shaka-packager/packager/mpd/base/xml/xml_node_unittest.cc

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// 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 <packager/mpd/base/xml/xml_node.h>
#include <list>
#include <absl/flags/declare.h>
#include <absl/flags/flag.h>
#include <absl/log/log.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <libxml/tree.h>
#include <packager/flag_saver.h>
#include <packager/mpd/base/segment_info.h>
#include <packager/mpd/test/mpd_builder_test_helper.h>
#include <packager/mpd/test/xml_compare.h>
ABSL_DECLARE_FLAG(bool, segment_template_constant_duration);
ABSL_DECLARE_FLAG(bool, dash_add_last_segment_number_when_needed);
using ::testing::ElementsAre;
namespace shaka {
namespace xml {
namespace {
// Template so that it works for ContentProtectionXml and
// ContentProtectionXml::Element.
template <typename XmlElement>
void AddAttribute(const std::string& name,
const std::string& value,
XmlElement* content_protection_xml) {
MediaInfo::ContentProtectionXml::AttributeNameValuePair* attribute =
content_protection_xml->add_attributes();
attribute->set_name(name);
attribute->set_value(value);
}
} // namespace
// Make sure XmlEqual() is functioning correctly.
// TODO(rkuroiwa): Move this to a separate file. This requires it to be TEST
// due to gtest /test
TEST(XmlNodeTest, MetaTestXmlElementsEqual) {
static const char kXml1[] =
"<A>\n"
" <B\n"
" c=\"1\""
" e=\"foobar\""
" somelongnameattribute=\"somevalue\">\n"
" <Bchild childvalue=\"3\"\n"
" f=\"4\"/>\n"
" </B>\n"
" <C />\n"
"</A>";
// This is same as kXml1 but the attributes are reordered. Note that the
// children are not reordered.
static const char kXml1AttributeReorder[] =
"<A>\n"
" <B\n"
" c=\"1\""
" somelongnameattribute=\"somevalue\"\n"
" e=\"foobar\">"
" <Bchild childvalue=\"3\"\n"
" f=\"4\"/>\n"
" </B>\n"
" <C />\n"
"</A>";
// <C> is before <B>.
static const char kXml1ChildrenReordered[] =
"<A>\n"
" <C />\n"
" <B\n"
" d=\"2\""
" c=\"1\""
" somelongnameattribute=\"somevalue\"\n"
" e=\"foobar\">"
" <Bchild childvalue=\"3\"\n"
" f=\"4\"/>\n"
" </B>\n"
"</A>";
// <C> is before <B>.
static const char kXml1RemovedAttributes[] =
"<A>\n"
" <B\n"
" d=\"2\"\n>"
" <Bchild f=\"4\"/>\n"
" </B>\n"
" <C />\n"
"</A>";
static const char kXml2[] =
"<A>\n"
" <C />\n"
"</A>";
// In XML <C />, <C></C>, and <C/> mean the same thing.
static const char kXml2DifferentSyntax[] =
"<A>\n"
" <C></C>\n"
"</A>";
static const char kXml2MoreDifferentSyntax[] =
"<A>\n"
" <C/>\n"
"</A>";
// Identity.
ASSERT_TRUE(XmlEqual(kXml1, kXml1));
// Equivalent.
ASSERT_TRUE(XmlEqual(kXml1, kXml1AttributeReorder));
ASSERT_TRUE(XmlEqual(kXml2, kXml2DifferentSyntax));
ASSERT_TRUE(XmlEqual(kXml2, kXml2MoreDifferentSyntax));
// Different.
ASSERT_FALSE(XmlEqual(kXml1, kXml2));
ASSERT_FALSE(XmlEqual(kXml1, kXml1ChildrenReordered));
ASSERT_FALSE(XmlEqual(kXml1, kXml1RemovedAttributes));
ASSERT_FALSE(XmlEqual(kXml1AttributeReorder, kXml1ChildrenReordered));
}
// Verify that if contents are different, XmlEqual returns false.
// This is to catch the case where just using xmlNodeGetContent() on elements
// that have subelements don't quite work well.
// xmlNodeGetContent(<A>) (for both <A>s) will return "content1content2".
// But if it is run on <B> for the first XML, it will return "content1", but
// for second XML will return "c".
TEST(XmlNodeTest, MetaTestXmlEqualDifferentContent) {
ASSERT_FALSE(XmlEqual(
"<A><B>content1</B><B>content2</B></A>",
"<A><B>c</B><B>ontent1content2</B></A>"));
}
TEST(XmlNodeTest, ExtractReferencedNamespaces) {
XmlNode grand_child_with_namespace("grand_ns:grand_child");
grand_child_with_namespace.SetContent("grand child content");
XmlNode child("child1");
child.SetContent("child1 content");
ASSERT_TRUE(child.AddChild(std::move(grand_child_with_namespace)));
XmlNode child_with_namespace("child_ns:child2");
child_with_namespace.SetContent("child2 content");
XmlNode root("root");
ASSERT_TRUE(root.AddChild(std::move(child)));
ASSERT_TRUE(root.AddChild(std::move(child_with_namespace)));
EXPECT_THAT(root.ExtractReferencedNamespaces(),
ElementsAre("child_ns", "grand_ns"));
}
TEST(XmlNodeTest, ExtractReferencedNamespacesFromAttributes) {
XmlNode child("child");
ASSERT_TRUE(child.SetStringAttribute("child_attribute_ns:attribute",
"child attribute value"));
XmlNode root("root");
ASSERT_TRUE(root.AddChild(std::move(child)));
ASSERT_TRUE(root.SetStringAttribute("root_attribute_ns:attribute",
"root attribute value"));
EXPECT_THAT(root.ExtractReferencedNamespaces(),
ElementsAre("child_attribute_ns", "root_attribute_ns"));
}
// Verify that AddContentProtectionElements work.
// xmlReadMemory() (used in XmlEqual()) doesn't like XML fragments that have
// namespaces without context, e.g. <cenc:pssh> element.
// The MpdBuilderTests work because the MPD element has xmlns:cenc attribute.
// Tests that have <cenc:pssh> is in mpd_builder_unittest.
TEST(XmlNodeTest, AddContentProtectionElements) {
std::list<ContentProtectionElement> content_protections;
ContentProtectionElement content_protection_widevine;
content_protection_widevine.scheme_id_uri =
"urn:uuid:edef8ba9-79d6-4ace-a3c8-27dcd51d21ed";
content_protection_widevine.value = "SOME bogus Widevine DRM version";
Element any_element;
any_element.name = "AnyElement";
any_element.content = "any content";
content_protection_widevine.subelements.push_back(any_element);
content_protections.push_back(content_protection_widevine);
ContentProtectionElement content_protection_clearkey;
content_protection_clearkey.scheme_id_uri =
"urn:uuid:1077efec-c0b2-4d02-ace3-3c1e52e2fb4b";
content_protections.push_back(content_protection_clearkey);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddContentProtectionElements(content_protections));
EXPECT_THAT(
representation,
XmlNodeEqual(
"<Representation>\n"
" <ContentProtection\n"
" schemeIdUri=\"urn:uuid:edef8ba9-79d6-4ace-a3c8-27dcd51d21ed\"\n"
" value=\"SOME bogus Widevine DRM version\">\n"
" <AnyElement>any content</AnyElement>\n"
" </ContentProtection>\n"
" <ContentProtection\n"
" schemeIdUri=\"urn:uuid:1077efec-c0b2-4d02-ace3-3c1e52e2fb4b\">"
" </ContentProtection>\n"
"</Representation>"));
}
TEST(XmlNodeTest, AddEC3AudioInfo) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("ec-3");
audio_info.set_sampling_frequency(48000);
audio_info.mutable_codec_specific_data()->set_channel_mask(0xF801);
audio_info.mutable_codec_specific_data()->set_channel_mpeg_value(
0xFFFFFFFF);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(
representation,
XmlNodeEqual(
"<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"tag:dolby.com,2014:dash:audio_channel_configuration:2011\"\n"
" value=\"F801\"/>\n"
"</Representation>\n"));
}
TEST(XmlNodeTest, AddEC3AudioInfoMPEGScheme) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("ec-3");
audio_info.set_sampling_frequency(48000);
audio_info.mutable_codec_specific_data()->set_channel_mask(0xF801);
audio_info.mutable_codec_specific_data()->set_channel_mpeg_value(6);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(representation,
XmlNodeEqual("<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"urn:mpeg:mpegB:cicp:ChannelConfiguration\"\n"
" value=\"6\"/>\n"
"</Representation>\n"));
}
TEST(XmlNodeTest, AddEC3AudioInfoMPEGSchemeJOC) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("ec-3");
audio_info.set_sampling_frequency(48000);
audio_info.mutable_codec_specific_data()->set_channel_mask(0xF801);
audio_info.mutable_codec_specific_data()->set_channel_mpeg_value(6);
audio_info.mutable_codec_specific_data()->set_ec3_joc_complexity(16);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(
representation,
XmlNodeEqual(
"<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"urn:mpeg:mpegB:cicp:ChannelConfiguration\"\n"
" value=\"6\"/>\n"
" <SupplementalProperty\n"
" schemeIdUri=\n"
" \"tag:dolby.com,2018:dash:EC3_ExtensionType:2018\"\n"
" value=\"JOC\"/>\n"
" <SupplementalProperty\n"
" schemeIdUri=\n"
" \"tag:dolby.com,2018:dash:EC3_ExtensionComplexityIndex:2018\"\n"
" value=\"16\"/>\n"
"</Representation>\n"));
}
TEST(XmlNodeTest, AddAC4AudioInfo) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("ac-4.02.01.02");
audio_info.set_sampling_frequency(48000);
auto* codec_data = audio_info.mutable_codec_specific_data();
codec_data->set_channel_mpeg_value(0xFFFFFFFF);
codec_data->set_channel_mask(0x0000C7);
codec_data->set_ac4_ims_flag(false);
codec_data->set_ac4_cbi_flag(false);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(
representation,
XmlNodeEqual(
"<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"tag:dolby.com,2015:dash:audio_channel_configuration:2015\"\n"
" value=\"0000C7\"/>\n"
"</Representation>\n"));
}
TEST(XmlNodeTest, AddAC4AudioInfoMPEGScheme) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("ac-4.02.01.00");
audio_info.set_sampling_frequency(48000);
auto* codec_data = audio_info.mutable_codec_specific_data();
codec_data->set_channel_mpeg_value(2);
codec_data->set_channel_mask(0x000001);
codec_data->set_ac4_ims_flag(false);
codec_data->set_ac4_cbi_flag(false);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(representation,
XmlNodeEqual("<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"urn:mpeg:mpegB:cicp:ChannelConfiguration\"\n"
" value=\"2\"/>\n"
"</Representation>\n"));
}
TEST(XmlNodeTest, AddAC4AudioInfoMPEGSchemeIMS) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("ac-4.02.02.00");
audio_info.set_sampling_frequency(48000);
auto* codec_data = audio_info.mutable_codec_specific_data();
codec_data->set_channel_mpeg_value(2);
codec_data->set_channel_mask(0x000001);
codec_data->set_ac4_ims_flag(true);
codec_data->set_ac4_cbi_flag(false);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"urn:mpeg:mpegB:cicp:ChannelConfiguration\"\n"
" value=\"2\"/>\n"
" <SupplementalProperty\n"
" schemeIdUri=\n"
" \"tag:dolby.com,2016:dash:virtualized_content:2016\"\n"
" value=\"1\"/>\n"
"</Representation>\n"));
}
class LiveSegmentTimelineTest : public ::testing::Test {
public:
LiveSegmentTimelineTest()
: saver(&FLAGS_segment_template_constant_duration) {}
protected:
void SetUp() override {
absl::SetFlag(&FLAGS_segment_template_constant_duration, true);
media_info_.set_segment_template_url("$Number$.m4s");
}
MediaInfo media_info_;
private:
FlagSaver<bool> saver;
};
TEST_F(LiveSegmentTimelineTest, OneSegmentInfo) {
const uint32_t kStartNumber = 1;
const int64_t kStartTime = 0;
const int64_t kDuration = 100;
const uint64_t kRepeat = 9;
const bool kIsLowLatency = false;
std::list<SegmentInfo> segment_infos = {
{kStartTime, kDuration, kRepeat},
};
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddLiveOnlyInfo(media_info_, segment_infos,
kStartNumber, kIsLowLatency));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation>"
" <SegmentTemplate media=\"$Number$.m4s\" "
" startNumber=\"1\" duration=\"100\"/>"
"</Representation>"));
}
TEST_F(LiveSegmentTimelineTest, OneSegmentInfoNonZeroStartTime) {
const uint32_t kStartNumber = 1;
const int64_t kNonZeroStartTime = 500;
const int64_t kDuration = 100;
const uint64_t kRepeat = 9;
const bool kIsLowLatency = false;
std::list<SegmentInfo> segment_infos = {
{kNonZeroStartTime, kDuration, kRepeat},
};
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddLiveOnlyInfo(media_info_, segment_infos,
kStartNumber, kIsLowLatency));
EXPECT_THAT(representation,
XmlNodeEqual(
"<Representation>"
" <SegmentTemplate media=\"$Number$.m4s\" startNumber=\"1\">"
" <SegmentTimeline>"
" <S t=\"500\" d=\"100\" r=\"9\"/>"
" </SegmentTimeline>"
" </SegmentTemplate>"
"</Representation>"));
}
TEST_F(LiveSegmentTimelineTest, OneSegmentInfoMatchingStartTimeAndNumber) {
const uint32_t kStartNumber = 6;
const int64_t kNonZeroStartTime = 500;
const int64_t kDuration = 100;
const uint64_t kRepeat = 9;
const bool kIsLowLatency = false;
std::list<SegmentInfo> segment_infos = {
{kNonZeroStartTime, kDuration, kRepeat},
};
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddLiveOnlyInfo(media_info_, segment_infos,
kStartNumber, kIsLowLatency));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation>"
" <SegmentTemplate media=\"$Number$.m4s\" "
" startNumber=\"6\" duration=\"100\"/>"
"</Representation>"));
}
TEST_F(LiveSegmentTimelineTest, AllSegmentsSameDurationExpectLastOne) {
const uint32_t kStartNumber = 1;
const bool kIsLowLatency = false;
const int64_t kStartTime1 = 0;
const int64_t kDuration1 = 100;
const uint64_t kRepeat1 = 9;
const int64_t kStartTime2 = kStartTime1 + (kRepeat1 + 1) * kDuration1;
const int64_t kDuration2 = 200;
const uint64_t kRepeat2 = 0;
std::list<SegmentInfo> segment_infos = {
{kStartTime1, kDuration1, kRepeat1},
{kStartTime2, kDuration2, kRepeat2},
};
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddLiveOnlyInfo(media_info_, segment_infos,
kStartNumber, kIsLowLatency));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation>"
" <SegmentTemplate media=\"$Number$.m4s\" "
" startNumber=\"1\" duration=\"100\"/>"
"</Representation>"));
}
TEST_F(LiveSegmentTimelineTest, SecondSegmentInfoNonZeroRepeat) {
const uint32_t kStartNumber = 1;
const bool kIsLowLatency = false;
const int64_t kStartTime1 = 0;
const int64_t kDuration1 = 100;
const uint64_t kRepeat1 = 9;
const int64_t kStartTime2 = kStartTime1 + (kRepeat1 + 1) * kDuration1;
const int64_t kDuration2 = 200;
const uint64_t kRepeat2 = 1;
std::list<SegmentInfo> segment_infos = {
{kStartTime1, kDuration1, kRepeat1},
{kStartTime2, kDuration2, kRepeat2},
};
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddLiveOnlyInfo(media_info_, segment_infos,
kStartNumber, kIsLowLatency));
EXPECT_THAT(representation,
XmlNodeEqual(
"<Representation>"
" <SegmentTemplate media=\"$Number$.m4s\" startNumber=\"1\">"
" <SegmentTimeline>"
" <S t=\"0\" d=\"100\" r=\"9\"/>"
" <S t=\"1000\" d=\"200\" r=\"1\"/>"
" </SegmentTimeline>"
" </SegmentTemplate>"
"</Representation>"));
}
TEST_F(LiveSegmentTimelineTest, TwoSegmentInfoWithGap) {
const uint32_t kStartNumber = 1;
const bool kIsLowLatency = false;
const int64_t kStartTime1 = 0;
const int64_t kDuration1 = 100;
const uint64_t kRepeat1 = 9;
const uint64_t kGap = 100;
const int64_t kStartTime2 = kGap + kStartTime1 + (kRepeat1 + 1) * kDuration1;
const int64_t kDuration2 = 200;
const uint64_t kRepeat2 = 0;
std::list<SegmentInfo> segment_infos = {
{kStartTime1, kDuration1, kRepeat1},
{kStartTime2, kDuration2, kRepeat2},
};
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddLiveOnlyInfo(media_info_, segment_infos,
kStartNumber, kIsLowLatency));
EXPECT_THAT(representation,
XmlNodeEqual(
"<Representation>"
" <SegmentTemplate media=\"$Number$.m4s\" startNumber=\"1\">"
" <SegmentTimeline>"
" <S t=\"0\" d=\"100\" r=\"9\"/>"
" <S t=\"1100\" d=\"200\"/>"
" </SegmentTimeline>"
" </SegmentTemplate>"
"</Representation>"));
}
TEST_F(LiveSegmentTimelineTest, LastSegmentNumberSupplementalProperty) {
const uint32_t kStartNumber = 1;
const int64_t kStartTime = 0;
const int64_t kDuration = 100;
const uint64_t kRepeat = 9;
const bool kIsLowLatency = false;
std::list<SegmentInfo> segment_infos = {
{kStartTime, kDuration, kRepeat},
};
RepresentationXmlNode representation;
FlagSaver<bool> segment_number_saver(
&FLAGS_dash_add_last_segment_number_when_needed);
absl::SetFlag(&FLAGS_dash_add_last_segment_number_when_needed, true);
ASSERT_TRUE(representation.AddLiveOnlyInfo(media_info_, segment_infos,
kStartNumber, kIsLowLatency));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation>"
"<SupplementalProperty schemeIdUri=\"http://dashif.org/"
"guidelines/last-segment-number\" value=\"10\"/>"
" <SegmentTemplate media=\"$Number$.m4s\" "
" startNumber=\"1\" duration=\"100\"/>"
"</Representation>"));
}
// Creating a separate Test Suite for RepresentationXmlNode::AddVODOnlyInfo
class OnDemandVODSegmentTest : public ::testing::Test {
};
TEST_F(OnDemandVODSegmentTest, SegmentBase) {
const char kTestMediaInfo[] =
"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_url: 'encrypted_audio.mp4'\n"
"media_duration_seconds: 24.009434\n"
"reference_time_scale: 44100\n"
"presentation_time_offset: 100\n";
const MediaInfo media_info = ConvertToMediaInfo(kTestMediaInfo);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddVODOnlyInfo(media_info, false, 100));
EXPECT_THAT(representation,
XmlNodeEqual("<Representation>"
"<BaseURL>encrypted_audio.mp4</BaseURL>"
"<SegmentBase indexRange=\"864-931\" "
"timescale=\"44100\" presentationTimeOffset=\"100\">"
"<Initialization range=\"0-863\"/>"
"</SegmentBase>"
"</Representation>"));
}
TEST_F(OnDemandVODSegmentTest, TextInfoBaseUrl) {
const char kTextMediaInfo[] =
"text_info {\n"
" codec: 'ttml'\n"
" language: 'en'\n"
" type: SUBTITLE\n"
"}\n"
"media_duration_seconds: 35\n"
"bandwidth: 1000\n"
"media_file_url: 'subtitle.xml'\n"
"container_type: CONTAINER_TEXT\n";
const MediaInfo media_info = ConvertToMediaInfo(kTextMediaInfo);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddVODOnlyInfo(media_info, false, 100));
EXPECT_THAT(representation, XmlNodeEqual("<Representation>"
"<BaseURL>subtitle.xml</BaseURL>"
"</Representation>"));
}
TEST_F(OnDemandVODSegmentTest, TextInfoWithPresentationOffset) {
const char kTextMediaInfo[] =
"text_info {\n"
" codec: 'ttml'\n"
" language: 'en'\n"
" type: SUBTITLE\n"
"}\n"
"media_duration_seconds: 35\n"
"bandwidth: 1000\n"
"media_file_url: 'subtitle.xml'\n"
"container_type: CONTAINER_TEXT\n"
"presentation_time_offset: 100\n";
const MediaInfo media_info = ConvertToMediaInfo(kTextMediaInfo);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddVODOnlyInfo(media_info, false, 100));
EXPECT_THAT(representation,
XmlNodeEqual("<Representation>"
"<SegmentList presentationTimeOffset=\"100\">"
"<SegmentURL media=\"subtitle.xml\"/>"
"</SegmentList>"
"</Representation>"));
}
TEST_F(OnDemandVODSegmentTest, SegmentListWithoutUrls) {
const char kTestMediaInfo[] =
"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_url: 'encrypted_audio.mp4'\n"
"media_duration_seconds: 24.009434\n"
"reference_time_scale: 44100\n"
"presentation_time_offset: 100\n";
const MediaInfo media_info = ConvertToMediaInfo(kTestMediaInfo);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddVODOnlyInfo(media_info, true, 100));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation>"
"<BaseURL>encrypted_audio.mp4</BaseURL>"
"<SegmentList timescale=\"44100\" duration=\"4410000\" "
"presentationTimeOffset=\"100\">"
"<Initialization range=\"0-863\"/>"
"</SegmentList>"
"</Representation>"));
}
TEST_F(OnDemandVODSegmentTest, SegmentUrlWithMediaRanges) {
const char kTextMediaInfo[] =
"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_url: 'encrypted_audio.mp4'\n"
"media_duration_seconds: 24.009434\n"
"reference_time_scale: 44100\n"
"presentation_time_offset: 100\n"
"subsegment_ranges {\n"
" begin: 932\n"
" end: 9999\n"
"}\n"
"subsegment_ranges {\n"
" begin: 10000\n"
" end: 11000\n"
"}\n";
const MediaInfo media_info = ConvertToMediaInfo(kTextMediaInfo);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddVODOnlyInfo(media_info, true, 100));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation>"
"<BaseURL>encrypted_audio.mp4</BaseURL>"
"<SegmentList timescale=\"44100\" duration=\"4410000\" "
"presentationTimeOffset=\"100\">"
"<Initialization range=\"0-863\"/>"
"<SegmentURL mediaRange=\"932-9999\"/>"
"<SegmentURL mediaRange=\"10000-11000\"/>"
"</SegmentList>"
"</Representation>"));
}
class LowLatencySegmentTest : public ::testing::Test {
protected:
void SetUp() override {
media_info_.set_init_segment_url("init.m4s");
media_info_.set_segment_template_url("$Number$.m4s");
media_info_.set_reference_time_scale(90000);
media_info_.set_availability_time_offset(4.9750987314);
media_info_.set_segment_duration(450000);
}
MediaInfo media_info_;
};
TEST_F(LowLatencySegmentTest, LowLatencySegmentTemplate) {
const uint32_t kStartNumber = 1;
const uint64_t kDuration = 100;
const uint64_t kRepeat = 0;
const bool kIsLowLatency = true;
std::list<SegmentInfo> segment_infos = {
{kStartNumber, kDuration, kRepeat},
};
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddLiveOnlyInfo(media_info_, segment_infos,
kStartNumber, kIsLowLatency));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation>"
" <SegmentTemplate timescale=\"90000\" duration=\"450000\" "
" availabilityTimeOffset=\"4.975099\" "
fix: Low Latency DASH: include the "availabilityTimeComplete=false" attribute (#1198) # Low Latency DASH - `availabilityTimeComplete=false` Low Latency DASH manifests generated by Packager were missing the attribute `availabilityTimeComplete`. As per the [DASH specs](https://dashif.org/docs/CR-Low-Latency-Live-r8.pdf): **_the AdaptationSet@availabilityTimeCompleteshould be present and be set to 'FALSE'_** ## The Issue The missing attribute caused ULL streams from Shaka Packager to no longer be compatible with DASH.js. Previous versions of DASH.js allowed users to specify ULL mode when initializing the player. However, the most recent releases of DASH.js automatically detect ULL by scanning the manifest for ULL specific attributes. Although there are many attributes only associated with ULL, [DASH.js only greps for `availabilityTimeComplete` in its detection logic](https://github.com/Dash-Industry-Forum/dash.js/blob/development/src/streaming/controllers/PlaybackController.js#L792-L805). Because of the missing attribute in Packager and the limited ULL verification criteria by DASH.js, Packager streams were not being treated as low latency streams by DASH.js. ## Testing ### Unit Testing `./mpd_unittest --gtest_filter="SegmentTemplateTest.OneSegmentLowLatency"` ` ./mpd_unittest --gtest_filter="LowLatencySegmentTest.LowLatencySegmentTemplate"` ### Manual Testing - Created a low latency stream with Shaka Packager - Observed the expected `availabilityTimeComplete=false` attribute in the generated DASH manifest.
2023-07-05 21:33:51 +00:00
" availabilityTimeComplete=\"false\" "
" initialization=\"init.m4s\" "
" media=\"$Number$.m4s\" "
" startNumber=\"1\"/>"
"</Representation>"));
}
TEST(XmlNodeTest, AddDTSCAudioInfo) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("dtsc");
audio_info.set_sampling_frequency(48000);
audio_info.set_num_channels(6);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(
representation,
XmlNodeEqual(
"<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"tag:dts.com,2014:dash:audio_channel_configuration:2012\"\n"
" value=\"6\"/>\n"
"</Representation>\n"));
}
TEST(XmlNodeTest, AddDTSEAudioInfo) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("dtse");
audio_info.set_sampling_frequency(48000);
audio_info.set_num_channels(6);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(
representation,
XmlNodeEqual(
"<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"tag:dts.com,2014:dash:audio_channel_configuration:2012\"\n"
" value=\"6\"/>\n"
"</Representation>\n"));
}
TEST(XmlNodeTest, AddDTSXAudioInfo) {
MediaInfo::AudioInfo audio_info;
audio_info.set_codec("dtsx");
audio_info.set_sampling_frequency(48000);
audio_info.mutable_codec_specific_data()->set_channel_mask(0x3F);
RepresentationXmlNode representation;
ASSERT_TRUE(representation.AddAudioInfo(audio_info));
EXPECT_THAT(
representation,
XmlNodeEqual("<Representation audioSamplingRate=\"48000\">\n"
" <AudioChannelConfiguration\n"
" schemeIdUri=\n"
" \"tag:dts.com,2018:uhd:audio_channel_configuration\"\n"
" value=\"0000003F\"/>\n"
"</Representation>\n"));
}
} // namespace xml
} // namespace shaka