434 lines
13 KiB
C++
434 lines
13 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/mp2t_media_parser.h"
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#include <memory>
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#include "packager/base/bind.h"
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#include "packager/media/base/media_sample.h"
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#include "packager/media/base/stream_info.h"
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#include "packager/media/formats/mp2t/es_parser.h"
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#include "packager/media/formats/mp2t/es_parser_audio.h"
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#include "packager/media/formats/mp2t/es_parser_h264.h"
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#include "packager/media/formats/mp2t/es_parser_h265.h"
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#include "packager/media/formats/mp2t/mp2t_common.h"
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#include "packager/media/formats/mp2t/ts_packet.h"
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#include "packager/media/formats/mp2t/ts_section.h"
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#include "packager/media/formats/mp2t/ts_section_pat.h"
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#include "packager/media/formats/mp2t/ts_section_pes.h"
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#include "packager/media/formats/mp2t/ts_section_pmt.h"
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#include "packager/media/formats/mp2t/ts_stream_type.h"
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namespace shaka {
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namespace media {
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namespace mp2t {
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class PidState {
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public:
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enum PidType {
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kPidPat,
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kPidPmt,
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kPidAudioPes,
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kPidVideoPes,
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};
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PidState(int pid,
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PidType pid_type,
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std::unique_ptr<TsSection> section_parser);
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// Extract the content of the TS packet and parse it.
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// Return true if successful.
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bool PushTsPacket(const TsPacket& ts_packet);
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// Flush the PID state (possibly emitting some pending frames)
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// and reset its state.
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void Flush();
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// Enable/disable the PID.
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// Disabling a PID will reset its state and ignore any further incoming TS
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// packets.
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void Enable();
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void Disable();
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bool IsEnabled() const;
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PidType pid_type() const { return pid_type_; }
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std::shared_ptr<StreamInfo>& config() { return config_; }
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void set_config(const std::shared_ptr<StreamInfo>& config) {
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config_ = config;
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}
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SampleQueue& sample_queue() { return sample_queue_; }
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private:
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void ResetState();
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int pid_;
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PidType pid_type_;
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std::unique_ptr<TsSection> section_parser_;
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bool enable_;
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int continuity_counter_;
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std::shared_ptr<StreamInfo> config_;
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SampleQueue sample_queue_;
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};
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PidState::PidState(int pid,
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PidType pid_type,
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std::unique_ptr<TsSection> section_parser)
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: pid_(pid),
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pid_type_(pid_type),
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section_parser_(std::move(section_parser)),
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enable_(false),
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continuity_counter_(-1) {
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DCHECK(section_parser_);
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}
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bool PidState::PushTsPacket(const TsPacket& ts_packet) {
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DCHECK_EQ(ts_packet.pid(), pid_);
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// The current PID is not part of the PID filter,
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// just discard the incoming TS packet.
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if (!enable_)
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return true;
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int expected_continuity_counter = (continuity_counter_ + 1) % 16;
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if (continuity_counter_ >= 0 &&
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ts_packet.continuity_counter() != expected_continuity_counter) {
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DVLOG(1) << "TS discontinuity detected for pid: " << pid_;
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// TODO(tinskip): Handle discontinuity better.
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return false;
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}
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bool status = section_parser_->Parse(
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ts_packet.payload_unit_start_indicator(),
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ts_packet.payload(),
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ts_packet.payload_size());
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// At the minimum, when parsing failed, auto reset the section parser.
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// Components that use the Mp2tMediaParser can take further action if needed.
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if (!status) {
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DVLOG(1) << "Parsing failed for pid = " << pid_;
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ResetState();
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}
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return status;
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}
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void PidState::Flush() {
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section_parser_->Flush();
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ResetState();
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}
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void PidState::Enable() {
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enable_ = true;
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}
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void PidState::Disable() {
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if (!enable_)
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return;
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ResetState();
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enable_ = false;
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}
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bool PidState::IsEnabled() const {
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return enable_;
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}
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void PidState::ResetState() {
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section_parser_->Reset();
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continuity_counter_ = -1;
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}
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Mp2tMediaParser::Mp2tMediaParser()
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: sbr_in_mimetype_(false),
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is_initialized_(false) {
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}
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Mp2tMediaParser::~Mp2tMediaParser() {}
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void Mp2tMediaParser::Init(
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const InitCB& init_cb,
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const NewSampleCB& new_sample_cb,
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KeySource* decryption_key_source) {
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DCHECK(!is_initialized_);
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DCHECK(init_cb_.is_null());
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DCHECK(!init_cb.is_null());
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DCHECK(!new_sample_cb.is_null());
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init_cb_ = init_cb;
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new_sample_cb_ = new_sample_cb;
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}
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bool Mp2tMediaParser::Flush() {
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DVLOG(1) << "Mp2tMediaParser::Flush";
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// Flush the buffers and reset the pids.
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for (const auto& pair : pids_) {
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DVLOG(1) << "Flushing PID: " << pair.first;
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PidState* pid_state = pair.second.get();
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pid_state->Flush();
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}
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bool result = EmitRemainingSamples();
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pids_.clear();
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// Remove any bytes left in the TS buffer.
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// (i.e. any partial TS packet => less than 188 bytes).
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ts_byte_queue_.Reset();
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return result;
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}
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bool Mp2tMediaParser::Parse(const uint8_t* buf, int size) {
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DVLOG(1) << "Mp2tMediaParser::Parse size=" << size;
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// Add the data to the parser state.
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ts_byte_queue_.Push(buf, size);
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while (true) {
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const uint8_t* ts_buffer;
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int ts_buffer_size;
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ts_byte_queue_.Peek(&ts_buffer, &ts_buffer_size);
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if (ts_buffer_size < TsPacket::kPacketSize)
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break;
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// Synchronization.
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int skipped_bytes = TsPacket::Sync(ts_buffer, ts_buffer_size);
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if (skipped_bytes > 0) {
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DVLOG(1) << "Packet not aligned on a TS syncword:"
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<< " skipped_bytes=" << skipped_bytes;
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ts_byte_queue_.Pop(skipped_bytes);
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continue;
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}
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// Parse the TS header, skipping 1 byte if the header is invalid.
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std::unique_ptr<TsPacket> ts_packet(
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TsPacket::Parse(ts_buffer, ts_buffer_size));
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if (!ts_packet) {
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DVLOG(1) << "Error: invalid TS packet";
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ts_byte_queue_.Pop(1);
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continue;
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}
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DVLOG(LOG_LEVEL_TS)
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<< "Processing PID=" << ts_packet->pid()
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<< " start_unit=" << ts_packet->payload_unit_start_indicator();
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// Parse the section.
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std::map<int, std::unique_ptr<PidState>>::iterator it =
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pids_.find(ts_packet->pid());
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if (it == pids_.end() &&
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ts_packet->pid() == TsSection::kPidPat) {
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// Create the PAT state here if needed.
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std::unique_ptr<TsSection> pat_section_parser(new TsSectionPat(
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base::Bind(&Mp2tMediaParser::RegisterPmt, base::Unretained(this))));
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std::unique_ptr<PidState> pat_pid_state(new PidState(
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ts_packet->pid(), PidState::kPidPat, std::move(pat_section_parser)));
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pat_pid_state->Enable();
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it = pids_
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.insert(std::pair<int, std::unique_ptr<PidState>>(
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ts_packet->pid(), std::move(pat_pid_state)))
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.first;
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}
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if (it != pids_.end()) {
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if (!it->second->PushTsPacket(*ts_packet))
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return false;
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} else {
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DVLOG(LOG_LEVEL_TS) << "Ignoring TS packet for pid: " << ts_packet->pid();
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}
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// Go to the next packet.
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ts_byte_queue_.Pop(TsPacket::kPacketSize);
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}
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// Emit the A/V buffers that kept accumulating during TS parsing.
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return EmitRemainingSamples();
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}
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void Mp2tMediaParser::RegisterPmt(int program_number, int pmt_pid) {
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DVLOG(1) << "RegisterPmt:"
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<< " program_number=" << program_number
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<< " pmt_pid=" << pmt_pid;
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// Only one TS program is allowed. Ignore the incoming program map table,
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// if there is already one registered.
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for (const auto& pair : pids_) {
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if (pair.second->pid_type() == PidState::kPidPmt) {
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DVLOG_IF(1, pmt_pid != pair.first) << "More than one program is defined";
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return;
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}
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}
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// Create the PMT state here if needed.
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DVLOG(1) << "Create a new PMT parser";
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std::unique_ptr<TsSection> pmt_section_parser(new TsSectionPmt(base::Bind(
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&Mp2tMediaParser::RegisterPes, base::Unretained(this), pmt_pid)));
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std::unique_ptr<PidState> pmt_pid_state(
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new PidState(pmt_pid, PidState::kPidPmt, std::move(pmt_section_parser)));
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pmt_pid_state->Enable();
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pids_.insert(std::pair<int, std::unique_ptr<PidState>>(
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pmt_pid, std::move(pmt_pid_state)));
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}
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void Mp2tMediaParser::RegisterPes(int pmt_pid,
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int pes_pid,
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int stream_type) {
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DVLOG(1) << "RegisterPes:"
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<< " pes_pid=" << pes_pid
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<< " stream_type=" << std::hex << stream_type << std::dec;
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std::map<int, std::unique_ptr<PidState>>::iterator it = pids_.find(pes_pid);
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if (it != pids_.end())
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return;
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// Create a stream parser corresponding to the stream type.
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bool is_audio = false;
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std::unique_ptr<EsParser> es_parser;
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switch (static_cast<TsStreamType>(stream_type)) {
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case TsStreamType::kAvc:
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es_parser.reset(new EsParserH264(
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pes_pid,
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base::Bind(&Mp2tMediaParser::OnNewStreamInfo, base::Unretained(this)),
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base::Bind(&Mp2tMediaParser::OnEmitSample, base::Unretained(this))));
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break;
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case TsStreamType::kHevc:
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es_parser.reset(new EsParserH265(
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pes_pid,
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base::Bind(&Mp2tMediaParser::OnNewStreamInfo, base::Unretained(this)),
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base::Bind(&Mp2tMediaParser::OnEmitSample, base::Unretained(this))));
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break;
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case TsStreamType::kAdtsAac:
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case TsStreamType::kMpeg1Audio:
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case TsStreamType::kAc3:
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es_parser.reset(new EsParserAudio(
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pes_pid, static_cast<TsStreamType>(stream_type),
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base::Bind(&Mp2tMediaParser::OnNewStreamInfo, base::Unretained(this)),
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base::Bind(&Mp2tMediaParser::OnEmitSample, base::Unretained(this)),
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sbr_in_mimetype_));
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is_audio = true;
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break;
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default: {
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LOG_IF(ERROR, !stream_type_logged_once_[stream_type])
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<< "Ignore unsupported MPEG2TS stream type 0x" << std::hex
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<< stream_type << std::dec;
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stream_type_logged_once_[stream_type] = true;
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return;
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}
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}
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// Create the PES state here.
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DVLOG(1) << "Create a new PES state";
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std::unique_ptr<TsSection> pes_section_parser(
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new TsSectionPes(std::move(es_parser)));
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PidState::PidType pid_type =
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is_audio ? PidState::kPidAudioPes : PidState::kPidVideoPes;
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std::unique_ptr<PidState> pes_pid_state(
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new PidState(pes_pid, pid_type, std::move(pes_section_parser)));
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pes_pid_state->Enable();
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pids_.insert(std::pair<int, std::unique_ptr<PidState>>(
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pes_pid, std::move(pes_pid_state)));
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}
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void Mp2tMediaParser::OnNewStreamInfo(
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const std::shared_ptr<StreamInfo>& new_stream_info) {
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DCHECK(new_stream_info);
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DVLOG(1) << "OnVideoConfigChanged for pid=" << new_stream_info->track_id();
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PidMap::iterator pid_state = pids_.find(new_stream_info->track_id());
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if (pid_state == pids_.end()) {
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LOG(ERROR) << "PID State for new stream not found (pid = "
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<< new_stream_info->track_id() << ").";
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return;
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}
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// Set the stream configuration information for the PID.
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pid_state->second->set_config(new_stream_info);
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// Finish initialization if all streams have configs.
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FinishInitializationIfNeeded();
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}
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bool Mp2tMediaParser::FinishInitializationIfNeeded() {
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// Nothing to be done if already initialized.
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if (is_initialized_)
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return true;
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// Wait for more data to come to finish initialization.
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if (pids_.empty())
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return true;
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std::vector<std::shared_ptr<StreamInfo>> all_stream_info;
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uint32_t num_es(0);
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for (PidMap::const_iterator iter = pids_.begin(); iter != pids_.end();
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++iter) {
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if (((iter->second->pid_type() == PidState::kPidAudioPes) ||
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(iter->second->pid_type() == PidState::kPidVideoPes))) {
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++num_es;
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if (iter->second->config())
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all_stream_info.push_back(iter->second->config());
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}
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}
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if (num_es && (all_stream_info.size() == num_es)) {
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// All stream configurations have been received. Initialization can
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// be completed.
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init_cb_.Run(all_stream_info);
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DVLOG(1) << "Mpeg2TS stream parser initialization done";
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is_initialized_ = true;
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}
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return true;
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}
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void Mp2tMediaParser::OnEmitSample(
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uint32_t pes_pid,
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const std::shared_ptr<MediaSample>& new_sample) {
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DCHECK(new_sample);
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DVLOG(LOG_LEVEL_ES)
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<< "OnEmitSample: "
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<< " pid="
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<< pes_pid
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<< " size="
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<< new_sample->data_size()
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<< " dts="
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<< new_sample->dts()
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<< " pts="
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<< new_sample->pts();
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// Add the sample to the appropriate PID sample queue.
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PidMap::iterator pid_state = pids_.find(pes_pid);
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if (pid_state == pids_.end()) {
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LOG(ERROR) << "PID State for new sample not found (pid = "
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<< pes_pid << ").";
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return;
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}
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pid_state->second->sample_queue().push_back(new_sample);
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}
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bool Mp2tMediaParser::EmitRemainingSamples() {
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DVLOG(LOG_LEVEL_ES) << "Mp2tMediaParser::EmitRemainingBuffers";
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// No buffer should be sent until fully initialized.
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if (!is_initialized_)
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return true;
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// Buffer emission.
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for (PidMap::const_iterator pid_iter = pids_.begin(); pid_iter != pids_.end();
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++pid_iter) {
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SampleQueue& sample_queue = pid_iter->second->sample_queue();
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for (SampleQueue::iterator sample_iter = sample_queue.begin();
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sample_iter != sample_queue.end();
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++sample_iter) {
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if (!new_sample_cb_.Run(pid_iter->first, *sample_iter)) {
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// Error processing sample. Propagate error condition.
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return false;
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}
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}
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sample_queue.clear();
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}
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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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