/* * 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 "ATSParser" #include #include "ATSParser.h" #include "AnotherPacketSource.h" #include "ESQueue.h" #include "include/avc_utils.h" #include #include #include #include #include #include #include #include #include namespace android { // I want the expression "y" evaluated even if verbose logging is off. #define MY_LOGV(x, y) \ do { unsigned tmp = y; LOGV(x, tmp); } while (0) static const size_t kTSPacketSize = 188; struct ATSParser::Program : public RefBase { Program(ATSParser *parser, unsigned programMapPID); bool parsePID( unsigned pid, unsigned payload_unit_start_indicator, ABitReader *br); void signalDiscontinuity(DiscontinuityType type); void signalEOS(status_t finalResult); sp getSource(SourceType type); int64_t convertPTSToTimestamp(uint64_t PTS); private: ATSParser *mParser; unsigned mProgramMapPID; KeyedVector > mStreams; bool mFirstPTSValid; uint64_t mFirstPTS; void parseProgramMap(ABitReader *br); DISALLOW_EVIL_CONSTRUCTORS(Program); }; struct ATSParser::Stream : public RefBase { Stream(Program *program, unsigned elementaryPID, unsigned streamType); void parse( unsigned payload_unit_start_indicator, ABitReader *br); void signalDiscontinuity(DiscontinuityType type); void signalEOS(status_t finalResult); sp getSource(SourceType type); protected: virtual ~Stream(); private: Program *mProgram; unsigned mElementaryPID; unsigned mStreamType; sp mBuffer; sp mSource; bool mPayloadStarted; ElementaryStreamQueue mQueue; void flush(); void parsePES(ABitReader *br); void onPayloadData( unsigned PTS_DTS_flags, uint64_t PTS, uint64_t DTS, const uint8_t *data, size_t size); void extractAACFrames(const sp &buffer); DISALLOW_EVIL_CONSTRUCTORS(Stream); }; //////////////////////////////////////////////////////////////////////////////// ATSParser::Program::Program(ATSParser *parser, unsigned programMapPID) : mParser(parser), mProgramMapPID(programMapPID), mFirstPTSValid(false), mFirstPTS(0) { } bool ATSParser::Program::parsePID( unsigned pid, unsigned payload_unit_start_indicator, ABitReader *br) { if (pid == mProgramMapPID) { if (payload_unit_start_indicator) { unsigned skip = br->getBits(8); br->skipBits(skip * 8); } parseProgramMap(br); return true; } ssize_t index = mStreams.indexOfKey(pid); if (index < 0) { return false; } mStreams.editValueAt(index)->parse( payload_unit_start_indicator, br); return true; } void ATSParser::Program::signalDiscontinuity(DiscontinuityType type) { for (size_t i = 0; i < mStreams.size(); ++i) { mStreams.editValueAt(i)->signalDiscontinuity(type); } } void ATSParser::Program::signalEOS(status_t finalResult) { for (size_t i = 0; i < mStreams.size(); ++i) { mStreams.editValueAt(i)->signalEOS(finalResult); } } void ATSParser::Program::parseProgramMap(ABitReader *br) { unsigned table_id = br->getBits(8); LOGV(" table_id = %u", table_id); CHECK_EQ(table_id, 0x02u); unsigned section_syntax_indicator = br->getBits(1); LOGV(" section_syntax_indicator = %u", section_syntax_indicator); CHECK_EQ(section_syntax_indicator, 1u); CHECK_EQ(br->getBits(1), 0u); MY_LOGV(" reserved = %u", br->getBits(2)); unsigned section_length = br->getBits(12); LOGV(" section_length = %u", section_length); CHECK_EQ(section_length & 0xc00, 0u); CHECK_LE(section_length, 1021u); MY_LOGV(" program_number = %u", br->getBits(16)); MY_LOGV(" reserved = %u", br->getBits(2)); MY_LOGV(" version_number = %u", br->getBits(5)); MY_LOGV(" current_next_indicator = %u", br->getBits(1)); MY_LOGV(" section_number = %u", br->getBits(8)); MY_LOGV(" last_section_number = %u", br->getBits(8)); MY_LOGV(" reserved = %u", br->getBits(3)); MY_LOGV(" PCR_PID = 0x%04x", br->getBits(13)); MY_LOGV(" reserved = %u", br->getBits(4)); unsigned program_info_length = br->getBits(12); LOGV(" program_info_length = %u", program_info_length); CHECK_EQ(program_info_length & 0xc00, 0u); br->skipBits(program_info_length * 8); // skip descriptors // infoBytesRemaining is the number of bytes that make up the // variable length section of ES_infos. It does not include the // final CRC. size_t infoBytesRemaining = section_length - 9 - program_info_length - 4; while (infoBytesRemaining > 0) { CHECK_GE(infoBytesRemaining, 5u); unsigned streamType = br->getBits(8); LOGV(" stream_type = 0x%02x", streamType); MY_LOGV(" reserved = %u", br->getBits(3)); unsigned elementaryPID = br->getBits(13); LOGV(" elementary_PID = 0x%04x", elementaryPID); MY_LOGV(" reserved = %u", br->getBits(4)); unsigned ES_info_length = br->getBits(12); LOGV(" ES_info_length = %u", ES_info_length); CHECK_EQ(ES_info_length & 0xc00, 0u); CHECK_GE(infoBytesRemaining - 5, ES_info_length); #if 0 br->skipBits(ES_info_length * 8); // skip descriptors #else unsigned info_bytes_remaining = ES_info_length; while (info_bytes_remaining >= 2) { MY_LOGV(" tag = 0x%02x", br->getBits(8)); unsigned descLength = br->getBits(8); LOGV(" len = %u", descLength); CHECK_GE(info_bytes_remaining, 2 + descLength); br->skipBits(descLength * 8); info_bytes_remaining -= descLength + 2; } CHECK_EQ(info_bytes_remaining, 0u); #endif ssize_t index = mStreams.indexOfKey(elementaryPID); #if 0 // XXX revisit CHECK_LT(index, 0); mStreams.add(elementaryPID, new Stream(this, elementaryPID, streamType)); #else if (index < 0) { mStreams.add(elementaryPID, new Stream(this, elementaryPID, streamType)); } #endif infoBytesRemaining -= 5 + ES_info_length; } CHECK_EQ(infoBytesRemaining, 0u); MY_LOGV(" CRC = 0x%08x", br->getBits(32)); } sp ATSParser::Program::getSource(SourceType type) { size_t index = (type == MPEG2ADTS_AUDIO) ? 0 : 0; for (size_t i = 0; i < mStreams.size(); ++i) { sp source = mStreams.editValueAt(i)->getSource(type); if (source != NULL) { if (index == 0) { return source; } --index; } } return NULL; } int64_t ATSParser::Program::convertPTSToTimestamp(uint64_t PTS) { if (!mFirstPTSValid) { mFirstPTSValid = true; mFirstPTS = PTS; PTS = 0; } else if (PTS < mFirstPTS) { PTS = 0; } else { PTS -= mFirstPTS; } return (PTS * 100) / 9; } //////////////////////////////////////////////////////////////////////////////// ATSParser::Stream::Stream( Program *program, unsigned elementaryPID, unsigned streamType) : mProgram(program), mElementaryPID(elementaryPID), mStreamType(streamType), mBuffer(new ABuffer(192 * 1024)), mPayloadStarted(false), mQueue(streamType == 0x1b ? ElementaryStreamQueue::H264 : ElementaryStreamQueue::AAC) { mBuffer->setRange(0, 0); LOGV("new stream PID 0x%02x, type 0x%02x", elementaryPID, streamType); } ATSParser::Stream::~Stream() { } void ATSParser::Stream::parse( unsigned payload_unit_start_indicator, ABitReader *br) { if (payload_unit_start_indicator) { if (mPayloadStarted) { // Otherwise we run the danger of receiving the trailing bytes // of a PES packet that we never saw the start of and assuming // we have a a complete PES packet. flush(); } mPayloadStarted = true; } if (!mPayloadStarted) { return; } size_t payloadSizeBits = br->numBitsLeft(); CHECK_EQ(payloadSizeBits % 8, 0u); CHECK_LE(mBuffer->size() + payloadSizeBits / 8, mBuffer->capacity()); memcpy(mBuffer->data() + mBuffer->size(), br->data(), payloadSizeBits / 8); mBuffer->setRange(0, mBuffer->size() + payloadSizeBits / 8); } void ATSParser::Stream::signalDiscontinuity(DiscontinuityType type) { mPayloadStarted = false; mBuffer->setRange(0, 0); switch (type) { case DISCONTINUITY_HTTPLIVE: { mQueue.clear(true); if (mStreamType == 0x1b && mSource != NULL) { // Don't signal discontinuities on audio streams. mSource->queueDiscontinuity(true /* formatChange */); } break; } case DISCONTINUITY_SEEK: case DISCONTINUITY_FORMATCHANGE: { bool isASeek = (type == DISCONTINUITY_SEEK); mQueue.clear(!isASeek); if (mSource != NULL) { mSource->clear(); mSource->queueDiscontinuity(!isASeek); } break; } default: TRESPASS(); break; } } void ATSParser::Stream::signalEOS(status_t finalResult) { if (mSource != NULL) { mSource->signalEOS(finalResult); } } void ATSParser::Stream::parsePES(ABitReader *br) { unsigned packet_startcode_prefix = br->getBits(24); LOGV("packet_startcode_prefix = 0x%08x", packet_startcode_prefix); CHECK_EQ(packet_startcode_prefix, 0x000001u); unsigned stream_id = br->getBits(8); LOGV("stream_id = 0x%02x", stream_id); unsigned PES_packet_length = br->getBits(16); LOGV("PES_packet_length = %u", PES_packet_length); if (stream_id != 0xbc // program_stream_map && stream_id != 0xbe // padding_stream && stream_id != 0xbf // private_stream_2 && stream_id != 0xf0 // ECM && stream_id != 0xf1 // EMM && stream_id != 0xff // program_stream_directory && stream_id != 0xf2 // DSMCC && stream_id != 0xf8) { // H.222.1 type E CHECK_EQ(br->getBits(2), 2u); MY_LOGV("PES_scrambling_control = %u", br->getBits(2)); MY_LOGV("PES_priority = %u", br->getBits(1)); MY_LOGV("data_alignment_indicator = %u", br->getBits(1)); MY_LOGV("copyright = %u", br->getBits(1)); MY_LOGV("original_or_copy = %u", br->getBits(1)); unsigned PTS_DTS_flags = br->getBits(2); LOGV("PTS_DTS_flags = %u", PTS_DTS_flags); unsigned ESCR_flag = br->getBits(1); LOGV("ESCR_flag = %u", ESCR_flag); unsigned ES_rate_flag = br->getBits(1); LOGV("ES_rate_flag = %u", ES_rate_flag); unsigned DSM_trick_mode_flag = br->getBits(1); LOGV("DSM_trick_mode_flag = %u", DSM_trick_mode_flag); unsigned additional_copy_info_flag = br->getBits(1); LOGV("additional_copy_info_flag = %u", additional_copy_info_flag); MY_LOGV("PES_CRC_flag = %u", br->getBits(1)); MY_LOGV("PES_extension_flag = %u", br->getBits(1)); unsigned PES_header_data_length = br->getBits(8); LOGV("PES_header_data_length = %u", PES_header_data_length); unsigned optional_bytes_remaining = PES_header_data_length; uint64_t PTS = 0, DTS = 0; if (PTS_DTS_flags == 2 || PTS_DTS_flags == 3) { CHECK_GE(optional_bytes_remaining, 5u); CHECK_EQ(br->getBits(4), PTS_DTS_flags); PTS = ((uint64_t)br->getBits(3)) << 30; CHECK_EQ(br->getBits(1), 1u); PTS |= ((uint64_t)br->getBits(15)) << 15; CHECK_EQ(br->getBits(1), 1u); PTS |= br->getBits(15); CHECK_EQ(br->getBits(1), 1u); LOGV("PTS = %llu", PTS); // LOGI("PTS = %.2f secs", PTS / 90000.0f); optional_bytes_remaining -= 5; if (PTS_DTS_flags == 3) { CHECK_GE(optional_bytes_remaining, 5u); CHECK_EQ(br->getBits(4), 1u); DTS = ((uint64_t)br->getBits(3)) << 30; CHECK_EQ(br->getBits(1), 1u); DTS |= ((uint64_t)br->getBits(15)) << 15; CHECK_EQ(br->getBits(1), 1u); DTS |= br->getBits(15); CHECK_EQ(br->getBits(1), 1u); LOGV("DTS = %llu", DTS); optional_bytes_remaining -= 5; } } if (ESCR_flag) { CHECK_GE(optional_bytes_remaining, 6u); br->getBits(2); uint64_t ESCR = ((uint64_t)br->getBits(3)) << 30; CHECK_EQ(br->getBits(1), 1u); ESCR |= ((uint64_t)br->getBits(15)) << 15; CHECK_EQ(br->getBits(1), 1u); ESCR |= br->getBits(15); CHECK_EQ(br->getBits(1), 1u); LOGV("ESCR = %llu", ESCR); MY_LOGV("ESCR_extension = %u", br->getBits(9)); CHECK_EQ(br->getBits(1), 1u); optional_bytes_remaining -= 6; } if (ES_rate_flag) { CHECK_GE(optional_bytes_remaining, 3u); CHECK_EQ(br->getBits(1), 1u); MY_LOGV("ES_rate = %u", br->getBits(22)); CHECK_EQ(br->getBits(1), 1u); optional_bytes_remaining -= 3; } br->skipBits(optional_bytes_remaining * 8); // ES data follows. if (PES_packet_length != 0) { CHECK_GE(PES_packet_length, PES_header_data_length + 3); unsigned dataLength = PES_packet_length - 3 - PES_header_data_length; CHECK_GE(br->numBitsLeft(), dataLength * 8); onPayloadData( PTS_DTS_flags, PTS, DTS, br->data(), dataLength); br->skipBits(dataLength * 8); } else { onPayloadData( PTS_DTS_flags, PTS, DTS, br->data(), br->numBitsLeft() / 8); size_t payloadSizeBits = br->numBitsLeft(); CHECK_EQ(payloadSizeBits % 8, 0u); LOGV("There's %d bytes of payload.", payloadSizeBits / 8); } } else if (stream_id == 0xbe) { // padding_stream CHECK_NE(PES_packet_length, 0u); br->skipBits(PES_packet_length * 8); } else { CHECK_NE(PES_packet_length, 0u); br->skipBits(PES_packet_length * 8); } } void ATSParser::Stream::flush() { if (mBuffer->size() == 0) { return; } LOGV("flushing stream 0x%04x size = %d", mElementaryPID, mBuffer->size()); ABitReader br(mBuffer->data(), mBuffer->size()); parsePES(&br); mBuffer->setRange(0, 0); } void ATSParser::Stream::onPayloadData( unsigned PTS_DTS_flags, uint64_t PTS, uint64_t DTS, const uint8_t *data, size_t size) { LOGV("onPayloadData mStreamType=0x%02x", mStreamType); CHECK(PTS_DTS_flags == 2 || PTS_DTS_flags == 3); int64_t timeUs = mProgram->convertPTSToTimestamp(PTS); status_t err = mQueue.appendData(data, size, timeUs); if (err != OK) { return; } sp accessUnit; while ((accessUnit = mQueue.dequeueAccessUnit()) != NULL) { if (mSource == NULL) { sp meta = mQueue.getFormat(); if (meta != NULL) { LOGV("created source!"); mSource = new AnotherPacketSource(meta); mSource->queueAccessUnit(accessUnit); } } else if (mQueue.getFormat() != NULL) { // After a discontinuity we invalidate the queue's format // and won't enqueue any access units to the source until // the queue has reestablished the new format. mSource->queueAccessUnit(accessUnit); } } } sp ATSParser::Stream::getSource(SourceType type) { if ((type == AVC_VIDEO && mStreamType == 0x1b) || (type == MPEG2ADTS_AUDIO && mStreamType == 0x0f)) { return mSource; } return NULL; } //////////////////////////////////////////////////////////////////////////////// ATSParser::ATSParser() { } ATSParser::~ATSParser() { } void ATSParser::feedTSPacket(const void *data, size_t size) { CHECK_EQ(size, kTSPacketSize); ABitReader br((const uint8_t *)data, kTSPacketSize); parseTS(&br); } void ATSParser::signalDiscontinuity(DiscontinuityType type) { for (size_t i = 0; i < mPrograms.size(); ++i) { mPrograms.editItemAt(i)->signalDiscontinuity(type); } } void ATSParser::signalEOS(status_t finalResult) { CHECK_NE(finalResult, (status_t)OK); for (size_t i = 0; i < mPrograms.size(); ++i) { mPrograms.editItemAt(i)->signalEOS(finalResult); } } void ATSParser::parseProgramAssociationTable(ABitReader *br) { unsigned table_id = br->getBits(8); LOGV(" table_id = %u", table_id); CHECK_EQ(table_id, 0x00u); unsigned section_syntax_indictor = br->getBits(1); LOGV(" section_syntax_indictor = %u", section_syntax_indictor); CHECK_EQ(section_syntax_indictor, 1u); CHECK_EQ(br->getBits(1), 0u); MY_LOGV(" reserved = %u", br->getBits(2)); unsigned section_length = br->getBits(12); LOGV(" section_length = %u", section_length); CHECK_EQ(section_length & 0xc00, 0u); MY_LOGV(" transport_stream_id = %u", br->getBits(16)); MY_LOGV(" reserved = %u", br->getBits(2)); MY_LOGV(" version_number = %u", br->getBits(5)); MY_LOGV(" current_next_indicator = %u", br->getBits(1)); MY_LOGV(" section_number = %u", br->getBits(8)); MY_LOGV(" last_section_number = %u", br->getBits(8)); size_t numProgramBytes = (section_length - 5 /* header */ - 4 /* crc */); CHECK_EQ((numProgramBytes % 4), 0u); for (size_t i = 0; i < numProgramBytes / 4; ++i) { unsigned program_number = br->getBits(16); LOGV(" program_number = %u", program_number); MY_LOGV(" reserved = %u", br->getBits(3)); if (program_number == 0) { MY_LOGV(" network_PID = 0x%04x", br->getBits(13)); } else { unsigned programMapPID = br->getBits(13); LOGV(" program_map_PID = 0x%04x", programMapPID); mPrograms.push(new Program(this, programMapPID)); } } MY_LOGV(" CRC = 0x%08x", br->getBits(32)); } void ATSParser::parsePID( ABitReader *br, unsigned PID, unsigned payload_unit_start_indicator) { if (PID == 0) { if (payload_unit_start_indicator) { unsigned skip = br->getBits(8); br->skipBits(skip * 8); } parseProgramAssociationTable(br); return; } bool handled = false; for (size_t i = 0; i < mPrograms.size(); ++i) { if (mPrograms.editItemAt(i)->parsePID( PID, payload_unit_start_indicator, br)) { handled = true; break; } } if (!handled) { LOGV("PID 0x%04x not handled.", PID); } } void ATSParser::parseAdaptationField(ABitReader *br) { unsigned adaptation_field_length = br->getBits(8); if (adaptation_field_length > 0) { br->skipBits(adaptation_field_length * 8); // XXX } } void ATSParser::parseTS(ABitReader *br) { LOGV("---"); unsigned sync_byte = br->getBits(8); CHECK_EQ(sync_byte, 0x47u); MY_LOGV("transport_error_indicator = %u", br->getBits(1)); unsigned payload_unit_start_indicator = br->getBits(1); LOGV("payload_unit_start_indicator = %u", payload_unit_start_indicator); MY_LOGV("transport_priority = %u", br->getBits(1)); unsigned PID = br->getBits(13); LOGV("PID = 0x%04x", PID); MY_LOGV("transport_scrambling_control = %u", br->getBits(2)); unsigned adaptation_field_control = br->getBits(2); LOGV("adaptation_field_control = %u", adaptation_field_control); unsigned continuity_counter = br->getBits(4); LOGV("continuity_counter = %u", continuity_counter); // LOGI("PID = 0x%04x, continuity_counter = %u", PID, continuity_counter); if (adaptation_field_control == 2 || adaptation_field_control == 3) { parseAdaptationField(br); } if (adaptation_field_control == 1 || adaptation_field_control == 3) { parsePID(br, PID, payload_unit_start_indicator); } } sp ATSParser::getSource(SourceType type) { for (size_t i = 0; i < mPrograms.size(); ++i) { sp source = mPrograms.editItemAt(i)->getSource(type); if (source != NULL) { return source; } } return NULL; } } // namespace android