shaka-packager/packager/mpd/base/period_unittest.cc

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// Copyright 2017 Google Inc. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
#include "packager/mpd/base/period.h"
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "packager/mpd/base/mock_mpd_builder.h"
#include "packager/mpd/base/mpd_options.h"
#include "packager/mpd/test/mpd_builder_test_helper.h"
#include "packager/mpd/test/xml_compare.h"
using ::testing::_;
using ::testing::ByMove;
using ::testing::ElementsAre;
using ::testing::Eq;
using ::testing::InSequence;
using ::testing::Return;
using ::testing::StrictMock;
namespace shaka {
namespace {
const uint32_t kDefaultPeriodId = 9u;
const double kDefaultPeriodStartTime = 5.6;
const bool kOutputPeriodDuration = true;
bool ElementEqual(const Element& lhs, const Element& rhs) {
const bool all_equal_except_sublement_check =
lhs.name == rhs.name && lhs.attributes.size() == rhs.attributes.size() &&
std::equal(lhs.attributes.begin(), lhs.attributes.end(),
rhs.attributes.begin()) &&
lhs.content == rhs.content &&
lhs.subelements.size() == rhs.subelements.size();
if (!all_equal_except_sublement_check) {
return false;
}
for (size_t i = 0; i < lhs.subelements.size(); ++i) {
if (!ElementEqual(lhs.subelements[i], rhs.subelements[i]))
return false;
}
return true;
}
bool ContentProtectionElementEqual(const ContentProtectionElement& lhs,
const ContentProtectionElement& rhs) {
const bool all_equal_except_sublement_check =
lhs.value == rhs.value && lhs.scheme_id_uri == rhs.scheme_id_uri &&
lhs.additional_attributes.size() == rhs.additional_attributes.size() &&
std::equal(lhs.additional_attributes.begin(),
lhs.additional_attributes.end(),
rhs.additional_attributes.begin()) &&
lhs.subelements.size() == rhs.subelements.size();
if (!all_equal_except_sublement_check)
return false;
for (size_t i = 0; i < lhs.subelements.size(); ++i) {
if (!ElementEqual(lhs.subelements[i], rhs.subelements[i]))
return false;
}
return true;
}
MATCHER_P(ContentProtectionElementEq, expected, "") {
return ContentProtectionElementEqual(arg, expected);
}
/// A Period class that is capable of injecting mocked AdaptationSet.
class TestablePeriod : public Period {
public:
TestablePeriod(const MpdOptions& mpd_options)
: Period(kDefaultPeriodId,
kDefaultPeriodStartTime,
mpd_options,
&sequence_number_) {}
MOCK_METHOD3(
NewAdaptationSet,
std::unique_ptr<AdaptationSet>(const std::string& lang,
const MpdOptions& options,
uint32_t* representation_counter));
private:
// Only for constructing the super class. Not used for testing.
uint32_t sequence_number_ = 0;
};
} // namespace
class PeriodTest : public ::testing::TestWithParam<bool> {
public:
PeriodTest()
: testable_period_(mpd_options_),
default_adaptation_set_(new StrictMock<MockAdaptationSet>()),
default_adaptation_set_ptr_(default_adaptation_set_.get()) {}
void SetUp() override { content_protection_in_adaptation_set_ = GetParam(); }
protected:
MpdOptions mpd_options_;
TestablePeriod testable_period_;
bool content_protection_in_adaptation_set_ = true;
// Default mock that can be used for the tests.
std::unique_ptr<StrictMock<MockAdaptationSet>> default_adaptation_set_;
StrictMock<MockAdaptationSet>* default_adaptation_set_ptr_;
};
TEST_P(PeriodTest, GetXml) {
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: 1\n";
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(default_adaptation_set_))));
ASSERT_EQ(default_adaptation_set_ptr_,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVideoMediaInfo),
content_protection_in_adaptation_set_));
const char kExpectedXml[] =
"<Period id=\"9\">"
// ContentType and Representation elements are populated after
// Representation::Init() is called.
" <AdaptationSet contentType=\"\"/>"
"</Period>";
EXPECT_THAT(testable_period_.GetXml(!kOutputPeriodDuration).get(),
XmlNodeEqual(kExpectedXml));
}
TEST_P(PeriodTest, DynamicMpdGetXml) {
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: 1\n";
mpd_options_.mpd_type = MpdType::kDynamic;
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(default_adaptation_set_))));
ASSERT_EQ(default_adaptation_set_ptr_,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVideoMediaInfo),
content_protection_in_adaptation_set_));
const char kExpectedXml[] =
"<Period id=\"9\" start=\"PT5.6S\">"
// ContentType and Representation elements are populated after
// Representation::Init() is called.
" <AdaptationSet contentType=\"\"/>"
"</Period>";
EXPECT_THAT(testable_period_.GetXml(!kOutputPeriodDuration).get(),
XmlNodeEqual(kExpectedXml));
}
TEST_P(PeriodTest, SetDurationAndGetXml) {
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: 1\n";
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(default_adaptation_set_))));
ASSERT_EQ(default_adaptation_set_ptr_,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVideoMediaInfo),
content_protection_in_adaptation_set_));
testable_period_.set_duration_seconds(100.234);
const char kExpectedXml[] =
"<Period id=\"9\" duration=\"PT100.234S\">"
// ContentType and Representation elements are populated after
// Representation::Init() is called.
" <AdaptationSet contentType=\"\"/>"
"</Period>";
EXPECT_THAT(testable_period_.GetXml(kOutputPeriodDuration).get(),
XmlNodeEqual(kExpectedXml));
const char kExpectedXmlSuppressDuration[] =
"<Period id=\"9\">"
// ContentType and Representation elements are populated after
// Representation::Init() is called.
" <AdaptationSet contentType=\"\"/>"
"</Period>";
EXPECT_THAT(testable_period_.GetXml(!kOutputPeriodDuration).get(),
XmlNodeEqual(kExpectedXmlSuppressDuration));
}
// Verify ForceSetSegmentAlignment is called.
TEST_P(PeriodTest, Text) {
const char kTextMediaInfo[] =
"text_info {\n"
" codec: 'ttml'\n"
" language: 'en'\n"
"}\n"
"container_type: CONTAINER_TEXT\n";
EXPECT_CALL(testable_period_, NewAdaptationSet(Eq("en"), _, _))
.WillOnce(Return(ByMove(std::move(default_adaptation_set_))));
EXPECT_CALL(*default_adaptation_set_ptr_, ForceSetSegmentAlignment(true));
ASSERT_EQ(default_adaptation_set_ptr_,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kTextMediaInfo),
content_protection_in_adaptation_set_));
}
TEST_P(PeriodTest, TrickPlayWithMatchingAdaptationSet) {
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: 1\n";
const char kTrickPlayMediaInfo[] =
"video_info {\n"
" codec: 'avc1'\n"
" width: 1280\n"
" height: 720\n"
" time_scale: 10\n"
" frame_duration: 100\n"
" pixel_width: 1\n"
" pixel_height: 1\n"
" playback_rate: 10\n"
"}\n"
"container_type: 1\n";
std::unique_ptr<StrictMock<MockAdaptationSet>> trick_play_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* trick_play_adaptation_set_ptr = trick_play_adaptation_set.get();
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(default_adaptation_set_))))
.WillOnce(Return(ByMove(std::move(trick_play_adaptation_set))));
EXPECT_CALL(*trick_play_adaptation_set_ptr,
AddTrickPlayReference(Eq(default_adaptation_set_ptr_)));
ASSERT_EQ(default_adaptation_set_ptr_,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVideoMediaInfo),
content_protection_in_adaptation_set_));
ASSERT_EQ(trick_play_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kTrickPlayMediaInfo),
content_protection_in_adaptation_set_));
}
// Verify no AdaptationSet is returned on trickplay media info.
TEST_P(PeriodTest, TrickPlayWithNoMatchingAdaptationSet) {
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: 1\n";
const char kVp9TrickPlayMediaInfo[] =
"video_info {\n"
" codec: 'vp9'\n"
" width: 1280\n"
" height: 720\n"
" time_scale: 10\n"
" frame_duration: 100\n"
" pixel_width: 1\n"
" pixel_height: 1\n"
" playback_rate: 10\n"
"}\n"
"container_type: 1\n";
std::unique_ptr<StrictMock<MockAdaptationSet>> trick_play_adaptation_set(
new StrictMock<MockAdaptationSet>());
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(default_adaptation_set_))))
.WillOnce(Return(ByMove(std::move(trick_play_adaptation_set))));
ASSERT_EQ(default_adaptation_set_ptr_,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVideoMediaInfo),
content_protection_in_adaptation_set_));
// A nullptr is returned if it is not able to find matching AdaptationSet.
ASSERT_FALSE(testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVp9TrickPlayMediaInfo),
content_protection_in_adaptation_set_));
}
// With content_protection_adaptation_set_ == true, verify with different
// MediaInfo::ProtectedContent, two AdaptationSets should be created.
// AdaptationSets with different DRM won't be switchable.
// Otherwise, only one AdaptationSet is created.
TEST_P(PeriodTest, DifferentProtectedContent) {
// Note they both have different (bogus) pssh, like real use case.
// default Key ID = _default_key_id_
const char kSdProtectedContent[] =
"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"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'myuuid'\n"
" name_version: 'MyContentProtection version 1'\n"
" pssh: 'pssh1'\n"
" }\n"
" default_key_id: '_default_key_id_'\n"
"}\n"
"container_type: 1\n";
// default Key ID = .default.key.id.
const char kHdProtectedContent[] =
"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"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'anotheruuid'\n"
" name_version: 'SomeOtherProtection version 3'\n"
" pssh: 'pssh2'\n"
" }\n"
" default_key_id: '.default.key.id.'\n"
"}\n"
"container_type: 1\n";
// Check that the right ContentProtectionElements for SD is created.
// HD is the same case, so not checking.
ContentProtectionElement mp4_protection;
mp4_protection.scheme_id_uri = "urn:mpeg:dash:mp4protection:2011";
mp4_protection.value = "cenc";
// This should match the "_default_key_id_" above, but taking it as hex data
// and converted to UUID format.
mp4_protection.additional_attributes["cenc:default_KID"] =
"5f646566-6175-6c74-5f6b-65795f69645f";
ContentProtectionElement sd_my_drm;
sd_my_drm.scheme_id_uri = "urn:uuid:myuuid";
sd_my_drm.value = "MyContentProtection version 1";
Element cenc_pssh;
cenc_pssh.name = "cenc:pssh";
cenc_pssh.content = "cHNzaDE="; // Base64 encoding of 'pssh1'.
sd_my_drm.subelements.push_back(cenc_pssh);
// Not using default mocks in this test so that we can keep track of
// mocks by named mocks.
std::unique_ptr<StrictMock<MockAdaptationSet>> sd_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* sd_adaptation_set_ptr = sd_adaptation_set.get();
std::unique_ptr<StrictMock<MockAdaptationSet>> hd_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* hd_adaptation_set_ptr = hd_adaptation_set.get();
InSequence in_sequence;
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(sd_adaptation_set))));
if (content_protection_in_adaptation_set_) {
EXPECT_CALL(*sd_adaptation_set_ptr,
AddContentProtectionElement(
ContentProtectionElementEq(mp4_protection)));
EXPECT_CALL(
*sd_adaptation_set_ptr,
AddContentProtectionElement(ContentProtectionElementEq(sd_my_drm)));
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(hd_adaptation_set))));
// Add main Role here for both.
EXPECT_CALL(*sd_adaptation_set_ptr, AddRole(AdaptationSet::kRoleMain));
EXPECT_CALL(*hd_adaptation_set_ptr, AddRole(AdaptationSet::kRoleMain));
// Called twice for the same reason as above.
EXPECT_CALL(*hd_adaptation_set_ptr, AddContentProtectionElement(_))
.Times(2);
}
ASSERT_EQ(sd_adaptation_set_ptr, testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kSdProtectedContent),
content_protection_in_adaptation_set_));
ASSERT_EQ(content_protection_in_adaptation_set_ ? hd_adaptation_set_ptr
: sd_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kHdProtectedContent),
content_protection_in_adaptation_set_));
}
// Verify with the same MediaInfo::ProtectedContent, only one AdaptationSets
// should be created regardless of the value of
// content_protection_in_adaptation_set_.
TEST_P(PeriodTest, SameProtectedContent) {
// These have the same default key ID and PSSH.
const char kSdProtectedContent[] =
"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"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'myuuid'\n"
" name_version: 'MyContentProtection version 1'\n"
" pssh: 'psshbox'\n"
" }\n"
" default_key_id: '.DEFAULT.KEY.ID.'\n"
"}\n"
"container_type: 1\n";
const char kHdProtectedContent[] =
"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"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'myuuid'\n"
" name_version: 'MyContentProtection version 1'\n"
" pssh: 'psshbox'\n"
" }\n"
" default_key_id: '.DEFAULT.KEY.ID.'\n"
"}\n"
"container_type: 1\n";
ContentProtectionElement mp4_protection;
mp4_protection.scheme_id_uri = "urn:mpeg:dash:mp4protection:2011";
mp4_protection.value = "cenc";
// This should match the ".DEFAULT.KEY.ID." above, but taking it as hex data
// and converted to UUID format.
mp4_protection.additional_attributes["cenc:default_KID"] =
"2e444546-4155-4c54-2e4b-45592e49442e";
ContentProtectionElement my_drm;
my_drm.scheme_id_uri = "urn:uuid:myuuid";
my_drm.value = "MyContentProtection version 1";
Element cenc_pssh;
cenc_pssh.name = "cenc:pssh";
cenc_pssh.content = "cHNzaGJveA=="; // Base64 encoding of 'psshbox'.
my_drm.subelements.push_back(cenc_pssh);
InSequence in_sequence;
// Only called once.
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(default_adaptation_set_))));
if (content_protection_in_adaptation_set_) {
EXPECT_CALL(*default_adaptation_set_ptr_,
AddContentProtectionElement(
ContentProtectionElementEq(mp4_protection)));
EXPECT_CALL(
*default_adaptation_set_ptr_,
AddContentProtectionElement(ContentProtectionElementEq(my_drm)));
}
ASSERT_EQ(default_adaptation_set_ptr_,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kSdProtectedContent),
content_protection_in_adaptation_set_));
ASSERT_EQ(default_adaptation_set_ptr_,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kHdProtectedContent),
content_protection_in_adaptation_set_));
}
// With content_protection_in_adaptation_set_ == true,
// Default Key IDs are different but if the content protection UUIDs match,
// then the AdaptationSet they belong to should be switchable. This is a long
// test. Basically this
// 1. Add an SD protected content. This should make an AdaptationSet.
// 2. Add an HD protected content. This should make another AdaptationSet that
// is different from the SD version. SD AdaptationSet and HD AdaptationSet
// should be switchable.
// 3. Add a 4k protected content. This should also make a new AdaptationSet.
// It should be switchable with SD/HD AdaptationSet.
// Otherwise only one AdaptationSet is created.
TEST_P(PeriodTest, SetAdaptationSetSwitching) {
// These have the same default key ID and PSSH.
const char kSdProtectedContent[] =
"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"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'myuuid'\n"
" name_version: 'MyContentProtection version 1'\n"
" pssh: 'pssh_sd'\n"
" }\n"
" default_key_id: '_default_key_id_'\n"
"}\n"
"container_type: 1\n";
const char kHdProtectedContent[] =
"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"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'myuuid'\n"
" name_version: 'MyContentProtection version 1'\n"
" pssh: 'pssh_hd'\n"
" }\n"
" default_key_id: '.DEFAULT.KEY.ID.'\n"
"}\n"
"container_type: 1\n";
const uint32_t kSdAdaptationSetId = 6u;
const uint32_t kHdAdaptationSetId = 7u;
std::unique_ptr<StrictMock<MockAdaptationSet>> sd_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* sd_adaptation_set_ptr = sd_adaptation_set.get();
sd_adaptation_set_ptr->set_id(kSdAdaptationSetId);
std::unique_ptr<StrictMock<MockAdaptationSet>> hd_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* hd_adaptation_set_ptr = hd_adaptation_set.get();
hd_adaptation_set_ptr->set_id(kHdAdaptationSetId);
InSequence in_sequence;
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(sd_adaptation_set))));
if (content_protection_in_adaptation_set_) {
EXPECT_CALL(*sd_adaptation_set_ptr, AddContentProtectionElement(_))
.Times(2);
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(hd_adaptation_set))));
// Add main Role here for both.
EXPECT_CALL(*sd_adaptation_set_ptr, AddRole(AdaptationSet::kRoleMain));
EXPECT_CALL(*hd_adaptation_set_ptr, AddRole(AdaptationSet::kRoleMain));
EXPECT_CALL(*hd_adaptation_set_ptr, AddContentProtectionElement(_))
.Times(2);
EXPECT_CALL(*sd_adaptation_set_ptr,
AddAdaptationSetSwitching(hd_adaptation_set_ptr));
EXPECT_CALL(*hd_adaptation_set_ptr,
AddAdaptationSetSwitching(sd_adaptation_set_ptr));
}
ASSERT_EQ(sd_adaptation_set_ptr, testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kSdProtectedContent),
content_protection_in_adaptation_set_));
ASSERT_EQ(content_protection_in_adaptation_set_ ? hd_adaptation_set_ptr
: sd_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kHdProtectedContent),
content_protection_in_adaptation_set_));
// Add another content that has the same protected content and make sure that
// adaptation set switching is set correctly.
const char k4kProtectedContent[] =
"video_info {\n"
" codec: 'avc1'\n"
" width: 4096\n"
" height: 2160\n"
" time_scale: 10\n"
" frame_duration: 10\n"
" pixel_width: 1\n"
" pixel_height: 1\n"
"}\n"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'myuuid'\n"
" name_version: 'MyContentProtection version 1'\n"
" pssh: 'pssh_4k'\n"
" }\n"
" default_key_id: 'some16bytestring'\n"
"}\n"
"container_type: 1\n";
const uint32_t k4kAdaptationSetId = 4000u;
std::unique_ptr<StrictMock<MockAdaptationSet>> fourk_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* fourk_adaptation_set_ptr = fourk_adaptation_set.get();
fourk_adaptation_set_ptr->set_id(k4kAdaptationSetId);
if (content_protection_in_adaptation_set_) {
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(fourk_adaptation_set))));
EXPECT_CALL(*fourk_adaptation_set_ptr, AddRole(AdaptationSet::kRoleMain));
EXPECT_CALL(*fourk_adaptation_set_ptr, AddContentProtectionElement(_))
.Times(2);
EXPECT_CALL(*sd_adaptation_set_ptr,
AddAdaptationSetSwitching(fourk_adaptation_set_ptr));
EXPECT_CALL(*fourk_adaptation_set_ptr,
AddAdaptationSetSwitching(sd_adaptation_set_ptr));
EXPECT_CALL(*hd_adaptation_set_ptr,
AddAdaptationSetSwitching(fourk_adaptation_set_ptr));
EXPECT_CALL(*fourk_adaptation_set_ptr,
AddAdaptationSetSwitching(hd_adaptation_set_ptr));
}
ASSERT_EQ(content_protection_in_adaptation_set_ ? fourk_adaptation_set_ptr
: sd_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(k4kProtectedContent),
content_protection_in_adaptation_set_));
}
// Even if the UUIDs match, video and audio AdaptationSets should not be
// switchable.
TEST_P(PeriodTest, DoNotSetAdaptationSetSwitchingIfContentTypesDifferent) {
// These have the same default key ID and PSSH.
const char kVideoContent[] =
"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"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'myuuid'\n"
" name_version: 'MyContentProtection version 1'\n"
" pssh: 'pssh_video'\n"
" }\n"
" default_key_id: '_default_key_id_'\n"
"}\n"
"container_type: 1\n";
const char kAudioContent[] =
"audio_info {\n"
" codec: 'mp4a.40.2'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
"}\n"
"protected_content {\n"
" content_protection_entry {\n"
" uuid: 'myuuid'\n"
" name_version: 'MyContentProtection version 1'\n"
" pssh: 'pssh_audio'\n"
" }\n"
" default_key_id: '_default_key_id_'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: 1\n"
"media_duration_seconds: 10.5\n";
const uint32_t kVideoAdaptationSetId = 6u;
const uint32_t kAudioAdaptationSetId = 7u;
std::unique_ptr<StrictMock<MockAdaptationSet>> video_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* video_adaptation_set_ptr = video_adaptation_set.get();
video_adaptation_set_ptr->set_id(kVideoAdaptationSetId);
std::unique_ptr<StrictMock<MockAdaptationSet>> audio_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* audio_adaptation_set_ptr = audio_adaptation_set.get();
audio_adaptation_set_ptr->set_id(kAudioAdaptationSetId);
InSequence in_sequence;
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(video_adaptation_set))));
if (content_protection_in_adaptation_set_) {
EXPECT_CALL(*video_adaptation_set_ptr, AddContentProtectionElement(_))
.Times(2);
}
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(audio_adaptation_set))));
if (content_protection_in_adaptation_set_) {
EXPECT_CALL(*audio_adaptation_set_ptr, AddContentProtectionElement(_))
.Times(2);
}
ASSERT_EQ(video_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVideoContent),
content_protection_in_adaptation_set_));
ASSERT_EQ(audio_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kAudioContent),
content_protection_in_adaptation_set_));
}
// Don't put different audio languages or codecs in the same AdaptationSet.
TEST_P(PeriodTest, SplitAdaptationSetsByLanguageAndCodec) {
const char kAacEnglishAudioContent[] =
"audio_info {\n"
" codec: 'mp4a.40.2'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
" language: 'eng'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: CONTAINER_MP4\n"
"media_duration_seconds: 10.5\n";
const char kAacGermanAudioContent[] =
"audio_info {\n"
" codec: 'mp4a.40.2'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
" language: 'ger'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: CONTAINER_MP4\n"
"media_duration_seconds: 10.5\n";
const char kVorbisGermanAudioContent1[] =
"audio_info {\n"
" codec: 'vorbis'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
" language: 'ger'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: CONTAINER_WEBM\n"
"media_duration_seconds: 10.5\n";
const char kVorbisGermanAudioContent2[] =
"audio_info {\n"
" codec: 'vorbis'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
" language: 'ger'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: CONTAINER_WEBM\n"
"media_duration_seconds: 10.5\n";
std::unique_ptr<StrictMock<MockAdaptationSet>> aac_eng_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* aac_eng_adaptation_set_ptr = aac_eng_adaptation_set.get();
std::unique_ptr<StrictMock<MockAdaptationSet>> aac_ger_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* aac_ger_adaptation_set_ptr = aac_ger_adaptation_set.get();
std::unique_ptr<StrictMock<MockAdaptationSet>> vorbis_german_adaptation_set(
new StrictMock<MockAdaptationSet>());
auto* vorbis_german_adaptation_set_ptr = vorbis_german_adaptation_set.get();
// We expect three AdaptationSets.
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(aac_eng_adaptation_set))))
.WillOnce(Return(ByMove(std::move(aac_ger_adaptation_set))))
.WillOnce(Return(ByMove(std::move(vorbis_german_adaptation_set))));
ASSERT_EQ(aac_eng_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kAacEnglishAudioContent),
content_protection_in_adaptation_set_));
ASSERT_EQ(aac_ger_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kAacGermanAudioContent),
content_protection_in_adaptation_set_));
ASSERT_EQ(vorbis_german_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVorbisGermanAudioContent1),
content_protection_in_adaptation_set_));
// The same AdaptationSet is returned.
ASSERT_EQ(vorbis_german_adaptation_set_ptr,
testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kVorbisGermanAudioContent2),
content_protection_in_adaptation_set_));
}
TEST_P(PeriodTest, GetAdaptationSets) {
const char kContent1[] =
"audio_info {\n"
" codec: 'mp4a.40.2'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
" language: 'eng'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: CONTAINER_MP4\n"
"media_duration_seconds: 10.5\n";
const char kContent2[] =
"audio_info {\n"
" codec: 'mp4a.40.2'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
" language: 'ger'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: CONTAINER_MP4\n"
"media_duration_seconds: 10.5\n";
std::unique_ptr<StrictMock<MockAdaptationSet>> adaptation_set_1(
new StrictMock<MockAdaptationSet>());
auto* adaptation_set_1_ptr = adaptation_set_1.get();
std::unique_ptr<StrictMock<MockAdaptationSet>> adaptation_set_2(
new StrictMock<MockAdaptationSet>());
auto* adaptation_set_2_ptr = adaptation_set_2.get();
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(adaptation_set_1))))
.WillOnce(Return(ByMove(std::move(adaptation_set_2))));
ASSERT_EQ(adaptation_set_1_ptr, testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kContent1),
content_protection_in_adaptation_set_));
EXPECT_THAT(testable_period_.GetAdaptationSets(),
ElementsAre(adaptation_set_1_ptr));
ASSERT_EQ(adaptation_set_2_ptr, testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kContent2),
content_protection_in_adaptation_set_));
EXPECT_THAT(testable_period_.GetAdaptationSets(),
ElementsAre(adaptation_set_1_ptr, adaptation_set_2_ptr));
}
TEST_P(PeriodTest, OrderedByAdaptationSetId) {
const char kContent1[] =
"audio_info {\n"
" codec: 'mp4a.40.2'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
" language: 'eng'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: CONTAINER_MP4\n"
"media_duration_seconds: 10.5\n";
const char kContent2[] =
"audio_info {\n"
" codec: 'mp4a.40.2'\n"
" sampling_frequency: 44100\n"
" time_scale: 1200\n"
" num_channels: 2\n"
" language: 'ger'\n"
"}\n"
"reference_time_scale: 50\n"
"container_type: CONTAINER_MP4\n"
"media_duration_seconds: 10.5\n";
std::unique_ptr<StrictMock<MockAdaptationSet>> adaptation_set_1(
new StrictMock<MockAdaptationSet>());
auto* adaptation_set_1_ptr = adaptation_set_1.get();
std::unique_ptr<StrictMock<MockAdaptationSet>> adaptation_set_2(
new StrictMock<MockAdaptationSet>());
auto* adaptation_set_2_ptr = adaptation_set_2.get();
EXPECT_CALL(testable_period_, NewAdaptationSet(_, _, _))
.WillOnce(Return(ByMove(std::move(adaptation_set_1))))
.WillOnce(Return(ByMove(std::move(adaptation_set_2))));
ASSERT_EQ(adaptation_set_1_ptr, testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kContent1),
content_protection_in_adaptation_set_));
ASSERT_EQ(adaptation_set_2_ptr, testable_period_.GetOrCreateAdaptationSet(
ConvertToMediaInfo(kContent2),
content_protection_in_adaptation_set_));
adaptation_set_1_ptr->set_id(2);
adaptation_set_2_ptr->set_id(1);
const char kExpectedXml[] =
R"(<Period id="9">)"
// ContentType and Representation elements are populated after
// Representation::Init() is called.
R"( <AdaptationSet id="1" contentType=""/>)"
R"( <AdaptationSet id="2" contentType=""/>)"
R"(</Period>)";
EXPECT_THAT(testable_period_.GetXml(!kOutputPeriodDuration).get(),
XmlNodeEqual(kExpectedXml));
}
INSTANTIATE_TEST_CASE_P(ContentProtectionInAdaptationSet,
PeriodTest,
::testing::Bool());
} // namespace shaka