shaka-packager/packager/media/formats/mp2t/ts_writer.cc

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// Copyright 2016 Google LLC. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
#include <packager/media/formats/mp2t/ts_writer.h>
#include <algorithm>
#include <glog/logging.h>
#include <packager/media/base/buffer_writer.h>
#include <packager/media/base/media_sample.h>
#include <packager/media/formats/mp2t/pes_packet.h>
#include <packager/media/formats/mp2t/program_map_table_writer.h>
#include <packager/media/formats/mp2t/ts_packet_writer_util.h>
namespace shaka {
namespace media {
namespace mp2t {
namespace {
// For all the pointer fields in the following PAT and PMTs, they are not really
// part of PAT or PMT but it's there so that TsPacket can point to a memory
// location that starts from pointer field.
const uint8_t kProgramAssociationTableId = 0x00;
// This PAT can be used for both encrypted and clear.
const uint8_t kPat[] = {
0x00, // pointer field
kProgramAssociationTableId,
0xB0, // The last 2 '00' assumes that this PAT is not very long.
0x0D, // Length of the rest of this array.
0x00, 0x00, // Transport stream ID is 0.
0xC1, // version number 0, current next indicator 1.
0x00, // section number
0x00, // last section number
// program number -> PMT PID mapping.
0x00, 0x01, // program number is 1.
0xE0, // first 3 bits is reserved.
ProgramMapTableWriter::kPmtPid,
// CRC32.
0xF9, 0x62, 0xF5, 0x8B,
};
const bool kHasPcr = true;
const bool kPayloadUnitStartIndicator = true;
// This is the size of the first few fields in a TS packet, i.e. TS packet size
// without adaptation field or the payload.
const int kTsPacketHeaderSize = 4;
const int kTsPacketSize = 188;
const int kTsPacketMaximumPayloadSize =
kTsPacketSize - kTsPacketHeaderSize;
const size_t kMaxPesPacketLengthValue = 0xFFFF;
void WritePatToBuffer(const uint8_t* pat,
int pat_size,
ContinuityCounter* continuity_counter,
BufferWriter* writer) {
const int kPatPid = 0;
WritePayloadToBufferWriter(pat, pat_size, kPayloadUnitStartIndicator, kPatPid,
!kHasPcr, 0, continuity_counter, writer);
}
// The only difference between writing PTS or DTS is the leading bits.
void WritePtsOrDts(uint8_t leading_bits,
uint64_t pts_or_dts,
BufferWriter* writer) {
// First byte has 3 MSB of PTS.
uint8_t first_byte =
leading_bits << 4 | (((pts_or_dts >> 30) & 0x07) << 1) | 1;
// Second byte has the next 8 bits of pts.
uint8_t second_byte = (pts_or_dts >> 22) & 0xFF;
// Third byte has the next 7 bits of pts followed by a marker bit.
uint8_t third_byte = (((pts_or_dts >> 15) & 0x7F) << 1) | 1;
// Fourth byte has the next 8 bits of pts.
uint8_t fourth_byte = ((pts_or_dts >> 7) & 0xFF);
// Fifth byte has the last 7 bits of pts followed by a marker bit.
uint8_t fifth_byte = ((pts_or_dts & 0x7F) << 1) | 1;
writer->AppendInt(first_byte);
writer->AppendInt(second_byte);
writer->AppendInt(third_byte);
writer->AppendInt(fourth_byte);
writer->AppendInt(fifth_byte);
}
bool WritePesToBuffer(const PesPacket& pes,
ContinuityCounter* continuity_counter,
BufferWriter* current_buffer) {
// The size of the length field.
const int kAdaptationFieldLengthSize = 1;
// The size of the flags field.
const int kAdaptationFieldHeaderSize = 1;
const int kPcrFieldSize = 6;
const int kTsPacketMaxPayloadWithPcr =
kTsPacketMaximumPayloadSize - kAdaptationFieldLengthSize -
kAdaptationFieldHeaderSize - kPcrFieldSize;
const uint64_t pcr_base = pes.has_dts() ? pes.dts() : pes.pts();
const int pid = ProgramMapTableWriter::kElementaryPid;
// This writer will hold part of PES packet after PES_packet_length field.
BufferWriter pes_header_writer;
// The first bit must be '10' for PES with video or audio stream id. The other
// flags (bits) don't matter so they are 0.
pes_header_writer.AppendInt(static_cast<uint8_t>(0x80));
pes_header_writer.AppendInt(
static_cast<uint8_t>(static_cast<int>(pes.has_pts()) << 7 |
static_cast<int>(pes.has_dts()) << 6
// Other fields are all 0.
));
uint8_t pes_header_data_length = 0;
if (pes.has_pts())
pes_header_data_length += 5;
if (pes.has_dts())
pes_header_data_length += 5;
pes_header_writer.AppendInt(pes_header_data_length);
if (pes.has_pts() && pes.has_dts()) {
WritePtsOrDts(0x03, pes.pts(), &pes_header_writer);
WritePtsOrDts(0x01, pes.dts(), &pes_header_writer);
} else if (pes.has_pts()) {
WritePtsOrDts(0x02, pes.pts(), &pes_header_writer);
}
// Put the first TS packet's payload into a buffer. This contains the PES
// packet's header.
BufferWriter first_ts_packet_buffer(kTsPacketSize);
first_ts_packet_buffer.AppendNBytes(static_cast<uint64_t>(0x000001), 3);
first_ts_packet_buffer.AppendInt(pes.stream_id());
const size_t pes_packet_length = pes.data().size() + pes_header_writer.Size();
first_ts_packet_buffer.AppendInt(static_cast<uint16_t>(
pes_packet_length > kMaxPesPacketLengthValue ? 0 : pes_packet_length));
first_ts_packet_buffer.AppendBuffer(pes_header_writer);
const size_t available_payload =
kTsPacketMaxPayloadWithPcr - first_ts_packet_buffer.Size();
const size_t bytes_consumed = std::min(pes.data().size(), available_payload);
first_ts_packet_buffer.AppendArray(pes.data().data(), bytes_consumed);
BufferWriter output_writer;
WritePayloadToBufferWriter(first_ts_packet_buffer.Buffer(),
first_ts_packet_buffer.Size(),
kPayloadUnitStartIndicator, pid, kHasPcr, pcr_base,
continuity_counter, &output_writer);
const size_t remaining_pes_data_size = pes.data().size() - bytes_consumed;
if (remaining_pes_data_size > 0) {
WritePayloadToBufferWriter(pes.data().data() + bytes_consumed,
remaining_pes_data_size,
!kPayloadUnitStartIndicator, pid, !kHasPcr, 0,
continuity_counter, &output_writer);
}
current_buffer->AppendBuffer(output_writer);
return true;
}
} // namespace
TsWriter::TsWriter(std::unique_ptr<ProgramMapTableWriter> pmt_writer)
: pmt_writer_(std::move(pmt_writer)) {}
TsWriter::~TsWriter() {}
bool TsWriter::NewSegment(BufferWriter* buffer) {
BufferWriter psi;
WritePatToBuffer(kPat, std::size(kPat), &pat_continuity_counter_, &psi);
if (encrypted_) {
if (!pmt_writer_->EncryptedSegmentPmt(&psi)) {
return false;
}
} else {
if (!pmt_writer_->ClearSegmentPmt(&psi)) {
return false;
}
}
buffer->AppendBuffer(psi);
return true;
}
void TsWriter::SignalEncrypted() {
encrypted_ = true;
}
bool TsWriter::AddPesPacket(std::unique_ptr<PesPacket> pes_packet,
BufferWriter* buffer) {
if (!WritePesToBuffer(*pes_packet, &elementary_stream_continuity_counter_,
buffer)) {
LOG(ERROR) << "Failed to write pes to buffer.";
return false;
}
// No need to keep pes_packet around so not passing it anywhere.
return true;
}
} // namespace mp2t
} // namespace media
} // namespace shaka