// Copyright 2014 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 #include #include #include #include "packager/base/logging.h" #include "packager/base/strings/string_number_conversions.h" #include "packager/base/strings/string_piece.h" #include "packager/base/strings/string_util.h" #include "packager/base/strings/stringprintf.h" #include "packager/mpd/base/mpd_builder.h" #include "packager/mpd/base/mpd_utils.h" #include "packager/mpd/test/mpd_builder_test_helper.h" #include "packager/mpd/test/xml_compare.h" #include "packager/version/version.h" namespace shaka { using base::FilePath; namespace { // Any number for {AdaptationSet,Representation} ID. Required to create // either objects. Not checked in test. const uint32_t kAnyRepresentationId = 1; const uint32_t kAnyAdaptationSetId = 1; const char kSElementTemplate[] = "\n"; const char kSElementTemplateWithoutR[] = "\n"; const int kDefaultStartNumber = 1; class TestClock : public base::Clock { public: explicit TestClock(const base::Time& t) : time_(t) {} ~TestClock() override {} base::Time Now() override { return time_; } private: base::Time time_; }; // Get 'id' attribute from |node|, convert it to std::string and convert it to a // number. void ExpectXmlElementIdEqual(xmlNodePtr node, uint32_t id) { const char kId[] = "id"; xml::scoped_xml_ptr id_attribute_xml_str( xmlGetProp(node, BAD_CAST kId)); ASSERT_TRUE(id_attribute_xml_str); unsigned id_attribute_unsigned = 0; std::string id_attribute_str = reinterpret_cast(id_attribute_xml_str.get()); ASSERT_TRUE(base::StringToUint(id_attribute_str, &id_attribute_unsigned)); ASSERT_EQ(id, id_attribute_unsigned); } // Using template to support both AdaptationSet and Representation. template void CheckIdEqual(uint32_t expected_id, T* node) { ASSERT_EQ(expected_id, node->id()); // Also check if the XML generated by libxml2 has the correct id attribute. xml::scoped_xml_ptr node_xml(node->GetXml()); ASSERT_NO_FATAL_FAILURE(ExpectXmlElementIdEqual(node_xml.get(), expected_id)); } void ExpectAttributeEqString(base::StringPiece attribute, base::StringPiece expected_value, xmlNodePtr node) { xml::scoped_xml_ptr attribute_xml_str( xmlGetProp(node, BAD_CAST attribute.data())); ASSERT_TRUE(attribute_xml_str); EXPECT_STREQ(expected_value.data(), reinterpret_cast(attribute_xml_str.get())); } // |attribute| should not be set in |node|. void ExpectAttributeNotSet(base::StringPiece attribute, xmlNodePtr node) { xml::scoped_xml_ptr attribute_xml_str( xmlGetProp(node, BAD_CAST attribute.data())); ASSERT_FALSE(attribute_xml_str); } class MockRepresentationStateChangeListener : public RepresentationStateChangeListener { public: MockRepresentationStateChangeListener() {} ~MockRepresentationStateChangeListener() {} MOCK_METHOD2(OnNewSegmentForRepresentation, void(uint64_t start_time, uint64_t duration)); MOCK_METHOD2(OnSetFrameRateForRepresentation, void(uint32_t frame_duration, uint32_t timescale)); }; } // namespace template class MpdBuilderTest : public ::testing::Test { public: MpdBuilderTest() : mpd_(MpdOptions()), representation_() { mpd_.mpd_options_.dash_profile = profile; } ~MpdBuilderTest() override {} MpdOptions* mutable_mpd_options() { return &mpd_.mpd_options_; } void CheckMpd(const std::string& expected_output_file) { std::string mpd_doc; ASSERT_TRUE(mpd_.ToString(&mpd_doc)); ASSERT_TRUE(ValidateMpdSchema(mpd_doc)); ASSERT_NO_FATAL_FAILURE( ExpectMpdToEqualExpectedOutputFile(mpd_doc, expected_output_file)); } protected: // Creates a new AdaptationSet and adds a Representation element using // |media_info|. void AddRepresentation(const MediaInfo& media_info) { AdaptationSet* adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(adaptation_set); Representation* representation = adaptation_set->AddRepresentation(media_info); ASSERT_TRUE(representation); representation_ = representation; } // TODO(rkuroiwa): Once std::forward() is allowed by chromium style guide, use // variadic template and std::forward() so that we don't need to copy the // constructor signatures. std::unique_ptr CreateRepresentation( const MediaInfo& media_info, uint32_t representation_id, std::unique_ptr state_change_listener) { return std::unique_ptr( new Representation(media_info, mpd_options_, representation_id, std::move(state_change_listener))); } std::unique_ptr CreateAdaptationSet( uint32_t adaptation_set_id, const std::string& lang, base::AtomicSequenceNumber* representation_counter) { return std::unique_ptr(new AdaptationSet( adaptation_set_id, lang, mpd_options_, representation_counter)); } // Helper function to return an empty listener for tests that don't need // it. std::unique_ptr NoListener() { return std::unique_ptr(); } MpdBuilder mpd_; // We usually need only one representation. Representation* representation_; // Owned by |mpd_|. private: MpdOptions mpd_options_; DISALLOW_COPY_AND_ASSIGN(MpdBuilderTest); }; class OnDemandMpdBuilderTest : public MpdBuilderTest {}; // Use this test name for things that are common to both static an dynamic // mpd builder tests. typedef OnDemandMpdBuilderTest CommonMpdBuilderTest; class LiveMpdBuilderTest : public MpdBuilderTest { public: ~LiveMpdBuilderTest() override {} // Anchors availabilityStartTime so that the test result doesn't depend on the // current time. void SetUp() override { SetPackagerVersionForTesting("--"); mpd_.mpd_options_.mpd_type = MpdType::kDynamic; mpd_.availability_start_time_ = "2011-12-25T12:30:00"; InjectTestClock(); } // Injects a clock that always returns 2016 Jan 11 15:10:24 in UTC. void InjectTestClock() { base::Time::Exploded test_time = { 2016, // year. 1, // month 1, // day_of_week = Monday. 11, // day_of_month 15, // hour. 10, // minute. 24, // second. 0 }; // millisecond. ASSERT_TRUE(test_time.HasValidValues()); mpd_.InjectClockForTesting(std::unique_ptr( new TestClock(base::Time::FromUTCExploded(test_time)))); } std::string GetDefaultMediaInfo() { const char kMediaInfo[] = "video_info {\n" " codec: 'avc1.010101'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 5\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "reference_time_scale: %u\n" "container_type: 1\n" "init_segment_name: 'init.mp4'\n" "segment_template: '$Time$.mp4'\n"; return base::StringPrintf(kMediaInfo, DefaultTimeScale()); } // TODO(rkuroiwa): Make this a global constant in anonymous namespace. uint32_t DefaultTimeScale() const { return 1000; }; }; class SegmentTemplateTest : public LiveMpdBuilderTest { public: SegmentTemplateTest() : bandwidth_estimator_(BandwidthEstimator::kUseAllBlocks) {} ~SegmentTemplateTest() override {} void SetUp() override { LiveMpdBuilderTest::SetUp(); ASSERT_NO_FATAL_FAILURE(AddRepresentationWithDefaultMediaInfo()); } void AddSegments(uint64_t start_time, uint64_t duration, uint64_t size, uint64_t repeat) { DCHECK(representation_); SegmentInfo s = {start_time, duration, repeat}; segment_infos_for_expected_out_.push_back(s); if (repeat == 0) { expected_s_elements_ += base::StringPrintf(kSElementTemplateWithoutR, start_time, duration); } else { expected_s_elements_ += base::StringPrintf(kSElementTemplate, start_time, duration, repeat); } for (uint64_t i = 0; i < repeat + 1; ++i) { representation_->AddNewSegment(start_time, duration, size); start_time += duration; bandwidth_estimator_.AddBlock( size, static_cast(duration) / DefaultTimeScale()); } } protected: void AddRepresentationWithDefaultMediaInfo() { ASSERT_NO_FATAL_FAILURE( AddRepresentation(ConvertToMediaInfo(GetDefaultMediaInfo()))); } std::string TemplateOutputInsertValues(const std::string& s_elements_string, uint64_t bandwidth) { // Note: Since all the tests have 1 Representation, the AdaptationSet // always has segmentAligntment=true. const char kOutputTemplate[] = "\n" "\n" " \n" " \n" " \n" " \n" " \n%s" " \n" " \n" " \n" " \n" " \n" "\n"; return base::StringPrintf(kOutputTemplate, bandwidth, s_elements_string.c_str()); } void CheckMpdAgainstExpectedResult() { std::string mpd_doc; ASSERT_TRUE(mpd_.ToString(&mpd_doc)); ASSERT_TRUE(ValidateMpdSchema(mpd_doc)); const std::string& expected_output = TemplateOutputInsertValues(expected_s_elements_, bandwidth_estimator_.Estimate()); ASSERT_TRUE(XmlEqual(expected_output, mpd_doc)) << "Expected " << expected_output << std::endl << "Actual: " << mpd_doc; } std::list segment_infos_for_expected_out_; std::string expected_s_elements_; BandwidthEstimator bandwidth_estimator_; }; class TimeShiftBufferDepthTest : public SegmentTemplateTest { public: TimeShiftBufferDepthTest() {} ~TimeShiftBufferDepthTest() override {} // This function is tricky. It does not call SegmentTemplateTest::Setup() so // that it does not automatically add a representation, that has $Time$ // template. void SetUp() override { LiveMpdBuilderTest::SetUp(); // The only diff with current GetDefaultMediaInfo() is that this uses // $Number$ for segment template. const char kMediaInfo[] = "video_info {\n" " codec: 'avc1.010101'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 2\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "reference_time_scale: %u\n" "container_type: 1\n" "init_segment_name: 'init.mp4'\n" "segment_template: '$Number$.mp4'\n"; const std::string& number_template_media_info = base::StringPrintf(kMediaInfo, DefaultTimeScale()); ASSERT_NO_FATAL_FAILURE( AddRepresentation(ConvertToMediaInfo(number_template_media_info))); } void CheckTimeShiftBufferDepthResult(const std::string& expected_s_element, int expected_time_shift_buffer_depth, int expected_start_number) { // Note: Since all the tests have 1 Representation, the AdaptationSet // always has segmentAligntment=true. const char kOutputTemplate[] = "\n" "\n" " \n" " \n" " \n" " \n" " \n" " %s\n" " \n" " \n" " \n" " \n" " \n" "\n"; std::string expected_out = base::StringPrintf(kOutputTemplate, expected_time_shift_buffer_depth, bandwidth_estimator_.Estimate(), expected_start_number, expected_s_element.c_str()); std::string mpd_doc; ASSERT_TRUE(mpd_.ToString(&mpd_doc)); ASSERT_TRUE(ValidateMpdSchema(mpd_doc)); ASSERT_TRUE(XmlEqual(expected_out, mpd_doc)) << "Expected " << expected_out << std::endl << "Actual: " << mpd_doc; } }; TEST_F(CommonMpdBuilderTest, AddAdaptationSetSwitching) { MpdBuilder mpd_builder(MpdOptions{}); AdaptationSet* adaptation_set = mpd_builder.AddAdaptationSet(""); adaptation_set->AddAdaptationSetSwitching(1); adaptation_set->AddAdaptationSetSwitching(2); adaptation_set->AddAdaptationSetSwitching(8); xml::scoped_xml_ptr adaptation_set_xml(adaptation_set->GetXml()); // The empty contentType is sort of a side effect of being able to generate an // MPD without adding any Representations. const char kExpectedOutput[] = "\n" "\n" " \n" " \n" " \n" " \n" " \n" ""; std::string mpd_output; EXPECT_TRUE(mpd_builder.ToString(&mpd_output)); ASSERT_TRUE(ValidateMpdSchema(mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput, mpd_output)) << "Expected " << kExpectedOutput << std::endl << "Actual: " << mpd_output; } // Verify that Representation::Init() works with all "required" fields of // MedieInfo proto. TEST_F(CommonMpdBuilderTest, ValidMediaInfo) { const char kTestMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; auto representation = CreateRepresentation( ConvertToMediaInfo(kTestMediaInfo), kAnyRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); } // Verify that if VideoInfo, AudioInfo, or TextInfo is not set, Init() fails. TEST_F(CommonMpdBuilderTest, VideoAudioTextInfoNotSet) { const char kTestMediaInfo[] = "container_type: 1"; auto representation = CreateRepresentation( ConvertToMediaInfo(kTestMediaInfo), kAnyRepresentationId, NoListener()); EXPECT_FALSE(representation->Init()); } // Verify that if more than one of VideoInfo, AudioInfo, or TextInfo is set, // then Init() fails. TEST_F(CommonMpdBuilderTest, VideoAndAudioInfoSet) { const char kTestMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "audio_info {\n" " codec: 'mp4a.40.2'\n" " sampling_frequency: 44100\n" " time_scale: 1200\n" " num_channels: 2\n" "}\n" "container_type: CONTAINER_MP4\n"; auto representation = CreateRepresentation( ConvertToMediaInfo(kTestMediaInfo), kAnyRepresentationId, NoListener()); EXPECT_FALSE(representation->Init()); } // Verify that Representation::Init() fails if a required field is missing. TEST_F(CommonMpdBuilderTest, InvalidMediaInfo) { // Missing width. const char kTestMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; auto representation = CreateRepresentation( ConvertToMediaInfo(kTestMediaInfo), kAnyRepresentationId, NoListener()); EXPECT_FALSE(representation->Init()); } // Basic check that the fields in video info are in the XML. TEST_F(CommonMpdBuilderTest, CheckVideoInfoReflectedInXml) { const char kTestMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 1280\n" " height: 720\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; auto representation = CreateRepresentation( ConvertToMediaInfo(kTestMediaInfo), kAnyRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); xml::scoped_xml_ptr node_xml(representation->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("codecs", "avc1", node_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("width", "1280", node_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("height", "720", node_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("sar", "1:1", node_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("frameRate", "10/10", node_xml.get())); } TEST_F(CommonMpdBuilderTest, CheckVideoInfoVp8CodecInMp4) { const char kTestMediaInfoCodecVp8[] = "video_info {\n" " codec: 'vp08.00.00.08.01.01.00.00'\n" " width: 1280\n" " height: 720\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; auto representation = CreateRepresentation(ConvertToMediaInfo(kTestMediaInfoCodecVp8), kAnyRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); xml::scoped_xml_ptr node_xml(representation->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("codecs", "vp08.00.00.08.01.01.00.00", node_xml.get())); } // Check that vp8 codec string will be updated for backward compatibility // support in webm. TEST_F(CommonMpdBuilderTest, CheckVideoInfoVp8CodecInWebm) { const char kTestMediaInfoCodecVp8[] = "video_info {\n" " codec: 'vp08.00.00.08.01.01.00.00'\n" " width: 1280\n" " height: 720\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 3\n"; auto representation = CreateRepresentation(ConvertToMediaInfo(kTestMediaInfoCodecVp8), kAnyRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); xml::scoped_xml_ptr node_xml(representation->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("codecs", "vp8", node_xml.get())); } // Check that vp9 codec string will be updated for backward compatibility // support in webm. TEST_F(CommonMpdBuilderTest, CheckVideoInfoVp9CodecInWebm) { const char kTestMediaInfoCodecVp9[] = "video_info {\n" " codec: 'vp09.00.00.08.01.01.00.00'\n" " width: 1280\n" " height: 720\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 3\n"; auto representation = CreateRepresentation(ConvertToMediaInfo(kTestMediaInfoCodecVp9), kAnyRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); xml::scoped_xml_ptr node_xml(representation->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("codecs", "vp9", node_xml.get())); } // Make sure RepresentationStateChangeListener::OnNewSegmentForRepresentation() // is called. TEST_F(CommonMpdBuilderTest, RepresentationStateChangeListenerOnNewSegmentForRepresentation) { const char kTestMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; const uint64_t kStartTime = 199238u; const uint64_t kDuration = 98u; std::unique_ptr listener( new MockRepresentationStateChangeListener()); EXPECT_CALL(*listener, OnNewSegmentForRepresentation(kStartTime, kDuration)); auto representation = CreateRepresentation(ConvertToMediaInfo(kTestMediaInfo), kAnyRepresentationId, std::move(listener)); EXPECT_TRUE(representation->Init()); representation->AddNewSegment(kStartTime, kDuration, 10 /* any size */); } // Make sure // RepresentationStateChangeListener::OnSetFrameRateForRepresentation() // is called. TEST_F(CommonMpdBuilderTest, RepresentationStateChangeListenerOnSetFrameRateForRepresentation) { const char kTestMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 480\n" " time_scale: 1000\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; const uint64_t kTimeScale = 1000u; const uint64_t kFrameDuration = 33u; std::unique_ptr listener( new MockRepresentationStateChangeListener()); EXPECT_CALL(*listener, OnSetFrameRateForRepresentation(kFrameDuration, kTimeScale)); auto representation = CreateRepresentation(ConvertToMediaInfo(kTestMediaInfo), kAnyRepresentationId, std::move(listener)); EXPECT_TRUE(representation->Init()); representation->SetSampleDuration(kFrameDuration); } // Verify that content type is set correctly if video info is present in // MediaInfo. TEST_F(CommonMpdBuilderTest, CheckAdaptationSetVideoContentType) { base::AtomicSequenceNumber sequence_counter; const char kVideoMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 1280\n" " height: 720\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: CONTAINER_MP4\n"; auto adaptation_set = CreateAdaptationSet(kAnyAdaptationSetId, "", &sequence_counter); adaptation_set->AddRepresentation(ConvertToMediaInfo(kVideoMediaInfo)); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "contentType", "video", adaptation_set->GetXml().get())); } // Verify that content type is set correctly if audio info is present in // MediaInfo. TEST_F(CommonMpdBuilderTest, CheckAdaptationSetAudioContentType) { base::AtomicSequenceNumber sequence_counter; const char kAudioMediaInfo[] = "audio_info {\n" " codec: 'mp4a.40.2'\n" " sampling_frequency: 44100\n" " time_scale: 1200\n" " num_channels: 2\n" "}\n" "container_type: CONTAINER_MP4\n"; auto adaptation_set = CreateAdaptationSet(kAnyAdaptationSetId, "", &sequence_counter); adaptation_set->AddRepresentation(ConvertToMediaInfo(kAudioMediaInfo)); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "contentType", "audio", adaptation_set->GetXml().get())); } // Verify that content type is set correctly if text info is present in // MediaInfo. TEST_F(CommonMpdBuilderTest, CheckAdaptationSetTextContentType) { base::AtomicSequenceNumber sequence_counter; const char kTextMediaInfo[] = "text_info {\n" " format: 'ttml'\n" " language: 'en'\n" "}\n" "container_type: CONTAINER_TEXT\n"; auto adaptation_set = CreateAdaptationSet(kAnyAdaptationSetId, "", &sequence_counter); adaptation_set->AddRepresentation(ConvertToMediaInfo(kTextMediaInfo)); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "contentType", "text", adaptation_set->GetXml().get())); } TEST_F(CommonMpdBuilderTest, TtmlXmlMimeType) { const char kTtmlXmlMediaInfo[] = "text_info {\n" " format: 'ttml'\n" "}\n" "container_type: CONTAINER_TEXT\n"; auto representation = CreateRepresentation(ConvertToMediaInfo(kTtmlXmlMediaInfo), kAnyRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "mimeType", "application/ttml+xml", representation->GetXml().get())); } TEST_F(CommonMpdBuilderTest, TtmlMp4MimeType) { const char kTtmlMp4MediaInfo[] = "text_info {\n" " format: 'ttml'\n" "}\n" "container_type: CONTAINER_MP4\n"; auto representation = CreateRepresentation(ConvertToMediaInfo(kTtmlMp4MediaInfo), kAnyRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "mimeType", "application/mp4", representation->GetXml().get())); } TEST_F(CommonMpdBuilderTest, WebVttMimeType) { const char kWebVttMediaInfo[] = "text_info {\n" " format: 'vtt'\n" "}\n" "container_type: CONTAINER_TEXT\n"; auto representation = CreateRepresentation( ConvertToMediaInfo(kWebVttMediaInfo), kAnyRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "mimeType", "text/vtt", representation->GetXml().get())); } // Verify that language passed to the constructor sets the @lang field is set. TEST_F(CommonMpdBuilderTest, CheckLanguageAttributeSet) { base::AtomicSequenceNumber sequence_counter; // The media info doesn't really matter as long as it is valid. const char kTextMediaInfo[] = "text_info {\n" " format: 'ttml'\n" "}\n" "container_type: CONTAINER_TEXT\n"; auto adaptation_set = CreateAdaptationSet(kAnyAdaptationSetId, "en", &sequence_counter); adaptation_set->AddRepresentation(ConvertToMediaInfo(kTextMediaInfo)); xml::scoped_xml_ptr node_xml(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("lang", "en", node_xml.get())); } // Verify that language tags with subtags can still be converted. TEST_F(CommonMpdBuilderTest, CheckConvertLanguageWithSubtag) { base::AtomicSequenceNumber sequence_counter; // The media info doesn't really matter as long as it is valid. const char kTextMediaInfo[] = "text_info {\n" " format: 'ttml'\n" "}\n" "container_type: CONTAINER_TEXT\n"; // "por-BR" is the long tag for Brazillian Portuguese. The short tag // is "pt-BR", which is what should appear in the manifest. auto adaptation_set = CreateAdaptationSet(kAnyAdaptationSetId, "por-BR", &sequence_counter); adaptation_set->AddRepresentation(ConvertToMediaInfo(kTextMediaInfo)); xml::scoped_xml_ptr node_xml(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("lang", "pt-BR", node_xml.get())); } TEST_F(CommonMpdBuilderTest, CheckAdaptationSetId) { base::AtomicSequenceNumber sequence_counter; const uint32_t kAdaptationSetId = 42; auto adaptation_set = CreateAdaptationSet(kAdaptationSetId, "", &sequence_counter); ASSERT_NO_FATAL_FAILURE(CheckIdEqual(kAdaptationSetId, adaptation_set.get())); } // Verify AdaptationSet::AddRole() works for "main" role. TEST_F(CommonMpdBuilderTest, AdaptationAddRoleElementMain) { MpdBuilder mpd_builder(MpdOptions{}); AdaptationSet* adaptation_set = mpd_builder.AddAdaptationSet(""); adaptation_set->AddRole(AdaptationSet::kRoleMain); xml::scoped_xml_ptr adaptation_set_xml(adaptation_set->GetXml()); // The empty contentType is sort of a side effect of being able to generate an // MPD without adding any Representations. const char kExpectedOutput[] = "\n" "\n" " \n" " \n" " \n" " \n" " \n" ""; std::string mpd_output; EXPECT_TRUE(mpd_builder.ToString(&mpd_output)); ASSERT_TRUE(ValidateMpdSchema(mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput, mpd_output)) << "Expected " << kExpectedOutput << std::endl << "Actual: " << mpd_output; } // Add Role, ContentProtection, and Representation elements. Verify that // ContentProtection -> Role -> Representation are in order. TEST_F(CommonMpdBuilderTest, CheckContentProtectionRoleRepresentationOrder) { MpdBuilder mpd_builder(MpdOptions{}); AdaptationSet* adaptation_set = mpd_builder.AddAdaptationSet(""); adaptation_set->AddRole(AdaptationSet::kRoleMain); ContentProtectionElement any_content_protection; any_content_protection.scheme_id_uri = "any_scheme"; adaptation_set->AddContentProtectionElement(any_content_protection); const char kAudioMediaInfo[] = "audio_info {\n" " codec: 'mp4a.40.2'\n" " sampling_frequency: 44100\n" " time_scale: 1200\n" " num_channels: 2\n" "}\n" "container_type: 1\n"; adaptation_set->AddRepresentation(ConvertToMediaInfo(kAudioMediaInfo)); xml::scoped_xml_ptr adaptation_set_xml(adaptation_set->GetXml()); const char kExpectedOutput[] = "\n" "\n" " \n" " \n" " \n" " \n" " \n" " \n" " \n" " \n" " \n" ""; std::string mpd_output; EXPECT_TRUE(mpd_builder.ToString(&mpd_output)); ASSERT_TRUE(ValidateMpdSchema(mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput, mpd_output)) << "Expected " << kExpectedOutput << std::endl << "Actual: " << mpd_output; } // Verify that if all video Representations in an AdaptationSet have the same // frame rate, AdaptationSet also has a frameRate attribute. TEST_F(CommonMpdBuilderTest, AdapatationSetFrameRate) { const char kVideoMediaInfo1[] = "video_info {\n" " codec: \"avc1\"\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 3\n" "}\n" "container_type: 1\n"; const char kVideoMediaInfo2[] = "video_info {\n" " codec: \"avc1\"\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 3\n" "}\n" "container_type: 1\n"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo1))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo2))); xml::scoped_xml_ptr adaptation_set_xml( video_adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("frameRate", "10/3", adaptation_set_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("maxFrameRate", adaptation_set_xml.get())); } // Verify that if there are videos with different frame rates, the maxFrameRate // is set. TEST_F(CommonMpdBuilderTest, AdapatationSetMaxFrameRate) { // 30fps video. const char kVideoMediaInfo30fps[] = "video_info {\n" " codec: \"avc1\"\n" " width: 720\n" " height: 480\n" " time_scale: 3000\n" " frame_duration: 100\n" "}\n" "container_type: 1\n"; const char kVideoMediaInfo15fps[] = "video_info {\n" " codec: \"avc1\"\n" " width: 720\n" " height: 480\n" " time_scale: 3000\n" " frame_duration: 200\n" "}\n" "container_type: 1\n"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo30fps))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo15fps))); xml::scoped_xml_ptr adaptation_set_xml( video_adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString("maxFrameRate", "3000/100", adaptation_set_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("frameRate", adaptation_set_xml.get())); } // Verify that (max)FrameRate can be set by calling // Representation::SetSampleDuration(). TEST_F(CommonMpdBuilderTest, SetAdaptationFrameRateUsingRepresentationSetSampleDuration) { base::AtomicSequenceNumber sequence_counter; // Note that frame duration is not set in the MediaInfos. It could be there // and should not affect the behavior of the program. // But to make it closer to a real live-profile use case, // the frame duration is not set in the MediaInfo, instead it is set using // SetSampleDuration(). const char k480pMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " pixel_width: 8\n" " pixel_height: 9\n" "}\n" "container_type: 1\n"; const char k360pMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 640\n" " height: 360\n" " time_scale: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; auto adaptation_set = CreateAdaptationSet(kAnyAdaptationSetId, "", &sequence_counter); Representation* representation_480p = adaptation_set->AddRepresentation(ConvertToMediaInfo(k480pMediaInfo)); Representation* representation_360p = adaptation_set->AddRepresentation(ConvertToMediaInfo(k360pMediaInfo)); // First, make sure that maxFrameRate nor frameRate are set because // frame durations were not provided in the MediaInfo. xml::scoped_xml_ptr no_frame_rate(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("maxFrameRate", no_frame_rate.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("frameRate", no_frame_rate.get())); // Then set same frame duration for the representations. (Given that the // time scales match). const uint32_t kSameFrameDuration = 3u; representation_480p->SetSampleDuration(kSameFrameDuration); representation_360p->SetSampleDuration(kSameFrameDuration); xml::scoped_xml_ptr same_frame_rate(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("maxFrameRate", same_frame_rate.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("frameRate", "10/3", same_frame_rate.get())); // Then set 480p to be 5fps (10/2) so that maxFrameRate is set. const uint32_t k5FPSFrameDuration = 2; static_assert(k5FPSFrameDuration < kSameFrameDuration, "frame_duration_must_be_shorter_for_max_frame_rate"); representation_480p->SetSampleDuration(k5FPSFrameDuration); xml::scoped_xml_ptr max_frame_rate(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("maxFrameRate", "10/2", max_frame_rate.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("frameRate", max_frame_rate.get())); } // Verify that if the picture aspect ratio of all the Representations are the // same, @par attribute is present. TEST_F(CommonMpdBuilderTest, AdaptationSetParAllSame) { const char k480pVideoInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 854\n" " height: 480\n" " time_scale: 3000\n" " frame_duration: 100\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; const char k720pVideoInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 1280\n" " height: 720\n" " time_scale: 3000\n" " frame_duration: 100\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; const char k1080pVideoInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 1920\n" " height: 1080\n" " time_scale: 3000\n" " frame_duration: 100\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; // Note that this has non-1 pixel width and height. // Which makes the par 16:9. const char k360pVideoInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 360\n" " time_scale: 3000\n" " frame_duration: 100\n" " pixel_width: 8\n" " pixel_height: 9\n" "}\n" "container_type: 1\n"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(k480pVideoInfo))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(k720pVideoInfo))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(k1080pVideoInfo))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(k360pVideoInfo))); xml::scoped_xml_ptr adaptation_set_xml( video_adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString("par", "16:9", adaptation_set_xml.get())); } // Verify that adding Representations with different par will generate // AdaptationSet without @par. TEST_F(CommonMpdBuilderTest, AdaptationSetParDifferent) { const char k16by9VideoInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 1280\n" " height: 720\n" " time_scale: 3000\n" " frame_duration: 100\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; // Note that 720:360 is 2:1 where as 720p (above) is 16:9. const char k2by1VideoInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 360\n" " time_scale: 3000\n" " frame_duration: 100\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(k16by9VideoInfo))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(k2by1VideoInfo))); xml::scoped_xml_ptr adaptation_set_xml( video_adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("par", adaptation_set_xml.get())); } // Verify that adding Representation without pixel_width and pixel_height will // not set @par. TEST_F(CommonMpdBuilderTest, AdaptationSetParUnknown) { const char kUknownPixelWidthAndHeight[] = "video_info {\n" " codec: 'avc1'\n" " width: 1280\n" " height: 720\n" " time_scale: 3000\n" " frame_duration: 100\n" "}\n" "container_type: 1\n"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kUknownPixelWidthAndHeight))); xml::scoped_xml_ptr adaptation_set_xml( video_adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("par", adaptation_set_xml.get())); } // Catch the case where it ends up wrong if integer division is used to check // the frame rate. // IOW, A/B != C/D but when using integer division A/B == C/D. // SO, maxFrameRate should be set instead of frameRate. TEST_F(CommonMpdBuilderTest, AdapatationSetMaxFrameRateIntegerDivisionEdgeCase) { // 11/3 != 10/3 but IntegerDiv(11,3) == IntegerDiv(10,3). const char kVideoMediaInfo1[] = "video_info {\n" " codec: \"avc1\"\n" " width: 720\n" " height: 480\n" " time_scale: 11\n" " frame_duration: 3\n" "}\n" "container_type: 1\n"; const char kVideoMediaInfo2[] = "video_info {\n" " codec: \"avc1\"\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 3\n" "}\n" "container_type: 1\n"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo1))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo2))); xml::scoped_xml_ptr adaptation_set_xml( video_adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString("maxFrameRate", "11/3", adaptation_set_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("frameRate", adaptation_set_xml.get())); } // Verify that Suppress*() methods work. TEST_F(CommonMpdBuilderTest, SuppressRepresentationAttributes) { const char kTestMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; auto representation = CreateRepresentation( ConvertToMediaInfo(kTestMediaInfo), kAnyRepresentationId, NoListener()); representation->SuppressOnce(Representation::kSuppressWidth); xml::scoped_xml_ptr no_width(representation->GetXml()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeNotSet("width", no_width.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("height", "480", no_width.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("frameRate", "10/10", no_width.get())); representation->SuppressOnce(Representation::kSuppressHeight); xml::scoped_xml_ptr no_height(representation->GetXml()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeNotSet("height", no_height.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("width", "720", no_height.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("frameRate", "10/10", no_height.get())); representation->SuppressOnce(Representation::kSuppressFrameRate); xml::scoped_xml_ptr no_frame_rate(representation->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("frameRate", no_frame_rate.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("width", "720", no_frame_rate.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("height", "480", no_frame_rate.get())); } // Attribute values that are common to all the children Representations should // propagate up to AdaptationSet. Otherwise, each Representation should have // its own values. TEST_F(CommonMpdBuilderTest, BubbleUpAttributesToAdaptationSet) { const char k1080p[] = "video_info {\n" " codec: 'avc1'\n" " width: 1920\n" " height: 1080\n" " time_scale: 30\n" " frame_duration: 1\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; // Different width from the one above. const char kDifferentWidth[] = "video_info {\n" " codec: 'avc1'\n" " width: 1080\n" " height: 1080\n" " time_scale: 30\n" " frame_duration: 1\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; // Different height from ones above const char kDifferentHeight[] = "video_info {\n" " codec: 'avc1'\n" " width: 1440\n" " height: 900\n" " time_scale: 30\n" " frame_duration: 1\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; const char kDifferentFrameRate[] = "video_info {\n" " codec: 'avc1'\n" " width: 1920\n" " height: 1080\n" " time_scale: 15\n" " frame_duration: 1\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; AdaptationSet* adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(adaptation_set); ASSERT_TRUE(adaptation_set->AddRepresentation(ConvertToMediaInfo(k1080p))); xml::scoped_xml_ptr all_attributes_on_adaptation_set( adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "width", "1920", all_attributes_on_adaptation_set.get())); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "height", "1080", all_attributes_on_adaptation_set.get())); EXPECT_NO_FATAL_FAILURE(ExpectAttributeEqString( "frameRate", "30/1", all_attributes_on_adaptation_set.get())); ASSERT_TRUE( adaptation_set->AddRepresentation(ConvertToMediaInfo(kDifferentWidth))); xml::scoped_xml_ptr width_not_set(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE(ExpectAttributeNotSet("width", width_not_set.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("height", "1080", width_not_set.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("frameRate", "30/1", width_not_set.get())); ASSERT_TRUE( adaptation_set->AddRepresentation(ConvertToMediaInfo(kDifferentHeight))); xml::scoped_xml_ptr width_height_not_set(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("width", width_height_not_set.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("height", width_height_not_set.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("frameRate", "30/1", width_height_not_set.get())); ASSERT_TRUE(adaptation_set->AddRepresentation( ConvertToMediaInfo(kDifferentFrameRate))); xml::scoped_xml_ptr no_common_attributes(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("width", no_common_attributes.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("height", no_common_attributes.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("frameRate", no_common_attributes.get())); } // Verify that subsegmentAlignment is set to true if all the Representations' // segments are aligned and the MPD type is static. // Also checking that not all Representations have to be added before calling // AddNewSegment() on a Representation. // The output MPD's schema is checked at the very end. TEST_F(OnDemandMpdBuilderTest, SubsegmentAlignment) { base::AtomicSequenceNumber sequence_counter; const char k480pMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 8\n" " pixel_height: 9\n" "}\n" "container_type: 1\n"; const char k360pMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 640\n" " height: 360\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; // First use same start time and duration, and verify that subsegmentAlignment // is set to true. const uint64_t kStartTime = 0u; const uint64_t kDuration = 10u; const uint64_t kAnySize = 19834u; AdaptationSet* adaptation_set = mpd_.AddAdaptationSet(""); Representation* representation_480p = adaptation_set->AddRepresentation(ConvertToMediaInfo(k480pMediaInfo)); // Add a subsegment immediately before adding the 360p Representation. // This should still work for VOD. representation_480p->AddNewSegment(kStartTime, kDuration, kAnySize); Representation* representation_360p = adaptation_set->AddRepresentation(ConvertToMediaInfo(k360pMediaInfo)); representation_360p->AddNewSegment(kStartTime, kDuration, kAnySize); xml::scoped_xml_ptr aligned(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("subsegmentAlignment", "true", aligned.get())); // Unknown because 480p has an extra subsegments. representation_480p->AddNewSegment(11, 20, kAnySize); xml::scoped_xml_ptr alignment_unknown(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("subsegmentAlignment", alignment_unknown.get())); // Add segments that make them not aligned. representation_360p->AddNewSegment(10, 1, kAnySize); representation_360p->AddNewSegment(11, 19, kAnySize); xml::scoped_xml_ptr unaligned(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("subsegmentAlignment", unaligned.get())); std::string mpd_output; ASSERT_TRUE(mpd_.ToString(&mpd_output)); ASSERT_TRUE(ValidateMpdSchema(mpd_output)); } // Verify that subsegmentAlignment can be force set to true. TEST_F(OnDemandMpdBuilderTest, ForceSetsubsegmentAlignment) { base::AtomicSequenceNumber sequence_counter; const char k480pMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 8\n" " pixel_height: 9\n" "}\n" "container_type: 1\n"; const char k360pMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 640\n" " height: 360\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; MpdOptions mpd_options; auto adaptation_set = CreateAdaptationSet(kAnyAdaptationSetId, "", &sequence_counter); Representation* representation_480p = adaptation_set->AddRepresentation(ConvertToMediaInfo(k480pMediaInfo)); Representation* representation_360p = adaptation_set->AddRepresentation(ConvertToMediaInfo(k360pMediaInfo)); // Use different starting times to make the segments "not aligned". const uint64_t kStartTime1 = 1u; const uint64_t kStartTime2 = 2u; static_assert(kStartTime1 != kStartTime2, "StartTimesShouldBeDifferent"); const uint64_t kDuration = 10u; const uint64_t kAnySize = 19834u; representation_480p->AddNewSegment(kStartTime1, kDuration, kAnySize); representation_360p->AddNewSegment(kStartTime2, kDuration, kAnySize); xml::scoped_xml_ptr unaligned(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("subsegmentAlignment", unaligned.get())); // Then force set the segment alignment attribute to true. adaptation_set->ForceSetSegmentAlignment(true); xml::scoped_xml_ptr aligned(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("subsegmentAlignment", "true", aligned.get())); } // Verify that segmentAlignment is set to true if all the Representations // segments' are aligned and the MPD type is dynamic. // The output MPD's schema is checked at the very end. TEST_F(LiveMpdBuilderTest, SegmentAlignment) { base::AtomicSequenceNumber sequence_counter; const char k480pMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 720\n" " height: 480\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 8\n" " pixel_height: 9\n" "}\n" "container_type: 1\n"; const char k360pMediaInfo[] = "video_info {\n" " codec: 'avc1'\n" " width: 640\n" " height: 360\n" " time_scale: 10\n" " frame_duration: 10\n" " pixel_width: 1\n" " pixel_height: 1\n" "}\n" "container_type: 1\n"; auto adaptation_set = mpd_.AddAdaptationSet(""); Representation* representation_480p = adaptation_set->AddRepresentation(ConvertToMediaInfo(k480pMediaInfo)); Representation* representation_360p = adaptation_set->AddRepresentation(ConvertToMediaInfo(k360pMediaInfo)); // First use same start time and duration, and verify that that // segmentAlignment is set. const uint64_t kStartTime = 0u; const uint64_t kDuration = 10u; const uint64_t kAnySize = 19834u; representation_480p->AddNewSegment(kStartTime, kDuration, kAnySize); representation_360p->AddNewSegment(kStartTime, kDuration, kAnySize); xml::scoped_xml_ptr aligned(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("segmentAlignment", "true", aligned.get())); // Add segments that make them not aligned. representation_480p->AddNewSegment(11, 20, kAnySize); representation_360p->AddNewSegment(10, 1, kAnySize); representation_360p->AddNewSegment(11, 19, kAnySize); xml::scoped_xml_ptr unaligned(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("subsegmentAlignment", unaligned.get())); std::string mpd_output; ASSERT_TRUE(mpd_.ToString(&mpd_output)); ASSERT_TRUE(ValidateMpdSchema(mpd_output)); } // Verify that the width and height attribute are set if all the video // representations have the same width and height. TEST_F(OnDemandMpdBuilderTest, AdapatationSetWidthAndHeight) { // Both 720p. const char kVideoMediaInfo1[] = "video_info {\n" " codec: \"avc1\"\n" " width: 1280\n" " height: 720\n" " time_scale: 3000\n" " frame_duration: 100\n" "}\n" "container_type: 1\n"; const char kVideoMediaInfo2[] = "video_info {\n" " codec: \"avc1\"\n" " width: 1280\n" " height: 720\n" " time_scale: 3000\n" " frame_duration: 200\n" "}\n" "container_type: 1\n"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo1))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo2))); xml::scoped_xml_ptr adaptation_set_xml( video_adaptation_set->GetXml()); ASSERT_NO_FATAL_FAILURE( ExpectAttributeEqString("width", "1280", adaptation_set_xml.get())); ASSERT_NO_FATAL_FAILURE( ExpectAttributeEqString("height", "720", adaptation_set_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("maxWidth", adaptation_set_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("maxHeight", adaptation_set_xml.get())); } // Verify that the maxWidth and maxHeight attribute are set if there are // multiple video resolutions. TEST_F(OnDemandMpdBuilderTest, AdapatationSetMaxWidthAndMaxHeight) { const char kVideoMediaInfo1080p[] = "video_info {\n" " codec: \"avc1\"\n" " width: 1920\n" " height: 1080\n" " time_scale: 3000\n" " frame_duration: 100\n" "}\n" "container_type: 1\n"; const char kVideoMediaInfo720p[] = "video_info {\n" " codec: \"avc1\"\n" " width: 1280\n" " height: 720\n" " time_scale: 3000\n" " frame_duration: 100\n" "}\n" "container_type: 1\n"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo1080p))); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo720p))); xml::scoped_xml_ptr adaptation_set_xml( video_adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("maxWidth", "1920", adaptation_set_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("maxHeight", "1080", adaptation_set_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("width", adaptation_set_xml.get())); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("height", adaptation_set_xml.get())); } TEST_F(CommonMpdBuilderTest, CheckRepresentationId) { const MediaInfo video_media_info = GetTestMediaInfo(kFileNameVideoMediaInfo1); const uint32_t kRepresentationId = 1; auto representation = CreateRepresentation(video_media_info, kRepresentationId, NoListener()); EXPECT_TRUE(representation->Init()); ASSERT_NO_FATAL_FAILURE( CheckIdEqual(kRepresentationId, representation.get())); } // Verify that Representation::SetSampleDuration() works by checking that // AdaptationSet@frameRate is in the XML. TEST_F(CommonMpdBuilderTest, SetSampleDuration) { // Omit frame_duration so that SetSampleDuration() will set a new frameRate. const char kVideoMediaInfo[] = "video_info {\n" " codec: \"avc1\"\n" " width: 1920\n" " height: 1080\n" " time_scale: 3000\n" "}\n" "container_type: 1\n"; base::AtomicSequenceNumber sequence_counter; auto adaptation_set = CreateAdaptationSet(kAnyAdaptationSetId, "", &sequence_counter); const MediaInfo video_media_info = ConvertToMediaInfo(kVideoMediaInfo); Representation* representation = adaptation_set->AddRepresentation(video_media_info); EXPECT_TRUE(representation->Init()); xml::scoped_xml_ptr adaptation_set_xml(adaptation_set->GetXml()); EXPECT_NO_FATAL_FAILURE( ExpectAttributeNotSet("frameRate", adaptation_set_xml.get())); representation->SetSampleDuration(2u); adaptation_set_xml = adaptation_set->GetXml(); EXPECT_NO_FATAL_FAILURE( ExpectAttributeEqString("frameRate", "3000/2", adaptation_set_xml.get())); } // Verify that AdaptationSet::AddContentProtection() and // UpdateContentProtectionPssh() works. TEST_F(CommonMpdBuilderTest, AdaptationSetAddContentProtectionAndUpdate) { const char kVideoMediaInfo1080p[] = "video_info {\n" " codec: \"avc1\"\n" " width: 1920\n" " height: 1080\n" " time_scale: 3000\n" " frame_duration: 100\n" "}\n" "container_type: 1\n"; ContentProtectionElement content_protection; content_protection.scheme_id_uri = "urn:uuid:edef8ba9-79d6-4ace-a3c8-27dcd51d21ed"; content_protection.value = "some value"; Element pssh; pssh.name = "cenc:pssh"; pssh.content = "any value"; content_protection.subelements.push_back(pssh); AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo1080p))); video_adaptation_set->AddContentProtectionElement(content_protection); const char kExpectedOutput1[] = "\n" "" " " " " " " " any value" " " " " " " " " ""; std::string mpd_output; ASSERT_TRUE(mpd_.ToString(&mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput1, mpd_output)); video_adaptation_set->UpdateContentProtectionPssh( "edef8ba9-79d6-4ace-a3c8-27dcd51d21ed", "new pssh value"); const char kExpectedOutput2[] = "\n" "" " " " " " " // TODO(rkuroiwa): Commenting this out for now because we want to remove // the PSSH from the MPD. Uncomment this when the player supports updating // pssh. //" new pssh value" " " " " " " " " ""; ASSERT_TRUE(mpd_.ToString(&mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput2, mpd_output)); } // Verify that if the ContentProtection element for the DRM without // element is updated via UpdateContentProtectionPssh(), the element gets added. // TODO(rkuroiwa): Until the player supports PSSH update, we remove the pssh // element. Rename this test once it is supported. TEST_F(CommonMpdBuilderTest, UpdateToRemovePsshElement) { const char kVideoMediaInfo1080p[] = "video_info {\n" " codec: \"avc1\"\n" " width: 1920\n" " height: 1080\n" " time_scale: 3000\n" " frame_duration: 100\n" "}\n" "container_type: 1\n"; ContentProtectionElement content_protection; content_protection.scheme_id_uri = "urn:uuid:edef8ba9-79d6-4ace-a3c8-27dcd51d21ed"; content_protection.value = "some value"; AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); ASSERT_TRUE(video_adaptation_set->AddRepresentation( ConvertToMediaInfo(kVideoMediaInfo1080p))); video_adaptation_set->AddContentProtectionElement(content_protection); const char kExpectedOutput1[] = "\n" "" " " " " " " " " " " " " " " ""; std::string mpd_output; ASSERT_TRUE(mpd_.ToString(&mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput1, mpd_output)); video_adaptation_set->UpdateContentProtectionPssh( "edef8ba9-79d6-4ace-a3c8-27dcd51d21ed", "added pssh value"); const char kExpectedOutput2[] = "\n" "" " " " " " " // TODO(rkuroiwa): Commenting this out for now because we want to remove // teh PSSH from the MPD. Uncomment this when the player supports updating // pssh. //" added pssh value" " " " " " " " " ""; ASSERT_TRUE(mpd_.ToString(&mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput2, mpd_output)); } // Add one video check the output. TEST_F(OnDemandMpdBuilderTest, Video) { MediaInfo video_media_info = GetTestMediaInfo(kFileNameVideoMediaInfo1); ASSERT_NO_FATAL_FAILURE(AddRepresentation(video_media_info)); EXPECT_NO_FATAL_FAILURE(CheckMpd(kFileNameExpectedMpdOutputVideo1)); } TEST_F(OnDemandMpdBuilderTest, TwoVideosWithDifferentResolutions) { AdaptationSet* adaptation_set = mpd_.AddAdaptationSet(""); MediaInfo media_info1 = GetTestMediaInfo(kFileNameVideoMediaInfo1); ASSERT_TRUE(adaptation_set->AddRepresentation(media_info1)); MediaInfo media_info2 = GetTestMediaInfo(kFileNameVideoMediaInfo2); ASSERT_TRUE(adaptation_set->AddRepresentation(media_info2)); EXPECT_NO_FATAL_FAILURE(CheckMpd(kFileNameExpectedMpdOutputVideo1And2)); } // Add both video and audio and check the output. TEST_F(OnDemandMpdBuilderTest, VideoAndAudio) { MediaInfo video_media_info = GetTestMediaInfo(kFileNameVideoMediaInfo1); MediaInfo audio_media_info = GetTestMediaInfo(kFileNameAudioMediaInfo1); // The order matters here to check against expected output. AdaptationSet* video_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(video_adaptation_set); AdaptationSet* audio_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(audio_adaptation_set); Representation* audio_representation = audio_adaptation_set->AddRepresentation(audio_media_info); ASSERT_TRUE(audio_representation); Representation* video_representation = video_adaptation_set->AddRepresentation(video_media_info); ASSERT_TRUE(video_representation); EXPECT_NO_FATAL_FAILURE(CheckMpd(kFileNameExpectedMpdOutputAudio1AndVideo1)); } // MPD schema has strict ordering. AudioChannelConfiguration must appear before // ContentProtection. // Also test that Representation::AddContentProtection() works. TEST_F(OnDemandMpdBuilderTest, AudioChannelConfigurationWithContentProtection) { const char kTestMediaInfo[] = "bandwidth: 195857\n" "audio_info {\n" " codec: 'mp4a.40.2'\n" " sampling_frequency: 44100\n" " time_scale: 44100\n" " num_channels: 2\n" "}\n" "init_range {\n" " begin: 0\n" " end: 863\n" "}\n" "index_range {\n" " begin: 864\n" " end: 931\n" "}\n" "media_file_name: 'encrypted_audio.mp4'\n" "media_duration_seconds: 24.009434\n" "reference_time_scale: 44100\n" "container_type: CONTAINER_MP4\n"; const char kExpectedOutput[] = "\n" "" " " " " " " " " " " " anything" " " " encrypted_audio.mp4" " " " " " " " " " " " " ""; ContentProtectionElement content_protection; content_protection.scheme_id_uri = "http://foo.com/"; Element pssh; pssh.name = "cenc:pssh"; pssh.content = "anything"; content_protection.subelements.push_back(pssh); MediaInfo audio_media_info = ConvertToMediaInfo(kTestMediaInfo); AdaptationSet* audio_adaptation_set = mpd_.AddAdaptationSet(""); ASSERT_TRUE(audio_adaptation_set); Representation* audio_representation = audio_adaptation_set->AddRepresentation(audio_media_info); ASSERT_TRUE(audio_representation); audio_representation->AddContentProtectionElement(content_protection); std::string mpd_output; ASSERT_TRUE(mpd_.ToString(&mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput, mpd_output)); } // Static profile requires bandwidth to be set because it has no other way to // get the bandwidth for the Representation. TEST_F(OnDemandMpdBuilderTest, MediaInfoMissingBandwidth) { MediaInfo video_media_info = GetTestMediaInfo(kFileNameVideoMediaInfo1); video_media_info.clear_bandwidth(); AddRepresentation(video_media_info); std::string mpd_doc; ASSERT_FALSE(mpd_.ToString(&mpd_doc)); } // Verify that a text path works. TEST_F(OnDemandMpdBuilderTest, Text) { const char kTextMediaInfo[] = "text_info {\n" " format: 'ttml'\n" " language: 'en'\n" " type: SUBTITLE\n" "}\n" "media_duration_seconds: 35\n" "bandwidth: 1000\n" "media_file_name: 'subtitle.xml'\n" "container_type: CONTAINER_TEXT\n"; const char kExpectedOutput[] = "\n" "" " " " " " \n" " " " subtitle.xml" " " " " " " ""; AdaptationSet* text_adaptation_set = mpd_.AddAdaptationSet("en"); ASSERT_TRUE(text_adaptation_set); Representation* text_representation = text_adaptation_set->AddRepresentation( ConvertToMediaInfo(kTextMediaInfo)); ASSERT_TRUE(text_representation); std::string mpd_output; ASSERT_TRUE(mpd_.ToString(&mpd_output)); ASSERT_TRUE(ValidateMpdSchema(mpd_output)); EXPECT_TRUE(XmlEqual(kExpectedOutput, mpd_output)); } // Check whether the attributes are set correctly for dynamic element. // This test must use ASSERT_EQ for comparison because XmlEqual() cannot // handle namespaces correctly yet. TEST_F(LiveMpdBuilderTest, DynamicCheckMpdAttributes) { static const char kExpectedOutput[] = "\n" "\n" "\n" " \n" "\n"; std::string mpd_doc; mutable_mpd_options()->mpd_type = MpdType::kDynamic; ASSERT_TRUE(mpd_.ToString(&mpd_doc)); ASSERT_EQ(kExpectedOutput, mpd_doc); } TEST_F(LiveMpdBuilderTest, StaticCheckMpdAttributes) { static const char kExpectedOutput[] = "\n" "\n" "\n" " \n" "\n"; std::string mpd_doc; mutable_mpd_options()->mpd_type = MpdType::kStatic; ASSERT_TRUE(mpd_.ToString(&mpd_doc)); ASSERT_EQ(kExpectedOutput, mpd_doc); } // Estimate the bandwidth given the info from AddNewSegment(). TEST_F(SegmentTemplateTest, OneSegmentNormal) { const uint64_t kStartTime = 0; const uint64_t kDuration = 10; const uint64_t kSize = 128; AddSegments(kStartTime, kDuration, kSize, 0); // TODO(rkuroiwa): Clean up the test/data directory. It's a mess. EXPECT_NO_FATAL_FAILURE(CheckMpd(kFileNameExpectedMpdOutputDynamicNormal)); } TEST_F(SegmentTemplateTest, NormalRepeatedSegmentDuration) { const uint64_t kSize = 256; uint64_t start_time = 0; uint64_t duration = 40000; uint64_t repeat = 2; AddSegments(start_time, duration, kSize, repeat); start_time += duration * (repeat + 1); duration = 54321; repeat = 0; AddSegments(start_time, duration, kSize, repeat); start_time += duration * (repeat + 1); duration = 12345; repeat = 0; AddSegments(start_time, duration, kSize, repeat); ASSERT_NO_FATAL_FAILURE(CheckMpdAgainstExpectedResult()); } TEST_F(SegmentTemplateTest, RepeatedSegmentsFromNonZeroStartTime) { const uint64_t kSize = 100000; uint64_t start_time = 0; uint64_t duration = 100000; uint64_t repeat = 2; AddSegments(start_time, duration, kSize, repeat); start_time += duration * (repeat + 1); duration = 20000; repeat = 3; AddSegments(start_time, duration, kSize, repeat); start_time += duration * (repeat + 1); duration = 32123; repeat = 3; AddSegments(start_time, duration, kSize, repeat); ASSERT_NO_FATAL_FAILURE(CheckMpdAgainstExpectedResult()); } // Segments not starting from 0. // Start time is 10. Make sure r gets set correctly. TEST_F(SegmentTemplateTest, NonZeroStartTime) { const uint64_t kStartTime = 10; const uint64_t kDuration = 22000; const uint64_t kSize = 123456; const uint64_t kRepeat = 1; AddSegments(kStartTime, kDuration, kSize, kRepeat); ASSERT_NO_FATAL_FAILURE(CheckMpdAgainstExpectedResult()); } // There is a gap in the segments, but still valid. TEST_F(SegmentTemplateTest, NonContiguousLiveInfo) { const uint64_t kStartTime = 10; const uint64_t kDuration = 22000; const uint64_t kSize = 123456; const uint64_t kRepeat = 0; AddSegments(kStartTime, kDuration, kSize, kRepeat); const uint64_t kStartTimeOffset = 100; AddSegments(kDuration + kStartTimeOffset, kDuration, kSize, kRepeat); ASSERT_NO_FATAL_FAILURE(CheckMpdAgainstExpectedResult()); } // Add segments out of order. Segments that start before the previous segment // cannot be added. TEST_F(SegmentTemplateTest, OutOfOrder) { const uint64_t kEarlierStartTime = 0; const uint64_t kLaterStartTime = 1000; const uint64_t kDuration = 1000; const uint64_t kSize = 123456; const uint64_t kRepeat = 0; AddSegments(kLaterStartTime, kDuration, kSize, kRepeat); AddSegments(kEarlierStartTime, kDuration, kSize, kRepeat); ASSERT_NO_FATAL_FAILURE(CheckMpdAgainstExpectedResult()); } // No segments should be overlapping. TEST_F(SegmentTemplateTest, OverlappingSegments) { const uint64_t kEarlierStartTime = 0; const uint64_t kDuration = 1000; const uint64_t kSize = 123456; const uint64_t kRepeat = 0; const uint64_t kOverlappingSegmentStartTime = kDuration / 2; CHECK_GT(kDuration, kOverlappingSegmentStartTime); AddSegments(kEarlierStartTime, kDuration, kSize, kRepeat); AddSegments(kOverlappingSegmentStartTime, kDuration, kSize, kRepeat); ASSERT_NO_FATAL_FAILURE(CheckMpdAgainstExpectedResult()); } // Some segments can be overlapped due to rounding errors. As long as it falls // in the range of rounding error defined inside MpdBuilder, the segment gets // accepted. TEST_F(SegmentTemplateTest, OverlappingSegmentsWithinErrorRange) { const uint64_t kEarlierStartTime = 0; const uint64_t kDuration = 1000; const uint64_t kSize = 123456; const uint64_t kRepeat = 0; const uint64_t kOverlappingSegmentStartTime = kDuration - 1; CHECK_GT(kDuration, kOverlappingSegmentStartTime); AddSegments(kEarlierStartTime, kDuration, kSize, kRepeat); AddSegments(kOverlappingSegmentStartTime, kDuration, kSize, kRepeat); ASSERT_NO_FATAL_FAILURE(CheckMpdAgainstExpectedResult()); } // All segments have the same duration and size. TEST_F(TimeShiftBufferDepthTest, Normal) { const int kTimeShiftBufferDepth = 10; // 10 sec. mutable_mpd_options()->mpd_params.time_shift_buffer_depth = kTimeShiftBufferDepth; const uint64_t kInitialStartTime = 0; // Trick to make every segment 1 second long. const uint64_t kDuration = DefaultTimeScale(); const uint64_t kSize = 10000; const uint64_t kRepeat = 1234; const uint64_t kLength = kRepeat; CHECK_EQ(kDuration / DefaultTimeScale() * kRepeat, kLength); AddSegments(kInitialStartTime, kDuration, kSize, kRepeat); // There should only be the last 11 segments because timeshift is 10 sec and // each segment is 1 sec and the latest segments start time is "current // time" i.e., the latest segment does not count as part of timeshift buffer // depth. // Also note that S@r + 1 is the actual number of segments. const int kExpectedRepeatsLeft = kTimeShiftBufferDepth; const std::string expected_s_element = base::StringPrintf(kSElementTemplate, kDuration * (kRepeat - kExpectedRepeatsLeft), kDuration, static_cast(kExpectedRepeatsLeft)); const int kExpectedStartNumber = kRepeat - kExpectedRepeatsLeft + 1; ASSERT_NO_FATAL_FAILURE(CheckTimeShiftBufferDepthResult( expected_s_element, kTimeShiftBufferDepth, kExpectedStartNumber)); } // TimeShiftBufferDepth is shorter than a segment. This should not discard the // segment that can play TimeShiftBufferDepth. // For example if TimeShiftBufferDepth = 1 min. and a 10 min segment was just // added. Before that 9 min segment was added. The 9 min segment should not be // removed from the MPD. TEST_F(TimeShiftBufferDepthTest, TimeShiftBufferDepthShorterThanSegmentLength) { const int kTimeShiftBufferDepth = 10; // 10 sec. mutable_mpd_options()->mpd_params.time_shift_buffer_depth = kTimeShiftBufferDepth; const uint64_t kInitialStartTime = 0; // Each duration is a second longer than timeShiftBufferDepth. const uint64_t kDuration = DefaultTimeScale() * (kTimeShiftBufferDepth + 1); const uint64_t kSize = 10000; const uint64_t kRepeat = 1; AddSegments(kInitialStartTime, kDuration, kSize, kRepeat); // The two segments should be both present. const std::string expected_s_element = base::StringPrintf( kSElementTemplate, kInitialStartTime, kDuration, kRepeat); ASSERT_NO_FATAL_FAILURE(CheckTimeShiftBufferDepthResult( expected_s_element, kTimeShiftBufferDepth, kDefaultStartNumber)); } // More generic version the normal test. TEST_F(TimeShiftBufferDepthTest, Generic) { const int kTimeShiftBufferDepth = 30; mutable_mpd_options()->mpd_params.time_shift_buffer_depth = kTimeShiftBufferDepth; const uint64_t kInitialStartTime = 123; const uint64_t kDuration = DefaultTimeScale(); const uint64_t kSize = 10000; const uint64_t kRepeat = 1000; AddSegments(kInitialStartTime, kDuration, kSize, kRepeat); const uint64_t first_s_element_end_time = kInitialStartTime + kDuration * (kRepeat + 1); // Now add 2 kTimeShiftBufferDepth long segments. const int kNumMoreSegments = 2; const int kMoreSegmentsRepeat = kNumMoreSegments - 1; const uint64_t kTimeShiftBufferDepthDuration = DefaultTimeScale() * kTimeShiftBufferDepth; AddSegments(first_s_element_end_time, kTimeShiftBufferDepthDuration, kSize, kMoreSegmentsRepeat); // Expect only the latest S element with 2 segments. const std::string expected_s_element = base::StringPrintf(kSElementTemplate, first_s_element_end_time, kTimeShiftBufferDepthDuration, static_cast(kMoreSegmentsRepeat)); const int kExpectedRemovedSegments = kRepeat + 1; ASSERT_NO_FATAL_FAILURE(CheckTimeShiftBufferDepthResult( expected_s_element, kTimeShiftBufferDepth, kDefaultStartNumber + kExpectedRemovedSegments)); } // More than 1 S element in the result. // Adds 100 one-second segments. Then add 21 two-second segments. // This should have all of the two-second segments and 60 one-second // segments. Note that it expects 60 segments from the first S element because // the most recent segment added does not count TEST_F(TimeShiftBufferDepthTest, MoreThanOneS) { const int kTimeShiftBufferDepth = 100; mutable_mpd_options()->mpd_params.time_shift_buffer_depth = kTimeShiftBufferDepth; const uint64_t kInitialStartTime = 0; const uint64_t kSize = 20000; const uint64_t kOneSecondDuration = DefaultTimeScale(); const uint64_t kOneSecondSegmentRepeat = 99; AddSegments( kInitialStartTime, kOneSecondDuration, kSize, kOneSecondSegmentRepeat); const uint64_t first_s_element_end_time = kInitialStartTime + kOneSecondDuration * (kOneSecondSegmentRepeat + 1); const uint64_t kTwoSecondDuration = 2 * DefaultTimeScale(); const uint64_t kTwoSecondSegmentRepeat = 20; AddSegments(first_s_element_end_time, kTwoSecondDuration, kSize, kTwoSecondSegmentRepeat); const uint64_t kExpectedRemovedSegments = (kOneSecondSegmentRepeat + 1 + kTwoSecondSegmentRepeat * 2) - kTimeShiftBufferDepth; std::string expected_s_element = base::StringPrintf(kSElementTemplate, kOneSecondDuration * kExpectedRemovedSegments, kOneSecondDuration, kOneSecondSegmentRepeat - kExpectedRemovedSegments); expected_s_element += base::StringPrintf(kSElementTemplate, first_s_element_end_time, kTwoSecondDuration, kTwoSecondSegmentRepeat); ASSERT_NO_FATAL_FAILURE(CheckTimeShiftBufferDepthResult( expected_s_element, kTimeShiftBufferDepth, kDefaultStartNumber + kExpectedRemovedSegments)); } // Edge case where the last segment in S element should still be in the MPD. // Example: // Assuming timescale = 1 so that duration of 1 means 1 second. // TimeShiftBufferDepth is 9 sec and we currently have // // // and we add another contiguous 2 second segment. // Then the first S element's last segment should still be in the MPD. TEST_F(TimeShiftBufferDepthTest, UseLastSegmentInS) { const int kTimeShiftBufferDepth = 9; mutable_mpd_options()->mpd_params.time_shift_buffer_depth = kTimeShiftBufferDepth; const uint64_t kInitialStartTime = 1; const uint64_t kDuration1 = static_cast(DefaultTimeScale() * 1.5); const uint64_t kSize = 20000; const uint64_t kRepeat1 = 1; AddSegments(kInitialStartTime, kDuration1, kSize, kRepeat1); const uint64_t first_s_element_end_time = kInitialStartTime + kDuration1 * (kRepeat1 + 1); const uint64_t kTwoSecondDuration = 2 * DefaultTimeScale(); const uint64_t kTwoSecondSegmentRepeat = 4; AddSegments(first_s_element_end_time, kTwoSecondDuration, kSize, kTwoSecondSegmentRepeat); std::string expected_s_element = base::StringPrintf( kSElementTemplateWithoutR, kInitialStartTime + kDuration1, // Expect one segment removed. kDuration1); expected_s_element += base::StringPrintf(kSElementTemplate, first_s_element_end_time, kTwoSecondDuration, kTwoSecondSegmentRepeat); ASSERT_NO_FATAL_FAILURE(CheckTimeShiftBufferDepthResult( expected_s_element, kTimeShiftBufferDepth, 2)); } // Gap between S elements but both should be included. TEST_F(TimeShiftBufferDepthTest, NormalGap) { const int kTimeShiftBufferDepth = 10; mutable_mpd_options()->mpd_params.time_shift_buffer_depth = kTimeShiftBufferDepth; const uint64_t kInitialStartTime = 0; const uint64_t kDuration = DefaultTimeScale(); const uint64_t kSize = 20000; const uint64_t kRepeat = 6; // CHECK here so that the when next S element is added with 1 segment, this S // element doesn't go away. CHECK_LT(kRepeat - 1u, static_cast(kTimeShiftBufferDepth)); CHECK_EQ(kDuration, DefaultTimeScale()); AddSegments(kInitialStartTime, kDuration, kSize, kRepeat); const uint64_t first_s_element_end_time = kInitialStartTime + kDuration * (kRepeat + 1); const uint64_t gap_s_element_start_time = first_s_element_end_time + 1; AddSegments(gap_s_element_start_time, kDuration, kSize, /* no repeat */ 0); std::string expected_s_element = base::StringPrintf( kSElementTemplate, kInitialStartTime, kDuration, kRepeat); expected_s_element += base::StringPrintf( kSElementTemplateWithoutR, gap_s_element_start_time, kDuration); ASSERT_NO_FATAL_FAILURE(CheckTimeShiftBufferDepthResult( expected_s_element, kTimeShiftBufferDepth, kDefaultStartNumber)); } // Case where there is a huge gap so the first S element is removed. TEST_F(TimeShiftBufferDepthTest, HugeGap) { const int kTimeShiftBufferDepth = 10; mutable_mpd_options()->mpd_params.time_shift_buffer_depth = kTimeShiftBufferDepth; const uint64_t kInitialStartTime = 0; const uint64_t kDuration = DefaultTimeScale(); const uint64_t kSize = 20000; const uint64_t kRepeat = 6; AddSegments(kInitialStartTime, kDuration, kSize, kRepeat); const uint64_t first_s_element_end_time = kInitialStartTime + kDuration * (kRepeat + 1); // Big enough gap so first S element should not be there. const uint64_t gap_s_element_start_time = first_s_element_end_time + (kTimeShiftBufferDepth + 1) * DefaultTimeScale(); const uint64_t kSecondSElementRepeat = 9; static_assert( kSecondSElementRepeat < static_cast(kTimeShiftBufferDepth), "second_s_element_repeat_must_be_less_than_time_shift_buffer_depth"); AddSegments(gap_s_element_start_time, kDuration, kSize, kSecondSElementRepeat); std::string expected_s_element = base::StringPrintf(kSElementTemplate, gap_s_element_start_time, kDuration, kSecondSElementRepeat); const int kExpectedRemovedSegments = kRepeat + 1; ASSERT_NO_FATAL_FAILURE(CheckTimeShiftBufferDepthResult( expected_s_element, kTimeShiftBufferDepth, kDefaultStartNumber + kExpectedRemovedSegments)); } // Check if startNumber is working correctly. TEST_F(TimeShiftBufferDepthTest, ManySegments) { const int kTimeShiftBufferDepth = 1; mutable_mpd_options()->mpd_params.time_shift_buffer_depth = kTimeShiftBufferDepth; const uint64_t kInitialStartTime = 0; const uint64_t kDuration = DefaultTimeScale(); const uint64_t kSize = 20000; const uint64_t kRepeat = 10000; const uint64_t kTotalNumSegments = kRepeat + 1; AddSegments(kInitialStartTime, kDuration, kSize, kRepeat); const int kExpectedSegmentsLeft = kTimeShiftBufferDepth + 1; const int kExpectedSegmentsRepeat = kExpectedSegmentsLeft - 1; const int kExpectedRemovedSegments = kTotalNumSegments - kExpectedSegmentsLeft; std::string expected_s_element = base::StringPrintf(kSElementTemplate, kExpectedRemovedSegments * kDuration, kDuration, static_cast(kExpectedSegmentsRepeat)); ASSERT_NO_FATAL_FAILURE(CheckTimeShiftBufferDepthResult( expected_s_element, kTimeShiftBufferDepth, kDefaultStartNumber + kExpectedRemovedSegments)); } namespace { const char kMediaFile[] = "foo/bar/media.mp4"; const char kMediaFileBase[] = "media.mp4"; const char kInitSegment[] = "foo/bar/init.mp4"; const char kInitSegmentBase[] = "init.mp4"; const char kSegmentTemplate[] = "foo/bar/segment-$Number$.mp4"; const char kSegmentTemplateBase[] = "segment-$Number$.mp4"; const char kPathModifiedMpd[] = "foo/bar/media.mpd"; const char kPathNotModifiedMpd[] = "foo/baz/media.mpd"; } // namespace TEST(RelativePaths, PathsModified) { MediaInfo media_info; media_info.set_media_file_name(kMediaFile); media_info.set_init_segment_name(kInitSegment); media_info.set_segment_template(kSegmentTemplate); MpdBuilder::MakePathsRelativeToMpd(kPathModifiedMpd, &media_info); EXPECT_EQ(kMediaFileBase, media_info.media_file_name()); EXPECT_EQ(kInitSegmentBase, media_info.init_segment_name()); EXPECT_EQ(kSegmentTemplateBase, media_info.segment_template()); } TEST(RelativePaths, PathsNotModified) { MediaInfo media_info; media_info.set_media_file_name(kMediaFile); media_info.set_init_segment_name(kInitSegment); media_info.set_segment_template(kSegmentTemplate); MpdBuilder::MakePathsRelativeToMpd(kPathNotModifiedMpd, &media_info); EXPECT_EQ(kMediaFile, media_info.media_file_name()); EXPECT_EQ(kInitSegment, media_info.init_segment_name()); EXPECT_EQ(kSegmentTemplate, media_info.segment_template()); } } // namespace shaka