blob: e56b1823b93385e31d1954774124d7b8b02f2ac5 [file] [log] [blame]
/* Copyright (c) 2012-2013, 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.
*/
#include <linux/module.h>
#include <linux/init.h>
#include <linux/firmware.h>
#include <linux/slab.h>
#include <linux/platform_device.h>
#include <linux/device.h>
#include <linux/printk.h>
#include <linux/ratelimit.h>
#include <linux/debugfs.h>
#include <linux/mfd/wcd9xxx/core.h>
#include <linux/mfd/wcd9xxx/wcd9xxx_registers.h>
#include <linux/mfd/wcd9xxx/wcd9320_registers.h>
#include <linux/mfd/wcd9xxx/pdata.h>
#include <sound/pcm.h>
#include <sound/pcm_params.h>
#include <sound/soc.h>
#include <sound/soc-dapm.h>
#include <sound/tlv.h>
#include <linux/bitops.h>
#include <linux/delay.h>
#include <linux/pm_runtime.h>
#include <linux/kernel.h>
#include <linux/gpio.h>
#include "wcd9xxx-resmgr.h"
#include "msm8x10_wcd_registers.h"
static char wcd9xxx_event_string[][64] = {
"WCD9XXX_EVENT_INVALID",
"WCD9XXX_EVENT_PRE_RCO_ON",
"WCD9XXX_EVENT_POST_RCO_ON",
"WCD9XXX_EVENT_PRE_RCO_OFF",
"WCD9XXX_EVENT_POST_RCO_OFF",
"WCD9XXX_EVENT_PRE_MCLK_ON",
"WCD9XXX_EVENT_POST_MCLK_ON",
"WCD9XXX_EVENT_PRE_MCLK_OFF",
"WCD9XXX_EVENT_POST_MCLK_OFF",
"WCD9XXX_EVENT_PRE_BG_OFF",
"WCD9XXX_EVENT_POST_BG_OFF",
"WCD9XXX_EVENT_PRE_BG_AUDIO_ON",
"WCD9XXX_EVENT_POST_BG_AUDIO_ON",
"WCD9XXX_EVENT_PRE_BG_MBHC_ON",
"WCD9XXX_EVENT_POST_BG_MBHC_ON",
"WCD9XXX_EVENT_PRE_MICBIAS_1_OFF",
"WCD9XXX_EVENT_POST_MICBIAS_1_OFF",
"WCD9XXX_EVENT_PRE_MICBIAS_2_OFF",
"WCD9XXX_EVENT_POST_MICBIAS_2_OFF",
"WCD9XXX_EVENT_PRE_MICBIAS_3_OFF",
"WCD9XXX_EVENT_POST_MICBIAS_3_OFF",
"WCD9XXX_EVENT_PRE_MICBIAS_4_OFF",
"WCD9XXX_EVENT_POST_MICBIAS_4_OFF",
"WCD9XXX_EVENT_PRE_MICBIAS_1_ON",
"WCD9XXX_EVENT_POST_MICBIAS_1_ON",
"WCD9XXX_EVENT_PRE_MICBIAS_2_ON",
"WCD9XXX_EVENT_POST_MICBIAS_2_ON",
"WCD9XXX_EVENT_PRE_MICBIAS_3_ON",
"WCD9XXX_EVENT_POST_MICBIAS_3_ON",
"WCD9XXX_EVENT_PRE_MICBIAS_4_ON",
"WCD9XXX_EVENT_POST_MICBIAS_4_ON",
"WCD9XXX_EVENT_PRE_CFILT_1_OFF",
"WCD9XXX_EVENT_POST_CFILT_1_OFF",
"WCD9XXX_EVENT_PRE_CFILT_2_OFF",
"WCD9XXX_EVENT_POST_CFILT_2_OFF",
"WCD9XXX_EVENT_PRE_CFILT_3_OFF",
"WCD9XXX_EVENT_POST_CFILT_3_OFF",
"WCD9XXX_EVENT_PRE_CFILT_1_ON",
"WCD9XXX_EVENT_POST_CFILT_1_ON",
"WCD9XXX_EVENT_PRE_CFILT_2_ON",
"WCD9XXX_EVENT_POST_CFILT_2_ON",
"WCD9XXX_EVENT_PRE_CFILT_3_ON",
"WCD9XXX_EVENT_POST_CFILT_3_ON",
"WCD9XXX_EVENT_PRE_HPHL_PA_ON",
"WCD9XXX_EVENT_POST_HPHL_PA_OFF",
"WCD9XXX_EVENT_PRE_HPHR_PA_ON",
"WCD9XXX_EVENT_POST_HPHR_PA_OFF",
"WCD9XXX_EVENT_POST_RESUME",
"WCD9XXX_EVENT_PRE_TX_3_ON",
"WCD9XXX_EVENT_POST_TX_3_OFF",
"WCD9XXX_EVENT_LAST",
};
struct wcd9xxx_resmgr_cond_entry {
unsigned short reg;
int shift;
bool invert;
enum wcd9xxx_resmgr_cond cond;
struct list_head list;
};
static enum wcd9xxx_clock_type wcd9xxx_save_clock(struct wcd9xxx_resmgr
*resmgr);
static void wcd9xxx_restore_clock(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_clock_type type);
const char *wcd9xxx_get_event_string(enum wcd9xxx_notify_event type)
{
return wcd9xxx_event_string[type];
}
void wcd9xxx_resmgr_notifier_call(struct wcd9xxx_resmgr *resmgr,
const enum wcd9xxx_notify_event e)
{
pr_debug("%s: notifier call event %d\n", __func__, e);
blocking_notifier_call_chain(&resmgr->notifier, e, resmgr);
}
static void wcd9xxx_disable_bg(struct wcd9xxx_resmgr *resmgr)
{
/* Notify bg mode change */
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_PRE_BG_OFF);
/* Disable bg */
snd_soc_update_bits(resmgr->codec, WCD9XXX_A_BIAS_CENTRAL_BG_CTL,
0x03, 0x00);
usleep_range(100, 100);
/* Notify bg mode change */
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_POST_BG_OFF);
}
/*
* BG enablement should always enable in slow mode.
* The fast mode doesn't need to be enabled as fast mode BG is to be driven
* by MBHC override.
*/
static void wcd9xxx_enable_bg(struct wcd9xxx_resmgr *resmgr)
{
struct snd_soc_codec *codec = resmgr->codec;
/* Enable BG in slow mode and precharge */
snd_soc_update_bits(codec, WCD9XXX_A_BIAS_CENTRAL_BG_CTL, 0x80, 0x80);
snd_soc_update_bits(codec, WCD9XXX_A_BIAS_CENTRAL_BG_CTL, 0x04, 0x04);
snd_soc_update_bits(codec, WCD9XXX_A_BIAS_CENTRAL_BG_CTL, 0x01, 0x01);
usleep_range(1000, 1000);
snd_soc_update_bits(codec, WCD9XXX_A_BIAS_CENTRAL_BG_CTL, 0x80, 0x00);
}
static void wcd9xxx_enable_bg_audio(struct wcd9xxx_resmgr *resmgr)
{
/* Notify bandgap mode change */
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_PRE_BG_AUDIO_ON);
wcd9xxx_enable_bg(resmgr);
/* Notify bandgap mode change */
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_POST_BG_AUDIO_ON);
}
static void wcd9xxx_enable_bg_mbhc(struct wcd9xxx_resmgr *resmgr)
{
struct snd_soc_codec *codec = resmgr->codec;
/* Notify bandgap mode change */
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_PRE_BG_MBHC_ON);
/*
* mclk should be off or clk buff source souldn't be VBG
* Let's turn off mclk always
*/
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON)
WARN_ON(snd_soc_read(codec, WCD9XXX_A_CLK_BUFF_EN2) & (1 << 2));
wcd9xxx_enable_bg(resmgr);
/* Notify bandgap mode change */
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_POST_BG_MBHC_ON);
}
static void wcd9xxx_disable_clock_block(struct wcd9xxx_resmgr *resmgr)
{
struct snd_soc_codec *codec = resmgr->codec;
pr_debug("%s: enter\n", __func__);
WCD9XXX_BG_CLK_ASSERT_LOCKED(resmgr);
/* Notify */
if (resmgr->clk_type == WCD9XXX_CLK_RCO)
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_PRE_RCO_OFF);
else
wcd9xxx_resmgr_notifier_call(resmgr,
WCD9XXX_EVENT_PRE_MCLK_OFF);
/* Disable clock */
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON) {
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN2, 0x04, 0x00);
usleep_range(50, 50);
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN2, 0x02, 0x02);
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN1, 0x05, 0x00);
usleep_range(50, 50);
}
/* Notify */
if (resmgr->clk_type == WCD9XXX_CLK_RCO) {
wcd9xxx_resmgr_notifier_call(resmgr,
WCD9XXX_EVENT_POST_RCO_OFF);
} else {
if (resmgr->codec_type == WCD9XXX_CDC_TYPE_HELICON)
snd_soc_update_bits(codec,
MSM8X10_WCD_A_CDC_CLK_PDM_CTL, 0x03, 0x00);
wcd9xxx_resmgr_notifier_call(resmgr,
WCD9XXX_EVENT_POST_MCLK_OFF);
}
pr_debug("%s: leave\n", __func__);
}
void wcd9xxx_resmgr_post_ssr(struct wcd9xxx_resmgr *resmgr)
{
int old_bg_audio_users, old_bg_mbhc_users;
int old_clk_rco_users, old_clk_mclk_users;
pr_debug("%s: enter\n", __func__);
WCD9XXX_BG_CLK_LOCK(resmgr);
old_bg_audio_users = resmgr->bg_audio_users;
old_bg_mbhc_users = resmgr->bg_mbhc_users;
old_clk_rco_users = resmgr->clk_rco_users;
old_clk_mclk_users = resmgr->clk_mclk_users;
resmgr->bg_audio_users = 0;
resmgr->bg_mbhc_users = 0;
resmgr->bandgap_type = WCD9XXX_BANDGAP_OFF;
resmgr->clk_rco_users = 0;
resmgr->clk_mclk_users = 0;
resmgr->clk_type = WCD9XXX_CLK_OFF;
if (old_bg_audio_users) {
while (old_bg_audio_users--)
wcd9xxx_resmgr_get_bandgap(resmgr,
WCD9XXX_BANDGAP_AUDIO_MODE);
}
if (old_bg_mbhc_users) {
while (old_bg_mbhc_users--)
wcd9xxx_resmgr_get_bandgap(resmgr,
WCD9XXX_BANDGAP_MBHC_MODE);
}
if (old_clk_mclk_users) {
while (old_clk_mclk_users--)
wcd9xxx_resmgr_get_clk_block(resmgr, WCD9XXX_CLK_MCLK);
}
if (old_clk_rco_users) {
while (old_clk_rco_users--)
wcd9xxx_resmgr_get_clk_block(resmgr, WCD9XXX_CLK_RCO);
}
WCD9XXX_BG_CLK_UNLOCK(resmgr);
pr_debug("%s: leave\n", __func__);
}
/*
* wcd9xxx_resmgr_get_bandgap : Vote for bandgap ref
* choice : WCD9XXX_BANDGAP_AUDIO_MODE, WCD9XXX_BANDGAP_MBHC_MODE
*/
void wcd9xxx_resmgr_get_bandgap(struct wcd9xxx_resmgr *resmgr,
const enum wcd9xxx_bandgap_type choice)
{
enum wcd9xxx_clock_type clock_save;
pr_debug("%s: enter, wants %d\n", __func__, choice);
WCD9XXX_BG_CLK_ASSERT_LOCKED(resmgr);
switch (choice) {
case WCD9XXX_BANDGAP_AUDIO_MODE:
resmgr->bg_audio_users++;
if (resmgr->bg_audio_users == 1 && resmgr->bg_mbhc_users) {
/*
* Current bg is MBHC mode, about to switch to
* audio mode.
*/
WARN_ON(resmgr->bandgap_type !=
WCD9XXX_BANDGAP_MBHC_MODE);
/* BG mode can be changed only with clock off */
clock_save = wcd9xxx_save_clock(resmgr);
/* Swtich BG mode */
wcd9xxx_disable_bg(resmgr);
wcd9xxx_enable_bg_audio(resmgr);
/* restore clock */
wcd9xxx_restore_clock(resmgr, clock_save);
} else if (resmgr->bg_audio_users == 1) {
/* currently off, just enable it */
WARN_ON(resmgr->bandgap_type != WCD9XXX_BANDGAP_OFF);
wcd9xxx_enable_bg_audio(resmgr);
}
resmgr->bandgap_type = WCD9XXX_BANDGAP_AUDIO_MODE;
break;
case WCD9XXX_BANDGAP_MBHC_MODE:
resmgr->bg_mbhc_users++;
if (resmgr->bandgap_type == WCD9XXX_BANDGAP_MBHC_MODE ||
resmgr->bandgap_type == WCD9XXX_BANDGAP_AUDIO_MODE)
/* do nothing */
break;
/* bg mode can be changed only with clock off */
clock_save = wcd9xxx_save_clock(resmgr);
/* enable bg with MBHC mode */
wcd9xxx_enable_bg_mbhc(resmgr);
/* restore clock */
wcd9xxx_restore_clock(resmgr, clock_save);
/* save current mode */
resmgr->bandgap_type = WCD9XXX_BANDGAP_MBHC_MODE;
break;
default:
pr_err("%s: Error, Invalid bandgap settings\n", __func__);
break;
}
pr_debug("%s: bg users audio %d, mbhc %d\n", __func__,
resmgr->bg_audio_users, resmgr->bg_mbhc_users);
}
/*
* wcd9xxx_resmgr_put_bandgap : Unvote bandgap ref that has been voted
* choice : WCD9XXX_BANDGAP_AUDIO_MODE, WCD9XXX_BANDGAP_MBHC_MODE
*/
void wcd9xxx_resmgr_put_bandgap(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_bandgap_type choice)
{
enum wcd9xxx_clock_type clock_save;
pr_debug("%s: enter choice %d\n", __func__, choice);
WCD9XXX_BG_CLK_ASSERT_LOCKED(resmgr);
switch (choice) {
case WCD9XXX_BANDGAP_AUDIO_MODE:
if (--resmgr->bg_audio_users == 0) {
if (resmgr->bg_mbhc_users) {
/* bg mode can be changed only with clock off */
clock_save = wcd9xxx_save_clock(resmgr);
/* switch to MBHC mode */
wcd9xxx_enable_bg_mbhc(resmgr);
/* restore clock */
wcd9xxx_restore_clock(resmgr, clock_save);
resmgr->bandgap_type =
WCD9XXX_BANDGAP_MBHC_MODE;
} else {
/* turn off */
wcd9xxx_disable_bg(resmgr);
resmgr->bandgap_type = WCD9XXX_BANDGAP_OFF;
}
}
break;
case WCD9XXX_BANDGAP_MBHC_MODE:
WARN(resmgr->bandgap_type == WCD9XXX_BANDGAP_OFF,
"Unexpected bandgap type %d\n", resmgr->bandgap_type);
if (--resmgr->bg_mbhc_users == 0 &&
resmgr->bandgap_type == WCD9XXX_BANDGAP_MBHC_MODE) {
wcd9xxx_disable_bg(resmgr);
resmgr->bandgap_type = WCD9XXX_BANDGAP_OFF;
}
break;
default:
pr_err("%s: Error, Invalid bandgap settings\n", __func__);
break;
}
pr_debug("%s: bg users audio %d, mbhc %d\n", __func__,
resmgr->bg_audio_users, resmgr->bg_mbhc_users);
}
void wcd9xxx_resmgr_enable_rx_bias(struct wcd9xxx_resmgr *resmgr, u32 enable)
{
struct snd_soc_codec *codec = resmgr->codec;
if (enable) {
resmgr->rx_bias_count++;
if (resmgr->rx_bias_count == 1)
snd_soc_update_bits(codec, WCD9XXX_A_RX_COM_BIAS,
0x80, 0x80);
} else {
resmgr->rx_bias_count--;
if (!resmgr->rx_bias_count)
snd_soc_update_bits(codec, WCD9XXX_A_RX_COM_BIAS,
0x80, 0x00);
}
}
int wcd9xxx_resmgr_enable_config_mode(struct wcd9xxx_resmgr *resmgr, int enable)
{
struct snd_soc_codec *codec = resmgr->codec;
pr_debug("%s: enable = %d\n", __func__, enable);
if (enable) {
snd_soc_update_bits(codec, WCD9XXX_A_RC_OSC_FREQ, 0x10, 0);
/* bandgap mode to fast */
snd_soc_write(codec, WCD9XXX_A_BIAS_OSC_BG_CTL, 0x17);
usleep_range(5, 5);
snd_soc_update_bits(codec, WCD9XXX_A_RC_OSC_FREQ, 0x80, 0x80);
snd_soc_update_bits(codec, WCD9XXX_A_RC_OSC_TEST, 0x80, 0x80);
usleep_range(10, 10);
snd_soc_update_bits(codec, WCD9XXX_A_RC_OSC_TEST, 0x80, 0);
usleep_range(10000, 10000);
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON)
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN1,
0x08, 0x08);
else
snd_soc_update_bits(codec,
MSM8X10_WCD_A_CDC_TOP_CLK_CTL,
0x20, 0x20);
} else {
snd_soc_update_bits(codec, WCD9XXX_A_BIAS_OSC_BG_CTL, 0x1, 0);
snd_soc_update_bits(codec, WCD9XXX_A_RC_OSC_FREQ, 0x80, 0);
if (resmgr->codec_type == WCD9XXX_CDC_TYPE_HELICON)
snd_soc_update_bits(codec,
MSM8X10_WCD_A_CDC_TOP_CLK_CTL,
0x20, 0x00);
}
return 0;
}
static void wcd9xxx_enable_clock_block(struct wcd9xxx_resmgr *resmgr,
int config_mode)
{
struct snd_soc_codec *codec = resmgr->codec;
pr_debug("%s: config_mode = %d\n", __func__, config_mode);
/* transit to RCO requires mclk off */
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON)
WARN_ON(snd_soc_read(codec, WCD9XXX_A_CLK_BUFF_EN2) & (1 << 2));
if (config_mode) {
/* Notify */
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_PRE_RCO_ON);
/* enable RCO and switch to it */
wcd9xxx_resmgr_enable_config_mode(resmgr, 1);
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON)
snd_soc_write(codec, WCD9XXX_A_CLK_BUFF_EN2, 0x02);
usleep_range(1000, 1000);
} else {
/* Notify */
wcd9xxx_resmgr_notifier_call(resmgr, WCD9XXX_EVENT_PRE_MCLK_ON);
/* switch to MCLK */
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON) {
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN1,
0x08, 0x00);
} else {
snd_soc_update_bits(codec,
MSM8X10_WCD_A_CDC_CLK_PDM_CTL,
0x03, 0x03);
snd_soc_update_bits(codec,
MSM8X10_WCD_A_CDC_TOP_CLK_CTL,
0x0f, 0x0d);
}
/* if RCO is enabled, switch from it */
if (snd_soc_read(codec, WCD9XXX_A_RC_OSC_FREQ) & 0x80) {
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON)
snd_soc_write(codec, WCD9XXX_A_CLK_BUFF_EN2,
0x02);
wcd9xxx_resmgr_enable_config_mode(resmgr, 0);
}
/* clk source to ext clk and clk buff ref to VBG */
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON)
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN1,
0x0C, 0x04);
}
if (resmgr->codec_type != WCD9XXX_CDC_TYPE_HELICON) {
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN1, 0x01, 0x01);
/* sleep required by codec hardware to enable clock buffer */
usleep_range(1000, 1200);
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN2, 0x02, 0x00);
/* on MCLK */
snd_soc_update_bits(codec, WCD9XXX_A_CLK_BUFF_EN2, 0x04, 0x04);
snd_soc_update_bits(codec, WCD9XXX_A_CDC_CLK_MCLK_CTL,
0x01, 0x01);
} else {
snd_soc_update_bits(codec, MSM8X10_WCD_A_CDC_CLK_MCLK_CTL,
0x01, 0x01);
}
usleep_range(50, 50);
/* Notify */
if (config_mode)
wcd9xxx_resmgr_notifier_call(resmgr,
WCD9XXX_EVENT_POST_RCO_ON);
else
wcd9xxx_resmgr_notifier_call(resmgr,
WCD9XXX_EVENT_POST_MCLK_ON);
}
/*
* disable clock and return previous clock state
*/
static enum wcd9xxx_clock_type wcd9xxx_save_clock(struct wcd9xxx_resmgr *resmgr)
{
WCD9XXX_BG_CLK_ASSERT_LOCKED(resmgr);
if (resmgr->clk_type != WCD9XXX_CLK_OFF)
wcd9xxx_disable_clock_block(resmgr);
return resmgr->clk_type != WCD9XXX_CLK_OFF;
}
static void wcd9xxx_restore_clock(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_clock_type type)
{
if (type != WCD9XXX_CLK_OFF)
wcd9xxx_enable_clock_block(resmgr, type == WCD9XXX_CLK_RCO);
}
void wcd9xxx_resmgr_get_clk_block(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_clock_type type)
{
pr_debug("%s: current %d, requested %d, rco_users %d, mclk_users %d\n",
__func__, resmgr->clk_type, type,
resmgr->clk_rco_users, resmgr->clk_mclk_users);
WCD9XXX_BG_CLK_ASSERT_LOCKED(resmgr);
switch (type) {
case WCD9XXX_CLK_RCO:
if (++resmgr->clk_rco_users == 1 &&
resmgr->clk_type == WCD9XXX_CLK_OFF) {
/* enable RCO and switch to it */
wcd9xxx_enable_clock_block(resmgr, 1);
resmgr->clk_type = WCD9XXX_CLK_RCO;
}
break;
case WCD9XXX_CLK_MCLK:
if (++resmgr->clk_mclk_users == 1 &&
resmgr->clk_type == WCD9XXX_CLK_OFF) {
/* switch to MCLK */
wcd9xxx_enable_clock_block(resmgr, 0);
resmgr->clk_type = WCD9XXX_CLK_MCLK;
} else if (resmgr->clk_mclk_users == 1 &&
resmgr->clk_type == WCD9XXX_CLK_RCO) {
/* if RCO is enabled, switch from it */
WARN_ON(!(snd_soc_read(resmgr->codec,
WCD9XXX_A_RC_OSC_FREQ) & 0x80));
/* disable clock block */
wcd9xxx_disable_clock_block(resmgr);
/* switch to MCLK */
wcd9xxx_enable_clock_block(resmgr, 0);
resmgr->clk_type = WCD9XXX_CLK_MCLK;
}
break;
default:
pr_err("%s: Error, Invalid clock get request %d\n", __func__,
type);
break;
}
pr_debug("%s: leave\n", __func__);
}
void wcd9xxx_resmgr_put_clk_block(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_clock_type type)
{
pr_debug("%s: current %d, put %d\n", __func__, resmgr->clk_type, type);
WCD9XXX_BG_CLK_ASSERT_LOCKED(resmgr);
switch (type) {
case WCD9XXX_CLK_RCO:
if (--resmgr->clk_rco_users == 0 &&
resmgr->clk_type == WCD9XXX_CLK_RCO) {
wcd9xxx_disable_clock_block(resmgr);
/* if RCO is enabled, switch from it */
if (snd_soc_read(resmgr->codec, WCD9XXX_A_RC_OSC_FREQ)
& 0x80) {
if (resmgr->codec_type !=
WCD9XXX_CDC_TYPE_HELICON)
snd_soc_write(resmgr->codec,
WCD9XXX_A_CLK_BUFF_EN2, 0x02);
wcd9xxx_resmgr_enable_config_mode(resmgr, 0);
}
resmgr->clk_type = WCD9XXX_CLK_OFF;
}
break;
case WCD9XXX_CLK_MCLK:
if (--resmgr->clk_mclk_users == 0 &&
resmgr->clk_rco_users == 0) {
wcd9xxx_disable_clock_block(resmgr);
resmgr->clk_type = WCD9XXX_CLK_OFF;
} else if (resmgr->clk_mclk_users == 0 &&
resmgr->clk_rco_users) {
/* disable clock */
wcd9xxx_disable_clock_block(resmgr);
/* switch to RCO */
wcd9xxx_enable_clock_block(resmgr, 1);
resmgr->clk_type = WCD9XXX_CLK_RCO;
}
break;
default:
pr_err("%s: Error, Invalid clock get request %d\n", __func__,
type);
break;
}
WARN_ON(resmgr->clk_rco_users < 0);
WARN_ON(resmgr->clk_mclk_users < 0);
pr_debug("%s: new rco_users %d, mclk_users %d\n", __func__,
resmgr->clk_rco_users, resmgr->clk_mclk_users);
}
static void wcd9xxx_resmgr_update_cfilt_usage(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_cfilt_sel cfilt_sel,
bool inc)
{
u16 micb_cfilt_reg;
enum wcd9xxx_notify_event e_pre_on, e_post_off;
struct snd_soc_codec *codec = resmgr->codec;
switch (cfilt_sel) {
case WCD9XXX_CFILT1_SEL:
micb_cfilt_reg = WCD9XXX_A_MICB_CFILT_1_CTL;
e_pre_on = WCD9XXX_EVENT_PRE_CFILT_1_ON;
e_post_off = WCD9XXX_EVENT_POST_CFILT_1_OFF;
break;
case WCD9XXX_CFILT2_SEL:
micb_cfilt_reg = WCD9XXX_A_MICB_CFILT_2_CTL;
e_pre_on = WCD9XXX_EVENT_PRE_CFILT_2_ON;
e_post_off = WCD9XXX_EVENT_POST_CFILT_2_OFF;
break;
case WCD9XXX_CFILT3_SEL:
micb_cfilt_reg = WCD9XXX_A_MICB_CFILT_3_CTL;
e_pre_on = WCD9XXX_EVENT_PRE_CFILT_3_ON;
e_post_off = WCD9XXX_EVENT_POST_CFILT_3_OFF;
break;
default:
WARN(1, "Invalid CFILT selection %d\n", cfilt_sel);
return; /* should not happen */
}
if (inc) {
if ((resmgr->cfilt_users[cfilt_sel]++) == 0) {
/* Notify */
wcd9xxx_resmgr_notifier_call(resmgr, e_pre_on);
/* Enable CFILT */
snd_soc_update_bits(codec, micb_cfilt_reg, 0x80, 0x80);
}
} else {
/*
* Check if count not zero, decrease
* then check if zero, go ahead disable cfilter
*/
WARN(resmgr->cfilt_users[cfilt_sel] == 0,
"Invalid CFILT use count 0\n");
if ((--resmgr->cfilt_users[cfilt_sel]) == 0) {
/* Disable CFILT */
snd_soc_update_bits(codec, micb_cfilt_reg, 0x80, 0);
/* Notify MBHC so MBHC can switch CFILT to fast mode */
wcd9xxx_resmgr_notifier_call(resmgr, e_post_off);
}
}
}
void wcd9xxx_resmgr_cfilt_get(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_cfilt_sel cfilt_sel)
{
return wcd9xxx_resmgr_update_cfilt_usage(resmgr, cfilt_sel, true);
}
void wcd9xxx_resmgr_cfilt_put(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_cfilt_sel cfilt_sel)
{
return wcd9xxx_resmgr_update_cfilt_usage(resmgr, cfilt_sel, false);
}
int wcd9xxx_resmgr_get_k_val(struct wcd9xxx_resmgr *resmgr,
unsigned int cfilt_mv)
{
int rc = -EINVAL;
unsigned int ldoh_v = resmgr->micbias_pdata->ldoh_v;
unsigned min_mv, max_mv;
switch (ldoh_v) {
case WCD9XXX_LDOH_1P95_V:
min_mv = 160;
max_mv = 1800;
break;
case WCD9XXX_LDOH_2P35_V:
min_mv = 200;
max_mv = 2200;
break;
case WCD9XXX_LDOH_2P75_V:
min_mv = 240;
max_mv = 2600;
break;
case WCD9XXX_LDOH_3P0_V:
min_mv = 260;
max_mv = 2875;
break;
default:
goto done;
}
if (cfilt_mv < min_mv || cfilt_mv > max_mv)
goto done;
for (rc = 4; rc <= 44; rc++) {
min_mv = max_mv * (rc) / 44;
if (min_mv >= cfilt_mv) {
rc -= 4;
break;
}
}
done:
return rc;
}
static void wcd9xxx_resmgr_cond_trigger_cond(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_resmgr_cond cond)
{
struct list_head *l;
struct wcd9xxx_resmgr_cond_entry *e;
bool set;
pr_debug("%s: enter\n", __func__);
/* update bit if cond isn't available or cond is set */
set = !test_bit(cond, &resmgr->cond_avail_flags) ||
!!test_bit(cond, &resmgr->cond_flags);
list_for_each(l, &resmgr->update_bit_cond_h) {
e = list_entry(l, struct wcd9xxx_resmgr_cond_entry, list);
if (e->cond == cond)
snd_soc_update_bits(resmgr->codec, e->reg,
1 << e->shift,
(set ? !e->invert : e->invert)
<< e->shift);
}
pr_debug("%s: leave\n", __func__);
}
/*
* wcd9xxx_regmgr_cond_register : notify resmgr conditions in the condbits are
* avaliable and notified.
* condbits : contains bitmask of enum wcd9xxx_resmgr_cond
*/
void wcd9xxx_regmgr_cond_register(struct wcd9xxx_resmgr *resmgr,
unsigned long condbits)
{
unsigned int cond;
for_each_set_bit(cond, &condbits, BITS_PER_BYTE * sizeof(condbits)) {
mutex_lock(&resmgr->update_bit_cond_lock);
WARN(test_bit(cond, &resmgr->cond_avail_flags),
"Condition 0x%0x is already registered\n", cond);
set_bit(cond, &resmgr->cond_avail_flags);
wcd9xxx_resmgr_cond_trigger_cond(resmgr, cond);
mutex_unlock(&resmgr->update_bit_cond_lock);
pr_debug("%s: Condition 0x%x is registered\n", __func__, cond);
}
}
void wcd9xxx_regmgr_cond_deregister(struct wcd9xxx_resmgr *resmgr,
unsigned long condbits)
{
unsigned int cond;
for_each_set_bit(cond, &condbits, BITS_PER_BYTE * sizeof(condbits)) {
mutex_lock(&resmgr->update_bit_cond_lock);
WARN(!test_bit(cond, &resmgr->cond_avail_flags),
"Condition 0x%0x isn't registered\n", cond);
clear_bit(cond, &resmgr->cond_avail_flags);
wcd9xxx_resmgr_cond_trigger_cond(resmgr, cond);
mutex_unlock(&resmgr->update_bit_cond_lock);
pr_debug("%s: Condition 0x%x is deregistered\n", __func__,
cond);
}
}
void wcd9xxx_resmgr_cond_update_cond(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_resmgr_cond cond, bool set)
{
mutex_lock(&resmgr->update_bit_cond_lock);
if ((set && !test_and_set_bit(cond, &resmgr->cond_flags)) ||
(!set && test_and_clear_bit(cond, &resmgr->cond_flags))) {
pr_debug("%s: Resource %d condition changed to %s\n", __func__,
cond, set ? "set" : "clear");
wcd9xxx_resmgr_cond_trigger_cond(resmgr, cond);
}
mutex_unlock(&resmgr->update_bit_cond_lock);
}
int wcd9xxx_resmgr_add_cond_update_bits(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_resmgr_cond cond,
unsigned short reg, int shift,
bool invert)
{
struct wcd9xxx_resmgr_cond_entry *entry;
entry = kmalloc(sizeof(*entry), GFP_KERNEL);
if (!entry)
return -ENOMEM;
entry->cond = cond;
entry->reg = reg;
entry->shift = shift;
entry->invert = invert;
mutex_lock(&resmgr->update_bit_cond_lock);
list_add_tail(&entry->list, &resmgr->update_bit_cond_h);
wcd9xxx_resmgr_cond_trigger_cond(resmgr, cond);
mutex_unlock(&resmgr->update_bit_cond_lock);
return 0;
}
/*
* wcd9xxx_resmgr_rm_cond_update_bits :
* Clear bit and remove from the conditional bit update list
*/
int wcd9xxx_resmgr_rm_cond_update_bits(struct wcd9xxx_resmgr *resmgr,
enum wcd9xxx_resmgr_cond cond,
unsigned short reg, int shift,
bool invert)
{
struct list_head *l, *next;
struct wcd9xxx_resmgr_cond_entry *e = NULL;
pr_debug("%s: enter\n", __func__);
mutex_lock(&resmgr->update_bit_cond_lock);
list_for_each_safe(l, next, &resmgr->update_bit_cond_h) {
e = list_entry(l, struct wcd9xxx_resmgr_cond_entry, list);
if (e->reg == reg && e->shift == shift && e->invert == invert) {
snd_soc_update_bits(resmgr->codec, e->reg,
1 << e->shift,
e->invert << e->shift);
list_del(&e->list);
mutex_unlock(&resmgr->update_bit_cond_lock);
kfree(e);
return 0;
}
}
mutex_unlock(&resmgr->update_bit_cond_lock);
pr_err("%s: Cannot find update bit entry reg 0x%x, shift %d\n",
__func__, e ? e->reg : 0, e ? e->shift : 0);
return -EINVAL;
}
int wcd9xxx_resmgr_register_notifier(struct wcd9xxx_resmgr *resmgr,
struct notifier_block *nblock)
{
return blocking_notifier_chain_register(&resmgr->notifier, nblock);
}
int wcd9xxx_resmgr_unregister_notifier(struct wcd9xxx_resmgr *resmgr,
struct notifier_block *nblock)
{
return blocking_notifier_chain_unregister(&resmgr->notifier, nblock);
}
int wcd9xxx_resmgr_init(struct wcd9xxx_resmgr *resmgr,
struct snd_soc_codec *codec,
struct wcd9xxx_core_resource *core_res,
struct wcd9xxx_pdata *pdata,
struct wcd9xxx_micbias_setting *micbias_pdata,
struct wcd9xxx_reg_address *reg_addr,
enum wcd9xxx_cdc_type cdc_type)
{
WARN(ARRAY_SIZE(wcd9xxx_event_string) != WCD9XXX_EVENT_LAST + 1,
"Event string table isn't up to date!, %d != %d\n",
ARRAY_SIZE(wcd9xxx_event_string), WCD9XXX_EVENT_LAST + 1);
resmgr->bandgap_type = WCD9XXX_BANDGAP_OFF;
resmgr->codec = codec;
resmgr->codec_type = cdc_type;
/* This gives access of core handle to lock/unlock suspend */
resmgr->core_res = core_res;
resmgr->pdata = pdata;
resmgr->micbias_pdata = micbias_pdata;
resmgr->reg_addr = reg_addr;
INIT_LIST_HEAD(&resmgr->update_bit_cond_h);
BLOCKING_INIT_NOTIFIER_HEAD(&resmgr->notifier);
mutex_init(&resmgr->codec_resource_lock);
mutex_init(&resmgr->codec_bg_clk_lock);
mutex_init(&resmgr->update_bit_cond_lock);
return 0;
}
void wcd9xxx_resmgr_deinit(struct wcd9xxx_resmgr *resmgr)
{
mutex_destroy(&resmgr->update_bit_cond_lock);
mutex_destroy(&resmgr->codec_bg_clk_lock);
mutex_destroy(&resmgr->codec_resource_lock);
}
void wcd9xxx_resmgr_bcl_lock(struct wcd9xxx_resmgr *resmgr)
{
mutex_lock(&resmgr->codec_resource_lock);
}
void wcd9xxx_resmgr_bcl_unlock(struct wcd9xxx_resmgr *resmgr)
{
mutex_unlock(&resmgr->codec_resource_lock);
}
MODULE_DESCRIPTION("wcd9xxx resmgr module");
MODULE_LICENSE("GPL v2");