// Copyright 2017 Google Inc. 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/mpd/base/representation.h" #include #include "packager/base/logging.h" #include "packager/mpd/base/mpd_options.h" #include "packager/mpd/base/mpd_utils.h" #include "packager/mpd/base/xml/xml_node.h" namespace shaka { namespace { std::string GetMimeType(const std::string& prefix, MediaInfo::ContainerType container_type) { switch (container_type) { case MediaInfo::CONTAINER_MP4: return prefix + "/mp4"; case MediaInfo::CONTAINER_MPEG2_TS: // NOTE: DASH MPD spec uses lowercase but RFC3555 says uppercase. return prefix + "/MP2T"; case MediaInfo::CONTAINER_WEBM: return prefix + "/webm"; default: break; } // Unsupported container types should be rejected/handled by the caller. LOG(ERROR) << "Unrecognized container type: " << container_type; return std::string(); } // Check whether the video info has width and height. // DASH IOP also requires several other fields for video representations, namely // width, height, framerate, and sar. bool HasRequiredVideoFields(const MediaInfo_VideoInfo& video_info) { if (!video_info.has_height() || !video_info.has_width()) { LOG(ERROR) << "Width and height are required fields for generating a valid MPD."; return false; } // These fields are not required for a valid MPD, but required for DASH IOP // compliant MPD. MpdBuilder can keep generating MPDs without these fields. LOG_IF(WARNING, !video_info.has_time_scale()) << "Video info does not contain timescale required for " "calculating framerate. @frameRate is required for DASH IOP."; LOG_IF(WARNING, !video_info.has_pixel_width()) << "Video info does not contain pixel_width to calculate the sample " "aspect ratio required for DASH IOP."; LOG_IF(WARNING, !video_info.has_pixel_height()) << "Video info does not contain pixel_height to calculate the sample " "aspect ratio required for DASH IOP."; return true; } uint32_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(); } LOG(WARNING) << "No timescale specified, using 1 as timescale."; return 1; } uint64_t LastSegmentStartTime(const SegmentInfo& segment_info) { return segment_info.start_time + segment_info.duration * segment_info.repeat; } // This is equal to |segment_info| end time uint64_t LastSegmentEndTime(const SegmentInfo& segment_info) { return segment_info.start_time + segment_info.duration * (segment_info.repeat + 1); } uint64_t LatestSegmentStartTime(const std::list& segments) { DCHECK(!segments.empty()); const SegmentInfo& latest_segment = segments.back(); return LastSegmentStartTime(latest_segment); } // Given |timeshift_limit|, finds out the number of segments that are no longer // valid and should be removed from |segment_info|. int SearchTimedOutRepeatIndex(uint64_t timeshift_limit, const SegmentInfo& segment_info) { DCHECK_LE(timeshift_limit, LastSegmentEndTime(segment_info)); if (timeshift_limit < segment_info.start_time) return 0; return (timeshift_limit - segment_info.start_time) / segment_info.duration; } } // namespace Representation::Representation( const MediaInfo& media_info, const MpdOptions& mpd_options, uint32_t id, std::unique_ptr state_change_listener) : media_info_(media_info), id_(id), bandwidth_estimator_(BandwidthEstimator::kUseAllBlocks), mpd_options_(mpd_options), start_number_(1), state_change_listener_(std::move(state_change_listener)), output_suppression_flags_(0) {} Representation::Representation( const Representation& representation, std::unique_ptr state_change_listener) : Representation(representation.media_info_, representation.mpd_options_, representation.id_, std::move(state_change_listener)) { mime_type_ = representation.mime_type_; codecs_ = representation.codecs_; start_number_ = representation.start_number_; for (const SegmentInfo& segment_info : representation.segment_infos_) start_number_ += segment_info.repeat + 1; } Representation::~Representation() {} bool Representation::Init() { if (!AtLeastOneTrue(media_info_.has_video_info(), media_info_.has_audio_info(), media_info_.has_text_info())) { // This is an error. Segment information can be in AdaptationSet, Period, or // MPD but the interface does not provide a way to set them. // See 5.3.9.1 ISO 23009-1:2012 for segment info. LOG(ERROR) << "Representation needs one of video, audio, or text."; return false; } if (MoreThanOneTrue(media_info_.has_video_info(), media_info_.has_audio_info(), media_info_.has_text_info())) { LOG(ERROR) << "Only one of VideoInfo, AudioInfo, or TextInfo can be set."; return false; } if (media_info_.container_type() == MediaInfo::CONTAINER_UNKNOWN) { LOG(ERROR) << "'container_type' in MediaInfo cannot be CONTAINER_UNKNOWN."; return false; } if (media_info_.has_video_info()) { mime_type_ = GetVideoMimeType(); if (!HasRequiredVideoFields(media_info_.video_info())) { LOG(ERROR) << "Missing required fields to create a video Representation."; return false; } } else if (media_info_.has_audio_info()) { mime_type_ = GetAudioMimeType(); } else if (media_info_.has_text_info()) { mime_type_ = GetTextMimeType(); } if (mime_type_.empty()) return false; codecs_ = GetCodecs(media_info_); return true; } void Representation::AddContentProtectionElement( const ContentProtectionElement& content_protection_element) { content_protection_elements_.push_back(content_protection_element); RemoveDuplicateAttributes(&content_protection_elements_.back()); } void Representation::UpdateContentProtectionPssh(const std::string& drm_uuid, const std::string& pssh) { UpdateContentProtectionPsshHelper(drm_uuid, pssh, &content_protection_elements_); } void Representation::AddNewSegment(uint64_t start_time, uint64_t duration, uint64_t size) { if (start_time == 0 && duration == 0) { LOG(WARNING) << "Got segment with start_time and duration == 0. Ignoring."; return; } if (state_change_listener_) state_change_listener_->OnNewSegmentForRepresentation(start_time, duration); if (IsContiguous(start_time, duration, size)) { ++segment_infos_.back().repeat; } else { SegmentInfo s = {start_time, duration, /* Not repeat. */ 0}; segment_infos_.push_back(s); } bandwidth_estimator_.AddBlock( size, static_cast(duration) / media_info_.reference_time_scale()); SlideWindow(); DCHECK_GE(segment_infos_.size(), 1u); } void Representation::SetSampleDuration(uint32_t sample_duration) { if (media_info_.has_video_info()) { media_info_.mutable_video_info()->set_frame_duration(sample_duration); if (state_change_listener_) { state_change_listener_->OnSetFrameRateForRepresentation( sample_duration, media_info_.video_info().time_scale()); } } } const MediaInfo& Representation::GetMediaInfo() const { return media_info_; } // Uses info in |media_info_| and |content_protection_elements_| to create a // "Representation" node. // MPD schema has strict ordering. The following must be done in order. // AddVideoInfo() (possibly adds FramePacking elements), AddAudioInfo() (Adds // AudioChannelConfig elements), AddContentProtectionElements*(), and // AddVODOnlyInfo() (Adds segment info). xml::scoped_xml_ptr Representation::GetXml() { if (!HasRequiredMediaInfoFields()) { LOG(ERROR) << "MediaInfo missing required fields."; return xml::scoped_xml_ptr(); } const uint64_t bandwidth = media_info_.has_bandwidth() ? media_info_.bandwidth() : bandwidth_estimator_.Estimate(); DCHECK(!(HasVODOnlyFields(media_info_) && HasLiveOnlyFields(media_info_))); xml::RepresentationXmlNode representation; // Mandatory fields for Representation. representation.SetId(id_); representation.SetIntegerAttribute("bandwidth", bandwidth); if (!codecs_.empty()) representation.SetStringAttribute("codecs", codecs_); representation.SetStringAttribute("mimeType", mime_type_); const bool has_video_info = media_info_.has_video_info(); const bool has_audio_info = media_info_.has_audio_info(); if (has_video_info && !representation.AddVideoInfo( media_info_.video_info(), !(output_suppression_flags_ & kSuppressWidth), !(output_suppression_flags_ & kSuppressHeight), !(output_suppression_flags_ & kSuppressFrameRate))) { LOG(ERROR) << "Failed to add video info to Representation XML."; return xml::scoped_xml_ptr(); } if (has_audio_info && !representation.AddAudioInfo(media_info_.audio_info())) { LOG(ERROR) << "Failed to add audio info to Representation XML."; return xml::scoped_xml_ptr(); } if (!representation.AddContentProtectionElements( content_protection_elements_)) { return xml::scoped_xml_ptr(); } if (HasVODOnlyFields(media_info_) && !representation.AddVODOnlyInfo(media_info_)) { LOG(ERROR) << "Failed to add VOD segment info."; return xml::scoped_xml_ptr(); } if (HasLiveOnlyFields(media_info_) && !representation.AddLiveOnlyInfo(media_info_, segment_infos_, start_number_)) { LOG(ERROR) << "Failed to add Live info."; return xml::scoped_xml_ptr(); } // TODO(rkuroiwa): It is likely that all representations have the exact same // SegmentTemplate. Optimize and propagate the tag up to AdaptationSet level. output_suppression_flags_ = 0; return representation.PassScopedPtr(); } void Representation::SuppressOnce(SuppressFlag flag) { output_suppression_flags_ |= flag; } void Representation::SetPresentationTimeOffset( double presentation_time_offset) { uint64_t pto = presentation_time_offset * media_info_.reference_time_scale(); if (pto <= 0) return; media_info_.set_presentation_time_offset(pto); } bool Representation::GetStartAndEndTimestamps( double* start_timestamp_seconds, double* end_timestamp_seconds) const { if (segment_infos_.empty()) return false; if (start_timestamp_seconds) { *start_timestamp_seconds = static_cast(segment_infos_.begin()->start_time) / GetTimeScale(media_info_); } if (end_timestamp_seconds) { *end_timestamp_seconds = static_cast(segment_infos_.rbegin()->start_time + segment_infos_.rbegin()->duration * (segment_infos_.rbegin()->repeat + 1)) / GetTimeScale(media_info_); } return true; } bool Representation::HasRequiredMediaInfoFields() const { if (HasVODOnlyFields(media_info_) && HasLiveOnlyFields(media_info_)) { LOG(ERROR) << "MediaInfo cannot have both VOD and Live fields."; return false; } if (!media_info_.has_container_type()) { LOG(ERROR) << "MediaInfo missing required field: container_type."; return false; } if (HasVODOnlyFields(media_info_) && !media_info_.has_bandwidth()) { LOG(ERROR) << "Missing 'bandwidth' field. MediaInfo requires bandwidth for " "static profile for generating a valid MPD."; return false; } VLOG_IF(3, HasLiveOnlyFields(media_info_) && !media_info_.has_bandwidth()) << "MediaInfo missing field 'bandwidth'. Using estimated from " "segment size."; return true; } bool Representation::IsContiguous(uint64_t start_time, uint64_t duration, uint64_t size) const { if (segment_infos_.empty()) return false; // Contiguous segment. const SegmentInfo& previous = segment_infos_.back(); const uint64_t previous_segment_end_time = previous.start_time + previous.duration * (previous.repeat + 1); if (previous_segment_end_time == start_time && segment_infos_.back().duration == duration) { return true; } // No out of order segments. const uint64_t previous_segment_start_time = previous.start_time + previous.duration * previous.repeat; if (previous_segment_start_time >= start_time) { LOG(ERROR) << "Segments should not be out of order segment. Adding segment " "with start_time == " << start_time << " but the previous segment starts at " << previous_segment_start_time << "."; return false; } // A gap since previous. const uint64_t kRoundingErrorGrace = 5; if (previous_segment_end_time + kRoundingErrorGrace < start_time) { LOG(WARNING) << "Found a gap of size " << (start_time - previous_segment_end_time) << " > kRoundingErrorGrace (" << kRoundingErrorGrace << "). The new segment starts at " << start_time << " but the previous segment ends at " << previous_segment_end_time << "."; return false; } // No overlapping segments. if (start_time < previous_segment_end_time - kRoundingErrorGrace) { LOG(WARNING) << "Segments should not be overlapping. The new segment starts at " << start_time << " but the previous segment ends at " << previous_segment_end_time << "."; return false; } // Within rounding error grace but technically not contiguous in terms of MPD. return false; } void Representation::SlideWindow() { DCHECK(!segment_infos_.empty()); if (mpd_options_.mpd_params.time_shift_buffer_depth <= 0.0 || mpd_options_.mpd_type == MpdType::kStatic) return; const uint32_t time_scale = GetTimeScale(media_info_); DCHECK_GT(time_scale, 0u); uint64_t time_shift_buffer_depth = static_cast( mpd_options_.mpd_params.time_shift_buffer_depth * time_scale); // The start time of the latest segment is considered the current_play_time, // and this should guarantee that the latest segment will stay in the list. const uint64_t current_play_time = LatestSegmentStartTime(segment_infos_); if (current_play_time <= time_shift_buffer_depth) return; const uint64_t timeshift_limit = current_play_time - time_shift_buffer_depth; // First remove all the SegmentInfos that are completely out of range, by // looking at the very last segment's end time. std::list::iterator first = segment_infos_.begin(); std::list::iterator last = first; size_t num_segments_removed = 0; for (; last != segment_infos_.end(); ++last) { const uint64_t last_segment_end_time = LastSegmentEndTime(*last); if (timeshift_limit < last_segment_end_time) break; num_segments_removed += last->repeat + 1; } segment_infos_.erase(first, last); start_number_ += num_segments_removed; // Now some segment in the first SegmentInfo should be left in the list. SegmentInfo* first_segment_info = &segment_infos_.front(); DCHECK_LE(timeshift_limit, LastSegmentEndTime(*first_segment_info)); // Identify which segments should still be in the SegmentInfo. const int repeat_index = SearchTimedOutRepeatIndex(timeshift_limit, *first_segment_info); CHECK_GE(repeat_index, 0); if (repeat_index == 0) return; first_segment_info->start_time = first_segment_info->start_time + first_segment_info->duration * repeat_index; first_segment_info->repeat = first_segment_info->repeat - repeat_index; start_number_ += repeat_index; } std::string Representation::GetVideoMimeType() const { return GetMimeType("video", media_info_.container_type()); } std::string Representation::GetAudioMimeType() const { return GetMimeType("audio", media_info_.container_type()); } std::string Representation::GetTextMimeType() const { CHECK(media_info_.has_text_info()); if (media_info_.text_info().codec() == "ttml") { switch (media_info_.container_type()) { case MediaInfo::CONTAINER_TEXT: return "application/ttml+xml"; case MediaInfo::CONTAINER_MP4: return "application/mp4"; default: LOG(ERROR) << "Failed to determine MIME type for TTML container: " << media_info_.container_type(); return ""; } } if (media_info_.text_info().codec() == "wvtt") { if (media_info_.container_type() == MediaInfo::CONTAINER_TEXT) { return "text/vtt"; } else if (media_info_.container_type() == MediaInfo::CONTAINER_MP4) { return "application/mp4"; } LOG(ERROR) << "Failed to determine MIME type for VTT container: " << media_info_.container_type(); return ""; } LOG(ERROR) << "Cannot determine MIME type for format: " << media_info_.text_info().codec() << " container: " << media_info_.container_type(); return ""; } } // namespace shaka