/* * Copyright (C) 2010 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 "MPEG2TSWriter" #include #include #include #include #include #include #include #include #include #include #include #include #include "include/ESDS.h" namespace android { struct MPEG2TSWriter::SourceInfo : public AHandler { SourceInfo(const sp &source); void start(const sp ¬ify); void stop(); unsigned streamType() const; unsigned incrementContinuityCounter(); void readMore(); enum { kNotifyStartFailed, kNotifyBuffer, kNotifyReachedEOS, }; sp lastAccessUnit(); int64_t lastAccessUnitTimeUs(); void setLastAccessUnit(const sp &accessUnit); void setEOSReceived(); bool eosReceived() const; protected: virtual void onMessageReceived(const sp &msg); virtual ~SourceInfo(); private: enum { kWhatStart = 'strt', kWhatRead = 'read', }; sp mSource; sp mLooper; sp mNotify; sp mAACCodecSpecificData; sp mAACBuffer; sp mLastAccessUnit; bool mEOSReceived; unsigned mStreamType; unsigned mContinuityCounter; void extractCodecSpecificData(); bool appendAACFrames(MediaBuffer *buffer); bool flushAACFrames(); void postAVCFrame(MediaBuffer *buffer); DISALLOW_EVIL_CONSTRUCTORS(SourceInfo); }; MPEG2TSWriter::SourceInfo::SourceInfo(const sp &source) : mSource(source), mLooper(new ALooper), mEOSReceived(false), mStreamType(0), mContinuityCounter(0) { mLooper->setName("MPEG2TSWriter source"); sp meta = mSource->getFormat(); const char *mime; CHECK(meta->findCString(kKeyMIMEType, &mime)); if (!strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_AAC)) { mStreamType = 0x0f; } else if (!strcasecmp(mime, MEDIA_MIMETYPE_VIDEO_AVC)) { mStreamType = 0x1b; } else { TRESPASS(); } } MPEG2TSWriter::SourceInfo::~SourceInfo() { } unsigned MPEG2TSWriter::SourceInfo::streamType() const { return mStreamType; } unsigned MPEG2TSWriter::SourceInfo::incrementContinuityCounter() { if (++mContinuityCounter == 16) { mContinuityCounter = 0; } return mContinuityCounter; } void MPEG2TSWriter::SourceInfo::start(const sp ¬ify) { mLooper->registerHandler(this); mLooper->start(); mNotify = notify; (new AMessage(kWhatStart, id()))->post(); } void MPEG2TSWriter::SourceInfo::stop() { mLooper->unregisterHandler(id()); mLooper->stop(); mSource->stop(); } void MPEG2TSWriter::SourceInfo::extractCodecSpecificData() { sp meta = mSource->getFormat(); const char *mime; CHECK(meta->findCString(kKeyMIMEType, &mime)); if (!strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_AAC)) { uint32_t type; const void *data; size_t size; if (!meta->findData(kKeyESDS, &type, &data, &size)) { // Codec specific data better be in the first data buffer. return; } ESDS esds((const char *)data, size); CHECK_EQ(esds.InitCheck(), (status_t)OK); const uint8_t *codec_specific_data; size_t codec_specific_data_size; esds.getCodecSpecificInfo( (const void **)&codec_specific_data, &codec_specific_data_size); CHECK_GE(codec_specific_data_size, 2u); mAACCodecSpecificData = new ABuffer(codec_specific_data_size); memcpy(mAACCodecSpecificData->data(), codec_specific_data, codec_specific_data_size); return; } if (strcasecmp(mime, MEDIA_MIMETYPE_VIDEO_AVC)) { return; } uint32_t type; const void *data; size_t size; if (!meta->findData(kKeyAVCC, &type, &data, &size)) { // Codec specific data better be part of the data stream then. return; } sp out = new ABuffer(1024); out->setRange(0, 0); const uint8_t *ptr = (const uint8_t *)data; size_t numSeqParameterSets = ptr[5] & 31; ptr += 6; size -= 6; for (size_t i = 0; i < numSeqParameterSets; ++i) { CHECK(size >= 2); size_t length = U16_AT(ptr); ptr += 2; size -= 2; CHECK(size >= length); CHECK_LE(out->size() + 4 + length, out->capacity()); memcpy(out->data() + out->size(), "\x00\x00\x00\x01", 4); memcpy(out->data() + out->size() + 4, ptr, length); out->setRange(0, out->size() + length + 4); ptr += length; size -= length; } CHECK(size >= 1); size_t numPictureParameterSets = *ptr; ++ptr; --size; for (size_t i = 0; i < numPictureParameterSets; ++i) { CHECK(size >= 2); size_t length = U16_AT(ptr); ptr += 2; size -= 2; CHECK(size >= length); CHECK_LE(out->size() + 4 + length, out->capacity()); memcpy(out->data() + out->size(), "\x00\x00\x00\x01", 4); memcpy(out->data() + out->size() + 4, ptr, length); out->setRange(0, out->size() + length + 4); ptr += length; size -= length; } out->meta()->setInt64("timeUs", 0ll); sp notify = mNotify->dup(); notify->setInt32("what", kNotifyBuffer); notify->setBuffer("buffer", out); notify->setInt32("oob", true); notify->post(); } void MPEG2TSWriter::SourceInfo::postAVCFrame(MediaBuffer *buffer) { sp notify = mNotify->dup(); notify->setInt32("what", kNotifyBuffer); sp copy = new ABuffer(buffer->range_length()); memcpy(copy->data(), (const uint8_t *)buffer->data() + buffer->range_offset(), buffer->range_length()); int64_t timeUs; CHECK(buffer->meta_data()->findInt64(kKeyTime, &timeUs)); copy->meta()->setInt64("timeUs", timeUs); int32_t isSync; if (buffer->meta_data()->findInt32(kKeyIsSyncFrame, &isSync) && isSync != 0) { copy->meta()->setInt32("isSync", true); } notify->setBuffer("buffer", copy); notify->post(); } bool MPEG2TSWriter::SourceInfo::appendAACFrames(MediaBuffer *buffer) { bool accessUnitPosted = false; if (mAACBuffer != NULL && mAACBuffer->size() + 7 + buffer->range_length() > mAACBuffer->capacity()) { accessUnitPosted = flushAACFrames(); } if (mAACBuffer == NULL) { size_t alloc = 4096; if (buffer->range_length() + 7 > alloc) { alloc = 7 + buffer->range_length(); } mAACBuffer = new ABuffer(alloc); int64_t timeUs; CHECK(buffer->meta_data()->findInt64(kKeyTime, &timeUs)); mAACBuffer->meta()->setInt64("timeUs", timeUs); mAACBuffer->meta()->setInt32("isSync", true); mAACBuffer->setRange(0, 0); } const uint8_t *codec_specific_data = mAACCodecSpecificData->data(); unsigned profile = (codec_specific_data[0] >> 3) - 1; unsigned sampling_freq_index = ((codec_specific_data[0] & 7) << 1) | (codec_specific_data[1] >> 7); unsigned channel_configuration = (codec_specific_data[1] >> 3) & 0x0f; uint8_t *ptr = mAACBuffer->data() + mAACBuffer->size(); const uint32_t aac_frame_length = buffer->range_length() + 7; *ptr++ = 0xff; *ptr++ = 0xf1; // b11110001, ID=0, layer=0, protection_absent=1 *ptr++ = profile << 6 | sampling_freq_index << 2 | ((channel_configuration >> 2) & 1); // private_bit=0 // original_copy=0, home=0, copyright_id_bit=0, copyright_id_start=0 *ptr++ = (channel_configuration & 3) << 6 | aac_frame_length >> 11; *ptr++ = (aac_frame_length >> 3) & 0xff; *ptr++ = (aac_frame_length & 7) << 5; // adts_buffer_fullness=0, number_of_raw_data_blocks_in_frame=0 *ptr++ = 0; memcpy(ptr, (const uint8_t *)buffer->data() + buffer->range_offset(), buffer->range_length()); ptr += buffer->range_length(); mAACBuffer->setRange(0, ptr - mAACBuffer->data()); return accessUnitPosted; } bool MPEG2TSWriter::SourceInfo::flushAACFrames() { if (mAACBuffer == NULL) { return false; } sp notify = mNotify->dup(); notify->setInt32("what", kNotifyBuffer); notify->setBuffer("buffer", mAACBuffer); notify->post(); mAACBuffer.clear(); return true; } void MPEG2TSWriter::SourceInfo::readMore() { (new AMessage(kWhatRead, id()))->post(); } void MPEG2TSWriter::SourceInfo::onMessageReceived(const sp &msg) { switch (msg->what()) { case kWhatStart: { status_t err = mSource->start(); if (err != OK) { sp notify = mNotify->dup(); notify->setInt32("what", kNotifyStartFailed); notify->post(); break; } extractCodecSpecificData(); readMore(); break; } case kWhatRead: { MediaBuffer *buffer; status_t err = mSource->read(&buffer); if (err != OK && err != INFO_FORMAT_CHANGED) { if (mStreamType == 0x0f) { flushAACFrames(); } sp notify = mNotify->dup(); notify->setInt32("what", kNotifyReachedEOS); notify->setInt32("status", err); notify->post(); break; } if (err == OK) { if (mStreamType == 0x0f && mAACCodecSpecificData == NULL) { // The first buffer contains codec specific data. CHECK_GE(buffer->range_length(), 2u); mAACCodecSpecificData = new ABuffer(buffer->range_length()); memcpy(mAACCodecSpecificData->data(), (const uint8_t *)buffer->data() + buffer->range_offset(), buffer->range_length()); } else if (buffer->range_length() > 0) { if (mStreamType == 0x0f) { if (!appendAACFrames(buffer)) { msg->post(); } } else { postAVCFrame(buffer); } } else { readMore(); } buffer->release(); buffer = NULL; } // Do not read more data until told to. break; } default: TRESPASS(); } } sp MPEG2TSWriter::SourceInfo::lastAccessUnit() { return mLastAccessUnit; } void MPEG2TSWriter::SourceInfo::setLastAccessUnit( const sp &accessUnit) { mLastAccessUnit = accessUnit; } int64_t MPEG2TSWriter::SourceInfo::lastAccessUnitTimeUs() { if (mLastAccessUnit == NULL) { return -1; } int64_t timeUs; CHECK(mLastAccessUnit->meta()->findInt64("timeUs", &timeUs)); return timeUs; } void MPEG2TSWriter::SourceInfo::setEOSReceived() { CHECK(!mEOSReceived); mEOSReceived = true; } bool MPEG2TSWriter::SourceInfo::eosReceived() const { return mEOSReceived; } //////////////////////////////////////////////////////////////////////////////// MPEG2TSWriter::MPEG2TSWriter(int fd) : mFile(fdopen(dup(fd), "wb")), mWriteCookie(NULL), mWriteFunc(NULL), mStarted(false), mNumSourcesDone(0), mNumTSPacketsWritten(0), mNumTSPacketsBeforeMeta(0), mPATContinuityCounter(0), mPMTContinuityCounter(0) { init(); } MPEG2TSWriter::MPEG2TSWriter(const char *filename) : mFile(fopen(filename, "wb")), mWriteCookie(NULL), mWriteFunc(NULL), mStarted(false), mNumSourcesDone(0), mNumTSPacketsWritten(0), mNumTSPacketsBeforeMeta(0), mPATContinuityCounter(0), mPMTContinuityCounter(0) { init(); } MPEG2TSWriter::MPEG2TSWriter( void *cookie, ssize_t (*write)(void *cookie, const void *data, size_t size)) : mFile(NULL), mWriteCookie(cookie), mWriteFunc(write), mStarted(false), mNumSourcesDone(0), mNumTSPacketsWritten(0), mNumTSPacketsBeforeMeta(0), mPATContinuityCounter(0), mPMTContinuityCounter(0) { init(); } void MPEG2TSWriter::init() { CHECK(mFile != NULL || mWriteFunc != NULL); initCrcTable(); mLooper = new ALooper; mLooper->setName("MPEG2TSWriter"); mReflector = new AHandlerReflector(this); mLooper->registerHandler(mReflector); mLooper->start(); } MPEG2TSWriter::~MPEG2TSWriter() { if (mStarted) { reset(); } mLooper->unregisterHandler(mReflector->id()); mLooper->stop(); if (mFile != NULL) { fclose(mFile); mFile = NULL; } } status_t MPEG2TSWriter::addSource(const sp &source) { CHECK(!mStarted); sp meta = source->getFormat(); const char *mime; CHECK(meta->findCString(kKeyMIMEType, &mime)); if (strcasecmp(mime, MEDIA_MIMETYPE_VIDEO_AVC) && strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_AAC)) { return ERROR_UNSUPPORTED; } sp info = new SourceInfo(source); mSources.push(info); return OK; } status_t MPEG2TSWriter::start(MetaData * /* param */) { CHECK(!mStarted); mStarted = true; mNumSourcesDone = 0; mNumTSPacketsWritten = 0; mNumTSPacketsBeforeMeta = 0; for (size_t i = 0; i < mSources.size(); ++i) { sp notify = new AMessage(kWhatSourceNotify, mReflector->id()); notify->setInt32("source-index", i); mSources.editItemAt(i)->start(notify); } return OK; } status_t MPEG2TSWriter::reset() { CHECK(mStarted); for (size_t i = 0; i < mSources.size(); ++i) { mSources.editItemAt(i)->stop(); } mStarted = false; return OK; } status_t MPEG2TSWriter::pause() { CHECK(mStarted); return OK; } bool MPEG2TSWriter::reachedEOS() { return !mStarted || (mNumSourcesDone == mSources.size() ? true : false); } status_t MPEG2TSWriter::dump( int /* fd */, const Vector & /* args */) { return OK; } void MPEG2TSWriter::onMessageReceived(const sp &msg) { switch (msg->what()) { case kWhatSourceNotify: { int32_t sourceIndex; CHECK(msg->findInt32("source-index", &sourceIndex)); int32_t what; CHECK(msg->findInt32("what", &what)); if (what == SourceInfo::kNotifyReachedEOS || what == SourceInfo::kNotifyStartFailed) { sp source = mSources.editItemAt(sourceIndex); source->setEOSReceived(); sp buffer = source->lastAccessUnit(); source->setLastAccessUnit(NULL); if (buffer != NULL) { writeTS(); writeAccessUnit(sourceIndex, buffer); } ++mNumSourcesDone; } else if (what == SourceInfo::kNotifyBuffer) { sp buffer; CHECK(msg->findBuffer("buffer", &buffer)); int32_t oob; if (msg->findInt32("oob", &oob) && oob) { // This is codec specific data delivered out of band. // It can be written out immediately. writeTS(); writeAccessUnit(sourceIndex, buffer); break; } // We don't just write out data as we receive it from // the various sources. That would essentially write them // out in random order (as the thread scheduler determines // how the messages are dispatched). // Instead we gather an access unit for all tracks and // write out the one with the smallest timestamp, then // request more data for the written out track. // Rinse, repeat. // If we don't have data on any track we don't write // anything just yet. sp source = mSources.editItemAt(sourceIndex); CHECK(source->lastAccessUnit() == NULL); source->setLastAccessUnit(buffer); ALOGV("lastAccessUnitTimeUs[%d] = %.2f secs", sourceIndex, source->lastAccessUnitTimeUs() / 1E6); int64_t minTimeUs = -1; size_t minIndex = 0; for (size_t i = 0; i < mSources.size(); ++i) { const sp &source = mSources.editItemAt(i); if (source->eosReceived()) { continue; } int64_t timeUs = source->lastAccessUnitTimeUs(); if (timeUs < 0) { minTimeUs = -1; break; } else if (minTimeUs < 0 || timeUs < minTimeUs) { minTimeUs = timeUs; minIndex = i; } } if (minTimeUs < 0) { ALOGV("not a all tracks have valid data."); break; } ALOGV("writing access unit at time %.2f secs (index %d)", minTimeUs / 1E6, minIndex); source = mSources.editItemAt(minIndex); buffer = source->lastAccessUnit(); source->setLastAccessUnit(NULL); writeTS(); writeAccessUnit(minIndex, buffer); source->readMore(); } break; } default: TRESPASS(); } } void MPEG2TSWriter::writeProgramAssociationTable() { // 0x47 // transport_error_indicator = b0 // payload_unit_start_indicator = b1 // transport_priority = b0 // PID = b0000000000000 (13 bits) // transport_scrambling_control = b00 // adaptation_field_control = b01 (no adaptation field, payload only) // continuity_counter = b???? // skip = 0x00 // --- payload follows // table_id = 0x00 // section_syntax_indicator = b1 // must_be_zero = b0 // reserved = b11 // section_length = 0x00d // transport_stream_id = 0x0000 // reserved = b11 // version_number = b00001 // current_next_indicator = b1 // section_number = 0x00 // last_section_number = 0x00 // one program follows: // program_number = 0x0001 // reserved = b111 // program_map_PID = 0x01e0 (13 bits!) // CRC = 0x???????? static const uint8_t kData[] = { 0x47, 0x40, 0x00, 0x10, 0x00, // b0100 0000 0000 0000 0001 ???? 0000 0000 0x00, 0xb0, 0x0d, 0x00, // b0000 0000 1011 0000 0000 1101 0000 0000 0x00, 0xc3, 0x00, 0x00, // b0000 0000 1100 0011 0000 0000 0000 0000 0x00, 0x01, 0xe1, 0xe0, // b0000 0000 0000 0001 1110 0001 1110 0000 0x00, 0x00, 0x00, 0x00 // b???? ???? ???? ???? ???? ???? ???? ???? }; sp buffer = new ABuffer(188); memset(buffer->data(), 0xff, buffer->size()); memcpy(buffer->data(), kData, sizeof(kData)); if (++mPATContinuityCounter == 16) { mPATContinuityCounter = 0; } buffer->data()[3] |= mPATContinuityCounter; uint32_t crc = htonl(crc32(&buffer->data()[5], 12)); memcpy(&buffer->data()[17], &crc, sizeof(crc)); CHECK_EQ(internalWrite(buffer->data(), buffer->size()), buffer->size()); } void MPEG2TSWriter::writeProgramMap() { // 0x47 // transport_error_indicator = b0 // payload_unit_start_indicator = b1 // transport_priority = b0 // PID = b0 0001 1110 0000 (13 bits) [0x1e0] // transport_scrambling_control = b00 // adaptation_field_control = b01 (no adaptation field, payload only) // continuity_counter = b???? // skip = 0x00 // -- payload follows // table_id = 0x02 // section_syntax_indicator = b1 // must_be_zero = b0 // reserved = b11 // section_length = 0x??? // program_number = 0x0001 // reserved = b11 // version_number = b00001 // current_next_indicator = b1 // section_number = 0x00 // last_section_number = 0x00 // reserved = b111 // PCR_PID = b? ???? ???? ???? (13 bits) // reserved = b1111 // program_info_length = 0x000 // one or more elementary stream descriptions follow: // stream_type = 0x?? // reserved = b111 // elementary_PID = b? ???? ???? ???? (13 bits) // reserved = b1111 // ES_info_length = 0x000 // CRC = 0x???????? static const uint8_t kData[] = { 0x47, 0x41, 0xe0, 0x10, 0x00, // b0100 0001 1110 0000 0001 ???? 0000 0000 0x02, 0xb0, 0x00, 0x00, // b0000 0010 1011 ???? ???? ???? 0000 0000 0x01, 0xc3, 0x00, 0x00, // b0000 0001 1100 0011 0000 0000 0000 0000 0xe0, 0x00, 0xf0, 0x00 // b111? ???? ???? ???? 1111 0000 0000 0000 }; sp buffer = new ABuffer(188); memset(buffer->data(), 0xff, buffer->size()); memcpy(buffer->data(), kData, sizeof(kData)); if (++mPMTContinuityCounter == 16) { mPMTContinuityCounter = 0; } buffer->data()[3] |= mPMTContinuityCounter; size_t section_length = 5 * mSources.size() + 4 + 9; buffer->data()[6] |= section_length >> 8; buffer->data()[7] = section_length & 0xff; static const unsigned kPCR_PID = 0x1e1; buffer->data()[13] |= (kPCR_PID >> 8) & 0x1f; buffer->data()[14] = kPCR_PID & 0xff; uint8_t *ptr = &buffer->data()[sizeof(kData)]; for (size_t i = 0; i < mSources.size(); ++i) { *ptr++ = mSources.editItemAt(i)->streamType(); const unsigned ES_PID = 0x1e0 + i + 1; *ptr++ = 0xe0 | (ES_PID >> 8); *ptr++ = ES_PID & 0xff; *ptr++ = 0xf0; *ptr++ = 0x00; } uint32_t crc = htonl(crc32(&buffer->data()[5], 12+mSources.size()*5)); memcpy(&buffer->data()[17+mSources.size()*5], &crc, sizeof(crc)); CHECK_EQ(internalWrite(buffer->data(), buffer->size()), buffer->size()); } void MPEG2TSWriter::writeAccessUnit( int32_t sourceIndex, const sp &accessUnit) { // 0x47 // transport_error_indicator = b0 // payload_unit_start_indicator = b1 // transport_priority = b0 // PID = b0 0001 1110 ???? (13 bits) [0x1e0 + 1 + sourceIndex] // transport_scrambling_control = b00 // adaptation_field_control = b?? // continuity_counter = b???? // -- payload follows // packet_startcode_prefix = 0x000001 // stream_id = 0x?? (0xe0 for avc video, 0xc0 for aac audio) // PES_packet_length = 0x???? // reserved = b10 // PES_scrambling_control = b00 // PES_priority = b0 // data_alignment_indicator = b1 // copyright = b0 // original_or_copy = b0 // PTS_DTS_flags = b10 (PTS only) // ESCR_flag = b0 // ES_rate_flag = b0 // DSM_trick_mode_flag = b0 // additional_copy_info_flag = b0 // PES_CRC_flag = b0 // PES_extension_flag = b0 // PES_header_data_length = 0x05 // reserved = b0010 (PTS) // PTS[32..30] = b??? // reserved = b1 // PTS[29..15] = b??? ???? ???? ???? (15 bits) // reserved = b1 // PTS[14..0] = b??? ???? ???? ???? (15 bits) // reserved = b1 // the first fragment of "buffer" follows sp buffer = new ABuffer(188); memset(buffer->data(), 0xff, buffer->size()); const unsigned PID = 0x1e0 + sourceIndex + 1; const unsigned continuity_counter = mSources.editItemAt(sourceIndex)->incrementContinuityCounter(); // XXX if there are multiple streams of a kind (more than 1 audio or // more than 1 video) they need distinct stream_ids. const unsigned stream_id = mSources.editItemAt(sourceIndex)->streamType() == 0x0f ? 0xc0 : 0xe0; int64_t timeUs; CHECK(accessUnit->meta()->findInt64("timeUs", &timeUs)); uint32_t PTS = (timeUs * 9ll) / 100ll; size_t PES_packet_length = accessUnit->size() + 8; bool padding = (accessUnit->size() < (188 - 18)); if (PES_packet_length >= 65536) { // This really should only happen for video. CHECK_EQ(stream_id, 0xe0u); // It's valid to set this to 0 for video according to the specs. PES_packet_length = 0; } uint8_t *ptr = buffer->data(); *ptr++ = 0x47; *ptr++ = 0x40 | (PID >> 8); *ptr++ = PID & 0xff; *ptr++ = (padding ? 0x30 : 0x10) | continuity_counter; if (padding) { int paddingSize = 188 - accessUnit->size() - 18; *ptr++ = paddingSize - 1; if (paddingSize >= 2) { *ptr++ = 0x00; ptr += paddingSize - 2; } } *ptr++ = 0x00; *ptr++ = 0x00; *ptr++ = 0x01; *ptr++ = stream_id; *ptr++ = PES_packet_length >> 8; *ptr++ = PES_packet_length & 0xff; *ptr++ = 0x84; *ptr++ = 0x80; *ptr++ = 0x05; *ptr++ = 0x20 | (((PTS >> 30) & 7) << 1) | 1; *ptr++ = (PTS >> 22) & 0xff; *ptr++ = (((PTS >> 15) & 0x7f) << 1) | 1; *ptr++ = (PTS >> 7) & 0xff; *ptr++ = ((PTS & 0x7f) << 1) | 1; size_t sizeLeft = buffer->data() + buffer->size() - ptr; size_t copy = accessUnit->size(); if (copy > sizeLeft) { copy = sizeLeft; } memcpy(ptr, accessUnit->data(), copy); CHECK_EQ(internalWrite(buffer->data(), buffer->size()), buffer->size()); size_t offset = copy; while (offset < accessUnit->size()) { bool lastAccessUnit = ((accessUnit->size() - offset) < 184); // for subsequent fragments of "buffer": // 0x47 // transport_error_indicator = b0 // payload_unit_start_indicator = b0 // transport_priority = b0 // PID = b0 0001 1110 ???? (13 bits) [0x1e0 + 1 + sourceIndex] // transport_scrambling_control = b00 // adaptation_field_control = b?? // continuity_counter = b???? // the fragment of "buffer" follows. memset(buffer->data(), 0xff, buffer->size()); const unsigned continuity_counter = mSources.editItemAt(sourceIndex)->incrementContinuityCounter(); ptr = buffer->data(); *ptr++ = 0x47; *ptr++ = 0x00 | (PID >> 8); *ptr++ = PID & 0xff; *ptr++ = (lastAccessUnit ? 0x30 : 0x10) | continuity_counter; if (lastAccessUnit) { // Pad packet using an adaptation field // Adaptation header all to 0 execpt size uint8_t paddingSize = (uint8_t)184 - (accessUnit->size() - offset); *ptr++ = paddingSize - 1; if (paddingSize >= 2) { *ptr++ = 0x00; ptr += paddingSize - 2; } } size_t sizeLeft = buffer->data() + buffer->size() - ptr; size_t copy = accessUnit->size() - offset; if (copy > sizeLeft) { copy = sizeLeft; } memcpy(ptr, accessUnit->data() + offset, copy); CHECK_EQ(internalWrite(buffer->data(), buffer->size()), buffer->size()); offset += copy; } } void MPEG2TSWriter::writeTS() { if (mNumTSPacketsWritten >= mNumTSPacketsBeforeMeta) { writeProgramAssociationTable(); writeProgramMap(); mNumTSPacketsBeforeMeta = mNumTSPacketsWritten + 2500; } } void MPEG2TSWriter::initCrcTable() { uint32_t poly = 0x04C11DB7; for (int i = 0; i < 256; i++) { uint32_t crc = i << 24; for (int j = 0; j < 8; j++) { crc = (crc << 1) ^ ((crc & 0x80000000) ? (poly) : 0); } mCrcTable[i] = crc; } } /** * Compute CRC32 checksum for buffer starting at offset start and for length * bytes. */ uint32_t MPEG2TSWriter::crc32(const uint8_t *p_start, size_t length) { uint32_t crc = 0xFFFFFFFF; const uint8_t *p; for (p = p_start; p < p_start + length; p++) { crc = (crc << 8) ^ mCrcTable[((crc >> 24) ^ *p) & 0xFF]; } return crc; } ssize_t MPEG2TSWriter::internalWrite(const void *data, size_t size) { if (mFile != NULL) { return fwrite(data, 1, size, mFile); } return (*mWriteFunc)(mWriteCookie, data, size); } } // namespace android