blob: 50b776bfc5bbfbd09e423d686a2e544947d1c7f7 [file] [log] [blame]
/*
* Copyright (c) 2017, The Linux Foundation. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
* * Neither the name of The Linux Foundation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
* IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#define LOG_TAG "audio_hw_ffv"
/*#define LOG_NDEBUG 0*/
#define LOG_NDDEBUG 0
/*#define VERY_VERY_VERBOSE_LOGGING*/
#ifdef VERY_VERY_VERBOSE_LOGGING
#define ALOGVV ALOGV
#else
#define ALOGVV(a...) do { } while(0)
#endif
#include <errno.h>
#include <cutils/properties.h>
#include <stdlib.h>
#include <dlfcn.h>
#include <cutils/str_parms.h>
#include <cutils/log.h>
#include <pthread.h>
#include <sys/resource.h>
#include "audio_hw.h"
#include "platform.h"
#include "platform_api.h"
#include "ffv_interface.h"
#define AUDIO_PARAMETER_FFV_MODE_ON "ffvOn"
#define AUDIO_PARAMETER_FFV_SPLIT_EC_REF_DATA "ffv_split_ec_ref_data"
#define AUDIO_PARAMETER_FFV_EC_REF_CHANNEL_COUNT "ffv_ec_ref_channel_count"
#define AUDIO_PARAMETER_FFV_EC_REF_DEVICE "ffv_ec_ref_dev"
#define AUDIO_PARAMETER_FFV_CHANNEL_INDEX "ffv_channel_index"
#define FFV_LIB "libffv.so"
#define FFV_CONFIG_FILE_PATH "/etc/BF_1out.cfg"
#define FFV_SAMPLING_RATE_16000 16000
#define FFV_EC_REF_LOOPBACK_DEVICE_MONO "ec-ref-loopback-mono"
#define FFV_EC_REF_LOOPBACK_DEVICE_STEREO "ec-ref-loopback-stereo"
#define FFV_CHANNEL_MODE_MONO 1
#define FFV_CHANNEL_MODE_STEREO 2
#define FFV_CHANNEL_MODE_HEX 6
#define FFV_CHANNEL_MODE_OCT 8
#define FFV_PCM_BUFFER_DURATION_MS 160
#define FFV_PCM_PERIOD_COUNT (8)
#define FFV_PCM_PERIOD_SIZE \
((((FFV_SAMPLING_RATE_16000 * FFV_PCM_BUFFER_DURATION_MS) \
/(FFV_PCM_PERIOD_COUNT * 1000)) + 0x1f) & ~0x1f)
#define ALIGN(number, align) \
((number + align - 1) & ~(align - 1))
#define CALCULATE_PERIOD_SIZE(duration_ms, sample_rate, period_cnt, align) \
(ALIGN(((sample_rate * duration_ms) /(period_cnt * 1000)), align))
#define FFV_PCM_MAX_RETRY 10
#define FFV_PCM_SLEEP_WAIT 1000
#define DLSYM(handle, name, err) \
do {\
const char* error; \
*(void**)&name##_fn = dlsym(handle, #name);\
if ((error = dlerror())) {\
ALOGE("%s: dlsym failed for %s error %s", __func__, #name, error);\
err = -ENODEV;\
}\
} while(0)\
/* uncomment to collect pcm dumps */
//#define FFV_PCM_DUMP
static FfvStatusType (*ffv_init_fn)(void** handle, int num_tx_in_ch,
int num_out_ch, int num_ec_ref_ch, int frame_len, int sample_rate,
const char *config_file_name, char *svaModelBuffer,
uint32_t svaModelSize, int* totMemSize);
static void (*ffv_deinit_fn)(void* handle);
static void (*ffv_process_fn)(void *handle, const int16_t *in_pcm,
int16_t *out_pcm, const int16_t *ec_ref_pcm);
static int (*ffv_read_fn)(void* handle, int16_t *buf_pcm,
int max_buf_len);
static FfvStatusType (*ffv_get_param_fn)(void *handle, char *params_buffer_ptr,
int param_id, int buffer_size, int *param_size_ptr);
static FfvStatusType (*ffv_set_param_fn)(void *handle, char *params_buffer_ptr,
int param_id, int param_size);
static FfvStatusType (*ffv_register_event_callback_fn)(void *handle,
ffv_event_callback_fn_t *fun_ptr);
struct ffvmodule {
void *ffv_lib_handle;
unsigned char *in_buf;
unsigned int in_buf_size;
unsigned char *ec_ref_buf;
unsigned int ec_ref_buf_size;
unsigned char *split_in_buf;
unsigned int split_in_buf_size;
unsigned char *out_buf;
unsigned int out_buf_size;
struct pcm_config capture_config;
struct pcm_config out_config;
struct pcm_config ec_ref_config;
int ec_ref_pcm_id;
struct pcm *ec_ref_pcm;
int ec_ref_ch_cnt;
audio_devices_t ec_ref_dev;
bool split_ec_ref_data;
bool is_ffv_enabled;
bool buffers_allocated;
struct stream_in *in;
bool is_ffvmode_on;
void *handle;
pthread_mutex_t init_lock;
bool capture_started;
int target_ch_idx;
#ifdef FFV_PCM_DUMP
FILE *fp_input;
FILE *fp_ecref;
FILE *fp_split_input;
FILE *fp_output;
#endif
};
static struct ffvmodule ffvmod = {
.ffv_lib_handle = NULL,
.in_buf = NULL,
.in_buf_size = 0,
.ec_ref_buf = NULL,
.ec_ref_buf_size = 0,
.split_in_buf = NULL,
.split_in_buf_size = 0,
.out_buf = NULL,
.out_buf_size = 0,
.ec_ref_pcm = NULL,
.ec_ref_ch_cnt = 1,
.ec_ref_dev = AUDIO_DEVICE_OUT_SPEAKER,
.is_ffv_enabled = false,
.buffers_allocated = false,
.in = NULL,
.is_ffvmode_on = false,
.handle = NULL,
.capture_started = false,
.target_ch_idx = -1,
};
static struct pcm_config ffv_pcm_config = {
.channels = FFV_CHANNEL_MODE_MONO,
.rate = FFV_SAMPLING_RATE_16000,
.period_size = FFV_PCM_PERIOD_SIZE,
.period_count = FFV_PCM_PERIOD_COUNT,
.format = PCM_FORMAT_S16_LE,
};
static int32_t ffv_init_lib()
{
int status = 0;
if (ffvmod.ffv_lib_handle) {
ALOGE("%s: FFV library is already initialized", __func__);
return 0;
}
ffvmod.ffv_lib_handle = dlopen(FFV_LIB, RTLD_NOW);
if (!ffvmod.ffv_lib_handle) {
ALOGE("%s: Unable to open %s, error %s", __func__, FFV_LIB,
dlerror());
status = -ENOENT;
goto exit;
}
dlerror(); /* clear errors */
DLSYM(ffvmod.ffv_lib_handle, ffv_init, status);
if (status)
goto exit;
DLSYM(ffvmod.ffv_lib_handle, ffv_deinit, status);
if (status)
goto exit;
DLSYM(ffvmod.ffv_lib_handle, ffv_process, status);
if (status)
goto exit;
DLSYM(ffvmod.ffv_lib_handle, ffv_read, status);
if (status)
goto exit;
DLSYM(ffvmod.ffv_lib_handle, ffv_get_param, status);
if (status)
goto exit;
DLSYM(ffvmod.ffv_lib_handle, ffv_set_param, status);
if (status)
goto exit;
DLSYM(ffvmod.ffv_lib_handle, ffv_register_event_callback, status);
if (status)
goto exit;
return status;
exit:
if (ffvmod.ffv_lib_handle)
dlclose(ffvmod.ffv_lib_handle);
ffvmod.ffv_lib_handle = NULL;
return status;
}
static int deallocate_buffers()
{
if (ffvmod.in_buf) {
free(ffvmod.in_buf);
ffvmod.in_buf = NULL;
}
if (ffvmod.split_in_buf) {
free(ffvmod.split_in_buf);
ffvmod.split_in_buf = NULL;
}
if (ffvmod.ec_ref_buf) {
free(ffvmod.ec_ref_buf);
ffvmod.ec_ref_buf = NULL;
}
if (ffvmod.out_buf) {
free(ffvmod.out_buf);
ffvmod.out_buf = NULL;
}
ffvmod.buffers_allocated = false;
return 0;
}
static int allocate_buffers()
{
int status = 0;
/* in_buf - buffer read from capture session */
ffvmod.in_buf_size = ffvmod.capture_config.period_size * ffvmod.capture_config.channels *
(pcm_format_to_bits(ffvmod.capture_config.format) >> 3);
ffvmod.in_buf = (unsigned char *)calloc(1, ffvmod.in_buf_size);
if (!ffvmod.in_buf) {
ALOGE("%s: ERROR. Can not allocate in buffer size %d", __func__, ffvmod.in_buf_size);
status = -ENOMEM;
goto error_exit;
}
ALOGD("%s: Allocated in buffer size bytes =%d",
__func__, ffvmod.in_buf_size);
/* ec_buf - buffer read from ec ref capture session */
ffvmod.ec_ref_buf_size = ffvmod.ec_ref_config.period_size * ffvmod.ec_ref_config.channels *
(pcm_format_to_bits(ffvmod.ec_ref_config.format) >> 3);
ffvmod.ec_ref_buf = (unsigned char *)calloc(1, ffvmod.ec_ref_buf_size);
if (!ffvmod.ec_ref_buf) {
ALOGE("%s: ERROR. Can not allocate ec ref buffer size %d",
__func__, ffvmod.ec_ref_buf_size);
status = -ENOMEM;
goto error_exit;
}
ALOGD("%s: Allocated ec ref buffer size bytes =%d",
__func__, ffvmod.ec_ref_buf_size);
if (ffvmod.split_ec_ref_data) {
ffvmod.split_in_buf_size = ffvmod.in_buf_size - ffvmod.ec_ref_buf_size;
ffvmod.split_in_buf = (unsigned char *)calloc(1, ffvmod.split_in_buf_size);
if (!ffvmod.split_in_buf) {
ALOGE("%s: ERROR. Can not allocate split in buffer size %d",
__func__, ffvmod.split_in_buf_size);
status = -ENOMEM;
goto error_exit;
}
ALOGD("%s: Allocated split in buffer size bytes =%d",
__func__, ffvmod.split_in_buf_size);
}
/* out_buf - output buffer from FFV + SVA library */
ffvmod.out_buf_size = ffvmod.out_config.period_size * ffvmod.out_config.channels *
(pcm_format_to_bits(ffvmod.out_config.format) >> 3);
ffvmod.out_buf = (unsigned char *)calloc(1, ffvmod.out_buf_size);
if (!ffvmod.out_buf) {
ALOGE("%s: ERROR. Can not allocate out buffer size %d", __func__, ffvmod.out_buf_size);
status = -ENOMEM;
goto error_exit;
}
ALOGD("%s: Allocated out buffer size bytes =%d",
__func__, ffvmod.out_buf_size);
ffvmod.buffers_allocated = true;
return 0;
error_exit:
deallocate_buffers();
return status;
}
void audio_extn_ffv_update_enabled()
{
char ffv_enabled[PROPERTY_VALUE_MAX] = "false";
property_get("ro.qc.sdk.audio.ffv", ffv_enabled, "0");
if (!strncmp("true", ffv_enabled, 4)) {
ALOGD("%s: ffv is supported", __func__);
ffvmod.is_ffv_enabled = true;
} else {
ALOGD("%s: ffv is not supported", __func__);
ffvmod.is_ffv_enabled = false;
}
}
bool audio_extn_ffv_get_enabled()
{
ALOGV("%s: is_ffv_enabled:%d is_ffvmode_on:%d ", __func__, ffvmod.is_ffv_enabled, ffvmod.is_ffvmode_on);
if(ffvmod.is_ffv_enabled && ffvmod.is_ffvmode_on)
return true;
return false;
}
bool audio_extn_ffv_check_usecase(struct stream_in *in) {
int ret = false;
int channel_count = audio_channel_count_from_in_mask(in->channel_mask);
audio_devices_t devices = in->device;
audio_source_t source = in->source;
if ((audio_extn_ffv_get_enabled()) &&
(channel_count == 1) &&
(AUDIO_SOURCE_MIC == source) &&
((AUDIO_DEVICE_IN_BUILTIN_MIC == devices) || (AUDIO_DEVICE_IN_BACK_MIC == devices)) &&
(in->format == AUDIO_FORMAT_PCM_16_BIT) &&
(in->sample_rate == FFV_SAMPLING_RATE_16000)) {
in->config.channels = channel_count;
in->config.period_count = FFV_PCM_PERIOD_COUNT;
in->config.period_size = FFV_PCM_PERIOD_SIZE;
ALOGD("%s: FFV enabled", __func__);
ret = true;
}
return ret;
}
int audio_extn_ffv_set_usecase(struct stream_in *in)
{
int ret = -EINVAL;
if (audio_extn_ffv_check_usecase(in)) {
if (!audio_extn_ffv_stream_init(in)) {
ALOGD("%s: Created FFV session succesfully", __func__);
ret = 0;
} else {
ALOGE("%s: Unable to start FFV record session", __func__);
}
}
return ret;
}
struct stream_in *audio_extn_ffv_get_stream()
{
return ffvmod.in;
}
void audio_extn_ffv_update_pcm_config(struct pcm_config *config)
{
config->channels = ffvmod.capture_config.channels;
config->period_count = ffvmod.capture_config.period_count;
config->period_size = ffvmod.capture_config.period_size;
}
int32_t audio_extn_ffv_init(struct audio_device *adev)
{
int ret = 0;
ret = ffv_init_lib();
if (ret)
ALOGE("%s: ERROR. ffv_init_lib ret %d", __func__, ret);
pthread_mutex_init(&ffvmod.init_lock, NULL);
return ret;
}
int32_t audio_extn_ffv_deinit()
{
pthread_mutex_destroy(&ffvmod.init_lock);
if (ffvmod.ffv_lib_handle) {
dlclose(ffvmod.ffv_lib_handle);
ffvmod.ffv_lib_handle = NULL;
}
return 0;
}
int32_t audio_extn_ffv_stream_init(struct stream_in *in)
{
uint32_t ret = -EINVAL;
int num_tx_in_ch, num_out_ch, num_ec_ref_ch;
int frame_len;
int sample_rate;
const char *config_file_path = FFV_CONFIG_FILE_PATH;
int total_mem_size;
FfvStatusType status_type;
const char *sm_buffer = "DISABLE_KEYWORD_DETECTION";
ffv_target_channel_index_param_t ch_index_param;
char *params_buffer_ptr = NULL;
int param_size = 0;
int param_id;
if (!audio_extn_ffv_get_enabled()) {
ALOGE("Rejecting FFV -- init is called without enabling FFV");
goto fail;
}
if (ffvmod.handle != NULL) {
ALOGV("%s: reinitializing ffv library", __func__);
audio_extn_ffv_stream_deinit();
}
ffvmod.capture_config = ffv_pcm_config;
ffvmod.ec_ref_config = ffv_pcm_config;
ffvmod.out_config = ffv_pcm_config;
/* configure capture session with 6/8 channels */
ffvmod.capture_config.channels = ffvmod.split_ec_ref_data ?
FFV_CHANNEL_MODE_OCT : FFV_CHANNEL_MODE_HEX;
ffvmod.capture_config.period_size =
CALCULATE_PERIOD_SIZE(FFV_PCM_BUFFER_DURATION_MS,
ffvmod.capture_config.rate,
FFV_PCM_PERIOD_COUNT, 32);
/* Update channels with ec ref channel count */
ffvmod.ec_ref_config.channels = ffvmod.ec_ref_ch_cnt;
ffvmod.ec_ref_config.period_size =
CALCULATE_PERIOD_SIZE(FFV_PCM_BUFFER_DURATION_MS,
ffvmod.ec_ref_config.rate,
FFV_PCM_PERIOD_COUNT, 32);
ret = allocate_buffers();
if (ret)
goto fail;
num_ec_ref_ch = ffvmod.ec_ref_config.channels;
num_tx_in_ch = ffvmod.split_ec_ref_data ?
(ffvmod.capture_config.channels - num_ec_ref_ch) :
ffvmod.capture_config.channels;
num_out_ch = ffvmod.out_config.channels;
frame_len = ffvmod.capture_config.period_size;
sample_rate = ffvmod.capture_config.rate;
ALOGD("%s: ec_ref_ch %d, tx_in_ch %d, out_ch %d, frame_len %d, sample_rate %d",
__func__, num_ec_ref_ch, num_tx_in_ch, num_out_ch, frame_len, sample_rate);
ALOGD("%s: config file path %s", __func__, config_file_path);
status_type = ffv_init_fn(&ffvmod.handle, num_tx_in_ch, num_out_ch, num_ec_ref_ch,
frame_len, sample_rate, config_file_path, sm_buffer, 0,
&total_mem_size);
if (status_type) {
ALOGE("%s: ERROR. ffv_init returned %d", __func__, status_type);
ret = -EINVAL;
goto fail;
}
ALOGD("%s: ffv_init success %p", __func__, ffvmod.handle);
/* set target channel index if received as part of setparams */
if (ffvmod.target_ch_idx != -1) {
ALOGD("%s: target channel index %d", __func__, ffvmod.target_ch_idx);
ch_index_param.target_chan_idx = ffvmod.target_ch_idx;
params_buffer_ptr = (char *)&ch_index_param;
param_size = sizeof(ch_index_param);
param_id = FFV_TARGET_CHANNEL_INDEX_PARAM;
status_type = ffv_set_param_fn(ffvmod.handle, params_buffer_ptr,
param_id, param_size);
if (status_type) {
ALOGE("%s: ERROR. ffv_set_param_fn ret %d", __func__, status_type);
ret = -EINVAL;
goto fail;
}
}
ffvmod.in = in;
#ifdef FFV_PCM_DUMP
if (!ffvmod.fp_input) {
ALOGD("%s: Opening input dump file \n", __func__);
ffvmod.fp_input = fopen("/data/misc/audio/ffv_input.pcm", "wb");
}
if (!ffvmod.fp_ecref) {
ALOGD("%s: Opening ecref dump file \n", __func__);
ffvmod.fp_ecref = fopen("/data/misc/audio/ffv_ecref.pcm", "wb");
}
if (!ffvmod.fp_split_input && ffvmod.split_ec_ref_data) {
ALOGD("%s: Opening split input dump file \n", __func__);
ffvmod.fp_split_input = fopen("/data/misc/audio/ffv_split_input.pcm", "wb");
}
if (!ffvmod.fp_output) {
ALOGD("%s: Opening output dump file \n", __func__);
ffvmod.fp_output = fopen("/data/misc/audio/ffv_output.pcm", "wb");
}
#endif
ALOGV("%s: exit", __func__);
return 0;
fail:
audio_extn_ffv_stream_deinit();
return ret;
}
int32_t audio_extn_ffv_stream_deinit()
{
ALOGV("%s: entry", __func__);
#ifdef FFV_PCM_DUMP
if (ffvmod.fp_input)
fclose(ffvmod.fp_input);
if (ffvmod.fp_ecref)
fclose(ffvmod.fp_ecref);
if (ffvmod.fp_split_input)
fclose(ffvmod.fp_split_input);
if (ffvmod.fp_output)
fclose(ffvmod.fp_output);
#endif
if (ffvmod.handle)
ffv_deinit_fn(ffvmod.handle);
if (ffvmod.buffers_allocated)
deallocate_buffers();
ffvmod.handle = NULL;
ffvmod.in = NULL;
ALOGV("%s: exit", __func__);
return 0;
}
snd_device_t audio_extn_ffv_get_capture_snd_device()
{
if (ffvmod.capture_config.channels == FFV_CHANNEL_MODE_OCT) {
return SND_DEVICE_IN_HANDSET_8MIC;
} else if (ffvmod.capture_config.channels == FFV_CHANNEL_MODE_HEX) {
return SND_DEVICE_IN_HANDSET_6MIC;
} else {
ALOGE("%s: Invalid channels configured for capture", __func__);
return SND_DEVICE_NONE;
}
}
int audio_extn_ffv_init_ec_ref_loopback(struct audio_device *adev,
snd_device_t snd_device)
{
struct audio_usecase *uc_info_tx = NULL;
snd_device_t in_snd_device;
char *params_buffer_ptr = NULL;
int param_id = FFV_RESET_AEC_PARAM;
int param_size = 0;
FfvStatusType status_type;
int ret = 0;
ALOGV("%s: entry", __func__);
/* notify library to reset AEC during each start */
status_type = ffv_set_param_fn(ffvmod.handle, params_buffer_ptr,
param_id, param_size);
if (status_type) {
ALOGE("%s: ERROR. ffv_set_param_fn ret %d", __func__, status_type);
return -EINVAL;
}
if (ffvmod.split_ec_ref_data) {
ALOGV("%s: Ignore ec ref loopback init", __func__);
return 0;
}
in_snd_device = platform_get_ec_ref_loopback_snd_device(ffvmod.ec_ref_ch_cnt);
uc_info_tx = (struct audio_usecase *)calloc(1, sizeof(struct audio_usecase));
if (!uc_info_tx) {
return -ENOMEM;
}
pthread_mutex_lock(&ffvmod.init_lock);
uc_info_tx->id = USECASE_AUDIO_EC_REF_LOOPBACK;
uc_info_tx->type = PCM_CAPTURE;
uc_info_tx->in_snd_device = in_snd_device;
uc_info_tx->out_snd_device = SND_DEVICE_NONE;
ffvmod.ec_ref_pcm = NULL;
list_add_tail(&adev->usecase_list, &uc_info_tx->list);
enable_snd_device(adev, in_snd_device);
enable_audio_route(adev, uc_info_tx);
ffvmod.ec_ref_pcm_id = platform_get_pcm_device_id(uc_info_tx->id, PCM_CAPTURE);
if (ffvmod.ec_ref_pcm_id < 0) {
ALOGE("%s: Invalid pcm device for usecase (%d)",
__func__, uc_info_tx->id);
ret = -ENODEV;
goto exit;
}
ALOGV("%s: Opening PCM device card_id(%d) device_id(%d), channels %d format %d",
__func__, adev->snd_card, ffvmod.ec_ref_pcm_id, ffvmod.ec_ref_config.channels,
ffvmod.ec_ref_config.format);
ffvmod.ec_ref_pcm = pcm_open(adev->snd_card,
ffvmod.ec_ref_pcm_id,
PCM_IN, &ffvmod.ec_ref_config);
if (ffvmod.ec_ref_pcm && !pcm_is_ready(ffvmod.ec_ref_pcm)) {
ALOGE("%s: %s", __func__, pcm_get_error(ffvmod.ec_ref_pcm));
ret = -EIO;
goto exit;
}
ALOGV("%s: pcm_prepare", __func__);
if (pcm_prepare(ffvmod.ec_ref_pcm) < 0) {
ALOGE("%s: pcm prepare for ec ref loopback failed", __func__);
ret = -EINVAL;
}
ffvmod.capture_started = false;
pthread_mutex_unlock(&ffvmod.init_lock);
ALOGV("%s: exit", __func__);
return 0;
exit:
if (ffvmod.ec_ref_pcm) {
pcm_close(ffvmod.ec_ref_pcm);
ffvmod.ec_ref_pcm = NULL;
}
list_remove(&uc_info_tx->list);
disable_snd_device(adev, in_snd_device);
disable_audio_route(adev, uc_info_tx);
free(uc_info_tx);
pthread_mutex_unlock(&ffvmod.init_lock);
return ret;
}
void audio_extn_ffv_append_ec_ref_dev_name(char *device_name)
{
if (ffvmod.ec_ref_dev == AUDIO_DEVICE_OUT_LINE)
strlcat(device_name, " lineout", DEVICE_NAME_MAX_SIZE);
ALOGD("%s: ec ref dev name %s", __func__, device_name);
}
int audio_extn_ffv_deinit_ec_ref_loopback(struct audio_device *adev,
snd_device_t snd_device)
{
struct audio_usecase *uc_info_tx = NULL;
snd_device_t in_snd_device;
int ret = 0;
ALOGV("%s: entry", __func__);
if (ffvmod.split_ec_ref_data) {
ALOGV("%s: Ignore ec ref loopback init", __func__);
return 0;
}
in_snd_device = platform_get_ec_ref_loopback_snd_device(ffvmod.ec_ref_ch_cnt);
uc_info_tx = get_usecase_from_list(adev, USECASE_AUDIO_EC_REF_LOOPBACK);
pthread_mutex_lock(&ffvmod.init_lock);
if (ffvmod.ec_ref_pcm) {
pcm_close(ffvmod.ec_ref_pcm);
ffvmod.ec_ref_pcm = NULL;
}
disable_snd_device(adev, in_snd_device);
if (uc_info_tx) {
list_remove(&uc_info_tx->list);
disable_audio_route(adev, uc_info_tx);
free(uc_info_tx);
}
pthread_mutex_unlock(&ffvmod.init_lock);
ALOGV("%s: exit", __func__);
return ret;
}
int32_t audio_extn_ffv_read(struct audio_stream_in *stream,
void *buffer, size_t bytes)
{
int status = 0;
int16_t *in_ptr = NULL, *process_in_ptr = NULL, *process_out_ptr = NULL;
int16_t *process_ec_ref_ptr = NULL;
size_t in_buf_size, out_buf_size, bytes_to_copy;
int retry_num = 0;
int i, j, ch;
int total_in_ch, in_ch, ec_ref_ch;
if (!ffvmod.ffv_lib_handle) {
ALOGE("%s: ffv_lib_handle not initialized", __func__);
return -EINVAL;
}
if (!ffvmod.handle) {
ALOGE("%s: ffv module handle not initialized", __func__);
return -EINVAL;
}
if (!ffvmod.in || !ffvmod.in->pcm) {
ALOGE("%s: capture session not initiliazed", __func__);
return -EINVAL;
}
if (!ffvmod.split_ec_ref_data && !ffvmod.ec_ref_pcm) {
ALOGE("%s: ec ref session not initiliazed", __func__);
return -EINVAL;
}
if (!ffvmod.capture_started) {
/* pcm_start of capture and ec ref session before read to reduce drift */
pcm_start(ffvmod.in->pcm);
while (status && (retry_num < FFV_PCM_MAX_RETRY)) {
usleep(FFV_PCM_SLEEP_WAIT);
retry_num++;
ALOGI("%s: pcm_start retrying..status %d errno %d, retry cnt %d",
__func__, status, errno, retry_num);
status = pcm_start(ffvmod.in->pcm);
}
if (status) {
ALOGE("%s: ERROR. pcm_start failed, returned status %d - %s",
__func__, status, pcm_get_error(ffvmod.in->pcm));
return status;
}
retry_num = 0;
if (!ffvmod.split_ec_ref_data) {
pcm_start(ffvmod.ec_ref_pcm);
while (status && (retry_num < FFV_PCM_MAX_RETRY)) {
usleep(FFV_PCM_SLEEP_WAIT);
retry_num++;
ALOGI("%s: pcm_start retrying..status %d errno %d, retry cnt %d",
__func__, status, errno, retry_num);
status = pcm_start(ffvmod.ec_ref_pcm);
}
if (status) {
ALOGE("%s: ERROR. pcm_start failed, returned status %d - %s",
__func__, status, pcm_get_error(ffvmod.ec_ref_pcm));
return status;
}
}
ffvmod.capture_started = true;
}
ALOGVV("%s: pcm_read reading bytes=%d", __func__, ffvmod.in_buf_size);
status = pcm_read(ffvmod.in->pcm, ffvmod.in_buf, ffvmod.in_buf_size);
if (status) {
ALOGE("%s: pcm read failed status %d - %s", __func__, status,
pcm_get_error(ffvmod.in->pcm));
goto exit;
}
ALOGVV("%s: pcm_read done", __func__);
if (!ffvmod.split_ec_ref_data) {
/* read EC ref data */
ALOGVV("%s: ec ref pcm_read reading bytes=%d", __func__, ffvmod.ec_ref_buf_size);
status = pcm_read(ffvmod.ec_ref_pcm, ffvmod.ec_ref_buf, ffvmod.ec_ref_buf_size);
if (status) {
ALOGE("%s: ec ref pcm read failed status %d - %s", __func__, status,
pcm_get_error(ffvmod.ec_ref_pcm));
goto exit;
}
ALOGVV("%s: ec ref pcm_read done", __func__);
process_in_ptr = (int16_t *)ffvmod.in_buf;
process_ec_ref_ptr = (int16_t *)ffvmod.ec_ref_buf;
in_buf_size = ffvmod.in_buf_size;
} else {
/* split input buffer into actual input channels and EC ref channels */
in_ptr = (int16_t *)ffvmod.in_buf;
process_in_ptr = (int16_t *)ffvmod.split_in_buf;
process_ec_ref_ptr = (int16_t *)ffvmod.ec_ref_buf;
total_in_ch = ffvmod.capture_config.channels;
ec_ref_ch = ffvmod.ec_ref_config.channels;
in_ch = total_in_ch - ec_ref_ch;
for (i = 0; i < ffvmod.capture_config.period_size; i++) {
for (ch = 0; ch < in_ch; ch++) {
process_in_ptr[i*in_ch+ch] =
in_ptr[i*total_in_ch+ch];
}
for (ch = 0; ch < ec_ref_ch; ch++) {
process_ec_ref_ptr[i*ec_ref_ch+ch] =
in_ptr[i*total_in_ch+in_ch+ch];
}
}
in_buf_size = ffvmod.split_in_buf_size;
}
process_out_ptr = (int16_t *)ffvmod.out_buf;
ffv_process_fn(ffvmod.handle, process_in_ptr,
process_out_ptr, process_ec_ref_ptr);
out_buf_size = ffvmod.out_buf_size;
bytes_to_copy = (bytes <= out_buf_size) ? bytes : out_buf_size;
memcpy(buffer, process_out_ptr, bytes_to_copy);
if (bytes_to_copy != out_buf_size)
ALOGD("%s: out buffer data dropped, copied %d bytes",
__func__, bytes_to_copy);
#ifdef FFV_PCM_DUMP
if (ffvmod.fp_input)
fwrite(ffvmod.in_buf, 1, ffvmod.in_buf_size, ffvmod.fp_input);
if (ffvmod.fp_ecref)
fwrite(ffvmod.ec_ref_buf, 1, ffvmod.ec_ref_buf_size, ffvmod.fp_ecref);
if (ffvmod.fp_split_input)
fwrite(ffvmod.split_in_buf, 1, ffvmod.split_in_buf_size, ffvmod.fp_split_input);
if (ffvmod.fp_output)
fwrite(process_out_ptr, 1, bytes_to_copy, ffvmod.fp_output);
#endif
exit:
return status;
}
void audio_extn_ffv_set_parameters(struct audio_device *adev __unused,
struct str_parms *parms)
{
int err;
int val;
int ret = 0;
char value[128];
/* FFV params are required to be set before start of recording */
if (!ffvmod.handle) {
ret = str_parms_get_str(parms, AUDIO_PARAMETER_FFV_MODE_ON, value,
sizeof(value));
if (ret >= 0) {
str_parms_del(parms, AUDIO_PARAMETER_FFV_MODE_ON);
if (strcmp(value, "true") == 0) {
ALOGD("%s: Setting FFV mode to true", __func__);
ffvmod.is_ffvmode_on = true;
} else {
ALOGD("%s: Resetting FFV mode to false", __func__);
ffvmod.is_ffvmode_on = false;
}
}
ret = str_parms_get_str(parms, AUDIO_PARAMETER_FFV_SPLIT_EC_REF_DATA, value,
sizeof(value));
if (ret >= 0) {
str_parms_del(parms, AUDIO_PARAMETER_FFV_SPLIT_EC_REF_DATA);
if (strcmp(value, "true") == 0) {
ALOGD("%s: ec ref is packed with mic captured data", __func__);
ffvmod.split_ec_ref_data = true;
} else {
ALOGD("%s: ec ref is captured separately", __func__);
ffvmod.split_ec_ref_data = false;
}
}
ret = str_parms_get_int(parms, AUDIO_PARAMETER_FFV_EC_REF_CHANNEL_COUNT, &val);
if (ret >= 0) {
str_parms_del(parms, AUDIO_PARAMETER_FFV_EC_REF_CHANNEL_COUNT);
if (val == 1) {
ALOGD("%s: mono ec ref", __func__);
ffvmod.ec_ref_ch_cnt = FFV_CHANNEL_MODE_MONO;
} else if (val == 2) {
ALOGD("%s: stereo ec ref", __func__);
ffvmod.ec_ref_ch_cnt = FFV_CHANNEL_MODE_STEREO;
} else {
ALOGE("%s: Invalid ec ref", __func__);
}
}
ret = str_parms_get_int(parms, AUDIO_PARAMETER_FFV_EC_REF_DEVICE, &val);
if (ret >= 0) {
str_parms_del(parms, AUDIO_PARAMETER_FFV_EC_REF_DEVICE);
if (val & AUDIO_DEVICE_OUT_SPEAKER) {
ALOGD("%s: capture ec ref from speaker", __func__);
ffvmod.ec_ref_dev = AUDIO_DEVICE_OUT_SPEAKER;
} else if (val & AUDIO_DEVICE_OUT_LINE) {
ALOGD("%s: capture ec ref from line out", __func__);
ffvmod.ec_ref_dev = AUDIO_DEVICE_OUT_LINE;
} else {
ALOGE("%s: Invalid ec ref out device", __func__);
}
}
ret = str_parms_get_int(parms, AUDIO_PARAMETER_FFV_CHANNEL_INDEX, &val);
if (ret >= 0) {
str_parms_del(parms, AUDIO_PARAMETER_FFV_CHANNEL_INDEX);
ALOGD("%s: set target chan index %d", __func__, val);
ffvmod.target_ch_idx = val;
}
}
}