/* * Copyright 2015 The Android Open Source Project * * 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. */ //#define LOG_NDEBUG 0 #define LOG_TAG "bt_btif_avrcp_audio_track" #include "btif_avrcp_audio_track.h" #include #include #include #include "bt_target.h" #include "osi/include/log.h" using namespace android; typedef struct { AAudioStream* stream; int bitsPerSample; int channelCount; float* buffer; size_t bufferLength; } BtifAvrcpAudioTrack; #if (DUMP_PCM_DATA == TRUE) FILE* outputPcmSampleFile; char outputFilename[50] = "/data/misc/bluedroid/output_sample.pcm"; #endif void* BtifAvrcpAudioTrackCreate(int trackFreq, int bitsPerSample, int channelCount) { LOG_VERBOSE("%s Track.cpp: btCreateTrack freq %d bps %d channel %d ", __func__, trackFreq, bitsPerSample, channelCount); AAudioStreamBuilder* builder; AAudioStream* stream; aaudio_result_t result = AAudio_createStreamBuilder(&builder); AAudioStreamBuilder_setSampleRate(builder, trackFreq); AAudioStreamBuilder_setFormat(builder, AAUDIO_FORMAT_PCM_FLOAT); AAudioStreamBuilder_setChannelCount(builder, channelCount); AAudioStreamBuilder_setSessionId(builder, AAUDIO_SESSION_ID_ALLOCATE); AAudioStreamBuilder_setPerformanceMode(builder, AAUDIO_PERFORMANCE_MODE_LOW_LATENCY); result = AAudioStreamBuilder_openStream(builder, &stream); CHECK(result == AAUDIO_OK); AAudioStreamBuilder_delete(builder); BtifAvrcpAudioTrack* trackHolder = new BtifAvrcpAudioTrack; CHECK(trackHolder != NULL); trackHolder->stream = stream; trackHolder->bitsPerSample = bitsPerSample; trackHolder->channelCount = channelCount; trackHolder->bufferLength = trackHolder->channelCount * AAudioStream_getBufferSizeInFrames(stream); trackHolder->buffer = new float[trackHolder->bufferLength](); #if (DUMP_PCM_DATA == TRUE) outputPcmSampleFile = fopen(outputFilename, "ab"); #endif return (void*)trackHolder; } void BtifAvrcpAudioTrackStart(void* handle) { if (handle == NULL) { LOG_ERROR("%s: handle is null!", __func__); return; } BtifAvrcpAudioTrack* trackHolder = static_cast(handle); CHECK(trackHolder != NULL); CHECK(trackHolder->stream != NULL); LOG_VERBOSE("%s Track.cpp: btStartTrack", __func__); AAudioStream_requestStart(trackHolder->stream); } void BtifAvrcpAudioTrackStop(void* handle) { if (handle == NULL) { LOG_DEBUG("%s handle is null.", __func__); return; } BtifAvrcpAudioTrack* trackHolder = static_cast(handle); if (trackHolder != NULL && trackHolder->stream != NULL) { LOG_VERBOSE("%s Track.cpp: btStartTrack", __func__); AAudioStream_requestStop(trackHolder->stream); } } void BtifAvrcpAudioTrackDelete(void* handle) { if (handle == NULL) { LOG_DEBUG("%s handle is null.", __func__); return; } BtifAvrcpAudioTrack* trackHolder = static_cast(handle); if (trackHolder != NULL && trackHolder->stream != NULL) { LOG_VERBOSE("%s Track.cpp: btStartTrack", __func__); AAudioStream_close(trackHolder->stream); delete trackHolder->buffer; delete trackHolder; } #if (DUMP_PCM_DATA == TRUE) if (outputPcmSampleFile) { fclose(outputPcmSampleFile); } outputPcmSampleFile = NULL; #endif } void BtifAvrcpAudioTrackPause(void* handle) { if (handle == NULL) { LOG_DEBUG("%s handle is null.", __func__); return; } BtifAvrcpAudioTrack* trackHolder = static_cast(handle); if (trackHolder != NULL && trackHolder->stream != NULL) { LOG_VERBOSE("%s Track.cpp: btPauseTrack", __func__); AAudioStream_requestPause(trackHolder->stream); AAudioStream_requestFlush(trackHolder->stream); } } void BtifAvrcpSetAudioTrackGain(void* handle, float gain) { if (handle == NULL) { LOG_DEBUG("%s handle is null.", __func__); return; } // Does nothing right now } constexpr float kScaleQ15ToFloat = 1.0f / 32768.0f; constexpr float kScaleQ23ToFloat = 1.0f / 8388608.0f; constexpr float kScaleQ31ToFloat = 1.0f / 2147483648.0f; static size_t sampleSizeFor(BtifAvrcpAudioTrack* trackHolder) { return trackHolder->bitsPerSample / 8; } static size_t transcodeQ15ToFloat(uint8_t* buffer, size_t length, BtifAvrcpAudioTrack* trackHolder) { size_t sampleSize = sampleSizeFor(trackHolder); size_t i = 0; for (; i <= length / sampleSize; i++) { trackHolder->buffer[i] = ((int16_t*)buffer)[i] * kScaleQ15ToFloat; } return i * sampleSize; } static size_t transcodeQ23ToFloat(uint8_t* buffer, size_t length, BtifAvrcpAudioTrack* trackHolder) { size_t sampleSize = sampleSizeFor(trackHolder); size_t i = 0; for (; i <= length / sampleSize; i++) { size_t offset = i * sampleSize; int32_t sample = *((int32_t*)(buffer + offset - 1)) & 0x00FFFFFF; trackHolder->buffer[i] = sample * kScaleQ23ToFloat; } return i * sampleSize; } static size_t transcodeQ31ToFloat(uint8_t* buffer, size_t length, BtifAvrcpAudioTrack* trackHolder) { size_t sampleSize = sampleSizeFor(trackHolder); size_t i = 0; for (; i <= length / sampleSize; i++) { trackHolder->buffer[i] = ((int32_t*)buffer)[i] * kScaleQ31ToFloat; } return i * sampleSize; } static size_t transcodeToPcmFloat(uint8_t* buffer, size_t length, BtifAvrcpAudioTrack* trackHolder) { switch (trackHolder->bitsPerSample) { case 16: return transcodeQ15ToFloat(buffer, length, trackHolder); case 24: return transcodeQ23ToFloat(buffer, length, trackHolder); case 32: return transcodeQ31ToFloat(buffer, length, trackHolder); } return -1; } constexpr int64_t kTimeoutNanos = 100 * 1000 * 1000; // 100 ms int BtifAvrcpAudioTrackWriteData(void* handle, void* audioBuffer, int bufferLength) { BtifAvrcpAudioTrack* trackHolder = static_cast(handle); CHECK(trackHolder != NULL); CHECK(trackHolder->stream != NULL); aaudio_result_t retval = -1; #if (DUMP_PCM_DATA == TRUE) if (outputPcmSampleFile) { fwrite((audioBuffer), 1, (size_t)bufferLength, outputPcmSampleFile); } #endif size_t sampleSize = sampleSizeFor(trackHolder); int transcodedCount = 0; do { transcodedCount += transcodeToPcmFloat(((uint8_t*)audioBuffer) + transcodedCount, bufferLength - transcodedCount, trackHolder); retval = AAudioStream_write( trackHolder->stream, trackHolder->buffer, transcodedCount / (sampleSize * trackHolder->channelCount), kTimeoutNanos); LOG_VERBOSE("%s Track.cpp: btWriteData len = %d ret = %d", __func__, bufferLength, retval); } while (transcodedCount < bufferLength); return transcodedCount; }