1201, "tdm_txdata_format"}, /* TDM TXDATA format , */\
+ { 0x1221, "tdm_txdata_format_unused_slot_sd0"}, /* TDM TXDATA format unused slot SD0 , */\
+ { 0x1241, "tdm_txdata_format_unused_slot_sd1"}, /* TDM TXDATA format unused slot SD1 , */\
+ { 0x1270, "tdm_sink0_enable"}, /* TDM sink0 enable , */\
+ { 0x1280, "tdm_sink1_enable"}, /* TDM sink1 enable , */\
+ { 0x1290, "tdm_sink2_enable"}, /* TDM sink2 enable , */\
+ { 0x12a0, "tdm_source0_enable"}, /* TDM source0 enable , */\
+ { 0x12b0, "tdm_source1_enable"}, /* TDM source1 enable , */\
+ { 0x12c0, "tdm_source2_enable"}, /* TDM source2 enable , */\
+ { 0x12d0, "tdm_sink0_io"}, /* TDM sink0 IO selection , */\
+ { 0x12e0, "tdm_sink1_io"}, /* TDM sink1 IO selection , */\
+ { 0x12f0, "tdm_sink2_io"}, /* TDM sink2 IO selection , */\
+ { 0x1300, "tdm_source0_io"}, /* TDM source0 IO selection , */\
+ { 0x1310, "tdm_source1_io"}, /* TDM source1 IO selection , */\
+ { 0x1320, "tdm_source2_io"}, /* TDM source2 IO selection , */\
+ { 0x1333, "tdm_sink0_slot"}, /* TDM sink0 slot position [GAIN IN] , */\
+ { 0x1373, "tdm_sink1_slot"}, /* TDM sink1 slot position [CH1 IN] , */\
+ { 0x13b3, "tdm_sink2_slot"}, /* TDM sink2 slot position [CH2 IN] , */\
+ { 0x1403, "tdm_source0_slot"}, /* TDM source0 slot position [GAIN OUT] , */\
+ { 0x1443, "tdm_source1_slot"}, /* TDM source1 slot position [Voltage Sense] , */\
+ { 0x1483, "tdm_source2_slot"}, /* TDM source2 slot position [Current Sense] , */\
+ { 0x14c3, "tdm_nbck"}, /* TDM NBCK bit clock ratio , */\
+ { 0x1500, "flag_tdm_lut_error"}, /* TDM LUT error flag , */\
+ { 0x1512, "flag_tdm_status"}, /* TDM interface status bits , */\
+ { 0x1540, "flag_tdm_error"}, /* TDM interface error indicator , */\
+ { 0x1551, "status_bst_mode"}, /* DCDC mode status bits , */\
+ { 0x2000, "flag_por_int_out"}, /* flag_por_int_out , */\
+ { 0x2010, "flag_pll_lock_int_out"}, /* flag_pll_lock_int_out , */\
+ { 0x2020, "flag_otpok_int_out"}, /* flag_otpok_int_out , */\
+ { 0x2030, "flag_ovpok_int_out"}, /* flag_ovpok_int_out , */\
+ { 0x2040, "flag_uvpok_int_out"}, /* flag_uvpok_int_out , */\
+ { 0x2050, "flag_ocp_alarm_int_out"}, /* flag_ocp_alarm_int_out , */\
+ { 0x2060, "flag_clocks_stable_int_out"}, /* flag_clocks_stable_int_out , */\
+ { 0x2070, "flag_clip_int_out"}, /* flag_clip_int_out , */\
+ { 0x2080, "mtp_busy_int_out"}, /* mtp_busy_int_out , */\
+ { 0x2090, "flag_lost_clk_int_out"}, /* flag_lost_clk_int_out , */\
+ { 0x20a0, "flag_cf_speakererror_int_out"}, /* flag_cf_speakererror_int_out , */\
+ { 0x20b0, "flag_cold_started_int_out"}, /* flag_cold_started_int_out , */\
+ { 0x20c0, "flag_engage_int_out"}, /* flag_engage_int_out , */\
+ { 0x20d0, "flag_watchdog_reset_int_out"}, /* flag_watchdog_reset_int_out , */\
+ { 0x20e0, "flag_enbl_amp_int_out"}, /* flag_enbl_amp_int_out , */\
+ { 0x20f0, "flag_enbl_ref_int_out"}, /* flag_enbl_ref_int_out , */\
+ { 0x2100, "flag_voutcomp_int_out"}, /* flag_voutcomp_int_out , */\
+ { 0x2110, "flag_voutcomp93_int_out"}, /* flag_voutcomp93_int_out , */\
+ { 0x2120, "flag_voutcomp86_int_out"}, /* flag_voutcomp86_int_out , */\
+ { 0x2130, "flag_hiz_int_out"}, /* flag_hiz_int_out , */\
+ { 0x2140, "flag_ocpokbst_int_out"}, /* flag_ocpokbst_int_out , */\
+ { 0x2150, "flag_peakcur_int_out"}, /* flag_peakcur_int_out , */\
+ { 0x2160, "flag_ocpokap_int_out"}, /* flag_ocpokap_int_out , */\
+ { 0x2170, "flag_ocpokan_int_out"}, /* flag_ocpokan_int_out , */\
+ { 0x2180, "flag_ocpokbp_int_out"}, /* flag_ocpokbp_int_out , */\
+ { 0x2190, "flag_ocpokbn_int_out"}, /* flag_ocpokbn_int_out , */\
+ { 0x21a0, "flag_adc10_ready_int_out"}, /* flag_adc10_ready_int_out , */\
+ { 0x21b0, "flag_clipa_high_int_out"}, /* flag_clipa_high_int_out , */\
+ { 0x21c0, "flag_clipa_low_int_out"}, /* flag_clipa_low_int_out , */\
+ { 0x21d0, "flag_clipb_high_int_out"}, /* flag_clipb_high_int_out , */\
+ { 0x21e0, "flag_clipb_low_int_out"}, /* flag_clipb_low_int_out , */\
+ { 0x21f0, "flag_tdm_error_int_out"}, /* flag_tdm_error_int_out , */\
+ { 0x2200, "flag_cfma_err_int_out"}, /* flag_cfma_err_int_out , */\
+ { 0x2210, "flag_cfma_ack_int_out"}, /* flag_cfma_ack_int_out , */\
+ { 0x2300, "flag_por_int_in"}, /* flag_por_int_in , */\
+ { 0x2310, "flag_pll_lock_int_in"}, /* flag_pll_lock_int_in , */\
+ { 0x2320, "flag_otpok_int_in"}, /* flag_otpok_int_in , */\
+ { 0x2330, "flag_ovpok_int_in"}, /* flag_ovpok_int_in , */\
+ { 0x2340, "flag_uvpok_int_in"}, /* flag_uvpok_int_in , */\
+ { 0x2350, "flag_ocp_alarm_int_in"}, /* flag_ocp_alarm_int_in , */\
+ { 0x2360, "flag_clocks_stable_int_in"}, /* flag_clocks_stable_int_in , */\
+ { 0x2370, "flag_clip_int_in"}, /* flag_clip_int_in , */\
+ { 0x2380, "mtp_busy_int_in"}, /* mtp_busy_int_in , */\
+ { 0x2390, "flag_lost_clk_int_in"}, /* flag_lost_clk_int_in , */\
+ { 0x23a0, "flag_cf_speakererror_int_in"}, /* flag_cf_speakererror_int_in , */\
+ { 0x23b0, "flag_cold_started_int_in"}, /* flag_cold_started_int_in , */\
+ { 0x23c0, "flag_engage_int_in"}, /* flag_engage_int_in , */\
+ { 0x23d0, "flag_watchdog_reset_int_in"}, /* flag_watchdog_reset_int_in , */\
+ { 0x23e0, "flag_enbl_amp_int_in"}, /* flag_enbl_amp_int_in , */\
+ { 0x23f0, "flag_enbl_ref_int_in"}, /* flag_enbl_ref_int_in , */\
+ { 0x2400, "flag_voutcomp_int_in"}, /* flag_voutcomp_int_in , */\
+ { 0x2410, "flag_voutcomp93_int_in"}, /* flag_voutcomp93_int_in , */\
+ { 0x2420, "flag_voutcomp86_int_in"}, /* flag_voutcomp86_int_in , */\
+ { 0x2430, "flag_hiz_int_in"}, /* flag_hiz_int_in , */\
+ { 0x2440, "flag_ocpokbst_int_in"}, /* flag_ocpokbst_int_in , */\
+ { 0x2450, "flag_peakcur_int_in"}, /* flag_peakcur_int_in , */\
+ { 0x2460, "flag_ocpokap_int_in"}, /* flag_ocpokap_int_in , */\
+ { 0x2470, "flag_ocpokan_int_in"}, /* flag_ocpokan_int_in , */\
+ { 0x2480, "flag_ocpokbp_int_in"}, /* flag_ocpokbp_int_in , */\
+ { 0x2490, "flag_ocpokbn_int_in"}, /* flag_ocpokbn_int_in , */\
+ { 0x24a0, "flag_adc10_ready_int_in"}, /* flag_adc10_ready_int_in , */\
+ { 0x24b0, "flag_clipa_high_int_in"}, /* flag_clipa_high_int_in , */\
+ { 0x24c0, "flag_clipa_low_int_in"}, /* flag_clipa_low_int_in , */\
+ { 0x24d0, "flag_clipb_high_int_in"}, /* flag_clipb_high_int_in , */\
+ { 0x24e0, "flag_clipb_low_int_in"}, /* flag_clipb_low_int_in , */\
+ { 0x24f0, "flag_tdm_error_int_in"}, /* flag_tdm_error_int_in , */\
+ { 0x2500, "flag_cfma_err_int_in"}, /* flag_cfma_err_int_in , */\
+ { 0x2510, "flag_cfma_ack_int_in"}, /* flag_cfma_ack_int_in , */\
+ { 0x2600, "flag_por_int_enable"}, /* flag_por_int_enable , */\
+ { 0x2610, "flag_pll_lock_int_enable"}, /* flag_pll_lock_int_enable , */\
+ { 0x2620, "flag_otpok_int_enable"}, /* flag_otpok_int_enable , */\
+ { 0x2630, "flag_ovpok_int_enable"}, /* flag_ovpok_int_enable , */\
+ { 0x2640, "flag_uvpok_int_enable"}, /* flag_uvpok_int_enable , */\
+ { 0x2650, "flag_ocp_alarm_int_enable"}, /* flag_ocp_alarm_int_enable , */\
+ { 0x2660, "flag_clocks_stable_int_enable"}, /* flag_clocks_stable_int_enable , */\
+ { 0x2670, "flag_clip_int_enable"}, /* flag_clip_int_enable , */\
+ { 0x2680, "mtp_busy_int_enable"}, /* mtp_busy_int_enable , */\
+ { 0x2690, "flag_lost_clk_int_enable"}, /* flag_lost_clk_int_enable , */\
+ { 0x26a0, "flag_cf_speakererror_int_enable"}, /* flag_cf_speakererror_int_enable , */\
+ { 0x26b0, "flag_cold_started_int_enable"}, /* flag_cold_started_int_enable , */\
+ { 0x26c0, "flag_engage_int_enable"}, /* flag_engage_int_enable , */\
+ { 0x26d0, "flag_watchdog_reset_int_enable"}, /* flag_watchdog_reset_int_enable , */\
+ { 0x26e0, "flag_enbl_amp_int_enable"}, /* flag_enbl_amp_int_enable , */\
+ { 0x26f0, "flag_enbl_ref_int_enable"}, /* flag_enbl_ref_int_enable , */\
+ { 0x2700, "flag_voutcomp_int_enable"}, /* flag_voutcomp_int_enable , */\
+ { 0x2710, "flag_voutcomp93_int_enable"}, /* flag_voutcomp93_int_enable , */\
+ { 0x2720, "flag_voutcomp86_int_enable"}, /* flag_voutcomp86_int_enable , */\
+ { 0x2730, "flag_hiz_int_enable"}, /* flag_hiz_int_enable , */\
+ { 0x2740, "flag_ocpokbst_int_enable"}, /* flag_ocpokbst_int_enable , */\
+ { 0x2750, "flag_peakcur_int_enable"}, /* flag_peakcur_int_enable , */\
+ { 0x2760, "flag_ocpokap_int_enable"}, /* flag_ocpokap_int_enable , */\
+ { 0x2770, "flag_ocpokan_int_enable"}, /* flag_ocpokan_int_enable , */\
+ { 0x2780, "flag_ocpokbp_int_enable"}, /* flag_ocpokbp_int_enable , */\
+ { 0x2790, "flag_ocpokbn_int_enable"}, /* flag_ocpokbn_int_enable , */\
+ { 0x27a0, "flag_adc10_ready_int_enable"}, /* flag_adc10_ready_int_enable , */\
+ { 0x27b0, "flag_clipa_high_int_enable"}, /* flag_clipa_high_int_enable , */\
+ { 0x27c0, "flag_clipa_low_int_enable"}, /* flag_clipa_low_int_enable , */\
+ { 0x27d0, "flag_clipb_high_int_enable"}, /* flag_clipb_high_int_enable , */\
+ { 0x27e0, "flag_clipb_low_int_enable"}, /* flag_clipb_low_int_enable , */\
+ { 0x27f0, "flag_tdm_error_int_enable"}, /* flag_tdm_error_int_enable , */\
+ { 0x2800, "flag_cfma_err_int_enable"}, /* flag_cfma_err_int_enable , */\
+ { 0x2810, "flag_cfma_ack_int_enable"}, /* flag_cfma_ack_int_enable , */\
+ { 0x2900, "flag_por_int_pol"}, /* flag_por_int_pol , */\
+ { 0x2910, "flag_pll_lock_int_pol"}, /* flag_pll_lock_int_pol , */\
+ { 0x2920, "flag_otpok_int_pol"}, /* flag_otpok_int_pol , */\
+ { 0x2930, "flag_ovpok_int_pol"}, /* flag_ovpok_int_pol , */\
+ { 0x2940, "flag_uvpok_int_pol"}, /* flag_uvpok_int_pol , */\
+ { 0x2950, "flag_ocp_alarm_int_pol"}, /* flag_ocp_alarm_int_pol , */\
+ { 0x2960, "flag_clocks_stable_int_pol"}, /* flag_clocks_stable_int_pol , */\
+ { 0x2970, "flag_clip_int_pol"}, /* flag_clip_int_pol , */\
+ { 0x2980, "mtp_busy_int_pol"}, /* mtp_busy_int_pol , */\
+ { 0x2990, "flag_lost_clk_int_pol"}, /* flag_lost_clk_int_pol , */\
+ { 0x29a0, "flag_cf_speakererror_int_pol"}, /* flag_cf_speakererror_int_pol , */\
+ { 0x29b0, "flag_cold_started_int_pol"}, /* flag_cold_started_int_pol , */\
+ { 0x29c0, "flag_engage_int_pol"}, /* flag_engage_int_pol , */\
+ { 0x29d0, "flag_watchdog_reset_int_pol"}, /* flag_watchdog_reset_int_pol , */\
+ { 0x29e0, "flag_enbl_amp_int_pol"}, /* flag_enbl_amp_int_pol , */\
+ { 0x29f0, "flag_enbl_ref_int_pol"}, /* flag_enbl_ref_int_pol , */\
+ { 0x2a00, "flag_voutcomp_int_pol"}, /* flag_voutcomp_int_pol , */\
+ { 0x2a10, "flag_voutcomp93_int_pol"}, /* flag_voutcomp93_int_pol , */\
+ { 0x2a20, "flag_voutcomp86_int_pol"}, /* flag_voutcomp86_int_pol , */\
+ { 0x2a30, "flag_hiz_int_pol"}, /* flag_hiz_int_pol , */\
+ { 0x2a40, "flag_ocpokbst_int_pol"}, /* flag_ocpokbst_int_pol , */\
+ { 0x2a50, "flag_peakcur_int_pol"}, /* flag_peakcur_int_pol , */\
+ { 0x2a60, "flag_ocpokap_int_pol"}, /* flag_ocpokap_int_pol , */\
+ { 0x2a70, "flag_ocpokan_int_pol"}, /* flag_ocpokan_int_pol , */\
+ { 0x2a80, "flag_ocpokbp_int_pol"}, /* flag_ocpokbp_int_pol , */\
+ { 0x2a90, "flag_ocpokbn_int_pol"}, /* flag_ocpokbn_int_pol , */\
+ { 0x2aa0, "flag_adc10_ready_int_pol"}, /* flag_adc10_ready_int_pol , */\
+ { 0x2ab0, "flag_clipa_high_int_pol"}, /* flag_clipa_high_int_pol , */\
+ { 0x2ac0, "flag_clipa_low_int_pol"}, /* flag_clipa_low_int_pol , */\
+ { 0x2ad0, "flag_clipb_high_int_pol"}, /* flag_clipb_high_int_pol , */\
+ { 0x2ae0, "flag_clipb_low_int_pol"}, /* flag_clipb_low_int_pol , */\
+ { 0x2af0, "flag_tdm_error_int_pol"}, /* flag_tdm_error_int_pol , */\
+ { 0x2b00, "flag_cfma_err_int_pol"}, /* flag_cfma_err_int_pol , */\
+ { 0x2b10, "flag_cfma_ack_int_pol"}, /* flag_cfma_ack_int_pol , */\
+ { 0x3000, "flag_voutcomp"}, /* Status flag_voutcomp, indication Vset is larger than Vbat, */\
+ { 0x3010, "flag_voutcomp93"}, /* Status flag_voutcomp93, indication Vset is larger than 1.07 x Vbat, */\
+ { 0x3020, "flag_voutcomp86"}, /* Status flag voutcomp86, indication Vset is larger than 1.14 x Vbat, */\
+ { 0x3030, "flag_hiz"}, /* Status flag_hiz, indication Vbst is larger than Vbat, */\
+ { 0x3040, "flag_ocpokbst"}, /* Status flag_ocpokbst, indication no over current in boost converter PMOS switch, */\
+ { 0x3050, "flag_peakcur"}, /* Status flag_peakcur, indication current is max in dcdc converter, */\
+ { 0x3060, "flag_ocpokap"}, /* Status flag_ocpokap, indication no over current in amplifier A PMOS output stage, */\
+ { 0x3070, "flag_ocpokan"}, /* Status flag_ocpokan, indication no over current in amplifier A NMOS output stage, */\
+ { 0x3080, "flag_ocpokbp"}, /* Status flag_ocpokbp, indication no over current in amplifier B PMOS output stage, */\
+ { 0x3090, "flag_ocpokbn"}, /* Status flag_ocpokbn, indication no over current in amplifier B NMOS output stage, */\
+ { 0x30a0, "flag_adc10_ready"}, /* Status flag_adc10_ready, indication adc10 is ready, */\
+ { 0x30b0, "flag_clipa_high"}, /* Status flag_clipa_high, indication pmos amplifier A is clipping, */\
+ { 0x30c0, "flag_clipa_low"}, /* Status flag_clipa_low, indication nmos amplifier A is clipping, */\
+ { 0x30d0, "flag_clipb_high"}, /* Status flag_clipb_high, indication pmos amplifier B is clipping, */\
+ { 0x30e0, "flag_clipb_low"}, /* Status flag_clipb_low, indication nmos amplifier B is clipping, */\
+ { 0x310f, "mtp_man_data_out"}, /* MTP manual read out data , */\
+ { 0x3200, "key01_locked"}, /* Indicates KEY1 is locked , */\
+ { 0x3210, "key02_locked"}, /* Indicates KEY2 is locked , */\
+ { 0x3225, "mtp_ecc_tcout"}, /* MTP error correction test data out , */\
+ { 0x3280, "mtpctrl_valid_test_rd"}, /* MTP test readout for read , */\
+ { 0x3290, "mtpctrl_valid_test_wr"}, /* MTP test readout for write , */\
+ { 0x32a0, "flag_in_alarm_state"}, /* Flag alarm state , */\
+ { 0x32b0, "mtp_ecc_err2"}, /* Two or more bit errors detected in MTP, can not reconstruct value, */\
+ { 0x32c0, "mtp_ecc_err1"}, /* One bit error detected in MTP, reconstructed value, */\
+ { 0x32d0, "mtp_mtp_hvf"}, /* High voltage ready flag for MTP , */\
+ { 0x32f0, "mtp_zero_check_fail"}, /* Zero check failed for MTP , */\
+ { 0x3309, "data_adc10_tempbat"}, /* ADC10 data output for testing battery voltage and temperature, */\
+ { 0x400f, "hid_code"}, /* 5A6Bh, 23147d to access hidden registers (default for engineering), */\
+ { 0x4100, "bypass_hp"}, /* Bypass High Pass Filter , */\
+ { 0x4110, "hard_mute"}, /* Hard Mute , */\
+ { 0x4120, "soft_mute"}, /* Soft Mute , */\
+ { 0x4134, "pwm_delay"}, /* PWM delay setting , */\
+ { 0x4180, "pwm_shape"}, /* PWM Shape , */\
+ { 0x4190, "pwm_bitlength"}, /* PWM Bitlength in noise shaper , */\
+ { 0x4203, "drive"}, /* Drive bits to select number of amplifier power stages, */\
+ { 0x4240, "reclock_pwm"}, /* Control for enabling reclocking of PWM signal , */\
+ { 0x4250, "reclock_voltsense"}, /* Control for enabling reclocking of voltage sense signal, */\
+ { 0x4281, "dpsalevel"}, /* DPSA threshold level , */\
+ { 0x42a1, "dpsa_release"}, /* DPSA release time , */\
+ { 0x42c0, "coincidence"}, /* Prevent simultaneously switching of output stage , */\
+ { 0x42d0, "kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x4306, "drivebst"}, /* Drive bits to select the power transistor sections boost converter, */\
+ { 0x4370, "boost_alg"}, /* Control for boost adaptive loop gain , */\
+ { 0x4381, "boost_loopgain"}, /* DCDC boost loopgain setting , */\
+ { 0x43a0, "ocptestbst"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0); For new ocp (ctrl_reversebst is 1), */\
+ { 0x43d0, "test_abistfft_enbl"}, /* FFT Coolflux , */\
+ { 0x43e0, "bst_dcmbst"}, /* DCM mode control for DCDC during I2C direct control mode, */\
+ { 0x43f0, "test_bcontrol"}, /* test_bcontrol , */\
+ { 0x4400, "reversebst"}, /* OverCurrent Protection selection of power stage boost converter, */\
+ { 0x4410, "sensetest"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0x4420, "enbl_engagebst"}, /* Enable power stage of dcdc controller , */\
+ { 0x4470, "enbl_slopecur"}, /* Enable bit of max-current dac , */\
+ { 0x4480, "enbl_voutcomp"}, /* Enable vout comparators , */\
+ { 0x4490, "enbl_voutcomp93"}, /* Enable vout-93 comparators , */\
+ { 0x44a0, "enbl_voutcomp86"}, /* Enable vout-86 comparators , */\
+ { 0x44b0, "enbl_hizcom"}, /* Enable hiz comparator , */\
+ { 0x44c0, "enbl_peakcur"}, /* Enable peak current , */\
+ { 0x44d0, "bypass_ovpglitch"}, /* Bypass OVP Glitch Filter , */\
+ { 0x44e0, "enbl_windac"}, /* Enable window dac , */\
+ { 0x44f0, "enbl_powerbst"}, /* Enable line of the powerstage , */\
+ { 0x4507, "ocp_thr"}, /* OCP threshold level , */\
+ { 0x4580, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0x4590, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0x45a0, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0x45b0, "bypass_otp"}, /* Bypass OTP , */\
+ { 0x45d0, "bypass_ocpcounter"}, /* Bypass OCP counter , */\
+ { 0x45e0, "bypass_lost_clk"}, /* Bypass lost clock detector , */\
+ { 0x45f0, "vpalarm"}, /* vpalarm (UVP/OUP handling) , */\
+ { 0x4600, "bypass_gc"}, /* Bypasses the CS gain correction , */\
+ { 0x4610, "cs_gain_control"}, /* Current sense gain control , */\
+ { 0x4627, "cs_gain"}, /* Current sense gain , */\
+ { 0x46a0, "bypass_lp"}, /* Bypass the low power filter inside temperature sensor, */\
+ { 0x46b0, "bypass_pwmcounter"}, /* Bypass PWM Counter , */\
+ { 0x46c0, "cs_negfixed"}, /* Current sense does not switch to neg , */\
+ { 0x46d2, "cs_neghyst"}, /* Current sense switches to neg depending on hyseteris level, */\
+ { 0x4700, "switch_fb"}, /* Current sense control switch_fb , */\
+ { 0x4713, "se_hyst"}, /* Current sense control se_hyst , */\
+ { 0x4754, "se_level"}, /* Current sense control se_level , */\
+ { 0x47a5, "ktemp"}, /* Current sense control temperature compensation trimming, */\
+ { 0x4800, "cs_negin"}, /* Current sense control negin , */\
+ { 0x4810, "cs_sein"}, /* Current sense control cs_sein , */\
+ { 0x4820, "cs_coincidence"}, /* Coincidence current sense , */\
+ { 0x4830, "iddqtestbst"}, /* IDDQ testing in powerstage of DCDC boost converter, */\
+ { 0x4840, "coincidencebst"}, /* Switch protection on to prevent simultaneously switching power stages bst and amp, */\
+ { 0x4876, "delay_se_neg"}, /* delay of se and neg , */\
+ { 0x48e1, "cs_ttrack"}, /* Sample and hold track time , */\
+ { 0x4900, "bypass_clip"}, /* Bypass clip control , */\
+ { 0x4920, "cf_cgate_off"}, /* Disable clock gating in the coolflux , */\
+ { 0x4940, "clipfast"}, /* Clock selection for HW clipper for battery safeguard, */\
+ { 0x4950, "cs_8ohm"}, /* 8 ohm mode for current sense (gain mode) , */\
+ { 0x4974, "delay_clock_sh"}, /* delay_sh, tunes S7H delay , */\
+ { 0x49c0, "inv_clksh"}, /* Invert the sample/hold clock for current sense ADC, */\
+ { 0x49d0, "inv_neg"}, /* Invert neg signal , */\
+ { 0x49e0, "inv_se"}, /* Invert se signal , */\
+ { 0x49f0, "setse"}, /* Switches between Single Ended and differential mode; 1 is single ended, */\
+ { 0x4a12, "adc10_sel"}, /* Select the input to convert the 10b ADC , */\
+ { 0x4a60, "adc10_reset"}, /* Reset for ADC10 - I2C direct control mode , */\
+ { 0x4a81, "adc10_test"}, /* Test mode selection signal for ADC10 - I2C direct control mode, */\
+ { 0x4aa0, "bypass_lp_vbat"}, /* LP filter in batt sensor , */\
+ { 0x4ae0, "dc_offset"}, /* Current sense decimator offset control , */\
+ { 0x4af0, "tsense_hibias"}, /* Bit to set the biasing in temp sensor to high , */\
+ { 0x4b00, "adc13_iset"}, /* MICADC setting of current consumption (debug use only), */\
+ { 0x4b14, "adc13_gain"}, /* MICADC gain setting (two's complement format) , */\
+ { 0x4b61, "adc13_slowdel"}, /* MICADC delay setting for internal clock (debug use only), */\
+ { 0x4b83, "adc13_offset"}, /* MICADC offset setting , */\
+ { 0x4bc0, "adc13_bsoinv"}, /* MICADC bit stream output invert mode for test , */\
+ { 0x4bd0, "adc13_resonator_enable"}, /* MICADC give extra SNR with less stability (debug use only), */\
+ { 0x4be0, "testmicadc"}, /* Mux at input of MICADC for test purpose , */\
+ { 0x4c0f, "abist_offset"}, /* Offset control for ABIST testing , */\
+ { 0x4d05, "windac"}, /* For testing direct control windac , */\
+ { 0x4dc3, "pwm_dcc_cnt"}, /* control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0x4e04, "slopecur"}, /* For testing direct control slopecur , */\
+ { 0x4e50, "ctrl_dem"}, /* Dynamic element matching control, rest of codes are optional, */\
+ { 0x4ed0, "enbl_pwm_dcc"}, /* Enable direct control of pwm duty cycle , */\
+ { 0x4f00, "bst_bypass_bstcur"}, /* Bypass control for boost current settings , */\
+ { 0x4f10, "bst_bypass_bstfoldback"}, /* Bypass control for boost foldback , */\
+ { 0x4f20, "bst_ctrl_azbst"}, /* Control of auto-zeroing of zero current comparator, */\
+ { 0x5007, "gain"}, /* Gain setting of the gain multiplier , */\
+ { 0x5081, "sourceb"}, /* PWM OUTB selection control , */\
+ { 0x50a1, "sourcea"}, /* PWM OUTA selection control , */\
+ { 0x50c1, "sourcebst"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0x50e0, "tdm_enable_loopback"}, /* TDM loopback test , */\
+ { 0x5104, "pulselengthbst"}, /* Pulse length setting test input for boost converter, */\
+ { 0x5150, "bypasslatchbst"}, /* Bypass latch in boost converter , */\
+ { 0x5160, "invertbst"}, /* Invert pwmbst test signal , */\
+ { 0x5174, "pulselength"}, /* Pulse length setting test input for amplifier , */\
+ { 0x51c0, "bypasslatch"}, /* Bypass latch in PWM source selection module , */\
+ { 0x51d0, "invertb"}, /* invert pwmb test signal , */\
+ { 0x51e0, "inverta"}, /* invert pwma test signal , */\
+ { 0x51f0, "bypass_ctrlloop"}, /* bypass_ctrlloop bypasses the control loop of the amplifier, */\
+ { 0x5210, "test_rdsona"}, /* tbd for rdson testing , */\
+ { 0x5220, "test_rdsonb"}, /* tbd for rdson testing , */\
+ { 0x5230, "test_rdsonbst"}, /* tbd for rdson testing , */\
+ { 0x5240, "test_cvia"}, /* tbd for rdson testing , */\
+ { 0x5250, "test_cvib"}, /* tbd for rdson testing , */\
+ { 0x5260, "test_cvibst"}, /* tbd for rdson testing , */\
+ { 0x5306, "digimuxa_sel"}, /* DigimuxA input selection control (see Digimux list for details), */\
+ { 0x5376, "digimuxb_sel"}, /* DigimuxB input selection control (see Digimux list for details), */\
+ { 0x5400, "hs_mode"}, /* I2C high speed mode selection control , */\
+ { 0x5412, "test_parametric_io"}, /* Control for parametric tests of IO cells , */\
+ { 0x5440, "enbl_ringo"}, /* Enable ring oscillator control, for test purpose to check with ringo, */\
+ { 0x5456, "digimuxc_sel"}, /* DigimuxC input selection control (see Digimux list for details), */\
+ { 0x54c0, "dio_ehs"}, /* Slew control for DIO in output mode , */\
+ { 0x54d0, "gainio_ehs"}, /* Slew control for GAINIO in output mode , */\
+ { 0x550d, "enbl_amp"}, /* enbl_amp for testing to enable all analoge blocks in amplifier, */\
+ { 0x5600, "use_direct_ctrls"}, /* Use direct controls to overrule several functions for testing - I2C direct control mode, */\
+ { 0x5610, "rst_datapath"}, /* Reset datapath during direct control mode , */\
+ { 0x5620, "rst_cgu"}, /* Reset CGU during durect control mode , */\
+ { 0x5637, "enbl_ref"}, /* For testing to enable all analoge blocks in references, */\
+ { 0x56b0, "enbl_engage"}, /* Enable output stage amplifier , */\
+ { 0x56c0, "use_direct_clk_ctrl"}, /* use_direct_clk_ctrl, to overrule several functions direct for testing, */\
+ { 0x56d0, "use_direct_pll_ctrl"}, /* use_direct_pll_ctrl, to overrule several functions direct for testing, */\
+ { 0x5707, "anamux"}, /* Anamux control , */\
+ { 0x57e0, "otptest"}, /* otptest, test mode otp amplifier , */\
+ { 0x57f0, "reverse"}, /* 1b = Normal mode, slope is controlled , */\
+ { 0x5813, "pll_selr"}, /* PLL pll_selr , */\
+ { 0x5854, "pll_selp"}, /* PLL pll_selp , */\
+ { 0x58a5, "pll_seli"}, /* PLL pll_seli , */\
+ { 0x5950, "pll_mdec_msb"}, /* Most significant bits of pll_mdec[16] , */\
+ { 0x5960, "pll_ndec_msb"}, /* Most significant bits of pll_ndec[9] , */\
+ { 0x5970, "pll_frm"}, /* PLL pll_frm , */\
+ { 0x5980, "pll_directi"}, /* PLL pll_directi , */\
+ { 0x5990, "pll_directo"}, /* PLL pll_directo , */\
+ { 0x59a0, "enbl_pll"}, /* PLL enbl_pll , */\
+ { 0x59f0, "pll_bypass"}, /* PLL bypass , */\
+ { 0x5a0f, "tsig_freq"}, /* Internal sinus test generator frequency control LSB bits, */\
+ { 0x5b02, "tsig_freq_msb"}, /* Select internal sine wave generator, frequency control MSB bits, */\
+ { 0x5b30, "inject_tsig"}, /* Control bit to switch to internal sinus test generator, */\
+ { 0x5b44, "adc10_prog_sample"}, /* ADC10 program sample setting - I2C direct control mode, */\
+ { 0x5c0f, "pll_mdec"}, /* PLL MDEC - I2C direct PLL control mode only , */\
+ { 0x5d06, "pll_pdec"}, /* PLL PDEC - I2C direct PLL control mode only , */\
+ { 0x5d78, "pll_ndec"}, /* PLL NDEC - I2C direct PLL control mode only , */\
+ { 0x6007, "mtpkey1"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0x6185, "mtp_ecc_tcin"}, /* MTP ECC TCIN data , */\
+ { 0x6203, "mtp_man_address_in"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0x6260, "mtp_ecc_eeb"}, /* Enable code bit generation (active low!) , */\
+ { 0x6270, "mtp_ecc_ecb"}, /* Enable correction signal (active low!) , */\
+ { 0x6280, "man_copy_mtp_to_iic"}, /* Start copying single word from mtp to I2C mtp register, */\
+ { 0x6290, "man_copy_iic_to_mtp"}, /* Start copying single word from I2C mtp register to mtp, */\
+ { 0x62a0, "auto_copy_mtp_to_iic"}, /* Start copying all the data from mtp to I2C mtp registers, */\
+ { 0x62b0, "auto_copy_iic_to_mtp"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0x62d2, "mtp_speed_mode"}, /* MTP speed mode , */\
+ { 0x6340, "mtp_direct_enable"}, /* mtp_direct_enable , */\
+ { 0x6350, "mtp_direct_wr"}, /* mtp_direct_wr , */\
+ { 0x6360, "mtp_direct_rd"}, /* mtp_direct_rd , */\
+ { 0x6370, "mtp_direct_rst"}, /* mtp_direct_rst , */\
+ { 0x6380, "mtp_direct_ers"}, /* mtp_direct_ers , */\
+ { 0x6390, "mtp_direct_prg"}, /* mtp_direct_prg , */\
+ { 0x63a0, "mtp_direct_epp"}, /* mtp_direct_epp , */\
+ { 0x63b4, "mtp_direct_test"}, /* mtp_direct_test , */\
+ { 0x640f, "mtp_man_data_in"}, /* Write data for MTP manual write , */\
+ { 0x7000, "cf_rst_dsp"}, /* Reset CoolFlux DSP , */\
+ { 0x7011, "cf_dmem"}, /* Target memory for access , */\
+ { 0x7030, "cf_aif"}, /* Auto increment flag for memory-address , */\
+ { 0x7040, "cf_int"}, /* CF Interrupt - auto clear , */\
+ { 0x7087, "cf_req"}, /* CF request for accessing the 8 channels , */\
+ { 0x710f, "cf_madd"}, /* Memory address , */\
+ { 0x720f, "cf_mema"}, /* Activate memory access , */\
+ { 0x7307, "cf_err"}, /* CF error flags , */\
+ { 0x7387, "cf_ack"}, /* CF acknowledgement of the requests channels , */\
+ { 0x8000, "calibration_onetime"}, /* Calibration schedule selection , */\
+ { 0x8010, "calibr_ron_done"}, /* Calibration of RON status bit , */\
+ { 0x8105, "calibr_vout_offset"}, /* calibr_vout_offset (DCDCoffset) 2's compliment (key1 protected), */\
+ { 0x8163, "calibr_delta_gain"}, /* delta gain for vamp (alpha) 2's compliment (key1 protected), */\
+ { 0x81a5, "calibr_offs_amp"}, /* offset for vamp (Ampoffset) 2's compliment (key1 protected), */\
+ { 0x8207, "calibr_gain_cs"}, /* gain current sense (Imeasalpha) 2's compliment (key1 protected), */\
+ { 0x8284, "calibr_temp_offset"}, /* temperature offset 2's compliment (key1 protected), */\
+ { 0x82d2, "calibr_temp_gain"}, /* temperature gain 2's compliment (key1 protected) , */\
+ { 0x830f, "calibr_ron"}, /* calibration value of the RON resistance of the coil, */\
+ { 0x8505, "type_bits_hw"}, /* bit0 = disable function dcdcoff_mode ($09[7]) , */\
+ { 0x8601, "type_bits_1_0_sw"}, /* MTP control SW , */\
+ { 0x8681, "type_bits_9_8_sw"}, /* MTP control SW , */\
+ { 0x870f, "type_bits2_sw"}, /* MTP-control SW2 , */\
+ { 0x8806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0x8870, "htol_iic_addr_en"}, /* HTOL I2C_Address_Enable , */\
+ { 0x8881, "ctrl_ovp_response"}, /* OVP response control , */\
+ { 0x88a0, "disable_ovp_alarm_state"}, /* OVP alarm state control , */\
+ { 0x88b0, "enbl_stretch_ovp"}, /* OVP alram strech control , */\
+ { 0x88c0, "cf_debug_mode"}, /* Coolflux debug mode , */\
+ { 0x8a0f, "production_data1"}, /* production_data1 , */\
+ { 0x8b0f, "production_data2"}, /* production_data2 , */\
+ { 0x8c0f, "production_data3"}, /* production_data3 , */\
+ { 0x8d0f, "production_data4"}, /* production_data4 , */\
+ { 0x8e0f, "production_data5"}, /* production_data5 , */\
+ { 0x8f0f, "production_data6"}, /* production_data6 , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+enum TFA9896_irq {
+ TFA9896_irq_vdds = 0,
+ TFA9896_irq_plls = 1,
+ TFA9896_irq_ds = 2,
+ TFA9896_irq_vds = 3,
+ TFA9896_irq_uvds = 4,
+ TFA9896_irq_cds = 5,
+ TFA9896_irq_clks = 6,
+ TFA9896_irq_clips = 7,
+ TFA9896_irq_mtpb = 8,
+ TFA9896_irq_clk = 9,
+ TFA9896_irq_spks = 10,
+ TFA9896_irq_acs = 11,
+ TFA9896_irq_sws = 12,
+ TFA9896_irq_wds = 13,
+ TFA9896_irq_amps = 14,
+ TFA9896_irq_arefs = 15,
+ TFA9896_irq_err = 32,
+ TFA9896_irq_ack = 33,
+ TFA9896_irq_max = 34,
+ TFA9896_irq_all = -1 /* all irqs */};
+
+#define TFA9896_IRQ_NAMETABLE static tfaIrqName_t TFA9896IrqNames[]= {\
+ { 0, "VDDS"},\
+ { 1, "PLLS"},\
+ { 2, "DS"},\
+ { 3, "VDS"},\
+ { 4, "UVDS"},\
+ { 5, "CDS"},\
+ { 6, "CLKS"},\
+ { 7, "CLIPS"},\
+ { 8, "MTPB"},\
+ { 9, "CLK"},\
+ { 10, "SPKS"},\
+ { 11, "ACS"},\
+ { 12, "SWS"},\
+ { 13, "WDS"},\
+ { 14, "AMPS"},\
+ { 15, "AREFS"},\
+ { 16, "16"},\
+ { 17, "17"},\
+ { 18, "18"},\
+ { 19, "19"},\
+ { 20, "20"},\
+ { 21, "21"},\
+ { 22, "22"},\
+ { 23, "23"},\
+ { 24, "24"},\
+ { 25, "25"},\
+ { 26, "26"},\
+ { 27, "27"},\
+ { 28, "28"},\
+ { 29, "29"},\
+ { 30, "30"},\
+ { 31, "31"},\
+ { 32, "ERR"},\
+ { 33, "ACK"},\
+ { 34, "34"},\
+};
+#endif /* _TFA9896_TFAFIELDNAMES_H */
diff --git a/inc/tfa98xx.h b/inc/tfa98xx.h
new file mode 100644
index 0000000..f6e9ff8
--- /dev/null
+++ b/inc/tfa98xx.h
@@ -0,0 +1,127 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef __TFA98XX_INC__
+#define __TFA98XX_INC__
+
+#include <linux/kernel.h>
+#include <linux/types.h>
+#include <linux/list.h>
+
+#include "tfa_device.h"
+#include "tfa_container.h"
+#include "config.h"
+
+/* max. length of a alsa mixer control name */
+#define MAX_CONTROL_NAME 48
+
+#define TFA98XX_MAX_REGISTER 0xff
+
+#define TFA98XX_FLAG_SKIP_INTERRUPTS (1 << 0)
+#define TFA98XX_FLAG_SAAM_AVAILABLE (1 << 1)
+#define TFA98XX_FLAG_STEREO_DEVICE (1 << 2)
+#define TFA98XX_FLAG_MULTI_MIC_INPUTS (1 << 3)
+#define TFA98XX_FLAG_TAPDET_AVAILABLE (1 << 4)
+#define TFA98XX_FLAG_CALIBRATION_CTL (1 << 5)
+#define TFA98XX_FLAG_REMOVE_PLOP_NOISE (1 << 6)
+#define TFA98XX_FLAG_LP_MODES (1 << 7)
+#define TFA98XX_FLAG_TDM_DEVICE (1 << 8)
+
+#define TFA98XX_NUM_RATES 9
+
+/* DSP init status */
+enum tfa98xx_dsp_init_state {
+ TFA98XX_DSP_INIT_STOPPED, /* DSP not running */
+ TFA98XX_DSP_INIT_RECOVER, /* DSP error detected at runtime */
+ TFA98XX_DSP_INIT_FAIL, /* DSP init failed */
+ TFA98XX_DSP_INIT_PENDING, /* DSP start requested */
+ TFA98XX_DSP_INIT_DONE, /* DSP running */
+ TFA98XX_DSP_INIT_INVALIDATED, /* DSP was running, requires re-init */
+};
+
+enum tfa98xx_dsp_fw_state {
+ TFA98XX_DSP_FW_NONE = 0,
+ TFA98XX_DSP_FW_PENDING,
+ TFA98XX_DSP_FW_FAIL,
+ TFA98XX_DSP_FW_OK,
+};
+
+struct tfa98xx_firmware {
+ void *base;
+ struct tfa98xx_device *dev;
+ char name[9]; //TODO get length from tfa parameter defs
+};
+
+struct tfa98xx_baseprofile {
+ char basename[MAX_CONTROL_NAME]; /* profile basename */
+ int len; /* profile length */
+ int item_id; /* profile id */
+ int sr_rate_sup[TFA98XX_NUM_RATES]; /* sample rates supported by this profile */
+ struct list_head list; /* list of all profiles */
+};
+enum tfa_reset_polarity{
+ LOW=0,
+ HIGH=1
+};
+struct tfa98xx {
+ struct regmap *regmap;
+ struct i2c_client *i2c;
+ struct regulator *vdd;
+ struct snd_soc_codec *codec;
+ struct workqueue_struct *tfa98xx_wq;
+ struct delayed_work init_work;
+ struct delayed_work monitor_work;
+ struct delayed_work interrupt_work;
+ struct delayed_work tapdet_work;
+ struct mutex dsp_lock;
+ int dsp_init;
+ int dsp_fw_state;
+ int sysclk;
+ int rst_gpio;
+ u16 rev;
+ int audio_mode;
+ struct tfa98xx_firmware fw;
+ char *fw_name;
+ int rate;
+ wait_queue_head_t wq;
+ struct device *dev;
+ unsigned int init_count;
+ int pstream;
+ int cstream;
+ struct input_dev *input;
+ bool tapdet_enabled; /* service enabled */
+ bool tapdet_open; /* device file opened */
+ unsigned int tapdet_profiles; /* tapdet profile bitfield */
+ bool tapdet_poll; /* tapdet running on polling mode */
+
+ unsigned int rate_constraint_list[TFA98XX_NUM_RATES];
+ struct snd_pcm_hw_constraint_list rate_constraint;
+
+ int reset_gpio;
+ int power_gpio;
+ int irq_gpio;
+ enum tfa_reset_polarity reset_polarity;
+ struct list_head list;
+ struct tfa_device *tfa;
+ int vstep;
+ int profile;
+ int prof_vsteps[TFACONT_MAXPROFS]; /* store vstep per profile (single device) */
+
+#ifdef CONFIG_DEBUG_FS
+ struct dentry *dbg_dir;
+#endif
+ u8 reg;
+ unsigned int flags;
+ bool set_mtp_cal;
+ uint16_t cal_data;
+};
+
+
+#endif /* __TFA98XX_INC__ */
+
diff --git a/inc/tfa98xx_genregs_N1C.h b/inc/tfa98xx_genregs_N1C.h
new file mode 100644
index 0000000..aa67c38
--- /dev/null
+++ b/inc/tfa98xx_genregs_N1C.h
@@ -0,0 +1,3857 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFA2_GENREGS_H
+#define TFA2_GENREGS_H
+
+
+#define TFA98XX_SYS_CONTROL0 0x00
+#define TFA98XX_SYS_CONTROL1 0x01
+#define TFA98XX_SYS_CONTROL2 0x02
+#define TFA98XX_DEVICE_REVISION 0x03
+#define TFA98XX_CLOCK_CONTROL 0x04
+#define TFA98XX_CLOCK_GATING_CONTROL 0x05
+#define TFA98XX_SIDE_TONE_CONFIG 0x0d
+#define TFA98XX_CTRL_DIGTOANA_REG 0x0e
+#define TFA98XX_STATUS_FLAGS0 0x10
+#define TFA98XX_STATUS_FLAGS1 0x11
+#define TFA98XX_STATUS_FLAGS2 0x12
+#define TFA98XX_STATUS_FLAGS3 0x13
+#define TFA98XX_STATUS_FLAGS4 0x14
+#define TFA98XX_BATTERY_VOLTAGE 0x15
+#define TFA98XX_TEMPERATURE 0x16
+#define TFA98XX_TDM_CONFIG0 0x20
+#define TFA98XX_TDM_CONFIG1 0x21
+#define TFA98XX_TDM_CONFIG2 0x22
+#define TFA98XX_TDM_CONFIG3 0x23
+#define TFA98XX_TDM_CONFIG4 0x24
+#define TFA98XX_TDM_CONFIG5 0x25
+#define TFA98XX_TDM_CONFIG6 0x26
+#define TFA98XX_TDM_CONFIG7 0x27
+#define TFA98XX_TDM_CONFIG8 0x28
+#define TFA98XX_TDM_CONFIG9 0x29
+#define TFA98XX_PDM_CONFIG0 0x31
+#define TFA98XX_PDM_CONFIG1 0x32
+#define TFA98XX_HAPTIC_DRIVER_CONFIG 0x33
+#define TFA98XX_GPIO_DATAIN_REG 0x34
+#define TFA98XX_GPIO_CONFIG 0x35
+#define TFA98XX_INTERRUPT_OUT_REG1 0x40
+#define TFA98XX_INTERRUPT_OUT_REG2 0x41
+#define TFA98XX_INTERRUPT_OUT_REG3 0x42
+#define TFA98XX_INTERRUPT_IN_REG1 0x44
+#define TFA98XX_INTERRUPT_IN_REG2 0x45
+#define TFA98XX_INTERRUPT_IN_REG3 0x46
+#define TFA98XX_INTERRUPT_ENABLE_REG1 0x48
+#define TFA98XX_INTERRUPT_ENABLE_REG2 0x49
+#define TFA98XX_INTERRUPT_ENABLE_REG3 0x4a
+#define TFA98XX_STATUS_POLARITY_REG1 0x4c
+#define TFA98XX_STATUS_POLARITY_REG2 0x4d
+#define TFA98XX_STATUS_POLARITY_REG3 0x4e
+#define TFA98XX_BAT_PROT_CONFIG 0x50
+#define TFA98XX_AUDIO_CONTROL 0x51
+#define TFA98XX_AMPLIFIER_CONFIG 0x52
+#define TFA98XX_AUDIO_CONTROL2 0x5a
+#define TFA98XX_DCDC_CONTROL0 0x70
+#define TFA98XX_CF_CONTROLS 0x90
+#define TFA98XX_CF_MAD 0x91
+#define TFA98XX_CF_MEM 0x92
+#define TFA98XX_CF_STATUS 0x93
+#define TFA98XX_MTPKEY2_REG 0xa1
+#define TFA98XX_MTP_STATUS 0xa2
+#define TFA98XX_KEY_PROTECTED_MTP_CONTROL 0xa3
+#define TFA98XX_MTP_DATA_OUT_MSB 0xa5
+#define TFA98XX_MTP_DATA_OUT_LSB 0xa6
+#define TFA98XX_TEMP_SENSOR_CONFIG 0xb1
+#define TFA98XX_KEY2_PROTECTED_MTP0 0xf0
+#define TFA98XX_KEY1_PROTECTED_MTP4 0xf4
+#define TFA98XX_KEY1_PROTECTED_MTP5 0xf5
+
+/*
+ * (0x00)-sys_control0
+ */
+
+/*
+ * powerdown
+ */
+#define TFA98XX_SYS_CONTROL0_PWDN (0x1<<0)
+#define TFA98XX_SYS_CONTROL0_PWDN_POS 0
+#define TFA98XX_SYS_CONTROL0_PWDN_LEN 1
+#define TFA98XX_SYS_CONTROL0_PWDN_MAX 1
+#define TFA98XX_SYS_CONTROL0_PWDN_MSK 0x1
+
+/*
+ * reset
+ */
+#define TFA98XX_SYS_CONTROL0_I2CR (0x1<<1)
+#define TFA98XX_SYS_CONTROL0_I2CR_POS 1
+#define TFA98XX_SYS_CONTROL0_I2CR_LEN 1
+#define TFA98XX_SYS_CONTROL0_I2CR_MAX 1
+#define TFA98XX_SYS_CONTROL0_I2CR_MSK 0x2
+
+/*
+ * enbl_coolflux
+ */
+#define TFA98XX_SYS_CONTROL0_CFE (0x1<<2)
+#define TFA98XX_SYS_CONTROL0_CFE_POS 2
+#define TFA98XX_SYS_CONTROL0_CFE_LEN 1
+#define TFA98XX_SYS_CONTROL0_CFE_MAX 1
+#define TFA98XX_SYS_CONTROL0_CFE_MSK 0x4
+
+/*
+ * enbl_amplifier
+ */
+#define TFA98XX_SYS_CONTROL0_AMPE (0x1<<3)
+#define TFA98XX_SYS_CONTROL0_AMPE_POS 3
+#define TFA98XX_SYS_CONTROL0_AMPE_LEN 1
+#define TFA98XX_SYS_CONTROL0_AMPE_MAX 1
+#define TFA98XX_SYS_CONTROL0_AMPE_MSK 0x8
+
+/*
+ * enbl_boost
+ */
+#define TFA98XX_SYS_CONTROL0_DCA (0x1<<4)
+#define TFA98XX_SYS_CONTROL0_DCA_POS 4
+#define TFA98XX_SYS_CONTROL0_DCA_LEN 1
+#define TFA98XX_SYS_CONTROL0_DCA_MAX 1
+#define TFA98XX_SYS_CONTROL0_DCA_MSK 0x10
+
+/*
+ * coolflux_configured
+ */
+#define TFA98XX_SYS_CONTROL0_SBSL (0x1<<5)
+#define TFA98XX_SYS_CONTROL0_SBSL_POS 5
+#define TFA98XX_SYS_CONTROL0_SBSL_LEN 1
+#define TFA98XX_SYS_CONTROL0_SBSL_MAX 1
+#define TFA98XX_SYS_CONTROL0_SBSL_MSK 0x20
+
+/*
+ * sel_enbl_amplifier
+ */
+#define TFA98XX_SYS_CONTROL0_AMPC (0x1<<6)
+#define TFA98XX_SYS_CONTROL0_AMPC_POS 6
+#define TFA98XX_SYS_CONTROL0_AMPC_LEN 1
+#define TFA98XX_SYS_CONTROL0_AMPC_MAX 1
+#define TFA98XX_SYS_CONTROL0_AMPC_MSK 0x40
+
+/*
+ * int_pad_io
+ */
+#define TFA98XX_SYS_CONTROL0_INTP (0x3<<7)
+#define TFA98XX_SYS_CONTROL0_INTP_POS 7
+#define TFA98XX_SYS_CONTROL0_INTP_LEN 2
+#define TFA98XX_SYS_CONTROL0_INTP_MAX 3
+#define TFA98XX_SYS_CONTROL0_INTP_MSK 0x180
+
+/*
+ * fs_pulse_sel
+ */
+#define TFA98XX_SYS_CONTROL0_FSSSEL (0x3<<9)
+#define TFA98XX_SYS_CONTROL0_FSSSEL_POS 9
+#define TFA98XX_SYS_CONTROL0_FSSSEL_LEN 2
+#define TFA98XX_SYS_CONTROL0_FSSSEL_MAX 3
+#define TFA98XX_SYS_CONTROL0_FSSSEL_MSK 0x600
+
+/*
+ * bypass_ocp
+ */
+#define TFA98XX_SYS_CONTROL0_BYPOCP (0x1<<11)
+#define TFA98XX_SYS_CONTROL0_BYPOCP_POS 11
+#define TFA98XX_SYS_CONTROL0_BYPOCP_LEN 1
+#define TFA98XX_SYS_CONTROL0_BYPOCP_MAX 1
+#define TFA98XX_SYS_CONTROL0_BYPOCP_MSK 0x800
+
+/*
+ * test_ocp
+ */
+#define TFA98XX_SYS_CONTROL0_TSTOCP (0x1<<12)
+#define TFA98XX_SYS_CONTROL0_TSTOCP_POS 12
+#define TFA98XX_SYS_CONTROL0_TSTOCP_LEN 1
+#define TFA98XX_SYS_CONTROL0_TSTOCP_MAX 1
+#define TFA98XX_SYS_CONTROL0_TSTOCP_MSK 0x1000
+
+
+/*
+ * (0x01)-sys_control1
+ */
+
+/*
+ * vamp_sel
+ */
+#define TFA98XX_SYS_CONTROL1_AMPINSEL (0x3<<0)
+#define TFA98XX_SYS_CONTROL1_AMPINSEL_POS 0
+#define TFA98XX_SYS_CONTROL1_AMPINSEL_LEN 2
+#define TFA98XX_SYS_CONTROL1_AMPINSEL_MAX 3
+#define TFA98XX_SYS_CONTROL1_AMPINSEL_MSK 0x3
+
+/*
+ * src_set_configured
+ */
+#define TFA98XX_SYS_CONTROL1_MANSCONF (0x1<<2)
+#define TFA98XX_SYS_CONTROL1_MANSCONF_POS 2
+#define TFA98XX_SYS_CONTROL1_MANSCONF_LEN 1
+#define TFA98XX_SYS_CONTROL1_MANSCONF_MAX 1
+#define TFA98XX_SYS_CONTROL1_MANSCONF_MSK 0x4
+
+/*
+ * execute_cold_start
+ */
+#define TFA98XX_SYS_CONTROL1_MANCOLD (0x1<<3)
+#define TFA98XX_SYS_CONTROL1_MANCOLD_POS 3
+#define TFA98XX_SYS_CONTROL1_MANCOLD_LEN 1
+#define TFA98XX_SYS_CONTROL1_MANCOLD_MAX 1
+#define TFA98XX_SYS_CONTROL1_MANCOLD_MSK 0x8
+
+/*
+ * enbl_osc1m_auto_off
+ */
+#define TFA98XX_SYS_CONTROL1_MANAOOSC (0x1<<4)
+#define TFA98XX_SYS_CONTROL1_MANAOOSC_POS 4
+#define TFA98XX_SYS_CONTROL1_MANAOOSC_LEN 1
+#define TFA98XX_SYS_CONTROL1_MANAOOSC_MAX 1
+#define TFA98XX_SYS_CONTROL1_MANAOOSC_MSK 0x10
+
+/*
+ * man_enbl_brown_out
+ */
+#define TFA98XX_SYS_CONTROL1_MANROBOD (0x1<<5)
+#define TFA98XX_SYS_CONTROL1_MANROBOD_POS 5
+#define TFA98XX_SYS_CONTROL1_MANROBOD_LEN 1
+#define TFA98XX_SYS_CONTROL1_MANROBOD_MAX 1
+#define TFA98XX_SYS_CONTROL1_MANROBOD_MSK 0x20
+
+/*
+ * enbl_bod
+ */
+#define TFA98XX_SYS_CONTROL1_BODE (0x1<<6)
+#define TFA98XX_SYS_CONTROL1_BODE_POS 6
+#define TFA98XX_SYS_CONTROL1_BODE_LEN 1
+#define TFA98XX_SYS_CONTROL1_BODE_MAX 1
+#define TFA98XX_SYS_CONTROL1_BODE_MSK 0x40
+
+/*
+ * enbl_bod_hyst
+ */
+#define TFA98XX_SYS_CONTROL1_BODHYS (0x1<<7)
+#define TFA98XX_SYS_CONTROL1_BODHYS_POS 7
+#define TFA98XX_SYS_CONTROL1_BODHYS_LEN 1
+#define TFA98XX_SYS_CONTROL1_BODHYS_MAX 1
+#define TFA98XX_SYS_CONTROL1_BODHYS_MSK 0x80
+
+/*
+ * bod_delay
+ */
+#define TFA98XX_SYS_CONTROL1_BODFILT (0x3<<8)
+#define TFA98XX_SYS_CONTROL1_BODFILT_POS 8
+#define TFA98XX_SYS_CONTROL1_BODFILT_LEN 2
+#define TFA98XX_SYS_CONTROL1_BODFILT_MAX 3
+#define TFA98XX_SYS_CONTROL1_BODFILT_MSK 0x300
+
+/*
+ * bod_lvlsel
+ */
+#define TFA98XX_SYS_CONTROL1_BODTHLVL (0x3<<10)
+#define TFA98XX_SYS_CONTROL1_BODTHLVL_POS 10
+#define TFA98XX_SYS_CONTROL1_BODTHLVL_LEN 2
+#define TFA98XX_SYS_CONTROL1_BODTHLVL_MAX 3
+#define TFA98XX_SYS_CONTROL1_BODTHLVL_MSK 0xc00
+
+/*
+ * disable_mute_time_out
+ */
+#define TFA98XX_SYS_CONTROL1_MUTETO (0x1<<13)
+#define TFA98XX_SYS_CONTROL1_MUTETO_POS 13
+#define TFA98XX_SYS_CONTROL1_MUTETO_LEN 1
+#define TFA98XX_SYS_CONTROL1_MUTETO_MAX 1
+#define TFA98XX_SYS_CONTROL1_MUTETO_MSK 0x2000
+
+/*
+ * pwm_sel_rcv_ns
+ */
+#define TFA98XX_SYS_CONTROL1_RCVNS (0x1<<14)
+#define TFA98XX_SYS_CONTROL1_RCVNS_POS 14
+#define TFA98XX_SYS_CONTROL1_RCVNS_LEN 1
+#define TFA98XX_SYS_CONTROL1_RCVNS_MAX 1
+#define TFA98XX_SYS_CONTROL1_RCVNS_MSK 0x4000
+
+/*
+ * man_enbl_watchdog
+ */
+#define TFA98XX_SYS_CONTROL1_MANWDE (0x1<<15)
+#define TFA98XX_SYS_CONTROL1_MANWDE_POS 15
+#define TFA98XX_SYS_CONTROL1_MANWDE_LEN 1
+#define TFA98XX_SYS_CONTROL1_MANWDE_MAX 1
+#define TFA98XX_SYS_CONTROL1_MANWDE_MSK 0x8000
+
+
+/*
+ * (0x02)-sys_control2
+ */
+
+/*
+ * audio_fs
+ */
+#define TFA98XX_SYS_CONTROL2_AUDFS (0xf<<0)
+#define TFA98XX_SYS_CONTROL2_AUDFS_POS 0
+#define TFA98XX_SYS_CONTROL2_AUDFS_LEN 4
+#define TFA98XX_SYS_CONTROL2_AUDFS_MAX 15
+#define TFA98XX_SYS_CONTROL2_AUDFS_MSK 0xf
+
+/*
+ * input_level
+ */
+#define TFA98XX_SYS_CONTROL2_INPLEV (0x1<<4)
+#define TFA98XX_SYS_CONTROL2_INPLEV_POS 4
+#define TFA98XX_SYS_CONTROL2_INPLEV_LEN 1
+#define TFA98XX_SYS_CONTROL2_INPLEV_MAX 1
+#define TFA98XX_SYS_CONTROL2_INPLEV_MSK 0x10
+
+/*
+ * cs_frac_delay
+ */
+#define TFA98XX_SYS_CONTROL2_FRACTDEL (0x3f<<5)
+#define TFA98XX_SYS_CONTROL2_FRACTDEL_POS 5
+#define TFA98XX_SYS_CONTROL2_FRACTDEL_LEN 6
+#define TFA98XX_SYS_CONTROL2_FRACTDEL_MAX 63
+#define TFA98XX_SYS_CONTROL2_FRACTDEL_MSK 0x7e0
+
+/*
+ * bypass_hvbat_filter
+ */
+#define TFA98XX_SYS_CONTROL2_BYPHVBF (0x1<<11)
+#define TFA98XX_SYS_CONTROL2_BYPHVBF_POS 11
+#define TFA98XX_SYS_CONTROL2_BYPHVBF_LEN 1
+#define TFA98XX_SYS_CONTROL2_BYPHVBF_MAX 1
+#define TFA98XX_SYS_CONTROL2_BYPHVBF_MSK 0x800
+
+/*
+ * ctrl_rcvldop_bypass
+ */
+#define TFA98XX_SYS_CONTROL2_LDOBYP (0x1<<12)
+#define TFA98XX_SYS_CONTROL2_LDOBYP_POS 12
+#define TFA98XX_SYS_CONTROL2_LDOBYP_LEN 1
+#define TFA98XX_SYS_CONTROL2_LDOBYP_MAX 1
+#define TFA98XX_SYS_CONTROL2_LDOBYP_MSK 0x1000
+
+
+/*
+ * (0x03)-device_revision
+ */
+
+/*
+ * device_rev
+ */
+#define TFA98XX_DEVICE_REVISION_REV (0xffff<<0)
+#define TFA98XX_DEVICE_REVISION_REV_POS 0
+#define TFA98XX_DEVICE_REVISION_REV_LEN 16
+#define TFA98XX_DEVICE_REVISION_REV_MAX 65535
+#define TFA98XX_DEVICE_REVISION_REV_MSK 0xffff
+
+
+/*
+ * (0x04)-clock_control
+ */
+
+/*
+ * pll_clkin_sel
+ */
+#define TFA98XX_CLOCK_CONTROL_REFCKEXT (0x3<<0)
+#define TFA98XX_CLOCK_CONTROL_REFCKEXT_POS 0
+#define TFA98XX_CLOCK_CONTROL_REFCKEXT_LEN 2
+#define TFA98XX_CLOCK_CONTROL_REFCKEXT_MAX 3
+#define TFA98XX_CLOCK_CONTROL_REFCKEXT_MSK 0x3
+
+/*
+ * pll_clkin_sel_osc
+ */
+#define TFA98XX_CLOCK_CONTROL_REFCKSEL (0x1<<2)
+#define TFA98XX_CLOCK_CONTROL_REFCKSEL_POS 2
+#define TFA98XX_CLOCK_CONTROL_REFCKSEL_LEN 1
+#define TFA98XX_CLOCK_CONTROL_REFCKSEL_MAX 1
+#define TFA98XX_CLOCK_CONTROL_REFCKSEL_MSK 0x4
+
+
+/*
+ * (0x05)-clock_gating_control
+ */
+
+/*
+ * enbl_spkr_ss_left
+ */
+#define TFA98XX_CLOCK_GATING_CONTROL_SSLEFTE (0x1<<0)
+#define TFA98XX_CLOCK_GATING_CONTROL_SSLEFTE_POS 0
+#define TFA98XX_CLOCK_GATING_CONTROL_SSLEFTE_LEN 1
+#define TFA98XX_CLOCK_GATING_CONTROL_SSLEFTE_MAX 1
+#define TFA98XX_CLOCK_GATING_CONTROL_SSLEFTE_MSK 0x1
+
+/*
+ * enbl_spkr_ss_right
+ */
+#define TFA98XX_CLOCK_GATING_CONTROL_SSRIGHTE (0x1<<1)
+#define TFA98XX_CLOCK_GATING_CONTROL_SSRIGHTE_POS 1
+#define TFA98XX_CLOCK_GATING_CONTROL_SSRIGHTE_LEN 1
+#define TFA98XX_CLOCK_GATING_CONTROL_SSRIGHTE_MAX 1
+#define TFA98XX_CLOCK_GATING_CONTROL_SSRIGHTE_MSK 0x2
+
+/*
+ * enbl_volsense_left
+ */
+#define TFA98XX_CLOCK_GATING_CONTROL_VSLEFTE (0x1<<2)
+#define TFA98XX_CLOCK_GATING_CONTROL_VSLEFTE_POS 2
+#define TFA98XX_CLOCK_GATING_CONTROL_VSLEFTE_LEN 1
+#define TFA98XX_CLOCK_GATING_CONTROL_VSLEFTE_MAX 1
+#define TFA98XX_CLOCK_GATING_CONTROL_VSLEFTE_MSK 0x4
+
+/*
+ * enbl_volsense_right
+ */
+#define TFA98XX_CLOCK_GATING_CONTROL_VSRIGHTE (0x1<<3)
+#define TFA98XX_CLOCK_GATING_CONTROL_VSRIGHTE_POS 3
+#define TFA98XX_CLOCK_GATING_CONTROL_VSRIGHTE_LEN 1
+#define TFA98XX_CLOCK_GATING_CONTROL_VSRIGHTE_MAX 1
+#define TFA98XX_CLOCK_GATING_CONTROL_VSRIGHTE_MSK 0x8
+
+/*
+ * enbl_cursense_left
+ */
+#define TFA98XX_CLOCK_GATING_CONTROL_CSLEFTE (0x1<<4)
+#define TFA98XX_CLOCK_GATING_CONTROL_CSLEFTE_POS 4
+#define TFA98XX_CLOCK_GATING_CONTROL_CSLEFTE_LEN 1
+#define TFA98XX_CLOCK_GATING_CONTROL_CSLEFTE_MAX 1
+#define TFA98XX_CLOCK_GATING_CONTROL_CSLEFTE_MSK 0x10
+
+/*
+ * enbl_cursense_right
+ */
+#define TFA98XX_CLOCK_GATING_CONTROL_CSRIGHTE (0x1<<5)
+#define TFA98XX_CLOCK_GATING_CONTROL_CSRIGHTE_POS 5
+#define TFA98XX_CLOCK_GATING_CONTROL_CSRIGHTE_LEN 1
+#define TFA98XX_CLOCK_GATING_CONTROL_CSRIGHTE_MAX 1
+#define TFA98XX_CLOCK_GATING_CONTROL_CSRIGHTE_MSK 0x20
+
+/*
+ * enbl_pdm_ss
+ */
+#define TFA98XX_CLOCK_GATING_CONTROL_SSPDME (0x1<<6)
+#define TFA98XX_CLOCK_GATING_CONTROL_SSPDME_POS 6
+#define TFA98XX_CLOCK_GATING_CONTROL_SSPDME_LEN 1
+#define TFA98XX_CLOCK_GATING_CONTROL_SSPDME_MAX 1
+#define TFA98XX_CLOCK_GATING_CONTROL_SSPDME_MSK 0x40
+
+
+/*
+ * (0x0d)-side_tone_config
+ */
+
+/*
+ * side_tone_gain
+ */
+#define TFA98XX_SIDE_TONE_CONFIG_STGAIN (0x1ff<<1)
+#define TFA98XX_SIDE_TONE_CONFIG_STGAIN_POS 1
+#define TFA98XX_SIDE_TONE_CONFIG_STGAIN_LEN 9
+#define TFA98XX_SIDE_TONE_CONFIG_STGAIN_MAX 511
+#define TFA98XX_SIDE_TONE_CONFIG_STGAIN_MSK 0x3fe
+
+/*
+ * mute_side_tone
+ */
+#define TFA98XX_SIDE_TONE_CONFIG_PDMSMUTE (0x1<<10)
+#define TFA98XX_SIDE_TONE_CONFIG_PDMSMUTE_POS 10
+#define TFA98XX_SIDE_TONE_CONFIG_PDMSMUTE_LEN 1
+#define TFA98XX_SIDE_TONE_CONFIG_PDMSMUTE_MAX 1
+#define TFA98XX_SIDE_TONE_CONFIG_PDMSMUTE_MSK 0x400
+
+
+/*
+ * (0x0e)-ctrl_digtoana_reg
+ */
+
+/*
+ * ctrl_digtoana
+ */
+#define TFA98XX_CTRL_DIGTOANA_REG_SWVSTEP (0x7f<<0)
+#define TFA98XX_CTRL_DIGTOANA_REG_SWVSTEP_POS 0
+#define TFA98XX_CTRL_DIGTOANA_REG_SWVSTEP_LEN 7
+#define TFA98XX_CTRL_DIGTOANA_REG_SWVSTEP_MAX 127
+#define TFA98XX_CTRL_DIGTOANA_REG_SWVSTEP_MSK 0x7f
+
+
+/*
+ * (0x10)-status_flags0
+ */
+
+/*
+ * flag_por
+ */
+#define TFA98XX_STATUS_FLAGS0_VDDS (0x1<<0)
+#define TFA98XX_STATUS_FLAGS0_VDDS_POS 0
+#define TFA98XX_STATUS_FLAGS0_VDDS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_VDDS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_VDDS_MSK 0x1
+
+/*
+ * flag_pll_lock
+ */
+#define TFA98XX_STATUS_FLAGS0_PLLS (0x1<<1)
+#define TFA98XX_STATUS_FLAGS0_PLLS_POS 1
+#define TFA98XX_STATUS_FLAGS0_PLLS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_PLLS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_PLLS_MSK 0x2
+
+/*
+ * flag_otpok
+ */
+#define TFA98XX_STATUS_FLAGS0_OTDS (0x1<<2)
+#define TFA98XX_STATUS_FLAGS0_OTDS_POS 2
+#define TFA98XX_STATUS_FLAGS0_OTDS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_OTDS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_OTDS_MSK 0x4
+
+/*
+ * flag_ovpok
+ */
+#define TFA98XX_STATUS_FLAGS0_OVDS (0x1<<3)
+#define TFA98XX_STATUS_FLAGS0_OVDS_POS 3
+#define TFA98XX_STATUS_FLAGS0_OVDS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_OVDS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_OVDS_MSK 0x8
+
+/*
+ * flag_uvpok
+ */
+#define TFA98XX_STATUS_FLAGS0_UVDS (0x1<<4)
+#define TFA98XX_STATUS_FLAGS0_UVDS_POS 4
+#define TFA98XX_STATUS_FLAGS0_UVDS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_UVDS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_UVDS_MSK 0x10
+
+/*
+ * flag_clocks_stable
+ */
+#define TFA98XX_STATUS_FLAGS0_CLKS (0x1<<6)
+#define TFA98XX_STATUS_FLAGS0_CLKS_POS 5
+#define TFA98XX_STATUS_FLAGS0_CLKS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_CLKS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_CLKS_MSK 0x20
+
+/*
+ * flag_mtp_busy
+ */
+#define TFA98XX_STATUS_FLAGS0_MTPB (0x1<<6)
+#define TFA98XX_STATUS_FLAGS0_MTPB_POS 6
+#define TFA98XX_STATUS_FLAGS0_MTPB_LEN 1
+#define TFA98XX_STATUS_FLAGS0_MTPB_MAX 1
+#define TFA98XX_STATUS_FLAGS0_MTPB_MSK 0x40
+
+/*
+ * flag_lost_clk
+ */
+#define TFA98XX_STATUS_FLAGS0_NOCLK (0x1<<7)
+#define TFA98XX_STATUS_FLAGS0_NOCLK_POS 7
+#define TFA98XX_STATUS_FLAGS0_NOCLK_LEN 1
+#define TFA98XX_STATUS_FLAGS0_NOCLK_MAX 1
+#define TFA98XX_STATUS_FLAGS0_NOCLK_MSK 0x80
+
+/*
+ * flag_cf_speakererror
+ */
+#define TFA98XX_STATUS_FLAGS0_SPKS (0x1<<8)
+#define TFA98XX_STATUS_FLAGS0_SPKS_POS 8
+#define TFA98XX_STATUS_FLAGS0_SPKS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_SPKS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_SPKS_MSK 0x100
+
+/*
+ * flag_cold_started
+ */
+#define TFA98XX_STATUS_FLAGS0_ACS (0x1<<9)
+#define TFA98XX_STATUS_FLAGS0_ACS_POS 9
+#define TFA98XX_STATUS_FLAGS0_ACS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_ACS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_ACS_MSK 0x200
+
+/*
+ * flag_engage
+ */
+#define TFA98XX_STATUS_FLAGS0_SWS (0x1<<10)
+#define TFA98XX_STATUS_FLAGS0_SWS_POS 10
+#define TFA98XX_STATUS_FLAGS0_SWS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_SWS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_SWS_MSK 0x400
+
+/*
+ * flag_watchdog_reset
+ */
+#define TFA98XX_STATUS_FLAGS0_WDS (0x1<<11)
+#define TFA98XX_STATUS_FLAGS0_WDS_POS 11
+#define TFA98XX_STATUS_FLAGS0_WDS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_WDS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_WDS_MSK 0x800
+
+/*
+ * flag_enbl_amp
+ */
+#define TFA98XX_STATUS_FLAGS0_AMPS (0x1<<12)
+#define TFA98XX_STATUS_FLAGS0_AMPS_POS 12
+#define TFA98XX_STATUS_FLAGS0_AMPS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_AMPS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_AMPS_MSK 0x1000
+
+/*
+ * flag_enbl_ref
+ */
+#define TFA98XX_STATUS_FLAGS0_AREFS (0x1<<13)
+#define TFA98XX_STATUS_FLAGS0_AREFS_POS 13
+#define TFA98XX_STATUS_FLAGS0_AREFS_LEN 1
+#define TFA98XX_STATUS_FLAGS0_AREFS_MAX 1
+#define TFA98XX_STATUS_FLAGS0_AREFS_MSK 0x2000
+
+/*
+ * flag_adc10_ready
+ */
+#define TFA98XX_STATUS_FLAGS0_ADCCR (0x1<<14)
+#define TFA98XX_STATUS_FLAGS0_ADCCR_POS 14
+#define TFA98XX_STATUS_FLAGS0_ADCCR_LEN 1
+#define TFA98XX_STATUS_FLAGS0_ADCCR_MAX 1
+#define TFA98XX_STATUS_FLAGS0_ADCCR_MSK 0x4000
+
+/*
+ * flag_bod_vddd_nok
+ */
+#define TFA98XX_STATUS_FLAGS0_BODNOK (0x1<<15)
+#define TFA98XX_STATUS_FLAGS0_BODNOK_POS 15
+#define TFA98XX_STATUS_FLAGS0_BODNOK_LEN 1
+#define TFA98XX_STATUS_FLAGS0_BODNOK_MAX 1
+#define TFA98XX_STATUS_FLAGS0_BODNOK_MSK 0x8000
+
+
+/*
+ * (0x11)-status_flags1
+ */
+
+/*
+ * flag_bst_bstcur
+ */
+#define TFA98XX_STATUS_FLAGS1_DCIL (0x1<<0)
+#define TFA98XX_STATUS_FLAGS1_DCIL_POS 0
+#define TFA98XX_STATUS_FLAGS1_DCIL_LEN 1
+#define TFA98XX_STATUS_FLAGS1_DCIL_MAX 1
+#define TFA98XX_STATUS_FLAGS1_DCIL_MSK 0x1
+
+/*
+ * flag_bst_hiz
+ */
+#define TFA98XX_STATUS_FLAGS1_DCDCA (0x1<<1)
+#define TFA98XX_STATUS_FLAGS1_DCDCA_POS 1
+#define TFA98XX_STATUS_FLAGS1_DCDCA_LEN 1
+#define TFA98XX_STATUS_FLAGS1_DCDCA_MAX 1
+#define TFA98XX_STATUS_FLAGS1_DCDCA_MSK 0x2
+
+/*
+ * flag_bst_ocpok
+ */
+#define TFA98XX_STATUS_FLAGS1_DCOCPOK (0x1<<2)
+#define TFA98XX_STATUS_FLAGS1_DCOCPOK_POS 2
+#define TFA98XX_STATUS_FLAGS1_DCOCPOK_LEN 1
+#define TFA98XX_STATUS_FLAGS1_DCOCPOK_MAX 1
+#define TFA98XX_STATUS_FLAGS1_DCOCPOK_MSK 0x4
+
+/*
+ * flag_bst_voutcomp
+ */
+#define TFA98XX_STATUS_FLAGS1_DCHVBAT (0x1<<4)
+#define TFA98XX_STATUS_FLAGS1_DCHVBAT_POS 4
+#define TFA98XX_STATUS_FLAGS1_DCHVBAT_LEN 1
+#define TFA98XX_STATUS_FLAGS1_DCHVBAT_MAX 1
+#define TFA98XX_STATUS_FLAGS1_DCHVBAT_MSK 0x10
+
+/*
+ * flag_bst_voutcomp86
+ */
+#define TFA98XX_STATUS_FLAGS1_DCH114 (0x1<<5)
+#define TFA98XX_STATUS_FLAGS1_DCH114_POS 5
+#define TFA98XX_STATUS_FLAGS1_DCH114_LEN 1
+#define TFA98XX_STATUS_FLAGS1_DCH114_MAX 1
+#define TFA98XX_STATUS_FLAGS1_DCH114_MSK 0x20
+
+/*
+ * flag_bst_voutcomp93
+ */
+#define TFA98XX_STATUS_FLAGS1_DCH107 (0x1<<6)
+#define TFA98XX_STATUS_FLAGS1_DCH107_POS 6
+#define TFA98XX_STATUS_FLAGS1_DCH107_LEN 1
+#define TFA98XX_STATUS_FLAGS1_DCH107_MAX 1
+#define TFA98XX_STATUS_FLAGS1_DCH107_MSK 0x40
+
+/*
+ * flag_soft_mute_busy
+ */
+#define TFA98XX_STATUS_FLAGS1_STMUTEB (0x1<<7)
+#define TFA98XX_STATUS_FLAGS1_STMUTEB_POS 7
+#define TFA98XX_STATUS_FLAGS1_STMUTEB_LEN 1
+#define TFA98XX_STATUS_FLAGS1_STMUTEB_MAX 1
+#define TFA98XX_STATUS_FLAGS1_STMUTEB_MSK 0x80
+
+/*
+ * flag_soft_mute_state
+ */
+#define TFA98XX_STATUS_FLAGS1_STMUTE (0x1<<8)
+#define TFA98XX_STATUS_FLAGS1_STMUTE_POS 8
+#define TFA98XX_STATUS_FLAGS1_STMUTE_LEN 1
+#define TFA98XX_STATUS_FLAGS1_STMUTE_MAX 1
+#define TFA98XX_STATUS_FLAGS1_STMUTE_MSK 0x100
+
+/*
+ * flag_tdm_lut_error
+ */
+#define TFA98XX_STATUS_FLAGS1_TDMLUTER (0x1<<9)
+#define TFA98XX_STATUS_FLAGS1_TDMLUTER_POS 9
+#define TFA98XX_STATUS_FLAGS1_TDMLUTER_LEN 1
+#define TFA98XX_STATUS_FLAGS1_TDMLUTER_MAX 1
+#define TFA98XX_STATUS_FLAGS1_TDMLUTER_MSK 0x200
+
+/*
+ * flag_tdm_status
+ */
+#define TFA98XX_STATUS_FLAGS1_TDMSTAT (0x7<<10)
+#define TFA98XX_STATUS_FLAGS1_TDMSTAT_POS 10
+#define TFA98XX_STATUS_FLAGS1_TDMSTAT_LEN 3
+#define TFA98XX_STATUS_FLAGS1_TDMSTAT_MAX 7
+#define TFA98XX_STATUS_FLAGS1_TDMSTAT_MSK 0x1c00
+
+/*
+ * flag_tdm_error
+ */
+#define TFA98XX_STATUS_FLAGS1_TDMERR (0x1<<13)
+#define TFA98XX_STATUS_FLAGS1_TDMERR_POS 13
+#define TFA98XX_STATUS_FLAGS1_TDMERR_LEN 1
+#define TFA98XX_STATUS_FLAGS1_TDMERR_MAX 1
+#define TFA98XX_STATUS_FLAGS1_TDMERR_MSK 0x2000
+
+/*
+ * flag_haptic_busy
+ */
+#define TFA98XX_STATUS_FLAGS1_HAPTIC (0x1<<14)
+#define TFA98XX_STATUS_FLAGS1_HAPTIC_POS 14
+#define TFA98XX_STATUS_FLAGS1_HAPTIC_LEN 1
+#define TFA98XX_STATUS_FLAGS1_HAPTIC_MAX 1
+#define TFA98XX_STATUS_FLAGS1_HAPTIC_MSK 0x4000
+
+
+/*
+ * (0x12)-status_flags2
+ */
+
+/*
+ * flag_ocpokap_left
+ */
+#define TFA98XX_STATUS_FLAGS2_OCPOAPL (0x1<<0)
+#define TFA98XX_STATUS_FLAGS2_OCPOAPL_POS 0
+#define TFA98XX_STATUS_FLAGS2_OCPOAPL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCPOAPL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCPOAPL_MSK 0x1
+
+/*
+ * flag_ocpokan_left
+ */
+#define TFA98XX_STATUS_FLAGS2_OCPOANL (0x1<<1)
+#define TFA98XX_STATUS_FLAGS2_OCPOANL_POS 1
+#define TFA98XX_STATUS_FLAGS2_OCPOANL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCPOANL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCPOANL_MSK 0x2
+
+/*
+ * flag_ocpokbp_left
+ */
+#define TFA98XX_STATUS_FLAGS2_OCPOBPL (0x1<<2)
+#define TFA98XX_STATUS_FLAGS2_OCPOBPL_POS 2
+#define TFA98XX_STATUS_FLAGS2_OCPOBPL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCPOBPL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCPOBPL_MSK 0x4
+
+/*
+ * flag_ocpokbn_left
+ */
+#define TFA98XX_STATUS_FLAGS2_OCPOBNL (0x1<<3)
+#define TFA98XX_STATUS_FLAGS2_OCPOBNL_POS 3
+#define TFA98XX_STATUS_FLAGS2_OCPOBNL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCPOBNL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCPOBNL_MSK 0x8
+
+/*
+ * flag_clipa_high_left
+ */
+#define TFA98XX_STATUS_FLAGS2_CLIPAHL (0x1<<4)
+#define TFA98XX_STATUS_FLAGS2_CLIPAHL_POS 4
+#define TFA98XX_STATUS_FLAGS2_CLIPAHL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_CLIPAHL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_CLIPAHL_MSK 0x10
+
+/*
+ * flag_clipa_low_left
+ */
+#define TFA98XX_STATUS_FLAGS2_CLIPALL (0x1<<5)
+#define TFA98XX_STATUS_FLAGS2_CLIPALL_POS 5
+#define TFA98XX_STATUS_FLAGS2_CLIPALL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_CLIPALL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_CLIPALL_MSK 0x20
+
+/*
+ * flag_clipb_high_left
+ */
+#define TFA98XX_STATUS_FLAGS2_CLIPBHL (0x1<<6)
+#define TFA98XX_STATUS_FLAGS2_CLIPBHL_POS 6
+#define TFA98XX_STATUS_FLAGS2_CLIPBHL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_CLIPBHL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_CLIPBHL_MSK 0x40
+
+/*
+ * flag_clipb_low_left
+ */
+#define TFA98XX_STATUS_FLAGS2_CLIPBLL (0x1<<7)
+#define TFA98XX_STATUS_FLAGS2_CLIPBLL_POS 7
+#define TFA98XX_STATUS_FLAGS2_CLIPBLL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_CLIPBLL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_CLIPBLL_MSK 0x80
+
+/*
+ * flag_ocpokap_rcv
+ */
+#define TFA98XX_STATUS_FLAGS2_OCPOAPRC (0x1<<8)
+#define TFA98XX_STATUS_FLAGS2_OCPOAPRC_POS 8
+#define TFA98XX_STATUS_FLAGS2_OCPOAPRC_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCPOAPRC_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCPOAPRC_MSK 0x100
+
+/*
+ * flag_ocpokan_rcv
+ */
+#define TFA98XX_STATUS_FLAGS2_OCPOANRC (0x1<<9)
+#define TFA98XX_STATUS_FLAGS2_OCPOANRC_POS 9
+#define TFA98XX_STATUS_FLAGS2_OCPOANRC_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCPOANRC_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCPOANRC_MSK 0x200
+
+/*
+ * flag_ocpokbp_rcv
+ */
+#define TFA98XX_STATUS_FLAGS2_OCPOBPRC (0x1<<10)
+#define TFA98XX_STATUS_FLAGS2_OCPOBPRC_POS 10
+#define TFA98XX_STATUS_FLAGS2_OCPOBPRC_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCPOBPRC_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCPOBPRC_MSK 0x400
+
+/*
+ * flag_ocpokbn_rcv
+ */
+#define TFA98XX_STATUS_FLAGS2_OCPOBNRC (0x1<<11)
+#define TFA98XX_STATUS_FLAGS2_OCPOBNRC_POS 11
+#define TFA98XX_STATUS_FLAGS2_OCPOBNRC_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCPOBNRC_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCPOBNRC_MSK 0x800
+
+/*
+ * flag_rcvldop_ready
+ */
+#define TFA98XX_STATUS_FLAGS2_RCVLDOR (0x1<<12)
+#define TFA98XX_STATUS_FLAGS2_RCVLDOR_POS 12
+#define TFA98XX_STATUS_FLAGS2_RCVLDOR_LEN 1
+#define TFA98XX_STATUS_FLAGS2_RCVLDOR_MAX 1
+#define TFA98XX_STATUS_FLAGS2_RCVLDOR_MSK 0x1000
+
+/*
+ * flag_rcvldop_bypassready
+ */
+#define TFA98XX_STATUS_FLAGS2_RCVLDOBR (0x1<<13)
+#define TFA98XX_STATUS_FLAGS2_RCVLDOBR_POS 13
+#define TFA98XX_STATUS_FLAGS2_RCVLDOBR_LEN 1
+#define TFA98XX_STATUS_FLAGS2_RCVLDOBR_MAX 1
+#define TFA98XX_STATUS_FLAGS2_RCVLDOBR_MSK 0x2000
+
+/*
+ * flag_ocp_alarm_left
+ */
+#define TFA98XX_STATUS_FLAGS2_OCDSL (0x1<<14)
+#define TFA98XX_STATUS_FLAGS2_OCDSL_POS 14
+#define TFA98XX_STATUS_FLAGS2_OCDSL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_OCDSL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_OCDSL_MSK 0x4000
+
+/*
+ * flag_clip_left
+ */
+#define TFA98XX_STATUS_FLAGS2_CLIPSL (0x1<<15)
+#define TFA98XX_STATUS_FLAGS2_CLIPSL_POS 15
+#define TFA98XX_STATUS_FLAGS2_CLIPSL_LEN 1
+#define TFA98XX_STATUS_FLAGS2_CLIPSL_MAX 1
+#define TFA98XX_STATUS_FLAGS2_CLIPSL_MSK 0x8000
+
+
+/*
+ * (0x13)-status_flags3
+ */
+
+/*
+ * flag_ocpokap_right
+ */
+#define TFA98XX_STATUS_FLAGS3_OCPOAPR (0x1<<0)
+#define TFA98XX_STATUS_FLAGS3_OCPOAPR_POS 0
+#define TFA98XX_STATUS_FLAGS3_OCPOAPR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_OCPOAPR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_OCPOAPR_MSK 0x1
+
+/*
+ * flag_ocpokan_right
+ */
+#define TFA98XX_STATUS_FLAGS3_OCPOANR (0x1<<1)
+#define TFA98XX_STATUS_FLAGS3_OCPOANR_POS 1
+#define TFA98XX_STATUS_FLAGS3_OCPOANR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_OCPOANR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_OCPOANR_MSK 0x2
+
+/*
+ * flag_ocpokbp_right
+ */
+#define TFA98XX_STATUS_FLAGS3_OCPOBPR (0x1<<2)
+#define TFA98XX_STATUS_FLAGS3_OCPOBPR_POS 2
+#define TFA98XX_STATUS_FLAGS3_OCPOBPR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_OCPOBPR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_OCPOBPR_MSK 0x4
+
+/*
+ * flag_ocpokbn_right
+ */
+#define TFA98XX_STATUS_FLAGS3_OCPOBNR (0x1<<3)
+#define TFA98XX_STATUS_FLAGS3_OCPOBNR_POS 3
+#define TFA98XX_STATUS_FLAGS3_OCPOBNR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_OCPOBNR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_OCPOBNR_MSK 0x8
+
+/*
+ * flag_clipa_high_right
+ */
+#define TFA98XX_STATUS_FLAGS3_CLIPAHR (0x1<<4)
+#define TFA98XX_STATUS_FLAGS3_CLIPAHR_POS 4
+#define TFA98XX_STATUS_FLAGS3_CLIPAHR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_CLIPAHR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_CLIPAHR_MSK 0x10
+
+/*
+ * flag_clipa_low_right
+ */
+#define TFA98XX_STATUS_FLAGS3_CLIPALR (0x1<<5)
+#define TFA98XX_STATUS_FLAGS3_CLIPALR_POS 5
+#define TFA98XX_STATUS_FLAGS3_CLIPALR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_CLIPALR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_CLIPALR_MSK 0x20
+
+/*
+ * flag_clipb_high_right
+ */
+#define TFA98XX_STATUS_FLAGS3_CLIPBHR (0x1<<6)
+#define TFA98XX_STATUS_FLAGS3_CLIPBHR_POS 6
+#define TFA98XX_STATUS_FLAGS3_CLIPBHR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_CLIPBHR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_CLIPBHR_MSK 0x40
+
+/*
+ * flag_clipb_low_right
+ */
+#define TFA98XX_STATUS_FLAGS3_CLIPBLR (0x1<<7)
+#define TFA98XX_STATUS_FLAGS3_CLIPBLR_POS 7
+#define TFA98XX_STATUS_FLAGS3_CLIPBLR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_CLIPBLR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_CLIPBLR_MSK 0x80
+
+/*
+ * flag_ocp_alarm_right
+ */
+#define TFA98XX_STATUS_FLAGS3_OCDSR (0x1<<8)
+#define TFA98XX_STATUS_FLAGS3_OCDSR_POS 8
+#define TFA98XX_STATUS_FLAGS3_OCDSR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_OCDSR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_OCDSR_MSK 0x100
+
+/*
+ * flag_clip_right
+ */
+#define TFA98XX_STATUS_FLAGS3_CLIPSR (0x1<<9)
+#define TFA98XX_STATUS_FLAGS3_CLIPSR_POS 9
+#define TFA98XX_STATUS_FLAGS3_CLIPSR_LEN 1
+#define TFA98XX_STATUS_FLAGS3_CLIPSR_MAX 1
+#define TFA98XX_STATUS_FLAGS3_CLIPSR_MSK 0x200
+
+/*
+ * flag_mic_ocpok
+ */
+#define TFA98XX_STATUS_FLAGS3_OCPOKMC (0x1<<10)
+#define TFA98XX_STATUS_FLAGS3_OCPOKMC_POS 10
+#define TFA98XX_STATUS_FLAGS3_OCPOKMC_LEN 1
+#define TFA98XX_STATUS_FLAGS3_OCPOKMC_MAX 1
+#define TFA98XX_STATUS_FLAGS3_OCPOKMC_MSK 0x400
+
+/*
+ * flag_man_alarm_state
+ */
+#define TFA98XX_STATUS_FLAGS3_MANALARM (0x1<<11)
+#define TFA98XX_STATUS_FLAGS3_MANALARM_POS 11
+#define TFA98XX_STATUS_FLAGS3_MANALARM_LEN 1
+#define TFA98XX_STATUS_FLAGS3_MANALARM_MAX 1
+#define TFA98XX_STATUS_FLAGS3_MANALARM_MSK 0x800
+
+/*
+ * flag_man_wait_src_settings
+ */
+#define TFA98XX_STATUS_FLAGS3_MANWAIT1 (0x1<<12)
+#define TFA98XX_STATUS_FLAGS3_MANWAIT1_POS 12
+#define TFA98XX_STATUS_FLAGS3_MANWAIT1_LEN 1
+#define TFA98XX_STATUS_FLAGS3_MANWAIT1_MAX 1
+#define TFA98XX_STATUS_FLAGS3_MANWAIT1_MSK 0x1000
+
+/*
+ * flag_man_wait_cf_config
+ */
+#define TFA98XX_STATUS_FLAGS3_MANWAIT2 (0x1<<13)
+#define TFA98XX_STATUS_FLAGS3_MANWAIT2_POS 13
+#define TFA98XX_STATUS_FLAGS3_MANWAIT2_LEN 1
+#define TFA98XX_STATUS_FLAGS3_MANWAIT2_MAX 1
+#define TFA98XX_STATUS_FLAGS3_MANWAIT2_MSK 0x2000
+
+/*
+ * flag_man_start_mute_audio
+ */
+#define TFA98XX_STATUS_FLAGS3_MANMUTE (0x1<<14)
+#define TFA98XX_STATUS_FLAGS3_MANMUTE_POS 14
+#define TFA98XX_STATUS_FLAGS3_MANMUTE_LEN 1
+#define TFA98XX_STATUS_FLAGS3_MANMUTE_MAX 1
+#define TFA98XX_STATUS_FLAGS3_MANMUTE_MSK 0x4000
+
+/*
+ * flag_man_operating_state
+ */
+#define TFA98XX_STATUS_FLAGS3_MANOPER (0x1<<15)
+#define TFA98XX_STATUS_FLAGS3_MANOPER_POS 15
+#define TFA98XX_STATUS_FLAGS3_MANOPER_LEN 1
+#define TFA98XX_STATUS_FLAGS3_MANOPER_MAX 1
+#define TFA98XX_STATUS_FLAGS3_MANOPER_MSK 0x8000
+
+
+/*
+ * (0x14)-status_flags4
+ */
+
+/*
+ * flag_cf_speakererror_left
+ */
+#define TFA98XX_STATUS_FLAGS4_SPKSL (0x1<<0)
+#define TFA98XX_STATUS_FLAGS4_SPKSL_POS 0
+#define TFA98XX_STATUS_FLAGS4_SPKSL_LEN 1
+#define TFA98XX_STATUS_FLAGS4_SPKSL_MAX 1
+#define TFA98XX_STATUS_FLAGS4_SPKSL_MSK 0x1
+
+/*
+ * flag_cf_speakererror_right
+ */
+#define TFA98XX_STATUS_FLAGS4_SPKSR (0x1<<1)
+#define TFA98XX_STATUS_FLAGS4_SPKSR_POS 1
+#define TFA98XX_STATUS_FLAGS4_SPKSR_LEN 1
+#define TFA98XX_STATUS_FLAGS4_SPKSR_MAX 1
+#define TFA98XX_STATUS_FLAGS4_SPKSR_MSK 0x2
+
+/*
+ * flag_clk_out_of_range
+ */
+#define TFA98XX_STATUS_FLAGS4_CLKOOR (0x1<<2)
+#define TFA98XX_STATUS_FLAGS4_CLKOOR_POS 2
+#define TFA98XX_STATUS_FLAGS4_CLKOOR_LEN 1
+#define TFA98XX_STATUS_FLAGS4_CLKOOR_MAX 1
+#define TFA98XX_STATUS_FLAGS4_CLKOOR_MSK 0x4
+
+/*
+ * man_state
+ */
+#define TFA98XX_STATUS_FLAGS4_MANSTATE (0xf<<3)
+#define TFA98XX_STATUS_FLAGS4_MANSTATE_POS 3
+#define TFA98XX_STATUS_FLAGS4_MANSTATE_LEN 4
+#define TFA98XX_STATUS_FLAGS4_MANSTATE_MAX 15
+#define TFA98XX_STATUS_FLAGS4_MANSTATE_MSK 0x78
+
+
+/*
+ * (0x15)-battery_voltage
+ */
+
+/*
+ * bat_adc
+ */
+#define TFA98XX_BATTERY_VOLTAGE_BATS (0x3ff<<0)
+#define TFA98XX_BATTERY_VOLTAGE_BATS_POS 0
+#define TFA98XX_BATTERY_VOLTAGE_BATS_LEN 10
+#define TFA98XX_BATTERY_VOLTAGE_BATS_MAX 1023
+#define TFA98XX_BATTERY_VOLTAGE_BATS_MSK 0x3ff
+
+
+/*
+ * (0x16)-temperature
+ */
+
+/*
+ * temp_adc
+ */
+#define TFA98XX_TEMPERATURE_TEMPS (0x1ff<<0)
+#define TFA98XX_TEMPERATURE_TEMPS_POS 0
+#define TFA98XX_TEMPERATURE_TEMPS_LEN 9
+#define TFA98XX_TEMPERATURE_TEMPS_MAX 511
+#define TFA98XX_TEMPERATURE_TEMPS_MSK 0x1ff
+
+
+/*
+ * (0x20)-tdm_config0
+ */
+
+/*
+ * tdm_usecase
+ */
+#define TFA98XX_TDM_CONFIG0_TDMUC (0xf<<0)
+#define TFA98XX_TDM_CONFIG0_TDMUC_POS 0
+#define TFA98XX_TDM_CONFIG0_TDMUC_LEN 4
+#define TFA98XX_TDM_CONFIG0_TDMUC_MAX 15
+#define TFA98XX_TDM_CONFIG0_TDMUC_MSK 0xf
+
+/*
+ * tdm_enable
+ */
+#define TFA98XX_TDM_CONFIG0_TDME (0x1<<4)
+#define TFA98XX_TDM_CONFIG0_TDME_POS 4
+#define TFA98XX_TDM_CONFIG0_TDME_LEN 1
+#define TFA98XX_TDM_CONFIG0_TDME_MAX 1
+#define TFA98XX_TDM_CONFIG0_TDME_MSK 0x10
+
+/*
+ * tdm_mode
+ */
+#define TFA98XX_TDM_CONFIG0_TDMMODE (0x1<<5)
+#define TFA98XX_TDM_CONFIG0_TDMMODE_POS 5
+#define TFA98XX_TDM_CONFIG0_TDMMODE_LEN 1
+#define TFA98XX_TDM_CONFIG0_TDMMODE_MAX 1
+#define TFA98XX_TDM_CONFIG0_TDMMODE_MSK 0x20
+
+/*
+ * tdm_clk_inversion
+ */
+#define TFA98XX_TDM_CONFIG0_TDMCLINV (0x1<<6)
+#define TFA98XX_TDM_CONFIG0_TDMCLINV_POS 6
+#define TFA98XX_TDM_CONFIG0_TDMCLINV_LEN 1
+#define TFA98XX_TDM_CONFIG0_TDMCLINV_MAX 1
+#define TFA98XX_TDM_CONFIG0_TDMCLINV_MSK 0x40
+
+/*
+ * tdm_fs_ws_length
+ */
+#define TFA98XX_TDM_CONFIG0_TDMFSLN (0xf<<7)
+#define TFA98XX_TDM_CONFIG0_TDMFSLN_POS 7
+#define TFA98XX_TDM_CONFIG0_TDMFSLN_LEN 4
+#define TFA98XX_TDM_CONFIG0_TDMFSLN_MAX 15
+#define TFA98XX_TDM_CONFIG0_TDMFSLN_MSK 0x780
+
+/*
+ * tdm_fs_ws_polarity
+ */
+#define TFA98XX_TDM_CONFIG0_TDMFSPOL (0x1<<11)
+#define TFA98XX_TDM_CONFIG0_TDMFSPOL_POS 11
+#define TFA98XX_TDM_CONFIG0_TDMFSPOL_LEN 1
+#define TFA98XX_TDM_CONFIG0_TDMFSPOL_MAX 1
+#define TFA98XX_TDM_CONFIG0_TDMFSPOL_MSK 0x800
+
+/*
+ * tdm_nbck
+ */
+#define TFA98XX_TDM_CONFIG0_TDMNBCK (0xf<<12)
+#define TFA98XX_TDM_CONFIG0_TDMNBCK_POS 12
+#define TFA98XX_TDM_CONFIG0_TDMNBCK_LEN 4
+#define TFA98XX_TDM_CONFIG0_TDMNBCK_MAX 15
+#define TFA98XX_TDM_CONFIG0_TDMNBCK_MSK 0xf000
+
+
+/*
+ * (0x21)-tdm_config1
+ */
+
+/*
+ * tdm_nb_of_slots
+ */
+#define TFA98XX_TDM_CONFIG1_TDMSLOTS (0xf<<0)
+#define TFA98XX_TDM_CONFIG1_TDMSLOTS_POS 0
+#define TFA98XX_TDM_CONFIG1_TDMSLOTS_LEN 4
+#define TFA98XX_TDM_CONFIG1_TDMSLOTS_MAX 15
+#define TFA98XX_TDM_CONFIG1_TDMSLOTS_MSK 0xf
+
+/*
+ * tdm_slot_length
+ */
+#define TFA98XX_TDM_CONFIG1_TDMSLLN (0x1f<<4)
+#define TFA98XX_TDM_CONFIG1_TDMSLLN_POS 4
+#define TFA98XX_TDM_CONFIG1_TDMSLLN_LEN 5
+#define TFA98XX_TDM_CONFIG1_TDMSLLN_MAX 31
+#define TFA98XX_TDM_CONFIG1_TDMSLLN_MSK 0x1f0
+
+/*
+ * tdm_bits_remaining
+ */
+#define TFA98XX_TDM_CONFIG1_TDMBRMG (0x1f<<9)
+#define TFA98XX_TDM_CONFIG1_TDMBRMG_POS 9
+#define TFA98XX_TDM_CONFIG1_TDMBRMG_LEN 5
+#define TFA98XX_TDM_CONFIG1_TDMBRMG_MAX 31
+#define TFA98XX_TDM_CONFIG1_TDMBRMG_MSK 0x3e00
+
+/*
+ * tdm_data_delay
+ */
+#define TFA98XX_TDM_CONFIG1_TDMDEL (0x1<<14)
+#define TFA98XX_TDM_CONFIG1_TDMDEL_POS 14
+#define TFA98XX_TDM_CONFIG1_TDMDEL_LEN 1
+#define TFA98XX_TDM_CONFIG1_TDMDEL_MAX 1
+#define TFA98XX_TDM_CONFIG1_TDMDEL_MSK 0x4000
+
+/*
+ * tdm_data_adjustment
+ */
+#define TFA98XX_TDM_CONFIG1_TDMADJ (0x1<<15)
+#define TFA98XX_TDM_CONFIG1_TDMADJ_POS 15
+#define TFA98XX_TDM_CONFIG1_TDMADJ_LEN 1
+#define TFA98XX_TDM_CONFIG1_TDMADJ_MAX 1
+#define TFA98XX_TDM_CONFIG1_TDMADJ_MSK 0x8000
+
+
+/*
+ * (0x22)-tdm_config2
+ */
+
+/*
+ * tdm_audio_sample_compression
+ */
+#define TFA98XX_TDM_CONFIG2_TDMOOMP (0x3<<0)
+#define TFA98XX_TDM_CONFIG2_TDMOOMP_POS 0
+#define TFA98XX_TDM_CONFIG2_TDMOOMP_LEN 2
+#define TFA98XX_TDM_CONFIG2_TDMOOMP_MAX 3
+#define TFA98XX_TDM_CONFIG2_TDMOOMP_MSK 0x3
+
+/*
+ * tdm_sample_size
+ */
+#define TFA98XX_TDM_CONFIG2_TDMSSIZE (0x1f<<2)
+#define TFA98XX_TDM_CONFIG2_TDMSSIZE_POS 2
+#define TFA98XX_TDM_CONFIG2_TDMSSIZE_LEN 5
+#define TFA98XX_TDM_CONFIG2_TDMSSIZE_MAX 31
+#define TFA98XX_TDM_CONFIG2_TDMSSIZE_MSK 0x7c
+
+/*
+ * tdm_txdata_format
+ */
+#define TFA98XX_TDM_CONFIG2_TDMTXDFO (0x3<<7)
+#define TFA98XX_TDM_CONFIG2_TDMTXDFO_POS 7
+#define TFA98XX_TDM_CONFIG2_TDMTXDFO_LEN 2
+#define TFA98XX_TDM_CONFIG2_TDMTXDFO_MAX 3
+#define TFA98XX_TDM_CONFIG2_TDMTXDFO_MSK 0x180
+
+/*
+ * tdm_txdata_format_unused_slot_sd0
+ */
+#define TFA98XX_TDM_CONFIG2_TDMTXUS0 (0x3<<9)
+#define TFA98XX_TDM_CONFIG2_TDMTXUS0_POS 9
+#define TFA98XX_TDM_CONFIG2_TDMTXUS0_LEN 2
+#define TFA98XX_TDM_CONFIG2_TDMTXUS0_MAX 3
+#define TFA98XX_TDM_CONFIG2_TDMTXUS0_MSK 0x600
+
+/*
+ * tdm_txdata_format_unused_slot_sd1
+ */
+#define TFA98XX_TDM_CONFIG2_TDMTXUS1 (0x3<<11)
+#define TFA98XX_TDM_CONFIG2_TDMTXUS1_POS 11
+#define TFA98XX_TDM_CONFIG2_TDMTXUS1_LEN 2
+#define TFA98XX_TDM_CONFIG2_TDMTXUS1_MAX 3
+#define TFA98XX_TDM_CONFIG2_TDMTXUS1_MSK 0x1800
+
+/*
+ * tdm_txdata_format_unused_slot_sd2
+ */
+#define TFA98XX_TDM_CONFIG2_TDMTXUS2 (0x3<<13)
+#define TFA98XX_TDM_CONFIG2_TDMTXUS2_POS 13
+#define TFA98XX_TDM_CONFIG2_TDMTXUS2_LEN 2
+#define TFA98XX_TDM_CONFIG2_TDMTXUS2_MAX 3
+#define TFA98XX_TDM_CONFIG2_TDMTXUS2_MSK 0x6000
+
+
+/*
+ * (0x23)-tdm_config3
+ */
+
+/*
+ * tdm_sink1_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMLE (0x1<<1)
+#define TFA98XX_TDM_CONFIG3_TDMLE_POS 1
+#define TFA98XX_TDM_CONFIG3_TDMLE_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMLE_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMLE_MSK 0x2
+
+/*
+ * tdm_sink2_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMRE (0x1<<2)
+#define TFA98XX_TDM_CONFIG3_TDMRE_POS 2
+#define TFA98XX_TDM_CONFIG3_TDMRE_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMRE_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMRE_MSK 0x4
+
+/*
+ * tdm_source1_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMVSRE (0x1<<4)
+#define TFA98XX_TDM_CONFIG3_TDMVSRE_POS 4
+#define TFA98XX_TDM_CONFIG3_TDMVSRE_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMVSRE_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMVSRE_MSK 0x10
+
+/*
+ * tdm_source2_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMCSRE (0x1<<5)
+#define TFA98XX_TDM_CONFIG3_TDMCSRE_POS 5
+#define TFA98XX_TDM_CONFIG3_TDMCSRE_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMCSRE_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMCSRE_MSK 0x20
+
+/*
+ * tdm_source3_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMVSLE (0x1<<6)
+#define TFA98XX_TDM_CONFIG3_TDMVSLE_POS 6
+#define TFA98XX_TDM_CONFIG3_TDMVSLE_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMVSLE_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMVSLE_MSK 0x40
+
+/*
+ * tdm_source4_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMCSLE (0x1<<7)
+#define TFA98XX_TDM_CONFIG3_TDMCSLE_POS 7
+#define TFA98XX_TDM_CONFIG3_TDMCSLE_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMCSLE_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMCSLE_MSK 0x80
+
+/*
+ * tdm_source5_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMCFRE (0x1<<8)
+#define TFA98XX_TDM_CONFIG3_TDMCFRE_POS 8
+#define TFA98XX_TDM_CONFIG3_TDMCFRE_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMCFRE_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMCFRE_MSK 0x100
+
+/*
+ * tdm_source6_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMCFLE (0x1<<9)
+#define TFA98XX_TDM_CONFIG3_TDMCFLE_POS 9
+#define TFA98XX_TDM_CONFIG3_TDMCFLE_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMCFLE_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMCFLE_MSK 0x200
+
+/*
+ * tdm_source7_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMCF3E (0x1<<10)
+#define TFA98XX_TDM_CONFIG3_TDMCF3E_POS 10
+#define TFA98XX_TDM_CONFIG3_TDMCF3E_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMCF3E_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMCF3E_MSK 0x400
+
+/*
+ * tdm_source8_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMCF4E (0x1<<11)
+#define TFA98XX_TDM_CONFIG3_TDMCF4E_POS 11
+#define TFA98XX_TDM_CONFIG3_TDMCF4E_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMCF4E_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMCF4E_MSK 0x800
+
+/*
+ * tdm_source9_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMPD1E (0x1<<12)
+#define TFA98XX_TDM_CONFIG3_TDMPD1E_POS 12
+#define TFA98XX_TDM_CONFIG3_TDMPD1E_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMPD1E_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMPD1E_MSK 0x1000
+
+/*
+ * tdm_source10_enable
+ */
+#define TFA98XX_TDM_CONFIG3_TDMPD2E (0x1<<13)
+#define TFA98XX_TDM_CONFIG3_TDMPD2E_POS 13
+#define TFA98XX_TDM_CONFIG3_TDMPD2E_LEN 1
+#define TFA98XX_TDM_CONFIG3_TDMPD2E_MAX 1
+#define TFA98XX_TDM_CONFIG3_TDMPD2E_MSK 0x2000
+
+
+/*
+ * (0x24)-tdm_config4
+ */
+
+/*
+ * tdm_sink1_io
+ */
+#define TFA98XX_TDM_CONFIG4_TDMLIO (0x3<<2)
+#define TFA98XX_TDM_CONFIG4_TDMLIO_POS 2
+#define TFA98XX_TDM_CONFIG4_TDMLIO_LEN 2
+#define TFA98XX_TDM_CONFIG4_TDMLIO_MAX 3
+#define TFA98XX_TDM_CONFIG4_TDMLIO_MSK 0xc
+
+/*
+ * tdm_sink2_io
+ */
+#define TFA98XX_TDM_CONFIG4_TDMRIO (0x3<<4)
+#define TFA98XX_TDM_CONFIG4_TDMRIO_POS 4
+#define TFA98XX_TDM_CONFIG4_TDMRIO_LEN 2
+#define TFA98XX_TDM_CONFIG4_TDMRIO_MAX 3
+#define TFA98XX_TDM_CONFIG4_TDMRIO_MSK 0x30
+
+/*
+ * tdm_source1_io
+ */
+#define TFA98XX_TDM_CONFIG4_TDMVSRIO (0x3<<8)
+#define TFA98XX_TDM_CONFIG4_TDMVSRIO_POS 8
+#define TFA98XX_TDM_CONFIG4_TDMVSRIO_LEN 2
+#define TFA98XX_TDM_CONFIG4_TDMVSRIO_MAX 3
+#define TFA98XX_TDM_CONFIG4_TDMVSRIO_MSK 0x300
+
+/*
+ * tdm_source2_io
+ */
+#define TFA98XX_TDM_CONFIG4_TDMCSRIO (0x3<<10)
+#define TFA98XX_TDM_CONFIG4_TDMCSRIO_POS 10
+#define TFA98XX_TDM_CONFIG4_TDMCSRIO_LEN 2
+#define TFA98XX_TDM_CONFIG4_TDMCSRIO_MAX 3
+#define TFA98XX_TDM_CONFIG4_TDMCSRIO_MSK 0xc00
+
+/*
+ * tdm_source3_io
+ */
+#define TFA98XX_TDM_CONFIG4_TDMVSLIO (0x3<<12)
+#define TFA98XX_TDM_CONFIG4_TDMVSLIO_POS 12
+#define TFA98XX_TDM_CONFIG4_TDMVSLIO_LEN 2
+#define TFA98XX_TDM_CONFIG4_TDMVSLIO_MAX 3
+#define TFA98XX_TDM_CONFIG4_TDMVSLIO_MSK 0x3000
+
+/*
+ * tdm_source4_io
+ */
+#define TFA98XX_TDM_CONFIG4_TDMCSLIO (0x3<<14)
+#define TFA98XX_TDM_CONFIG4_TDMCSLIO_POS 14
+#define TFA98XX_TDM_CONFIG4_TDMCSLIO_LEN 2
+#define TFA98XX_TDM_CONFIG4_TDMCSLIO_MAX 3
+#define TFA98XX_TDM_CONFIG4_TDMCSLIO_MSK 0xc000
+
+
+/*
+ * (0x25)-tdm_config5
+ */
+
+/*
+ * tdm_source5_io
+ */
+#define TFA98XX_TDM_CONFIG5_TDMCFRIO (0x3<<0)
+#define TFA98XX_TDM_CONFIG5_TDMCFRIO_POS 0
+#define TFA98XX_TDM_CONFIG5_TDMCFRIO_LEN 2
+#define TFA98XX_TDM_CONFIG5_TDMCFRIO_MAX 3
+#define TFA98XX_TDM_CONFIG5_TDMCFRIO_MSK 0x3
+
+/*
+ * tdm_source6_io
+ */
+#define TFA98XX_TDM_CONFIG5_TDMCFLIO (0x3<<2)
+#define TFA98XX_TDM_CONFIG5_TDMCFLIO_POS 2
+#define TFA98XX_TDM_CONFIG5_TDMCFLIO_LEN 2
+#define TFA98XX_TDM_CONFIG5_TDMCFLIO_MAX 3
+#define TFA98XX_TDM_CONFIG5_TDMCFLIO_MSK 0xc
+
+/*
+ * tdm_source7_io
+ */
+#define TFA98XX_TDM_CONFIG5_TDMCF3IO (0x3<<4)
+#define TFA98XX_TDM_CONFIG5_TDMCF3IO_POS 4
+#define TFA98XX_TDM_CONFIG5_TDMCF3IO_LEN 2
+#define TFA98XX_TDM_CONFIG5_TDMCF3IO_MAX 3
+#define TFA98XX_TDM_CONFIG5_TDMCF3IO_MSK 0x30
+
+/*
+ * tdm_source8_io
+ */
+#define TFA98XX_TDM_CONFIG5_TDMCF4IO (0x3<<6)
+#define TFA98XX_TDM_CONFIG5_TDMCF4IO_POS 6
+#define TFA98XX_TDM_CONFIG5_TDMCF4IO_LEN 2
+#define TFA98XX_TDM_CONFIG5_TDMCF4IO_MAX 3
+#define TFA98XX_TDM_CONFIG5_TDMCF4IO_MSK 0xc0
+
+/*
+ * tdm_source9_io
+ */
+#define TFA98XX_TDM_CONFIG5_TDMPD1IO (0x3<<8)
+#define TFA98XX_TDM_CONFIG5_TDMPD1IO_POS 8
+#define TFA98XX_TDM_CONFIG5_TDMPD1IO_LEN 2
+#define TFA98XX_TDM_CONFIG5_TDMPD1IO_MAX 3
+#define TFA98XX_TDM_CONFIG5_TDMPD1IO_MSK 0x300
+
+/*
+ * tdm_source10_io
+ */
+#define TFA98XX_TDM_CONFIG5_TDMPD2IO (0x3<<10)
+#define TFA98XX_TDM_CONFIG5_TDMPD2IO_POS 10
+#define TFA98XX_TDM_CONFIG5_TDMPD2IO_LEN 2
+#define TFA98XX_TDM_CONFIG5_TDMPD2IO_MAX 3
+#define TFA98XX_TDM_CONFIG5_TDMPD2IO_MSK 0xc00
+
+
+/*
+ * (0x26)-tdm_config6
+ */
+
+/*
+ * tdm_sink1_slot
+ */
+#define TFA98XX_TDM_CONFIG6_TDMLS (0xf<<4)
+#define TFA98XX_TDM_CONFIG6_TDMLS_POS 4
+#define TFA98XX_TDM_CONFIG6_TDMLS_LEN 4
+#define TFA98XX_TDM_CONFIG6_TDMLS_MAX 15
+#define TFA98XX_TDM_CONFIG6_TDMLS_MSK 0xf0
+
+/*
+ * tdm_sink2_slot
+ */
+#define TFA98XX_TDM_CONFIG6_TDMRS (0xf<<8)
+#define TFA98XX_TDM_CONFIG6_TDMRS_POS 8
+#define TFA98XX_TDM_CONFIG6_TDMRS_LEN 4
+#define TFA98XX_TDM_CONFIG6_TDMRS_MAX 15
+#define TFA98XX_TDM_CONFIG6_TDMRS_MSK 0xf00
+
+
+/*
+ * (0x27)-tdm_config7
+ */
+
+/*
+ * tdm_source1_slot
+ */
+#define TFA98XX_TDM_CONFIG7_TDMVSRS (0xf<<0)
+#define TFA98XX_TDM_CONFIG7_TDMVSRS_POS 0
+#define TFA98XX_TDM_CONFIG7_TDMVSRS_LEN 4
+#define TFA98XX_TDM_CONFIG7_TDMVSRS_MAX 15
+#define TFA98XX_TDM_CONFIG7_TDMVSRS_MSK 0xf
+
+/*
+ * tdm_source2_slot
+ */
+#define TFA98XX_TDM_CONFIG7_TDMCSRS (0xf<<4)
+#define TFA98XX_TDM_CONFIG7_TDMCSRS_POS 4
+#define TFA98XX_TDM_CONFIG7_TDMCSRS_LEN 4
+#define TFA98XX_TDM_CONFIG7_TDMCSRS_MAX 15
+#define TFA98XX_TDM_CONFIG7_TDMCSRS_MSK 0xf0
+
+/*
+ * tdm_source3_slot
+ */
+#define TFA98XX_TDM_CONFIG7_TDMVSLS (0xf<<8)
+#define TFA98XX_TDM_CONFIG7_TDMVSLS_POS 8
+#define TFA98XX_TDM_CONFIG7_TDMVSLS_LEN 4
+#define TFA98XX_TDM_CONFIG7_TDMVSLS_MAX 15
+#define TFA98XX_TDM_CONFIG7_TDMVSLS_MSK 0xf00
+
+/*
+ * tdm_source4_slot
+ */
+#define TFA98XX_TDM_CONFIG7_TDMCSLS (0xf<<12)
+#define TFA98XX_TDM_CONFIG7_TDMCSLS_POS 12
+#define TFA98XX_TDM_CONFIG7_TDMCSLS_LEN 4
+#define TFA98XX_TDM_CONFIG7_TDMCSLS_MAX 15
+#define TFA98XX_TDM_CONFIG7_TDMCSLS_MSK 0xf000
+
+
+/*
+ * (0x28)-tdm_config8
+ */
+
+/*
+ * tdm_source5_slot
+ */
+#define TFA98XX_TDM_CONFIG8_TDMCFRS (0xf<<0)
+#define TFA98XX_TDM_CONFIG8_TDMCFRS_POS 0
+#define TFA98XX_TDM_CONFIG8_TDMCFRS_LEN 4
+#define TFA98XX_TDM_CONFIG8_TDMCFRS_MAX 15
+#define TFA98XX_TDM_CONFIG8_TDMCFRS_MSK 0xf
+
+/*
+ * tdm_source6_slot
+ */
+#define TFA98XX_TDM_CONFIG8_TDMCFLS (0xf<<4)
+#define TFA98XX_TDM_CONFIG8_TDMCFLS_POS 4
+#define TFA98XX_TDM_CONFIG8_TDMCFLS_LEN 4
+#define TFA98XX_TDM_CONFIG8_TDMCFLS_MAX 15
+#define TFA98XX_TDM_CONFIG8_TDMCFLS_MSK 0xf0
+
+/*
+ * tdm_source7_slot
+ */
+#define TFA98XX_TDM_CONFIG8_TDMCF3S (0xf<<8)
+#define TFA98XX_TDM_CONFIG8_TDMCF3S_POS 8
+#define TFA98XX_TDM_CONFIG8_TDMCF3S_LEN 4
+#define TFA98XX_TDM_CONFIG8_TDMCF3S_MAX 15
+#define TFA98XX_TDM_CONFIG8_TDMCF3S_MSK 0xf00
+
+/*
+ * tdm_source8_slot
+ */
+#define TFA98XX_TDM_CONFIG8_TDMCF4S (0xf<<12)
+#define TFA98XX_TDM_CONFIG8_TDMCF4S_POS 12
+#define TFA98XX_TDM_CONFIG8_TDMCF4S_LEN 4
+#define TFA98XX_TDM_CONFIG8_TDMCF4S_MAX 15
+#define TFA98XX_TDM_CONFIG8_TDMCF4S_MSK 0xf000
+
+
+/*
+ * (0x29)-tdm_config9
+ */
+
+/*
+ * tdm_source9_slot
+ */
+#define TFA98XX_TDM_CONFIG9_TDMPD1S (0xf<<0)
+#define TFA98XX_TDM_CONFIG9_TDMPD1S_POS 0
+#define TFA98XX_TDM_CONFIG9_TDMPD1S_LEN 4
+#define TFA98XX_TDM_CONFIG9_TDMPD1S_MAX 15
+#define TFA98XX_TDM_CONFIG9_TDMPD1S_MSK 0xf
+
+/*
+ * tdm_source10_slot
+ */
+#define TFA98XX_TDM_CONFIG9_TDMPD2S (0xf<<4)
+#define TFA98XX_TDM_CONFIG9_TDMPD2S_POS 4
+#define TFA98XX_TDM_CONFIG9_TDMPD2S_LEN 4
+#define TFA98XX_TDM_CONFIG9_TDMPD2S_MAX 15
+#define TFA98XX_TDM_CONFIG9_TDMPD2S_MSK 0xf0
+
+
+/*
+ * (0x31)-pdm_config0
+ */
+
+/*
+ * pdm_mode
+ */
+#define TFA98XX_PDM_CONFIG0_PDMSM (0x1<<0)
+#define TFA98XX_PDM_CONFIG0_PDMSM_POS 0
+#define TFA98XX_PDM_CONFIG0_PDMSM_LEN 1
+#define TFA98XX_PDM_CONFIG0_PDMSM_MAX 1
+#define TFA98XX_PDM_CONFIG0_PDMSM_MSK 0x1
+
+/*
+ * pdm_side_tone_sel
+ */
+#define TFA98XX_PDM_CONFIG0_PDMSTSEL (0x3<<1)
+#define TFA98XX_PDM_CONFIG0_PDMSTSEL_POS 1
+#define TFA98XX_PDM_CONFIG0_PDMSTSEL_LEN 2
+#define TFA98XX_PDM_CONFIG0_PDMSTSEL_MAX 3
+#define TFA98XX_PDM_CONFIG0_PDMSTSEL_MSK 0x6
+
+/*
+ * pdm_left_sel
+ */
+#define TFA98XX_PDM_CONFIG0_PDMLSEL (0x1<<3)
+#define TFA98XX_PDM_CONFIG0_PDMLSEL_POS 3
+#define TFA98XX_PDM_CONFIG0_PDMLSEL_LEN 1
+#define TFA98XX_PDM_CONFIG0_PDMLSEL_MAX 1
+#define TFA98XX_PDM_CONFIG0_PDMLSEL_MSK 0x8
+
+/*
+ * pdm_right_sel
+ */
+#define TFA98XX_PDM_CONFIG0_PDMRSEL (0x1<<4)
+#define TFA98XX_PDM_CONFIG0_PDMRSEL_POS 4
+#define TFA98XX_PDM_CONFIG0_PDMRSEL_LEN 1
+#define TFA98XX_PDM_CONFIG0_PDMRSEL_MAX 1
+#define TFA98XX_PDM_CONFIG0_PDMRSEL_MSK 0x10
+
+/*
+ * enbl_micvdd
+ */
+#define TFA98XX_PDM_CONFIG0_MICVDDE (0x1<<5)
+#define TFA98XX_PDM_CONFIG0_MICVDDE_POS 5
+#define TFA98XX_PDM_CONFIG0_MICVDDE_LEN 1
+#define TFA98XX_PDM_CONFIG0_MICVDDE_MAX 1
+#define TFA98XX_PDM_CONFIG0_MICVDDE_MSK 0x20
+
+
+/*
+ * (0x32)-pdm_config1
+ */
+
+/*
+ * pdm_nbck
+ */
+#define TFA98XX_PDM_CONFIG1_PDMCLRAT (0x3<<0)
+#define TFA98XX_PDM_CONFIG1_PDMCLRAT_POS 0
+#define TFA98XX_PDM_CONFIG1_PDMCLRAT_LEN 2
+#define TFA98XX_PDM_CONFIG1_PDMCLRAT_MAX 3
+#define TFA98XX_PDM_CONFIG1_PDMCLRAT_MSK 0x3
+
+/*
+ * pdm_gain
+ */
+#define TFA98XX_PDM_CONFIG1_PDMGAIN (0xf<<2)
+#define TFA98XX_PDM_CONFIG1_PDMGAIN_POS 2
+#define TFA98XX_PDM_CONFIG1_PDMGAIN_LEN 4
+#define TFA98XX_PDM_CONFIG1_PDMGAIN_MAX 15
+#define TFA98XX_PDM_CONFIG1_PDMGAIN_MSK 0x3c
+
+/*
+ * sel_pdm_out_data
+ */
+#define TFA98XX_PDM_CONFIG1_PDMOSEL (0xf<<6)
+#define TFA98XX_PDM_CONFIG1_PDMOSEL_POS 6
+#define TFA98XX_PDM_CONFIG1_PDMOSEL_LEN 4
+#define TFA98XX_PDM_CONFIG1_PDMOSEL_MAX 15
+#define TFA98XX_PDM_CONFIG1_PDMOSEL_MSK 0x3c0
+
+/*
+ * sel_cf_haptic_data
+ */
+#define TFA98XX_PDM_CONFIG1_SELCFHAPD (0x1<<10)
+#define TFA98XX_PDM_CONFIG1_SELCFHAPD_POS 10
+#define TFA98XX_PDM_CONFIG1_SELCFHAPD_LEN 1
+#define TFA98XX_PDM_CONFIG1_SELCFHAPD_MAX 1
+#define TFA98XX_PDM_CONFIG1_SELCFHAPD_MSK 0x400
+
+
+/*
+ * (0x33)-haptic_driver_config
+ */
+
+/*
+ * haptic_duration
+ */
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPTIME (0xff<<0)
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPTIME_POS 0
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPTIME_LEN 8
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPTIME_MAX 255
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPTIME_MSK 0xff
+
+/*
+ * haptic_data
+ */
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPLEVEL (0xff<<8)
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPLEVEL_POS 8
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPLEVEL_LEN 8
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPLEVEL_MAX 255
+#define TFA98XX_HAPTIC_DRIVER_CONFIG_HAPLEVEL_MSK 0xff00
+
+
+/*
+ * (0x34)-gpio_datain_reg
+ */
+
+/*
+ * gpio_datain
+ */
+#define TFA98XX_GPIO_DATAIN_REG_GPIODIN (0xf<<0)
+#define TFA98XX_GPIO_DATAIN_REG_GPIODIN_POS 0
+#define TFA98XX_GPIO_DATAIN_REG_GPIODIN_LEN 4
+#define TFA98XX_GPIO_DATAIN_REG_GPIODIN_MAX 15
+#define TFA98XX_GPIO_DATAIN_REG_GPIODIN_MSK 0xf
+
+
+/*
+ * (0x35)-gpio_config
+ */
+
+/*
+ * gpio_ctrl
+ */
+#define TFA98XX_GPIO_CONFIG_GPIOCTRL (0x1<<0)
+#define TFA98XX_GPIO_CONFIG_GPIOCTRL_POS 0
+#define TFA98XX_GPIO_CONFIG_GPIOCTRL_LEN 1
+#define TFA98XX_GPIO_CONFIG_GPIOCTRL_MAX 1
+#define TFA98XX_GPIO_CONFIG_GPIOCTRL_MSK 0x1
+
+/*
+ * gpio_dir
+ */
+#define TFA98XX_GPIO_CONFIG_GPIOCONF (0xf<<1)
+#define TFA98XX_GPIO_CONFIG_GPIOCONF_POS 1
+#define TFA98XX_GPIO_CONFIG_GPIOCONF_LEN 4
+#define TFA98XX_GPIO_CONFIG_GPIOCONF_MAX 15
+#define TFA98XX_GPIO_CONFIG_GPIOCONF_MSK 0x1e
+
+/*
+ * gpio_dataout
+ */
+#define TFA98XX_GPIO_CONFIG_GPIODOUT (0xf<<5)
+#define TFA98XX_GPIO_CONFIG_GPIODOUT_POS 5
+#define TFA98XX_GPIO_CONFIG_GPIODOUT_LEN 4
+#define TFA98XX_GPIO_CONFIG_GPIODOUT_MAX 15
+#define TFA98XX_GPIO_CONFIG_GPIODOUT_MSK 0x1e0
+
+
+/*
+ * (0x40)-interrupt_out_reg1
+ */
+
+/*
+ * int_out_flag_por
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTVDDS (0x1<<0)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTVDDS_POS 0
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTVDDS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTVDDS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTVDDS_MSK 0x1
+
+/*
+ * int_out_flag_pll_lock
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTPLLS (0x1<<1)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTPLLS_POS 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTPLLS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTPLLS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTPLLS_MSK 0x2
+
+/*
+ * int_out_flag_otpok
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOTDS (0x1<<2)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOTDS_POS 2
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOTDS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOTDS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOTDS_MSK 0x4
+
+/*
+ * int_out_flag_ovpok
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOVDS (0x1<<3)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOVDS_POS 3
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOVDS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOVDS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTOVDS_MSK 0x8
+
+/*
+ * int_out_flag_uvpok
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTUVDS (0x1<<4)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTUVDS_POS 4
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTUVDS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTUVDS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTUVDS_MSK 0x10
+
+/*
+ * int_out_flag_clocks_stable
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTCLKS (0x1<<5)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTCLKS_POS 5
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTCLKS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTCLKS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTCLKS_MSK 0x20
+
+/*
+ * int_out_flag_mtp_busy
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTMTPB (0x1<<6)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTMTPB_POS 6
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTMTPB_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTMTPB_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTMTPB_MSK 0x40
+
+/*
+ * int_out_flag_lost_clk
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTNOCLK (0x1<<7)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTNOCLK_POS 7
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTNOCLK_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTNOCLK_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTNOCLK_MSK 0x80
+
+/*
+ * int_out_flag_cf_speakererror
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSPKS (0x1<<8)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSPKS_POS 8
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSPKS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSPKS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSPKS_MSK 0x100
+
+/*
+ * int_out_flag_cold_started
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTACS (0x1<<9)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTACS_POS 9
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTACS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTACS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTACS_MSK 0x200
+
+/*
+ * int_out_flag_engage
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSWS (0x1<<10)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSWS_POS 10
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSWS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSWS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTSWS_MSK 0x400
+
+/*
+ * int_out_flag_watchdog_reset
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTWDS (0x1<<11)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTWDS_POS 11
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTWDS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTWDS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTWDS_MSK 0x800
+
+/*
+ * int_out_flag_enbl_amp
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAMPS (0x1<<12)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAMPS_POS 12
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAMPS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAMPS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAMPS_MSK 0x1000
+
+/*
+ * int_out_flag_enbl_ref
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAREFS (0x1<<13)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAREFS_POS 13
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAREFS_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAREFS_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTAREFS_MSK 0x2000
+
+/*
+ * int_out_flag_adc10_ready
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTADCCR (0x1<<14)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTADCCR_POS 14
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTADCCR_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTADCCR_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTADCCR_MSK 0x4000
+
+/*
+ * int_out_flag_bod_vddd_nok
+ */
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTBODNOK (0x1<<15)
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTBODNOK_POS 15
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTBODNOK_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTBODNOK_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG1_ISTBODNOK_MSK 0x8000
+
+
+/*
+ * (0x41)-interrupt_out_reg2
+ */
+
+/*
+ * int_out_flag_bst_bstcur
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTCU (0x1<<0)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTCU_POS 0
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTCU_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTCU_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTCU_MSK 0x1
+
+/*
+ * int_out_flag_bst_hiz
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTHI (0x1<<1)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTHI_POS 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTHI_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTHI_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTHI_MSK 0x2
+
+/*
+ * int_out_flag_bst_ocpok
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTOC (0x1<<2)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTOC_POS 2
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTOC_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTOC_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTOC_MSK 0x4
+
+/*
+ * int_out_flag_bst_peakcur
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTPKCUR (0x1<<3)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTPKCUR_POS 3
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTPKCUR_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTPKCUR_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTPKCUR_MSK 0x8
+
+/*
+ * int_out_flag_bst_voutcomp
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTVC (0x1<<4)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTVC_POS 4
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTVC_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTVC_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBSTVC_MSK 0x10
+
+/*
+ * int_out_flag_bst_voutcomp86
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST86 (0x1<<5)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST86_POS 5
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST86_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST86_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST86_MSK 0x20
+
+/*
+ * int_out_flag_bst_voutcomp93
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST93 (0x1<<6)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST93_POS 6
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST93_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST93_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTBST93_MSK 0x40
+
+/*
+ * int_out_flag_rcvldop_ready
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTRCVLD (0x1<<7)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTRCVLD_POS 7
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTRCVLD_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTRCVLD_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTRCVLD_MSK 0x80
+
+/*
+ * int_out_flag_ocp_alarm_left
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPL (0x1<<8)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPL_POS 8
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPL_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPL_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPL_MSK 0x100
+
+/*
+ * int_out_flag_ocp_alarm_right
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPR (0x1<<9)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPR_POS 9
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPR_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPR_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTOCPR_MSK 0x200
+
+/*
+ * int_out_flag_man_wait_src_settings
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSRC (0x1<<10)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSRC_POS 10
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSRC_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSRC_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSRC_MSK 0x400
+
+/*
+ * int_out_flag_man_wait_cf_config
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWCFC (0x1<<11)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWCFC_POS 11
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWCFC_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWCFC_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWCFC_MSK 0x800
+
+/*
+ * int_out_flag_man_start_mute_audio
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSMU (0x1<<12)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSMU_POS 12
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSMU_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSMU_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTMWSMU_MSK 0x1000
+
+/*
+ * int_out_flag_cfma_err
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMER (0x1<<13)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMER_POS 13
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMER_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMER_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMER_MSK 0x2000
+
+/*
+ * int_out_flag_cfma_ack
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMAC (0x1<<14)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMAC_POS 14
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMAC_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMAC_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCFMAC_MSK 0x4000
+
+/*
+ * int_out_flag_clk_out_of_range
+ */
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCLKOOR (0x1<<15)
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCLKOOR_POS 15
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCLKOOR_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCLKOOR_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG2_ISTCLKOOR_MSK 0x8000
+
+
+/*
+ * (0x42)-interrupt_out_reg3
+ */
+
+/*
+ * int_out_flag_tdm_error
+ */
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTTDMER (0x1<<0)
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTTDMER_POS 0
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTTDMER_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTTDMER_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTTDMER_MSK 0x1
+
+/*
+ * int_out_flag_clip_left
+ */
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPL (0x1<<1)
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPL_POS 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPL_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPL_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPL_MSK 0x2
+
+/*
+ * int_out_flag_clip_right
+ */
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPR (0x1<<2)
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPR_POS 2
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPR_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPR_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTCLPR_MSK 0x4
+
+/*
+ * int_out_flag_mic_ocpok
+ */
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTOCPM (0x1<<3)
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTOCPM_POS 3
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTOCPM_LEN 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTOCPM_MAX 1
+#define TFA98XX_INTERRUPT_OUT_REG3_ISTOCPM_MSK 0x8
+
+
+/*
+ * (0x44)-interrupt_in_reg1
+ */
+
+/*
+ * int_in_flag_por
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLVDDS (0x1<<0)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLVDDS_POS 0
+#define TFA98XX_INTERRUPT_IN_REG1_ICLVDDS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLVDDS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLVDDS_MSK 0x1
+
+/*
+ * int_in_flag_pll_lock
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLPLLS (0x1<<1)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLPLLS_POS 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLPLLS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLPLLS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLPLLS_MSK 0x2
+
+/*
+ * int_in_flag_otpok
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOTDS (0x1<<2)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOTDS_POS 2
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOTDS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOTDS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOTDS_MSK 0x4
+
+/*
+ * int_in_flag_ovpok
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOVDS (0x1<<3)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOVDS_POS 3
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOVDS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOVDS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLOVDS_MSK 0x8
+
+/*
+ * int_in_flag_uvpok
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLUVDS (0x1<<4)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLUVDS_POS 4
+#define TFA98XX_INTERRUPT_IN_REG1_ICLUVDS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLUVDS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLUVDS_MSK 0x10
+
+/*
+ * int_in_flag_clocks_stable
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLCLKS (0x1<<5)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLCLKS_POS 5
+#define TFA98XX_INTERRUPT_IN_REG1_ICLCLKS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLCLKS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLCLKS_MSK 0x20
+
+/*
+ * int_in_flag_mtp_busy
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLMTPB (0x1<<6)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLMTPB_POS 6
+#define TFA98XX_INTERRUPT_IN_REG1_ICLMTPB_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLMTPB_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLMTPB_MSK 0x40
+
+/*
+ * int_in_flag_lost_clk
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLNOCLK (0x1<<7)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLNOCLK_POS 7
+#define TFA98XX_INTERRUPT_IN_REG1_ICLNOCLK_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLNOCLK_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLNOCLK_MSK 0x80
+
+/*
+ * int_in_flag_cf_speakererror
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSPKS (0x1<<8)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSPKS_POS 8
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSPKS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSPKS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSPKS_MSK 0x100
+
+/*
+ * int_in_flag_cold_started
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLACS (0x1<<9)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLACS_POS 9
+#define TFA98XX_INTERRUPT_IN_REG1_ICLACS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLACS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLACS_MSK 0x200
+
+/*
+ * int_in_flag_engage
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSWS (0x1<<10)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSWS_POS 10
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSWS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSWS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLSWS_MSK 0x400
+
+/*
+ * int_in_flag_watchdog_reset
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLWDS (0x1<<11)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLWDS_POS 11
+#define TFA98XX_INTERRUPT_IN_REG1_ICLWDS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLWDS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLWDS_MSK 0x800
+
+/*
+ * int_in_flag_enbl_amp
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAMPS (0x1<<12)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAMPS_POS 12
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAMPS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAMPS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAMPS_MSK 0x1000
+
+/*
+ * int_in_flag_enbl_ref
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAREFS (0x1<<13)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAREFS_POS 13
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAREFS_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAREFS_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLAREFS_MSK 0x2000
+
+/*
+ * int_in_flag_adc10_ready
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLADCCR (0x1<<14)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLADCCR_POS 14
+#define TFA98XX_INTERRUPT_IN_REG1_ICLADCCR_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLADCCR_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLADCCR_MSK 0x4000
+
+/*
+ * int_in_flag_bod_vddd_nok
+ */
+#define TFA98XX_INTERRUPT_IN_REG1_ICLBODNOK (0x1<<15)
+#define TFA98XX_INTERRUPT_IN_REG1_ICLBODNOK_POS 15
+#define TFA98XX_INTERRUPT_IN_REG1_ICLBODNOK_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLBODNOK_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG1_ICLBODNOK_MSK 0x8000
+
+
+/*
+ * (0x45)-interrupt_in_reg2
+ */
+
+/*
+ * int_in_flag_bst_bstcur
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTCU (0x1<<0)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTCU_POS 0
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTCU_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTCU_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTCU_MSK 0x1
+
+/*
+ * int_in_flag_bst_hiz
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTHI (0x1<<1)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTHI_POS 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTHI_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTHI_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTHI_MSK 0x2
+
+/*
+ * int_in_flag_bst_ocpok
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTOC (0x1<<2)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTOC_POS 2
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTOC_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTOC_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTOC_MSK 0x4
+
+/*
+ * int_in_flag_bst_peakcur
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTPC (0x1<<3)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTPC_POS 3
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTPC_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTPC_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTPC_MSK 0x8
+
+/*
+ * int_in_flag_bst_voutcomp
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTVC (0x1<<4)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTVC_POS 4
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTVC_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTVC_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBSTVC_MSK 0x10
+
+/*
+ * int_in_flag_bst_voutcomp86
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST86 (0x1<<5)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST86_POS 5
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST86_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST86_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST86_MSK 0x20
+
+/*
+ * int_in_flag_bst_voutcomp93
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST93 (0x1<<6)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST93_POS 6
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST93_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST93_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLBST93_MSK 0x40
+
+/*
+ * int_in_flag_rcvldop_ready
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLRCVLD (0x1<<7)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLRCVLD_POS 7
+#define TFA98XX_INTERRUPT_IN_REG2_ICLRCVLD_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLRCVLD_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLRCVLD_MSK 0x80
+
+/*
+ * int_in_flag_ocp_alarm_left
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPL (0x1<<8)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPL_POS 8
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPL_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPL_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPL_MSK 0x100
+
+/*
+ * int_in_flag_ocp_alarm_right
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPR (0x1<<9)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPR_POS 9
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPR_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPR_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLOCPR_MSK 0x200
+
+/*
+ * int_in_flag_man_wait_src_settings
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSRC (0x1<<10)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSRC_POS 10
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSRC_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSRC_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSRC_MSK 0x400
+
+/*
+ * int_in_flag_man_wait_cf_config
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWCFC (0x1<<11)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWCFC_POS 11
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWCFC_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWCFC_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWCFC_MSK 0x800
+
+/*
+ * int_in_flag_man_start_mute_audio
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSMU (0x1<<12)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSMU_POS 12
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSMU_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSMU_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLMWSMU_MSK 0x1000
+
+/*
+ * int_in_flag_cfma_err
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMER (0x1<<13)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMER_POS 13
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMER_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMER_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMER_MSK 0x2000
+
+/*
+ * int_in_flag_cfma_ack
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMAC (0x1<<14)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMAC_POS 14
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMAC_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMAC_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCFMAC_MSK 0x4000
+
+/*
+ * int_in_flag_clk_out_of_range
+ */
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCLKOOR (0x1<<15)
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCLKOOR_POS 15
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCLKOOR_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCLKOOR_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG2_ICLCLKOOR_MSK 0x8000
+
+
+/*
+ * (0x46)-interrupt_in_reg3
+ */
+
+/*
+ * int_in_flag_tdm_error
+ */
+#define TFA98XX_INTERRUPT_IN_REG3_ICLTDMER (0x1<<0)
+#define TFA98XX_INTERRUPT_IN_REG3_ICLTDMER_POS 0
+#define TFA98XX_INTERRUPT_IN_REG3_ICLTDMER_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLTDMER_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLTDMER_MSK 0x1
+
+/*
+ * int_in_flag_clip_left
+ */
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPL (0x1<<1)
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPL_POS 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPL_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPL_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPL_MSK 0x2
+
+/*
+ * int_in_flag_clip_right
+ */
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPR (0x1<<2)
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPR_POS 2
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPR_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPR_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLCLPR_MSK 0x4
+
+/*
+ * int_in_flag_mic_ocpok
+ */
+#define TFA98XX_INTERRUPT_IN_REG3_ICLOCPM (0x1<<3)
+#define TFA98XX_INTERRUPT_IN_REG3_ICLOCPM_POS 3
+#define TFA98XX_INTERRUPT_IN_REG3_ICLOCPM_LEN 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLOCPM_MAX 1
+#define TFA98XX_INTERRUPT_IN_REG3_ICLOCPM_MSK 0x8
+
+
+/*
+ * (0x48)-interrupt_enable_reg1
+ */
+
+/*
+ * int_enable_flag_por
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEVDDS (0x1<<0)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEVDDS_POS 0
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEVDDS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEVDDS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEVDDS_MSK 0x1
+
+/*
+ * int_enable_flag_pll_lock
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEPLLS (0x1<<1)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEPLLS_POS 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEPLLS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEPLLS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEPLLS_MSK 0x2
+
+/*
+ * int_enable_flag_otpok
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOTDS (0x1<<2)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOTDS_POS 2
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOTDS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOTDS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOTDS_MSK 0x4
+
+/*
+ * int_enable_flag_ovpok
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOVDS (0x1<<3)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOVDS_POS 3
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOVDS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOVDS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEOVDS_MSK 0x8
+
+/*
+ * int_enable_flag_uvpok
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEUVDS (0x1<<4)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEUVDS_POS 4
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEUVDS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEUVDS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEUVDS_MSK 0x10
+
+/*
+ * int_enable_flag_clocks_stable
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IECLKS (0x1<<5)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IECLKS_POS 5
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IECLKS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IECLKS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IECLKS_MSK 0x20
+
+/*
+ * int_enable_flag_mtp_busy
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEMTPB (0x1<<6)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEMTPB_POS 6
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEMTPB_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEMTPB_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEMTPB_MSK 0x40
+
+/*
+ * int_enable_flag_lost_clk
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IENOCLK (0x1<<7)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IENOCLK_POS 7
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IENOCLK_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IENOCLK_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IENOCLK_MSK 0x80
+
+/*
+ * int_enable_flag_cf_speakererror
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESPKS (0x1<<8)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESPKS_POS 8
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESPKS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESPKS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESPKS_MSK 0x100
+
+/*
+ * int_enable_flag_cold_started
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEACS (0x1<<9)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEACS_POS 9
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEACS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEACS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEACS_MSK 0x200
+
+/*
+ * int_enable_flag_engage
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESWS (0x1<<10)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESWS_POS 10
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESWS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESWS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IESWS_MSK 0x400
+
+/*
+ * int_enable_flag_watchdog_reset
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEWDS (0x1<<11)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEWDS_POS 11
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEWDS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEWDS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEWDS_MSK 0x800
+
+/*
+ * int_enable_flag_enbl_amp
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAMPS (0x1<<12)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAMPS_POS 12
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAMPS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAMPS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAMPS_MSK 0x1000
+
+/*
+ * int_enable_flag_enbl_ref
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAREFS (0x1<<13)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAREFS_POS 13
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAREFS_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAREFS_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEAREFS_MSK 0x2000
+
+/*
+ * int_enable_flag_adc10_ready
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEADCCR (0x1<<14)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEADCCR_POS 14
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEADCCR_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEADCCR_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEADCCR_MSK 0x4000
+
+/*
+ * int_enable_flag_bod_vddd_nok
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEBODNOK (0x1<<15)
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEBODNOK_POS 15
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEBODNOK_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEBODNOK_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG1_IEBODNOK_MSK 0x8000
+
+
+/*
+ * (0x49)-interrupt_enable_reg2
+ */
+
+/*
+ * int_enable_flag_bst_bstcur
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTCU (0x1<<0)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTCU_POS 0
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTCU_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTCU_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTCU_MSK 0x1
+
+/*
+ * int_enable_flag_bst_hiz
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTHI (0x1<<1)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTHI_POS 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTHI_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTHI_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTHI_MSK 0x2
+
+/*
+ * int_enable_flag_bst_ocpok
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTOC (0x1<<2)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTOC_POS 2
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTOC_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTOC_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTOC_MSK 0x4
+
+/*
+ * int_enable_flag_bst_peakcur
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTPC (0x1<<3)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTPC_POS 3
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTPC_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTPC_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTPC_MSK 0x8
+
+/*
+ * int_enable_flag_bst_voutcomp
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTVC (0x1<<4)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTVC_POS 4
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTVC_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTVC_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBSTVC_MSK 0x10
+
+/*
+ * int_enable_flag_bst_voutcomp86
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST86 (0x1<<5)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST86_POS 5
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST86_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST86_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST86_MSK 0x20
+
+/*
+ * int_enable_flag_bst_voutcomp93
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST93 (0x1<<6)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST93_POS 6
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST93_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST93_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEBST93_MSK 0x40
+
+/*
+ * int_enable_flag_rcvldop_ready
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IERCVLD (0x1<<7)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IERCVLD_POS 7
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IERCVLD_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IERCVLD_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IERCVLD_MSK 0x80
+
+/*
+ * int_enable_flag_ocp_alarm_left
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPL (0x1<<8)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPL_POS 8
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPL_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPL_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPL_MSK 0x100
+
+/*
+ * int_enable_flag_ocp_alarm_right
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPR (0x1<<9)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPR_POS 9
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPR_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPR_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEOCPR_MSK 0x200
+
+/*
+ * int_enable_flag_man_wait_src_settings
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSRC (0x1<<10)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSRC_POS 10
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSRC_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSRC_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSRC_MSK 0x400
+
+/*
+ * int_enable_flag_man_wait_cf_config
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWCFC (0x1<<11)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWCFC_POS 11
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWCFC_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWCFC_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWCFC_MSK 0x800
+
+/*
+ * int_enable_flag_man_start_mute_audio
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSMU (0x1<<12)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSMU_POS 12
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSMU_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSMU_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IEMWSMU_MSK 0x1000
+
+/*
+ * int_enable_flag_cfma_err
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMER (0x1<<13)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMER_POS 13
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMER_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMER_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMER_MSK 0x2000
+
+/*
+ * int_enable_flag_cfma_ack
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMAC (0x1<<14)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMAC_POS 14
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMAC_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMAC_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECFMAC_MSK 0x4000
+
+/*
+ * int_enable_flag_clk_out_of_range
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECLKOOR (0x1<<15)
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECLKOOR_POS 15
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECLKOOR_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECLKOOR_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG2_IECLKOOR_MSK 0x8000
+
+
+/*
+ * (0x4a)-interrupt_enable_reg3
+ */
+
+/*
+ * int_enable_flag_tdm_error
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IETDMER (0x1<<0)
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IETDMER_POS 0
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IETDMER_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IETDMER_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IETDMER_MSK 0x1
+
+/*
+ * int_enable_flag_clip_left
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPL (0x1<<1)
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPL_POS 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPL_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPL_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPL_MSK 0x2
+
+/*
+ * int_enable_flag_clip_right
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPR (0x1<<2)
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPR_POS 2
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPR_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPR_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IECLPR_MSK 0x4
+
+/*
+ * int_enable_flag_mic_ocpok
+ */
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IEOCPM1 (0x1<<3)
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IEOCPM1_POS 3
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IEOCPM1_LEN 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IEOCPM1_MAX 1
+#define TFA98XX_INTERRUPT_ENABLE_REG3_IEOCPM1_MSK 0x8
+
+
+/*
+ * (0x4c)-status_polarity_reg1
+ */
+
+/*
+ * int_polarity_flag_por
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOVDDS (0x1<<0)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOVDDS_POS 0
+#define TFA98XX_STATUS_POLARITY_REG1_IPOVDDS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOVDDS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOVDDS_MSK 0x1
+
+/*
+ * int_polarity_flag_pll_lock
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOPLLS (0x1<<1)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOPLLS_POS 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOPLLS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOPLLS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOPLLS_MSK 0x2
+
+/*
+ * int_polarity_flag_otpok
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOTDS (0x1<<2)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOTDS_POS 2
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOTDS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOTDS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOTDS_MSK 0x4
+
+/*
+ * int_polarity_flag_ovpok
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOVDS (0x1<<3)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOVDS_POS 3
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOVDS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOVDS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOOVDS_MSK 0x8
+
+/*
+ * int_polarity_flag_uvpok
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOUVDS (0x1<<4)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOUVDS_POS 4
+#define TFA98XX_STATUS_POLARITY_REG1_IPOUVDS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOUVDS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOUVDS_MSK 0x10
+
+/*
+ * int_polarity_flag_clocks_stable
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOCLKS (0x1<<5)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOCLKS_POS 5
+#define TFA98XX_STATUS_POLARITY_REG1_IPOCLKS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOCLKS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOCLKS_MSK 0x20
+
+/*
+ * int_polarity_flag_mtp_busy
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOMTPB (0x1<<6)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOMTPB_POS 6
+#define TFA98XX_STATUS_POLARITY_REG1_IPOMTPB_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOMTPB_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOMTPB_MSK 0x40
+
+/*
+ * int_polarity_flag_lost_clk
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPONOCLK (0x1<<7)
+#define TFA98XX_STATUS_POLARITY_REG1_IPONOCLK_POS 7
+#define TFA98XX_STATUS_POLARITY_REG1_IPONOCLK_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPONOCLK_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPONOCLK_MSK 0x80
+
+/*
+ * int_polarity_flag_cf_speakererror
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSPKS (0x1<<8)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSPKS_POS 8
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSPKS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSPKS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSPKS_MSK 0x100
+
+/*
+ * int_polarity_flag_cold_started
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOACS (0x1<<9)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOACS_POS 9
+#define TFA98XX_STATUS_POLARITY_REG1_IPOACS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOACS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOACS_MSK 0x200
+
+/*
+ * int_polarity_flag_engage
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSWS (0x1<<10)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSWS_POS 10
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSWS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSWS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOSWS_MSK 0x400
+
+/*
+ * int_polarity_flag_watchdog_reset
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOWDS (0x1<<11)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOWDS_POS 11
+#define TFA98XX_STATUS_POLARITY_REG1_IPOWDS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOWDS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOWDS_MSK 0x800
+
+/*
+ * int_polarity_flag_enbl_amp
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAMPS (0x1<<12)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAMPS_POS 12
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAMPS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAMPS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAMPS_MSK 0x1000
+
+/*
+ * int_polarity_flag_enbl_ref
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAREFS (0x1<<13)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAREFS_POS 13
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAREFS_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAREFS_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOAREFS_MSK 0x2000
+
+/*
+ * int_polarity_flag_adc10_ready
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOADCCR (0x1<<14)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOADCCR_POS 14
+#define TFA98XX_STATUS_POLARITY_REG1_IPOADCCR_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOADCCR_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOADCCR_MSK 0x4000
+
+/*
+ * int_polarity_flag_bod_vddd_nok
+ */
+#define TFA98XX_STATUS_POLARITY_REG1_IPOBODNOK (0x1<<15)
+#define TFA98XX_STATUS_POLARITY_REG1_IPOBODNOK_POS 15
+#define TFA98XX_STATUS_POLARITY_REG1_IPOBODNOK_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOBODNOK_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG1_IPOBODNOK_MSK 0x8000
+
+
+/*
+ * (0x4d)-status_polarity_reg2
+ */
+
+/*
+ * int_polarity_flag_bst_bstcur
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTCU (0x1<<0)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTCU_POS 0
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTCU_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTCU_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTCU_MSK 0x1
+
+/*
+ * int_polarity_flag_bst_hiz
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTHI (0x1<<1)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTHI_POS 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTHI_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTHI_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTHI_MSK 0x2
+
+/*
+ * int_polarity_flag_bst_ocpok
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTOC (0x1<<2)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTOC_POS 2
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTOC_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTOC_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTOC_MSK 0x4
+
+/*
+ * int_polarity_flag_bst_peakcur
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTPC (0x1<<3)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTPC_POS 3
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTPC_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTPC_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTPC_MSK 0x8
+
+/*
+ * int_polarity_flag_bst_voutcomp
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTVC (0x1<<4)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTVC_POS 4
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTVC_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTVC_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBSTVC_MSK 0x10
+
+/*
+ * int_polarity_flag_bst_voutcomp86
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST86 (0x1<<5)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST86_POS 5
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST86_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST86_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST86_MSK 0x20
+
+/*
+ * int_polarity_flag_bst_voutcomp93
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST93 (0x1<<6)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST93_POS 6
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST93_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST93_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOBST93_MSK 0x40
+
+/*
+ * int_polarity_flag_rcvldop_ready
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPORCVLD (0x1<<7)
+#define TFA98XX_STATUS_POLARITY_REG2_IPORCVLD_POS 7
+#define TFA98XX_STATUS_POLARITY_REG2_IPORCVLD_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPORCVLD_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPORCVLD_MSK 0x80
+
+/*
+ * int_polarity_flag_ocp_alarm_left
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPL (0x1<<8)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPL_POS 8
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPL_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPL_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPL_MSK 0x100
+
+/*
+ * int_polarity_flag_ocp_alarm_right
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPR (0x1<<9)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPR_POS 9
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPR_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPR_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOOCPR_MSK 0x200
+
+/*
+ * int_polarity_flag_man_wait_src_settings
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSRC (0x1<<10)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSRC_POS 10
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSRC_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSRC_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSRC_MSK 0x400
+
+/*
+ * int_polarity_flag_man_wait_cf_config
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWCFC (0x1<<11)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWCFC_POS 11
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWCFC_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWCFC_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWCFC_MSK 0x800
+
+/*
+ * int_polarity_flag_man_start_mute_audio
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSMU (0x1<<12)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSMU_POS 12
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSMU_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSMU_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOMWSMU_MSK 0x1000
+
+/*
+ * int_polarity_flag_cfma_err
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMER (0x1<<13)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMER_POS 13
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMER_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMER_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMER_MSK 0x2000
+
+/*
+ * int_polarity_flag_cfma_ack
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMAC (0x1<<14)
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMAC_POS 14
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMAC_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMAC_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPOCFMAC_MSK 0x4000
+
+/*
+ * int_polarity_flag_clk_out_of_range
+ */
+#define TFA98XX_STATUS_POLARITY_REG2_IPCLKOOR (0x1<<15)
+#define TFA98XX_STATUS_POLARITY_REG2_IPCLKOOR_POS 15
+#define TFA98XX_STATUS_POLARITY_REG2_IPCLKOOR_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPCLKOOR_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG2_IPCLKOOR_MSK 0x8000
+
+
+/*
+ * (0x4e)-status_polarity_reg3
+ */
+
+/*
+ * int_polarity_flag_tdm_error
+ */
+#define TFA98XX_STATUS_POLARITY_REG3_IPOTDMER (0x1<<0)
+#define TFA98XX_STATUS_POLARITY_REG3_IPOTDMER_POS 0
+#define TFA98XX_STATUS_POLARITY_REG3_IPOTDMER_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOTDMER_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOTDMER_MSK 0x1
+
+/*
+ * int_polarity_flag_clip_left
+ */
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPL (0x1<<1)
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPL_POS 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPL_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPL_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPL_MSK 0x2
+
+/*
+ * int_polarity_flag_clip_right
+ */
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPR (0x1<<2)
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPR_POS 2
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPR_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPR_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOCLPR_MSK 0x4
+
+/*
+ * int_polarity_flag_mic_ocpok
+ */
+#define TFA98XX_STATUS_POLARITY_REG3_IPOOCPM (0x1<<3)
+#define TFA98XX_STATUS_POLARITY_REG3_IPOOCPM_POS 3
+#define TFA98XX_STATUS_POLARITY_REG3_IPOOCPM_LEN 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOOCPM_MAX 1
+#define TFA98XX_STATUS_POLARITY_REG3_IPOOCPM_MSK 0x8
+
+
+/*
+ * (0x50)-bat_prot_config
+ */
+
+/*
+ * vbat_prot_attack_time
+ */
+#define TFA98XX_BAT_PROT_CONFIG_BSSCR (0x3<<0)
+#define TFA98XX_BAT_PROT_CONFIG_BSSCR_POS 0
+#define TFA98XX_BAT_PROT_CONFIG_BSSCR_LEN 2
+#define TFA98XX_BAT_PROT_CONFIG_BSSCR_MAX 3
+#define TFA98XX_BAT_PROT_CONFIG_BSSCR_MSK 0x3
+
+/*
+ * vbat_prot_thlevel
+ */
+#define TFA98XX_BAT_PROT_CONFIG_BSST (0xf<<2)
+#define TFA98XX_BAT_PROT_CONFIG_BSST_POS 2
+#define TFA98XX_BAT_PROT_CONFIG_BSST_LEN 4
+#define TFA98XX_BAT_PROT_CONFIG_BSST_MAX 15
+#define TFA98XX_BAT_PROT_CONFIG_BSST_MSK 0x3c
+
+/*
+ * vbat_prot_max_reduct
+ */
+#define TFA98XX_BAT_PROT_CONFIG_BSSRL (0x3<<6)
+#define TFA98XX_BAT_PROT_CONFIG_BSSRL_POS 6
+#define TFA98XX_BAT_PROT_CONFIG_BSSRL_LEN 2
+#define TFA98XX_BAT_PROT_CONFIG_BSSRL_MAX 3
+#define TFA98XX_BAT_PROT_CONFIG_BSSRL_MSK 0xc0
+
+/*
+ * vbat_prot_release_time
+ */
+#define TFA98XX_BAT_PROT_CONFIG_BSSRR (0x7<<8)
+#define TFA98XX_BAT_PROT_CONFIG_BSSRR_POS 8
+#define TFA98XX_BAT_PROT_CONFIG_BSSRR_LEN 3
+#define TFA98XX_BAT_PROT_CONFIG_BSSRR_MAX 7
+#define TFA98XX_BAT_PROT_CONFIG_BSSRR_MSK 0x700
+
+/*
+ * vbat_prot_hysterese
+ */
+#define TFA98XX_BAT_PROT_CONFIG_BSSHY (0x3<<11)
+#define TFA98XX_BAT_PROT_CONFIG_BSSHY_POS 11
+#define TFA98XX_BAT_PROT_CONFIG_BSSHY_LEN 2
+#define TFA98XX_BAT_PROT_CONFIG_BSSHY_MAX 3
+#define TFA98XX_BAT_PROT_CONFIG_BSSHY_MSK 0x1800
+
+/*
+ * sel_vbat
+ */
+#define TFA98XX_BAT_PROT_CONFIG_BSSR (0x1<<14)
+#define TFA98XX_BAT_PROT_CONFIG_BSSR_POS 14
+#define TFA98XX_BAT_PROT_CONFIG_BSSR_LEN 1
+#define TFA98XX_BAT_PROT_CONFIG_BSSR_MAX 1
+#define TFA98XX_BAT_PROT_CONFIG_BSSR_MSK 0x4000
+
+/*
+ * bypass_clipper
+ */
+#define TFA98XX_BAT_PROT_CONFIG_BSSBY (0x1<<15)
+#define TFA98XX_BAT_PROT_CONFIG_BSSBY_POS 15
+#define TFA98XX_BAT_PROT_CONFIG_BSSBY_LEN 1
+#define TFA98XX_BAT_PROT_CONFIG_BSSBY_MAX 1
+#define TFA98XX_BAT_PROT_CONFIG_BSSBY_MSK 0x8000
+
+
+/*
+ * (0x51)-audio_control
+ */
+
+/*
+ * batsense_steepness
+ */
+#define TFA98XX_AUDIO_CONTROL_BSSS (0x1<<0)
+#define TFA98XX_AUDIO_CONTROL_BSSS_POS 0
+#define TFA98XX_AUDIO_CONTROL_BSSS_LEN 1
+#define TFA98XX_AUDIO_CONTROL_BSSS_MAX 1
+#define TFA98XX_AUDIO_CONTROL_BSSS_MSK 0x1
+
+/*
+ * soft_mute
+ */
+#define TFA98XX_AUDIO_CONTROL_INTSMUTE (0x1<<1)
+#define TFA98XX_AUDIO_CONTROL_INTSMUTE_POS 1
+#define TFA98XX_AUDIO_CONTROL_INTSMUTE_LEN 1
+#define TFA98XX_AUDIO_CONTROL_INTSMUTE_MAX 1
+#define TFA98XX_AUDIO_CONTROL_INTSMUTE_MSK 0x2
+
+/*
+ * cf_mute_left
+ */
+#define TFA98XX_AUDIO_CONTROL_CFSML (0x1<<2)
+#define TFA98XX_AUDIO_CONTROL_CFSML_POS 2
+#define TFA98XX_AUDIO_CONTROL_CFSML_LEN 1
+#define TFA98XX_AUDIO_CONTROL_CFSML_MAX 1
+#define TFA98XX_AUDIO_CONTROL_CFSML_MSK 0x4
+
+/*
+ * cf_mute_right
+ */
+#define TFA98XX_AUDIO_CONTROL_CFSMR (0x1<<3)
+#define TFA98XX_AUDIO_CONTROL_CFSMR_POS 3
+#define TFA98XX_AUDIO_CONTROL_CFSMR_LEN 1
+#define TFA98XX_AUDIO_CONTROL_CFSMR_MAX 1
+#define TFA98XX_AUDIO_CONTROL_CFSMR_MSK 0x8
+
+/*
+ * bypass_hp_left
+ */
+#define TFA98XX_AUDIO_CONTROL_HPFBYPL (0x1<<4)
+#define TFA98XX_AUDIO_CONTROL_HPFBYPL_POS 4
+#define TFA98XX_AUDIO_CONTROL_HPFBYPL_LEN 1
+#define TFA98XX_AUDIO_CONTROL_HPFBYPL_MAX 1
+#define TFA98XX_AUDIO_CONTROL_HPFBYPL_MSK 0x10
+
+/*
+ * bypass_hp_right
+ */
+#define TFA98XX_AUDIO_CONTROL_HPFBYPR (0x1<<5)
+#define TFA98XX_AUDIO_CONTROL_HPFBYPR_POS 5
+#define TFA98XX_AUDIO_CONTROL_HPFBYPR_LEN 1
+#define TFA98XX_AUDIO_CONTROL_HPFBYPR_MAX 1
+#define TFA98XX_AUDIO_CONTROL_HPFBYPR_MSK 0x20
+
+/*
+ * enbl_dpsa_left
+ */
+#define TFA98XX_AUDIO_CONTROL_DPSAL (0x1<<6)
+#define TFA98XX_AUDIO_CONTROL_DPSAL_POS 6
+#define TFA98XX_AUDIO_CONTROL_DPSAL_LEN 1
+#define TFA98XX_AUDIO_CONTROL_DPSAL_MAX 1
+#define TFA98XX_AUDIO_CONTROL_DPSAL_MSK 0x40
+
+/*
+ * enbl_dpsa_right
+ */
+#define TFA98XX_AUDIO_CONTROL_DPSAR (0x1<<7)
+#define TFA98XX_AUDIO_CONTROL_DPSAR_POS 7
+#define TFA98XX_AUDIO_CONTROL_DPSAR_LEN 1
+#define TFA98XX_AUDIO_CONTROL_DPSAR_MAX 1
+#define TFA98XX_AUDIO_CONTROL_DPSAR_MSK 0x80
+
+/*
+ * cf_volume
+ */
+#define TFA98XX_AUDIO_CONTROL_VOL (0xff<<8)
+#define TFA98XX_AUDIO_CONTROL_VOL_POS 8
+#define TFA98XX_AUDIO_CONTROL_VOL_LEN 8
+#define TFA98XX_AUDIO_CONTROL_VOL_MAX 255
+#define TFA98XX_AUDIO_CONTROL_VOL_MSK 0xff00
+
+
+/*
+ * (0x52)-amplifier_config
+ */
+
+/*
+ * ctrl_rcv
+ */
+#define TFA98XX_AMPLIFIER_CONFIG_HNDSFRCV (0x1<<0)
+#define TFA98XX_AMPLIFIER_CONFIG_HNDSFRCV_POS 0
+#define TFA98XX_AMPLIFIER_CONFIG_HNDSFRCV_LEN 1
+#define TFA98XX_AMPLIFIER_CONFIG_HNDSFRCV_MAX 1
+#define TFA98XX_AMPLIFIER_CONFIG_HNDSFRCV_MSK 0x1
+
+/*
+ * ctrl_cc
+ */
+#define TFA98XX_AMPLIFIER_CONFIG_CLIPCTRL (0x7<<2)
+#define TFA98XX_AMPLIFIER_CONFIG_CLIPCTRL_POS 2
+#define TFA98XX_AMPLIFIER_CONFIG_CLIPCTRL_LEN 3
+#define TFA98XX_AMPLIFIER_CONFIG_CLIPCTRL_MAX 7
+#define TFA98XX_AMPLIFIER_CONFIG_CLIPCTRL_MSK 0x1c
+
+/*
+ * gain
+ */
+#define TFA98XX_AMPLIFIER_CONFIG_AMPGAIN (0xff<<5)
+#define TFA98XX_AMPLIFIER_CONFIG_AMPGAIN_POS 5
+#define TFA98XX_AMPLIFIER_CONFIG_AMPGAIN_LEN 8
+#define TFA98XX_AMPLIFIER_CONFIG_AMPGAIN_MAX 255
+#define TFA98XX_AMPLIFIER_CONFIG_AMPGAIN_MSK 0x1fe0
+
+/*
+ * ctrl_slopectrl
+ */
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPEE (0x1<<13)
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPEE_POS 13
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPEE_LEN 1
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPEE_MAX 1
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPEE_MSK 0x2000
+
+/*
+ * ctrl_slope
+ */
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPESET (0x3<<14)
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPESET_POS 14
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPESET_LEN 2
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPESET_MAX 3
+#define TFA98XX_AMPLIFIER_CONFIG_SLOPESET_MSK 0xc000
+
+
+/*
+ * (0x5a)-audio_control2
+ */
+
+/*
+ * cf_volume_sec
+ */
+#define TFA98XX_AUDIO_CONTROL2_VOLSEC (0xff<<0)
+#define TFA98XX_AUDIO_CONTROL2_VOLSEC_POS 0
+#define TFA98XX_AUDIO_CONTROL2_VOLSEC_LEN 8
+#define TFA98XX_AUDIO_CONTROL2_VOLSEC_MAX 255
+#define TFA98XX_AUDIO_CONTROL2_VOLSEC_MSK 0xff
+
+/*
+ * sw_profile
+ */
+#define TFA98XX_AUDIO_CONTROL2_SWPROFIL (0xff<<8)
+#define TFA98XX_AUDIO_CONTROL2_SWPROFIL_POS 8
+#define TFA98XX_AUDIO_CONTROL2_SWPROFIL_LEN 8
+#define TFA98XX_AUDIO_CONTROL2_SWPROFIL_MAX 255
+#define TFA98XX_AUDIO_CONTROL2_SWPROFIL_MSK 0xff00
+
+
+/*
+ * (0x70)-dcdc_control0
+ */
+
+/*
+ * boost_volt
+ */
+#define TFA98XX_DCDC_CONTROL0_DCVO (0x7<<0)
+#define TFA98XX_DCDC_CONTROL0_DCVO_POS 0
+#define TFA98XX_DCDC_CONTROL0_DCVO_LEN 3
+#define TFA98XX_DCDC_CONTROL0_DCVO_MAX 7
+#define TFA98XX_DCDC_CONTROL0_DCVO_MSK 0x7
+
+/*
+ * boost_cur
+ */
+#define TFA98XX_DCDC_CONTROL0_DCMCC (0xf<<3)
+#define TFA98XX_DCDC_CONTROL0_DCMCC_POS 3
+#define TFA98XX_DCDC_CONTROL0_DCMCC_LEN 4
+#define TFA98XX_DCDC_CONTROL0_DCMCC_MAX 15
+#define TFA98XX_DCDC_CONTROL0_DCMCC_MSK 0x78
+
+/*
+ * bst_coil_value
+ */
+#define TFA98XX_DCDC_CONTROL0_DCCV (0x3<<7)
+#define TFA98XX_DCDC_CONTROL0_DCCV_POS 7
+#define TFA98XX_DCDC_CONTROL0_DCCV_LEN 2
+#define TFA98XX_DCDC_CONTROL0_DCCV_MAX 3
+#define TFA98XX_DCDC_CONTROL0_DCCV_MSK 0x180
+
+/*
+ * boost_intel
+ */
+#define TFA98XX_DCDC_CONTROL0_DCIE (0x1<<9)
+#define TFA98XX_DCDC_CONTROL0_DCIE_POS 9
+#define TFA98XX_DCDC_CONTROL0_DCIE_LEN 1
+#define TFA98XX_DCDC_CONTROL0_DCIE_MAX 1
+#define TFA98XX_DCDC_CONTROL0_DCIE_MSK 0x200
+
+/*
+ * boost_speed
+ */
+#define TFA98XX_DCDC_CONTROL0_DCSR (0x1<<10)
+#define TFA98XX_DCDC_CONTROL0_DCSR_POS 10
+#define TFA98XX_DCDC_CONTROL0_DCSR_LEN 1
+#define TFA98XX_DCDC_CONTROL0_DCSR_MAX 1
+#define TFA98XX_DCDC_CONTROL0_DCSR_MSK 0x400
+
+/*
+ * dcdc_synchronisation
+ */
+#define TFA98XX_DCDC_CONTROL0_DCSYNCP (0x7<<11)
+#define TFA98XX_DCDC_CONTROL0_DCSYNCP_POS 11
+#define TFA98XX_DCDC_CONTROL0_DCSYNCP_LEN 3
+#define TFA98XX_DCDC_CONTROL0_DCSYNCP_MAX 7
+#define TFA98XX_DCDC_CONTROL0_DCSYNCP_MSK 0x3800
+
+/*
+ * dcdcoff_mode
+ */
+#define TFA98XX_DCDC_CONTROL0_DCDIS (0x1<<14)
+#define TFA98XX_DCDC_CONTROL0_DCDIS_POS 14
+#define TFA98XX_DCDC_CONTROL0_DCDIS_LEN 1
+#define TFA98XX_DCDC_CONTROL0_DCDIS_MAX 1
+#define TFA98XX_DCDC_CONTROL0_DCDIS_MSK 0x4000
+
+
+/*
+ * (0x90)-cf_controls
+ */
+
+/*
+ * cf_rst_dsp
+ */
+#define TFA98XX_CF_CONTROLS_RST (0x1<<0)
+#define TFA98XX_CF_CONTROLS_RST_POS 0
+#define TFA98XX_CF_CONTROLS_RST_LEN 1
+#define TFA98XX_CF_CONTROLS_RST_MAX 1
+#define TFA98XX_CF_CONTROLS_RST_MSK 0x1
+
+/*
+ * cf_dmem
+ */
+#define TFA98XX_CF_CONTROLS_DMEM (0x3<<1)
+#define TFA98XX_CF_CONTROLS_DMEM_POS 1
+#define TFA98XX_CF_CONTROLS_DMEM_LEN 2
+#define TFA98XX_CF_CONTROLS_DMEM_MAX 3
+#define TFA98XX_CF_CONTROLS_DMEM_MSK 0x6
+
+/*
+ * cf_aif
+ */
+#define TFA98XX_CF_CONTROLS_AIF (0x1<<3)
+#define TFA98XX_CF_CONTROLS_AIF_POS 3
+#define TFA98XX_CF_CONTROLS_AIF_LEN 1
+#define TFA98XX_CF_CONTROLS_AIF_MAX 1
+#define TFA98XX_CF_CONTROLS_AIF_MSK 0x8
+
+/*
+ * cf_int
+ */
+#define TFA98XX_CF_CONTROLS_CFINT (0x1<<4)
+#define TFA98XX_CF_CONTROLS_CFINT_POS 4
+#define TFA98XX_CF_CONTROLS_CFINT_LEN 1
+#define TFA98XX_CF_CONTROLS_CFINT_MAX 1
+#define TFA98XX_CF_CONTROLS_CFINT_MSK 0x10
+
+/*
+ * cf_cgate_off
+ */
+#define TFA98XX_CF_CONTROLS_CFCGATE (0x1<<5)
+#define TFA98XX_CF_CONTROLS_CFCGATE_POS 5
+#define TFA98XX_CF_CONTROLS_CFCGATE_LEN 1
+#define TFA98XX_CF_CONTROLS_CFCGATE_MAX 1
+#define TFA98XX_CF_CONTROLS_CFCGATE_MSK 0x20
+
+/*
+ * cf_req_cmd
+ */
+#define TFA98XX_CF_CONTROLS_REQCMD (0x1<<8)
+#define TFA98XX_CF_CONTROLS_REQCMD_POS 8
+#define TFA98XX_CF_CONTROLS_REQCMD_LEN 1
+#define TFA98XX_CF_CONTROLS_REQCMD_MAX 1
+#define TFA98XX_CF_CONTROLS_REQCMD_MSK 0x100
+
+/*
+ * cf_req_reset
+ */
+#define TFA98XX_CF_CONTROLS_REQRST (0x1<<9)
+#define TFA98XX_CF_CONTROLS_REQRST_POS 9
+#define TFA98XX_CF_CONTROLS_REQRST_LEN 1
+#define TFA98XX_CF_CONTROLS_REQRST_MAX 1
+#define TFA98XX_CF_CONTROLS_REQRST_MSK 0x200
+
+/*
+ * cf_req_mips
+ */
+#define TFA98XX_CF_CONTROLS_REQMIPS (0x1<<10)
+#define TFA98XX_CF_CONTROLS_REQMIPS_POS 10
+#define TFA98XX_CF_CONTROLS_REQMIPS_LEN 1
+#define TFA98XX_CF_CONTROLS_REQMIPS_MAX 1
+#define TFA98XX_CF_CONTROLS_REQMIPS_MSK 0x400
+
+/*
+ * cf_req_mute_ready
+ */
+#define TFA98XX_CF_CONTROLS_REQMUTED (0x1<<11)
+#define TFA98XX_CF_CONTROLS_REQMUTED_POS 11
+#define TFA98XX_CF_CONTROLS_REQMUTED_LEN 1
+#define TFA98XX_CF_CONTROLS_REQMUTED_MAX 1
+#define TFA98XX_CF_CONTROLS_REQMUTED_MSK 0x800
+
+/*
+ * cf_req_volume_ready
+ */
+#define TFA98XX_CF_CONTROLS_REQVOL (0x1<<12)
+#define TFA98XX_CF_CONTROLS_REQVOL_POS 12
+#define TFA98XX_CF_CONTROLS_REQVOL_LEN 1
+#define TFA98XX_CF_CONTROLS_REQVOL_MAX 1
+#define TFA98XX_CF_CONTROLS_REQVOL_MSK 0x1000
+
+/*
+ * cf_req_damage
+ */
+#define TFA98XX_CF_CONTROLS_REQDMG (0x1<<13)
+#define TFA98XX_CF_CONTROLS_REQDMG_POS 13
+#define TFA98XX_CF_CONTROLS_REQDMG_LEN 1
+#define TFA98XX_CF_CONTROLS_REQDMG_MAX 1
+#define TFA98XX_CF_CONTROLS_REQDMG_MSK 0x2000
+
+/*
+ * cf_req_calibrate_ready
+ */
+#define TFA98XX_CF_CONTROLS_REQCAL (0x1<<14)
+#define TFA98XX_CF_CONTROLS_REQCAL_POS 14
+#define TFA98XX_CF_CONTROLS_REQCAL_LEN 1
+#define TFA98XX_CF_CONTROLS_REQCAL_MAX 1
+#define TFA98XX_CF_CONTROLS_REQCAL_MSK 0x4000
+
+/*
+ * cf_req_reserved
+ */
+#define TFA98XX_CF_CONTROLS_REQRSV (0x1<<15)
+#define TFA98XX_CF_CONTROLS_REQRSV_POS 15
+#define TFA98XX_CF_CONTROLS_REQRSV_LEN 1
+#define TFA98XX_CF_CONTROLS_REQRSV_MAX 1
+#define TFA98XX_CF_CONTROLS_REQRSV_MSK 0x8000
+
+
+/*
+ * (0x91)-cf_mad
+ */
+
+/*
+ * cf_madd
+ */
+#define TFA98XX_CF_MAD_MADD (0xffff<<0)
+#define TFA98XX_CF_MAD_MADD_POS 0
+#define TFA98XX_CF_MAD_MADD_LEN 16
+#define TFA98XX_CF_MAD_MADD_MAX 65535
+#define TFA98XX_CF_MAD_MADD_MSK 0xffff
+
+
+/*
+ * (0x92)-cf_mem
+ */
+
+/*
+ * cf_mema
+ */
+#define TFA98XX_CF_MEM_MEMA (0xffff<<0)
+#define TFA98XX_CF_MEM_MEMA_POS 0
+#define TFA98XX_CF_MEM_MEMA_LEN 16
+#define TFA98XX_CF_MEM_MEMA_MAX 65535
+#define TFA98XX_CF_MEM_MEMA_MSK 0xffff
+
+
+/*
+ * (0x93)-cf_status
+ */
+
+/*
+ * cf_err
+ */
+#define TFA98XX_CF_STATUS_ERR (0xff<<0)
+#define TFA98XX_CF_STATUS_ERR_POS 0
+#define TFA98XX_CF_STATUS_ERR_LEN 8
+#define TFA98XX_CF_STATUS_ERR_MAX 255
+#define TFA98XX_CF_STATUS_ERR_MSK 0xff
+
+/*
+ * cf_ack_cmd
+ */
+#define TFA98XX_CF_STATUS_ACKCMD (0x1<<8)
+#define TFA98XX_CF_STATUS_ACKCMD_POS 8
+#define TFA98XX_CF_STATUS_ACKCMD_LEN 1
+#define TFA98XX_CF_STATUS_ACKCMD_MAX 1
+#define TFA98XX_CF_STATUS_ACKCMD_MSK 0x100
+
+/*
+ * cf_ack_reset
+ */
+#define TFA98XX_CF_STATUS_ACKRST (0x1<<9)
+#define TFA98XX_CF_STATUS_ACKRST_POS 9
+#define TFA98XX_CF_STATUS_ACKRST_LEN 1
+#define TFA98XX_CF_STATUS_ACKRST_MAX 1
+#define TFA98XX_CF_STATUS_ACKRST_MSK 0x200
+
+/*
+ * cf_ack_mips
+ */
+#define TFA98XX_CF_STATUS_ACKMIPS (0x1<<10)
+#define TFA98XX_CF_STATUS_ACKMIPS_POS 10
+#define TFA98XX_CF_STATUS_ACKMIPS_LEN 1
+#define TFA98XX_CF_STATUS_ACKMIPS_MAX 1
+#define TFA98XX_CF_STATUS_ACKMIPS_MSK 0x400
+
+/*
+ * cf_ack_mute_ready
+ */
+#define TFA98XX_CF_STATUS_ACKMUTED (0x1<<11)
+#define TFA98XX_CF_STATUS_ACKMUTED_POS 11
+#define TFA98XX_CF_STATUS_ACKMUTED_LEN 1
+#define TFA98XX_CF_STATUS_ACKMUTED_MAX 1
+#define TFA98XX_CF_STATUS_ACKMUTED_MSK 0x800
+
+/*
+ * cf_ack_volume_ready
+ */
+#define TFA98XX_CF_STATUS_ACKVOL (0x1<<12)
+#define TFA98XX_CF_STATUS_ACKVOL_POS 12
+#define TFA98XX_CF_STATUS_ACKVOL_LEN 1
+#define TFA98XX_CF_STATUS_ACKVOL_MAX 1
+#define TFA98XX_CF_STATUS_ACKVOL_MSK 0x1000
+
+/*
+ * cf_ack_damage
+ */
+#define TFA98XX_CF_STATUS_ACKDMG (0x1<<13)
+#define TFA98XX_CF_STATUS_ACKDMG_POS 13
+#define TFA98XX_CF_STATUS_ACKDMG_LEN 1
+#define TFA98XX_CF_STATUS_ACKDMG_MAX 1
+#define TFA98XX_CF_STATUS_ACKDMG_MSK 0x2000
+
+/*
+ * cf_ack_calibrate_ready
+ */
+#define TFA98XX_CF_STATUS_ACKCAL (0x1<<14)
+#define TFA98XX_CF_STATUS_ACKCAL_POS 14
+#define TFA98XX_CF_STATUS_ACKCAL_LEN 1
+#define TFA98XX_CF_STATUS_ACKCAL_MAX 1
+#define TFA98XX_CF_STATUS_ACKCAL_MSK 0x4000
+
+/*
+ * cf_ack_reserved
+ */
+#define TFA98XX_CF_STATUS_ACKRSV (0x1<<15)
+#define TFA98XX_CF_STATUS_ACKRSV_POS 15
+#define TFA98XX_CF_STATUS_ACKRSV_LEN 1
+#define TFA98XX_CF_STATUS_ACKRSV_MAX 1
+#define TFA98XX_CF_STATUS_ACKRSV_MSK 0x8000
+
+
+/*
+ * (0xa1)-mtpkey2_reg
+ */
+
+/*
+ * mtpkey2
+ */
+#define TFA98XX_MTPKEY2_REG_MTPK (0xff<<0)
+#define TFA98XX_MTPKEY2_REG_MTPK_POS 0
+#define TFA98XX_MTPKEY2_REG_MTPK_LEN 8
+#define TFA98XX_MTPKEY2_REG_MTPK_MAX 255
+#define TFA98XX_MTPKEY2_REG_MTPK_MSK 0xff
+
+
+/*
+ * (0xa2)-mtp_status
+ */
+
+/*
+ * key01_locked
+ */
+#define TFA98XX_MTP_STATUS_KEY1LOCKED (0x1<<0)
+#define TFA98XX_MTP_STATUS_KEY1LOCKED_POS 0
+#define TFA98XX_MTP_STATUS_KEY1LOCKED_LEN 1
+#define TFA98XX_MTP_STATUS_KEY1LOCKED_MAX 1
+#define TFA98XX_MTP_STATUS_KEY1LOCKED_MSK 0x1
+
+/*
+ * key02_locked
+ */
+#define TFA98XX_MTP_STATUS_KEY2LOCKED (0x1<<1)
+#define TFA98XX_MTP_STATUS_KEY2LOCKED_POS 1
+#define TFA98XX_MTP_STATUS_KEY2LOCKED_LEN 1
+#define TFA98XX_MTP_STATUS_KEY2LOCKED_MAX 1
+#define TFA98XX_MTP_STATUS_KEY2LOCKED_MSK 0x2
+
+
+/*
+ * (0xa3)-KEY_protected_mtp_control
+ */
+
+/*
+ * auto_copy_iic_to_mtp
+ */
+#define TFA98XX_KEY_PROTECTED_MTP_CONTROL_CIMTP (0x1<<6)
+#define TFA98XX_KEY_PROTECTED_MTP_CONTROL_CIMTP_POS 6
+#define TFA98XX_KEY_PROTECTED_MTP_CONTROL_CIMTP_LEN 1
+#define TFA98XX_KEY_PROTECTED_MTP_CONTROL_CIMTP_MAX 1
+#define TFA98XX_KEY_PROTECTED_MTP_CONTROL_CIMTP_MSK 0x40
+
+
+/*
+ * (0xa5)-mtp_data_out_msb
+ */
+
+/*
+ * mtp_man_data_out_msb
+ */
+#define TFA98XX_MTP_DATA_OUT_MSB_MTPRDMSB (0xffff<<0)
+#define TFA98XX_MTP_DATA_OUT_MSB_MTPRDMSB_POS 0
+#define TFA98XX_MTP_DATA_OUT_MSB_MTPRDMSB_LEN 16
+#define TFA98XX_MTP_DATA_OUT_MSB_MTPRDMSB_MAX 65535
+#define TFA98XX_MTP_DATA_OUT_MSB_MTPRDMSB_MSK 0xffff
+
+
+/*
+ * (0xa6)-mtp_data_out_lsb
+ */
+
+/*
+ * mtp_man_data_out_lsb
+ */
+#define TFA98XX_MTP_DATA_OUT_LSB_MTPRDLSB (0xffff<<0)
+#define TFA98XX_MTP_DATA_OUT_LSB_MTPRDLSB_POS 0
+#define TFA98XX_MTP_DATA_OUT_LSB_MTPRDLSB_LEN 16
+#define TFA98XX_MTP_DATA_OUT_LSB_MTPRDLSB_MAX 65535
+#define TFA98XX_MTP_DATA_OUT_LSB_MTPRDLSB_MSK 0xffff
+
+
+/*
+ * (0xb1)-temp_sensor_config
+ */
+
+/*
+ * ext_temp
+ */
+#define TFA98XX_TEMP_SENSOR_CONFIG_EXTTS (0x1ff<<0)
+#define TFA98XX_TEMP_SENSOR_CONFIG_EXTTS_POS 0
+#define TFA98XX_TEMP_SENSOR_CONFIG_EXTTS_LEN 9
+#define TFA98XX_TEMP_SENSOR_CONFIG_EXTTS_MAX 511
+#define TFA98XX_TEMP_SENSOR_CONFIG_EXTTS_MSK 0x1ff
+
+/*
+ * ext_temp_sel
+ */
+#define TFA98XX_TEMP_SENSOR_CONFIG_TROS (0x1<<9)
+#define TFA98XX_TEMP_SENSOR_CONFIG_TROS_POS 9
+#define TFA98XX_TEMP_SENSOR_CONFIG_TROS_LEN 1
+#define TFA98XX_TEMP_SENSOR_CONFIG_TROS_MAX 1
+#define TFA98XX_TEMP_SENSOR_CONFIG_TROS_MSK 0x200
+
+
+/*
+ * (0xf0)-KEY2_protected_MTP0
+ */
+
+/*
+ * calibration_onetime
+ */
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPOTC (0x1<<0)
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPOTC_POS 0
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPOTC_LEN 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPOTC_MAX 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPOTC_MSK 0x1
+
+/*
+ * calibr_ron_done
+ */
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPEX (0x1<<1)
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_POS 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_LEN 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_MAX 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_MSK 0x2
+
+/*
+ * calibr_dcdc_api_calibrate
+ */
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCAPI (0x1<<2)
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCAPI_POS 2
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCAPI_LEN 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCAPI_MAX 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCAPI_MSK 0x4
+
+/*
+ * calibr_dcdc_delta_sign
+ */
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCSB (0x1<<3)
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCSB_POS 3
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCSB_LEN 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCSB_MAX 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_DCMCCSB_MSK 0x8
+
+/*
+ * calibr_dcdc_delta
+ */
+#define TFA98XX_KEY2_PROTECTED_MTP0_USERDEF (0x7<<4)
+#define TFA98XX_KEY2_PROTECTED_MTP0_USERDEF_POS 4
+#define TFA98XX_KEY2_PROTECTED_MTP0_USERDEF_LEN 3
+#define TFA98XX_KEY2_PROTECTED_MTP0_USERDEF_MAX 7
+#define TFA98XX_KEY2_PROTECTED_MTP0_USERDEF_MSK 0x70
+
+
+/*
+ * (0xf4)-KEY1_protected_MTP4
+ */
+
+
+/*
+ * (0xf5)-KEY1_protected_MTP5
+ */
+
+#endif /* TFA98XX_GENREGS_H */
diff --git a/inc/tfa98xx_parameters.h b/inc/tfa98xx_parameters.h
new file mode 100644
index 0000000..f775403
--- /dev/null
+++ b/inc/tfa98xx_parameters.h
@@ -0,0 +1,724 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFA98XXPARAMETERS_H_
+#define TFA98XXPARAMETERS_H_
+
+#ifdef __KERNEL__
+#include <linux/types.h>
+#else
+#include <stdint.h>
+#endif
+
+#include "tfa_service.h"
+
+#if (defined(WIN32) || defined(_X64))
+/* These warnings are disabled because it is only given by Windows and there is no easy fix */
+#pragma warning(disable:4200)
+#pragma warning(disable:4214)
+#endif
+
+/*
+ * profiles & volumesteps
+ *
+ */
+#define TFA_MAX_PROFILES (64)
+#define TFA_MAX_VSTEPS (64)
+#define TFA_MAX_VSTEP_MSG_MARKER (100) /* This marker is used to indicate if all msgs need to be written to the device */
+#define TFA_MAX_MSGS (10)
+
+// the pack pragma is required to make that the size in memory
+// matches the actual variable lenghts
+// This is to assure that the binary files can be transported between
+// different platforms.
+#pragma pack (push, 1)
+
+/*
+ * typedef for 24 bit value using 3 bytes
+ */
+typedef struct uint24 {
+ uint8_t b[3];
+} uint24_t;
+/*
+ * the generic header
+ * all char types are in ASCII
+ */
+typedef struct nxpTfaHeader {
+ uint16_t id;
+ char version[2]; // "V_" : V=version, vv=subversion
+ char subversion[2]; // "vv" : vv=subversion
+ uint16_t size; // data size in bytes following CRC
+ uint32_t CRC; // 32-bits CRC for following data
+ char customer[8]; // “name of customer”
+ char application[8]; // “application name”
+ char type[8]; // “application type name”
+} nxpTfaHeader_t;
+
+typedef enum nxpTfaSamplerate {
+ fs_8k, // 8kHz
+ fs_11k025, // 11.025kHz
+ fs_12k, // 12kHz
+ fs_16k, // 16kHz
+ fs_22k05, // 22.05kHz
+ fs_24k, // 24kHz
+ fs_32k, // 32kHz
+ fs_44k1, // 44.1kHz
+ fs_48k, // 48kHz
+ fs_96k, // 96kHz
+ fs_count // Should always be last item.
+} nxpTfaSamplerate_t;
+
+// Keep in sync with nxpTfaSamplerate_t !
+static const int nxpTfaSamplerateHz[fs_count] = { 8000, 11025, 12000, 16000, 22050, 24000, 32000, 44100, 48000, 96000 };
+
+
+/*
+ * coolflux direct memory access
+ */
+typedef struct nxpTfaDspMem {
+ uint8_t type; /* 0--3: p, x, y, iomem */
+ uint16_t address; /* target address */
+ uint8_t size; /* data size in words */
+ int words[]; /* payload in signed 32bit integer (two's complement) */
+} nxpTfaDspMem_t;
+
+/*
+ * the biquad coefficients for the API together with index in filter
+ * the biquad_index is the actual index in the equalizer +1
+ */
+#define BIQUAD_COEFF_SIZE 6
+
+/*
+* Output fixed point coeffs structure
+*/
+typedef struct {
+ int a2;
+ int a1;
+ int b2;
+ int b1;
+ int b0;
+}nxpTfaBiquad_t;
+
+typedef struct nxpTfaBiquadOld {
+ uint8_t bytes[BIQUAD_COEFF_SIZE*sizeof(uint24_t)];
+}nxpTfaBiquadOld_t;
+
+typedef struct nxpTfaBiquadFloat {
+ float headroom;
+ float b0;
+ float b1;
+ float b2;
+ float a1;
+ float a2;
+} nxpTfaBiquadFloat_t;
+
+/*
+* EQ filter definitions
+* Note: This is not in line with smartstudio (JV: 12/12/2016)
+*/
+typedef enum nxpTfaFilterType {
+ fCustom, //User defined biquad coefficients
+ fFlat, //Vary only gain
+ fLowpass, //2nd order Butterworth low pass
+ fHighpass, //2nd order Butterworth high pass
+ fLowshelf,
+ fHighshelf,
+ fNotch,
+ fPeak,
+ fBandpass,
+ f1stLP,
+ f1stHP,
+ fElliptic
+} nxpTfaFilterType_t;
+
+/*
+ * filter parameters for biquad (re-)calculation
+ */
+typedef struct nxpTfaFilter {
+ nxpTfaBiquadOld_t biquad;
+ uint8_t enabled;
+ uint8_t type; // (== enum FilterTypes, assure 8bits length)
+ float frequency;
+ float Q;
+ float gain;
+} nxpTfaFilter_t ; //8 * float + int32 + byte == 37
+
+/*
+ * biquad params for calculation
+*/
+
+#define TFA_BQ_EQ_INDEX 0
+#define TFA_BQ_ANTI_ALIAS_INDEX 10
+#define TFA_BQ_INTEGRATOR_INDEX 13
+
+/*
+* Loudspeaker Compensation filter definitions
+*/
+typedef struct nxpTfaLsCompensationFilter {
+ nxpTfaBiquad_t biquad;
+ uint8_t lsCompOn; // Loudspeaker compensation on/off; when 'off', the DSP code doesn't apply the bwExt => bwExtOn GUI flag should be gray to avoid confusion
+ uint8_t bwExtOn; // Bandwidth extension on/off
+ float fRes; // [Hz] speaker resonance frequency
+ float Qt; // Speaker resonance Q-factor
+ float fBwExt; // [Hz] Band width extension frequency
+ float samplingFreq;// [Hz] Sampling frequency
+} nxpTfaLsCompensationFilter_t;
+
+/*
+* Anti Aliasing Elliptic filter definitions
+*/
+typedef struct nxpTfaAntiAliasFilter {
+ nxpTfaBiquad_t biquad; /**< Output results fixed point coeffs */
+ uint8_t enabled;
+ float cutOffFreq; // cut off frequency
+ float samplingFreq; // sampling frequency
+ float rippleDb; // range: [0.1 3.0]
+ float rolloff; // range: [-1.0 1.0]
+} nxpTfaAntiAliasFilter_t;
+
+/**
+* Integrator filter input definitions
+*/
+typedef struct nxpTfaIntegratorFilter {
+ nxpTfaBiquad_t biquad; /**< Output results fixed point coeffs */
+ uint8_t type; /**< Butterworth filter type: high or low pass */
+ float cutOffFreq; /**< cut off frequency in Hertz; range: [100.0 4000.0] */
+ float samplingFreq; /**< sampling frequency in Hertz */
+ float leakage; /**< leakage factor; range [0.0 1.0] */
+} nxpTfaIntegratorFilter_t;
+
+
+typedef struct nxpTfaEqFilter {
+ nxpTfaBiquad_t biquad;
+ uint8_t enabled;
+ uint8_t type; // (== enum FilterTypes, assure 8bits length)
+ float cutOffFreq; // cut off frequency, // range: [100.0 4000.0]
+ float samplingFreq; // sampling frequency
+ float Q; // range: [0.5 5.0]
+ float gainDb; // range: [-10.0 10.0]
+} nxpTfaEqFilter_t ; //8 * float + int32 + byte == 37
+
+typedef struct nxpTfaContAntiAlias {
+ int8_t index; /**< index determines destination type; anti-alias, integrator,eq */
+ uint8_t type;
+ float cutOffFreq; // cut off frequency
+ float samplingFreq;
+ float rippleDb; // integrator leakage
+ float rolloff;
+ uint8_t bytes[5*3]; // payload 5*24buts coeffs
+}nxpTfaContAntiAlias_t;
+
+typedef struct nxpTfaContIntegrator {
+ int8_t index; /**< index determines destination type; anti-alias, integrator,eq */
+ uint8_t type;
+ float cutOffFreq; // cut off frequency
+ float samplingFreq;
+ float leakage; // integrator leakage
+ float reserved;
+ uint8_t bytes[5*3]; // payload 5*24buts coeffs
+}nxpTfaContIntegrator_t;
+
+typedef struct nxpTfaContEq {
+ int8_t index;
+ uint8_t type; // (== enum FilterTypes, assure 8bits length)
+ float cutOffFreq; // cut off frequency, // range: [100.0 4000.0]
+ float samplingFreq; // sampling frequency
+ float Q; // range: [0.5 5.0]
+ float gainDb; // range: [-10.0 10.0]
+ uint8_t bytes[5*3]; // payload 5*24buts coeffs
+} nxpTfaContEq_t ; //8 * float + int32 + byte == 37
+
+typedef union nxpTfaContBiquad {
+ nxpTfaContEq_t eq;
+ nxpTfaContAntiAlias_t aa;
+ nxpTfaContIntegrator_t in;
+}nxpTfaContBiquad_t;
+
+#define TFA_BQ_EQ_INDEX 0
+#define TFA_BQ_ANTI_ALIAS_INDEX 10
+#define TFA_BQ_INTEGRATOR_INDEX 13
+#define TFA98XX_MAX_EQ 10
+
+typedef struct nxpTfaEqualizer {
+ nxpTfaFilter_t filter[TFA98XX_MAX_EQ];
+} nxpTfaEqualizer_t;
+
+/*
+ * files
+ */
+#define HDR(c1,c2) (c2<<8|c1) // little endian
+typedef enum nxpTfaHeaderType {
+ paramsHdr = HDR('P','M'), /* containter file */
+ volstepHdr = HDR('V','P'),
+ patchHdr = HDR('P','A'),
+ speakerHdr = HDR('S','P'),
+ presetHdr = HDR('P','R'),
+ configHdr = HDR('C','O'),
+ equalizerHdr = HDR('E','Q'),
+ drcHdr = HDR('D','R'),
+ msgHdr = HDR('M','G'), /* generic message */
+ infoHdr = HDR('I','N')
+} nxpTfaHeaderType_t;
+
+/*
+ * equalizer file
+ */
+#define NXPTFA_EQ_VERSION '1'
+#define NXPTFA_EQ_SUBVERSION "00"
+typedef struct nxpTfaEqualizerFile {
+ nxpTfaHeader_t hdr;
+ uint8_t samplerate; // ==enum samplerates, assure 8 bits
+ nxpTfaFilter_t filter[TFA98XX_MAX_EQ];// note: API index counts from 1..10
+} nxpTfaEqualizerFile_t;
+
+/*
+ * patch file
+ */
+#define NXPTFA_PA_VERSION '1'
+#define NXPTFA_PA_SUBVERSION "00"
+typedef struct nxpTfaPatchFile {
+ nxpTfaHeader_t hdr;
+ uint8_t data[];
+} nxpTfaPatch_t;
+
+/*
+ * generic message file
+ * - the payload of this file includes the opcode and is send straight to the DSP
+ */
+#define NXPTFA_MG_VERSION '3'
+#define NXPTFA_MG_SUBVERSION "00"
+typedef struct nxpTfaMsgFile {
+ nxpTfaHeader_t hdr;
+ uint8_t data[];
+} nxpTfaMsgFile_t;
+
+/*
+ * NOTE the tfa98xx API defines the enum Tfa98xx_config_type that defines
+ * the subtypes as decribes below.
+ * tfa98xx_dsp_config_parameter_type() can be used to get the
+ * supported type for the active device..
+ */
+/*
+ * config file V1 sub 1
+ */
+#define NXPTFA_CO_VERSION '1'
+#define NXPTFA_CO3_VERSION '3'
+#define NXPTFA_CO_SUBVERSION1 "01"
+typedef struct nxpTfaConfigS1File {
+ nxpTfaHeader_t hdr;
+ uint8_t data[55*3];
+} nxpTfaConfigS1_t;
+
+/*
+ * config file V1 sub 2
+ */
+#define NXPTFA_CO_SUBVERSION2 "02"
+typedef struct nxpTfaConfigS2File {
+ nxpTfaHeader_t hdr;
+ uint8_t data[67*3];
+} nxpTfaConfigS2_t;
+
+/*
+ * config file V1 sub 3
+ */
+#define NXPTFA_CO_SUBVERSION3 "03"
+typedef struct nxpTfaConfigS3File {
+ nxpTfaHeader_t hdr;
+ uint8_t data[67*3];
+} nxpTfaConfigS3_t;
+
+/*
+ * config file V1.0
+ */
+#define NXPTFA_CO_SUBVERSION "00"
+typedef struct nxpTfaConfigFile {
+ nxpTfaHeader_t hdr;
+ uint8_t data[];
+} nxpTfaConfig_t;
+
+/*
+ * preset file
+ */
+#define NXPTFA_PR_VERSION '1'
+#define NXPTFA_PR_SUBVERSION "00"
+typedef struct nxpTfaPresetFile {
+ nxpTfaHeader_t hdr;
+ uint8_t data[];
+} nxpTfaPreset_t;
+
+/*
+ * drc file
+ */
+#define NXPTFA_DR_VERSION '1'
+#define NXPTFA_DR_SUBVERSION "00"
+typedef struct nxpTfaDrcFile {
+ nxpTfaHeader_t hdr;
+ uint8_t data[];
+} nxpTfaDrc_t;
+
+/*
+ * drc file
+ * for tfa 2 there is also a xml-version
+ */
+#define NXPTFA_DR3_VERSION '3'
+#define NXPTFA_DR3_SUBVERSION "00"
+typedef struct nxpTfaDrcFile2 {
+ nxpTfaHeader_t hdr;
+ uint8_t version[3];
+ uint8_t data[];
+} nxpTfaDrc2_t;
+
+/*
+ * volume step structures
+ */
+// VP01
+#define NXPTFA_VP1_VERSION '1'
+#define NXPTFA_VP1_SUBVERSION "01"
+typedef struct nxpTfaVolumeStep1 {
+ float attenuation; // IEEE single float
+ uint8_t preset[TFA98XX_PRESET_LENGTH];
+} nxpTfaVolumeStep1_t;
+
+// VP02
+#define NXPTFA_VP2_VERSION '2'
+#define NXPTFA_VP2_SUBVERSION "01"
+typedef struct nxpTfaVolumeStep2 {
+ float attenuation; // IEEE single float
+ uint8_t preset[TFA98XX_PRESET_LENGTH];
+ nxpTfaFilter_t filter[TFA98XX_MAX_EQ];// note: API index counts from 1..10
+} nxpTfaVolumeStep2_t;
+
+/*
+ * volumestep file
+ */
+#define NXPTFA_VP_VERSION '1'
+#define NXPTFA_VP_SUBVERSION "00"
+typedef struct nxpTfaVolumeStepFile {
+ nxpTfaHeader_t hdr;
+ uint8_t vsteps; // can also be calulated from size+type
+ uint8_t samplerate; // ==enum samplerates, assure 8 bits
+ uint8_t payload; //start of variable length contents:N times volsteps
+}nxpTfaVolumeStepFile_t;
+/*
+ * volumestep2 file
+ */
+typedef struct nxpTfaVolumeStep2File {
+ nxpTfaHeader_t hdr;
+ uint8_t vsteps; // can also be calulated from size+type
+ uint8_t samplerate; // ==enum samplerates, assure 8 bits
+ nxpTfaVolumeStep2_t vstep[]; //start of variable length contents:N times volsteps
+}nxpTfaVolumeStep2File_t;
+
+/*
+ * volumestepMax2 file
+ */
+typedef struct nxpTfaVolumeStepMax2File {
+ nxpTfaHeader_t hdr;
+ uint8_t version[3];
+ uint8_t NrOfVsteps;
+ uint8_t vstepsBin[];
+}nxpTfaVolumeStepMax2File_t;
+
+/*
+ * volumestepMax2 file
+ * This volumestep should ONLY be used for the use of bin2hdr!
+ * This can only be used to find the messagetype of the vstep (without header)
+ */
+typedef struct nxpTfaVolumeStepMax2_1File {
+ uint8_t version[3];
+ uint8_t NrOfVsteps;
+ uint8_t vstepsBin[];
+}nxpTfaVolumeStepMax2_1File_t;
+
+struct nxpTfaVolumeStepRegisterInfo {
+ uint8_t NrOfRegisters;
+ uint16_t registerInfo[];
+};
+
+struct nxpTfaVolumeStepMessageInfo {
+ uint8_t NrOfMessages;
+ uint8_t MessageType;
+ uint24_t MessageLength;
+ uint8_t CmdId[3];
+ uint8_t ParameterData[];
+};
+/**************************old v2 *************************************************/
+
+/*
+ * subv 00 volumestep file
+ */
+typedef struct nxpTfaOldHeader {
+ uint16_t id;
+ char version[2]; // "V_" : V=version, vv=subversion
+ char subversion[2]; // "vv" : vv=subversion
+ uint16_t size; // data size in bytes following CRC
+ uint32_t CRC; // 32-bits CRC for following data
+} nxpTfaOldHeader_t;
+
+typedef struct nxpOldTfaFilter {
+ double bq[5];
+ int32_t type;
+ double frequency;
+ double Q;
+ double gain;
+ uint8_t enabled;
+} nxpTfaOldFilter_t ;
+
+typedef struct nxpTfaOldVolumeStep2 {
+ float attenuation; // IEEE single float
+ uint8_t preset[TFA98XX_PRESET_LENGTH];
+ nxpTfaOldFilter_t eq[10];
+} nxpTfaOldVolumeStep2_t;
+
+typedef struct nxpTfaOldVolumeStepFile {
+ nxpTfaOldHeader_t hdr;
+ nxpTfaOldVolumeStep2_t step[];
+}nxpTfaOldVolumeStep2File_t;
+/**************************end old v2 *************************************************/
+
+/*
+ * speaker file header
+ */
+struct nxpTfaSpkHeader {
+ struct nxpTfaHeader hdr;
+ char name[8]; // speaker nick name (e.g. “dumbo”)
+ char vendor[16];
+ char type[8];
+ // dimensions (mm)
+ uint8_t height;
+ uint8_t width;
+ uint8_t depth;
+ uint16_t ohm;
+};
+
+/*
+ * speaker file
+ */
+#define NXPTFA_SP_VERSION '1'
+#define NXPTFA_SP_SUBVERSION "00"
+typedef struct nxpTfaSpeakerFile {
+ nxpTfaHeader_t hdr;
+ char name[8]; // speaker nick name (e.g. “dumbo”)
+ char vendor[16];
+ char type[8];
+ // dimensions (mm)
+ uint8_t height;
+ uint8_t width;
+ uint8_t depth;
+ uint8_t ohm_primary;
+ uint8_t ohm_secondary;
+ uint8_t data[]; //payload TFA98XX_SPEAKERPARAMETER_LENGTH
+} nxpTfaSpeakerFile_t;
+
+#define NXPTFA_VP3_VERSION '3'
+#define NXPTFA_VP3_SUBVERSION "00"
+
+struct nxpTfaFWVer {
+ uint8_t Major;
+ uint8_t minor;
+ uint8_t minor_update:6;
+ uint8_t Update:2;
+};
+
+struct nxpTfaFWMsg {
+ struct nxpTfaFWVer fwVersion;
+ struct nxpTfaMsg payload;
+};
+
+typedef struct nxpTfaLiveData {
+ char name[25];
+ char addrs[25];
+ int tracker;
+ int scalefactor;
+} nxpTfaLiveData_t;
+
+#define NXPTFA_SP3_VERSION '3'
+#define NXPTFA_SP3_SUBVERSION "00"
+struct nxpTfaSpeakerFileMax2 {
+ nxpTfaHeader_t hdr;
+ char name[8]; // speaker nick name (e.g. “dumbo”)
+ char vendor[16];
+ char type[8];
+ // dimensions (mm)
+ uint8_t height;
+ uint8_t width;
+ uint8_t depth;
+ uint8_t ohm_primary;
+ uint8_t ohm_secondary;
+ struct nxpTfaFWMsg FWmsg; //payload including FW ver and Cmd ID
+};
+
+/*
+ * parameter container file
+ */
+/*
+ * descriptors
+ * Note 1: append new DescriptorType at the end
+ * Note 2: add new descriptors to dsc_name[] in tfaContUtil.c
+ */
+typedef enum nxpTfaDescriptorType {
+ dscDevice, // device list
+ dscProfile, // profile list
+ dscRegister, // register patch
+ dscString, // ascii, zero terminated string
+ dscFile, // filename + file contents
+ dscPatch, // patch file
+ dscMarker, // marker to indicate end of a list
+ dscMode,
+ dscSetInputSelect,
+ dscSetOutputSelect,
+ dscSetProgramConfig,
+ dscSetLagW,
+ dscSetGains,
+ dscSetvBatFactors,
+ dscSetSensesCal,
+ dscSetSensesDelay,
+ dscBitfield,
+ dscDefault, // used to reset bitfields to there default values
+ dscLiveData,
+ dscLiveDataString,
+ dscGroup,
+ dscCmd,
+ dscSetMBDrc,
+ dscFilter,
+ dscNoInit,
+ dscFeatures,
+ dscCfMem, // coolflux memory x,y,io
+ dscSetFwkUseCase,
+ dscSetVddpConfig,
+ dsc_last // trailer
+} nxpTfaDescriptorType_t;
+
+#define TFA_BITFIELDDSCMSK 0x7fffffff
+typedef struct nxpTfaDescPtr {
+ uint32_t offset:24;
+ uint32_t type:8; // (== enum nxpTfaDescriptorType, assure 8bits length)
+}nxpTfaDescPtr_t;
+
+/*
+ * generic file descriptor
+ */
+typedef struct nxpTfaFileDsc {
+ nxpTfaDescPtr_t name;
+ uint32_t size; // file data length in bytes
+ uint8_t data[]; //payload
+} nxpTfaFileDsc_t;
+
+
+/*
+ * device descriptor list
+ */
+typedef struct nxpTfaDeviceList {
+ uint8_t length; // nr of items in the list
+ uint8_t bus; // bus
+ uint8_t dev; // device
+ uint8_t func; // subfunction or subdevice
+ uint32_t devid; // device hw fw id
+ nxpTfaDescPtr_t name; // device name
+ nxpTfaDescPtr_t list[]; // items list
+} nxpTfaDeviceList_t;
+
+/*
+ * profile descriptor list
+ */
+typedef struct nxpTfaProfileList {
+ uint32_t length:8; // nr of items in the list + name
+ uint32_t group:8; // profile group number
+ uint32_t ID:16; // profile ID
+ nxpTfaDescPtr_t name; // profile name
+ nxpTfaDescPtr_t list[]; // items list (lenght-1 items)
+} nxpTfaProfileList_t;
+#define TFA_PROFID 0x1234
+
+/*
+ * livedata descriptor list
+ */
+typedef struct nxpTfaLiveDataList {
+ uint32_t length:8; // nr of items in the list
+ uint32_t ID:24; // profile ID
+ nxpTfaDescPtr_t name; // livedata name
+ nxpTfaDescPtr_t list[]; // items list
+} nxpTfaLiveDataList_t;
+#define TFA_LIVEDATAID 0x5678
+
+/*
+ * Bitfield descriptor
+ */
+typedef struct nxpTfaBitfield {
+ uint16_t value;
+ uint16_t field; // ==datasheet defined, 16 bits
+} nxpTfaBitfield_t;
+
+/*
+ * Bitfield enumuration bits descriptor
+ */
+typedef struct nxpTfaBfEnum {
+ unsigned int len:4; // this is the actual length-1
+ unsigned int pos:4;
+ unsigned int address:8;
+} nxpTfaBfEnum_t;
+
+/*
+ * Register patch descriptor
+ */
+typedef struct nxpTfaRegpatch {
+ uint8_t address; // register address
+ uint16_t value; // value to write
+ uint16_t mask; // mask of bits to write
+} nxpTfaRegpatch_t;
+
+/*
+ * Mode descriptor
+ */
+typedef struct nxpTfaUseCase {
+ int value; // mode value, maps to enum Tfa98xx_Mode
+} nxpTfaMode_t;
+
+/*
+ * NoInit descriptor
+ */
+typedef struct nxpTfaNoInit {
+ uint8_t value; // noInit value
+} nxpTfaNoInit_t;
+
+/*
+ * Features descriptor
+ */
+typedef struct nxpTfaFeatures {
+ uint16_t value[3]; // features value
+} nxpTfaFeatures_t;
+
+
+/*
+ * the container file
+ * - the size field is 32bits long (generic=16)
+ * - all char types are in ASCII
+ */
+#define NXPTFA_PM_VERSION '1'
+#define NXPTFA_PM3_VERSION '3'
+#define NXPTFA_PM_SUBVERSION '1'
+typedef struct nxpTfaContainer {
+ char id[2]; // "XX" : XX=type
+ char version[2]; // "V_" : V=version, vv=subversion
+ char subversion[2]; // "vv" : vv=subversion
+ uint32_t size; // data size in bytes following CRC
+ uint32_t CRC; // 32-bits CRC for following data
+ uint16_t rev; // "extra chars for rev nr"
+ char customer[8]; // “name of customer”
+ char application[8]; // “application name”
+ char type[8]; // “application type name”
+ uint16_t ndev; // "nr of device lists"
+ uint16_t nprof; // "nr of profile lists"
+ uint16_t nliveData; // "nr of livedata lists"
+ nxpTfaDescPtr_t index[]; // start of item index table
+} nxpTfaContainer_t;
+
+#pragma pack (pop)
+
+#endif /* TFA98XXPARAMETERS_H_ */
diff --git a/inc/tfa98xx_tfafieldnames.h b/inc/tfa98xx_tfafieldnames.h
new file mode 100644
index 0000000..5e08a48
--- /dev/null
+++ b/inc/tfa98xx_tfafieldnames.h
@@ -0,0 +1,142 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+typedef struct TfaBfName {
+ unsigned short bfEnum;
+ char *bfName;
+} tfaBfName_t;
+
+typedef struct TfaIrqName {
+ unsigned short irqEnum;
+ char *irqName;
+} tfaIrqName_t;
+
+#include "tfa1_tfafieldnames.h"
+#include "tfa2_tfafieldnames_N1C.h"
+/* diffs for specific devices */
+#include "tfa9887_tfafieldnames.h"
+#include "tfa9890_tfafieldnames.h"
+#include "tfa9891_tfafieldnames.h"
+#include "tfa9872_tfafieldnames.h"
+#include "tfa9912_tfafieldnames.h"
+#include "tfa9896_tfafieldnames.h"
+#include "tfa9874_tfafieldnames.h"
+#include "tfa9878_tfafieldnames.h"
+#include "tfa9894_tfafieldnames.h"
+#include "tfa9894_tfafieldnames_N2.h"
+
+/* missing 'common' defs break the build but unused in TFA1 context */
+#define TFA1_BF_AMPINSEL -1
+#define TFA1_BF_MANSCONF -1
+#define TFA1_BF_MANCOLD -1
+#define TFA1_BF_INTSMUTE -1
+#define TFA1_BF_CFSMR -1
+#define TFA1_BF_CFSML -1
+#define TFA1_BF_DCMCCAPI -1
+#define TFA1_BF_DCMCCSB -1
+#define TFA1_BF_USERDEF -1
+#define TFA1_BF_MANSTATE -1
+#define TFA1_BF_MANOPER -1
+#define TFA1_BF_REFCKSEL -1
+#define TFA1_BF_VOLSEC -1
+#define TFA1_BF_FRACTDEL -1
+#define TFA1_BF_ACKDMG -1
+#define TFA1_BF_SSRIGHTE -1
+#define TFA1_BF_SSLEFTE -1
+#define TFA1_BF_R25CL -1
+#define TFA1_BF_R25CR -1
+#define TFA1_BF_SWPROFIL 0x8045 /*!< profile save */
+#define TFA1_BF_SWVSTEP 0x80a5 /*!< vstep save */
+
+/* missing 'common' defs break the build */
+#define TFA2_BF_CFSM -1
+
+
+/* MTP access uses registers
+ * defs are derived from corresponding bitfield names as used in the BF macros
+ */
+#define MTPKEY2 MTPK /* unlock key2 MTPK */
+#define MTP0 MTPOTC /* MTP data */
+#define MTP_CONTROL CIMTP /* copy i2c to mtp */
+
+/* interrupt enable register uses HW name in TFA2 */
+#define TFA2_BF_INTENVDDS TFA2_BF_IEVDDS
+
+
+/* TFA9891 specific bit field names */
+#define TFA1_BF_SAAMGAIN 0x2202
+#define TFA2_BF_SAAMGAIN -1
+
+/* TFA9872 specific bit field names */
+#define TFA2_BF_IELP0 TFA9872_BF_IELP0
+#define TFA2_BF_ISTLP0 TFA9872_BF_ISTLP0
+#define TFA2_BF_IPOLP0 TFA9872_BF_IPOLP0
+#define TFA2_BF_IELP1 TFA9872_BF_IELP1
+#define TFA2_BF_ISTLP1 TFA9872_BF_ISTLP1
+#define TFA2_BF_IPOLP1 TFA9872_BF_IPOLP1
+#define TFA2_BF_LP0 TFA9872_BF_LP0
+#define TFA2_BF_LP1 TFA9872_BF_LP1
+#define TFA2_BF_R25C TFA9872_BF_R25C
+#define TFA2_BF_SAMMODE TFA9872_BF_SAMMODE
+
+/* interrupt bit field names of TFA2 and TFA1 do not match */
+#define TFA1_BF_IEACS TFA1_BF_INTENACS
+#define TFA1_BF_IPOACS TFA1_BF_INTPOLACS
+#define TFA1_BF_ISTACS TFA1_BF_INTOACS
+#define TFA1_BF_ISTVDDS TFA1_BF_INTOVDDS
+#define TFA1_BF_ICLVDDS TFA1_BF_INTIVDDS
+#define TFA1_BF_IPOVDDS TFA1_BF_INTPOLVDDS
+#define TFA1_BF_IENOCLK TFA1_BF_INTENNOCLK
+#define TFA1_BF_ISTNOCLK TFA1_BF_INTONOCLK
+#define TFA1_BF_IPONOCLK TFA1_BF_INTPOLNOCLK
+
+/* interrupt bit fields not available on TFA1 */
+#define TFA1_BF_IECLKOOR -1
+#define TFA1_BF_ISTCLKOOR -1
+#define TFA1_BF_IEMWSRC -1
+#define TFA1_BF_ISTMWSRC -1
+#define TFA1_BF_IPOMWSRC -1
+#define TFA1_BF_IEMWSMU -1
+#define TFA1_BF_ISTMWSMU -1
+#define TFA1_BF_IPOMWSMU -1
+#define TFA1_BF_IEMWCFC -1
+#define TFA1_BF_ISTMWCFC -1
+#define TFA1_BF_IPOMWCFC -1
+#define TFA1_BF_CLKOOR -1
+#define TFA1_BF_MANWAIT1 -1
+#define TFA1_BF_MANWAIT2 -1
+#define TFA1_BF_MANMUTE -1
+#define TFA1_BF_IPCLKOOR -1
+#define TFA1_BF_ICLCLKOOR -1
+#define TFA1_BF_IPOSWS -1
+#define TFA1_BF_IESWS -1
+#define TFA1_BF_ISTSWS -1
+#define TFA1_BF_IESPKS -1
+#define TFA1_BF_ISTSPKS -1
+#define TFA1_BF_IPOSPKS -1
+#define TFA1_BF_IECLKS -1
+#define TFA1_BF_ISTCLKS -1
+#define TFA1_BF_IPOCLKS -1
+#define TFA1_BF_IEAMPS -1
+#define TFA1_BF_ISTAMPS -1
+#define TFA1_BF_IPOAMPS -1
+#define TFA1_BF_IELP0 -1
+#define TFA1_BF_ISTLP0 -1
+#define TFA1_BF_IPOLP0 -1
+#define TFA1_BF_IELP1 -1
+#define TFA1_BF_ISTLP1 -1
+#define TFA1_BF_IPOLP1 -1
+#define TFA1_BF_LP0 -1
+#define TFA1_BF_LP1 -1
+#define TFA1_BF_R25C -1
+#define TFA1_BF_SAMMODE -1
+
+/* TDM STATUS fields not available on TFA1 */
+#define TFA1_BF_TDMLUTER -1
+#define TFA1_BF_TDMERR -1
diff --git a/inc/tfa9912_device_genregs.h b/inc/tfa9912_device_genregs.h
new file mode 100644
index 0000000..698c79f
--- /dev/null
+++ b/inc/tfa9912_device_genregs.h
@@ -0,0 +1,259 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9912_DEVICE_GENREGS_H
+#define _TFA9912_DEVICE_GENREGS_H
+
+
+#define TFA99XX_SYS_CONTROL0 0x00
+#define TFA99XX_SYS_CONTROL1 0x01
+#define TFA99XX_SYS_CONTROL2 0x02
+#define TFA99XX_DEVICE_REVISION 0x03
+#define TFA99XX_CLOCK_CONTROL 0x04
+#define TFA99XX_CLOCK_GATING_CONTROL 0x05
+#define TFA99XX_HW_PATH_CFG 0x06
+#define TFA99XX_CLKCHK_TH 0x07
+#define TFA99XX_AMP_CTRL 0x08
+#define TFA99XX_SIDE_TONE_CONFIG 0x0d
+#define TFA99XX_CTRL_DIGTOANA_REG 0x0e
+#define TFA99XX_STATUS_FLAGS0 0x10
+#define TFA99XX_STATUS_FLAGS1 0x11
+#define TFA99XX_STATUS_FLAGS3 0x13
+#define TFA99XX_STATUS_FLAGS4 0x14
+#define TFA99XX_BATTERY_VOLTAGE 0x15
+#define TFA99XX_TEMPERATURE 0x16
+#define TFA99XX_VDDP_VOLTAGE 0x17
+#define TFA99XX_TDM_CONFIG0 0x20
+#define TFA99XX_TDM_CONFIG1 0x21
+#define TFA99XX_TDM_CONFIG2 0x22
+#define TFA99XX_TDM_CONFIG3 0x23
+#define TFA99XX_TDM_CONFIG4 0x24
+#define TFA99XX_TDM_CONFIG5 0x25
+#define TFA99XX_TDM_CONFIG6 0x26
+#define TFA99XX_TDM_CONFIG7 0x27
+#define TFA99XX_TDM_CONFIG8 0x28
+#define TFA99XX_TDM_CONFIG9 0x29
+#define TFA99XX_PDM_CONFIG0 0x31
+#define TFA99XX_PDM_CONFIG1 0x32
+#define TFA99XX_INTERRUPT_OUT_REG1 0x40
+#define TFA99XX_INTERRUPT_OUT_REG2 0x41
+#define TFA99XX_INTERRUPT_OUT_REG3 0x42
+#define TFA99XX_INTERRUPT_IN_REG1 0x44
+#define TFA99XX_INTERRUPT_IN_REG2 0x45
+#define TFA99XX_INTERRUPT_IN_REG3 0x46
+#define TFA99XX_INTERRUPT_ENABLE_REG1 0x48
+#define TFA99XX_INTERRUPT_ENABLE_REG2 0x49
+#define TFA99XX_INTERRUPT_ENABLE_REG3 0x4a
+#define TFA99XX_STATUS_POLARITY_REG1 0x4c
+#define TFA99XX_STATUS_POLARITY_REG2 0x4d
+#define TFA99XX_STATUS_POLARITY_REG3 0x4e
+#define TFA99XX_BAT_PROT_CONFIG 0x50
+#define TFA99XX_AUDIO_CONTROL 0x51
+#define TFA99XX_AMPLIFIER_CONFIG 0x52
+#define TFA99XX_KEY1_PROTECTED_AMPLIFIER_CONTROL0 0x53
+#define TFA99XX_KEY1_PROTECTED_AMPLIFIER_CONTROL1 0x54
+#define TFA99XX_KEY1_PROTECTED_AMPLIFIER_CONTROL2 0x55
+#define TFA99XX_KEY1_PROTECTED_AMPLIFIER_CONTROL4 0x57
+#define TFA99XX_KEY1_PROTECTED_PWM_CONFIG 0x58
+#define TFA99XX_CF_TAP_STATUS_0 0x5c
+#define TFA99XX_CF_TAP_STATUS_1 0x5d
+#define TFA99XX_TAP_CONTROL 0x5f
+#define TFA99XX_PGA_CONTROL0 0x60
+#define TFA99XX_GAIN_ATT 0x61
+#define TFA99XX_LOW_NOISE_GAIN1 0x62
+#define TFA99XX_LOW_NOISE_GAIN2 0x63
+#define TFA99XX_MODE1_DETECTOR1 0x64
+#define TFA99XX_MODE1_DETECTOR2 0x65
+#define TFA99XX_BST_PFM_CTRL 0x66
+#define TFA99XX_LOW_POWER_CTRL 0x67
+#define TFA99XX_TDM_SOURCE_CTRL 0x68
+#define TFA99XX_SAM_CTRL 0x69
+#define TFA99XX_RST_MIN_VBAT_CTRL 0x6a
+#define TFA99XX_SYS_CONTROL3 0x6b
+#define TFA99XX_STATUS_FLAGS5 0x6e
+#define TFA99XX_DCDC_CONTROL0 0x70
+#define TFA99XX_KEY1_PROTECTED_DCDC_CONTROL3 0x73
+#define TFA99XX_DCDC_CONTROL4 0x74
+#define TFA99XX_DCDC_CONTROL5 0x75
+#define TFA99XX_DCDC_CONTROL6 0x76
+#define TFA99XX_KEY2_PROTECTED_DCDC_CONTROL7 0x77
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG0 0x80
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG2 0x82
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG3 0x83
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG4 0x84
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG5 0x85
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG7 0x87
+#define TFA99XX_KEY2_PROTECTED_VOLSENSE_CONFIG 0x88
+#define TFA99XX_CURSENSE_CONFIG 0x89
+#define TFA99XX_CF_CONTROLS 0x90
+#define TFA99XX_CF_MAD 0x91
+#define TFA99XX_CF_MEM 0x92
+#define TFA99XX_CF_STATUS 0x93
+#define TFA99XX_MTPKEY1_REG 0xa0
+#define TFA99XX_MTPKEY2_REG 0xa1
+#define TFA99XX_MTP_STATUS 0xa2
+#define TFA99XX_KEY_PROTECTED_MTP_CONTROL 0xa3
+#define TFA99XX_KEY1_PROTECTED_FAIM_CONTROL 0xa4
+#define TFA99XX_MTP_DATA_OUT_MSB 0xa5
+#define TFA99XX_MTP_DATA_OUT_LSB 0xa6
+#define TFA99XX_KEY1_PROTECTED_PROTECTION_CONFIG 0xb0
+#define TFA99XX_TEMP_SENSOR_CONFIG 0xb1
+#define TFA99XX_KEY1_PROTECTED_DIRECT_CONTROL0 0xc0
+#define TFA99XX_KEY1_PROTECTED_DIRECT_CONTROL1 0xc1
+#define TFA99XX_KEY1_PROTECTED_TEST_CONFIG0 0xc3
+#define TFA99XX_KEY1_PROTECTED_TEST_CONFIG1 0xc4
+#define TFA99XX_KEY1_PROTECTED_TEST_CONFIG2 0xc5
+#define TFA99XX_KEY1_PROTECTED_TEST_CONFIG3 0xc6
+#define TFA99XX_KEY1_PROTECTED_DIGIMUX_CONTROL1 0xc8
+#define TFA99XX_KEY1_PROTECTED_ANAMUX_CONTROL0 0xca
+#define TFA99XX_KEY1_PROTECTED_ANAMUX_CONTROL1 0xcb
+#define TFA99XX_KEY1_PROTECTED_PLL_TEST0 0xcd
+#define TFA99XX_KEY1_PROTECTED_PLL_TEST3 0xd0
+#define TFA99XX_KEY1_PROTECTED_TSIG_CONTROL1 0xd2
+#define TFA99XX_KEY1_PROTECTED_ADC10_CONTROL 0xd3
+#define TFA99XX_KEY1_PROTECTED_ADC10_DATA 0xd4
+#define TFA99XX_KEY2_PROTECTED_CTRL_DIGTOANA 0xd5
+#define TFA99XX_KEY1_PROTECTED_CLKDIV_CONTROL 0xd6
+#define TFA99XX_KEY1_PROTECTED_IO_CONFIG2 0xd7
+#define TFA99XX_KEY1_PROTECTED_TEST_CTRL1 0xd8
+#define TFA99XX_KEY1_PROTECTED_MODE_OVERRULE 0xd9
+#define TFA99XX_KEY1_PROTECTED_FRO8_CALIB_CTRL 0xed
+#define TFA99XX_SOFTWARE_PROFILE 0xee
+#define TFA99XX_SOFTWARE_VSTEP 0xef
+#define TFA99XX_KEY2_PROTECTED_MTP0 0xf0
+#define TFA99XX_KEY1_PROTECTED_MTP2 0xf2
+#define TFA99XX_KEY2_PROTECTED_MTP4 0xf4
+#define TFA99XX_KEY1_PROTECTED_MTP6 0xf6
+#define TFA99XX_KEY1_PROTECTED_MTP7 0xf7
+#define TFA99XX_KEY1_PROTECTED_MTP9 0xf9
+#define TFA99XX_KEY1_PROTECTED_MTPF 0xff
+#define TFA99XX_SYS_CONTROL0_POR
+#define TFA99XX_SYS_CONTROL1_POR
+#define TFA99XX_SYS_CONTROL2_POR
+#define TFA99XX_DEVICE_REVISION_POR
+#define TFA99XX_CLOCK_CONTROL_POR
+#define TFA99XX_CLOCK_GATING_CONTROL_POR
+#define TFA99XX_HW_PATH_CFG_POR
+#define TFA99XX_CLKCHK_TH_POR
+#define TFA99XX_AMP_CTRL_POR
+#define TFA99XX_SIDE_TONE_CONFIG_POR
+#define TFA99XX_CTRL_DIGTOANA_REG_POR
+#define TFA99XX_STATUS_FLAGS0_POR
+#define TFA99XX_STATUS_FLAGS1_POR
+#define TFA99XX_STATUS_FLAGS3_POR
+#define TFA99XX_STATUS_FLAGS4_POR
+#define TFA99XX_BATTERY_VOLTAGE_POR
+#define TFA99XX_TEMPERATURE_POR
+#define TFA99XX_VDDP_VOLTAGE_POR
+#define TFA99XX_TDM_CONFIG0_POR
+#define TFA99XX_TDM_CONFIG1_POR
+#define TFA99XX_TDM_CONFIG2_POR
+#define TFA99XX_TDM_CONFIG3_POR
+#define TFA99XX_TDM_CONFIG4_POR
+#define TFA99XX_TDM_CONFIG5_POR
+#define TFA99XX_TDM_CONFIG6_POR
+#define TFA99XX_TDM_CONFIG7_POR
+#define TFA99XX_TDM_CONFIG8_POR
+#define TFA99XX_TDM_CONFIG9_POR
+#define TFA99XX_PDM_CONFIG0_POR
+#define TFA99XX_PDM_CONFIG1_POR
+#define TFA99XX_INTERRUPT_OUT_REG1_POR
+#define TFA99XX_INTERRUPT_OUT_REG2_POR
+#define TFA99XX_INTERRUPT_OUT_REG3_POR
+#define TFA99XX_INTERRUPT_IN_REG1_POR
+#define TFA99XX_INTERRUPT_IN_REG2_POR
+#define TFA99XX_INTERRUPT_IN_REG3_POR
+#define TFA99XX_INTERRUPT_ENABLE_REG1_POR
+#define TFA99XX_INTERRUPT_ENABLE_REG2_POR
+#define TFA99XX_INTERRUPT_ENABLE_REG3_POR
+#define TFA99XX_STATUS_POLARITY_REG1_POR
+#define TFA99XX_STATUS_POLARITY_REG2_POR
+#define TFA99XX_STATUS_POLARITY_REG3_POR
+#define TFA99XX_BAT_PROT_CONFIG_POR
+#define TFA99XX_AUDIO_CONTROL_POR
+#define TFA99XX_AMPLIFIER_CONFIG_POR
+#define TFA99XX_KEY1_PROTECTED_AMPLIFIER_CONTROL0_POR
+#define TFA99XX_KEY1_PROTECTED_AMPLIFIER_CONTROL1_POR
+#define TFA99XX_KEY1_PROTECTED_AMPLIFIER_CONTROL2_POR
+#define TFA99XX_KEY1_PROTECTED_AMPLIFIER_CONTROL4_POR
+#define TFA99XX_KEY1_PROTECTED_PWM_CONFIG_POR
+#define TFA99XX_CF_TAP_STATUS_0_POR
+#define TFA99XX_CF_TAP_STATUS_1_POR
+#define TFA99XX_TAP_CONTROL_POR
+#define TFA99XX_PGA_CONTROL0_POR
+#define TFA99XX_GAIN_ATT_POR
+#define TFA99XX_LOW_NOISE_GAIN1_POR
+#define TFA99XX_LOW_NOISE_GAIN2_POR
+#define TFA99XX_MODE1_DETECTOR1_POR
+#define TFA99XX_MODE1_DETECTOR2_POR
+#define TFA99XX_BST_PFM_CTRL_POR
+#define TFA99XX_LOW_POWER_CTRL_POR
+#define TFA99XX_TDM_SOURCE_CTRL_POR
+#define TFA99XX_SAM_CTRL_POR
+#define TFA99XX_RST_MIN_VBAT_CTRL_POR
+#define TFA99XX_SYS_CONTROL3_POR
+#define TFA99XX_STATUS_FLAGS5_POR
+#define TFA99XX_DCDC_CONTROL0_POR
+#define TFA99XX_KEY1_PROTECTED_DCDC_CONTROL3_POR
+#define TFA99XX_DCDC_CONTROL4_POR
+#define TFA99XX_DCDC_CONTROL5_POR
+#define TFA99XX_DCDC_CONTROL6_POR
+#define TFA99XX_KEY2_PROTECTED_DCDC_CONTROL7_POR
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG0_POR
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG2_POR
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG3_POR
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG4_POR
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG5_POR
+#define TFA99XX_KEY2_PROTECTED_CURSENSE_CONFIG7_POR
+#define TFA99XX_KEY2_PROTECTED_VOLSENSE_CONFIG_POR
+#define TFA99XX_CURSENSE_CONFIG_POR
+#define TFA99XX_CF_CONTROLS_POR
+#define TFA99XX_CF_MAD_POR
+#define TFA99XX_CF_MEM_POR
+#define TFA99XX_CF_STATUS_POR
+#define TFA99XX_MTPKEY1_REG_POR
+#define TFA99XX_MTPKEY2_REG_POR
+#define TFA99XX_MTP_STATUS_POR
+#define TFA99XX_KEY_PROTECTED_MTP_CONTROL_POR
+#define TFA99XX_KEY1_PROTECTED_FAIM_CONTROL_POR
+#define TFA99XX_MTP_DATA_OUT_MSB_POR
+#define TFA99XX_MTP_DATA_OUT_LSB_POR
+#define TFA99XX_KEY1_PROTECTED_PROTECTION_CONFIG_POR
+#define TFA99XX_TEMP_SENSOR_CONFIG_POR
+#define TFA99XX_KEY1_PROTECTED_DIRECT_CONTROL0_POR
+#define TFA99XX_KEY1_PROTECTED_DIRECT_CONTROL1_POR
+#define TFA99XX_KEY1_PROTECTED_TEST_CONFIG0_POR
+#define TFA99XX_KEY1_PROTECTED_TEST_CONFIG1_POR
+#define TFA99XX_KEY1_PROTECTED_TEST_CONFIG2_POR
+#define TFA99XX_KEY1_PROTECTED_TEST_CONFIG3_POR
+#define TFA99XX_KEY1_PROTECTED_DIGIMUX_CONTROL1_POR
+#define TFA99XX_KEY1_PROTECTED_ANAMUX_CONTROL0_POR
+#define TFA99XX_KEY1_PROTECTED_ANAMUX_CONTROL1_POR
+#define TFA99XX_KEY1_PROTECTED_PLL_TEST0_POR
+#define TFA99XX_KEY1_PROTECTED_PLL_TEST3_POR
+#define TFA99XX_KEY1_PROTECTED_TSIG_CONTROL1_POR
+#define TFA99XX_KEY1_PROTECTED_ADC10_CONTROL_POR
+#define TFA99XX_KEY1_PROTECTED_ADC10_DATA_POR
+#define TFA99XX_KEY2_PROTECTED_CTRL_DIGTOANA_POR
+#define TFA99XX_KEY1_PROTECTED_CLKDIV_CONTROL_POR
+#define TFA99XX_KEY1_PROTECTED_IO_CONFIG2_POR
+#define TFA99XX_KEY1_PROTECTED_TEST_CTRL1_POR
+#define TFA99XX_KEY1_PROTECTED_MODE_OVERRULE_POR
+#define TFA99XX_KEY1_PROTECTED_FRO8_CALIB_CTRL_POR
+#define TFA99XX_SOFTWARE_PROFILE_POR
+#define TFA99XX_SOFTWARE_VSTEP_POR
+#define TFA99XX_KEY2_PROTECTED_MTP0_POR
+#define TFA99XX_KEY1_PROTECTED_MTP2_POR
+#define TFA99XX_KEY2_PROTECTED_MTP4_POR
+#define TFA99XX_KEY1_PROTECTED_MTP6_POR
+#define TFA99XX_KEY1_PROTECTED_MTP7_POR
+#define TFA99XX_KEY1_PROTECTED_MTP9_POR
+#define TFA99XX_KEY1_PROTECTED_MTPF_POR
+
+#endif /* _TFA9912_DEVICE_GENREGS_H */
diff --git a/inc/tfa9912_tfafieldnames.h b/inc/tfa9912_tfafieldnames.h
new file mode 100644
index 0000000..36741f6
--- /dev/null
+++ b/inc/tfa9912_tfafieldnames.h
@@ -0,0 +1,1769 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef _TFA9912_TFAFIELDNAMES_H
+#define _TFA9912_TFAFIELDNAMES_H
+
+
+#define TFA9912_I2CVERSION 1.43
+
+typedef enum nxpTfa9912BfEnumList {
+ TFA9912_BF_PWDN = 0x0000, /*!< Powerdown selection */
+ TFA9912_BF_I2CR = 0x0010, /*!< I2C Reset - Auto clear */
+ TFA9912_BF_CFE = 0x0020, /*!< Enable CoolFlux */
+ TFA9912_BF_AMPE = 0x0030, /*!< Enables the Amplifier */
+ TFA9912_BF_DCA = 0x0040, /*!< Activate DC-to-DC converter */
+ TFA9912_BF_SBSL = 0x0050, /*!< Coolflux configured */
+ TFA9912_BF_AMPC = 0x0060, /*!< CoolFlux controls amplifier */
+ TFA9912_BF_INTP = 0x0071, /*!< Interrupt config */
+ TFA9912_BF_FSSSEL= 0x0090, /*!< Audio sample reference */
+ TFA9912_BF_BYPOCP= 0x00b0, /*!< Bypass OCP */
+ TFA9912_BF_TSTOCP= 0x00c0, /*!< OCP testing control */
+ TFA9912_BF_AMPINSEL= 0x0101, /*!< Amplifier input selection */
+ TFA9912_BF_MANSCONF= 0x0120, /*!< I2C configured */
+ TFA9912_BF_MANCOLD= 0x0130, /*!< Execute cold start */
+ TFA9912_BF_MANAOOSC= 0x0140, /*!< Internal osc off at PWDN */
+ TFA9912_BF_MANROBOD= 0x0150, /*!< Reaction on BOD */
+ TFA9912_BF_BODE = 0x0160, /*!< BOD Enable */
+ TFA9912_BF_BODHYS= 0x0170, /*!< BOD Hysteresis */
+ TFA9912_BF_BODFILT= 0x0181, /*!< BOD filter */
+ TFA9912_BF_BODTHLVL= 0x01a1, /*!< BOD threshold */
+ TFA9912_BF_MUTETO= 0x01d0, /*!< Time out SB mute sequence */
+ TFA9912_BF_RCVNS = 0x01e0, /*!< Noise shaper selection */
+ TFA9912_BF_MANWDE= 0x01f0, /*!< Watchdog enable */
+ TFA9912_BF_AUDFS = 0x0203, /*!< Sample rate (fs) */
+ TFA9912_BF_INPLEV= 0x0240, /*!< TDM output attenuation */
+ TFA9912_BF_FRACTDEL= 0x0255, /*!< V/I Fractional delay */
+ TFA9912_BF_BYPHVBF= 0x02b0, /*!< Bypass HVBAT filter */
+ TFA9912_BF_TDMC = 0x02c0, /*!< TDM Compatibility with TFA9872 */
+ TFA9912_BF_ENBLADC10= 0x02e0, /*!< ADC10 Enable - I2C direct mode */
+ TFA9912_BF_REV = 0x030f, /*!< Revision info */
+ TFA9912_BF_REFCKEXT= 0x0401, /*!< PLL external ref clock */
+ TFA9912_BF_REFCKSEL= 0x0420, /*!< PLL internal ref clock */
+ TFA9912_BF_ENCFCKSEL= 0x0430, /*!< Coolflux DSP clock scaling, low power mode */
+ TFA9912_BF_CFCKSEL= 0x0441, /*!< Coolflux DSP clock scaler selection for low power mode */
+ TFA9912_BF_TDMINFSEL= 0x0460, /*!< TDM clock selection */
+ TFA9912_BF_DISBLAUTOCLKSEL= 0x0470, /*!< Disable Automatic dsp clock source selection */
+ TFA9912_BF_SELCLKSRC= 0x0480, /*!< I2C selection of DSP clock when auto select is disabled */
+ TFA9912_BF_SELTIMSRC= 0x0490, /*!< I2C selection of Watchdog and Timer clock */
+ TFA9912_BF_SSLEFTE= 0x0500, /*!< */
+ TFA9912_BF_SPKSSEN= 0x0510, /*!< Enable speaker path */
+ TFA9912_BF_VSLEFTE= 0x0520, /*!< */
+ TFA9912_BF_VSRIGHTE= 0x0530, /*!< Voltage sense */
+ TFA9912_BF_CSLEFTE= 0x0540, /*!< */
+ TFA9912_BF_CSRIGHTE= 0x0550, /*!< Current sense */
+ TFA9912_BF_SSPDME= 0x0560, /*!< Sub-system PDM */
+ TFA9912_BF_PGALE = 0x0570, /*!< Enable PGA chop clock for left channel */
+ TFA9912_BF_PGARE = 0x0580, /*!< Enable PGA chop clock */
+ TFA9912_BF_SSTDME= 0x0590, /*!< Sub-system TDM */
+ TFA9912_BF_SSPBSTE= 0x05a0, /*!< Sub-system boost */
+ TFA9912_BF_SSADCE= 0x05b0, /*!< Sub-system ADC */
+ TFA9912_BF_SSFAIME= 0x05c0, /*!< Sub-system FAIM */
+ TFA9912_BF_SSCFTIME= 0x05d0, /*!< CF Sub-system timer */
+ TFA9912_BF_SSCFWDTE= 0x05e0, /*!< CF Sub-system WDT */
+ TFA9912_BF_FAIMVBGOVRRL= 0x05f0, /*!< Over rule of vbg for FaIM access */
+ TFA9912_BF_SAMSPKSEL= 0x0600, /*!< Input selection for TAP/SAM */
+ TFA9912_BF_PDM2IISEN= 0x0610, /*!< PDM2IIS Bridge enable */
+ TFA9912_BF_TAPRSTBYPASS= 0x0620, /*!< Tap decimator reset bypass - Bypass the decimator reset from tapdec */
+ TFA9912_BF_CARDECISEL0= 0x0631, /*!< Cardec input 0 sel */
+ TFA9912_BF_CARDECISEL1= 0x0651, /*!< Cardec input sel */
+ TFA9912_BF_TAPDECSEL= 0x0670, /*!< Select TAP/Cardec for TAP */
+ TFA9912_BF_COMPCOUNT= 0x0680, /*!< Comparator o/p filter selection */
+ TFA9912_BF_STARTUPMODE= 0x0691, /*!< Startup Mode Selection */
+ TFA9912_BF_AUTOTAP= 0x06b0, /*!< Enable auto tap switching */
+ TFA9912_BF_COMPINITIME= 0x06c1, /*!< Comparator initialization time to be used in Tap Machine */
+ TFA9912_BF_ANAPINITIME= 0x06e1, /*!< Analog initialization time to be used in Tap Machine */
+ TFA9912_BF_CCHKTH= 0x0707, /*!< Clock check Higher Threshold */
+ TFA9912_BF_CCHKTL= 0x0787, /*!< Clock check Higher Threshold */
+ TFA9912_BF_AMPOCRT= 0x0802, /*!< Amplifier on-off criteria for shutdown */
+ TFA9912_BF_AMPTCRR= 0x0832, /*!< Amplifier on-off criteria for tap mode entry */
+ TFA9912_BF_STGS = 0x0d00, /*!< PDM side tone gain selector */
+ TFA9912_BF_STGAIN= 0x0d18, /*!< Side tone gain */
+ TFA9912_BF_STSMUTE= 0x0da0, /*!< Side tone soft mute */
+ TFA9912_BF_ST1C = 0x0db0, /*!< side tone one s complement */
+ TFA9912_BF_CMFBEL= 0x0e80, /*!< CMFB enable left */
+ TFA9912_BF_VDDS = 0x1000, /*!< POR */
+ TFA9912_BF_PLLS = 0x1010, /*!< PLL lock */
+ TFA9912_BF_OTDS = 0x1020, /*!< OTP alarm */
+ TFA9912_BF_OVDS = 0x1030, /*!< OVP alarm */
+ TFA9912_BF_UVDS = 0x1040, /*!< UVP alarm */
+ TFA9912_BF_CLKS = 0x1050, /*!< Clocks stable */
+ TFA9912_BF_MTPB = 0x1060, /*!< MTP busy */
+ TFA9912_BF_NOCLK = 0x1070, /*!< Lost clock */
+ TFA9912_BF_ACS = 0x1090, /*!< Cold Start */
+ TFA9912_BF_SWS = 0x10a0, /*!< Amplifier engage */
+ TFA9912_BF_WDS = 0x10b0, /*!< Watchdog */
+ TFA9912_BF_AMPS = 0x10c0, /*!< Amplifier enable */
+ TFA9912_BF_AREFS = 0x10d0, /*!< References enable */
+ TFA9912_BF_ADCCR = 0x10e0, /*!< Control ADC */
+ TFA9912_BF_BODNOK= 0x10f0, /*!< BOD */
+ TFA9912_BF_DCIL = 0x1100, /*!< DCDC current limiting */
+ TFA9912_BF_DCDCA = 0x1110, /*!< DCDC active */
+ TFA9912_BF_DCOCPOK= 0x1120, /*!< DCDC OCP nmos */
+ TFA9912_BF_DCPEAKCUR= 0x1130, /*!< Indicates current is max in DC-to-DC converter */
+ TFA9912_BF_DCHVBAT= 0x1140, /*!< DCDC level 1x */
+ TFA9912_BF_DCH114= 0x1150, /*!< DCDC level 1.14x */
+ TFA9912_BF_DCH107= 0x1160, /*!< DCDC level 1.07x */
+ TFA9912_BF_STMUTEB= 0x1170, /*!< side tone (un)mute busy */
+ TFA9912_BF_STMUTE= 0x1180, /*!< side tone mute state */
+ TFA9912_BF_TDMLUTER= 0x1190, /*!< TDM LUT error */
+ TFA9912_BF_TDMSTAT= 0x11a2, /*!< TDM status bits */
+ TFA9912_BF_TDMERR= 0x11d0, /*!< TDM error */
+ TFA9912_BF_HAPTIC= 0x11e0, /*!< Status haptic driver */
+ TFA9912_BF_OCPOAP= 0x1300, /*!< OCPOK pmos A */
+ TFA9912_BF_OCPOAN= 0x1310, /*!< OCPOK nmos A */
+ TFA9912_BF_OCPOBP= 0x1320, /*!< OCPOK pmos B */
+ TFA9912_BF_OCPOBN= 0x1330, /*!< OCPOK nmos B */
+ TFA9912_BF_CLIPAH= 0x1340, /*!< Clipping A to Vddp */
+ TFA9912_BF_CLIPAL= 0x1350, /*!< Clipping A to gnd */
+ TFA9912_BF_CLIPBH= 0x1360, /*!< Clipping B to Vddp */
+ TFA9912_BF_CLIPBL= 0x1370, /*!< Clipping B to gnd */
+ TFA9912_BF_OCDS = 0x1380, /*!< OCP amplifier */
+ TFA9912_BF_CLIPS = 0x1390, /*!< Amplifier clipping */
+ TFA9912_BF_TCMPTRG= 0x13a0, /*!< Status Tap comparator triggered */
+ TFA9912_BF_TAPDET= 0x13b0, /*!< Status Tap detected */
+ TFA9912_BF_MANWAIT1= 0x13c0, /*!< Wait HW I2C settings */
+ TFA9912_BF_MANWAIT2= 0x13d0, /*!< Wait CF config */
+ TFA9912_BF_MANMUTE= 0x13e0, /*!< Audio mute sequence */
+ TFA9912_BF_MANOPER= 0x13f0, /*!< Operating state */
+ TFA9912_BF_SPKSL = 0x1400, /*!< Left speaker status */
+ TFA9912_BF_SPKS = 0x1410, /*!< Speaker status */
+ TFA9912_BF_CLKOOR= 0x1420, /*!< External clock status */
+ TFA9912_BF_MANSTATE= 0x1433, /*!< Device manager status */
+ TFA9912_BF_DCMODE= 0x1471, /*!< DCDC mode status bits */
+ TFA9912_BF_DSPCLKSRC= 0x1490, /*!< DSP clock source selected by manager */
+ TFA9912_BF_STARTUPMODSTAT= 0x14a1, /*!< Startup Mode Selected by Manager(Read Only) */
+ TFA9912_BF_TSPMSTATE= 0x14c3, /*!< Tap Machine State */
+ TFA9912_BF_BATS = 0x1509, /*!< Battery voltage (V) */
+ TFA9912_BF_TEMPS = 0x1608, /*!< IC Temperature (C) */
+ TFA9912_BF_VDDPS = 0x1709, /*!< IC VDDP voltage ( 1023*VDDP/13 V) */
+ TFA9912_BF_DCILCF= 0x17a0, /*!< DCDC current limiting for DSP */
+ TFA9912_BF_TDMUC = 0x2000, /*!< Mode setting */
+ TFA9912_BF_DIO4SEL= 0x2011, /*!< DIO4 Input selection */
+ TFA9912_BF_TDME = 0x2040, /*!< Enable TDM interface */
+ TFA9912_BF_TDMMODE= 0x2050, /*!< Slave/master */
+ TFA9912_BF_TDMCLINV= 0x2060, /*!< Reception data to BCK clock */
+ TFA9912_BF_TDMFSLN= 0x2073, /*!< FS length */
+ TFA9912_BF_TDMFSPOL= 0x20b0, /*!< FS polarity */
+ TFA9912_BF_TDMNBCK= 0x20c3, /*!< N-BCK's in FS */
+ TFA9912_BF_TDMSLOTS= 0x2103, /*!< N-slots in Frame */
+ TFA9912_BF_TDMSLLN= 0x2144, /*!< N-bits in slot */
+ TFA9912_BF_TDMBRMG= 0x2194, /*!< N-bits remaining */
+ TFA9912_BF_TDMDEL= 0x21e0, /*!< data delay to FS */
+ TFA9912_BF_TDMADJ= 0x21f0, /*!< data adjustment */
+ TFA9912_BF_TDMOOMP= 0x2201, /*!< Received audio compression */
+ TFA9912_BF_TDMSSIZE= 0x2224, /*!< Sample size per slot */
+ TFA9912_BF_TDMTXDFO= 0x2271, /*!< Format unused bits in a slot */
+ TFA9912_BF_TDMTXUS0= 0x2291, /*!< Format unused slots GAINIO */
+ TFA9912_BF_TDMTXUS1= 0x22b1, /*!< Format unused slots DIO1 */
+ TFA9912_BF_TDMTXUS2= 0x22d1, /*!< Format unused slots DIO2 */
+ TFA9912_BF_TDMGIE= 0x2300, /*!< Control gain (channel in 0) */
+ TFA9912_BF_TDMDCE= 0x2310, /*!< Control audio left (channel in 1 ) */
+ TFA9912_BF_TDMSPKE= 0x2320, /*!< Control audio right (channel in 2 ) */
+ TFA9912_BF_TDMCSE= 0x2330, /*!< Current sense */
+ TFA9912_BF_TDMVSE= 0x2340, /*!< Voltage sense */
+ TFA9912_BF_TDMGOE= 0x2350, /*!< DSP Gainout */
+ TFA9912_BF_TDMCF2E= 0x2360, /*!< DSP 2 */
+ TFA9912_BF_TDMCF3E= 0x2370, /*!< DSP 3 */
+ TFA9912_BF_TDMCFE= 0x2380, /*!< DSP */
+ TFA9912_BF_TDMES6= 0x2390, /*!< Loopback of Audio left (channel 1) */
+ TFA9912_BF_TDMES7= 0x23a0, /*!< Loopback of Audio right (channel 2) */
+ TFA9912_BF_TDMCF4E= 0x23b0, /*!< AEC ref right control */
+ TFA9912_BF_TDMPD1E= 0x23c0, /*!< PDM 1 control */
+ TFA9912_BF_TDMPD2E= 0x23d0, /*!< PDM 2 control */
+ TFA9912_BF_TDMGIN= 0x2401, /*!< IO gainin */
+ TFA9912_BF_TDMLIO= 0x2421, /*!< IO audio left */
+ TFA9912_BF_TDMRIO= 0x2441, /*!< IO audio right */
+ TFA9912_BF_TDMCSIO= 0x2461, /*!< IO Current Sense */
+ TFA9912_BF_TDMVSIO= 0x2481, /*!< IO voltage sense */
+ TFA9912_BF_TDMGOIO= 0x24a1, /*!< IO gain out */
+ TFA9912_BF_TDMCFIO2= 0x24c1, /*!< IO DSP 2 */
+ TFA9912_BF_TDMCFIO3= 0x24e1, /*!< IO DSP 3 */
+ TFA9912_BF_TDMCFIO= 0x2501, /*!< IO DSP */
+ TFA9912_BF_TDMLPB6= 0x2521, /*!< IO Source 6 */
+ TFA9912_BF_TDMLPB7= 0x2541, /*!< IO Source 7 */
+ TFA9912_BF_TDMGS = 0x2603, /*!< Control gainin */
+ TFA9912_BF_TDMDCS= 0x2643, /*!< tdm slot for audio left (channel 1) */
+ TFA9912_BF_TDMSPKS= 0x2683, /*!< tdm slot for audio right (channel 2) */
+ TFA9912_BF_TDMCSS= 0x26c3, /*!< Slot Position of Current Sense Out */
+ TFA9912_BF_TDMVSS= 0x2703, /*!< Slot Position of Voltage sense */
+ TFA9912_BF_TDMCGOS= 0x2743, /*!< Slot Position of GAIN out */
+ TFA9912_BF_TDMCF2S= 0x2783, /*!< Slot Position DSPout2 */
+ TFA9912_BF_TDMCF3S= 0x27c3, /*!< Slot Position DSPout3 */
+ TFA9912_BF_TDMCFS= 0x2803, /*!< Slot Position of DSPout */
+ TFA9912_BF_TDMEDAT6S= 0x2843, /*!< Slot Position of loopback channel left */
+ TFA9912_BF_TDMEDAT7S= 0x2883, /*!< Slot Position of loopback channel right */
+ TFA9912_BF_TDMTXUS3= 0x2901, /*!< Format unused slots D3 */
+ TFA9912_BF_PDMSM = 0x3100, /*!< PDM control */
+ TFA9912_BF_PDMSTSEL= 0x3110, /*!< PDM Decimator input selection */
+ TFA9912_BF_PDMSTENBL= 0x3120, /*!< Side tone input enable */
+ TFA9912_BF_PDMLSEL= 0x3130, /*!< PDM data selection for left channel during PDM direct mode */
+ TFA9912_BF_PDMRSEL= 0x3140, /*!< PDM data selection for right channel during PDM direct mode */
+ TFA9912_BF_MICVDDE= 0x3150, /*!< Enable MICVDD */
+ TFA9912_BF_PDMCLRAT= 0x3201, /*!< PDM BCK/Fs ratio */
+ TFA9912_BF_PDMGAIN= 0x3223, /*!< PDM gain */
+ TFA9912_BF_PDMOSEL= 0x3263, /*!< PDM output selection - RE/FE data combination */
+ TFA9912_BF_SELCFHAPD= 0x32a0, /*!< Select the source for haptic data output (not for customer) */
+ TFA9912_BF_ISTVDDS= 0x4000, /*!< Status POR */
+ TFA9912_BF_ISTPLLS= 0x4010, /*!< Status PLL lock */
+ TFA9912_BF_ISTOTDS= 0x4020, /*!< Status OTP alarm */
+ TFA9912_BF_ISTOVDS= 0x4030, /*!< Status OVP alarm */
+ TFA9912_BF_ISTUVDS= 0x4040, /*!< Status UVP alarm */
+ TFA9912_BF_ISTCLKS= 0x4050, /*!< Status clocks stable */
+ TFA9912_BF_ISTMTPB= 0x4060, /*!< Status MTP busy */
+ TFA9912_BF_ISTNOCLK= 0x4070, /*!< Status lost clock */
+ TFA9912_BF_ISTSPKS= 0x4080, /*!< Status speaker error */
+ TFA9912_BF_ISTACS= 0x4090, /*!< Status cold start */
+ TFA9912_BF_ISTSWS= 0x40a0, /*!< Status amplifier engage */
+ TFA9912_BF_ISTWDS= 0x40b0, /*!< Status watchdog */
+ TFA9912_BF_ISTAMPS= 0x40c0, /*!< Status amplifier enable */
+ TFA9912_BF_ISTAREFS= 0x40d0, /*!< Status Ref enable */
+ TFA9912_BF_ISTADCCR= 0x40e0, /*!< Status Control ADC */
+ TFA9912_BF_ISTBODNOK= 0x40f0, /*!< Status BOD */
+ TFA9912_BF_ISTBSTCU= 0x4100, /*!< Status DCDC current limiting */
+ TFA9912_BF_ISTBSTHI= 0x4110, /*!< Status DCDC active */
+ TFA9912_BF_ISTBSTOC= 0x4120, /*!< Status DCDC OCP */
+ TFA9912_BF_ISTBSTPKCUR= 0x4130, /*!< Status bst peakcur */
+ TFA9912_BF_ISTBSTVC= 0x4140, /*!< Status DCDC level 1x */
+ TFA9912_BF_ISTBST86= 0x4150, /*!< Status DCDC level 1.14x */
+ TFA9912_BF_ISTBST93= 0x4160, /*!< Status DCDC level 1.07x */
+ TFA9912_BF_ISTRCVLD= 0x4170, /*!< Status rcvldop ready */
+ TFA9912_BF_ISTOCPL= 0x4180, /*!< Status ocp alarm left */
+ TFA9912_BF_ISTOCPR= 0x4190, /*!< Status ocp alarm */
+ TFA9912_BF_ISTMWSRC= 0x41a0, /*!< Status Waits HW I2C settings */
+ TFA9912_BF_ISTMWCFC= 0x41b0, /*!< Status waits CF config */
+ TFA9912_BF_ISTMWSMU= 0x41c0, /*!< Status Audio mute sequence */
+ TFA9912_BF_ISTCFMER= 0x41d0, /*!< Status cfma error */
+ TFA9912_BF_ISTCFMAC= 0x41e0, /*!< Status cfma ack */
+ TFA9912_BF_ISTCLKOOR= 0x41f0, /*!< Status flag_clk_out_of_range */
+ TFA9912_BF_ISTTDMER= 0x4200, /*!< Status tdm error */
+ TFA9912_BF_ISTCLPL= 0x4210, /*!< Status clip left */
+ TFA9912_BF_ISTCLPR= 0x4220, /*!< Status clip */
+ TFA9912_BF_ISTOCPM= 0x4230, /*!< Status mic ocpok */
+ TFA9912_BF_ISTLP1= 0x4250, /*!< Status low power mode1 */
+ TFA9912_BF_ISTLA = 0x4260, /*!< Status low amplitude detection */
+ TFA9912_BF_ISTVDDP= 0x4270, /*!< Status VDDP greater than VBAT */
+ TFA9912_BF_ISTTAPDET= 0x4280, /*!< Status Tap detected */
+ TFA9912_BF_ISTAUDMOD= 0x4290, /*!< Status Audio Mode activated */
+ TFA9912_BF_ISTSAMMOD= 0x42a0, /*!< Status SAM Mode activated */
+ TFA9912_BF_ISTTAPMOD= 0x42b0, /*!< Status Tap Mode Activated */
+ TFA9912_BF_ISTTAPTRG= 0x42c0, /*!< Status Tap comparator triggered */
+ TFA9912_BF_ICLVDDS= 0x4400, /*!< Clear POR */
+ TFA9912_BF_ICLPLLS= 0x4410, /*!< Clear PLL lock */
+ TFA9912_BF_ICLOTDS= 0x4420, /*!< Clear OTP alarm */
+ TFA9912_BF_ICLOVDS= 0x4430, /*!< Clear OVP alarm */
+ TFA9912_BF_ICLUVDS= 0x4440, /*!< Clear UVP alarm */
+ TFA9912_BF_ICLCLKS= 0x4450, /*!< Clear clocks stable */
+ TFA9912_BF_ICLMTPB= 0x4460, /*!< Clear mtp busy */
+ TFA9912_BF_ICLNOCLK= 0x4470, /*!< Clear lost clk */
+ TFA9912_BF_ICLSPKS= 0x4480, /*!< Clear speaker error */
+ TFA9912_BF_ICLACS= 0x4490, /*!< Clear cold started */
+ TFA9912_BF_ICLSWS= 0x44a0, /*!< Clear amplifier engage */
+ TFA9912_BF_ICLWDS= 0x44b0, /*!< Clear watchdog */
+ TFA9912_BF_ICLAMPS= 0x44c0, /*!< Clear enbl amp */
+ TFA9912_BF_ICLAREFS= 0x44d0, /*!< Clear ref enable */
+ TFA9912_BF_ICLADCCR= 0x44e0, /*!< Clear control ADC */
+ TFA9912_BF_ICLBODNOK= 0x44f0, /*!< Clear BOD */
+ TFA9912_BF_ICLBSTCU= 0x4500, /*!< Clear DCDC current limiting */
+ TFA9912_BF_ICLBSTHI= 0x4510, /*!< Clear DCDC active */
+ TFA9912_BF_ICLBSTOC= 0x4520, /*!< Clear DCDC OCP */
+ TFA9912_BF_ICLBSTPC= 0x4530, /*!< Clear bst peakcur */
+ TFA9912_BF_ICLBSTVC= 0x4540, /*!< Clear DCDC level 1x */
+ TFA9912_BF_ICLBST86= 0x4550, /*!< Clear DCDC level 1.14x */
+ TFA9912_BF_ICLBST93= 0x4560, /*!< Clear DCDC level 1.07x */
+ TFA9912_BF_ICLRCVLD= 0x4570, /*!< Clear rcvldop ready */
+ TFA9912_BF_ICLOCPL= 0x4580, /*!< Clear ocp alarm left */
+ TFA9912_BF_ICLOCPR= 0x4590, /*!< Clear ocp alarm */
+ TFA9912_BF_ICLMWSRC= 0x45a0, /*!< Clear wait HW I2C settings */
+ TFA9912_BF_ICLMWCFC= 0x45b0, /*!< Clear wait cf config */
+ TFA9912_BF_ICLMWSMU= 0x45c0, /*!< Clear audio mute sequence */
+ TFA9912_BF_ICLCFMER= 0x45d0, /*!< Clear cfma err */
+ TFA9912_BF_ICLCFMAC= 0x45e0, /*!< Clear cfma ack */
+ TFA9912_BF_ICLCLKOOR= 0x45f0, /*!< Clear flag_clk_out_of_range */
+ TFA9912_BF_ICLTDMER= 0x4600, /*!< Clear tdm error */
+ TFA9912_BF_ICLCLPL= 0x4610, /*!< Clear clip left */
+ TFA9912_BF_ICLCLP= 0x4620, /*!< Clear clip */
+ TFA9912_BF_ICLOCPM= 0x4630, /*!< Clear mic ocpok */
+ TFA9912_BF_ICLLP1= 0x4650, /*!< Clear low power mode1 */
+ TFA9912_BF_ICLLA = 0x4660, /*!< Clear low amplitude detection */
+ TFA9912_BF_ICLVDDP= 0x4670, /*!< Clear VDDP greater then VBAT */
+ TFA9912_BF_ICLTAPDET= 0x4680, /*!< Clear Tap detected */
+ TFA9912_BF_ICLAUDMOD= 0x4690, /*!< Clear Audio Mode activated */
+ TFA9912_BF_ICLSAMMOD= 0x46a0, /*!< Clear SAM Mode activated */
+ TFA9912_BF_ICLTAPMOD= 0x46b0, /*!< Clear Tap Mode Activated */
+ TFA9912_BF_ICLTAPTRG= 0x46c0, /*!< Clear Comparator Interrupt */
+ TFA9912_BF_IEVDDS= 0x4800, /*!< Enable por */
+ TFA9912_BF_IEPLLS= 0x4810, /*!< Enable pll lock */
+ TFA9912_BF_IEOTDS= 0x4820, /*!< Enable OTP alarm */
+ TFA9912_BF_IEOVDS= 0x4830, /*!< Enable OVP alarm */
+ TFA9912_BF_IEUVDS= 0x4840, /*!< Enable UVP alarm */
+ TFA9912_BF_IECLKS= 0x4850, /*!< Enable clocks stable */
+ TFA9912_BF_IEMTPB= 0x4860, /*!< Enable mtp busy */
+ TFA9912_BF_IENOCLK= 0x4870, /*!< Enable lost clk */
+ TFA9912_BF_IESPKS= 0x4880, /*!< Enable speaker error */
+ TFA9912_BF_IEACS = 0x4890, /*!< Enable cold started */
+ TFA9912_BF_IESWS = 0x48a0, /*!< Enable amplifier engage */
+ TFA9912_BF_IEWDS = 0x48b0, /*!< Enable watchdog */
+ TFA9912_BF_IEAMPS= 0x48c0, /*!< Enable enbl amp */
+ TFA9912_BF_IEAREFS= 0x48d0, /*!< Enable ref enable */
+ TFA9912_BF_IEADCCR= 0x48e0, /*!< Enable Control ADC */
+ TFA9912_BF_IEBODNOK= 0x48f0, /*!< Enable BOD */
+ TFA9912_BF_IEBSTCU= 0x4900, /*!< Enable DCDC current limiting */
+ TFA9912_BF_IEBSTHI= 0x4910, /*!< Enable DCDC active */
+ TFA9912_BF_IEBSTOC= 0x4920, /*!< Enable DCDC OCP */
+ TFA9912_BF_IEBSTPC= 0x4930, /*!< Enable bst peakcur */
+ TFA9912_BF_IEBSTVC= 0x4940, /*!< Enable DCDC level 1x */
+ TFA9912_BF_IEBST86= 0x4950, /*!< Enable DCDC level 1.14x */
+ TFA9912_BF_IEBST93= 0x4960, /*!< Enable DCDC level 1.07x */
+ TFA9912_BF_IERCVLD= 0x4970, /*!< Enable rcvldop ready */
+ TFA9912_BF_IEOCPL= 0x4980, /*!< Enable ocp alarm left */
+ TFA9912_BF_IEOCPR= 0x4990, /*!< Enable ocp alarm */
+ TFA9912_BF_IEMWSRC= 0x49a0, /*!< Enable waits HW I2C settings */
+ TFA9912_BF_IEMWCFC= 0x49b0, /*!< Enable man wait cf config */
+ TFA9912_BF_IEMWSMU= 0x49c0, /*!< Enable man Audio mute sequence */
+ TFA9912_BF_IECFMER= 0x49d0, /*!< Enable cfma err */
+ TFA9912_BF_IECFMAC= 0x49e0, /*!< Enable cfma ack */
+ TFA9912_BF_IECLKOOR= 0x49f0, /*!< Enable flag_clk_out_of_range */
+ TFA9912_BF_IETDMER= 0x4a00, /*!< Enable tdm error */
+ TFA9912_BF_IECLPL= 0x4a10, /*!< Enable clip left */
+ TFA9912_BF_IECLPR= 0x4a20, /*!< Enable clip */
+ TFA9912_BF_IEOCPM1= 0x4a30, /*!< Enable mic ocpok */
+ TFA9912_BF_IELP1 = 0x4a50, /*!< Enable low power mode1 */
+ TFA9912_BF_IELA = 0x4a60, /*!< Enable low amplitude detection */
+ TFA9912_BF_IEVDDP= 0x4a70, /*!< Enable VDDP greater than VBAT */
+ TFA9912_BF_IETAPDET= 0x4a80, /*!< Enable Tap detected */
+ TFA9912_BF_IEAUDMOD= 0x4a90, /*!< Enable Audio Mode activated */
+ TFA9912_BF_IESAMMOD= 0x4aa0, /*!< Enable SAM Mode activated */
+ TFA9912_BF_IETAPMOD= 0x4ab0, /*!< Enable Tap Mode Activated */
+ TFA9912_BF_IETAPTRG= 0x4ac0, /*!< Enable comparator interrupt */
+ TFA9912_BF_IPOVDDS= 0x4c00, /*!< Polarity por */
+ TFA9912_BF_IPOPLLS= 0x4c10, /*!< Polarity pll lock */
+ TFA9912_BF_IPOOTDS= 0x4c20, /*!< Polarity OTP alarm */
+ TFA9912_BF_IPOOVDS= 0x4c30, /*!< Polarity OVP alarm */
+ TFA9912_BF_IPOUVDS= 0x4c40, /*!< Polarity UVP alarm */
+ TFA9912_BF_IPOCLKS= 0x4c50, /*!< Polarity clocks stable */
+ TFA9912_BF_IPOMTPB= 0x4c60, /*!< Polarity mtp busy */
+ TFA9912_BF_IPONOCLK= 0x4c70, /*!< Polarity lost clk */
+ TFA9912_BF_IPOSPKS= 0x4c80, /*!< Polarity speaker error */
+ TFA9912_BF_IPOACS= 0x4c90, /*!< Polarity cold started */
+ TFA9912_BF_IPOSWS= 0x4ca0, /*!< Polarity amplifier engage */
+ TFA9912_BF_IPOWDS= 0x4cb0, /*!< Polarity watchdog */
+ TFA9912_BF_IPOAMPS= 0x4cc0, /*!< Polarity enbl amp */
+ TFA9912_BF_IPOAREFS= 0x4cd0, /*!< Polarity ref enable */
+ TFA9912_BF_IPOADCCR= 0x4ce0, /*!< Polarity Control ADC */
+ TFA9912_BF_IPOBODNOK= 0x4cf0, /*!< Polarity BOD */
+ TFA9912_BF_IPOBSTCU= 0x4d00, /*!< Polarity DCDC current limiting */
+ TFA9912_BF_IPOBSTHI= 0x4d10, /*!< Polarity DCDC active */
+ TFA9912_BF_IPOBSTOC= 0x4d20, /*!< Polarity DCDC OCP */
+ TFA9912_BF_IPOBSTPC= 0x4d30, /*!< Polarity bst peakcur */
+ TFA9912_BF_IPOBSTVC= 0x4d40, /*!< Polarity DCDC level 1x */
+ TFA9912_BF_IPOBST86= 0x4d50, /*!< Polarity DCDC level 1.14x */
+ TFA9912_BF_IPOBST93= 0x4d60, /*!< Polarity DCDC level 1.07x */
+ TFA9912_BF_IPORCVLD= 0x4d70, /*!< Polarity rcvldop ready */
+ TFA9912_BF_IPOOCPL= 0x4d80, /*!< Polarity ocp alarm left */
+ TFA9912_BF_IPOOCPR= 0x4d90, /*!< Polarity ocp alarm */
+ TFA9912_BF_IPOMWSRC= 0x4da0, /*!< Polarity waits HW I2C settings */
+ TFA9912_BF_IPOMWCFC= 0x4db0, /*!< Polarity man wait cf config */
+ TFA9912_BF_IPOMWSMU= 0x4dc0, /*!< Polarity man audio mute sequence */
+ TFA9912_BF_IPOCFMER= 0x4dd0, /*!< Polarity cfma err */
+ TFA9912_BF_IPOCFMAC= 0x4de0, /*!< Polarity cfma ack */
+ TFA9912_BF_IPOCLKOOR= 0x4df0, /*!< Polarity flag_clk_out_of_range */
+ TFA9912_BF_IPOTDMER= 0x4e00, /*!< Polarity tdm error */
+ TFA9912_BF_IPOCLPL= 0x4e10, /*!< Polarity clip left */
+ TFA9912_BF_IPOCLPR= 0x4e20, /*!< Polarity clip */
+ TFA9912_BF_IPOOCPM= 0x4e30, /*!< Polarity mic ocpok */
+ TFA9912_BF_IPOLP1= 0x4e50, /*!< Polarity low power mode1 */
+ TFA9912_BF_IPOLA = 0x4e60, /*!< Polarity low amplitude detection */
+ TFA9912_BF_IPOVDDP= 0x4e70, /*!< Polarity VDDP greater than VBAT */
+ TFA9912_BF_IPOLTAPDET= 0x4e80, /*!< PolarityTap detected */
+ TFA9912_BF_IPOLAUDMOD= 0x4e90, /*!< PolarityAudio Mode activated */
+ TFA9912_BF_IPOLSAMMOD= 0x4ea0, /*!< PolaritySAM Mode activated */
+ TFA9912_BF_IPOLTAPMOD= 0x4eb0, /*!< Polarity Tap Mode Activated */
+ TFA9912_BF_IPOLTAPTRG= 0x4ec0, /*!< PolarityTap Comparator Trigger */
+ TFA9912_BF_BSSCR = 0x5001, /*!< Battery Safeguard attack time */
+ TFA9912_BF_BSST = 0x5023, /*!< Battery Safeguard threshold voltage level */
+ TFA9912_BF_BSSRL = 0x5061, /*!< Battery Safeguard maximum reduction */
+ TFA9912_BF_BSSRR = 0x5082, /*!< Battery Safeguard release time */
+ TFA9912_BF_BSSHY = 0x50b1, /*!< Battery Safeguard hysteresis */
+ TFA9912_BF_BSSAC = 0x50d0, /*!< Reset clipper - Auto clear */
+ TFA9912_BF_BSSR = 0x50e0, /*!< Battery voltage read out */
+ TFA9912_BF_BSSBY = 0x50f0, /*!< Bypass HW clipper */
+ TFA9912_BF_BSSS = 0x5100, /*!< Vbat prot steepness */
+ TFA9912_BF_INTSMUTE= 0x5110, /*!< Soft mute HW */
+ TFA9912_BF_CFSML = 0x5120, /*!< Soft mute FW left */
+ TFA9912_BF_CFSM = 0x5130, /*!< Soft mute FW */
+ TFA9912_BF_HPFBYPL= 0x5140, /*!< Bypass HPF left */
+ TFA9912_BF_HPFBYP= 0x5150, /*!< Bypass HPF */
+ TFA9912_BF_DPSAL = 0x5160, /*!< Enable DPSA left */
+ TFA9912_BF_DPSA = 0x5170, /*!< Enable DPSA */
+ TFA9912_BF_VOL = 0x5187, /*!< FW volume control for primary audio channel */
+ TFA9912_BF_HNDSFRCV= 0x5200, /*!< Selection receiver */
+ TFA9912_BF_CLIPCTRL= 0x5222, /*!< Clip control setting */
+ TFA9912_BF_AMPGAIN= 0x5257, /*!< Amplifier gain */
+ TFA9912_BF_SLOPEE= 0x52d0, /*!< Enables slope control */
+ TFA9912_BF_SLOPESET= 0x52e0, /*!< Slope speed setting (bin. coded) */
+ TFA9912_BF_CFTAPPAT= 0x5c07, /*!< Coolflux tap pattern */
+ TFA9912_BF_TAPDBGINFO= 0x5c83, /*!< Reserved */
+ TFA9912_BF_TATPSTAT1= 0x5d0f, /*!< Tap Status 1 from CF FW */
+ TFA9912_BF_TCOMPTHR= 0x5f03, /*!< Comparator threshold (in uV) */
+ TFA9912_BF_PGAGAIN= 0x6081, /*!< PGA gain selection */
+ TFA9912_BF_TDMSPKG= 0x6123, /*!< System gain (INPLEV 0) */
+ TFA9912_BF_LPM1LVL= 0x6505, /*!< low power mode1 detector ctrl threshold for low_audio_lvl */
+ TFA9912_BF_LPM1HLD= 0x6565, /*!< Low power mode1 detector, ctrl hold time before low audio is reckoned to be low audio */
+ TFA9912_BF_LPM1DIS= 0x65c0, /*!< low power mode1 detector control */
+ TFA9912_BF_DCDIS = 0x6630, /*!< DCDC */
+ TFA9912_BF_TDMSRCMAP= 0x6801, /*!< tdm source mapping */
+ TFA9912_BF_TDMSRCAS= 0x6821, /*!< frame a selection */
+ TFA9912_BF_TDMSRCBS= 0x6841, /*!< frame b selection */
+ TFA9912_BF_ANC1C = 0x68a0, /*!< ANC one s complement */
+ TFA9912_BF_SAMMODE= 0x6901, /*!< Sam mode */
+ TFA9912_BF_DCMCC = 0x7033, /*!< Max coil current */
+ TFA9912_BF_DCCV = 0x7071, /*!< Slope compensation current, represents LxF (inductance x frequency) value */
+ TFA9912_BF_DCIE = 0x7090, /*!< Adaptive boost mode */
+ TFA9912_BF_DCSR = 0x70a0, /*!< Soft ramp up/down */
+ TFA9912_BF_DCINSEL= 0x70c1, /*!< DCDC IIR input Selection */
+ TFA9912_BF_DCPWM = 0x70f0, /*!< DCDC PWM only mode */
+ TFA9912_BF_DCTRIP= 0x7504, /*!< Adaptive boost trip levels 1, effective only when boost_intelligent is set to 1 */
+ TFA9912_BF_DCTRIP2= 0x7554, /*!< Adaptive boost trip level 2, effective only when boost_intelligent is set to 1 */
+ TFA9912_BF_DCTRIPT= 0x75a4, /*!< Adaptive boost trip levels, effective only when boost_intelligent is set to 1 */
+ TFA9912_BF_DCVOF = 0x7635, /*!< First boost voltage level */
+ TFA9912_BF_DCVOS = 0x7695, /*!< Second boost voltage level */
+ TFA9912_BF_RST = 0x9000, /*!< Reset */
+ TFA9912_BF_DMEM = 0x9011, /*!< Target memory */
+ TFA9912_BF_AIF = 0x9030, /*!< Auto increment */
+ TFA9912_BF_CFINT = 0x9040, /*!< Interrupt - auto clear */
+ TFA9912_BF_CFCGATE= 0x9050, /*!< Coolflux clock gating disabling control */
+ TFA9912_BF_REQCMD= 0x9080, /*!< Firmware event request rpc command */
+ TFA9912_BF_REQRST= 0x9090, /*!< Firmware event request reset restart */
+ TFA9912_BF_REQMIPS= 0x90a0, /*!< Firmware event request short on mips */
+ TFA9912_BF_REQMUTED= 0x90b0, /*!< Firmware event request mute sequence ready */
+ TFA9912_BF_REQVOL= 0x90c0, /*!< Firmware event request volume ready */
+ TFA9912_BF_REQDMG= 0x90d0, /*!< Firmware event request speaker damage detected */
+ TFA9912_BF_REQCAL= 0x90e0, /*!< Firmware event request calibration completed */
+ TFA9912_BF_REQRSV= 0x90f0, /*!< Firmware event request reserved */
+ TFA9912_BF_MADD = 0x910f, /*!< Memory address */
+ TFA9912_BF_MEMA = 0x920f, /*!< Activate memory access */
+ TFA9912_BF_ERR = 0x9307, /*!< Error flags */
+ TFA9912_BF_ACKCMD= 0x9380, /*!< Firmware event acknowledge rpc command */
+ TFA9912_BF_ACKRST= 0x9390, /*!< Firmware event acknowledge reset restart */
+ TFA9912_BF_ACKMIPS= 0x93a0, /*!< Firmware event acknowledge short on mips */
+ TFA9912_BF_ACKMUTED= 0x93b0, /*!< Firmware event acknowledge mute sequence ready */
+ TFA9912_BF_ACKVOL= 0x93c0, /*!< Firmware event acknowledge volume ready */
+ TFA9912_BF_ACKDMG= 0x93d0, /*!< Firmware event acknowledge speaker damage detected */
+ TFA9912_BF_ACKCAL= 0x93e0, /*!< Firmware event acknowledge calibration completed */
+ TFA9912_BF_ACKRSV= 0x93f0, /*!< Firmware event acknowledge reserved */
+ TFA9912_BF_MTPK = 0xa107, /*!< MTP KEY2 register */
+ TFA9912_BF_KEY1LOCKED= 0xa200, /*!< Indicates KEY1 is locked */
+ TFA9912_BF_KEY2LOCKED= 0xa210, /*!< Indicates KEY2 is locked */
+ TFA9912_BF_CIMTP = 0xa360, /*!< Start copying data from I2C mtp registers to mtp */
+ TFA9912_BF_MTPRDMSB= 0xa50f, /*!< MSB word of MTP manual read data */
+ TFA9912_BF_MTPRDLSB= 0xa60f, /*!< LSB word of MTP manual read data */
+ TFA9912_BF_EXTTS = 0xb108, /*!< External temperature (C) */
+ TFA9912_BF_TROS = 0xb190, /*!< Select temp Speaker calibration */
+ TFA9912_BF_SWPROFIL= 0xee0f, /*!< Software profile data */
+ TFA9912_BF_SWVSTEP= 0xef0f, /*!< Software vstep information */
+ TFA9912_BF_MTPOTC= 0xf000, /*!< Calibration schedule */
+ TFA9912_BF_MTPEX = 0xf010, /*!< Calibration Ron executed */
+ TFA9912_BF_DCMCCAPI= 0xf020, /*!< Calibration current limit DCDC */
+ TFA9912_BF_DCMCCSB= 0xf030, /*!< Sign bit for delta calibration current limit DCDC */
+ TFA9912_BF_DCMCCCL= 0xf042, /*!< Calibration delta current limit DCDC */
+ TFA9912_BF_USERDEF= 0xf078, /*!< Reserved space for allowing customer to store speaker information */
+ TFA9912_BF_R25C = 0xf40f, /*!< Ron resistance of speaker coil */
+} nxpTfa9912BfEnumList_t;
+#define TFA9912_NAMETABLE static tfaBfName_t Tfa9912DatasheetNames[]= {\
+ { 0x0, "PWDN"}, /* Powerdown selection , */\
+ { 0x10, "I2CR"}, /* I2C Reset - Auto clear , */\
+ { 0x20, "CFE"}, /* Enable CoolFlux , */\
+ { 0x30, "AMPE"}, /* Enables the Amplifier , */\
+ { 0x40, "DCA"}, /* Activate DC-to-DC converter , */\
+ { 0x50, "SBSL"}, /* Coolflux configured , */\
+ { 0x60, "AMPC"}, /* CoolFlux controls amplifier , */\
+ { 0x71, "INTP"}, /* Interrupt config , */\
+ { 0x90, "FSSSEL"}, /* Audio sample reference , */\
+ { 0xb0, "BYPOCP"}, /* Bypass OCP , */\
+ { 0xc0, "TSTOCP"}, /* OCP testing control , */\
+ { 0x101, "AMPINSEL"}, /* Amplifier input selection , */\
+ { 0x120, "MANSCONF"}, /* I2C configured , */\
+ { 0x130, "MANCOLD"}, /* Execute cold start , */\
+ { 0x140, "MANAOOSC"}, /* Internal osc off at PWDN , */\
+ { 0x150, "MANROBOD"}, /* Reaction on BOD , */\
+ { 0x160, "BODE"}, /* BOD Enable , */\
+ { 0x170, "BODHYS"}, /* BOD Hysteresis , */\
+ { 0x181, "BODFILT"}, /* BOD filter , */\
+ { 0x1a1, "BODTHLVL"}, /* BOD threshold , */\
+ { 0x1d0, "MUTETO"}, /* Time out SB mute sequence , */\
+ { 0x1e0, "RCVNS"}, /* Noise shaper selection , */\
+ { 0x1f0, "MANWDE"}, /* Watchdog enable , */\
+ { 0x203, "AUDFS"}, /* Sample rate (fs) , */\
+ { 0x240, "INPLEV"}, /* TDM output attenuation , */\
+ { 0x255, "FRACTDEL"}, /* V/I Fractional delay , */\
+ { 0x2b0, "BYPHVBF"}, /* Bypass HVBAT filter , */\
+ { 0x2c0, "TDMC"}, /* TDM Compatibility with TFA9872 , */\
+ { 0x2e0, "ENBLADC10"}, /* ADC10 Enable - I2C direct mode , */\
+ { 0x30f, "REV"}, /* Revision info , */\
+ { 0x401, "REFCKEXT"}, /* PLL external ref clock , */\
+ { 0x420, "REFCKSEL"}, /* PLL internal ref clock , */\
+ { 0x430, "ENCFCKSEL"}, /* Coolflux DSP clock scaling, low power mode , */\
+ { 0x441, "CFCKSEL"}, /* Coolflux DSP clock scaler selection for low power mode, */\
+ { 0x460, "TDMINFSEL"}, /* TDM clock selection , */\
+ { 0x470, "DISBLAUTOCLKSEL"}, /* Disable Automatic dsp clock source selection , */\
+ { 0x480, "SELCLKSRC"}, /* I2C selection of DSP clock when auto select is disabled, */\
+ { 0x490, "SELTIMSRC"}, /* I2C selection of Watchdog and Timer clock , */\
+ { 0x500, "SSLEFTE"}, /* , */\
+ { 0x510, "SPKSSEN"}, /* Enable speaker path , */\
+ { 0x520, "VSLEFTE"}, /* , */\
+ { 0x530, "VSRIGHTE"}, /* Voltage sense , */\
+ { 0x540, "CSLEFTE"}, /* , */\
+ { 0x550, "CSRIGHTE"}, /* Current sense , */\
+ { 0x560, "SSPDME"}, /* Sub-system PDM , */\
+ { 0x570, "PGALE"}, /* Enable PGA chop clock for left channel , */\
+ { 0x580, "PGARE"}, /* Enable PGA chop clock , */\
+ { 0x590, "SSTDME"}, /* Sub-system TDM , */\
+ { 0x5a0, "SSPBSTE"}, /* Sub-system boost , */\
+ { 0x5b0, "SSADCE"}, /* Sub-system ADC , */\
+ { 0x5c0, "SSFAIME"}, /* Sub-system FAIM , */\
+ { 0x5d0, "SSCFTIME"}, /* CF Sub-system timer , */\
+ { 0x5e0, "SSCFWDTE"}, /* CF Sub-system WDT , */\
+ { 0x5f0, "FAIMVBGOVRRL"}, /* Over rule of vbg for FaIM access , */\
+ { 0x600, "SAMSPKSEL"}, /* Input selection for TAP/SAM , */\
+ { 0x610, "PDM2IISEN"}, /* PDM2IIS Bridge enable , */\
+ { 0x620, "TAPRSTBYPASS"}, /* Tap decimator reset bypass - Bypass the decimator reset from tapdec, */\
+ { 0x631, "CARDECISEL0"}, /* Cardec input 0 sel , */\
+ { 0x651, "CARDECISEL1"}, /* Cardec input sel , */\
+ { 0x670, "TAPDECSEL"}, /* Select TAP/Cardec for TAP , */\
+ { 0x680, "COMPCOUNT"}, /* Comparator o/p filter selection , */\
+ { 0x691, "STARTUPMODE"}, /* Startup Mode Selection , */\
+ { 0x6b0, "AUTOTAP"}, /* Enable auto tap switching , */\
+ { 0x6c1, "COMPINITIME"}, /* Comparator initialization time to be used in Tap Machine, */\
+ { 0x6e1, "ANAPINITIME"}, /* Analog initialization time to be used in Tap Machine, */\
+ { 0x707, "CCHKTH"}, /* Clock check Higher Threshold , */\
+ { 0x787, "CCHKTL"}, /* Clock check Higher Threshold , */\
+ { 0x802, "AMPOCRT"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0x832, "AMPTCRR"}, /* Amplifier on-off criteria for tap mode entry , */\
+ { 0xd00, "STGS"}, /* PDM side tone gain selector , */\
+ { 0xd18, "STGAIN"}, /* Side tone gain , */\
+ { 0xda0, "STSMUTE"}, /* Side tone soft mute , */\
+ { 0xdb0, "ST1C"}, /* side tone one s complement , */\
+ { 0xe80, "CMFBEL"}, /* CMFB enable left , */\
+ { 0x1000, "VDDS"}, /* POR , */\
+ { 0x1010, "PLLS"}, /* PLL lock , */\
+ { 0x1020, "OTDS"}, /* OTP alarm , */\
+ { 0x1030, "OVDS"}, /* OVP alarm , */\
+ { 0x1040, "UVDS"}, /* UVP alarm , */\
+ { 0x1050, "CLKS"}, /* Clocks stable , */\
+ { 0x1060, "MTPB"}, /* MTP busy , */\
+ { 0x1070, "NOCLK"}, /* Lost clock , */\
+ { 0x1090, "ACS"}, /* Cold Start , */\
+ { 0x10a0, "SWS"}, /* Amplifier engage , */\
+ { 0x10b0, "WDS"}, /* Watchdog , */\
+ { 0x10c0, "AMPS"}, /* Amplifier enable , */\
+ { 0x10d0, "AREFS"}, /* References enable , */\
+ { 0x10e0, "ADCCR"}, /* Control ADC , */\
+ { 0x10f0, "BODNOK"}, /* BOD , */\
+ { 0x1100, "DCIL"}, /* DCDC current limiting , */\
+ { 0x1110, "DCDCA"}, /* DCDC active , */\
+ { 0x1120, "DCOCPOK"}, /* DCDC OCP nmos , */\
+ { 0x1130, "DCPEAKCUR"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1140, "DCHVBAT"}, /* DCDC level 1x , */\
+ { 0x1150, "DCH114"}, /* DCDC level 1.14x , */\
+ { 0x1160, "DCH107"}, /* DCDC level 1.07x , */\
+ { 0x1170, "STMUTEB"}, /* side tone (un)mute busy , */\
+ { 0x1180, "STMUTE"}, /* side tone mute state , */\
+ { 0x1190, "TDMLUTER"}, /* TDM LUT error , */\
+ { 0x11a2, "TDMSTAT"}, /* TDM status bits , */\
+ { 0x11d0, "TDMERR"}, /* TDM error , */\
+ { 0x11e0, "HAPTIC"}, /* Status haptic driver , */\
+ { 0x1300, "OCPOAP"}, /* OCPOK pmos A , */\
+ { 0x1310, "OCPOAN"}, /* OCPOK nmos A , */\
+ { 0x1320, "OCPOBP"}, /* OCPOK pmos B , */\
+ { 0x1330, "OCPOBN"}, /* OCPOK nmos B , */\
+ { 0x1340, "CLIPAH"}, /* Clipping A to Vddp , */\
+ { 0x1350, "CLIPAL"}, /* Clipping A to gnd , */\
+ { 0x1360, "CLIPBH"}, /* Clipping B to Vddp , */\
+ { 0x1370, "CLIPBL"}, /* Clipping B to gnd , */\
+ { 0x1380, "OCDS"}, /* OCP amplifier , */\
+ { 0x1390, "CLIPS"}, /* Amplifier clipping , */\
+ { 0x13a0, "TCMPTRG"}, /* Status Tap comparator triggered , */\
+ { 0x13b0, "TAPDET"}, /* Status Tap detected , */\
+ { 0x13c0, "MANWAIT1"}, /* Wait HW I2C settings , */\
+ { 0x13d0, "MANWAIT2"}, /* Wait CF config , */\
+ { 0x13e0, "MANMUTE"}, /* Audio mute sequence , */\
+ { 0x13f0, "MANOPER"}, /* Operating state , */\
+ { 0x1400, "SPKSL"}, /* Left speaker status , */\
+ { 0x1410, "SPKS"}, /* Speaker status , */\
+ { 0x1420, "CLKOOR"}, /* External clock status , */\
+ { 0x1433, "MANSTATE"}, /* Device manager status , */\
+ { 0x1471, "DCMODE"}, /* DCDC mode status bits , */\
+ { 0x1490, "DSPCLKSRC"}, /* DSP clock source selected by manager , */\
+ { 0x14a1, "STARTUPMODSTAT"}, /* Startup Mode Selected by Manager(Read Only) , */\
+ { 0x14c3, "TSPMSTATE"}, /* Tap Machine State , */\
+ { 0x1509, "BATS"}, /* Battery voltage (V) , */\
+ { 0x1608, "TEMPS"}, /* IC Temperature (C) , */\
+ { 0x1709, "VDDPS"}, /* IC VDDP voltage ( 1023*VDDP/13 V) , */\
+ { 0x17a0, "DCILCF"}, /* DCDC current limiting for DSP , */\
+ { 0x2000, "TDMUC"}, /* Mode setting , */\
+ { 0x2011, "DIO4SEL"}, /* DIO4 Input selection , */\
+ { 0x2040, "TDME"}, /* Enable TDM interface , */\
+ { 0x2050, "TDMMODE"}, /* Slave/master , */\
+ { 0x2060, "TDMCLINV"}, /* Reception data to BCK clock , */\
+ { 0x2073, "TDMFSLN"}, /* FS length , */\
+ { 0x20b0, "TDMFSPOL"}, /* FS polarity , */\
+ { 0x20c3, "TDMNBCK"}, /* N-BCK's in FS , */\
+ { 0x2103, "TDMSLOTS"}, /* N-slots in Frame , */\
+ { 0x2144, "TDMSLLN"}, /* N-bits in slot , */\
+ { 0x2194, "TDMBRMG"}, /* N-bits remaining , */\
+ { 0x21e0, "TDMDEL"}, /* data delay to FS , */\
+ { 0x21f0, "TDMADJ"}, /* data adjustment , */\
+ { 0x2201, "TDMOOMP"}, /* Received audio compression , */\
+ { 0x2224, "TDMSSIZE"}, /* Sample size per slot , */\
+ { 0x2271, "TDMTXDFO"}, /* Format unused bits in a slot , */\
+ { 0x2291, "TDMTXUS0"}, /* Format unused slots GAINIO , */\
+ { 0x22b1, "TDMTXUS1"}, /* Format unused slots DIO1 , */\
+ { 0x22d1, "TDMTXUS2"}, /* Format unused slots DIO2 , */\
+ { 0x2300, "TDMGIE"}, /* Control gain (channel in 0) , */\
+ { 0x2310, "TDMDCE"}, /* Control audio left (channel in 1 ) , */\
+ { 0x2320, "TDMSPKE"}, /* Control audio right (channel in 2 ) , */\
+ { 0x2330, "TDMCSE"}, /* Current sense , */\
+ { 0x2340, "TDMVSE"}, /* Voltage sense , */\
+ { 0x2350, "TDMGOE"}, /* DSP Gainout , */\
+ { 0x2360, "TDMCF2E"}, /* DSP 2 , */\
+ { 0x2370, "TDMCF3E"}, /* DSP 3 , */\
+ { 0x2380, "TDMCFE"}, /* DSP , */\
+ { 0x2390, "TDMES6"}, /* Loopback of Audio left (channel 1) , */\
+ { 0x23a0, "TDMES7"}, /* Loopback of Audio right (channel 2) , */\
+ { 0x23b0, "TDMCF4E"}, /* AEC ref right control , */\
+ { 0x23c0, "TDMPD1E"}, /* PDM 1 control , */\
+ { 0x23d0, "TDMPD2E"}, /* PDM 2 control , */\
+ { 0x2401, "TDMGIN"}, /* IO gainin , */\
+ { 0x2421, "TDMLIO"}, /* IO audio left , */\
+ { 0x2441, "TDMRIO"}, /* IO audio right , */\
+ { 0x2461, "TDMCSIO"}, /* IO Current Sense , */\
+ { 0x2481, "TDMVSIO"}, /* IO voltage sense , */\
+ { 0x24a1, "TDMGOIO"}, /* IO gain out , */\
+ { 0x24c1, "TDMCFIO2"}, /* IO DSP 2 , */\
+ { 0x24e1, "TDMCFIO3"}, /* IO DSP 3 , */\
+ { 0x2501, "TDMCFIO"}, /* IO DSP , */\
+ { 0x2521, "TDMLPB6"}, /* IO Source 6 , */\
+ { 0x2541, "TDMLPB7"}, /* IO Source 7 , */\
+ { 0x2603, "TDMGS"}, /* Control gainin , */\
+ { 0x2643, "TDMDCS"}, /* tdm slot for audio left (channel 1) , */\
+ { 0x2683, "TDMSPKS"}, /* tdm slot for audio right (channel 2) , */\
+ { 0x26c3, "TDMCSS"}, /* Slot Position of Current Sense Out , */\
+ { 0x2703, "TDMVSS"}, /* Slot Position of Voltage sense , */\
+ { 0x2743, "TDMCGOS"}, /* Slot Position of GAIN out , */\
+ { 0x2783, "TDMCF2S"}, /* Slot Position DSPout2 , */\
+ { 0x27c3, "TDMCF3S"}, /* Slot Position DSPout3 , */\
+ { 0x2803, "TDMCFS"}, /* Slot Position of DSPout , */\
+ { 0x2843, "TDMEDAT6S"}, /* Slot Position of loopback channel left , */\
+ { 0x2883, "TDMEDAT7S"}, /* Slot Position of loopback channel right , */\
+ { 0x2901, "TDMTXUS3"}, /* Format unused slots D3 , */\
+ { 0x3100, "PDMSM"}, /* PDM control , */\
+ { 0x3110, "PDMSTSEL"}, /* PDM Decimator input selection , */\
+ { 0x3120, "PDMSTENBL"}, /* Side tone input enable , */\
+ { 0x3130, "PDMLSEL"}, /* PDM data selection for left channel during PDM direct mode, */\
+ { 0x3140, "PDMRSEL"}, /* PDM data selection for right channel during PDM direct mode, */\
+ { 0x3150, "MICVDDE"}, /* Enable MICVDD , */\
+ { 0x3201, "PDMCLRAT"}, /* PDM BCK/Fs ratio , */\
+ { 0x3223, "PDMGAIN"}, /* PDM gain , */\
+ { 0x3263, "PDMOSEL"}, /* PDM output selection - RE/FE data combination , */\
+ { 0x32a0, "SELCFHAPD"}, /* Select the source for haptic data output (not for customer), */\
+ { 0x4000, "ISTVDDS"}, /* Status POR , */\
+ { 0x4010, "ISTPLLS"}, /* Status PLL lock , */\
+ { 0x4020, "ISTOTDS"}, /* Status OTP alarm , */\
+ { 0x4030, "ISTOVDS"}, /* Status OVP alarm , */\
+ { 0x4040, "ISTUVDS"}, /* Status UVP alarm , */\
+ { 0x4050, "ISTCLKS"}, /* Status clocks stable , */\
+ { 0x4060, "ISTMTPB"}, /* Status MTP busy , */\
+ { 0x4070, "ISTNOCLK"}, /* Status lost clock , */\
+ { 0x4080, "ISTSPKS"}, /* Status speaker error , */\
+ { 0x4090, "ISTACS"}, /* Status cold start , */\
+ { 0x40a0, "ISTSWS"}, /* Status amplifier engage , */\
+ { 0x40b0, "ISTWDS"}, /* Status watchdog , */\
+ { 0x40c0, "ISTAMPS"}, /* Status amplifier enable , */\
+ { 0x40d0, "ISTAREFS"}, /* Status Ref enable , */\
+ { 0x40e0, "ISTADCCR"}, /* Status Control ADC , */\
+ { 0x40f0, "ISTBODNOK"}, /* Status BOD , */\
+ { 0x4100, "ISTBSTCU"}, /* Status DCDC current limiting , */\
+ { 0x4110, "ISTBSTHI"}, /* Status DCDC active , */\
+ { 0x4120, "ISTBSTOC"}, /* Status DCDC OCP , */\
+ { 0x4130, "ISTBSTPKCUR"}, /* Status bst peakcur , */\
+ { 0x4140, "ISTBSTVC"}, /* Status DCDC level 1x , */\
+ { 0x4150, "ISTBST86"}, /* Status DCDC level 1.14x , */\
+ { 0x4160, "ISTBST93"}, /* Status DCDC level 1.07x , */\
+ { 0x4170, "ISTRCVLD"}, /* Status rcvldop ready , */\
+ { 0x4180, "ISTOCPL"}, /* Status ocp alarm left , */\
+ { 0x4190, "ISTOCPR"}, /* Status ocp alarm , */\
+ { 0x41a0, "ISTMWSRC"}, /* Status Waits HW I2C settings , */\
+ { 0x41b0, "ISTMWCFC"}, /* Status waits CF config , */\
+ { 0x41c0, "ISTMWSMU"}, /* Status Audio mute sequence , */\
+ { 0x41d0, "ISTCFMER"}, /* Status cfma error , */\
+ { 0x41e0, "ISTCFMAC"}, /* Status cfma ack , */\
+ { 0x41f0, "ISTCLKOOR"}, /* Status flag_clk_out_of_range , */\
+ { 0x4200, "ISTTDMER"}, /* Status tdm error , */\
+ { 0x4210, "ISTCLPL"}, /* Status clip left , */\
+ { 0x4220, "ISTCLPR"}, /* Status clip , */\
+ { 0x4230, "ISTOCPM"}, /* Status mic ocpok , */\
+ { 0x4250, "ISTLP1"}, /* Status low power mode1 , */\
+ { 0x4260, "ISTLA"}, /* Status low amplitude detection , */\
+ { 0x4270, "ISTVDDP"}, /* Status VDDP greater than VBAT , */\
+ { 0x4280, "ISTTAPDET"}, /* Status Tap detected , */\
+ { 0x4290, "ISTAUDMOD"}, /* Status Audio Mode activated , */\
+ { 0x42a0, "ISTSAMMOD"}, /* Status SAM Mode activated , */\
+ { 0x42b0, "ISTTAPMOD"}, /* Status Tap Mode Activated , */\
+ { 0x42c0, "ISTTAPTRG"}, /* Status Tap comparator triggered , */\
+ { 0x4400, "ICLVDDS"}, /* Clear POR , */\
+ { 0x4410, "ICLPLLS"}, /* Clear PLL lock , */\
+ { 0x4420, "ICLOTDS"}, /* Clear OTP alarm , */\
+ { 0x4430, "ICLOVDS"}, /* Clear OVP alarm , */\
+ { 0x4440, "ICLUVDS"}, /* Clear UVP alarm , */\
+ { 0x4450, "ICLCLKS"}, /* Clear clocks stable , */\
+ { 0x4460, "ICLMTPB"}, /* Clear mtp busy , */\
+ { 0x4470, "ICLNOCLK"}, /* Clear lost clk , */\
+ { 0x4480, "ICLSPKS"}, /* Clear speaker error , */\
+ { 0x4490, "ICLACS"}, /* Clear cold started , */\
+ { 0x44a0, "ICLSWS"}, /* Clear amplifier engage , */\
+ { 0x44b0, "ICLWDS"}, /* Clear watchdog , */\
+ { 0x44c0, "ICLAMPS"}, /* Clear enbl amp , */\
+ { 0x44d0, "ICLAREFS"}, /* Clear ref enable , */\
+ { 0x44e0, "ICLADCCR"}, /* Clear control ADC , */\
+ { 0x44f0, "ICLBODNOK"}, /* Clear BOD , */\
+ { 0x4500, "ICLBSTCU"}, /* Clear DCDC current limiting , */\
+ { 0x4510, "ICLBSTHI"}, /* Clear DCDC active , */\
+ { 0x4520, "ICLBSTOC"}, /* Clear DCDC OCP , */\
+ { 0x4530, "ICLBSTPC"}, /* Clear bst peakcur , */\
+ { 0x4540, "ICLBSTVC"}, /* Clear DCDC level 1x , */\
+ { 0x4550, "ICLBST86"}, /* Clear DCDC level 1.14x , */\
+ { 0x4560, "ICLBST93"}, /* Clear DCDC level 1.07x , */\
+ { 0x4570, "ICLRCVLD"}, /* Clear rcvldop ready , */\
+ { 0x4580, "ICLOCPL"}, /* Clear ocp alarm left , */\
+ { 0x4590, "ICLOCPR"}, /* Clear ocp alarm , */\
+ { 0x45a0, "ICLMWSRC"}, /* Clear wait HW I2C settings , */\
+ { 0x45b0, "ICLMWCFC"}, /* Clear wait cf config , */\
+ { 0x45c0, "ICLMWSMU"}, /* Clear audio mute sequence , */\
+ { 0x45d0, "ICLCFMER"}, /* Clear cfma err , */\
+ { 0x45e0, "ICLCFMAC"}, /* Clear cfma ack , */\
+ { 0x45f0, "ICLCLKOOR"}, /* Clear flag_clk_out_of_range , */\
+ { 0x4600, "ICLTDMER"}, /* Clear tdm error , */\
+ { 0x4610, "ICLCLPL"}, /* Clear clip left , */\
+ { 0x4620, "ICLCLP"}, /* Clear clip , */\
+ { 0x4630, "ICLOCPM"}, /* Clear mic ocpok , */\
+ { 0x4650, "ICLLP1"}, /* Clear low power mode1 , */\
+ { 0x4660, "ICLLA"}, /* Clear low amplitude detection , */\
+ { 0x4670, "ICLVDDP"}, /* Clear VDDP greater then VBAT , */\
+ { 0x4680, "ICLTAPDET"}, /* Clear Tap detected , */\
+ { 0x4690, "ICLAUDMOD"}, /* Clear Audio Mode activated , */\
+ { 0x46a0, "ICLSAMMOD"}, /* Clear SAM Mode activated , */\
+ { 0x46b0, "ICLTAPMOD"}, /* Clear Tap Mode Activated , */\
+ { 0x46c0, "ICLTAPTRG"}, /* Clear Comparator Interrupt , */\
+ { 0x4800, "IEVDDS"}, /* Enable por , */\
+ { 0x4810, "IEPLLS"}, /* Enable pll lock , */\
+ { 0x4820, "IEOTDS"}, /* Enable OTP alarm , */\
+ { 0x4830, "IEOVDS"}, /* Enable OVP alarm , */\
+ { 0x4840, "IEUVDS"}, /* Enable UVP alarm , */\
+ { 0x4850, "IECLKS"}, /* Enable clocks stable , */\
+ { 0x4860, "IEMTPB"}, /* Enable mtp busy , */\
+ { 0x4870, "IENOCLK"}, /* Enable lost clk , */\
+ { 0x4880, "IESPKS"}, /* Enable speaker error , */\
+ { 0x4890, "IEACS"}, /* Enable cold started , */\
+ { 0x48a0, "IESWS"}, /* Enable amplifier engage , */\
+ { 0x48b0, "IEWDS"}, /* Enable watchdog , */\
+ { 0x48c0, "IEAMPS"}, /* Enable enbl amp , */\
+ { 0x48d0, "IEAREFS"}, /* Enable ref enable , */\
+ { 0x48e0, "IEADCCR"}, /* Enable Control ADC , */\
+ { 0x48f0, "IEBODNOK"}, /* Enable BOD , */\
+ { 0x4900, "IEBSTCU"}, /* Enable DCDC current limiting , */\
+ { 0x4910, "IEBSTHI"}, /* Enable DCDC active , */\
+ { 0x4920, "IEBSTOC"}, /* Enable DCDC OCP , */\
+ { 0x4930, "IEBSTPC"}, /* Enable bst peakcur , */\
+ { 0x4940, "IEBSTVC"}, /* Enable DCDC level 1x , */\
+ { 0x4950, "IEBST86"}, /* Enable DCDC level 1.14x , */\
+ { 0x4960, "IEBST93"}, /* Enable DCDC level 1.07x , */\
+ { 0x4970, "IERCVLD"}, /* Enable rcvldop ready , */\
+ { 0x4980, "IEOCPL"}, /* Enable ocp alarm left , */\
+ { 0x4990, "IEOCPR"}, /* Enable ocp alarm , */\
+ { 0x49a0, "IEMWSRC"}, /* Enable waits HW I2C settings , */\
+ { 0x49b0, "IEMWCFC"}, /* Enable man wait cf config , */\
+ { 0x49c0, "IEMWSMU"}, /* Enable man Audio mute sequence , */\
+ { 0x49d0, "IECFMER"}, /* Enable cfma err , */\
+ { 0x49e0, "IECFMAC"}, /* Enable cfma ack , */\
+ { 0x49f0, "IECLKOOR"}, /* Enable flag_clk_out_of_range , */\
+ { 0x4a00, "IETDMER"}, /* Enable tdm error , */\
+ { 0x4a10, "IECLPL"}, /* Enable clip left , */\
+ { 0x4a20, "IECLPR"}, /* Enable clip , */\
+ { 0x4a30, "IEOCPM1"}, /* Enable mic ocpok , */\
+ { 0x4a50, "IELP1"}, /* Enable low power mode1 , */\
+ { 0x4a60, "IELA"}, /* Enable low amplitude detection , */\
+ { 0x4a70, "IEVDDP"}, /* Enable VDDP greater than VBAT , */\
+ { 0x4a80, "IETAPDET"}, /* Enable Tap detected , */\
+ { 0x4a90, "IEAUDMOD"}, /* Enable Audio Mode activated , */\
+ { 0x4aa0, "IESAMMOD"}, /* Enable SAM Mode activated , */\
+ { 0x4ab0, "IETAPMOD"}, /* Enable Tap Mode Activated , */\
+ { 0x4ac0, "IETAPTRG"}, /* Enable comparator interrupt , */\
+ { 0x4c00, "IPOVDDS"}, /* Polarity por , */\
+ { 0x4c10, "IPOPLLS"}, /* Polarity pll lock , */\
+ { 0x4c20, "IPOOTDS"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "IPOOVDS"}, /* Polarity OVP alarm , */\
+ { 0x4c40, "IPOUVDS"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "IPOCLKS"}, /* Polarity clocks stable , */\
+ { 0x4c60, "IPOMTPB"}, /* Polarity mtp busy , */\
+ { 0x4c70, "IPONOCLK"}, /* Polarity lost clk , */\
+ { 0x4c80, "IPOSPKS"}, /* Polarity speaker error , */\
+ { 0x4c90, "IPOACS"}, /* Polarity cold started , */\
+ { 0x4ca0, "IPOSWS"}, /* Polarity amplifier engage , */\
+ { 0x4cb0, "IPOWDS"}, /* Polarity watchdog , */\
+ { 0x4cc0, "IPOAMPS"}, /* Polarity enbl amp , */\
+ { 0x4cd0, "IPOAREFS"}, /* Polarity ref enable , */\
+ { 0x4ce0, "IPOADCCR"}, /* Polarity Control ADC , */\
+ { 0x4cf0, "IPOBODNOK"}, /* Polarity BOD , */\
+ { 0x4d00, "IPOBSTCU"}, /* Polarity DCDC current limiting , */\
+ { 0x4d10, "IPOBSTHI"}, /* Polarity DCDC active , */\
+ { 0x4d20, "IPOBSTOC"}, /* Polarity DCDC OCP , */\
+ { 0x4d30, "IPOBSTPC"}, /* Polarity bst peakcur , */\
+ { 0x4d40, "IPOBSTVC"}, /* Polarity DCDC level 1x , */\
+ { 0x4d50, "IPOBST86"}, /* Polarity DCDC level 1.14x , */\
+ { 0x4d60, "IPOBST93"}, /* Polarity DCDC level 1.07x , */\
+ { 0x4d70, "IPORCVLD"}, /* Polarity rcvldop ready , */\
+ { 0x4d80, "IPOOCPL"}, /* Polarity ocp alarm left , */\
+ { 0x4d90, "IPOOCPR"}, /* Polarity ocp alarm , */\
+ { 0x4da0, "IPOMWSRC"}, /* Polarity waits HW I2C settings , */\
+ { 0x4db0, "IPOMWCFC"}, /* Polarity man wait cf config , */\
+ { 0x4dc0, "IPOMWSMU"}, /* Polarity man audio mute sequence , */\
+ { 0x4dd0, "IPOCFMER"}, /* Polarity cfma err , */\
+ { 0x4de0, "IPOCFMAC"}, /* Polarity cfma ack , */\
+ { 0x4df0, "IPOCLKOOR"}, /* Polarity flag_clk_out_of_range , */\
+ { 0x4e00, "IPOTDMER"}, /* Polarity tdm error , */\
+ { 0x4e10, "IPOCLPL"}, /* Polarity clip left , */\
+ { 0x4e20, "IPOCLPR"}, /* Polarity clip , */\
+ { 0x4e30, "IPOOCPM"}, /* Polarity mic ocpok , */\
+ { 0x4e50, "IPOLP1"}, /* Polarity low power mode1 , */\
+ { 0x4e60, "IPOLA"}, /* Polarity low amplitude detection , */\
+ { 0x4e70, "IPOVDDP"}, /* Polarity VDDP greater than VBAT , */\
+ { 0x4e80, "IPOLTAPDET"}, /* PolarityTap detected , */\
+ { 0x4e90, "IPOLAUDMOD"}, /* PolarityAudio Mode activated , */\
+ { 0x4ea0, "IPOLSAMMOD"}, /* PolaritySAM Mode activated , */\
+ { 0x4eb0, "IPOLTAPMOD"}, /* Polarity Tap Mode Activated , */\
+ { 0x4ec0, "IPOLTAPTRG"}, /* PolarityTap Comparator Trigger , */\
+ { 0x5001, "BSSCR"}, /* Battery Safeguard attack time , */\
+ { 0x5023, "BSST"}, /* Battery Safeguard threshold voltage level , */\
+ { 0x5061, "BSSRL"}, /* Battery Safeguard maximum reduction , */\
+ { 0x5082, "BSSRR"}, /* Battery Safeguard release time , */\
+ { 0x50b1, "BSSHY"}, /* Battery Safeguard hysteresis , */\
+ { 0x50d0, "BSSAC"}, /* Reset clipper - Auto clear , */\
+ { 0x50e0, "BSSR"}, /* Battery voltage read out , */\
+ { 0x50f0, "BSSBY"}, /* Bypass HW clipper , */\
+ { 0x5100, "BSSS"}, /* Vbat prot steepness , */\
+ { 0x5110, "INTSMUTE"}, /* Soft mute HW , */\
+ { 0x5120, "CFSML"}, /* Soft mute FW left , */\
+ { 0x5130, "CFSM"}, /* Soft mute FW , */\
+ { 0x5140, "HPFBYPL"}, /* Bypass HPF left , */\
+ { 0x5150, "HPFBYP"}, /* Bypass HPF , */\
+ { 0x5160, "DPSAL"}, /* Enable DPSA left , */\
+ { 0x5170, "DPSA"}, /* Enable DPSA , */\
+ { 0x5187, "VOL"}, /* FW volume control for primary audio channel , */\
+ { 0x5200, "HNDSFRCV"}, /* Selection receiver , */\
+ { 0x5222, "CLIPCTRL"}, /* Clip control setting , */\
+ { 0x5257, "AMPGAIN"}, /* Amplifier gain , */\
+ { 0x52d0, "SLOPEE"}, /* Enables slope control , */\
+ { 0x52e0, "SLOPESET"}, /* Slope speed setting (bin. coded) , */\
+ { 0x5c07, "CFTAPPAT"}, /* Coolflux tap pattern , */\
+ { 0x5c83, "TAPDBGINFO"}, /* Reserved , */\
+ { 0x5d0f, "TATPSTAT1"}, /* Tap Status 1 from CF FW , */\
+ { 0x5f03, "TCOMPTHR"}, /* Comparator threshold (in uV) , */\
+ { 0x6081, "PGAGAIN"}, /* PGA gain selection , */\
+ { 0x6123, "TDMSPKG"}, /* System gain (INPLEV 0) , */\
+ { 0x6505, "LPM1LVL"}, /* low power mode1 detector ctrl threshold for low_audio_lvl , */\
+ { 0x6565, "LPM1HLD"}, /* Low power mode1 detector, ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x65c0, "LPM1DIS"}, /* low power mode1 detector control , */\
+ { 0x6630, "DCDIS"}, /* DCDC , */\
+ { 0x6801, "TDMSRCMAP"}, /* tdm source mapping , */\
+ { 0x6821, "TDMSRCAS"}, /* frame a selection , */\
+ { 0x6841, "TDMSRCBS"}, /* frame b selection , */\
+ { 0x68a0, "ANC1C"}, /* ANC one s complement , */\
+ { 0x6901, "SAMMODE"}, /* Sam mode , */\
+ { 0x7033, "DCMCC"}, /* Max coil current , */\
+ { 0x7071, "DCCV"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7090, "DCIE"}, /* Adaptive boost mode , */\
+ { 0x70a0, "DCSR"}, /* Soft ramp up/down , */\
+ { 0x70c1, "DCINSEL"}, /* DCDC IIR input Selection , */\
+ { 0x70f0, "DCPWM"}, /* DCDC PWM only mode , */\
+ { 0x7504, "DCTRIP"}, /* Adaptive boost trip levels 1, effective only when boost_intelligent is set to 1, */\
+ { 0x7554, "DCTRIP2"}, /* Adaptive boost trip level 2, effective only when boost_intelligent is set to 1, */\
+ { 0x75a4, "DCTRIPT"}, /* Adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x7635, "DCVOF"}, /* First boost voltage level , */\
+ { 0x7695, "DCVOS"}, /* Second boost voltage level , */\
+ { 0x9000, "RST"}, /* Reset , */\
+ { 0x9011, "DMEM"}, /* Target memory , */\
+ { 0x9030, "AIF"}, /* Auto increment , */\
+ { 0x9040, "CFINT"}, /* Interrupt - auto clear , */\
+ { 0x9050, "CFCGATE"}, /* Coolflux clock gating disabling control , */\
+ { 0x9080, "REQCMD"}, /* Firmware event request rpc command , */\
+ { 0x9090, "REQRST"}, /* Firmware event request reset restart , */\
+ { 0x90a0, "REQMIPS"}, /* Firmware event request short on mips , */\
+ { 0x90b0, "REQMUTED"}, /* Firmware event request mute sequence ready , */\
+ { 0x90c0, "REQVOL"}, /* Firmware event request volume ready , */\
+ { 0x90d0, "REQDMG"}, /* Firmware event request speaker damage detected , */\
+ { 0x90e0, "REQCAL"}, /* Firmware event request calibration completed , */\
+ { 0x90f0, "REQRSV"}, /* Firmware event request reserved , */\
+ { 0x910f, "MADD"}, /* Memory address , */\
+ { 0x920f, "MEMA"}, /* Activate memory access , */\
+ { 0x9307, "ERR"}, /* Error flags , */\
+ { 0x9380, "ACKCMD"}, /* Firmware event acknowledge rpc command , */\
+ { 0x9390, "ACKRST"}, /* Firmware event acknowledge reset restart , */\
+ { 0x93a0, "ACKMIPS"}, /* Firmware event acknowledge short on mips , */\
+ { 0x93b0, "ACKMUTED"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x93c0, "ACKVOL"}, /* Firmware event acknowledge volume ready , */\
+ { 0x93d0, "ACKDMG"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x93e0, "ACKCAL"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x93f0, "ACKRSV"}, /* Firmware event acknowledge reserved , */\
+ { 0xa107, "MTPK"}, /* MTP KEY2 register , */\
+ { 0xa200, "KEY1LOCKED"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "KEY2LOCKED"}, /* Indicates KEY2 is locked , */\
+ { 0xa360, "CIMTP"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa50f, "MTPRDMSB"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "MTPRDLSB"}, /* LSB word of MTP manual read data , */\
+ { 0xb108, "EXTTS"}, /* External temperature (C) , */\
+ { 0xb190, "TROS"}, /* Select temp Speaker calibration , */\
+ { 0xee0f, "SWPROFIL"}, /* Software profile data , */\
+ { 0xef0f, "SWVSTEP"}, /* Software vstep information , */\
+ { 0xf000, "MTPOTC"}, /* Calibration schedule , */\
+ { 0xf010, "MTPEX"}, /* Calibration Ron executed , */\
+ { 0xf020, "DCMCCAPI"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "DCMCCSB"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "DCMCCCL"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "USERDEF"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf40f, "R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+#define TFA9912_BITNAMETABLE static tfaBfName_t Tfa9912BitNames[]= {\
+ { 0x0, "powerdown"}, /* Powerdown selection , */\
+ { 0x10, "reset"}, /* I2C Reset - Auto clear , */\
+ { 0x20, "enbl_coolflux"}, /* Enable CoolFlux , */\
+ { 0x30, "enbl_amplifier"}, /* Enables the Amplifier , */\
+ { 0x40, "enbl_boost"}, /* Activate DC-to-DC converter , */\
+ { 0x50, "coolflux_configured"}, /* Coolflux configured , */\
+ { 0x60, "sel_enbl_amplifier"}, /* CoolFlux controls amplifier , */\
+ { 0x71, "int_pad_io"}, /* Interrupt config , */\
+ { 0x90, "fs_pulse_sel"}, /* Audio sample reference , */\
+ { 0xb0, "bypass_ocp"}, /* Bypass OCP , */\
+ { 0xc0, "test_ocp"}, /* OCP testing control , */\
+ { 0x101, "vamp_sel"}, /* Amplifier input selection , */\
+ { 0x120, "src_set_configured"}, /* I2C configured , */\
+ { 0x130, "execute_cold_start"}, /* Execute cold start , */\
+ { 0x140, "enbl_fro8m_auto_off"}, /* Internal osc off at PWDN , */\
+ { 0x150, "man_enbl_brown_out"}, /* Reaction on BOD , */\
+ { 0x160, "enbl_bod"}, /* BOD Enable , */\
+ { 0x170, "enbl_bod_hyst"}, /* BOD Hysteresis , */\
+ { 0x181, "bod_delay"}, /* BOD filter , */\
+ { 0x1a1, "bod_lvlsel"}, /* BOD threshold , */\
+ { 0x1d0, "disable_mute_time_out"}, /* Time out SB mute sequence , */\
+ { 0x1e0, "pwm_sel_rcv_ns"}, /* Noise shaper selection , */\
+ { 0x1f0, "man_enbl_watchdog"}, /* Watchdog enable , */\
+ { 0x203, "audio_fs"}, /* Sample rate (fs) , */\
+ { 0x240, "input_level"}, /* TDM output attenuation , */\
+ { 0x255, "cs_frac_delay"}, /* V/I Fractional delay , */\
+ { 0x2b0, "bypass_hvbat_filter"}, /* Bypass HVBAT filter , */\
+ { 0x2c0, "tdm_tfa9872_compatible"}, /* TDM Compatibility with TFA9872 , */\
+ { 0x2d0, "sel_hysteresis"}, /* Select hysteresis for clock range detector , */\
+ { 0x2e0, "enbl_adc10"}, /* ADC10 Enable - I2C direct mode , */\
+ { 0x30f, "device_rev"}, /* Revision info , */\
+ { 0x401, "pll_clkin_sel"}, /* PLL external ref clock , */\
+ { 0x420, "pll_clkin_sel_osc"}, /* PLL internal ref clock , */\
+ { 0x430, "cf_clock_scaling"}, /* Coolflux DSP clock scaling, low power mode , */\
+ { 0x441, "sel_cf_clock"}, /* Coolflux DSP clock scaler selection for low power mode, */\
+ { 0x460, "tdm_intf_sel"}, /* TDM clock selection , */\
+ { 0x470, "disable_auto_sel_refclk"}, /* Disable Automatic dsp clock source selection , */\
+ { 0x480, "sel_clk_src"}, /* I2C selection of DSP clock when auto select is disabled, */\
+ { 0x490, "wdt_tim_clk_src"}, /* I2C selection of Watchdog and Timer clock , */\
+ { 0x510, "enbl_spkr_ss"}, /* Enable speaker path , */\
+ { 0x530, "enbl_volsense"}, /* Voltage sense , */\
+ { 0x550, "enbl_cursense"}, /* Current sense , */\
+ { 0x560, "enbl_pdm_ss"}, /* Sub-system PDM , */\
+ { 0x580, "enbl_pga_chop"}, /* Enable PGA chop clock , */\
+ { 0x590, "enbl_tdm_ss"}, /* Sub-system TDM , */\
+ { 0x5a0, "enbl_bst_ss"}, /* Sub-system boost , */\
+ { 0x5b0, "enbl_adc10_ss"}, /* Sub-system ADC , */\
+ { 0x5c0, "enbl_faim_ss"}, /* Sub-system FAIM , */\
+ { 0x5d0, "enbl_tim_clk"}, /* CF Sub-system timer , */\
+ { 0x5e0, "enbl_wdt_clk"}, /* CF Sub-system WDT , */\
+ { 0x5f0, "faim_enable_vbg"}, /* Over rule of vbg for FaIM access , */\
+ { 0x600, "aux_spkr_sel"}, /* Input selection for TAP/SAM , */\
+ { 0x620, "bypass_tapdec_reset"}, /* Tap decimator reset bypass - Bypass the decimator reset from tapdec, */\
+ { 0x631, "car_dec_in_sel0"}, /* Cardec input 0 sel , */\
+ { 0x651, "car_dec_in_sel1"}, /* Cardec input sel , */\
+ { 0x670, "tapdec_sel"}, /* Select TAP/Cardec for TAP , */\
+ { 0x680, "comp_count"}, /* Comparator o/p filter selection , */\
+ { 0x691, "startup_mode"}, /* Startup Mode Selection , */\
+ { 0x6b0, "enable_auto_tap_switching"}, /* Enable auto tap switching , */\
+ { 0x6c1, "comp_init_time"}, /* Comparator initialization time to be used in Tap Machine, */\
+ { 0x6e1, "ana_init_time"}, /* Analog initialization time to be used in Tap Machine, */\
+ { 0x707, "clkchk_th_hi"}, /* Clock check Higher Threshold , */\
+ { 0x787, "clkchk_th_lo"}, /* Clock check Higher Threshold , */\
+ { 0x802, "ctrl_on2off_criterion"}, /* Amplifier on-off criteria for shutdown , */\
+ { 0x832, "ctrl_on2tap_criterion"}, /* Amplifier on-off criteria for tap mode entry , */\
+ { 0xd00, "side_tone_gain_sel"}, /* PDM side tone gain selector , */\
+ { 0xd18, "side_tone_gain"}, /* Side tone gain , */\
+ { 0xda0, "mute_side_tone"}, /* Side tone soft mute , */\
+ { 0xdb0, "side_tone_1scomplement"}, /* side tone one s complement , */\
+ { 0xe07, "ctrl_digtoana"}, /* Spare control from digital to analog , */\
+ { 0xf0f, "hidden_code"}, /* 5A6Bh, 23147d to access registers (default for engineering), */\
+ { 0x1000, "flag_por"}, /* POR , */\
+ { 0x1010, "flag_pll_lock"}, /* PLL lock , */\
+ { 0x1020, "flag_otpok"}, /* OTP alarm , */\
+ { 0x1030, "flag_ovpok"}, /* OVP alarm , */\
+ { 0x1040, "flag_uvpok"}, /* UVP alarm , */\
+ { 0x1050, "flag_clocks_stable"}, /* Clocks stable , */\
+ { 0x1060, "flag_mtp_busy"}, /* MTP busy , */\
+ { 0x1070, "flag_lost_clk"}, /* Lost clock , */\
+ { 0x1090, "flag_cold_started"}, /* Cold Start , */\
+ { 0x10a0, "flag_engage"}, /* Amplifier engage , */\
+ { 0x10b0, "flag_watchdog_reset"}, /* Watchdog , */\
+ { 0x10c0, "flag_enbl_amp"}, /* Amplifier enable , */\
+ { 0x10d0, "flag_enbl_ref"}, /* References enable , */\
+ { 0x10e0, "flag_adc10_ready"}, /* Control ADC , */\
+ { 0x10f0, "flag_bod_vddd_nok"}, /* BOD , */\
+ { 0x1100, "flag_bst_bstcur"}, /* DCDC current limiting , */\
+ { 0x1110, "flag_bst_hiz"}, /* DCDC active , */\
+ { 0x1120, "flag_bst_ocpok"}, /* DCDC OCP nmos , */\
+ { 0x1130, "flag_bst_peakcur"}, /* Indicates current is max in DC-to-DC converter , */\
+ { 0x1140, "flag_bst_voutcomp"}, /* DCDC level 1x , */\
+ { 0x1150, "flag_bst_voutcomp86"}, /* DCDC level 1.14x , */\
+ { 0x1160, "flag_bst_voutcomp93"}, /* DCDC level 1.07x , */\
+ { 0x1170, "flag_soft_mute_busy"}, /* side tone (un)mute busy , */\
+ { 0x1180, "flag_soft_mute_state"}, /* side tone mute state , */\
+ { 0x1190, "flag_tdm_lut_error"}, /* TDM LUT error , */\
+ { 0x11a2, "flag_tdm_status"}, /* TDM status bits , */\
+ { 0x11d0, "flag_tdm_error"}, /* TDM error , */\
+ { 0x1300, "flag_ocpokap"}, /* OCPOK pmos A , */\
+ { 0x1310, "flag_ocpokan"}, /* OCPOK nmos A , */\
+ { 0x1320, "flag_ocpokbp"}, /* OCPOK pmos B , */\
+ { 0x1330, "flag_ocpokbn"}, /* OCPOK nmos B , */\
+ { 0x1340, "flag_clipa_high"}, /* Clipping A to Vddp , */\
+ { 0x1350, "flag_clipa_low"}, /* Clipping A to gnd , */\
+ { 0x1360, "flag_clipb_high"}, /* Clipping B to Vddp , */\
+ { 0x1370, "flag_clipb_low"}, /* Clipping B to gnd , */\
+ { 0x1380, "flag_ocp_alarm"}, /* OCP amplifier , */\
+ { 0x1390, "flag_clip"}, /* Amplifier clipping , */\
+ { 0x13a0, "flag_tap_comp_trig"}, /* Status Tap comparator triggered , */\
+ { 0x13b0, "flag_cf_tapdetected"}, /* Status Tap detected , */\
+ { 0x13c0, "flag_man_wait_src_settings"}, /* Wait HW I2C settings , */\
+ { 0x13d0, "flag_man_wait_cf_config"}, /* Wait CF config , */\
+ { 0x13e0, "flag_man_start_mute_audio"}, /* Audio mute sequence , */\
+ { 0x1410, "flag_cf_speakererror"}, /* Speaker status , */\
+ { 0x1420, "flag_clk_out_of_range"}, /* External clock status , */\
+ { 0x1433, "man_state"}, /* Device manager status , */\
+ { 0x1471, "status_bst_mode"}, /* DCDC mode status bits , */\
+ { 0x1490, "man_dsp_clk_src"}, /* DSP clock source selected by manager , */\
+ { 0x14a1, "man_startup_mode"}, /* Startup Mode Selected by Manager(Read Only) , */\
+ { 0x14c3, "tap_machine_state"}, /* Tap Machine State , */\
+ { 0x1509, "bat_adc"}, /* Battery voltage (V) , */\
+ { 0x1608, "temp_adc"}, /* IC Temperature (C) , */\
+ { 0x1709, "vddp_adc"}, /* IC VDDP voltage ( 1023*VDDP/13 V) , */\
+ { 0x17a0, "flag_bst_bstcur_cf"}, /* DCDC current limiting for DSP , */\
+ { 0x2000, "tdm_usecase"}, /* Mode setting , */\
+ { 0x2011, "dio4_input_sel"}, /* DIO4 Input selection , */\
+ { 0x2040, "tdm_enable"}, /* Enable TDM interface , */\
+ { 0x2060, "tdm_clk_inversion"}, /* Reception data to BCK clock , */\
+ { 0x2073, "tdm_fs_ws_length"}, /* FS length , */\
+ { 0x20b0, "tdm_fs_ws_polarity"}, /* FS polarity , */\
+ { 0x20c3, "tdm_nbck"}, /* N-BCK's in FS , */\
+ { 0x2103, "tdm_nb_of_slots"}, /* N-slots in Frame , */\
+ { 0x2144, "tdm_slot_length"}, /* N-bits in slot , */\
+ { 0x2194, "tdm_bits_remaining"}, /* N-bits remaining , */\
+ { 0x21e0, "tdm_data_delay"}, /* data delay to FS , */\
+ { 0x21f0, "tdm_data_adjustment"}, /* data adjustment , */\
+ { 0x2201, "tdm_audio_sample_compression"}, /* Received audio compression , */\
+ { 0x2224, "tdm_sample_size"}, /* Sample size per slot , */\
+ { 0x2271, "tdm_txdata_format"}, /* Format unused bits in a slot , */\
+ { 0x2291, "tdm_txdata_format_unused_slot_sd0"}, /* Format unused slots GAINIO , */\
+ { 0x22b1, "tdm_txdata_format_unused_slot_sd1"}, /* Format unused slots DIO1 , */\
+ { 0x22d1, "tdm_txdata_format_unused_slot_sd2"}, /* Format unused slots DIO2 , */\
+ { 0x2300, "tdm_sink0_enable"}, /* Control gain (channel in 0) , */\
+ { 0x2310, "tdm_sink1_enable"}, /* Control audio left (channel in 1 ) , */\
+ { 0x2320, "tdm_sink2_enable"}, /* Control audio right (channel in 2 ) , */\
+ { 0x2330, "tdm_source0_enable"}, /* Current sense , */\
+ { 0x2340, "tdm_source1_enable"}, /* Voltage sense , */\
+ { 0x2350, "tdm_source2_enable"}, /* DSP Gainout , */\
+ { 0x2360, "tdm_source3_enable"}, /* DSP 2 , */\
+ { 0x2370, "tdm_source4_enable"}, /* DSP 3 , */\
+ { 0x2380, "tdm_source5_enable"}, /* DSP , */\
+ { 0x2390, "tdm_source6_enable"}, /* Loopback of Audio left (channel 1) , */\
+ { 0x23a0, "tdm_source7_enable"}, /* Loopback of Audio right (channel 2) , */\
+ { 0x2401, "tdm_sink0_io"}, /* IO gainin , */\
+ { 0x2421, "tdm_sink1_io"}, /* IO audio left , */\
+ { 0x2441, "tdm_sink2_io"}, /* IO audio right , */\
+ { 0x2461, "tdm_source0_io"}, /* IO Current Sense , */\
+ { 0x2481, "tdm_source1_io"}, /* IO voltage sense , */\
+ { 0x24a1, "tdm_source2_io"}, /* IO gain out , */\
+ { 0x24c1, "tdm_source3_io"}, /* IO DSP 2 , */\
+ { 0x24e1, "tdm_source4_io"}, /* IO DSP 3 , */\
+ { 0x2501, "tdm_source5_io"}, /* IO DSP , */\
+ { 0x2521, "tdm_source6_io"}, /* IO Source 6 , */\
+ { 0x2541, "tdm_source7_io"}, /* IO Source 7 , */\
+ { 0x2603, "tdm_sink0_slot"}, /* Control gainin , */\
+ { 0x2643, "tdm_sink1_slot"}, /* tdm slot for audio left (channel 1) , */\
+ { 0x2683, "tdm_sink2_slot"}, /* tdm slot for audio right (channel 2) , */\
+ { 0x26c3, "tdm_source0_slot"}, /* Slot Position of Current Sense Out , */\
+ { 0x2703, "tdm_source1_slot"}, /* Slot Position of Voltage sense , */\
+ { 0x2743, "tdm_source2_slot"}, /* Slot Position of GAIN out , */\
+ { 0x2783, "tdm_source3_slot"}, /* Slot Position DSPout2 , */\
+ { 0x27c3, "tdm_source4_slot"}, /* Slot Position DSPout3 , */\
+ { 0x2803, "tdm_source5_slot"}, /* Slot Position of DSPout , */\
+ { 0x2843, "tdm_source6_slot"}, /* Slot Position of loopback channel left , */\
+ { 0x2883, "tdm_source7_slot"}, /* Slot Position of loopback channel right , */\
+ { 0x2901, "tdm_txdata_format_unused_slot_sd3"}, /* Format unused slots D3 , */\
+ { 0x3100, "pdm_mode"}, /* PDM control , */\
+ { 0x3110, "pdm_input_sel"}, /* PDM Decimator input selection , */\
+ { 0x3120, "enbl_pdm_side_tone"}, /* Side tone input enable , */\
+ { 0x3201, "pdm_nbck"}, /* PDM BCK/Fs ratio , */\
+ { 0x4000, "int_out_flag_por"}, /* Status POR , */\
+ { 0x4010, "int_out_flag_pll_lock"}, /* Status PLL lock , */\
+ { 0x4020, "int_out_flag_otpok"}, /* Status OTP alarm , */\
+ { 0x4030, "int_out_flag_ovpok"}, /* Status OVP alarm , */\
+ { 0x4040, "int_out_flag_uvpok"}, /* Status UVP alarm , */\
+ { 0x4050, "int_out_flag_clocks_stable"}, /* Status clocks stable , */\
+ { 0x4060, "int_out_flag_mtp_busy"}, /* Status MTP busy , */\
+ { 0x4070, "int_out_flag_lost_clk"}, /* Status lost clock , */\
+ { 0x4080, "int_out_flag_cf_speakererror"}, /* Status speaker error , */\
+ { 0x4090, "int_out_flag_cold_started"}, /* Status cold start , */\
+ { 0x40a0, "int_out_flag_engage"}, /* Status amplifier engage , */\
+ { 0x40b0, "int_out_flag_watchdog_reset"}, /* Status watchdog , */\
+ { 0x40c0, "int_out_flag_enbl_amp"}, /* Status amplifier enable , */\
+ { 0x40d0, "int_out_flag_enbl_ref"}, /* Status Ref enable , */\
+ { 0x40e0, "int_out_flag_adc10_ready"}, /* Status Control ADC , */\
+ { 0x40f0, "int_out_flag_bod_vddd_nok"}, /* Status BOD , */\
+ { 0x4100, "int_out_flag_bst_bstcur"}, /* Status DCDC current limiting , */\
+ { 0x4110, "int_out_flag_bst_hiz"}, /* Status DCDC active , */\
+ { 0x4120, "int_out_flag_bst_ocpok"}, /* Status DCDC OCP , */\
+ { 0x4130, "int_out_flag_bst_peakcur"}, /* Status bst peakcur , */\
+ { 0x4140, "int_out_flag_bst_voutcomp"}, /* Status DCDC level 1x , */\
+ { 0x4150, "int_out_flag_bst_voutcomp86"}, /* Status DCDC level 1.14x , */\
+ { 0x4160, "int_out_flag_bst_voutcomp93"}, /* Status DCDC level 1.07x , */\
+ { 0x4190, "int_out_flag_ocp_alarm"}, /* Status ocp alarm , */\
+ { 0x41a0, "int_out_flag_man_wait_src_settings"}, /* Status Waits HW I2C settings , */\
+ { 0x41b0, "int_out_flag_man_wait_cf_config"}, /* Status waits CF config , */\
+ { 0x41c0, "int_out_flag_man_start_mute_audio"}, /* Status Audio mute sequence , */\
+ { 0x41d0, "int_out_flag_cfma_err"}, /* Status cfma error , */\
+ { 0x41e0, "int_out_flag_cfma_ack"}, /* Status cfma ack , */\
+ { 0x41f0, "int_out_flag_clk_out_of_range"}, /* Status flag_clk_out_of_range , */\
+ { 0x4200, "int_out_flag_tdm_error"}, /* Status tdm error , */\
+ { 0x4220, "int_out_flag_clip"}, /* Status clip , */\
+ { 0x4250, "int_out_flag_lp_detect_mode1"}, /* Status low power mode1 , */\
+ { 0x4260, "int_out_flag_low_amplitude"}, /* Status low amplitude detection , */\
+ { 0x4270, "int_out_flag_vddp_gt_vbat"}, /* Status VDDP greater than VBAT , */\
+ { 0x4280, "int_out_newtap"}, /* Status Tap detected , */\
+ { 0x4290, "int_out_audiomodeactive"}, /* Status Audio Mode activated , */\
+ { 0x42a0, "int_out_sammodeactive"}, /* Status SAM Mode activated , */\
+ { 0x42b0, "int_out_tapmodeactive"}, /* Status Tap Mode Activated , */\
+ { 0x42c0, "int_out_flag_tap_comp_trig"}, /* Status Tap comparator triggered , */\
+ { 0x4400, "int_in_flag_por"}, /* Clear POR , */\
+ { 0x4410, "int_in_flag_pll_lock"}, /* Clear PLL lock , */\
+ { 0x4420, "int_in_flag_otpok"}, /* Clear OTP alarm , */\
+ { 0x4430, "int_in_flag_ovpok"}, /* Clear OVP alarm , */\
+ { 0x4440, "int_in_flag_uvpok"}, /* Clear UVP alarm , */\
+ { 0x4450, "int_in_flag_clocks_stable"}, /* Clear clocks stable , */\
+ { 0x4460, "int_in_flag_mtp_busy"}, /* Clear mtp busy , */\
+ { 0x4470, "int_in_flag_lost_clk"}, /* Clear lost clk , */\
+ { 0x4480, "int_in_flag_cf_speakererror"}, /* Clear speaker error , */\
+ { 0x4490, "int_in_flag_cold_started"}, /* Clear cold started , */\
+ { 0x44a0, "int_in_flag_engage"}, /* Clear amplifier engage , */\
+ { 0x44b0, "int_in_flag_watchdog_reset"}, /* Clear watchdog , */\
+ { 0x44c0, "int_in_flag_enbl_amp"}, /* Clear enbl amp , */\
+ { 0x44d0, "int_in_flag_enbl_ref"}, /* Clear ref enable , */\
+ { 0x44e0, "int_in_flag_adc10_ready"}, /* Clear control ADC , */\
+ { 0x44f0, "int_in_flag_bod_vddd_nok"}, /* Clear BOD , */\
+ { 0x4500, "int_in_flag_bst_bstcur"}, /* Clear DCDC current limiting , */\
+ { 0x4510, "int_in_flag_bst_hiz"}, /* Clear DCDC active , */\
+ { 0x4520, "int_in_flag_bst_ocpok"}, /* Clear DCDC OCP , */\
+ { 0x4530, "int_in_flag_bst_peakcur"}, /* Clear bst peakcur , */\
+ { 0x4540, "int_in_flag_bst_voutcomp"}, /* Clear DCDC level 1x , */\
+ { 0x4550, "int_in_flag_bst_voutcomp86"}, /* Clear DCDC level 1.14x , */\
+ { 0x4560, "int_in_flag_bst_voutcomp93"}, /* Clear DCDC level 1.07x , */\
+ { 0x4590, "int_in_flag_ocp_alarm"}, /* Clear ocp alarm , */\
+ { 0x45a0, "int_in_flag_man_wait_src_settings"}, /* Clear wait HW I2C settings , */\
+ { 0x45b0, "int_in_flag_man_wait_cf_config"}, /* Clear wait cf config , */\
+ { 0x45c0, "int_in_flag_man_start_mute_audio"}, /* Clear audio mute sequence , */\
+ { 0x45d0, "int_in_flag_cfma_err"}, /* Clear cfma err , */\
+ { 0x45e0, "int_in_flag_cfma_ack"}, /* Clear cfma ack , */\
+ { 0x45f0, "int_in_flag_clk_out_of_range"}, /* Clear flag_clk_out_of_range , */\
+ { 0x4600, "int_in_flag_tdm_error"}, /* Clear tdm error , */\
+ { 0x4620, "int_in_flag_clip"}, /* Clear clip , */\
+ { 0x4650, "int_in_flag_lp_detect_mode1"}, /* Clear low power mode1 , */\
+ { 0x4660, "int_in_flag_low_amplitude"}, /* Clear low amplitude detection , */\
+ { 0x4670, "int_in_flag_vddp_gt_vbat"}, /* Clear VDDP greater then VBAT , */\
+ { 0x4680, "int_in_newtap"}, /* Clear Tap detected , */\
+ { 0x4690, "int_in_audiomodeactive"}, /* Clear Audio Mode activated , */\
+ { 0x46a0, "int_in_sammodeactive"}, /* Clear SAM Mode activated , */\
+ { 0x46b0, "int_in_tapmodeactive"}, /* Clear Tap Mode Activated , */\
+ { 0x46c0, "int_in_flag_tap_comp_trig"}, /* Clear Comparator Interrupt , */\
+ { 0x4800, "int_enable_flag_por"}, /* Enable por , */\
+ { 0x4810, "int_enable_flag_pll_lock"}, /* Enable pll lock , */\
+ { 0x4820, "int_enable_flag_otpok"}, /* Enable OTP alarm , */\
+ { 0x4830, "int_enable_flag_ovpok"}, /* Enable OVP alarm , */\
+ { 0x4840, "int_enable_flag_uvpok"}, /* Enable UVP alarm , */\
+ { 0x4850, "int_enable_flag_clocks_stable"}, /* Enable clocks stable , */\
+ { 0x4860, "int_enable_flag_mtp_busy"}, /* Enable mtp busy , */\
+ { 0x4870, "int_enable_flag_lost_clk"}, /* Enable lost clk , */\
+ { 0x4880, "int_enable_flag_cf_speakererror"}, /* Enable speaker error , */\
+ { 0x4890, "int_enable_flag_cold_started"}, /* Enable cold started , */\
+ { 0x48a0, "int_enable_flag_engage"}, /* Enable amplifier engage , */\
+ { 0x48b0, "int_enable_flag_watchdog_reset"}, /* Enable watchdog , */\
+ { 0x48c0, "int_enable_flag_enbl_amp"}, /* Enable enbl amp , */\
+ { 0x48d0, "int_enable_flag_enbl_ref"}, /* Enable ref enable , */\
+ { 0x48e0, "int_enable_flag_adc10_ready"}, /* Enable Control ADC , */\
+ { 0x48f0, "int_enable_flag_bod_vddd_nok"}, /* Enable BOD , */\
+ { 0x4900, "int_enable_flag_bst_bstcur"}, /* Enable DCDC current limiting , */\
+ { 0x4910, "int_enable_flag_bst_hiz"}, /* Enable DCDC active , */\
+ { 0x4920, "int_enable_flag_bst_ocpok"}, /* Enable DCDC OCP , */\
+ { 0x4930, "int_enable_flag_bst_peakcur"}, /* Enable bst peakcur , */\
+ { 0x4940, "int_enable_flag_bst_voutcomp"}, /* Enable DCDC level 1x , */\
+ { 0x4950, "int_enable_flag_bst_voutcomp86"}, /* Enable DCDC level 1.14x , */\
+ { 0x4960, "int_enable_flag_bst_voutcomp93"}, /* Enable DCDC level 1.07x , */\
+ { 0x4990, "int_enable_flag_ocp_alarm"}, /* Enable ocp alarm , */\
+ { 0x49a0, "int_enable_flag_man_wait_src_settings"}, /* Enable waits HW I2C settings , */\
+ { 0x49b0, "int_enable_flag_man_wait_cf_config"}, /* Enable man wait cf config , */\
+ { 0x49c0, "int_enable_flag_man_start_mute_audio"}, /* Enable man Audio mute sequence , */\
+ { 0x49d0, "int_enable_flag_cfma_err"}, /* Enable cfma err , */\
+ { 0x49e0, "int_enable_flag_cfma_ack"}, /* Enable cfma ack , */\
+ { 0x49f0, "int_enable_flag_clk_out_of_range"}, /* Enable flag_clk_out_of_range , */\
+ { 0x4a00, "int_enable_flag_tdm_error"}, /* Enable tdm error , */\
+ { 0x4a20, "int_enable_flag_clip"}, /* Enable clip , */\
+ { 0x4a50, "int_enable_flag_lp_detect_mode1"}, /* Enable low power mode1 , */\
+ { 0x4a60, "int_enable_flag_low_amplitude"}, /* Enable low amplitude detection , */\
+ { 0x4a70, "int_enable_flag_vddp_gt_vbat"}, /* Enable VDDP greater than VBAT , */\
+ { 0x4a80, "int_enable_newtap"}, /* Enable Tap detected , */\
+ { 0x4a90, "int_enable_audiomodeactive"}, /* Enable Audio Mode activated , */\
+ { 0x4aa0, "int_enable_sammodeactive"}, /* Enable SAM Mode activated , */\
+ { 0x4ab0, "int_enable_tapmodeactive"}, /* Enable Tap Mode Activated , */\
+ { 0x4ac0, "int_enable_flag_tap_comp_trig"}, /* Enable comparator interrupt , */\
+ { 0x4c00, "int_polarity_flag_por"}, /* Polarity por , */\
+ { 0x4c10, "int_polarity_flag_pll_lock"}, /* Polarity pll lock , */\
+ { 0x4c20, "int_polarity_flag_otpok"}, /* Polarity OTP alarm , */\
+ { 0x4c30, "int_polarity_flag_ovpok"}, /* Polarity OVP alarm , */\
+ { 0x4c40, "int_polarity_flag_uvpok"}, /* Polarity UVP alarm , */\
+ { 0x4c50, "int_polarity_flag_clocks_stable"}, /* Polarity clocks stable , */\
+ { 0x4c60, "int_polarity_flag_mtp_busy"}, /* Polarity mtp busy , */\
+ { 0x4c70, "int_polarity_flag_lost_clk"}, /* Polarity lost clk , */\
+ { 0x4c80, "int_polarity_flag_cf_speakererror"}, /* Polarity speaker error , */\
+ { 0x4c90, "int_polarity_flag_cold_started"}, /* Polarity cold started , */\
+ { 0x4ca0, "int_polarity_flag_engage"}, /* Polarity amplifier engage , */\
+ { 0x4cb0, "int_polarity_flag_watchdog_reset"}, /* Polarity watchdog , */\
+ { 0x4cc0, "int_polarity_flag_enbl_amp"}, /* Polarity enbl amp , */\
+ { 0x4cd0, "int_polarity_flag_enbl_ref"}, /* Polarity ref enable , */\
+ { 0x4ce0, "int_polarity_flag_adc10_ready"}, /* Polarity Control ADC , */\
+ { 0x4cf0, "int_polarity_flag_bod_vddd_nok"}, /* Polarity BOD , */\
+ { 0x4d00, "int_polarity_flag_bst_bstcur"}, /* Polarity DCDC current limiting , */\
+ { 0x4d10, "int_polarity_flag_bst_hiz"}, /* Polarity DCDC active , */\
+ { 0x4d20, "int_polarity_flag_bst_ocpok"}, /* Polarity DCDC OCP , */\
+ { 0x4d30, "int_polarity_flag_bst_peakcur"}, /* Polarity bst peakcur , */\
+ { 0x4d40, "int_polarity_flag_bst_voutcomp"}, /* Polarity DCDC level 1x , */\
+ { 0x4d50, "int_polarity_flag_bst_voutcomp86"}, /* Polarity DCDC level 1.14x , */\
+ { 0x4d60, "int_polarity_flag_bst_voutcomp93"}, /* Polarity DCDC level 1.07x , */\
+ { 0x4d90, "int_polarity_flag_ocp_alarm"}, /* Polarity ocp alarm , */\
+ { 0x4da0, "int_polarity_flag_man_wait_src_settings"}, /* Polarity waits HW I2C settings , */\
+ { 0x4db0, "int_polarity_flag_man_wait_cf_config"}, /* Polarity man wait cf config , */\
+ { 0x4dc0, "int_polarity_flag_man_start_mute_audio"}, /* Polarity man audio mute sequence , */\
+ { 0x4dd0, "int_polarity_flag_cfma_err"}, /* Polarity cfma err , */\
+ { 0x4de0, "int_polarity_flag_cfma_ack"}, /* Polarity cfma ack , */\
+ { 0x4df0, "int_polarity_flag_clk_out_of_range"}, /* Polarity flag_clk_out_of_range , */\
+ { 0x4e00, "int_polarity_flag_tdm_error"}, /* Polarity tdm error , */\
+ { 0x4e20, "int_polarity_flag_clip"}, /* Polarity clip , */\
+ { 0x4e50, "int_polarity_flag_lp_detect_mode1"}, /* Polarity low power mode1 , */\
+ { 0x4e60, "int_polarity_flag_low_amplitude"}, /* Polarity low amplitude detection , */\
+ { 0x4e70, "int_polarity_flag_vddp_gt_vbat"}, /* Polarity VDDP greater than VBAT , */\
+ { 0x4e80, "int_polarity_newtap"}, /* PolarityTap detected , */\
+ { 0x4e90, "int_polarity_audiomodeactive"}, /* PolarityAudio Mode activated , */\
+ { 0x4ea0, "int_polarity_sammodeactive"}, /* PolaritySAM Mode activated , */\
+ { 0x4eb0, "int_polarity_tapmodeactive"}, /* Polarity Tap Mode Activated , */\
+ { 0x4ec0, "int_polarity_flag_tap_comp_trig"}, /* PolarityTap Comparator Trigger , */\
+ { 0x5001, "vbat_prot_attack_time"}, /* Battery Safeguard attack time , */\
+ { 0x5023, "vbat_prot_thlevel"}, /* Battery Safeguard threshold voltage level , */\
+ { 0x5061, "vbat_prot_max_reduct"}, /* Battery Safeguard maximum reduction , */\
+ { 0x5082, "vbat_prot_release_time"}, /* Battery Safeguard release time , */\
+ { 0x50b1, "vbat_prot_hysterese"}, /* Battery Safeguard hysteresis , */\
+ { 0x50d0, "rst_min_vbat"}, /* Reset clipper - Auto clear , */\
+ { 0x50e0, "sel_vbat"}, /* Battery voltage read out , */\
+ { 0x50f0, "bypass_clipper"}, /* Bypass HW clipper , */\
+ { 0x5100, "batsense_steepness"}, /* Vbat prot steepness , */\
+ { 0x5110, "soft_mute"}, /* Soft mute HW , */\
+ { 0x5130, "cf_mute"}, /* Soft mute FW , */\
+ { 0x5150, "bypass_hp"}, /* Bypass HPF , */\
+ { 0x5170, "enbl_dpsa"}, /* Enable DPSA , */\
+ { 0x5187, "cf_volume"}, /* FW volume control for primary audio channel , */\
+ { 0x5222, "ctrl_cc"}, /* Clip control setting , */\
+ { 0x5257, "gain"}, /* Amplifier gain , */\
+ { 0x52d0, "ctrl_slopectrl"}, /* Enables slope control , */\
+ { 0x52e0, "ctrl_slope"}, /* Slope speed setting (bin. coded) , */\
+ { 0x5301, "dpsa_level"}, /* DPSA threshold levels , */\
+ { 0x5321, "dpsa_release"}, /* DPSA Release time , */\
+ { 0x5340, "clipfast"}, /* Clock selection for HW clipper for Battery Safeguard, */\
+ { 0x5350, "bypass_lp"}, /* Bypass the low power filter inside temperature sensor, */\
+ { 0x5360, "enbl_low_latency"}, /* CF low latency outputs for add module , */\
+ { 0x5400, "first_order_mode"}, /* Overrule to 1st order mode of control stage when clipping, */\
+ { 0x5410, "bypass_ctrlloop"}, /* Switch amplifier into open loop configuration , */\
+ { 0x5430, "icomp_engage"}, /* Engage of icomp , */\
+ { 0x5440, "ctrl_kickback"}, /* Prevent double pulses of output stage , */\
+ { 0x5450, "icomp_engage_overrule"}, /* To overrule the functional icomp_engage signal during validation, */\
+ { 0x5503, "ctrl_dem"}, /* Enable DEM icomp and DEM one bit dac , */\
+ { 0x5543, "ctrl_dem_mismatch"}, /* Enable DEM icomp mismatch for testing , */\
+ { 0x5582, "dpsa_drive"}, /* Drive setting (bin. coded) - I2C direct mode , */\
+ { 0x570a, "enbl_amp"}, /* Switch on the class-D power sections, each part of the analog sections can be switched on/off individually , */\
+ { 0x57b0, "enbl_engage"}, /* Enables/engage power stage and control loop - I2C direct mode, */\
+ { 0x57c0, "enbl_engage_pst"}, /* Enables/engage power stage and control loop , */\
+ { 0x5810, "hard_mute"}, /* Hard mute - PWM , */\
+ { 0x5820, "pwm_shape"}, /* PWM shape , */\
+ { 0x5844, "pwm_delay"}, /* PWM delay bits to set the delay, clock is 1/(k*2048*fs), */\
+ { 0x5890, "reclock_pwm"}, /* Reclock the pwm signal inside analog , */\
+ { 0x58a0, "reclock_voltsense"}, /* Reclock the voltage sense pwm signal , */\
+ { 0x58c0, "enbl_pwm_phase_shift"}, /* Control for pwm phase shift , */\
+ { 0x5c07, "flag_cf_tap_pattern"}, /* Coolflux tap pattern , */\
+ { 0x5c83, "tap_debug_info"}, /* Reserved , */\
+ { 0x5d0f, "tap_status_1"}, /* Tap Status 1 from CF FW , */\
+ { 0x5f03, "tap_comp_threshold"}, /* Comparator threshold (in uV) , */\
+ { 0x6081, "pga_gain_set"}, /* PGA gain selection , */\
+ { 0x60b0, "pga_lowpass_enable"}, /* Lowpass enable , */\
+ { 0x60c0, "pga_pwr_enable"}, /* PGA power enable , */\
+ { 0x60d0, "pga_switch_enable"}, /* PGA switch enable , */\
+ { 0x60e0, "pga_switch_aux_enable"}, /* Switch enable aux , */\
+ { 0x6123, "ctrl_att"}, /* System gain (INPLEV 0) , */\
+ { 0x6265, "zero_lvl"}, /* ctrl threshold for zero X-ing , */\
+ { 0x62c1, "ctrl_fb_resistor"}, /* Select amplifier feedback resistor connection , */\
+ { 0x62e1, "lownoisegain_mode"}, /* ctrl select mode , */\
+ { 0x6305, "threshold_lvl"}, /* ctrl threshold for low_audio_lvl , */\
+ { 0x6365, "hold_time"}, /* ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x6405, "lpm1_cal_offset"}, /* low power mode1 detector ctrl cal_offset from gain module , */\
+ { 0x6465, "lpm1_zero_lvl"}, /* low power mode1 detector ctrl threshold for zero X-ing , */\
+ { 0x64e1, "lpm1_mode"}, /* low power mode1 detector ctrl select mode , */\
+ { 0x6505, "lpm1_threshold_lvl"}, /* low power mode1 detector ctrl threshold for low_audio_lvl , */\
+ { 0x6565, "lpm1_hold_time"}, /* Low power mode1 detector, ctrl hold time before low audio is reckoned to be low audio, */\
+ { 0x65c0, "disable_low_power_mode"}, /* low power mode1 detector control , */\
+ { 0x6600, "dcdc_pfm20khz_limit"}, /* DCDC in PFM mode pwm mode is activated each 50us to force a pwm pulse, */\
+ { 0x6611, "dcdc_ctrl_maxzercnt"}, /* DCDC. Number of zero current flags to count before going to pfm mode, */\
+ { 0x6630, "dcdcoff_mode"}, /* DCDC , */\
+ { 0x6656, "dcdc_vbat_delta_detect"}, /* Threshold before booster is reacting on a delta Vbat (in PFM mode) by temporarily switching to PWM mode, */\
+ { 0x66c0, "dcdc_ignore_vbat"}, /* Ignore an increase on Vbat , */\
+ { 0x6700, "enbl_minion"}, /* Enables minion (small) power stage - direct ctrl , */\
+ { 0x6713, "vth_vddpvbat"}, /* select vddp-vbat thres signal , */\
+ { 0x6750, "lpen_vddpvbat"}, /* select vddp-vbat filtered vs unfiltered compare , */\
+ { 0x6761, "ctrl_rfb"}, /* Feedback resistor selection - I2C direct mode , */\
+ { 0x6801, "tdm_source_mapping"}, /* tdm source mapping , */\
+ { 0x6821, "tdm_sourcea_frame_sel"}, /* frame a selection , */\
+ { 0x6841, "tdm_sourceb_frame_sel"}, /* frame b selection , */\
+ { 0x6901, "sam_mode"}, /* Sam mode , */\
+ { 0x6931, "pdmdat_h_sel"}, /* pdm out value when pdm_clk is higth , */\
+ { 0x6951, "pdmdat_l_sel"}, /* pdm out value when pdm_clk is low , */\
+ { 0x6970, "cs_sam_set"}, /* Enable SAM input for current sense - I2C Direct Mode, */\
+ { 0x6980, "cs_adc_nortz"}, /* Return to zero for current sense ADC , */\
+ { 0x6990, "sam_spkr_sel"}, /* SAM o/p sel during SAM and audio , */\
+ { 0x6b00, "disable_engage"}, /* Disable auto engage , */\
+ { 0x6c02, "ns_hp2ln_criterion"}, /* 0..7 zeroes at ns as threshold to swap from high_power to low_noise, */\
+ { 0x6c32, "ns_ln2hp_criterion"}, /* 0..7 zeroes at ns as threshold to swap from low_noise to high_power, */\
+ { 0x6c60, "sel_clip_pwms"}, /* To select clip-flags , */\
+ { 0x6c72, "pwms_clip_lvl"}, /* To set the amount of pwm pulse that may be skipped before clip-flag is triggered. , */\
+ { 0x6ca5, "spare_out"}, /* spare_out , */\
+ { 0x6d0f, "spare_in"}, /* spare_in , */\
+ { 0x6e10, "flag_lp_detect_mode1"}, /* low power mode 1 detection , */\
+ { 0x6e20, "flag_low_amplitude"}, /* low amplitude detection , */\
+ { 0x6e30, "flag_vddp_gt_vbat"}, /* vddp greater than vbat , */\
+ { 0x7033, "boost_cur"}, /* Max coil current , */\
+ { 0x7071, "bst_slpcmplvl"}, /* Slope compensation current, represents LxF (inductance x frequency) value , */\
+ { 0x7090, "boost_intel"}, /* Adaptive boost mode , */\
+ { 0x70a0, "boost_speed"}, /* Soft ramp up/down , */\
+ { 0x70c1, "dcdc_sel"}, /* DCDC IIR input Selection , */\
+ { 0x70f0, "dcdc_pwmonly"}, /* DCDC PWM only mode , */\
+ { 0x7104, "bst_drive"}, /* Binary coded drive setting for boost converter power stage, */\
+ { 0x7151, "bst_scalecur"}, /* For testing direct control scale current , */\
+ { 0x7174, "bst_slopecur"}, /* For testing direct control slope current - I2C direct mode, */\
+ { 0x71c1, "bst_slope"}, /* Boost slope speed , */\
+ { 0x71e0, "bst_bypass_bstcur"}, /* Bypass control for boost current settings , */\
+ { 0x71f0, "bst_bypass_bstfoldback"}, /* Bypass control for boost foldback , */\
+ { 0x7200, "enbl_bst_engage"}, /* Enable power stage dcdc controller - I2C direct mode, */\
+ { 0x7210, "enbl_bst_hizcom"}, /* Enable hiz comparator - I2C direct mode , */\
+ { 0x7220, "enbl_bst_peak2avg"}, /* Enable boost peak2avg functionality , */\
+ { 0x7230, "enbl_bst_peakcur"}, /* Enable peak current - I2C direct mode , */\
+ { 0x7240, "enbl_bst_power"}, /* Enable line of the powerstage - I2C direct mode , */\
+ { 0x7250, "enbl_bst_slopecur"}, /* Enable bit of max-current dac - I2C direct mode , */\
+ { 0x7260, "enbl_bst_voutcomp"}, /* Enable vout comparators - I2C direct mode , */\
+ { 0x7270, "enbl_bst_voutcomp86"}, /* Enable vout-86 comparators - I2C direct mode , */\
+ { 0x7280, "enbl_bst_voutcomp93"}, /* Enable vout-93 comparators - I2C direct mode , */\
+ { 0x7290, "enbl_bst_windac"}, /* Enable window dac - I2C direct mode , */\
+ { 0x72a5, "bst_windac"}, /* for testing direct control windac - I2C direct mode, */\
+ { 0x7300, "boost_alg"}, /* Control for boost adaptive loop gain , */\
+ { 0x7311, "boost_loopgain"}, /* DCDC boost loopgain setting , */\
+ { 0x7331, "bst_freq"}, /* DCDC boost frequency control , */\
+ { 0x7430, "boost_track"}, /* Boost algorithm selection, effective only when boost_intelligent is set to 1, */\
+ { 0x7494, "boost_hold_time"}, /* Hold time for DCDC booster, effective only when boost_intelligent is set to 1, */\
+ { 0x74e0, "sel_dcdc_envelope_8fs"}, /* Selection of data for adaptive boost algorithm, effective only when boost_intelligent is set to 1, */\
+ { 0x74f0, "ignore_flag_voutcomp86"}, /* Ignore flag_voutcomp86 , */\
+ { 0x7504, "boost_trip_lvl_1st"}, /* Adaptive boost trip levels 1, effective only when boost_intelligent is set to 1, */\
+ { 0x7554, "boost_trip_lvl_2nd"}, /* Adaptive boost trip level 2, effective only when boost_intelligent is set to 1, */\
+ { 0x75a4, "boost_trip_lvl_track"}, /* Adaptive boost trip levels, effective only when boost_intelligent is set to 1, */\
+ { 0x7602, "track_decay"}, /* DCDC Boost decay speed after a peak value, effective only when boost_track is set to 1, */\
+ { 0x7635, "frst_boost_voltage"}, /* First boost voltage level , */\
+ { 0x7695, "scnd_boost_voltage"}, /* Second boost voltage level , */\
+ { 0x7720, "pga_test_ldo_bypass"}, /* bypass internal PGA LDO , */\
+ { 0x8001, "sel_clk_cs"}, /* Current sense clock duty cycle control , */\
+ { 0x8021, "micadc_speed"}, /* Current sense clock for MiCADC selection - 32/44.1/48 KHz Fs band only, */\
+ { 0x8050, "cs_gain_control"}, /* Current sense gain control , */\
+ { 0x8060, "cs_bypass_gc"}, /* Bypasses the CS gain correction , */\
+ { 0x8087, "cs_gain"}, /* Current sense gain , */\
+ { 0x8200, "enbl_cmfb"}, /* Current sense common mode feedback control , */\
+ { 0x8210, "invertpwm"}, /* Current sense common mode feedback pwm invert control, */\
+ { 0x8222, "cmfb_gain"}, /* Current sense common mode feedback control gain , */\
+ { 0x8256, "cmfb_offset"}, /* Current sense common mode feedback control offset , */\
+ { 0x8305, "cs_ktemp"}, /* First order temperature compensation coefficient , */\
+ { 0x8364, "cs_ktemp2"}, /* Second order temperature compensation coefficient , */\
+ { 0x8400, "cs_adc_bsoinv"}, /* Bitstream inversion for current sense ADC , */\
+ { 0x8421, "cs_adc_hifreq"}, /* Frequency mode current sense ADC , */\
+ { 0x8453, "cs_adc_offset"}, /* Micadc ADC offset setting , */\
+ { 0x8490, "cs_adc_slowdel"}, /* Select delay for current sense ADC (internal decision circuitry), */\
+ { 0x84a4, "cs_adc_gain"}, /* Gain setting for current sense ADC (two's complement), */\
+ { 0x8500, "cs_resonator_enable"}, /* Enable for resonator to improve SRN , */\
+ { 0x8510, "cs_classd_tran_skip"}, /* Skip current sense connection during a classD amplifier transition, */\
+ { 0x8530, "cs_inn_short"}, /* Short current sense negative to common mode , */\
+ { 0x8540, "cs_inp_short"}, /* Short current sense positive to common mode , */\
+ { 0x8550, "cs_ldo_bypass"}, /* Bypass current sense LDO , */\
+ { 0x8560, "cs_ldo_pulldown"}, /* Pull down current sense LDO, only valid if left_enbl_cs_ldo is high, */\
+ { 0x8574, "cs_ldo_voset"}, /* Current sense LDO voltage level setting (two's complement), */\
+ { 0x8700, "enbl_cs_adc"}, /* Enable current sense ADC - I2C direct mode , */\
+ { 0x8710, "enbl_cs_inn1"}, /* Enable connection of current sense negative1 - I2C direct mode, */\
+ { 0x8720, "enbl_cs_inn2"}, /* Enable connection of current sense negative2 - I2C direct mode, */\
+ { 0x8730, "enbl_cs_inp1"}, /* Enable connection of current sense positive1 , */\
+ { 0x8740, "enbl_cs_inp2"}, /* Enable connection of current sense positive2 - I2C direct mode, */\
+ { 0x8750, "enbl_cs_ldo"}, /* Enable current sense LDO - I2C direct mode , */\
+ { 0x8760, "enbl_cs_nofloating_n"}, /* Connect current sense negative to gnda at transitions of booster or classd amplifiers. Otherwise floating (0), */\
+ { 0x8770, "enbl_cs_nofloating_p"}, /* Connect current sense positive to gnda at transitions of booster or classd amplifiers. Otherwise floating (0), */\
+ { 0x8780, "enbl_cs_vbatldo"}, /* Enable of current sense LDO -- I2C direct mode , */\
+ { 0x8800, "volsense_pwm_sel"}, /* Voltage sense PWM source selection control , */\
+ { 0x8810, "vol_cur_sense_dc_offset"}, /* voltage and current sense decimator offset control, */\
+ { 0x8902, "cursense_comp_delay"}, /* To align compensation signal with current sense signal, */\
+ { 0x8930, "cursense_comp_sign"}, /* To change polarity of compensation for current sense compensation, */\
+ { 0x8940, "enbl_cursense_comp"}, /* To enable current sense compensation , */\
+ { 0x9000, "cf_rst_dsp"}, /* Reset , */\
+ { 0x9011, "cf_dmem"}, /* Target memory , */\
+ { 0x9030, "cf_aif"}, /* Auto increment , */\
+ { 0x9040, "cf_int"}, /* Interrupt - auto clear , */\
+ { 0x9050, "cf_cgate_off"}, /* Coolflux clock gating disabling control , */\
+ { 0x9080, "cf_req_cmd"}, /* Firmware event request rpc command , */\
+ { 0x9090, "cf_req_reset"}, /* Firmware event request reset restart , */\
+ { 0x90a0, "cf_req_mips"}, /* Firmware event request short on mips , */\
+ { 0x90b0, "cf_req_mute_ready"}, /* Firmware event request mute sequence ready , */\
+ { 0x90c0, "cf_req_volume_ready"}, /* Firmware event request volume ready , */\
+ { 0x90d0, "cf_req_damage"}, /* Firmware event request speaker damage detected , */\
+ { 0x90e0, "cf_req_calibrate_ready"}, /* Firmware event request calibration completed , */\
+ { 0x90f0, "cf_req_reserved"}, /* Firmware event request reserved , */\
+ { 0x910f, "cf_madd"}, /* Memory address , */\
+ { 0x920f, "cf_mema"}, /* Activate memory access , */\
+ { 0x9307, "cf_err"}, /* Error flags , */\
+ { 0x9380, "cf_ack_cmd"}, /* Firmware event acknowledge rpc command , */\
+ { 0x9390, "cf_ack_reset"}, /* Firmware event acknowledge reset restart , */\
+ { 0x93a0, "cf_ack_mips"}, /* Firmware event acknowledge short on mips , */\
+ { 0x93b0, "cf_ack_mute_ready"}, /* Firmware event acknowledge mute sequence ready , */\
+ { 0x93c0, "cf_ack_volume_ready"}, /* Firmware event acknowledge volume ready , */\
+ { 0x93d0, "cf_ack_damage"}, /* Firmware event acknowledge speaker damage detected, */\
+ { 0x93e0, "cf_ack_calibrate_ready"}, /* Firmware event acknowledge calibration completed , */\
+ { 0x93f0, "cf_ack_reserved"}, /* Firmware event acknowledge reserved , */\
+ { 0xa007, "mtpkey1"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
+ { 0xa107, "mtpkey2"}, /* MTP KEY2 register , */\
+ { 0xa200, "key01_locked"}, /* Indicates KEY1 is locked , */\
+ { 0xa210, "key02_locked"}, /* Indicates KEY2 is locked , */\
+ { 0xa302, "mtp_man_address_in"}, /* MTP address from I2C register for read/writing mtp in manual single word mode, */\
+ { 0xa330, "man_copy_mtp_to_iic"}, /* Start copying single word from mtp to I2C mtp register, */\
+ { 0xa340, "man_copy_iic_to_mtp"}, /* Start copying single word from I2C mtp register to mtp, */\
+ { 0xa350, "auto_copy_mtp_to_iic"}, /* Start copying all the data from mtp to I2C mtp registers, */\
+ { 0xa360, "auto_copy_iic_to_mtp"}, /* Start copying data from I2C mtp registers to mtp , */\
+ { 0xa400, "faim_set_clkws"}, /* Sets the FaIM controller clock wait state register, */\
+ { 0xa410, "faim_sel_evenrows"}, /* All even rows of the FaIM are selected, active high, */\
+ { 0xa420, "faim_sel_oddrows"}, /* All odd rows of the FaIM are selected, all rows in combination with sel_evenrows, */\
+ { 0xa430, "faim_program_only"}, /* Skip the erase access at wr_faim command (write-program-marginread), */\
+ { 0xa440, "faim_erase_only"}, /* Skip the program access at wr_faim command (write-erase-marginread), */\
+ { 0xa50f, "mtp_man_data_out_msb"}, /* MSB word of MTP manual read data , */\
+ { 0xa60f, "mtp_man_data_out_lsb"}, /* LSB word of MTP manual read data , */\
+ { 0xa70f, "mtp_man_data_in_msb"}, /* MSB word of write data for MTP manual write , */\
+ { 0xa80f, "mtp_man_data_in_lsb"}, /* LSB word of write data for MTP manual write , */\
+ { 0xb010, "bypass_ocpcounter"}, /* Bypass OCP Counter , */\
+ { 0xb020, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
+ { 0xb030, "bypass_ovp"}, /* Bypass OVP , */\
+ { 0xb040, "bypass_uvp"}, /* Bypass UVP , */\
+ { 0xb050, "bypass_otp"}, /* Bypass OTP , */\
+ { 0xb060, "bypass_lost_clk"}, /* Bypass lost clock detector , */\
+ { 0xb070, "ctrl_vpalarm"}, /* vpalarm (uvp ovp handling) , */\
+ { 0xb087, "ocp_threshold"}, /* OCP threshold level , */\
+ { 0xb108, "ext_temp"}, /* External temperature (C) , */\
+ { 0xb190, "ext_temp_sel"}, /* Select temp Speaker calibration , */\
+ { 0xc000, "use_direct_ctrls"}, /* Direct control to overrule several functions for testing, */\
+ { 0xc010, "rst_datapath"}, /* Direct control for datapath reset , */\
+ { 0xc020, "rst_cgu"}, /* Direct control for cgu reset , */\
+ { 0xc038, "enbl_ref"}, /* Switch on the analog references, each part of the references can be switched on/off individually - - I2C direct mode, */\
+ { 0xc0d0, "enbl_ringo"}, /* Enable the ring oscillator for test purpose , */\
+ { 0xc0e0, "use_direct_clk_ctrl"}, /* Direct clock control to overrule several functions for testing, */\
+ { 0xc0f0, "use_direct_pll_ctrl"}, /* Direct PLL control to overrule several functions for testing, */\
+ { 0xc100, "enbl_tsense"}, /* Temperature sensor enable control - I2C direct mode, */\
+ { 0xc110, "tsense_hibias"}, /* Bit to set the biasing in temp sensor to high - I2C direct mode, */\
+ { 0xc120, "enbl_flag_vbg"}, /* Enable flagging of bandgap out of control , */\
+ { 0xc130, "tap_comp_enable"}, /* Tap Comparator enable control - I2C direct mode , */\
+ { 0xc140, "tap_comp_switch_enable"}, /* Tap Comparator Switch enable control - I2C direct mode, */\
+ { 0xc150, "tap_comp_switch_aux_enable"}, /* Tap Comparator Switch enable control - I2C direct mode, */\
+ { 0xc161, "tap_comp_test_enable"}, /* Comparator threshold - fine value , */\
+ { 0xc180, "curdist_enable"}, /* Enable control - I2C direct mode , */\
+ { 0xc190, "vbg2i_enbl"}, /* Enable control - I2C direct mode , */\
+ { 0xc1a0, "bg_filt_bypass_enbl"}, /* Enable control , */\
+ { 0xc20f, "abist_offset"}, /* Offset control for ABIST testing (two's complement), */\
+ { 0xc300, "bypasslatch"}, /* Bypass latch , */\
+ { 0xc311, "sourcea"}, /* Set OUTA to , */\
+ { 0xc331, "sourceb"}, /* Set OUTB to , */\
+ { 0xc350, "inverta"}, /* Invert pwma test signal , */\
+ { 0xc360, "invertb"}, /* Invert pwmb test signal , */\
+ { 0xc374, "pulselength"}, /* Pulse length setting test input for amplifier (clock d - k*2048*fs), */\
+ { 0xc3c0, "tdm_enable_loopback"}, /* TDM loopback test , */\
+ { 0xc3d0, "test_abistfft_enbl"}, /* FFT Coolflux , */\
+ { 0xc3e0, "test_pwr_switch"}, /* Test mode for digital power switches core sw/mem sw/micvdd sw, */\
+ { 0xc400, "bst_bypasslatch"}, /* Bypass latch in boost converter , */\
+ { 0xc411, "bst_source"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
+ { 0xc430, "bst_invertb"}, /* Invert pwmbst test signal , */\
+ { 0xc444, "bst_pulselength"}, /* Pulse length setting test input for boost converter , */\
+ { 0xc490, "test_bst_ctrlsthv"}, /* Test mode for boost control stage , */\
+ { 0xc4a0, "test_bst_iddq"}, /* IDDQ testing in power stage of boost converter , */\
+ { 0xc4b0, "test_bst_rdson"}, /* RDSON testing - boost power stage , */\
+ { 0xc4c0, "test_bst_cvi"}, /* CVI testing - boost power stage , */\
+ { 0xc4d0, "test_bst_ocp"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0), For new ocp (ctrl_reversebst is 1), */\
+ { 0xc4e0, "test_bst_sense"}, /* Test option for the sense NMOS in booster for current mode control., */\
+ { 0xc500, "test_cvi"}, /* Analog BIST, switch choose which transistor will be used as current source (also cross coupled sources possible), */\
+ { 0xc510, "test_discrete"}, /* Test function noise measurement , */\
+ { 0xc520, "test_iddq"}, /* Set the power stages in iddq mode for gate stress., */\
+ { 0xc540, "test_rdson"}, /* Analog BIST, switch to enable Rdson measurement , */\
+ { 0xc550, "test_sdelta"}, /* Analog BIST, noise test , */\
+ { 0xc560, "bypass_fro8"}, /* Bypass fro8 with pdm_clk , */\
+ { 0xc570, "test_enbl_cs"}, /* Enable for digimux mode of current sense , */\
+ { 0xc5b0, "pga_test_enable"}, /* Enable PGA test mode , */\
+ { 0xc5c0, "pga_test_offset_enable"}, /* Enable PGA test offset , */\
+ { 0xc5d0, "pga_test_shortinput_enable"}, /* Enable PGA test short input , */\
+ { 0xc600, "enbl_pwm_dcc"}, /* Enables direct control of pwm duty cycle for DCDC power stage, */\
+ { 0xc613, "pwm_dcc_cnt"}, /* Control pwm duty cycle when enbl_pwm_dcc is 1 , */\
+ { 0xc650, "enbl_ldo_stress"}, /* Enable stress of internal supply voltages powerstages, */\
+ { 0xc660, "enbl_powerswitch"}, /* Vddd core power switch control - overrules the manager control, */\
+ { 0xc707, "digimuxa_sel"}, /* DigimuxA input selection control routed to DIO4 (see Digimux list for details), */\
+ { 0xc787, "digimuxb_sel"}, /* DigimuxB input selection control routed to DIO3 (see Digimux list for details), */\
+ { 0xc807, "digimuxc_sel"}, /* DigimuxC input selection control routed to TDO (see Digimux list for details), */\
+ { 0xc901, "dio1_ehs"}, /* Speed/load setting for DIO1 IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc921, "dio2_ehs"}, /* Speed/load setting for DIO2 IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc941, "dio3_ehs"}, /* Speed/load setting for DIO3 cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc961, "dio4_ehs"}, /* Speed/load setting for DIO4 IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc981, "spdmo_ehs"}, /* Speed/load setting for PDMO IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc9a1, "tdo_ehs"}, /* Speed/load setting for TDM IO cell, clk or data mode range (see SLIMMF IO cell datasheet), */\
+ { 0xc9c0, "int_ehs"}, /* Slew Rate INT IO cell, clk or data mode range (see IIC3V3 IO cell datasheet), */\
+ { 0xc9d0, "pdmclk_ehs"}, /* Slew RateBCK2/PDMCLK IO cell, clk or data mode range (see IIC3V3 IO cell datasheet), */\
+ { 0xc9e0, "fs2_ehs"}, /* Slew Rate DS2 IO cell, clk or data mode range (see IIC3V3 IO cell datasheet), */\
+ { 0xc9f0, "hs_mode"}, /* I2C high speed mode control , */\
+ { 0xca00, "enbl_anamux1"}, /* Enable anamux1 , */\
+ { 0xca10, "enbl_anamux2"}, /* Enable anamux2 , */\
+ { 0xca20, "enbl_anamux3"}, /* Enable anamux3 , */\
+ { 0xca30, "enbl_anamux4"}, /* Enable anamux4 , */\
+ { 0xca74, "anamux1"}, /* Anamux selection control - anamux on TEST1 , */\
+ { 0xcb04, "anamux2"}, /* Anamux selection control - anamux on TEST2 , */\
+ { 0xcb54, "anamux3"}, /* Anamux selection control - anamux on TEST3 , */\
+ { 0xcba4, "anamux4"}, /* Anamux selection control - anamux on TEST4 , */\
+ { 0xcc05, "pll_seli_lbw"}, /* PLL SELI - Low B/W PLL control mode or I2C direct PLL control mode only, */\
+ { 0xcc64, "pll_selp_lbw"}, /* PLL SELP - Low B/W PLL control mode or I2C direct PLL control mode only, */\
+ { 0xccb3, "pll_selr_lbw"}, /* PLL SELR - Low B/W PLL control mode or I2C direct PLL control mode only, */\
+ { 0xccf0, "sel_user_pll_bw"}, /* PLL Low Bandwidth Mode control , */\
+ { 0xcdf0, "pll_frm"}, /* PLL free running mode control; 1 in TCB direct control mode, else this control bit, */\
+ { 0xce09, "pll_ndec"}, /* PLL NDEC - I2C direct PLL control mode only , */\
+ { 0xcea0, "pll_mdec_msb"}, /* MSB of pll_mdec - I2C direct PLL control mode only, */\
+ { 0xceb0, "enbl_pll"}, /* Enables PLL in I2C direct PLL control mode only , */\
+ { 0xcec0, "enbl_fro8"}, /* Enables FRO8M in I2C direct control mode only , */\
+ { 0xced0, "pll_bypass"}, /* PLL bypass control in I2C direct PLL control mode only, */\
+ { 0xcee0, "pll_directi"}, /* PLL directi control in I2C direct PLL control mode only, */\
+ { 0xcef0, "pll_directo"}, /* PLL directo control in I2C direct PLL control mode only, */\
+ { 0xcf0f, "pll_mdec_lsb"}, /* Bits 15..0 of PLL MDEC are I2C direct PLL control mode only, */\
+ { 0xd006, "pll_pdec"}, /* PLL PDEC - I2C direct PLL control mode only , */\
+ { 0xd10f, "tsig_freq_lsb"}, /* Internal sinus test generator frequency control , */\
+ { 0xd202, "tsig_freq_msb"}, /* Select internal sinus test generator, frequency control msb bits, */\
+ { 0xd230, "inject_tsig"}, /* Control bit to switch to internal sinus test generator, */\
+ { 0xd283, "tsig_gain"}, /* Test signal gain , */\
+ { 0xd300, "adc10_reset"}, /* Reset for ADC10 - I2C direct control mode , */\
+ { 0xd311, "adc10_test"}, /* Test mode selection signal for ADC10 - I2C direct control mode, */\
+ { 0xd332, "adc10_sel"}, /* Select the input to convert for ADC10 - I2C direct control mode, */\
+ { 0xd364, "adc10_prog_sample"}, /* ADC10 program sample setting - I2C direct control mode, */\
+ { 0xd3b0, "adc10_enbl"}, /* Enable ADC10 - I2C direct control mode , */\
+ { 0xd3c0, "bypass_lp_vbat"}, /* Bypass control for Low pass filter in batt sensor , */\
+ { 0xd409, "data_adc10_tempbat"}, /* ADC 10 data output data for testing , */\
+ { 0xd507, "ctrl_digtoana_hidden"}, /* Spare digital to analog control bits - Hidden , */\
+ { 0xd580, "enbl_clk_range_chk"}, /* Clock out of range , */\
+ { 0xd601, "clkdiv_dsp_sel"}, /* DSP clock divider selection in direct clock control mode, */\
+ { 0xd621, "clkdiv_audio_sel"}, /* Audio clock divider selection in direct clock control mode, */\
+ { 0xd641, "clkdiv_muxa_sel"}, /* DCDC MUXA clock divider selection in direct clock control mode, */\
+ { 0xd661, "clkdiv_muxb_sel"}, /* DCDC MUXB clock divider selection in direct clock control mode, */\
+ { 0xd681, "dsp_tap_clk"}, /* Dsp clock frequency selection in TAP mode; , */\
+ { 0xd6a1, "sel_wdt_clk"}, /* Watch dog clock post divider value , */\
+ { 0xd6c1, "sel_tim_clk"}, /* Timer clock post divider value , */\
+ { 0xd700, "ads1_ehs"}, /* Slew Rate ADS1 IO cell, clk or data mode range (see IIC3V3 IO cell datasheet), */\
+ { 0xd710, "ads2_ehs"}, /* Slew Rate ADS2 IO cell, clk or data mode range (see IIC3V3 IO cell datasheet), */\
+ { 0xd822, "test_parametric_io"}, /* test io parametric , */\
+ { 0xd850, "ctrl_bst_clk_lp1"}, /* boost clock control in low power mode1 , */\
+ { 0xd861, "test_spare_out1"}, /* test spare out 1 , */\
+ { 0xd880, "bst_dcmbst"}, /* dcm boost - I2C direct mode , */\
+ { 0xd8a1, "force_pga_clock"}, /* force pga clock , */\
+ { 0xd8c3, "test_spare_out2"}, /* test spare out 1 , */\
+ { 0xd900, "overrules_usercase"}, /* Overrule Mode control use , */\
+ { 0xd910, "ovr_switch_ref"}, /* Overrule Value , */\
+ { 0xd920, "ovr_enbl_pll"}, /* Overrule Value , */\
+ { 0xd930, "ovr_switch_amp"}, /* Overrule Value , */\
+ { 0xd940, "ovr_enbl_clk_cs"}, /* Overrule Value , */\
+ { 0xd951, "ovr_sel_clk_cs"}, /* CS clock selection overrule , */\
+ { 0xd970, "ovr_switch_cs"}, /* Overrule Value , */\
+ { 0xd980, "ovr_enbl_csvs_ss"}, /* Overrule Value , */\
+ { 0xd990, "ovr_enbl_comp"}, /* Overrule Value , */\
+ { 0xed00, "enbl_fro8cal"}, /* Enable FRO calibration , */\
+ { 0xed10, "start_fro8_calibration"}, /* Start FRO8 Calibration , */\
+ { 0xed20, "fro8_calibration_done"}, /* FRO8 Calibration done - Read Only , */\
+ { 0xed45, "fro8_auto_trim_val"}, /* Calibration value from Auto Calibration block, to be written into MTP - Read Only, */\
+ { 0xee0f, "sw_profile"}, /* Software profile data , */\
+ { 0xef0f, "sw_vstep"}, /* Software vstep information , */\
+ { 0xf000, "calibration_onetime"}, /* Calibration schedule , */\
+ { 0xf010, "calibr_ron_done"}, /* Calibration Ron executed , */\
+ { 0xf020, "calibr_dcdc_api_calibrate"}, /* Calibration current limit DCDC , */\
+ { 0xf030, "calibr_dcdc_delta_sign"}, /* Sign bit for delta calibration current limit DCDC , */\
+ { 0xf042, "calibr_dcdc_delta"}, /* Calibration delta current limit DCDC , */\
+ { 0xf078, "calibr_speaker_info"}, /* Reserved space for allowing customer to store speaker information, */\
+ { 0xf105, "calibr_vout_offset"}, /* DCDC offset calibration 2's complement (key1 protected), */\
+ { 0xf163, "spare_mtp1_9_6"}, /* HW gain module - left channel (2's complement) , */\
+ { 0xf1a5, "spare_mtp1_15_10"}, /* Offset for amplifier, HW gain module - left channel (2's complement), */\
+ { 0xf203, "calibr_gain"}, /* HW gain module (2's complement) , */\
+ { 0xf245, "calibr_offset"}, /* Offset for amplifier, HW gain module (2's complement), */\
+ { 0xf2a3, "spare_mtp2_13_10"}, /* Trimming of LDO (2.7V) , */\
+ { 0xf307, "spare_mtp3_7_0"}, /* SPARE , */\
+ { 0xf387, "calibr_gain_cs"}, /* Current sense gain (signed two's complement format), */\
+ { 0xf40f, "calibr_R25C"}, /* Ron resistance of speaker coil , */\
+ { 0xf50f, "spare_mtp5_15_0"}, /* SPARE , */\
+ { 0xf600, "mtp_lock_enbl_coolflux"}, /* Disable function dcdcoff_mode , */\
+ { 0xf610, "mtp_pwm_delay_enbl_clk_auto_gating"}, /* Auto clock gating on pwm_delay , */\
+ { 0xf620, "mtp_ocp_enbl_clk_auto_gating"}, /* Auto clock gating on module ocp , */\
+ { 0xf630, "mtp_disable_clk_a_gating"}, /* Disable clock_a gating , */\
+ { 0xf642, "spare_mtp6_6_3"}, /* SPARE , */\
+ { 0xf686, "spare_mtp6_14_8"}, /* Offset of left amplifier level shifter B , */\
+ { 0xf706, "ctrl_offset_a"}, /* Offset of level shifter A , */\
+ { 0xf786, "ctrl_offset_b"}, /* Offset of amplifier level shifter B , */\
+ { 0xf806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
+ { 0xf870, "htol_iic_addr_en"}, /* HTOL I2C address enable control , */\
+ { 0xf884, "calibr_temp_offset"}, /* Temperature offset 2's compliment (key1 protected), */\
+ { 0xf8d2, "calibr_temp_gain"}, /* Temperature gain 2's compliment (key1 protected) , */\
+ { 0xf910, "disable_sam_mode"}, /* Disable sam mode , */\
+ { 0xf920, "mtp_lock_bypass_clipper"}, /* Disable function bypass_clipper , */\
+ { 0xf930, "mtp_lock_max_dcdc_voltage"}, /* Disable programming of max dcdc boost voltage , */\
+ { 0xf943, "calibr_vbg_trim"}, /* Bandgap trimming control , */\
+ { 0xf987, "type_bits_fw"}, /* MTP-control FW - See Firmware I2C API document for details, */\
+ { 0xfa0f, "mtpdataA"}, /* MTPdataA (key1 protected) , */\
+ { 0xfb0f, "mtpdataB"}, /* MTPdataB (key1 protected) , */\
+ { 0xfc0f, "mtpdataC"}, /* MTPdataC (key1 protected) , */\
+ { 0xfd0f, "mtpdataD"}, /* MTPdataD (key1 protected) , */\
+ { 0xfe0f, "mtpdataE"}, /* MTPdataE (key1 protected) , */\
+ { 0xff05, "fro8_trim"}, /* 8 MHz oscillator trim code , */\
+ { 0xff61, "fro8_short_nwell_r"}, /* Short 4 or 6 n-well resistors , */\
+ { 0xff81, "fro8_boost_i"}, /* Self bias current selection , */\
+ { 0xffff,"Unknown bitfield enum" } /* not found */\
+};
+
+enum tfa9912_irq {
+ tfa9912_irq_stvdds = 0,
+ tfa9912_irq_stplls = 1,
+ tfa9912_irq_stotds = 2,
+ tfa9912_irq_stovds = 3,
+ tfa9912_irq_stuvds = 4,
+ tfa9912_irq_stclks = 5,
+ tfa9912_irq_stmtpb = 6,
+ tfa9912_irq_stnoclk = 7,
+ tfa9912_irq_stspks = 8,
+ tfa9912_irq_stacs = 9,
+ tfa9912_irq_stsws = 10,
+ tfa9912_irq_stwds = 11,
+ tfa9912_irq_stamps = 12,
+ tfa9912_irq_starefs = 13,
+ tfa9912_irq_stadccr = 14,
+ tfa9912_irq_stbodnok = 15,
+ tfa9912_irq_stbstcu = 16,
+ tfa9912_irq_stbsthi = 17,
+ tfa9912_irq_stbstoc = 18,
+ tfa9912_irq_stbstpkcur = 19,
+ tfa9912_irq_stbstvc = 20,
+ tfa9912_irq_stbst86 = 21,
+ tfa9912_irq_stbst93 = 22,
+ tfa9912_irq_strcvld = 23,
+ tfa9912_irq_stocpl = 24,
+ tfa9912_irq_stocpr = 25,
+ tfa9912_irq_stmwsrc = 26,
+ tfa9912_irq_stmwcfc = 27,
+ tfa9912_irq_stmwsmu = 28,
+ tfa9912_irq_stcfmer = 29,
+ tfa9912_irq_stcfmac = 30,
+ tfa9912_irq_stclkoor = 31,
+ tfa9912_irq_sttdmer = 32,
+ tfa9912_irq_stclpl = 33,
+ tfa9912_irq_stclpr = 34,
+ tfa9912_irq_stocpm = 35,
+ tfa9912_irq_stlp1 = 37,
+ tfa9912_irq_stla = 38,
+ tfa9912_irq_stvddp = 39,
+ tfa9912_irq_sttapdet = 40,
+ tfa9912_irq_staudmod = 41,
+ tfa9912_irq_stsammod = 42,
+ tfa9912_irq_sttapmod = 43,
+ tfa9912_irq_sttaptrg = 44,
+ tfa9912_irq_max = 45,
+ tfa9912_irq_all = -1 /* all irqs */};
+
+#define TFA9912_IRQ_NAMETABLE static tfaIrqName_t Tfa9912IrqNames[]= {\
+ { 0, "STVDDS"},\
+ { 1, "STPLLS"},\
+ { 2, "STOTDS"},\
+ { 3, "STOVDS"},\
+ { 4, "STUVDS"},\
+ { 5, "STCLKS"},\
+ { 6, "STMTPB"},\
+ { 7, "STNOCLK"},\
+ { 8, "STSPKS"},\
+ { 9, "STACS"},\
+ { 10, "STSWS"},\
+ { 11, "STWDS"},\
+ { 12, "STAMPS"},\
+ { 13, "STAREFS"},\
+ { 14, "STADCCR"},\
+ { 15, "STBODNOK"},\
+ { 16, "STBSTCU"},\
+ { 17, "STBSTHI"},\
+ { 18, "STBSTOC"},\
+ { 19, "STBSTPKCUR"},\
+ { 20, "STBSTVC"},\
+ { 21, "STBST86"},\
+ { 22, "STBST93"},\
+ { 23, "STRCVLD"},\
+ { 24, "STOCPL"},\
+ { 25, "STOCPR"},\
+ { 26, "STMWSRC"},\
+ { 27, "STMWCFC"},\
+ { 28, "STMWSMU"},\
+ { 29, "STCFMER"},\
+ { 30, "STCFMAC"},\
+ { 31, "STCLKOOR"},\
+ { 32, "STTDMER"},\
+ { 33, "STCLPL"},\
+ { 34, "STCLPR"},\
+ { 35, "STOCPM"},\
+ { 36, "36"},\
+ { 37, "STLP1"},\
+ { 38, "STLA"},\
+ { 39, "STVDDP"},\
+ { 40, "STTAPDET"},\
+ { 41, "STAUDMOD"},\
+ { 42, "STSAMMOD"},\
+ { 43, "STTAPMOD"},\
+ { 44, "STTAPTRG"},\
+ { 45, "45"},\
+};
+#endif /* _TFA9912_TFAFIELDNAMES_H */
diff --git a/inc/tfa_container.h b/inc/tfa_container.h
new file mode 100644
index 0000000..d357f95
--- /dev/null
+++ b/inc/tfa_container.h
@@ -0,0 +1,350 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFACONTAINER_H_
+#define TFACONTAINER_H_
+
+/* static limits */
+#define TFACONT_MAXDEVS (4) /* maximum nr of devices */
+#define TFACONT_MAXPROFS (16) /* maximum nr of profiles */
+
+#include "tfa98xx_parameters.h"
+
+/**
+* Pass the container buffer, initialize and allocate internal memory.
+*
+* @param cnt pointer to the start of the buffer holding the container file
+* @param length of the data in bytes
+* @return
+* - tfa_error_ok if normal
+* - tfa_error_container invalid container data
+* - tfa_error_bad_param invalid parameter
+*
+*/
+enum tfa_error tfa_load_cnt(void *cnt, int length);
+
+/**
+ * Return the descriptor string
+ * @param cnt pointer to the container struct
+ * @param dsc pointer to nxpTfa descriptor
+ * @return descriptor string
+ */
+char *tfaContGetString(nxpTfaContainer_t *cnt, nxpTfaDescPtr_t *dsc);
+
+/**
+ * Gets the string for the given command type number
+ * @param type number representing a command
+ * @return string of a command
+ */
+char *tfaContGetCommandString(uint32_t type);
+
+/**
+ * get the device type from the patch in this devicelist
+ * - find the patch file for this devidx
+ * - return the devid from the patch or 0 if not found
+ * @param cnt pointer to container file
+ * @param dev_idx device index
+ * @return descriptor string
+ */
+int tfa_cnt_get_devid(nxpTfaContainer_t *cnt, int dev_idx);
+
+/**
+ * Get the slave for the device if it exists.
+ * @param tfa the device struct pointer
+ * @param slave_addr the index of the device
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaContGetSlave(struct tfa_device *tfa, uint8_t *slave_addr);
+
+void tfaContSetSlave(uint8_t slave_addr);
+
+/**
+ * Get the index for a skave address.
+ * @param tfa the device struct pointer
+ * @return the device index
+ */
+int tfa_cont_get_idx(struct tfa_device *tfa);
+
+/**
+ * Write reg and bitfield items in the devicelist to the target.
+ * @param tfa the device struct pointer
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaContWriteRegsDev(struct tfa_device *tfa);
+
+/**
+ * Write reg and bitfield items in the profilelist to the target.
+ * @param tfa the device struct pointer
+ * @param prof_idx the profile index
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaContWriteRegsProf(struct tfa_device *tfa, int prof_idx);
+
+/**
+ * Write a patchfile in the devicelist to the target.
+ * @param tfa the device struct pointer
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaContWritePatch(struct tfa_device *tfa);
+
+/**
+ * Write all param files in the devicelist to the target.
+ * @param tfa the device struct pointer
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaContWriteFiles(struct tfa_device *tfa);
+
+/**
+ * Get sample rate from passed profile index
+ * @param tfa the device struct pointer
+ * @param prof_idx the index of the profile
+ * @return sample rate value
+ */
+unsigned int tfa98xx_get_profile_sr(struct tfa_device *tfa, unsigned int prof_idx);
+
+/**
+ * Get the device name string
+ * @param cnt the pointer to the container struct
+ * @param dev_idx the index of the device
+ * @return device name string or error string if not found
+ */
+char *tfaContDeviceName(nxpTfaContainer_t *cnt, int dev_idx);
+
+/**
+ * Get the application name from the container file application field
+ * @param tfa the device struct pointer
+ * @param name the input stringbuffer with size: sizeof(application field)+1
+ * @return actual string length
+ */
+int tfa_cnt_get_app_name(struct tfa_device *tfa, char *name);
+
+/**
+ * Get profile index of the calibration profile
+ * @param tfa the device struct pointer
+ * @return profile index, -2 if no calibration profile is found or -1 on error
+ */
+int tfaContGetCalProfile(struct tfa_device *tfa);
+
+/**
+ * Is the profile a tap profile ?
+ * @param tfa the device struct pointer
+ * @param prof_idx the index of the profile
+ * @return 1 if the profile is a tap profile or 0 if not
+ */
+int tfaContIsTapProfile(struct tfa_device *tfa, int prof_idx);
+
+/**
+ * Get the name of the profile at certain index for a device in the container file
+ * @param cnt the pointer to the container struct
+ * @param dev_idx the index of the device
+ * @param prof_idx the index of the profile
+ * @return profile name string or error string if not found
+ */
+char *tfaContProfileName(nxpTfaContainer_t *cnt, int dev_idx, int prof_idx);
+
+/**
+ * Process all items in the profilelist
+ * NOTE an error return during processing will leave the device muted
+ * @param tfa the device struct pointer
+ * @param prof_idx index of the profile
+ * @param vstep_idx index of the vstep
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaContWriteProfile(struct tfa_device *tfa, int prof_idx, int vstep_idx);
+
+/**
+ * Specify the speaker configurations (cmd id) (Left, right, both, none)
+ * @param dev_idx index of the device
+ * @param configuration name string of the configuration
+ */
+void tfa98xx_set_spkr_select(int dev_idx, char *configuration);
+
+enum Tfa98xx_Error tfa_cont_write_filterbank(struct tfa_device *tfa, nxpTfaFilter_t *filter);
+
+/**
+ * Write all param files in the profilelist to the target
+ * this is used during startup when maybe ACS is set
+ * @param tfa the device struct pointer
+ * @param prof_idx the index of the profile
+ * @param vstep_idx the index of the vstep
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaContWriteFilesProf(struct tfa_device *tfa, int prof_idx, int vstep_idx);
+enum Tfa98xx_Error tfaContWriteFilesVstep(struct tfa_device *tfa, int prof_idx, int vstep_idx);
+enum Tfa98xx_Error tfaContWriteDrcFile(struct tfa_device *tfa, int size, uint8_t data[]);
+
+/**
+ * Get the device list dsc from the tfaContainer
+ * @param cont pointer to the tfaContainer
+ * @param dev_idx the index of the device
+ * @return device list pointer
+ */
+nxpTfaDeviceList_t *tfaContGetDevList(nxpTfaContainer_t *cont, int dev_idx);
+
+/**
+ * Get the Nth profile for the Nth device
+ * @param cont pointer to the tfaContainer
+ * @param dev_idx the index of the device
+ * @param prof_idx the index of the profile
+ * @return profile list pointer
+ */
+nxpTfaProfileList_t *tfaContGetDevProfList(nxpTfaContainer_t *cont, int dev_idx, int prof_idx);
+
+/**
+ * Get the number of profiles for device from contaienr
+ * @param cont pointer to the tfaContainer
+ * @param dev_idx the index of the device
+ * @return device list pointer
+ */
+int tfa_cnt_get_dev_nprof(struct tfa_device *tfa);
+
+
+/**
+ * Get the Nth livedata for the Nth device
+ * @param cont pointer to the tfaContainer
+ * @param dev_idx the index of the device
+ * @param livedata_idx the index of the livedata
+ * @return livedata list pointer
+ */
+nxpTfaLiveDataList_t *tfaContGetDevLiveDataList(nxpTfaContainer_t *cont, int dev_idx, int livedata_idx);
+
+/**
+ * Check CRC for container
+ * @param cont pointer to the tfaContainer
+ * @return error value 0 on error
+ */
+int tfaContCrcCheckContainer(nxpTfaContainer_t *cont);
+
+/**
+ * Get the device list pointer
+ * @param cnt pointer to the container struct
+ * @param dev_idx the index of the device
+ * @return pointer to device list
+ */
+nxpTfaDeviceList_t *tfaContDevice(nxpTfaContainer_t *cnt, int dev_idx);
+
+/**
+ * Return the pointer to the first profile in a list from the tfaContainer
+ * @param cont pointer to the tfaContainer
+ * @return pointer to first profile in profile list
+ */
+nxpTfaProfileList_t *tfaContGet1stProfList(nxpTfaContainer_t *cont);
+
+/**
+ * Return the pointer to the next profile in a list
+ * @param prof is the pointer to the profile list
+ * @return profile list pointer
+ */
+nxpTfaProfileList_t* tfaContNextProfile(nxpTfaProfileList_t *prof);
+
+/**
+ * Return the pointer to the first livedata in a list from the tfaContainer
+ * @param cont pointer to the tfaContainer
+ * @return pointer to first livedata in profile list
+ */
+nxpTfaLiveDataList_t *tfaContGet1stLiveDataList(nxpTfaContainer_t *cont);
+
+/**
+ * Return the pointer to the next livedata in a list
+ * @param livedata_idx is the pointer to the livedata list
+ * @return livedata list pointer
+ */
+nxpTfaLiveDataList_t* tfaContNextLiveData(nxpTfaLiveDataList_t *livedata_idx);
+
+/**
+ * Write a bit field
+ * @param tfa the device struct pointer
+ * @param bf bitfield to write
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaRunWriteBitfield(struct tfa_device *tfa, nxpTfaBitfield_t bf);
+
+/**
+ * Write a parameter file to the device
+ * @param tfa the device struct pointer
+ * @param file filedescriptor pointer
+ * @param vstep_idx index to vstep
+ * @param vstep_msg_idx index to vstep message
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaContWriteFile(struct tfa_device *tfa, nxpTfaFileDsc_t *file, int vstep_idx, int vstep_msg_idx);
+
+/**
+ * Get the max volume step associated with Nth profile for the Nth device
+ * @param tfa the device struct pointer
+ * @param prof_idx profile index
+ * @return the number of vsteps
+ */
+int tfacont_get_max_vstep(struct tfa_device *tfa, int prof_idx);
+
+/**
+ * Get the file contents associated with the device or profile
+ * Search within the device tree, if not found, search within the profile
+ * tree. There can only be one type of file within profile or device.
+ * @param tfa the device struct pointer
+ * @param prof_idx I2C profile index in the device
+ * @param type file type
+ * @return 0 NULL if file type is not found
+ * @return 1 file contents
+ */
+nxpTfaFileDsc_t *tfacont_getfiledata(struct tfa_device *tfa, int prof_idx, enum nxpTfaHeaderType type);
+
+/**
+ * Dump the contents of the file header
+ * @param hdr pointer to file header data
+ */
+void tfaContShowHeader(nxpTfaHeader_t *hdr);
+
+/**
+ * Read a bit field
+ * @param tfa the device struct pointer
+ * @param bf bitfield to read out
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfaRunReadBitfield(struct tfa_device *tfa, nxpTfaBitfield_t *bf);
+
+/**
+ * Get hw feature bits from container file
+ * @param tfa the device struct pointer
+ * @param hw_feature_register pointer to where hw features are stored
+ */
+void get_hw_features_from_cnt(struct tfa_device *tfa, int *hw_feature_register);
+
+/**
+ * Get sw feature bits from container file
+ * @param tfa the device struct pointer
+ * @param sw_feature_register pointer to where sw features are stored
+ */
+void get_sw_features_from_cnt(struct tfa_device *tfa, int sw_feature_register[2]);
+
+/**
+ * Factory trimming for the Boost converter
+ * check if there is a correction needed
+ * @param tfa the device struct pointer
+ */
+enum Tfa98xx_Error tfa98xx_factory_trimmer(struct tfa_device *tfa);
+
+/**
+ * Search for filters settings and if found then write them to the device
+ * @param tfa the device struct pointer
+ * @param prof_idx profile to look in
+ * @return Tfa98xx_Error
+ */
+enum Tfa98xx_Error tfa_set_filters(struct tfa_device *tfa, int prof_idx);
+
+/**
+ * Get the firmware version from the patch in the container file
+ * @param tfa the device struct pointer
+ * @return firmware version
+ */
+int tfa_cnt_get_patch_version(struct tfa_device *tfa);
+
+int tfa_tib_dsp_msgmulti(struct tfa_device *tfa, int length, const char *buffer);
+
+#endif /* TFACONTAINER_H_ */
diff --git a/inc/tfa_device.h b/inc/tfa_device.h
new file mode 100644
index 0000000..fe87e24
--- /dev/null
+++ b/inc/tfa_device.h
@@ -0,0 +1,291 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+/**\file
+ *
+ * The tfa_device interface controls a single I2C device instance by
+ * referencing to the device specific context provided by means of the
+ * tfa_device structure pointer.
+ * Multiple instances of tfa_device structures will be created and maintained
+ * by the caller.
+ *
+ * The API is functionally grouped as:
+ * - tfa_dev basic codec interface to probe, start/stop and control the device state
+ * - access to internal MTP storage
+ * - abstraction for interrupt bits and handling
+ * - container reading support
+ */
+#ifndef __TFA_DEVICE_H__
+#define __TFA_DEVICE_H__
+
+#include "config.h"
+
+struct tfa_device;
+
+/*
+ * hw/sw feature bit settings in MTP
+ */
+enum featureSupport {
+ supportNotSet, /**< default means not set yet */
+ supportNo, /**< no support */
+ supportYes /**< supported */
+};
+/*
+ * supported Digital Audio Interfaces bitmap
+ */
+enum Tfa98xx_DAI {
+ Tfa98xx_DAI_I2S = 0x01, /**< I2S only */
+ Tfa98xx_DAI_TDM = 0x02, /**< TDM, I2S */
+ Tfa98xx_DAI_PDM = 0x04, /**< PDM */
+ };
+
+/*
+ * device ops function structure
+ */
+struct tfa_device_ops {
+ enum Tfa98xx_Error(*dsp_msg)(struct tfa_device *tfa, int length, const char *buf);
+ enum Tfa98xx_Error(*dsp_msg_read)(struct tfa_device *tfa, int length, unsigned char *bytes);
+ enum Tfa98xx_Error(*reg_read)(struct tfa_device *tfa, unsigned char subaddress, unsigned short *value);
+ enum Tfa98xx_Error(*reg_write)(struct tfa_device *tfa, unsigned char subaddress, unsigned short value);
+ enum Tfa98xx_Error(*mem_read)(struct tfa_device *tfa, unsigned int start_offset, int num_words, int *pValues);
+ enum Tfa98xx_Error(*mem_write)(struct tfa_device *tfa, unsigned short address, int value, int memtype);
+
+ enum Tfa98xx_Error (*tfa_init)(struct tfa_device *tfa); /**< init typically for loading optimal settings */
+ enum Tfa98xx_Error (*dsp_reset)(struct tfa_device *tfa, int state); /**< reset the coolflux dsp */
+ enum Tfa98xx_Error (*dsp_system_stable)(struct tfa_device *tfa, int *ready); /**< ready when clocks are stable to allow DSP subsystem access */
+ enum Tfa98xx_Error (*dsp_write_tables)(struct tfa_device *tfa, int sample_rate); /**< write the device/type specific delaytables */
+ enum Tfa98xx_Error (*auto_copy_mtp_to_iic)(struct tfa_device *tfa); /**< Set auto_copy_mtp_to_iic */
+ enum Tfa98xx_Error (*factory_trimmer)(struct tfa_device *tfa); /**< Factory trimming for the Boost converter */
+ int (*set_swprof)(struct tfa_device *tfa, unsigned short new_value); /**< Set the sw profile in the struct and the hw register */
+ int (*get_swprof)(struct tfa_device *tfa); /**< Get the sw profile from the hw register */
+ int(*set_swvstep)(struct tfa_device *tfa, unsigned short new_value); /**< Set the sw vstep in the struct and the hw register */
+ int(*get_swvstep)(struct tfa_device *tfa); /**< Get the sw vstep from the hw register */
+ int(*get_mtpb)(struct tfa_device *tfa); /**< get status of MTB busy bit*/
+ enum Tfa98xx_Error (*set_mute)(struct tfa_device *tfa, int mute); /**< set mute */
+ enum Tfa98xx_Error (*faim_protect)(struct tfa_device *tfa, int state); /**< Protect FAIM from being corrupted */
+ enum Tfa98xx_Error(*set_osc_powerdown)(struct tfa_device *tfa, int state); /**< Allow to change internal osc. gating settings */
+ enum Tfa98xx_Error(*update_lpm)(struct tfa_device *tfa, int state); /**< Allow to change lowpowermode settings */
+};
+
+/**
+ * Device states and modifier flags to allow a device/type independent fine
+ * grained control of the internal state.\n
+ * Values below 0x10 are referred to as base states which can be or-ed with
+ * state modifiers, from 0x10 and higher.
+ *
+ */
+enum tfa_state {
+ TFA_STATE_UNKNOWN, /**< unknown or invalid */
+ TFA_STATE_POWERDOWN, /**< PLL in powerdown, Algo is up/warm */
+ TFA_STATE_INIT_HW, /**< load I2C/PLL hardware setting (~wait2srcsettings) */
+ TFA_STATE_INIT_CF, /**< coolflux HW access possible (~initcf) */
+ TFA_STATE_INIT_FW, /**< DSP framework active (~patch loaded) */
+ TFA_STATE_OPERATING, /**< Amp and Algo running */
+ TFA_STATE_FAULT, /**< An alarm or error occurred */
+ TFA_STATE_RESET, /**< I2C reset and ACS set */
+ /* --sticky state modifiers-- */
+ TFA_STATE_MUTE=0x10, /**< Algo & Amp mute */
+ TFA_STATE_UNMUTE=0x20, /**< Algo & Amp unmute */
+ TFA_STATE_CLOCK_ALWAYS=0x40, /**< PLL connect to internal oscillator */
+ TFA_STATE_CLOCK_AUDIO=0x80, /**< PLL connect to audio clock (BCK/FS) */
+ TFA_STATE_LOW_POWER=0x100, /**< lowest possible power state */
+};
+
+/**
+ * This is the main tfa device context structure, it will carry all information
+ * that is needed to handle a single I2C device instance.
+ * All functions dealing with the device will need access to the fields herein.
+ */
+struct tfa_device {
+ int dev_idx; /**< device container index */
+ int in_use;
+ int buffer_size; /**< lowest level max buffer size */
+ int has_msg; /**< support direct dsp messaging */
+ unsigned char slave_address; /**< I2C slave address (not shifted) */
+ unsigned short rev; /**< full revid of this device */
+ unsigned char tfa_family; /**< tfa1/tfa2 */
+ enum featureSupport supportDrc;
+ enum featureSupport supportFramework;
+ enum featureSupport support_saam;
+ int sw_feature_bits[2]; /**< cached copy of sw feature bits */
+ int hw_feature_bits; /**< cached copy of hw feature bits */
+ int profile; /**< active profile */
+ int vstep; /**< active vstep */
+ unsigned char spkr_count;
+ unsigned char spkr_select;
+ unsigned char support_tcoef;/**< legacy tfa9887, will be removed */
+ enum Tfa98xx_DAI daimap; /**< supported audio interface types */
+ int mohm[3]; /**< speaker calibration values in milli ohms -1 is error */
+ struct tfa_device_ops dev_ops;
+ uint16_t interrupt_enable[3];
+ uint16_t interrupt_status[3];
+ int ext_dsp; /**< respond to external DSP: -1:none, 0:no_dsp, 1:cold, 2:warm */
+ int bus; /* TODO fix ext_dsp and bus handling */
+ int tfadsp_event; /**< enum tfadsp_event_en is for external registry */
+ int verbose; /**< verbosity level for debug print output */
+ enum tfa_state state; /**< last known state or-ed with optional state_modifier */
+ struct nxpTfaContainer *cnt;/**< the loaded container file */
+ struct nxpTfaVolumeStepRegisterInfo *p_regInfo; /**< remember vstep for partial updates */
+ int partial_enable; /**< enable partial updates */
+ void *data; /**< typically pointing to Linux driver structure owning this device */
+ int convert_dsp32; /**< convert 24 bit DSP messages to 32 bit */
+ int sync_iv_delay; /**< synchronize I/V delay at cold start */
+ int is_probus_device; /**< probus device: device without internal DSP */
+ int advance_keys_handling;
+ int needs_reset; /**< add the reset trigger for SetAlgoParams and SetMBDrc commands */
+ struct kmem_cache *cachep; /**< Memory allocator handle */
+ char fw_itf_ver[4]; /* Firmware ITF version */
+};
+
+/**
+ * The tfa_dev_probe is called before accessing any device accessing functions.
+ * Access to the tfa device register 3 is attempted and will record the
+ * returned id for further use. If no device responds the function will abort.
+ * The recorded id will by used by the query functions to fill the remaining
+ * relevant data fields of the device structure.
+ * Data such as MTP features that requires device access will only be read when
+ * explicitly called and the result will be then cached in the struct.
+ *
+ * A structure pointer passed to this device needs to refer to existing memory
+ * space allocated by the caller.
+ *
+ * @param slave = I2C slave address of the target device (not shifted)
+ * @param tfa struct = points to memory that holds the context for this device
+ * instance
+ *
+ * @return
+ * - 0 if the I2C device responded to a read of register address 3\n
+ * when the device responds but with an unknown id a warning will be printed
+ * - -1 if no response from the I2C device
+ *
+ */
+int tfa_dev_probe(int slave, struct tfa_device *tfa);
+
+/**
+ * Start this instance at the profile and vstep as provided.
+ * The profile and vstep will be loaded first in case the current value differs
+ * from the requested values.
+ * Note that this call will not change the mute state of the tfa, which means
+ * that of this instance was called in muted state the caller will have to
+ * unmute in order to get audio.
+ *
+ * @param tfa struct = pointer to context of this device instance
+ * @param profile the selected profile to run
+ * @param vstep the selected vstep to use
+ * @return tfa_error enum
+ */
+enum tfa_error tfa_dev_start(struct tfa_device *tfa, int profile, int vstep);
+
+
+/**
+ * Stop audio for this instance as gracefully as possible.
+ * Audio will be muted and the PLL will be shutdown together with any other
+ * device/type specific settings needed to prevent audio artifacts or
+ * workarounds.
+ *
+ * Note that this call will change state of the tfa to mute and powered down.
+ *
+ * @param tfa struct = pointer to context of this device instance
+ * @return tfa_error enum
+ */
+enum tfa_error tfa_dev_stop(struct tfa_device *tfa);
+
+/**
+ * This interface allows a device/type independent fine grained control of the
+ * internal state of the instance.
+ * Whenever a base state is requested an attempt is made to actively bring the device
+ * into this state. However this may depend on external conditions beyond control of
+ * this software layer. Therefore in case the state cannot be set an erro will
+ * be returned and the current state remains unchanged.
+ * The base states, lower values below 0x10, are all mutually exclusive, they higher ones
+ * can also function as a sticky modifier which means for example that operating
+ * state could be in either muted or unmuted state. Or in case of init_cf it can be
+ * internal clock (always) or external audio clock.
+ * This function is intended to be used for device mute/unmute synchronization
+ * when called from higher layers. Mostly internal calls will use this to control
+ * the startup and profile transitions in a device/type independent way.
+ *
+ * @param tfa struct = pointer to context of this device instance
+ * @param state struct = desired device state after function return
+ * @return tfa_error enum
+ */
+enum tfa_error tfa_dev_set_state(struct tfa_device *tfa, enum tfa_state state,int is_calibration);
+
+/**
+ * Retrieve the current state of this instance in an active way.
+ * The state field in tfa structure will reflect the result unless an error is
+ * returned.
+ * Note that the hardware state may change on external events an as such this
+ * field should be treated as volatile.
+ *
+ * @param tfa struct = pointer to context of this device instance
+ * @return tfa_error enum
+ *
+ */
+enum tfa_state tfa_dev_get_state(struct tfa_device *tfa);
+
+
+/*****************************************************************************/
+/*****************************************************************************/
+/**
+ * MTP support functions
+ */
+enum tfa_mtp {
+ TFA_MTP_OTC, /**< */
+ TFA_MTP_EX, /**< */
+ TFA_MTP_RE25, /**< */
+ TFA_MTP_RE25_PRIM, /**< */
+ TFA_MTP_RE25_SEC, /**< */
+ TFA_MTP_LOCK, /**< */
+};
+
+/**
+ *
+ */
+int tfa_dev_mtp_get(struct tfa_device *tfa, enum tfa_mtp item);
+
+/**
+ *
+ */
+enum tfa_error tfa_dev_mtp_set(struct tfa_device *tfa, enum tfa_mtp item, int value);
+
+
+//irq
+/* tfa2 interrupt support
+ * !!! enum tfa9912_irq !!!*/
+/*
+ * interrupt bit function to clear
+ */
+int tfa_irq_clear(struct tfa_device *tfa, int bit);
+/*
+ * return state of irq or -1 if illegal bit
+ */
+int tfa_irq_get(struct tfa_device *tfa, int bit);
+/*
+ * interrupt bit function that operates on the shadow regs in the handle
+ */
+int tfa_irq_ena(struct tfa_device *tfa, int bit, int state);
+/*
+ * interrupt bit function that sets the polarity
+ */
+int tfa_irq_set_pol(struct tfa_device *tfa, int bit, int state);
+
+/*
+ * mask interrupts by disabling them
+ */
+int tfa_irq_mask(struct tfa_device *tfa);
+/*
+ * unmask interrupts by enabling them again
+ */
+int tfa_irq_unmask(struct tfa_device *tfa);
+//cnt read
+//debug?
+
+#endif /* __TFA_DEVICE_H__ */
+
diff --git a/inc/tfa_dsp_fw.h b/inc/tfa_dsp_fw.h
new file mode 100644
index 0000000..1721e82
--- /dev/null
+++ b/inc/tfa_dsp_fw.h
@@ -0,0 +1,159 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFA98XX_INTERNALS_H
+#define TFA98XX_INTERNALS_H
+
+#include "config.h"
+
+#include "tfa_service.h" //TODO cleanup for enum Tfa98xx_Status_ID
+
+/**
+ * Return a text version of the firmware status ID code
+ * @param status the given status ID code
+ * @return the firmware status ID string
+ */
+const char *tfadsp_fw_status_string(enum Tfa98xx_Status_ID status);
+int tfadsp_fw_start(struct tfa_device *tfa, int prof_idx, int vstep_idx);
+int tfadsp_fw_get_api_version(struct tfa_device *tfa, uint8_t *buffer);
+#define FW_MAXTAG 150
+int tfadsp_fw_get_tag(struct tfa_device *tfa, uint8_t *buffer);
+int tfadsp_fw_get_status_change(struct tfa_device *tfa, uint8_t *buffer);
+int tfadsp_fw_set_re25(struct tfa_device *tfa, int prim, int sec );
+int tfadsp_fw_get_re25(struct tfa_device *tfa, uint8_t *buffer);
+
+/*
+ * the order matches the ACK bits order in TFA98XX_CF_STATUS
+ */
+enum tfa_fw_event { /* not all available on each device */
+ tfa_fw_i2c_cmd_ack,
+ tfa_fw_reset_start,
+ tfa_fw_short_on_mips,
+ tfa_fw_soft_mute_ready,
+ tfa_fw_volume_ready,
+ tfa_fw_error_damage,
+ tfa_fw_calibrate_done,
+ tfa_fw_max
+};
+
+/* the following type mappings are compiler specific */
+#define subaddress_t unsigned char
+
+/* module Ids */
+#define MODULE_FRAMEWORK 0
+#define MODULE_SPEAKERBOOST 1
+#define MODULE_BIQUADFILTERBANK 2
+#define MODULE_TAPTRIGGER 5
+#define MODULE_SETRE 9
+
+/* RPC commands */
+/* SET */
+#define FW_PAR_ID_SET_MEMORY 0x03
+#define FW_PAR_ID_SET_SENSES_DELAY 0x04
+#define FW_PAR_ID_SETSENSESCAL 0x05
+#define FW_PAR_ID_SET_INPUT_SELECTOR 0x06
+#define FW_PAR_ID_SET_OUTPUT_SELECTOR 0x08
+#define FW_PAR_ID_SET_PROGRAM_CONFIG 0x09
+#define FW_PAR_ID_SET_GAINS 0x0A
+#define FW_PAR_ID_SET_MEMTRACK 0x0B
+#define FW_PAR_ID_SET_FWKUSECASE 0x11
+#define TFA1_FW_PAR_ID_SET_CURRENT_DELAY 0x03
+#define TFA1_FW_PAR_ID_SET_CURFRAC_DELAY 0x06
+/* GET */
+#define FW_PAR_ID_GET_MEMORY 0x83
+#define FW_PAR_ID_GLOBAL_GET_INFO 0x84
+#define FW_PAR_ID_GET_FEATURE_INFO 0x85
+#define FW_PAR_ID_GET_MEMTRACK 0x8B
+#define FW_PAR_ID_GET_TAG 0xFF
+#define FW_PAR_ID_GET_API_VERSION 0xFE
+#define FW_PAR_ID_GET_STATUS_CHANGE 0x8D
+
+/* Load a full model into SpeakerBoost. */
+/* SET */
+#define SB_PARAM_SET_ALGO_PARAMS 0x00
+#define SB_PARAM_SET_LAGW 0x01
+#define SB_PARAM_SET_ALGO_PARAMS_WITHOUT_RESET 0x02
+#define SB_PARAM_SET_RE25C 0x05
+#define SB_PARAM_SET_LSMODEL 0x06
+#define SB_PARAM_SET_MBDRC 0x07
+#define SB_PARAM_SET_MBDRC_WITHOUT_RESET 0x08
+#define SB_PARAM_SET_EXCURSION_FILTERS 0x0A
+#define SB_PARAM_SET_DRC 0x0F
+/* GET */
+#define SB_PARAM_GET_ALGO_PARAMS 0x80
+#define SB_PARAM_GET_LAGW 0x81
+#define SB_PARAM_GET_RE25C 0x85
+#define SB_PARAM_GET_LSMODEL 0x86
+#define SB_PARAM_GET_MBDRC 0x87
+#define SB_PARAM_GET_MBDRC_DYNAMICS 0x89
+#define SB_PARAM_GET_EXCURSION_FILTERS 0x8A
+#define SB_PARAM_GET_TAG 0xFF
+
+#define SB_PARAM_SET_EQ 0x0A /* 2 Equaliser Filters. */
+#define SB_PARAM_SET_PRESET 0x0D /* Load a preset */
+#define SB_PARAM_SET_CONFIG 0x0E /* Load a config */
+#define SB_PARAM_SET_AGCINS 0x10
+#define SB_PARAM_SET_CURRENT_DELAY 0x03
+#define SB_PARAM_GET_STATE 0xC0
+#define SB_PARAM_GET_XMODEL 0xC1 /* Gets current Excursion Model. */
+#define SB_PARAM_GET_XMODEL_COEFFS 0x8C /* Get coefficients for XModel */
+#define SB_PARAM_GET_EXCURSION_FILTERS 0x8A /* Get excursion filters */
+#define SB_PARAM_SET_EXCURSION_FILTERS 0x0A /* Set excursion filters */
+
+/* SET: TAPTRIGGER */
+#define TAP_PARAM_SET_ALGO_PARAMS 0x01
+#define TAP_PARAM_SET_DECIMATION_PARAMS 0x02
+
+/* GET: TAPTRIGGER*/
+#define TAP_PARAM_GET_ALGO_PARAMS 0x81
+#define TAP_PARAM_GET_TAP_RESULTS 0x84
+
+/* sets the speaker calibration impedance (@25 degrees celsius) */
+#define SB_PARAM_SET_RE0 0x89
+
+#define BFB_PAR_ID_SET_COEFS 0x00
+#define BFB_PAR_ID_GET_COEFS 0x80
+#define BFB_PAR_ID_GET_CONFIG 0x81
+
+/* for compatibility */
+#define FW_PARAM_GET_STATE FW_PAR_ID_GLOBAL_GET_INFO
+#define FW_PARAM_GET_FEATURE_BITS FW_PAR_ID_GET_FEATURE_BITS
+
+/* RPC Status results */
+#define STATUS_OK 0
+#define STATUS_INVALID_MODULE_ID 2
+#define STATUS_INVALID_PARAM_ID 3
+#define STATUS_INVALID_INFO_ID 4
+
+/* the maximum message length in the communication with the DSP */
+#define TFA2_MAX_PARAM_SIZE (507*3) /* TFA2 */
+#define TFA1_MAX_PARAM_SIZE (145*3) /* TFA1 */
+
+#define ROUND_DOWN(a,n) (((a)/(n))*(n))
+
+/* feature bits */
+#define FEATURE1_TCOEF 0x100 /* bit8 set means tCoefA expected */
+#define FEATURE1_DRC 0x200 /* bit9 NOT set means DRC expected */
+
+/* DSP firmware xmem defines */
+#define TFA1_FW_XMEM_CALIBRATION_DONE 231
+#define TFA2_FW_XMEM_CALIBRATION_DONE 516
+#define TFA1_FW_XMEM_COUNT_BOOT 0xa1
+#define TFA2_FW_XMEM_COUNT_BOOT 512
+#define TFA2_FW_XMEM_CMD_COUNT 520
+
+/* note that the following defs rely on the handle variable */
+#define TFA_FW_XMEM_CALIBRATION_DONE TFA_FAM_FW(tfa,XMEM_CALIBRATION_DONE)
+#define TFA_FW_XMEM_COUNT_BOOT TFA_FAM_FW(tfa,XMEM_COUNT_BOOT)
+#define TFA_FW_XMEM_CMD_COUNT TFA_FAM_FW(tfa,XMEM_CMD_COUNT)
+
+#define TFA2_FW_ReZ_SCALE 65536
+#define TFA1_FW_ReZ_SCALE 16384
+
+#endif /* TFA98XX_INTERNALS_H */
diff --git a/inc/tfa_ext.h b/inc/tfa_ext.h
new file mode 100644
index 0000000..5d8a320
--- /dev/null
+++ b/inc/tfa_ext.h
@@ -0,0 +1,44 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFA_SRC_TFA_EXT_H_
+#define TFA_SRC_TFA_EXT_H_
+
+#include "tfa_device.h"
+
+/*
+ * events
+ */
+/** Maximum value for enumerator */
+#define LVM_MAXENUM (0xffff)
+/**
+This enum type specifies the different events that may trigger a callback.
+*/
+enum tfadsp_event_en
+{
+ TFADSP_CMD_ACK = 1, /**< Command handling is completed */
+ TFADSP_SOFT_MUTE_READY = 8, /**< Muting completed */
+ TFADSP_VOLUME_READY = 16, /**< Volume change completed */
+ TFADSP_DAMAGED_SPEAKER = 32, /**< Damaged speaker was detected */
+ TFADSP_CALIBRATE_DONE = 64, /**< Calibration is completed */
+ TFADSP_SPARSESIG_DETECTED = 128, /**< Sparse signal detected */
+ TFADSP_CMD_READY = 256, /**< Ready to receive commands */
+ TFADSP_EXT_PWRUP = 0x8000,/**< DSP API has started, powered up */
+ TFADSP_EXT_PWRDOWN = 0x8001,/**< DSP API stopped, power down */
+ TFADSP_EVENT_DUMMY = LVM_MAXENUM
+} ;
+
+typedef int (*tfa_event_handler_t)(struct tfa_device *tfa, enum tfadsp_event_en tfadsp_event);
+typedef int (*dsp_send_message_t)(struct tfa_device *tfa, int length, const char *buf);
+typedef int (*dsp_read_message_t)(struct tfa_device *tfa, int length, char *buf);
+typedef int (*dsp_write_reg_t)(struct tfa_device *tfa, unsigned char subaddress, unsigned short value);
+
+int tfa_ext_register(dsp_write_reg_t tfa_write_reg, dsp_send_message_t tfa_send_message, dsp_read_message_t tfa_read_message, tfa_event_handler_t *tfa_event_handler);
+
+#endif /* TFA_SRC_TFA_EXT_H_ */
diff --git a/inc/tfa_service.h b/inc/tfa_service.h
new file mode 100644
index 0000000..3fad561
--- /dev/null
+++ b/inc/tfa_service.h
@@ -0,0 +1,1012 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#ifndef TFA_SERVICE_H
+#define TFA_SERVICE_H
+
+#ifdef __KERNEL__
+#include <linux/types.h>
+#else
+#include <stdint.h>
+#endif
+#ifdef __cplusplus
+extern "C" {
+#include "NXP_I2C.h"
+#endif
+
+/* Linux kernel module defines TFA98XX_GIT_VERSIONS in the linux_driver/Makefile */
+#if !defined(TFA98XX_GIT_VERSIONS)
+#include "versions.h"
+#endif
+#ifdef TFA98XX_GIT_VERSIONS
+ #define TFA98XX_API_REV_STR "v6.6.3"/*TFA98XX_GIT_VERSIONS*/
+#else
+ #define TFA98XX_API_REV_STR "v6.6.3"
+#endif
+
+#include "tfa_device.h"
+
+/*
+ * data previously defined in Tfa9888_dsp.h
+ */
+#define MEMTRACK_MAX_WORDS 150
+#define LSMODEL_MAX_WORDS 150
+#define TFA98XX_MAXTAG (150)
+#define FW_VAR_API_VERSION (521)
+
+/* Indexes and scaling factors of GetLSmodel */
+#define tfa9888_fs_IDX 128
+#define tfa9888_leakageFactor_IDX 130
+#define tfa9888_ReCorrection_IDX 131
+#define tfa9888_Bl_IDX 132
+#define ReZ_IDX 147
+
+#define tfa9872_leakageFactor_IDX 128
+#define tfa9872_ReCorrection_IDX 129
+#define tfa9872_Bl_IDX 130
+
+#define fs_SCALE (double)1
+#define leakageFactor_SCALE (double)8388608
+#define ReCorrection_SCALE (double)8388608
+#define Bl_SCALE (double)2097152
+#define tCoef_SCALE (double)8388608
+
+/* ---------------------------- Max1 ---------------------------- */
+/* Headroom applied to the main input signal */
+#define SPKRBST_HEADROOM 7
+/* Exponent used for AGC Gain related variables */
+#define SPKRBST_AGCGAIN_EXP SPKRBST_HEADROOM
+#define SPKRBST_TEMPERATURE_EXP 9
+/* Exponent used for Gain Corection related variables */
+#define SPKRBST_LIMGAIN_EXP 4
+#define SPKRBST_TIMECTE_EXP 1
+#define DSP_MAX_GAIN_EXP 7
+/* -------------------------------------------------------------- */
+
+/* speaker related parameters */
+#define TFA2_SPEAKERPARAMETER_LENGTH (3*151) /* MAX2=450 */
+#define TFA1_SPEAKERPARAMETER_LENGTH (3*141) /* MAX1=423 */
+
+/* vstep related parameters */
+#define TFA2_ALGOPARAMETER_LENGTH (3*304) /* N1B = (304) 305 is including the cmd-id */
+#define TFA72_ALGOPARAMETER_LENGTH_MONO (3*183)
+#define TFA72_ALGOPARAMETER_LENGTH_STEREO (3*356)
+#define TFA2_MBDRCPARAMETER_LENGTH (3*152) /* 154 is including the cmd-id */
+#define TFA72_MBDRCPARAMETER_LENGTH (3*98)
+#define TFA1_PRESET_LENGTH 87
+#define TFA1_DRC_LENGTH 381 /* 127 words */
+#define TFA2_FILTERCOEFSPARAMETER_LENGTH (3*168) /* 170 is including the cmd-id */
+#define TFA72_FILTERCOEFSPARAMETER_LENGTH (3*156)
+
+/* Maximum number of retries for DSP result
+ * Keep this value low!
+ * If certain calls require longer wait conditions, the
+ * application should poll, not the API
+ * The total wait time depends on device settings. Those
+ * are application specific.
+ */
+#define TFA98XX_WAITRESULT_NTRIES 40
+#define TFA98XX_WAITRESULT_NTRIES_LONG 2000
+
+/* following lengths are in bytes */
+#define TFA98XX_PRESET_LENGTH 87
+#define TFA98XX_CONFIG_LENGTH 201
+#define TFA98XX_DRC_LENGTH 381 /* 127 words */
+
+typedef unsigned char Tfa98xx_Config_t[TFA98XX_CONFIG_LENGTH];
+typedef unsigned char Tfa98xx_Preset_t[TFA98XX_PRESET_LENGTH];
+typedef unsigned char Tfa98xx_DrcParameters_t[TFA98XX_DRC_LENGTH];
+
+/* Type containing all the possible errors that can occur
+ *
+ */
+enum Tfa98xx_Error {
+ Tfa98xx_Error_Ok = 0,
+ Tfa98xx_Error_Device, /* 1. Currently only used to keep in sync with tfa_error */
+ Tfa98xx_Error_Bad_Parameter, /* 2. */
+ Tfa98xx_Error_Fail, /* 3. generic failure, avoid mislead message */
+ Tfa98xx_Error_NoClock, /* 4. no clock detected */
+ Tfa98xx_Error_StateTimedOut, /* 5. */
+ Tfa98xx_Error_DSP_not_running, /* 6. communication with the DSP failed */
+ Tfa98xx_Error_AmpOn, /* 7. amp is still running */
+ Tfa98xx_Error_NotOpen, /* 8. the given handle is not open */
+ Tfa98xx_Error_InUse, /* 9. too many handles */
+ Tfa98xx_Error_Buffer_too_small, /* 10. if a buffer is too small */
+ /* the expected response did not occur within the expected time */
+ Tfa98xx_Error_RpcBase = 100,
+ Tfa98xx_Error_RpcBusy = 101,
+ Tfa98xx_Error_RpcModId = 102,
+ Tfa98xx_Error_RpcParamId = 103,
+ Tfa98xx_Error_RpcInvalidCC = 104,
+ Tfa98xx_Error_RpcInvalidSeq = 105,
+ Tfa98xx_Error_RpcInvalidParam = 106,
+ Tfa98xx_Error_RpcBufferOverflow = 107,
+ Tfa98xx_Error_RpcCalibBusy = 108,
+ Tfa98xx_Error_RpcCalibFailed = 109,
+ Tfa98xx_Error_Not_Implemented,
+ Tfa98xx_Error_Not_Supported,
+ Tfa98xx_Error_I2C_Fatal, /* Fatal I2C error occurred */
+ /* Nonfatal I2C error, and retry count reached */
+ Tfa98xx_Error_I2C_NonFatal,
+ Tfa98xx_Error_Other = 1000
+};
+
+/*
+ * Type containing all the possible msg returns DSP can give
+ * //TODO move to tfa_dsp_fw.h
+ */
+enum Tfa98xx_Status_ID {
+ Tfa98xx_DSP_Not_Running = -1, /* No response from DSP */
+ Tfa98xx_I2C_Req_Done = 0, /* Request executed correctly and result, if any, is available for download */
+ Tfa98xx_I2C_Req_Busy = 1, /* Request is being processed, just wait for result */
+ Tfa98xx_I2C_Req_Invalid_M_ID = 2, /* Provided M-ID does not fit in valid rang [0..2] */
+ Tfa98xx_I2C_Req_Invalid_P_ID = 3, /* Provided P-ID isn�t valid in the given M-ID context */
+ Tfa98xx_I2C_Req_Invalid_CC = 4, /* Invalid channel configuration bits (SC|DS|DP|DC) combination */
+ Tfa98xx_I2C_Req_Invalid_Seq = 5, /* Invalid sequence of commands, in case the DSP expects some commands in a specific order */
+ Tfa98xx_I2C_Req_Invalid_Param = 6, /* Generic error */
+ Tfa98xx_I2C_Req_Buffer_Overflow = 7, /* I2C buffer has overflowed: host has sent too many parameters, memory integrity is not guaranteed */
+ Tfa98xx_I2C_Req_Calib_Busy = 8, /* Calibration not finished */
+ Tfa98xx_I2C_Req_Calib_Failed = 9 /* Calibration failed */
+};
+
+/*
+ * speaker as microphone
+ */
+enum Tfa98xx_saam {
+ Tfa98xx_saam_none, /*< SAAM feature not available */
+ Tfa98xx_saam /*< SAAM feature available */
+};
+
+/*
+ * config file subtypes
+ */
+enum Tfa98xx_config_type {
+ Tfa98xx_config_generic,
+ Tfa98xx_config_sub1,
+ Tfa98xx_config_sub2,
+ Tfa98xx_config_sub3,
+};
+
+enum Tfa98xx_AmpInputSel {
+ Tfa98xx_AmpInputSel_I2SLeft,
+ Tfa98xx_AmpInputSel_I2SRight,
+ Tfa98xx_AmpInputSel_DSP
+};
+
+enum Tfa98xx_OutputSel {
+ Tfa98xx_I2SOutputSel_CurrentSense,
+ Tfa98xx_I2SOutputSel_DSP_Gain,
+ Tfa98xx_I2SOutputSel_DSP_AEC,
+ Tfa98xx_I2SOutputSel_Amp,
+ Tfa98xx_I2SOutputSel_DataI3R,
+ Tfa98xx_I2SOutputSel_DataI3L,
+ Tfa98xx_I2SOutputSel_DcdcFFwdCur,
+};
+
+enum Tfa98xx_StereoGainSel {
+ Tfa98xx_StereoGainSel_Left,
+ Tfa98xx_StereoGainSel_Right
+};
+
+#define TFA98XX_MAXPATCH_LENGTH (3*1024)
+
+/* the number of biquads supported */
+#define TFA98XX_BIQUAD_NUM 10
+
+enum Tfa98xx_Channel {
+ Tfa98xx_Channel_L,
+ Tfa98xx_Channel_R,
+ Tfa98xx_Channel_L_R,
+ Tfa98xx_Channel_Stereo
+};
+
+enum Tfa98xx_Mode {
+ Tfa98xx_Mode_Normal = 0,
+ Tfa98xx_Mode_RCV
+};
+
+enum Tfa98xx_Mute {
+ Tfa98xx_Mute_Off,
+ Tfa98xx_Mute_Digital,
+ Tfa98xx_Mute_Amplifier
+};
+
+enum Tfa98xx_SpeakerBoostStatusFlags {
+ Tfa98xx_SpeakerBoost_Activity = 0, /* Input signal activity. */
+ Tfa98xx_SpeakerBoost_S_Ctrl, /* S Control triggers the limiter */
+ Tfa98xx_SpeakerBoost_Muted, /* 1 when signal is muted */
+ Tfa98xx_SpeakerBoost_X_Ctrl, /* X Control triggers the limiter */
+ Tfa98xx_SpeakerBoost_T_Ctrl, /* T Control triggers the limiter */
+ Tfa98xx_SpeakerBoost_NewModel, /* New model is available */
+ Tfa98xx_SpeakerBoost_VolumeRdy, /* 0:stable vol, 1:still smoothing */
+ Tfa98xx_SpeakerBoost_Damaged, /* Speaker Damage detected */
+ Tfa98xx_SpeakerBoost_SignalClipping /* input clipping detected */
+};
+
+struct Tfa98xx_DrcStateInfo {
+ float GRhighDrc1[2];
+ float GRhighDrc2[2];
+ float GRmidDrc1[2];
+ float GRmidDrc2[2];
+ float GRlowDrc1[2];
+ float GRlowDrc2[2];
+ float GRpostDrc1[2];
+ float GRpostDrc2[2];
+ float GRblDrc[2];
+};
+struct Tfa98xx_StateInfo {
+ /* SpeakerBoost State */
+ float agcGain; /* Current AGC Gain value */
+ float limGain; /* Current Limiter Gain value */
+ float sMax; /* Current Clip/Lim threshold */
+ int T; /* Current Speaker Temperature value */
+ int statusFlag; /* Masked bit word */
+ float X1; /* estimated excursion caused by Spkrboost gain ctrl */
+ float X2; /* estimated excursion caused by manual gain setting */
+ float Re; /* Loudspeaker blocked resistance */
+ /* Framework state */
+ /* increments each time a MIPS problem is detected on the DSP */
+ int shortOnMips;
+ struct Tfa98xx_DrcStateInfo drcState; /* DRC state, when enabled */
+};
+
+typedef struct nxpTfaMsg {
+ uint8_t msg_size;
+ unsigned char cmdId[3];
+ int data[9];
+} nxpTfaMsg_t;
+
+typedef struct nxp_vstep_msg {
+ int fw_version;
+ uint8_t no_of_vsteps;
+ uint16_t reg_no;
+ uint8_t *msg_reg;
+ uint8_t msg_no;
+ uint32_t algo_param_length;
+ uint8_t *msg_algo_param;
+ uint32_t filter_coef_length;
+ uint8_t *msg_filter_coef;
+ uint32_t mbdrc_length;
+ uint8_t *msg_mbdrc;
+} nxp_vstep_msg_t;
+
+typedef struct nxpTfaGroup {
+ uint8_t msg_size;
+ uint8_t profileId[64];
+} nxpTfaGroup_t;
+
+
+struct nxpTfa98xx_Memtrack_data {
+ int length;
+ float mValues[MEMTRACK_MAX_WORDS];
+ int mAdresses[MEMTRACK_MAX_WORDS];
+ int trackers[MEMTRACK_MAX_WORDS];
+ int scalingFactor[MEMTRACK_MAX_WORDS];
+};
+
+/* possible memory values for DMEM in CF_CONTROLs */
+enum Tfa98xx_DMEM {
+ Tfa98xx_DMEM_ERR = -1,
+ Tfa98xx_DMEM_PMEM = 0,
+ Tfa98xx_DMEM_XMEM = 1,
+ Tfa98xx_DMEM_YMEM = 2,
+ Tfa98xx_DMEM_IOMEM = 3,
+};
+
+/**
+ * lookup the device type and return the family type
+ */
+int tfa98xx_dev2family(int dev_type);
+
+/**
+ * register definition structure
+ */
+struct regdef {
+ unsigned char offset; /**< subaddress offset */
+ unsigned short pwronDefault; /**< register contents after poweron */
+ unsigned short pwronTestmask; /**< mask of bits not test */
+ char *name; /**< short register name */
+};
+
+enum Tfa98xx_DMEM tfa98xx_filter_mem(struct tfa_device *tfa, int filter_index, unsigned short *address, int channel);
+
+/**
+ * Load the default HW settings in the device
+ * @param tfa the device struct pointer
+ */
+enum Tfa98xx_Error tfa98xx_init(struct tfa_device *tfa);
+
+/**
+ * If needed, this function can be used to get a text version of the status ID code
+ * @param status the given status ID code
+ * @return the I2C status ID string
+ */
+const char *tfa98xx_get_i2c_status_id_string(int status);
+
+/* control the powerdown bit
+ * @param tfa the device struct pointer
+ * @param powerdown must be 1 or 0
+ */
+enum Tfa98xx_Error tfa98xx_powerdown(struct tfa_device *tfa, int powerdown);
+
+/* indicates on which channel of DATAI2 the gain from the IC is set
+ * @param tfa the device struct pointer
+ * @param gain_sel, see Tfa98xx_StereoGainSel_t
+ */
+enum Tfa98xx_Error tfa98xx_select_stereo_gain_channel(struct tfa_device *tfa,
+ enum Tfa98xx_StereoGainSel gain_sel);
+
+/**
+ * set the mtp with user controllable values
+ * @param tfa the device struct pointer
+ * @param value to be written
+ * @param mask to be applied toi the bits affected
+ */
+enum Tfa98xx_Error tfa98xx_set_mtp(struct tfa_device *tfa, uint16_t value, uint16_t mask);
+enum Tfa98xx_Error tfa98xx_get_mtp(struct tfa_device *tfa, uint16_t *value);
+
+/**
+ * lock or unlock KEY2
+ * lock = 1 will lock
+ * lock = 0 will unlock
+ * note that on return all the hidden key will be off
+ */
+void tfa98xx_key2(struct tfa_device *tfa, int lock);
+
+int tfa_calibrate(struct tfa_device *tfa) ;
+void tfa98xx_set_exttemp(struct tfa_device *tfa, short ext_temp);
+short tfa98xx_get_exttemp(struct tfa_device *tfa);
+
+/* control the volume of the DSP
+ * @param vol volume in bit field. It must be between 0 and 255
+ */
+enum Tfa98xx_Error tfa98xx_set_volume_level(struct tfa_device *tfa,
+ unsigned short vol);
+
+/* set the input channel to use
+ * @param channel see Tfa98xx_Channel_t enumeration
+ */
+enum Tfa98xx_Error tfa98xx_select_channel(struct tfa_device *tfa,
+ enum Tfa98xx_Channel channel);
+
+/* set the mode for normal or receiver mode
+ * @param mode see Tfa98xx_Mode enumeration
+ */
+enum Tfa98xx_Error tfa98xx_select_mode(struct tfa_device *tfa, enum Tfa98xx_Mode mode );
+
+/* mute/unmute the audio
+ * @param mute see Tfa98xx_Mute_t enumeration
+ */
+enum Tfa98xx_Error tfa98xx_set_mute(struct tfa_device *tfa,
+ enum Tfa98xx_Mute mute);
+
+/*
+ * tfa_supported_speakers - required for SmartStudio initialization
+ * returns the number of the supported speaker count
+ */
+enum Tfa98xx_Error tfa_supported_speakers(struct tfa_device *tfa, int* spkr_count);
+
+/**
+* Return the tfa revision
+*/
+void tfa98xx_rev(int *major, int *minor, int *revision);
+
+/*
+ * Return the feature bits from MTP and cnt file for comparison
+ */
+enum Tfa98xx_Error
+tfa98xx_compare_features(struct tfa_device *tfa, int features_from_MTP[3], int features_from_cnt[3]);
+
+/*
+ * return feature bits
+ */
+enum Tfa98xx_Error
+tfa98xx_dsp_get_sw_feature_bits(struct tfa_device *tfa, int features[2]);
+enum Tfa98xx_Error
+tfa98xx_dsp_get_hw_feature_bits(struct tfa_device *tfa, int *features);
+
+/*
+ * tfa98xx_supported_saam
+ * returns the speaker as microphone feature
+ * @param saam enum pointer
+ * @return error code
+ */
+enum Tfa98xx_Error tfa98xx_supported_saam(struct tfa_device *tfa, enum Tfa98xx_saam *saam);
+
+/* load the tables to the DSP
+ * called after patch load is done
+ * @return error code
+ */
+enum Tfa98xx_Error tfa98xx_dsp_write_tables(struct tfa_device *tfa, int sample_rate);
+
+
+/* set or clear DSP reset signal
+ * @param new state
+ * @return error code
+ */
+enum Tfa98xx_Error tfa98xx_dsp_reset(struct tfa_device *tfa, int state);
+
+/* check the state of the DSP subsystem
+ * return ready = 1 when clocks are stable to allow safe DSP subsystem access
+ * @param tfa the device struct pointer
+ * @param ready pointer to state flag, non-zero if clocks are not stable
+ * @return error code
+ */
+enum Tfa98xx_Error tfa98xx_dsp_system_stable(struct tfa_device *tfa, int *ready);
+
+enum Tfa98xx_Error tfa98xx_auto_copy_mtp_to_iic(struct tfa_device *tfa);
+
+/**
+ * check the state of the DSP coolflux
+ * @param tfa the device struct pointer
+ * @return the value of CFE
+ */
+int tfa_cf_enabled(struct tfa_device *tfa);
+
+/* The following functions can only be called when the DSP is running
+ * - I2S clock must be active,
+ * - IC must be in operating mode
+ */
+
+/**
+ * patch the ROM code of the DSP
+ * @param tfa the device struct pointer
+ * @param patchLength the number of bytes of patchBytes
+ * @param patchBytes pointer to the bytes to patch
+ */
+enum Tfa98xx_Error tfa_dsp_patch(struct tfa_device *tfa,
+ int patchLength,
+ const unsigned char *patchBytes);
+
+/**
+ * load explicitly the speaker parameters in case of free speaker,
+ * or when using a saved speaker model
+ */
+enum Tfa98xx_Error tfa98xx_dsp_write_speaker_parameters(
+ struct tfa_device *tfa,
+ int length,
+ const unsigned char *pSpeakerBytes);
+
+/**
+ * read the speaker parameters as used by the SpeakerBoost processing
+ */
+enum Tfa98xx_Error tfa98xx_dsp_read_speaker_parameters(
+ struct tfa_device *tfa,
+ int length,
+ unsigned char *pSpeakerBytes);
+
+/**
+ * read the current status of the DSP, typically used for development,
+ * not essential to be used in a product
+ */
+enum Tfa98xx_Error tfa98xx_dsp_get_state_info(
+ struct tfa_device *tfa,
+ unsigned char bytes[],
+ unsigned int *statesize);
+
+/**
+ * Check whether the DSP supports DRC
+ * pbSupportDrc=1 when DSP supports DRC,
+ * pbSupportDrc=0 when DSP doesn't support it
+ */
+enum Tfa98xx_Error tfa98xx_dsp_support_drc(struct tfa_device *tfa,
+ int *pbSupportDrc);
+
+enum Tfa98xx_Error
+tfa98xx_dsp_support_framework(struct tfa_device *tfa, int *pbSupportFramework);
+
+/**
+ * read the speaker excursion model as used by SpeakerBoost processing
+ */
+enum Tfa98xx_Error tfa98xx_dsp_read_excursion_model(
+ struct tfa_device *tfa,
+ int length,
+ unsigned char *pSpeakerBytes);
+
+/**
+ * load all the parameters for a preset from a file
+ */
+enum Tfa98xx_Error tfa98xx_dsp_write_preset(struct tfa_device *tfa,
+ int length, const unsigned char
+ *pPresetBytes);
+
+/**
+ * wrapper for dsp_msg that adds opcode and only writes
+ */
+enum Tfa98xx_Error tfa_dsp_cmd_id_write(struct tfa_device *tfa,
+ unsigned char module_id,
+ unsigned char param_id, int num_bytes,
+ const unsigned char data[]);
+
+/**
+ * wrapper for dsp_msg that writes opcode and reads back the data
+ */
+enum Tfa98xx_Error tfa_dsp_cmd_id_write_read(struct tfa_device *tfa,
+ unsigned char module_id,
+ unsigned char param_id, int num_bytes,
+ unsigned char data[]);
+
+/**
+ * wrapper for dsp_msg that adds opcode and 3 bytes required for coefs
+ */
+enum Tfa98xx_Error tfa_dsp_cmd_id_coefs(struct tfa_device *tfa,
+ unsigned char module_id,
+ unsigned char param_id, int num_bytes,
+ unsigned char data[]);
+
+/**
+ * wrapper for dsp_msg that adds opcode and 3 bytes required for MBDrcDynamics
+ */
+enum Tfa98xx_Error tfa_dsp_cmd_id_MBDrc_dynamics(struct tfa_device *tfa,
+ unsigned char module_id,
+ unsigned char param_id, int index_subband,
+ int num_bytes, unsigned char data[]);
+
+/**
+ * Disable a certain biquad.
+ * @param tfa the device struct pointer
+ * @param biquad_index: 1-10 of the biquad that needs to be adressed
+*/
+enum Tfa98xx_Error Tfa98xx_DspBiquad_Disable(struct tfa_device *tfa,
+ int biquad_index);
+
+/**
+ * fill the calibration value as milli ohms in the struct
+ * assume that the device has been calibrated
+ */
+enum Tfa98xx_Error
+tfa_dsp_get_calibration_impedance(struct tfa_device *tfa);
+
+/*
+ * return the mohm value
+ */
+int tfa_get_calibration_info(struct tfa_device *tfa, int channel);
+
+/*
+ * return sign extended tap pattern
+ */
+int tfa_get_tap_pattern(struct tfa_device *tfa);
+
+/**
+ * Reads a number of words from dsp memory
+ * @param tfa the device struct pointer
+ * @param subaddress write address to set in address register
+ * @param pValue pointer to read data
+*/
+enum Tfa98xx_Error tfa98xx_read_register16(struct tfa_device *tfa,
+ unsigned char subaddress,
+ unsigned short *pValue);
+
+/**
+ * Reads a number of words from dsp memory
+ * @param tfa the device struct pointer
+ * @param subaddress write address to set in address register
+ * @param value value to write int the memory
+*/
+enum Tfa98xx_Error tfa98xx_write_register16(struct tfa_device *tfa,
+ unsigned char subaddress,
+ unsigned short value);
+
+/**
+ * Intialise the dsp
+ * @param tfa the device struct pointer
+ * @return tfa error enum
+*/
+enum Tfa98xx_Error
+tfa98xx_init_dsp(struct tfa_device *tfa);
+
+/**
+ * Get the status of the external DSP
+ * @param tfa the device struct pointer
+ * @return status
+*/
+int tfa98xx_get_dsp_status(struct tfa_device *tfa);
+
+/**
+ * Write a command message (RPC) to the dsp
+ * @param tfa the device struct pointer
+ * @param num_bytes command buffer size in bytes
+ * @param command_buffer
+ * @return tfa error enum
+*/
+enum Tfa98xx_Error
+tfa98xx_write_dsp(struct tfa_device *tfa, int num_bytes, const char *command_buffer);
+
+/**
+ * Read the result from the last message from the dsp
+ * @param tfa the device struct pointer
+ * @param num_bytes result buffer size in bytes
+ * @param result_buffer
+ * @return tfa error enum
+*/
+enum Tfa98xx_Error
+tfa98xx_read_dsp(struct tfa_device *tfa, int num_bytes, unsigned char *result_buffer);
+
+/**
+ * Write a command message (RPC) to the dsp and return the result
+ * @param tfa the device struct pointer
+ * @param command_length command buffer size in bytes
+ * @param command_buffer command buffer
+ * @param result_length result buffer size in bytes
+ * @param result_buffer result buffer
+ * @return tfa error enum
+*/
+enum Tfa98xx_Error
+tfa98xx_writeread_dsp(struct tfa_device *tfa, int command_length, void *command_buffer,
+ int result_length, void *result_buffer);
+
+/**
+ * Reads a number of words from dsp memory
+ * @param tfa the device struct pointer
+ * @param start_offset offset from where to start reading
+ * @param num_words number of words to read
+ * @param pValues pointer to read data
+*/
+enum Tfa98xx_Error tfa98xx_dsp_read_mem(struct tfa_device *tfa,
+ unsigned int start_offset,
+ int num_words, int *pValues);
+/**
+ * Write a value to dsp memory
+ * @param tfa the device struct pointer
+ * @param address write address to set in address register
+ * @param value value to write int the memory
+ * @param memtype type of memory to write to
+*/
+enum Tfa98xx_Error tfa98xx_dsp_write_mem_word(struct tfa_device *tfa,
+ unsigned short address, int value, int memtype);
+
+/**
+ * Read data from dsp memory
+ * @param tfa the device struct pointer
+ * @param subaddress write address to set in address register
+ * @param num_bytes number of bytes to read from dsp
+ * @param data the unsigned char buffer to read data into
+*/
+enum Tfa98xx_Error tfa98xx_read_data(struct tfa_device *tfa,
+ unsigned char subaddress,
+ int num_bytes, unsigned char data[]);
+
+/**
+ * Write all the bytes specified by num_bytes and data to dsp memory
+ * @param tfa the device struct pointer
+ * @param subaddress the subaddress to write to
+ * @param num_bytes number of bytes to write
+ * @param data actual data to write
+*/
+enum Tfa98xx_Error tfa98xx_write_data(struct tfa_device *tfa,
+ unsigned char subaddress,
+ int num_bytes,
+ const unsigned char data[]);
+
+enum Tfa98xx_Error tfa98xx_write_raw(struct tfa_device *tfa,
+ int num_bytes,
+ const unsigned char data[]);
+
+/* support for converting error codes into text */
+const char *tfa98xx_get_error_string(enum Tfa98xx_Error error);
+
+/**
+ * convert signed 24 bit integers to 32bit aligned bytes
+ * input: data contains "num_bytes/3" int24 elements
+ * output: bytes contains "num_bytes" byte elements
+ * @param num_data length of the input data array
+ * @param data input data as integer array
+ * @param bytes output data as unsigned char array
+*/
+void tfa98xx_convert_data2bytes(int num_data, const int data[],
+ unsigned char bytes[]);
+
+/**
+ * convert memory bytes to signed 24 bit integers
+ * input: bytes contains "num_bytes" byte elements
+ * output: data contains "num_bytes/3" int24 elements
+ * @param num_bytes length of the input data array
+ * @param bytes input data as unsigned char array
+ * @param data output data as integer array
+*/
+void tfa98xx_convert_bytes2data(int num_bytes, const unsigned char bytes[],
+ int data[]);
+
+/**
+ * Read a part of the dsp memory
+ * @param tfa the device struct pointer
+ * @param memoryType indicator to the memory type
+ * @param offset from where to start reading
+ * @param length the number of bytes to read
+ * @param bytes output data as unsigned char array
+*/
+enum Tfa98xx_Error tfa98xx_dsp_get_memory(struct tfa_device *tfa, int memoryType,
+ int offset, int length, unsigned char bytes[]);
+
+/**
+ * Write a value to the dsp memory
+ * @param tfa the device struct pointer
+ * @param memoryType indicator to the memory type
+ * @param offset from where to start writing
+ * @param length the number of bytes to write
+ * @param value the value to write to the dsp
+*/
+enum Tfa98xx_Error tfa98xx_dsp_set_memory(struct tfa_device *tfa, int memoryType,
+ int offset, int length, int value);
+
+enum Tfa98xx_Error tfa98xx_dsp_write_config(struct tfa_device *tfa, int length, const unsigned char *p_config_bytes);
+enum Tfa98xx_Error tfa98xx_dsp_write_drc(struct tfa_device *tfa, int length, const unsigned char *p_drc_bytes);
+
+/**
+ * write/read raw msg functions :
+ * the buffer is provided in little endian format, each word occupying 3 bytes, length is in bytes.
+ * The functions will return immediately and do not not wait for DSP reponse.
+ * @param tfa the device struct pointer
+ * @param length length of the character buffer to write
+ * @param buf character buffer to write
+*/
+enum Tfa98xx_Error tfa_dsp_msg(struct tfa_device *tfa, int length, const char *buf);
+
+
+/**
+ * The wrapper functions to call the dsp msg, register and memory function for tfa or probus
+ */
+enum Tfa98xx_Error dsp_msg(struct tfa_device *tfa, int length, const char *buf);
+enum Tfa98xx_Error dsp_msg_read(struct tfa_device *tfa, int length, unsigned char *bytes);
+enum Tfa98xx_Error reg_write(struct tfa_device *tfa, unsigned char subaddress, unsigned short value);
+enum Tfa98xx_Error reg_read(struct tfa_device *tfa, unsigned char subaddress, unsigned short *value);
+enum Tfa98xx_Error mem_write(struct tfa_device *tfa, unsigned short address, int value, int memtype);
+enum Tfa98xx_Error mem_read(struct tfa_device *tfa, unsigned int start_offset, int num_words, int *pValues);
+
+enum Tfa98xx_Error dsp_partial_coefficients(struct tfa_device *tfa, uint8_t *prev, uint8_t *next);
+int is_94_N2_device(struct tfa_device *tfa);
+/**
+ * write/read raw msg functions:
+ * the buffer is provided in little endian format, each word occupying 3 bytes, length is in bytes.
+ * The functions will return immediately and do not not wait for DSP reponse.
+ * An ID is added to modify the command-ID
+ * @param tfa the device struct pointer
+ * @param length length of the character buffer to write
+ * @param buf character buffer to write
+ * @param cmdid command identifier
+*/
+enum Tfa98xx_Error tfa_dsp_msg_id(struct tfa_device *tfa, int length, const char *buf, uint8_t cmdid[3]);
+
+/**
+ * write raw dsp msg functions
+ * @param tfa the device struct pointer
+ * @param length length of the character buffer to write
+ * @param buffer character buffer to write
+*/
+enum Tfa98xx_Error tfa_dsp_msg_write(struct tfa_device *tfa, int length, const char *buffer);
+
+/**
+ * write raw dsp msg functions
+ * @param tfa the device struct pointer
+ * @param length length of the character buffer to write
+ * @param buffer character buffer to write
+ * @param cmdid command identifier
+*/
+enum Tfa98xx_Error tfa_dsp_msg_write_id(struct tfa_device *tfa, int length, const char *buffer, uint8_t cmdid[3]);
+
+/**
+ * status function used by tfa_dsp_msg() to retrieve command/msg status:
+ * return a <0 status of the DSP did not ACK.
+ * @param tfa the device struct pointer
+ * @param pRpcStatus status for remote processor communication
+*/
+enum Tfa98xx_Error tfa_dsp_msg_status(struct tfa_device *tfa, int *pRpcStatus);
+
+/**
+ * Read a message from dsp
+ * @param tfa the device struct pointer
+ * @param length number of bytes of the message
+ * @param bytes pointer to unsigned char buffer
+*/
+enum Tfa98xx_Error tfa_dsp_msg_read(struct tfa_device *tfa,int length, unsigned char *bytes);
+
+int tfa_set_bf(struct tfa_device *tfa, const uint16_t bf, const uint16_t value);
+int tfa_set_bf_volatile(struct tfa_device *tfa, const uint16_t bf, const uint16_t value);
+
+/**
+ * Get the value of a given bitfield
+ * @param tfa the device struct pointer
+ * @param bf the value indicating which bitfield
+ */
+int tfa_get_bf(struct tfa_device *tfa, const uint16_t bf);
+
+/**
+ * Set the value of a given bitfield
+ * @param bf the value indicating which bitfield
+ * @param bf_value the value of the bitfield
+ * @param p_reg_value a pointer to the register where to write the bitfield value
+ */
+int tfa_set_bf_value(const uint16_t bf, const uint16_t bf_value, uint16_t *p_reg_value);
+
+uint16_t tfa_get_bf_value(const uint16_t bf, const uint16_t reg_value);
+int tfa_write_reg(struct tfa_device *tfa, const uint16_t bf, const uint16_t reg_value);
+int tfa_read_reg(struct tfa_device *tfa, const uint16_t bf);
+
+/* bitfield */
+/**
+ * get the datasheet or bitfield name corresponding to the bitfield number
+ * @param num is the number for which to get the bitfield name
+ * @param rev is the device type
+ */
+char *tfaContBfName(uint16_t num, unsigned short rev);
+
+/**
+ * get the datasheet name corresponding to the bitfield number
+ * @param num is the number for which to get the bitfield name
+ * @param rev is the device type
+ */
+char *tfaContDsName(uint16_t num, unsigned short rev);
+
+/**
+ * get the bitfield name corresponding to the bitfield number
+ * @param num is the number for which to get the bitfield name
+ * @param rev is the device type
+ */
+char *tfaContBitName(uint16_t num, unsigned short rev);
+
+/**
+ * get the bitfield number corresponding to the bitfield name
+ * @param name is the bitfield name for which to get the bitfield number
+ * @param rev is the device type
+ */
+uint16_t tfaContBfEnum(const char *name, unsigned short rev);
+
+/**
+* get the bitfield number corresponding to the bitfield name, checks for all devices
+* @param name is the bitfield name for which to get the bitfield number
+ */
+uint16_t tfaContBfEnumAny(const char *name);
+
+#define TFA_FAM(tfa, fieldname) ((tfa->tfa_family == 1) ? TFA1_BF_##fieldname : TFA2_BF_##fieldname)
+#define TFA_FAM_FW(tfa, fwname) ((tfa->tfa_family == 1) ? TFA1_FW_##fwname : TFA2_FW_##fwname)
+
+/* set/get bit fields to HW register*/
+#define TFA_SET_BF(tfa, fieldname, value) tfa_set_bf(tfa, TFA_FAM(tfa, fieldname), value)
+#define TFA_SET_BF_VOLATILE(tfa, fieldname, value) tfa_set_bf_volatile(tfa, TFA_FAM(tfa, fieldname), value)
+#define TFA_GET_BF(tfa, fieldname) tfa_get_bf(tfa, TFA_FAM(tfa, fieldname))
+
+/* set/get bit field in variable */
+#define TFA_SET_BF_VALUE(tfa, fieldname, bf_value, p_reg_value) tfa_set_bf_value(TFA_FAM(tfa, fieldname), bf_value, p_reg_value)
+#define TFA_GET_BF_VALUE(tfa, fieldname, reg_value) tfa_get_bf_value(TFA_FAM(tfa, fieldname), reg_value)
+
+/* write/read registers using a bit field name to determine the register address */
+#define TFA_WRITE_REG(tfa, fieldname, value) tfa_write_reg(tfa, TFA_FAM(tfa, fieldname), value)
+#define TFA_READ_REG(tfa, fieldname) tfa_read_reg(tfa, TFA_FAM(tfa, fieldname))
+
+/* FOR CALIBRATION RETRIES */
+#define TFA98XX_API_WAITRESULT_NTRIES 3000 // defined in API
+
+/**
+ * run the startup/init sequence and set ACS bit
+ * @param tfa the device struct pointer
+ * @param state the cold start state that is requested
+ */
+enum Tfa98xx_Error tfaRunColdboot(struct tfa_device *tfa, int state);
+enum Tfa98xx_Error tfaRunMute(struct tfa_device *tfa);
+enum Tfa98xx_Error tfaRunUnmute(struct tfa_device *tfa);
+
+/**
+ * wait for calibrateDone
+ * @param tfa the device struct pointer
+ * @param calibrateDone pointer to status of calibration
+ */
+enum Tfa98xx_Error tfaRunWaitCalibration(struct tfa_device *tfa, int *calibrateDone);
+
+/**
+ * run the startup/init sequence and set ACS bit
+ * @param tfa the device struct pointer
+ * @param profile the profile that should be loaded
+ */
+enum Tfa98xx_Error tfaRunColdStartup(struct tfa_device *tfa, int profile);
+
+/**
+ * this will load the patch witch will implicitly start the DSP
+ * if no patch is available the DPS is started immediately
+ * @param tfa the device struct pointer
+ */
+enum Tfa98xx_Error tfaRunStartDSP(struct tfa_device *tfa);
+
+/**
+ * start the clocks and wait until the AMP is switching
+ * on return the DSP sub system will be ready for loading
+ * @param tfa the device struct pointer
+ * @param profile the profile that should be loaded on startup
+ */
+enum Tfa98xx_Error tfaRunStartup(struct tfa_device *tfa, int profile);
+
+/**
+ * start the maximus speakerboost algorithm
+ * this implies a full system startup when the system was not already started
+ * @param tfa the device struct pointer
+ * @param force indicates wether a full system startup should be allowed
+ * @param profile the profile that should be loaded
+ */
+enum Tfa98xx_Error tfaRunSpeakerBoost(struct tfa_device *tfa, int force, int profile);
+
+/**
+ * Startup the device and write all files from device and profile section
+ * @param tfa the device struct pointer
+ * @param force indicates wether a full system startup should be allowed
+ * @param profile the profile that should be loaded on speaker startup
+ */
+enum Tfa98xx_Error tfaRunSpeakerStartup(struct tfa_device *tfa, int force, int profile);
+
+/**
+ * Run calibration
+ * @param tfa the device struct pointer
+ */
+enum Tfa98xx_Error tfaRunSpeakerCalibration(struct tfa_device *tfa);
+
+/**
+ * startup all devices. all step until patch loading is handled
+ * @param tfa the device struct pointer
+ */
+int tfaRunStartupAll(struct tfa_device *tfa);
+
+/**
+ * powerup the coolflux subsystem and wait for it
+ * @param tfa the device struct pointer
+ */
+enum Tfa98xx_Error tfa_cf_powerup(struct tfa_device *tfa);
+
+/*
+ * print the current device manager state
+ * @param tfa the device struct pointer
+ */
+enum Tfa98xx_Error show_current_state(struct tfa_device *tfa);
+
+/**
+ * Init registers and coldboot dsp
+ * @param tfa the device struct pointer
+ */
+int tfa_reset(struct tfa_device *tfa);
+
+/**
+ * Get profile from a register
+ * @param tfa the device struct pointer
+ */
+int tfa_dev_get_swprof(struct tfa_device *tfa);
+
+/**
+ * Save profile in a register
+ */
+int tfa_dev_set_swprof(struct tfa_device *tfa, unsigned short new_value);
+
+int tfa_dev_get_swvstep(struct tfa_device *tfa);
+
+int tfa_dev_set_swvstep(struct tfa_device *tfa, unsigned short new_value);
+
+int tfa_needs_reset(struct tfa_device *tfa);
+
+int tfa_is_cold(struct tfa_device *tfa);
+
+void tfa_set_query_info(struct tfa_device *tfa);
+
+int tfa_get_pga_gain(struct tfa_device *tfa);
+int tfa_set_pga_gain(struct tfa_device *tfa, uint16_t value);
+int tfa_get_noclk(struct tfa_device *tfa);
+
+/**
+ * Status of used for monitoring
+ * @param tfa the device struct pointer
+ * @return tfa error enum
+ */
+
+enum Tfa98xx_Error tfa_status(struct tfa_device *tfa);
+
+/*
+ * function overload for flag_mtp_busy
+ */
+int tfa_dev_get_mtpb(struct tfa_device *tfa);
+
+enum Tfa98xx_Error tfaGetFwApiVersion(struct tfa_device *tfa, unsigned char *pFirmwareVersion);
+#ifdef __cplusplus
+}
+#endif
+#endif /* TFA_SERVICE_H */
diff --git a/net/ipc_router/ipc_router_security.c b/net/ipc_router/ipc_router_security.c
index 1359d64..af9fe97 100644
--- a/net/ipc_router/ipc_router_security.c
+++ b/net/ipc_router/ipc_router_security.c
@@ -1,4 +1,4 @@
-/* Copyright (c) 2012-2014,2016 The Linux Foundation. All rights reserved.
+/* Copyright (c) 2012-2014,2016,2020, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
@@ -104,7 +104,7 @@
int msm_ipc_config_sec_rules(void *arg)
{
struct config_sec_rules_args sec_rules_arg;
- struct security_rule *rule, *temp_rule;
+ struct security_rule *rule;
int key;
size_t kgroup_info_sz;
int ret;
@@ -120,6 +120,10 @@
if (ret)
return -EFAULT;
+ /* Default rule change from config util not allowed */
+ if (sec_rules_arg.service_id == ALL_SERVICE)
+ return -EINVAL;
+
if (sec_rules_arg.num_group_info <= 0)
return -EINVAL;
@@ -173,21 +177,11 @@
key = rule->service_id & (SEC_RULES_HASH_SZ - 1);
down_write(&security_rules_lock_lha4);
- if (rule->service_id == ALL_SERVICE) {
- temp_rule = list_first_entry(&security_rules[key],
- struct security_rule, list);
- list_del(&temp_rule->list);
- kfree(temp_rule->group_id);
- kfree(temp_rule);
- }
list_add_tail(&rule->list, &security_rules[key]);
up_write(&security_rules_lock_lha4);
- if (rule->service_id == ALL_SERVICE)
- msm_ipc_sync_default_sec_rule((void *)rule);
- else
- msm_ipc_sync_sec_rule(rule->service_id, rule->instance_id,
- (void *)rule);
+ msm_ipc_sync_sec_rule(rule->service_id,
+ rule->instance_id, (void *)rule);
return 0;
}
diff --git a/src/tfa98xx.c b/src/tfa98xx.c
new file mode 100644
index 0000000..c218cf8
--- /dev/null
+++ b/src/tfa98xx.c
@@ -0,0 +1,3243 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#define pr_fmt(fmt) "%s(): " fmt, __func__
+
+#include <linux/module.h>
+#include <linux/i2c.h>
+#include <sound/core.h>
+#include <sound/pcm.h>
+#include <sound/pcm_params.h>
+#include <sound/soc.h>
+#include <linux/of_gpio.h>
+#include <linux/delay.h>
+#include <linux/device.h>
+#include <linux/firmware.h>
+#include <linux/debugfs.h>
+#include <linux/version.h>
+#include <linux/input.h>
+#include "config.h"
+#include "tfa98xx.h"
+#include "tfa.h"
+
+ /* required for enum tfa9912_irq */
+#include "tfa98xx_tfafieldnames.h"
+
+#define TFA98XX_VERSION TFA98XX_API_REV_STR
+
+#define I2C_RETRIES 50
+#define I2C_RETRY_DELAY 5 /* ms */
+
+/* Change volume selection behavior:
+ * Uncomment following line to generate a profile change when updating
+ * a volume control (also changes to the profile of the modified volume
+ * control)
+ */
+ /*#define TFA98XX_ALSA_CTRL_PROF_CHG_ON_VOL 1
+ */
+
+ /* Supported rates and data formats */
+#define TFA98XX_RATES SNDRV_PCM_RATE_8000_48000
+#define TFA98XX_FORMATS (SNDRV_PCM_FMTBIT_S16_LE | SNDRV_PCM_FMTBIT_S24_LE | SNDRV_PCM_FMTBIT_S32_LE)
+
+#define TF98XX_MAX_DSP_START_TRY_COUNT 10
+
+/* data accessible by all instances */
+static struct kmem_cache *tfa98xx_cache = NULL; /* Memory pool used for DSP messages */
+/* Mutex protected data */
+static DEFINE_MUTEX(tfa98xx_mutex);
+static LIST_HEAD(tfa98xx_device_list);
+static int tfa98xx_device_count = 0;
+static int tfa98xx_sync_count = 0;
+static LIST_HEAD(profile_list); /* list of user selectable profiles */
+static int tfa98xx_mixer_profiles = 0; /* number of user selectable profiles */
+static int tfa98xx_mixer_profile = 0; /* current mixer profile */
+static struct snd_kcontrol_new *tfa98xx_controls;
+static nxpTfaContainer_t *tfa98xx_container = NULL;
+
+static int tfa98xx_kmsg_regs = 0;
+static int tfa98xx_ftrace_regs = 0;
+
+static char *fw_name = "tfa98xx.cnt";
+module_param(fw_name, charp, S_IRUGO | S_IWUSR);
+MODULE_PARM_DESC(fw_name, "TFA98xx DSP firmware (container file) name.");
+
+static int trace_level = 0;
+module_param(trace_level, int, S_IRUGO);
+MODULE_PARM_DESC(trace_level, "TFA98xx debug trace level (0=off, bits:1=verbose,2=regdmesg,3=regftrace,4=timing).");
+
+static char *dflt_prof_name = "";
+module_param(dflt_prof_name, charp, S_IRUGO);
+
+static int no_start = 0;
+module_param(no_start, int, S_IRUGO);
+MODULE_PARM_DESC(no_start, "do not start the work queue; for debugging via user\n");
+
+static int no_reset = 0;
+module_param(no_reset, int, S_IRUGO);
+MODULE_PARM_DESC(no_reset, "do not use the reset line; for debugging via user\n");
+
+static int pcm_sample_format = 0;
+module_param(pcm_sample_format, int, S_IRUGO);
+MODULE_PARM_DESC(pcm_sample_format, "PCM sample format: 0=S16_LE, 1=S24_LE, 2=S32_LE\n");
+
+static int pcm_no_constraint = 0;
+module_param(pcm_no_constraint, int, S_IRUGO);
+MODULE_PARM_DESC(pcm_no_constraint, "do not use constraints for PCM parameters\n");
+
+static void tfa98xx_tapdet_check_update(struct tfa98xx *tfa98xx);
+static int tfa98xx_get_fssel(unsigned int rate);
+static void tfa98xx_interrupt_enable(struct tfa98xx *tfa98xx, bool enable);
+
+static int get_profile_from_list(char *buf, int id);
+static int get_profile_id_for_sr(int id, unsigned int rate);
+
+struct tfa98xx_rate {
+ unsigned int rate;
+ unsigned int fssel;
+};
+
+static const struct tfa98xx_rate rate_to_fssel[] = {
+ { 8000, 0 },
+ { 11025, 1 },
+ { 12000, 2 },
+ { 16000, 3 },
+ { 22050, 4 },
+ { 24000, 5 },
+ { 32000, 6 },
+ { 44100, 7 },
+ { 48000, 8 },
+};
+
+
+static inline char *tfa_cont_profile_name(struct tfa98xx *tfa98xx, int prof_idx)
+{
+ if (tfa98xx->tfa->cnt == NULL)
+ return NULL;
+ return tfaContProfileName(tfa98xx->tfa->cnt, tfa98xx->tfa->dev_idx, prof_idx);
+}
+
+static enum tfa_error tfa98xx_write_re25(struct tfa_device *tfa, int value)
+{
+ enum tfa_error err;
+
+ /* clear MTPEX */
+ err = tfa_dev_mtp_set(tfa, TFA_MTP_EX, 0);
+ if (err == tfa_error_ok) {
+ /* set RE25 in shadow regiser */
+ err = tfa_dev_mtp_set(tfa, TFA_MTP_RE25_PRIM, value);
+ }
+ if (err == tfa_error_ok) {
+ /* set MTPEX to copy RE25 into MTP */
+ err = tfa_dev_mtp_set(tfa, TFA_MTP_EX, 2);
+ }
+
+ return err;
+}
+
+/* Wrapper for tfa start */
+static enum tfa_error tfa98xx_tfa_start(struct tfa98xx *tfa98xx, int next_profile, int vstep)
+{
+ enum tfa_error err;
+ ktime_t start_time, stop_time;
+ u64 delta_time;
+
+ if (trace_level & 8) {
+ start_time = ktime_get_boottime();
+ }
+
+ err = tfa_dev_start(tfa98xx->tfa, next_profile, vstep);
+
+ if (trace_level & 8) {
+ stop_time = ktime_get_boottime();
+ delta_time = ktime_to_ns(ktime_sub(stop_time, start_time));
+ do_div(delta_time, 1000);
+ dev_dbg(&tfa98xx->i2c->dev, "tfa_dev_start(%d,%d) time = %lld us\n",
+ next_profile, vstep, delta_time);
+ }
+
+ if ((err == tfa_error_ok) && (tfa98xx->set_mtp_cal)) {
+ enum tfa_error err_cal;
+ err_cal = tfa98xx_write_re25(tfa98xx->tfa, tfa98xx->cal_data);
+ if (err_cal != tfa_error_ok) {
+ pr_err("Error, setting calibration value in mtp, err=%d\n", err_cal);
+ }
+ else {
+ tfa98xx->set_mtp_cal = false;
+ pr_info("Calibration value (%d) set in mtp\n",
+ tfa98xx->cal_data);
+ }
+ }
+
+ /* Check and update tap-detection state (in case of profile change) */
+ tfa98xx_tapdet_check_update(tfa98xx);
+
+ /* Remove sticky bit by reading it once */
+ tfa_get_noclk(tfa98xx->tfa);
+
+ /* A cold start erases the configuration, including interrupts setting.
+ * Restore it if required
+ */
+ tfa98xx_interrupt_enable(tfa98xx, true);
+
+ return err;
+}
+
+static int tfa98xx_input_open(struct input_dev *dev)
+{
+ struct tfa98xx *tfa98xx = input_get_drvdata(dev);
+ dev_dbg(tfa98xx->codec->dev, "opening device file\n");
+
+ /* note: open function is called only once by the framework.
+ * No need to count number of open file instances.
+ */
+ if (tfa98xx->dsp_fw_state != TFA98XX_DSP_FW_OK) {
+ dev_dbg(&tfa98xx->i2c->dev,
+ "DSP not loaded, cannot start tap-detection\n");
+ return -EIO;
+ }
+
+ /* enable tap-detection service */
+ tfa98xx->tapdet_open = true;
+ tfa98xx_tapdet_check_update(tfa98xx);
+
+ return 0;
+}
+
+static void tfa98xx_input_close(struct input_dev *dev)
+{
+ struct tfa98xx *tfa98xx = input_get_drvdata(dev);
+
+ dev_dbg(tfa98xx->codec->dev, "closing device file\n");
+
+ /* Note: close function is called if the device is unregistered */
+
+ /* disable tap-detection service */
+ tfa98xx->tapdet_open = false;
+ tfa98xx_tapdet_check_update(tfa98xx);
+}
+
+static int tfa98xx_register_inputdev(struct tfa98xx *tfa98xx)
+{
+ int err;
+ struct input_dev *input;
+ input = input_allocate_device();
+
+ if (!input) {
+ dev_err(tfa98xx->codec->dev, "Unable to allocate input device\n");
+ return -ENOMEM;
+ }
+
+ input->evbit[0] = BIT_MASK(EV_KEY);
+ input->keybit[BIT_WORD(BTN_0)] |= BIT_MASK(BTN_0);
+ input->keybit[BIT_WORD(BTN_1)] |= BIT_MASK(BTN_1);
+ input->keybit[BIT_WORD(BTN_2)] |= BIT_MASK(BTN_2);
+ input->keybit[BIT_WORD(BTN_3)] |= BIT_MASK(BTN_3);
+ input->keybit[BIT_WORD(BTN_4)] |= BIT_MASK(BTN_4);
+ input->keybit[BIT_WORD(BTN_5)] |= BIT_MASK(BTN_5);
+ input->keybit[BIT_WORD(BTN_6)] |= BIT_MASK(BTN_6);
+ input->keybit[BIT_WORD(BTN_7)] |= BIT_MASK(BTN_7);
+ input->keybit[BIT_WORD(BTN_8)] |= BIT_MASK(BTN_8);
+ input->keybit[BIT_WORD(BTN_9)] |= BIT_MASK(BTN_9);
+
+ input->open = tfa98xx_input_open;
+ input->close = tfa98xx_input_close;
+
+ input->name = "tfa98xx-tapdetect";
+
+ input->id.bustype = BUS_I2C;
+ input_set_drvdata(input, tfa98xx);
+
+ err = input_register_device(input);
+ if (err) {
+ dev_err(tfa98xx->codec->dev, "Unable to register input device\n");
+ goto err_free_dev;
+ }
+
+ dev_dbg(tfa98xx->codec->dev, "Input device for tap-detection registered: %s\n",
+ input->name);
+ tfa98xx->input = input;
+ return 0;
+
+err_free_dev:
+ input_free_device(input);
+ return err;
+}
+
+/*
+ * Check if an input device for tap-detection can and shall be registered.
+ * Register it if appropriate.
+ * If already registered, check if still relevant and remove it if necessary.
+ * unregister: true to request inputdev unregistration.
+ */
+static void __tfa98xx_inputdev_check_register(struct tfa98xx *tfa98xx, bool unregister)
+{
+ bool tap_profile = false;
+ unsigned int i;
+ for (i = 0; i < tfa_cnt_get_dev_nprof(tfa98xx->tfa); i++) {
+ if (strstr(tfa_cont_profile_name(tfa98xx, i), ".tap")) {
+ tap_profile = true;
+ tfa98xx->tapdet_profiles |= 1 << i;
+ dev_info(tfa98xx->codec->dev,
+ "found a tap-detection profile (%d - %s)\n",
+ i, tfa_cont_profile_name(tfa98xx, i));
+ }
+ }
+
+ /* Check for device support:
+ * - at device level
+ * - at container (profile) level
+ */
+ if (!(tfa98xx->flags & TFA98XX_FLAG_TAPDET_AVAILABLE) ||
+ !tap_profile ||
+ unregister) {
+ /* No input device supported or required */
+ if (tfa98xx->input) {
+ input_unregister_device(tfa98xx->input);
+ tfa98xx->input = NULL;
+ }
+ return;
+ }
+
+ /* input device required */
+ if (tfa98xx->input)
+ dev_info(tfa98xx->codec->dev, "Input device already registered, skipping\n");
+ else
+ tfa98xx_register_inputdev(tfa98xx);
+}
+
+static void tfa98xx_inputdev_check_register(struct tfa98xx *tfa98xx)
+{
+ __tfa98xx_inputdev_check_register(tfa98xx, false);
+}
+
+static void tfa98xx_inputdev_unregister(struct tfa98xx *tfa98xx)
+{
+ __tfa98xx_inputdev_check_register(tfa98xx, true);
+}
+
+#ifdef CONFIG_DEBUG_FS
+/* OTC reporting
+ * Returns the MTP0 OTC bit value
+ */
+static int tfa98xx_dbgfs_otc_get(void *data, u64 *val)
+{
+ struct i2c_client *i2c = (struct i2c_client *)data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ int value;
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ value = tfa_dev_mtp_get(tfa98xx->tfa, TFA_MTP_OTC);
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ if (value < 0) {
+ pr_err("[0x%x] Unable to check DSP access: %d\n", tfa98xx->i2c->addr, value);
+ return -EIO;
+ }
+
+ *val = value;
+ pr_debug("[0x%x] OTC : %d\n", tfa98xx->i2c->addr, value);
+
+ return 0;
+}
+
+static int tfa98xx_dbgfs_otc_set(void *data, u64 val)
+{
+ struct i2c_client *i2c = (struct i2c_client *)data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ enum tfa_error err;
+
+ if (val != 0 && val != 1) {
+ pr_err("[0x%x] Unexpected value %llu\n", tfa98xx->i2c->addr, val);
+ return -EINVAL;
+ }
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ err = tfa_dev_mtp_set(tfa98xx->tfa, TFA_MTP_OTC, val);
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ if (err != tfa_error_ok) {
+ pr_err("[0x%x] Unable to check DSP access: %d\n", tfa98xx->i2c->addr, err);
+ return -EIO;
+ }
+
+ pr_debug("[0x%x] OTC < %llu\n", tfa98xx->i2c->addr, val);
+
+ return 0;
+}
+
+static int tfa98xx_dbgfs_mtpex_get(void *data, u64 *val)
+{
+ struct i2c_client *i2c = (struct i2c_client *)data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ int value;
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ value = tfa_dev_mtp_get(tfa98xx->tfa, TFA_MTP_EX);
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ if (value < 0) {
+ pr_err("[0x%x] Unable to check DSP access: %d\n", tfa98xx->i2c->addr, value);
+ return -EIO;
+ }
+
+
+ *val = value;
+ pr_debug("[0x%x] MTPEX : %d\n", tfa98xx->i2c->addr, value);
+
+ return 0;
+}
+
+static int tfa98xx_dbgfs_mtpex_set(void *data, u64 val)
+{
+ struct i2c_client *i2c = (struct i2c_client *)data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ enum tfa_error err;
+
+ if (val != 0) {
+ pr_err("[0x%x] Can only clear MTPEX (0 value expected)\n", tfa98xx->i2c->addr);
+ return -EINVAL;
+ }
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ err = tfa_dev_mtp_set(tfa98xx->tfa, TFA_MTP_EX, val);
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ if (err != tfa_error_ok) {
+ pr_err("[0x%x] Unable to check DSP access: %d\n", tfa98xx->i2c->addr, err);
+ return -EIO;
+ }
+
+ pr_debug("[0x%x] MTPEX < 0\n", tfa98xx->i2c->addr);
+
+ return 0;
+}
+
+static int tfa98xx_dbgfs_temp_get(void *data, u64 *val)
+{
+ struct i2c_client *i2c = (struct i2c_client *)data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ *val = tfa98xx_get_exttemp(tfa98xx->tfa);
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ pr_debug("[0x%x] TEMP : %llu\n", tfa98xx->i2c->addr, *val);
+
+ return 0;
+}
+
+static int tfa98xx_dbgfs_temp_set(void *data, u64 val)
+{
+ struct i2c_client *i2c = (struct i2c_client *)data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ tfa98xx_set_exttemp(tfa98xx->tfa, (short)val);
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ pr_debug("[0x%x] TEMP < %llu\n", tfa98xx->i2c->addr, val);
+
+ return 0;
+}
+
+static ssize_t tfa98xx_dbgfs_start_set(struct file *file,
+ const char __user *user_buf,
+ size_t count, loff_t *ppos)
+{
+ struct i2c_client *i2c = file->private_data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ enum tfa_error ret;
+ char buf[32];
+ const char ref[] = "please calibrate now";
+ int buf_size, cal_profile = 0;
+
+ /* check string length, and account for eol */
+ if (count > sizeof(ref) + 1 || count < (sizeof(ref) - 1))
+ return -EINVAL;
+
+ buf_size = min(count, (size_t)(sizeof(buf) - 1));
+ if (copy_from_user(buf, user_buf, buf_size))
+ return -EFAULT;
+ buf[buf_size] = 0;
+
+ /* Compare string, excluding the trailing \0 and the potentials eol */
+ if (strncmp(buf, ref, sizeof(ref) - 1))
+ return -EINVAL;
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ ret = tfa_calibrate(tfa98xx->tfa);
+ if (ret == tfa_error_ok) {
+ cal_profile = tfaContGetCalProfile(tfa98xx->tfa);
+ if (cal_profile < 0) {
+ pr_warn("[0x%x] Calibration profile not found\n",
+ tfa98xx->i2c->addr);
+ }
+
+ ret = tfa98xx_tfa_start(tfa98xx, cal_profile, tfa98xx->vstep);
+ }
+ if (ret == tfa_error_ok)
+ tfa_dev_set_state(tfa98xx->tfa, TFA_STATE_UNMUTE, 0);
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ if (ret) {
+ pr_info("[0x%x] Calibration start failed (%d)\n", tfa98xx->i2c->addr, ret);
+ return -EIO;
+ }
+ else {
+ pr_info("[0x%x] Calibration started\n", tfa98xx->i2c->addr);
+ }
+
+ return count;
+}
+
+static ssize_t tfa98xx_dbgfs_r_read(struct file *file,
+ char __user *user_buf, size_t count,
+ loff_t *ppos)
+{
+ struct i2c_client *i2c = file->private_data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ char *str;
+ uint16_t status;
+ int ret;
+
+ mutex_lock(&tfa98xx->dsp_lock);
+
+ /* Need to ensure DSP is access-able, use mtp read access for this
+ * purpose
+ */
+ ret = tfa98xx_get_mtp(tfa98xx->tfa, &status);
+ if (ret) {
+ ret = -EIO;
+ pr_err("[0x%x] MTP read failed\n", tfa98xx->i2c->addr);
+ goto r_c_err;
+ }
+
+ ret = tfaRunSpeakerCalibration(tfa98xx->tfa);
+ if (ret) {
+ ret = -EIO;
+ pr_err("[0x%x] calibration failed\n", tfa98xx->i2c->addr);
+ goto r_c_err;
+ }
+
+ str = kmalloc(PAGE_SIZE, GFP_KERNEL);
+ if (!str) {
+ ret = -ENOMEM;
+ pr_err("[0x%x] memory allocation failed\n", tfa98xx->i2c->addr);
+ goto r_c_err;
+ }
+
+ if (tfa98xx->tfa->spkr_count > 1) {
+ ret = snprintf(str, PAGE_SIZE,
+ "Prim:%d mOhms, Sec:%d mOhms\n",
+ tfa98xx->tfa->mohm[0],
+ tfa98xx->tfa->mohm[1]);
+ }
+ else {
+ ret = snprintf(str, PAGE_SIZE,
+ "Prim:%d mOhms\n",
+ tfa98xx->tfa->mohm[0]);
+ }
+
+ pr_debug("[0x%x] calib_done: %s", tfa98xx->i2c->addr, str);
+
+ if (ret < 0)
+ goto r_err;
+
+ ret = simple_read_from_buffer(user_buf, count, ppos, str, ret);
+
+r_err:
+ kfree(str);
+r_c_err:
+ mutex_unlock(&tfa98xx->dsp_lock);
+ return ret;
+}
+
+static ssize_t tfa98xx_dbgfs_version_read(struct file *file,
+ char __user *user_buf, size_t count,
+ loff_t *ppos)
+{
+ char str[] = TFA98XX_VERSION "\n";
+ int ret;
+
+ ret = simple_read_from_buffer(user_buf, count, ppos, str, sizeof(str));
+
+ return ret;
+}
+
+static ssize_t tfa98xx_dbgfs_dsp_state_get(struct file *file,
+ char __user *user_buf, size_t count,
+ loff_t *ppos)
+{
+ struct i2c_client *i2c = file->private_data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ int ret = 0;
+ char *str;
+
+ switch (tfa98xx->dsp_init) {
+ case TFA98XX_DSP_INIT_STOPPED:
+ str = "Stopped\n";
+ break;
+ case TFA98XX_DSP_INIT_RECOVER:
+ str = "Recover requested\n";
+ break;
+ case TFA98XX_DSP_INIT_FAIL:
+ str = "Failed init\n";
+ break;
+ case TFA98XX_DSP_INIT_PENDING:
+ str = "Pending init\n";
+ break;
+ case TFA98XX_DSP_INIT_DONE:
+ str = "Init complete\n";
+ break;
+ default:
+ str = "Invalid\n";
+ }
+
+ pr_debug("[0x%x] dsp_state : %s\n", tfa98xx->i2c->addr, str);
+
+ ret = simple_read_from_buffer(user_buf, count, ppos, str, strlen(str));
+ return ret;
+}
+
+static ssize_t tfa98xx_dbgfs_dsp_state_set(struct file *file,
+ const char __user *user_buf,
+ size_t count, loff_t *ppos)
+{
+ struct i2c_client *i2c = file->private_data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ enum tfa_error ret;
+ char buf[32];
+ const char start_cmd[] = "start";
+ const char stop_cmd[] = "stop";
+ const char mon_start_cmd[] = "monitor start";
+ const char mon_stop_cmd[] = "monitor stop";
+ int buf_size;
+
+ buf_size = min(count, (size_t)(sizeof(buf) - 1));
+ if (copy_from_user(buf, user_buf, buf_size))
+ return -EFAULT;
+ buf[buf_size] = 0;
+
+ /* Compare strings, excluding the trailing \0 */
+ if (!strncmp(buf, start_cmd, sizeof(start_cmd) - 1)) {
+ pr_info("[0x%x] Manual triggering of dsp start...\n", tfa98xx->i2c->addr);
+ mutex_lock(&tfa98xx->dsp_lock);
+ ret = tfa98xx_tfa_start(tfa98xx, tfa98xx->profile, tfa98xx->vstep);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ pr_debug("[0x%x] tfa_dev_start complete: %d\n", tfa98xx->i2c->addr, ret);
+ }
+ else if (!strncmp(buf, stop_cmd, sizeof(stop_cmd) - 1)) {
+ pr_info("[0x%x] Manual triggering of dsp stop...\n", tfa98xx->i2c->addr);
+ mutex_lock(&tfa98xx->dsp_lock);
+ ret = tfa_dev_stop(tfa98xx->tfa);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ pr_debug("[0x%x] tfa_dev_stop complete: %d\n", tfa98xx->i2c->addr, ret);
+ }
+ else if (!strncmp(buf, mon_start_cmd, sizeof(mon_start_cmd) - 1)) {
+ pr_info("[0x%x] Manual start of monitor thread...\n", tfa98xx->i2c->addr);
+ queue_delayed_work(tfa98xx->tfa98xx_wq,
+ &tfa98xx->monitor_work, HZ);
+ }
+ else if (!strncmp(buf, mon_stop_cmd, sizeof(mon_stop_cmd) - 1)) {
+ pr_info("[0x%x] Manual stop of monitor thread...\n", tfa98xx->i2c->addr);
+ cancel_delayed_work_sync(&tfa98xx->monitor_work);
+ }
+ else {
+ return -EINVAL;
+ }
+
+ return count;
+}
+
+static ssize_t tfa98xx_dbgfs_fw_state_get(struct file *file,
+ char __user *user_buf, size_t count,
+ loff_t *ppos)
+{
+ struct i2c_client *i2c = file->private_data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ char *str;
+
+ switch (tfa98xx->dsp_fw_state) {
+ case TFA98XX_DSP_FW_NONE:
+ str = "None\n";
+ break;
+ case TFA98XX_DSP_FW_PENDING:
+ str = "Pending\n";
+ break;
+ case TFA98XX_DSP_FW_FAIL:
+ str = "Fail\n";
+ break;
+ case TFA98XX_DSP_FW_OK:
+ str = "Ok\n";
+ break;
+ default:
+ str = "Invalid\n";
+ }
+
+ pr_debug("[0x%x] fw_state : %s", tfa98xx->i2c->addr, str);
+
+ return simple_read_from_buffer(user_buf, count, ppos, str, strlen(str));
+}
+
+static ssize_t tfa98xx_dbgfs_rpc_read(struct file *file,
+ char __user *user_buf, size_t count,
+ loff_t *ppos)
+{
+ struct i2c_client *i2c = file->private_data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ int ret = 0;
+ uint8_t *buffer;
+ enum Tfa98xx_Error error;
+
+ if (tfa98xx->tfa == NULL) {
+ pr_debug("[0x%x] dsp is not available\n", tfa98xx->i2c->addr);
+ return -ENODEV;
+ }
+
+ if (count == 0)
+ return 0;
+
+ buffer = kmalloc(count, GFP_KERNEL);
+ if (buffer == NULL) {
+ pr_debug("[0x%x] can not allocate memory\n", tfa98xx->i2c->addr);
+ return -ENOMEM;
+ }
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ error = dsp_msg_read(tfa98xx->tfa, count, buffer);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ if (error != Tfa98xx_Error_Ok) {
+ pr_debug("[0x%x] dsp_msg_read error: %d\n", tfa98xx->i2c->addr, error);
+ kfree(buffer);
+ return -EFAULT;
+ }
+
+ ret = copy_to_user(user_buf, buffer, count);
+ kfree(buffer);
+ if (ret)
+ return -EFAULT;
+
+ *ppos += count;
+ return count;
+}
+
+static ssize_t tfa98xx_dbgfs_rpc_send(struct file *file,
+ const char __user *user_buf,
+ size_t count, loff_t *ppos)
+{
+ struct i2c_client *i2c = file->private_data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ nxpTfaFileDsc_t *msg_file;
+ enum Tfa98xx_Error error;
+ int err = 0;
+
+ if (tfa98xx->tfa == NULL) {
+ pr_debug("[0x%x] dsp is not available\n", tfa98xx->i2c->addr);
+ return -ENODEV;
+ }
+
+ if (count == 0)
+ return 0;
+
+ /* msg_file.name is not used */
+ msg_file = kmalloc(count + sizeof(nxpTfaFileDsc_t), GFP_KERNEL);
+ if (msg_file == NULL) {
+ pr_debug("[0x%x] can not allocate memory\n", tfa98xx->i2c->addr);
+ return -ENOMEM;
+ }
+ msg_file->size = count;
+
+ if (copy_from_user(msg_file->data, user_buf, count))
+ return -EFAULT;
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ if ((msg_file->data[0] == 'M') && (msg_file->data[1] == 'G')) {
+ error = tfaContWriteFile(tfa98xx->tfa, msg_file, 0, 0); /* int vstep_idx, int vstep_msg_idx both 0 */
+ if (error != Tfa98xx_Error_Ok) {
+ pr_debug("[0x%x] tfaContWriteFile error: %d\n", tfa98xx->i2c->addr, error);
+ err = -EIO;
+ }
+ }
+ else {
+ error = dsp_msg(tfa98xx->tfa, msg_file->size, msg_file->data);
+ if (error != Tfa98xx_Error_Ok) {
+ pr_debug("[0x%x] dsp_msg error: %d\n", tfa98xx->i2c->addr, error);
+ err = -EIO;
+ }
+ }
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ kfree(msg_file);
+
+ if (err)
+ return err;
+ return count;
+}
+/* -- RPC */
+
+static int tfa98xx_dbgfs_pga_gain_get(void *data, u64 *val)
+{
+ struct i2c_client *i2c = (struct i2c_client *)data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ unsigned int value;
+
+ value = tfa_get_pga_gain(tfa98xx->tfa);
+ if (value < 0)
+ return -EINVAL;
+
+ *val = value;
+ return 0;
+}
+
+static int tfa98xx_dbgfs_pga_gain_set(void *data, u64 val)
+{
+ struct i2c_client *i2c = (struct i2c_client *)data;
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+ uint16_t value;
+ int err;
+
+ value = val & 0xffff;
+ if (value > 7)
+ return -EINVAL;
+
+ err = tfa_set_pga_gain(tfa98xx->tfa, value);
+ if (err < 0)
+ return -EINVAL;
+
+ return 0;
+}
+
+DEFINE_SIMPLE_ATTRIBUTE(tfa98xx_dbgfs_calib_otc_fops, tfa98xx_dbgfs_otc_get,
+ tfa98xx_dbgfs_otc_set, "%llu\n");
+DEFINE_SIMPLE_ATTRIBUTE(tfa98xx_dbgfs_calib_mtpex_fops, tfa98xx_dbgfs_mtpex_get,
+ tfa98xx_dbgfs_mtpex_set, "%llu\n");
+DEFINE_SIMPLE_ATTRIBUTE(tfa98xx_dbgfs_calib_temp_fops, tfa98xx_dbgfs_temp_get,
+ tfa98xx_dbgfs_temp_set, "%llu\n");
+
+DEFINE_SIMPLE_ATTRIBUTE(tfa98xx_dbgfs_pga_gain_fops, tfa98xx_dbgfs_pga_gain_get,
+ tfa98xx_dbgfs_pga_gain_set, "%llu\n");
+
+static const struct file_operations tfa98xx_dbgfs_calib_start_fops = {
+ .owner = THIS_MODULE,
+ .open = simple_open,
+ .write = tfa98xx_dbgfs_start_set,
+ .llseek = default_llseek,
+};
+
+static const struct file_operations tfa98xx_dbgfs_r_fops = {
+ .owner = THIS_MODULE,
+ .open = simple_open,
+ .read = tfa98xx_dbgfs_r_read,
+ .llseek = default_llseek,
+};
+
+static const struct file_operations tfa98xx_dbgfs_version_fops = {
+ .owner = THIS_MODULE,
+ .open = simple_open,
+ .read = tfa98xx_dbgfs_version_read,
+ .llseek = default_llseek,
+};
+
+static const struct file_operations tfa98xx_dbgfs_dsp_state_fops = {
+ .owner = THIS_MODULE,
+ .open = simple_open,
+ .read = tfa98xx_dbgfs_dsp_state_get,
+ .write = tfa98xx_dbgfs_dsp_state_set,
+ .llseek = default_llseek,
+};
+
+static const struct file_operations tfa98xx_dbgfs_fw_state_fops = {
+ .owner = THIS_MODULE,
+ .open = simple_open,
+ .read = tfa98xx_dbgfs_fw_state_get,
+ .llseek = default_llseek,
+};
+
+static const struct file_operations tfa98xx_dbgfs_rpc_fops = {
+ .owner = THIS_MODULE,
+ .open = simple_open,
+ .read = tfa98xx_dbgfs_rpc_read,
+ .write = tfa98xx_dbgfs_rpc_send,
+ .llseek = default_llseek,
+};
+
+static void tfa98xx_debug_init(struct tfa98xx *tfa98xx, struct i2c_client *i2c)
+{
+ char name[50];
+
+ scnprintf(name, MAX_CONTROL_NAME, "%s-%x", i2c->name, i2c->addr);
+ tfa98xx->dbg_dir = debugfs_create_dir(name, NULL);
+ debugfs_create_file("OTC", S_IRUGO | S_IWUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_calib_otc_fops);
+ debugfs_create_file("MTPEX", S_IRUGO | S_IWUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_calib_mtpex_fops);
+ debugfs_create_file("TEMP", S_IRUGO | S_IWUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_calib_temp_fops);
+ debugfs_create_file("calibrate", S_IRUGO | S_IWUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_calib_start_fops);
+ debugfs_create_file("R", S_IRUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_r_fops);
+ debugfs_create_file("version", S_IRUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_version_fops);
+ debugfs_create_file("dsp-state", S_IRUGO | S_IWUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_dsp_state_fops);
+ debugfs_create_file("fw-state", S_IRUGO | S_IWUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_fw_state_fops);
+ debugfs_create_file("rpc", S_IRUGO | S_IWUGO, tfa98xx->dbg_dir,
+ i2c, &tfa98xx_dbgfs_rpc_fops);
+
+ if (tfa98xx->flags & TFA98XX_FLAG_SAAM_AVAILABLE) {
+ dev_dbg(tfa98xx->dev, "Adding pga_gain debug interface\n");
+ debugfs_create_file("pga_gain", S_IRUGO, tfa98xx->dbg_dir,
+ tfa98xx->i2c,
+ &tfa98xx_dbgfs_pga_gain_fops);
+ }
+}
+
+static void tfa98xx_debug_remove(struct tfa98xx *tfa98xx)
+{
+ if (tfa98xx->dbg_dir)
+ debugfs_remove_recursive(tfa98xx->dbg_dir);
+}
+#endif
+
+
+/* copies the profile basename (i.e. part until .) into buf */
+static void get_profile_basename(char* buf, char* profile)
+{
+ int cp_len = 0, idx = 0;
+ char *pch;
+
+ pch = strchr(profile, '.');
+ idx = pch - profile;
+ cp_len = (pch != NULL) ? idx : (int)strlen(profile);
+ memcpy(buf, profile, cp_len);
+ buf[cp_len] = 0;
+}
+
+/* return the profile name accociated with id from the profile list */
+static int get_profile_from_list(char *buf, int id)
+{
+ struct tfa98xx_baseprofile *bprof;
+
+ list_for_each_entry(bprof, &profile_list, list) {
+ if (bprof->item_id == id) {
+ strcpy(buf, bprof->basename);
+ return 0;
+ }
+ }
+
+ return -1;
+}
+
+/* search for the profile in the profile list */
+static int is_profile_in_list(char *profile, int len)
+{
+ struct tfa98xx_baseprofile *bprof;
+
+ list_for_each_entry(bprof, &profile_list, list) {
+
+ if ((len == bprof->len) && (0 == strncmp(bprof->basename, profile, len)))
+ return 1;
+ }
+
+ return 0;
+}
+
+/*
+ * for the profile with id, look if the requested samplerate is
+ * supported, if found return the (container)profile for this
+ * samplerate, on error or if not found return -1
+ */
+static int get_profile_id_for_sr(int id, unsigned int rate)
+{
+ int idx = 0;
+ struct tfa98xx_baseprofile *bprof;
+
+ list_for_each_entry(bprof, &profile_list, list) {
+ if (id == bprof->item_id) {
+ idx = tfa98xx_get_fssel(rate);
+ if (idx < 0) {
+ /* samplerate not supported */
+ return -1;
+ }
+
+ return bprof->sr_rate_sup[idx];
+ }
+ }
+
+ /* profile not found */
+ return -1;
+}
+
+/* check if this profile is a calibration profile */
+static int is_calibration_profile(char *profile)
+{
+ if (strstr(profile, ".cal") != NULL)
+ return 1;
+ return 0;
+}
+
+/*
+ * adds the (container)profile index of the samplerate found in
+ * the (container)profile to a fixed samplerate table in the (mixer)profile
+ */
+static int add_sr_to_profile(struct tfa98xx *tfa98xx, char *basename, int len, int profile)
+{
+ struct tfa98xx_baseprofile *bprof;
+ int idx = 0;
+ unsigned int sr = 0;
+
+ list_for_each_entry(bprof, &profile_list, list) {
+ if ((len == bprof->len) && (0 == strncmp(bprof->basename, basename, len))) {
+ /* add supported samplerate for this profile */
+ sr = tfa98xx_get_profile_sr(tfa98xx->tfa, profile);
+ if (!sr) {
+ pr_err("unable to identify supported sample rate for %s\n", bprof->basename);
+ return -1;
+ }
+
+ /* get the index for this samplerate */
+ idx = tfa98xx_get_fssel(sr);
+ if (idx < 0 || idx >= TFA98XX_NUM_RATES) {
+ pr_err("invalid index for samplerate %d\n", idx);
+ return -1;
+ }
+
+ /* enter the (container)profile for this samplerate at the corresponding index */
+ bprof->sr_rate_sup[idx] = profile;
+
+ pr_debug("added profile:samplerate = [%d:%d] for mixer profile: %s\n", profile, sr, bprof->basename);
+ }
+ }
+
+ return 0;
+}
+
+#if LINUX_VERSION_CODE < KERNEL_VERSION(3,16,0)
+static struct snd_soc_codec *snd_soc_kcontrol_codec(struct snd_kcontrol *kcontrol)
+{
+ return snd_kcontrol_chip(kcontrol);
+}
+#endif
+
+static int tfa98xx_get_vstep(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_value *ucontrol)
+{
+ struct snd_soc_codec *codec = snd_soc_kcontrol_codec(kcontrol);
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+ int mixer_profile = kcontrol->private_value;
+ int ret = 0;
+ int profile;
+
+ profile = get_profile_id_for_sr(mixer_profile, tfa98xx->rate);
+ if (profile < 0) {
+ pr_err("tfa98xx: tfa98xx_get_vstep: invalid profile %d (mixer_profile=%d, rate=%d)\n", profile, mixer_profile, tfa98xx->rate);
+ return -EINVAL;
+ }
+
+ mutex_lock(&tfa98xx_mutex);
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ int vstep = tfa98xx->prof_vsteps[profile];
+
+ ucontrol->value.integer.value[tfa98xx->tfa->dev_idx] =
+ tfacont_get_max_vstep(tfa98xx->tfa, profile)
+ - vstep - 1;
+ }
+ mutex_unlock(&tfa98xx_mutex);
+
+ return ret;
+}
+
+static int tfa98xx_set_vstep(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_value *ucontrol)
+{
+ struct snd_soc_codec *codec = snd_soc_kcontrol_codec(kcontrol);
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+ int mixer_profile = kcontrol->private_value;
+ int profile;
+ int err = 0;
+ int change = 0;
+
+ if (no_start != 0)
+ return 0;
+
+ profile = get_profile_id_for_sr(mixer_profile, tfa98xx->rate);
+ if (profile < 0) {
+ pr_err("tfa98xx: tfa98xx_set_vstep: invalid profile %d (mixer_profile=%d, rate=%d)\n", profile, mixer_profile, tfa98xx->rate);
+ return -EINVAL;
+ }
+
+ mutex_lock(&tfa98xx_mutex);
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ int vstep, vsteps;
+ int ready = 0;
+ int new_vstep;
+ int value = ucontrol->value.integer.value[tfa98xx->tfa->dev_idx];
+
+ vstep = tfa98xx->prof_vsteps[profile];
+ vsteps = tfacont_get_max_vstep(tfa98xx->tfa, profile);
+
+ if (vstep == vsteps - value - 1)
+ continue;
+
+ new_vstep = vsteps - value - 1;
+
+ if (new_vstep < 0)
+ new_vstep = 0;
+
+ tfa98xx->prof_vsteps[profile] = new_vstep;
+
+#ifndef TFA98XX_ALSA_CTRL_PROF_CHG_ON_VOL
+ if (profile == tfa98xx->profile) {
+#endif
+ /* this is the active profile, program the new vstep */
+ tfa98xx->vstep = new_vstep;
+ mutex_lock(&tfa98xx->dsp_lock);
+ tfa98xx_dsp_system_stable(tfa98xx->tfa, &ready);
+
+ if (ready) {
+ err = tfa98xx_tfa_start(tfa98xx, tfa98xx->profile, tfa98xx->vstep);
+ if (err) {
+ pr_err("Write vstep error: %d\n", err);
+ }
+ else {
+ pr_debug("Succesfully changed vstep index!\n");
+ change = 1;
+ }
+ }
+
+ mutex_unlock(&tfa98xx->dsp_lock);
+#ifndef TFA98XX_ALSA_CTRL_PROF_CHG_ON_VOL
+ }
+#endif
+ pr_debug("%d: vstep:%d, (control value: %d) - profile %d\n",
+ tfa98xx->tfa->dev_idx, new_vstep, value, profile);
+ }
+
+ if (change) {
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ mutex_lock(&tfa98xx->dsp_lock);
+ tfa_dev_set_state(tfa98xx->tfa, TFA_STATE_UNMUTE, 0);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ }
+ }
+
+ mutex_unlock(&tfa98xx_mutex);
+
+ return change;
+}
+
+static int tfa98xx_info_vstep(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_info *uinfo)
+{
+ struct snd_soc_codec *codec = snd_soc_kcontrol_codec(kcontrol);
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+
+ int mixer_profile = tfa98xx_mixer_profile;
+ int profile = get_profile_id_for_sr(mixer_profile, tfa98xx->rate);
+ if (profile < 0) {
+ pr_err("tfa98xx: tfa98xx_info_vstep: invalid profile %d (mixer_profile=%d, rate=%d)\n", profile, mixer_profile, tfa98xx->rate);
+ return -EINVAL;
+ }
+
+ uinfo->type = SNDRV_CTL_ELEM_TYPE_INTEGER;
+ mutex_lock(&tfa98xx_mutex);
+ uinfo->count = tfa98xx_device_count;
+ mutex_unlock(&tfa98xx_mutex);
+ uinfo->value.integer.min = 0;
+ uinfo->value.integer.max = max(0, tfacont_get_max_vstep(tfa98xx->tfa, profile) - 1);
+ pr_debug("vsteps count: %d [prof=%d]\n", tfacont_get_max_vstep(tfa98xx->tfa, profile),
+ profile);
+ return 0;
+}
+
+static int tfa98xx_get_profile(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_value *ucontrol)
+{
+ mutex_lock(&tfa98xx_mutex);
+ ucontrol->value.integer.value[0] = tfa98xx_mixer_profile;
+ mutex_unlock(&tfa98xx_mutex);
+
+ return 0;
+}
+
+static int tfa98xx_set_profile(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_value *ucontrol)
+{
+ struct snd_soc_codec *codec = snd_soc_kcontrol_codec(kcontrol);
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+ int change = 0;
+ int new_profile;
+ int prof_idx;
+ int profile_count = tfa98xx_mixer_profiles;
+ int profile = tfa98xx_mixer_profile;
+
+ if (no_start != 0)
+ return 0;
+
+ new_profile = ucontrol->value.integer.value[0];
+ if (new_profile == profile)
+ return 0;
+
+ if ((new_profile < 0) || (new_profile >= profile_count)) {
+ pr_err("not existing profile (%d)\n", new_profile);
+ return -EINVAL;
+ }
+
+ /* get the container profile for the requested sample rate */
+ prof_idx = get_profile_id_for_sr(new_profile, tfa98xx->rate);
+ if (prof_idx < 0) {
+ pr_err("tfa98xx: sample rate [%d] not supported for this mixer profile [%d].\n", tfa98xx->rate, new_profile);
+ return 0;
+ }
+ pr_debug("selected container profile [%d]\n", prof_idx);
+
+ /* update mixer profile */
+ tfa98xx_mixer_profile = new_profile;
+
+ mutex_lock(&tfa98xx_mutex);
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ int err;
+ int ready = 0;
+
+ /* update 'real' profile (container profile) */
+ tfa98xx->profile = prof_idx;
+ tfa98xx->vstep = tfa98xx->prof_vsteps[prof_idx];
+
+ /* Don't call tfa_dev_start() if there is no clock. */
+ mutex_lock(&tfa98xx->dsp_lock);
+ tfa98xx_dsp_system_stable(tfa98xx->tfa, &ready);
+ if (ready) {
+ /* Also re-enables the interrupts */
+ err = tfa98xx_tfa_start(tfa98xx, prof_idx, tfa98xx->vstep);
+ if (err) {
+ pr_info("Write profile error: %d\n", err);
+ }
+ else {
+ pr_debug("Changed to profile %d (vstep = %d)\n",
+ prof_idx, tfa98xx->vstep);
+ change = 1;
+ }
+ }
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ /* Flag DSP as invalidated as the profile change may invalidate the
+ * current DSP configuration. That way, further stream start can
+ * trigger a tfa_dev_start.
+ */
+ tfa98xx->dsp_init = TFA98XX_DSP_INIT_INVALIDATED;
+ }
+
+ if (change) {
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ mutex_lock(&tfa98xx->dsp_lock);
+ tfa_dev_set_state(tfa98xx->tfa, TFA_STATE_UNMUTE, 0);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ }
+ }
+
+ mutex_unlock(&tfa98xx_mutex);
+
+ return change;
+}
+
+static int tfa98xx_info_profile(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_info *uinfo)
+{
+ char profile_name[MAX_CONTROL_NAME] = { 0 };
+ int count = tfa98xx_mixer_profiles, err = -1;
+
+ uinfo->type = SNDRV_CTL_ELEM_TYPE_ENUMERATED;
+ uinfo->count = 1;
+ uinfo->value.enumerated.items = count;
+
+ if (uinfo->value.enumerated.item >= count)
+ uinfo->value.enumerated.item = count - 1;
+
+ err = get_profile_from_list(profile_name, uinfo->value.enumerated.item);
+ if (err != 0)
+ return -EINVAL;
+
+ strcpy(uinfo->value.enumerated.name, profile_name);
+
+ return 0;
+}
+
+static int tfa98xx_info_stop_ctl(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_info *uinfo)
+{
+ uinfo->type = SNDRV_CTL_ELEM_TYPE_BOOLEAN;
+ mutex_lock(&tfa98xx_mutex);
+ uinfo->count = tfa98xx_device_count;
+ mutex_unlock(&tfa98xx_mutex);
+ uinfo->value.integer.min = 0;
+ uinfo->value.integer.max = 1;
+
+ return 0;
+}
+
+static int tfa98xx_get_stop_ctl(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_value *ucontrol)
+{
+ struct tfa98xx *tfa98xx;
+
+ mutex_lock(&tfa98xx_mutex);
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ ucontrol->value.integer.value[tfa98xx->tfa->dev_idx] = 0;
+ }
+ mutex_unlock(&tfa98xx_mutex);
+
+ return 0;
+}
+
+static int tfa98xx_set_stop_ctl(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_value *ucontrol)
+{
+ struct tfa98xx *tfa98xx;
+
+ mutex_lock(&tfa98xx_mutex);
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ int ready = 0;
+ int i = tfa98xx->tfa->dev_idx;
+
+ pr_debug("%d: %ld\n", i, ucontrol->value.integer.value[i]);
+
+ tfa98xx_dsp_system_stable(tfa98xx->tfa, &ready);
+
+ if ((ucontrol->value.integer.value[i] != 0) && ready) {
+ cancel_delayed_work_sync(&tfa98xx->monitor_work);
+
+ cancel_delayed_work_sync(&tfa98xx->init_work);
+ if (tfa98xx->dsp_fw_state != TFA98XX_DSP_FW_OK)
+ continue;
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ tfa_dev_stop(tfa98xx->tfa);
+ tfa98xx->dsp_init = TFA98XX_DSP_INIT_STOPPED;
+ mutex_unlock(&tfa98xx->dsp_lock);
+ }
+
+ ucontrol->value.integer.value[i] = 0;
+ }
+ mutex_unlock(&tfa98xx_mutex);
+
+ return 1;
+}
+
+static int tfa98xx_info_cal_ctl(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_info *uinfo)
+{
+ uinfo->type = SNDRV_CTL_ELEM_TYPE_INTEGER;
+ mutex_lock(&tfa98xx_mutex);
+ uinfo->count = tfa98xx_device_count;
+ mutex_unlock(&tfa98xx_mutex);
+ uinfo->value.integer.min = 0;
+ uinfo->value.integer.max = 0xffff; /* 16 bit value */
+
+ return 0;
+}
+
+static int tfa98xx_set_cal_ctl(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_value *ucontrol)
+{
+ struct tfa98xx *tfa98xx;
+
+ mutex_lock(&tfa98xx_mutex);
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ enum tfa_error err;
+ int i = tfa98xx->tfa->dev_idx;
+
+ tfa98xx->cal_data = (uint16_t)ucontrol->value.integer.value[i];
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ err = tfa98xx_write_re25(tfa98xx->tfa, tfa98xx->cal_data);
+ tfa98xx->set_mtp_cal = (err != tfa_error_ok);
+ if (tfa98xx->set_mtp_cal == false) {
+ pr_info("Calibration value (%d) set in mtp\n",
+ tfa98xx->cal_data);
+ }
+ mutex_unlock(&tfa98xx->dsp_lock);
+ }
+ mutex_unlock(&tfa98xx_mutex);
+
+ return 1;
+}
+
+static int tfa98xx_get_cal_ctl(struct snd_kcontrol *kcontrol,
+ struct snd_ctl_elem_value *ucontrol)
+{
+ struct tfa98xx *tfa98xx;
+
+ mutex_lock(&tfa98xx_mutex);
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ mutex_lock(&tfa98xx->dsp_lock);
+ ucontrol->value.integer.value[tfa98xx->tfa->dev_idx] = tfa_dev_mtp_get(tfa98xx->tfa, TFA_MTP_RE25_PRIM);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ }
+ mutex_unlock(&tfa98xx_mutex);
+
+ return 0;
+}
+
+static int tfa98xx_create_controls(struct tfa98xx *tfa98xx)
+{
+ int prof, nprof, mix_index = 0;
+ int nr_controls = 0, id = 0;
+ char *name;
+ struct tfa98xx_baseprofile *bprofile;
+
+ /* Create the following controls:
+ * - enum control to select the active profile
+ * - one volume control for each profile hosting a vstep
+ * - Stop control on TFA1 devices
+ */
+
+ nr_controls = 2; /* Profile and stop control */
+
+ if (tfa98xx->flags & TFA98XX_FLAG_CALIBRATION_CTL)
+ nr_controls += 1; /* calibration */
+
+ /* allocate the tfa98xx_controls base on the nr of profiles */
+ nprof = tfa_cnt_get_dev_nprof(tfa98xx->tfa);
+ for (prof = 0; prof < nprof; prof++) {
+ if (tfacont_get_max_vstep(tfa98xx->tfa, prof))
+ nr_controls++; /* Playback Volume control */
+ }
+
+ tfa98xx_controls = devm_kzalloc(tfa98xx->codec->dev,
+ nr_controls * sizeof(tfa98xx_controls[0]), GFP_KERNEL);
+ if (!tfa98xx_controls)
+ return -ENOMEM;
+
+ /* Create a mixer item for selecting the active profile */
+ name = devm_kzalloc(tfa98xx->codec->dev, MAX_CONTROL_NAME, GFP_KERNEL);
+ if (!name)
+ return -ENOMEM;
+ scnprintf(name, MAX_CONTROL_NAME, "%s Profile", tfa98xx->fw.name);
+ tfa98xx_controls[mix_index].name = name;
+ tfa98xx_controls[mix_index].iface = SNDRV_CTL_ELEM_IFACE_MIXER;
+ tfa98xx_controls[mix_index].info = tfa98xx_info_profile;
+ tfa98xx_controls[mix_index].get = tfa98xx_get_profile;
+ tfa98xx_controls[mix_index].put = tfa98xx_set_profile;
+ // tfa98xx_controls[mix_index].private_value = profs; /* save number of profiles */
+ mix_index++;
+
+ /* create mixer items for each profile that has volume */
+ for (prof = 0; prof < nprof; prof++) {
+ /* create an new empty profile */
+ bprofile = devm_kzalloc(tfa98xx->codec->dev, sizeof(*bprofile), GFP_KERNEL);
+ if (!bprofile)
+ return -ENOMEM;
+
+ bprofile->len = 0;
+ bprofile->item_id = -1;
+ INIT_LIST_HEAD(&bprofile->list);
+
+ /* copy profile name into basename until the . */
+ get_profile_basename(bprofile->basename, tfa_cont_profile_name(tfa98xx, prof));
+ bprofile->len = strlen(bprofile->basename);
+
+ /*
+ * search the profile list for a profile with basename, if it is not found then
+ * add it to the list and add a new mixer control (if it has vsteps)
+ * also, if it is a calibration profile, do not add it to the list
+ */
+ if ((is_profile_in_list(bprofile->basename, bprofile->len) == 0) &&
+ is_calibration_profile(tfa_cont_profile_name(tfa98xx, prof)) == 0) {
+ /* the profile is not present, add it to the list */
+ list_add(&bprofile->list, &profile_list);
+ bprofile->item_id = id++;
+
+ pr_debug("profile added [%d]: %s\n", bprofile->item_id, bprofile->basename);
+
+ if (tfacont_get_max_vstep(tfa98xx->tfa, prof)) {
+ name = devm_kzalloc(tfa98xx->codec->dev, MAX_CONTROL_NAME, GFP_KERNEL);
+ if (!name)
+ return -ENOMEM;
+
+ scnprintf(name, MAX_CONTROL_NAME, "%s %s Playback Volume",
+ tfa98xx->fw.name, bprofile->basename);
+
+ tfa98xx_controls[mix_index].name = name;
+ tfa98xx_controls[mix_index].iface = SNDRV_CTL_ELEM_IFACE_MIXER;
+ tfa98xx_controls[mix_index].info = tfa98xx_info_vstep;
+ tfa98xx_controls[mix_index].get = tfa98xx_get_vstep;
+ tfa98xx_controls[mix_index].put = tfa98xx_set_vstep;
+ tfa98xx_controls[mix_index].private_value = bprofile->item_id; /* save profile index */
+ mix_index++;
+ }
+ }
+
+ /* look for the basename profile in the list of mixer profiles and add the
+ container profile index to the supported samplerates of this mixer profile */
+ add_sr_to_profile(tfa98xx, bprofile->basename, bprofile->len, prof);
+ }
+
+ /* set the number of user selectable profiles in the mixer */
+ tfa98xx_mixer_profiles = id;
+
+ /* Create a mixer item for stop control on TFA1 */
+ name = devm_kzalloc(tfa98xx->codec->dev, MAX_CONTROL_NAME, GFP_KERNEL);
+ if (!name)
+ return -ENOMEM;
+
+ scnprintf(name, MAX_CONTROL_NAME, "%s Stop", tfa98xx->fw.name);
+ tfa98xx_controls[mix_index].name = name;
+ tfa98xx_controls[mix_index].iface = SNDRV_CTL_ELEM_IFACE_MIXER;
+ tfa98xx_controls[mix_index].info = tfa98xx_info_stop_ctl;
+ tfa98xx_controls[mix_index].get = tfa98xx_get_stop_ctl;
+ tfa98xx_controls[mix_index].put = tfa98xx_set_stop_ctl;
+ mix_index++;
+
+ if (tfa98xx->flags & TFA98XX_FLAG_CALIBRATION_CTL) {
+ name = devm_kzalloc(tfa98xx->codec->dev, MAX_CONTROL_NAME, GFP_KERNEL);
+ if (!name)
+ return -ENOMEM;
+
+ scnprintf(name, MAX_CONTROL_NAME, "%s Calibration", tfa98xx->fw.name);
+ tfa98xx_controls[mix_index].name = name;
+ tfa98xx_controls[mix_index].iface = SNDRV_CTL_ELEM_IFACE_MIXER;
+ tfa98xx_controls[mix_index].info = tfa98xx_info_cal_ctl;
+ tfa98xx_controls[mix_index].get = tfa98xx_get_cal_ctl;
+ tfa98xx_controls[mix_index].put = tfa98xx_set_cal_ctl;
+ mix_index++;
+ }
+
+ return snd_soc_add_codec_controls(tfa98xx->codec,
+ tfa98xx_controls, mix_index);
+}
+
+static void *tfa98xx_devm_kstrdup(struct device *dev, char *buf)
+{
+ char *str = devm_kzalloc(dev, strlen(buf) + 1, GFP_KERNEL);
+ if (!str)
+ return str;
+ memcpy(str, buf, strlen(buf));
+ return str;
+}
+
+static int tfa98xx_append_i2c_address(struct device *dev,
+ struct i2c_client *i2c,
+ struct snd_soc_dapm_widget *widgets,
+ int num_widgets,
+ struct snd_soc_dai_driver *dai_drv,
+ int num_dai)
+{
+ char buf[50];
+ int i;
+ int i2cbus = i2c->adapter->nr;
+ int addr = i2c->addr;
+ if (dai_drv && num_dai > 0)
+ for (i = 0; i < num_dai; i++) {
+ snprintf(buf, 50, "%s-%x-%x", dai_drv[i].name, i2cbus,
+ addr);
+ dai_drv[i].name = tfa98xx_devm_kstrdup(dev, buf);
+
+ snprintf(buf, 50, "%s-%x-%x",
+ dai_drv[i].playback.stream_name,
+ i2cbus, addr);
+ dai_drv[i].playback.stream_name = tfa98xx_devm_kstrdup(dev, buf);
+
+ snprintf(buf, 50, "%s-%x-%x",
+ dai_drv[i].capture.stream_name,
+ i2cbus, addr);
+ dai_drv[i].capture.stream_name = tfa98xx_devm_kstrdup(dev, buf);
+ }
+
+ /* the idea behind this is convert:
+ * SND_SOC_DAPM_AIF_IN("AIF IN", "AIF Playback", 0, SND_SOC_NOPM, 0, 0),
+ * into:
+ * SND_SOC_DAPM_AIF_IN("AIF IN", "AIF Playback-2-36", 0, SND_SOC_NOPM, 0, 0),
+ */
+ if (widgets && num_widgets > 0)
+ for (i = 0; i < num_widgets; i++) {
+ if (!widgets[i].sname)
+ continue;
+ if ((widgets[i].id == snd_soc_dapm_aif_in)
+ || (widgets[i].id == snd_soc_dapm_aif_out)) {
+ snprintf(buf, 50, "%s-%x-%x", widgets[i].sname,
+ i2cbus, addr);
+ widgets[i].sname = tfa98xx_devm_kstrdup(dev, buf);
+ }
+ }
+
+ return 0;
+}
+
+static struct snd_soc_dapm_widget tfa98xx_dapm_widgets_common[] = {
+ /* Stream widgets */
+ SND_SOC_DAPM_AIF_IN("AIF IN", "AIF Playback", 0, SND_SOC_NOPM, 0, 0),
+ SND_SOC_DAPM_AIF_OUT("AIF OUT", "AIF Capture", 0, SND_SOC_NOPM, 0, 0),
+
+ SND_SOC_DAPM_OUTPUT("OUTL"),
+ SND_SOC_DAPM_INPUT("AEC Loopback"),
+};
+
+static struct snd_soc_dapm_widget tfa98xx_dapm_widgets_stereo[] = {
+ SND_SOC_DAPM_OUTPUT("OUTR"),
+};
+
+static struct snd_soc_dapm_widget tfa98xx_dapm_widgets_saam[] = {
+ SND_SOC_DAPM_INPUT("SAAM MIC"),
+};
+
+static struct snd_soc_dapm_widget tfa9888_dapm_inputs[] = {
+ SND_SOC_DAPM_INPUT("DMIC1"),
+ SND_SOC_DAPM_INPUT("DMIC2"),
+ SND_SOC_DAPM_INPUT("DMIC3"),
+ SND_SOC_DAPM_INPUT("DMIC4"),
+};
+
+static const struct snd_soc_dapm_route tfa98xx_dapm_routes_common[] = {
+ { "OUTL", NULL, "AIF IN" },
+ { "AIF OUT", NULL, "AEC Loopback" },
+};
+
+static const struct snd_soc_dapm_route tfa98xx_dapm_routes_saam[] = {
+ { "AIF OUT", NULL, "SAAM MIC" },
+};
+
+static const struct snd_soc_dapm_route tfa98xx_dapm_routes_stereo[] = {
+ { "OUTR", NULL, "AIF IN" },
+};
+
+static const struct snd_soc_dapm_route tfa9888_input_dapm_routes[] = {
+ { "AIF OUT", NULL, "DMIC1" },
+ { "AIF OUT", NULL, "DMIC2" },
+ { "AIF OUT", NULL, "DMIC3" },
+ { "AIF OUT", NULL, "DMIC4" },
+};
+
+#if LINUX_VERSION_CODE < KERNEL_VERSION(4,2,0)
+static struct snd_soc_dapm_context *snd_soc_codec_get_dapm(struct snd_soc_codec *codec)
+{
+ return &codec->dapm;
+}
+#endif
+
+static void tfa98xx_add_widgets(struct tfa98xx *tfa98xx)
+{
+ struct snd_soc_dapm_context *dapm = snd_soc_codec_get_dapm(tfa98xx->codec);
+ struct snd_soc_dapm_widget *widgets;
+ unsigned int num_dapm_widgets = ARRAY_SIZE(tfa98xx_dapm_widgets_common);
+
+ widgets = devm_kzalloc(&tfa98xx->i2c->dev,
+ sizeof(struct snd_soc_dapm_widget) *
+ ARRAY_SIZE(tfa98xx_dapm_widgets_common),
+ GFP_KERNEL);
+ if (!widgets)
+ return;
+ memcpy(widgets, tfa98xx_dapm_widgets_common,
+ sizeof(struct snd_soc_dapm_widget) *
+ ARRAY_SIZE(tfa98xx_dapm_widgets_common));
+
+ tfa98xx_append_i2c_address(&tfa98xx->i2c->dev,
+ tfa98xx->i2c,
+ widgets,
+ num_dapm_widgets,
+ NULL,
+ 0);
+
+ snd_soc_dapm_new_controls(dapm, widgets,
+ ARRAY_SIZE(tfa98xx_dapm_widgets_common));
+ snd_soc_dapm_add_routes(dapm, tfa98xx_dapm_routes_common,
+ ARRAY_SIZE(tfa98xx_dapm_routes_common));
+
+ if (tfa98xx->flags & TFA98XX_FLAG_STEREO_DEVICE) {
+ snd_soc_dapm_new_controls(dapm, tfa98xx_dapm_widgets_stereo,
+ ARRAY_SIZE(tfa98xx_dapm_widgets_stereo));
+ snd_soc_dapm_add_routes(dapm, tfa98xx_dapm_routes_stereo,
+ ARRAY_SIZE(tfa98xx_dapm_routes_stereo));
+ }
+
+ if (tfa98xx->flags & TFA98XX_FLAG_MULTI_MIC_INPUTS) {
+ snd_soc_dapm_new_controls(dapm, tfa9888_dapm_inputs,
+ ARRAY_SIZE(tfa9888_dapm_inputs));
+ snd_soc_dapm_add_routes(dapm, tfa9888_input_dapm_routes,
+ ARRAY_SIZE(tfa9888_input_dapm_routes));
+ }
+
+ if (tfa98xx->flags & TFA98XX_FLAG_SAAM_AVAILABLE) {
+ snd_soc_dapm_new_controls(dapm, tfa98xx_dapm_widgets_saam,
+ ARRAY_SIZE(tfa98xx_dapm_widgets_saam));
+ snd_soc_dapm_add_routes(dapm, tfa98xx_dapm_routes_saam,
+ ARRAY_SIZE(tfa98xx_dapm_routes_saam));
+ }
+}
+
+/* I2C wrapper functions */
+enum Tfa98xx_Error tfa98xx_write_register16(struct tfa_device *tfa,
+ unsigned char subaddress,
+ unsigned short value)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ struct tfa98xx *tfa98xx;
+ int ret;
+ int retries = I2C_RETRIES;
+
+ if (tfa == NULL) {
+ pr_err("No device available\n");
+ return Tfa98xx_Error_Fail;
+ }
+
+ tfa98xx = (struct tfa98xx *)tfa->data;
+ if (!tfa98xx || !tfa98xx->regmap) {
+ pr_err("No tfa98xx regmap available\n");
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+retry:
+ ret = regmap_write(tfa98xx->regmap, subaddress, value);
+ if (ret < 0) {
+ pr_warn("i2c error, retries left: %d\n", retries);
+ if (retries) {
+ retries--;
+ msleep(I2C_RETRY_DELAY);
+ goto retry;
+ }
+ return Tfa98xx_Error_Fail;
+ }
+ if (tfa98xx_kmsg_regs)
+ dev_dbg(&tfa98xx->i2c->dev, " WR reg=0x%02x, val=0x%04x %s\n",
+ subaddress, value,
+ ret < 0 ? "Error!!" : "");
+
+ if (tfa98xx_ftrace_regs)
+ tfa98xx_trace_printk("\tWR reg=0x%02x, val=0x%04x %s\n",
+ subaddress, value,
+ ret < 0 ? "Error!!" : "");
+ return error;
+}
+
+enum Tfa98xx_Error tfa98xx_read_register16(struct tfa_device *tfa,
+ unsigned char subaddress,
+ unsigned short *val)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ struct tfa98xx *tfa98xx;
+ unsigned int value;
+ int retries = I2C_RETRIES;
+ int ret;
+
+ if (tfa == NULL) {
+ pr_err("No device available\n");
+ return Tfa98xx_Error_Fail;
+ }
+
+ tfa98xx = (struct tfa98xx *)tfa->data;
+ if (!tfa98xx || !tfa98xx->regmap) {
+ pr_err("No tfa98xx regmap available\n");
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+retry:
+ ret = regmap_read(tfa98xx->regmap, subaddress, &value);
+ if (ret < 0) {
+ pr_warn("i2c error at subaddress 0x%x, retries left: %d\n", subaddress, retries);
+ if (retries) {
+ retries--;
+ msleep(I2C_RETRY_DELAY);
+ goto retry;
+ }
+ return Tfa98xx_Error_Fail;
+ }
+ *val = value & 0xffff;
+
+ if (tfa98xx_kmsg_regs)
+ dev_dbg(&tfa98xx->i2c->dev, "RD reg=0x%02x, val=0x%04x %s\n",
+ subaddress, *val,
+ ret < 0 ? "Error!!" : "");
+ if (tfa98xx_ftrace_regs)
+ tfa98xx_trace_printk("\tRD reg=0x%02x, val=0x%04x %s\n",
+ subaddress, *val,
+ ret < 0 ? "Error!!" : "");
+
+ return error;
+}
+
+
+/*
+ * init external dsp
+ */
+enum Tfa98xx_Error
+ tfa98xx_init_dsp(struct tfa_device *tfa)
+{
+ return Tfa98xx_Error_Not_Supported;
+}
+
+int tfa98xx_get_dsp_status(struct tfa_device *tfa)
+{
+ return 0;
+}
+
+/*
+ * write external dsp message
+ */
+enum Tfa98xx_Error
+ tfa98xx_write_dsp(struct tfa_device *tfa, int num_bytes, const char *command_buffer)
+{
+ return Tfa98xx_Error_Not_Supported;
+}
+
+/*
+ * read external dsp message
+ */
+enum Tfa98xx_Error
+ tfa98xx_read_dsp(struct tfa_device *tfa, int num_bytes, unsigned char *result_buffer)
+{
+ return Tfa98xx_Error_Not_Supported;
+}
+/*
+ * write/read external dsp message
+ */
+enum Tfa98xx_Error
+ tfa98xx_writeread_dsp(struct tfa_device *tfa, int command_length, void *command_buffer,
+ int result_length, void *result_buffer)
+{
+ return Tfa98xx_Error_Not_Supported;
+}
+
+enum Tfa98xx_Error tfa98xx_read_data(struct tfa_device *tfa,
+ unsigned char reg,
+ int len, unsigned char value[])
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ struct tfa98xx *tfa98xx;
+ struct i2c_client *tfa98xx_client;
+ int err;
+ int tries = 0;
+ unsigned char *reg_buf = NULL;
+ struct i2c_msg msgs[] = {
+ {
+ .flags = 0,
+ .len = 1,
+ .buf = NULL,
+ }, {
+ .flags = I2C_M_RD,
+ .len = len,
+ .buf = value,
+ },
+ };
+ reg_buf = (unsigned char *)kmalloc(sizeof(reg), GFP_DMA); //GRP_KERNEL also works,
+ if (!reg_buf) {
+ return -ENOMEM;;
+ }
+
+ *reg_buf = reg;
+ msgs[0].buf = reg_buf;
+
+ if (tfa == NULL) {
+ pr_err("No device available\n");
+ return Tfa98xx_Error_Fail;
+ }
+
+ tfa98xx = (struct tfa98xx *)tfa->data;
+ if (tfa98xx->i2c) {
+ tfa98xx_client = tfa98xx->i2c;
+ msgs[0].addr = tfa98xx_client->addr;
+ msgs[1].addr = tfa98xx_client->addr;
+
+ do {
+ err = i2c_transfer(tfa98xx_client->adapter, msgs,
+ ARRAY_SIZE(msgs));
+ if (err != ARRAY_SIZE(msgs))
+ msleep_interruptible(I2C_RETRY_DELAY);
+ } while ((err != ARRAY_SIZE(msgs)) && (++tries < I2C_RETRIES));
+
+ if (err != ARRAY_SIZE(msgs)) {
+ dev_err(&tfa98xx_client->dev, "read transfer error %d\n",
+ err);
+ error = Tfa98xx_Error_Fail;
+ }
+
+ if (tfa98xx_kmsg_regs)
+ dev_dbg(&tfa98xx_client->dev, "RD-DAT reg=0x%02x, len=%d\n",
+ reg, len);
+ if (tfa98xx_ftrace_regs)
+ tfa98xx_trace_printk("\t\tRD-DAT reg=0x%02x, len=%d\n",
+ reg, len);
+ }
+ else {
+ pr_err("No device available\n");
+ error = Tfa98xx_Error_Fail;
+ }
+ kfree(reg_buf);
+ return error;
+}
+
+enum Tfa98xx_Error tfa98xx_write_raw(struct tfa_device *tfa,
+ int len,
+ const unsigned char data[])
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ struct tfa98xx *tfa98xx;
+ int ret;
+ int retries = I2C_RETRIES;
+
+
+ if (tfa == NULL) {
+ pr_err("No device available\n");
+ return Tfa98xx_Error_Fail;
+ }
+
+ tfa98xx = (struct tfa98xx *)tfa->data;
+
+retry:
+ ret = i2c_master_send(tfa98xx->i2c, data, len);
+ if (ret < 0) {
+ pr_warn("i2c error, retries left: %d\n", retries);
+ if (retries) {
+ retries--;
+ msleep(I2C_RETRY_DELAY);
+ goto retry;
+ }
+ }
+
+ if (ret == len) {
+ if (tfa98xx_kmsg_regs)
+ dev_dbg(&tfa98xx->i2c->dev, " WR-RAW len=%d\n", len);
+ if (tfa98xx_ftrace_regs)
+ tfa98xx_trace_printk("\t\tWR-RAW len=%d\n", len);
+ return Tfa98xx_Error_Ok;
+ }
+ pr_err(" WR-RAW (len=%d) Error I2C send size mismatch %d\n", len, ret);
+ error = Tfa98xx_Error_Fail;
+
+ return error;
+}
+
+/* Interrupts management */
+
+static void tfa98xx_interrupt_enable_tfa2(struct tfa98xx *tfa98xx, bool enable)
+{
+ /* Only for 0x72 we need to enable NOCLK interrupts */
+ if (tfa98xx->flags & TFA98XX_FLAG_REMOVE_PLOP_NOISE)
+ tfa_irq_ena(tfa98xx->tfa, tfa9912_irq_stnoclk, enable);
+
+ if (tfa98xx->flags & TFA98XX_FLAG_LP_MODES) {
+ tfa_irq_ena(tfa98xx->tfa, 36, enable); /* FIXME: IELP0 does not excist for 9912 */
+ tfa_irq_ena(tfa98xx->tfa, tfa9912_irq_stclpr, enable);
+ }
+}
+
+/* Check if tap-detection can and shall be enabled.
+ * Configure SPK interrupt accordingly or setup polling mode
+ * Tap-detection shall be active if:
+ * - the service is enabled (tapdet_open), AND
+ * - the current profile is a tap-detection profile
+ * On TFA1 familiy of devices, activating tap-detection means enabling the SPK
+ * interrupt if available.
+ * We also update the tapdet_enabled and tapdet_poll variables.
+ */
+static void tfa98xx_tapdet_check_update(struct tfa98xx *tfa98xx)
+{
+ unsigned int enable = false;
+
+ /* Support tap-detection on TFA1 family of devices */
+ if ((tfa98xx->flags & TFA98XX_FLAG_TAPDET_AVAILABLE) == 0)
+ return;
+
+ if (tfa98xx->tapdet_open &&
+ (tfa98xx->tapdet_profiles & (1 << tfa98xx->profile)))
+ enable = true;
+
+ if (!gpio_is_valid(tfa98xx->irq_gpio)) {
+ /* interrupt not available, setup polling mode */
+ tfa98xx->tapdet_poll = true;
+ if (enable)
+ queue_delayed_work(tfa98xx->tfa98xx_wq,
+ &tfa98xx->tapdet_work, HZ / 10);
+ else
+ cancel_delayed_work_sync(&tfa98xx->tapdet_work);
+ dev_dbg(tfa98xx->codec->dev,
+ "Polling for tap-detection: %s (%d; 0x%x, %d)\n",
+ enable ? "enabled" : "disabled",
+ tfa98xx->tapdet_open, tfa98xx->tapdet_profiles,
+ tfa98xx->profile);
+
+ }
+ else {
+ dev_dbg(tfa98xx->codec->dev,
+ "Interrupt for tap-detection: %s (%d; 0x%x, %d)\n",
+ enable ? "enabled" : "disabled",
+ tfa98xx->tapdet_open, tfa98xx->tapdet_profiles,
+ tfa98xx->profile);
+ /* enabled interrupt */
+ tfa_irq_ena(tfa98xx->tfa, tfa9912_irq_sttapdet, enable);
+ }
+
+ /* check disabled => enabled transition to clear pending events */
+ if (!tfa98xx->tapdet_enabled && enable) {
+ /* clear pending event if any */
+ tfa_irq_clear(tfa98xx->tfa, tfa9912_irq_sttapdet);
+ }
+
+ if (!tfa98xx->tapdet_poll)
+ tfa_irq_ena(tfa98xx->tfa, tfa9912_irq_sttapdet, 1); /* enable again */
+}
+
+/* global enable / disable interrupts */
+static void tfa98xx_interrupt_enable(struct tfa98xx *tfa98xx, bool enable)
+{
+ if (tfa98xx->flags & TFA98XX_FLAG_SKIP_INTERRUPTS)
+ return;
+
+ if (tfa98xx->tfa->tfa_family == 2)
+ tfa98xx_interrupt_enable_tfa2(tfa98xx, enable);
+}
+
+/* Firmware management */
+static void tfa98xx_container_loaded(const struct firmware *cont, void *context)
+{
+ nxpTfaContainer_t *container;
+ struct tfa98xx *tfa98xx = context;
+ enum tfa_error tfa_err;
+ int container_size;
+ int ret;
+
+ tfa98xx->dsp_fw_state = TFA98XX_DSP_FW_FAIL;
+
+ if (!cont) {
+ pr_err("Failed to read %s\n", fw_name);
+ return;
+ }
+
+ pr_debug("loaded %s - size: %zu\n", fw_name, cont->size);
+
+ mutex_lock(&tfa98xx_mutex);
+ if (tfa98xx_container == NULL) {
+ container = kzalloc(cont->size, GFP_KERNEL);
+ if (container == NULL) {
+ mutex_unlock(&tfa98xx_mutex);
+ release_firmware(cont);
+ pr_err("Error allocating memory\n");
+ return;
+ }
+
+ container_size = cont->size;
+ memcpy(container, cont->data, container_size);
+ release_firmware(cont);
+
+ pr_debug("%.2s%.2s\n", container->version, container->subversion);
+ pr_debug("%.8s\n", container->customer);
+ pr_debug("%.8s\n", container->application);
+ pr_debug("%.8s\n", container->type);
+ pr_debug("%d ndev\n", container->ndev);
+ pr_debug("%d nprof\n", container->nprof);
+
+ tfa_err = tfa_load_cnt(container, container_size);
+ if (tfa_err != tfa_error_ok) {
+ mutex_unlock(&tfa98xx_mutex);
+ kfree(container);
+ dev_err(tfa98xx->dev, "Cannot load container file, aborting\n");
+ return;
+ }
+
+ tfa98xx_container = container;
+ }
+ else {
+ pr_debug("container file already loaded...\n");
+ container = tfa98xx_container;
+ release_firmware(cont);
+ }
+ mutex_unlock(&tfa98xx_mutex);
+
+ tfa98xx->tfa->cnt = container;
+
+ /*
+ i2c transaction limited to 64k
+ (Documentation/i2c/writing-clients)
+ */
+ tfa98xx->tfa->buffer_size = 65536;
+
+ /* DSP messages via i2c */
+ tfa98xx->tfa->has_msg = 0;
+
+ if (tfa_dev_probe(tfa98xx->i2c->addr, tfa98xx->tfa) != 0) {
+ dev_err(tfa98xx->dev, "Failed to probe TFA98xx @ 0x%.2x\n", tfa98xx->i2c->addr);
+ return;
+ }
+
+ tfa98xx->tfa->dev_idx = tfa_cont_get_idx(tfa98xx->tfa);
+ if (tfa98xx->tfa->dev_idx < 0) {
+ dev_err(tfa98xx->dev, "Failed to find TFA98xx @ 0x%.2x in container file\n", tfa98xx->i2c->addr);
+ return;
+ }
+
+ /* Enable debug traces */
+ tfa98xx->tfa->verbose = trace_level & 1;
+
+ /* prefix is the application name from the cnt */
+ tfa_cnt_get_app_name(tfa98xx->tfa, tfa98xx->fw.name);
+
+ /* set default profile/vstep */
+ tfa98xx->profile = 0;
+ tfa98xx->vstep = 0;
+
+ /* Override default profile if requested */
+ if (strcmp(dflt_prof_name, "")) {
+ unsigned int i;
+ int nprof = tfa_cnt_get_dev_nprof(tfa98xx->tfa);
+ for (i = 0; i < nprof; i++) {
+ if (strcmp(tfa_cont_profile_name(tfa98xx, i),
+ dflt_prof_name) == 0) {
+ tfa98xx->profile = i;
+ dev_info(tfa98xx->dev,
+ "changing default profile to %s (%d)\n",
+ dflt_prof_name, tfa98xx->profile);
+ break;
+ }
+ }
+ if (i >= nprof)
+ dev_info(tfa98xx->dev,
+ "Default profile override failed (%s profile not found)\n",
+ dflt_prof_name);
+ }
+
+ tfa98xx->dsp_fw_state = TFA98XX_DSP_FW_OK;
+ pr_debug("Firmware init complete\n");
+
+ if (no_start != 0)
+ return;
+
+ /* Only controls for master device */
+ if (tfa98xx->tfa->dev_idx == 0)
+ tfa98xx_create_controls(tfa98xx);
+
+ tfa98xx_inputdev_check_register(tfa98xx);
+
+ if (tfa_is_cold(tfa98xx->tfa) == 0) {
+ pr_debug("Warning: device 0x%.2x is still warm\n", tfa98xx->i2c->addr);
+ tfa_reset(tfa98xx->tfa);
+ }
+
+ /* Preload settings using internal clock on TFA2 */
+ if (tfa98xx->tfa->tfa_family == 2) {
+ mutex_lock(&tfa98xx->dsp_lock);
+ ret = tfa98xx_tfa_start(tfa98xx, tfa98xx->profile, tfa98xx->vstep);
+ if (ret == Tfa98xx_Error_Not_Supported)
+ tfa98xx->dsp_fw_state = TFA98XX_DSP_FW_FAIL;
+ mutex_unlock(&tfa98xx->dsp_lock);
+ }
+
+ tfa98xx_interrupt_enable(tfa98xx, true);
+}
+
+static int tfa98xx_load_container(struct tfa98xx *tfa98xx)
+{
+ tfa98xx->dsp_fw_state = TFA98XX_DSP_FW_PENDING;
+
+ return request_firmware_nowait(THIS_MODULE, FW_ACTION_HOTPLUG,
+ fw_name, tfa98xx->dev, GFP_KERNEL,
+ tfa98xx, tfa98xx_container_loaded);
+}
+
+
+static void tfa98xx_tapdet(struct tfa98xx *tfa98xx)
+{
+ unsigned int tap_pattern;
+ int btn;
+
+ /* check tap pattern (BTN_0 is "error" wrong tap indication */
+ tap_pattern = tfa_get_tap_pattern(tfa98xx->tfa);
+ switch (tap_pattern) {
+ case 0xffffffff:
+ pr_info("More than 4 taps detected! (flagTapPattern = -1)\n");
+ btn = BTN_0;
+ break;
+ case 0xfffffffe:
+ case 0xfe:
+ pr_info("Illegal tap detected!\n");
+ btn = BTN_0;
+ break;
+ case 0:
+ pr_info("Unrecognized pattern! (flagTapPattern = 0)\n");
+ btn = BTN_0;
+ break;
+ default:
+ pr_info("Detected pattern: %d\n", tap_pattern);
+ btn = BTN_0 + tap_pattern;
+ break;
+ }
+
+ input_report_key(tfa98xx->input, btn, 1);
+ input_report_key(tfa98xx->input, btn, 0);
+ input_sync(tfa98xx->input);
+
+ /* acknowledge event done by clearing interrupt */
+
+}
+
+static void tfa98xx_tapdet_work(struct work_struct *work)
+{
+ struct tfa98xx *tfa98xx;
+
+ //TODO check is this is still needed for tap polling
+ tfa98xx = container_of(work, struct tfa98xx, tapdet_work.work);
+
+ if (tfa_irq_get(tfa98xx->tfa, tfa9912_irq_sttapdet))
+ tfa98xx_tapdet(tfa98xx);
+
+ queue_delayed_work(tfa98xx->tfa98xx_wq, &tfa98xx->tapdet_work, HZ / 10);
+}
+
+static void tfa98xx_monitor(struct work_struct *work)
+{
+ struct tfa98xx *tfa98xx;
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ tfa98xx = container_of(work, struct tfa98xx, monitor_work.work);
+
+ /* Check for tap-detection - bypass monitor if it is active */
+ if (!tfa98xx->input) {
+ mutex_lock(&tfa98xx->dsp_lock);
+ error = tfa_status(tfa98xx->tfa);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ if (error == Tfa98xx_Error_DSP_not_running) {
+ if (tfa98xx->dsp_init == TFA98XX_DSP_INIT_DONE) {
+ tfa98xx->dsp_init = TFA98XX_DSP_INIT_RECOVER;
+ queue_delayed_work(tfa98xx->tfa98xx_wq, &tfa98xx->init_work, 0);
+ }
+ }
+ }
+
+ /* reschedule */
+ queue_delayed_work(tfa98xx->tfa98xx_wq, &tfa98xx->monitor_work, 5 * HZ);
+}
+
+static void tfa98xx_dsp_init(struct tfa98xx *tfa98xx)
+{
+ int ret;
+ bool failed = false;
+ bool reschedule = false;
+ bool sync = false;
+
+ if (tfa98xx->dsp_fw_state != TFA98XX_DSP_FW_OK) {
+ pr_debug("Skipping tfa_dev_start (no FW: %d)\n", tfa98xx->dsp_fw_state);
+ return;
+ }
+
+ if (tfa98xx->dsp_init == TFA98XX_DSP_INIT_DONE) {
+ pr_debug("Stream already started, skipping DSP power-on\n");
+ return;
+ }
+
+ mutex_lock(&tfa98xx->dsp_lock);
+
+ tfa98xx->dsp_init = TFA98XX_DSP_INIT_PENDING;
+
+ if (tfa98xx->init_count < TF98XX_MAX_DSP_START_TRY_COUNT) {
+ /* directly try to start DSP */
+ ret = tfa98xx_tfa_start(tfa98xx, tfa98xx->profile, tfa98xx->vstep);
+ if (ret == Tfa98xx_Error_Not_Supported) {
+ tfa98xx->dsp_fw_state = TFA98XX_DSP_FW_FAIL;
+ dev_err(&tfa98xx->i2c->dev, "Failed starting device\n");
+ failed = true;
+ }
+ else if (ret != Tfa98xx_Error_Ok) {
+ /* It may fail as we may not have a valid clock at that
+ * time, so re-schedule and re-try later.
+ */
+ dev_err(&tfa98xx->i2c->dev,
+ "tfa_dev_start failed! (err %d) - %d\n",
+ ret, tfa98xx->init_count);
+ reschedule = true;
+ }
+ else {
+ sync = true;
+
+ /* Subsystem ready, tfa init complete */
+ tfa98xx->dsp_init = TFA98XX_DSP_INIT_DONE;
+ dev_dbg(&tfa98xx->i2c->dev,
+ "tfa_dev_start success (%d)\n",
+ tfa98xx->init_count);
+ /* cancel other pending init works */
+ cancel_delayed_work(&tfa98xx->init_work);
+ tfa98xx->init_count = 0;
+ }
+ }
+ else {
+ /* exceeded max number ot start tentatives, cancel start */
+ dev_err(&tfa98xx->i2c->dev,
+ "Failed starting device (%d)\n",
+ tfa98xx->init_count);
+ failed = true;
+ }
+ if (reschedule) {
+ /* reschedule this init work for later */
+ queue_delayed_work(tfa98xx->tfa98xx_wq,
+ &tfa98xx->init_work,
+ msecs_to_jiffies(5));
+ tfa98xx->init_count++;
+ }
+ if (failed) {
+ tfa98xx->dsp_init = TFA98XX_DSP_INIT_FAIL;
+ /* cancel other pending init works */
+ cancel_delayed_work(&tfa98xx->init_work);
+ tfa98xx->init_count = 0;
+ }
+ mutex_unlock(&tfa98xx->dsp_lock);
+
+ if (sync) {
+ /* check if all devices have started */
+ bool do_sync;
+ mutex_lock(&tfa98xx_mutex);
+
+ if (tfa98xx_sync_count < tfa98xx_device_count)
+ tfa98xx_sync_count++;
+
+ do_sync = (tfa98xx_sync_count >= tfa98xx_device_count);
+ mutex_unlock(&tfa98xx_mutex);
+
+ /* when all devices have started then unmute */
+ if (do_sync) {
+ tfa98xx_sync_count = 0;
+ list_for_each_entry(tfa98xx, &tfa98xx_device_list, list) {
+ mutex_lock(&tfa98xx->dsp_lock);
+ tfa_dev_set_state(tfa98xx->tfa, TFA_STATE_UNMUTE, 0);
+
+ /*
+ * start monitor thread to check IC status bit
+ * periodically, and re-init IC to recover if
+ * needed.
+ */
+ if (tfa98xx->tfa->tfa_family == 1)
+ queue_delayed_work(tfa98xx->tfa98xx_wq,
+ &tfa98xx->monitor_work,
+ 1 * HZ);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ }
+
+ }
+ }
+
+
+ return;
+}
+
+
+static void tfa98xx_dsp_init_work(struct work_struct *work)
+{
+ struct tfa98xx *tfa98xx = container_of(work, struct tfa98xx, init_work.work);
+
+ tfa98xx_dsp_init(tfa98xx);
+}
+
+static void tfa98xx_interrupt(struct work_struct *work)
+{
+ struct tfa98xx *tfa98xx = container_of(work, struct tfa98xx, interrupt_work.work);
+
+ pr_info("\n");
+
+ if (tfa98xx->flags & TFA98XX_FLAG_TAPDET_AVAILABLE) {
+ /* check for tap interrupt */
+ if (tfa_irq_get(tfa98xx->tfa, tfa9912_irq_sttapdet)) {
+ tfa98xx_tapdet(tfa98xx);
+
+ /* clear interrupt */
+ tfa_irq_clear(tfa98xx->tfa, tfa9912_irq_sttapdet);
+ }
+ } /* TFA98XX_FLAG_TAPDET_AVAILABLE */
+
+ if (tfa98xx->flags & TFA98XX_FLAG_REMOVE_PLOP_NOISE) {
+ int start_triggered;
+
+ mutex_lock(&tfa98xx->dsp_lock);
+ start_triggered = tfa_plop_noise_interrupt(tfa98xx->tfa, tfa98xx->profile, tfa98xx->vstep);
+ /* Only enable when the return value is 1, otherwise the interrupt is triggered twice */
+ if (start_triggered)
+ tfa98xx_interrupt_enable(tfa98xx, true);
+ mutex_unlock(&tfa98xx->dsp_lock);
+ } /* TFA98XX_FLAG_REMOVE_PLOP_NOISE */
+
+ if (tfa98xx->flags & TFA98XX_FLAG_LP_MODES) {
+ tfa_lp_mode_interrupt(tfa98xx->tfa);
+ } /* TFA98XX_FLAG_LP_MODES */
+
+ /* unmask interrupts masked in IRQ handler */
+ tfa_irq_unmask(tfa98xx->tfa);
+}
+
+static int tfa98xx_startup(struct snd_pcm_substream *substream,
+ struct snd_soc_dai *dai)
+{
+ struct snd_soc_codec *codec = dai->codec;
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+ unsigned int sr;
+ int len, prof, nprof, idx = 0;
+ char *basename;
+ u64 formats;
+ int err;
+
+ /*
+ * Support CODEC to CODEC links,
+ * these are called with a NULL runtime pointer.
+ */
+ if (!substream->runtime)
+ return 0;
+
+ if (pcm_no_constraint != 0)
+ return 0;
+
+ switch (pcm_sample_format) {
+ case 1:
+ formats = SNDRV_PCM_FMTBIT_S24_LE;
+ break;
+ case 2:
+ formats = SNDRV_PCM_FMTBIT_S32_LE;
+ break;
+ default:
+ formats = SNDRV_PCM_FMTBIT_S16_LE;
+ break;
+ }
+
+ err = snd_pcm_hw_constraint_mask64(substream->runtime,
+ SNDRV_PCM_HW_PARAM_FORMAT, formats);
+ if (err < 0)
+ return err;
+
+ if (no_start != 0)
+ return 0;
+
+ if (tfa98xx->dsp_fw_state != TFA98XX_DSP_FW_OK) {
+ dev_info(codec->dev, "Container file not loaded\n");
+ return -EINVAL;
+ }
+
+ basename = kzalloc(MAX_CONTROL_NAME, GFP_KERNEL);
+ if (!basename)
+ return -ENOMEM;
+
+ /* copy profile name into basename until the . */
+ get_profile_basename(basename, tfa_cont_profile_name(tfa98xx, tfa98xx->profile));
+ len = strlen(basename);
+
+ /* loop over all profiles and get the supported samples rate(s) from
+ * the profiles with the same basename
+ */
+ nprof = tfa_cnt_get_dev_nprof(tfa98xx->tfa);
+ tfa98xx->rate_constraint.list = &tfa98xx->rate_constraint_list[0];
+ tfa98xx->rate_constraint.count = 0;
+ for (prof = 0; prof < nprof; prof++) {
+ if (0 == strncmp(basename, tfa_cont_profile_name(tfa98xx, prof), len)) {
+ /* Check which sample rate is supported with current profile,
+ * and enforce this.
+ */
+ sr = tfa98xx_get_profile_sr(tfa98xx->tfa, prof);
+ if (!sr)
+ dev_info(codec->dev, "Unable to identify supported sample rate\n");
+
+ if (tfa98xx->rate_constraint.count >= TFA98XX_NUM_RATES) {
+ dev_err(codec->dev, "too many sample rates\n");
+ }
+ else {
+ tfa98xx->rate_constraint_list[idx++] = sr;
+ tfa98xx->rate_constraint.count += 1;
+ }
+ }
+ }
+
+ kfree(basename);
+
+ return snd_pcm_hw_constraint_list(substream->runtime, 0,
+ SNDRV_PCM_HW_PARAM_RATE,
+ &tfa98xx->rate_constraint);
+}
+
+static int tfa98xx_set_dai_sysclk(struct snd_soc_dai *codec_dai,
+ int clk_id, unsigned int freq, int dir)
+{
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec_dai->codec);
+
+ tfa98xx->sysclk = freq;
+ return 0;
+}
+
+static int tfa98xx_set_tdm_slot(struct snd_soc_dai *dai, unsigned int tx_mask,
+ unsigned int rx_mask, int slots, int slot_width)
+{
+ pr_debug("\n");
+ return 0;
+}
+
+static int tfa98xx_set_fmt(struct snd_soc_dai *dai, unsigned int fmt)
+{
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(dai->codec);
+ struct snd_soc_codec *codec = dai->codec;
+
+ pr_debug("fmt=0x%x\n", fmt);
+
+ /* Supported mode: regular I2S, slave, or PDM */
+ switch (fmt & SND_SOC_DAIFMT_FORMAT_MASK) {
+ case SND_SOC_DAIFMT_I2S:
+ if ((fmt & SND_SOC_DAIFMT_MASTER_MASK) != SND_SOC_DAIFMT_CBS_CFS) {
+ dev_err(codec->dev, "Invalid Codec master mode\n");
+ return -EINVAL;
+ }
+ break;
+ case SND_SOC_DAIFMT_PDM:
+ break;
+ default:
+ dev_err(codec->dev, "Unsupported DAI format %d\n",
+ fmt & SND_SOC_DAIFMT_FORMAT_MASK);
+ return -EINVAL;
+ }
+
+ tfa98xx->audio_mode = fmt & SND_SOC_DAIFMT_FORMAT_MASK;
+
+ return 0;
+}
+
+static int tfa98xx_get_fssel(unsigned int rate)
+{
+ int i;
+ for (i = 0; i < ARRAY_SIZE(rate_to_fssel); i++) {
+ if (rate_to_fssel[i].rate == rate) {
+ return rate_to_fssel[i].fssel;
+ }
+ }
+ return -EINVAL;
+}
+
+static int tfa98xx_hw_params(struct snd_pcm_substream *substream,
+ struct snd_pcm_hw_params *params,
+ struct snd_soc_dai *dai)
+{
+ struct snd_soc_codec *codec = dai->codec;
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+ unsigned int rate;
+ int prof_idx;
+
+ /* Supported */
+ rate = params_rate(params);
+ pr_debug("Requested rate: %d, sample size: %d, physical size: %d\n",
+ rate, snd_pcm_format_width(params_format(params)),
+ snd_pcm_format_physical_width(params_format(params)));
+
+ if (no_start != 0)
+ return 0;
+
+ /* check if samplerate is supported for this mixer profile */
+ prof_idx = get_profile_id_for_sr(tfa98xx_mixer_profile, rate);
+ if (prof_idx < 0) {
+ pr_err("tfa98xx: invalid sample rate %d.\n", rate);
+ return -EINVAL;
+ }
+ pr_debug("mixer profile:container profile = [%d:%d]\n", tfa98xx_mixer_profile, prof_idx);
+
+
+ /* update 'real' profile (container profile) */
+ tfa98xx->profile = prof_idx;
+
+ /* update to new rate */
+ tfa98xx->rate = rate;
+
+ return 0;
+}
+
+static int tfa98xx_mute(struct snd_soc_dai *dai, int mute, int stream)
+{
+ struct snd_soc_codec *codec = dai->codec;
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+
+ dev_dbg(&tfa98xx->i2c->dev, "%s: state: %d\n", __func__, mute);
+
+ if (no_start) {
+ pr_debug("no_start parameter set no tfa_dev_start or tfa_dev_stop, returning\n");
+ return 0;
+ }
+
+ if (mute) {
+ /* stop DSP only when both playback and capture streams
+ * are deactivated
+ */
+ if (stream == SNDRV_PCM_STREAM_PLAYBACK)
+ tfa98xx->pstream = 0;
+ else
+ tfa98xx->cstream = 0;
+ if (tfa98xx->pstream != 0 || tfa98xx->cstream != 0)
+ return 0;
+
+ mutex_lock(&tfa98xx_mutex);
+ tfa98xx_sync_count = 0;
+ mutex_unlock(&tfa98xx_mutex);
+
+ cancel_delayed_work_sync(&tfa98xx->monitor_work);
+
+ cancel_delayed_work_sync(&tfa98xx->init_work);
+ if (tfa98xx->dsp_fw_state != TFA98XX_DSP_FW_OK)
+ return 0;
+ mutex_lock(&tfa98xx->dsp_lock);
+ tfa_dev_stop(tfa98xx->tfa);
+ tfa98xx->dsp_init = TFA98XX_DSP_INIT_STOPPED;
+ mutex_unlock(&tfa98xx->dsp_lock);
+ }
+ else {
+ if (stream == SNDRV_PCM_STREAM_PLAYBACK)
+ tfa98xx->pstream = 1;
+ else
+ tfa98xx->cstream = 1;
+
+ /* Start DSP */
+#if 1
+ if (tfa98xx->dsp_init != TFA98XX_DSP_INIT_PENDING)
+ queue_delayed_work(tfa98xx->tfa98xx_wq,
+ &tfa98xx->init_work, 0);
+#else
+ tfa98xx_dsp_init(tfa98xx);
+#endif//
+ }
+
+ return 0;
+}
+
+static const struct snd_soc_dai_ops tfa98xx_dai_ops = {
+ .startup = tfa98xx_startup,
+ .set_fmt = tfa98xx_set_fmt,
+ .set_sysclk = tfa98xx_set_dai_sysclk,
+ .set_tdm_slot = tfa98xx_set_tdm_slot,
+ .hw_params = tfa98xx_hw_params,
+ .mute_stream = tfa98xx_mute,
+};
+
+static struct snd_soc_dai_driver tfa98xx_dai[] = {
+ {
+ .name = "tfa98xx-aif",
+ .id = 1,
+ .playback = {
+ .stream_name = "AIF Playback",
+ .channels_min = 1,
+ .channels_max = 4,
+ .rates = TFA98XX_RATES,
+ .formats = TFA98XX_FORMATS,
+ },
+ .capture = {
+ .stream_name = "AIF Capture",
+ .channels_min = 1,
+ .channels_max = 4,
+ .rates = TFA98XX_RATES,
+ .formats = TFA98XX_FORMATS,
+ },
+ .ops = &tfa98xx_dai_ops,
+ .symmetric_rates = 1,
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(3,14,0)
+ .symmetric_channels = 1,
+ .symmetric_samplebits = 1,
+#endif
+ },
+};
+
+static int tfa98xx_probe(struct snd_soc_codec *codec)
+{
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+ int ret;
+
+ pr_debug("\n");
+
+ /* setup work queue, will be used to initial DSP on first boot up */
+ tfa98xx->tfa98xx_wq = create_singlethread_workqueue("tfa98xx");
+ if (!tfa98xx->tfa98xx_wq)
+ return -ENOMEM;
+
+ INIT_DELAYED_WORK(&tfa98xx->init_work, tfa98xx_dsp_init_work);
+ INIT_DELAYED_WORK(&tfa98xx->monitor_work, tfa98xx_monitor);
+ INIT_DELAYED_WORK(&tfa98xx->interrupt_work, tfa98xx_interrupt);
+ INIT_DELAYED_WORK(&tfa98xx->tapdet_work, tfa98xx_tapdet_work);
+
+ tfa98xx->codec = codec;
+
+ ret = tfa98xx_load_container(tfa98xx);
+ pr_debug("Container loading requested: %d\n", ret);
+
+#if LINUX_VERSION_CODE < KERNEL_VERSION(3,16,0)
+ codec->control_data = tfa98xx->regmap;
+ ret = snd_soc_codec_set_cache_io(codec, 8, 16, SND_SOC_REGMAP);
+ if (ret != 0) {
+ dev_err(codec->dev, "Failed to set cache I/O: %d\n", ret);
+ return ret;
+ }
+#endif
+ tfa98xx_add_widgets(tfa98xx);
+
+ dev_info(codec->dev, "tfa98xx codec registered (%s)",
+ tfa98xx->fw.name);
+
+ return ret;
+}
+
+static int tfa98xx_remove(struct snd_soc_codec *codec)
+{
+ struct tfa98xx *tfa98xx = snd_soc_codec_get_drvdata(codec);
+ pr_debug("\n");
+
+ tfa98xx_interrupt_enable(tfa98xx, false);
+
+ tfa98xx_inputdev_unregister(tfa98xx);
+
+ cancel_delayed_work_sync(&tfa98xx->interrupt_work);
+ cancel_delayed_work_sync(&tfa98xx->monitor_work);
+ cancel_delayed_work_sync(&tfa98xx->init_work);
+ cancel_delayed_work_sync(&tfa98xx->tapdet_work);
+
+ if (tfa98xx->tfa98xx_wq)
+ destroy_workqueue(tfa98xx->tfa98xx_wq);
+
+ return 0;
+}
+
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(3,16,0)
+static struct regmap *tfa98xx_get_regmap(struct device *dev)
+{
+ struct tfa98xx *tfa98xx = dev_get_drvdata(dev);
+
+ return tfa98xx->regmap;
+}
+#endif
+static struct snd_soc_codec_driver soc_codec_dev_tfa98xx = {
+ .probe = tfa98xx_probe,
+ .remove = tfa98xx_remove,
+#if LINUX_VERSION_CODE >= KERNEL_VERSION(3,16,0)
+ .get_regmap = tfa98xx_get_regmap,
+#endif
+};
+
+
+static bool tfa98xx_writeable_register(struct device *dev, unsigned int reg)
+{
+ /* enable read access for all registers */
+ return 1;
+}
+
+static bool tfa98xx_readable_register(struct device *dev, unsigned int reg)
+{
+ /* enable read access for all registers */
+ return 1;
+}
+
+static bool tfa98xx_volatile_register(struct device *dev, unsigned int reg)
+{
+ /* enable read access for all registers */
+ return 1;
+}
+
+static const struct regmap_config tfa98xx_regmap = {
+ .reg_bits = 8,
+ .val_bits = 16,
+
+ .max_register = TFA98XX_MAX_REGISTER,
+ .writeable_reg = tfa98xx_writeable_register,
+ .readable_reg = tfa98xx_readable_register,
+ .volatile_reg = tfa98xx_volatile_register,
+ .cache_type = REGCACHE_NONE,
+};
+
+static void tfa98xx_irq_tfa2(struct tfa98xx *tfa98xx)
+{
+ pr_info("\n");
+
+ /*
+ * mask interrupts
+ * will be unmasked after handling interrupts in workqueue
+ */
+ tfa_irq_mask(tfa98xx->tfa);
+ queue_delayed_work(tfa98xx->tfa98xx_wq, &tfa98xx->interrupt_work, 0);
+}
+
+
+static irqreturn_t tfa98xx_irq(int irq, void *data)
+{
+ struct tfa98xx *tfa98xx = data;
+
+ if (tfa98xx->tfa->tfa_family == 2)
+ tfa98xx_irq_tfa2(tfa98xx);
+
+ return IRQ_HANDLED;
+}
+
+static int tfa98xx_ext_reset(struct tfa98xx *tfa98xx)
+{
+ if (tfa98xx && gpio_is_valid(tfa98xx->reset_gpio)) {
+ int reset = tfa98xx->reset_polarity;
+ gpio_set_value_cansleep(tfa98xx->reset_gpio, reset);
+ mdelay(1);
+ gpio_set_value_cansleep(tfa98xx->reset_gpio, !reset);
+ mdelay(1);
+ }
+ return 0;
+}
+
+static int tfa98xx_parse_dt(struct device *dev, struct tfa98xx *tfa98xx,
+ struct device_node *np) {
+ u32 value;
+ int ret;
+ tfa98xx->reset_gpio = of_get_named_gpio(np, "reset-gpio", 0);
+ if (tfa98xx->reset_gpio < 0)
+ dev_dbg(dev, "No reset GPIO provided, will not HW reset device\n");
+
+ tfa98xx->irq_gpio = of_get_named_gpio(np, "irq-gpio", 0);
+ if (tfa98xx->irq_gpio < 0)
+ dev_dbg(dev, "No IRQ GPIO provided.\n");
+ ret = of_property_read_u32(np,"reset-polarity",&value);
+ if(ret< 0)
+ {
+ tfa98xx->reset_polarity = HIGH;
+ }else {
+ tfa98xx->reset_polarity = (value == 0) ? LOW : HIGH;
+ }
+ dev_dbg(dev, "reset-polarity:%d\n",tfa98xx->reset_polarity);
+ return 0;
+}
+
+static ssize_t tfa98xx_reg_write(struct file *filp, struct kobject *kobj,
+ struct bin_attribute *bin_attr,
+ char *buf, loff_t off, size_t count)
+{
+ struct device *dev = container_of(kobj, struct device, kobj);
+ struct tfa98xx *tfa98xx = dev_get_drvdata(dev);
+
+ if (count != 1) {
+ pr_debug("invalid register address");
+ return -EINVAL;
+ }
+
+ tfa98xx->reg = buf[0];
+
+ return 1;
+}
+
+static ssize_t tfa98xx_rw_write(struct file *filp, struct kobject *kobj,
+ struct bin_attribute *bin_attr,
+ char *buf, loff_t off, size_t count)
+{
+ struct device *dev = container_of(kobj, struct device, kobj);
+ struct tfa98xx *tfa98xx = dev_get_drvdata(dev);
+ u8 *data;
+ int ret;
+ int retries = I2C_RETRIES;
+
+ data = kmalloc(count + 1, GFP_KERNEL);
+ if (data == NULL) {
+ pr_debug("can not allocate memory\n");
+ return -ENOMEM;
+ }
+
+ data[0] = tfa98xx->reg;
+ memcpy(&data[1], buf, count);
+
+retry:
+ ret = i2c_master_send(tfa98xx->i2c, data, count + 1);
+ if (ret < 0) {
+ pr_warn("i2c error, retries left: %d\n", retries);
+ if (retries) {
+ retries--;
+ msleep(I2C_RETRY_DELAY);
+ goto retry;
+ }
+ }
+
+ kfree(data);
+
+ /* the number of data bytes written without the register address */
+ return ((ret > 1) ? count : -EIO);
+}
+
+static ssize_t tfa98xx_rw_read(struct file *filp, struct kobject *kobj,
+ struct bin_attribute *bin_attr,
+ char *buf, loff_t off, size_t count)
+{
+ struct device *dev = container_of(kobj, struct device, kobj);
+ struct tfa98xx *tfa98xx = dev_get_drvdata(dev);
+ struct i2c_msg msgs[] = {
+ {
+ .addr = tfa98xx->i2c->addr,
+ .flags = 0,
+ .len = 1,
+ .buf = &tfa98xx->reg,
+ },
+ {
+ .addr = tfa98xx->i2c->addr,
+ .flags = I2C_M_RD,
+ .len = count,
+ .buf = buf,
+ },
+ };
+ int ret;
+ int retries = I2C_RETRIES;
+retry:
+ ret = i2c_transfer(tfa98xx->i2c->adapter, msgs, ARRAY_SIZE(msgs));
+ if (ret < 0) {
+ pr_warn("i2c error, retries left: %d\n", retries);
+ if (retries) {
+ retries--;
+ msleep(I2C_RETRY_DELAY);
+ goto retry;
+ }
+ return ret;
+ }
+ /* ret contains the number of i2c transaction */
+ /* return the number of bytes read */
+ return ((ret > 1) ? count : -EIO);
+}
+
+static struct bin_attribute dev_attr_rw = {
+ .attr = {
+ .name = "rw",
+ .mode = S_IRUSR | S_IWUSR,
+ },
+ .size = 0,
+ .read = tfa98xx_rw_read,
+ .write = tfa98xx_rw_write,
+};
+
+static struct bin_attribute dev_attr_reg = {
+ .attr = {
+ .name = "reg",
+ .mode = S_IWUSR,
+ },
+ .size = 0,
+ .read = NULL,
+ .write = tfa98xx_reg_write,
+};
+
+static int tfa98xx_i2c_probe(struct i2c_client *i2c,
+ const struct i2c_device_id *id)
+{
+ struct snd_soc_dai_driver *dai;
+ struct tfa98xx *tfa98xx;
+ struct device_node *np = i2c->dev.of_node;
+ int irq_flags;
+ unsigned int reg;
+ int ret;
+
+ pr_info("addr=0x%x\n", i2c->addr);
+
+ if (!i2c_check_functionality(i2c->adapter, I2C_FUNC_I2C)) {
+ dev_err(&i2c->dev, "check_functionality failed\n");
+ return -EIO;
+ }
+
+ tfa98xx = devm_kzalloc(&i2c->dev, sizeof(struct tfa98xx), GFP_KERNEL);
+ if (tfa98xx == NULL)
+ return -ENOMEM;
+
+ tfa98xx->dev = &i2c->dev;
+ tfa98xx->i2c = i2c;
+ tfa98xx->dsp_init = TFA98XX_DSP_INIT_STOPPED;
+ tfa98xx->rate = 48000; /* init to the default sample rate (48kHz) */
+ tfa98xx->tfa = NULL;
+
+ tfa98xx->regmap = devm_regmap_init_i2c(i2c, &tfa98xx_regmap);
+ if (IS_ERR(tfa98xx->regmap)) {
+ ret = PTR_ERR(tfa98xx->regmap);
+ dev_err(&i2c->dev, "Failed to allocate register map: %d\n",
+ ret);
+ return ret;
+ }
+
+ i2c_set_clientdata(i2c, tfa98xx);
+ mutex_init(&tfa98xx->dsp_lock);
+ init_waitqueue_head(&tfa98xx->wq);
+
+ if (np) {
+ ret = tfa98xx_parse_dt(&i2c->dev, tfa98xx, np);
+ if (ret) {
+ dev_err(&i2c->dev, "Failed to parse DT node\n");
+ return ret;
+ }
+ if (no_start)
+ tfa98xx->irq_gpio = -1;
+ if (no_reset)
+ tfa98xx->reset_gpio = -1;
+ }
+ else {
+ tfa98xx->reset_gpio = -1;
+ tfa98xx->irq_gpio = -1;
+ }
+
+ if (gpio_is_valid(tfa98xx->reset_gpio)) {
+ ret = devm_gpio_request_one(&i2c->dev, tfa98xx->reset_gpio,
+ GPIOF_OUT_INIT_LOW, "TFA98XX_RST");
+ if (ret)
+ return ret;
+ }
+
+ if (gpio_is_valid(tfa98xx->irq_gpio)) {
+ ret = devm_gpio_request_one(&i2c->dev, tfa98xx->irq_gpio,
+ GPIOF_DIR_IN, "TFA98XX_INT");
+ if (ret)
+ return ret;
+ }
+
+ /* Power up! */
+ tfa98xx_ext_reset(tfa98xx);
+
+ if ((no_start == 0) && (no_reset == 0)) {
+ ret = regmap_read(tfa98xx->regmap, 0x03, ®);
+ if (ret < 0) {
+ dev_err(&i2c->dev, "Failed to read Revision register: %d\n",
+ ret);
+ return -EIO;
+ }
+ switch (reg & 0xff) {
+ case 0x72: /* tfa9872 */
+ pr_info("TFA9872 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_MULTI_MIC_INPUTS;
+ tfa98xx->flags |= TFA98XX_FLAG_CALIBRATION_CTL;
+ tfa98xx->flags |= TFA98XX_FLAG_REMOVE_PLOP_NOISE;
+ /* tfa98xx->flags |= TFA98XX_FLAG_LP_MODES; */
+ tfa98xx->flags |= TFA98XX_FLAG_TDM_DEVICE;
+ break;
+ case 0x74: /* tfa9874 */
+ pr_info("TFA9874 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_MULTI_MIC_INPUTS;
+ tfa98xx->flags |= TFA98XX_FLAG_CALIBRATION_CTL;
+ tfa98xx->flags |= TFA98XX_FLAG_TDM_DEVICE;
+ break;
+ case 0x78: /* tfa9878 */
+ pr_info("TFA9878 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_MULTI_MIC_INPUTS;
+ tfa98xx->flags |= TFA98XX_FLAG_CALIBRATION_CTL;
+ tfa98xx->flags |= TFA98XX_FLAG_TDM_DEVICE;
+ break;
+ case 0x88: /* tfa9888 */
+ pr_info("TFA9888 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_STEREO_DEVICE;
+ tfa98xx->flags |= TFA98XX_FLAG_MULTI_MIC_INPUTS;
+ tfa98xx->flags |= TFA98XX_FLAG_TDM_DEVICE;
+ break;
+ case 0x13: /* tfa9912 */
+ pr_info("TFA9912 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_MULTI_MIC_INPUTS;
+ tfa98xx->flags |= TFA98XX_FLAG_TDM_DEVICE;
+ /* tfa98xx->flags |= TFA98XX_FLAG_TAPDET_AVAILABLE; */
+ break;
+ case 0x94: /* tfa9894 */
+ pr_info("TFA9894 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_MULTI_MIC_INPUTS;
+ tfa98xx->flags |= TFA98XX_FLAG_TDM_DEVICE;
+ break;
+ case 0x80: /* tfa9890 */
+ case 0x81: /* tfa9890 */
+ pr_info("TFA9890 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_SKIP_INTERRUPTS;
+ break;
+ case 0x92: /* tfa9891 */
+ pr_info("TFA9891 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_SAAM_AVAILABLE;
+ tfa98xx->flags |= TFA98XX_FLAG_SKIP_INTERRUPTS;
+ break;
+ case 0x12: /* tfa9895 */
+ pr_info("TFA9895 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_SKIP_INTERRUPTS;
+ break;
+ case 0x97:
+ pr_info("TFA9897 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_SKIP_INTERRUPTS;
+ tfa98xx->flags |= TFA98XX_FLAG_TDM_DEVICE;
+ break;
+ case 0x96:
+ pr_info("TFA9896 detected\n");
+ tfa98xx->flags |= TFA98XX_FLAG_SKIP_INTERRUPTS;
+ tfa98xx->flags |= TFA98XX_FLAG_TDM_DEVICE;
+ break;
+ default:
+ pr_info("Unsupported device revision (0x%x)\n", reg & 0xff);
+ return -EINVAL;
+ }
+ }
+
+ tfa98xx->tfa = devm_kzalloc(&i2c->dev, sizeof(struct tfa_device), GFP_KERNEL);
+ if (tfa98xx->tfa == NULL)
+ return -ENOMEM;
+
+ tfa98xx->tfa->data = (void *)tfa98xx;
+ tfa98xx->tfa->cachep = tfa98xx_cache;
+
+ /* Modify the stream names, by appending the i2c device address.
+ * This is used with multicodec, in order to discriminate the devices.
+ * Stream names appear in the dai definition and in the stream .
+ * We create copies of original structures because each device will
+ * have its own instance of this structure, with its own address.
+ */
+ dai = devm_kzalloc(&i2c->dev, sizeof(tfa98xx_dai), GFP_KERNEL);
+ if (!dai)
+ return -ENOMEM;
+ memcpy(dai, tfa98xx_dai, sizeof(tfa98xx_dai));
+
+ tfa98xx_append_i2c_address(&i2c->dev,
+ i2c,
+ NULL,
+ 0,
+ dai,
+ ARRAY_SIZE(tfa98xx_dai));
+
+ ret = snd_soc_register_codec(&i2c->dev,
+ &soc_codec_dev_tfa98xx, dai,
+ ARRAY_SIZE(tfa98xx_dai));
+
+ if (ret < 0) {
+ dev_err(&i2c->dev, "Failed to register TFA98xx: %d\n", ret);
+ return ret;
+ }
+
+ if (gpio_is_valid(tfa98xx->irq_gpio) &&
+ !(tfa98xx->flags & TFA98XX_FLAG_SKIP_INTERRUPTS)) {
+ /* register irq handler */
+ irq_flags = IRQF_TRIGGER_FALLING | IRQF_ONESHOT;
+ ret = devm_request_threaded_irq(&i2c->dev,
+ gpio_to_irq(tfa98xx->irq_gpio),
+ NULL, tfa98xx_irq, irq_flags,
+ "tfa98xx", tfa98xx);
+ if (ret != 0) {
+ dev_err(&i2c->dev, "Failed to request IRQ %d: %d\n",
+ gpio_to_irq(tfa98xx->irq_gpio), ret);
+ return ret;
+ }
+ }
+ else {
+ dev_info(&i2c->dev, "Skipping IRQ registration\n");
+ /* disable feature support if gpio was invalid */
+ tfa98xx->flags |= TFA98XX_FLAG_SKIP_INTERRUPTS;
+ }
+
+#ifdef CONFIG_DEBUG_FS
+ if (no_start == 0)
+ tfa98xx_debug_init(tfa98xx, i2c);
+#endif
+ /* Register the sysfs files for climax backdoor access */
+ ret = device_create_bin_file(&i2c->dev, &dev_attr_rw);
+ if (ret)
+ dev_info(&i2c->dev, "error creating sysfs files\n");
+ ret = device_create_bin_file(&i2c->dev, &dev_attr_reg);
+ if (ret)
+ dev_info(&i2c->dev, "error creating sysfs files\n");
+
+ pr_info("%s Probe completed successfully!\n", __func__);
+
+ INIT_LIST_HEAD(&tfa98xx->list);
+
+ mutex_lock(&tfa98xx_mutex);
+ tfa98xx_device_count++;
+ list_add(&tfa98xx->list, &tfa98xx_device_list);
+ mutex_unlock(&tfa98xx_mutex);
+
+ return 0;
+}
+
+static int tfa98xx_i2c_remove(struct i2c_client *i2c)
+{
+ struct tfa98xx *tfa98xx = i2c_get_clientdata(i2c);
+
+ pr_debug("addr=0x%x\n", i2c->addr);
+
+ tfa98xx_interrupt_enable(tfa98xx, false);
+
+ cancel_delayed_work_sync(&tfa98xx->interrupt_work);
+ cancel_delayed_work_sync(&tfa98xx->monitor_work);
+ cancel_delayed_work_sync(&tfa98xx->init_work);
+ cancel_delayed_work_sync(&tfa98xx->tapdet_work);
+
+ device_remove_bin_file(&i2c->dev, &dev_attr_reg);
+ device_remove_bin_file(&i2c->dev, &dev_attr_rw);
+#ifdef CONFIG_DEBUG_FS
+ tfa98xx_debug_remove(tfa98xx);
+#endif
+
+ snd_soc_unregister_codec(&i2c->dev);
+
+ if (gpio_is_valid(tfa98xx->irq_gpio))
+ devm_gpio_free(&i2c->dev, tfa98xx->irq_gpio);
+ if (gpio_is_valid(tfa98xx->reset_gpio))
+ devm_gpio_free(&i2c->dev, tfa98xx->reset_gpio);
+
+ mutex_lock(&tfa98xx_mutex);
+ list_del(&tfa98xx->list);
+ tfa98xx_device_count--;
+ if (tfa98xx_device_count == 0) {
+ kfree(tfa98xx_container);
+ tfa98xx_container = NULL;
+ }
+ mutex_unlock(&tfa98xx_mutex);
+
+ return 0;
+}
+
+static const struct i2c_device_id tfa98xx_i2c_id[] = {
+ { "tfa98xx", 0 },
+ { }
+};
+MODULE_DEVICE_TABLE(i2c, tfa98xx_i2c_id);
+
+#ifdef CONFIG_OF
+static struct of_device_id tfa98xx_dt_match[] = {
+ {.compatible = "nxp,tfa98xx" },
+ {.compatible = "nxp,tfa9872" },
+ {.compatible = "nxp,tfa9874" },
+ {.compatible = "nxp,tfa9878" },
+ {.compatible = "nxp,tfa9888" },
+ {.compatible = "nxp,tfa9890" },
+ {.compatible = "nxp,tfa9891" },
+ {.compatible = "nxp,tfa9894" },
+ {.compatible = "nxp,tfa9895" },
+ {.compatible = "nxp,tfa9896" },
+ {.compatible = "nxp,tfa9897" },
+ {.compatible = "nxp,tfa9912" },
+ { },
+};
+#endif
+
+static struct i2c_driver tfa98xx_i2c_driver = {
+ .driver = {
+ .name = "tfa98xx",
+ .owner = THIS_MODULE,
+ .of_match_table = of_match_ptr(tfa98xx_dt_match),
+ },
+ .probe = tfa98xx_i2c_probe,
+ .remove = tfa98xx_i2c_remove,
+ .id_table = tfa98xx_i2c_id,
+};
+
+static int __init tfa98xx_i2c_init(void)
+{
+ int ret = 0;
+
+ pr_info("TFA98XX driver version %s\n", TFA98XX_VERSION);
+
+ /* Enable debug traces */
+ tfa98xx_kmsg_regs = trace_level & 2;
+ tfa98xx_ftrace_regs = trace_level & 4;
+
+ /* Initialize kmem_cache */
+ tfa98xx_cache = kmem_cache_create("tfa98xx_cache", /* Cache name /proc/slabinfo */
+ PAGE_SIZE, /* Structure size, we should fit in single page */
+ 0, /* Structure alignment */
+ (SLAB_HWCACHE_ALIGN | SLAB_RECLAIM_ACCOUNT |
+ SLAB_MEM_SPREAD), /* Cache property */
+ NULL); /* Object constructor */
+ if (!tfa98xx_cache) {
+ pr_err("tfa98xx can't create memory pool\n");
+ ret = -ENOMEM;
+ }
+
+ ret = i2c_add_driver(&tfa98xx_i2c_driver);
+
+ return ret;
+}
+module_init(tfa98xx_i2c_init);
+
+static void __exit tfa98xx_i2c_exit(void)
+{
+ i2c_del_driver(&tfa98xx_i2c_driver);
+ kmem_cache_destroy(tfa98xx_cache);
+}
+module_exit(tfa98xx_i2c_exit);
+
+MODULE_DESCRIPTION("ASoC TFA98XX driver");
+MODULE_LICENSE("GPL");
+
diff --git a/src/tfa_container.c b/src/tfa_container.c
new file mode 100644
index 0000000..84f080e
--- /dev/null
+++ b/src/tfa_container.c
@@ -0,0 +1,2376 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#include "dbgprint.h"
+#include "tfa_container.h"
+#include "tfa.h"
+#include "tfa98xx_tfafieldnames.h"
+#include "tfa_internal.h"
+
+ /* defines */
+#define MODULE_BIQUADFILTERBANK 2
+#define BIQUAD_COEFF_SIZE 6
+
+/* module globals */
+static uint8_t gslave_address = 0; /* This is used to SET the slave with the --slave option */
+
+static int float_to_int(uint32_t x)
+{
+ unsigned e = (0x7F + 31) - ((*(unsigned *)&x & 0x7F800000) >> 23);
+ unsigned m = 0x80000000 | (*(unsigned *)&x << 8);
+ return -(int)((m >> e) & -(e < 32));
+}
+
+/*
+ * check the container file
+*/
+enum tfa_error tfa_load_cnt(void *cnt, int length)
+{
+ nxpTfaContainer_t *cntbuf = (nxpTfaContainer_t *)cnt;
+
+ if (length > TFA_MAX_CNT_LENGTH) {
+ pr_err("incorrect length\n");
+ return tfa_error_container;
+ }
+
+ if (HDR(cntbuf->id[0], cntbuf->id[1]) == 0) {
+ pr_err("header is 0\n");
+ return tfa_error_container;
+ }
+
+ if ((HDR(cntbuf->id[0], cntbuf->id[1])) != paramsHdr) {
+ pr_err("wrong header type: 0x%02x 0x%02x\n", cntbuf->id[0], cntbuf->id[1]);
+ return tfa_error_container;
+ }
+
+ if (cntbuf->size == 0) {
+ pr_err("data size is 0\n");
+ return tfa_error_container;
+ }
+
+ /* check CRC */
+ if (tfaContCrcCheckContainer(cntbuf)) {
+ pr_err("CRC error\n");
+ return tfa_error_container;
+ }
+
+ /* check sub version level */
+ if ((cntbuf->subversion[1] != NXPTFA_PM_SUBVERSION) &&
+ (cntbuf->subversion[0] != '0')) {
+ pr_err("container sub-version not supported: %c%c\n",
+ cntbuf->subversion[0], cntbuf->subversion[1]);
+ return tfa_error_container;
+ }
+
+ return tfa_error_ok;
+}
+
+/*
+ * Dump the contents of the file header
+ */
+void tfaContShowHeader(nxpTfaHeader_t *hdr) {
+ char _id[2];
+
+ pr_debug("File header\n");
+
+ _id[1] = hdr->id >> 8;
+ _id[0] = hdr->id & 0xff;
+ pr_debug("\tid:%.2s version:%.2s subversion:%.2s\n", _id,
+ hdr->version, hdr->subversion);
+ pr_debug("\tsize:%d CRC:0x%08x \n", hdr->size, hdr->CRC);
+ pr_debug("\tcustomer:%.8s application:%.8s type:%.8s\n", hdr->customer,
+ hdr->application, hdr->type);
+}
+
+/*
+ * return device list dsc from index
+ */
+nxpTfaDeviceList_t *tfaContGetDevList(nxpTfaContainer_t *cont, int dev_idx)
+{
+ uint8_t *base = (uint8_t *)cont;
+
+ if (cont == NULL)
+ return NULL;
+
+ if ((dev_idx < 0) || (dev_idx >= cont->ndev))
+ return NULL;
+
+ if (cont->index[dev_idx].type != dscDevice)
+ return NULL;
+
+ base += cont->index[dev_idx].offset;
+ return (nxpTfaDeviceList_t *)base;
+}
+
+/*
+ * get the Nth profile for the Nth device
+ */
+nxpTfaProfileList_t *tfaContGetDevProfList(nxpTfaContainer_t * cont, int devIdx, int profIdx)
+{
+ nxpTfaDeviceList_t *dev;
+ int idx, hit;
+ uint8_t *base = (uint8_t *)cont;
+
+ dev = tfaContGetDevList(cont, devIdx);
+ if (dev) {
+ for (idx = 0, hit = 0; idx < dev->length; idx++) {
+ if (dev->list[idx].type == dscProfile) {
+ if (profIdx == hit++)
+ return (nxpTfaProfileList_t *)(dev->list[idx].offset + base);
+ }
+ }
+ }
+
+ return NULL;
+}
+
+/*
+ * get the number of profiles for the Nth device
+ */
+int tfa_cnt_get_dev_nprof(struct tfa_device *tfa)
+{
+ nxpTfaDeviceList_t *dev;
+ int idx, nprof = 0;
+
+ if (tfa->cnt == NULL)
+ return 0;
+
+ if ((tfa->dev_idx < 0) || (tfa->dev_idx >= tfa->cnt->ndev))
+ return 0;
+
+ dev = tfaContGetDevList(tfa->cnt, tfa->dev_idx);
+ if (dev) {
+ for (idx = 0; idx < dev->length; idx++) {
+ if (dev->list[idx].type == dscProfile) {
+ nprof++;
+ }
+ }
+ }
+
+ return nprof;
+}
+
+/*
+ * get the Nth lifedata for the Nth device
+ */
+nxpTfaLiveDataList_t *tfaContGetDevLiveDataList(nxpTfaContainer_t * cont, int devIdx,
+ int lifeDataIdx)
+{
+ nxpTfaDeviceList_t *dev;
+ int idx, hit;
+ uint8_t *base = (uint8_t *)cont;
+
+ dev = tfaContGetDevList(cont, devIdx);
+ if (dev) {
+ for (idx = 0, hit = 0; idx < dev->length; idx++) {
+ if (dev->list[idx].type == dscLiveData) {
+ if (lifeDataIdx == hit++)
+ return (nxpTfaLiveDataList_t *)
+ (dev->list[idx].offset + base);
+ }
+ }
+ }
+
+ return NULL;
+}
+
+/*
+ * Get the max volume step associated with Nth profile for the Nth device
+ */
+int tfacont_get_max_vstep(struct tfa_device *tfa, int prof_idx) {
+ nxpTfaVolumeStep2File_t *vp;
+ struct nxpTfaVolumeStepMax2File *vp3;
+ int vstep_count = 0;
+ vp = (nxpTfaVolumeStep2File_t *)tfacont_getfiledata(tfa, prof_idx, volstepHdr);
+ if (vp == NULL)
+ return 0;
+ /* check the header type to load different NrOfVStep appropriately */
+ if (tfa->tfa_family == 2) {
+ /* this is actually tfa2, so re-read the buffer*/
+ vp3 = (struct nxpTfaVolumeStepMax2File *)
+ tfacont_getfiledata(tfa, prof_idx, volstepHdr);
+ if (vp3) {
+ vstep_count = vp3->NrOfVsteps;
+ }
+ }
+ else {
+ /* this is max1*/
+ if (vp) {
+ vstep_count = vp->vsteps;
+ }
+ }
+ return vstep_count;
+}
+
+/**
+ * Get the file contents associated with the device or profile
+ * Search within the device tree, if not found, search within the profile
+ * tree. There can only be one type of file within profile or device.
+ */
+nxpTfaFileDsc_t *tfacont_getfiledata(struct tfa_device *tfa, int prof_idx, enum nxpTfaHeaderType type)
+{
+ nxpTfaDeviceList_t *dev;
+ nxpTfaProfileList_t *prof;
+ nxpTfaFileDsc_t *file;
+ nxpTfaHeader_t *hdr;
+ unsigned int i;
+
+ if (tfa->cnt == NULL) {
+ pr_err("invalid pointer to container file\n");
+ return NULL;
+ }
+
+ dev = tfaContGetDevList(tfa->cnt, tfa->dev_idx);
+ if (dev == NULL) {
+ pr_err("invalid pointer to container file device list\n");
+ return NULL;
+ }
+
+ /* process the device list until a file type is encountered */
+ for (i = 0; i < dev->length; i++) {
+ if (dev->list[i].type == dscFile) {
+ file = (nxpTfaFileDsc_t *)(dev->list[i].offset + (uint8_t *)tfa->cnt);
+ if (file != NULL) {
+ hdr = (nxpTfaHeader_t *)file->data;
+ /* check for file type */
+ if (hdr->id == type) {
+ return (nxpTfaFileDsc_t *)&file->data;
+ }
+ }
+ }
+ }
+
+ /* File not found in device tree.
+ * So, look in the profile list until the file type is encountered
+ */
+ prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, prof_idx);
+ if (prof == NULL) {
+ pr_err("invalid pointer to container file profile list\n");
+ return NULL;
+ }
+
+ for (i = 0; i < prof->length; i++) {
+ if (prof->list[i].type == dscFile) {
+ file = (nxpTfaFileDsc_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt);
+ if (file != NULL) {
+ hdr = (nxpTfaHeader_t *)file->data;
+ if (hdr != NULL) {
+ /* check for file type */
+ if (hdr->id == type) {
+ return (nxpTfaFileDsc_t *)&file->data;
+ }
+ }
+ }
+ }
+ }
+
+ if (tfa->verbose)
+ pr_debug("%s: no file found of type %d\n", __FUNCTION__, type);
+
+ return NULL;
+}
+
+/*
+ * write a parameter file to the device
+ */
+static enum Tfa98xx_Error tfaContWriteVstep(struct tfa_device *tfa, nxpTfaVolumeStep2File_t *vp, int vstep)
+{
+ enum Tfa98xx_Error err;
+ unsigned short vol;
+
+ if (vstep < vp->vsteps) {
+ /* vol = (unsigned short)(voldB / (-0.5f)); */
+ vol = (unsigned short)(-2 * float_to_int(*((uint32_t *)&vp->vstep[vstep].attenuation)));
+ if (vol > 255) /* restricted to 8 bits */
+ vol = 255;
+
+ err = tfa98xx_set_volume_level(tfa, vol);
+ if (err != Tfa98xx_Error_Ok)
+ return err;
+
+ err = tfa98xx_dsp_write_preset(tfa, sizeof(vp->vstep[0].preset), vp->vstep[vstep].preset);
+ if (err != Tfa98xx_Error_Ok)
+ return err;
+ err = tfa_cont_write_filterbank(tfa, vp->vstep[vstep].filter);
+
+ }
+ else {
+ pr_err("Incorrect volume given. The value vstep[%d] >= %d\n", vstep, vp->vsteps);
+ err = Tfa98xx_Error_Bad_Parameter;
+ }
+
+ if (tfa->verbose) pr_debug("vstep[%d][%d]\n", tfa->dev_idx, vstep);
+
+ return err;
+}
+
+static struct nxpTfaVolumeStepMessageInfo *
+tfaContGetmsgInfoFromReg(struct nxpTfaVolumeStepRegisterInfo *regInfo)
+{
+ char *p = (char*)regInfo;
+ p += sizeof(regInfo->NrOfRegisters) + (regInfo->NrOfRegisters * sizeof(uint32_t));
+ return (struct nxpTfaVolumeStepMessageInfo*) p;
+}
+
+static int
+tfaContGetmsgLen(struct nxpTfaVolumeStepMessageInfo *msgInfo)
+{
+ return (msgInfo->MessageLength.b[0] << 16) + (msgInfo->MessageLength.b[1] << 8) + msgInfo->MessageLength.b[2];
+}
+
+static struct nxpTfaVolumeStepMessageInfo *
+tfaContGetNextmsgInfo(struct nxpTfaVolumeStepMessageInfo *msgInfo)
+{
+ char *p = (char*)msgInfo;
+ int msgLen = tfaContGetmsgLen(msgInfo);
+ int type = msgInfo->MessageType;
+
+ p += sizeof(msgInfo->MessageType) + sizeof(msgInfo->MessageLength);
+ if (type == 3)
+ p += msgLen;
+ else
+ p += msgLen * 3;
+
+ return (struct nxpTfaVolumeStepMessageInfo*) p;
+}
+
+static struct nxpTfaVolumeStepRegisterInfo*
+tfaContGetNextRegFromEndInfo(struct nxpTfaVolumeStepMessageInfo *msgInfo)
+{
+ char *p = (char*)msgInfo;
+ p += sizeof(msgInfo->NrOfMessages);
+ return (struct nxpTfaVolumeStepRegisterInfo*) p;
+
+}
+
+static struct nxpTfaVolumeStepRegisterInfo*
+tfaContGetRegForVstep(nxpTfaVolumeStepMax2File_t *vp, int idx)
+{
+ int i, j, nrMessage;
+
+ struct nxpTfaVolumeStepRegisterInfo *regInfo
+ = (struct nxpTfaVolumeStepRegisterInfo*) vp->vstepsBin;
+ struct nxpTfaVolumeStepMessageInfo *msgInfo = NULL;
+
+ for (i = 0; i < idx; i++) {
+ msgInfo = tfaContGetmsgInfoFromReg(regInfo);
+ nrMessage = msgInfo->NrOfMessages;
+
+ for (j = 0; j < nrMessage; j++) {
+ msgInfo = tfaContGetNextmsgInfo(msgInfo);
+ }
+ regInfo = tfaContGetNextRegFromEndInfo(msgInfo);
+ }
+
+ return regInfo;
+}
+
+#pragma pack (push, 1)
+struct tfa_partial_msg_block {
+ uint8_t offset;
+ uint16_t change;
+ uint8_t update[16][3];
+};
+#pragma pack (pop)
+
+static enum Tfa98xx_Error tfaContWriteVstepMax2_One(struct tfa_device *tfa, struct nxpTfaVolumeStepMessageInfo *new_msg,
+ struct nxpTfaVolumeStepMessageInfo *old_msg, int enable_partial_update)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int len = (tfaContGetmsgLen(new_msg) - 1) * 3;
+ char *buf = (char*)new_msg->ParameterData;
+ uint8_t *partial = NULL;
+ uint8_t cmdid[3];
+ int use_partial_coeff = 0;
+
+ if (enable_partial_update) {
+ if (new_msg->MessageType != old_msg->MessageType) {
+ pr_debug("Message type differ - Disable Partial Update\n");
+ enable_partial_update = 0;
+ }
+ else if (tfaContGetmsgLen(new_msg) != tfaContGetmsgLen(old_msg)) {
+ pr_debug("Message Length differ - Disable Partial Update\n");
+ enable_partial_update = 0;
+ }
+ }
+
+ if ((enable_partial_update) && (new_msg->MessageType == 1)) {
+ /* No patial updates for message type 1 (Coefficients) */
+ enable_partial_update = 0;
+ if ((tfa->rev & 0xff) == 0x88) {
+ use_partial_coeff = 1;
+ }
+ else if ((tfa->rev & 0xff) == 0x13) {
+ use_partial_coeff = 1;
+ }
+ }
+
+ /* Change Message Len to the actual buffer len */
+ memcpy(cmdid, new_msg->CmdId, sizeof(cmdid));
+
+ /* The algoparams and mbdrc msg id will be changed to the reset type when SBSL=0
+ * if SBSL=1 the msg will remain unchanged. It's up to the tuning engineer to choose the 'without_reset'
+ * types inside the vstep. In other words: the reset msg is applied during SBSL==0 else it remains unchanged.
+ */
+ if (tfa_needs_reset(tfa) == 1) {
+ if (new_msg->MessageType == 0) {
+ cmdid[2] = SB_PARAM_SET_ALGO_PARAMS;
+ if (tfa->verbose)
+ pr_debug("P-ID for SetAlgoParams modified!\n");
+ }
+ else if (new_msg->MessageType == 2) {
+ cmdid[2] = SB_PARAM_SET_MBDRC;
+ if (tfa->verbose)
+ pr_debug("P-ID for SetMBDrc modified!\n");
+ }
+ }
+
+ /*
+ * +sizeof(struct tfa_partial_msg_block) will allow to fit one
+ * additonnal partial block If the partial update goes over the len of
+ * a regular message ,we can safely write our block and check afterward
+ * that we are over the size of a usual update
+ */
+ if (enable_partial_update) {
+ partial = kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ if (!partial)
+ pr_debug("Partial update memory error - Disabling\n");
+ }
+
+ if (partial) {
+ uint8_t offset = 0, i = 0;
+ uint16_t *change;
+ uint8_t *n = new_msg->ParameterData;
+ uint8_t *o = old_msg->ParameterData;
+ uint8_t *p = partial;
+ uint8_t* trim = partial;
+
+ /* set dspFiltersReset */
+ *p++ = 0x02;
+ *p++ = 0x00;
+ *p++ = 0x00;
+
+ while ((o < (old_msg->ParameterData + len)) &&
+ (p < (partial + len - 3))) {
+ if ((offset == 0xff) ||
+ (memcmp(n, o, 3 * sizeof(uint8_t)))) {
+ *p++ = offset;
+ change = (uint16_t*)p;
+ *change = 0;
+ p += 2;
+
+ for (i = 0;
+ (i < 16) && (o < (old_msg->ParameterData + len));
+ i++, n += 3, o += 3) {
+ if (memcmp(n, o, 3 * sizeof(uint8_t))) {
+ *change |= BIT(i);
+ memcpy(p, n, 3);
+ p += 3;
+ trim = p;
+ }
+ }
+
+ offset = 0;
+ *change = cpu_to_be16(*change);
+ }
+ else {
+ n += 3;
+ o += 3;
+ offset++;
+ }
+ }
+
+ if (trim == partial) {
+ pr_debug("No Change in message - discarding %d bytes\n", len);
+ len = 0;
+
+ }
+ else if (trim < (partial + len - 3)) {
+ pr_debug("Using partial update: %d -> %d bytes\n", len, (int)(trim - partial + 3));
+
+ /* Add the termination marker */
+ memset(trim, 0x00, 3);
+ trim += 3;
+
+ /* Signal This will be a partial update */
+ cmdid[2] |= BIT(6);
+ buf = (char*)partial;
+ len = (int)(trim - partial);
+ }
+ else {
+ pr_debug("Partial too big - use regular update\n");
+ }
+ }
+
+ if (use_partial_coeff) {
+ err = dsp_partial_coefficients(tfa, old_msg->ParameterData, new_msg->ParameterData);
+ }
+ else if (len) {
+ uint8_t *buffer;
+
+ if (tfa->verbose)
+ pr_debug("Command-ID used: 0x%02x%02x%02x \n", cmdid[0], cmdid[1], cmdid[2]);
+
+ buffer = kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ if (buffer == NULL) {
+ err = Tfa98xx_Error_Fail;
+ }
+ else {
+ memcpy(&buffer[0], cmdid, 3);
+ memcpy(&buffer[3], buf, len);
+ err = dsp_msg(tfa, 3 + len, (char *)buffer);
+ kmem_cache_free(tfa->cachep, buffer);
+ }
+ }
+
+ if (partial)
+ kmem_cache_free(tfa->cachep, partial);
+
+ return err;
+}
+
+static enum Tfa98xx_Error tfaContWriteVstepMax2(struct tfa_device *tfa, nxpTfaVolumeStepMax2File_t *vp, int vstep_idx, int vstep_msg_idx)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ struct nxpTfaVolumeStepRegisterInfo *regInfo = NULL;
+ struct nxpTfaVolumeStepMessageInfo *msgInfo = NULL, *p_msgInfo = NULL;
+ nxpTfaBitfield_t bitF;
+ int i, nrMessages, enp = tfa->partial_enable;
+
+ if (vstep_idx >= vp->NrOfVsteps) {
+ pr_debug("Volumestep %d is not available \n", vstep_idx);
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ if (tfa->p_regInfo == NULL) {
+ if (tfa->verbose)
+ pr_debug("Inital vstep write\n");
+ enp = 0;
+ }
+
+ regInfo = tfaContGetRegForVstep(vp, vstep_idx);
+
+ msgInfo = tfaContGetmsgInfoFromReg(regInfo);
+ nrMessages = msgInfo->NrOfMessages;
+
+ if (enp) {
+ p_msgInfo = tfaContGetmsgInfoFromReg(tfa->p_regInfo);
+ if (nrMessages != p_msgInfo->NrOfMessages) {
+ pr_debug("Message different - Disable partial update\n");
+ enp = 0;
+ }
+ }
+
+ for (i = 0; i < nrMessages; i++) {
+ /* Messagetype(3) is Smartstudio Info! Dont send this! */
+ if (msgInfo->MessageType == 3) {
+ /* MessageLength is in bytes */
+ msgInfo = tfaContGetNextmsgInfo(msgInfo);
+ if (enp)
+ p_msgInfo = tfaContGetNextmsgInfo(p_msgInfo);
+ continue;
+ }
+
+ /* If no vstepMsgIndex is passed on, all message needs to be send */
+ if ((vstep_msg_idx >= TFA_MAX_VSTEP_MSG_MARKER) || (vstep_msg_idx == i)) {
+ err = tfaContWriteVstepMax2_One(tfa, msgInfo, p_msgInfo, enp);
+ if (err != Tfa98xx_Error_Ok) {
+ /*
+ * Force a full update for the next write
+ * As the current status of the DSP is unknown
+ */
+ tfa->p_regInfo = NULL;
+ return err;
+ }
+ }
+
+ msgInfo = tfaContGetNextmsgInfo(msgInfo);
+ if (enp)
+ p_msgInfo = tfaContGetNextmsgInfo(p_msgInfo);
+ }
+
+ tfa->p_regInfo = regInfo;
+
+ for (i = 0; i < regInfo->NrOfRegisters * 2; i++) {
+ /* Byte swap the datasheetname */
+ bitF.field = (uint16_t)(regInfo->registerInfo[i] >> 8) | (regInfo->registerInfo[i] << 8);
+ i++;
+ bitF.value = (uint16_t)regInfo->registerInfo[i] >> 8;
+ err = tfaRunWriteBitfield(tfa, bitF);
+ if (err != Tfa98xx_Error_Ok)
+ return err;
+ }
+
+ /* Save the current vstep */
+ tfa_dev_set_swvstep(tfa, (unsigned short)vstep_idx);
+
+ return err;
+}
+
+/*
+ * Write DRC message to the dsp
+ * If needed modify the cmd-id
+ */
+
+enum Tfa98xx_Error tfaContWriteDrcFile(struct tfa_device *tfa, int size, uint8_t data[])
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ uint8_t *msg = NULL;
+
+ msg = kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ if (msg == NULL)
+ return Tfa98xx_Error_Fail;
+ memcpy(msg, data, size);
+
+ if (TFA_GET_BF(tfa, SBSL) == 0) {
+ /* Only do this when not set already */
+ if (msg[2] != SB_PARAM_SET_MBDRC) {
+ msg[2] = SB_PARAM_SET_MBDRC;
+
+ if (tfa->verbose) {
+ pr_debug("P-ID for SetMBDrc modified!: ");
+ pr_debug("Command-ID used: 0x%02x%02x%02x \n",
+ msg[0], msg[1], msg[2]);
+ }
+ }
+ }
+
+ /* Send cmdId + payload to dsp */
+ err = dsp_msg(tfa, size, (const char *)msg);
+
+ kmem_cache_free(tfa->cachep, msg);
+
+ return err;
+}
+
+
+/*
+ * write a parameter file to the device
+ * The VstepIndex and VstepMsgIndex are only used to write a specific msg from the vstep file.
+ */
+enum Tfa98xx_Error tfaContWriteFile(struct tfa_device *tfa, nxpTfaFileDsc_t *file, int vstep_idx, int vstep_msg_idx)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaHeader_t *hdr = (nxpTfaHeader_t *)file->data;
+ nxpTfaHeaderType_t type;
+ int size, i;
+ char subVerString[8] = { 0 };
+ int subversion = 0;
+
+ if (tfa->verbose) {
+ tfaContShowHeader(hdr);
+ }
+
+ type = (nxpTfaHeaderType_t)hdr->id;
+ if ((type == msgHdr) || ((type == volstepHdr) && (tfa->tfa_family == 2)))
+ {
+ subVerString[0] = hdr->subversion[0];
+ subVerString[1] = hdr->subversion[1];
+ subVerString[2] = '\0';
+
+ sscanf(subVerString, "%d", &subversion);
+
+ if ((subversion > 0) &&
+ (((hdr->customer[0]) == 'A') && ((hdr->customer[1]) == 'P') &&
+ ((hdr->customer[2]) == 'I') && ((hdr->customer[3]) == 'V')))
+ {
+ if (tfa->is_probus_device)
+ {
+ /* Temporary workaround (example: For climax --calibrate scenario for probus devices) */
+ err = tfaGetFwApiVersion(tfa, (unsigned char *)&tfa->fw_itf_ver[0]);
+ if (err) {
+ pr_debug("[%s] cannot get FWAPI error = %d \n", __FUNCTION__, err);
+ return err;
+ }
+ for (i = 0; i<3; i++)
+ {
+ if (tfa->fw_itf_ver[i] != hdr->customer[i + 4]) //+4 to skip "?PIV" string part in the .msg file.
+ {
+ ERRORMSG("Error: tfaContWriteFile: Expected FW API version = %d.%d.%d, Msg File version: %d.%d.%d \n",
+ tfa->fw_itf_ver[0],
+ tfa->fw_itf_ver[1],
+ tfa->fw_itf_ver[2],
+ hdr->customer[4],
+ hdr->customer[5],
+ hdr->customer[6]);
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ }
+ }
+ else if ((tfa->fw_itf_ver[2] != hdr->customer[4]) || (tfa->fw_itf_ver[1] != hdr->customer[5]) || ((tfa->fw_itf_ver[0] >> 6) & 0x03) != hdr->customer[6])
+ {
+
+ ERRORMSG("Error: tfaContWriteFile: Expected FW API version = %d.%d.%d, Msg File version: %d.%d.%d \n",
+ (tfa->fw_itf_ver[2]) & 0xff,
+ (tfa->fw_itf_ver[1]) & 0xff,
+ (tfa->fw_itf_ver[0] >> 6) & 0x03,
+ hdr->customer[4],
+ hdr->customer[5],
+ hdr->customer[6]);
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ }
+ }
+
+ switch (type) {
+ case msgHdr: /* generic DSP message */
+ size = hdr->size - sizeof(nxpTfaMsgFile_t);
+ err = dsp_msg(tfa, size, (const char *)((nxpTfaMsgFile_t *)hdr)->data);
+ break;
+ case volstepHdr:
+ if (tfa->tfa_family == 2) {
+ err = tfaContWriteVstepMax2(tfa, (nxpTfaVolumeStepMax2File_t *)hdr, vstep_idx, vstep_msg_idx);
+ }
+ else {
+ err = tfaContWriteVstep(tfa, (nxpTfaVolumeStep2File_t *)hdr, vstep_idx);
+ }
+ break;
+ case speakerHdr:
+ if (tfa->tfa_family == 2) {
+ /* Remove header and xml_id */
+ size = hdr->size - sizeof(struct nxpTfaSpkHeader) - sizeof(struct nxpTfaFWVer);
+
+ err = dsp_msg(tfa, size,
+ (const char *)(((nxpTfaSpeakerFile_t *)hdr)->data + (sizeof(struct nxpTfaFWVer))));
+ }
+ else {
+ size = hdr->size - sizeof(nxpTfaSpeakerFile_t);
+ err = tfa98xx_dsp_write_speaker_parameters(tfa, size,
+ (const unsigned char *)((nxpTfaSpeakerFile_t *)hdr)->data);
+ }
+ break;
+ case presetHdr:
+ size = hdr->size - sizeof(nxpTfaPreset_t);
+ err = tfa98xx_dsp_write_preset(tfa, size, (const unsigned char *)((nxpTfaPreset_t *)hdr)->data);
+ break;
+ case equalizerHdr:
+ err = tfa_cont_write_filterbank(tfa, ((nxpTfaEqualizerFile_t *)hdr)->filter);
+ break;
+ case patchHdr:
+ size = hdr->size - sizeof(nxpTfaPatch_t); // size is total length
+ err = tfa_dsp_patch(tfa, size, (const unsigned char *)((nxpTfaPatch_t *)hdr)->data);
+ break;
+ case configHdr:
+ size = hdr->size - sizeof(nxpTfaConfig_t);
+ err = tfa98xx_dsp_write_config(tfa, size, (const unsigned char *)((nxpTfaConfig_t *)hdr)->data);
+ break;
+ case drcHdr:
+ if (hdr->version[0] == NXPTFA_DR3_VERSION) {
+ /* Size is total size - hdrsize(36) - xmlversion(3) */
+ size = hdr->size - sizeof(nxpTfaDrc2_t);
+ err = tfaContWriteDrcFile(tfa, size, ((nxpTfaDrc2_t *)hdr)->data);
+ }
+ else {
+ /*
+ * The DRC file is split as:
+ * 36 bytes for generic header (customer, application, and type)
+ * 127x3 (381) bytes first block contains the device and sample rate
+ * independent settings
+ * 127x3 (381) bytes block the device and sample rate specific values.
+ * The second block can always be recalculated from the first block,
+ * if vlsCal and the sample rate are known.
+ */
+ //size = hdr->size - sizeof(nxpTfaDrc_t);
+ size = 381; /* fixed size for first block */
+
+ //+381 is done to only send the second part of the drc block
+ err = tfa98xx_dsp_write_drc(tfa, size, ((const unsigned char *)((nxpTfaDrc_t *)hdr)->data + 381));
+ }
+ break;
+ case infoHdr:
+ /* Ignore */
+ break;
+ default:
+ pr_err("Header is of unknown type: 0x%x\n", type);
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ return err;
+}
+
+/**
+ * get the 1st of this dsc type this devicelist
+ */
+static nxpTfaDescPtr_t *tfa_cnt_get_dsc(nxpTfaContainer_t *cnt, nxpTfaDescriptorType_t type, int dev_idx)
+{
+ nxpTfaDeviceList_t *dev = tfaContDevice(cnt, dev_idx);
+ nxpTfaDescPtr_t *_this;
+ int i;
+
+ if (!dev) {
+ return NULL;
+ }
+ /* process the list until a the type is encountered */
+ for (i = 0; i < dev->length; i++) {
+ if (dev->list[i].type == (uint32_t)type) {
+ _this = (nxpTfaDescPtr_t *)(dev->list[i].offset + (uint8_t *)cnt);
+ return _this;
+ }
+
+ }
+
+ return NULL;
+}
+
+/**
+ * get the device type from the patch in this devicelist
+ * - find the patch file for this devidx
+ * - return the devid from the patch or 0 if not found
+ */
+int tfa_cnt_get_devid(nxpTfaContainer_t *cnt, int dev_idx)
+{
+ nxpTfaPatch_t *patchfile;
+ nxpTfaDescPtr_t *patchdsc;
+ uint8_t *patchheader;
+ unsigned short devid, checkaddress;
+ int checkvalue;
+
+ patchdsc = tfa_cnt_get_dsc(cnt, dscPatch, dev_idx);
+ if (!patchdsc) /* no patch for this device, assume non-i2c */
+ return 0;
+ patchdsc += 2; /* first the filename dsc and filesize, so skip them */
+ patchfile = (nxpTfaPatch_t *)patchdsc;
+
+ patchheader = patchfile->data;
+
+ checkaddress = (patchheader[1] << 8) + patchheader[2];
+ checkvalue =
+ (patchheader[3] << 16) + (patchheader[4] << 8) + patchheader[5];
+
+ devid = patchheader[0];
+
+ if (checkaddress == 0xFFFF && checkvalue != 0xFFFFFF && checkvalue != 0) {
+ devid = patchheader[5] << 8 | patchheader[0]; /* full revid */
+ }
+
+ return devid;
+}
+
+/**
+ * get the firmware version from the patch in this devicelist
+ */
+int tfa_cnt_get_patch_version(struct tfa_device *tfa)
+{
+ nxpTfaPatch_t *patchfile;
+ nxpTfaDescPtr_t *patchdsc;
+ uint8_t *data;
+ int size, version;
+
+ if (tfa->cnt == NULL)
+ return -1;
+
+ patchdsc = tfa_cnt_get_dsc(tfa->cnt, dscPatch, tfa->dev_idx);
+ patchdsc += 2; /* first the filename dsc and filesize, so skip them */
+ patchfile = (nxpTfaPatch_t *)patchdsc;
+
+ size = patchfile->hdr.size - sizeof(nxpTfaPatch_t);
+ data = patchfile->data;
+
+ version = (data[size - 3] << 16) + (data[size - 2] << 8) + data[size - 1];
+
+ return version;
+}
+
+
+/*
+ * get the slave for the device if it exists
+ */
+enum Tfa98xx_Error tfaContGetSlave(struct tfa_device *tfa, uint8_t *slave_addr)
+{
+ nxpTfaDeviceList_t *dev = NULL;
+
+ /* Make sure the cnt file is loaded */
+ if (tfa->cnt != NULL) {
+ dev = tfaContDevice(tfa->cnt, tfa->dev_idx);
+ }
+
+ if (dev == NULL) {
+ /* Check if slave argument is used! */
+ if (gslave_address == 0) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ else {
+ *slave_addr = gslave_address;
+ return Tfa98xx_Error_Ok;
+ }
+ }
+
+ *slave_addr = dev->dev;
+ return Tfa98xx_Error_Ok;
+}
+
+/* If no container file is given, we can always have used the slave argument */
+void tfaContSetSlave(uint8_t slave_addr)
+{
+ gslave_address = slave_addr;
+}
+
+/*
+ * lookup slave and return device index
+ */
+int tfa_cont_get_idx(struct tfa_device *tfa)
+{
+ nxpTfaDeviceList_t *dev = NULL;
+ int i;
+
+ for (i = 0; i < tfa->cnt->ndev; i++) {
+ dev = tfaContDevice(tfa->cnt, i);
+ if (dev->dev == tfa->slave_address)
+ break;
+
+ }
+ if (i == tfa->cnt->ndev)
+ return -1;
+
+ return i;
+}
+
+/*
+ * write a bit field
+ */
+enum Tfa98xx_Error tfaRunWriteBitfield(struct tfa_device *tfa, nxpTfaBitfield_t bf)
+{
+ enum Tfa98xx_Error error;
+ uint16_t value;
+ union {
+ uint16_t field;
+ nxpTfaBfEnum_t Enum;
+ } bfUni;
+
+ value = bf.value;
+ bfUni.field = bf.field;
+#ifdef TFA_DEBUG
+ if (tfa->verbose)
+ pr_debug("bitfield: %s=0x%x (0x%x[%d..%d]=0x%x)\n", tfaContBfName(bfUni.field, tfa->rev), value,
+ bfUni.Enum.address, bfUni.Enum.pos, bfUni.Enum.pos + bfUni.Enum.len, value);
+#endif
+ error = tfa_set_bf(tfa, bfUni.field, value);
+
+ return error;
+}
+
+/*
+ * read a bit field
+ */
+enum Tfa98xx_Error tfaRunReadBitfield(struct tfa_device *tfa, nxpTfaBitfield_t *bf)
+{
+ enum Tfa98xx_Error error;
+ union {
+ uint16_t field;
+ nxpTfaBfEnum_t Enum;
+ } bfUni;
+ uint16_t regvalue, msk;
+
+ bfUni.field = bf->field;
+
+ error = reg_read(tfa, (unsigned char)(bfUni.Enum.address), ®value);
+ if (error) return error;
+
+ msk = ((1 << (bfUni.Enum.len + 1)) - 1) << bfUni.Enum.pos;
+
+ regvalue &= msk;
+ bf->value = regvalue >> bfUni.Enum.pos;
+
+ return error;
+}
+
+/*
+ dsp mem direct write
+ */
+static enum Tfa98xx_Error tfaRunWriteDspMem(struct tfa_device *tfa, nxpTfaDspMem_t *cfmem)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int i;
+
+ for (i = 0; i < cfmem->size; i++) {
+ if (tfa->verbose)
+ pr_debug("dsp mem (%d): 0x%02x=0x%04x\n", cfmem->type, cfmem->address, cfmem->words[i]);
+
+ error = mem_write(tfa, cfmem->address++, cfmem->words[i], cfmem->type);
+ if (error) return error;
+ }
+
+ return error;
+}
+
+/*
+ * write filter payload to DSP
+ * note that the data is in an aligned union for all filter variants
+ * the aa data is used but it's the same for all of them
+ */
+static enum Tfa98xx_Error tfaRunWriteFilter(struct tfa_device *tfa, nxpTfaContBiquad_t *bq)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ enum Tfa98xx_DMEM dmem;
+ uint16_t address;
+ uint8_t data[3 * 3 + sizeof(bq->aa.bytes)];
+ int i, channel = 0, runs = 1;
+ int8_t saved_index = bq->aa.index; /* This is used to set back the index */
+
+ /* Channel=1 is primary, Channel=2 is secondary*/
+ if (bq->aa.index > 100) {
+ bq->aa.index -= 100;
+ channel = 2;
+ }
+ else if (bq->aa.index > 50) {
+ bq->aa.index -= 50;
+ channel = 1;
+ }
+ else if ((tfa->rev & 0xff) == 0x88) {
+ runs = 2;
+ }
+
+ if (tfa->verbose) {
+ if (channel == 2)
+ pr_debug("filter[%d,S]", bq->aa.index);
+ else if (channel == 1)
+ pr_debug("filter[%d,P]", bq->aa.index);
+ else
+ pr_debug("filter[%d]", bq->aa.index);
+ }
+
+ for (i = 0; i < runs; i++) {
+ if (runs == 2)
+ channel++;
+
+ /* get the target address for the filter on this device */
+ dmem = tfa98xx_filter_mem(tfa, bq->aa.index, &address, channel);
+ if (dmem == Tfa98xx_DMEM_ERR) {
+ if (tfa->verbose) {
+ pr_debug("Warning: XFilter settings are applied via msg file (ini filter[x] format is skipped).\n");
+ }
+ /* Dont exit with an error here, We could continue without problems */
+ return Tfa98xx_Error_Ok;
+ }
+
+ /* send a DSP memory message that targets the devices specific memory for the filter
+ * msg params: which_mem, start_offset, num_words
+ */
+ memset(data, 0, 3 * 3);
+ data[2] = dmem; /* output[0] = which_mem */
+ data[4] = address >> 8; /* output[1] = start_offset */
+ data[5] = address & 0xff;
+ data[8] = sizeof(bq->aa.bytes) / 3; /*output[2] = num_words */
+ memcpy(&data[9], bq->aa.bytes, sizeof(bq->aa.bytes)); /* payload */
+
+ if (tfa->tfa_family == 2) {
+ error = tfa_dsp_cmd_id_write(tfa, MODULE_FRAMEWORK, FW_PAR_ID_SET_MEMORY, sizeof(data), data);
+ }
+ else {
+ error = tfa_dsp_cmd_id_write(tfa, MODULE_FRAMEWORK, 4 /* param */, sizeof(data), data);
+ }
+ }
+
+#ifdef TFA_DEBUG
+ if (tfa->verbose) {
+ if (bq->aa.index == 13) {
+ pr_debug("=%d,%.0f,%.2f \n",
+ bq->in.type, bq->in.cutOffFreq, bq->in.leakage);
+ }
+ else if (bq->aa.index >= 10 && bq->aa.index <= 12) {
+ pr_debug("=%d,%.0f,%.1f,%.1f \n", bq->aa.type,
+ bq->aa.cutOffFreq, bq->aa.rippleDb, bq->aa.rolloff);
+ }
+ else {
+ pr_debug("= unsupported filter index \n");
+ }
+ }
+#endif
+
+ /* Because we can load the same filters multiple times
+ * For example: When we switch profile we re-write in operating mode.
+ * We then need to remember the index (primary, secondary or both)
+ */
+ bq->aa.index = saved_index;
+
+ return error;
+}
+
+/*
+ * write the register based on the input address, value and mask
+ * only the part that is masked will be updated
+ */
+static enum Tfa98xx_Error tfaRunWriteRegister(struct tfa_device *tfa, nxpTfaRegpatch_t *reg)
+{
+ enum Tfa98xx_Error error;
+ uint16_t value, newvalue;
+
+ if (tfa->verbose)
+ pr_debug("register: 0x%02x=0x%04x (msk=0x%04x)\n", reg->address, reg->value, reg->mask);
+
+ error = reg_read(tfa, reg->address, &value);
+ if (error) return error;
+
+ value &= ~reg->mask;
+ newvalue = reg->value & reg->mask;
+
+ value |= newvalue;
+ error = reg_write(tfa, reg->address, value);
+
+ return error;
+
+}
+
+// write reg and bitfield items in the devicelist to the target
+enum Tfa98xx_Error tfaContWriteRegsDev(struct tfa_device *tfa)
+{
+ nxpTfaDeviceList_t *dev = tfaContDevice(tfa->cnt, tfa->dev_idx);
+ nxpTfaBitfield_t *bitF;
+ int i;
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ if (!dev) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ /* process the list until a patch, file of profile is encountered */
+ for (i = 0; i < dev->length; i++) {
+ if (dev->list[i].type == dscPatch ||
+ dev->list[i].type == dscFile ||
+ dev->list[i].type == dscProfile) break;
+
+ if (dev->list[i].type == dscBitfield) {
+ bitF = (nxpTfaBitfield_t *)(dev->list[i].offset + (uint8_t *)tfa->cnt);
+ err = tfaRunWriteBitfield(tfa, *bitF);
+ }
+ if (dev->list[i].type == dscRegister) {
+ err = tfaRunWriteRegister(tfa, (nxpTfaRegpatch_t *)(dev->list[i].offset + (char*)tfa->cnt));
+ }
+
+ if (err) break;
+ }
+
+ return err;
+}
+
+// write reg and bitfield items in the profilelist the target
+enum Tfa98xx_Error tfaContWriteRegsProf(struct tfa_device *tfa, int prof_idx)
+{
+ nxpTfaProfileList_t *prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, prof_idx);
+ nxpTfaBitfield_t *bitf;
+ unsigned int i;
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ if (!prof) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ if (tfa->verbose)
+ pr_debug("----- profile: %s (%d) -----\n", tfaContGetString(tfa->cnt, &prof->name), prof_idx);
+
+ /* process the list until the end of the profile or the default section */
+ for (i = 0; i < prof->length; i++) {
+ /* We only want to write the values before the default section when we switch profile */
+ if (prof->list[i].type == dscDefault)
+ break;
+
+ if (prof->list[i].type == dscBitfield) {
+ bitf = (nxpTfaBitfield_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt);
+ err = tfaRunWriteBitfield(tfa, *bitf);
+ }
+ if (prof->list[i].type == dscRegister) {
+ err = tfaRunWriteRegister(tfa, (nxpTfaRegpatch_t *)(prof->list[i].offset + (char*)tfa->cnt));
+ }
+ if (err) break;
+ }
+ return err;
+}
+
+// write patchfile in the devicelist to the target
+enum Tfa98xx_Error tfaContWritePatch(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaDeviceList_t *dev = tfaContDevice(tfa->cnt, tfa->dev_idx);
+ nxpTfaFileDsc_t *file;
+ nxpTfaPatch_t *patchfile;
+ int size, i;
+
+ if (!dev) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ /* process the list until a patch is encountered */
+ for (i = 0; i < dev->length; i++) {
+ if (dev->list[i].type == dscPatch) {
+ file = (nxpTfaFileDsc_t *)(dev->list[i].offset + (uint8_t *)tfa->cnt);
+ patchfile = (nxpTfaPatch_t *)&file->data;
+ if (tfa->verbose) tfaContShowHeader(&patchfile->hdr);
+ size = patchfile->hdr.size - sizeof(nxpTfaPatch_t); // size is total length
+ err = tfa_dsp_patch(tfa, size, (const unsigned char *)patchfile->data);
+ if (err) return err;
+ }
+ }
+
+ return Tfa98xx_Error_Ok;
+}
+
+/**
+ * Create a buffer which can be used to send to the dsp.
+ */
+static void create_dsp_buffer_msg(struct tfa_device *tfa, nxpTfaMsg_t *msg, char *buffer, int *size)
+{
+ int i, nr = 0;
+
+ (void)tfa;
+
+ /* Copy cmdId. Remember that the cmdId is reversed */
+ buffer[nr++] = msg->cmdId[2];
+ buffer[nr++] = msg->cmdId[1];
+ buffer[nr++] = msg->cmdId[0];
+
+ /* Copy the data to the buffer */
+ for (i = 0; i < msg->msg_size; i++) {
+ buffer[nr++] = (uint8_t)((msg->data[i] >> 16) & 0xffff);
+ buffer[nr++] = (uint8_t)((msg->data[i] >> 8) & 0xff);
+ buffer[nr++] = (uint8_t)(msg->data[i] & 0xff);
+ }
+
+ *size = nr;
+}
+
+// write all param files in the devicelist to the target
+enum Tfa98xx_Error tfaContWriteFiles(struct tfa_device *tfa)
+{
+ nxpTfaDeviceList_t *dev = tfaContDevice(tfa->cnt, tfa->dev_idx);
+ nxpTfaFileDsc_t *file;
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ char buffer[(MEMTRACK_MAX_WORDS * 3) + 3] = { 0 }; //every word requires 3 and 3 is the msg
+ int i, size = 0;
+
+ if (!dev) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ /* process the list and write all files */
+ for (i = 0; i < dev->length; i++) {
+ if (dev->list[i].type == dscFile) {
+ file = (nxpTfaFileDsc_t *)(dev->list[i].offset + (uint8_t *)tfa->cnt);
+ if (tfaContWriteFile(tfa, file, 0, TFA_MAX_VSTEP_MSG_MARKER)) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ }
+
+ if (dev->list[i].type == dscSetInputSelect ||
+ dev->list[i].type == dscSetOutputSelect ||
+ dev->list[i].type == dscSetProgramConfig ||
+ dev->list[i].type == dscSetLagW ||
+ dev->list[i].type == dscSetGains ||
+ dev->list[i].type == dscSetvBatFactors ||
+ dev->list[i].type == dscSetSensesCal ||
+ dev->list[i].type == dscSetSensesDelay ||
+ dev->list[i].type == dscSetMBDrc ||
+ dev->list[i].type == dscSetFwkUseCase ||
+ dev->list[i].type == dscSetVddpConfig) {
+ create_dsp_buffer_msg(tfa, (nxpTfaMsg_t *)
+ (dev->list[i].offset + (char*)tfa->cnt), buffer, &size);
+ if (tfa->verbose) {
+ pr_debug("command: %s=0x%02x%02x%02x \n",
+ tfaContGetCommandString(dev->list[i].type),
+ (unsigned char)buffer[0], (unsigned char)buffer[1], (unsigned char)buffer[2]);
+ }
+
+ err = dsp_msg(tfa, size, buffer);
+ }
+
+ if (dev->list[i].type == dscCmd) {
+ size = *(uint16_t *)(dev->list[i].offset + (char*)tfa->cnt);
+
+ err = dsp_msg(tfa, size, dev->list[i].offset + 2 + (char*)tfa->cnt);
+ if (tfa->verbose) {
+ const char *cmd_id = dev->list[i].offset + 2 + (char*)tfa->cnt;
+ pr_debug("Writing cmd=0x%02x%02x%02x \n", (uint8_t)cmd_id[0], (uint8_t)cmd_id[1], (uint8_t)cmd_id[2]);
+ }
+ }
+ if (err != Tfa98xx_Error_Ok)
+ break;
+
+ if (dev->list[i].type == dscCfMem) {
+ err = tfaRunWriteDspMem(tfa, (nxpTfaDspMem_t *)(dev->list[i].offset + (uint8_t *)tfa->cnt));
+ }
+
+ if (err != Tfa98xx_Error_Ok)
+ break;
+ }
+
+ return err;
+}
+
+/*
+ * write all param files in the profilelist to the target
+ * this is used during startup when maybe ACS is set
+ */
+enum Tfa98xx_Error tfaContWriteFilesProf(struct tfa_device *tfa, int prof_idx, int vstep_idx)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaProfileList_t *prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, prof_idx);
+ char buffer[(MEMTRACK_MAX_WORDS * 3) + 3] = { 0 }; //every word requires 3 and 3 is the msg
+ unsigned int i;
+ nxpTfaFileDsc_t *file;
+ nxpTfaPatch_t *patchfile;
+ int size;
+
+ if (!prof) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ /* process the list and write all files */
+ for (i = 0; i < prof->length; i++) {
+ switch (prof->list[i].type) {
+ case dscFile:
+ file = (nxpTfaFileDsc_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt);
+ err = tfaContWriteFile(tfa, file, vstep_idx, TFA_MAX_VSTEP_MSG_MARKER);
+ break;
+ case dscPatch:
+ file = (nxpTfaFileDsc_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt);
+ patchfile = (nxpTfaPatch_t *)&file->data;
+ if (tfa->verbose) tfaContShowHeader(&patchfile->hdr);
+ size = patchfile->hdr.size - sizeof(nxpTfaPatch_t); // size is total length
+ err = tfa_dsp_patch(tfa, size, (const unsigned char *)patchfile->data);
+ break;
+ case dscCfMem:
+ err = tfaRunWriteDspMem(tfa, (nxpTfaDspMem_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt));
+ break;
+ case dscSetInputSelect:
+ case dscSetOutputSelect:
+ case dscSetProgramConfig:
+ case dscSetLagW:
+ case dscSetGains:
+ case dscSetvBatFactors:
+ case dscSetSensesCal:
+ case dscSetSensesDelay:
+ case dscSetMBDrc:
+ case dscSetFwkUseCase:
+ case dscSetVddpConfig:
+ create_dsp_buffer_msg(tfa, (nxpTfaMsg_t *)
+ (prof->list[i].offset + (uint8_t *)tfa->cnt), buffer, &size);
+ if (tfa->verbose) {
+ pr_debug("command: %s=0x%02x%02x%02x \n",
+ tfaContGetCommandString(prof->list[i].type),
+ (unsigned char)buffer[0], (unsigned char)buffer[1], (unsigned char)buffer[2]);
+ }
+
+ err = dsp_msg(tfa, size, buffer);
+ break;
+ default:
+ /* ignore any other type */
+ break;
+ }
+ }
+
+ return err;
+}
+
+static enum Tfa98xx_Error tfaContWriteItem(struct tfa_device *tfa, nxpTfaDescPtr_t * dsc)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaRegpatch_t *reg;
+ nxpTfaMode_t *cas;
+ nxpTfaBitfield_t *bitf;
+
+ // When no DSP should only write to HW registers.
+ if (tfa->ext_dsp == 0 && !(dsc->type == dscBitfield || dsc->type == dscRegister)) {
+ return Tfa98xx_Error_Ok;
+ }
+
+ switch (dsc->type) {
+ case dscDefault:
+ case dscDevice: // ignore
+ case dscProfile: // profile list
+ break;
+ case dscRegister: // register patch
+ reg = (nxpTfaRegpatch_t *)(dsc->offset + (uint8_t *)tfa->cnt);
+ return tfaRunWriteRegister(tfa, reg);
+ //pr_debug("$0x%2x=0x%02x,0x%02x\n", reg->address, reg->mask, reg->value);
+ break;
+ case dscString: // ascii: zero terminated string
+ pr_debug(";string: %s\n", tfaContGetString(tfa->cnt, dsc));
+ break;
+ case dscFile: // filename + file contents
+ case dscPatch:
+ break;
+ case dscMode:
+ cas = (nxpTfaMode_t *)(dsc->offset + (uint8_t *)tfa->cnt);
+ if (cas->value == Tfa98xx_Mode_RCV)
+ tfa98xx_select_mode(tfa, Tfa98xx_Mode_RCV);
+ else
+ tfa98xx_select_mode(tfa, Tfa98xx_Mode_Normal);
+ break;
+ case dscCfMem:
+ err = tfaRunWriteDspMem(tfa, (nxpTfaDspMem_t *)(dsc->offset + (uint8_t *)tfa->cnt));
+ break;
+ case dscBitfield:
+ bitf = (nxpTfaBitfield_t *)(dsc->offset + (uint8_t *)tfa->cnt);
+ return tfaRunWriteBitfield(tfa, *bitf);
+ break;
+ case dscFilter:
+ return tfaRunWriteFilter(tfa, (nxpTfaContBiquad_t *)(dsc->offset + (uint8_t *)tfa->cnt));
+ break;
+ }
+
+ return err;
+}
+
+static unsigned int tfa98xx_sr_from_field(unsigned int field)
+{
+ switch (field) {
+ case 0:
+ return 8000;
+ case 1:
+ return 11025;
+ case 2:
+ return 12000;
+ case 3:
+ return 16000;
+ case 4:
+ return 22050;
+ case 5:
+ return 24000;
+ case 6:
+ return 32000;
+ case 7:
+ return 44100;
+ case 8:
+ return 48000;
+ default:
+ return 0;
+ }
+}
+
+enum Tfa98xx_Error tfa_write_filters(struct tfa_device *tfa, int prof_idx)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaProfileList_t *prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, prof_idx);
+ unsigned int i;
+ int status;
+
+ if (!prof) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ if (tfa->verbose) {
+ pr_debug("----- profile: %s (%d) -----\n", tfaContGetString(tfa->cnt, &prof->name), prof_idx);
+ pr_debug("Waiting for CLKS... \n");
+ }
+
+ for (i = 10; i > 0; i--) {
+ err = tfa98xx_dsp_system_stable(tfa, &status);
+ if (status)
+ break;
+ else
+ msleep_interruptible(10);
+ }
+
+ if (i == 0) {
+ if (tfa->verbose)
+ pr_err("Unable to write filters, CLKS=0 \n");
+
+ return Tfa98xx_Error_StateTimedOut;
+ }
+
+ /* process the list until the end of the profile or the default section */
+ for (i = 0; i < prof->length; i++) {
+ if (prof->list[i].type == dscFilter) {
+ if (tfaContWriteItem(tfa, &prof->list[i]) != Tfa98xx_Error_Ok)
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ }
+
+ return err;
+}
+
+unsigned int tfa98xx_get_profile_sr(struct tfa_device *tfa, unsigned int prof_idx)
+{
+ nxpTfaBitfield_t *bitf;
+ unsigned int i;
+ nxpTfaDeviceList_t *dev;
+ nxpTfaProfileList_t *prof;
+ int fs_profile = -1;
+
+ dev = tfaContDevice(tfa->cnt, tfa->dev_idx);
+ if (!dev)
+ return 0;
+
+ prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, prof_idx);
+ if (!prof)
+ return 0;
+
+ /* Check profile fields first */
+ for (i = 0; i < prof->length; i++) {
+ if (prof->list[i].type == dscDefault)
+ break;
+
+ /* check for profile settingd (AUDFS) */
+ if (prof->list[i].type == dscBitfield) {
+ bitf = (nxpTfaBitfield_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt);
+ if (bitf->field == TFA_FAM(tfa, AUDFS)) {
+ fs_profile = bitf->value;
+ break;
+ }
+ }
+ }
+
+ if (tfa->verbose)
+ pr_debug("%s - profile fs: 0x%x = %dHz (%d - %d)\n",
+ __FUNCTION__, fs_profile,
+ tfa98xx_sr_from_field(fs_profile),
+ tfa->dev_idx, prof_idx);
+
+ if (fs_profile != -1)
+ return tfa98xx_sr_from_field(fs_profile);
+
+ /* Check for container default setting */
+ /* process the list until a patch, file of profile is encountered */
+ for (i = 0; i < dev->length; i++) {
+ if (dev->list[i].type == dscPatch ||
+ dev->list[i].type == dscFile ||
+ dev->list[i].type == dscProfile)
+ break;
+
+ if (dev->list[i].type == dscBitfield) {
+ bitf = (nxpTfaBitfield_t *)(dev->list[i].offset + (uint8_t *)tfa->cnt);
+ if (bitf->field == TFA_FAM(tfa, AUDFS)) {
+ fs_profile = bitf->value;
+ break;
+ }
+ }
+ /* Ignore register case */
+ }
+
+ if (tfa->verbose)
+ pr_debug("%s - default fs: 0x%x = %dHz (%d - %d)\n",
+ __FUNCTION__, fs_profile,
+ tfa98xx_sr_from_field(fs_profile),
+ tfa->dev_idx, prof_idx);
+
+ if (fs_profile != -1)
+ return tfa98xx_sr_from_field(fs_profile);
+
+ return 48000; /* default of HW */
+}
+
+static enum Tfa98xx_Error get_sample_rate_info(struct tfa_device *tfa, nxpTfaProfileList_t *prof, nxpTfaProfileList_t *previous_prof, int fs_previous_profile)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaBitfield_t *bitf;
+ unsigned int i;
+ int fs_default_profile = 8; /* default is 48kHz */
+ int fs_next_profile = 8; /* default is 48kHz */
+
+
+ /* ---------- default settings previous profile ---------- */
+ for (i = 0; i < previous_prof->length; i++) {
+ /* Search for the default section */
+ if (i == 0) {
+ while (previous_prof->list[i].type != dscDefault && i < previous_prof->length) {
+ i++;
+ }
+ i++;
+ }
+
+ /* Only if we found the default section search for AUDFS */
+ if (i < previous_prof->length) {
+ if (previous_prof->list[i].type == dscBitfield) {
+ bitf = (nxpTfaBitfield_t *)(previous_prof->list[i].offset + (uint8_t *)tfa->cnt);
+ if (bitf->field == TFA_FAM(tfa, AUDFS)) {
+ fs_default_profile = bitf->value;
+ break;
+ }
+ }
+ }
+ }
+
+ /* ---------- settings next profile ---------- */
+ for (i = 0; i < prof->length; i++) {
+ /* We only want to write the values before the default section */
+ if (prof->list[i].type == dscDefault)
+ break;
+ /* search for AUDFS */
+ if (prof->list[i].type == dscBitfield) {
+ bitf = (nxpTfaBitfield_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt);
+ if (bitf->field == TFA_FAM(tfa, AUDFS)) {
+ fs_next_profile = bitf->value;
+ break;
+ }
+ }
+ }
+
+ /* Enable if needed for debugging!
+ if (tfa->verbose) {
+ pr_debug("sample rate from the previous profile: %d \n", fs_previous_profile);
+ pr_debug("sample rate in the default section: %d \n", fs_default_profile);
+ pr_debug("sample rate for the next profile: %d \n", fs_next_profile);
+ }
+ */
+
+ if (fs_next_profile != fs_default_profile) {
+ if (tfa->verbose)
+ pr_debug("Writing delay tables for AUDFS=%d \n", fs_next_profile);
+
+ /* If the AUDFS from the next profile is not the same as
+ * the AUDFS from the default we need to write new delay tables
+ */
+ err = tfa98xx_dsp_write_tables(tfa, fs_next_profile);
+ }
+ else if (fs_default_profile != fs_previous_profile) {
+ if (tfa->verbose)
+ pr_debug("Writing delay tables for AUDFS=%d \n", fs_default_profile);
+
+ /* But if we do not have a new AUDFS in the next profile and
+ * the AUDFS from the default profile is not the same as the AUDFS
+ * from the previous profile we also need to write new delay tables
+ */
+ err = tfa98xx_dsp_write_tables(tfa, fs_default_profile);
+ }
+
+ return err;
+}
+
+/*
+ * process all items in the profilelist
+ * NOTE an error return during processing will leave the device muted
+ *
+ */
+enum Tfa98xx_Error tfaContWriteProfile(struct tfa_device *tfa, int prof_idx, int vstep_idx)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaProfileList_t *prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, prof_idx);
+ nxpTfaProfileList_t *previous_prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, tfa_dev_get_swprof(tfa));
+ char buffer[(MEMTRACK_MAX_WORDS * 4) + 4] = { 0 }; //every word requires 3 or 4 bytes, and 3 or 4 is the msg
+ unsigned int i, k = 0, j = 0, tries = 0;
+ nxpTfaFileDsc_t *file;
+ int size = 0, ready, fs_previous_profile = 8; /* default fs is 48kHz*/
+
+ if (!prof || !previous_prof) {
+ pr_err("Error trying to get the (previous) swprofile \n");
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ if (tfa->verbose) {
+ tfa98xx_trace_printk("device:%s profile:%s vstep:%d\n", tfaContDeviceName(tfa->cnt, tfa->dev_idx),
+ tfaContProfileName(tfa->cnt, tfa->dev_idx, prof_idx), vstep_idx);
+ }
+
+ /* We only make a power cycle when the profiles are not in the same group */
+ if (prof->group == previous_prof->group && prof->group != 0) {
+ if (tfa->verbose) {
+ pr_debug("The new profile (%s) is in the same group as the current profile (%s) \n",
+ tfaContGetString(tfa->cnt, &prof->name), tfaContGetString(tfa->cnt, &previous_prof->name));
+ }
+ }
+ else {
+ /* mute */
+ err = tfaRunMute(tfa);
+ if (err) return err;
+
+ /* Get current sample rate before we start switching */
+ fs_previous_profile = TFA_GET_BF(tfa, AUDFS);
+
+ /* clear SBSL to make sure we stay in initCF state */
+ if (tfa->tfa_family == 2) {
+ TFA_SET_BF_VOLATILE(tfa, SBSL, 0);
+ }
+
+ /* When we switch profile we first power down the subsystem
+ * This should only be done when we are in operating mode
+ */
+ if (((tfa->tfa_family == 2) && (TFA_GET_BF(tfa, MANSTATE) >= 6)) || (tfa->tfa_family != 2)) {
+ err = tfa98xx_powerdown(tfa, 1);
+ if (err) return err;
+
+ /* Wait until we are in PLL powerdown */
+ do {
+ err = tfa98xx_dsp_system_stable(tfa, &ready);
+ if (!ready)
+ break;
+ else
+ msleep_interruptible(10); /* wait 10ms to avoid busload */
+ tries++;
+ } while (tries <= 100);
+
+ if (tries > 100) {
+ pr_debug("Wait for PLL powerdown timed out!\n");
+ return Tfa98xx_Error_StateTimedOut;
+ }
+ }
+ else {
+ pr_debug("No need to go to powerdown now \n");
+ }
+ }
+
+ /* set all bitfield settings */
+ /* First set all default settings */
+ if (tfa->verbose) {
+ pr_debug("---------- default settings profile: %s (%d) ---------- \n",
+ tfaContGetString(tfa->cnt, &previous_prof->name), tfa_dev_get_swprof(tfa));
+ }
+
+ err = show_current_state(tfa);
+
+ /* Loop profile length */
+ for (i = 0; i < previous_prof->length; i++) {
+ /* Search for the default section */
+ if (i == 0) {
+ while (previous_prof->list[i].type != dscDefault && i < previous_prof->length) {
+ i++;
+ }
+ i++;
+ }
+
+ /* Only if we found the default section try writing the items */
+ if (i < previous_prof->length) {
+ if (tfaContWriteItem(tfa, &previous_prof->list[i]) != Tfa98xx_Error_Ok)
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ }
+
+ if (tfa->verbose)
+ pr_debug("---------- new settings profile: %s (%d) ---------- \n",
+ tfaContGetString(tfa->cnt, &prof->name), prof_idx);
+
+ /* set new settings */
+ for (i = 0; i < prof->length; i++) {
+ /* Remember where we currently are with writing items*/
+ j = i;
+
+ /* We only want to write the values before the default section when we switch profile */
+ /* process and write all non-file items */
+ switch (prof->list[i].type) {
+ case dscFile:
+ case dscPatch:
+ case dscSetInputSelect:
+ case dscSetOutputSelect:
+ case dscSetProgramConfig:
+ case dscSetLagW:
+ case dscSetGains:
+ case dscSetvBatFactors:
+ case dscSetSensesCal:
+ case dscSetSensesDelay:
+ case dscSetMBDrc:
+ case dscSetFwkUseCase:
+ case dscSetVddpConfig:
+ case dscCmd:
+ case dscFilter:
+ case dscDefault:
+ /* When one of these files are found, we exit */
+ i = prof->length;
+ break;
+ default:
+ err = tfaContWriteItem(tfa, &prof->list[i]);
+ if (err != Tfa98xx_Error_Ok)
+ return Tfa98xx_Error_Bad_Parameter;
+ break;
+ }
+ }
+
+ if (prof->group != previous_prof->group || prof->group == 0) {
+ if (tfa->tfa_family == 2)
+ TFA_SET_BF_VOLATILE(tfa, MANSCONF, 1);
+
+ /* Leave powerdown state */
+ err = tfa_cf_powerup(tfa);
+ if (err) return err;
+
+ err = show_current_state(tfa);
+
+ if (tfa->tfa_family == 2) {
+ /* Reset SBSL to 0 (workaround of enbl_powerswitch=0) */
+ TFA_SET_BF_VOLATILE(tfa, SBSL, 0);
+ /* Sending commands to DSP we need to make sure RST is 0 (otherwise we get no response)*/
+ TFA_SET_BF(tfa, RST, 0);
+ }
+ }
+
+ /* Check if there are sample rate changes */
+ err = get_sample_rate_info(tfa, prof, previous_prof, fs_previous_profile);
+ if (err) return err;
+
+
+ /* Write files from previous profile (default section)
+ * Should only be used for the patch&trap patch (file)
+ */
+ if (tfa->ext_dsp != 0) {
+ if (tfa->tfa_family == 2) {
+ for (i = 0; i < previous_prof->length; i++) {
+ /* Search for the default section */
+ if (i == 0) {
+ while (previous_prof->list[i].type != dscDefault && i < previous_prof->length) {
+ i++;
+ }
+ i++;
+ }
+
+ /* Only if we found the default section try writing the file */
+ if (i < previous_prof->length) {
+ if (previous_prof->list[i].type == dscFile || previous_prof->list[i].type == dscPatch) {
+ /* Only write this once */
+ if (tfa->verbose && k == 0) {
+ pr_debug("---------- files default profile: %s (%d) ---------- \n",
+ tfaContGetString(tfa->cnt, &previous_prof->name), prof_idx);
+ k++;
+ }
+ file = (nxpTfaFileDsc_t *)(previous_prof->list[i].offset + (uint8_t *)tfa->cnt);
+ err = tfaContWriteFile(tfa, file, vstep_idx, TFA_MAX_VSTEP_MSG_MARKER);
+ }
+ }
+ }
+ }
+
+ if (tfa->verbose) {
+ pr_debug("---------- files new profile: %s (%d) ---------- \n",
+ tfaContGetString(tfa->cnt, &prof->name), prof_idx);
+ }
+ }
+
+ /* write everything until end or the default section starts
+ * Start where we currenly left */
+ for (i = j; i < prof->length; i++) {
+ /* We only want to write the values before the default section when we switch profile */
+
+ if (prof->list[i].type == dscDefault) {
+ break;
+ }
+
+ switch (prof->list[i].type) {
+ case dscFile:
+ case dscPatch:
+ /* For tiberius stereo 1 device does not have a dsp! */
+ if (tfa->ext_dsp != 0) {
+ file = (nxpTfaFileDsc_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt);
+ err = tfaContWriteFile(tfa, file, vstep_idx, TFA_MAX_VSTEP_MSG_MARKER);
+ }
+ break;
+ case dscSetInputSelect:
+ case dscSetOutputSelect:
+ case dscSetProgramConfig:
+ case dscSetLagW:
+ case dscSetGains:
+ case dscSetvBatFactors:
+ case dscSetSensesCal:
+ case dscSetSensesDelay:
+ case dscSetMBDrc:
+ case dscSetFwkUseCase:
+ case dscSetVddpConfig:
+ /* For tiberius stereo 1 device does not have a dsp! */
+ if (tfa->ext_dsp != 0) {
+ create_dsp_buffer_msg(tfa, (nxpTfaMsg_t *)
+ (prof->list[i].offset + (char*)tfa->cnt), buffer, &size);
+ err = dsp_msg(tfa, size, buffer);
+
+ if (tfa->verbose) {
+ pr_debug("command: %s=0x%02x%02x%02x \n",
+ tfaContGetCommandString(prof->list[i].type),
+ (unsigned char)buffer[0], (unsigned char)buffer[1], (unsigned char)buffer[2]);
+ }
+ }
+ break;
+ case dscCmd:
+ /* For tiberius stereo 1 device does not have a dsp! */
+ if (tfa->ext_dsp != 0) {
+ size = *(uint16_t *)(prof->list[i].offset + (char*)tfa->cnt);
+ err = dsp_msg(tfa, size, prof->list[i].offset + 2 + (char*)tfa->cnt);
+ if (tfa->verbose) {
+ const char *cmd_id = prof->list[i].offset + 2 + (char*)tfa->cnt;
+ pr_debug("Writing cmd=0x%02x%02x%02x \n", (uint8_t)cmd_id[0], (uint8_t)cmd_id[1], (uint8_t)cmd_id[2]);
+ }
+ }
+ break;
+ default:
+ /* This allows us to write bitfield, registers or xmem after files */
+ if (tfaContWriteItem(tfa, &prof->list[i]) != Tfa98xx_Error_Ok) {
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+ break;
+ }
+
+ if (err != Tfa98xx_Error_Ok) {
+ return err;
+ }
+ }
+
+ if ((prof->group != previous_prof->group || prof->group == 0) && (tfa->tfa_family == 2)) {
+ if (TFA_GET_BF(tfa, REFCKSEL) == 0) {
+ /* set SBSL to go to operation mode */
+ TFA_SET_BF_VOLATILE(tfa, SBSL, 1);
+ }
+ }
+
+ return err;
+}
+
+/*
+ * process only vstep in the profilelist
+ *
+ */
+enum Tfa98xx_Error tfaContWriteFilesVstep(struct tfa_device *tfa, int prof_idx, int vstep_idx)
+{
+ nxpTfaProfileList_t *prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, prof_idx);
+ unsigned int i;
+ nxpTfaFileDsc_t *file;
+ nxpTfaHeader_t *hdr;
+ nxpTfaHeaderType_t type;
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ if (!prof)
+ return Tfa98xx_Error_Bad_Parameter;
+
+ if (tfa->verbose)
+ tfa98xx_trace_printk("device:%s profile:%s vstep:%d\n", tfaContDeviceName(tfa->cnt, tfa->dev_idx),
+ tfaContProfileName(tfa->cnt, tfa->dev_idx, prof_idx), vstep_idx);
+
+ /* write vstep file only! */
+ for (i = 0; i < prof->length; i++) {
+ if (prof->list[i].type == dscFile) {
+ file = (nxpTfaFileDsc_t *)(prof->list[i].offset + (uint8_t *)tfa->cnt);
+ hdr = (nxpTfaHeader_t *)file->data;
+ type = (nxpTfaHeaderType_t)hdr->id;
+
+ switch (type) {
+ case volstepHdr:
+ if (tfaContWriteFile(tfa, file, vstep_idx, TFA_MAX_VSTEP_MSG_MARKER))
+ return Tfa98xx_Error_Bad_Parameter;
+ break;
+ default:
+ break;
+ }
+ }
+ }
+
+ return err;
+}
+
+char *tfaContGetString(nxpTfaContainer_t *cnt, nxpTfaDescPtr_t *dsc)
+{
+ if (dsc->type != dscString)
+ return "Undefined string";
+
+ return dsc->offset + (char*)cnt;
+}
+
+char *tfaContGetCommandString(uint32_t type)
+{
+ if (type == dscSetInputSelect)
+ return "SetInputSelector";
+ else if (type == dscSetOutputSelect)
+ return "SetOutputSelector";
+ else if (type == dscSetProgramConfig)
+ return "SetProgramConfig";
+ else if (type == dscSetLagW)
+ return "SetLagW";
+ else if (type == dscSetGains)
+ return "SetGains";
+ else if (type == dscSetvBatFactors)
+ return "SetvBatFactors";
+ else if (type == dscSetSensesCal)
+ return "SetSensesCal";
+ else if (type == dscSetSensesDelay)
+ return "SetSensesDelay";
+ else if (type == dscSetMBDrc)
+ return "SetMBDrc";
+ else if (type == dscSetFwkUseCase)
+ return "SetFwkUseCase";
+ else if (type == dscSetVddpConfig)
+ return "SetVddpConfig";
+ else if (type == dscFilter)
+ return "filter";
+ else
+ return "Undefined string";
+}
+
+/*
+ * Get the name of the device at a certain index in the container file
+ * return device name
+ */
+char *tfaContDeviceName(nxpTfaContainer_t *cnt, int dev_idx)
+{
+ nxpTfaDeviceList_t *dev;
+
+ dev = tfaContDevice(cnt, dev_idx);
+ if (dev == NULL)
+ return "!ERROR!";
+
+ return tfaContGetString(cnt, &dev->name);
+}
+
+/*
+ * Get the application name from the container file application field
+ * note that the input stringbuffer should be sizeof(application field)+1
+ *
+ */
+int tfa_cnt_get_app_name(struct tfa_device *tfa, char *name)
+{
+ unsigned int i;
+ int len = 0;
+
+ for (i = 0; i < sizeof(tfa->cnt->application); i++) {
+ if (isalnum(tfa->cnt->application[i])) /* copy char if valid */
+ name[len++] = tfa->cnt->application[i];
+ if (tfa->cnt->application[i] == '\0')
+ break;
+ }
+ name[len++] = '\0';
+
+ return len;
+}
+
+/*
+ * Get profile index of the calibration profile.
+ * Returns: (profile index) if found, (-2) if no
+ * calibration profile is found or (-1) on error
+ */
+int tfaContGetCalProfile(struct tfa_device *tfa)
+{
+ int prof, cal_idx = -2;
+
+ if ((tfa->dev_idx < 0) || (tfa->dev_idx >= tfa->cnt->ndev))
+ return -1;
+
+ /* search for the calibration profile in the list of profiles */
+ for (prof = 0; prof < tfa->cnt->nprof; prof++) {
+ if (strstr(tfaContProfileName(tfa->cnt, tfa->dev_idx, prof), ".cal") != NULL) {
+ cal_idx = prof;
+ pr_debug("Using calibration profile: '%s'\n", tfaContProfileName(tfa->cnt, tfa->dev_idx, prof));
+ break;
+ }
+ }
+
+ return cal_idx;
+}
+
+/**
+ * Is the profile a tap profile
+ */
+int tfaContIsTapProfile(struct tfa_device *tfa, int prof_idx)
+{
+ if ((tfa->dev_idx < 0) || (tfa->dev_idx >= tfa->cnt->ndev))
+ return -1;
+
+ /* Check if next profile is tap profile */
+ if (strstr(tfaContProfileName(tfa->cnt, tfa->dev_idx, prof_idx), ".tap") != NULL) {
+ pr_debug("Using Tap profile: '%s'\n", tfaContProfileName(tfa->cnt, tfa->dev_idx, prof_idx));
+ return 1;
+ }
+
+ return 0;
+}
+
+/*
+ * Get the name of the profile at certain index for a device in the container file
+ * return profile name
+ */
+char *tfaContProfileName(nxpTfaContainer_t *cnt, int dev_idx, int prof_idx)
+{
+ nxpTfaProfileList_t *prof = NULL;
+
+ /* the Nth profiles for this device */
+ prof = tfaContGetDevProfList(cnt, dev_idx, prof_idx);
+
+ /* If the index is out of bound */
+ if (prof == NULL)
+ return "NONE";
+
+ return tfaContGetString(cnt, &prof->name);
+}
+
+/*
+ * return 1st profile list
+ */
+nxpTfaProfileList_t *tfaContGet1stProfList(nxpTfaContainer_t * cont)
+{
+ nxpTfaProfileList_t *prof;
+ uint8_t *b = (uint8_t *)cont;
+
+ int maxdev = 0;
+ nxpTfaDeviceList_t *dev;
+
+ // get nr of devlists
+ maxdev = cont->ndev;
+ // get last devlist
+ dev = tfaContGetDevList(cont, maxdev - 1);
+ if (dev == NULL)
+ return NULL;
+ // the 1st profile starts after the last device list
+ b = (uint8_t *)dev + sizeof(nxpTfaDeviceList_t) + dev->length * (sizeof(nxpTfaDescPtr_t));
+ prof = (nxpTfaProfileList_t *)b;
+ return prof;
+}
+
+/*
+ * return 1st livedata list
+ */
+nxpTfaLiveDataList_t *tfaContGet1stLiveDataList(nxpTfaContainer_t * cont)
+{
+ nxpTfaLiveDataList_t *ldata;
+ nxpTfaProfileList_t *prof;
+ nxpTfaDeviceList_t *dev;
+ uint8_t *b = (uint8_t *)cont;
+ int maxdev, maxprof;
+
+ // get nr of devlists+1
+ maxdev = cont->ndev;
+ // get nr of proflists
+ maxprof = cont->nprof;
+
+ // get last devlist
+ dev = tfaContGetDevList(cont, maxdev - 1);
+ // the 1st livedata starts after the last device list
+ b = (uint8_t *)dev + sizeof(nxpTfaDeviceList_t) +
+ dev->length * (sizeof(nxpTfaDescPtr_t));
+
+ while (maxprof != 0) {
+ // get last proflist
+ prof = (nxpTfaProfileList_t *)b;
+ b += sizeof(nxpTfaProfileList_t) +
+ ((prof->length - 1) * (sizeof(nxpTfaDescPtr_t)));
+ maxprof--;
+ }
+
+ /* Else the marker falls off */
+ b += 4; //bytes
+
+ ldata = (nxpTfaLiveDataList_t *)b;
+ return ldata;
+}
+
+/*
+ * return the device list pointer
+ */
+nxpTfaDeviceList_t *tfaContDevice(nxpTfaContainer_t *cnt, int dev_idx)
+{
+ return tfaContGetDevList(cnt, dev_idx);
+}
+
+/*
+ * return the next profile:
+ * - assume that all profiles are adjacent
+ * - calculate the total length of the input
+ * - the input profile + its length is the next profile
+ */
+nxpTfaProfileList_t* tfaContNextProfile(nxpTfaProfileList_t* prof) {
+ uint8_t *this, *next; /* byte pointers for byte pointer arithmetic */
+ nxpTfaProfileList_t* nextprof;
+ int listlength; /* total length of list in bytes */
+
+ if (prof == NULL)
+ return NULL;
+
+ if (prof->ID != TFA_PROFID)
+ return NULL; /* invalid input */
+
+ this = (uint8_t *)prof;
+ /* nr of items in the list, length includes name dsc so - 1*/
+ listlength = (prof->length - 1) * sizeof(nxpTfaDescPtr_t);
+ /* the sizeof(nxpTfaProfileList_t) includes the list[0] length */
+ next = this + listlength + sizeof(nxpTfaProfileList_t);// - sizeof(nxpTfaDescPtr_t);
+ nextprof = (nxpTfaProfileList_t *)next;
+
+ if (nextprof->ID != TFA_PROFID)
+ return NULL;
+
+ return nextprof;
+}
+
+/*
+ * return the next livedata
+ */
+nxpTfaLiveDataList_t* tfaContNextLiveData(nxpTfaLiveDataList_t* livedata) {
+ nxpTfaLiveDataList_t* nextlivedata = (nxpTfaLiveDataList_t *)((char*)livedata + (livedata->length * 4) +
+ sizeof(nxpTfaLiveDataList_t) - 4);
+
+ if (nextlivedata->ID == TFA_LIVEDATAID)
+ return nextlivedata;
+
+ return NULL;
+}
+
+/*
+ * check CRC for container
+ * CRC is calculated over the bytes following the CRC field
+ *
+ * return non zero value on error
+ */
+int tfaContCrcCheckContainer(nxpTfaContainer_t *cont)
+{
+ uint8_t *base;
+ size_t size;
+ uint32_t crc;
+
+ base = (uint8_t *)&cont->CRC + 4; // ptr to bytes following the CRC field
+ size = (size_t)(cont->size - (base - (uint8_t *)cont)); // nr of bytes following the CRC field
+ crc = ~crc32_le(~0u, base, size);
+
+ return crc != cont->CRC;
+}
+
+static void get_all_features_from_cnt(struct tfa_device *tfa, int *hw_feature_register, int sw_feature_register[2])
+{
+ nxpTfaFeatures_t *features;
+ int i;
+
+ nxpTfaDeviceList_t *dev = tfaContDevice(tfa->cnt, tfa->dev_idx);
+
+ /* Init values in case no keyword is defined in cnt file: */
+ *hw_feature_register = -1;
+ sw_feature_register[0] = -1;
+ sw_feature_register[1] = -1;
+
+ if (dev == NULL)
+ return;
+
+ // process the device list
+ for (i = 0; i < dev->length; i++) {
+ if (dev->list[i].type == dscFeatures) {
+ features = (nxpTfaFeatures_t *)(dev->list[i].offset + (uint8_t *)tfa->cnt);
+ *hw_feature_register = features->value[0];
+ sw_feature_register[0] = features->value[1];
+ sw_feature_register[1] = features->value[2];
+ break;
+ }
+ }
+}
+
+/* wrapper function */
+void get_hw_features_from_cnt(struct tfa_device *tfa, int *hw_feature_register)
+{
+ int sw_feature_register[2];
+ get_all_features_from_cnt(tfa, hw_feature_register, sw_feature_register);
+}
+
+/* wrapper function */
+void get_sw_features_from_cnt(struct tfa_device *tfa, int sw_feature_register[2])
+{
+ int hw_feature_register;
+ get_all_features_from_cnt(tfa, &hw_feature_register, sw_feature_register);
+}
+
+enum Tfa98xx_Error tfa98xx_factory_trimmer(struct tfa_device *tfa)
+{
+ return (tfa->dev_ops.factory_trimmer)(tfa);
+}
+
+enum Tfa98xx_Error tfa_set_filters(struct tfa_device *tfa, int prof_idx)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaProfileList_t *prof = tfaContGetDevProfList(tfa->cnt, tfa->dev_idx, prof_idx);
+ unsigned int i;
+
+ if (!prof)
+ return Tfa98xx_Error_Bad_Parameter;
+
+ /* If we are in powerdown there is no need to set filters */
+ if (TFA_GET_BF(tfa, PWDN) == 1)
+ return Tfa98xx_Error_Ok;
+
+ /* loop the profile to find filter settings */
+ for (i = 0; i < prof->length; i++) {
+ /* We only want to write the values before the default section */
+ if (prof->list[i].type == dscDefault)
+ break;
+
+ /* write all filter settings */
+ if (prof->list[i].type == dscFilter) {
+ if (tfaContWriteItem(tfa, &prof->list[i]) != Tfa98xx_Error_Ok)
+ return err;
+ }
+ }
+
+ return err;
+}
+
+int tfa_tib_dsp_msgmulti(struct tfa_device *tfa, int length, const char *buffer)
+{
+ uint8_t *buf = (uint8_t *)buffer;
+ static uint8_t *blob = NULL, *blobptr; /* TODO: not multi-thread safe */
+ static int total = 0; /* TODO: not multi-thread safe */
+ int post_len = 0;
+
+ /* checks for 24b_BE or 32_LE */
+ int len_word_in_bytes = (tfa->convert_dsp32) ? 4 : 3;
+ /* TODO: get rid of these magic constants max size should depend on the tfa device type */
+ int tfadsp_max_msg_size = (tfa->convert_dsp32) ? 5336 : 4000;
+
+ /* No data found*/
+ if (length == -1 && blob == NULL) {
+ return -1;
+ }
+
+ if (length == -1) {
+ int i;
+ /* set last length field to zero */
+ for (i = total; i < (total + len_word_in_bytes); i++) {
+ blob[i] = 0;
+ }
+ total += len_word_in_bytes;
+ memcpy(buf, blob, total);
+
+ kfree(blob);
+ blob = NULL; /* Set to NULL pointer, otherwise no new malloc is done! */
+ return total;
+ }
+
+ if (blob == NULL) {
+ if (tfa->verbose)
+ pr_debug("%s, Creating the multi-message \n\n", __FUNCTION__);
+
+ blob = kmalloc(tfadsp_max_msg_size, GFP_KERNEL);
+ /* add command ID for multi-msg = 0x008015 */
+ if (tfa->convert_dsp32) {
+ blob[0] = 0x15;
+ blob[1] = 0x80;
+ blob[2] = 0x0;
+ blob[3] = 0x0;
+ }
+ else {
+ blob[0] = 0x0;
+ blob[1] = 0x80;
+ blob[2] = 0x15;
+ }
+ blobptr = blob;
+ blobptr += len_word_in_bytes;
+ total = len_word_in_bytes;
+ }
+
+ if (tfa->verbose) {
+ pr_debug("%s, id:0x%02x%02x%02x, length:%d \n", __FUNCTION__, buf[0], buf[1], buf[2], length);
+ }
+
+ /* check total message size after concatination */
+ post_len = total + length + (2 * len_word_in_bytes);
+ if (post_len > tfadsp_max_msg_size) {
+ //pr_debug("New multi-message too large! (%d >= %d (max.)), current length: %d\n", post_len, tfadsp_max_msg_size, total);
+ return Tfa98xx_Error_Buffer_too_small;
+ }
+
+ /* add length field (length in words) to the multi message */
+ if (tfa->convert_dsp32) {
+ *blobptr++ = (uint8_t)((length / len_word_in_bytes) & 0xff); /* lsb */
+ *blobptr++ = (uint8_t)(((length / len_word_in_bytes) & 0xff00) >> 8); /* msb */
+ *blobptr++ = 0x0;
+ *blobptr++ = 0x0;
+ }
+ else {
+ *blobptr++ = 0x0;
+ *blobptr++ = (uint8_t)(((length / len_word_in_bytes) & 0xff00) >> 8); /* msb */
+ *blobptr++ = (uint8_t)((length / len_word_in_bytes) & 0xff); /* lsb */
+ }
+ memcpy(blobptr, buf, length);
+ blobptr += length;
+ total += (length + len_word_in_bytes);
+
+ /* SetRe25 message is always the last message of the multi-msg */
+ if (tfa->convert_dsp32) {
+ if (buf[1] == 0x81 && buf[0] == SB_PARAM_SET_RE25C) {
+ return 1; /* 1 means last message is done! */
+ }
+ }
+ else {
+ if (buf[1] == 0x81 && buf[2] == SB_PARAM_SET_RE25C) {
+ return 1; /* 1 means last message is done! */
+ }
+ }
+
+ return 0;
+}
diff --git a/src/tfa_dsp.c b/src/tfa_dsp.c
new file mode 100644
index 0000000..c2ba271
--- /dev/null
+++ b/src/tfa_dsp.c
@@ -0,0 +1,4139 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#include "dbgprint.h"
+#include "tfa_container.h"
+#include "tfa.h"
+#include "tfa98xx_tfafieldnames.h"
+#include "tfa_internal.h"
+
+ /* handle macro for bitfield */
+#define TFA_MK_BF(reg, pos, len) ((reg<<8)|(pos<<4)|(len-1))
+
+/* abstract family for register */
+#define FAM_TFA98XX_CF_CONTROLS (TFA_FAM(tfa,RST) >> 8)
+#define FAM_TFA98XX_CF_MEM (TFA_FAM(tfa,MEMA)>> 8)
+#define FAM_TFA98XX_MTP0 (TFA_FAM(tfa,MTPOTC) >> 8)
+#define FAM_TFA98xx_INT_EN (TFA_FAM(tfa,INTENVDDS) >> 8)
+
+#define CF_STATUS_I2C_CMD_ACK 0x01
+
+/* Defines below are used for irq function (this removed the genregs include) */
+#define TFA98XX_INTERRUPT_ENABLE_REG1 0x48
+#define TFA98XX_INTERRUPT_IN_REG1 0x44
+#define TFA98XX_INTERRUPT_OUT_REG1 0x40
+#define TFA98XX_STATUS_POLARITY_REG1 0x4c
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_MSK 0x2
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPOTC_MSK 0x1
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_POS 1
+#define TFA98XX_KEY2_PROTECTED_MTP0_MTPOTC_POS 0
+
+void tfanone_ops(struct tfa_device_ops *ops);
+void tfa9872_ops(struct tfa_device_ops *ops);
+void tfa9874_ops(struct tfa_device_ops *ops);
+void tfa9878_ops(struct tfa_device_ops *ops);
+void tfa9912_ops(struct tfa_device_ops *ops);
+void tfa9888_ops(struct tfa_device_ops *ops);
+void tfa9891_ops(struct tfa_device_ops *ops);
+void tfa9897_ops(struct tfa_device_ops *ops);
+void tfa9896_ops(struct tfa_device_ops *ops);
+void tfa9890_ops(struct tfa_device_ops *ops);
+void tfa9895_ops(struct tfa_device_ops *ops);
+void tfa9894_ops(struct tfa_device_ops *ops);
+
+#ifndef MIN
+#define MIN(A,B) (A<B?A:B)
+#endif
+
+/* retry values */
+#define CFSTABLE_TRIES 10
+#define AMPOFFWAIT_TRIES 50
+#define MTPBWAIT_TRIES 50
+#define MTPEX_WAIT_NTRIES 50
+
+/* calibration done executed */
+#define TFA_MTPEX_POS TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_POS /**/
+
+int tfa_get_calibration_info(struct tfa_device *tfa, int channel)
+{
+ return tfa->mohm[channel];
+}
+
+/* return sign extended tap pattern */
+int tfa_get_tap_pattern(struct tfa_device *tfa)
+{
+ int value = tfa_get_bf(tfa, TFA9912_BF_CFTAPPAT);
+ int bitshift;
+ uint8_t field_len = 1 + (TFA9912_BF_CFTAPPAT & 0x0f); /* length of bitfield */
+
+ bitshift = 8 * sizeof(int) - field_len;
+ /* signextend */
+ value = (value << bitshift) >> bitshift;
+
+ return value;
+}
+/*
+ * interrupt bit function to clear
+ */
+int tfa_irq_clear(struct tfa_device *tfa, enum tfa9912_irq bit)
+{
+ unsigned char reg;
+
+ /* make bitfield enum */
+ if (bit == tfa9912_irq_all) {
+ /* operate on all bits */
+ for (reg = TFA98XX_INTERRUPT_IN_REG1; reg < TFA98XX_INTERRUPT_IN_REG1 + 3; reg++)
+ reg_write(tfa, reg, 0xffff); /* all bits */
+ }
+ else if (bit < tfa9912_irq_max) {
+ reg = (unsigned char)(TFA98XX_INTERRUPT_IN_REG1 + (bit >> 4));
+ reg_write(tfa, reg, 1 << (bit & 0x0f)); /* only this bit */
+ }
+ else
+ return -1;
+
+ return 0;
+}
+/*
+ * return state of irq or -1 if illegal bit
+ */
+int tfa_irq_get(struct tfa_device *tfa, enum tfa9912_irq bit)
+{
+ uint16_t value;
+ int reg, mask;
+
+ if (bit < tfa9912_irq_max) {
+ /* only this bit */
+ reg = TFA98XX_INTERRUPT_OUT_REG1 + (bit >> 4);
+ mask = 1 << (bit & 0x0f);
+ reg_read(tfa, (unsigned char)reg, &value);
+ }
+ else
+ return -1;
+
+ return (value & mask) != 0;
+}
+/*
+ * interrupt bit function that operates on the shadow regs in the handle
+ */
+
+int tfa_irq_ena(struct tfa_device *tfa, enum tfa9912_irq bit, int state)
+{
+ uint16_t value, new_value;
+ int reg = 0, mask;
+ /* */
+ if (bit == tfa9912_irq_all) {
+ /* operate on all bits */
+ for (reg = TFA98XX_INTERRUPT_ENABLE_REG1; reg <= TFA98XX_INTERRUPT_ENABLE_REG1 + tfa9912_irq_max / 16; reg++) {
+ reg_write(tfa, (unsigned char)reg, state ? 0xffff : 0); /* all bits */
+ tfa->interrupt_enable[reg - TFA98XX_INTERRUPT_ENABLE_REG1] = state ? 0xffff : 0; /* all bits */
+ }
+ }
+ else if (bit < tfa9912_irq_max) {
+ /* only this bit */
+ reg = TFA98XX_INTERRUPT_ENABLE_REG1 + (bit >> 4);
+ mask = 1 << (bit & 0x0f);
+ reg_read(tfa, (unsigned char)reg, &value);
+ if (state) //set
+ new_value = (uint16_t)(value | mask);
+ else // clear
+ new_value = value & ~mask;
+ if (new_value != value) {
+ reg_write(tfa, (unsigned char)reg, new_value); /* only this bit */
+ tfa->interrupt_enable[reg - TFA98XX_INTERRUPT_ENABLE_REG1] = new_value;
+ }
+ }
+ else
+ return -1;
+
+ return 0;
+}
+
+/*
+ * mask interrupts by disabling them
+ */
+int tfa_irq_mask(struct tfa_device *tfa)
+{
+ int reg;
+
+ /* operate on all bits */
+ for (reg = TFA98XX_INTERRUPT_ENABLE_REG1; reg <= TFA98XX_INTERRUPT_ENABLE_REG1 + tfa9912_irq_max / 16; reg++)
+ reg_write(tfa, (unsigned char)reg, 0);
+
+ return 0;
+}
+
+/*
+ * unmask interrupts by enabling them again
+ */
+int tfa_irq_unmask(struct tfa_device *tfa)
+{
+ int reg;
+
+ /* operate on all bits */
+ for (reg = TFA98XX_INTERRUPT_ENABLE_REG1; reg <= TFA98XX_INTERRUPT_ENABLE_REG1 + tfa9912_irq_max / 16; reg++)
+ reg_write(tfa, (unsigned char)reg, tfa->interrupt_enable[reg - TFA98XX_INTERRUPT_ENABLE_REG1]);
+
+ return 0;
+}
+
+/*
+ * interrupt bit function that sets the polarity
+ */
+
+int tfa_irq_set_pol(struct tfa_device *tfa, enum tfa9912_irq bit, int state)
+{
+ uint16_t value, new_value;
+ int reg = 0, mask;
+
+ if (bit == tfa9912_irq_all) {
+ /* operate on all bits */
+ for (reg = TFA98XX_STATUS_POLARITY_REG1; reg <= TFA98XX_STATUS_POLARITY_REG1 + tfa9912_irq_max / 16; reg++) {
+ reg_write(tfa, (unsigned char)reg, state ? 0xffff : 0); /* all bits */
+ }
+ }
+ else if (bit < tfa9912_irq_max) {
+ /* only this bit */
+ reg = TFA98XX_STATUS_POLARITY_REG1 + (bit >> 4);
+ mask = 1 << (bit & 0x0f);
+ reg_read(tfa, (unsigned char)reg, &value);
+ if (state) /* Active High */
+ new_value = (uint16_t)(value | mask);
+ else /* Active Low */
+ new_value = value & ~mask;
+ if (new_value != value) {
+ reg_write(tfa, (unsigned char)reg, new_value); /* only this bit */
+ }
+ }
+ else
+ return -1;
+
+ return 0;
+}
+
+/*
+ * set device info and register device ops
+ */
+void tfa_set_query_info(struct tfa_device *tfa)
+{
+ /* invalidate device struct cached values */
+ tfa->hw_feature_bits = -1;
+ tfa->sw_feature_bits[0] = -1;
+ tfa->sw_feature_bits[1] = -1;
+ tfa->profile = -1;
+ tfa->vstep = -1;
+ /* defaults */
+ tfa->is_probus_device = 0;
+ tfa->advance_keys_handling = 0; /*artf65038*/
+ tfa->tfa_family = 1;
+ tfa->daimap = Tfa98xx_DAI_I2S; /* all others */
+ tfa->spkr_count = 1;
+ tfa->spkr_select = 0;
+ tfa->support_tcoef = supportYes;
+ tfa->supportDrc = supportNotSet;
+ tfa->support_saam = supportNotSet;
+ tfa->ext_dsp = -1; /* respond to external DSP: -1:none, 0:no_dsp, 1:cold, 2:warm */
+ tfa->bus = 0;
+ tfa->partial_enable = 0;
+ tfa->convert_dsp32 = 0;
+ tfa->sync_iv_delay = 0;
+
+ /* TODO use the getfeatures() for retrieving the features [artf103523]
+ tfa->supportDrc = supportNotSet;*/
+
+ switch (tfa->rev & 0xff) {
+ case 0: /* tfanone : non-i2c external DSP device */
+ /* e.g. qc adsp */
+ tfa->supportDrc = supportYes;
+ tfa->tfa_family = 0;
+ tfa->spkr_count = 0;
+ tfa->daimap = 0;
+ tfanone_ops(&tfa->dev_ops); /* register device operations via tfa hal*/
+ tfa->bus = 1;
+ break;
+ case 0x72:
+ /* tfa9872 */
+ tfa->supportDrc = supportYes;
+ tfa->tfa_family = 2;
+ tfa->spkr_count = 1;
+ tfa->is_probus_device = 1;
+ tfa->daimap = Tfa98xx_DAI_TDM;
+ tfa9872_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x74:
+ /* tfa9874 */
+ tfa->supportDrc = supportYes;
+ tfa->tfa_family = 2;
+ tfa->spkr_count = 1;
+ tfa->is_probus_device = 1;
+ tfa->daimap = Tfa98xx_DAI_TDM;
+ tfa9874_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x78:
+ /* tfa9878 */
+ tfa->supportDrc = supportYes;
+ tfa->tfa_family = 2;
+ tfa->spkr_count = 1;
+ tfa->is_probus_device = 1;
+ tfa->advance_keys_handling = 1; /*artf65038*/
+ tfa->daimap = Tfa98xx_DAI_TDM;
+ tfa9878_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x88:
+ /* tfa9888 */
+ tfa->tfa_family = 2;
+ tfa->spkr_count = 2;
+ tfa->daimap = Tfa98xx_DAI_TDM;
+ tfa9888_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x97:
+ /* tfa9897 */
+ tfa->supportDrc = supportNo;
+ tfa->spkr_count = 1;
+ tfa->daimap = Tfa98xx_DAI_TDM;
+ tfa9897_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x96:
+ /* tfa9896 */
+ tfa->supportDrc = supportNo;
+ tfa->spkr_count = 1;
+ tfa->daimap = Tfa98xx_DAI_TDM;
+ tfa9896_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x92:
+ /* tfa9891 */
+ tfa->spkr_count = 1;
+ tfa->daimap = (Tfa98xx_DAI_PDM | Tfa98xx_DAI_I2S);
+ tfa9891_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x91:
+ /* tfa9890B */
+ tfa->spkr_count = 1;
+ tfa->daimap = (Tfa98xx_DAI_PDM | Tfa98xx_DAI_I2S);
+ break;
+ case 0x80:
+ case 0x81:
+ /* tfa9890 */
+ tfa->spkr_count = 1;
+ tfa->daimap = Tfa98xx_DAI_I2S;
+ tfa->supportDrc = supportNo;
+ tfa->supportFramework = supportNo;
+ tfa9890_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x12:
+ /* tfa9895 */
+ tfa->spkr_count = 1;
+ tfa->daimap = Tfa98xx_DAI_I2S;
+ tfa9895_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x13:
+ /* tfa9912 */
+ tfa->tfa_family = 2;
+ tfa->spkr_count = 1;
+ tfa->daimap = Tfa98xx_DAI_TDM;
+ tfa9912_ops(&tfa->dev_ops); /* register device operations */
+ break;
+ case 0x94:
+ /* tfa9894 */
+ tfa->tfa_family = 2;
+ tfa->spkr_count = 1;
+ tfa->daimap = Tfa98xx_DAI_TDM;
+ tfa9894_ops(&tfa->dev_ops); /* register device operations */
+ break;
+
+ default:
+ pr_err("unknown device type : 0x%02x\n", tfa->rev);
+ _ASSERT(0);
+ break;
+ }
+}
+
+/*
+ * lookup the device type and return the family type
+ */
+int tfa98xx_dev2family(int dev_type)
+{
+ /* only look at the die ID part (lsb byte) */
+ switch (dev_type & 0xff) {
+ case 0x12:
+ case 0x80:
+ case 0x81:
+ case 0x91:
+ case 0x92:
+ case 0x97:
+ case 0x96:
+ return 1;
+ case 0x88:
+ case 0x72:
+ case 0x13:
+ case 0x74:
+ case 0x94:
+ return 2;
+ case 0x50:
+ return 3;
+ default:
+ return 0;
+ }
+}
+
+/*
+ * return the target address for the filter on this device
+
+ filter_index:
+ [0..9] reserved for EQ (not deployed, calc. is available)
+ [10..12] anti-alias filter
+ [13] integrator filter
+
+ */
+enum Tfa98xx_DMEM tfa98xx_filter_mem(struct tfa_device *tfa, int filter_index, unsigned short *address, int channel)
+{
+ enum Tfa98xx_DMEM dmem = -1;
+ int idx;
+ unsigned short bq_table[7][4] = {
+ /* index: 10, 11, 12, 13 */
+ {346,351,356,288}, //87 BRA_MAX_MRA4-2_7.00
+ {346,351,356,288}, //90 BRA_MAX_MRA6_9.02
+ {467,472,477,409}, //95 BRA_MAX_MRA7_10.02
+ {406,411,416,348}, //97 BRA_MAX_MRA9_12.01
+ {467,472,477,409}, //91 BRA_MAX_MRAA_13.02
+ {8832, 8837, 8842, 8847}, //88 part1
+ {8853, 8858, 8863, 8868} //88 part2
+ /* Since the 88 is stereo we have 2 parts.
+ * Every index has 5 values except index 13 this one has 6 values
+ */
+ };
+
+ if ((10 <= filter_index) && (filter_index <= 13)) {
+ dmem = Tfa98xx_DMEM_YMEM; /* for all devices */
+ idx = filter_index - 10;
+
+ switch (tfa->rev & 0xff) { // only compare lower byte
+ case 0x12:
+ *address = bq_table[2][idx];
+ break;
+ case 0x97:
+ *address = bq_table[3][idx];
+ break;
+ case 0x96:
+ *address = bq_table[3][idx];
+ break;
+ case 0x80:
+ case 0x81: // for the RAM version
+ case 0x91:
+ *address = bq_table[1][idx];
+ break;
+ case 0x92:
+ *address = bq_table[4][idx];
+ break;
+ case 0x88:
+ /* Channel 1 = primary, 2 = secondary */
+ if (channel == 1)
+ *address = bq_table[5][idx];
+ else
+ *address = bq_table[6][idx];
+ break;
+ case 0x72:
+ case 0x74:
+ case 0x13:
+ default:
+ /* unsupported case, possibly intermediate version */
+ return -1;
+ _ASSERT(0);
+ }
+ }
+ return dmem;
+}
+
+/************************ query functions ********************************************************/
+/**
+* return revision
+* Used by the LTT
+*/
+void tfa98xx_rev(int *major, int *minor, int *revision)
+{
+ char version_str[] = TFA98XX_API_REV_STR;
+ sscanf(version_str, "v%d.%d.%d", major, minor, revision);
+}
+
+/**
+ * tfa_supported_speakers
+ * returns the number of the supported speaker count
+ */
+enum Tfa98xx_Error tfa_supported_speakers(struct tfa_device *tfa, int* spkr_count)
+{
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+ else
+ *spkr_count = tfa->spkr_count;
+
+ return Tfa98xx_Error_Ok;
+}
+
+/*
+ * tfa98xx_supported_saam
+ * returns the supportedspeaker as microphone feature
+ */
+enum Tfa98xx_Error tfa98xx_supported_saam(struct tfa_device *tfa, enum Tfa98xx_saam *saam)
+{
+ int features;
+ enum Tfa98xx_Error error;
+
+ if (tfa->support_saam == supportNotSet) {
+ error = tfa98xx_dsp_get_hw_feature_bits(tfa, &features);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+ tfa->support_saam =
+ (features & 0x8000) ? supportYes : supportNo; /* SAAM is bit15 */
+ }
+ *saam = tfa->support_saam == supportYes ? Tfa98xx_saam : Tfa98xx_saam_none;
+
+ return Tfa98xx_Error_Ok;
+}
+
+/*
+ * tfa98xx_compare_features
+ * Obtains features_from_MTP and features_from_cnt
+ */
+enum Tfa98xx_Error tfa98xx_compare_features(struct tfa_device *tfa, int features_from_MTP[3], int features_from_cnt[3])
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ uint32_t value;
+ uint16_t mtpbf;
+ unsigned char bytes[3 * 2];
+ int status;
+
+ tfa98xx_dsp_system_stable(tfa, &status);
+ if (!status)
+ return Tfa98xx_Error_NoClock; // Only test when we have a clock.
+
+ /* Set proper MTP location per device: */
+ if (tfa->tfa_family == 1) {
+ mtpbf = 0x850f; /* MTP5 for tfa1,16 bits */
+ }
+ else {
+ mtpbf = 0xf907; /* MTP9 for tfa2, 8 bits */
+ }
+
+ /* Read HW features from MTP: */
+ value = tfa_read_reg(tfa, mtpbf) & 0xffff;
+ features_from_MTP[0] = tfa->hw_feature_bits = value;
+
+ /* Read SW features: */
+ error = tfa_dsp_cmd_id_write_read(tfa, MODULE_FRAMEWORK, FW_PAR_ID_GET_FEATURE_INFO, sizeof(bytes), bytes);
+ if (error != Tfa98xx_Error_Ok)
+ return error; /* old ROM code may respond with Tfa98xx_Error_RpcParamId */
+
+ tfa98xx_convert_bytes2data(sizeof(bytes), bytes, &features_from_MTP[1]);
+
+ /* check if feature bits from MTP match feature bits from cnt file: */
+ get_hw_features_from_cnt(tfa, &features_from_cnt[0]);
+ get_sw_features_from_cnt(tfa, &features_from_cnt[1]);
+
+ return error;
+}
+
+/********************************* device specific ops ************************************************/
+/* the wrapper for DspReset, in case of full */
+enum Tfa98xx_Error tfa98xx_dsp_reset(struct tfa_device *tfa, int state)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ error = (tfa->dev_ops.dsp_reset)(tfa, state);
+
+ return error;
+}
+
+/* the ops wrapper for tfa98xx_dsp_SystemStable */
+enum Tfa98xx_Error tfa98xx_dsp_system_stable(struct tfa_device *tfa, int *ready)
+{
+ return (tfa->dev_ops.dsp_system_stable)(tfa, ready);
+}
+
+/* the ops wrapper for tfa98xx_dsp_system_stable */
+enum Tfa98xx_Error tfa98xx_auto_copy_mtp_to_iic(struct tfa_device *tfa)
+{
+ return (tfa->dev_ops.auto_copy_mtp_to_iic)(tfa);
+}
+
+/* the ops wrapper for tfa98xx_faim_protect */
+enum Tfa98xx_Error tfa98xx_faim_protect(struct tfa_device *tfa, int state)
+{
+ return (tfa->dev_ops.faim_protect)(tfa, state);
+}
+
+/*
+ * bring the device into a state similar to reset
+ */
+enum Tfa98xx_Error tfa98xx_init(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ uint16_t value = 0;
+
+ /* reset all i2C registers to default
+ * Write the register directly to avoid the read in the bitfield function.
+ * The I2CR bit may overwrite the full register because it is reset anyway.
+ * This will save a reg read transaction.
+ */
+ TFA_SET_BF_VALUE(tfa, I2CR, 1, &value);
+ TFA_WRITE_REG(tfa, I2CR, value);
+
+ /* Put DSP in reset */
+ tfa98xx_dsp_reset(tfa, 1); /* in pair of tfaRunStartDSP() */
+
+ /* some other registers must be set for optimal amplifier behaviour
+ * This is implemented in a file specific for the type number
+ */
+ if (tfa->dev_ops.tfa_init)
+ error = (tfa->dev_ops.tfa_init)(tfa);
+
+ return error;
+}
+
+enum Tfa98xx_Error tfa98xx_dsp_write_tables(struct tfa_device *tfa, int sample_rate)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ error = (tfa->dev_ops.dsp_write_tables)(tfa, sample_rate);
+
+ return error;
+}
+
+/** Set internal oscillator into power down mode.
+*
+* @param[in] tfa device description structure
+* @param[in] state new state 0 - oscillator is on, 1 oscillator is off.
+*
+* @return Tfa98xx_Error_Ok when successfull, error otherwise.
+*/
+enum Tfa98xx_Error tfa98xx_set_osc_powerdown(struct tfa_device *tfa, int state)
+{
+ if (tfa->dev_ops.set_osc_powerdown) {
+ return tfa->dev_ops.set_osc_powerdown(tfa, state);
+ }
+
+ return Tfa98xx_Error_Not_Implemented;
+}
+
+/** update low power mode of the device.
+*
+* @param[in] tfa device description structure
+* @param[in] state new state 0 - LPMODE is on, 1 LPMODE is off.
+*
+* @return Tfa98xx_Error_Ok when successfull, error otherwise.
+*/
+enum Tfa98xx_Error tfa98xx_update_lpm(struct tfa_device *tfa, int state)
+{
+ if (tfa->dev_ops.update_lpm) {
+ return tfa->dev_ops.update_lpm(tfa, state);
+ }
+
+ return Tfa98xx_Error_Not_Implemented;
+}
+/** Check presence of powerswitch=1 in configuration and optimal setting.
+*
+* @param[in] tfa device description structure
+*
+* @return -1 when error, 0 or 1 depends on switch settings.
+*/
+int tfa98xx_powerswitch_is_enabled(struct tfa_device *tfa)
+{
+ uint16_t value;
+ enum Tfa98xx_Error ret;
+
+ if (((tfa->rev & 0xff) == 0x13) || ((tfa->rev & 0xff) == 0x88)) {
+ ret = reg_read(tfa, 0xc6, &value);
+ if (ret != Tfa98xx_Error_Ok) {
+ return -1;
+ }
+ /* PLMA5539: Check actual value of powerswitch. TODO: regmap v1.40 should make this bit public. */
+
+ return (int)(value & (1u << 6));
+ }
+
+ return 1;
+}
+
+/********************* new tfa2 *********************************************************************/
+/* newly added messaging for tfa2 tfa1? */
+enum Tfa98xx_Error tfa98xx_dsp_get_memory(struct tfa_device *tfa, int memoryType,
+ int offset, int length, unsigned char bytes[])
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ char msg[4 * 3];
+ int nr = 0;
+
+ msg[nr++] = 8;
+ msg[nr++] = MODULE_FRAMEWORK + 128;
+ msg[nr++] = FW_PAR_ID_GET_MEMORY;
+
+ msg[nr++] = 0;
+ msg[nr++] = 0;
+ msg[nr++] = (char)memoryType;
+
+ msg[nr++] = 0;
+ msg[nr++] = (offset >> 8) & 0xff;
+ msg[nr++] = offset & 0xff;
+
+ msg[nr++] = 0;
+ msg[nr++] = (length >> 8) & 0xff;
+ msg[nr++] = length & 0xff;
+
+ /* send msg */
+ error = dsp_msg(tfa, nr, (char *)msg);
+
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ /* read the data from the device (length * 3) */
+ error = dsp_msg_read(tfa, length * 3, bytes);
+
+ return error;
+}
+
+enum Tfa98xx_Error tfa98xx_dsp_set_memory(struct tfa_device *tfa, int memoryType,
+ int offset, int length, int value)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int nr = 0;
+ char msg[5 * 3];
+
+ msg[nr++] = 8;
+ msg[nr++] = MODULE_FRAMEWORK + 128;
+ msg[nr++] = FW_PAR_ID_SET_MEMORY;
+
+ msg[nr++] = 0;
+ msg[nr++] = 0;
+ msg[nr++] = (char)memoryType;
+
+ msg[nr++] = 0;
+ msg[nr++] = (offset >> 8) & 0xff;
+ msg[nr++] = offset & 0xff;
+
+ msg[nr++] = 0;
+ msg[nr++] = (length >> 8) & 0xff;
+ msg[nr++] = length & 0xff;
+
+ msg[nr++] = (value >> 16) & 0xff;
+ msg[nr++] = (value >> 8) & 0xff;
+ msg[nr++] = value & 0xff;
+
+ /* send msg */
+ error = dsp_msg(tfa, nr, (char *)msg);
+
+ return error;
+}
+/****************************** calibration support **************************/
+/*
+ * get/set the mtp with user controllable values
+ *
+ * check if the relevant clocks are available
+ */
+enum Tfa98xx_Error tfa98xx_get_mtp(struct tfa_device *tfa, uint16_t *value)
+{
+ int status;
+ int result;
+
+ /* not possible if PLL in powerdown */
+ if (TFA_GET_BF(tfa, PWDN)) {
+ pr_debug("PLL in powerdown\n");
+ return Tfa98xx_Error_NoClock;
+ }
+
+ tfa98xx_dsp_system_stable(tfa, &status);
+ if (status == 0) {
+ pr_debug("PLL not running\n");
+ return Tfa98xx_Error_NoClock;
+ }
+
+ result = TFA_READ_REG(tfa, MTP0);
+ if (result < 0) {
+ return -result;
+ }
+ *value = (uint16_t)result;
+
+ return Tfa98xx_Error_Ok;
+}
+
+/*
+ * lock or unlock KEY2
+ * lock = 1 will lock
+ * lock = 0 will unlock
+ *
+ * note that on return all the hidden key will be off
+ */
+void tfa98xx_key2(struct tfa_device *tfa, int lock)
+{
+ /* unhide lock registers */
+ reg_write(tfa, (tfa->tfa_family == 1) ? 0x40 : 0x0F, 0x5A6B);
+ /* lock/unlock key2 MTPK */
+ TFA_WRITE_REG(tfa, MTPKEY2, lock ? 0 : 0x5A);
+ /* unhide lock registers */
+ if (!tfa->advance_keys_handling) /*artf65038*/
+ reg_write(tfa, (tfa->tfa_family == 1) ? 0x40 : 0x0F, 0);
+}
+void tfa2_manual_mtp_cpy(struct tfa_device *tfa, uint16_t reg_row_to_keep, uint16_t reg_row_to_set, uint8_t row)///MCH_TO_TEST
+{
+ uint16_t value;
+ int loop = 0;
+ enum Tfa98xx_Error error;
+ /* Assure FAIM is enabled (enable it when neccesery) */
+ if (tfa->is_probus_device)
+ {
+ error = tfa98xx_faim_protect(tfa, 1);
+ if (tfa->verbose) {
+ pr_debug("FAIM enabled (err:%d).\n", error);
+ }
+ }
+ reg_read(tfa, (unsigned char)reg_row_to_keep, &value);
+ if (!row)
+ {
+ reg_write(tfa, 0xA7, value);
+ reg_write(tfa, 0xA8, reg_row_to_set);
+ }
+ else
+ {
+ reg_write(tfa, 0xA7, reg_row_to_set);
+ reg_write(tfa, 0xA8, value);
+ }
+ reg_write(tfa, 0xA3, 0x10 | row);
+ if (tfa->is_probus_device)
+ {
+ /* Assure FAIM is enabled (enable it when neccesery) */
+ for (loop = 0; loop < 100 /*x10ms*/; loop++) {
+ msleep_interruptible(10); /* wait 10ms to avoid busload */
+ if (tfa_dev_get_mtpb(tfa) == 0)
+ break;
+ }
+ error = tfa98xx_faim_protect(tfa, 0);
+ if (tfa->verbose) {
+ pr_debug("FAIM disabled (err:%d).\n", error);
+ }
+ }
+}
+
+enum Tfa98xx_Error tfa98xx_set_mtp(struct tfa_device *tfa, uint16_t value, uint16_t mask)
+{
+ unsigned short mtp_old, mtp_new;
+ int loop, status;
+ enum Tfa98xx_Error error;
+
+ error = tfa98xx_get_mtp(tfa, &mtp_old);
+
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ mtp_new = (value & mask) | (mtp_old & ~mask);
+
+ if (mtp_old == mtp_new) /* no change */ {
+ if (tfa->verbose)
+ pr_info("No change in MTP. Value not written! \n");
+ return Tfa98xx_Error_Ok;
+ }
+ error = tfa98xx_update_lpm(tfa, 1);
+ if (error) {
+ return error;
+ }
+ /* Assure FAIM is enabled (enable it when neccesery) */
+ error = tfa98xx_faim_protect(tfa, 1);
+ if (error) {
+ return error;
+ }
+ if (tfa->verbose) {
+ pr_debug("MTP clock enabled.\n");
+ }
+
+ /* assure that the clock is up, else we can't write MTP */
+ error = tfa98xx_dsp_system_stable(tfa, &status);
+ if (error) {
+ return error;
+ }
+ if (status == 0) {
+ return Tfa98xx_Error_NoClock;
+ }
+
+ tfa98xx_key2(tfa, 0); /* unlock */
+ TFA_WRITE_REG(tfa, MTP0, mtp_new); /* write to i2c shadow reg */
+ /* CIMTP=1 start copying all the data from i2c regs_mtp to mtp*/
+ if (tfa->tfa_family == 2)
+ tfa2_manual_mtp_cpy(tfa, 0xF1, mtp_new, 0);
+ else
+ TFA_SET_BF(tfa, CIMTP, 1);
+ /* wait until MTP write is done */
+ error = Tfa98xx_Error_StateTimedOut;
+ for (loop = 0; loop < 100 /*x10ms*/; loop++) {
+ msleep_interruptible(10); /* wait 10ms to avoid busload */
+ if (tfa_dev_get_mtpb(tfa) == 0) {
+ error = Tfa98xx_Error_Ok;
+ break;
+ }
+ }
+ tfa98xx_key2(tfa, 1); /* lock */
+ /* MTP setting failed due to timeout ?*/
+ if (error) {
+ tfa98xx_faim_protect(tfa, 0);
+ return error;
+ }
+
+ /* Disable the FAIM, if this is neccessary */
+ error = tfa98xx_faim_protect(tfa, 0);
+ if (error) {
+ return error;
+ }
+ if (tfa->verbose) {
+ pr_debug("MTP clock disabled.\n");
+ }
+ error = tfa98xx_update_lpm(tfa, 0);
+ if (error) {
+ return error;
+ }
+ return error;
+}
+/*
+ * clear mtpex
+ * set ACS
+ * start tfa
+ */
+int tfa_calibrate(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error;
+
+ /* clear mtpex */
+ error = tfa98xx_set_mtp(tfa, 0, TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_MSK);
+ if (error)
+ return error;
+
+ /* set RST=1 to put the DSP in Reset */
+ TFA_SET_BF(tfa, RST, 1);
+
+ /* set ACS/coldboot state */
+ error = tfaRunColdboot(tfa, 1);
+
+ /* start tfa by playing */
+ return error;
+}
+
+static short twos(short x)
+{
+ return (x < 0) ? x + 512 : x;
+}
+
+void tfa98xx_set_exttemp(struct tfa_device *tfa, short ext_temp)
+{
+ if ((-256 <= ext_temp) && (ext_temp <= 255)) {
+ /* make twos complement */
+ pr_debug("Using ext temp %d C\n", twos(ext_temp));
+ TFA_SET_BF(tfa, TROS, 1);
+ TFA_SET_BF(tfa, EXTTS, twos(ext_temp));
+ }
+ else {
+ pr_debug("Clearing ext temp settings\n");
+ TFA_SET_BF(tfa, TROS, 0);
+ }
+}
+short tfa98xx_get_exttemp(struct tfa_device *tfa)
+{
+ short ext_temp = (short)TFA_GET_BF(tfa, EXTTS);
+ return (twos(ext_temp));
+}
+
+/************************** tfa simple bitfield interfacing ***************************************/
+/* convenience functions */
+enum Tfa98xx_Error tfa98xx_set_volume_level(struct tfa_device *tfa, unsigned short vol)
+{
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ if (vol > 255) /* restricted to 8 bits */
+ vol = 255;
+
+ /* 0x00 -> 0.0 dB
+ * 0x01 -> -0.5 dB
+ * ...
+ * 0xFE -> -127dB
+ * 0xFF -> muted
+ */
+
+ /* volume value is in the top 8 bits of the register */
+ return -TFA_SET_BF(tfa, VOL, (uint16_t)vol);
+}
+
+static enum Tfa98xx_Error
+tfa98xx_set_mute_tfa2(struct tfa_device *tfa, enum Tfa98xx_Mute mute)
+{
+ enum Tfa98xx_Error error;
+
+ if (tfa->dev_ops.set_mute == NULL)
+ return Tfa98xx_Error_Not_Supported;
+
+ switch (mute) {
+ case Tfa98xx_Mute_Off:
+ error = tfa->dev_ops.set_mute(tfa, 0);
+ TFA_SET_BF(tfa, AMPE, 1);
+ break;
+ case Tfa98xx_Mute_Amplifier:
+ case Tfa98xx_Mute_Digital:
+ error = tfa->dev_ops.set_mute(tfa, 1);
+ TFA_SET_BF(tfa, AMPE, 0);
+ break;
+ default:
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ return error;
+}
+
+static enum Tfa98xx_Error
+tfa98xx_set_mute_tfa1(struct tfa_device *tfa, enum Tfa98xx_Mute mute)
+{
+ enum Tfa98xx_Error error;
+ unsigned short audioctrl_value;
+ unsigned short sysctrl_value;
+ int value;
+
+ value = TFA_READ_REG(tfa, CFSM); /* audio control register */
+ if (value < 0)
+ return -value;
+ audioctrl_value = (unsigned short)value;
+ value = TFA_READ_REG(tfa, AMPE); /* system control register */
+ if (value < 0)
+ return -value;
+ sysctrl_value = (unsigned short)value;
+
+ switch (mute) {
+ case Tfa98xx_Mute_Off:
+ /* previous state can be digital or amplifier mute,
+ * clear the cf_mute and set the enbl_amplifier bits
+ *
+ * To reduce PLOP at power on it is needed to switch the
+ * amplifier on with the DCDC in follower mode
+ * (enbl_boost = 0 ?).
+ * This workaround is also needed when toggling the
+ * powerdown bit!
+ */
+ TFA_SET_BF_VALUE(tfa, CFSM, 0, &audioctrl_value);
+ TFA_SET_BF_VALUE(tfa, AMPE, 1, &sysctrl_value);
+ TFA_SET_BF_VALUE(tfa, DCA, 1, &sysctrl_value);
+ break;
+ case Tfa98xx_Mute_Digital:
+ /* expect the amplifier to run */
+ /* set the cf_mute bit */
+ TFA_SET_BF_VALUE(tfa, CFSM, 1, &audioctrl_value);
+ /* set the enbl_amplifier bit */
+ TFA_SET_BF_VALUE(tfa, AMPE, 1, &sysctrl_value);
+ /* clear active mode */
+ TFA_SET_BF_VALUE(tfa, DCA, 0, &sysctrl_value);
+ break;
+ case Tfa98xx_Mute_Amplifier:
+ /* clear the cf_mute bit */
+ TFA_SET_BF_VALUE(tfa, CFSM, 0, &audioctrl_value);
+ /* clear the enbl_amplifier bit and active mode */
+ TFA_SET_BF_VALUE(tfa, AMPE, 0, &sysctrl_value);
+ TFA_SET_BF_VALUE(tfa, DCA, 0, &sysctrl_value);
+ break;
+ default:
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ error = -TFA_WRITE_REG(tfa, CFSM, audioctrl_value);
+ if (error)
+ return error;
+ error = -TFA_WRITE_REG(tfa, AMPE, sysctrl_value);
+ return error;
+}
+
+enum Tfa98xx_Error
+ tfa98xx_set_mute(struct tfa_device *tfa, enum Tfa98xx_Mute mute)
+{
+ if (tfa->in_use == 0) {
+ pr_err("device is not opened \n");
+ return Tfa98xx_Error_NotOpen;
+ }
+
+ if (tfa->tfa_family == 1)
+ return tfa98xx_set_mute_tfa1(tfa, mute);
+ else
+ return tfa98xx_set_mute_tfa2(tfa, mute);
+}
+
+/****************** patching **********************************************************/
+static enum Tfa98xx_Error
+tfa98xx_process_patch_file(struct tfa_device *tfa, int length,
+ const unsigned char *bytes)
+{
+ unsigned short size;
+ int index = 0;
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ while (index < length) {
+ size = bytes[index] + bytes[index + 1] * 256;
+ index += 2;
+ if ((index + size) > length) {
+ /* outside the buffer, error in the input data */
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ if (size > tfa->buffer_size) {
+ /* too big, must fit buffer */
+ return Tfa98xx_Error_Bad_Parameter;
+ }
+
+ error = tfa98xx_write_raw(tfa, size, &bytes[index]);
+ if (error != Tfa98xx_Error_Ok)
+ break;
+ index += size;
+ }
+ return error;
+}
+
+
+
+/* the patch contains a header with the following
+ * IC revision register: 1 byte, 0xFF means don't care
+ * XMEM address to check: 2 bytes, big endian, 0xFFFF means don't care
+ * XMEM value to expect: 3 bytes, big endian
+ */
+static enum Tfa98xx_Error
+tfa98xx_check_ic_rom_version(struct tfa_device *tfa, const unsigned char patchheader[])
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short checkrev, revid;
+ unsigned char lsb_revid;
+ unsigned short checkaddress;
+ int checkvalue;
+ int value = 0;
+ int status;
+ checkrev = patchheader[0];
+ lsb_revid = tfa->rev & 0xff; /* only compare lower byte */
+
+ if ((checkrev != 0xFF) && (checkrev != lsb_revid))
+ return Tfa98xx_Error_Not_Supported;
+
+ checkaddress = (patchheader[1] << 8) + patchheader[2];
+ checkvalue =
+ (patchheader[3] << 16) + (patchheader[4] << 8) + patchheader[5];
+ if (checkaddress != 0xFFFF) {
+ /* before reading XMEM, check if we can access the DSP */
+ error = tfa98xx_dsp_system_stable(tfa, &status);
+ if (error == Tfa98xx_Error_Ok) {
+ if (!status) {
+ /* DSP subsys not running */
+ error = Tfa98xx_Error_DSP_not_running;
+ }
+ }
+ /* read register to check the correct ROM version */
+ if (error == Tfa98xx_Error_Ok) {
+ error = mem_read(tfa, checkaddress, 1, &value);
+ }
+ if (error == Tfa98xx_Error_Ok) {
+ if (value != checkvalue) {
+ pr_err("patch file romid type check failed [0x%04x]: expected 0x%02x, actual 0x%02x\n",
+ checkaddress, value, checkvalue);
+ error = Tfa98xx_Error_Not_Supported;
+ }
+ }
+ }
+ else { /* == 0xffff */
+ /* check if the revid subtype is in there */
+ if (checkvalue != 0xFFFFFF && checkvalue != 0) {
+ revid = patchheader[5] << 8 | patchheader[0]; /* full revid */
+ if (revid != tfa->rev) {
+ pr_err("patch file device type check failed: expected 0x%02x, actual 0x%02x\n",
+ tfa->rev, revid);
+ return Tfa98xx_Error_Not_Supported;
+ }
+ }
+ }
+
+ return error;
+}
+
+
+#define PATCH_HEADER_LENGTH 6
+enum Tfa98xx_Error
+ tfa_dsp_patch(struct tfa_device *tfa, int patchLength,
+ const unsigned char *patchBytes)
+{
+ enum Tfa98xx_Error error;
+ int status;
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ if (patchLength < PATCH_HEADER_LENGTH)
+ return Tfa98xx_Error_Bad_Parameter;
+
+ error = tfa98xx_check_ic_rom_version(tfa, patchBytes);
+ if (Tfa98xx_Error_Ok != error) {
+ return error;
+ }
+ tfa98xx_dsp_system_stable(tfa, &status);
+ if (!status)
+ return Tfa98xx_Error_NoClock; // Only test when we have a clock.
+ /******MCH_TO_TEST**************/
+ if (error == Tfa98xx_Error_Ok) {
+ error = tfaRunColdboot(tfa, 1);
+ if (error)
+ return Tfa98xx_Error_DSP_not_running;
+ }
+ /**************************/
+ error =
+ tfa98xx_process_patch_file(tfa, patchLength - PATCH_HEADER_LENGTH,
+ patchBytes + PATCH_HEADER_LENGTH);
+
+ return error;
+}
+
+/****************** end patching **********************************************************/
+
+TFA_INTERNAL enum Tfa98xx_Error
+tfa98xx_wait_result(struct tfa_device *tfa, int wait_retry_count)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int cf_status; /* the contents of the CF_STATUS register */
+ int tries = 0;
+ do {
+ cf_status = TFA_GET_BF(tfa, ACK);
+ if (cf_status < 0)
+ error = -cf_status;
+ tries++;
+ }
+ // i2c_cmd_ack
+ /* don't wait forever, DSP is pretty quick to respond (< 1ms) */
+ while ((error == Tfa98xx_Error_Ok) && ((cf_status & CF_STATUS_I2C_CMD_ACK) == 0)
+ && (tries < wait_retry_count));
+ if (tries >= wait_retry_count) {
+ /* something wrong with communication with DSP */
+ error = Tfa98xx_Error_DSP_not_running;
+ }
+ return error;
+}
+
+/*
+ * * support functions for data conversion
+ */
+ /**
+ convert memory bytes to signed 24 bit integers
+ input: bytes contains "num_bytes" byte elements
+ output: data contains "num_bytes/3" int24 elements
+ */
+void tfa98xx_convert_bytes2data(int num_bytes, const unsigned char bytes[],
+ int data[])
+{
+ int i; /* index for data */
+ int k; /* index for bytes */
+ int d;
+ int num_data = num_bytes / 3;
+ _ASSERT((num_bytes % 3) == 0);
+ for (i = 0, k = 0; i < num_data; ++i, k += 3) {
+ d = (bytes[k] << 16) | (bytes[k + 1] << 8) | (bytes[k + 2]);
+ _ASSERT(d >= 0);
+ _ASSERT(d < (1 << 24)); /* max 24 bits in use */
+ if (bytes[k] & 0x80) /* sign bit was set */
+ d = -((1 << 24) - d);
+
+ data[i] = d;
+ }
+}
+
+
+/**
+ convert signed 32 bit integers to 24 bit aligned bytes
+ input: data contains "num_data" int elements
+ output: bytes contains "3 * num_data" byte elements
+*/
+void tfa98xx_convert_data2bytes(int num_data, const int data[],
+ unsigned char bytes[])
+{
+ int i; /* index for data */
+ int k; /* index for bytes */
+ int d;
+ /* note: cannot just take the lowest 3 bytes from the 32 bit
+ * integer, because also need to take care of clipping any
+ * value > 2&23 */
+ for (i = 0, k = 0; i < num_data; ++i, k += 3) {
+ if (data[i] >= 0)
+ d = MIN(data[i], (1 << 23) - 1);
+ else {
+ /* 2's complement */
+ d = (1 << 24) - MIN(-data[i], 1 << 23);
+ }
+ _ASSERT(d >= 0);
+ _ASSERT(d < (1 << 24)); /* max 24 bits in use */
+ bytes[k] = (d >> 16) & 0xFF; /* MSB */
+ bytes[k + 1] = (d >> 8) & 0xFF;
+ bytes[k + 2] = (d) & 0xFF; /* LSB */
+ }
+}
+
+/*
+ * DSP RPC message support functions
+ * depending on framework to be up and running
+ * need base i2c of memaccess (tfa1=0x70/tfa2=0x90)
+ */
+
+
+ /* write dsp messages in function tfa_dsp_msg() */
+ /* note the 'old' write_parameter() was more efficient because all i2c was in one burst transaction */
+
+ //TODO properly handle bitfields: state should be restored! (now it will change eg dmesg field to xmem)
+enum Tfa98xx_Error tfa_dsp_msg_write(struct tfa_device *tfa, int length, const char *buffer)
+{
+ int offset = 0;
+ int chunk_size = ROUND_DOWN(tfa->buffer_size, 3); /* XMEM word size */
+ int remaining_bytes = length;
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ uint16_t cfctl;
+ int value;
+
+ value = TFA_READ_REG(tfa, DMEM);
+ if (value < 0) {
+ error = -value;
+ return error;
+ }
+ cfctl = (uint16_t)value;
+ /* assume no I2C errors from here */
+
+ TFA_SET_BF_VALUE(tfa, DMEM, (uint16_t)Tfa98xx_DMEM_XMEM, &cfctl); /* set cf ctl to DMEM */
+ TFA_SET_BF_VALUE(tfa, AIF, 0, &cfctl); /* set to autoincrement */
+ TFA_WRITE_REG(tfa, DMEM, cfctl);
+
+ /* xmem[1] is start of message
+ * direct write to register to save cycles avoiding read-modify-write
+ */
+ TFA_WRITE_REG(tfa, MADD, 1);
+
+ /* due to autoincrement in cf_ctrl, next write will happen at
+ * the next address */
+ while ((error == Tfa98xx_Error_Ok) && (remaining_bytes > 0)) {
+ if (remaining_bytes < chunk_size)
+ chunk_size = remaining_bytes;
+ /* else chunk_size remains at initialize value above */
+ error = tfa98xx_write_data(tfa, FAM_TFA98XX_CF_MEM,
+ chunk_size, (const unsigned char *)buffer + offset);
+ remaining_bytes -= chunk_size;
+ offset += chunk_size;
+ }
+
+ /* notify the DSP */
+ if (error == Tfa98xx_Error_Ok) {
+ /* cf_int=0, cf_aif=0, cf_dmem=XMEM=01, cf_rst_dsp=0 */
+ /* set the cf_req1 and cf_int bit */
+ TFA_SET_BF_VALUE(tfa, REQCMD, 0x01, &cfctl); /* bit 0 */
+ TFA_SET_BF_VALUE(tfa, CFINT, 1, &cfctl);
+ error = -TFA_WRITE_REG(tfa, CFINT, cfctl);
+ }
+
+ return error;
+}
+
+enum Tfa98xx_Error tfa_dsp_msg_write_id(struct tfa_device *tfa, int length, const char *buffer, uint8_t cmdid[3])
+{
+ int offset = 0;
+ int chunk_size = ROUND_DOWN(tfa->buffer_size, 3); /* XMEM word size */
+ int remaining_bytes = length;
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ uint16_t cfctl;
+ int value;
+
+ value = TFA_READ_REG(tfa, DMEM);
+ if (value < 0) {
+ error = -value;
+ return error;
+ }
+ cfctl = (uint16_t)value;
+ /* assume no I2C errors from here */
+
+ TFA_SET_BF_VALUE(tfa, DMEM, (uint16_t)Tfa98xx_DMEM_XMEM, &cfctl); /* set cf ctl to DMEM */
+ TFA_SET_BF_VALUE(tfa, AIF, 0, &cfctl); /* set to autoincrement */
+ TFA_WRITE_REG(tfa, DMEM, cfctl);
+
+ /* xmem[1] is start of message
+ * direct write to register to save cycles avoiding read-modify-write
+ */
+ TFA_WRITE_REG(tfa, MADD, 1);
+
+ /* write cmd-id */
+ error = tfa98xx_write_data(tfa, FAM_TFA98XX_CF_MEM, 3, (const unsigned char *)cmdid);
+
+ /* due to autoincrement in cf_ctrl, next write will happen at
+ * the next address */
+ while ((error == Tfa98xx_Error_Ok) && (remaining_bytes > 0)) {
+ if (remaining_bytes < chunk_size)
+ chunk_size = remaining_bytes;
+ /* else chunk_size remains at initialize value above */
+ error = tfa98xx_write_data(tfa, FAM_TFA98XX_CF_MEM,
+ chunk_size, (const unsigned char *)buffer + offset);
+ remaining_bytes -= chunk_size;
+ offset += chunk_size;
+ }
+
+ /* notify the DSP */
+ if (error == Tfa98xx_Error_Ok) {
+ /* cf_int=0, cf_aif=0, cf_dmem=XMEM=01, cf_rst_dsp=0 */
+ /* set the cf_req1 and cf_int bit */
+ TFA_SET_BF_VALUE(tfa, REQCMD, 0x01, &cfctl); /* bit 0 */
+ TFA_SET_BF_VALUE(tfa, CFINT, 1, &cfctl);
+ error = -TFA_WRITE_REG(tfa, CFINT, cfctl);
+ }
+
+ return error;
+}
+
+/*
+* status function used by tfa_dsp_msg() to retrieve command/msg status:
+* return a <0 status of the DSP did not ACK.
+*/
+enum Tfa98xx_Error tfa_dsp_msg_status(struct tfa_device *tfa, int *pRpcStatus)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ error = tfa98xx_wait_result(tfa, 2); /* 2 is only one try */
+ if (error == Tfa98xx_Error_DSP_not_running) {
+ *pRpcStatus = -1;
+ return Tfa98xx_Error_Ok;
+ }
+ else if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ error = tfa98xx_check_rpc_status(tfa, pRpcStatus);
+
+ return error;
+}
+
+const char* tfa98xx_get_i2c_status_id_string(int status)
+{
+ const char* p_id_str;
+
+ switch (status)
+ {
+ case Tfa98xx_DSP_Not_Running:
+ p_id_str = "No response from DSP";
+ break;
+ case Tfa98xx_I2C_Req_Done:
+ p_id_str = "Ok";
+ break;
+ case Tfa98xx_I2C_Req_Busy:
+ p_id_str = "Request is being processed";
+ break;
+ case Tfa98xx_I2C_Req_Invalid_M_ID:
+ p_id_str = "Provided M-ID does not fit in valid rang [0..2]";
+ break;
+ case Tfa98xx_I2C_Req_Invalid_P_ID:
+ p_id_str = "Provided P-ID is not valid in the given M-ID context";
+ break;
+ case Tfa98xx_I2C_Req_Invalid_CC:
+ p_id_str = "Invalid channel configuration bits (SC|DS|DP|DC) combination";
+ break;
+ case Tfa98xx_I2C_Req_Invalid_Seq:
+ p_id_str = "Invalid sequence of commands, in case the DSP expects some commands in a specific order";
+ break;
+ case Tfa98xx_I2C_Req_Invalid_Param:
+ p_id_str = "Generic error, invalid parameter";
+ break;
+ case Tfa98xx_I2C_Req_Buffer_Overflow:
+ p_id_str = "I2C buffer has overflowed: host has sent too many parameters, memory integrity is not guaranteed";
+ break;
+ case Tfa98xx_I2C_Req_Calib_Busy:
+ p_id_str = "Calibration not completed";
+ break;
+ case Tfa98xx_I2C_Req_Calib_Failed:
+ p_id_str = "Calibration failed";
+ break;
+
+ default:
+ p_id_str = "Unspecified error";
+ }
+
+ return p_id_str;
+}
+
+enum Tfa98xx_Error tfa_dsp_msg_read(struct tfa_device *tfa, int length, unsigned char *bytes)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int burst_size; /* number of words per burst size */
+ int bytes_per_word = 3;
+ int num_bytes;
+ int offset = 0;
+ unsigned short start_offset = 2; /* msg starts @xmem[2] ,[1]=cmd */
+
+ if (length > TFA2_MAX_PARAM_SIZE)
+ return Tfa98xx_Error_Bad_Parameter;
+
+ TFA_SET_BF(tfa, DMEM, (uint16_t)Tfa98xx_DMEM_XMEM);
+ error = -TFA_WRITE_REG(tfa, MADD, start_offset);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ num_bytes = length; /* input param */
+ while (num_bytes > 0) {
+ burst_size = ROUND_DOWN(tfa->buffer_size, bytes_per_word);
+ if (num_bytes < burst_size)
+ burst_size = num_bytes;
+ error = tfa98xx_read_data(tfa, FAM_TFA98XX_CF_MEM, burst_size, bytes + offset);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ num_bytes -= burst_size;
+ offset += burst_size;
+ }
+
+ return error;
+}
+
+enum Tfa98xx_Error dsp_msg(struct tfa_device *tfa, int length24, const char *buf24)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int lastmessage = 0;
+ uint8_t *blob;
+ int i;
+ int *intbuf = NULL;
+ char* buf = (char *)buf24;
+ int length = length24;
+
+ if (tfa->convert_dsp32) {
+ int idx = 0;
+
+ length = 4 * length24 / 3;
+ intbuf = kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ buf = (char *)intbuf;
+
+ /* convert 24 bit DSP messages to a 32 bit integer */
+ for (i = 0; i < length24; i += 3) {
+ int tmp = (buf24[i] << 16) + (buf24[i + 1] << 8) + buf24[i + 2];
+ /* Sign extend to 32-bit from 24-bit */
+ intbuf[idx++] = ((int32_t)tmp << 8) >> 8;
+ }
+ }
+
+ /* Only create multi-msg when the dsp is cold */
+ if (tfa->ext_dsp == 1) {
+ /* Creating the multi-msg */
+ error = tfa_tib_dsp_msgmulti(tfa, length, buf);
+ if (error == Tfa98xx_Error_Fail)
+ return Tfa98xx_Error_Fail;
+
+ /* if the buffer is full we need to send the existing message and add the current message */
+ if (error == Tfa98xx_Error_Buffer_too_small) {
+ int len;
+
+ /* (a) send the existing (full) message */
+ blob = kmalloc(64 * 1024, GFP_KERNEL); // max length is 64k
+ len = tfa_tib_dsp_msgmulti(tfa, -1, (const char*)blob);
+ if (tfa->verbose) {
+ pr_debug("Multi-message buffer full. Sending multi-message, length=%d \n", len);
+ }
+ if (tfa->has_msg == 0) /* via i2c */ {
+ /* Send tot the target selected */
+ error = (tfa->dev_ops.dsp_msg)(tfa, len, (const char*)blob);
+ }
+ else { /* via msg hal */
+ error = tfa98xx_write_dsp(tfa, len, (const char*)blob);
+ }
+ kfree(blob);
+
+ /* (b) add the current DSP message to a new multi-message */
+ error = tfa_tib_dsp_msgmulti(tfa, length, buf);
+ if (error == Tfa98xx_Error_Fail) {
+ return Tfa98xx_Error_Fail;
+ }
+ }
+
+ lastmessage = error;
+
+ /* When the lastmessage is done we can send the multi-msg to the target */
+ if (lastmessage == 1) {
+
+ /* Get the full multi-msg data */
+ blob = kmalloc(64 * 1024, GFP_KERNEL); //max length is 64k
+ length = tfa_tib_dsp_msgmulti(tfa, -1, (const char*)blob);
+
+ if (tfa->verbose)
+ pr_debug("Last message for the multi-message received. Multi-message length=%d \n", length);
+
+ if (tfa->has_msg == 0) /* via i2c */ {
+ /* Send tot the target selected */
+ error = (tfa->dev_ops.dsp_msg)(tfa, length, (const char*)blob);
+ }
+ else { /* via msg hal */
+ error = tfa98xx_write_dsp(tfa, length, (const char*)blob);
+ }
+
+ kfree(blob); /* Free the kmalloc blob */
+ lastmessage = 0; /* reset to be able to re-start */
+ }
+ }
+ else {
+ if (tfa->has_msg == 0) /* via i2c */ {
+ error = (tfa->dev_ops.dsp_msg)(tfa, length, buf);
+ }
+ else { /* via msg hal */
+ error = tfa98xx_write_dsp(tfa, length, (const char*)buf);
+ }
+ }
+
+ if (error != Tfa98xx_Error_Ok)
+ error = (enum Tfa98xx_Error) (error + Tfa98xx_Error_RpcBase); /* Get actual error code from softDSP */
+
+ /* DSP verbose has argument 0x04 */
+ if ((tfa->verbose & 0x04) != 0) {
+ pr_debug("DSP w [%d]: ", length);
+ for (i = 0; i < length; i++)
+ pr_debug("0x%02x ", (uint8_t)buf[i]);
+ pr_debug("\n");
+ }
+
+ if (tfa->convert_dsp32) {
+ kmem_cache_free(tfa->cachep, intbuf);
+ }
+
+ return error;
+}
+
+enum Tfa98xx_Error dsp_msg_read(struct tfa_device *tfa, int length24, unsigned char *bytes24)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int i;
+ int length = length24;
+ unsigned char *bytes = bytes24;
+
+ if (tfa->convert_dsp32) {
+ length = 4 * length24 / 3;
+ bytes = kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ }
+
+ if (tfa->has_msg == 0) /* via i2c */ {
+ error = (tfa->dev_ops.dsp_msg_read)(tfa, length, bytes);
+ }
+ else { /* via msg hal */
+ error = tfa98xx_read_dsp(tfa, length, bytes);
+ }
+
+ if (error != Tfa98xx_Error_Ok)
+ error = (enum Tfa98xx_Error) (error + Tfa98xx_Error_RpcBase); /* Get actual error code from softDSP */
+
+ /* DSP verbose has argument 0x04 */
+ if ((tfa->verbose & 0x04) != 0) {
+ pr_debug("DSP R [%d]: ", length);
+ for (i = 0; i < length; i++)
+ pr_debug("0x%02x ", (uint8_t)bytes[i]);
+ pr_debug("\n");
+ }
+
+ if (tfa->convert_dsp32) {
+ int idx = 0;
+
+ /* convert 32 bit LE to 24 bit BE */
+ for (i = 0; i < length; i += 4) {
+ bytes24[idx++] = bytes[i + 2];
+ bytes24[idx++] = bytes[i + 1];
+ bytes24[idx++] = bytes[i + 0];
+ }
+
+ kmem_cache_free(tfa->cachep, bytes);
+ }
+
+ return error;
+}
+
+enum Tfa98xx_Error reg_read(struct tfa_device *tfa, unsigned char subaddress, unsigned short *value)
+{
+ enum Tfa98xx_Error error;
+
+ error = (tfa->dev_ops.reg_read)(tfa, subaddress, value);
+ if (error != Tfa98xx_Error_Ok)
+ error = (enum Tfa98xx_Error) (error + Tfa98xx_Error_RpcBase); /* Get actual error code from softDSP */
+
+ return error;
+}
+
+enum Tfa98xx_Error reg_write(struct tfa_device *tfa, unsigned char subaddress, unsigned short value)
+{
+ enum Tfa98xx_Error error;
+
+ error = (tfa->dev_ops.reg_write)(tfa, subaddress, value);
+ if (error != Tfa98xx_Error_Ok)
+ error = (enum Tfa98xx_Error) (error + Tfa98xx_Error_RpcBase); /* Get actual error code from softDSP */
+
+ return error;
+}
+
+enum Tfa98xx_Error mem_read(struct tfa_device *tfa, unsigned int start_offset, int num_words, int *pValues)
+{
+ enum Tfa98xx_Error error;
+
+ error = (tfa->dev_ops.mem_read)(tfa, start_offset, num_words, pValues);
+ if (error != Tfa98xx_Error_Ok)
+ error = (enum Tfa98xx_Error) (error + Tfa98xx_Error_RpcBase); /* Get actual error code from softDSP */
+
+ return error;
+}
+
+enum Tfa98xx_Error mem_write(struct tfa_device *tfa, unsigned short address, int value, int memtype)
+{
+ enum Tfa98xx_Error error;
+
+ error = (tfa->dev_ops.mem_write)(tfa, address, value, memtype);
+ if (error != Tfa98xx_Error_Ok)
+ error = (enum Tfa98xx_Error) (error + Tfa98xx_Error_RpcBase); /* Get actual error code from softDSP */
+
+ return error;
+}
+
+
+/*
+ * write/read raw msg functions :
+ * the buffer is provided in little endian format, each word occupying 3 bytes, length is in bytes.
+ * The functions will return immediately and do not not wait for DSP reponse.
+ */
+#define MAX_WORDS (300)
+enum Tfa98xx_Error tfa_dsp_msg(struct tfa_device *tfa, int length, const char *buf)
+{
+ enum Tfa98xx_Error error;
+ int tries, rpc_status = Tfa98xx_I2C_Req_Done;
+
+ /* write the message and notify the DSP */
+ error = tfa_dsp_msg_write(tfa, length, buf);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ /* get the result from the DSP (polling) */
+ for (tries = TFA98XX_WAITRESULT_NTRIES; tries > 0; tries--) {
+ error = tfa_dsp_msg_status(tfa, &rpc_status);
+ if (error == Tfa98xx_Error_Ok && rpc_status == Tfa98xx_I2C_Req_Done)
+ break;
+ /* If the rpc status is a specific error we want to know it.
+ * If it is busy or not running it should retry
+ */
+ if (rpc_status != Tfa98xx_I2C_Req_Busy && rpc_status != Tfa98xx_DSP_Not_Running)
+ break;
+ }
+
+ if (rpc_status != Tfa98xx_I2C_Req_Done) {
+ /* DSP RPC call returned an error */
+ error = (enum Tfa98xx_Error) (rpc_status + Tfa98xx_Error_RpcBase);
+ pr_debug("DSP msg status: %d (%s)\n", rpc_status, tfa98xx_get_i2c_status_id_string(rpc_status));
+ }
+ return error;
+}
+
+/**
+ * write/read raw msg functions:
+ * the buffer is provided in little endian format, each word occupying 3 bytes, length is in bytes.
+ * The functions will return immediately and do not not wait for DSP reponse.
+ * An ID is added to modify the command-ID
+ */
+enum Tfa98xx_Error tfa_dsp_msg_id(struct tfa_device *tfa, int length, const char *buf, uint8_t cmdid[3])
+{
+ enum Tfa98xx_Error error;
+ int tries, rpc_status = Tfa98xx_I2C_Req_Done;
+
+ /* write the message and notify the DSP */
+ error = tfa_dsp_msg_write_id(tfa, length, buf, cmdid);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ /* get the result from the DSP (polling) */
+ for (tries = TFA98XX_WAITRESULT_NTRIES; tries > 0; tries--) {
+ error = tfa_dsp_msg_status(tfa, &rpc_status);
+ if (error == Tfa98xx_Error_Ok && rpc_status == Tfa98xx_I2C_Req_Done)
+ break;
+ }
+
+ if (rpc_status != Tfa98xx_I2C_Req_Done) {
+ /* DSP RPC call returned an error */
+ error = (enum Tfa98xx_Error) (rpc_status + Tfa98xx_Error_RpcBase);
+ pr_debug("DSP msg status: %d (%s)\n", rpc_status, tfa98xx_get_i2c_status_id_string(rpc_status));
+ }
+ return error;
+}
+
+/* read the return code for the RPC call */
+TFA_INTERNAL enum Tfa98xx_Error
+tfa98xx_check_rpc_status(struct tfa_device *tfa, int *pRpcStatus)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ /* the value to sent to the * CF_CONTROLS register: cf_req=00000000,
+ * cf_int=0, cf_aif=0, cf_dmem=XMEM=01, cf_rst_dsp=0 */
+ unsigned short cf_ctrl = 0x0002;
+ /* memory address to be accessed (0: Status, 1: ID, 2: parameters) */
+ unsigned short cf_mad = 0x0000;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+ if (pRpcStatus == NULL)
+ return Tfa98xx_Error_Bad_Parameter;
+
+ /* 1) write DMEM=XMEM to the DSP XMEM */
+ {
+ /* minimize the number of I2C transactions by making use of the autoincrement in I2C */
+ unsigned char buffer[4];
+ /* first the data for CF_CONTROLS */
+ buffer[0] = (unsigned char)((cf_ctrl >> 8) & 0xFF);
+ buffer[1] = (unsigned char)(cf_ctrl & 0xFF);
+ /* write the contents of CF_MAD which is the subaddress following CF_CONTROLS */
+ buffer[2] = (unsigned char)((cf_mad >> 8) & 0xFF);
+ buffer[3] = (unsigned char)(cf_mad & 0xFF);
+ error = tfa98xx_write_data(tfa, FAM_TFA98XX_CF_CONTROLS, sizeof(buffer), buffer);
+ }
+ if (error == Tfa98xx_Error_Ok) {
+ /* read 1 word (24 bit) from XMEM */
+ error = tfa98xx_dsp_read_mem(tfa, 0, 1, pRpcStatus);
+ }
+
+ return error;
+}
+
+/***************************** xmem only **********************************/
+enum Tfa98xx_Error
+ tfa98xx_dsp_read_mem(struct tfa_device *tfa,
+ unsigned int start_offset, int num_words, int *pValues)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned char *bytes;
+ int burst_size; /* number of words per burst size */
+ const int bytes_per_word = 3;
+ int dmem;
+ int num_bytes;
+ int *p;
+
+ bytes = (unsigned char *)kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ if (bytes == NULL)
+ return Tfa98xx_Error_Fail;
+
+ /* If no offset is given, assume XMEM! */
+ if (((start_offset >> 16) & 0xf) > 0)
+ dmem = (start_offset >> 16) & 0xf;
+ else
+ dmem = Tfa98xx_DMEM_XMEM;
+
+ /* Remove offset from adress */
+ start_offset = start_offset & 0xffff;
+ num_bytes = num_words * bytes_per_word;
+ p = pValues;
+
+ TFA_SET_BF(tfa, DMEM, (uint16_t)dmem);
+ error = -TFA_WRITE_REG(tfa, MADD, (unsigned short)start_offset);
+ if (error != Tfa98xx_Error_Ok)
+ goto tfa98xx_dsp_read_mem_exit;
+
+ for (; num_bytes > 0;) {
+ burst_size = ROUND_DOWN(tfa->buffer_size, bytes_per_word);
+ if (num_bytes < burst_size)
+ burst_size = num_bytes;
+
+ _ASSERT(burst_size <= sizeof(bytes));
+ error = tfa98xx_read_data(tfa, FAM_TFA98XX_CF_MEM, burst_size, bytes);
+ if (error != Tfa98xx_Error_Ok)
+ goto tfa98xx_dsp_read_mem_exit;
+
+ tfa98xx_convert_bytes2data(burst_size, bytes, p);
+
+ num_bytes -= burst_size;
+ p += burst_size / bytes_per_word;
+ }
+
+tfa98xx_dsp_read_mem_exit:
+ kmem_cache_free(tfa->cachep, bytes);
+
+ return error;
+}
+
+
+enum Tfa98xx_Error
+ tfa98xx_dsp_write_mem_word(struct tfa_device *tfa, unsigned short address, int value, int memtype)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned char bytes[3];
+
+ TFA_SET_BF(tfa, DMEM, (uint16_t)memtype);
+
+ error = -TFA_WRITE_REG(tfa, MADD, address);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ tfa98xx_convert_data2bytes(1, &value, bytes);
+ error = tfa98xx_write_data(tfa, FAM_TFA98XX_CF_MEM, 3, bytes);
+
+ return error;
+}
+
+enum Tfa98xx_Error tfa_cont_write_filterbank(struct tfa_device *tfa, nxpTfaFilter_t *filter)
+{
+ unsigned char biquad_index;
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ for (biquad_index = 0; biquad_index < 10; biquad_index++) {
+ if (filter[biquad_index].enabled) {
+ error = tfa_dsp_cmd_id_write(tfa, MODULE_BIQUADFILTERBANK,
+ biquad_index + 1, //start @1
+ sizeof(filter[biquad_index].biquad.bytes),
+ filter[biquad_index].biquad.bytes);
+ }
+ else {
+ error = Tfa98xx_DspBiquad_Disable(tfa, biquad_index + 1);
+ }
+ if (error) return error;
+
+ }
+
+ return error;
+}
+
+enum Tfa98xx_Error
+ Tfa98xx_DspBiquad_Disable(struct tfa_device *tfa, int biquad_index)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int coeff_buffer[BIQUAD_COEFF_SIZE];
+ unsigned char bytes[3 + BIQUAD_COEFF_SIZE * 3];
+ int nr = 0;
+
+ if (biquad_index > TFA98XX_BIQUAD_NUM)
+ return Tfa98xx_Error_Bad_Parameter;
+ if (biquad_index < 1)
+ return Tfa98xx_Error_Bad_Parameter;
+
+ /* make opcode */
+ bytes[nr++] = 0;
+ bytes[nr++] = MODULE_BIQUADFILTERBANK + 128;
+ bytes[nr++] = (unsigned char)biquad_index;
+
+
+ /* set in correct order and format for the DSP */
+ coeff_buffer[0] = (int)-8388608; /* -1.0f */
+ coeff_buffer[1] = 0;
+ coeff_buffer[2] = 0;
+ coeff_buffer[3] = 0;
+ coeff_buffer[4] = 0;
+ coeff_buffer[5] = 0;
+
+ /* convert to packed 24 */
+ tfa98xx_convert_data2bytes(BIQUAD_COEFF_SIZE, coeff_buffer, &bytes[nr]);
+ nr += BIQUAD_COEFF_SIZE * 3;
+
+ error = dsp_msg(tfa, nr, (char *)bytes);
+
+ return error;
+}
+
+/* wrapper for dsp_msg that adds opcode */
+enum Tfa98xx_Error tfa_dsp_cmd_id_write(struct tfa_device *tfa,
+ unsigned char module_id,
+ unsigned char param_id, int num_bytes,
+ const unsigned char data[])
+{
+ enum Tfa98xx_Error error;
+ unsigned char *buffer;
+ int nr = 0;
+
+ buffer = kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ if (buffer == NULL)
+ return Tfa98xx_Error_Fail;
+
+ buffer[nr++] = tfa->spkr_select;
+ buffer[nr++] = module_id + 128;
+ buffer[nr++] = param_id;
+
+ memcpy(&buffer[nr], data, num_bytes);
+ nr += num_bytes;
+
+ error = dsp_msg(tfa, nr, (char *)buffer);
+
+ kmem_cache_free(tfa->cachep, buffer);
+
+ return error;
+}
+
+/* wrapper for dsp_msg that adds opcode */
+/* this is as the former tfa98xx_dsp_get_param() */
+enum Tfa98xx_Error tfa_dsp_cmd_id_write_read(struct tfa_device *tfa,
+ unsigned char module_id,
+ unsigned char param_id, int num_bytes,
+ unsigned char data[])
+{
+ enum Tfa98xx_Error error;
+ unsigned char buffer[3];
+ int nr = 0;
+
+ if (num_bytes <= 0) {
+ pr_debug("Error: The number of READ bytes is smaller or equal to 0! \n");
+ return Tfa98xx_Error_Fail;
+ }
+
+ if ((tfa->is_probus_device) && (tfa->cnt->ndev == 1) &&
+ (param_id == SB_PARAM_GET_RE25C ||
+ param_id == SB_PARAM_GET_LSMODEL ||
+ param_id == SB_PARAM_GET_ALGO_PARAMS)) {
+ /* Modifying the ID for GetRe25C */
+ buffer[nr++] = 4;
+ }
+ else {
+ buffer[nr++] = tfa->spkr_select;
+ }
+ buffer[nr++] = module_id + 128;
+ buffer[nr++] = param_id;
+
+ error = dsp_msg(tfa, nr, (char *)buffer);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ /* read the data from the dsp */
+ error = dsp_msg_read(tfa, num_bytes, data);
+ return error;
+}
+
+/* wrapper for dsp_msg that adds opcode and 3 bytes required for coefs */
+enum Tfa98xx_Error tfa_dsp_cmd_id_coefs(struct tfa_device *tfa,
+ unsigned char module_id,
+ unsigned char param_id, int num_bytes,
+ unsigned char data[])
+{
+ enum Tfa98xx_Error error;
+ unsigned char buffer[2 * 3];
+ int nr = 0;
+
+ buffer[nr++] = tfa->spkr_select;
+ buffer[nr++] = module_id + 128;
+ buffer[nr++] = param_id;
+
+ buffer[nr++] = 0;
+ buffer[nr++] = 0;
+ buffer[nr++] = 0;
+
+ error = dsp_msg(tfa, nr, (char *)buffer);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ /* read the data from the dsp */
+ error = dsp_msg_read(tfa, num_bytes, data);
+
+ return error;
+}
+
+/* wrapper for dsp_msg that adds opcode and 3 bytes required for MBDrcDynamics */
+enum Tfa98xx_Error tfa_dsp_cmd_id_MBDrc_dynamics(struct tfa_device *tfa,
+ unsigned char module_id,
+ unsigned char param_id, int index_subband,
+ int num_bytes, unsigned char data[])
+{
+ enum Tfa98xx_Error error;
+ unsigned char buffer[2 * 3];
+ int nr = 0;
+
+ buffer[nr++] = tfa->spkr_select;
+ buffer[nr++] = module_id + 128;
+ buffer[nr++] = param_id;
+
+ buffer[nr++] = 0;
+ buffer[nr++] = 0;
+ buffer[nr++] = (unsigned char)index_subband;
+
+ error = dsp_msg(tfa, nr, (char *)buffer);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ /* read the data from the dsp */
+ error = dsp_msg_read(tfa, num_bytes, data);
+
+ return error;
+}
+
+enum Tfa98xx_Error
+ tfa98xx_dsp_write_preset(struct tfa_device *tfa, int length,
+ const unsigned char *p_preset_bytes)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ if (p_preset_bytes != NULL) {
+ /* by design: keep the data opaque and no
+ * interpreting/calculation */
+ error = tfa_dsp_cmd_id_write(tfa, MODULE_SPEAKERBOOST,
+ SB_PARAM_SET_PRESET, length,
+ p_preset_bytes);
+ }
+ else {
+ error = Tfa98xx_Error_Bad_Parameter;
+ }
+ return error;
+}
+
+/*
+ * get features from MTP
+ */
+enum Tfa98xx_Error
+ tfa98xx_dsp_get_hw_feature_bits(struct tfa_device *tfa, int *features)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ uint32_t value;
+ uint16_t mtpbf;
+
+ /* return the cache data if it's valid */
+ if (tfa->hw_feature_bits != -1) {
+ *features = tfa->hw_feature_bits;
+ }
+ else {
+ /* for tfa1 check if we have clock */
+ if (tfa->tfa_family == 1) {
+ int status;
+ tfa98xx_dsp_system_stable(tfa, &status);
+ if (!status) {
+ get_hw_features_from_cnt(tfa, features);
+ /* skip reading MTP: */
+ return (*features == -1) ? Tfa98xx_Error_Fail : Tfa98xx_Error_Ok;
+ }
+ mtpbf = 0x850f; /* MTP5 for tfa1,16 bits */
+ }
+ else
+ mtpbf = 0xf907; /* MTP9 for tfa2, 8 bits */
+ value = tfa_read_reg(tfa, mtpbf) & 0xffff;
+ *features = tfa->hw_feature_bits = value;
+ }
+
+ return error;
+}
+
+enum Tfa98xx_Error
+ tfa98xx_dsp_get_sw_feature_bits(struct tfa_device *tfa, int features[2])
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ const int byte_size = 2 * 3;
+ unsigned char bytes[2 * 3];
+
+ /* return the cache data if it's valid */
+ if (tfa->sw_feature_bits[0] != -1) {
+ features[0] = tfa->sw_feature_bits[0];
+ features[1] = tfa->sw_feature_bits[1];
+ }
+ else {
+ /* for tfa1 check if we have clock */
+ if (tfa->tfa_family == 1) {
+ int status;
+ tfa98xx_dsp_system_stable(tfa, &status);
+ if (!status) {
+ get_sw_features_from_cnt(tfa, features);
+ /* skip reading MTP: */
+ return (features[0] == -1) ? Tfa98xx_Error_Fail : Tfa98xx_Error_Ok;
+ }
+ }
+ error = tfa_dsp_cmd_id_write_read(tfa, MODULE_FRAMEWORK,
+ FW_PAR_ID_GET_FEATURE_INFO, byte_size, bytes);
+
+ if (error != Tfa98xx_Error_Ok) {
+ /* old ROM code may respond with Tfa98xx_Error_RpcParamId */
+ return error;
+ }
+
+ tfa98xx_convert_bytes2data(byte_size, bytes, features);
+ }
+ return error;
+}
+
+enum Tfa98xx_Error tfa98xx_dsp_get_state_info(struct tfa_device *tfa, unsigned char bytes[], unsigned int *statesize)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int bSupportFramework = 0;
+ unsigned int stateSize = 9;
+
+ err = tfa98xx_dsp_support_framework(tfa, &bSupportFramework);
+ if (err == Tfa98xx_Error_Ok) {
+ if (bSupportFramework) {
+ err = tfa_dsp_cmd_id_write_read(tfa, MODULE_FRAMEWORK,
+ FW_PARAM_GET_STATE, 3 * stateSize, bytes);
+ }
+ else {
+ /* old ROM code, ask SpeakerBoost and only do first portion */
+ stateSize = 8;
+ err = tfa_dsp_cmd_id_write_read(tfa, MODULE_SPEAKERBOOST,
+ SB_PARAM_GET_STATE, 3 * stateSize, bytes);
+ }
+ }
+
+ *statesize = stateSize;
+
+ return err;
+}
+
+enum Tfa98xx_Error tfa98xx_dsp_support_drc(struct tfa_device *tfa, int *pbSupportDrc)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ *pbSupportDrc = 0;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+ if (tfa->supportDrc != supportNotSet) {
+ *pbSupportDrc = (tfa->supportDrc == supportYes);
+ }
+ else {
+ int featureBits[2];
+
+ error = tfa98xx_dsp_get_sw_feature_bits(tfa, featureBits);
+ if (error == Tfa98xx_Error_Ok) {
+ /* easy case: new API available */
+ /* bit=0 means DRC enabled */
+ *pbSupportDrc = (featureBits[0] & FEATURE1_DRC) == 0;
+ }
+ else if (error == Tfa98xx_Error_RpcParamId) {
+ /* older ROM code, doesn't support it */
+ *pbSupportDrc = 0;
+ error = Tfa98xx_Error_Ok;
+ }
+ /* else some other error, return transparently */
+ /* pbSupportDrc only changed when error == Tfa98xx_Error_Ok */
+
+ if (error == Tfa98xx_Error_Ok) {
+ tfa->supportDrc = *pbSupportDrc ? supportYes : supportNo;
+ }
+ }
+ return error;
+}
+
+enum Tfa98xx_Error
+ tfa98xx_dsp_support_framework(struct tfa_device *tfa, int *pbSupportFramework)
+{
+ int featureBits[2] = { 0, 0 };
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ _ASSERT(pbSupportFramework != 0);
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ if (tfa->supportFramework != supportNotSet) {
+ if (tfa->supportFramework == supportNo)
+ *pbSupportFramework = 0;
+ else
+ *pbSupportFramework = 1;
+ }
+ else {
+ error = tfa98xx_dsp_get_sw_feature_bits(tfa, featureBits);
+ if (error == Tfa98xx_Error_Ok) {
+ *pbSupportFramework = 1;
+ tfa->supportFramework = supportYes;
+ }
+ else {
+ *pbSupportFramework = 0;
+ tfa->supportFramework = supportNo;
+ error = Tfa98xx_Error_Ok;
+ }
+ }
+
+ /* *pbSupportFramework only changed when error == Tfa98xx_Error_Ok */
+ return error;
+}
+
+enum Tfa98xx_Error
+ tfa98xx_dsp_write_speaker_parameters(struct tfa_device *tfa,
+ int length, const unsigned char *p_speaker_bytes)
+{
+ enum Tfa98xx_Error error;
+ int bSupportDrc;
+
+ if (p_speaker_bytes != NULL) {
+ /* by design: keep the data opaque and no
+ * interpreting/calculation */
+ /* Use long WaitResult retry count */
+ error = tfa_dsp_cmd_id_write(
+ tfa,
+ MODULE_SPEAKERBOOST,
+ SB_PARAM_SET_LSMODEL, length,
+ p_speaker_bytes);
+ }
+ else {
+ error = Tfa98xx_Error_Bad_Parameter;
+ }
+
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ error = tfa98xx_dsp_support_drc(tfa, &bSupportDrc);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ if (bSupportDrc) {
+ /* Need to set AgcGainInsert back to PRE,
+ * as the SetConfig forces it to POST */
+ uint8_t bytes[3] = { 0, 0, 0 };
+
+ error = tfa_dsp_cmd_id_write(tfa,
+ MODULE_SPEAKERBOOST,
+ SB_PARAM_SET_AGCINS,
+ 3,
+ bytes);
+ }
+
+ return error;
+}
+
+enum Tfa98xx_Error
+ tfa98xx_dsp_write_config(struct tfa_device *tfa, int length,
+ const unsigned char *p_config_bytes)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int bSupportDrc;
+
+ error = tfa_dsp_cmd_id_write(tfa,
+ MODULE_SPEAKERBOOST,
+ SB_PARAM_SET_CONFIG, length,
+ p_config_bytes);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ error = tfa98xx_dsp_support_drc(tfa, &bSupportDrc);
+ if (error != Tfa98xx_Error_Ok)
+ return error;
+
+ if (bSupportDrc) {
+ /* Need to set AgcGainInsert back to PRE,
+ * as the SetConfig forces it to POST */
+ uint8_t bytes[3] = { 0, 0, 0 };
+
+ error = tfa_dsp_cmd_id_write(tfa,
+ MODULE_SPEAKERBOOST,
+ SB_PARAM_SET_AGCINS,
+ 3,
+ bytes);
+ }
+
+ return error;
+}
+
+/* load all the parameters for the DRC settings from a file */
+enum Tfa98xx_Error tfa98xx_dsp_write_drc(struct tfa_device *tfa,
+ int length, const unsigned char *p_drc_bytes)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ if (p_drc_bytes != NULL) {
+ error = tfa_dsp_cmd_id_write(tfa,
+ MODULE_SPEAKERBOOST,
+ SB_PARAM_SET_DRC, length,
+ p_drc_bytes);
+
+ }
+ else {
+ error = Tfa98xx_Error_Bad_Parameter;
+ }
+ return error;
+}
+
+enum Tfa98xx_Error tfa98xx_powerdown(struct tfa_device *tfa, int powerdown)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ error = TFA_SET_BF(tfa, PWDN, (uint16_t)powerdown);
+
+ if (powerdown) {
+ /* Workaround for ticket PLMA5337 */
+ if (tfa->tfa_family == 2) {
+ TFA_SET_BF_VOLATILE(tfa, AMPE, 0);
+ }
+ }
+
+ return error;
+}
+
+enum Tfa98xx_Error
+ tfa98xx_select_mode(struct tfa_device *tfa, enum Tfa98xx_Mode mode)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ if (error == Tfa98xx_Error_Ok) {
+ switch (mode) {
+
+ default:
+ error = Tfa98xx_Error_Bad_Parameter;
+ }
+ }
+
+ return error;
+}
+
+int tfa_set_bf(struct tfa_device *tfa, const uint16_t bf, const uint16_t value)
+{
+ enum Tfa98xx_Error err;
+ uint16_t regvalue, msk, oldvalue;
+
+ /*
+ * bitfield enum:
+ * - 0..3 : len
+ * - 4..7 : pos
+ * - 8..15 : address
+ */
+ uint8_t len = bf & 0x0f;
+ uint8_t pos = (bf >> 4) & 0x0f;
+ uint8_t address = (bf >> 8) & 0xff;
+
+ err = reg_read(tfa, address, ®value);
+ if (err) {
+ pr_err("Error getting bf :%d \n", -err);
+ return -err;
+ }
+
+ oldvalue = regvalue;
+ msk = ((1 << (len + 1)) - 1) << pos;
+ regvalue &= ~msk;
+ regvalue |= value << pos;
+
+ /* Only write when the current register value is not the same as the new value */
+ if (oldvalue != regvalue) {
+ err = reg_write(tfa, address, regvalue);
+ if (err) {
+ pr_err("Error setting bf :%d \n", -err);
+ return -err;
+ }
+ }
+
+ return 0;
+}
+
+int tfa_set_bf_volatile(struct tfa_device *tfa, const uint16_t bf, const uint16_t value)
+{
+ enum Tfa98xx_Error err;
+ uint16_t regvalue, msk;
+
+ /*
+ * bitfield enum:
+ * - 0..3 : len
+ * - 4..7 : pos
+ * - 8..15 : address
+ */
+ uint8_t len = bf & 0x0f;
+ uint8_t pos = (bf >> 4) & 0x0f;
+ uint8_t address = (bf >> 8) & 0xff;
+
+ err = reg_read(tfa, address, ®value);
+ if (err) {
+ pr_err("Error getting bf :%d \n", -err);
+ return -err;
+ }
+
+ msk = ((1 << (len + 1)) - 1) << pos;
+ regvalue &= ~msk;
+ regvalue |= value << pos;
+
+ err = reg_write(tfa, address, regvalue);
+ if (err) {
+ pr_err("Error setting bf :%d \n", -err);
+ return -err;
+ }
+
+ return 0;
+}
+
+int tfa_get_bf(struct tfa_device *tfa, const uint16_t bf)
+{
+ enum Tfa98xx_Error err;
+ uint16_t regvalue, msk;
+ uint16_t value;
+
+ /*
+ * bitfield enum:
+ * - 0..3 : len
+ * - 4..7 : pos
+ * - 8..15 : address
+ */
+ uint8_t len = bf & 0x0f;
+ uint8_t pos = (bf >> 4) & 0x0f;
+ uint8_t address = (bf >> 8) & 0xff;
+
+ err = reg_read(tfa, address, ®value);
+ if (err) {
+ pr_err("Error getting bf :%d \n", -err);
+ return -err;
+ }
+
+ msk = ((1 << (len + 1)) - 1) << pos;
+ regvalue &= msk;
+ value = regvalue >> pos;
+
+ return value;
+}
+
+int tfa_set_bf_value(const uint16_t bf, const uint16_t bf_value, uint16_t *p_reg_value)
+{
+ uint16_t regvalue, msk;
+
+ /*
+ * bitfield enum:
+ * - 0..3 : len
+ * - 4..7 : pos
+ * - 8..15 : address
+ */
+ uint8_t len = bf & 0x0f;
+ uint8_t pos = (bf >> 4) & 0x0f;
+
+ regvalue = *p_reg_value;
+
+ msk = ((1 << (len + 1)) - 1) << pos;
+ regvalue &= ~msk;
+ regvalue |= bf_value << pos;
+
+ *p_reg_value = regvalue;
+
+ return 0;
+}
+
+uint16_t tfa_get_bf_value(const uint16_t bf, const uint16_t reg_value)
+{
+ uint16_t msk, value;
+
+ /*
+ * bitfield enum:
+ * - 0..3 : len
+ * - 4..7 : pos
+ * - 8..15 : address
+ */
+ uint8_t len = bf & 0x0f;
+ uint8_t pos = (bf >> 4) & 0x0f;
+
+ msk = ((1 << (len + 1)) - 1) << pos;
+ value = (reg_value & msk) >> pos;
+
+ return value;
+}
+
+
+int tfa_write_reg(struct tfa_device *tfa, const uint16_t bf, const uint16_t reg_value)
+{
+ enum Tfa98xx_Error err;
+
+ /* bitfield enum - 8..15 : address */
+ uint8_t address = (bf >> 8) & 0xff;
+
+ err = reg_write(tfa, address, reg_value);
+ if (err)
+ return -err;
+
+ return 0;
+}
+
+int tfa_read_reg(struct tfa_device *tfa, const uint16_t bf)
+{
+ enum Tfa98xx_Error err;
+ uint16_t regvalue;
+
+ /* bitfield enum - 8..15 : address */
+ uint8_t address = (bf >> 8) & 0xff;
+
+ err = reg_read(tfa, address, ®value);
+ if (err)
+ return -err;
+
+ return regvalue;
+}
+
+/*
+ * powerup the coolflux subsystem and wait for it
+ */
+enum Tfa98xx_Error tfa_cf_powerup(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int tries, status;
+
+ /* power on the sub system */
+ TFA_SET_BF_VOLATILE(tfa, PWDN, 0);
+
+ // wait until everything is stable, in case clock has been off
+ if (tfa->verbose)
+ pr_info("Waiting for DSP system stable...\n");
+ for (tries = CFSTABLE_TRIES; tries > 0; tries--) {
+ err = tfa98xx_dsp_system_stable(tfa, &status);
+ _ASSERT(err == Tfa98xx_Error_Ok);
+ if (status)
+ break;
+ else
+ msleep_interruptible(10); /* wait 10ms to avoid busload */
+ }
+ if (tries == 0) {// timedout
+ pr_err("DSP subsystem start timed out\n");
+ return Tfa98xx_Error_StateTimedOut;
+ }
+
+ return err;
+}
+
+/*
+ * Enable/Disable the I2S output for TFA1 devices
+ * without TDM interface
+ */
+static enum Tfa98xx_Error tfa98xx_aec_output(struct tfa_device *tfa, int enable)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ if ((tfa->daimap & Tfa98xx_DAI_TDM) == Tfa98xx_DAI_TDM)
+ return err;
+
+ if (tfa->tfa_family == 1)
+ err = -tfa_set_bf(tfa, TFA1_BF_I2SDOE, (enable != 0));
+ else {
+ pr_err("I2SDOE on unsupported family\n");
+ err = Tfa98xx_Error_Not_Supported;
+ }
+
+ return err;
+}
+
+/*
+ * Print the current state of the hardware manager
+ * Device manager status information, man_state from TFA9888_N1B_I2C_regmap_V12
+ */
+int is_94_N2_device(struct tfa_device *tfa)
+{
+ return ((((tfa->rev) & 0xff) == 0x94) && (((tfa->rev >> 8) & 0xff) > 0x1a));
+}
+enum Tfa98xx_Error show_current_state(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int manstate = -1;
+
+ if (tfa->tfa_family == 2 && tfa->verbose) {
+ if (is_94_N2_device(tfa))
+ manstate = tfa_get_bf(tfa, TFA9894N2_BF_MANSTATE);
+ else
+ manstate = TFA_GET_BF(tfa, MANSTATE);
+ if (manstate < 0)
+ return -manstate;
+
+ pr_debug("Current HW manager state: ");
+
+ switch (manstate) {
+ case 0: pr_debug("power_down_state \n");
+ break;
+ case 1: pr_debug("wait_for_source_settings_state \n");
+ break;
+ case 2: pr_debug("connnect_pll_input_state \n");
+ break;
+ case 3: pr_debug("disconnect_pll_input_state \n");
+ break;
+ case 4: pr_debug("enable_pll_state \n");
+ break;
+ case 5: pr_debug("enable_cgu_state \n");
+ break;
+ case 6: pr_debug("init_cf_state \n");
+ break;
+ case 7: pr_debug("enable_amplifier_state \n");
+ break;
+ case 8: pr_debug("alarm_state \n");
+ break;
+ case 9: pr_debug("operating_state \n");
+ break;
+ case 10: pr_debug("mute_audio_state \n");
+ break;
+ case 11: pr_debug("disable_cgu_pll_state \n");
+ break;
+ default:
+ pr_debug("Unable to find current state \n");
+ break;
+ }
+ }
+
+ return err;
+}
+
+enum Tfa98xx_Error tfaGetFwApiVersion(struct tfa_device *tfa, unsigned char *pFirmwareVersion)
+{
+ enum Tfa98xx_Error err = 0;
+ char cmd_buf[4];
+ int cmd_len, res_len;
+
+ if (tfa == NULL)
+ return Tfa98xx_Error_Bad_Parameter;
+ if (!tfa->is_probus_device)
+ {
+ err = mem_read(tfa, FW_VAR_API_VERSION, 1, (int *)pFirmwareVersion);
+ if (err) {
+ pr_debug("%s Error: Unable to get API Version from DSP \n", __FUNCTION__);
+ return err;
+ }
+ }
+ else
+ {
+ cmd_len = 0x03;
+
+ /* GetAPI: Command is 0x00 0x80 0xFE */
+ cmd_buf[0] = 0x00;
+ cmd_buf[1] = 0x80;
+ cmd_buf[2] = 0xFE;
+
+ /* Write the command.*/
+
+ err = tfa98xx_write_dsp(tfa, cmd_len, (const char *)cmd_buf);
+
+ /* Read the API Value.*/
+ if (err == 0)
+ {
+ res_len = 3;
+ err = tfa98xx_read_dsp(tfa, res_len, (unsigned char *)pFirmwareVersion);
+
+ }
+ }
+ return err;
+
+}
+
+
+/*
+ * start the speakerboost algorithm
+ * this implies a full system startup when the system was not already started
+ *
+ */
+enum Tfa98xx_Error tfaRunSpeakerBoost(struct tfa_device *tfa, int force, int profile)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int value;
+
+ if (force) {
+ err = tfaRunColdStartup(tfa, profile);
+ if (err) return err;
+ }
+
+ /* Returns 1 when device is "cold" and 0 when device is warm */
+ value = tfa_is_cold(tfa);
+
+ pr_debug("Startup of device [%s] is a %sstart\n", tfaContDeviceName(tfa->cnt, tfa->dev_idx), value ? "cold" : "warm");
+ /* cold start and not tap profile */
+ if (value) {
+ /* Run startup and write all files */
+ err = tfaRunSpeakerStartup(tfa, force, profile);
+ if (err) return err;
+
+ /* Save the current profile and set the vstep to 0 */
+ /* This needs to be overwriten even in CF bypass */
+ tfa_dev_set_swprof(tfa, (unsigned short)profile);
+ tfa_dev_set_swvstep(tfa, 0);
+
+ /* Synchonize I/V delay on 96/97 at cold start */
+ if ((tfa->tfa_family == 1) && (tfa->daimap == Tfa98xx_DAI_TDM))
+ tfa->sync_iv_delay = 1;
+ }
+
+ return err;
+}
+
+enum Tfa98xx_Error tfaRunSpeakerStartup(struct tfa_device *tfa, int force, int profile)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ if (!force) { // in case of force CF already runnning
+ err = tfaRunStartup(tfa, profile);
+ PRINT_ASSERT(err);
+ if (err)
+ return err;
+
+ /* Startup with CF in bypass then return here */
+ if (tfa_cf_enabled(tfa) == 0)
+ return err;
+
+ /* respond to external DSP: -1:none, 0:no_dsp, 1:cold, 2:warm */
+ if (tfa->ext_dsp == -1) {
+ err = tfaRunStartDSP(tfa);
+ if (err)
+ return err;
+ }
+ }
+
+ /* Set auto_copy_mtp_to_iic (bit 5 of A3) to 1 */
+ tfa98xx_auto_copy_mtp_to_iic(tfa);
+
+ err = tfaGetFwApiVersion(tfa, (unsigned char *)&tfa->fw_itf_ver[0]);
+ if (err) {
+ pr_debug("[%s] cannot get FWAPI error = %d \n", __FUNCTION__, err);
+ return err;
+ }
+ /* write all the files from the device list */
+ err = tfaContWriteFiles(tfa);
+ if (err) {
+ pr_debug("[%s] tfaContWriteFiles error = %d \n", __FUNCTION__, err);
+ return err;
+ }
+
+ /* write all the files from the profile list (use volumstep 0) */
+ err = tfaContWriteFilesProf(tfa, profile, 0);
+ if (err) {
+ pr_debug("[%s] tfaContWriteFilesProf error = %d \n", __FUNCTION__, err);
+ return err;
+ }
+
+ return err;
+}
+
+/*
+ * Run calibration
+ */
+enum Tfa98xx_Error tfaRunSpeakerCalibration(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int calibrateDone;
+
+ /* return if there is no audio running */
+ if ((tfa->tfa_family == 2) && TFA_GET_BF(tfa, NOCLK))
+ return Tfa98xx_Error_NoClock;
+
+ /* When MTPOTC is set (cal=once) unlock key2 */
+ if (TFA_GET_BF(tfa, MTPOTC) == 1) {
+ tfa98xx_key2(tfa, 0);
+ }
+
+ /* await calibration, this should return ok */
+ err = tfaRunWaitCalibration(tfa, &calibrateDone);
+ if (err == Tfa98xx_Error_Ok) {
+ err = tfa_dsp_get_calibration_impedance(tfa);
+ PRINT_ASSERT(err);
+ }
+
+ /* When MTPOTC is set (cal=once) re-lock key2 */
+ if (TFA_GET_BF(tfa, MTPOTC) == 1) {
+ tfa98xx_key2(tfa, 1);
+ }
+
+ return err;
+}
+
+enum Tfa98xx_Error tfaRunColdboot(struct tfa_device *tfa, int state)
+{
+#define CF_CONTROL 0x8100
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int tries = 10;
+
+ /* repeat set ACS bit until set as requested */
+ while (state != TFA_GET_BF(tfa, ACS)) {
+ /* set colstarted in CF_CONTROL to force ACS */
+ err = mem_write(tfa, CF_CONTROL, state, Tfa98xx_DMEM_IOMEM);
+ PRINT_ASSERT(err);
+
+ if (tries-- == 0) {
+ pr_debug("coldboot (ACS) did not %s\n", state ? "set" : "clear");
+ return Tfa98xx_Error_Other;
+ }
+ }
+
+ return err;
+}
+
+
+
+/*
+ * load the patch if any
+ * else tell no loaded
+ */
+static enum Tfa98xx_Error tfa_run_load_patch(struct tfa_device *tfa)
+{
+ return tfaContWritePatch(tfa);
+}
+
+/*
+ * this will load the patch witch will implicitly start the DSP
+ * if no patch is available the DPS is started immediately
+ */
+enum Tfa98xx_Error tfaRunStartDSP(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ err = tfa_run_load_patch(tfa);
+ if (err) { /* patch load is fatal so return immediately*/
+ return err;
+ }
+
+ /* Clear count_boot, should be reset to 0 before the DSP reset is released */
+ err = mem_write(tfa, 512, 0, Tfa98xx_DMEM_XMEM);
+ PRINT_ASSERT(err);
+
+ /* Reset DSP once for sure after initializing */
+ if (err == Tfa98xx_Error_Ok) {
+ err = tfa98xx_dsp_reset(tfa, 0);
+ PRINT_ASSERT(err);
+ }
+
+ /* Sample rate is needed to set the correct tables */
+ err = tfa98xx_dsp_write_tables(tfa, TFA_GET_BF(tfa, AUDFS));
+ PRINT_ASSERT(err);
+
+ return err;
+}
+
+/*
+ * start the clocks and wait until the AMP is switching
+ * on return the DSP sub system will be ready for loading
+ */
+enum Tfa98xx_Error tfaRunStartup(struct tfa_device *tfa, int profile)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ nxpTfaDeviceList_t *dev = tfaContDevice(tfa->cnt, tfa->dev_idx);
+ int i, noinit = 0, audfs = 0, fractdel = 0;
+
+ if (dev == NULL)
+ return Tfa98xx_Error_Fail;
+
+ if (dev->bus) /* no i2c device, do nothing */
+ return Tfa98xx_Error_Ok;
+
+ /* process the device list to see if the user implemented the noinit */
+ for (i = 0; i < dev->length; i++) {
+ if (dev->list[i].type == dscNoInit) {
+ noinit = 1;
+ break;
+ }
+ }
+
+ if (!noinit) {
+ /* Read AUDFS & FRACTDEL prior to (re)init. */
+ audfs = TFA_GET_BF(tfa, AUDFS);
+ fractdel = TFA_GET_BF(tfa, FRACTDEL);
+ /* load the optimal TFA98XX in HW settings */
+ err = tfa98xx_init(tfa);
+ PRINT_ASSERT(err);
+
+ /* Restore audfs & fractdel after coldboot, so we can calibrate with correct fs setting.
+ * in case something else was given in cnt file, profile below will apply this. */
+ TFA_SET_BF(tfa, AUDFS, audfs);
+ TFA_SET_BF(tfa, FRACTDEL, fractdel);
+ }
+ else {
+ pr_debug("\nWarning: No init keyword found in the cnt file. Init is skipped! \n");
+ }
+
+ /* I2S settings to define the audio input properties
+ * these must be set before the subsys is up */
+ // this will run the list until a non-register item is encountered
+ err = tfaContWriteRegsDev(tfa); // write device register settings
+ PRINT_ASSERT(err);
+ // also write register the settings from the default profile
+ // NOTE we may still have ACS=1 so we can switch sample rate here
+ err = tfaContWriteRegsProf(tfa, profile);
+ PRINT_ASSERT(err);
+
+ /* Factory trimming for the Boost converter */
+ tfa98xx_factory_trimmer(tfa);
+
+ /* Go to the initCF state */
+ tfa_dev_set_state(tfa, TFA_STATE_INIT_CF, strstr(tfaContProfileName(tfa->cnt, tfa->dev_idx, profile), ".cal") != NULL);
+
+ err = show_current_state(tfa);
+
+ return err;
+}
+
+/*
+ * run the startup/init sequence and set ACS bit
+ */
+enum Tfa98xx_Error tfaRunColdStartup(struct tfa_device *tfa, int profile)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ err = tfaRunStartup(tfa, profile);
+ PRINT_ASSERT(err);
+ if (err)
+ return err;
+
+ if (!tfa->is_probus_device) {
+ /* force cold boot */
+ err = tfaRunColdboot(tfa, 1); // set ACS
+ PRINT_ASSERT(err);
+ if (err)
+ return err;
+ }
+
+ /* start */
+ err = tfaRunStartDSP(tfa);
+ PRINT_ASSERT(err);
+
+ return err;
+}
+
+/*
+ *
+ */
+enum Tfa98xx_Error tfaRunMute(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int status;
+ int tries = 0;
+
+ /* signal the TFA98XX to mute */
+ if (tfa->tfa_family == 1) {
+ err = tfa98xx_set_mute(tfa, Tfa98xx_Mute_Amplifier);
+
+ if (err == Tfa98xx_Error_Ok) {
+ /* now wait for the amplifier to turn off */
+ do {
+ status = TFA_GET_BF(tfa, SWS);
+ if (status != 0)
+ msleep_interruptible(10); /* wait 10ms to avoid busload */
+ else
+ break;
+ tries++;
+ } while (tries < AMPOFFWAIT_TRIES);
+
+
+ if (tfa->verbose)
+ pr_debug("-------------------- muted --------------------\n");
+
+ /*The amplifier is always switching*/
+ if (tries == AMPOFFWAIT_TRIES)
+ return Tfa98xx_Error_Other;
+ }
+ }
+
+ return err;
+}
+/*
+ *
+ */
+enum Tfa98xx_Error tfaRunUnmute(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ /* signal the TFA98XX to mute */
+ err = tfa98xx_set_mute(tfa, Tfa98xx_Mute_Off);
+
+ if (tfa->verbose)
+ pr_debug("-------------------unmuted ------------------\n");
+
+ return err;
+}
+
+static void individual_calibration_results(struct tfa_device *tfa)
+{
+ int value_P, value_S;
+
+ /* Read the calibration result in xmem (529=primary channel) (530=secondary channel) */
+ mem_read(tfa, 529, 1, &value_P);
+ mem_read(tfa, 530, 1, &value_S);
+
+ if (value_P != 1 && value_S != 1)
+ pr_debug("Calibration failed on both channels! \n");
+ else if (value_P != 1) {
+ pr_debug("Calibration failed on Primary (Left) channel! \n");
+ TFA_SET_BF_VOLATILE(tfa, SSLEFTE, 0); /* Disable the sound for the left speaker */
+ }
+ else if (value_S != 1) {
+ pr_debug("Calibration failed on Secondary (Right) channel! \n");
+ TFA_SET_BF_VOLATILE(tfa, SSRIGHTE, 0); /* Disable the sound for the right speaker */
+ }
+
+ TFA_SET_BF_VOLATILE(tfa, AMPINSEL, 0); /* Set amplifier input to TDM */
+ TFA_SET_BF_VOLATILE(tfa, SBSL, 1);
+}
+
+/*
+ * wait for calibrateDone
+ */
+enum Tfa98xx_Error tfaRunWaitCalibration(struct tfa_device *tfa, int *calibrateDone)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int tries = 0, mtp_busy = 1, tries_mtp_busy = 0;
+
+ *calibrateDone = 0;
+
+ /* in case of calibrate once wait for MTPEX */
+ if (TFA_GET_BF(tfa, MTPOTC)) {
+ // Check if MTP_busy is clear!
+ while (tries_mtp_busy < MTPBWAIT_TRIES)
+ {
+ mtp_busy = tfa_dev_get_mtpb(tfa);
+ if (mtp_busy == 1)
+ msleep_interruptible(10); /* wait 10ms to avoid busload */
+ else
+ break;
+ tries_mtp_busy++;
+ }
+
+ if (tries_mtp_busy < MTPBWAIT_TRIES) {
+ /* Because of the msleep TFA98XX_API_WAITRESULT_NTRIES is way to long!
+ * Setting this to 25 will take it atleast 25*50ms = 1.25 sec
+ */
+ while ((*calibrateDone == 0) && (tries < MTPEX_WAIT_NTRIES)) {
+ *calibrateDone = TFA_GET_BF(tfa, MTPEX);
+ if (*calibrateDone == 1)
+ break;
+ msleep_interruptible(50); /* wait 50ms to avoid busload */
+ tries++;
+ }
+
+ if (tries >= MTPEX_WAIT_NTRIES) {
+ tries = TFA98XX_API_WAITRESULT_NTRIES;
+ }
+ }
+ else {
+ pr_err("MTP bussy after %d tries\n", MTPBWAIT_TRIES);
+ }
+ }
+
+ /* poll xmem for calibrate always
+ * calibrateDone = 0 means "calibrating",
+ * calibrateDone = -1 (or 0xFFFFFF) means "fails"
+ * calibrateDone = 1 means calibration done
+ */
+ while ((*calibrateDone != 1) && (tries < TFA98XX_API_WAITRESULT_NTRIES)) {
+ err = mem_read(tfa, TFA_FW_XMEM_CALIBRATION_DONE, 1, calibrateDone);
+ if (*calibrateDone == -1)
+ break;
+ tries++;
+ }
+
+ if (*calibrateDone != 1) {
+ pr_err("Calibration failed! \n");
+ err = Tfa98xx_Error_Bad_Parameter;
+ }
+ else if (tries == TFA98XX_API_WAITRESULT_NTRIES) {
+ pr_debug("Calibration has timedout! \n");
+ err = Tfa98xx_Error_StateTimedOut;
+ }
+ else if (tries_mtp_busy == 1000) {
+ pr_err("Calibrate Failed: MTP_busy stays high! \n");
+ err = Tfa98xx_Error_StateTimedOut;
+ }
+
+ /* Give reason why calibration failed! */
+ if (err != Tfa98xx_Error_Ok) {
+ if ((tfa->tfa_family == 2) && (TFA_GET_BF(tfa, REFCKSEL) == 1)) {
+ pr_err("Unable to calibrate the device with the internal clock! \n");
+ }
+ }
+
+ /* Check which speaker calibration failed. Only for 88C */
+ if ((err != Tfa98xx_Error_Ok) && ((tfa->rev & 0x0FFF) == 0xc88)) {
+ individual_calibration_results(tfa);
+ }
+
+ return err;
+}
+
+/*
+ * tfa_dev_start will only do the basics: Going from powerdown to operating or a profile switch.
+ * for calibrating or akoustic shock handling use the tfa98xxCalibration function.
+ */
+enum tfa_error tfa_dev_start(struct tfa_device *tfa, int next_profile, int vstep)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int active_profile = -1;
+
+ /* Get currentprofile */
+ active_profile = tfa_dev_get_swprof(tfa);
+ if (active_profile == 0xff)
+ active_profile = -1;
+
+ /* TfaRun_SpeakerBoost implies un-mute */
+ pr_debug("Active_profile:%s, next_profile:%s\n",
+ tfaContProfileName(tfa->cnt, tfa->dev_idx, active_profile),
+ tfaContProfileName(tfa->cnt, tfa->dev_idx, next_profile));
+
+ err = show_current_state(tfa);
+
+ if (tfa->tfa_family == 1) { /* TODO move this to ini file */
+ /* Enable I2S output on TFA1 devices without TDM */
+ err = tfa98xx_aec_output(tfa, 1);
+ if (err != Tfa98xx_Error_Ok)
+ goto error_exit;
+ }
+
+ if (tfa->bus != 0) { /* non i2c */
+#ifndef __KERNEL__
+ tfadsp_fw_start(tfa, next_profile, vstep);
+#endif /* __KERNEL__ */
+ }
+ else {
+ /* Check if we need coldstart or ACS is set */
+ err = tfaRunSpeakerBoost(tfa, 0, next_profile);
+ if (err != Tfa98xx_Error_Ok)
+ goto error_exit;
+
+ /* Make sure internal oscillator is running for DSP devices (non-dsp and max1 this is no-op) */
+ tfa98xx_set_osc_powerdown(tfa, 0);
+
+ /* Go to the Operating state */
+ tfa_dev_set_state(tfa, TFA_STATE_OPERATING | TFA_STATE_MUTE, 0);
+ }
+ active_profile = tfa_dev_get_swprof(tfa);
+
+ /* Profile switching */
+ if ((next_profile != active_profile && active_profile >= 0)) {
+ err = tfaContWriteProfile(tfa, next_profile, vstep);
+ if (err != Tfa98xx_Error_Ok)
+ goto error_exit;
+ }
+
+ /* If the profile contains the .standby suffix go to powerdown
+ * else we should be in operating state
+ */
+ if (strstr(tfaContProfileName(tfa->cnt, tfa->dev_idx, next_profile), ".standby") != NULL) {
+ tfa_dev_set_swprof(tfa, (unsigned short)next_profile);
+ tfa_dev_set_swvstep(tfa, (unsigned short)vstep);
+ goto error_exit;
+ }
+
+ err = show_current_state(tfa);
+
+ if ((TFA_GET_BF(tfa, CFE) != 0) && (vstep != tfa->vstep) && (vstep != -1)) {
+ err = tfaContWriteFilesVstep(tfa, next_profile, vstep);
+ if (err != Tfa98xx_Error_Ok)
+ goto error_exit;
+ }
+
+ /* Always search and apply filters after a startup */
+ err = tfa_set_filters(tfa, next_profile);
+ if (err != Tfa98xx_Error_Ok)
+ goto error_exit;
+
+ tfa_dev_set_swprof(tfa, (unsigned short)next_profile);
+ tfa_dev_set_swvstep(tfa, (unsigned short)vstep);
+
+ /* PLMA5539: Gives information about current setting of powerswitch */
+ if (tfa->verbose) {
+ if (!tfa98xx_powerswitch_is_enabled(tfa))
+ pr_info("Device start without powerswitch enabled!\n");
+ }
+
+error_exit:
+ show_current_state(tfa);
+
+ return err;
+}
+
+enum tfa_error tfa_dev_stop(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+
+ /* mute */
+ tfaRunMute(tfa);
+
+ /* Make sure internal oscillator is not running for DSP devices (non-dsp and max1 this is no-op) */
+ tfa98xx_set_osc_powerdown(tfa, 1);
+
+ /* powerdown CF */
+ err = tfa98xx_powerdown(tfa, 1);
+ if (err != Tfa98xx_Error_Ok)
+ return err;
+
+ /* disable I2S output on TFA1 devices without TDM */
+ err = tfa98xx_aec_output(tfa, 0);
+
+ return err;
+}
+
+/*
+ * int registers and coldboot dsp
+ */
+int tfa_reset(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ int state = -1;
+ int retry_cnt = 0;
+
+ /* Check device state. Print warning if reset is done from other state than powerdown (when verbose) */
+ state = tfa_dev_get_state(tfa);
+ if (tfa->verbose) {
+ if (((tfa->tfa_family == 1) && state != TFA_STATE_RESET) ||
+ ((tfa->tfa_family == 2) && state != TFA_STATE_POWERDOWN)) {
+ pr_info("WARNING: Device reset should be performed in POWERDOWN state\n");
+ }
+ }
+
+ /* Split TFA1 behavior from TFA2*/
+ if (tfa->tfa_family == 1) {
+ err = TFA_SET_BF(tfa, I2CR, 1);
+ if (err)
+ return err;
+ err = tfa98xx_powerdown(tfa, 0);
+ if (err)
+ return err;
+ err = tfa_cf_powerup(tfa);
+ if (err)
+ return err;
+ err = tfaRunColdboot(tfa, 1);
+ if (err)
+ return err;
+ err = TFA_SET_BF(tfa, I2CR, 1);
+ }
+ else {
+ /* Probus devices needs extra protection to ensure proper reset
+ behavior, this step is valid only in state other than powerdown */
+ if (tfa->is_probus_device && state != TFA_STATE_POWERDOWN) {
+ err = TFA_SET_BF_VOLATILE(tfa, AMPE, 0);
+ if (err)
+ return err;
+ err = tfa98xx_powerdown(tfa, 1);
+ if (err)
+ return err;
+ }
+
+ err = TFA_SET_BF_VOLATILE(tfa, I2CR, 1);
+ if (err)
+ return err;
+
+ /* Restore MANSCONF to POR state */
+ err = TFA_SET_BF_VOLATILE(tfa, MANSCONF, 0);
+ if (err)
+ return err;
+
+ /* Probus devices HW are already reseted here,
+ Last step is to send init message to softDSP */
+ if (tfa->is_probus_device) {
+ if (tfa->ext_dsp > 0) {
+ err = tfa98xx_init_dsp(tfa);
+ /* ext_dsp status from warm to cold after reset */
+ if (tfa->ext_dsp == 2) {
+ tfa->ext_dsp = 1;
+ }
+ }
+ }
+ else {
+ /* Restore MANCOLD to POR state */
+ TFA_SET_BF_VOLATILE(tfa, MANCOLD, 1);
+
+ /* Coolflux has to be powered on to ensure proper ACS
+ bit state */
+
+ /* Powerup CF to access CF io */
+ err = tfa98xx_powerdown(tfa, 0);
+ if (err)
+ return err;
+
+ /* For clock */
+ err = tfa_cf_powerup(tfa);
+ if (err)
+ return err;
+
+ /* Force cold boot */
+ err = tfaRunColdboot(tfa, 1); /* Set ACS */
+ if (err)
+ return err;
+
+ /* Set PWDN = 1, this will transfer device into powerdown state */
+ err = TFA_SET_BF_VOLATILE(tfa, PWDN, 1);
+ if (err)
+ return err;
+
+ /* 88 needs SBSL on top of PWDN bit to start transition,
+ for 92 and 94 this doesn't matter */
+ err = TFA_SET_BF_VOLATILE(tfa, SBSL, 1);
+ if (err)
+ return err;
+
+ /* Powerdown state should be reached within 1ms */
+ for (retry_cnt = 0; retry_cnt < TFA98XX_WAITRESULT_NTRIES; retry_cnt++) {
+ if (is_94_N2_device(tfa))
+ state = tfa_get_bf(tfa, TFA9894N2_BF_MANSTATE);
+ else
+ state = TFA_GET_BF(tfa, MANSTATE);
+ if (state < 0) {
+ return err;
+ }
+
+ /* Check for MANSTATE=Powerdown (0) */
+ if (state == 0)
+ break;
+ msleep_interruptible(2);
+ }
+
+ /* Reset all I2C registers to default values,
+ now device state is consistent, same as after powerup */
+ err = TFA_SET_BF(tfa, I2CR, 1);
+ }
+ }
+
+ return err;
+}
+
+/*
+ * Write all the bytes specified by num_bytes and data
+ */
+enum Tfa98xx_Error
+ tfa98xx_write_data(struct tfa_device *tfa,
+ unsigned char subaddress, int num_bytes,
+ const unsigned char data[])
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ /* subaddress followed by data */
+ const int bytes2write = num_bytes + 1;
+ unsigned char *write_data;
+
+ if (num_bytes > TFA2_MAX_PARAM_SIZE)
+ return Tfa98xx_Error_Bad_Parameter;
+
+ write_data = (unsigned char *)kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ if (write_data == NULL)
+ return Tfa98xx_Error_Fail;
+
+ write_data[0] = subaddress;
+ memcpy(&write_data[1], data, num_bytes);
+
+ error = tfa98xx_write_raw(tfa, bytes2write, write_data);
+
+ kmem_cache_free(tfa->cachep, write_data);
+ return error;
+}
+
+/*
+ * fill the calibration value as milli ohms in the struct
+ *
+ * assume that the device has been calibrated
+ */
+enum Tfa98xx_Error tfa_dsp_get_calibration_impedance(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned char bytes[3 * 2] = { 0 };
+ int nr_bytes, i, data[2], calibrateDone, spkr_count = 0, cal_idx = 0;
+ unsigned int scaled_data;
+ int tries = 0;
+
+ error = tfa_supported_speakers(tfa, &spkr_count);
+
+ if (tfa_dev_mtp_get(tfa, TFA_MTP_OTC)) {
+ pr_debug("Getting calibration values from MTP\n");
+
+ if ((tfa->rev & 0xFF) == 0x88) {
+ for (i = 0; i < spkr_count; i++) {
+ if (i == 0)
+ tfa->mohm[i] = tfa_dev_mtp_get(tfa, TFA_MTP_RE25_PRIM);
+ else
+ tfa->mohm[i] = tfa_dev_mtp_get(tfa, TFA_MTP_RE25_SEC);
+ }
+ }
+ else {
+ tfa->mohm[0] = tfa_dev_mtp_get(tfa, TFA_MTP_RE25);
+ }
+ }
+ else {
+ pr_debug("Getting calibration values from Speakerboost\n");
+
+ /* Make sure the calibrateDone bit is set before getting the values from speakerboost!
+ * This does not work for 72 (because the dsp cannot set this bit)
+ */
+ if (!tfa->is_probus_device) {
+ /* poll xmem for calibrate always
+ * calibrateDone = 0 means "calibrating",
+ * calibrateDone = -1 (or 0xFFFFFF) means "fails"
+ * calibrateDone = 1 means calibration done
+ */
+ calibrateDone = 0;
+ while ((calibrateDone != 1) && (tries < TFA98XX_API_WAITRESULT_NTRIES)) {
+ error = mem_read(tfa, TFA_FW_XMEM_CALIBRATION_DONE, 1, &calibrateDone);
+ if (calibrateDone == 1)
+ break;
+ tries++;
+ }
+
+ if (calibrateDone != 1) {
+ pr_err("Calibration failed! \n");
+ error = Tfa98xx_Error_Bad_Parameter;
+ }
+ else if (tries == TFA98XX_API_WAITRESULT_NTRIES) {
+ pr_debug("Calibration has timedout! \n");
+ error = Tfa98xx_Error_StateTimedOut;
+ }
+ }
+ /* SoftDSP interface differs from hw-dsp interfaces */
+ if (tfa->is_probus_device && tfa->cnt->ndev > 1) {
+ spkr_count = tfa->cnt->ndev;
+ }
+
+ nr_bytes = spkr_count * 3;
+ error = tfa_dsp_cmd_id_write_read(tfa, MODULE_SPEAKERBOOST, SB_PARAM_GET_RE25C, nr_bytes, bytes);
+ if (error == Tfa98xx_Error_Ok) {
+ tfa98xx_convert_bytes2data(nr_bytes, bytes, data);
+
+ for (i = 0; i < spkr_count; i++) {
+
+ /* for probus devices, calibration values coming from soft-dsp speakerboost,
+ are ordered in a different way. Re-align to standard representation. */
+ cal_idx = i;
+ if ((tfa->is_probus_device && tfa->dev_idx >= 1)) {
+ cal_idx = 0;
+ }
+
+ /* signed data has a limit of 30 Ohm */
+ scaled_data = data[i];
+
+ if (tfa->tfa_family == 2)
+ tfa->mohm[cal_idx] = (scaled_data * 1000) / TFA2_FW_ReZ_SCALE;
+ else
+ tfa->mohm[cal_idx] = (scaled_data * 1000) / TFA1_FW_ReZ_SCALE;
+ }
+ }
+ }
+
+ return error;
+}
+
+/* start count from 1, 0 is invalid */
+int tfa_dev_get_swprof(struct tfa_device *tfa)
+{
+ return (tfa->dev_ops.get_swprof)(tfa);
+}
+
+int tfa_dev_set_swprof(struct tfa_device *tfa, unsigned short new_value)
+{
+ return (tfa->dev_ops.set_swprof)(tfa, new_value + 1);
+}
+
+/* same value for all channels
+ * start count from 1, 0 is invalid */
+int tfa_dev_get_swvstep(struct tfa_device *tfa)
+{
+ return (tfa->dev_ops.get_swvstep)(tfa);
+}
+
+int tfa_dev_set_swvstep(struct tfa_device *tfa, unsigned short new_value)
+{
+ return (tfa->dev_ops.set_swvstep)(tfa, new_value + 1);
+}
+
+/*
+ function overload for MTPB
+ */
+int tfa_dev_get_mtpb(struct tfa_device *tfa)
+{
+ return (tfa->dev_ops.get_mtpb)(tfa);
+}
+
+int tfa_is_cold(struct tfa_device *tfa)
+{
+ int value;
+
+ /*
+ * check for cold boot status
+ */
+ if (tfa->is_probus_device) {
+ if (tfa->ext_dsp > 0) {
+ if (tfa->ext_dsp == 2)
+ value = 0; // warm
+ else /* no dsp or cold */
+ value = 1; // cold
+ }
+ else {
+ value = (TFA_GET_BF(tfa, MANSCONF) == 0);
+ }
+ }
+ else {
+ value = TFA_GET_BF(tfa, ACS);
+ }
+
+ return value;
+}
+
+int tfa_needs_reset(struct tfa_device *tfa)
+{
+ int value;
+
+ /* checks if the DSP commands SetAlgoParams and SetMBDrc
+ * need a DSP reset (now: at coldstart or during calibration)
+ */
+ if (tfa_is_cold(tfa) == 1 || tfa->needs_reset == 1)
+ value = 1;
+ else
+ value = 0;
+
+ return value;
+}
+
+int tfa_cf_enabled(struct tfa_device *tfa)
+{
+ int value;
+
+ /* For 72 there is no CF */
+ if (tfa->is_probus_device) {
+ value = (tfa->ext_dsp != 0);
+ }
+ else {
+ value = TFA_GET_BF(tfa, CFE);
+ }
+
+ return value;
+}
+
+#define NR_COEFFS 6
+#define NR_BIQUADS 28
+#define BQ_SIZE (3 * NR_COEFFS)
+#define DSP_MSG_OVERHEAD 27
+
+#pragma pack (push, 1)
+struct dsp_msg_all_coeff {
+ uint8_t select_eq[3];
+ uint8_t biquad[NR_BIQUADS][NR_COEFFS][3];
+};
+#pragma pack (pop)
+
+/* number of biquads for each equalizer */
+static const int eq_biquads[] = {
+ 10, 10, 2, 2, 2, 2
+};
+
+#define NR_EQ (int)(sizeof(eq_biquads) / sizeof(int))
+
+enum Tfa98xx_Error dsp_partial_coefficients(struct tfa_device *tfa, uint8_t *prev, uint8_t *next)
+{
+ uint8_t bq, eq;
+ int eq_offset;
+ int new_cost, old_cost;
+ uint32_t eq_biquad_mask[NR_EQ];
+ enum Tfa98xx_Error err = Tfa98xx_Error_Ok;
+ struct dsp_msg_all_coeff *data1 = (struct dsp_msg_all_coeff *)prev;
+ struct dsp_msg_all_coeff *data2 = (struct dsp_msg_all_coeff *)next;
+
+ old_cost = DSP_MSG_OVERHEAD + 3 + sizeof(struct dsp_msg_all_coeff);
+ new_cost = 0;
+
+ eq_offset = 0;
+ for (eq = 0; eq < NR_EQ; eq++) {
+ uint8_t *eq1 = &data1->biquad[eq_offset][0][0];
+ uint8_t *eq2 = &data2->biquad[eq_offset][0][0];
+
+ eq_biquad_mask[eq] = 0;
+
+ if (memcmp(eq1, eq2, BQ_SIZE*eq_biquads[eq]) != 0) {
+ int nr_bq = 0;
+ int bq_sz, eq_sz;
+
+ for (bq = 0; bq < eq_biquads[eq]; bq++) {
+ uint8_t *bq1 = &eq1[bq*BQ_SIZE];
+ uint8_t *bq2 = &eq2[bq*BQ_SIZE];
+
+ if (memcmp(bq1, bq2, BQ_SIZE) != 0) {
+ eq_biquad_mask[eq] |= (1 << bq);
+ nr_bq++;
+ }
+ }
+
+ bq_sz = (2 * 3 + BQ_SIZE) * nr_bq;
+ eq_sz = 2 * 3 + BQ_SIZE * eq_biquads[eq];
+
+ /* dsp message i2c transaction overhead */
+ bq_sz += DSP_MSG_OVERHEAD * nr_bq;
+ eq_sz += DSP_MSG_OVERHEAD;
+
+ if (bq_sz >= eq_sz) {
+ eq_biquad_mask[eq] = 0xffffffff;
+
+ new_cost += eq_sz;
+
+ }
+ else {
+ new_cost += bq_sz;
+ }
+ }
+ pr_debug("eq_biquad_mask[%d] = 0x%.8x\n", eq, eq_biquad_mask[eq]);
+
+ eq_offset += eq_biquads[eq];
+ }
+
+ pr_debug("cost for writing all coefficients = %d\n", old_cost);
+ pr_debug("cost for writing changed coefficients = %d\n", new_cost);
+
+ if (new_cost >= old_cost) {
+ const int buffer_sz = 3 + sizeof(struct dsp_msg_all_coeff);
+ uint8_t *buffer;
+
+ buffer = kmalloc(buffer_sz, GFP_KERNEL);
+ if (buffer == NULL)
+ return Tfa98xx_Error_Fail;
+
+ /* cmd id */
+ buffer[0] = 0x00;
+ buffer[1] = 0x82;
+ buffer[2] = 0x00;
+
+ /* parameters */
+ memcpy(&buffer[3], data2, sizeof(struct dsp_msg_all_coeff));
+
+ err = dsp_msg(tfa, buffer_sz, (const char *)buffer);
+
+ kfree(buffer);
+ if (err)
+ return err;
+
+ }
+ else {
+ eq_offset = 0;
+ for (eq = 0; eq < NR_EQ; eq++) {
+ uint8_t *eq2 = &data2->biquad[eq_offset][0][0];
+
+ if (eq_biquad_mask[eq] == 0xffffffff) {
+ const int msg_sz = 6 + BQ_SIZE * eq_biquads[eq];
+ uint8_t *msg;
+
+ msg = kmalloc(msg_sz, GFP_KERNEL);
+ if (msg == NULL)
+ return Tfa98xx_Error_Fail;
+
+ /* cmd id */
+ msg[0] = 0x00;
+ msg[1] = 0x82;
+ msg[2] = 0x00;
+
+ /* select eq and bq */
+ msg[3] = 0x00;
+ msg[4] = eq + 1;
+ msg[5] = 0x00; /* all biquads */
+
+ /* biquad parameters */
+ memcpy(&msg[6], eq2, BQ_SIZE * eq_biquads[eq]);
+
+ err = dsp_msg(tfa, msg_sz, (const char *)msg);
+
+ kfree(msg);
+ if (err)
+ return err;
+
+ }
+ else if (eq_biquad_mask[eq] != 0) {
+ for (bq = 0; bq < eq_biquads[eq]; bq++) {
+
+ if (eq_biquad_mask[eq] & (1 << bq)) {
+ uint8_t *bq2 = &eq2[bq*BQ_SIZE];
+ const int msg_sz = 6 + BQ_SIZE;
+ uint8_t *msg;
+
+ msg = kmem_cache_alloc(tfa->cachep, GFP_KERNEL);
+ if (msg == NULL)
+ return Tfa98xx_Error_Fail;
+
+ /* cmd id */
+ msg[0] = 0x00;
+ msg[1] = 0x82;
+ msg[2] = 0x00;
+
+ /* select eq and bq*/
+ msg[3] = 0x00;
+ msg[4] = eq + 1;
+ msg[5] = bq + 1;
+
+ /* biquad parameters */
+ memcpy(&msg[6], bq2, BQ_SIZE);
+
+ err = dsp_msg(tfa, msg_sz, (const char *)msg);
+
+ kmem_cache_free(tfa->cachep, msg);
+ if (err)
+ return err;
+ }
+ }
+ }
+ eq_offset += eq_biquads[eq];
+ }
+ }
+
+ return err;
+}
+
+/* fill context info */
+int tfa_dev_probe(int slave, struct tfa_device *tfa)
+{
+ uint16_t rev;
+
+ tfa->slave_address = (unsigned char)slave;
+
+ /* read revid via low level hal, register 3 */
+ if (tfa98xx_read_register16(tfa, 3, &rev) != Tfa98xx_Error_Ok) {
+ PRINT("\nError: Unable to read revid from slave:0x%02x \n", slave);
+ return -1;
+ }
+
+ tfa->rev = rev;
+ tfa->dev_idx = -1;
+ tfa->state = TFA_STATE_UNKNOWN;
+ tfa->p_regInfo = NULL;
+
+ tfa_set_query_info(tfa);
+
+ tfa->in_use = 1;
+
+ return 0;
+}
+
+enum tfa_error tfa_dev_set_state(struct tfa_device *tfa, enum tfa_state state, int is_calibration)
+{
+ enum tfa_error err = tfa_error_ok;
+ int loop = 50, ready = 0;
+ int count;
+
+ /* Base states */
+ /* Do not change the order of setting bits as this is important! */
+ switch (state & 0x0f) {
+ case TFA_STATE_POWERDOWN: /* PLL in powerdown, Algo up */
+ break;
+ case TFA_STATE_INIT_HW: /* load I2C/PLL hardware setting (~wait2srcsettings) */
+ break;
+ case TFA_STATE_INIT_CF: /* coolflux HW access possible (~initcf) */
+ /* Start with SBSL=0 to stay in initCF state */
+ if (!tfa->is_probus_device)
+ TFA_SET_BF(tfa, SBSL, 0);
+
+ /* We want to leave Wait4SrcSettings state for max2 */
+ if (tfa->tfa_family == 2)
+ TFA_SET_BF(tfa, MANSCONF, 1);
+
+ /* And finally set PWDN to 0 to leave powerdown state */
+ TFA_SET_BF(tfa, PWDN, 0);
+
+ /* Make sure the DSP is running! */
+ do {
+ err = tfa98xx_dsp_system_stable(tfa, &ready);
+ if (err != tfa_error_ok)
+ return err;
+ if (ready)
+ break;
+ } while (loop--);
+ if (((!tfa->is_probus_device) && (is_calibration)) || ((tfa->rev & 0xff) == 0x13))
+ {
+ /* Enable FAIM when clock is stable, to avoid MTP corruption */
+ err = tfa98xx_faim_protect(tfa, 1);
+ if (tfa->verbose) {
+ pr_debug("FAIM enabled (err:%d).\n", err);
+ }
+ }
+ break;
+ case TFA_STATE_INIT_FW: /* DSP framework active (~patch loaded) */
+ break;
+ case TFA_STATE_OPERATING: /* Amp and Algo running */
+ /* Depending on our previous state we need to set 3 bits */
+ TFA_SET_BF(tfa, PWDN, 0); /* Coming from state 0 */
+ TFA_SET_BF(tfa, MANSCONF, 1); /* Coming from state 1 */
+ if (!tfa->is_probus_device)
+ TFA_SET_BF(tfa, SBSL, 1); /* Coming from state 6 */
+ else
+ TFA_SET_BF(tfa, AMPE, 1); /* No SBSL for probus device, we set AMPE to 1 */
+
+ /*
+ * Disable MTP clock to protect memory.
+ * However in case of calibration wait for DSP! (This should be case only during calibration).
+ */
+ if (TFA_GET_BF(tfa, MTPOTC) == 1 && tfa->tfa_family == 2) {
+ count = MTPEX_WAIT_NTRIES * 4; /* Calibration takes a lot of time */
+ while ((TFA_GET_BF(tfa, MTPEX) != 1) && count) {
+ msleep_interruptible(10);
+ count--;
+ }
+ }
+ if (((!tfa->is_probus_device) && (is_calibration)) || ((tfa->rev & 0xff) == 0x13))
+ {
+ err = tfa98xx_faim_protect(tfa, 0);
+ if (tfa->verbose) {
+ pr_debug("FAIM disabled (err:%d).\n", err);
+ }
+ }
+ /* Synchonize I/V delay on 96/97 at cold start */
+ if (tfa->sync_iv_delay) {
+ if (tfa->verbose)
+ pr_debug("syncing I/V delay for %x\n",
+ (tfa->rev & 0xff));
+
+ /* wait for ACS to be cleared */
+ count = 10;
+ while ((TFA_GET_BF(tfa, ACS) == 1) &&
+ (count-- > 0)) {
+ msleep_interruptible(1);
+ }
+
+ tfa98xx_dsp_reset(tfa, 1);
+ tfa98xx_dsp_reset(tfa, 0);
+ tfa->sync_iv_delay = 0;
+ }
+ break;
+ case TFA_STATE_FAULT: /* An alarm or error occurred */
+ break;
+ case TFA_STATE_RESET: /* I2C reset and ACS set */
+ tfa98xx_init(tfa);
+ break;
+ default:
+ if (state & 0x0f)
+ return tfa_error_bad_param;
+ }
+
+ /* state modifiers */
+
+ if (state & TFA_STATE_MUTE)
+ tfa98xx_set_mute(tfa, Tfa98xx_Mute_Amplifier);
+
+ if (state & TFA_STATE_UNMUTE)
+ tfa98xx_set_mute(tfa, Tfa98xx_Mute_Off);
+
+ tfa->state = state;
+
+ return tfa_error_ok;
+}
+
+enum tfa_state tfa_dev_get_state(struct tfa_device *tfa)
+{
+ int cold = 0;
+ int manstate;
+
+ /* different per family type */
+ if (tfa->tfa_family == 1) {
+ cold = TFA_GET_BF(tfa, ACS);
+ if (cold && TFA_GET_BF(tfa, PWDN))
+ tfa->state = TFA_STATE_RESET;
+ else if (!cold && TFA_GET_BF(tfa, SWS))
+ tfa->state = TFA_STATE_OPERATING;
+ }
+ else /* family 2 */ {
+ if (is_94_N2_device(tfa))
+ manstate = tfa_get_bf(tfa, TFA9894N2_BF_MANSTATE);
+ else
+ manstate = TFA_GET_BF(tfa, MANSTATE);
+ switch (manstate) {
+ case 0:
+ tfa->state = TFA_STATE_POWERDOWN;
+ break;
+ case 8: /* if dsp reset if off assume framework is running */
+ tfa->state = TFA_GET_BF(tfa, RST) ? TFA_STATE_INIT_CF : TFA_STATE_INIT_FW;
+ break;
+ case 9:
+ tfa->state = TFA_STATE_OPERATING;
+ break;
+ default:
+ break;
+ }
+ }
+
+ return tfa->state;
+}
+
+int tfa_dev_mtp_get(struct tfa_device *tfa, enum tfa_mtp item)
+{
+ int value = 0;
+
+ switch (item) {
+ case TFA_MTP_OTC:
+ value = TFA_GET_BF(tfa, MTPOTC);
+ break;
+ case TFA_MTP_EX:
+ value = TFA_GET_BF(tfa, MTPEX);
+ break;
+ case TFA_MTP_RE25:
+ case TFA_MTP_RE25_PRIM:
+ if (tfa->tfa_family == 2) {
+ if ((tfa->rev & 0xFF) == 0x88)
+ value = TFA_GET_BF(tfa, R25CL);
+ else if ((tfa->rev & 0xFF) == 0x13)
+ value = tfa_get_bf(tfa, TFA9912_BF_R25C);
+ else
+ value = TFA_GET_BF(tfa, R25C);
+ }
+ else {
+ reg_read(tfa, 0x83, (unsigned short*)&value);
+ }
+ break;
+ case TFA_MTP_RE25_SEC:
+ if ((tfa->rev & 0xFF) == 0x88) {
+ value = TFA_GET_BF(tfa, R25CR);
+ }
+ else {
+ pr_debug("Error: Current device has no secondary Re25 channel \n");
+ }
+ break;
+ case TFA_MTP_LOCK:
+ break;
+ }
+
+ return value;
+}
+
+enum tfa_error tfa_dev_mtp_set(struct tfa_device *tfa, enum tfa_mtp item, int value)
+{
+ enum tfa_error err = tfa_error_ok;
+
+ switch (item) {
+ case TFA_MTP_OTC:
+ err = tfa98xx_set_mtp(tfa, (uint16_t)value, TFA98XX_KEY2_PROTECTED_MTP0_MTPOTC_MSK);
+ break;
+ case TFA_MTP_EX:
+ err = tfa98xx_set_mtp(tfa, (uint16_t)value, TFA98XX_KEY2_PROTECTED_MTP0_MTPEX_MSK);
+ break;
+ case TFA_MTP_RE25:
+ case TFA_MTP_RE25_PRIM:
+ if (tfa->tfa_family == 2) {
+ tfa98xx_key2(tfa, 0); /* unlock */
+ if ((tfa->rev & 0xFF) == 0x88)
+ TFA_SET_BF(tfa, R25CL, (uint16_t)value);
+ else
+ {
+ if (tfa->is_probus_device == 1 && TFA_GET_BF(tfa, MTPOTC) == 1)
+ tfa2_manual_mtp_cpy(tfa, 0xF4, value, 2);
+ TFA_SET_BF(tfa, R25C, (uint16_t)value);
+ }
+ tfa98xx_key2(tfa, 1); /* lock */
+ }
+ break;
+ case TFA_MTP_RE25_SEC:
+ if ((tfa->rev & 0xFF) == 0x88) {
+ TFA_SET_BF(tfa, R25CR, (uint16_t)value);
+ }
+ else {
+ pr_debug("Error: Current device has no secondary Re25 channel \n");
+ err = tfa_error_bad_param;
+ }
+ break;
+ case TFA_MTP_LOCK:
+ break;
+ }
+
+ return err;
+}
+
+int tfa_get_pga_gain(struct tfa_device *tfa)
+{
+ return TFA_GET_BF(tfa, SAAMGAIN);
+}
+
+int tfa_set_pga_gain(struct tfa_device *tfa, uint16_t value)
+{
+
+ return TFA_SET_BF(tfa, SAAMGAIN, value);
+}
+
+int tfa_get_noclk(struct tfa_device *tfa)
+{
+ return TFA_GET_BF(tfa, NOCLK);
+}
+
+
+enum Tfa98xx_Error tfa_status(struct tfa_device *tfa)
+{
+ int value;
+ uint16_t val;
+
+ /*
+ * check IC status bits: cold start
+ * and DSP watch dog bit to re init
+ */
+ value = TFA_READ_REG(tfa, VDDS); /* STATUSREG */
+ if (value < 0)
+ return -value;
+ val = (uint16_t)value;
+
+ /* pr_debug("SYS_STATUS0: 0x%04x\n", val); */
+ if (TFA_GET_BF_VALUE(tfa, ACS, val) ||
+ TFA_GET_BF_VALUE(tfa, WDS, val)) {
+
+ if (TFA_GET_BF_VALUE(tfa, ACS, val))
+ pr_err("ERROR: ACS\n");
+ if (TFA_GET_BF_VALUE(tfa, WDS, val))
+ pr_err("ERROR: WDS\n");
+
+ return Tfa98xx_Error_DSP_not_running;
+ }
+
+ if (TFA_GET_BF_VALUE(tfa, SPKS, val))
+ pr_err("ERROR: SPKS\n");
+ if (!TFA_GET_BF_VALUE(tfa, SWS, val))
+ pr_err("ERROR: SWS\n");
+
+ /* Check secondary errors */
+ if (!TFA_GET_BF_VALUE(tfa, CLKS, val) ||
+ !TFA_GET_BF_VALUE(tfa, UVDS, val) ||
+ !TFA_GET_BF_VALUE(tfa, OVDS, val) ||
+ !TFA_GET_BF_VALUE(tfa, OTDS, val) ||
+ !TFA_GET_BF_VALUE(tfa, PLLS, val) ||
+ (!(tfa->daimap & Tfa98xx_DAI_TDM) &&
+ !TFA_GET_BF_VALUE(tfa, VDDS, val)))
+ pr_err("Misc errors detected: STATUS_FLAG0 = 0x%x\n", val);
+
+ if ((tfa->daimap & Tfa98xx_DAI_TDM) && (tfa->tfa_family == 2)) {
+ value = TFA_READ_REG(tfa, TDMERR); /* STATUS_FLAGS1 */
+ if (value < 0)
+ return -value;
+ val = (uint16_t)value;
+ if (TFA_GET_BF_VALUE(tfa, TDMERR, val) ||
+ TFA_GET_BF_VALUE(tfa, TDMLUTER, val))
+ pr_err("TDM related errors: STATUS_FLAG1 = 0x%x\n", val);
+ }
+
+ return Tfa98xx_Error_Ok;
+}
+
+int tfa_plop_noise_interrupt(struct tfa_device *tfa, int profile, int vstep)
+{
+ enum Tfa98xx_Error err;
+ int no_clk = 0;
+
+ /* Remove sticky bit by reading it once */
+ TFA_GET_BF(tfa, NOCLK);
+
+ /* No clock detected */
+ if (tfa_irq_get(tfa, tfa9912_irq_stnoclk)) {
+ no_clk = TFA_GET_BF(tfa, NOCLK);
+
+ /* Detect for clock is lost! (clock is not stable) */
+ if (no_clk == 1) {
+ /* Clock is lost. Set I2CR to remove POP noise */
+ pr_info("No clock detected. Resetting the I2CR to avoid pop on 72! \n");
+ err = tfa_dev_start(tfa, profile, vstep);
+ if (err != Tfa98xx_Error_Ok) {
+ pr_err("Error loading i2c registers (tfa_dev_start), err=%d\n", err);
+ }
+ else {
+ pr_info("Setting i2c registers after I2CR succesfull\n");
+ tfa_dev_set_state(tfa, TFA_STATE_UNMUTE, 0);
+ }
+
+ /* Remove sticky bit by reading it once */
+ tfa_get_noclk(tfa);
+
+ /* This is only for SAAM on the 72.
+ Since the NOCLK interrupt is only enabled for 72 this is the place
+ However: Not tested yet! But also does not harm normal flow!
+ */
+ if (strstr(tfaContProfileName(tfa->cnt, tfa->dev_idx, profile), ".saam")) {
+ pr_info("Powering down from a SAAM profile, workaround PLMA4766 used! \n");
+ TFA_SET_BF(tfa, PWDN, 1);
+ TFA_SET_BF(tfa, AMPE, 0);
+ TFA_SET_BF(tfa, SAMMODE, 0);
+ }
+ }
+
+ /* If clk is stable set polarity to check for LOW (no clock)*/
+ tfa_irq_set_pol(tfa, tfa9912_irq_stnoclk, (no_clk == 0));
+
+ /* clear interrupt */
+ tfa_irq_clear(tfa, tfa9912_irq_stnoclk);
+ }
+
+ /* return no_clk to know we called tfa_dev_start */
+ return no_clk;
+}
+
+void tfa_lp_mode_interrupt(struct tfa_device *tfa)
+{
+ const int irq_stclp0 = 36; /* FIXME: this 72 interrupt does not excist for 9912 */
+ int lp0, lp1;
+
+ if (tfa_irq_get(tfa, irq_stclp0)) {
+ lp0 = TFA_GET_BF(tfa, LP0);
+ if (lp0 > 0) {
+ pr_info("lowpower mode 0 detected\n");
+ }
+ else {
+ pr_info("lowpower mode 0 not detected\n");
+ }
+
+ tfa_irq_set_pol(tfa, irq_stclp0, (lp0 == 0));
+
+ /* clear interrupt */
+ tfa_irq_clear(tfa, irq_stclp0);
+ }
+
+ if (tfa_irq_get(tfa, tfa9912_irq_stclpr)) {
+ lp1 = TFA_GET_BF(tfa, LP1);
+ if (lp1 > 0) {
+ pr_info("lowpower mode 1 detected\n");
+ }
+ else {
+ pr_info("lowpower mode 1 not detected\n");
+ }
+
+ tfa_irq_set_pol(tfa, tfa9912_irq_stclpr, (lp1 == 0));
+
+ /* clear interrupt */
+ tfa_irq_clear(tfa, tfa9912_irq_stclpr);
+ }
+}
diff --git a/src/tfa_init.c b/src/tfa_init.c
new file mode 100644
index 0000000..7e2f63d
--- /dev/null
+++ b/src/tfa_init.c
@@ -0,0 +1,1791 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+#include "dbgprint.h"
+#include "tfa_service.h"
+#include "tfa_internal.h"
+#include "tfa_container.h"
+#include "tfa98xx_tfafieldnames.h"
+
+ /* The CurrentSense4 registers are not in the datasheet */
+#define TFA98XX_CURRENTSENSE4_CTRL_CLKGATECFOFF (1<<2)
+#define TFA98XX_CURRENTSENSE4 0x49
+
+/***********************************************************************************/
+/* GLOBAL (Defaults) */
+/***********************************************************************************/
+static enum Tfa98xx_Error no_overload_function_available(struct tfa_device *tfa, int not_used)
+{
+ (void)tfa;
+ (void)not_used;
+
+ return Tfa98xx_Error_Ok;
+}
+
+static enum Tfa98xx_Error no_overload_function_available2(struct tfa_device *tfa)
+{
+ (void)tfa;
+
+ return Tfa98xx_Error_Ok;
+}
+
+/* tfa98xx_dsp_system_stable
+* return: *ready = 1 when clocks are stable to allow DSP subsystem access
+*/
+static enum Tfa98xx_Error tfa_dsp_system_stable(struct tfa_device *tfa, int *ready)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short status;
+ int value;
+
+ /* check the contents of the STATUS register */
+ value = TFA_READ_REG(tfa, AREFS);
+ if (value < 0) {
+ error = -value;
+ *ready = 0;
+ _ASSERT(error); /* an error here can be fatal */
+ return error;
+ }
+ status = (unsigned short)value;
+
+ /* check AREFS and CLKS: not ready if either is clear */
+ *ready = !((TFA_GET_BF_VALUE(tfa, AREFS, status) == 0)
+ || (TFA_GET_BF_VALUE(tfa, CLKS, status) == 0));
+
+ return error;
+}
+
+/* tfa98xx_toggle_mtp_clock
+ * Allows to stop clock for MTP/FAim needed for PLMA5505 */
+static enum Tfa98xx_Error tfa_faim_protect(struct tfa_device *tfa, int state)
+{
+ (void)tfa;
+ (void)state;
+
+ return Tfa98xx_Error_Ok;
+}
+
+/** Set internal oscillator into power down mode.
+ *
+ * This function is a worker for tfa98xx_set_osc_powerdown().
+ *
+ * @param[in] tfa device description structure
+ * @param[in] state new state 0 - oscillator is on, 1 oscillator is off.
+ *
+ * @return Tfa98xx_Error_Ok when successfull, error otherwise.
+ */
+static enum Tfa98xx_Error tfa_set_osc_powerdown(struct tfa_device *tfa, int state)
+{
+ /* This function has no effect in general case, only for tfa9912 */
+ (void)tfa;
+ (void)state;
+
+ return Tfa98xx_Error_Ok;
+}
+static enum Tfa98xx_Error tfa_update_lpm(struct tfa_device *tfa, int state)
+{
+ /* This function has no effect in general case, only for tfa9912 */
+ (void)tfa;
+ (void)state;
+
+ return Tfa98xx_Error_Ok;
+}
+static enum Tfa98xx_Error tfa_dsp_reset(struct tfa_device *tfa, int state)
+{
+ /* generic function */
+ TFA_SET_BF_VOLATILE(tfa, RST, (uint16_t)state);
+
+ return Tfa98xx_Error_Ok;
+}
+
+int tfa_set_swprofile(struct tfa_device *tfa, unsigned short new_value)
+{
+ int mtpk, active_value = tfa->profile;
+
+ /* Also set the new value in the struct */
+ tfa->profile = new_value - 1;
+
+ /* for TFA1 devices */
+ /* it's in MTP shadow, so unlock if not done already */
+ mtpk = TFA_GET_BF(tfa, MTPK); /* get current key */
+ TFA_SET_BF_VOLATILE(tfa, MTPK, 0x5a);
+ TFA_SET_BF_VOLATILE(tfa, SWPROFIL, new_value); /* set current profile */
+ TFA_SET_BF_VOLATILE(tfa, MTPK, (uint16_t)mtpk); /* restore key */
+
+ return active_value;
+}
+
+static int tfa_get_swprofile(struct tfa_device *tfa)
+{
+ return TFA_GET_BF(tfa, SWPROFIL) - 1;
+}
+
+static int tfa_set_swvstep(struct tfa_device *tfa, unsigned short new_value)
+{
+ int mtpk, active_value = tfa->vstep;
+
+ /* Also set the new value in the struct */
+ tfa->vstep = new_value - 1;
+
+ /* for TFA1 devices */
+ /* it's in MTP shadow, so unlock if not done already */
+ mtpk = TFA_GET_BF(tfa, MTPK); /* get current key */
+ TFA_SET_BF_VOLATILE(tfa, MTPK, 0x5a);
+ TFA_SET_BF_VOLATILE(tfa, SWVSTEP, new_value); /* set current vstep */
+ TFA_SET_BF_VOLATILE(tfa, MTPK, (uint16_t)mtpk); /* restore key */
+
+ return active_value;
+}
+
+static int tfa_get_swvstep(struct tfa_device *tfa)
+{
+ int value = 0;
+ /* Set the new value in the hw register */
+ value = TFA_GET_BF(tfa, SWVSTEP);
+
+ /* Also set the new value in the struct */
+ tfa->vstep = value - 1;
+
+ return value - 1; /* invalid if 0 */
+}
+
+static int tfa_get_mtpb(struct tfa_device *tfa) {
+
+ int value = 0;
+
+ /* Set the new value in the hw register */
+ value = TFA_GET_BF(tfa, MTPB);
+
+ return value;
+}
+
+static enum Tfa98xx_Error
+tfa_set_mute_nodsp(struct tfa_device *tfa, int mute)
+{
+ (void)tfa;
+ (void)mute;
+
+ return Tfa98xx_Error_Ok;
+}
+
+void set_ops_defaults(struct tfa_device_ops *ops)
+{
+ /* defaults */
+ ops->reg_read = tfa98xx_read_register16;
+ ops->reg_write = tfa98xx_write_register16;
+ ops->mem_read = tfa98xx_dsp_read_mem;
+ ops->mem_write = tfa98xx_dsp_write_mem_word;
+ ops->dsp_msg = tfa_dsp_msg;
+ ops->dsp_msg_read = tfa_dsp_msg_read;
+ ops->dsp_write_tables = no_overload_function_available;
+ ops->dsp_reset = tfa_dsp_reset;
+ ops->dsp_system_stable = tfa_dsp_system_stable;
+ ops->auto_copy_mtp_to_iic = no_overload_function_available2;
+ ops->factory_trimmer = no_overload_function_available2;
+ ops->set_swprof = tfa_set_swprofile;
+ ops->get_swprof = tfa_get_swprofile;
+ ops->set_swvstep = tfa_set_swvstep;
+ ops->get_swvstep = tfa_get_swvstep;
+ ops->get_mtpb = tfa_get_mtpb;
+ ops->set_mute = tfa_set_mute_nodsp;
+ ops->faim_protect = tfa_faim_protect;
+ ops->set_osc_powerdown = tfa_set_osc_powerdown;
+ ops->update_lpm = tfa_update_lpm;
+}
+
+/***********************************************************************************/
+/* no TFA
+ * external DSP SB instance */
+ /***********************************************************************************/
+static short tfanone_swvstep, swprof; //TODO emulate in hal plugin
+static enum Tfa98xx_Error tfanone_dsp_system_stable(struct tfa_device *tfa, int *ready)
+{
+ (void)tfa; /* suppress warning */
+ *ready = 1; /* assume always ready */
+
+ return Tfa98xx_Error_Ok;
+}
+
+static int tfanone_set_swprofile(struct tfa_device *tfa, unsigned short new_value)
+{
+ int active_value = tfa_dev_get_swprof(tfa);
+
+ /* Set the new value in the struct */
+ tfa->profile = new_value - 1;
+
+ /* Set the new value in the hw register */
+ swprof = new_value;
+
+ return active_value;
+}
+
+static int tfanone_get_swprofile(struct tfa_device *tfa)
+{
+ (void)tfa; /* suppress warning */
+ return swprof;
+}
+
+static int tfanone_set_swvstep(struct tfa_device *tfa, unsigned short new_value)
+{
+ /* Set the new value in the struct */
+ tfa->vstep = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfanone_swvstep = new_value;
+
+ return new_value;
+}
+
+static int tfanone_get_swvstep(struct tfa_device *tfa)
+{
+ (void)tfa; /* suppress warning */
+ return tfanone_swvstep;
+}
+
+void tfanone_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->dsp_system_stable = tfanone_dsp_system_stable;
+ ops->set_swprof = tfanone_set_swprofile;
+ ops->get_swprof = tfanone_get_swprofile;
+ ops->set_swvstep = tfanone_set_swvstep;
+ ops->get_swvstep = tfanone_get_swvstep;
+
+}
+
+/***********************************************************************************/
+/* TFA9912 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9912_faim_protect(struct tfa_device *tfa, int status)
+{
+ enum Tfa98xx_Error ret = Tfa98xx_Error_Fail;
+
+ if (tfa) {
+ if (status == 0 || status == 1) {
+ ret = -(tfa_set_bf(tfa, TFA9912_BF_SSFAIME, (uint16_t)status));
+ }
+ }
+
+ return ret;
+}
+
+static enum Tfa98xx_Error tfa9912_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short value, xor;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* Unlock keys to write settings */
+ error = reg_write(tfa, 0x0F, 0x5A6B);
+ error = reg_read(tfa, 0xFB, &value);
+ xor = value ^ 0x005A;
+ error = reg_write(tfa, 0xA0, xor);
+
+ /* The optimal settings */
+ if (tfa->rev == 0x1a13) {
+
+ /* ----- generated code start ----- */
+ /* ----- version 1.43 ----- */
+ reg_write(tfa, 0x00, 0x0255); //POR=0x0245
+ reg_write(tfa, 0x01, 0x838a); //POR=0x83ca
+ reg_write(tfa, 0x02, 0x2dc8); //POR=0x2828
+ reg_write(tfa, 0x05, 0x762a); //POR=0x766a
+ reg_write(tfa, 0x22, 0x543c); //POR=0x545c
+ reg_write(tfa, 0x26, 0x0100); //POR=0x0010
+ reg_write(tfa, 0x51, 0x0000); //POR=0x0080
+ reg_write(tfa, 0x52, 0x551c); //POR=0x1afc
+ reg_write(tfa, 0x53, 0x003e); //POR=0x001e
+ reg_write(tfa, 0x61, 0x000c); //POR=0x0018
+ reg_write(tfa, 0x63, 0x0a96); //POR=0x0a9a
+ reg_write(tfa, 0x65, 0x0a82); //POR=0x0a8b
+ reg_write(tfa, 0x66, 0x0701); //POR=0x0700
+ reg_write(tfa, 0x6c, 0x00d5); //POR=0x02d5
+ reg_write(tfa, 0x70, 0x26f8); //POR=0x06e0
+ reg_write(tfa, 0x71, 0x3074); //POR=0x2074
+ reg_write(tfa, 0x75, 0x4484); //POR=0x4585
+ reg_write(tfa, 0x76, 0x72ea); //POR=0x54a2
+ reg_write(tfa, 0x83, 0x0716); //POR=0x0617
+ reg_write(tfa, 0x89, 0x0013); //POR=0x0014
+ reg_write(tfa, 0xb0, 0x4c08); //POR=0x4c00
+ reg_write(tfa, 0xc6, 0x004e); //POR=0x000e /* PLMA5539: Please make sure bit 6 is always on! */
+ /* ----- generated code end ----- */
+
+ /* PLMA5505: MTP key open makes vulanable for MTP corruption */
+ tfa9912_faim_protect(tfa, 0);
+ }
+ else {
+ pr_info("Warning: Optimal settings not found for device with revid = 0x%x \n", tfa->rev);
+ }
+
+ return error;
+}
+
+static enum Tfa98xx_Error tfa9912_factory_trimmer(struct tfa_device *tfa)
+{
+ unsigned short currentValue, delta;
+ int result;
+
+ /* Factory trimming for the Boost converter */
+ /* check if there is a correction needed */
+ result = TFA_GET_BF(tfa, DCMCCAPI);
+ if (result) {
+ /* Get currentvalue of DCMCC and the Delta value */
+ currentValue = (unsigned short)TFA_GET_BF(tfa, DCMCC);
+ delta = (unsigned short)TFA_GET_BF(tfa, USERDEF);
+
+ /* check the sign bit (+/-) */
+ result = TFA_GET_BF(tfa, DCMCCSB);
+ if (result == 0) {
+ /* Do not exceed the maximum value of 15 */
+ if (currentValue + delta < 15) {
+ TFA_SET_BF_VOLATILE(tfa, DCMCC, currentValue + delta);
+ if (tfa->verbose)
+ pr_debug("Max coil current is set to: %d \n", currentValue + delta);
+ }
+ else {
+ TFA_SET_BF_VOLATILE(tfa, DCMCC, 15);
+ if (tfa->verbose)
+ pr_debug("Max coil current is set to: 15 \n");
+ }
+ }
+ else if (result == 1) {
+ /* Do not exceed the minimum value of 0 */
+ if (currentValue - delta > 0) {
+ TFA_SET_BF_VOLATILE(tfa, DCMCC, currentValue - delta);
+ if (tfa->verbose)
+ pr_debug("Max coil current is set to: %d \n", currentValue - delta);
+ }
+ else {
+ TFA_SET_BF_VOLATILE(tfa, DCMCC, 0);
+ if (tfa->verbose)
+ pr_debug("Max coil current is set to: 0 \n");
+ }
+ }
+ }
+
+ return Tfa98xx_Error_Ok;
+}
+
+static enum Tfa98xx_Error tfa9912_auto_copy_mtp_to_iic(struct tfa_device *tfa)
+{
+ /* Set auto_copy_mtp_to_iic (bit 5 of A3) to 1. Workaround for 72, 88 and 9912/9892(see PLMA5290) */
+ return reg_write(tfa, 0xA3, 0x20);
+}
+
+static int tfa9912_set_swprofile(struct tfa_device *tfa, unsigned short new_value)
+{
+ int active_value = tfa_dev_get_swprof(tfa);
+
+ /* Set the new value in the struct */
+ tfa->profile = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfa_set_bf_volatile(tfa, TFA9912_BF_SWPROFIL, new_value);
+
+ return active_value;
+}
+
+static int tfa9912_get_swprofile(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9912_BF_SWPROFIL) - 1;
+}
+
+static int tfa9912_set_swvstep(struct tfa_device *tfa, unsigned short new_value)
+{
+ /* Set the new value in the struct */
+ tfa->vstep = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfa_set_bf_volatile(tfa, TFA9912_BF_SWVSTEP, new_value);
+
+ return new_value;
+}
+
+static int tfa9912_get_swvstep(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9912_BF_SWVSTEP) - 1;
+}
+
+static enum Tfa98xx_Error
+tfa9912_set_mute(struct tfa_device *tfa, int mute)
+{
+ tfa_set_bf(tfa, TFA9912_BF_CFSM, (const uint16_t)mute);
+
+ return Tfa98xx_Error_Ok;
+}
+
+/* Maksimum value for combination of boost_voltage and vout calibration offset (see PLMA5322, PLMA5528). */
+#define TFA9912_VBOOST_MAX 57
+#define TFA9912_CALIBR_BOOST_MAX 63
+#define TFA9912_DCDCCNT6_REG (TFA9912_BF_DCVOF >> 8)
+#define TFA9912_CALIBR_REG 0xf1
+
+static uint16_t tfa9912_vboost_fixup(struct tfa_device *tfa, uint16_t dcdc_cnt6)
+{
+ unsigned short cal_offset;
+ unsigned short boost_v_1st, boost_v_2nd;
+ uint16_t new_dcdc_cnt6;
+
+ /* Get current calibr_vout_offset, this register is not supported by bitfields */
+ reg_read(tfa, TFA9912_CALIBR_REG, &cal_offset);
+ cal_offset = (cal_offset & 0x001f);
+ new_dcdc_cnt6 = dcdc_cnt6;
+
+ /* Get current boost_volatage values */
+ boost_v_1st = tfa_get_bf_value(TFA9912_BF_DCVOF, new_dcdc_cnt6);
+ boost_v_2nd = tfa_get_bf_value(TFA9912_BF_DCVOS, new_dcdc_cnt6);
+
+ /* Check boost voltages */
+ if (boost_v_1st > TFA9912_VBOOST_MAX)
+ boost_v_1st = TFA9912_VBOOST_MAX;
+
+ if (boost_v_2nd > TFA9912_VBOOST_MAX)
+ boost_v_2nd = TFA9912_VBOOST_MAX;
+
+ /* Recalculate values, max for the sum is TFA9912_CALIBR_BOOST_MAX */
+ if (boost_v_1st + cal_offset > TFA9912_CALIBR_BOOST_MAX)
+ boost_v_1st = TFA9912_CALIBR_BOOST_MAX - cal_offset;
+
+ if (boost_v_2nd + cal_offset > TFA9912_CALIBR_BOOST_MAX)
+ boost_v_2nd = TFA9912_CALIBR_BOOST_MAX - cal_offset;
+
+ tfa_set_bf_value(TFA9912_BF_DCVOF, boost_v_1st, &new_dcdc_cnt6);
+ tfa_set_bf_value(TFA9912_BF_DCVOS, boost_v_2nd, &new_dcdc_cnt6);
+
+ /* Change register value only when it's neccesary */
+ if (new_dcdc_cnt6 != dcdc_cnt6) {
+ if (tfa->verbose)
+ pr_debug("tfa9912: V boost fixup applied. Old 0x%04x, new 0x%04x\n",
+ dcdc_cnt6, new_dcdc_cnt6);
+ dcdc_cnt6 = new_dcdc_cnt6;
+ }
+
+ return dcdc_cnt6;
+}
+
+/* PLMA5322, PLMA5528 - Limit values of DCVOS and DCVOF to range specified in datasheet. */
+enum Tfa98xx_Error tfa9912_reg_write(struct tfa_device *tfa, unsigned char subaddress, unsigned short value)
+{
+ if (subaddress == TFA9912_DCDCCNT6_REG) {
+ /* Correct V boost (first and secondary) to ensure 12V is not exceeded. */
+ value = tfa9912_vboost_fixup(tfa, value);
+ }
+
+ return tfa98xx_write_register16(tfa, subaddress, value);
+}
+
+/** Set internal oscillator into power down mode for TFA9912.
+*
+* This function is a worker for tfa98xx_set_osc_powerdown().
+*
+* @param[in] tfa device description structure
+* @param[in] state new state 0 - oscillator is on, 1 oscillator is off.
+*
+* @return Tfa98xx_Error_Ok when successfull, error otherwise.
+*/
+static enum Tfa98xx_Error tfa9912_set_osc_powerdown(struct tfa_device *tfa, int state)
+{
+ if (state == 1 || state == 0) {
+ return -tfa_set_bf(tfa, TFA9912_BF_MANAOOSC, (uint16_t)state);
+ }
+
+ return Tfa98xx_Error_Bad_Parameter;
+}
+/** update low power mode of the device.
+*
+* @param[in] tfa device description structure
+* @param[in] state State of the low power mode1 detector control
+* 0 - low power mode1 detector control enabled,
+* 1 - low power mode1 detector control disabled(low power mode is also disabled).
+*
+* @return Tfa98xx_Error_Ok when successfull, error otherwise.
+*/
+static enum Tfa98xx_Error tfa9912_update_lpm(struct tfa_device *tfa, int state)
+{
+ if (state == 1 || state == 0) {
+ return -tfa_set_bf(tfa, TFA9912_BF_LPM1DIS, (uint16_t)state);
+ }
+ return Tfa98xx_Error_Bad_Parameter;
+}
+
+void tfa9912_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9912_specific;
+ /* PLMA5322, PLMA5528 - Limits values of DCVOS and DCVOF. */
+ ops->reg_write = tfa9912_reg_write;
+ ops->factory_trimmer = tfa9912_factory_trimmer;
+ ops->auto_copy_mtp_to_iic = tfa9912_auto_copy_mtp_to_iic;
+ ops->set_swprof = tfa9912_set_swprofile;
+ ops->get_swprof = tfa9912_get_swprofile;
+ ops->set_swvstep = tfa9912_set_swvstep;
+ ops->get_swvstep = tfa9912_get_swvstep;
+ ops->set_mute = tfa9912_set_mute;
+ ops->faim_protect = tfa9912_faim_protect;
+ ops->set_osc_powerdown = tfa9912_set_osc_powerdown;
+ ops->update_lpm = tfa9912_update_lpm;
+}
+
+/***********************************************************************************/
+/* TFA9872 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9872_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ uint16_t MANAOOSC = 0x0140; /* version 17 */
+ unsigned short value, xor;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* Unlock key 1 and 2 */
+ error = reg_write(tfa, 0x0F, 0x5A6B);
+ error = reg_read(tfa, 0xFB, &value);
+ xor = value ^ 0x005A;
+ error = reg_write(tfa, 0xA0, xor);
+ tfa98xx_key2(tfa, 0);
+
+ switch (tfa->rev) {
+ case 0x1a72:
+ case 0x2a72:
+ /* ----- generated code start ----- */
+ /* ----- version 26 ----- */
+ reg_write(tfa, 0x00, 0x1801); //POR=0x0001
+ reg_write(tfa, 0x02, 0x2dc8); //POR=0x2028
+ reg_write(tfa, 0x20, 0x0890); //POR=0x2890
+ reg_write(tfa, 0x22, 0x043c); //POR=0x045c
+ reg_write(tfa, 0x51, 0x0000); //POR=0x0080
+ reg_write(tfa, 0x52, 0x1a1c); //POR=0x7ae8
+ reg_write(tfa, 0x58, 0x161c); //POR=0x101c
+ reg_write(tfa, 0x61, 0x0198); //POR=0x0000
+ reg_write(tfa, 0x65, 0x0a8b); //POR=0x0a9a
+ reg_write(tfa, 0x70, 0x07f5); //POR=0x06e6
+ reg_write(tfa, 0x74, 0xcc84); //POR=0xd823
+ reg_write(tfa, 0x82, 0x01ed); //POR=0x000d
+ reg_write(tfa, 0x83, 0x0014); //POR=0x0013
+ reg_write(tfa, 0x84, 0x0021); //POR=0x0020
+ reg_write(tfa, 0x85, 0x0001); //POR=0x0003
+ /* ----- generated code end ----- */
+ break;
+ case 0x1b72:
+ case 0x2b72:
+ case 0x3b72:
+ /* ----- generated code start ----- */
+ /* ----- version 25.00 ----- */
+ reg_write(tfa, 0x02, 0x2dc8); //POR=0x2828
+ reg_write(tfa, 0x20, 0x0890); //POR=0x2890
+ reg_write(tfa, 0x22, 0x043c); //POR=0x045c
+ reg_write(tfa, 0x23, 0x0001); //POR=0x0003
+ reg_write(tfa, 0x51, 0x0000); //POR=0x0080
+ reg_write(tfa, 0x52, 0x5a1c); //POR=0x7a08
+ reg_write(tfa, 0x61, 0x0198); //POR=0x0000
+ reg_write(tfa, 0x63, 0x0a9a); //POR=0x0a93
+ reg_write(tfa, 0x65, 0x0a82); //POR=0x0a8d
+ reg_write(tfa, 0x6f, 0x01e3); //POR=0x02e4
+ reg_write(tfa, 0x70, 0x06fd); //POR=0x06e6
+ reg_write(tfa, 0x71, 0x307e); //POR=0x207e
+ reg_write(tfa, 0x74, 0xcc84); //POR=0xd913
+ reg_write(tfa, 0x75, 0x1132); //POR=0x118a
+ reg_write(tfa, 0x82, 0x01ed); //POR=0x000d
+ reg_write(tfa, 0x83, 0x001a); //POR=0x0013
+ /* ----- generated code end ----- */
+ break;
+ default:
+ pr_info("\nWarning: Optimal settings not found for device with revid = 0x%x \n", tfa->rev);
+ break;
+ }
+
+ /* Turn off the osc1m to save power: PLMA4928 */
+ error = tfa_set_bf(tfa, MANAOOSC, 1);
+
+ /* Bypass OVP by setting bit 3 from register 0xB0 (bypass_ovp=1): PLMA5258 */
+ error = reg_read(tfa, 0xB0, &value);
+ value |= 1 << 3;
+ error = reg_write(tfa, 0xB0, value);
+
+ return error;
+}
+
+static enum Tfa98xx_Error tfa9872_auto_copy_mtp_to_iic(struct tfa_device *tfa)
+{
+ /* Set auto_copy_mtp_to_iic (bit 5 of A3) to 1. Workaround for 72 and 88 (see PLMA5290) */
+ return reg_write(tfa, 0xA3, 0x20);
+}
+
+static int tfa9872_set_swprofile(struct tfa_device *tfa, unsigned short new_value)
+{
+ int active_value = tfa_dev_get_swprof(tfa);
+
+ /* Set the new value in the struct */
+ tfa->profile = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfa_set_bf_volatile(tfa, TFA9872_BF_SWPROFIL, new_value);
+
+ return active_value;
+}
+
+static int tfa9872_get_swprofile(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9872_BF_SWPROFIL) - 1;
+}
+
+static int tfa9872_set_swvstep(struct tfa_device *tfa, unsigned short new_value)
+{
+
+ /* Set the new value in the struct */
+ tfa->vstep = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfa_set_bf_volatile(tfa, TFA9872_BF_SWVSTEP, new_value);
+
+ return new_value;
+}
+
+static int tfa9872_get_swvstep(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9872_BF_SWVSTEP) - 1;
+}
+
+void tfa9872_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9872_specific;
+ ops->auto_copy_mtp_to_iic = tfa9872_auto_copy_mtp_to_iic;
+ ops->set_swprof = tfa9872_set_swprofile;
+ ops->get_swprof = tfa9872_get_swprofile;
+ ops->set_swvstep = tfa9872_set_swvstep;
+ ops->get_swvstep = tfa9872_get_swvstep;
+ ops->set_mute = tfa_set_mute_nodsp;
+}
+
+/***********************************************************************************/
+/* TFA9874 */
+/***********************************************************************************/
+
+static enum Tfa98xx_Error tfa9874_faim_protect(struct tfa_device *tfa, int status)
+{
+ enum Tfa98xx_Error ret = Tfa98xx_Error_Ok;
+ /* 0b = FAIM protection enabled 1b = FAIM protection disabled*/
+ ret = tfa_set_bf_volatile(tfa, TFA9874_BF_OPENMTP, (uint16_t)(status));
+ return ret;
+}
+
+
+static enum Tfa98xx_Error tfa9874_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short value, xor;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* Unlock key 1 and 2 */
+ error = reg_write(tfa, 0x0F, 0x5A6B);
+ error = reg_read(tfa, 0xFB, &value);
+ xor = value ^ 0x005A;
+ error = reg_write(tfa, 0xA0, xor);
+ tfa98xx_key2(tfa, 0);
+
+ switch (tfa->rev) {
+ case 0x0a74: /* Initial revision ID */
+ /* ----- generated code start ----- */
+ /* V25 */
+ reg_write(tfa, 0x02, 0x22a8); //POR=0x25c8
+ reg_write(tfa, 0x51, 0x0020); //POR=0x0000
+ reg_write(tfa, 0x52, 0x57dc); //POR=0x56dc
+ reg_write(tfa, 0x58, 0x16a4); //POR=0x1614
+ reg_write(tfa, 0x61, 0x0110); //POR=0x0198
+ reg_write(tfa, 0x66, 0x0701); //POR=0x0700
+ reg_write(tfa, 0x6f, 0x00a3); //POR=0x01a3
+ reg_write(tfa, 0x70, 0x07f8); //POR=0x06f8
+ reg_write(tfa, 0x73, 0x0007); //POR=0x0005
+ reg_write(tfa, 0x74, 0x5068); //POR=0xcc80
+ reg_write(tfa, 0x75, 0x0d28); //POR=0x1138
+ reg_write(tfa, 0x83, 0x0594); //POR=0x061a
+ reg_write(tfa, 0x84, 0x0001); //POR=0x0021
+ reg_write(tfa, 0x85, 0x0001); //POR=0x0003
+ reg_write(tfa, 0x88, 0x0000); //POR=0x0002
+ reg_write(tfa, 0xc4, 0x2001); //POR=0x0001
+ /* ----- generated code end ----- */
+ break;
+ case 0x0b74:
+ /* ----- generated code start ----- */
+ /* V1.6 */
+ reg_write(tfa, 0x02, 0x22a8); //POR=0x25c8
+ reg_write(tfa, 0x51, 0x0020); //POR=0x0000
+ reg_write(tfa, 0x52, 0x57dc); //POR=0x56dc
+ reg_write(tfa, 0x58, 0x16a4); //POR=0x1614
+ reg_write(tfa, 0x61, 0x0110); //POR=0x0198
+ reg_write(tfa, 0x66, 0x0701); //POR=0x0700
+ reg_write(tfa, 0x6f, 0x00a3); //POR=0x01a3
+ reg_write(tfa, 0x70, 0x07f8); //POR=0x06f8
+ reg_write(tfa, 0x73, 0x0047); //POR=0x0045
+ reg_write(tfa, 0x74, 0x5068); //POR=0xcc80
+ reg_write(tfa, 0x75, 0x0d28); //POR=0x1138
+ reg_write(tfa, 0x83, 0x0595); //POR=0x061a
+ reg_write(tfa, 0x84, 0x0001); //POR=0x0021
+ reg_write(tfa, 0x85, 0x0001); //POR=0x0003
+ reg_write(tfa, 0x88, 0x0000); //POR=0x0002
+ reg_write(tfa, 0xc4, 0x2001); //POR=0x0001
+ /* ----- generated code end ----- */
+ break;
+ case 0x0c74:
+ /* ----- generated code start ----- */
+ /* V1.16 */
+ reg_write(tfa, 0x02, 0x22c8); //POR=0x25c8
+ reg_write(tfa, 0x52, 0x57dc); //POR=0x56dc
+ reg_write(tfa, 0x53, 0x003e); //POR=0x001e
+ reg_write(tfa, 0x56, 0x0400); //POR=0x0600
+ reg_write(tfa, 0x61, 0x0110); //POR=0x0198
+ reg_write(tfa, 0x6f, 0x00a5); //POR=0x01a3
+ reg_write(tfa, 0x70, 0x07f8); //POR=0x06f8
+ reg_write(tfa, 0x73, 0x0047); //POR=0x0045
+ reg_write(tfa, 0x74, 0x5098); //POR=0xcc80
+ reg_write(tfa, 0x75, 0x8d28); //POR=0x1138
+ reg_write(tfa, 0x80, 0x0000); //POR=0x0003
+ reg_write(tfa, 0x83, 0x0799); //POR=0x061a
+ reg_write(tfa, 0x84, 0x0081); //POR=0x0021
+ /* ----- generated code end ----- */
+ break;
+ default:
+ pr_info("\nWarning: Optimal settings not found for device with revid = 0x%x \n", tfa->rev);
+ break;
+ }
+
+ return error;
+}
+
+static int tfa9874_set_swprofile(struct tfa_device *tfa, unsigned short new_value)
+{
+ int active_value = tfa_dev_get_swprof(tfa);
+
+ /* Set the new value in the struct */
+ tfa->profile = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfa_set_bf_volatile(tfa, TFA9874_BF_SWPROFIL, new_value);
+
+ return active_value;
+}
+
+static int tfa9874_get_swprofile(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9874_BF_SWPROFIL) - 1;
+}
+
+static int tfa9874_set_swvstep(struct tfa_device *tfa, unsigned short new_value)
+{
+
+ /* Set the new value in the struct */
+ tfa->vstep = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfa_set_bf_volatile(tfa, TFA9874_BF_SWVSTEP, new_value);
+
+ return new_value;
+}
+
+static int tfa9874_get_swvstep(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9874_BF_SWVSTEP) - 1;
+}
+
+/* tfa98xx_dsp_system_stable
+* return: *ready = 1 when clocks are stable to allow DSP subsystem access
+*/
+static enum Tfa98xx_Error tfa9874_dsp_system_stable(struct tfa_device *tfa, int *ready)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ /* check CLKS: ready if set */
+ *ready = tfa_get_bf(tfa, TFA9874_BF_CLKS) == 1;
+
+ return error;
+}
+
+static int tfa9874_get_mtpb(struct tfa_device *tfa) {
+
+ int value;
+ value = tfa_get_bf(tfa, TFA9874_BF_MTPB);
+ return value;
+}
+
+void tfa9874_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9874_specific;
+ ops->set_swprof = tfa9874_set_swprofile;
+ ops->get_swprof = tfa9874_get_swprofile;
+ ops->set_swvstep = tfa9874_set_swvstep;
+ ops->get_swvstep = tfa9874_get_swvstep;
+ ops->dsp_system_stable = tfa9874_dsp_system_stable;
+ ops->faim_protect = tfa9874_faim_protect;
+ ops->get_mtpb = tfa9874_get_mtpb;
+ ops->set_mute = tfa_set_mute_nodsp;
+}
+/***********************************************************************************/
+/* TFA9878 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9878_faim_protect(struct tfa_device *tfa, int status)
+{
+ enum Tfa98xx_Error ret = Tfa98xx_Error_Ok;
+ /* 0b = FAIM protection enabled 1b = FAIM protection disabled*/
+ ret = tfa_set_bf_volatile(tfa, TFA9878_BF_OPENMTP, (uint16_t)(status));
+ return ret;
+}
+
+
+static enum Tfa98xx_Error tfa9878_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short value, xor;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* Unlock key 1 and 2 */
+ error = reg_write(tfa, 0x0F, 0x5A6B);
+ error = reg_read(tfa, 0xFB, &value);
+ xor = value ^ 0x005A;
+ error = reg_write(tfa, 0xA0, xor);
+ tfa98xx_key2(tfa, 0);
+
+ switch (tfa->rev) {
+ case 0x0a78: /* Initial revision ID */
+/* ----- generated code start ----- */
+/* ----- version 28 ----- */
+ reg_write(tfa, 0x01, 0x2e18); //POR=0x2e88
+ reg_write(tfa, 0x02, 0x0628); //POR=0x0008
+ reg_write(tfa, 0x04, 0x0240); //POR=0x0340
+ reg_write(tfa, 0x52, 0x587c); //POR=0x57dc
+ reg_write(tfa, 0x61, 0x0183); //POR=0x0a82
+ reg_write(tfa, 0x63, 0x055a); //POR=0x0a9a
+ reg_write(tfa, 0x65, 0x0542); //POR=0x0a82
+ reg_write(tfa, 0x71, 0x303e); //POR=0x307e
+ reg_write(tfa, 0x83, 0x009a); //POR=0x0799
+ /* ----- generated code end ----- */
+
+
+ break;
+ case 0x1a78: /* Initial revision ID */
+ /* ----- generated code start ----- */
+ /* ----- version 12 ----- */
+ reg_write(tfa, 0x01, 0x2e18); //POR=0x2e88
+ reg_write(tfa, 0x02, 0x0628); //POR=0x0008
+ reg_write(tfa, 0x04, 0x0241); //POR=0x0340
+ reg_write(tfa, 0x52, 0x587c); //POR=0x57dc
+ reg_write(tfa, 0x61, 0x0183); //POR=0x0a82
+ reg_write(tfa, 0x63, 0x055a); //POR=0x0a9a
+ reg_write(tfa, 0x65, 0x0542); //POR=0x0a82
+ reg_write(tfa, 0x70, 0xb7ff); //POR=0x37ff
+ reg_write(tfa, 0x71, 0x303e); //POR=0x307e
+ reg_write(tfa, 0x83, 0x009a); //POR=0x0799
+ reg_write(tfa, 0x84, 0x0211); //POR=0x0011
+ reg_write(tfa, 0x8c, 0x0210); //POR=0x0010
+ reg_write(tfa, 0xce, 0x2202); //POR=0xa202
+ reg_write(tfa, 0xd5, 0x0000); //POR=0x0100
+ /* ----- generated code end ----- */
+
+ break;
+ default:
+ pr_info("\nWarning: Optimal settings not found for device with revid = 0x%x \n", tfa->rev);
+ break;
+ }
+
+ return error;
+}
+
+static int tfa9878_set_swprofile(struct tfa_device *tfa, unsigned short new_value)
+{
+ int active_value = tfa_dev_get_swprof(tfa);
+
+ /* Set the new value in the struct */
+ tfa->profile = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfa_set_bf_volatile(tfa, TFA9878_BF_SWPROFIL, new_value);
+
+ return active_value;
+}
+
+static int tfa9878_get_swprofile(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9878_BF_SWPROFIL) - 1;
+}
+
+static int tfa9878_set_swvstep(struct tfa_device *tfa, unsigned short new_value)
+{
+
+ /* Set the new value in the struct */
+ tfa->vstep = new_value - 1;
+
+ /* Set the new value in the hw register */
+ tfa_set_bf_volatile(tfa, TFA9878_BF_SWVSTEP, new_value);
+
+ return new_value;
+}
+
+static int tfa9878_get_swvstep(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9878_BF_SWVSTEP) - 1;
+}
+
+/* tfa98xx_dsp_system_stable
+* return: *ready = 1 when clocks are stable to allow DSP subsystem access
+*/
+static enum Tfa98xx_Error tfa9878_dsp_system_stable(struct tfa_device *tfa, int *ready)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ /* check CLKS: ready if set */
+ *ready = tfa_get_bf(tfa, TFA9878_BF_CLKS) == 1;
+
+ return error;
+}
+
+static int tfa9878_get_mtpb(struct tfa_device *tfa) {
+
+ int value;
+ value = tfa_get_bf(tfa, TFA9878_BF_MTPB);
+ return value;
+}
+
+void tfa9878_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9878_specific;
+ ops->set_swprof = tfa9878_set_swprofile;
+ ops->get_swprof = tfa9878_get_swprofile;
+ ops->set_swvstep = tfa9878_set_swvstep;
+ ops->get_swvstep = tfa9878_get_swvstep;
+ ops->dsp_system_stable = tfa9878_dsp_system_stable;
+ ops->faim_protect = tfa9878_faim_protect;
+ ops->get_mtpb = tfa9878_get_mtpb;
+ ops->set_mute = tfa_set_mute_nodsp;
+}
+/***********************************************************************************/
+/* TFA9888 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9888_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short value, xor;
+ int patch_version;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* Unlock keys to write settings */
+ error = reg_write(tfa, 0x0F, 0x5A6B);
+ error = reg_read(tfa, 0xFB, &value);
+ xor = value ^ 0x005A;
+ error = reg_write(tfa, 0xA0, xor);
+
+ /* Only N1C2 is supported */
+ /* ----- generated code start ----- */
+ /* --------- Version v1 ---------- */
+ if (tfa->rev == 0x2c88) {
+ reg_write(tfa, 0x00, 0x164d); //POR=0x064d
+ reg_write(tfa, 0x01, 0x828b); //POR=0x92cb
+ reg_write(tfa, 0x02, 0x1dc8); //POR=0x1828
+ reg_write(tfa, 0x0e, 0x0080); //POR=0x0000
+ reg_write(tfa, 0x20, 0x089e); //POR=0x0890
+ reg_write(tfa, 0x22, 0x543c); //POR=0x545c
+ reg_write(tfa, 0x23, 0x0006); //POR=0x0000
+ reg_write(tfa, 0x24, 0x0014); //POR=0x0000
+ reg_write(tfa, 0x25, 0x000a); //POR=0x0000
+ reg_write(tfa, 0x26, 0x0100); //POR=0x0000
+ reg_write(tfa, 0x28, 0x1000); //POR=0x0000
+ reg_write(tfa, 0x51, 0x0000); //POR=0x00c0
+ reg_write(tfa, 0x52, 0xfafe); //POR=0xbaf6
+ reg_write(tfa, 0x70, 0x3ee4); //POR=0x3ee6
+ reg_write(tfa, 0x71, 0x1074); //POR=0x3074
+ reg_write(tfa, 0x83, 0x0014); //POR=0x0013
+ /* ----- generated code end ----- */
+ }
+ else {
+ pr_info("Warning: Optimal settings not found for device with revid = 0x%x \n", tfa->rev);
+ }
+
+ patch_version = tfa_cnt_get_patch_version(tfa);
+ if (patch_version >= 0x060401)
+ tfa->partial_enable = 1;
+
+ return error;
+}
+
+static enum Tfa98xx_Error tfa9888_tfa_dsp_write_tables(struct tfa_device *tfa, int sample_rate)
+{
+ unsigned char buffer[15] = { 0 };
+ int size = 15 * sizeof(char);
+
+ /* Write the fractional delay in the hardware register 'cs_frac_delay' */
+ switch (sample_rate) {
+ case 0: /* 8kHz */
+ TFA_SET_BF(tfa, FRACTDEL, 40);
+ break;
+ case 1: /* 11.025KHz */
+ TFA_SET_BF(tfa, FRACTDEL, 38);
+ break;
+ case 2: /* 12kHz */
+ TFA_SET_BF(tfa, FRACTDEL, 37);
+ break;
+ case 3: /* 16kHz */
+ TFA_SET_BF(tfa, FRACTDEL, 59);
+ break;
+ case 4: /* 22.05KHz */
+ TFA_SET_BF(tfa, FRACTDEL, 56);
+ break;
+ case 5: /* 24kHz */
+ TFA_SET_BF(tfa, FRACTDEL, 56);
+ break;
+ case 6: /* 32kHz */
+ TFA_SET_BF(tfa, FRACTDEL, 52);
+ break;
+ case 7: /* 44.1kHz */
+ TFA_SET_BF(tfa, FRACTDEL, 48);
+ break;
+ case 8:
+ default:/* 48kHz */
+ TFA_SET_BF(tfa, FRACTDEL, 46);
+ break;
+ }
+
+ /* First copy the msg_id to the buffer */
+ buffer[0] = (uint8_t)0;
+ buffer[1] = (uint8_t)MODULE_FRAMEWORK + 128;
+ buffer[2] = (uint8_t)FW_PAR_ID_SET_SENSES_DELAY;
+
+ /* Required for all FS exept 8kHz (8kHz is all zero) */
+ if (sample_rate != 0) {
+ buffer[5] = 1; /* Vdelay_P */
+ buffer[8] = 0; /* Idelay_P */
+ buffer[11] = 1; /* Vdelay_S */
+ buffer[14] = 0; /* Idelay_S */
+ }
+
+ /* send SetSensesDelay msg */
+ return dsp_msg(tfa, size, (char *)buffer);
+}
+
+static enum Tfa98xx_Error tfa9888_auto_copy_mtp_to_iic(struct tfa_device *tfa)
+{
+ /* Set auto_copy_mtp_to_iic (bit 5 of A3) to 1. Workaround for 72 and 88 (see PLMA5290) */
+ return reg_write(tfa, 0xA3, 0x20);
+}
+
+static enum Tfa98xx_Error tfa9888_factory_trimmer(struct tfa_device *tfa)
+{
+ unsigned short currentValue, delta;
+ int result;
+
+ /* Factory trimming for the Boost converter */
+ /* check if there is a correction needed */
+ result = TFA_GET_BF(tfa, DCMCCAPI);
+ if (result) {
+ /* Get currentvalue of DCMCC and the Delta value */
+ currentValue = (unsigned short)TFA_GET_BF(tfa, DCMCC);
+ delta = (unsigned short)TFA_GET_BF(tfa, USERDEF);
+
+ /* check the sign bit (+/-) */
+ result = TFA_GET_BF(tfa, DCMCCSB);
+ if (result == 0) {
+ /* Do not exceed the maximum value of 15 */
+ if (currentValue + delta < 15) {
+ TFA_SET_BF_VOLATILE(tfa, DCMCC, currentValue + delta);
+ if (tfa->verbose)
+ pr_debug("Max coil current is set to: %d \n", currentValue + delta);
+ }
+ else {
+ TFA_SET_BF_VOLATILE(tfa, DCMCC, 15);
+ if (tfa->verbose)
+ pr_debug("Max coil current is set to: 15 \n");
+ }
+ }
+ else if (result == 1) {
+ /* Do not exceed the minimum value of 0 */
+ if (currentValue - delta > 0) {
+ TFA_SET_BF_VOLATILE(tfa, DCMCC, currentValue - delta);
+ if (tfa->verbose)
+ pr_debug("Max coil current is set to: %d \n", currentValue - delta);
+ }
+ else {
+ TFA_SET_BF_VOLATILE(tfa, DCMCC, 0);
+ if (tfa->verbose)
+ pr_debug("Max coil current is set to: 0 \n");
+ }
+ }
+ }
+
+ return Tfa98xx_Error_Ok;
+}
+
+static enum Tfa98xx_Error
+tfa9888_set_mute(struct tfa_device *tfa, int mute)
+{
+ TFA_SET_BF(tfa, CFSMR, (const uint16_t)mute);
+ TFA_SET_BF(tfa, CFSML, (const uint16_t)mute);
+
+ return Tfa98xx_Error_Ok;
+}
+
+void tfa9888_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9888_specific;
+ ops->dsp_write_tables = tfa9888_tfa_dsp_write_tables;
+ ops->auto_copy_mtp_to_iic = tfa9888_auto_copy_mtp_to_iic;
+ ops->factory_trimmer = tfa9888_factory_trimmer;
+ ops->set_mute = tfa9888_set_mute;
+}
+
+/***********************************************************************************/
+/* TFA9896 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9896_faim_protect(struct tfa_device *tfa, int status)
+{
+ enum Tfa98xx_Error ret = Tfa98xx_Error_Ok;
+
+ if ((tfa->rev == 0x2b96) || (tfa->rev == 0x3b96)) {
+ ret = tfa_set_bf_volatile(tfa, TFA9896_BF_OPENMTP, (uint16_t)status);
+ }
+
+ return ret;
+}
+
+/***********************************************************************************/
+/* TFA9896 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9896_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short check_value;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* all i2C registers must already set to default POR value */
+
+ /* $48:[3] - 1 ==> 0; iddqtestbst - default value changed.
+ * When Iddqtestbst is set to "0", the slewrate is reduced.
+ * This will lower the overshoot on IN-B to avoid NMOS damage of booster.
+ */
+ if (tfa->rev == 0x1b96) {
+ /* ----- generated code start v17 ----- */
+ reg_write(tfa, 0x06, 0x000b); //POR=0x0001
+ reg_write(tfa, 0x07, 0x3e7f); //POR=0x1e7f
+ reg_write(tfa, 0x0a, 0x0d8a); //POR=0x0592
+ reg_write(tfa, 0x48, 0x0300); //POR=0x0308
+ reg_write(tfa, 0x88, 0x0100); //POR=0x0000
+ /* ----- generated code end ----- */
+ }
+ else if (tfa->rev == 0x2b96) {
+ /* ----- generated code start ----- v1*/
+ reg_write(tfa, 0x06, 0x000b); //POR=0x0001
+ reg_write(tfa, 0x07, 0x3e7f); //POR=0x1e7f
+ reg_write(tfa, 0x0a, 0x0d8a); //POR=0x0592
+ reg_write(tfa, 0x48, 0x0300); //POR=0x0308
+ reg_write(tfa, 0x88, 0x0100); //POR=0x0000
+ /* ----- generated code end ----- */
+ }
+ else if (tfa->rev == 0x3b96) {
+ /* ----- generated code start ----- v1*/
+ reg_write(tfa, 0x06, 0x000b); //POR=0x0001
+ reg_write(tfa, 0x07, 0x3e7f); //POR=0x1e7f
+ reg_write(tfa, 0x0a, 0x0d8a); //POR=0x0592
+ reg_write(tfa, 0x48, 0x0300); //POR=0x0308
+ reg_write(tfa, 0x88, 0x0100); //POR=0x0000
+ /* ----- generated code end ----- */
+ }
+ /* $49:[0] - 1 ==> 0; CLIP - default value changed. 0 means CLIPPER on */
+ error = reg_read(tfa, 0x49, &check_value);
+ check_value &= ~0x1;
+ error = reg_write(tfa, 0x49, check_value);
+ return error;
+}
+
+/*
+* the int24 values for the vsfw delay table
+*/
+static unsigned char tfa9896_vsfwdelay_table[] = {
+ 0,0,2, /* Index 0 - Current/Volt Fractional Delay for 8KHz */
+ 0,0,0, /* Index 1 - Current/Volt Fractional Delay for 11KHz */
+ 0,0,0, /* Index 2 - Current/Volt Fractional Delay for 12KHz */
+ 0,0,2, /* Index 3 - Current/Volt Fractional Delay for 16KHz */
+ 0,0,2, /* Index 4 - Current/Volt Fractional Delay for 22KHz */
+ 0,0,2, /* Index 5 - Current/Volt Fractional Delay for 24KHz */
+ 0,0,2, /* Index 6 - Current/Volt Fractional Delay for 32KHz */
+ 0,0,2, /* Index 7 - Current/Volt Fractional Delay for 44KHz */
+ 0,0,3 /* Index 8 - Current/Volt Fractional Delay for 48KHz */
+};
+
+/*
+* TODO make this tfa98xx
+* Note that the former products write this table via the patch
+* so moving this to the tfa98xx API requires also updating all patches
+*/
+static enum Tfa98xx_Error tfa9896_dsp_write_vsfwdelay_table(struct tfa_device *tfa)
+{
+ return tfa_dsp_cmd_id_write(tfa, MODULE_FRAMEWORK, TFA1_FW_PAR_ID_SET_CURRENT_DELAY, sizeof(tfa9896_vsfwdelay_table), tfa9896_vsfwdelay_table);
+}
+
+/*
+* The int24 values for the fracdelay table
+* For now applicable only for 8 and 48 kHz
+*/
+static unsigned char tfa9896_cvfracdelay_table[] = {
+ 0,0,51, /* Index 0 - Current/Volt Fractional Delay for 8KHz */
+ 0,0, 0, /* Index 1 - Current/Volt Fractional Delay for 11KHz */
+ 0,0, 0, /* Index 2 - Current/Volt Fractional Delay for 12KHz */
+ 0,0,38, /* Index 3 - Current/Volt Fractional Delay for 16KHz */
+ 0,0,34, /* Index 4 - Current/Volt Fractional Delay for 22KHz */
+ 0,0,33, /* Index 5 - Current/Volt Fractional Delay for 24KHz */
+ 0,0,11, /* Index 6 - Current/Volt Fractional Delay for 32KHz */
+ 0,0,2, /* Index 7 - Current/Volt Fractional Delay for 44KHz */
+ 0,0,62 /* Index 8 - Current/Volt Fractional Delay for 48KHz */
+};
+
+static enum Tfa98xx_Error tfa9896_dsp_write_cvfracdelay_table(struct tfa_device *tfa)
+{
+ return tfa_dsp_cmd_id_write(tfa, MODULE_FRAMEWORK, TFA1_FW_PAR_ID_SET_CURFRAC_DELAY, sizeof(tfa9896_cvfracdelay_table), tfa9896_cvfracdelay_table);;
+}
+
+static enum Tfa98xx_Error tfa9896_tfa_dsp_write_tables(struct tfa_device *tfa, int sample_rate)
+{
+ enum Tfa98xx_Error error;
+
+ /* Not used for max1! */
+ (void)sample_rate;
+
+ error = tfa9896_dsp_write_vsfwdelay_table(tfa);
+ if (error == Tfa98xx_Error_Ok) {
+ error = tfa9896_dsp_write_cvfracdelay_table(tfa);
+ }
+
+ return error;
+}
+
+void tfa9896_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9896_specific;
+ ops->dsp_write_tables = tfa9896_tfa_dsp_write_tables;
+ ops->faim_protect = tfa9896_faim_protect;
+}
+
+/***********************************************************************************/
+/* TFA9897 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9897_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short check_value;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* all i2C registers must already set to default POR value */
+
+ /* $48:[3] - 1 ==> 0; iddqtestbst - default value changed.
+ * When Iddqtestbst is set to "0", the slewrate is reduced.
+ * This will lower the overshoot on IN-B to avoid NMOS damage of booster */
+ error = reg_write(tfa, 0x48, 0x0300); /* POR value = 0x308 */
+
+ /* $49:[0] - 1 ==> 0; CLIP - default value changed. 0 means CLIPPER on */
+ error = reg_read(tfa, 0x49, &check_value);
+ check_value &= ~0x1;
+ error = reg_write(tfa, 0x49, check_value);
+
+ return error;
+}
+
+/*
+* the int24 values for the vsfw delay table
+*/
+static unsigned char tfa9897_vsfwdelay_table[] = {
+ 0,0,2, /* Index 0 - Current/Volt Fractional Delay for 8KHz */
+ 0,0,0, /* Index 1 - Current/Volt Fractional Delay for 11KHz */
+ 0,0,0, /* Index 2 - Current/Volt Fractional Delay for 12KHz */
+ 0,0,2, /* Index 3 - Current/Volt Fractional Delay for 16KHz */
+ 0,0,2, /* Index 4 - Current/Volt Fractional Delay for 22KHz */
+ 0,0,2, /* Index 5 - Current/Volt Fractional Delay for 24KHz */
+ 0,0,2, /* Index 6 - Current/Volt Fractional Delay for 32KHz */
+ 0,0,2, /* Index 7 - Current/Volt Fractional Delay for 44KHz */
+ 0,0,3 /* Index 8 - Current/Volt Fractional Delay for 48KHz */
+};
+
+/*
+* TODO make this tfa98xx
+* Note that the former products write this table via the patch
+* so moving this to the tfa98xx API requires also updating all patches
+*/
+static enum Tfa98xx_Error tfa9897_dsp_write_vsfwdelay_table(struct tfa_device *tfa)
+{
+ return tfa_dsp_cmd_id_write(tfa, MODULE_FRAMEWORK, TFA1_FW_PAR_ID_SET_CURRENT_DELAY, sizeof(tfa9897_vsfwdelay_table), tfa9897_vsfwdelay_table);;
+}
+
+/*
+* The int24 values for the fracdelay table
+* For now applicable only for 8 and 48 kHz
+*/
+static unsigned char tfa9897_cvfracdelay_table[] = {
+ 0,0,51, /* Index 0 - Current/Volt Fractional Delay for 8KHz */
+ 0,0, 0, /* Index 1 - Current/Volt Fractional Delay for 11KHz */
+ 0,0, 0, /* Index 2 - Current/Volt Fractional Delay for 12KHz */
+ 0,0,38, /* Index 3 - Current/Volt Fractional Delay for 16KHz */
+ 0,0,34, /* Index 4 - Current/Volt Fractional Delay for 22KHz */
+ 0,0,33, /* Index 5 - Current/Volt Fractional Delay for 24KHz */
+ 0,0,11, /* Index 6 - Current/Volt Fractional Delay for 32KHz */
+ 0,0,2, /* Index 7 - Current/Volt Fractional Delay for 44KHz */
+ 0,0,62 /* Index 8 - Current/Volt Fractional Delay for 48KHz */
+};
+
+static enum Tfa98xx_Error tfa9897_dsp_write_cvfracdelay_table(struct tfa_device *tfa)
+{
+ return tfa_dsp_cmd_id_write(tfa, MODULE_FRAMEWORK, TFA1_FW_PAR_ID_SET_CURFRAC_DELAY, sizeof(tfa9897_cvfracdelay_table), tfa9897_cvfracdelay_table);;
+}
+
+static enum Tfa98xx_Error tfa9897_tfa_dsp_write_tables(struct tfa_device *tfa, int sample_rate)
+{
+ enum Tfa98xx_Error error;
+
+ /* Not used for max1! */
+ (void)sample_rate;
+
+ error = tfa9897_dsp_write_vsfwdelay_table(tfa);
+ if (error == Tfa98xx_Error_Ok) {
+ error = tfa9897_dsp_write_cvfracdelay_table(tfa);
+ }
+
+ return error;
+}
+
+void tfa9897_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9897_specific;
+ ops->dsp_write_tables = tfa9897_tfa_dsp_write_tables;
+}
+
+/***********************************************************************************/
+/* TFA9895 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9895_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ int result;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* all i2C registers are already set to default */
+
+ result = TFA_SET_BF(tfa, AMPE, 1);
+ if (result < 0)
+ return -result;
+
+ /* some other registers must be set for optimal amplifier behaviour */
+ reg_write(tfa, 0x05, 0x13AB);
+ reg_write(tfa, 0x06, 0x001F);
+ /* peak voltage protection is always on, but may be written */
+ reg_write(tfa, 0x08, 0x3C4E);
+ /*TFA98XX_SYSCTRL_DCA=0*/
+ reg_write(tfa, 0x09, 0x024D);
+ reg_write(tfa, 0x41, 0x0308);
+ error = reg_write(tfa, 0x49, 0x0E82);
+
+ return error;
+}
+
+void tfa9895_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9895_specific;
+}
+
+/***********************************************************************************/
+/* TFA9891 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9891_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* ----- generated code start ----- */
+ /* ----- version 18.0 ----- */
+ reg_write(tfa, 0x09, 0x025d); //POR=0x024d
+ reg_write(tfa, 0x10, 0x0018); //POR=0x0024
+ reg_write(tfa, 0x22, 0x0003); //POR=0x0023
+ reg_write(tfa, 0x25, 0x0001); //POR=0x0000
+ reg_write(tfa, 0x46, 0x0000); //POR=0x4000
+ reg_write(tfa, 0x55, 0x3ffb); //POR=0x7fff
+ /* ----- generated code end ----- */
+
+ return error;
+}
+
+void tfa9891_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9891_specific;
+}
+
+/***********************************************************************************/
+/* TFA9890 */
+/***********************************************************************************/
+static enum Tfa98xx_Error tfa9890_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short regRead = 0;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+
+ /* all i2C registers are already set to default for N1C2 */
+
+ /* some PLL registers must be set optimal for amplifier behaviour */
+ error = reg_write(tfa, 0x40, 0x5a6b);
+ if (error)
+ return error;
+ reg_read(tfa, 0x59, ®Read);
+ regRead |= 0x3;
+ reg_write(tfa, 0x59, regRead);
+ error = reg_write(tfa, 0x40, 0x0000);
+ error = reg_write(tfa, 0x47, 0x7BE1);
+
+ return error;
+}
+
+/*
+* Disable clock gating
+*/
+static enum Tfa98xx_Error tfa9890_clockgating(struct tfa_device *tfa, int on)
+{
+ enum Tfa98xx_Error error;
+ unsigned short value;
+
+ /* for TFA9890 temporarily disable clock gating when dsp reset is used */
+ error = reg_read(tfa, TFA98XX_CURRENTSENSE4, &value);
+ if (error) return error;
+
+ if (Tfa98xx_Error_Ok == error) {
+ if (on) /* clock gating on - clear the bit */
+ value &= ~TFA98XX_CURRENTSENSE4_CTRL_CLKGATECFOFF;
+ else /* clock gating off - set the bit */
+ value |= TFA98XX_CURRENTSENSE4_CTRL_CLKGATECFOFF;
+
+ error = reg_write(tfa, TFA98XX_CURRENTSENSE4, value);
+ }
+
+ return error;
+}
+
+/*
+* Tfa9890_DspReset will deal with clock gating control in order
+* to reset the DSP for warm state restart
+*/
+static enum Tfa98xx_Error tfa9890_dsp_reset(struct tfa_device *tfa, int state)
+{
+ enum Tfa98xx_Error error;
+
+ /* for TFA9890 temporarily disable clock gating
+ when dsp reset is used */
+ tfa9890_clockgating(tfa, 0);
+
+ TFA_SET_BF(tfa, RST, (uint16_t)state);
+
+ /* clock gating restore */
+ error = tfa9890_clockgating(tfa, 1);
+
+ return error;
+}
+
+/*
+ * Tfa9890_DspSystemStable will compensate for the wrong behavior of CLKS
+ * to determine if the DSP subsystem is ready for patch and config loading.
+ *
+ * A MTP calibration register is checked for non-zero.
+ *
+ * Note: This only works after i2c reset as this will clear the MTP contents.
+ * When we are configured then the DSP communication will synchronize access.
+ *
+ */
+static enum Tfa98xx_Error tfa9890_dsp_system_stable(struct tfa_device *tfa, int *ready)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short status, mtp0;
+ int result, tries;
+
+ /* check the contents of the STATUS register */
+ result = TFA_READ_REG(tfa, AREFS);
+ if (result < 0) {
+ error = -result;
+ goto errorExit;
+ }
+ status = (unsigned short)result;
+
+ /* if AMPS is set then we were already configured and running
+ * no need to check further
+ */
+ *ready = (TFA_GET_BF_VALUE(tfa, AMPS, status) == 1);
+ if (*ready) /* if ready go back */
+ return error; /* will be Tfa98xx_Error_Ok */
+
+ /* check AREFS and CLKS: not ready if either is clear */
+ *ready = !((TFA_GET_BF_VALUE(tfa, AREFS, status) == 0)
+ || (TFA_GET_BF_VALUE(tfa, CLKS, status) == 0));
+ if (!*ready) /* if not ready go back */
+ return error; /* will be Tfa98xx_Error_Ok */
+
+ /* check MTPB
+ * mtpbusy will be active when the subsys copies MTP to I2C
+ * 2 times retry avoids catching this short mtpbusy active period
+ */
+ for (tries = 2; tries > 0; tries--) {
+ result = TFA_GET_BF(tfa, MTPB);/*TODO_MTPB*/
+ if (result < 0) {
+ error = -result;
+ goto errorExit;
+ }
+ status = (unsigned short)result;
+
+ /* check the contents of the STATUS register */
+ *ready = (result == 0);
+ if (*ready) /* if ready go on */
+ break;
+ }
+ if (tries == 0) /* ready will be 0 if retries exausted */
+ return Tfa98xx_Error_Ok;
+
+ /* check the contents of MTP register for non-zero,
+ * this indicates that the subsys is ready */
+
+ error = reg_read(tfa, 0x84, &mtp0);
+ if (error)
+ goto errorExit;
+
+ *ready = (mtp0 != 0); /* The MTP register written? */
+
+ return error;
+
+errorExit:
+ *ready = 0;
+ return error;
+}
+
+void tfa9890_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9890_specific;
+ ops->dsp_reset = tfa9890_dsp_reset;
+ ops->dsp_system_stable = tfa9890_dsp_system_stable;
+}
+
+/***********************************************************************************/
+/* TFA9894 */
+/***********************************************************************************/
+static int tfa9894_set_swprofile(struct tfa_device *tfa, unsigned short new_value)
+{
+ int active_value = tfa_dev_get_swprof(tfa);
+
+ /* Set the new value in the struct */
+ tfa->profile = new_value - 1;
+ tfa_set_bf_volatile(tfa, TFA9894_BF_SWPROFIL, new_value);
+ return active_value;
+}
+
+static int tfa9894_get_swprofile(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9894_BF_SWPROFIL) - 1;
+}
+
+static int tfa9894_set_swvstep(struct tfa_device *tfa, unsigned short new_value)
+{
+ /* Set the new value in the struct */
+ tfa->vstep = new_value - 1;
+ tfa_set_bf_volatile(tfa, TFA9894_BF_SWVSTEP, new_value);
+ return new_value;
+}
+
+static int tfa9894_get_swvstep(struct tfa_device *tfa)
+{
+ return tfa_get_bf(tfa, TFA9894_BF_SWVSTEP) - 1;
+}
+
+static int tfa9894_get_mtpb(struct tfa_device *tfa)
+{
+ int value = 0;
+ value = tfa_get_bf(tfa, TFA9894_BF_MTPB);
+ return value;
+}
+
+/** Set internal oscillator into power down mode for TFA9894.
+*
+* This function is a worker for tfa98xx_set_osc_powerdown().
+*
+* @param[in] tfa device description structure
+* @param[in] state new state 0 - oscillator is on, 1 oscillator is off.
+*
+* @return Tfa98xx_Error_Ok when successfull, error otherwise.
+*/
+static enum Tfa98xx_Error tfa9894_set_osc_powerdown(struct tfa_device *tfa, int state)
+{
+ if (state == 1 || state == 0) {
+ return -tfa_set_bf(tfa, TFA9894_BF_MANAOOSC, (uint16_t)state);
+ }
+
+ return Tfa98xx_Error_Bad_Parameter;
+}
+
+static enum Tfa98xx_Error tfa9894_faim_protect(struct tfa_device *tfa, int status)
+{
+ enum Tfa98xx_Error ret = Tfa98xx_Error_Ok;
+ /* 0b = FAIM protection enabled 1b = FAIM protection disabled*/
+ ret = tfa_set_bf_volatile(tfa, TFA9894_BF_OPENMTP, (uint16_t)(status));
+ return ret;
+}
+
+static enum Tfa98xx_Error tfa9894_specific(struct tfa_device *tfa)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+ unsigned short value, xor;
+
+ if (tfa->in_use == 0)
+ return Tfa98xx_Error_NotOpen;
+ if (tfa->verbose)
+ if (is_94_N2_device(tfa))
+ pr_debug("check_correct\n");
+ /* Unlock keys to write settings */
+ error = reg_write(tfa, 0x0F, 0x5A6B);
+ error = reg_read(tfa, 0xFB, &value);
+ xor = value ^ 0x005A;
+ error = reg_write(tfa, 0xA0, xor);
+ pr_debug("Device REFID:%x\n", tfa->rev);
+ /* The optimal settings */
+ if (tfa->rev == 0x0a94) {
+ /* V36 */
+ /* ----- generated code start ----- */
+ reg_write(tfa, 0x00, 0xa245); //POR=0x8245
+ reg_write(tfa, 0x02, 0x51e8); //POR=0x55c8
+ reg_write(tfa, 0x52, 0xbe17); //POR=0xb617
+ reg_write(tfa, 0x57, 0x0344); //POR=0x0366
+ reg_write(tfa, 0x61, 0x0033); //POR=0x0073
+ reg_write(tfa, 0x71, 0x00cf); //POR=0x018d
+ reg_write(tfa, 0x72, 0x34a9); //POR=0x44e8
+ reg_write(tfa, 0x73, 0x3808); //POR=0x3806
+ reg_write(tfa, 0x76, 0x0067); //POR=0x0065
+ reg_write(tfa, 0x80, 0x0000); //POR=0x0003
+ reg_write(tfa, 0x81, 0x5715); //POR=0x561a
+ reg_write(tfa, 0x82, 0x0104); //POR=0x0044
+ /* ----- generated code end ----- */
+ }
+ else if (tfa->rev == 0x1a94) {
+ /* V17 */
+ /* ----- generated code start ----- */
+ reg_write(tfa, 0x00, 0xa245); //POR=0x8245
+ reg_write(tfa, 0x01, 0x15da); //POR=0x11ca
+ reg_write(tfa, 0x02, 0x5288); //POR=0x55c8
+ reg_write(tfa, 0x52, 0xbe17); //POR=0xb617
+ reg_write(tfa, 0x53, 0x0dbe); //POR=0x0d9e
+ reg_write(tfa, 0x56, 0x05c3); //POR=0x07c3
+ reg_write(tfa, 0x57, 0x0344); //POR=0x0366
+ reg_write(tfa, 0x61, 0x0032); //POR=0x0073
+ reg_write(tfa, 0x71, 0x00cf); //POR=0x018d
+ reg_write(tfa, 0x72, 0x34a9); //POR=0x44e8
+ reg_write(tfa, 0x73, 0x38c8); //POR=0x3806
+ reg_write(tfa, 0x76, 0x0067); //POR=0x0065
+ reg_write(tfa, 0x80, 0x0000); //POR=0x0003
+ reg_write(tfa, 0x81, 0x5799); //POR=0x561a
+ reg_write(tfa, 0x82, 0x0104); //POR=0x0044
+ /* ----- generated code end ----- */
+
+ }
+ else if (tfa->rev == 0x2a94 || tfa->rev == 0x3a94) {
+ /* ----- generated code start ----- */
+ /* ----- version 25.00 ----- */
+ reg_write(tfa, 0x01, 0x15da); //POR=0x11ca
+ reg_write(tfa, 0x02, 0x51e8); //POR=0x55c8
+ reg_write(tfa, 0x04, 0x0200); //POR=0x0000
+ reg_write(tfa, 0x52, 0xbe17); //POR=0xb617
+ reg_write(tfa, 0x53, 0x0dbe); //POR=0x0d9e
+ reg_write(tfa, 0x57, 0x0344); //POR=0x0366
+ reg_write(tfa, 0x61, 0x0032); //POR=0x0073
+ reg_write(tfa, 0x71, 0x6ecf); //POR=0x6f8d
+ reg_write(tfa, 0x72, 0xb4a9); //POR=0x44e8
+ reg_write(tfa, 0x73, 0x38c8); //POR=0x3806
+ reg_write(tfa, 0x76, 0x0067); //POR=0x0065
+ reg_write(tfa, 0x80, 0x0000); //POR=0x0003
+ reg_write(tfa, 0x81, 0x5799); //POR=0x561a
+ reg_write(tfa, 0x82, 0x0104); //POR=0x0044
+ /* ----- generated code end ----- */
+ }
+ return error;
+}
+
+static enum Tfa98xx_Error
+tfa9894_set_mute(struct tfa_device *tfa, int mute)
+{
+ tfa_set_bf(tfa, TFA9894_BF_CFSM, (const uint16_t)mute);
+ return Tfa98xx_Error_Ok;
+}
+
+static enum Tfa98xx_Error tfa9894_dsp_system_stable(struct tfa_device *tfa, int *ready)
+{
+ enum Tfa98xx_Error error = Tfa98xx_Error_Ok;
+
+ /* check CLKS: ready if set */
+ *ready = tfa_get_bf(tfa, TFA9894_BF_CLKS) == 1;
+
+ return error;
+}
+
+void tfa9894_ops(struct tfa_device_ops *ops)
+{
+ /* Set defaults for ops */
+ set_ops_defaults(ops);
+
+ ops->tfa_init = tfa9894_specific;
+ ops->dsp_system_stable = tfa9894_dsp_system_stable;
+ ops->set_mute = tfa9894_set_mute;
+ ops->faim_protect = tfa9894_faim_protect;
+ ops->get_mtpb = tfa9894_get_mtpb;
+ ops->set_swprof = tfa9894_set_swprofile;
+ ops->get_swprof = tfa9894_get_swprofile;
+ ops->set_swvstep = tfa9894_set_swvstep;
+ ops->get_swvstep = tfa9894_get_swvstep;
+ //ops->auto_copy_mtp_to_iic = tfa9894_auto_copy_mtp_to_iic;
+ ops->set_osc_powerdown = tfa9894_set_osc_powerdown;
+}
diff --git a/src/tfa_internal.h b/src/tfa_internal.h
new file mode 100644
index 0000000..bdea9ea
--- /dev/null
+++ b/src/tfa_internal.h
@@ -0,0 +1,32 @@
+/*
+ * Copyright (C) 2014 NXP Semiconductors, All Rights Reserved.
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ *
+ */
+
+/*
+ internal functions for TFA layer (not shared with SRV and HAL layer!)
+*/
+
+#ifndef __TFA_INTERNAL_H__
+#define __TFA_INTERNAL_H__
+
+#include "tfa_dsp_fw.h"
+#include "tfa_ext.h"
+
+#if __GNUC__ >= 4
+ #define TFA_INTERNAL __attribute__ ((visibility ("hidden")))
+#else
+ #define TFA_INTERNAL
+#endif
+
+#define TFA98XX_GENERIC_SLAVE_ADDRESS 0x1C
+
+TFA_INTERNAL enum Tfa98xx_Error tfa98xx_check_rpc_status(struct tfa_device *tfa, int *pRpcStatus);
+TFA_INTERNAL enum Tfa98xx_Error tfa98xx_wait_result(struct tfa_device *tfa, int waitRetryCount);
+
+#endif /* __TFA_INTERNAL_H__ */
+