// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "packager/media/formats/webm/webm_cluster_parser.h" #include #include "packager/base/logging.h" #include "packager/base/sys_byteorder.h" #include "packager/media/base/decrypt_config.h" #include "packager/media/base/timestamp.h" #include "packager/media/filters/vp8_parser.h" #include "packager/media/filters/vp9_parser.h" #include "packager/media/filters/webvtt_util.h" #include "packager/media/formats/webm/webm_constants.h" #include "packager/media/formats/webm/webm_crypto_helpers.h" #include "packager/media/formats/webm/webm_webvtt_parser.h" namespace edash_packager { namespace media { namespace { const int64_t kMicrosecondsPerMillisecond = 1000; // Helper function used to inspect block data to determine if the // block is a keyframe. // |data| contains the bytes in the block. // |size| indicates the number of bytes in |data|. bool IsKeyframe(bool is_video, VideoCodec codec, const uint8_t* data, int size) { // For now, assume that all blocks are keyframes for datatypes other than // video. This is a valid assumption for Vorbis, WebVTT, & Opus. if (!is_video) return true; switch (codec) { case kCodecVP8: return VP8Parser::IsKeyframe(data, size); case kCodecVP9: return VP9Parser::IsKeyframe(data, size); default: NOTIMPLEMENTED() << "Unsupported codec " << codec; return false; } } } // namespace WebMClusterParser::WebMClusterParser( int64_t timecode_scale, scoped_refptr audio_stream_info, scoped_refptr video_stream_info, int64_t audio_default_duration, int64_t video_default_duration, const WebMTracksParser::TextTracks& text_tracks, const std::set& ignored_tracks, const std::string& audio_encryption_key_id, const std::string& video_encryption_key_id, const MediaParser::NewSampleCB& new_sample_cb, const MediaParser::InitCB& init_cb, KeySource* decryption_key_source) : timecode_multiplier_(timecode_scale / 1000.0), audio_stream_info_(audio_stream_info), video_stream_info_(video_stream_info), ignored_tracks_(ignored_tracks), audio_encryption_key_id_(audio_encryption_key_id), video_encryption_key_id_(video_encryption_key_id), parser_(kWebMIdCluster, this), initialized_(false), init_cb_(init_cb), cluster_start_time_(kNoTimestamp), audio_(audio_stream_info ? audio_stream_info->track_id() : -1, false, audio_default_duration, new_sample_cb), video_(video_stream_info ? video_stream_info->track_id() : -1, true, video_default_duration, new_sample_cb) { if (decryption_key_source) decryptor_source_.reset(new DecryptorSource(decryption_key_source)); for (WebMTracksParser::TextTracks::const_iterator it = text_tracks.begin(); it != text_tracks.end(); ++it) { text_track_map_.insert(std::make_pair( it->first, Track(it->first, false, kNoTimestamp, new_sample_cb))); } } WebMClusterParser::~WebMClusterParser() {} void WebMClusterParser::Reset() { last_block_timecode_ = -1; cluster_timecode_ = -1; cluster_start_time_ = kNoTimestamp; cluster_ended_ = false; parser_.Reset(); audio_.Reset(); video_.Reset(); ResetTextTracks(); } void WebMClusterParser::Flush() { // Estimate the duration of the last frame if necessary. audio_.ApplyDurationEstimateIfNeeded(); video_.ApplyDurationEstimateIfNeeded(); Reset(); } int WebMClusterParser::Parse(const uint8_t* buf, int size) { int result = parser_.Parse(buf, size); if (result < 0) { cluster_ended_ = false; return result; } cluster_ended_ = parser_.IsParsingComplete(); if (cluster_ended_) { // If there were no buffers in this cluster, set the cluster start time to // be the |cluster_timecode_|. if (cluster_start_time_ == kNoTimestamp) { // If the cluster did not even have a |cluster_timecode_|, signal parse // error. if (cluster_timecode_ < 0) return -1; cluster_start_time_ = cluster_timecode_ * timecode_multiplier_; } // Reset the parser if we're done parsing so that // it is ready to accept another cluster on the next // call. parser_.Reset(); last_block_timecode_ = -1; cluster_timecode_ = -1; } return result; } WebMParserClient* WebMClusterParser::OnListStart(int id) { if (id == kWebMIdCluster) { cluster_timecode_ = -1; cluster_start_time_ = kNoTimestamp; } else if (id == kWebMIdBlockGroup) { block_data_.reset(); block_data_size_ = -1; block_duration_ = -1; discard_padding_ = -1; discard_padding_set_ = false; } else if (id == kWebMIdBlockAdditions) { block_add_id_ = -1; block_additional_data_.reset(); block_additional_data_size_ = 0; } return this; } bool WebMClusterParser::OnListEnd(int id) { if (id != kWebMIdBlockGroup) return true; // Make sure the BlockGroup actually had a Block. if (block_data_size_ == -1) { LOG(ERROR) << "Block missing from BlockGroup."; return false; } bool result = ParseBlock(false, block_data_.get(), block_data_size_, block_additional_data_.get(), block_additional_data_size_, block_duration_, discard_padding_set_ ? discard_padding_ : 0); block_data_.reset(); block_data_size_ = -1; block_duration_ = -1; block_add_id_ = -1; block_additional_data_.reset(); block_additional_data_size_ = 0; discard_padding_ = -1; discard_padding_set_ = false; return result; } bool WebMClusterParser::OnUInt(int id, int64_t val) { int64_t* dst; switch (id) { case kWebMIdTimecode: dst = &cluster_timecode_; break; case kWebMIdBlockDuration: dst = &block_duration_; break; case kWebMIdBlockAddID: dst = &block_add_id_; break; default: return true; } if (*dst != -1) return false; *dst = val; return true; } bool WebMClusterParser::ParseBlock(bool is_simple_block, const uint8_t* buf, int size, const uint8_t* additional, int additional_size, int duration, int64_t discard_padding) { if (size < 4) return false; // Return an error if the trackNum > 127. We just aren't // going to support large track numbers right now. if (!(buf[0] & 0x80)) { LOG(ERROR) << "TrackNumber over 127 not supported"; return false; } int track_num = buf[0] & 0x7f; int timecode = buf[1] << 8 | buf[2]; int flags = buf[3] & 0xff; int lacing = (flags >> 1) & 0x3; if (lacing) { LOG(ERROR) << "Lacing " << lacing << " is not supported yet."; return false; } // Sign extend negative timecode offsets. if (timecode & 0x8000) timecode |= ~0xffff; const uint8_t* frame_data = buf + 4; int frame_size = size - (frame_data - buf); return OnBlock(is_simple_block, track_num, timecode, duration, flags, frame_data, frame_size, additional, additional_size, discard_padding); } bool WebMClusterParser::OnBinary(int id, const uint8_t* data, int size) { switch (id) { case kWebMIdSimpleBlock: return ParseBlock(true, data, size, NULL, 0, -1, 0); case kWebMIdBlock: if (block_data_) { LOG(ERROR) << "More than 1 Block in a BlockGroup is not " "supported."; return false; } block_data_.reset(new uint8_t[size]); memcpy(block_data_.get(), data, size); block_data_size_ = size; return true; case kWebMIdBlockAdditional: { uint64_t block_add_id = base::HostToNet64(block_add_id_); if (block_additional_data_) { // TODO: Technically, more than 1 BlockAdditional is allowed as per // matroska spec. But for now we don't have a use case to support // parsing of such files. Take a look at this again when such a case // arises. LOG(ERROR) << "More than 1 BlockAdditional in a " "BlockGroup is not supported."; return false; } // First 8 bytes of side_data in DecoderBuffer is the BlockAddID // element's value in Big Endian format. This is done to mimic ffmpeg // demuxer's behavior. block_additional_data_size_ = size + sizeof(block_add_id); block_additional_data_.reset(new uint8_t[block_additional_data_size_]); memcpy(block_additional_data_.get(), &block_add_id, sizeof(block_add_id)); memcpy(block_additional_data_.get() + 8, data, size); return true; } case kWebMIdDiscardPadding: { if (discard_padding_set_ || size <= 0 || size > 8) return false; discard_padding_set_ = true; // Read in the big-endian integer. discard_padding_ = static_cast(data[0]); for (int i = 1; i < size; ++i) discard_padding_ = (discard_padding_ << 8) | data[i]; return true; } default: return true; } } bool WebMClusterParser::OnBlock(bool is_simple_block, int track_num, int timecode, int block_duration, int flags, const uint8_t* data, int size, const uint8_t* additional, int additional_size, int64_t discard_padding) { DCHECK_GE(size, 0); if (cluster_timecode_ == -1) { LOG(ERROR) << "Got a block before cluster timecode."; return false; } // TODO: Should relative negative timecode offsets be rejected? Or only when // the absolute timecode is negative? See http://crbug.com/271794 if (timecode < 0) { LOG(ERROR) << "Got a block with negative timecode offset " << timecode; return false; } if (last_block_timecode_ != -1 && timecode < last_block_timecode_) { LOG(ERROR) << "Got a block with a timecode before the previous block."; return false; } Track* track = NULL; StreamType stream_type = kStreamUnknown; std::string encryption_key_id; if (track_num == audio_.track_num()) { track = &audio_; encryption_key_id = audio_encryption_key_id_; stream_type = kStreamAudio; } else if (track_num == video_.track_num()) { track = &video_; encryption_key_id = video_encryption_key_id_; stream_type = kStreamVideo; } else if (ignored_tracks_.find(track_num) != ignored_tracks_.end()) { return true; } else if (Track* const text_track = FindTextTrack(track_num)) { if (is_simple_block) // BlockGroup is required for WebVTT cues return false; if (block_duration < 0) // not specified return false; track = text_track; stream_type = kStreamText; } else { LOG(ERROR) << "Unexpected track number " << track_num; return false; } DCHECK_NE(stream_type, kStreamUnknown); last_block_timecode_ = timecode; int64_t timestamp = (cluster_timecode_ + timecode) * timecode_multiplier_; scoped_refptr buffer; if (stream_type != kStreamText) { // The first bit of the flags is set when a SimpleBlock contains only // keyframes. If this is a Block, then inspection of the payload is // necessary to determine whether it contains a keyframe or not. // http://www.matroska.org/technical/specs/index.html bool is_keyframe = is_simple_block ? (flags & 0x80) != 0 : IsKeyframe(stream_type == kStreamVideo, video_stream_info_ ? video_stream_info_->codec() : kUnknownVideoCodec, data, size); // Every encrypted Block has a signal byte and IV prepended to it. Current // encrypted WebM request for comments specification is here // http://wiki.webmproject.org/encryption/webm-encryption-rfc scoped_ptr decrypt_config; int data_offset = 0; if (!encryption_key_id.empty() && !WebMCreateDecryptConfig( data, size, reinterpret_cast(encryption_key_id.data()), encryption_key_id.size(), &decrypt_config, &data_offset)) { return false; } buffer = MediaSample::CopyFrom(data + data_offset, size - data_offset, additional, additional_size, is_keyframe); // An empty iv indicates that this sample is not encrypted. if (decrypt_config && !decrypt_config->iv().empty()) { if (!decryptor_source_) { LOG(ERROR) << "Encrypted media sample encountered, but decryption is " "not enabled"; return false; } if (!decryptor_source_->DecryptSampleBuffer(decrypt_config.get(), buffer->writable_data(), buffer->data_size())) { LOG(ERROR) << "Cannot decrypt samples"; return false; } } } else { std::string id, settings, content; WebMWebVTTParser::Parse(data, size, &id, &settings, &content); std::vector side_data; MakeSideData(id.begin(), id.end(), settings.begin(), settings.end(), &side_data); buffer = MediaSample::CopyFrom( reinterpret_cast(content.data()), content.length(), &side_data[0], side_data.size(), true); } buffer->set_dts(timestamp); buffer->set_pts(timestamp); if (cluster_start_time_ == kNoTimestamp) cluster_start_time_ = timestamp; buffer->set_duration(block_duration > 0 ? (block_duration * timecode_multiplier_) : kNoTimestamp); if (!init_cb_.is_null() && !initialized_) { std::vector> streams; if (audio_stream_info_) streams.push_back(audio_stream_info_); if (video_stream_info_) { if (stream_type == kStreamVideo) { scoped_ptr vpx_parser; switch (video_stream_info_->codec()) { case kCodecVP8: vpx_parser.reset(new VP8Parser); break; case kCodecVP9: vpx_parser.reset(new VP9Parser); break; default: NOTIMPLEMENTED() << "Unsupported codec " << video_stream_info_->codec(); return false; } std::vector vpx_frames; if (!vpx_parser->Parse(buffer->data(), buffer->data_size(), &vpx_frames)) { LOG(ERROR) << "Failed to parse vpx frame."; return false; } if (vpx_frames.size() != 1u || !vpx_frames[0].is_keyframe) { LOG(ERROR) << "The first frame should be a key frame."; return false; } const VPCodecConfiguration* codec_config = &vpx_parser->codec_config(); video_stream_info_->set_codec_string( codec_config->GetCodecString(video_stream_info_->codec())); std::vector extra_data; codec_config->Write(&extra_data); video_stream_info_->set_extra_data(extra_data); streams.push_back(video_stream_info_); init_cb_.Run(streams); initialized_ = true; } } else { init_cb_.Run(streams); initialized_ = true; } } return track->EmitBuffer(buffer); } WebMClusterParser::Track::Track(int track_num, bool is_video, int64_t default_duration, const MediaParser::NewSampleCB& new_sample_cb) : track_num_(track_num), is_video_(is_video), default_duration_(default_duration), estimated_next_frame_duration_(kNoTimestamp), new_sample_cb_(new_sample_cb) { DCHECK(default_duration_ == kNoTimestamp || default_duration_ > 0); } WebMClusterParser::Track::~Track() {} bool WebMClusterParser::Track::EmitBuffer( const scoped_refptr& buffer) { DVLOG(2) << "EmitBuffer() : " << track_num_ << " ts " << buffer->pts() << " dur " << buffer->duration() << " kf " << buffer->is_key_frame() << " size " << buffer->data_size(); if (last_added_buffer_missing_duration_.get()) { int64_t derived_duration = buffer->pts() - last_added_buffer_missing_duration_->pts(); last_added_buffer_missing_duration_->set_duration(derived_duration); DVLOG(2) << "EmitBuffer() : applied derived duration to held-back buffer : " << " ts " << last_added_buffer_missing_duration_->pts() << " dur " << last_added_buffer_missing_duration_->duration() << " kf " << last_added_buffer_missing_duration_->is_key_frame() << " size " << last_added_buffer_missing_duration_->data_size(); scoped_refptr updated_buffer = last_added_buffer_missing_duration_; last_added_buffer_missing_duration_ = NULL; if (!EmitBufferHelp(updated_buffer)) return false; } if (buffer->duration() == kNoTimestamp) { last_added_buffer_missing_duration_ = buffer; DVLOG(2) << "EmitBuffer() : holding back buffer that is missing duration"; return true; } return EmitBufferHelp(buffer); } void WebMClusterParser::Track::ApplyDurationEstimateIfNeeded() { if (!last_added_buffer_missing_duration_.get()) return; int64_t estimated_duration = GetDurationEstimate(); last_added_buffer_missing_duration_->set_duration(estimated_duration); VLOG(1) << "Track " << track_num_ << ": Estimating WebM block duration to be " << estimated_duration / 1000 << "ms for the last (Simple)Block in the Cluster for this Track. Use " "BlockGroups with BlockDurations at the end of each Track in a " "Cluster to avoid estimation."; DVLOG(2) << " new dur : ts " << last_added_buffer_missing_duration_->pts() << " dur " << last_added_buffer_missing_duration_->duration() << " kf " << last_added_buffer_missing_duration_->is_key_frame() << " size " << last_added_buffer_missing_duration_->data_size(); // Don't use the applied duration as a future estimation (don't use // EmitBufferHelp() here.) new_sample_cb_.Run(track_num_, last_added_buffer_missing_duration_); last_added_buffer_missing_duration_ = NULL; } void WebMClusterParser::Track::Reset() { last_added_buffer_missing_duration_ = NULL; } bool WebMClusterParser::Track::EmitBufferHelp( const scoped_refptr& buffer) { DCHECK(!last_added_buffer_missing_duration_.get()); int64_t duration = buffer->duration(); if (duration < 0 || duration == kNoTimestamp) { LOG(ERROR) << "Invalid buffer duration: " << duration; return false; } // The estimated frame duration is the maximum non-zero duration since the // last initialization segment. if (duration > 0) { int64_t orig_duration_estimate = estimated_next_frame_duration_; if (estimated_next_frame_duration_ == kNoTimestamp) { estimated_next_frame_duration_ = duration; } else { estimated_next_frame_duration_ = std::max(duration, estimated_next_frame_duration_); } if (orig_duration_estimate != estimated_next_frame_duration_) { DVLOG(3) << "Updated duration estimate:" << orig_duration_estimate << " -> " << estimated_next_frame_duration_ << " at timestamp: " << buffer->dts(); } } new_sample_cb_.Run(track_num_, buffer); return true; } int64_t WebMClusterParser::Track::GetDurationEstimate() { int64_t duration = kNoTimestamp; if (default_duration_ != kNoTimestamp) { duration = default_duration_; DVLOG(3) << __FUNCTION__ << " : using track default duration " << duration; } else if (estimated_next_frame_duration_ != kNoTimestamp) { duration = estimated_next_frame_duration_; DVLOG(3) << __FUNCTION__ << " : using estimated duration " << duration; } else { if (is_video_) { duration = kDefaultVideoBufferDurationInMs * kMicrosecondsPerMillisecond; } else { duration = kDefaultAudioBufferDurationInMs * kMicrosecondsPerMillisecond; } DVLOG(3) << __FUNCTION__ << " : using hardcoded default duration " << duration; } DCHECK_GT(duration, 0); DCHECK_NE(duration, kNoTimestamp); return duration; } void WebMClusterParser::ResetTextTracks() { for (TextTrackMap::iterator it = text_track_map_.begin(); it != text_track_map_.end(); ++it) { it->second.Reset(); } } WebMClusterParser::Track* WebMClusterParser::FindTextTrack(int track_num) { const TextTrackMap::iterator it = text_track_map_.find(track_num); if (it == text_track_map_.end()) return NULL; return &it->second; } } // namespace media } // namespace edash_packager