blob: 1d2a2fa9a555e76e73aa8f49d22fd4db6ae83692 [file] [log] [blame]
/*
* Copyright (c) 2019-2021, 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 "PAL: Bluetooth"
#include "Bluetooth.h"
#include "ResourceManager.h"
#include "PayloadBuilder.h"
#include "Stream.h"
#include "Session.h"
#include "SessionAlsaUtils.h"
#include "Device.h"
#include "kvh2xml.h"
#include <dlfcn.h>
#include <unistd.h>
#include <cutils/properties.h>
#include <sstream>
#include <string>
#include <regex>
#define PARAM_ID_RESET_PLACEHOLDER_MODULE 0x08001173
#define BT_IPC_SOURCE_LIB "btaudio_offload_if.so"
#define BT_IPC_SINK_LIB "libbthost_if_sink.so"
#define MIXER_SET_FEEDBACK_CHANNEL "BT set feedback channel"
#define BT_SLIMBUS_CLK_STR "BT SLIMBUS CLK SRC"
Bluetooth::Bluetooth(struct pal_device *device, std::shared_ptr<ResourceManager> Rm)
: Device(device, Rm),
codecFormat(CODEC_TYPE_INVALID),
codecInfo(NULL),
isAbrEnabled(false),
isConfigured(false),
isLC3MonoModeOn(false),
isTwsMonoModeOn(false),
isScramblingEnabled(false),
isDummySink(false),
isEncDecConfigured(false),
abrRefCnt(0),
totalActiveSessionRequests(0)
{
}
Bluetooth::~Bluetooth()
{
}
int Bluetooth::updateDeviceMetadata()
{
int ret = 0;
std::string backEndName;
std::vector <std::pair<int, int>> keyVector;
ret = PayloadBuilder::getBtDeviceKV(deviceAttr.id, keyVector, codecFormat,
isAbrEnabled, false);
if (ret)
PAL_ERR(LOG_TAG, "No KVs found for device id %d codec format:0x%x",
deviceAttr.id, codecFormat);
rm->getBackendName(deviceAttr.id, backEndName);
ret = SessionAlsaUtils::setDeviceMetadata(rm, backEndName, keyVector);
return ret;
}
void Bluetooth::updateDeviceAttributes()
{
deviceAttr.config.sample_rate = codecConfig.sample_rate;
switch (codecFormat) {
case CODEC_TYPE_AAC:
case CODEC_TYPE_SBC:
if (codecType == DEC &&
(codecConfig.sample_rate == 44100 ||
codecConfig.sample_rate == 48000))
deviceAttr.config.sample_rate = codecConfig.sample_rate * 2;
break;
case CODEC_TYPE_LDAC:
case CODEC_TYPE_APTX_AD:
if (codecType == ENC &&
(codecConfig.sample_rate == 44100 ||
codecConfig.sample_rate == 48000))
deviceAttr.config.sample_rate = codecConfig.sample_rate * 2;
break;
case CODEC_TYPE_APTX_AD_SPEECH:
deviceAttr.config.sample_rate = SAMPLINGRATE_96K;
deviceAttr.config.aud_fmt_id = PAL_AUDIO_FMT_DEFAULT_COMPRESSED;
break;
case CODEC_TYPE_LC3:
case CODEC_TYPE_APTX_AD_QLEA:
deviceAttr.config.sample_rate = SAMPLINGRATE_96K;
deviceAttr.config.aud_fmt_id = PAL_AUDIO_FMT_DEFAULT_COMPRESSED;
break;
default:
break;
}
}
bool Bluetooth::isPlaceholderEncoder()
{
switch (codecFormat) {
case CODEC_TYPE_LDAC:
case CODEC_TYPE_APTX_AD:
case CODEC_TYPE_APTX_AD_SPEECH:
case CODEC_TYPE_LC3:
case CODEC_TYPE_APTX_AD_QLEA:
return false;
case CODEC_TYPE_AAC:
return isAbrEnabled ? false : true;
default:
return true;
}
}
int Bluetooth::getPluginPayload(void **libHandle, bt_codec_t **btCodec,
bt_enc_payload_t **out_buf, codec_type codecType)
{
std::string lib_path;
open_fn_t plugin_open_fn = NULL;
int status = 0;
bt_codec_t *codec = NULL;
void *handle = NULL;
lib_path = rm->getBtCodecLib(codecFormat, (codecType == ENC ? "enc" : "dec"));
if (lib_path.empty()) {
PAL_ERR(LOG_TAG, "fail to get BT codec library");
return -ENOSYS;
}
handle = dlopen(lib_path.c_str(), RTLD_NOW);
if (handle == NULL) {
PAL_ERR(LOG_TAG, "failed to dlopen lib %s", lib_path.c_str());
return -EINVAL;
}
dlerror();
plugin_open_fn = (open_fn_t)dlsym(handle, "plugin_open");
if (!plugin_open_fn) {
PAL_ERR(LOG_TAG, "dlsym to open fn failed, err = '%s'", dlerror());
status = -EINVAL;
goto error;
}
status = plugin_open_fn(&codec, codecFormat, codecType);
if (status) {
PAL_ERR(LOG_TAG, "failed to open plugin %d", status);
goto error;
}
status = codec->plugin_populate_payload(codec, codecInfo, (void **)out_buf);
if (status != 0) {
PAL_ERR(LOG_TAG, "fail to pack the encoder config %d", status);
goto error;
}
*btCodec = codec;
*libHandle = handle;
goto done;
error:
if (codec)
codec->close_plugin(codec);
if (handle)
dlclose(handle);
done:
return status;
}
int Bluetooth::configureA2dpEncoderDecoder()
{
int status = 0, i;
Stream *stream = NULL;
Session *session = NULL;
std::vector<Stream*> activestreams;
bt_enc_payload_t *out_buf = NULL;
PayloadBuilder* builder = new PayloadBuilder();
std::string backEndName;
uint8_t* paramData = NULL;
size_t paramSize = 0;
uint32_t codecTagId = 0;
uint32_t miid = 0, ratMiid = 0, copMiid = 0, cnvMiid = 0;
std::shared_ptr<Device> dev = nullptr;
uint32_t num_payloads = 0;
isConfigured = false;
PAL_DBG(LOG_TAG, "Enter");
rm->getBackendName(deviceAttr.id, backEndName);
dev = Device::getInstance(&deviceAttr, rm);
status = rm->getActiveStream_l(activestreams, dev);
if ((0 != status) || (activestreams.size() == 0)) {
PAL_ERR(LOG_TAG, "no active stream available");
status = -EINVAL;
goto error;
}
stream = static_cast<Stream *>(activestreams[0]);
stream->getAssociatedSession(&session);
PAL_INFO(LOG_TAG, "choose BT codec format %x", codecFormat);
/* Retrieve plugin library from resource manager.
* Map to interested symbols.
*/
status = getPluginPayload(&pluginHandler, &pluginCodec, &out_buf, codecType);
if (status) {
PAL_ERR(LOG_TAG, "failed to payload from plugin");
goto error;
}
codecConfig.sample_rate = out_buf->sample_rate;
codecConfig.bit_width = out_buf->bit_format;
codecConfig.ch_info.channels = out_buf->channel_count;
isAbrEnabled = out_buf->is_abr_enabled;
isEncDecConfigured = (out_buf->is_enc_config_set && out_buf->is_dec_config_set);
/* Reset device GKV for AAC ABR */
if ((codecFormat == CODEC_TYPE_AAC) && isAbrEnabled)
updateDeviceMetadata();
/* Update Device sampleRate based on encoder config */
updateDeviceAttributes();
codecTagId = (codecType == ENC ? BT_PLACEHOLDER_ENCODER : BT_PLACEHOLDER_DECODER);
status = session->getMIID(backEndName.c_str(), codecTagId, &miid);
if (status) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, status = %d", codecTagId, status);
goto error;
}
if (isPlaceholderEncoder()) {
PAL_DBG(LOG_TAG, "Resetting placeholder module");
builder->payloadCustomParam(&paramData, &paramSize, NULL, 0,
miid, PARAM_ID_RESET_PLACEHOLDER_MODULE);
if (!paramData) {
PAL_ERR(LOG_TAG, "Failed to populateAPMHeader");
status = -ENOMEM;
goto error;
}
dev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
}
/* BT Encoder & Decoder Module Configuration */
num_payloads = out_buf->num_blks;
for (i = 0; i < num_payloads; i++) {
custom_block_t *blk = out_buf->blocks[i];
builder->payloadCustomParam(&paramData, &paramSize,
(uint32_t *)blk->payload, blk->payload_sz, miid, blk->param_id);
if (!paramData) {
PAL_ERR(LOG_TAG, "Failed to populateAPMHeader");
status = -ENOMEM;
goto error;
}
dev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
}
/* ---------------------------------------------------------------------------
* | Encoder | PSPD MFC/RAT/PCM CNV | COP Packetizer/HW EP
* ---------------------------------------------------------------------------
* SBC | E_SR = SR of encoder | Same as encoder | SR:E_SR BW:16 CH:1
* ------| |----------------------|----------------------
* AAC | E_CH = CH of encoder | Same as encoder | SR:E_SR BW:16 CH:1
* ------| |----------------------|----------------------
* LDAC | E_BW = BW of encoder | Same as encoder | if E_SR = 44.1/48KHz
* | | | SR:E_SR*2 BW:16 CH:1
* | | | else
* | | | SR:E_SR BW:16 CH:1
* ------| |----------------------|----------------------
* APTX | | Same as encoder | SR:E_SR BW:16 CH:1
* ------| |----------------------|----------------------
* APTX | | Same as encoder | SR:E_SR BW:16 CH:1
* HD | | |
* ------| |----------------------|----------------------
* APTX | | Same as encoder | if E_SR = 44.1/48KHz
* AD | | | SR:E_SR*2 BW:16 CH:1
* | | | else
* | | | SR:E_SR BW:16 CH:1
* ------|----------------------|----------------------|----------------------
* LC3 | E_SR = SR of encoder | Same as encoder | SR:96KHz BW:16 CH:1
* | E_CH = CH of encoder | |
* | E_BW = 24 | |
* ---------------------------------------------------------------------------
* APTX | E_SR = 32KHz | Same as encoder | SR:96KHz BW:16 CH:1
* AD Speech | E_CH = 1 | |
* | E_BW = 16 | |
* ---------------------------------------------------------------------------
* LC3 | E_SR = SR of encoder | Same as encoder | SR:96KHz BW:16 CH:1
* Voice | E_CH = CH of encoder | |
* | E_BW = 24 | |
* --------------------------------------------------------------------------- */
if (codecFormat == CODEC_TYPE_APTX_AD_SPEECH) {
PAL_DBG(LOG_TAG, "Skip the rest of static configurations coming from ACDB");
goto done;
}
if (codecFormat == CODEC_TYPE_APTX_DUAL_MONO ||
codecFormat == CODEC_TYPE_APTX_AD) {
builder->payloadTWSConfig(&paramData, &paramSize, miid,
isTwsMonoModeOn, codecFormat);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid TWS param size");
goto error;
}
}
if (codecFormat == CODEC_TYPE_LC3 || codecFormat == CODEC_TYPE_APTX_AD_QLEA) {
builder->payloadLC3Config(&paramData, &paramSize, miid,
isLC3MonoModeOn);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid LC3 param size");
goto error;
}
if (codecType == DEC) {
/* COP v2 DEPACKETIZER Module Configuration */
status = session->getMIID(backEndName.c_str(), COP_DEPACKETIZER_V2, &copMiid);
if (status) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, status = %d",
COP_DEPACKETIZER_V2, status);
goto error;
}
builder->payloadCopV2DepackConfig(&paramData, &paramSize,
copMiid, codecInfo, false /* StreamMapOut */);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COPv2 module param size");
goto error;
}
builder->payloadCopV2DepackConfig(&paramData, &paramSize,
copMiid, codecInfo, true /* StreamMapIn */);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COPv2 module param size");
goto error;
}
/* RAT Module Configuration */
status = session->getMIID(backEndName.c_str(), RAT_RENDER, &ratMiid);
if (status) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, status = %d", RAT_RENDER, status);
goto error;
} else {
builder->payloadRATConfig(&paramData, &paramSize, ratMiid, &codecConfig);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid RAT module param size");
goto error;
}
}
/* PCM CNV Module Configuration */
status = session->getMIID(backEndName.c_str(), BT_PCM_CONVERTER, &cnvMiid);
if (status) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, status = %d",
BT_PCM_CONVERTER, status);
goto error;
}
builder->payloadPcmCnvConfig(&paramData, &paramSize, cnvMiid, &codecConfig, false /* isRx */);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid PCM CNV module param size");
goto error;
}
goto done;
}
/* COP v2 PACKETIZER Module Configuration */
status = session->getMIID(backEndName.c_str(), COP_PACKETIZER_V2, &copMiid);
if (status) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, status = %d",
COP_PACKETIZER_V2, status);
goto error;
}
// PARAM_ID_COP_V2_STREAM_INFO for COPv2
builder->payloadCopV2PackConfig(&paramData, &paramSize, copMiid, codecInfo);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COPv2 module param size");
goto error;
}
// PARAM_ID_COP_PACKETIZER_OUTPUT_MEDIA_FORMAT for COPv2
builder->payloadCopPackConfig(&paramData, &paramSize, copMiid, &deviceAttr.config);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COP module param size");
goto error;
}
} else { /* codecFormat != CODEC_TYPE_LC3 */
// Bypass COP V0 DEPACKETIZER Module Configuration for TX path
if (codecType == DEC)
goto done;
/* COP v0 PACKETIZER Module Configuration */
status = session->getMIID(backEndName.c_str(), COP_PACKETIZER_V0, &copMiid);
if (status) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, status = %d",
COP_PACKETIZER_V0, status);
goto error;
}
// PARAM_ID_COP_PACKETIZER_OUTPUT_MEDIA_FORMAT for COPv0
builder->payloadCopPackConfig(&paramData, &paramSize, copMiid, &deviceAttr.config);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COP module param size");
goto error;
}
if (isScramblingEnabled) {
builder->payloadScramblingConfig(&paramData, &paramSize, copMiid, isScramblingEnabled);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COP module param size");
goto error;
}
}
}
/* RAT Module Configuration */
status = session->getMIID(backEndName.c_str(), RAT_RENDER, &ratMiid);
if (status) {
// Graphs with abr enabled will have RAT, Other graphs do not need a RAT.
// Hence not configuring RAT module can be ignored.
if (isAbrEnabled) {
PAL_ERR(LOG_TAG, "Failed to get tag for RAT_RENDER for isAbrEnabled %d,"
"codecFormat = %x", isAbrEnabled, codecFormat);
goto error;
} else {
PAL_INFO(LOG_TAG, "Failed to get tag info %x, status = %d - can be ignored",
RAT_RENDER, status);
}
} else {
builder->payloadRATConfig(&paramData, &paramSize, ratMiid, &codecConfig);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid RAT module param size");
goto error;
}
}
/* PCM CNV Module Configuration */
status = session->getMIID(backEndName.c_str(), BT_PCM_CONVERTER, &cnvMiid);
if (status) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, status = %d",
BT_PCM_CONVERTER, status);
goto error;
}
builder->payloadPcmCnvConfig(&paramData, &paramSize, cnvMiid, &codecConfig, true /* isRx */);
if (paramSize) {
dev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
status = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid PCM CNV module param size");
goto error;
}
done:
isConfigured = true;
error:
if (builder) {
delete builder;
builder = NULL;
}
PAL_DBG(LOG_TAG, "Exit");
return status;
}
int Bluetooth::configureNrecParameters(bool isNrecEnabled)
{
int status = 0, i;
Stream *stream = NULL;
Session *session = NULL;
std::vector<Stream*> activestreams;
PayloadBuilder* builder = new PayloadBuilder();
std::string backEndName;
uint8_t* paramData = NULL;
size_t paramSize = 0;
uint32_t miid = 0;
std::shared_ptr<Device> dev = nullptr;
uint32_t num_payloads = 0;
PAL_DBG(LOG_TAG, "Enter");
if (!builder) {
PAL_ERR(LOG_TAG, "Failed to new PayloadBuilder()");
status = -ENOMEM;
goto exit;
}
rm->getBackendName(deviceAttr.id, backEndName);
dev = Device::getInstance(&deviceAttr, rm);
if (dev == 0) {
PAL_ERR(LOG_TAG, "device_id[%d] Instance query failed", deviceAttr.id );
status = -EINVAL;
goto exit;
}
status = rm->getActiveStream_l(activestreams, dev);
if ((0 != status) || (activestreams.size() == 0)) {
PAL_ERR(LOG_TAG, "no active stream available");
status = -EINVAL;
goto exit;
}
stream = static_cast<Stream *>(activestreams[0]);
stream->getAssociatedSession(&session);
status = session->getMIID(backEndName.c_str(), TAG_ECNS, &miid);
if (!status) {
PAL_DBG(LOG_TAG, "Setting NREC Configuration");
builder->payloadNRECConfig(&paramData, &paramSize,
miid, isNrecEnabled);
if (!paramData) {
PAL_ERR(LOG_TAG, "Failed to payloadNRECConfig");
status = -ENOMEM;
goto exit;
}
dev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
} else {
PAL_ERR(LOG_TAG, "Failed to find ECNS module info %x, status = %d"
"cannot set NREC parameters",
TAG_ECNS, status);
}
exit:
if (builder) {
delete builder;
builder = NULL;
}
PAL_DBG(LOG_TAG, "Exit");
return status;
}
int Bluetooth::getCodecConfig(struct pal_media_config *config)
{
if (!config) {
PAL_ERR(LOG_TAG, "Invalid codec config");
return -EINVAL;
}
if (isConfigured) {
ar_mem_cpy(config, sizeof(struct pal_media_config),
&codecConfig, sizeof(struct pal_media_config));
}
return 0;
}
void Bluetooth::startAbr()
{
int ret = 0, dir;
struct pal_device fbDevice;
struct pal_channel_info ch_info;
struct pal_stream_attributes sAttr;
std::string backEndName;
std::vector <std::pair<int, int>> keyVector;
struct pcm_config config;
struct mixer_ctl *connectCtrl = NULL;
struct mixer_ctl *disconnectCtrl = NULL;
struct mixer_ctl *btSetFeedbackChannelCtrl = NULL;
struct mixer *virtualMixerHandle = NULL;
struct mixer *hwMixerHandle = NULL;
std::ostringstream connectCtrlName;
std::ostringstream disconnectCtrlName;
unsigned int flags;
uint32_t codecTagId = 0, miid = 0;
void *pluginLibHandle = NULL;
bt_codec_t *codec = NULL;
bt_enc_payload_t *out_buf = NULL;
custom_block_t *blk = NULL;
uint8_t* paramData = NULL;
size_t paramSize = 0;
PayloadBuilder* builder = NULL;
bool isDeviceLocked = false;
audio_lc3_codec_cfg_t* bt_ble_codec = NULL;
memset(&fbDevice, 0, sizeof(fbDevice));
memset(&sAttr, 0, sizeof(sAttr));
memset(&config, 0, sizeof(config));
mAbrMutex.lock();
if (abrRefCnt > 0) {
abrRefCnt++;
mAbrMutex.unlock();
return;
}
/* Configure device attributes */
ch_info.channels = CHANNELS_1;
ch_info.ch_map[0] = PAL_CHMAP_CHANNEL_FL;
fbDevice.config.ch_info = ch_info;
fbDevice.config.bit_width = BITWIDTH_16;
fbDevice.config.aud_fmt_id = PAL_AUDIO_FMT_DEFAULT_COMPRESSED;
if ((codecFormat == CODEC_TYPE_APTX_AD_SPEECH) ||
(codecFormat == CODEC_TYPE_LC3) ||
(codecFormat == CODEC_TYPE_APTX_AD_QLEA)) {
fbDevice.config.sample_rate = SAMPLINGRATE_96K;
} else {
fbDevice.config.sample_rate = SAMPLINGRATE_8K;
}
if (codecType == DEC) { /* Usecase is TX, feedback device will be RX */
if (deviceAttr.id == PAL_DEVICE_IN_BLUETOOTH_A2DP) {
fbDevice.id = PAL_DEVICE_OUT_BLUETOOTH_A2DP;
} else if (deviceAttr.id == PAL_DEVICE_IN_BLUETOOTH_SCO_HEADSET) {
fbDevice.id = PAL_DEVICE_OUT_BLUETOOTH_SCO;
} else if (deviceAttr.id == PAL_DEVICE_IN_BLUETOOTH_BLE) {
fbDevice.id = PAL_DEVICE_OUT_BLUETOOTH_BLE;
}
dir = RX_HOSTLESS;
flags = PCM_OUT;
} else {
if (deviceAttr.id == PAL_DEVICE_OUT_BLUETOOTH_A2DP) {
fbDevice.id = PAL_DEVICE_IN_BLUETOOTH_A2DP;
} else if (deviceAttr.id == PAL_DEVICE_OUT_BLUETOOTH_SCO) {
fbDevice.id = PAL_DEVICE_IN_BLUETOOTH_SCO_HEADSET;
} else if (deviceAttr.id == PAL_DEVICE_OUT_BLUETOOTH_BLE ||
deviceAttr.id == PAL_DEVICE_OUT_BLUETOOTH_BLE_BROADCAST) {
fbDevice.id = PAL_DEVICE_IN_BLUETOOTH_BLE;
}
dir = TX_HOSTLESS;
flags = PCM_IN;
}
ret = PayloadBuilder::getBtDeviceKV(fbDevice.id, keyVector, codecFormat,
true, true);
if (ret)
PAL_ERR(LOG_TAG, "No KVs found for device id %d codec format:0x%x",
fbDevice.id, codecFormat);
/* Configure Device Metadata */
rm->getBackendName(fbDevice.id, backEndName);
ret = SessionAlsaUtils::setDeviceMetadata(rm, backEndName, keyVector);
if (ret) {
PAL_ERR(LOG_TAG, "setDeviceMetadata for feedback device failed");
goto done;
}
ret = SessionAlsaUtils::setDeviceMediaConfig(rm, backEndName, &fbDevice);
if (ret) {
PAL_ERR(LOG_TAG, "setDeviceMediaConfig for feedback device failed");
goto done;
}
/* Retrieve Hostless PCM device id */
sAttr.type = PAL_STREAM_LOW_LATENCY;
sAttr.direction = PAL_AUDIO_INPUT_OUTPUT;
fbpcmDevIds = rm->allocateFrontEndIds(sAttr, dir);
if (fbpcmDevIds.size() == 0) {
PAL_ERR(LOG_TAG, "allocateFrontEndIds failed");
ret = -ENOSYS;
goto done;
}
ret = rm->getVirtualAudioMixer(&virtualMixerHandle);
if (ret) {
PAL_ERR(LOG_TAG, "get mixer handle failed %d", ret);
goto free_fe;
}
ret = rm->getHwAudioMixer(&hwMixerHandle);
if (ret) {
PAL_ERR(LOG_TAG, "get hw mixer handle failed %d", ret);
goto free_fe;
}
connectCtrlName << "PCM" << fbpcmDevIds.at(0) << " connect";
connectCtrl = mixer_get_ctl_by_name(virtualMixerHandle, connectCtrlName.str().data());
if (!connectCtrl) {
PAL_ERR(LOG_TAG, "invalid mixer control: %s", connectCtrlName.str().data());
goto free_fe;
}
ret = mixer_ctl_set_enum_by_string(connectCtrl, backEndName.c_str());
if (ret) {
PAL_ERR(LOG_TAG, "Mixer control %s set with %s failed: %d",
connectCtrlName.str().data(), backEndName.c_str(), ret);
goto free_fe;
}
// Notify ABR usecase information to BT driver to distinguish
// between SCO and feedback usecase
btSetFeedbackChannelCtrl = mixer_get_ctl_by_name(hwMixerHandle,
MIXER_SET_FEEDBACK_CHANNEL);
if (!btSetFeedbackChannelCtrl) {
PAL_ERR(LOG_TAG, "ERROR %s mixer control not identified",
MIXER_SET_FEEDBACK_CHANNEL);
goto disconnect_fe;
}
if (mixer_ctl_set_value(btSetFeedbackChannelCtrl, 0, 1) != 0) {
PAL_ERR(LOG_TAG, "Failed to set BT usecase");
goto disconnect_fe;
}
if (codecFormat == CODEC_TYPE_APTX_AD_SPEECH) {
builder = new PayloadBuilder();
fbDev = std::dynamic_pointer_cast<BtSco>(BtSco::getInstance(&fbDevice, rm));
if (!fbDev) {
PAL_ERR(LOG_TAG, "failed to get BtSco singleton object.");
goto disconnect_fe;
}
fbDev->lockDeviceMutex();
isDeviceLocked = true;
if (fbDev->isConfigured == true) {
PAL_INFO(LOG_TAG, "feedback path is already configured");
goto start_pcm;
}
codecTagId = (codecType == DEC ? BT_PLACEHOLDER_ENCODER : BT_PLACEHOLDER_DECODER);
ret = SessionAlsaUtils::getModuleInstanceId(virtualMixerHandle,
fbpcmDevIds.at(0), backEndName.c_str(), codecTagId, &miid);
if (ret) {
PAL_ERR(LOG_TAG, "getMiid for feedback device failed");
goto disconnect_fe;
}
ret = getPluginPayload(&pluginLibHandle, &codec, &out_buf, (codecType == DEC ? ENC : DEC));
if (ret) {
PAL_ERR(LOG_TAG, "getPluginPayload failed");
goto disconnect_fe;
}
/* SWB Encoder/Decoder has only 1 param, read block 0 */
if (out_buf->num_blks != 1) {
PAL_ERR(LOG_TAG, "incorrect block size %d", out_buf->num_blks);
goto disconnect_fe;
}
fbDev->codecConfig.sample_rate = out_buf->sample_rate;
fbDev->codecConfig.bit_width = out_buf->bit_format;
fbDev->codecConfig.ch_info.channels = out_buf->channel_count;
fbDev->isAbrEnabled = out_buf->is_abr_enabled;
blk = out_buf->blocks[0];
builder->payloadCustomParam(&paramData, &paramSize,
(uint32_t *)blk->payload, blk->payload_sz, miid, blk->param_id);
codec->close_plugin(codec);
dlclose(pluginLibHandle);
if (!paramData) {
PAL_ERR(LOG_TAG, "Failed to populateAPMHeader");
ret = -ENOMEM;
goto disconnect_fe;
}
ret = SessionAlsaUtils::setDeviceCustomPayload(rm, backEndName,
paramData, paramSize);
free(paramData);
if (ret) {
PAL_ERR(LOG_TAG, "Error: Dev setParam failed for %d", fbDevice.id);
goto disconnect_fe;
}
} else if ((codecFormat == CODEC_TYPE_LC3) ||
(codecFormat == CODEC_TYPE_APTX_AD_QLEA)) {
builder = new PayloadBuilder();
if ((fbDevice.id == PAL_DEVICE_IN_BLUETOOTH_SCO_HEADSET) ||
(fbDevice.id == PAL_DEVICE_OUT_BLUETOOTH_SCO)) {
fbDev = std::dynamic_pointer_cast<BtSco>(BtSco::getInstance(&fbDevice, rm));
if (!fbDev) {
PAL_ERR(LOG_TAG, "failed to get BtSco singleton object.");
goto disconnect_fe;
}
} else if ((fbDevice.id == PAL_DEVICE_IN_BLUETOOTH_A2DP) ||
(fbDevice.id == PAL_DEVICE_OUT_BLUETOOTH_BLE) ||
(fbDevice.id == PAL_DEVICE_IN_BLUETOOTH_BLE)) {
fbDev = std::dynamic_pointer_cast<BtA2dp>(BtA2dp::getInstance(&fbDevice, rm));
if (!fbDev) {
PAL_ERR(LOG_TAG, "failed to get BtA2dp singleton object.");
goto disconnect_fe;
}
}
// don't configure any module explicitly within feedback path of a2dp capture usecase
if (!fbDev) {
PAL_DBG(LOG_TAG, "fbDev is null, skip configuring modules");
goto start_pcm;
}
fbDev->lockDeviceMutex();
isDeviceLocked = true;
if (fbDev->isConfigured == true) {
PAL_INFO(LOG_TAG, "feedback path is already configured");
goto start_pcm;
}
if ((fbDevice.id == PAL_DEVICE_IN_BLUETOOTH_A2DP) ||
(fbDevice.id == PAL_DEVICE_IN_BLUETOOTH_BLE)) {
// set custom configuration for a2dp/ble feedback(tx) path.
/* configure COP v2 depacketizer */
ret = SessionAlsaUtils::getModuleInstanceId(virtualMixerHandle,
fbpcmDevIds.at(0), backEndName.c_str(), COP_DEPACKETIZER_V2, &miid);
if (ret) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, ret = %d",
COP_DEPACKETIZER_V2, ret);
goto disconnect_fe;
}
// intentionally configure depacketizer in the same manner as configuring packetizer
builder->payloadCopV2PackConfig(&paramData, &paramSize, miid, codecInfo);
if (!paramData) {
PAL_ERR(LOG_TAG, "Invalid COPv2 module param size");
ret = -EINVAL;
goto disconnect_fe;
}
ret = SessionAlsaUtils::setDeviceCustomPayload(rm, backEndName,
paramData, paramSize);
delete [] paramData;
if (ret) {
PAL_ERR(LOG_TAG, "Error: Dev setParam failed for %d", fbDevice.id);
goto disconnect_fe;
}
} else if ((fbDevice.id == PAL_DEVICE_IN_BLUETOOTH_SCO_HEADSET) ||
(fbDevice.id == PAL_DEVICE_OUT_BLUETOOTH_SCO) ||
(fbDevice.id == PAL_DEVICE_OUT_BLUETOOTH_BLE)) {
// set custom configuration for sco/ble bidirectional feedback path.
/* LC3 Encoder & Decoder Module Configuration */
codecTagId = (codecType == DEC ? BT_PLACEHOLDER_ENCODER : BT_PLACEHOLDER_DECODER);
ret = SessionAlsaUtils::getModuleInstanceId(virtualMixerHandle,
fbpcmDevIds.at(0), backEndName.c_str(), codecTagId, &miid);
if (ret) {
PAL_ERR(LOG_TAG, "getMiid for feedback device failed");
goto disconnect_fe;
}
if (isEncDecConfigured) {
ret = getPluginPayload(&pluginLibHandle, &codec, &out_buf,
(codecType == DEC ? ENC : DEC));
if (ret) {
PAL_ERR(LOG_TAG, "getPluginPayload failed");
goto disconnect_fe;
}
} else {
/* In case of BLE stereorecording/voice_call_decode_session, only decoder
* path configs are present so use the same config for RX feeedback path too
*/
bt_ble_codec = (audio_lc3_codec_cfg_t*)codecInfo;
memcpy(&bt_ble_codec->enc_cfg.toAirConfig, &bt_ble_codec->dec_cfg.fromAirConfig,
sizeof(lc3_cfg_t));
ret = getPluginPayload(&pluginLibHandle, &codec, &out_buf,
(codecType == DEC ? ENC : DEC));
if (ret) {
PAL_ERR(LOG_TAG, "getPluginPayload failed");
goto disconnect_fe;
}
}
if (out_buf->num_blks != 1) {
PAL_ERR(LOG_TAG, "incorrect block size %d", out_buf->num_blks);
goto disconnect_fe;
}
fbDev->codecConfig.sample_rate = out_buf->sample_rate;
fbDev->codecConfig.bit_width = out_buf->bit_format;
fbDev->codecConfig.ch_info.channels = out_buf->channel_count;
fbDev->isAbrEnabled = out_buf->is_abr_enabled;
blk = out_buf->blocks[0];
builder->payloadCustomParam(&paramData, &paramSize,
(uint32_t *)blk->payload, blk->payload_sz, miid, blk->param_id);
if (paramSize) {
fbDev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
} else {
ret = -EINVAL;
PAL_ERR(LOG_TAG, "Failed to populateAPMHeader");
goto disconnect_fe;
}
codec->close_plugin(codec);
dlclose(pluginLibHandle);
if (fbDevice.id == PAL_DEVICE_IN_BLUETOOTH_SCO_HEADSET) {
/* COP v2 DEPACKETIZER Module Configuration */
ret = SessionAlsaUtils::getModuleInstanceId(virtualMixerHandle,
fbpcmDevIds.at(0), backEndName.c_str(), COP_DEPACKETIZER_V2, &miid);
if (ret) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, ret = %d",
COP_DEPACKETIZER_V2, ret);
goto disconnect_fe;
}
builder->payloadCopV2DepackConfig(&paramData, &paramSize, miid, codecInfo, false /* StreamMapOut */);
if (paramSize) {
fbDev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
ret = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COPv2 module param size");
goto disconnect_fe;
}
builder->payloadCopV2DepackConfig(&paramData, &paramSize, miid, codecInfo, true /* StreamMapIn */);
if (paramSize) {
fbDev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
ret = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COPv2 module param size");
goto disconnect_fe;
}
} else { /* fbDevice.id == PAL_DEVICE_OUT_BLUETOOTH_SCO ||
* fbDevice.id == PAL_DEVICE_OUT_BLUETOOTH_BLE*/
/* COP v2 PACKETIZER Module Configuration */
ret = SessionAlsaUtils::getModuleInstanceId(virtualMixerHandle,
fbpcmDevIds.at(0), backEndName.c_str(), COP_PACKETIZER_V2, &miid);
if (ret) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, ret = %d",
COP_PACKETIZER_V2, ret);
goto disconnect_fe;
}
// PARAM_ID_COP_V2_STREAM_INFO for COPv2
builder->payloadCopV2PackConfig(&paramData, &paramSize, miid, codecInfo);
if (paramSize) {
fbDev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
ret = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COPv2 module param size");
goto disconnect_fe;
}
// PARAM_ID_COP_PACKETIZER_OUTPUT_MEDIA_FORMAT for COPv2
builder->payloadCopPackConfig(&paramData, &paramSize, miid, &fbDevice.config);
if (paramSize) {
fbDev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
ret = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid COP module param size");
goto disconnect_fe;
}
}
/* RAT Module Configuration */
ret = SessionAlsaUtils::getModuleInstanceId(virtualMixerHandle,
fbpcmDevIds.at(0), backEndName.c_str(), RAT_RENDER, &miid);
if (ret) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, ret = %d", RAT_RENDER, ret);
goto disconnect_fe;
} else {
builder->payloadRATConfig(&paramData, &paramSize, miid, &fbDev->codecConfig);
if (paramSize) {
fbDev->updateCustomPayload(paramData, paramSize);
free(paramData);
paramData = NULL;
paramSize = 0;
} else {
ret = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid RAT module param size");
goto disconnect_fe;
}
}
/* PCM CNV Module Configuration */
ret = SessionAlsaUtils::getModuleInstanceId(virtualMixerHandle,
fbpcmDevIds.at(0), backEndName.c_str(), BT_PCM_CONVERTER, &miid);
if (ret) {
PAL_ERR(LOG_TAG, "Failed to get tag info %x, ret = %d", BT_PCM_CONVERTER, ret);
goto disconnect_fe;
} else {
builder->payloadPcmCnvConfig(&paramData, &paramSize, miid, &fbDev->codecConfig,
(codecType == DEC ? true : false) /* isRx */);
if (paramSize) {
fbDev->updateCustomPayload(paramData, paramSize);
delete [] paramData;
paramData = NULL;
paramSize = 0;
} else {
ret = -EINVAL;
PAL_ERR(LOG_TAG, "Invalid PCM CNV module param size");
goto disconnect_fe;
}
}
if (fbDev->customPayloadSize) {
ret = SessionAlsaUtils::setDeviceCustomPayload(rm, backEndName,
fbDev->customPayload, fbDev->customPayloadSize);
if (ret) {
PAL_ERR(LOG_TAG, "Error: Dev setParam failed for %d", fbDevice.id);
goto disconnect_fe;
}
if (fbDev->customPayload) {
free(fbDev->customPayload);
fbDev->customPayload = NULL;
fbDev->customPayloadSize = 0;
}
}
}
}
start_pcm:
config.rate = SAMPLINGRATE_8K;
config.format = PCM_FORMAT_S16_LE;
config.channels = CHANNELS_1;
config.period_size = 240;
config.period_count = 2;
config.start_threshold = 0;
config.stop_threshold = 0;
config.silence_threshold = 0;
fbPcm = pcm_open(rm->getVirtualSndCard(), fbpcmDevIds.at(0), flags, &config);
if (!fbPcm) {
PAL_ERR(LOG_TAG, "pcm open failed");
goto disconnect_fe;
}
if (!pcm_is_ready(fbPcm)) {
PAL_ERR(LOG_TAG, "pcm open not ready");
goto err_pcm_open;
}
ret = pcm_start(fbPcm);
if (ret) {
PAL_ERR(LOG_TAG, "pcm_start rx failed %d", ret);
goto err_pcm_open;
}
if (codecFormat == CODEC_TYPE_APTX_AD_SPEECH) {
fbDev->isConfigured = true;
fbDev->deviceStartStopCount++;
fbDev->deviceCount++;
PAL_DBG(LOG_TAG, " deviceCount %d deviceStartStopCount %d for device id %d",
fbDev->deviceCount, fbDev->deviceStartStopCount, fbDev->deviceAttr.id);
}
if ((codecFormat == CODEC_TYPE_LC3) &&
(fbDevice.id == PAL_DEVICE_IN_BLUETOOTH_SCO_HEADSET ||
fbDevice.id == PAL_DEVICE_OUT_BLUETOOTH_SCO ||
fbDevice.id == PAL_DEVICE_OUT_BLUETOOTH_BLE)) {
fbDev->isConfigured = true;
fbDev->deviceStartStopCount++;
fbDev->deviceCount++;
PAL_DBG(LOG_TAG, " deviceCount %d deviceStartStopCount %d for device id %d",
fbDev->deviceCount, fbDev->deviceStartStopCount, fbDev->deviceAttr.id);
}
abrRefCnt++;
PAL_INFO(LOG_TAG, "Feedback Device started successfully");
goto done;
err_pcm_open:
pcm_close(fbPcm);
fbPcm = NULL;
disconnect_fe:
disconnectCtrlName << "PCM" << fbpcmDevIds.at(0) << " disconnect";
disconnectCtrl = mixer_get_ctl_by_name(virtualMixerHandle, disconnectCtrlName.str().data());
if(disconnectCtrl != NULL){
mixer_ctl_set_enum_by_string(disconnectCtrl, backEndName.c_str());
}
free_fe:
rm->freeFrontEndIds(fbpcmDevIds, sAttr, dir);
fbpcmDevIds.clear();
done:
if (isDeviceLocked) {
isDeviceLocked = false;
fbDev->unlockDeviceMutex();
}
mAbrMutex.unlock();
if (builder) {
delete builder;
builder = NULL;
}
return;
}
void Bluetooth::stopAbr()
{
struct pal_stream_attributes sAttr;
struct mixer_ctl *btSetFeedbackChannelCtrl = NULL;
struct mixer *hwMixerHandle = NULL;
int dir, ret = 0;
bool isfbDeviceLocked = false;
mAbrMutex.lock();
if (!fbPcm) {
PAL_ERR(LOG_TAG, "fbPcm is null");
mAbrMutex.unlock();
return;
}
if (abrRefCnt == 0) {
PAL_DBG(LOG_TAG, "skip as abrRefCnt is zero");
mAbrMutex.unlock();
return;
}
if (--abrRefCnt > 0) {
PAL_DBG(LOG_TAG, "abrRefCnt is %d", abrRefCnt);
mAbrMutex.unlock();
return;
}
memset(&sAttr, 0, sizeof(sAttr));
sAttr.type = PAL_STREAM_LOW_LATENCY;
sAttr.direction = PAL_AUDIO_INPUT_OUTPUT;
if (fbDev) {
fbDev->lockDeviceMutex();
isfbDeviceLocked = true;
}
pcm_stop(fbPcm);
pcm_close(fbPcm);
fbPcm = NULL;
ret = rm->getHwAudioMixer(&hwMixerHandle);
if (ret) {
PAL_ERR(LOG_TAG, "get mixer handle failed %d", ret);
goto free_fe;
}
// Reset BT driver mixer control for ABR usecase
btSetFeedbackChannelCtrl = mixer_get_ctl_by_name(hwMixerHandle,
MIXER_SET_FEEDBACK_CHANNEL);
if (!btSetFeedbackChannelCtrl) {
PAL_ERR(LOG_TAG, "%s mixer control not identified",
MIXER_SET_FEEDBACK_CHANNEL);
} else if (mixer_ctl_set_value(btSetFeedbackChannelCtrl, 0, 0) != 0) {
PAL_ERR(LOG_TAG, "Failed to reset BT usecase");
}
if ((codecFormat == CODEC_TYPE_APTX_AD_SPEECH) && fbDev) {
if ((fbDev->deviceStartStopCount > 0) &&
(--fbDev->deviceStartStopCount == 0)) {
fbDev->isConfigured = false;
fbDev->isAbrEnabled = false;
}
if (fbDev->deviceCount > 0)
fbDev->deviceCount--;
PAL_DBG(LOG_TAG, " deviceCount %d deviceStartStopCount %d for device id %d",
fbDev->deviceCount, fbDev->deviceStartStopCount, fbDev->deviceAttr.id);
}
if ((codecFormat == CODEC_TYPE_LC3) &&
(deviceAttr.id == PAL_DEVICE_OUT_BLUETOOTH_SCO ||
deviceAttr.id == PAL_DEVICE_IN_BLUETOOTH_SCO_HEADSET ||
deviceAttr.id == PAL_DEVICE_IN_BLUETOOTH_BLE) &&
fbDev) {
if ((fbDev->deviceStartStopCount > 0) &&
(--fbDev->deviceStartStopCount == 0)) {
fbDev->isConfigured = false;
fbDev->isAbrEnabled = false;
}
if (fbDev->deviceCount > 0)
fbDev->deviceCount--;
PAL_DBG(LOG_TAG, " deviceCount %d deviceStartStopCount %d for device id %d",
fbDev->deviceCount, fbDev->deviceStartStopCount, fbDev->deviceAttr.id);
}
free_fe:
dir = ((codecType == DEC) ? RX_HOSTLESS : TX_HOSTLESS);
if (fbpcmDevIds.size()) {
rm->freeFrontEndIds(fbpcmDevIds, sAttr, dir);
fbpcmDevIds.clear();
}
/* Check for deviceStartStopCount, to avoid false reset of isAbrEnabled flag in
* case of BLE playback path stops during ongoing capture session
*/
if (deviceStartStopCount == 1) {
isAbrEnabled = false;
}
if (isfbDeviceLocked) {
isfbDeviceLocked = false;
fbDev->unlockDeviceMutex();
}
mAbrMutex.unlock();
}
int32_t Bluetooth::configureSlimbusClockSrc(void)
{
return configureDeviceClockSrc(BT_SLIMBUS_CLK_STR,
rm->getBtSlimClockSrc(codecFormat));
}
/* Scope of BtA2dp class */
// definition of static BtA2dp member variables
std::shared_ptr<Device> BtA2dp::objRx = nullptr;
std::shared_ptr<Device> BtA2dp::objTx = nullptr;
std::shared_ptr<Device> BtA2dp::objBleRx = nullptr;
std::shared_ptr<Device> BtA2dp::objBleTx = nullptr;
std::shared_ptr<Device> BtA2dp::objBleBroadcastRx = nullptr;
void *BtA2dp::bt_lib_source_handle = nullptr;
void *BtA2dp::bt_lib_sink_handle = nullptr;
bt_audio_pre_init_t BtA2dp::bt_audio_pre_init = nullptr;
audio_source_open_t BtA2dp::audio_source_open = nullptr;
audio_source_close_t BtA2dp::audio_source_close = nullptr;
audio_source_start_t BtA2dp::audio_source_start = nullptr;
audio_source_stop_t BtA2dp::audio_source_stop = nullptr;
audio_source_suspend_t BtA2dp::audio_source_suspend = nullptr;
audio_source_handoff_triggered_t BtA2dp::audio_source_handoff_triggered = nullptr;
clear_source_a2dpsuspend_flag_t BtA2dp::clear_source_a2dpsuspend_flag = nullptr;
audio_get_enc_config_t BtA2dp::audio_get_enc_config = nullptr;
audio_source_check_a2dp_ready_t BtA2dp::audio_source_check_a2dp_ready = nullptr;
audio_is_tws_mono_mode_enable_t BtA2dp::audio_is_tws_mono_mode_enable = nullptr;
audio_sink_get_a2dp_latency_t BtA2dp::audio_sink_get_a2dp_latency = nullptr;
audio_sink_start_t BtA2dp::audio_sink_start = nullptr;
audio_sink_stop_t BtA2dp::audio_sink_stop = nullptr;
audio_get_dec_config_t BtA2dp::audio_get_dec_config = nullptr;
audio_sink_session_setup_complete_t BtA2dp::audio_sink_session_setup_complete = nullptr;
audio_sink_check_a2dp_ready_t BtA2dp::audio_sink_check_a2dp_ready = nullptr;
audio_is_scrambling_enabled_t BtA2dp::audio_is_scrambling_enabled = nullptr;
audio_sink_suspend_t BtA2dp::audio_sink_suspend = nullptr;
audio_sink_open_t BtA2dp::audio_sink_open = nullptr;
audio_sink_close_t BtA2dp::audio_sink_close = nullptr;
btoffload_update_metadata_api_t BtA2dp::btoffload_update_metadata_api = nullptr;
audio_source_open_api_t BtA2dp::audio_source_open_api = nullptr;
audio_source_close_api_t BtA2dp::audio_source_close_api = nullptr;
audio_source_start_api_t BtA2dp::audio_source_start_api = nullptr;
audio_source_stop_api_t BtA2dp::audio_source_stop_api = nullptr;
audio_source_suspend_api_t BtA2dp::audio_source_suspend_api = nullptr;
audio_get_enc_config_api_t BtA2dp::audio_get_enc_config_api = nullptr;
audio_source_check_a2dp_ready_api_t BtA2dp::audio_source_check_a2dp_ready_api = nullptr;
audio_sink_get_a2dp_latency_api_t BtA2dp::audio_sink_get_a2dp_latency_api = nullptr;
audio_sink_start_api_t BtA2dp::audio_sink_start_api = nullptr;
audio_sink_stop_api_t BtA2dp::audio_sink_stop_api = nullptr;
audio_sink_suspend_api_t BtA2dp::audio_sink_suspend_api = nullptr;
audio_sink_open_api_t BtA2dp::audio_sink_open_api = nullptr;
audio_sink_close_api_t BtA2dp::audio_sink_close_api = nullptr;
BtA2dp::BtA2dp(struct pal_device *device, std::shared_ptr<ResourceManager> Rm)
: Bluetooth(device, Rm),
a2dpState(A2DP_STATE_DISCONNECTED)
{
a2dpRole = ((device->id == PAL_DEVICE_IN_BLUETOOTH_A2DP) || (device->id == PAL_DEVICE_IN_BLUETOOTH_BLE)) ? SINK : SOURCE;
codecType = ((device->id == PAL_DEVICE_IN_BLUETOOTH_A2DP) || (device->id == PAL_DEVICE_IN_BLUETOOTH_BLE)) ? DEC : ENC;
pluginHandler = NULL;
pluginCodec = NULL;
init();
param_bt_a2dp.reconfig = false;
param_bt_a2dp.a2dp_suspended = false;
param_bt_a2dp.a2dp_capture_suspended = false;
param_bt_a2dp.is_force_switch = false;
isA2dpOffloadSupported =
property_get_bool("ro.bluetooth.a2dp_offload.supported", false) &&
!property_get_bool("persist.bluetooth.a2dp_offload.disabled", false);
PAL_DBG(LOG_TAG, "A2DP offload supported = %d",
isA2dpOffloadSupported);
param_bt_a2dp.reconfig_supported = isA2dpOffloadSupported;
param_bt_a2dp.latency = 0;
}
BtA2dp::~BtA2dp()
{
}
tSESSION_TYPE BtA2dp::get_session_type()
{
tSESSION_TYPE session_type = A2DP_HARDWARE_OFFLOAD_DATAPATH;
if (a2dpRole == SOURCE) {
if (deviceAttr.id == PAL_DEVICE_OUT_BLUETOOTH_BLE) {
session_type = LE_AUDIO_HARDWARE_OFFLOAD_ENCODING_DATAPATH;
} else if (deviceAttr.id == PAL_DEVICE_OUT_BLUETOOTH_BLE_BROADCAST) {
session_type = LE_AUDIO_BROADCAST_HARDWARE_OFFLOAD_ENCODING_DATAPATH;
} else {
session_type = A2DP_HARDWARE_OFFLOAD_DATAPATH;
}
}
else {
session_type = LE_AUDIO_HARDWARE_OFFLOAD_DECODING_DATAPATH;
}
return session_type;
}
void BtA2dp::open_a2dp_source()
{
int ret = 0;
PAL_DBG(LOG_TAG, "Open A2DP source start");
if (bt_lib_source_handle && (audio_source_open_api ||
audio_source_open)) {
if (a2dpState == A2DP_STATE_DISCONNECTED) {
PAL_DBG(LOG_TAG, "calling BT stream open");
/*To support backward compatibility check for BT IPC API's
* with session_type or w/o session_type*/
if (audio_source_open_api) {
ret = audio_source_open_api(get_session_type());
if (ret != 0) {
PAL_ERR(LOG_TAG, "Failed to open source stream for a2dp: status %d", ret);
return;
}
} else {
ret = audio_source_open();
if (ret != 0) {
PAL_ERR(LOG_TAG, "Failed to open source stream for a2dp: status %d", ret);
return;
}
}
a2dpState = A2DP_STATE_CONNECTED;
} else {
PAL_DBG(LOG_TAG, "Called a2dp open with improper state %d", a2dpState);
}
}
}
int BtA2dp::close_audio_source()
{
PAL_VERBOSE(LOG_TAG, "Enter");
if (!(bt_lib_source_handle && (audio_source_close_api ||
audio_source_close))) {
PAL_ERR(LOG_TAG, "a2dp source handle is not identified, Ignoring close request");
return -ENOSYS;
}
if (a2dpState != A2DP_STATE_DISCONNECTED) {
PAL_DBG(LOG_TAG, "calling BT source stream close");
mDeviceMutex.lock();
if (audio_source_close_api) {
if (audio_source_close_api(get_session_type()) == false)
PAL_ERR(LOG_TAG, "failed close a2dp source control path from BT library");
} else {
if (audio_source_close() == false)
PAL_ERR(LOG_TAG, "failed close a2dp source control path from BT library");
}
mDeviceMutex.unlock();
}
totalActiveSessionRequests = 0;
param_bt_a2dp.a2dp_suspended = false;
param_bt_a2dp.reconfig = false;
param_bt_a2dp.latency = 0;
a2dpState = A2DP_STATE_DISCONNECTED;
isConfigured = false;
return 0;
}
void BtA2dp::init_a2dp_source()
{
PAL_DBG(LOG_TAG, "init_a2dp_source START");
if (bt_lib_source_handle == nullptr) {
PAL_DBG(LOG_TAG, "Requesting for BT lib handle");
bt_lib_source_handle = dlopen(BT_IPC_SOURCE_LIB, RTLD_NOW);
if (bt_lib_source_handle == nullptr) {
PAL_ERR(LOG_TAG, "dlopen failed for %s", BT_IPC_SOURCE_LIB);
return;
}
}
bt_audio_pre_init = (bt_audio_pre_init_t)
dlsym(bt_lib_source_handle, "bt_audio_pre_init");
audio_source_open_api = (audio_source_open_api_t)
dlsym(bt_lib_source_handle, "audio_stream_open_api");
audio_source_start_api = (audio_source_start_api_t)
dlsym(bt_lib_source_handle, "audio_start_stream_api");
audio_get_enc_config_api = (audio_get_enc_config_api_t)
dlsym(bt_lib_source_handle, "audio_get_codec_config_api");
audio_source_suspend_api = (audio_source_suspend_api_t)
dlsym(bt_lib_source_handle, "audio_suspend_stream_api");
audio_source_handoff_triggered = (audio_source_handoff_triggered_t)
dlsym(bt_lib_source_handle, "audio_handoff_triggered");
clear_source_a2dpsuspend_flag = (clear_source_a2dpsuspend_flag_t)
dlsym(bt_lib_source_handle, "clear_a2dpsuspend_flag");
audio_source_stop_api = (audio_source_stop_api_t)
dlsym(bt_lib_source_handle, "audio_stop_stream_api");
audio_source_close_api = (audio_source_close_api_t)
dlsym(bt_lib_source_handle, "audio_stream_close_api");
audio_source_check_a2dp_ready_api = (audio_source_check_a2dp_ready_api_t)
dlsym(bt_lib_source_handle, "audio_check_a2dp_ready_api");
audio_sink_get_a2dp_latency_api = (audio_sink_get_a2dp_latency_api_t)
dlsym(bt_lib_source_handle, "audio_sink_get_a2dp_latency_api");
audio_is_tws_mono_mode_enable = (audio_is_tws_mono_mode_enable_t)
dlsym(bt_lib_source_handle, "isTwsMonomodeEnable");
audio_is_scrambling_enabled = (audio_is_scrambling_enabled_t)
dlsym(bt_lib_source_handle, "audio_is_scrambling_enabled");
btoffload_update_metadata_api = (btoffload_update_metadata_api_t)
dlsym(bt_lib_source_handle, "update_metadata");
audio_source_open = (audio_source_open_t)
dlsym(bt_lib_source_handle, "audio_stream_open");
audio_source_start = (audio_source_start_t)
dlsym(bt_lib_source_handle, "audio_start_stream");
audio_get_enc_config = (audio_get_enc_config_t)
dlsym(bt_lib_source_handle, "audio_get_codec_config");
audio_source_suspend = (audio_source_suspend_t)
dlsym(bt_lib_source_handle, "audio_suspend_stream");
audio_source_stop = (audio_source_stop_t)
dlsym(bt_lib_source_handle, "audio_stop_stream");
audio_source_close = (audio_source_close_t)
dlsym(bt_lib_source_handle, "audio_stream_close");
audio_source_check_a2dp_ready = (audio_source_check_a2dp_ready_t)
dlsym(bt_lib_source_handle, "audio_check_a2dp_ready");
audio_sink_get_a2dp_latency = (audio_sink_get_a2dp_latency_t)
dlsym(bt_lib_source_handle, "audio_sink_get_a2dp_latency");
if (bt_lib_source_handle && bt_audio_pre_init) {
PAL_DBG(LOG_TAG, "calling BT module preinit");
bt_audio_pre_init();
}
usleep(20 * 1000); //TODO: to add interval properly
open_a2dp_source();
}
void BtA2dp::init_a2dp_sink()
{
PAL_DBG(LOG_TAG, "Open A2DP input start");
if (bt_lib_sink_handle == nullptr) {
PAL_DBG(LOG_TAG, "Requesting for BT lib handle");
bt_lib_sink_handle = dlopen(BT_IPC_SINK_LIB, RTLD_NOW);
if (bt_lib_sink_handle == nullptr) {
#ifndef LINUX_ENABLED
// On Mobile LE VoiceBackChannel implemented as A2DPSink Profile.
// However - All the BT-Host IPC calls are exposed via Source LIB itself.
PAL_DBG(LOG_TAG, "Requesting for BT lib source handle");
bt_lib_sink_handle = dlopen(BT_IPC_SOURCE_LIB, RTLD_NOW);
if (bt_lib_sink_handle == nullptr) {
PAL_ERR(LOG_TAG, "DLOPEN failed");
return;
}
isDummySink = true;
audio_get_enc_config_api = (audio_get_enc_config_api_t)
dlsym(bt_lib_sink_handle, "audio_get_codec_config_api");
audio_sink_get_a2dp_latency_api = (audio_sink_get_a2dp_latency_api_t)
dlsym(bt_lib_sink_handle, "audio_sink_get_a2dp_latency_api");
audio_sink_start_api = (audio_sink_start_api_t)
dlsym(bt_lib_sink_handle, "audio_start_stream_api");
audio_sink_stop_api = (audio_sink_stop_api_t)
dlsym(bt_lib_sink_handle, "audio_stop_stream_api");
audio_source_check_a2dp_ready_api = (audio_source_check_a2dp_ready_api_t)
dlsym(bt_lib_sink_handle, "audio_check_a2dp_ready_api");
audio_sink_suspend_api = (audio_sink_suspend_api_t)
dlsym(bt_lib_sink_handle, "audio_suspend_stream_api");
audio_sink_open_api = (audio_sink_open_api_t)
dlsym(bt_lib_sink_handle, "audio_stream_open_api");
audio_sink_close_api = (audio_sink_close_api_t)
dlsym(bt_lib_sink_handle, "audio_stream_close_api");
btoffload_update_metadata_api = (btoffload_update_metadata_api_t)
dlsym(bt_lib_sink_handle, "update_metadata");
audio_get_enc_config = (audio_get_enc_config_t)
dlsym(bt_lib_sink_handle, "audio_get_codec_config");
audio_sink_get_a2dp_latency = (audio_sink_get_a2dp_latency_t)
dlsym(bt_lib_sink_handle, "audio_sink_get_a2dp_latency");
audio_sink_start = (audio_sink_start_t)
dlsym(bt_lib_sink_handle, "audio_start_stream");
audio_sink_stop = (audio_sink_stop_t)
dlsym(bt_lib_sink_handle, "audio_stop_stream");
audio_source_check_a2dp_ready = (audio_source_check_a2dp_ready_t)
dlsym(bt_lib_sink_handle, "audio_check_a2dp_ready");
audio_sink_suspend = (audio_sink_suspend_t)
dlsym(bt_lib_sink_handle, "audio_suspend_stream");
audio_sink_open = (audio_sink_open_t)
dlsym(bt_lib_sink_handle, "audio_stream_open");
audio_sink_close = (audio_sink_close_t)
dlsym(bt_lib_sink_handle, "audio_stream_close");
#ifdef A2DP_SINK_SUPPORTED
open_a2dp_sink();
#endif
#else
// On Linux Builds - A2DP Sink Profile is supported via different lib
PAL_ERR(LOG_TAG, "DLOPEN failed for %s", BT_IPC_SINK_LIB);
#endif
} else {
audio_sink_start = (audio_sink_start_t)
dlsym(bt_lib_sink_handle, "audio_sink_start_capture");
audio_get_dec_config = (audio_get_dec_config_t)
dlsym(bt_lib_sink_handle, "audio_get_decoder_config");
audio_sink_stop = (audio_sink_stop_t)
dlsym(bt_lib_sink_handle, "audio_sink_stop_capture");
audio_sink_check_a2dp_ready = (audio_sink_check_a2dp_ready_t)
dlsym(bt_lib_sink_handle, "audio_sink_check_a2dp_ready");
audio_sink_session_setup_complete = (audio_sink_session_setup_complete_t)
dlsym(bt_lib_sink_handle, "audio_sink_session_setup_complete");
}
}
}
void BtA2dp::open_a2dp_sink()
{
int ret = 0;
PAL_DBG(LOG_TAG, "Open A2DP sink start");
if (bt_lib_sink_handle && (audio_sink_open_api ||
audio_sink_open)) {
if (a2dpState == A2DP_STATE_DISCONNECTED) {
PAL_DBG(LOG_TAG, "calling BT stream open");
if (audio_sink_open_api) {
ret = audio_sink_open_api(get_session_type());
if (ret != 0) {
PAL_ERR(LOG_TAG, "Failed to open sink stream for a2dp: status %d", ret);
}
} else {
ret = audio_sink_open();
if (ret != 0) {
PAL_ERR(LOG_TAG, "Failed to open sink stream for a2dp: status %d", ret);
}
}
a2dpState = A2DP_STATE_CONNECTED;
}
else {
PAL_DBG(LOG_TAG, "Called a2dp open with improper state %d", a2dpState);
}
}
}
int BtA2dp::close_audio_sink()
{
PAL_VERBOSE(LOG_TAG, "Enter");
if (!(bt_lib_sink_handle && (audio_sink_close_api ||
audio_sink_close))) {
PAL_ERR(LOG_TAG, "a2dp sink handle is not identified, Ignoring close request");
return -ENOSYS;
}
if (a2dpState != A2DP_STATE_DISCONNECTED) {
PAL_DBG(LOG_TAG, "calling BT sink stream close");
mDeviceMutex.lock();
if (audio_sink_close_api) {
if (audio_sink_close_api(get_session_type()) == false)
PAL_ERR(LOG_TAG, "failed close a2dp sink control path from BT library");
} else {
if (audio_sink_close() == false)
PAL_ERR(LOG_TAG, "failed close a2dp sink control path from BT library");
}
mDeviceMutex.unlock();
}
totalActiveSessionRequests = 0;
param_bt_a2dp.a2dp_suspended = false;
param_bt_a2dp.a2dp_capture_suspended = false;
param_bt_a2dp.reconfig = false;
param_bt_a2dp.latency = 0;
a2dpState = A2DP_STATE_DISCONNECTED;
isConfigured = false;
return 0;
}
bool BtA2dp::a2dp_send_sink_setup_complete()
{
uint64_t system_latency = 0;
bool is_complete = false;
/* TODO : Replace this with call to plugin */
system_latency = 200;
if (audio_sink_session_setup_complete(system_latency) == 0) {
is_complete = true;
}
return is_complete;
}
void BtA2dp::init()
{
(a2dpRole == SOURCE) ? init_a2dp_source() : init_a2dp_sink();
}
int BtA2dp::start()
{
int status = 0;
mDeviceMutex.lock();
status = (a2dpRole == SOURCE) ? startPlayback() : startCapture();
if (status) {
goto exit;
}
if (totalActiveSessionRequests == 1) {
status = configureSlimbusClockSrc();
if (status) {
goto exit;
}
}
status = Device::start_l();
if (customPayload) {
free(customPayload);
customPayload = NULL;
customPayloadSize = 0;
}
if (!status && isAbrEnabled)
startAbr();
exit:
mDeviceMutex.unlock();
return status;
}
int BtA2dp::stop()
{
int status = 0;
mDeviceMutex.lock();
if (isAbrEnabled)
stopAbr();
Device::stop_l();
status = (a2dpRole == SOURCE) ? stopPlayback() : stopCapture();
mDeviceMutex.unlock();
return status;
}
int BtA2dp::startPlayback()
{
int ret = 0;
uint32_t slatency = 0;
uint8_t multi_cast = 0, num_dev = 1;
PAL_DBG(LOG_TAG, "a2dp_start_playback start");
if (!(bt_lib_source_handle && (audio_source_start_api ||
audio_source_start) && (audio_get_enc_config_api ||
audio_get_enc_config))) {
PAL_ERR(LOG_TAG, "a2dp handle is not identified, Ignoring start playback request");
return -ENOSYS;
}
if (param_bt_a2dp.a2dp_suspended) {
// session will be restarted after suspend completion
PAL_INFO(LOG_TAG, "a2dp start requested during suspend state");
return -ENOSYS;
}
if (a2dpState != A2DP_STATE_STARTED && !totalActiveSessionRequests) {
codecFormat = CODEC_TYPE_INVALID;
if (!isConfigured)
isAbrEnabled = false;
PAL_DBG(LOG_TAG, "calling BT module stream start");
/* This call indicates BT IPC lib to start playback */
if (audio_source_start_api) {
ret = audio_source_start_api(get_session_type());
} else {
ret = audio_source_start();
}
if (ret != 0) {
PAL_ERR(LOG_TAG, "BT controller start failed");
return ret;
}
PAL_ERR(LOG_TAG, "BT controller start return = %d", ret);
PAL_DBG(LOG_TAG, "configure_a2dp_encoder_format start");
if (audio_get_enc_config_api) {
codecInfo = audio_get_enc_config_api(get_session_type(), &multi_cast, &num_dev, (audio_format_t*)&codecFormat);
}
else {
codecInfo = audio_get_enc_config(&multi_cast, &num_dev, (audio_format_t*)&codecFormat);
}
if (codecInfo == NULL || codecFormat == CODEC_TYPE_INVALID) {
PAL_ERR(LOG_TAG, "invalid encoder config");
if (audio_source_stop_api) {
audio_source_stop_api(get_session_type());
} else {
audio_source_stop();
}
return -EINVAL;
}
if (codecFormat == CODEC_TYPE_APTX_DUAL_MONO && audio_is_tws_mono_mode_enable)
isTwsMonoModeOn = audio_is_tws_mono_mode_enable();
if (audio_is_scrambling_enabled)
isScramblingEnabled = audio_is_scrambling_enabled();
PAL_INFO(LOG_TAG, "isScramblingEnabled = %d", isScramblingEnabled);
/* Update Device GKV based on Encoder type */
updateDeviceMetadata();
if (!isConfigured) {
ret = configureA2dpEncoderDecoder();
if (ret) {
PAL_ERR(LOG_TAG, "unable to configure DSP encoder");
if (audio_source_stop_api) {
audio_source_stop_api(get_session_type());
} else {
audio_source_stop();
}
return ret;
}
}
/* Query and cache the a2dp latency */
if (audio_sink_get_a2dp_latency_api && (a2dpState != A2DP_STATE_DISCONNECTED)) {
slatency = audio_sink_get_a2dp_latency_api(get_session_type());
} else if (audio_sink_get_a2dp_latency && (a2dpState != A2DP_STATE_DISCONNECTED)) {
slatency = audio_sink_get_a2dp_latency();
}
if (pluginCodec) {
param_bt_a2dp.latency =
pluginCodec->plugin_get_codec_latency(pluginCodec, slatency);
} else {
param_bt_a2dp.latency = 0;
}
a2dpState = A2DP_STATE_STARTED;
} else {
/* Update Device GKV based on Already received encoder. */
/* This is required for getting tagged module info in session class. */
updateDeviceMetadata();
}
totalActiveSessionRequests++;
PAL_DBG(LOG_TAG, "start A2DP playback total active sessions :%d",
totalActiveSessionRequests);
return ret;
}
int BtA2dp::stopPlayback()
{
int ret =0;
PAL_VERBOSE(LOG_TAG, "a2dp_stop_playback start");
if (!(bt_lib_source_handle && (audio_source_stop_api ||
audio_source_stop))) {
PAL_ERR(LOG_TAG, "a2dp handle is not identified, Ignoring stop request");
return -ENOSYS;
}
if (totalActiveSessionRequests > 0)
totalActiveSessionRequests--;
else
PAL_ERR(LOG_TAG, "No active playback session requests on A2DP");
if (a2dpState == A2DP_STATE_STARTED && !totalActiveSessionRequests) {
PAL_VERBOSE(LOG_TAG, "calling BT module stream stop");
if (audio_source_stop_api) {
ret = audio_source_stop_api(get_session_type());
} else {
ret = audio_source_stop();
}
if (ret < 0) {
PAL_ERR(LOG_TAG, "stop stream to BT IPC lib failed");
} else {
PAL_VERBOSE(LOG_TAG, "stop steam to BT IPC lib successful");
}
if (deviceStartStopCount == 0) {
isConfigured = false;
}
a2dpState = A2DP_STATE_STOPPED;
codecInfo = NULL;
/* Reset isTwsMonoModeOn and isLC3MonoModeOn during stop */
if (!param_bt_a2dp.a2dp_suspended) {
isTwsMonoModeOn = false;
isLC3MonoModeOn = false;
isScramblingEnabled = false;
}
if (pluginCodec) {
pluginCodec->close_plugin(pluginCodec);
pluginCodec = NULL;
}
if (pluginHandler) {
dlclose(pluginHandler);
pluginHandler = NULL;
}
}
PAL_DBG(LOG_TAG, "Stop A2DP playback, total active sessions :%d",
totalActiveSessionRequests);
return 0;
}
bool BtA2dp::isDeviceReady()
{
bool ret = false;
if (a2dpRole == SOURCE) {
if (param_bt_a2dp.a2dp_suspended)
return ret;
} else if (a2dpRole == SINK) {
if (param_bt_a2dp.a2dp_capture_suspended)
return ret;
}
if ((a2dpState != A2DP_STATE_DISCONNECTED) &&
(isA2dpOffloadSupported)) {
if ((a2dpRole == SOURCE) || isDummySink) {
if (audio_source_check_a2dp_ready_api) {
ret = audio_source_check_a2dp_ready_api(get_session_type());
} else {
ret = audio_source_check_a2dp_ready();
}
} else {
if (audio_sink_check_a2dp_ready)
ret = audio_sink_check_a2dp_ready();
}
}
return ret;
}
int BtA2dp::startCapture()
{
int ret = 0;
PAL_DBG(LOG_TAG, "a2dp_start_capture start");
if (!isDummySink) {
if (!(bt_lib_sink_handle && (audio_sink_start_api ||
audio_sink_start) && audio_get_dec_config)) {
PAL_ERR(LOG_TAG, "a2dp handle is not identified, Ignoring start capture request");
return -ENOSYS;
}
if (a2dpState != A2DP_STATE_STARTED && !totalActiveSessionRequests) {
codecFormat = CODEC_TYPE_INVALID;
PAL_DBG(LOG_TAG, "calling BT module stream start");
/* This call indicates BT IPC lib to start capture */
if (audio_sink_start_api) {
ret = audio_sink_start_api(get_session_type());
} else {
ret = audio_sink_start();
}
PAL_ERR(LOG_TAG, "BT controller start capture return = %d",ret);
if (ret != 0 ) {
PAL_ERR(LOG_TAG, "BT controller start capture failed");
return ret;
}
codecInfo = audio_get_dec_config((audio_format_t *)&codecFormat);
if (codecInfo == NULL || codecFormat == CODEC_TYPE_INVALID) {
PAL_ERR(LOG_TAG, "invalid encoder config");
return -EINVAL;
}
/* Update Device GKV based on Decoder type */
updateDeviceMetadata();
ret = configureA2dpEncoderDecoder();
if (ret) {
PAL_DBG(LOG_TAG, "unable to configure DSP decoder");
return ret;
}
}
} else {
uint8_t multi_cast = 0, num_dev = 1;
if (!(bt_lib_sink_handle && (audio_sink_start_api ||
audio_sink_start) && (audio_get_enc_config_api ||
audio_get_enc_config))) {
PAL_ERR(LOG_TAG, "a2dp handle is not identified, Ignoring start capture request");
return -ENOSYS;
}
if (param_bt_a2dp.a2dp_capture_suspended) {
// session will be restarted after suspend completion
PAL_INFO(LOG_TAG, "a2dp start capture requested during suspend state");
return -EINVAL;
}
if (a2dpState != A2DP_STATE_STARTED && !totalActiveSessionRequests) {
codecFormat = CODEC_TYPE_INVALID;
PAL_DBG(LOG_TAG, "calling BT module stream start");
/* This call indicates BT IPC lib to start */
if (audio_sink_start_api) {
ret = audio_sink_start_api(get_session_type());
}
else {
ret = audio_sink_start();
}
PAL_ERR(LOG_TAG, "BT controller start return = %d",ret);
if (ret != 0 ) {
PAL_ERR(LOG_TAG, "BT controller start failed");
return ret;
}
if (audio_get_enc_config_api) {
codecInfo = audio_get_enc_config_api(get_session_type(), &multi_cast, &num_dev, (audio_format_t*)&codecFormat);
} else {
codecInfo = audio_get_enc_config(&multi_cast, &num_dev, (audio_format_t*)&codecFormat);
}
if (codecInfo == NULL || codecFormat == CODEC_TYPE_INVALID) {
PAL_ERR(LOG_TAG, "invalid codec config");
return -EINVAL;
}
/* Update Device GKV based on Decoder type */
updateDeviceMetadata();
ret = configureA2dpEncoderDecoder();
if (ret) {
PAL_DBG(LOG_TAG, "unable to configure DSP decoder");
return ret;
}
}
}
if (!isDummySink) {
if (!a2dp_send_sink_setup_complete()) {
PAL_DBG(LOG_TAG, "sink_setup_complete not successful");
ret = -ETIMEDOUT;
}
}
a2dpState = A2DP_STATE_STARTED;
totalActiveSessionRequests++;
PAL_DBG(LOG_TAG, "start A2DP sink total active sessions :%d",
totalActiveSessionRequests);
return ret;
}
int BtA2dp::stopCapture()
{
int ret =0;
PAL_VERBOSE(LOG_TAG, "a2dp_stop_capture start");
if (!(bt_lib_sink_handle && (audio_sink_stop_api ||
audio_sink_stop))) {
PAL_ERR(LOG_TAG, "a2dp handle is not identified, Ignoring stop request");
return -ENOSYS;
}
if (totalActiveSessionRequests > 0)
totalActiveSessionRequests--;
if (!totalActiveSessionRequests) {
PAL_VERBOSE(LOG_TAG, "calling BT module stream stop");
isConfigured = false;
if (audio_sink_stop_api) {
ret = audio_sink_stop_api(get_session_type());
} else {
ret = audio_sink_stop();
}
if (ret < 0) {
PAL_ERR(LOG_TAG, "stop stream to BT IPC lib failed");
} else {
PAL_VERBOSE(LOG_TAG, "stop steam to BT IPC lib successful");
}
// It can be in A2DP_STATE_DISCONNECTED, if device disconnect happens prior to Stop.
if (a2dpState == A2DP_STATE_STARTED)
a2dpState = A2DP_STATE_STOPPED;
if (pluginCodec) {
pluginCodec->close_plugin(pluginCodec);
pluginCodec = NULL;
}
if (pluginHandler) {
dlclose(pluginHandler);
pluginHandler = NULL;
}
}
PAL_DBG(LOG_TAG, "Stop A2DP capture, total active sessions :%d",
totalActiveSessionRequests);
return 0;
}
int32_t BtA2dp::setDeviceParameter(uint32_t param_id, void *param)
{
int32_t status = 0;
pal_param_bta2dp_t* param_a2dp = (pal_param_bta2dp_t *)param;
if (isA2dpOffloadSupported == false) {
PAL_VERBOSE(LOG_TAG, "no supported encoders identified,ignoring a2dp setparam");
status = -EINVAL;
goto exit;
}
switch(param_id) {
case PAL_PARAM_ID_DEVICE_CONNECTION:
{
pal_param_device_connection_t *device_connection =
(pal_param_device_connection_t *)param;
if (device_connection->connection_state == true) {
if (a2dpRole == SOURCE)
open_a2dp_source();
else {
#ifdef A2DP_SINK_SUPPORTED
open_a2dp_sink();
#else
a2dpState = A2DP_STATE_CONNECTED;
#endif
}
} else {
if (a2dpRole == SOURCE) {
status = close_audio_source();
} else {
#ifdef A2DP_SINK_SUPPORTED
status = close_audio_sink();
#else
totalActiveSessionRequests = 0;
param_bt_a2dp.a2dp_suspended = false;
param_bt_a2dp.a2dp_capture_suspended = false;
param_bt_a2dp.reconfig = false;
param_bt_a2dp.latency = 0;
a2dpState = A2DP_STATE_DISCONNECTED;
#endif
}
}
break;
}
case PAL_PARAM_ID_BT_A2DP_RECONFIG:
{
if (a2dpState != A2DP_STATE_DISCONNECTED) {
param_bt_a2dp.reconfig = param_a2dp->reconfig;
}
break;
}
case PAL_PARAM_ID_BT_A2DP_SUSPENDED:
{
if (bt_lib_source_handle == nullptr)
goto exit;
if (param_bt_a2dp.a2dp_suspended == param_a2dp->a2dp_suspended)
goto exit;
if (param_a2dp->a2dp_suspended == true) {
param_bt_a2dp.a2dp_suspended = true;
if (a2dpState == A2DP_STATE_DISCONNECTED)
goto exit;
status = rm->a2dpSuspend(param_a2dp->dev_id);
if (audio_source_suspend_api)
audio_source_suspend_api(get_session_type());
else
audio_source_suspend();
} else {
if (clear_source_a2dpsuspend_flag)
clear_source_a2dpsuspend_flag();
param_bt_a2dp.a2dp_suspended = false;
if (totalActiveSessionRequests > 0) {
if (audio_source_start_api) {
status = audio_source_start_api(get_session_type());
} else {
status = audio_source_start();
}
if (status) {
PAL_ERR(LOG_TAG, "BT controller start failed");
goto exit;
}
}
status = rm->a2dpResume(param_a2dp->dev_id);
}
break;
}
case PAL_PARAM_ID_BT_A2DP_TWS_CONFIG:
{
isTwsMonoModeOn = param_a2dp->is_tws_mono_mode_on;
if (a2dpState == A2DP_STATE_STARTED) {
std::shared_ptr<Device> dev = nullptr;
Stream *stream = NULL;
Session *session = NULL;
std::vector<Stream*> activestreams;
pal_bt_tws_payload param_tws;
dev = Device::getInstance(&deviceAttr, rm);
status = rm->getActiveStream_l(activestreams, dev);
if ((0 != status) || (activestreams.size() == 0)) {
PAL_ERR(LOG_TAG, "no active stream available");
return -EINVAL;
}
stream = static_cast<Stream *>(activestreams[0]);
stream->getAssociatedSession(&session);
param_tws.isTwsMonoModeOn = isTwsMonoModeOn;
param_tws.codecFormat = (uint32_t)codecFormat;
session->setParameters(stream, BT_PLACEHOLDER_ENCODER, param_id, &param_tws);
}
break;
}
case PAL_PARAM_ID_BT_A2DP_LC3_CONFIG:
{
isLC3MonoModeOn = param_a2dp->is_lc3_mono_mode_on;
if (a2dpState == A2DP_STATE_STARTED) {
std::shared_ptr<Device> dev = nullptr;
Stream *stream = NULL;
Session *session = NULL;
std::vector<Stream*> activestreams;
pal_bt_lc3_payload param_lc3;
dev = Device::getInstance(&deviceAttr, rm);
status = rm->getActiveStream_l(activestreams, dev);
if ((0 != status) || (activestreams.size() == 0)) {
PAL_ERR(LOG_TAG, "no active stream available");
return -EINVAL;
}
stream = static_cast<Stream *>(activestreams[0]);
stream->getAssociatedSession(&session);
param_lc3.isLC3MonoModeOn = isLC3MonoModeOn;
session->setParameters(stream, BT_PLACEHOLDER_ENCODER, param_id, &param_lc3);
}
break;
}
case PAL_PARAM_ID_BT_A2DP_CAPTURE_SUSPENDED:
{
if (bt_lib_sink_handle == nullptr)
goto exit;
if (param_bt_a2dp.a2dp_capture_suspended == param_a2dp->a2dp_capture_suspended)
goto exit;
if (param_a2dp->a2dp_capture_suspended == true) {
param_bt_a2dp.a2dp_capture_suspended = true;
if (a2dpState == A2DP_STATE_DISCONNECTED)
goto exit;
rm->a2dpCaptureSuspend(param_a2dp->dev_id);
if (audio_sink_suspend_api)
audio_sink_suspend_api(get_session_type());
else
audio_sink_suspend();
} else {
if (clear_source_a2dpsuspend_flag)
clear_source_a2dpsuspend_flag();
param_bt_a2dp.a2dp_capture_suspended = false;
if (totalActiveSessionRequests > 0) {
if (audio_sink_start_api) {
status = audio_sink_start_api(get_session_type());
} else {
status = audio_sink_start();
}
if (status) {
PAL_ERR(LOG_TAG, "BT controller start failed");
goto exit;
}
}
rm->a2dpCaptureResume(param_a2dp->dev_id);
}
break;
}
case PAL_PARAM_ID_SET_SINK_METADATA:
if (deviceAttr.id == PAL_DEVICE_IN_BLUETOOTH_BLE) {
if (btoffload_update_metadata_api) {
PAL_INFO(LOG_TAG, "sending sink metadata to BT API");
btoffload_update_metadata_api(get_session_type(), param);
}
}
break;
case PAL_PARAM_ID_SET_SOURCE_METADATA:
if (deviceAttr.id == PAL_DEVICE_OUT_BLUETOOTH_BLE) {
if (btoffload_update_metadata_api) {
PAL_INFO(LOG_TAG, "sending source metadata to BT API");
btoffload_update_metadata_api(get_session_type(), param);
}
}
break;
default:
return -EINVAL;
}
exit:
return status;
}
int32_t BtA2dp::getDeviceParameter(uint32_t param_id, void **param)
{
switch (param_id) {
case PAL_PARAM_ID_BT_A2DP_RECONFIG:
case PAL_PARAM_ID_BT_A2DP_RECONFIG_SUPPORTED:
case PAL_PARAM_ID_BT_A2DP_SUSPENDED:
case PAL_PARAM_ID_BT_A2DP_CAPTURE_SUSPENDED:
case PAL_PARAM_ID_BT_A2DP_DECODER_LATENCY:
case PAL_PARAM_ID_BT_A2DP_ENCODER_LATENCY:
*param = &param_bt_a2dp;
break;
case PAL_PARAM_ID_BT_A2DP_FORCE_SWITCH:
{
if (param_bt_a2dp.reconfig ||
((a2dpState != A2DP_STATE_STARTED) && (param_bt_a2dp.a2dp_suspended == true))) {
param_bt_a2dp.is_force_switch = true;
PAL_DBG(LOG_TAG, "a2dp reconfig or a2dp suspended/a2dpState is not started");
} else {
param_bt_a2dp.is_force_switch = false;
}
*param = &param_bt_a2dp;
break;
}
default:
return -EINVAL;
}
return 0;
}
std::shared_ptr<Device> BtA2dp::getObject(pal_device_id_t id)
{
if (id == PAL_DEVICE_OUT_BLUETOOTH_A2DP) {
return objRx;
}
else if (id == PAL_DEVICE_IN_BLUETOOTH_A2DP) {
return objTx;
}
else if (id == PAL_DEVICE_OUT_BLUETOOTH_BLE) {
return objBleRx;
}
else if (id == PAL_DEVICE_OUT_BLUETOOTH_BLE_BROADCAST) {
return objBleBroadcastRx;
} else {
return objBleTx;
}
}
std::shared_ptr<Device>
BtA2dp::getInstance(struct pal_device *device, std::shared_ptr<ResourceManager> Rm)
{
if (device->id == PAL_DEVICE_OUT_BLUETOOTH_A2DP) {
if (!objRx) {
PAL_INFO(LOG_TAG, "creating instance for %d", device->id);
std::shared_ptr<Device> sp(new BtA2dp(device, Rm));
objRx = sp;
}
return objRx;
} else if (device->id == PAL_DEVICE_IN_BLUETOOTH_A2DP) {
if (!objTx) {
PAL_INFO(LOG_TAG, "creating instance for %d", device->id);
std::shared_ptr<Device> sp(new BtA2dp(device, Rm));
objTx = sp;
}
return objTx;
} else if (device->id == PAL_DEVICE_OUT_BLUETOOTH_BLE) {
if (!objBleRx) {
PAL_INFO(LOG_TAG, "creating instance for %d", device->id);
std::shared_ptr<Device> sp(new BtA2dp(device, Rm));
objBleRx = sp;
}
return objBleRx;
} else if (device->id == PAL_DEVICE_OUT_BLUETOOTH_BLE_BROADCAST) {
if (!objBleBroadcastRx) {
PAL_INFO(LOG_TAG, "creating instance for %d", device->id);
std::shared_ptr<Device> sp(new BtA2dp(device, Rm));
objBleBroadcastRx = sp;
}
return objBleBroadcastRx;
} else {
if (!objBleTx) {
PAL_INFO(LOG_TAG, "creating instance for %d", device->id);
std::shared_ptr<Device> sp(new BtA2dp(device, Rm));
objBleTx = sp;
}
return objBleTx;
}
}
/* Scope of BtScoRX/Tx class */
// definition of static BtSco member variables
std::shared_ptr<Device> BtSco::objRx = nullptr;
std::shared_ptr<Device> BtSco::objTx = nullptr;
bool BtSco::isScoOn = false;
bool BtSco::isWbSpeechEnabled = false;
int BtSco::swbSpeechMode = SPEECH_MODE_INVALID;
bool BtSco::isSwbLc3Enabled = false;
audio_lc3_codec_cfg_t BtSco::lc3CodecInfo = {};
bool BtSco::isNrecEnabled = false;
BtSco::BtSco(struct pal_device *device, std::shared_ptr<ResourceManager> Rm)
: Bluetooth(device, Rm)
{
codecType = (device->id == PAL_DEVICE_OUT_BLUETOOTH_SCO) ? ENC : DEC;
pluginHandler = NULL;
pluginCodec = NULL;
}
BtSco::~BtSco()
{
if (lc3CodecInfo.enc_cfg.streamMapOut != NULL)
delete [] lc3CodecInfo.enc_cfg.streamMapOut;
if (lc3CodecInfo.dec_cfg.streamMapIn != NULL)
delete [] lc3CodecInfo.dec_cfg.streamMapIn;
}
bool BtSco::isDeviceReady()
{
return isScoOn;
}
void BtSco::updateSampleRate(uint32_t *sampleRate)
{
if (isWbSpeechEnabled)
*sampleRate = SAMPLINGRATE_16K;
else if (swbSpeechMode != SPEECH_MODE_INVALID)
*sampleRate = SAMPLINGRATE_96K;
else if (isSwbLc3Enabled)
*sampleRate = SAMPLINGRATE_96K;
else
*sampleRate = SAMPLINGRATE_8K;
}
int32_t BtSco::setDeviceParameter(uint32_t param_id, void *param)
{
pal_param_btsco_t* param_bt_sco = (pal_param_btsco_t *)param;
switch (param_id) {
case PAL_PARAM_ID_BT_SCO:
isScoOn = param_bt_sco->bt_sco_on;
break;
case PAL_PARAM_ID_BT_SCO_WB:
isWbSpeechEnabled = param_bt_sco->bt_wb_speech_enabled;
PAL_DBG(LOG_TAG, "isWbSpeechEnabled = %d", isWbSpeechEnabled);
break;
case PAL_PARAM_ID_BT_SCO_SWB:
swbSpeechMode = param_bt_sco->bt_swb_speech_mode;
PAL_DBG(LOG_TAG, "swbSpeechMode = %d", swbSpeechMode);
break;
case PAL_PARAM_ID_BT_SCO_LC3:
isSwbLc3Enabled = param_bt_sco->bt_lc3_speech_enabled;
if (isSwbLc3Enabled) {
// parse sco lc3 parameters and pack into codec info
convertCodecInfo(lc3CodecInfo, param_bt_sco->lc3_cfg);
}
PAL_DBG(LOG_TAG, "isSwbLc3Enabled = %d", isSwbLc3Enabled);
break;
case PAL_PARAM_ID_BT_SCO_NREC:
isNrecEnabled = param_bt_sco->bt_sco_nrec;
PAL_DBG(LOG_TAG, "isNrecEnabled = %d", isNrecEnabled);
break;
default:
return -EINVAL;
}
return 0;
}
void BtSco::convertCodecInfo(audio_lc3_codec_cfg_t &lc3CodecInfo,
btsco_lc3_cfg_t &lc3Cfg)
{
std::vector<lc3_stream_map_t> steamMapIn;
std::vector<lc3_stream_map_t> steamMapOut;
uint32_t audio_location = 0;
uint8_t stream_id = 0;
uint8_t direction = 0;
uint8_t value = 0;
int idx = 0;
std::string vendorStr(lc3Cfg.vendor);
std::string streamMapStr(lc3Cfg.streamMap);
std::regex vendorPattern("([0-9a-fA-F]{2})[,[:s:]]?");
std::regex streamMapPattern("([0-9])[,[:s:]]+([0-9])[,[:s:]]+([MLR])");
std::smatch match;
// convert and fill in encoder cfg
lc3CodecInfo.enc_cfg.toAirConfig.sampling_freq = LC3_CSC[lc3Cfg.txconfig_index].sampling_freq;
lc3CodecInfo.enc_cfg.toAirConfig.max_octets_per_frame = LC3_CSC[lc3Cfg.txconfig_index].max_octets_per_frame;
lc3CodecInfo.enc_cfg.toAirConfig.frame_duration = LC3_CSC[lc3Cfg.txconfig_index].frame_duration;
lc3CodecInfo.enc_cfg.toAirConfig.bit_depth = LC3_CSC[lc3Cfg.txconfig_index].bit_depth;
if (lc3Cfg.fields_map & LC3_FRAME_DURATION_BIT)
lc3CodecInfo.enc_cfg.toAirConfig.frame_duration = lc3Cfg.frame_duration;
lc3CodecInfo.enc_cfg.toAirConfig.api_version = lc3Cfg.api_version;
lc3CodecInfo.enc_cfg.toAirConfig.num_blocks = lc3Cfg.num_blocks;
lc3CodecInfo.enc_cfg.toAirConfig.default_q_level = 0;
lc3CodecInfo.enc_cfg.toAirConfig.mode = 0x1;
lc3CodecInfo.is_enc_config_set = true;
// convert and fill in decoder cfg
lc3CodecInfo.dec_cfg.fromAirConfig.sampling_freq = LC3_CSC[lc3Cfg.rxconfig_index].sampling_freq;
lc3CodecInfo.dec_cfg.fromAirConfig.max_octets_per_frame = LC3_CSC[lc3Cfg.rxconfig_index].max_octets_per_frame;
lc3CodecInfo.dec_cfg.fromAirConfig.frame_duration = LC3_CSC[lc3Cfg.rxconfig_index].frame_duration;
lc3CodecInfo.dec_cfg.fromAirConfig.bit_depth = LC3_CSC[lc3Cfg.rxconfig_index].bit_depth;
if (lc3Cfg.fields_map & LC3_FRAME_DURATION_BIT)
lc3CodecInfo.dec_cfg.fromAirConfig.frame_duration = lc3Cfg.frame_duration;
lc3CodecInfo.dec_cfg.fromAirConfig.api_version = lc3Cfg.api_version;
lc3CodecInfo.dec_cfg.fromAirConfig.num_blocks = lc3Cfg.num_blocks;
lc3CodecInfo.dec_cfg.fromAirConfig.default_q_level = 0;
lc3CodecInfo.dec_cfg.fromAirConfig.mode = 0x1;
lc3CodecInfo.is_dec_config_set = true;
// parse vendor specific string
idx = 15;
while (std::regex_search(vendorStr, match, vendorPattern)) {
if (idx < 0) {
PAL_ERR(LOG_TAG, "wrong vendor info length, string %s", lc3Cfg.vendor);
break;
}
value = (uint8_t)strtol(match[1].str().c_str(), NULL, 16);
lc3CodecInfo.enc_cfg.toAirConfig.vendor_specific[idx] = value;
lc3CodecInfo.dec_cfg.fromAirConfig.vendor_specific[idx--] = value;
vendorStr = match.suffix().str();
}
if (idx != -1)
PAL_ERR(LOG_TAG, "wrong vendor info length, string %s", lc3Cfg.vendor);
// parse stream map string and append stream map structures
while (std::regex_search(streamMapStr, match, streamMapPattern)) {
stream_id = atoi(match[1].str().c_str());
direction = atoi(match[2].str().c_str());
if (!strcmp(match[3].str().c_str(), "M")) {
audio_location = 0;
} else if (!strcmp(match[3].str().c_str(), "L")) {
audio_location = 1;
} else if (!strcmp(match[3].str().c_str(), "R")) {
audio_location = 2;
}
if ((stream_id > 1) || (direction > 1) || (audio_location > 2)) {
PAL_ERR(LOG_TAG, "invalid stream info (%d, %d, %d)", stream_id, direction, audio_location);
continue;
}
if (direction == TO_AIR)
steamMapOut.push_back({audio_location, stream_id, direction});
else
steamMapIn.push_back({audio_location, stream_id, direction});
streamMapStr = match.suffix().str();
}
PAL_DBG(LOG_TAG, "stream map out size: %d, stream map in size: %d", steamMapOut.size(), steamMapIn.size());
if ((steamMapOut.size() == 0) || (steamMapIn.size() == 0)) {
PAL_ERR(LOG_TAG, "invalid size steamMapOut.size %d, steamMapIn.size %d",
steamMapOut.size(), steamMapIn.size());
return;
}
idx = 0;
lc3CodecInfo.enc_cfg.stream_map_size = steamMapOut.size();
if (lc3CodecInfo.enc_cfg.streamMapOut != NULL)
delete [] lc3CodecInfo.enc_cfg.streamMapOut;
lc3CodecInfo.enc_cfg.streamMapOut = new lc3_stream_map_t[steamMapOut.size()];
for (auto &it : steamMapOut) {
lc3CodecInfo.enc_cfg.streamMapOut[idx].audio_location = it.audio_location;
lc3CodecInfo.enc_cfg.streamMapOut[idx].stream_id = it.stream_id;
lc3CodecInfo.enc_cfg.streamMapOut[idx++].direction = it.direction;
PAL_DBG(LOG_TAG, "streamMapOut: audio_location %d, stream_id %d, direction %d",
it.audio_location, it.stream_id, it.direction);
}
idx = 0;
lc3CodecInfo.dec_cfg.stream_map_size = steamMapIn.size();
if (lc3CodecInfo.dec_cfg.streamMapIn != NULL)
delete [] lc3CodecInfo.dec_cfg.streamMapIn;
lc3CodecInfo.dec_cfg.streamMapIn = new lc3_stream_map_t[steamMapIn.size()];
for (auto &it : steamMapIn) {
lc3CodecInfo.dec_cfg.streamMapIn[idx].audio_location = it.audio_location;
lc3CodecInfo.dec_cfg.streamMapIn[idx].stream_id = it.stream_id;
lc3CodecInfo.dec_cfg.streamMapIn[idx++].direction = it.direction;
PAL_DBG(LOG_TAG, "steamMapIn: audio_location %d, stream_id %d, direction %d",
it.audio_location, it.stream_id, it.direction);
}
if (lc3CodecInfo.dec_cfg.streamMapIn[0].audio_location == 0)
lc3CodecInfo.dec_cfg.decoder_output_channel = CH_MONO;
else
lc3CodecInfo.dec_cfg.decoder_output_channel = CH_STEREO;
}
int BtSco::startSwb()
{
int ret = 0;
if (!isConfigured) {
ret = configureA2dpEncoderDecoder();
} else {
/* isAbrEnabled flag assignment will be skipped if
* path is already configured.
* Force isAbrEnabled flag for SWB use case. Ideally,
* this flag should be populated from plugin.
*/
if (codecFormat == CODEC_TYPE_APTX_AD_SPEECH)
isAbrEnabled = true;
}
return ret;
}
int BtSco::start()
{
int status = 0;
mDeviceMutex.lock();
if (customPayload)
free(customPayload);
customPayload = NULL;
customPayloadSize = 0;
if (swbSpeechMode != SPEECH_MODE_INVALID) {
codecFormat = CODEC_TYPE_APTX_AD_SPEECH;
codecInfo = (void *)&swbSpeechMode;
} else if (isSwbLc3Enabled) {
codecFormat = CODEC_TYPE_LC3;
codecInfo = (void *)&lc3CodecInfo;
} else
codecFormat = CODEC_TYPE_INVALID;
updateDeviceMetadata();
if ((codecFormat == CODEC_TYPE_APTX_AD_SPEECH) ||
(codecFormat == CODEC_TYPE_LC3)) {
status = startSwb();
if (status)
goto exit;
} else {
// For SCO NB and WB that don't have encoder and decoder in place,
// just override codec configurations with device attributions.
codecConfig.bit_width = deviceAttr.config.bit_width;
codecConfig.sample_rate = deviceAttr.config.sample_rate;
codecConfig.aud_fmt_id = PAL_AUDIO_FMT_DEFAULT_PCM;
codecConfig.ch_info.channels = deviceAttr.config.ch_info.channels;
isConfigured = true;
PAL_DBG(LOG_TAG, "SCO WB/NB codecConfig is same as deviceAttr bw = %d,sr = %d,ch = %d",
codecConfig.bit_width, codecConfig.sample_rate, codecConfig.ch_info.channels);
}
// Configure NREC only on Tx path & First session request only.
if ((isConfigured == true) &&
(deviceAttr.id == PAL_DEVICE_IN_BLUETOOTH_SCO_HEADSET)) {
if (deviceStartStopCount == 0) {
configureNrecParameters(isNrecEnabled);
}
}
if (deviceStartStopCount == 0) {
status = configureSlimbusClockSrc();
if (status)
goto exit;
}
status = Device::start_l();
if (!status && isAbrEnabled)
startAbr();
exit:
mDeviceMutex.unlock();
return status;
}
int BtSco::stop()
{
int status = 0;
mDeviceMutex.lock();
if (isAbrEnabled)
stopAbr();
if (pluginCodec) {
pluginCodec->close_plugin(pluginCodec);
pluginCodec = NULL;
}
if (pluginHandler) {
dlclose(pluginHandler);
pluginHandler = NULL;
}
Device::stop_l();
if (isAbrEnabled == false)
codecFormat = CODEC_TYPE_INVALID;
if (deviceStartStopCount == 0)
isConfigured = false;
mDeviceMutex.unlock();
return status;
}
std::shared_ptr<Device> BtSco::getObject(pal_device_id_t id)
{
if (id == PAL_DEVICE_OUT_BLUETOOTH_SCO)
return objRx;
else
return objTx;
}
std::shared_ptr<Device> BtSco::getInstance(struct pal_device *device,
std::shared_ptr<ResourceManager> Rm)
{
if (device->id == PAL_DEVICE_OUT_BLUETOOTH_SCO) {
if (!objRx) {
std::shared_ptr<Device> sp(new BtSco(device, Rm));
objRx = sp;
}
return objRx;
} else {
if (!objTx) {
PAL_ERR(LOG_TAG, "creating instance for %d", device->id);
std::shared_ptr<Device> sp(new BtSco(device, Rm));
objTx = sp;
}
return objTx;
}
}
/* BtSco class end */