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/*
*
* Copyright (c) 2010-2013, 2017 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.
*
*/
#ifndef _APR_AUDIO_H_
#define _APR_AUDIO_H_
/* ASM opcodes without APR payloads*/
#include <linux/qdsp6v2/apr.h>
/*
* Audio Front End (AFE)
*/
/* Port ID. Update afe_get_port_index when a new port is added here. */
#define PRIMARY_I2S_RX 0 /* index = 0 */
#define PRIMARY_I2S_TX 1 /* index = 1 */
#define PCM_RX 2 /* index = 2 */
#define PCM_TX 3 /* index = 3 */
#define SECONDARY_I2S_RX 4 /* index = 4 */
#define SECONDARY_I2S_TX 5 /* index = 5 */
#define MI2S_RX 6 /* index = 6 */
#define MI2S_TX 7 /* index = 7 */
#define HDMI_RX 8 /* index = 8 */
#define RSVD_2 9 /* index = 9 */
#define RSVD_3 10 /* index = 10 */
#define DIGI_MIC_TX 11 /* index = 11 */
#define VOICE_RECORD_RX 0x8003 /* index = 12 */
#define VOICE_RECORD_TX 0x8004 /* index = 13 */
#define VOICE_PLAYBACK_TX 0x8005 /* index = 14 */
/* Slimbus Multi channel port id pool */
#define SLIMBUS_0_RX 0x4000 /* index = 15 */
#define SLIMBUS_0_TX 0x4001 /* index = 16 */
#define SLIMBUS_1_RX 0x4002 /* index = 17 */
#define SLIMBUS_1_TX 0x4003 /* index = 18 */
#define SLIMBUS_2_RX 0x4004
#define SLIMBUS_2_TX 0x4005
#define SLIMBUS_3_RX 0x4006
#define SLIMBUS_3_TX 0x4007
#define SLIMBUS_4_RX 0x4008
#define SLIMBUS_4_TX 0x4009 /* index = 24 */
#define INT_BT_SCO_RX 0x3000 /* index = 25 */
#define INT_BT_SCO_TX 0x3001 /* index = 26 */
#define INT_BT_A2DP_RX 0x3002 /* index = 27 */
#define INT_FM_RX 0x3004 /* index = 28 */
#define INT_FM_TX 0x3005 /* index = 29 */
#define RT_PROXY_PORT_001_RX 0x2000 /* index = 30 */
#define RT_PROXY_PORT_001_TX 0x2001 /* index = 31 */
#define SECONDARY_PCM_RX 12 /* index = 32 */
#define SECONDARY_PCM_TX 13 /* index = 33 */
#define PSEUDOPORT_01 0x8001 /* index =34 */
#define AFE_PORT_INVALID 0xFFFF
#define SLIMBUS_EXTPROC_RX AFE_PORT_INVALID
#define AFE_PORT_CMD_START 0x000100ca
#define AFE_EVENT_RTPORT_START 0
#define AFE_EVENT_RTPORT_STOP 1
#define AFE_EVENT_RTPORT_LOW_WM 2
#define AFE_EVENT_RTPORT_HI_WM 3
struct afe_port_start_command {
struct apr_hdr hdr;
u16 port_id;
u16 gain; /* Q13 */
u32 sample_rate; /* 8 , 16, 48khz */
} __packed;
#define AFE_PORT_CMD_STOP 0x000100cb
struct afe_port_stop_command {
struct apr_hdr hdr;
u16 port_id;
u16 reserved;
} __packed;
#define AFE_PORT_CMD_APPLY_GAIN 0x000100cc
struct afe_port_gain_command {
struct apr_hdr hdr;
u16 port_id;
u16 gain;/* Q13 */
} __packed;
#define AFE_PORT_CMD_SIDETONE_CTL 0x000100cd
struct afe_port_sidetone_command {
struct apr_hdr hdr;
u16 rx_port_id; /* Primary i2s tx = 1 */
/* PCM tx = 3 */
/* Secondary i2s tx = 5 */
/* Mi2s tx = 7 */
/* Digital mic tx = 11 */
u16 tx_port_id; /* Primary i2s rx = 0 */
/* PCM rx = 2 */
/* Secondary i2s rx = 4 */
/* Mi2S rx = 6 */
/* HDMI rx = 8 */
u16 gain; /* Q13 */
u16 enable; /* 1 = enable, 0 = disable */
} __packed;
#define AFE_PORT_CMD_LOOPBACK 0x000100ce
struct afe_loopback_command {
struct apr_hdr hdr;
u16 tx_port_id; /* Primary i2s rx = 0 */
/* PCM rx = 2 */
/* Secondary i2s rx = 4 */
/* Mi2S rx = 6 */
/* HDMI rx = 8 */
u16 rx_port_id; /* Primary i2s tx = 1 */
/* PCM tx = 3 */
/* Secondary i2s tx = 5 */
/* Mi2s tx = 7 */
/* Digital mic tx = 11 */
u16 mode; /* Default -1, DSP will conver
* the tx to rx format
*/
u16 enable; /* 1 = enable, 0 = disable */
} __packed;
#define AFE_PSEUDOPORT_CMD_START 0x000100cf
struct afe_pseudoport_start_command {
struct apr_hdr hdr;
u16 port_id; /* Pseudo Port 1 = 0x8000 */
/* Pseudo Port 2 = 0x8001 */
/* Pseudo Port 3 = 0x8002 */
u16 timing; /* FTRT = 0 , AVTimer = 1, */
} __packed;
#define AFE_PSEUDOPORT_CMD_STOP 0x000100d0
struct afe_pseudoport_stop_command {
struct apr_hdr hdr;
u16 port_id; /* Pseudo Port 1 = 0x8000 */
/* Pseudo Port 2 = 0x8001 */
/* Pseudo Port 3 = 0x8002 */
u16 reserved;
} __packed;
#define AFE_CMD_GET_ACTIVE_PORTS 0x000100d1
#define AFE_CMD_GET_ACTIVE_HANDLES_FOR_PORT 0x000100d2
struct afe_get_active_handles_command {
struct apr_hdr hdr;
u16 port_id;
u16 reserved;
} __packed;
/*
* Opcode for AFE to start DTMF.
*/
#define AFE_PORTS_CMD_DTMF_CTL 0x00010102
/** DTMF payload.*/
struct afe_dtmf_generation_command {
struct apr_hdr hdr;
/*
* Duration of the DTMF tone in ms.
* -1 -> continuous,
* 0 -> disable
*/
int64_t duration_in_ms;
/*
* The DTMF high tone frequency.
*/
uint16_t high_freq;
/*
* The DTMF low tone frequency.
*/
uint16_t low_freq;
/*
* The DTMF volume setting
*/
uint16_t gain;
/*
* The number of ports to enable/disable on.
*/
uint16_t num_ports;
/*
* The Destination ports - array .
* For DTMF on multiple ports, portIds needs to
* be populated numPorts times.
*/
uint16_t port_ids;
/*
* variable for 32 bit alignment of APR packet.
*/
uint16_t reserved;
} __packed;
#define AFE_PCM_CFG_MODE_PCM 0x0
#define AFE_PCM_CFG_MODE_AUX 0x1
#define AFE_PCM_CFG_SYNC_EXT 0x0
#define AFE_PCM_CFG_SYNC_INT 0x1
#define AFE_PCM_CFG_FRM_8BPF 0x0
#define AFE_PCM_CFG_FRM_16BPF 0x1
#define AFE_PCM_CFG_FRM_32BPF 0x2
#define AFE_PCM_CFG_FRM_64BPF 0x3
#define AFE_PCM_CFG_FRM_128BPF 0x4
#define AFE_PCM_CFG_FRM_256BPF 0x5
#define AFE_PCM_CFG_QUANT_ALAW_NOPAD 0x0
#define AFE_PCM_CFG_QUANT_MULAW_NOPAD 0x1
#define AFE_PCM_CFG_QUANT_LINEAR_NOPAD 0x2
#define AFE_PCM_CFG_QUANT_ALAW_PAD 0x3
#define AFE_PCM_CFG_QUANT_MULAW_PAD 0x4
#define AFE_PCM_CFG_QUANT_LINEAR_PAD 0x5
#define AFE_PCM_CFG_CDATAOE_MASTER 0x0
#define AFE_PCM_CFG_CDATAOE_SHARE 0x1
struct afe_port_pcm_cfg {
u16 mode; /* PCM (short sync) = 0, AUXPCM (long sync) = 1 */
u16 sync; /* external = 0 , internal = 1 */
u16 frame; /* 8 bpf = 0 */
/* 16 bpf = 1 */
/* 32 bpf = 2 */
/* 64 bpf = 3 */
/* 128 bpf = 4 */
/* 256 bpf = 5 */
u16 quant;
u16 slot; /* Slot for PCM stream , 0 - 31 */
u16 data; /* 0, PCM block is the only master */
/* 1, PCM block is shares to driver data out signal */
/* other master */
u16 reserved;
} __packed;
enum {
AFE_I2S_SD0 = 1,
AFE_I2S_SD1,
AFE_I2S_SD2,
AFE_I2S_SD3,
AFE_I2S_QUAD01,
AFE_I2S_QUAD23,
AFE_I2S_6CHS,
AFE_I2S_8CHS,
};
#define AFE_MI2S_MONO 0
#define AFE_MI2S_STEREO 3
#define AFE_MI2S_4CHANNELS 4
#define AFE_MI2S_6CHANNELS 6
#define AFE_MI2S_8CHANNELS 8
struct afe_port_mi2s_cfg {
u16 bitwidth; /* 16,24,32 */
u16 line; /* Called ChannelMode in documentation */
/* i2s_sd0 = 1 */
/* i2s_sd1 = 2 */
/* i2s_sd2 = 3 */
/* i2s_sd3 = 4 */
/* i2s_quad01 = 5 */
/* i2s_quad23 = 6 */
/* i2s_6chs = 7 */
/* i2s_8chs = 8 */
u16 channel; /* Called MonoStereo in documentation */
/* i2s mono = 0 */
/* i2s mono right = 1 */
/* i2s mono left = 2 */
/* i2s stereo = 3 */
u16 ws; /* 0, word select signal from external source */
/* 1, word select signal from internal source */
u16 format; /* don't touch this field if it is not for */
/* AFE_PORT_CMD_I2S_CONFIG opcode */
} __packed;
struct afe_port_hdmi_cfg {
u16 bitwidth; /* 16,24,32 */
u16 channel_mode; /* HDMI Stereo = 0 */
/* HDMI_3Point1 (4-ch) = 1 */
/* HDMI_5Point1 (6-ch) = 2 */
/* HDMI_6Point1 (8-ch) = 3 */
u16 data_type; /* HDMI_Linear = 0 */
/* HDMI_non_Linear = 1 */
} __packed;
struct afe_port_hdmi_multi_ch_cfg {
u16 data_type; /* HDMI_Linear = 0 */
/* HDMI_non_Linear = 1 */
u16 channel_allocation; /* The default is 0 (Stereo) */
u16 reserved; /* must be set to 0 */
} __packed;
/* Slimbus Device Ids */
#define AFE_SLIMBUS_DEVICE_1 0x0
#define AFE_SLIMBUS_DEVICE_2 0x1
#define AFE_PORT_MAX_AUDIO_CHAN_CNT 16
struct afe_port_slimbus_cfg {
u16 slimbus_dev_id; /* SLIMBUS Device id.*/
u16 slave_dev_pgd_la; /* Slave ported generic device
* logical address.
*/
u16 slave_dev_intfdev_la; /* Slave interface device logical
* address.
*/
u16 bit_width; /* bit width of the samples, 16, 24.*/
u16 data_format; /* data format.*/
u16 num_channels; /* Number of channels.*/
/* Slave port mapping for respective channels.*/
u16 slave_port_mapping[AFE_PORT_MAX_AUDIO_CHAN_CNT];
u16 reserved;
} __packed;
struct afe_port_slimbus_sch_cfg {
u16 slimbus_dev_id; /* SLIMBUS Device id.*/
u16 bit_width; /* bit width of the samples, 16, 24.*/
u16 data_format; /* data format.*/
u16 num_channels; /* Number of channels.*/
u16 reserved;
/* Slave channel mapping for respective channels.*/
u8 slave_ch_mapping[8];
} __packed;
struct afe_port_rtproxy_cfg {
u16 bitwidth; /* 16,24,32 */
u16 interleaved; /* interleaved = 1 */
/* Noninterleaved = 0 */
u16 frame_sz; /* 5ms buffers = 160bytes */
u16 jitter; /* 10ms of jitter = 320 */
u16 lw_mark; /* Low watermark in bytes for triggering event*/
u16 hw_mark; /* High watermark bytes for triggering event*/
u16 rsvd;
int num_ch; /* 1 to 8 */
} __packed;
struct afe_port_pseudo_cfg {
u16 bit_width;
u16 num_channels;
u16 data_format;
u16 timing_mode;
u16 reserved;
} __packed;
#define AFE_PORT_AUDIO_IF_CONFIG 0x000100d3
#define AFE_PORT_AUDIO_SLIM_SCH_CONFIG 0x000100e4
#define AFE_PORT_MULTI_CHAN_HDMI_AUDIO_IF_CONFIG 0x000100D9
#define AFE_PORT_CMD_I2S_CONFIG 0x000100E7
union afe_port_config {
struct afe_port_pcm_cfg pcm;
struct afe_port_mi2s_cfg mi2s;
struct afe_port_hdmi_cfg hdmi;
struct afe_port_hdmi_multi_ch_cfg hdmi_multi_ch;
struct afe_port_slimbus_cfg slimbus;
struct afe_port_slimbus_sch_cfg slim_sch;
struct afe_port_rtproxy_cfg rtproxy;
struct afe_port_pseudo_cfg pseudo;
} __packed;
struct afe_audioif_config_command {
struct apr_hdr hdr;
u16 port_id;
union afe_port_config port;
} __packed;
#define AFE_TEST_CODEC_LOOPBACK_CTL 0x000100d5
struct afe_codec_loopback_command {
u16 port_inf; /* Primary i2s = 0 */
/* PCM = 2 */
/* Secondary i2s = 4 */
/* Mi2s = 6 */
u16 enable; /* 0, disable. 1, enable */
} __packed;
#define AFE_PARAM_ID_SIDETONE_GAIN 0x00010300
struct afe_param_sidetone_gain {
u16 gain;
u16 reserved;
} __packed;
#define AFE_PARAM_ID_SAMPLING_RATE 0x00010301
struct afe_param_sampling_rate {
u32 sampling_rate;
} __packed;
#define AFE_PARAM_ID_CHANNELS 0x00010302
struct afe_param_channels {
u16 channels;
u16 reserved;
} __packed;
#define AFE_PARAM_ID_LOOPBACK_GAIN 0x00010303
struct afe_param_loopback_gain {
u16 gain;
u16 reserved;
} __packed;
/* Parameter ID used to configure and enable/disable the loopback path. The
* difference with respect to the existing API, AFE_PORT_CMD_LOOPBACK, is that
* it allows Rx port to be configured as source port in loopback path. Port-id
* in AFE_PORT_CMD_SET_PARAM cmd is the source port which can be Tx or Rx port.
* In addition, we can configure the type of routing mode to handle different
* use cases.
*/
enum {
/* Regular loopback from source to destination port */
LB_MODE_DEFAULT = 1,
/* Sidetone feed from Tx source to Rx destination port */
LB_MODE_SIDETONE,
/* Echo canceller reference, voice + audio + DTMF */
LB_MODE_EC_REF_VOICE_AUDIO,
/* Echo canceller reference, voice alone */
LB_MODE_EC_REF_VOICE
};
#define AFE_PARAM_ID_LOOPBACK_CONFIG 0x0001020B
#define AFE_API_VERSION_LOOPBACK_CONFIG 0x1
struct afe_param_loopback_cfg {
/* Minor version used for tracking the version of the configuration
* interface.
*/
uint32_t loopback_cfg_minor_version;
/* Destination Port Id. */
uint16_t dst_port_id;
/* Specifies data path type from src to dest port. Supported values:
* LB_MODE_DEFAULT
* LB_MODE_SIDETONE
* LB_MODE_EC_REF_VOICE_AUDIO
* LB_MODE_EC_REF_VOICE
*/
uint16_t routing_mode;
/* Specifies whether to enable (1) or disable (0) an AFE loopback. */
uint16_t enable;
/* Reserved for 32-bit alignment. This field must be set to 0. */
uint16_t reserved;
} __packed;
#define AFE_MODULE_ID_PORT_INFO 0x00010200
/* Module ID for the loopback-related parameters. */
#define AFE_MODULE_LOOPBACK 0x00010205
struct afe_param_payload_base {
u32 module_id;
u32 param_id;
u16 param_size;
u16 reserved;
} __packed;
struct afe_param_payload {
struct afe_param_payload_base base;
union {
struct afe_param_sidetone_gain sidetone_gain;
struct afe_param_sampling_rate sampling_rate;
struct afe_param_channels channels;
struct afe_param_loopback_gain loopback_gain;
struct afe_param_loopback_cfg loopback_cfg;
} __packed param;
} __packed;
#define AFE_PORT_CMD_SET_PARAM 0x000100dc
struct afe_port_cmd_set_param {
struct apr_hdr hdr;
u16 port_id;
u16 payload_size;
u32 payload_address;
struct afe_param_payload payload;
} __packed;
struct afe_port_cmd_set_param_no_payload {
struct apr_hdr hdr;
u16 port_id;
u16 payload_size;
u32 payload_address;
} __packed;
#define AFE_EVENT_GET_ACTIVE_PORTS 0x00010100
struct afe_get_active_ports_rsp {
u16 num_ports;
u16 port_id;
} __packed;
#define AFE_EVENT_GET_ACTIVE_HANDLES 0x00010102
struct afe_get_active_handles_rsp {
u16 port_id;
u16 num_handles;
u16 mode; /* 0, voice rx */
/* 1, voice tx */
/* 2, audio rx */
/* 3, audio tx */
u16 handle;
} __packed;
#define AFE_SERVICE_CMD_MEMORY_MAP 0x000100DE
struct afe_cmd_memory_map {
struct apr_hdr hdr;
u32 phy_addr;
u32 mem_sz;
u16 mem_id;
u16 rsvd;
} __packed;
#define AFE_SERVICE_CMD_MEMORY_UNMAP 0x000100DF
struct afe_cmd_memory_unmap {
struct apr_hdr hdr;
u32 phy_addr;
} __packed;
#define AFE_SERVICE_CMD_REG_RTPORT 0x000100E0
struct afe_cmd_reg_rtport {
struct apr_hdr hdr;
u16 port_id;
u16 rsvd;
} __packed;
#define AFE_SERVICE_CMD_UNREG_RTPORT 0x000100E1
struct afe_cmd_unreg_rtport {
struct apr_hdr hdr;
u16 port_id;
u16 rsvd;
} __packed;
#define AFE_SERVICE_CMD_RTPORT_WR 0x000100E2
struct afe_cmd_rtport_wr {
struct apr_hdr hdr;
u16 port_id;
u16 rsvd;
u32 buf_addr;
u32 bytes_avail;
} __packed;
#define AFE_SERVICE_CMD_RTPORT_RD 0x000100E3
struct afe_cmd_rtport_rd {
struct apr_hdr hdr;
u16 port_id;
u16 rsvd;
u32 buf_addr;
u32 bytes_avail;
} __packed;
#define AFE_EVENT_RT_PROXY_PORT_STATUS 0x00010105
#define ADM_MAX_COPPS 5
#define ADM_SERVICE_CMD_GET_COPP_HANDLES 0x00010300
struct adm_get_copp_handles_command {
struct apr_hdr hdr;
} __packed;
#define ADM_CMD_MATRIX_MAP_ROUTINGS 0x00010301
struct adm_routings_session {
u16 id;
u16 num_copps;
u16 copp_id[ADM_MAX_COPPS+1]; /*Padding if numCopps is odd */
} __packed;
struct adm_routings_command {
struct apr_hdr hdr;
u32 path; /* 0 = Rx, 1 Tx */
u32 num_sessions;
struct adm_routings_session session[8];
} __packed;
#define ADM_CMD_MATRIX_RAMP_GAINS 0x00010302
struct adm_ramp_gain {
struct apr_hdr hdr;
u16 session_id;
u16 copp_id;
u16 initial_gain;
u16 gain_increment;
u16 ramp_duration;
u16 reserved;
} __packed;
struct adm_ramp_gains_command {
struct apr_hdr hdr;
u32 id;
u32 num_gains;
struct adm_ramp_gain gains[ADM_MAX_COPPS];
} __packed;
#define ADM_CMD_COPP_OPEN 0x00010304
struct adm_copp_open_command {
struct apr_hdr hdr;
u16 flags;
u16 mode; /* 1-RX, 2-Live TX, 3-Non Live TX */
u16 endpoint_id1;
u16 endpoint_id2;
u32 topology_id;
u16 channel_config;
u16 reserved;
u32 rate;
} __packed;
#define ADM_CMD_COPP_CLOSE 0x00010305
#define ADM_CMD_MULTI_CHANNEL_COPP_OPEN 0x00010310
#define ADM_CMD_MULTI_CHANNEL_COPP_OPEN_V3 0x00010333
struct adm_multi_ch_copp_open_command {
struct apr_hdr hdr;
u16 flags;
u16 mode; /* 1-RX, 2-Live TX, 3-Non Live TX */
u16 endpoint_id1;
u16 endpoint_id2;
u32 topology_id;
u16 channel_config;
u16 reserved;
u32 rate;
u8 dev_channel_mapping[8];
} __packed;
struct adm_multi_channel_copp_open_v3 {
struct apr_hdr hdr;
u16 flags;
u16 mode;
u16 endpoint_id1;
u16 endpoint_id2;
u32 topology_id;
u16 channel_config;
u16 bit_width;
u32 rate;
u8 dev_channel_mapping[8];
};
#define ADM_CMD_MEMORY_MAP 0x00010C30
struct adm_cmd_memory_map {
struct apr_hdr hdr;
u32 buf_add;
u32 buf_size;
u16 mempool_id;
u16 reserved;
} __packed;
#define ADM_CMD_MEMORY_UNMAP 0x00010C31
struct adm_cmd_memory_unmap {
struct apr_hdr hdr;
u32 buf_add;
} __packed;
#define ADM_CMD_MEMORY_MAP_REGIONS 0x00010C47
struct adm_memory_map_regions {
u32 phys;
u32 buf_size;
} __packed;
struct adm_cmd_memory_map_regions {
struct apr_hdr hdr;
u16 mempool_id;
u16 nregions;
} __packed;
#define ADM_CMD_MEMORY_UNMAP_REGIONS 0x00010C48
struct adm_memory_unmap_regions {
u32 phys;
} __packed;
struct adm_cmd_memory_unmap_regions {
struct apr_hdr hdr;
u16 nregions;
u16 reserved;
} __packed;
#define DEFAULT_COPP_TOPOLOGY 0x00010be3
#define DEFAULT_POPP_TOPOLOGY 0x00010be4
#define VPM_TX_SM_ECNS_COPP_TOPOLOGY 0x00010F71
#define VPM_TX_DM_FLUENCE_COPP_TOPOLOGY 0x00010F72
#define VPM_TX_QMIC_FLUENCE_COPP_TOPOLOGY 0x00010F75
#define LOWLATENCY_POPP_TOPOLOGY 0x00010C68
#define LOWLATENCY_COPP_TOPOLOGY 0x00010312
#define PCM_BITS_PER_SAMPLE 16
#define ASM_OPEN_WRITE_PERF_MODE_BIT (1<<28)
#define ASM_OPEN_READ_PERF_MODE_BIT (1<<29)
#define ADM_MULTI_CH_COPP_OPEN_PERF_MODE_BIT (1<<13)
#define ASM_MAX_EQ_BANDS 12
struct asm_eq_band {
u32 band_idx; /* The band index, 0 .. 11 */
u32 filter_type; /* Filter band type */
u32 center_freq_hz; /* Filter band center frequency */
u32 filter_gain; /* Filter band initial gain (dB) */
/* Range is +12 dB to -12 dB with 1dB increments. */
u32 q_factor;
} __packed;
struct asm_equalizer_params {
u32 enable;
u32 num_bands;
struct asm_eq_band eq_bands[ASM_MAX_EQ_BANDS];
} __packed;
struct asm_master_gain_params {
u16 master_gain;
u16 padding;
} __packed;
struct asm_lrchannel_gain_params {
u16 left_gain;
u16 right_gain;
} __packed;
struct asm_mute_params {
u32 muteflag;
} __packed;
struct asm_softvolume_params {
u32 period;
u32 step;
u32 rampingcurve;
} __packed;
struct asm_softpause_params {
u32 enable;
u32 period;
u32 step;
u32 rampingcurve;
} __packed;
struct asm_pp_param_data_hdr {
u32 module_id;
u32 param_id;
u16 param_size;
u16 reserved;
} __packed;
struct asm_pp_params_command {
struct apr_hdr hdr;
u32 *payload;
u32 payload_size;
struct asm_pp_param_data_hdr params;
} __packed;
#define EQUALIZER_MODULE_ID 0x00010c27
#define EQUALIZER_PARAM_ID 0x00010c28
#define VOLUME_CONTROL_MODULE_ID 0x00010bfe
#define MASTER_GAIN_PARAM_ID 0x00010bff
#define L_R_CHANNEL_GAIN_PARAM_ID 0x00010c00
#define MUTE_CONFIG_PARAM_ID 0x00010c01
#define SOFT_PAUSE_PARAM_ID 0x00010D6A
#define SOFT_VOLUME_PARAM_ID 0x00010C29
#define IIR_FILTER_ENABLE_PARAM_ID 0x00010c03
#define IIR_FILTER_PREGAIN_PARAM_ID 0x00010c04
#define IIR_FILTER_CONFIG_PARAM_ID 0x00010c05
#define MBADRC_MODULE_ID 0x00010c06
#define MBADRC_ENABLE_PARAM_ID 0x00010c07
#define MBADRC_CONFIG_PARAM_ID 0x00010c08
#define ADM_CMD_SET_PARAMS 0x00010306
#define ADM_CMD_GET_PARAMS 0x0001030B
#define ADM_CMDRSP_GET_PARAMS 0x0001030C
struct adm_set_params_command {
struct apr_hdr hdr;
u32 payload;
u32 payload_size;
} __packed;
#define ADM_CMD_TAP_COPP_PCM 0x00010307
struct adm_tap_copp_pcm_command {
struct apr_hdr hdr;
} __packed;
/* QDSP6 to Client messages */
#define ADM_SERVICE_CMDRSP_GET_COPP_HANDLES 0x00010308
struct adm_get_copp_handles_respond {
struct apr_hdr hdr;
u32 handles;
u32 copp_id;
} __packed;
#define ADM_CMDRSP_COPP_OPEN 0x0001030A
struct adm_copp_open_respond {
u32 status;
u16 copp_id;
u16 reserved;
} __packed;
#define ADM_CMDRSP_MULTI_CHANNEL_COPP_OPEN 0x00010311
#define ADM_CMDRSP_MULTI_CHANNEL_COPP_OPEN_V3 0x00010334
#define ASM_STREAM_PRIORITY_NORMAL 0
#define ASM_STREAM_PRIORITY_LOW 1
#define ASM_STREAM_PRIORITY_HIGH 2
#define ASM_STREAM_PRIORITY_RESERVED 3
#define ASM_END_POINT_DEVICE_MATRIX 0
#define ASM_END_POINT_STREAM 1
#define AAC_ENC_MODE_AAC_LC 0x02
#define AAC_ENC_MODE_AAC_P 0x05
#define AAC_ENC_MODE_EAAC_P 0x1D
#define ASM_STREAM_CMD_CLOSE 0x00010BCD
#define ASM_STREAM_CMD_FLUSH 0x00010BCE
#define ASM_STREAM_CMD_SET_PP_PARAMS 0x00010BCF
#define ASM_STREAM_CMD_GET_PP_PARAMS 0x00010BD0
#define ASM_STREAM_CMDRSP_GET_PP_PARAMS 0x00010BD1
#define ASM_SESSION_CMD_PAUSE 0x00010BD3
#define ASM_SESSION_CMD_GET_SESSION_TIME 0x00010BD4
#define ASM_DATA_CMD_EOS 0x00010BDB
#define ASM_DATA_EVENT_EOS 0x00010BDD
#define ASM_SERVICE_CMD_GET_STREAM_HANDLES 0x00010C0B
#define ASM_STREAM_CMD_FLUSH_READBUFS 0x00010C09
#define ASM_SESSION_EVENT_RX_UNDERFLOW 0x00010C17
#define ASM_SESSION_EVENT_TX_OVERFLOW 0x00010C18
#define ASM_SERVICE_CMD_GET_WALLCLOCK_TIME 0x00010C19
#define ASM_DATA_CMDRSP_EOS 0x00010C1C
/* ASM Data structures */
/* common declarations */
struct asm_pcm_cfg {
u16 ch_cfg;
u16 bits_per_sample;
u32 sample_rate;
u16 is_signed;
u16 interleaved;
};
#define PCM_CHANNEL_NULL 0
/* Front left channel. */
#define PCM_CHANNEL_FL 1
/* Front right channel. */
#define PCM_CHANNEL_FR 2
/* Front center channel. */
#define PCM_CHANNEL_FC 3
/* Left surround channel.*/
#define PCM_CHANNEL_LS 4
/* Right surround channel.*/
#define PCM_CHANNEL_RS 5
/* Low frequency effect channel. */
#define PCM_CHANNEL_LFE 6
/* Center surround channel; Rear center channel. */
#define PCM_CHANNEL_CS 7
/* Left back channel; Rear left channel. */
#define PCM_CHANNEL_LB 8
/* Right back channel; Rear right channel. */
#define PCM_CHANNEL_RB 9
/* Top surround channel. */
#define PCM_CHANNEL_TS 10
/* Center vertical height channel.*/
#define PCM_CHANNEL_CVH 11
/* Mono surround channel.*/
#define PCM_CHANNEL_MS 12
/* Front left of center. */
#define PCM_CHANNEL_FLC 13
/* Front right of center. */
#define PCM_CHANNEL_FRC 14
/* Rear left of center. */
#define PCM_CHANNEL_RLC 15
/* Rear right of center. */
#define PCM_CHANNEL_RRC 16
#define PCM_FORMAT_MAX_NUM_CHANNEL 8
/* Maximum number of channels supported
* in ASM_ENCDEC_DEC_CHAN_MAP command
*/
#define MAX_CHAN_MAP_CHANNELS 16
/*
* Multiple-channel PCM decoder format block structure used in the
* #ASM_STREAM_CMD_OPEN_WRITE command.
* The data must be in little-endian format.
*/
struct asm_multi_channel_pcm_fmt_blk {
u16 num_channels; /*
* Number of channels.
* Supported values:1 to 8
*/
u16 bits_per_sample; /*
* Number of bits per sample per channel.
* Supported values: 16, 24 When used for
* playback, the client must send 24-bit
* samples packed in 32-bit words. The
* 24-bit samples must be placed in the most
* significant 24 bits of the 32-bit word. When
* used for recording, the aDSP sends 24-bit
* samples packed in 32-bit words. The 24-bit
* samples are placed in the most significant
* 24 bits of the 32-bit word.
*/
u32 sample_rate; /*
* Number of samples per second
* (in Hertz). Supported values:
* 2000 to 48000
*/
u16 is_signed; /*
* Flag that indicates the samples
* are signed (1).
*/
u16 is_interleaved; /*
* Flag that indicates whether the channels are
* de-interleaved (0) or interleaved (1).
* Interleaved format means corresponding
* samples from the left and right channels are
* interleaved within the buffer.
* De-interleaved format means samples from
* each channel are contiguous in the buffer.
* The samples from one channel immediately
* follow those of the previous channel.
*/
u8 channel_mapping[8]; /*
* Supported values:
* PCM_CHANNEL_NULL, PCM_CHANNEL_FL,
* PCM_CHANNEL_FR, PCM_CHANNEL_FC,
* PCM_CHANNEL_LS, PCM_CHANNEL_RS,
* PCM_CHANNEL_LFE, PCM_CHANNEL_CS,
* PCM_CHANNEL_LB, PCM_CHANNEL_RB,
* PCM_CHANNEL_TS, PCM_CHANNEL_CVH,
* PCM_CHANNEL_MS, PCM_CHANNEL_FLC,
* PCM_CHANNEL_FRC, PCM_CHANNEL_RLC,
* PCM_CHANNEL_RRC.
* Channel[i] mapping describes channel I. Each
* element i of the array describes channel I
* inside the buffer where I < num_channels.
* An unused channel is set to zero.
*/
};
struct asm_dts_enc_cfg {
uint32_t sample_rate;
/*
* Samples at which input is to be encoded.
* Supported values:
* 44100 -- encode at 44.1 Khz
* 48000 -- encode at 48 Khz
*/
uint32_t num_channels;
/*
* Number of channels for multi-channel encoding.
* Supported values: 1 to 6
*/
uint8_t channel_mapping[6];
/*
* Channel array of size 16. Channel[i] mapping describes channel I.
* Each element i of the array describes channel I inside the buffer
* where num_channels. An unused channel is set to zero. Only first
* num_channels elements are valid
*
* Supported values:
* - # PCM_CHANNEL_L
* - # PCM_CHANNEL_R
* - # PCM_CHANNEL_C
* - # PCM_CHANNEL_LS
* - # PCM_CHANNEL_RS
* - # PCM_CHANNEL_LFE
*/
};
struct asm_adpcm_cfg {
u16 ch_cfg;
u16 bits_per_sample;
u32 sample_rate;
u32 block_size;
};
struct asm_yadpcm_cfg {
u16 ch_cfg;
u16 bits_per_sample;
u32 sample_rate;
};
struct asm_midi_cfg {
u32 nMode;
};
struct asm_wma_cfg {
u16 format_tag;
u16 ch_cfg;
u32 sample_rate;
u32 avg_bytes_per_sec;
u16 block_align;
u16 valid_bits_per_sample;
u32 ch_mask;
u16 encode_opt;
u16 adv_encode_opt;
u32 adv_encode_opt2;
u32 drc_peak_ref;
u32 drc_peak_target;
u32 drc_ave_ref;
u32 drc_ave_target;
};
struct asm_wmapro_cfg {
u16 format_tag;
u16 ch_cfg;
u32 sample_rate;
u32 avg_bytes_per_sec;
u16 block_align;
u16 valid_bits_per_sample;
u32 ch_mask;
u16 encode_opt;
u16 adv_encode_opt;
u32 adv_encode_opt2;
u32 drc_peak_ref;
u32 drc_peak_target;
u32 drc_ave_ref;
u32 drc_ave_target;
};
struct asm_aac_cfg {
u16 format;
u16 aot;
u16 ep_config;
u16 section_data_resilience;
u16 scalefactor_data_resilience;
u16 spectral_data_resilience;
u16 ch_cfg;
u16 reserved;
u32 sample_rate;
};
struct asm_amrwbplus_cfg {
u32 size_bytes;
u32 version;
u32 num_channels;
u32 amr_band_mode;
u32 amr_dtx_mode;
u32 amr_frame_fmt;
u32 amr_lsf_idx;
};
struct asm_flac_cfg {
u16 stream_info_present;
u16 min_blk_size;
u16 max_blk_size;
u16 ch_cfg;
u16 sample_size;
u16 sample_rate;
u16 md5_sum;
u32 ext_sample_rate;
u32 min_frame_size;
u32 max_frame_size;
};
struct asm_vorbis_cfg {
u32 ch_cfg;
u32 bit_rate;
u32 min_bit_rate;
u32 max_bit_rate;
u16 bit_depth_pcm_sample;
u16 bit_stream_format;
};
struct asm_aac_read_cfg {
u32 bitrate;
u32 enc_mode;
u16 format;
u16 ch_cfg;
u32 sample_rate;
};
struct asm_amrnb_read_cfg {
u16 mode;
u16 dtx_mode;
};
struct asm_amrwb_read_cfg {
u16 mode;
u16 dtx_mode;
};
struct asm_evrc_read_cfg {
u16 max_rate;
u16 min_rate;
u16 rate_modulation_cmd;
u16 reserved;
};
struct asm_qcelp13_read_cfg {
u16 max_rate;
u16 min_rate;
u16 reduced_rate_level;
u16 rate_modulation_cmd;
};
struct asm_sbc_read_cfg {
u32 subband;
u32 block_len;
u32 ch_mode;
u32 alloc_method;
u32 bit_rate;
u32 sample_rate;
};
struct asm_sbc_bitrate {
u32 bitrate;
};
struct asm_immed_decode {
u32 mode;
};
struct asm_sbr_ps {
u32 enable;
};
struct asm_dual_mono {
u16 sce_left;
u16 sce_right;
};
struct asm_dec_chan_map {
u32 num_channels; /* Number of decoder output
* channels. A value of 0
* indicates native channel
* mapping, which is valid
* only for NT mode. This
* means the output of the
* decoder is to be preserved
* as is.
*/
u8 channel_mapping[MAX_CHAN_MAP_CHANNELS];/* Channel array of size
* num_channels. It can grow
* till MAX_CHAN_MAP_CHANNELS.
* Channel[i] mapping
* describes channel I inside
* the decoder output buffer.
* Valid channel mapping
* values are to be present at
* the beginning of the array.
* All remaining elements of
* the array are to be filled
* with PCM_CHANNEL_NULL.
*/
};
struct asm_encode_cfg_blk {
u32 frames_per_buf;
u32 format_id;
u32 cfg_size;
union {
struct asm_pcm_cfg pcm;
struct asm_aac_read_cfg aac;
struct asm_amrnb_read_cfg amrnb;
struct asm_evrc_read_cfg evrc;
struct asm_qcelp13_read_cfg qcelp13;
struct asm_sbc_read_cfg sbc;
struct asm_amrwb_read_cfg amrwb;
struct asm_multi_channel_pcm_fmt_blk mpcm;
struct asm_dts_enc_cfg dts;
} __packed cfg;
};
struct asm_frame_meta_info {
u32 offset_to_frame;
u32 frame_size;
u32 encoded_pcm_samples;
u32 msw_ts;
u32 lsw_ts;
u32 nflags;
};
/* Stream level commands */
#define ASM_STREAM_CMD_OPEN_READ 0x00010BCB
#define ASM_STREAM_CMD_OPEN_READ_V2_1 0x00010DB2
struct asm_stream_cmd_open_read {
struct apr_hdr hdr;
u32 uMode;
u32 src_endpoint;
u32 pre_proc_top;
u32 format;
} __packed;
struct asm_stream_cmd_open_read_v2_1 {
struct apr_hdr hdr;
u32 uMode;
u32 src_endpoint;
u32 pre_proc_top;
u32 format;
u16 bits_per_sample;
u16 reserved;
} __packed;
/* Supported formats */
#define LINEAR_PCM 0x00010BE5
#define DTMF 0x00010BE6
#define ADPCM 0x00010BE7
#define YADPCM 0x00010BE8
#define MP3 0x00010BE9
#define MPEG4_AAC 0x00010BEA
#define AMRNB_FS 0x00010BEB
#define AMRWB_FS 0x00010BEC
#define V13K_FS 0x00010BED
#define EVRC_FS 0x00010BEE
#define EVRCB_FS 0x00010BEF
#define EVRCWB_FS 0x00010BF0
#define MIDI 0x00010BF1
#define SBC 0x00010BF2
#define WMA_V10PRO 0x00010BF3
#define WMA_V9 0x00010BF4
#define AMR_WB_PLUS 0x00010BF5
#define AC3_DECODER 0x00010BF6
#define EAC3_DECODER 0x00010C3C
#define DTS 0x00010D88
#define DTS_LBR 0x00010DBB
#define MP2 0x00010DBE
#define ATRAC 0x00010D89
#define MAT 0x00010D8A
#define G711_ALAW_FS 0x00010BF7
#define G711_MLAW_FS 0x00010BF8
#define G711_PCM_FS 0x00010BF9
#define MPEG4_MULTI_AAC 0x00010D86
#define US_POINT_EPOS_FORMAT 0x00012310
#define US_RAW_FORMAT 0x0001127C
#define US_PROX_FORMAT 0x0001272B
#define MULTI_CHANNEL_PCM 0x00010C66
#define ASM_ENCDEC_SBCRATE 0x00010C13
#define ASM_ENCDEC_IMMDIATE_DECODE 0x00010C14
#define ASM_ENCDEC_CFG_BLK 0x00010C2C
#define ASM_ENCDEC_SBCRATE 0x00010C13
#define ASM_ENCDEC_IMMDIATE_DECODE 0x00010C14
#define ASM_ENCDEC_CFG_BLK 0x00010C2C
#define ASM_STREAM_CMD_OPEN_READ_COMPRESSED 0x00010D95
struct asm_stream_cmd_open_read_compressed {
struct apr_hdr hdr;
u32 uMode;
u32 frame_per_buf;
} __packed;
#define ASM_STREAM_CMD_OPEN_WRITE 0x00010BCA
#define ASM_STREAM_CMD_OPEN_WRITE_V2_1 0x00010DB1
struct asm_stream_cmd_open_write {
struct apr_hdr hdr;
u32 uMode;
u16 sink_endpoint;
u16 stream_handle;
u32 post_proc_top;
u32 format;
} __packed;
#define IEC_61937_MASK 0x00000001
#define IEC_60958_MASK 0x00000002
#define ASM_STREAM_CMD_OPEN_WRITE_COMPRESSED 0x00010D84
struct asm_stream_cmd_open_write_compressed {
struct apr_hdr hdr;
u32 flags;
u32 format;
} __packed;
#define ASM_STREAM_CMD_OPEN_TRANSCODE_LOOPBACK 0x00010DBA
struct asm_stream_cmd_open_transcode_loopback {
struct apr_hdr hdr;
uint32_t mode_flags;
/*
* All bits are reserved. Clients must set them to zero.
*/
uint32_t src_format_id;
/*
* Specifies the media format of the input audio stream.
*
* Supported values:
* - #ASM_MEDIA_FMT_LINEAR_PCM
* - #ASM_MEDIA_FMT_MULTI_CHANNEL_PCM
*/
uint32_t sink_format_id;
/*
* Specifies the media format of the output stream.
*
* Supported values:
* - #ASM_MEDIA_FMT_LINEAR_PCM
* - #ASM_MEDIA_FMT_MULTI_CHANNEL_PCM
* - #ASM_MEDIA_FMT_DTS
*/
uint32_t audproc_topo_id;
/*
* Postprocessing topology ID, which specifies the topology (order of
* processing) of postprocessing algorithms.
*
* Supported values:
* - #ASM_STREAM_POSTPROC_TOPO_ID_DEFAULT
* - #ASM_STREAM_POSTPROC_TOPO_ID_PEAKMETER
* - #ASM_STREAM_POSTPROC_TOPO_ID_NONE
* - #ASM_STREAM_POSTPROC_TOPO_ID_MCH_PEAK_VOL
*/
uint16_t src_endpoint_type;
/*
* Specifies the source endpoint that provides the input samples.
*
* Supported values:
* - 0 -- Tx device matrix or stream router
* (gateway to the hardware ports)
* - All other values are reserved
*
* Clients must set this field to zero. Otherwise, an error is returned.
*/
uint16_t sink_endpoint_type;
/*
* Specifies the sink endpoint type.
*
* Supported values:
* - 0 -- Rx device matrix or stream router
* (gateway to the hardware ports)
* - All other values are reserved
*
* Clients must set this field to zero. Otherwise, an error is returned.
*/
uint16_t bits_per_sample;
/*
* Number of bits per sample processed by the ASM modules.
* Supported values: 16, 24
*/
uint16_t reserved;
/*
* This field must be set to zero.
*/
} __packed;
/*
* ID of the DTS mix LFE channel to front channels parameter in the
* #ASM_STREAM_CMD_SET_ENCDEC_PARAM command.
* asm_dts_generic_param_t
* ASM_PARAM_ID_DTS_MIX_LFE_TO_FRONT
*/
#define ASM_PARAM_ID_DTS_MIX_LFE_TO_FRONT 0x00010DB6
/*
* ID of the DTS DRC ratio parameter in the
* #ASM_STREAM_CMD_SET_ENCDEC_PARAM command.
* asm_dts_generic_param_t
* ASM_PARAM_ID_DTS_DRC_RATIO
*/
#define ASM_PARAM_ID_DTS_DRC_RATIO 0x00010DB7
/*
* ID of the DTS enable dialog normalization parameter in the
* #ASM_STREAM_CMD_SET_ENCDEC_PARAM command.
*
* asm_dts_generic_param_t
* ASM_PARAM_ID_DTS_ENABLE_DIALNORM
*/
#define ASM_PARAM_ID_DTS_ENABLE_DIALNORM 0x00010DB8
/*
* ID of the DTS enable parse REV2AUX parameter in the
* #ASM_STREAM_CMD_SET_ENCDEC_PARAM command.
* asm_dts_generic_param_t
* ASM_PARAM_ID_DTS_ENABLE_PARSE_REV2AUX
*/
#define ASM_PARAM_ID_DTS_ENABLE_PARSE_REV2AUX 0x00010DB9
struct asm_dts_generic_param {
int32_t generic_parameter;
/*
* #ASM_PARAM_ID_DTS_MIX_LFE_TO_FRONT:
* - if enabled, mixes LFE channel to front
* while downmixing (if necessary)
* - Supported values: 1-> enable, 0-> disable
* - Default: disabled
*
* #ASM_PARAM_ID_DTS_DRC_RATIO:
* - percentage of DRC ratio.
* - Supported values: 0-100
* - Default: 0, DRC is disabled.
*
* #ASM_PARAM_ID_DTS_ENABLE_DIALNORM:
* - flag to enable dialog normalization post processing.
* - Supported values: 1-> enable, 0-> disable.
* - Default: enabled.
*
* #ASM_PARAM_ID_DTS_ENABLE_PARSE_REV2AUX:
* - flag to enable parsing of rev2aux chunk in the bitstream.
* This chunk contains broadcast metadata.
* - Supported values: 1-> enable, 0-> disable.
* - Default: disabled.
*/
};
struct asm_stream_cmd_dts_dec_param {
struct apr_hdr hdr;
u32 param_id;
u32 param_size;
struct asm_dts_generic_param generic_param;
} __packed;
#define ASM_STREAM_CMD_OPEN_READWRITE 0x00010BCC
struct asm_stream_cmd_open_read_write {
struct apr_hdr hdr;
u32 uMode;
u32 post_proc_top;
u32 write_format;
u32 read_format;
} __packed;
#define ASM_STREAM_CMD_OPEN_LOOPBACK 0x00010D6E
struct asm_stream_cmd_open_loopback {
struct apr_hdr hdr;
u32 mode_flags;
/* Mode flags.
* Bit 0-31: reserved; client should set these bits to 0
*/
u16 src_endpointype;
/* Endpoint type. 0 = Tx Matrix */
u16 sink_endpointype;
/* Endpoint type. 0 = Rx Matrix */
u32 postprocopo_id;
/* Postprocessor topology ID. Specifies the topology of
* postprocessing algorithms.
*/
} __packed;
#define ADM_CMD_CONNECT_AFE_PORT 0x00010320
#define ADM_CMD_DISCONNECT_AFE_PORT 0x00010321
struct adm_cmd_connect_afe_port {
struct apr_hdr hdr;
u8 mode; /*mode represent the interface is for RX or TX*/
u8 session_id; /*ASM session ID*/
u16 afe_port_id;
} __packed;
#define ADM_CMD_CONNECT_AFE_PORT_V2 0x00010332
struct adm_cmd_connect_afe_port_v2 {
struct apr_hdr hdr;
u8 mode; /*mode represent the interface is for RX or TX*/
u8 session_id; /*ASM session ID*/
u16 afe_port_id;
u32 num_channels;
u32 sampling_rate;
} __packed;
#define ASM_STREAM_CMD_SET_ENCDEC_PARAM 0x00010C10
#define ASM_STREAM_CMD_GET_ENCDEC_PARAM 0x00010C11
#define ASM_ENCDEC_CFG_BLK_ID 0x00010C2C
#define ASM_ENABLE_SBR_PS 0x00010C63
#define ASM_CONFIGURE_DUAL_MONO 0x00010C64
struct asm_stream_cmd_encdec_cfg_blk {
struct apr_hdr hdr;
u32 param_id;
u32 param_size;
struct asm_encode_cfg_blk enc_blk;
} __packed;
struct asm_stream_cmd_encdec_sbc_bitrate {
struct apr_hdr hdr;
u32 param_id;
struct asm_sbc_bitrate sbc_bitrate;
} __packed;
struct asm_stream_cmd_encdec_immed_decode {
struct apr_hdr hdr;
u32 param_id;
u32 param_size;
struct asm_immed_decode dec;
} __packed;
struct asm_stream_cmd_encdec_sbr {
struct apr_hdr hdr;
u32 param_id;
u32 param_size;
struct asm_sbr_ps sbr_ps;
} __packed;
struct asm_stream_cmd_encdec_dualmono {
struct apr_hdr hdr;
u32 param_id;
u32 param_size;
struct asm_dual_mono channel_map;
} __packed;
#define ASM_PARAM_ID_AAC_STEREO_MIX_COEFF_SELECTION_FLAG 0x00010DD8
/* Structure for AAC decoder stereo coefficient setting. */
struct asm_aac_stereo_mix_coeff_selection_param {
struct apr_hdr hdr;
u32 param_id;
u32 param_size;
u32 aac_stereo_mix_coeff_flag;
} __packed;
#define ASM_ENCDEC_DEC_CHAN_MAP 0x00010D82
struct asm_stream_cmd_encdec_channelmap {
struct apr_hdr hdr;
u32 param_id;
u32 param_size;
struct asm_dec_chan_map chan_map;
} __packed;
#define ASM_STREAM_CMD_ADJUST_SAMPLES 0x00010C0A
struct asm_stream_cmd_adjust_samples {
struct apr_hdr hdr;
u16 nsamples;
u16 reserved;
} __packed;
#define ASM_STREAM_CMD_TAP_POPP_PCM 0x00010BF9
struct asm_stream_cmd_tap_popp_pcm {
struct apr_hdr hdr;
u16 enable;
u16 reserved;
u32 module_id;
} __packed;
/* Session Level commands */
#define ASM_SESSION_CMD_MEMORY_MAP 0x00010C32
struct asm_stream_cmd_memory_map {
struct apr_hdr hdr;
u32 buf_add;
u32 buf_size;
u16 mempool_id;
u16 reserved;
} __packed;
#define ASM_SESSION_CMD_MEMORY_UNMAP 0x00010C33
struct asm_stream_cmd_memory_unmap {
struct apr_hdr hdr;
u32 buf_add;
} __packed;
#define ASM_SESSION_CMD_MEMORY_MAP_REGIONS 0x00010C45
struct asm_memory_map_regions {
u32 phys;
u32 buf_size;
} __packed;
struct asm_stream_cmd_memory_map_regions {
struct apr_hdr hdr;
u16 mempool_id;
u16 nregions;
} __packed;
#define ASM_SESSION_CMD_MEMORY_UNMAP_REGIONS 0x00010C46
struct asm_memory_unmap_regions {
u32 phys;
} __packed;
struct asm_stream_cmd_memory_unmap_regions {
struct apr_hdr hdr;
u16 nregions;
u16 reserved;
} __packed;
#define ASM_SESSION_CMD_RUN 0x00010BD2
struct asm_stream_cmd_run {
struct apr_hdr hdr;
u32 flags;
u32 msw_ts;
u32 lsw_ts;
} __packed;
/* Session level events */
#define ASM_SESSION_CMD_REGISTER_FOR_RX_UNDERFLOW_EVENTS 0x00010BD5
struct asm_stream_cmd_reg_rx_underflow_event {
struct apr_hdr hdr;
u16 enable;
u16 reserved;
} __packed;
#define ASM_SESSION_CMD_REGISTER_FOR_TX_OVERFLOW_EVENTS 0x00010BD6
struct asm_stream_cmd_reg_tx_overflow_event {
struct apr_hdr hdr;
u16 enable;
u16 reserved;
} __packed;
/* Data Path commands */
#define ASM_DATA_CMD_WRITE 0x00010BD9
struct asm_stream_cmd_write {
struct apr_hdr hdr;
u32 buf_add;
u32 avail_bytes;
u32 uid;
u32 msw_ts;
u32 lsw_ts;
u32 uflags;
} __packed;
#define ASM_DATA_CMD_READ 0x00010BDA
struct asm_stream_cmd_read {
struct apr_hdr hdr;
u32 buf_add;
u32 buf_size;
u32 uid;
} __packed;
#define ASM_DATA_CMD_READ_COMPRESSED 0x00010DBF
struct asm_stream_cmd_read_compressed {
struct apr_hdr hdr;
u32 buf_add;
u32 buf_size;
u32 uid;
} __packed;
#define ASM_DATA_CMD_MEDIA_FORMAT_UPDATE 0x00010BDC
#define ASM_DATA_EVENT_ENC_SR_CM_NOTIFY 0x00010BDE
struct asm_stream_media_format_update {
struct apr_hdr hdr;
u32 format;
u32 cfg_size;
union {
struct asm_pcm_cfg pcm_cfg;
struct asm_adpcm_cfg adpcm_cfg;
struct asm_yadpcm_cfg yadpcm_cfg;
struct asm_midi_cfg midi_cfg;
struct asm_wma_cfg wma_cfg;
struct asm_wmapro_cfg wmapro_cfg;
struct asm_aac_cfg aac_cfg;
struct asm_flac_cfg flac_cfg;
struct asm_vorbis_cfg vorbis_cfg;
struct asm_multi_channel_pcm_fmt_blk multi_ch_pcm_cfg;
struct asm_amrwbplus_cfg amrwbplus_cfg;
} __packed write_cfg;
} __packed;
/* Command Responses */
#define ASM_STREAM_CMDRSP_GET_ENCDEC_PARAM 0x00010C12
struct asm_stream_cmdrsp_get_readwrite_param {
struct apr_hdr hdr;
u32 status;
u32 param_id;
u16 param_size;
u16 padding;
union {
struct asm_sbc_bitrate sbc_bitrate;
struct asm_immed_decode aac_dec;
} __packed read_write_cfg;
} __packed;
#define ASM_SESSION_CMDRSP_GET_SESSION_TIME 0x00010BD8
struct asm_stream_cmdrsp_get_session_time {
struct apr_hdr hdr;
u32 status;
u32 msw_ts;
u32 lsw_ts;
} __packed;
#define ASM_DATA_EVENT_WRITE_DONE 0x00010BDF
struct asm_data_event_write_done {
u32 buf_add;
u32 status;
} __packed;
#define ASM_DATA_EVENT_READ_DONE 0x00010BE0
struct asm_data_event_read_done {
u32 status;
u32 buffer_add;
u32 enc_frame_size;
u32 offset;
u32 msw_ts;
u32 lsw_ts;
u32 flags;
u32 num_frames;
u32 id;
} __packed;
#define ASM_DATA_EVENT_READ_COMPRESSED_DONE 0x00010DC0
struct asm_data_event_read_compressed_done {
u32 status;
u32 buffer_add;
u32 enc_frame_size;
u32 offset;
u32 msw_ts;
u32 lsw_ts;
u32 flags;
u32 num_frames;
u32 id;
} __packed;
#define ASM_DATA_EVENT_SR_CM_CHANGE_NOTIFY 0x00010C65
struct asm_data_event_sr_cm_change_notify {
u32 sample_rate;
u16 no_of_channels;
u16 reserved;
u8 channel_map[8];
} __packed;
/* service level events */
#define ASM_SERVICE_CMDRSP_GET_STREAM_HANDLES 0x00010C1B
struct asm_svc_cmdrsp_get_strm_handles {
struct apr_hdr hdr;
u32 num_handles;
u32 stream_handles;
} __packed;
#define ASM_SERVICE_CMDRSP_GET_WALLCLOCK_TIME 0x00010C1A
struct asm_svc_cmdrsp_get_wallclock_time {
struct apr_hdr hdr;
u32 status;
u32 msw_ts;
u32 lsw_ts;
} __packed;
/* Error code */
#define ADSP_EOK 0x00000000 /* Success / completed / no errors. */
#define ADSP_EFAILED 0x00000001 /* General failure. */
#define ADSP_EBADPARAM 0x00000002 /* Bad operation parameter(s). */
#define ADSP_EUNSUPPORTED 0x00000003 /* Unsupported routine/operation. */
#define ADSP_EVERSION 0x00000004 /* Unsupported version. */
#define ADSP_EUNEXPECTED 0x00000005 /* Unexpected problem encountered. */
#define ADSP_EPANIC 0x00000006 /* Unhandled problem occurred. */
#define ADSP_ENORESOURCE 0x00000007 /* Unable to allocate resource(s). */
#define ADSP_EHANDLE 0x00000008 /* Invalid handle. */
#define ADSP_EALREADY 0x00000009 /* Operation is already processed. */
#define ADSP_ENOTREADY 0x0000000A /* Operation not ready to be processed*/
#define ADSP_EPENDING 0x0000000B /* Operation is pending completion*/
#define ADSP_EBUSY 0x0000000C /* Operation could not be accepted or
* processed.
*/
#define ADSP_EABORTED 0x0000000D /* Operation aborted due to an error. */
#define ADSP_EPREEMPTED 0x0000000E /* Operation preempted by higher priority*/
#define ADSP_ECONTINUE 0x0000000F /* Operation requests intervention
* to complete.
*/
#define ADSP_EIMMEDIATE 0x00000010 /* Operation requests immediate
* intervention to complete.
*/
#define ADSP_ENOTIMPL 0x00000011 /* Operation is not implemented. */
#define ADSP_ENEEDMORE 0x00000012 /* Operation needs more data or resources*/
/* SRS TRUMEDIA GUIDS */
#define SRS_TRUMEDIA_TOPOLOGY_ID 0x00010D90
#define SRS_TRUMEDIA_MODULE_ID 0x10005010
#define SRS_TRUMEDIA_PARAMS 0x10005011
#define SRS_TRUMEDIA_PARAMS_WOWHD 0x10005012
#define SRS_TRUMEDIA_PARAMS_CSHP 0x10005013
#define SRS_TRUMEDIA_PARAMS_HPF 0x10005014
#define SRS_TRUMEDIA_PARAMS_PEQ 0x10005015
#define SRS_TRUMEDIA_PARAMS_HL 0x10005016
/* SRS STUDIO SOUND 3D GUIDS */
#define SRS_SS3D_TOPOLOGY_ID 0x00010720
#define SRS_SS3D_MODULE_ID 0x10005020
#define SRS_SS3D_PARAMS 0x10005021
#define SRS_SS3D_PARAMS_CTRL 0x10005022
#define SRS_SS3D_PARAMS_FILTER 0x10005023
/* SRS ALSA CMD MASKS */
#define SRS_CMD_UPLOAD 0x7FFF0000
#define SRS_PARAM_INDEX_MASK 0x80000000
#define SRS_PARAM_OFFSET_MASK 0x3FFF0000
#define SRS_PARAM_VALUE_MASK 0x0000FFFF
/* SRS TRUMEDIA start */
#define SRS_ID_GLOBAL 0x00000001
#define SRS_ID_WOWHD 0x00000002
#define SRS_ID_CSHP 0x00000003
#define SRS_ID_HPF 0x00000004
#define SRS_ID_PEQ 0x00000005
#define SRS_ID_HL 0x00000006
struct srs_trumedia_params_GLOBAL {
uint8_t v1;
uint8_t v2;
uint8_t v3;
uint8_t v4;
uint8_t v5;
uint8_t v6;
uint8_t v7;
uint8_t v8;
} __packed;
struct srs_trumedia_params_WOWHD {
uint32_t v1;
uint16_t v2;
uint16_t v3;
uint16_t v4;
uint16_t v5;
uint16_t v6;
uint16_t v7;
uint16_t v8;
uint16_t v____A1;
uint32_t v9;
uint16_t v10;
uint16_t v11;
uint32_t v12[16];
} __packed;
struct srs_trumedia_params_CSHP {
uint32_t v1;
uint16_t v2;
uint16_t v3;
uint16_t v4;
uint16_t v5;
uint16_t v6;
uint16_t v____A1;
uint32_t v7;
uint16_t v8;
uint16_t v9;
uint32_t v10[16];
} __packed;
struct srs_trumedia_params_HPF {
uint32_t v1;
uint32_t v2[26];
} __packed;
struct srs_trumedia_params_PEQ {
uint32_t v1;
uint16_t v2;
uint16_t v3;
uint16_t v4;
uint16_t v____A1;
uint32_t v5[26];
uint32_t v6[26];
} __packed;
struct srs_trumedia_params_HL {
uint16_t v1;
uint16_t v2;
uint16_t v3;
uint16_t v____A1;
int32_t v4;
uint32_t v5;
uint16_t v6;
uint16_t v____A2;
uint32_t v7;
} __packed;
struct srs_trumedia_params {
struct srs_trumedia_params_GLOBAL global;
struct srs_trumedia_params_WOWHD wowhd;
struct srs_trumedia_params_CSHP cshp;
struct srs_trumedia_params_HPF hpf;
struct srs_trumedia_params_PEQ peq;
struct srs_trumedia_params_HL hl;
} __packed;
int srs_trumedia_open(int port_id, int srs_tech_id, void *srs_params);
/* SRS TruMedia end */
/* SRS Studio Sound 3D start */
#define SRS_ID_SS3D_GLOBAL 0x00000001
#define SRS_ID_SS3D_CTRL 0x00000002
#define SRS_ID_SS3D_FILTER 0x00000003
struct srs_SS3D_params_GLOBAL {
uint8_t v1;
uint8_t v2;
uint8_t v3;
uint8_t v4;
uint8_t v5;
uint8_t v6;
uint8_t v7;
uint8_t v8;
} __packed;
struct srs_SS3D_ctrl_params {
uint8_t v[236];
} __packed;
struct srs_SS3D_filter_params {
uint8_t v[28 + 2752];
} __packed;
struct srs_SS3D_params {
struct srs_SS3D_params_GLOBAL global;
struct srs_SS3D_ctrl_params ss3d;
struct srs_SS3D_filter_params ss3d_f;
} __packed;
int srs_ss3d_open(int port_id, int srs_tech_id, void *srs_params);
/* SRS Studio Sound 3D end */
#endif /*_APR_AUDIO_H_*/