// 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 #include #include #include #include #include #include #include #include #include #include #include #include namespace shaka { namespace hls { namespace { int32_t GetTimeScale(const MediaInfo& media_info) { if (media_info.has_reference_time_scale()) return media_info.reference_time_scale(); if (media_info.has_video_info()) return media_info.video_info().time_scale(); if (media_info.has_audio_info()) return media_info.audio_info().time_scale(); return 0; } std::string AdjustVideoCodec(const std::string& codec) { // Apple does not like video formats with the parameter sets stored in the // samples. It also fails mediastreamvalidator checks and some Apple devices / // platforms refused to play. // See https://apple.co/30n90DC 1.10 and // https://github.com/shaka-project/shaka-packager/issues/587#issuecomment-489182182. // Replaced with the corresponding formats with the parameter sets stored in // the sample descriptions instead. std::string adjusted_codec = codec; std::string fourcc = codec.substr(0, 4); if (fourcc == "avc3") adjusted_codec = "avc1" + codec.substr(4); else if (fourcc == "hev1") adjusted_codec = "hvc1" + codec.substr(4); else if (fourcc == "dvhe") adjusted_codec = "dvh1" + codec.substr(4); if (adjusted_codec != codec) { VLOG(1) << "Adusting video codec string from " << codec << " to " << adjusted_codec; } return adjusted_codec; } // Duplicated from MpdUtils because: // 1. MpdUtils header depends on libxml header, which is not in the deps here // 2. GetLanguage depends on MediaInfo from packager/mpd/ // 3. Moving GetLanguage to LanguageUtils would create a a media => mpd dep. // TODO(https://github.com/shaka-project/shaka-packager/issues/373): Fix this // dependency situation and factor this out to a common location. std::string GetLanguage(const MediaInfo& media_info) { std::string lang; if (media_info.has_audio_info()) { lang = media_info.audio_info().language(); } else if (media_info.has_text_info()) { lang = media_info.text_info().language(); } return LanguageToShortestForm(lang); } void AppendExtXMap(const MediaInfo& media_info, std::string* out) { if (media_info.has_init_segment_url()) { Tag tag("#EXT-X-MAP", out); tag.AddQuotedString("URI", media_info.init_segment_url().data()); out->append("\n"); } else if (media_info.has_media_file_url() && media_info.has_init_range()) { // It only makes sense for single segment media to have EXT-X-MAP if // there is init_range. Tag tag("#EXT-X-MAP", out); tag.AddQuotedString("URI", media_info.media_file_url().data()); if (media_info.has_init_range()) { const uint64_t begin = media_info.init_range().begin(); const uint64_t end = media_info.init_range().end(); const uint64_t length = end - begin + 1; tag.AddQuotedNumberPair("BYTERANGE", length, '@', begin); } out->append("\n"); } else { // This media info does not need an ext-x-map tag. } } std::string CreatePlaylistHeader( const MediaInfo& media_info, int32_t target_duration, HlsPlaylistType type, MediaPlaylist::MediaPlaylistStreamType stream_type, uint32_t media_sequence_number, int discontinuity_sequence_number) { const std::string version = GetPackagerVersion(); std::string version_line; if (!version.empty()) { version_line = absl::StrFormat("## Generated with %s version %s\n", GetPackagerProjectUrl().c_str(), version.c_str()); } // 6 is required for EXT-X-MAP without EXT-X-I-FRAMES-ONLY. std::string header = absl::StrFormat( "#EXTM3U\n" "#EXT-X-VERSION:6\n" "%s" "#EXT-X-TARGETDURATION:%d\n", version_line.c_str(), target_duration); switch (type) { case HlsPlaylistType::kVod: header += "#EXT-X-PLAYLIST-TYPE:VOD\n"; break; case HlsPlaylistType::kEvent: header += "#EXT-X-PLAYLIST-TYPE:EVENT\n"; break; case HlsPlaylistType::kLive: if (media_sequence_number > 0) { absl::StrAppendFormat(&header, "#EXT-X-MEDIA-SEQUENCE:%d\n", media_sequence_number); } if (discontinuity_sequence_number > 0) { absl::StrAppendFormat(&header, "#EXT-X-DISCONTINUITY-SEQUENCE:%d\n", discontinuity_sequence_number); } break; default: NOTIMPLEMENTED() << "Unexpected MediaPlaylistType " << static_cast(type); } if (stream_type == MediaPlaylist::MediaPlaylistStreamType::kVideoIFramesOnly) { absl::StrAppendFormat(&header, "#EXT-X-I-FRAMES-ONLY\n"); } // Put EXT-X-MAP at the end since the rest of the playlist is about the // segment and key info. AppendExtXMap(media_info, &header); return header; } class SegmentInfoEntry : public HlsEntry { public: // If |use_byte_range| true then this will append EXT-X-BYTERANGE // after EXTINF. // It uses |previous_segment_end_offset| to determine if it has to also // specify the start byte offset in the tag. // |start_time| is in timescale. // |duration_seconds| is duration in seconds. SegmentInfoEntry(const std::string& file_name, int64_t start_time, double duration_seconds, bool use_byte_range, uint64_t start_byte_offset, uint64_t segment_file_size, uint64_t previous_segment_end_offset); std::string ToString() override; int64_t start_time() const { return start_time_; } double duration_seconds() const { return duration_seconds_; } void set_duration_seconds(double duration_seconds) { duration_seconds_ = duration_seconds; } private: SegmentInfoEntry(const SegmentInfoEntry&) = delete; SegmentInfoEntry& operator=(const SegmentInfoEntry&) = delete; const std::string file_name_; const int64_t start_time_; double duration_seconds_; const bool use_byte_range_; const uint64_t start_byte_offset_; const uint64_t segment_file_size_; const uint64_t previous_segment_end_offset_; }; SegmentInfoEntry::SegmentInfoEntry(const std::string& file_name, int64_t start_time, double duration_seconds, bool use_byte_range, uint64_t start_byte_offset, uint64_t segment_file_size, uint64_t previous_segment_end_offset) : HlsEntry(HlsEntry::EntryType::kExtInf), file_name_(file_name), start_time_(start_time), duration_seconds_(duration_seconds), use_byte_range_(use_byte_range), start_byte_offset_(start_byte_offset), segment_file_size_(segment_file_size), previous_segment_end_offset_(previous_segment_end_offset) {} std::string SegmentInfoEntry::ToString() { std::string result = absl::StrFormat("#EXTINF:%.3f,", duration_seconds_); if (use_byte_range_) { absl::StrAppendFormat(&result, "\n#EXT-X-BYTERANGE:%" PRIu64, segment_file_size_); if (previous_segment_end_offset_ + 1 != start_byte_offset_) { absl::StrAppendFormat(&result, "@%" PRIu64, start_byte_offset_); } } absl::StrAppendFormat(&result, "\n%s", file_name_.c_str()); return result; } class EncryptionInfoEntry : public HlsEntry { public: EncryptionInfoEntry(MediaPlaylist::EncryptionMethod method, const std::string& url, const std::string& key_id, const std::string& iv, const std::string& key_format, const std::string& key_format_versions); std::string ToString() override; private: EncryptionInfoEntry(const EncryptionInfoEntry&) = delete; EncryptionInfoEntry& operator=(const EncryptionInfoEntry&) = delete; const MediaPlaylist::EncryptionMethod method_; const std::string url_; const std::string key_id_; const std::string iv_; const std::string key_format_; const std::string key_format_versions_; }; EncryptionInfoEntry::EncryptionInfoEntry(MediaPlaylist::EncryptionMethod method, const std::string& url, const std::string& key_id, const std::string& iv, const std::string& key_format, const std::string& key_format_versions) : HlsEntry(HlsEntry::EntryType::kExtKey), method_(method), url_(url), key_id_(key_id), iv_(iv), key_format_(key_format), key_format_versions_(key_format_versions) {} std::string EncryptionInfoEntry::ToString() { std::string tag_string; Tag tag("#EXT-X-KEY", &tag_string); if (method_ == MediaPlaylist::EncryptionMethod::kSampleAes) { tag.AddString("METHOD", "SAMPLE-AES"); } else if (method_ == MediaPlaylist::EncryptionMethod::kAes128) { tag.AddString("METHOD", "AES-128"); } else if (method_ == MediaPlaylist::EncryptionMethod::kSampleAesCenc) { tag.AddString("METHOD", "SAMPLE-AES-CTR"); } else { DCHECK(method_ == MediaPlaylist::EncryptionMethod::kNone); tag.AddString("METHOD", "NONE"); } tag.AddQuotedString("URI", url_); if (!key_id_.empty()) { tag.AddString("KEYID", key_id_); } if (!iv_.empty()) { tag.AddString("IV", iv_); } if (!key_format_versions_.empty()) { tag.AddQuotedString("KEYFORMATVERSIONS", key_format_versions_); } if (!key_format_.empty()) { tag.AddQuotedString("KEYFORMAT", key_format_); } return tag_string; } class DiscontinuityEntry : public HlsEntry { public: DiscontinuityEntry(); std::string ToString() override; private: DiscontinuityEntry(const DiscontinuityEntry&) = delete; DiscontinuityEntry& operator=(const DiscontinuityEntry&) = delete; }; DiscontinuityEntry::DiscontinuityEntry() : HlsEntry(HlsEntry::EntryType::kExtDiscontinuity) {} std::string DiscontinuityEntry::ToString() { return "#EXT-X-DISCONTINUITY"; } class PlacementOpportunityEntry : public HlsEntry { public: PlacementOpportunityEntry(); std::string ToString() override; private: PlacementOpportunityEntry(const PlacementOpportunityEntry&) = delete; PlacementOpportunityEntry& operator=(const PlacementOpportunityEntry&) = delete; }; PlacementOpportunityEntry::PlacementOpportunityEntry() : HlsEntry(HlsEntry::EntryType::kExtPlacementOpportunity) {} std::string PlacementOpportunityEntry::ToString() { return "#EXT-X-PLACEMENT-OPPORTUNITY"; } } // namespace HlsEntry::HlsEntry(HlsEntry::EntryType type) : type_(type) {} HlsEntry::~HlsEntry() {} MediaPlaylist::MediaPlaylist(const HlsParams& hls_params, const std::string& file_name, const std::string& name, const std::string& group_id) : hls_params_(hls_params), file_name_(file_name), name_(name), group_id_(group_id), media_sequence_number_(hls_params_.media_sequence_number) { // When there's a forced media_sequence_number, start with discontinuity if (media_sequence_number_ > 0) entries_.emplace_back(new DiscontinuityEntry()); } MediaPlaylist::~MediaPlaylist() {} void MediaPlaylist::SetStreamTypeForTesting( MediaPlaylistStreamType stream_type) { stream_type_ = stream_type; } void MediaPlaylist::SetCodecForTesting(const std::string& codec) { codec_ = codec; } void MediaPlaylist::SetLanguageForTesting(const std::string& language) { language_ = language; } void MediaPlaylist::SetCharacteristicsForTesting( const std::vector& characteristics) { characteristics_ = characteristics; } bool MediaPlaylist::SetMediaInfo(const MediaInfo& media_info) { const int32_t time_scale = GetTimeScale(media_info); if (time_scale == 0) { LOG(ERROR) << "MediaInfo does not contain a valid timescale."; return false; } if (media_info.has_video_info()) { stream_type_ = MediaPlaylistStreamType::kVideo; codec_ = AdjustVideoCodec(media_info.video_info().codec()); } else if (media_info.has_audio_info()) { stream_type_ = MediaPlaylistStreamType::kAudio; codec_ = media_info.audio_info().codec(); } else { stream_type_ = MediaPlaylistStreamType::kSubtitle; codec_ = media_info.text_info().codec(); } time_scale_ = time_scale; media_info_ = media_info; language_ = GetLanguage(media_info); use_byte_range_ = !media_info_.has_segment_template_url() && media_info_.container_type() != MediaInfo::CONTAINER_TEXT; characteristics_ = std::vector(media_info_.hls_characteristics().begin(), media_info_.hls_characteristics().end()); return true; } void MediaPlaylist::SetSampleDuration(int32_t sample_duration) { if (media_info_.has_video_info()) media_info_.mutable_video_info()->set_frame_duration(sample_duration); } void MediaPlaylist::AddSegment(const std::string& file_name, int64_t start_time, int64_t duration, uint64_t start_byte_offset, uint64_t size) { if (stream_type_ == MediaPlaylistStreamType::kVideoIFramesOnly) { if (key_frames_.empty()) return; AdjustLastSegmentInfoEntryDuration(key_frames_.front().timestamp); for (auto iter = key_frames_.begin(); iter != key_frames_.end(); ++iter) { // Last entry duration may be adjusted later when the next iframe becomes // available. const int64_t next_timestamp = std::next(iter) == key_frames_.end() ? (start_time + duration) : std::next(iter)->timestamp; AddSegmentInfoEntry(file_name, iter->timestamp, next_timestamp - iter->timestamp, iter->start_byte_offset, iter->size); } key_frames_.clear(); return; } return AddSegmentInfoEntry(file_name, start_time, duration, start_byte_offset, size); } void MediaPlaylist::AddKeyFrame(int64_t timestamp, uint64_t start_byte_offset, uint64_t size) { if (stream_type_ != MediaPlaylistStreamType::kVideoIFramesOnly) { if (stream_type_ != MediaPlaylistStreamType::kVideo) { LOG(WARNING) << "I-Frames Only playlist applies to video renditions only."; return; } stream_type_ = MediaPlaylistStreamType::kVideoIFramesOnly; use_byte_range_ = true; } key_frames_.push_back({timestamp, start_byte_offset, size, std::string("")}); } void MediaPlaylist::AddEncryptionInfo(MediaPlaylist::EncryptionMethod method, const std::string& url, const std::string& key_id, const std::string& iv, const std::string& key_format, const std::string& key_format_versions) { if (!inserted_discontinuity_tag_) { // Insert discontinuity tag only for the first EXT-X-KEY, only if there // are non-encrypted media segments. if (!entries_.empty()) entries_.emplace_back(new DiscontinuityEntry()); inserted_discontinuity_tag_ = true; } entries_.emplace_back(new EncryptionInfoEntry( method, url, key_id, iv, key_format, key_format_versions)); } void MediaPlaylist::AddPlacementOpportunity() { entries_.emplace_back(new PlacementOpportunityEntry()); } bool MediaPlaylist::WriteToFile(const std::filesystem::path& file_path) { if (!target_duration_set_) { SetTargetDuration(ceil(GetLongestSegmentDuration())); } std::string content = CreatePlaylistHeader( media_info_, target_duration_, hls_params_.playlist_type, stream_type_, media_sequence_number_, discontinuity_sequence_number_); for (const auto& entry : entries_) absl::StrAppendFormat(&content, "%s\n", entry->ToString().c_str()); if (hls_params_.playlist_type == HlsPlaylistType::kVod) { content += "#EXT-X-ENDLIST\n"; } if (!File::WriteFileAtomically(file_path.string().c_str(), content)) { LOG(ERROR) << "Failed to write playlist to: " << file_path.string(); return false; } return true; } uint64_t MediaPlaylist::MaxBitrate() const { if (media_info_.has_bandwidth()) return media_info_.bandwidth(); return bandwidth_estimator_.Max(); } uint64_t MediaPlaylist::AvgBitrate() const { return bandwidth_estimator_.Estimate(); } double MediaPlaylist::GetLongestSegmentDuration() const { return longest_segment_duration_seconds_; } void MediaPlaylist::SetTargetDuration(int32_t target_duration) { if (target_duration_set_) { if (target_duration_ == target_duration) return; VLOG(1) << "Updating target duration from " << target_duration << " to " << target_duration_; } target_duration_ = target_duration; target_duration_set_ = true; } int MediaPlaylist::GetNumChannels() const { return media_info_.audio_info().num_channels(); } int MediaPlaylist::GetEC3JocComplexity() const { return media_info_.audio_info().codec_specific_data().ec3_joc_complexity(); } bool MediaPlaylist::GetAC4ImsFlag() const { return media_info_.audio_info().codec_specific_data().ac4_ims_flag(); } bool MediaPlaylist::GetAC4CbiFlag() const { return media_info_.audio_info().codec_specific_data().ac4_cbi_flag(); } bool MediaPlaylist::GetDisplayResolution(uint32_t* width, uint32_t* height) const { DCHECK(width); DCHECK(height); if (media_info_.has_video_info()) { const double pixel_aspect_ratio = media_info_.video_info().pixel_height() > 0 ? static_cast(media_info_.video_info().pixel_width()) / media_info_.video_info().pixel_height() : 1.0; *width = static_cast(media_info_.video_info().width() * pixel_aspect_ratio); *height = media_info_.video_info().height(); return true; } return false; } std::string MediaPlaylist::GetVideoRange() const { // Dolby Vision (dvh1 or dvhe) is always HDR. if (codec_.find("dvh") == 0) return "PQ"; // HLS specification: // https://tools.ietf.org/html/draft-pantos-hls-rfc8216bis-02#section-4.4.4.2 switch (media_info_.video_info().transfer_characteristics()) { case 1: return "SDR"; case 16: case 18: return "PQ"; default: // Leave it empty if we do not have the transfer characteristics // information. return ""; } } double MediaPlaylist::GetFrameRate() const { if (media_info_.video_info().frame_duration() == 0) return 0; return static_cast(time_scale_) / media_info_.video_info().frame_duration(); } void MediaPlaylist::AddSegmentInfoEntry(const std::string& segment_file_name, int64_t start_time, int64_t duration, uint64_t start_byte_offset, uint64_t size) { if (time_scale_ == 0) { LOG(WARNING) << "Timescale is not set and the duration for " << duration << " cannot be calculated. The output will be wrong."; entries_.emplace_back(new SegmentInfoEntry( segment_file_name, 0.0, 0.0, use_byte_range_, start_byte_offset, size, previous_segment_end_offset_)); return; } // In order for the oldest segment to be accessible for at least // |time_shift_buffer_depth| seconds, the latest segment should not be in the // sliding window since the player could be playing any part of the latest // segment. So the current segment duration is added to the sum of segment // durations (in the manifest/playlist) after sliding the window. SlideWindow(); const double segment_duration_seconds = static_cast(duration) / time_scale_; longest_segment_duration_seconds_ = std::max(longest_segment_duration_seconds_, segment_duration_seconds); bandwidth_estimator_.AddBlock(size, segment_duration_seconds); current_buffer_depth_ += segment_duration_seconds; if (!entries_.empty() && entries_.back()->type() == HlsEntry::EntryType::kExtInf) { const SegmentInfoEntry* segment_info = static_cast(entries_.back().get()); if (segment_info->start_time() > start_time) { LOG(WARNING) << "Insert a discontinuity tag after the segment with start time " << segment_info->start_time() << " as the next segment starts at " << start_time << "."; entries_.emplace_back(new DiscontinuityEntry()); } } entries_.emplace_back(new SegmentInfoEntry( segment_file_name, start_time, segment_duration_seconds, use_byte_range_, start_byte_offset, size, previous_segment_end_offset_)); previous_segment_end_offset_ = start_byte_offset + size - 1; } void MediaPlaylist::AdjustLastSegmentInfoEntryDuration(int64_t next_timestamp) { if (time_scale_ == 0) return; const double next_timestamp_seconds = static_cast(next_timestamp) / time_scale_; for (auto iter = entries_.rbegin(); iter != entries_.rend(); ++iter) { if (iter->get()->type() == HlsEntry::EntryType::kExtInf) { SegmentInfoEntry* segment_info = reinterpret_cast(iter->get()); const double segment_duration_seconds = next_timestamp_seconds - static_cast(segment_info->start_time()) / time_scale_; // It could be negative if timestamp messed up. if (segment_duration_seconds > 0) segment_info->set_duration_seconds(segment_duration_seconds); longest_segment_duration_seconds_ = std::max(longest_segment_duration_seconds_, segment_duration_seconds); break; } } } // TODO(kqyang): Right now this class manages the segments including the // deletion of segments when it is no longer needed. However, this class does // not have access to the segment file paths, which is already translated to // segment URLs by HlsNotifier. We have to re-generate segment file paths from // segment template here in order to delete the old segments. // To make the pipeline cleaner, we should move all file manipulations including // segment management to an intermediate layer between HlsNotifier and // MediaPlaylist. void MediaPlaylist::SlideWindow() { if (hls_params_.time_shift_buffer_depth <= 0.0 || hls_params_.playlist_type != HlsPlaylistType::kLive) { return; } DCHECK_GT(time_scale_, 0); if (current_buffer_depth_ <= hls_params_.time_shift_buffer_depth) return; // Temporary list to hold the EXT-X-KEYs. For example, this allows us to // remove <3> without removing <1> and <2> below (<1> and <2> are moved to the // temporary list and added back later). // #EXT-X-KEY <1> // #EXT-X-KEY <2> // #EXTINF <3> // #EXTINF <4> std::list> ext_x_keys; // Consecutive key entries are either fully removed or not removed at all. // Keep track of entry types so we know if it is consecutive key entries. HlsEntry::EntryType prev_entry_type = HlsEntry::EntryType::kExtInf; std::list>::iterator last = entries_.begin(); for (; last != entries_.end(); ++last) { HlsEntry::EntryType entry_type = last->get()->type(); if (entry_type == HlsEntry::EntryType::kExtKey) { if (prev_entry_type != HlsEntry::EntryType::kExtKey) ext_x_keys.clear(); ext_x_keys.push_back(std::move(*last)); } else if (entry_type == HlsEntry::EntryType::kExtDiscontinuity) { ++discontinuity_sequence_number_; } else { DCHECK_EQ(static_cast(entry_type), static_cast(HlsEntry::EntryType::kExtInf)); const SegmentInfoEntry& segment_info = *reinterpret_cast(last->get()); // Remove the current segment only if it falls completely out of time // shift buffer range. const bool segment_within_time_shift_buffer = current_buffer_depth_ - segment_info.duration_seconds() < hls_params_.time_shift_buffer_depth; if (segment_within_time_shift_buffer) break; current_buffer_depth_ -= segment_info.duration_seconds(); RemoveOldSegment(segment_info.start_time()); media_sequence_number_++; } prev_entry_type = entry_type; } entries_.erase(entries_.begin(), last); // Add key entries back. entries_.insert(entries_.begin(), std::make_move_iterator(ext_x_keys.begin()), std::make_move_iterator(ext_x_keys.end())); } void MediaPlaylist::RemoveOldSegment(int64_t start_time) { if (hls_params_.preserved_segments_outside_live_window == 0) return; if (stream_type_ == MediaPlaylistStreamType::kVideoIFramesOnly) return; segments_to_be_removed_.push_back( media::GetSegmentName(media_info_.segment_template(), start_time, media_sequence_number_, media_info_.bandwidth())); while (segments_to_be_removed_.size() > hls_params_.preserved_segments_outside_live_window) { VLOG(2) << "Deleting " << segments_to_be_removed_.front(); if (!File::Delete(segments_to_be_removed_.front().c_str())) { LOG(WARNING) << "Failed to delete " << segments_to_be_removed_.front() << "; Will retry later."; break; } segments_to_be_removed_.pop_front(); } } } // namespace hls } // namespace shaka