219 lines
6.9 KiB
C++
219 lines
6.9 KiB
C++
// Copyright 2014 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "packager/media/formats/mp2t/ts_packet.h"
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#include <memory>
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#include "packager/macros.h"
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#include "packager/media/base/bit_reader.h"
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#include "packager/media/formats/mp2t/mp2t_common.h"
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namespace shaka {
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namespace media {
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namespace mp2t {
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static const uint8_t kTsHeaderSyncword = 0x47;
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// static
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int TsPacket::Sync(const uint8_t* buf, int size) {
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int k = 0;
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for (; k < size; k++) {
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// Verify that we have 4 syncwords in a row when possible,
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// this should improve synchronization robustness.
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bool is_header = true;
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for (int i = 0; i < 4; i++) {
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int idx = k + i * kPacketSize;
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if (idx >= size)
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break;
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if (buf[idx] != kTsHeaderSyncword) {
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DVLOG(LOG_LEVEL_TS)
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<< "ByteSync" << idx << ": "
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<< std::hex << static_cast<int>(buf[idx]) << std::dec;
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is_header = false;
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break;
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}
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}
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if (is_header)
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break;
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}
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DVLOG_IF(1, k != 0) << "SYNC: nbytes_skipped=" << k;
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return k;
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}
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// static
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TsPacket* TsPacket::Parse(const uint8_t* buf, int size) {
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if (size < kPacketSize) {
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DVLOG(1) << "Buffer does not hold one full TS packet:"
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<< " buffer_size=" << size;
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return NULL;
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}
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DCHECK_EQ(buf[0], kTsHeaderSyncword);
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if (buf[0] != kTsHeaderSyncword) {
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DVLOG(1) << "Not on a TS syncword:"
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<< " buf[0]="
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<< std::hex << static_cast<int>(buf[0]) << std::dec;
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return NULL;
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}
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std::unique_ptr<TsPacket> ts_packet(new TsPacket());
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bool status = ts_packet->ParseHeader(buf);
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if (!status) {
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DVLOG(1) << "Parsing header failed";
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return NULL;
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}
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return ts_packet.release();
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}
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TsPacket::TsPacket() {
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}
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TsPacket::~TsPacket() {
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}
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bool TsPacket::ParseHeader(const uint8_t* buf) {
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BitReader bit_reader(buf, kPacketSize);
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payload_ = buf;
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payload_size_ = kPacketSize;
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// Read the TS header: 4 bytes.
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int syncword;
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int transport_error_indicator;
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int payload_unit_start_indicator;
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int transport_priority;
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int transport_scrambling_control;
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int adaptation_field_control;
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RCHECK(bit_reader.ReadBits(8, &syncword));
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RCHECK(bit_reader.ReadBits(1, &transport_error_indicator));
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RCHECK(bit_reader.ReadBits(1, &payload_unit_start_indicator));
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RCHECK(bit_reader.ReadBits(1, &transport_priority));
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RCHECK(bit_reader.ReadBits(13, &pid_));
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RCHECK(bit_reader.ReadBits(2, &transport_scrambling_control));
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RCHECK(bit_reader.ReadBits(2, &adaptation_field_control));
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RCHECK(bit_reader.ReadBits(4, &continuity_counter_));
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payload_unit_start_indicator_ = (payload_unit_start_indicator != 0);
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payload_ += 4;
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payload_size_ -= 4;
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// Default values when no adaptation field.
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discontinuity_indicator_ = false;
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random_access_indicator_ = false;
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// Done since no adaptation field.
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if ((adaptation_field_control & 0x2) == 0)
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return true;
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// Read the adaptation field if needed.
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int adaptation_field_length;
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RCHECK(bit_reader.ReadBits(8, &adaptation_field_length));
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DVLOG(LOG_LEVEL_TS) << "adaptation_field_length=" << adaptation_field_length;
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payload_ += 1;
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payload_size_ -= 1;
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if ((adaptation_field_control & 0x1) == 0 &&
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adaptation_field_length != 183) {
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DVLOG(1) << "adaptation_field_length=" << adaptation_field_length;
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return false;
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}
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if ((adaptation_field_control & 0x1) == 1 &&
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adaptation_field_length > 182) {
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DVLOG(1) << "adaptation_field_length=" << adaptation_field_length;
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// This is not allowed by the spec.
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// However, some badly encoded streams are using
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// adaptation_field_length = 183
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return false;
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}
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// adaptation_field_length = '0' is used to insert a single stuffing byte
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// in the adaptation field of a transport stream packet.
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if (adaptation_field_length == 0)
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return true;
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bool status = ParseAdaptationField(&bit_reader, adaptation_field_length);
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payload_ += adaptation_field_length;
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payload_size_ -= adaptation_field_length;
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return status;
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}
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bool TsPacket::ParseAdaptationField(BitReader* bit_reader,
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int adaptation_field_length) {
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DCHECK_GT(adaptation_field_length, 0);
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int adaptation_field_start_marker =
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static_cast<int>(bit_reader->bits_available()) / 8;
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int discontinuity_indicator;
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int random_access_indicator;
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int elementary_stream_priority_indicator;
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int pcr_flag;
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int opcr_flag;
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int splicing_point_flag;
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int transport_private_data_flag;
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int adaptation_field_extension_flag;
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RCHECK(bit_reader->ReadBits(1, &discontinuity_indicator));
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RCHECK(bit_reader->ReadBits(1, &random_access_indicator));
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RCHECK(bit_reader->ReadBits(1, &elementary_stream_priority_indicator));
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RCHECK(bit_reader->ReadBits(1, &pcr_flag));
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RCHECK(bit_reader->ReadBits(1, &opcr_flag));
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RCHECK(bit_reader->ReadBits(1, &splicing_point_flag));
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RCHECK(bit_reader->ReadBits(1, &transport_private_data_flag));
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RCHECK(bit_reader->ReadBits(1, &adaptation_field_extension_flag));
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discontinuity_indicator_ = (discontinuity_indicator != 0);
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random_access_indicator_ = (random_access_indicator != 0);
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if (pcr_flag) {
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int64_t program_clock_reference_base;
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int reserved;
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int program_clock_reference_extension;
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RCHECK(bit_reader->ReadBits(33, &program_clock_reference_base));
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RCHECK(bit_reader->ReadBits(6, &reserved));
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RCHECK(bit_reader->ReadBits(9, &program_clock_reference_extension));
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}
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if (opcr_flag) {
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int64_t original_program_clock_reference_base;
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int reserved;
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int original_program_clock_reference_extension;
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RCHECK(bit_reader->ReadBits(33, &original_program_clock_reference_base));
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RCHECK(bit_reader->ReadBits(6, &reserved));
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RCHECK(
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bit_reader->ReadBits(9, &original_program_clock_reference_extension));
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}
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if (splicing_point_flag) {
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int splice_countdown;
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RCHECK(bit_reader->ReadBits(8, &splice_countdown));
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}
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if (transport_private_data_flag) {
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int transport_private_data_length;
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RCHECK(bit_reader->ReadBits(8, &transport_private_data_length));
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RCHECK(bit_reader->SkipBits(8 * transport_private_data_length));
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}
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if (adaptation_field_extension_flag) {
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int adaptation_field_extension_length;
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RCHECK(bit_reader->ReadBits(8, &adaptation_field_extension_length));
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RCHECK(bit_reader->SkipBits(8 * adaptation_field_extension_length));
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}
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// The rest of the adaptation field should be stuffing bytes.
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int adaptation_field_remaining_size =
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adaptation_field_length -
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(adaptation_field_start_marker -
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static_cast<int>(bit_reader->bits_available()) / 8);
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RCHECK(adaptation_field_remaining_size >= 0);
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for (int k = 0; k < adaptation_field_remaining_size; k++) {
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int stuffing_byte;
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RCHECK(bit_reader->ReadBits(8, &stuffing_byte));
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RCHECK(stuffing_byte == 0xff);
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}
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DVLOG(LOG_LEVEL_TS) << "random_access_indicator=" << random_access_indicator_;
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return true;
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}
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} // namespace mp2t
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} // namespace media
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} // namespace shaka
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