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/*
* audio-hal
*
* Copyright (c) 2015 - 2016 Samsung Electronics Co., Ltd. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
#include <math.h>
#include <vconf.h>
#include <iniparser.h>
#include "tizen-audio-internal.h"
#include "tizen-audio-impl.h"
#define VOLUME_INI_DEFAULT_PATH SYSCONFDIR"/multimedia/mmfw_audio_volume.ini" /* SYSCONFDIR is defined at .spec */
#define VOLUME_INI_TEMP_PATH "/opt/system/mmfw_audio_volume.ini"
#define VOLUME_VALUE_MAX (1.0f)
#define GAIN_VALUE_MAX (1.0f)
#define RADIO_TUNING_DEFUALT_FILE SYSCONFDIR"/multimedia/mmfw_fmradio.ini"
#define RADIO_TUNING_TEMP_FILE "/opt/system/.mmfw_fmradio.ini"
#define RADIO_TUNING_ENABLE "tuning:enable"
#define RADIO_TUNING_VOLUME_LEVELS "fmradio:volume_levels"
#define RADIO_TUNING_VOLUME_TABLE "fmradio:volume_table"
uint32_t g_master_volume_level = 100;
static const char *g_volume_vconf[AUDIO_VOLUME_TYPE_MAX] = {
"file/private/sound/volume/system", /* AUDIO_VOLUME_TYPE_SYSTEM */
"file/private/sound/volume/notification", /* AUDIO_VOLUME_TYPE_NOTIFICATION */
"file/private/sound/volume/alarm", /* AUDIO_VOLUME_TYPE_ALARM */
"file/private/sound/volume/ringtone", /* AUDIO_VOLUME_TYPE_RINGTONE */
"file/private/sound/volume/media", /* AUDIO_VOLUME_TYPE_MEDIA */
"file/private/sound/volume/call", /* AUDIO_VOLUME_TYPE_CALL */
"file/private/sound/volume/voip", /* AUDIO_VOLUME_TYPE_VOIP */
"file/private/sound/volume/voice", /* AUDIO_VOLUME_TYPE_VOICE */
};
static const char *__get_volume_type_string_by_idx(uint32_t vol_type_idx)
{
switch (vol_type_idx) {
case AUDIO_VOLUME_TYPE_SYSTEM: return "system";
case AUDIO_VOLUME_TYPE_NOTIFICATION: return "notification";
case AUDIO_VOLUME_TYPE_ALARM: return "alarm";
case AUDIO_VOLUME_TYPE_RINGTONE: return "ringtone";
case AUDIO_VOLUME_TYPE_MEDIA: return "media";
case AUDIO_VOLUME_TYPE_CALL: return "call";
case AUDIO_VOLUME_TYPE_VOIP: return "voip";
case AUDIO_VOLUME_TYPE_VOICE: return "voice";
default: return "invalid";
}
}
static uint32_t __get_volume_idx_by_string_type(const char *vol_type)
{
if (!strncmp(vol_type, "system", strlen(vol_type)) || !strncmp(vol_type, "0", strlen(vol_type)))
return AUDIO_VOLUME_TYPE_SYSTEM;
else if (!strncmp(vol_type, "notification", strlen(vol_type)) || !strncmp(vol_type, "1", strlen(vol_type)))
return AUDIO_VOLUME_TYPE_NOTIFICATION;
else if (!strncmp(vol_type, "alarm", strlen(vol_type)) || !strncmp(vol_type, "2", strlen(vol_type)))
return AUDIO_VOLUME_TYPE_ALARM;
else if (!strncmp(vol_type, "ringtone", strlen(vol_type)) || !strncmp(vol_type, "3", strlen(vol_type)))
return AUDIO_VOLUME_TYPE_RINGTONE;
else if (!strncmp(vol_type, "media", strlen(vol_type)) || !strncmp(vol_type, "4", strlen(vol_type)))
return AUDIO_VOLUME_TYPE_MEDIA;
else if (!strncmp(vol_type, "call", strlen(vol_type)) || !strncmp(vol_type, "5", strlen(vol_type)))
return AUDIO_VOLUME_TYPE_CALL;
else if (!strncmp(vol_type, "voip", strlen(vol_type)) || !strncmp(vol_type, "6", strlen(vol_type)))
return AUDIO_VOLUME_TYPE_VOIP;
else if (!strncmp(vol_type, "voice", strlen(vol_type)) || !strncmp(vol_type, "7", strlen(vol_type)))
return AUDIO_VOLUME_TYPE_VOICE;
else
return AUDIO_VOLUME_TYPE_MEDIA;
}
static const char *__get_gain_type_string_by_idx(uint32_t gain_type_idx)
{
switch (gain_type_idx) {
case AUDIO_GAIN_TYPE_DEFAULT: return "default";
case AUDIO_GAIN_TYPE_DIALER: return "dialer";
case AUDIO_GAIN_TYPE_TOUCH: return "touch";
case AUDIO_GAIN_TYPE_AF: return "af";
case AUDIO_GAIN_TYPE_SHUTTER1: return "shutter1";
case AUDIO_GAIN_TYPE_SHUTTER2: return "shutter2";
case AUDIO_GAIN_TYPE_CAMCODING: return "camcording";
case AUDIO_GAIN_TYPE_MIDI: return "midi";
case AUDIO_GAIN_TYPE_BOOTING: return "booting";
case AUDIO_GAIN_TYPE_VIDEO: return "video";
case AUDIO_GAIN_TYPE_TTS: return "tts";
default: return "invalid";
}
}
static void __dump_tb(audio_hal_s *ah)
{
audio_volume_value_table_s *volume_value_table = ah->volume.volume_value_table;
uint32_t vol_type_idx, vol_level_idx, gain_type_idx;
const char *gain_type_str[] = {
"def", /* AUDIO_GAIN_TYPE_DEFAULT */
"dial", /* AUDIO_GAIN_TYPE_DIALER */
"touch", /* AUDIO_GAIN_TYPE_TOUCH */
"af", /* AUDIO_GAIN_TYPE_AF */
"shut1", /* AUDIO_GAIN_TYPE_SHUTTER1 */
"shut2", /* AUDIO_GAIN_TYPE_SHUTTER2 */
"cam", /* AUDIO_GAIN_TYPE_CAMCODING */
"midi", /* AUDIO_GAIN_TYPE_MIDI */
"boot", /* AUDIO_GAIN_TYPE_BOOTING */
"video", /* AUDIO_GAIN_TYPE_VIDEO */
"tts", /* AUDIO_GAIN_TYPE_TTS */
};
char dump_str[AUDIO_DUMP_STR_LEN], *dump_str_ptr;
/* Dump volume table */
AUDIO_LOG_INFO("<<<<< volume table >>>>>");
const char *table_str = "volumes";
AUDIO_LOG_INFO("<< %s >>", table_str);
for (vol_type_idx = 0; vol_type_idx < AUDIO_VOLUME_TYPE_MAX; vol_type_idx++) {
const char *vol_type_str = __get_volume_type_string_by_idx(vol_type_idx);
dump_str_ptr = &dump_str[0];
memset(dump_str, 0x00, sizeof(char) * sizeof(dump_str));
snprintf(dump_str_ptr, 8, "%6s:", vol_type_str);
dump_str_ptr += strlen(dump_str_ptr);
for (vol_level_idx = 0; vol_level_idx < ah->volume.volume_level_max[vol_type_idx]; vol_level_idx++) {
snprintf(dump_str_ptr, 6, "%01.2f ", volume_value_table->volume[vol_type_idx][vol_level_idx]);
dump_str_ptr += strlen(dump_str_ptr);
}
AUDIO_LOG_INFO("%s", dump_str);
}
volume_value_table = ah->volume.volume_value_table;
/* Dump gain table */
AUDIO_LOG_INFO("<<<<< gain table >>>>>");
dump_str_ptr = &dump_str[0];
memset(dump_str, 0x00, sizeof(char) * sizeof(dump_str));
snprintf(dump_str_ptr, 11, "%10s", " ");
dump_str_ptr += strlen(dump_str_ptr);
for (gain_type_idx = 0; gain_type_idx < AUDIO_GAIN_TYPE_MAX; gain_type_idx++) {
snprintf(dump_str_ptr, 7, "%5s ", gain_type_str[gain_type_idx]);
dump_str_ptr += strlen(dump_str_ptr);
}
AUDIO_LOG_INFO("%s", dump_str);
dump_str_ptr = &dump_str[0];
memset(dump_str, 0x00, sizeof(char) * sizeof(dump_str));
snprintf(dump_str_ptr, 11, "%9s:", table_str);
dump_str_ptr += strlen(dump_str_ptr);
for (gain_type_idx = 0; gain_type_idx < AUDIO_GAIN_TYPE_MAX; gain_type_idx++) {
snprintf(dump_str_ptr, 7, "%01.3f ", volume_value_table->gain[gain_type_idx]);
dump_str_ptr += strlen(dump_str_ptr);
}
AUDIO_LOG_INFO("%s", dump_str);
}
static audio_return_e __load_volume_value_table_from_ini(audio_hal_s *ah)
{
dictionary * dict = NULL;
uint32_t vol_type_idx, vol_level_idx, gain_type_idx;
audio_volume_value_table_s *volume_value_table = ah->volume.volume_value_table;
int size = 0;
const char delimiter[] = ", ";
const char *table_str = "volumes";
const char *tmp_str = NULL;
const char *gain_str = NULL;
char *list_str = NULL, *ptr = NULL;
char *key, *token;
if (access(VOLUME_INI_TEMP_PATH, F_OK) == 0)
dict = iniparser_load(VOLUME_INI_TEMP_PATH);
if (!dict) {
AUDIO_LOG_DEBUG("Use default volume&gain ini file");
dict = iniparser_load(VOLUME_INI_DEFAULT_PATH);
if (!dict) {
AUDIO_LOG_WARN("Loading volume&gain table from ini file failed");
return AUDIO_ERR_UNDEFINED;
}
}
/* Load volume table */
for (vol_type_idx = 0; vol_type_idx < AUDIO_VOLUME_TYPE_MAX; vol_type_idx++) {
const char *vol_type_str = __get_volume_type_string_by_idx(vol_type_idx);
ah->volume.volume_level_max[vol_type_idx] = 0;
size = strlen(table_str) + strlen(vol_type_str) + 2;
key = malloc(size);
if (key) {
snprintf(key, size, "%s:%s", table_str, vol_type_str);
if ((tmp_str = iniparser_getstring(dict, key, NULL)))
list_str = strdup(tmp_str);
if (list_str) {
token = strtok_r(list_str, delimiter, &ptr);
while (token) {
/* convert dB volume to linear volume */
double vol_value = 0.0f;
if (strncmp(token, "0", strlen(token)))
vol_value = pow(10.0, (atof(token) - 100) / 20.0);
volume_value_table->volume[vol_type_idx][ah->volume.volume_level_max[vol_type_idx]++] = vol_value;
token = strtok_r(NULL, delimiter, &ptr);
}
free(list_str);
list_str = NULL;
} else {
ah->volume.volume_level_max[vol_type_idx] = 1;
for (vol_level_idx = 0; vol_level_idx < AUDIO_VOLUME_LEVEL_MAX; vol_level_idx++) {
volume_value_table->volume[vol_type_idx][vol_level_idx] = VOLUME_VALUE_MAX;
}
}
free(key);
}
}
/* Load gain table */
volume_value_table->gain[AUDIO_GAIN_TYPE_DEFAULT] = GAIN_VALUE_MAX;
for (gain_type_idx = AUDIO_GAIN_TYPE_DEFAULT + 1; gain_type_idx < AUDIO_GAIN_TYPE_MAX; gain_type_idx++) {
const char *gain_type_str = __get_gain_type_string_by_idx(gain_type_idx);
size = strlen(table_str) + strlen("gain") + strlen(gain_type_str) + 3;
key = malloc(size);
if (key) {
snprintf(key, size, "%s:gain_%s", table_str, gain_type_str);
gain_str = iniparser_getstring(dict, key, NULL);
if (gain_str) {
volume_value_table->gain[gain_type_idx] = atof(gain_str);
} else {
volume_value_table->gain[gain_type_idx] = GAIN_VALUE_MAX;
}
free(key);
} else {
volume_value_table->gain[gain_type_idx] = GAIN_VALUE_MAX;
}
}
iniparser_freedict(dict);
__dump_tb(ah);
return AUDIO_RET_OK;
}
static audio_return_e __load_radio_volume_table(int** volume_table, int *number_of_elements)
{
dictionary * dict = NULL;
const char delimiter[] = ", ";
const char *tmp_str = NULL;
char* ptr = NULL;
char* token = NULL;
char* list_str = NULL;
int* temp_table = NULL;
int index = 0;
int ret = 0;
bool tuning_enable = 0;
int not_found = -1;
int value = 0;
dict = iniparser_load(RADIO_TUNING_DEFUALT_FILE);
if (dict == NULL) {
AUDIO_LOG_ERROR("%s load failed", RADIO_TUNING_DEFUALT_FILE);
return AUDIO_ERR_UNDEFINED;
} else {
/*tuning enable */
value = iniparser_getboolean(dict, RADIO_TUNING_ENABLE, not_found);
if (value == not_found) {
AUDIO_LOG_ERROR("Can't get Tuning Enable value");
} else {
tuning_enable = value;
AUDIO_LOG_INFO("Tuning enabled.");
}
iniparser_freedict(dict); /*Cleanup*/
}
if (tuning_enable) {
AUDIO_LOG_INFO("Tuning enabled. load temp tuning file.");
dict = iniparser_load(RADIO_TUNING_TEMP_FILE);
if (!dict) {
AUDIO_LOG_WARN("%s load failed. Tuning enabled but there is not tuning temp file. Use temporary file", RADIO_TUNING_TEMP_FILE);
dict = iniparser_load(RADIO_TUNING_DEFUALT_FILE);
if (!dict) {
AUDIO_LOG_ERROR("%s load failed", RADIO_TUNING_DEFUALT_FILE);
return AUDIO_ERR_UNDEFINED;
}
}
} else {
AUDIO_LOG_INFO("Tuning diabled. load default tuning file.");
dict = iniparser_load(RADIO_TUNING_DEFUALT_FILE);
if (!dict) {
AUDIO_LOG_ERROR("%s load failed", RADIO_TUNING_DEFUALT_FILE);
return AUDIO_ERR_UNDEFINED;
}
}
*number_of_elements = iniparser_getint(dict, RADIO_TUNING_VOLUME_LEVELS, -1);
if (*number_of_elements <= 0 || *number_of_elements > RADIO_VOLUME_LEVEL_MAX) {
AUDIO_LOG_ERROR("invalid number of elements, %d", *number_of_elements);
ret = AUDIO_ERR_INTERNAL;
goto error;
}
temp_table = (int *)malloc((*number_of_elements) * sizeof(int));
if (!temp_table)
goto error;
*volume_table = temp_table;
if ((tmp_str = iniparser_getstring(dict, RADIO_TUNING_VOLUME_TABLE, NULL)))
list_str = strdup(tmp_str);
if (list_str) {
token = strtok_r(list_str, delimiter, &ptr);
while (token) {
temp_table[index] = atoi(token);
AUDIO_LOG_INFO("fm volume index %d is %d", index, temp_table[index]);
index++;
token = strtok_r(NULL, delimiter, &ptr);
}
free(list_str);
list_str = NULL;
}
error:
iniparser_freedict(dict);
return ret;
}
static audio_return_e _audio_volume_set_ratio_radio(audio_hal_s *ah, double ratio)
{
audio_return_e audio_ret = AUDIO_RET_OK;
int new_value = 0;
int prev_value = -1;
int mute = -1;
int max_value;
int min_value;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
/* Applying mute at volume zero */
if (ratio == 0) {
if ((audio_ret = _mixer_control_set_value(ah, MIXER_FMRADIO_MUTE, FMRADIO_MUTE_ON))) {
AUDIO_LOG_ERROR("[mute on] set mixer(%s) failed", MIXER_FMRADIO_MUTE);
return AUDIO_ERR_INTERNAL;
}
new_value = 0;
goto set_volume;
}
max_value = ah->volume.radio_volume_value_table[ah->volume.radio_volume_num_of_levels - 1];
min_value = ah->volume.radio_volume_value_table[0];
new_value = (int) (ratio * (max_value - min_value) + min_value);
set_volume:
/* Left volume */
if ((_mixer_control_get_value(ah, MIXER_FMRADIO_L_VOLUME, &prev_value)))
AUDIO_LOG_ERROR("[volume get] get mixer(%s) failed", MIXER_FMRADIO_L_VOLUME);
if (new_value != prev_value) {
AUDIO_LOG_INFO("[volume set] set mixer(%s), %d", MIXER_FMRADIO_L_VOLUME, new_value);
if ((audio_ret = _mixer_control_set_value(ah, MIXER_FMRADIO_L_VOLUME, new_value))) {
AUDIO_LOG_ERROR("[volume set] set mixer(%s) failed", MIXER_FMRADIO_L_VOLUME);
return audio_ret;
}
}
/* Right volume */
if ((_mixer_control_get_value(ah, MIXER_FMRADIO_R_VOLUME, &prev_value)))
AUDIO_LOG_ERROR("[volume get] get mixer(%s) failed", MIXER_FMRADIO_R_VOLUME);
if (new_value != prev_value) {
AUDIO_LOG_INFO("[volume set] set mixer(%s), %d", MIXER_FMRADIO_R_VOLUME, new_value);
if ((audio_ret = _mixer_control_set_value(ah, MIXER_FMRADIO_R_VOLUME, new_value))) {
AUDIO_LOG_ERROR("[volume set] set mixer(%s) failed", MIXER_FMRADIO_R_VOLUME);
return audio_ret;
}
}
if (ratio == 0)
return audio_ret;
/* Unmute if muted */
if ((audio_ret = _mixer_control_get_value(ah, MIXER_FMRADIO_MUTE, &mute))) {
AUDIO_LOG_ERROR("[mute get] get mixer(%s) failed", MIXER_FMRADIO_MUTE);
return audio_ret;
}
if (mute == FMRADIO_MUTE_ON) {
if ((audio_ret = _mixer_control_set_value(ah, MIXER_FMRADIO_MUTE, FMRADIO_MUTE_OFF))) {
AUDIO_LOG_ERROR("[mute off] set mixer(%s) failed", MIXER_FMRADIO_MUTE);
return audio_ret;
}
}
return audio_ret;
}
audio_return_e _audio_volume_init(audio_hal_s *ah)
{
int i;
int val = 0;
audio_return_e audio_ret = AUDIO_RET_OK;
int init_value[AUDIO_VOLUME_TYPE_MAX] = { 9, 11, 7, 11, 7, 4, 4, 7 };
int* fm_table = NULL;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
for (i = 0; i < AUDIO_VOLUME_TYPE_MAX; i++) {
ah->volume.volume_level[i] = init_value[i];
}
for (i = 0; i < AUDIO_VOLUME_TYPE_MAX; i++) {
/* Get volume value string from VCONF */
if (vconf_get_int(g_volume_vconf[i], &val) < 0) {
AUDIO_LOG_ERROR("vconf_get_int(%s) failed", g_volume_vconf[i]);
continue;
}
AUDIO_LOG_INFO("read vconf. %s = %d", g_volume_vconf[i], val);
ah->volume.volume_level[i] = val;
}
if (!(ah->volume.volume_value_table = malloc(AUDIO_VOLUME_DEVICE_MAX * sizeof(audio_volume_value_table_s)))) {
AUDIO_LOG_ERROR("volume_value_table malloc failed");
return AUDIO_ERR_RESOURCE;
}
audio_ret = __load_volume_value_table_from_ini(ah);
if (audio_ret != AUDIO_RET_OK) {
AUDIO_LOG_ERROR("gain table load error");
return AUDIO_ERR_UNDEFINED;
}
/* radio volume table */
__load_radio_volume_table(&fm_table, &ah->volume.radio_volume_num_of_levels);
if (fm_table) {
AUDIO_LOG_DEBUG("number of levels -> %d", ah->volume.radio_volume_num_of_levels);
/*copy from temp structure to main strcture*/
for (i = 0; i < ah->volume.radio_volume_num_of_levels; i++)
ah->volume.radio_volume_value_table[i] = fm_table[i];
free(fm_table);
fm_table = NULL;
}
return audio_ret;
}
audio_return_e _audio_volume_deinit(audio_hal_s *ah)
{
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
if (ah->volume.volume_value_table) {
free(ah->volume.volume_value_table);
ah->volume.volume_value_table = NULL;
}
return AUDIO_RET_OK;
}
audio_return_e audio_get_volume_level_max(void *audio_handle, audio_volume_info_s *info, uint32_t *level)
{
audio_hal_s *ah = (audio_hal_s *)audio_handle;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(level, AUDIO_ERR_PARAMETER);
/* Get max volume level by device & type */
*level = ah->volume.volume_level_max[__get_volume_idx_by_string_type(info->type)];
AUDIO_LOG_DEBUG("get_[%s] volume_level_max: %d", info->type, *level);
return AUDIO_RET_OK;
}
audio_return_e audio_get_volume_level(void *audio_handle, audio_volume_info_s *info, uint32_t *level)
{
audio_hal_s *ah = (audio_hal_s *)audio_handle;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(level, AUDIO_ERR_PARAMETER);
if (!strncmp(info->type, "master", strlen("master"))) {
*level = g_master_volume_level;
return AUDIO_RET_OK;
}
*level = ah->volume.volume_level[__get_volume_idx_by_string_type(info->type)];
AUDIO_LOG_INFO("get [%s] volume_level: %d, direction(%d)", info->type, *level, info->direction);
return AUDIO_RET_OK;
}
audio_return_e audio_get_volume_value(void *audio_handle, audio_volume_info_s *info, uint32_t level, double *value)
{
audio_hal_s *ah = (audio_hal_s *)audio_handle;
audio_volume_value_table_s *volume_value_table;
char dump_str[AUDIO_DUMP_STR_LEN] = {0,};
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(value, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(ah->volume.volume_value_table, AUDIO_ERR_PARAMETER);
/* Get basic volume by device & type & level */
volume_value_table = ah->volume.volume_value_table;
if (ah->volume.volume_level_max[__get_volume_idx_by_string_type(info->type)] < level)
*value = VOLUME_VALUE_MAX;
else
*value = volume_value_table->volume[__get_volume_idx_by_string_type(info->type)][level];
*value *= volume_value_table->gain[AUDIO_GAIN_TYPE_DEFAULT]; /* need to fix getting gain via audio_info_t */
AUDIO_LOG_DEBUG("get_volume_value:%d(%s)=>%f %s", level, info->type, *value, &dump_str[0]);
return AUDIO_RET_OK;
}
audio_return_e audio_set_volume_level(void *audio_handle, audio_volume_info_s *info, uint32_t level)
{
audio_return_e audio_ret = AUDIO_RET_OK;
audio_hal_s *ah = (audio_hal_s *)audio_handle;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info, AUDIO_ERR_PARAMETER);
if (!strncmp(info->type, "master", strlen("master"))) {
g_master_volume_level = level;
return AUDIO_RET_OK;
}
AUDIO_RETURN_VAL_IF_FAIL((ah->volume.volume_level_max[__get_volume_idx_by_string_type(info->type)] >= level), AUDIO_ERR_PARAMETER);
/* Update volume level */
ah->volume.volume_level[__get_volume_idx_by_string_type(info->type)] = level;
AUDIO_LOG_INFO("set [%s] volume_level: %d, direction(%d)", info->type, level, info->direction);
return audio_ret;
}
audio_return_e audio_get_volume_mute(void *audio_handle, audio_volume_info_s *info, uint32_t *mute)
{
audio_return_e audio_ret = AUDIO_RET_OK;
audio_hal_s *ah = (audio_hal_s *)audio_handle;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(mute, AUDIO_ERR_PARAMETER);
/* TODO. Not implemented */
return audio_ret;
}
audio_return_e audio_set_volume_mute(void *audio_handle, audio_volume_info_s *info, uint32_t mute)
{
audio_return_e audio_ret = AUDIO_RET_OK;
audio_hal_s *ah = (audio_hal_s *)audio_handle;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info, AUDIO_ERR_PARAMETER);
/* TODO. Not implemented */
return audio_ret;
}
audio_return_e audio_set_volume_ratio(void *audio_handle, audio_stream_info_s *info, double ratio)
{
audio_return_e audio_ret = AUDIO_RET_OK;
audio_hal_s *ah = (audio_hal_s *)audio_handle;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info, AUDIO_ERR_PARAMETER);
AUDIO_LOG_INFO("set [%s] volume_ratio: %f, direction(%u), index(%u)", info->role, ratio, info->direction, info->idx);
if (!strncmp(info->role, "radio", strlen(info->role))) {
AUDIO_LOG_INFO("set radio volume according to the ratio[%f]", ratio);
audio_ret = _audio_volume_set_ratio_radio(ah, ratio);
}
return audio_ret;
}
audio_return_e audio_notify_ducking_activation_changed(void *audio_handle, audio_ducking_info_s *info, uint32_t is_activated)
{
audio_return_e audio_ret = AUDIO_RET_OK;
audio_hal_s *ah = (audio_hal_s *)audio_handle;
AUDIO_RETURN_VAL_IF_FAIL(ah, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info, AUDIO_ERR_PARAMETER);
AUDIO_RETURN_VAL_IF_FAIL(info->target_role, AUDIO_ERR_PARAMETER);
AUDIO_LOG_INFO("role:%s, duration:%u, ratio:%lf, is_activated:%u", info->target_role, info->duration, info->ratio, is_activated);
/* TODO. Not implemented */
return audio_ret;
}
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