// Copyright 2014 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 #include #include #include namespace shaka { using xml::XmlNode; namespace { bool AddMpdNameSpaceInfo(XmlNode* mpd) { DCHECK(mpd); const std::set namespaces = mpd->ExtractReferencedNamespaces(); static const char kXmlNamespace[] = "urn:mpeg:dash:schema:mpd:2011"; static const char kXmlNamespaceXsi[] = "http://www.w3.org/2001/XMLSchema-instance"; static const char kDashSchemaMpd2011[] = "urn:mpeg:dash:schema:mpd:2011 DASH-MPD.xsd"; RCHECK(mpd->SetStringAttribute("xmlns", kXmlNamespace)); RCHECK(mpd->SetStringAttribute("xmlns:xsi", kXmlNamespaceXsi)); RCHECK(mpd->SetStringAttribute("xsi:schemaLocation", kDashSchemaMpd2011)); static const char kCencNamespace[] = "urn:mpeg:cenc:2013"; static const char kMarlinNamespace[] = "urn:marlin:mas:1-0:services:schemas:mpd"; static const char kXmlNamespaceXlink[] = "http://www.w3.org/1999/xlink"; static const char kMsprNamespace[] = "urn:microsoft:playready"; const std::map uris = { {"cenc", kCencNamespace}, {"mas", kMarlinNamespace}, {"xlink", kXmlNamespaceXlink}, {"mspr", kMsprNamespace}, }; for (const std::string& namespace_name : namespaces) { auto iter = uris.find(namespace_name); CHECK(iter != uris.end()) << " unexpected namespace " << namespace_name; RCHECK(mpd->SetStringAttribute( absl::StrFormat("xmlns:%s", namespace_name.c_str()).c_str(), iter->second)); } return true; } bool Positive(double d) { return d > 0.0; } // Return current time in XML DateTime format. The value is in UTC, so the // string ends with a 'Z'. std::string XmlDateTimeNowWithOffset(int32_t offset_seconds, Clock* clock) { auto time_t = std::chrono::system_clock::to_time_t( clock->now() + std::chrono::seconds(offset_seconds)); std::tm* tm = std::gmtime(&time_t); std::stringstream ss; ss << std::put_time(tm, "%Y-%m-%dT%H:%M:%SZ"); return ss.str(); } bool SetIfPositive(const char* attr_name, double value, XmlNode* mpd) { return !Positive(value) || mpd->SetStringAttribute(attr_name, SecondsToXmlDuration(value)); } // Spooky static initialization/cleanup of libxml. class LibXmlInitializer { public: LibXmlInitializer() : initialized_(false) { absl::MutexLock lock(&lock_); if (!initialized_) { xmlInitParser(); initialized_ = true; } } ~LibXmlInitializer() { absl::MutexLock lock(&lock_); if (initialized_) { xmlCleanupParser(); initialized_ = false; } } private: absl::Mutex lock_; bool initialized_; DISALLOW_COPY_AND_ASSIGN(LibXmlInitializer); }; } // namespace MpdBuilder::MpdBuilder(const MpdOptions& mpd_options) : mpd_options_(mpd_options), clock_(new Clock{}) {} MpdBuilder::~MpdBuilder() {} void MpdBuilder::AddBaseUrl(const std::string& base_url) { base_urls_.push_back(base_url); } Period* MpdBuilder::GetOrCreatePeriod(double start_time_in_seconds) { for (auto& period : periods_) { const double kPeriodTimeDriftThresholdInSeconds = 1.0; const bool match = std::fabs(period->start_time_in_seconds() - start_time_in_seconds) < kPeriodTimeDriftThresholdInSeconds; if (match) return period.get(); } periods_.emplace_back(new Period(period_counter_++, start_time_in_seconds, mpd_options_, &representation_counter_)); return periods_.back().get(); } bool MpdBuilder::ToString(std::string* output) { DCHECK(output); static LibXmlInitializer lib_xml_initializer; auto mpd = GenerateMpd(); if (!mpd) return false; std::string version = GetPackagerVersion(); if (!version.empty()) { version = absl::StrFormat("Generated with %s version %s", GetPackagerProjectUrl().c_str(), version.c_str()); } *output = mpd->ToString(version); return true; } std::optional MpdBuilder::GenerateMpd() { XmlNode mpd("MPD"); // Add baseurls to MPD. for (const std::string& base_url : base_urls_) { XmlNode xml_base_url("BaseURL"); xml_base_url.SetContent(base_url); if (!mpd.AddChild(std::move(xml_base_url))) return std::nullopt; } bool output_period_duration = false; if (mpd_options_.mpd_type == MpdType::kStatic) { UpdatePeriodDurationAndPresentationTimestamp(); // Only output period duration if there are more than one period. In the // case of only one period, Period@duration is redundant as it is identical // to Mpd Duration so the convention is not to output Period@duration. output_period_duration = periods_.size() > 1; } for (const auto& period : periods_) { auto period_node = period->GetXml(output_period_duration); if (!period_node || !mpd.AddChild(std::move(*period_node))) return std::nullopt; } if (!AddMpdNameSpaceInfo(&mpd)) return std::nullopt; static const char kOnDemandProfile[] = "urn:mpeg:dash:profile:isoff-on-demand:2011"; static const char kLiveProfile[] = "urn:mpeg:dash:profile:isoff-live:2011"; switch (mpd_options_.dash_profile) { case DashProfile::kOnDemand: if (!mpd.SetStringAttribute("profiles", kOnDemandProfile)) return std::nullopt; break; case DashProfile::kLive: if (!mpd.SetStringAttribute("profiles", kLiveProfile)) return std::nullopt; break; default: NOTIMPLEMENTED() << "Unknown DASH profile: " << static_cast(mpd_options_.dash_profile); break; } if (!AddCommonMpdInfo(&mpd)) return std::nullopt; switch (mpd_options_.mpd_type) { case MpdType::kStatic: if (!AddStaticMpdInfo(&mpd)) return std::nullopt; break; case MpdType::kDynamic: if (!AddDynamicMpdInfo(&mpd)) return std::nullopt; // Must be after Period element. if (!AddUtcTiming(&mpd)) return std::nullopt; break; default: NOTIMPLEMENTED() << "Unknown MPD type: " << static_cast(mpd_options_.mpd_type); break; } return mpd; } bool MpdBuilder::AddCommonMpdInfo(XmlNode* mpd_node) { if (Positive(mpd_options_.mpd_params.min_buffer_time)) { RCHECK(mpd_node->SetStringAttribute( "minBufferTime", SecondsToXmlDuration(mpd_options_.mpd_params.min_buffer_time))); } else { LOG(ERROR) << "minBufferTime value not specified."; return false; } return true; } bool MpdBuilder::AddStaticMpdInfo(XmlNode* mpd_node) { DCHECK(mpd_node); DCHECK_EQ(static_cast(MpdType::kStatic), static_cast(mpd_options_.mpd_type)); static const char kStaticMpdType[] = "static"; return mpd_node->SetStringAttribute("type", kStaticMpdType) && mpd_node->SetStringAttribute( "mediaPresentationDuration", SecondsToXmlDuration(GetStaticMpdDuration())); } bool MpdBuilder::AddDynamicMpdInfo(XmlNode* mpd_node) { DCHECK(mpd_node); DCHECK_EQ(static_cast(MpdType::kDynamic), static_cast(mpd_options_.mpd_type)); static const char kDynamicMpdType[] = "dynamic"; RCHECK(mpd_node->SetStringAttribute("type", kDynamicMpdType)); // No offset from NOW. RCHECK(mpd_node->SetStringAttribute( "publishTime", XmlDateTimeNowWithOffset(0, clock_.get()))); // 'availabilityStartTime' is required for dynamic profile. Calculate if // not already calculated. if (availability_start_time_.empty()) { double earliest_presentation_time; if (GetEarliestTimestamp(&earliest_presentation_time)) { availability_start_time_ = XmlDateTimeNowWithOffset( -std::ceil(earliest_presentation_time), clock_.get()); } else { LOG(ERROR) << "Could not determine the earliest segment presentation " "time for availabilityStartTime calculation."; // TODO(tinskip). Propagate an error. } } if (!availability_start_time_.empty()) { RCHECK(mpd_node->SetStringAttribute("availabilityStartTime", availability_start_time_)); } if (Positive(mpd_options_.mpd_params.minimum_update_period)) { RCHECK(mpd_node->SetStringAttribute( "minimumUpdatePeriod", SecondsToXmlDuration(mpd_options_.mpd_params.minimum_update_period))); } else { LOG(WARNING) << "The profile is dynamic but no minimumUpdatePeriod " "specified."; } return SetIfPositive("timeShiftBufferDepth", mpd_options_.mpd_params.time_shift_buffer_depth, mpd_node) && SetIfPositive("suggestedPresentationDelay", mpd_options_.mpd_params.suggested_presentation_delay, mpd_node); } bool MpdBuilder::AddUtcTiming(XmlNode* mpd_node) { DCHECK(mpd_node); DCHECK_EQ(static_cast(MpdType::kDynamic), static_cast(mpd_options_.mpd_type)); for (const MpdParams::UtcTiming& utc_timing : mpd_options_.mpd_params.utc_timings) { XmlNode utc_timing_node("UTCTiming"); RCHECK(utc_timing_node.SetStringAttribute("schemeIdUri", utc_timing.scheme_id_uri)); RCHECK(utc_timing_node.SetStringAttribute("value", utc_timing.value)); RCHECK(mpd_node->AddChild(std::move(utc_timing_node))); } return true; } float MpdBuilder::GetStaticMpdDuration() { DCHECK_EQ(static_cast(MpdType::kStatic), static_cast(mpd_options_.mpd_type)); float total_duration = 0.0f; for (const auto& period : periods_) { total_duration += period->duration_seconds(); } return total_duration; } bool MpdBuilder::GetEarliestTimestamp(double* timestamp_seconds) { DCHECK(timestamp_seconds); DCHECK(!periods_.empty()); if (periods_.empty()) return false; double timestamp = 0; double earliest_timestamp = -1; // TODO(kqyang): This is used to set availabilityStartTime. We may consider // set presentationTimeOffset in the Representations then we can set // availabilityStartTime to the time when MPD is first generated. // The first period should have the earliest timestamp. for (const auto* adaptation_set : periods_.front()->GetAdaptationSets()) { for (const auto* representation : adaptation_set->GetRepresentations()) { if (representation->GetStartAndEndTimestamps(×tamp, nullptr) && (earliest_timestamp < 0 || timestamp < earliest_timestamp)) { earliest_timestamp = timestamp; } } } if (earliest_timestamp < 0) return false; *timestamp_seconds = earliest_timestamp; return true; } void MpdBuilder::UpdatePeriodDurationAndPresentationTimestamp() { DCHECK_EQ(static_cast(MpdType::kStatic), static_cast(mpd_options_.mpd_type)); for (const auto& period : periods_) { std::list video_representations; std::list non_video_representations; for (const auto& adaptation_set : period->GetAdaptationSets()) { const auto& representations = adaptation_set->GetRepresentations(); if (adaptation_set->IsVideo()) { video_representations.insert(video_representations.end(), representations.begin(), representations.end()); } else { non_video_representations.insert(non_video_representations.end(), representations.begin(), representations.end()); } } std::optional earliest_start_time; std::optional latest_end_time; // The timestamps are based on Video Representations if exist. const auto& representations = video_representations.size() > 0 ? video_representations : non_video_representations; for (const auto& representation : representations) { double start_time = 0; double end_time = 0; if (representation->GetStartAndEndTimestamps(&start_time, &end_time)) { earliest_start_time = std::min(earliest_start_time.value_or(start_time), start_time); latest_end_time = std::max(latest_end_time.value_or(end_time), end_time); } } if (!earliest_start_time) return; period->set_duration_seconds(*latest_end_time - *earliest_start_time); double presentation_time_offset = *earliest_start_time; for (const auto& adaptation_set : period->GetAdaptationSets()) { for (const auto& representation : adaptation_set->GetRepresentations()) { representation->SetPresentationTimeOffset(presentation_time_offset); } } } } void MpdBuilder::MakePathsRelativeToMpd(const std::string& mpd_path, MediaInfo* media_info) { DCHECK(media_info); const std::string kFileProtocol("file://"); std::filesystem::path mpd_file_path = (mpd_path.find(kFileProtocol) == 0) ? mpd_path.substr(kFileProtocol.size()) : mpd_path; if (!mpd_file_path.empty()) { const std::filesystem::path mpd_dir(mpd_file_path.parent_path()); if (!mpd_dir.empty()) { if (media_info->has_media_file_name()) { media_info->set_media_file_url( MakePathRelative(media_info->media_file_name(), mpd_dir)); } if (media_info->has_init_segment_name()) { media_info->set_init_segment_url( MakePathRelative(media_info->init_segment_name(), mpd_dir)); } if (media_info->has_segment_template()) { media_info->set_segment_template_url( MakePathRelative(media_info->segment_template(), mpd_dir)); } } } } } // namespace shaka