// 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/adaptation_set.h" #include #include "packager/base/logging.h" #include "packager/base/strings/string_number_conversions.h" #include "packager/mpd/base/media_info.pb.h" #include "packager/mpd/base/mpd_options.h" #include "packager/mpd/base/mpd_utils.h" #include "packager/mpd/base/representation.h" #include "packager/mpd/base/xml/xml_node.h" namespace shaka { namespace { AdaptationSet::Role MediaInfoTextTypeToRole( MediaInfo::TextInfo::TextType type) { switch (type) { case MediaInfo::TextInfo::UNKNOWN: LOG(WARNING) << "Unknown text type, assuming subtitle."; return AdaptationSet::kRoleSubtitle; case MediaInfo::TextInfo::CAPTION: return AdaptationSet::kRoleCaption; case MediaInfo::TextInfo::SUBTITLE: return AdaptationSet::kRoleSubtitle; default: NOTREACHED() << "Unknown MediaInfo TextType: " << type << " assuming subtitle."; return AdaptationSet::kRoleSubtitle; } } std::string RoleToText(AdaptationSet::Role role) { // Using switch so that the compiler can detect whether there is a case that's // not being handled. switch (role) { case AdaptationSet::kRoleCaption: return "caption"; case AdaptationSet::kRoleSubtitle: return "subtitle"; case AdaptationSet::kRoleMain: return "main"; case AdaptationSet::kRoleAlternate: return "alternate"; case AdaptationSet::kRoleSupplementary: return "supplementary"; case AdaptationSet::kRoleCommentary: return "commentary"; case AdaptationSet::kRoleDub: return "dub"; default: return "unknown"; } } // Returns the picture aspect ratio string e.g. "16:9", "4:3". // "Reducing the quotient to minimal form" does not work well in practice as // there may be some rounding performed in the input, e.g. the resolution of // 480p is 854:480 for 16:9 aspect ratio, can only be reduced to 427:240. // The algorithm finds out the pair of integers, num and den, where num / den is // the closest ratio to scaled_width / scaled_height, by looping den through // common values. std::string GetPictureAspectRatio(uint32_t width, uint32_t height, uint32_t pixel_width, uint32_t pixel_height) { const uint32_t scaled_width = pixel_width * width; const uint32_t scaled_height = pixel_height * height; const double par = static_cast(scaled_width) / scaled_height; // Typical aspect ratios have par_y less than or equal to 19: // https://en.wikipedia.org/wiki/List_of_common_resolutions const uint32_t kLargestPossibleParY = 19; uint32_t par_num = 0; uint32_t par_den = 0; double min_error = 1.0; for (uint32_t den = 1; den <= kLargestPossibleParY; ++den) { uint32_t num = par * den + 0.5; double error = fabs(par - static_cast(num) / den); if (error < min_error) { min_error = error; par_num = num; par_den = den; if (error == 0) break; } } VLOG(2) << "width*pix_width : height*pixel_height (" << scaled_width << ":" << scaled_height << ") reduced to " << par_num << ":" << par_den << " with error " << min_error << "."; return base::IntToString(par_num) + ":" + base::IntToString(par_den); } // Adds an entry to picture_aspect_ratio if the size of picture_aspect_ratio is // less than 2 and video_info has both pixel width and pixel height. void AddPictureAspectRatio(const MediaInfo::VideoInfo& video_info, std::set* picture_aspect_ratio) { // If there are more than one entries in picture_aspect_ratio, the @par // attribute cannot be set, so skip. if (picture_aspect_ratio->size() > 1) return; if (video_info.width() == 0 || video_info.height() == 0 || video_info.pixel_width() == 0 || video_info.pixel_height() == 0) { // If there is even one Representation without a @sar attribute, @par cannot // be calculated. // Just populate the set with at least 2 bogus strings so that further call // to this function will bail out immediately. picture_aspect_ratio->insert("bogus"); picture_aspect_ratio->insert("entries"); return; } const std::string par = GetPictureAspectRatio( video_info.width(), video_info.height(), video_info.pixel_width(), video_info.pixel_height()); DVLOG(1) << "Setting par as: " << par << " for video with width: " << video_info.width() << " height: " << video_info.height() << " pixel_width: " << video_info.pixel_width() << " pixel_height; " << video_info.pixel_height(); picture_aspect_ratio->insert(par); } class RepresentationStateChangeListenerImpl : public RepresentationStateChangeListener { public: // |adaptation_set| is not owned by this class. RepresentationStateChangeListenerImpl(uint32_t representation_id, AdaptationSet* adaptation_set) : representation_id_(representation_id), adaptation_set_(adaptation_set) { DCHECK(adaptation_set_); } ~RepresentationStateChangeListenerImpl() override {} // RepresentationStateChangeListener implementation. void OnNewSegmentForRepresentation(int64_t start_time, int64_t duration) override { adaptation_set_->OnNewSegmentForRepresentation(representation_id_, start_time, duration); } void OnSetFrameRateForRepresentation(uint32_t frame_duration, uint32_t timescale) override { adaptation_set_->OnSetFrameRateForRepresentation(representation_id_, frame_duration, timescale); } private: const uint32_t representation_id_; AdaptationSet* const adaptation_set_; DISALLOW_COPY_AND_ASSIGN(RepresentationStateChangeListenerImpl); }; } // namespace AdaptationSet::AdaptationSet(const std::string& language, const MpdOptions& mpd_options, uint32_t* counter) : representation_counter_(counter), language_(language), mpd_options_(mpd_options), segments_aligned_(kSegmentAlignmentUnknown), force_set_segment_alignment_(false) { DCHECK(counter); } AdaptationSet::~AdaptationSet() {} Representation* AdaptationSet::AddRepresentation(const MediaInfo& media_info) { const uint32_t representation_id = (*representation_counter_)++; // Note that AdaptationSet outlive Representation, so this object // will die before AdaptationSet. std::unique_ptr listener( new RepresentationStateChangeListenerImpl(representation_id, this)); std::unique_ptr new_representation(new Representation( media_info, mpd_options_, representation_id, std::move(listener))); if (!new_representation->Init()) { LOG(ERROR) << "Failed to initialize Representation."; return NULL; } UpdateFromMediaInfo(media_info); Representation* representation_ptr = new_representation.get(); representation_map_[representation_ptr->id()] = std::move(new_representation); return representation_ptr; } Representation* AdaptationSet::CopyRepresentation( const Representation& representation) { // Note that AdaptationSet outlive Representation, so this object // will die before AdaptationSet. std::unique_ptr listener( new RepresentationStateChangeListenerImpl(representation.id(), this)); std::unique_ptr new_representation( new Representation(representation, std::move(listener))); UpdateFromMediaInfo(new_representation->GetMediaInfo()); Representation* representation_ptr = new_representation.get(); representation_map_[representation_ptr->id()] = std::move(new_representation); return representation_ptr; } void AdaptationSet::AddContentProtectionElement( const ContentProtectionElement& content_protection_element) { content_protection_elements_.push_back(content_protection_element); RemoveDuplicateAttributes(&content_protection_elements_.back()); } void AdaptationSet::UpdateContentProtectionPssh(const std::string& drm_uuid, const std::string& pssh) { UpdateContentProtectionPsshHelper(drm_uuid, pssh, &content_protection_elements_); } void AdaptationSet::AddAccessibility(const std::string& scheme, const std::string& value) { accessibilities_.push_back(Accessibility{scheme, value}); } void AdaptationSet::AddRole(Role role) { roles_.insert(role); } // Creates a copy of xml element, iterate thru all the // (child) elements and add them to the copy. // Set all the attributes first and then add the children elements so that flags // can be passed to Representation to avoid setting redundant attributes. For // example, if AdaptationSet@width is set, then Representation@width is // redundant and should not be set. xml::scoped_xml_ptr AdaptationSet::GetXml() { xml::AdaptationSetXmlNode adaptation_set; bool suppress_representation_width = false; bool suppress_representation_height = false; bool suppress_representation_frame_rate = false; if (id_) adaptation_set.SetId(id_.value()); adaptation_set.SetStringAttribute("contentType", content_type_); if (!language_.empty() && language_ != "und") { adaptation_set.SetStringAttribute("lang", language_); } // Note that std::{set,map} are ordered, so the last element is the max value. if (video_widths_.size() == 1) { suppress_representation_width = true; adaptation_set.SetIntegerAttribute("width", *video_widths_.begin()); } else if (video_widths_.size() > 1) { adaptation_set.SetIntegerAttribute("maxWidth", *video_widths_.rbegin()); } if (video_heights_.size() == 1) { suppress_representation_height = true; adaptation_set.SetIntegerAttribute("height", *video_heights_.begin()); } else if (video_heights_.size() > 1) { adaptation_set.SetIntegerAttribute("maxHeight", *video_heights_.rbegin()); } if (video_frame_rates_.size() == 1) { suppress_representation_frame_rate = true; adaptation_set.SetStringAttribute("frameRate", video_frame_rates_.begin()->second); } else if (video_frame_rates_.size() > 1) { adaptation_set.SetStringAttribute("maxFrameRate", video_frame_rates_.rbegin()->second); } // Note: must be checked before checking segments_aligned_ (below). So that // segments_aligned_ is set before checking below. if (mpd_options_.mpd_type == MpdType::kStatic) { CheckStaticSegmentAlignment(); } if (segments_aligned_ == kSegmentAlignmentTrue) { adaptation_set.SetStringAttribute( mpd_options_.dash_profile == DashProfile::kOnDemand ? "subsegmentAlignment" : "segmentAlignment", "true"); } if (picture_aspect_ratio_.size() == 1) adaptation_set.SetStringAttribute("par", *picture_aspect_ratio_.begin()); if (!adaptation_set.AddContentProtectionElements( content_protection_elements_)) { return xml::scoped_xml_ptr(); } std::string trick_play_reference_ids; for (const AdaptationSet* adaptation_set : trick_play_references_) { if (!trick_play_reference_ids.empty()) trick_play_reference_ids += ','; CHECK(adaptation_set->has_id()); trick_play_reference_ids += std::to_string(adaptation_set->id()); } if (!trick_play_reference_ids.empty()) { adaptation_set.AddEssentialProperty( "http://dashif.org/guidelines/trickmode", trick_play_reference_ids); } std::string switching_ids; for (const AdaptationSet* adaptation_set : switchable_adaptation_sets_) { if (!switching_ids.empty()) switching_ids += ','; CHECK(adaptation_set->has_id()); switching_ids += std::to_string(adaptation_set->id()); } if (!switching_ids.empty()) { adaptation_set.AddSupplementalProperty( "urn:mpeg:dash:adaptation-set-switching:2016", switching_ids); } for (const AdaptationSet::Accessibility& accessibility : accessibilities_) { adaptation_set.AddAccessibilityElement(accessibility.scheme, accessibility.value); } for (AdaptationSet::Role role : roles_) adaptation_set.AddRoleElement("urn:mpeg:dash:role:2011", RoleToText(role)); for (const auto& representation_pair : representation_map_) { const auto& representation = representation_pair.second; if (suppress_representation_width) representation->SuppressOnce(Representation::kSuppressWidth); if (suppress_representation_height) representation->SuppressOnce(Representation::kSuppressHeight); if (suppress_representation_frame_rate) representation->SuppressOnce(Representation::kSuppressFrameRate); if (include_segment_template_in_adaptation_set) representation->SuppressOnce(Representation::kSuppressSegmentTemplate); if (!adaptation_set.GetRawPtr()->children && include_segment_template_in_adaptation_set) { xml::scoped_xml_ptr live_child( representation->GetLiveOnlyInfo()); if (!live_child || !adaptation_set.AddChild(std::move(live_child))) return xml::scoped_xml_ptr(); } xml::scoped_xml_ptr child(representation->GetXml()); if (!child || !adaptation_set.AddChild(std::move(child))) return xml::scoped_xml_ptr(); } return adaptation_set.PassScopedPtr(); } void AdaptationSet::ForceSetSegmentAlignment(bool segment_alignment) { segments_aligned_ = segment_alignment ? kSegmentAlignmentTrue : kSegmentAlignmentFalse; force_set_segment_alignment_ = true; } void AdaptationSet::AddAdaptationSetSwitching( const AdaptationSet* adaptation_set) { switchable_adaptation_sets_.push_back(adaptation_set); } // For dynamic MPD, storing all start_time and duration will out-of-memory // because there's no way of knowing when it will end. Static MPD // subsegmentAlignment check is *not* done here because it is possible that some // Representations might not have been added yet (e.g. a thread is assigned per // muxer so one might run faster than others). To be clear, for dynamic MPD, all // Representations should be added before a segment is added. void AdaptationSet::OnNewSegmentForRepresentation(uint32_t representation_id, uint64_t start_time, uint64_t duration) { if (mpd_options_.mpd_type == MpdType::kDynamic) { CheckDynamicSegmentAlignment(representation_id, start_time, duration); } else { representation_segment_start_times_[representation_id].push_back( start_time); } } void AdaptationSet::OnSetFrameRateForRepresentation(uint32_t representation_id, uint32_t frame_duration, uint32_t timescale) { RecordFrameRate(frame_duration, timescale); } void AdaptationSet::AddTrickPlayReference(const AdaptationSet* adaptation_set) { trick_play_references_.push_back(adaptation_set); } const std::list AdaptationSet::GetRepresentations() const { std::list representations; for (const auto& representation_pair : representation_map_) { representations.push_back(representation_pair.second.get()); } return representations; } bool AdaptationSet::IsVideo() const { return content_type_ == "video"; } void AdaptationSet::UpdateFromMediaInfo(const MediaInfo& media_info) { // For videos, record the width, height, and the frame rate to calculate the // max {width,height,framerate} required for DASH IOP. if (media_info.has_video_info()) { const MediaInfo::VideoInfo& video_info = media_info.video_info(); DCHECK(video_info.has_width()); DCHECK(video_info.has_height()); video_widths_.insert(video_info.width()); video_heights_.insert(video_info.height()); if (video_info.has_time_scale() && video_info.has_frame_duration()) RecordFrameRate(video_info.frame_duration(), video_info.time_scale()); AddPictureAspectRatio(video_info, &picture_aspect_ratio_); } if (media_info.has_rep_id()) { include_segment_template_in_adaptation_set = true; } if (media_info.has_video_info()) { content_type_ = "video"; } else if (media_info.has_audio_info()) { content_type_ = "audio"; } else if (media_info.has_text_info()) { content_type_ = "text"; if (media_info.text_info().has_type() && (media_info.text_info().type() != MediaInfo::TextInfo::UNKNOWN)) { roles_.insert(MediaInfoTextTypeToRole(media_info.text_info().type())); } } } // This implementation assumes that each representations' segments' are // contiguous. // Also assumes that all Representations are added before this is called. // This checks whether the first elements of the lists in // representation_segment_start_times_ are aligned. // For example, suppose this method was just called with args rep_id=2 // start_time=1. // 1 -> [1, 100, 200] // 2 -> [1] // The timestamps of the first elements match, so this flags // segments_aligned_=true. // Also since the first segment start times match, the first element of all the // lists are removed, so the map of lists becomes: // 1 -> [100, 200] // 2 -> [] // Note that there could be false positives. // e.g. just got rep_id=3 start_time=1 duration=300, and the duration of the // whole AdaptationSet is 300. // 1 -> [1, 100, 200] // 2 -> [1, 90, 100] // 3 -> [1] // They are not aligned but this will be marked as aligned. // But since this is unlikely to happen in the packager (and to save // computation), this isn't handled at the moment. void AdaptationSet::CheckDynamicSegmentAlignment(uint32_t representation_id, uint64_t start_time, uint64_t /* duration */) { if (segments_aligned_ == kSegmentAlignmentFalse || force_set_segment_alignment_) { return; } std::list& current_representation_start_times = representation_segment_start_times_[representation_id]; current_representation_start_times.push_back(start_time); // There's no way to detemine whether the segments are aligned if some // representations do not have any segments. if (representation_segment_start_times_.size() != representation_map_.size()) return; DCHECK(!current_representation_start_times.empty()); const uint64_t expected_start_time = current_representation_start_times.front(); for (const auto& key_value : representation_segment_start_times_) { const std::list& representation_start_time = key_value.second; // If there are no entries in a list, then there is no way for the // segment alignment status to change. // Note that it can be empty because entries get deleted below. if (representation_start_time.empty()) return; if (expected_start_time != representation_start_time.front()) { VLOG(1) << "Seeing Misaligned segments with different start_times: " << expected_start_time << " vs " << representation_start_time.front(); // Flag as false and clear the start times data, no need to keep it // around. segments_aligned_ = kSegmentAlignmentFalse; representation_segment_start_times_.clear(); return; } } segments_aligned_ = kSegmentAlignmentTrue; for (auto& key_value : representation_segment_start_times_) { std::list& representation_start_time = key_value.second; representation_start_time.pop_front(); } } // Make sure all segements start times match for all Representations. // This assumes that the segments are contiguous. void AdaptationSet::CheckStaticSegmentAlignment() { if (segments_aligned_ == kSegmentAlignmentFalse || force_set_segment_alignment_) { return; } if (representation_segment_start_times_.empty()) return; if (representation_segment_start_times_.size() == 1) { segments_aligned_ = kSegmentAlignmentTrue; return; } // This is not the most efficient implementation to compare the values // because expected_time_line is compared against all other time lines, but // probably the most readable. const std::list& expected_time_line = representation_segment_start_times_.begin()->second; bool all_segment_time_line_same_length = true; // Note that the first entry is skipped because it is expected_time_line. RepresentationTimeline::const_iterator it = representation_segment_start_times_.begin(); for (++it; it != representation_segment_start_times_.end(); ++it) { const std::list& other_time_line = it->second; if (expected_time_line.size() != other_time_line.size()) { all_segment_time_line_same_length = false; } const std::list* longer_list = &other_time_line; const std::list* shorter_list = &expected_time_line; if (expected_time_line.size() > other_time_line.size()) { shorter_list = &other_time_line; longer_list = &expected_time_line; } if (!std::equal(shorter_list->begin(), shorter_list->end(), longer_list->begin())) { // Some segments are definitely unaligned. segments_aligned_ = kSegmentAlignmentFalse; representation_segment_start_times_.clear(); return; } } // TODO(rkuroiwa): The right way to do this is to also check the durations. // For example: // (a) 3 4 5 // (b) 3 4 5 6 // could be true or false depending on the length of the third segment of (a). // i.e. if length of the third segment is 2, then this is not aligned. if (!all_segment_time_line_same_length) { segments_aligned_ = kSegmentAlignmentUnknown; return; } segments_aligned_ = kSegmentAlignmentTrue; } // Since all AdaptationSet cares about is the maxFrameRate, representation_id // is not passed to this method. void AdaptationSet::RecordFrameRate(uint32_t frame_duration, uint32_t timescale) { if (frame_duration == 0) { LOG(ERROR) << "Frame duration is 0 and cannot be set."; return; } video_frame_rates_[static_cast(timescale) / frame_duration] = base::IntToString(timescale) + "/" + base::IntToString(frame_duration); } } // namespace shaka