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|
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
// Original author: ekr@rtfm.com
#include "logging.h"
#include "nss.h"
#include "ssl.h"
#include "api/audio_codecs/builtin_audio_decoder_factory.h"
#include "api/scoped_refptr.h"
#include "AudioSegment.h"
#include "Canonicals.h"
#include "modules/audio_device/include/fake_audio_device.h"
#include "modules/audio_mixer/audio_mixer_impl.h"
#include "modules/audio_processing/include/audio_processing.h"
#include "mozilla/Mutex.h"
#include "mozilla/RefPtr.h"
#include "mozilla/SpinEventLoopUntil.h"
#include "MediaConduitInterface.h"
#include "MediaPipeline.h"
#include "MediaPipelineFilter.h"
#include "MediaTrackGraph.h"
#include "MediaTrackListener.h"
#include "TaskQueueWrapper.h"
#include "mtransport_test_utils.h"
#include "SharedBuffer.h"
#include "MediaTransportHandler.h"
#include "WebrtcCallWrapper.h"
#include "PeerConnectionCtx.h"
#define GTEST_HAS_RTTI 0
#include "gtest/gtest.h"
using namespace mozilla;
MOZ_MTLOG_MODULE("transportbridge")
static MtransportTestUtils* test_utils;
namespace {
class MainAsCurrent : public TaskQueueWrapper<DeletionPolicy::NonBlocking> {
public:
MainAsCurrent()
: TaskQueueWrapper(
TaskQueue::Create(do_AddRef(GetMainThreadSerialEventTarget()),
"MainAsCurrentTaskQueue"),
"MainAsCurrent"_ns),
mSetter(this) {
MOZ_RELEASE_ASSERT(NS_IsMainThread());
}
~MainAsCurrent() = default;
private:
CurrentTaskQueueSetter mSetter;
};
class FakeAudioTrack : public ProcessedMediaTrack {
public:
FakeAudioTrack()
: ProcessedMediaTrack(44100, MediaSegment::AUDIO, nullptr),
mMutex("Fake AudioTrack") {
NS_NewTimerWithFuncCallback(
getter_AddRefs(mTimer), FakeAudioTrackGenerateData, this, 20,
nsITimer::TYPE_REPEATING_SLACK,
"FakeAudioTrack::FakeAudioTrackGenerateData", test_utils->sts_target());
}
void Destroy() override {
MutexAutoLock lock(mMutex);
MOZ_RELEASE_ASSERT(!mMainThreadDestroyed);
mMainThreadDestroyed = true;
mTimer->Cancel();
mTimer = nullptr;
}
void QueueSetAutoend(bool) override {}
void AddListener(MediaTrackListener* aListener) override {
MutexAutoLock lock(mMutex);
MOZ_RELEASE_ASSERT(!mListener);
mListener = aListener;
}
RefPtr<GenericPromise> RemoveListener(
MediaTrackListener* aListener) override {
MutexAutoLock lock(mMutex);
MOZ_RELEASE_ASSERT(mListener == aListener);
mListener = nullptr;
return GenericPromise::CreateAndResolve(true, __func__);
}
void ProcessInput(GraphTime aFrom, GraphTime aTo, uint32_t aFlags) override {}
uint32_t NumberOfChannels() const override { return NUM_CHANNELS; }
private:
Mutex mMutex MOZ_UNANNOTATED;
MediaTrackListener* mListener = nullptr;
nsCOMPtr<nsITimer> mTimer;
int mCount = 0;
static const int AUDIO_BUFFER_SIZE = 1600;
static const int NUM_CHANNELS = 2;
static void FakeAudioTrackGenerateData(nsITimer* timer, void* closure) {
auto t = static_cast<FakeAudioTrack*>(closure);
MutexAutoLock lock(t->mMutex);
if (t->mMainThreadDestroyed) {
return;
}
CheckedInt<size_t> bufferSize(sizeof(int16_t));
bufferSize *= NUM_CHANNELS;
bufferSize *= AUDIO_BUFFER_SIZE;
RefPtr<SharedBuffer> samples = SharedBuffer::Create(bufferSize);
int16_t* data = reinterpret_cast<int16_t*>(samples->Data());
for (int i = 0; i < (AUDIO_BUFFER_SIZE * NUM_CHANNELS); i++) {
// saw tooth audio sample
data[i] = ((t->mCount % 8) * 4000) - (7 * 4000) / 2;
t->mCount++;
}
AudioSegment segment;
AutoTArray<const int16_t*, 1> channels;
channels.AppendElement(data);
segment.AppendFrames(samples.forget(), channels, AUDIO_BUFFER_SIZE,
PRINCIPAL_HANDLE_NONE);
if (t->mListener) {
t->mListener->NotifyQueuedChanges(nullptr, 0, segment);
}
}
};
template <typename Function>
void RunOnSts(Function&& aFunction) {
MOZ_ALWAYS_SUCCEEDS(test_utils->SyncDispatchToSTS(
NS_NewRunnableFunction(__func__, [&] { aFunction(); })));
}
class LoopbackTransport : public MediaTransportHandler {
public:
LoopbackTransport() : MediaTransportHandler(nullptr) {
RunOnSts([&] {
SetState("mux", TransportLayer::TS_INIT);
SetRtcpState("mux", TransportLayer::TS_INIT);
SetState("non-mux", TransportLayer::TS_INIT);
SetRtcpState("non-mux", TransportLayer::TS_INIT);
});
}
static void InitAndConnect(LoopbackTransport& client,
LoopbackTransport& server) {
client.Connect(&server);
server.Connect(&client);
}
void Connect(LoopbackTransport* peer) { peer_ = peer; }
void Shutdown() { peer_ = nullptr; }
RefPtr<IceLogPromise> GetIceLog(const nsCString& aPattern) override {
return nullptr;
}
void ClearIceLog() override {}
void EnterPrivateMode() override {}
void ExitPrivateMode() override {}
void CreateIceCtx(const std::string& aName) override {}
nsresult SetIceConfig(const nsTArray<dom::RTCIceServer>& aIceServers,
dom::RTCIceTransportPolicy aIcePolicy) override {
return NS_OK;
}
void Destroy() override {}
// We will probably be able to move the proxy lookup stuff into
// this class once we move mtransport to its own process.
void SetProxyConfig(NrSocketProxyConfig&& aProxyConfig) override {}
void EnsureProvisionalTransport(const std::string& aTransportId,
const std::string& aLocalUfrag,
const std::string& aLocalPwd,
int aComponentCount) override {}
void SetTargetForDefaultLocalAddressLookup(const std::string& aTargetIp,
uint16_t aTargetPort) override {}
// We set default-route-only as late as possible because it depends on what
// capture permissions have been granted on the window, which could easily
// change between Init (ie; when the PC is created) and StartIceGathering
// (ie; when we set the local description).
void StartIceGathering(bool aDefaultRouteOnly, bool aObfuscateAddresses,
// TODO: It probably makes sense to look
// this up internally
const nsTArray<NrIceStunAddr>& aStunAddrs) override {}
void ActivateTransport(
const std::string& aTransportId, const std::string& aLocalUfrag,
const std::string& aLocalPwd, size_t aComponentCount,
const std::string& aUfrag, const std::string& aPassword,
const nsTArray<uint8_t>& aKeyDer, const nsTArray<uint8_t>& aCertDer,
SSLKEAType aAuthType, bool aDtlsClient, const DtlsDigestList& aDigests,
bool aPrivacyRequested) override {}
void RemoveTransportsExcept(
const std::set<std::string>& aTransportIds) override {}
void StartIceChecks(bool aIsControlling,
const std::vector<std::string>& aIceOptions) override {}
void AddIceCandidate(const std::string& aTransportId,
const std::string& aCandidate, const std::string& aUfrag,
const std::string& aObfuscatedAddress) override {}
void UpdateNetworkState(bool aOnline) override {}
RefPtr<dom::RTCStatsPromise> GetIceStats(const std::string& aTransportId,
DOMHighResTimeStamp aNow) override {
return nullptr;
}
void SendPacket(const std::string& aTransportId,
MediaPacket&& aPacket) override {
peer_->LoopbackPacketReceived(aTransportId, aPacket);
}
void SetState(const std::string& aTransportId, TransportLayer::State aState) {
MediaTransportHandler::OnStateChange(aTransportId, aState);
}
void SetRtcpState(const std::string& aTransportId,
TransportLayer::State aState) {
MediaTransportHandler::OnRtcpStateChange(aTransportId, aState);
}
void LoopbackPacketReceived(const std::string& aTransportId,
const MediaPacket& aPacket) {
if (aPacket.len() && aPacket.type() == MediaPacket::RTCP) {
++rtcp_packets_received_;
}
SignalPacketReceived(aTransportId, aPacket);
}
int RtcpPacketsReceived() const { return rtcp_packets_received_; }
private:
RefPtr<LoopbackTransport> peer_;
std::atomic<int> rtcp_packets_received_{0};
};
class TestAgent {
public:
explicit TestAgent(const RefPtr<SharedWebrtcState>& aSharedState)
: control_(aSharedState->mCallWorkerThread),
audio_config_(109, "opus", 48000, 2, false),
call_(WebrtcCallWrapper::Create(
mozilla::dom::RTCStatsTimestampMaker::Create(), nullptr,
aSharedState)),
audio_conduit_(
AudioSessionConduit::Create(call_, test_utils->sts_target())),
transport_(new LoopbackTransport) {
Unused << WaitFor(InvokeAsync(call_->mCallThread, __func__, [&] {
audio_conduit_->InitControl(&control_);
return GenericPromise::CreateAndResolve(true, "TestAgent()");
}));
}
static void Connect(TestAgent* client, TestAgent* server) {
LoopbackTransport::InitAndConnect(*client->transport_, *server->transport_);
}
virtual void CreatePipeline(const std::string& aTransportId) = 0;
void SetState_s(const std::string& aTransportId,
TransportLayer::State aState) {
transport_->SetState(aTransportId, aState);
}
void SetRtcpState_s(const std::string& aTransportId,
TransportLayer::State aState) {
transport_->SetRtcpState(aTransportId, aState);
}
void UpdateTransport_s(const std::string& aTransportId,
UniquePtr<MediaPipelineFilter>&& aFilter) {
audio_pipeline_->UpdateTransport_s(aTransportId, std::move(aFilter));
}
void Stop() {
MOZ_MTLOG(ML_DEBUG, "Stopping");
control_.Update([](auto& aControl) {
aControl.mTransmitting = false;
aControl.mReceiving = false;
});
}
void Shutdown_s() { transport_->Shutdown(); }
void Shutdown() {
if (audio_pipeline_) {
audio_pipeline_->Shutdown();
}
if (audio_conduit_) {
Unused << WaitFor(audio_conduit_->Shutdown());
}
if (call_) {
call_->Destroy();
}
if (audio_track_) {
audio_track_->Destroy();
audio_track_ = nullptr;
}
test_utils->SyncDispatchToSTS(WrapRunnable(this, &TestAgent::Shutdown_s));
}
uint32_t GetRemoteSSRC() {
return audio_conduit_->GetRemoteSSRC().valueOr(0);
}
uint32_t GetLocalSSRC() {
std::vector<uint32_t> res;
res = audio_conduit_->GetLocalSSRCs();
return res.empty() ? 0 : res[0];
}
int GetAudioRtpCountSent() { return audio_pipeline_->RtpPacketsSent(); }
int GetAudioRtpCountReceived() {
return audio_pipeline_->RtpPacketsReceived();
}
int GetAudioRtcpCountSent() { return audio_pipeline_->RtcpPacketsSent(); }
int GetAudioRtcpCountReceived() { return transport_->RtcpPacketsReceived(); }
protected:
ConcreteControl control_;
AudioCodecConfig audio_config_;
RefPtr<WebrtcCallWrapper> call_;
RefPtr<AudioSessionConduit> audio_conduit_;
RefPtr<FakeAudioTrack> audio_track_;
// TODO(bcampen@mozilla.com): Right now this does not let us test RTCP in
// both directions; only the sender's RTCP is sent, but the receiver should
// be sending it too.
RefPtr<MediaPipeline> audio_pipeline_;
RefPtr<LoopbackTransport> transport_;
};
class TestAgentSend : public TestAgent {
public:
explicit TestAgentSend(const RefPtr<SharedWebrtcState>& aSharedState)
: TestAgent(aSharedState) {
control_.Update([&](auto& aControl) {
aControl.mAudioSendCodec = Some(audio_config_);
});
audio_track_ = new FakeAudioTrack();
}
virtual void CreatePipeline(const std::string& aTransportId) {
std::string test_pc;
RefPtr<MediaPipelineTransmit> audio_pipeline =
MediaPipelineTransmit::Create(
test_pc, transport_, AbstractThread::MainThread(),
test_utils->sts_target(), false, audio_conduit_);
Unused << WaitFor(InvokeAsync(call_->mCallThread, __func__, [&] {
audio_pipeline->InitControl(&control_);
return GenericPromise::CreateAndResolve(true, __func__);
}));
audio_pipeline->SetSendTrackOverride(audio_track_);
control_.Update([](auto& aControl) { aControl.mTransmitting = true; });
audio_pipeline->UpdateTransport_m(aTransportId, nullptr);
audio_pipeline_ = audio_pipeline;
}
};
class TestAgentReceive : public TestAgent {
public:
explicit TestAgentReceive(const RefPtr<SharedWebrtcState>& aSharedState)
: TestAgent(aSharedState) {
control_.Update([&](auto& aControl) {
std::vector<AudioCodecConfig> codecs;
codecs.push_back(audio_config_);
aControl.mAudioRecvCodecs = codecs;
});
}
virtual void CreatePipeline(const std::string& aTransportId) {
std::string test_pc;
auto audio_pipeline = MakeRefPtr<MediaPipelineReceiveAudio>(
test_pc, transport_, AbstractThread::MainThread(),
test_utils->sts_target(),
static_cast<AudioSessionConduit*>(audio_conduit_.get()), nullptr,
TrackingId(), PRINCIPAL_HANDLE_NONE, PrincipalPrivacy::NonPrivate);
Unused << WaitFor(InvokeAsync(call_->mCallThread, __func__, [&] {
audio_pipeline->InitControl(&control_);
return GenericPromise::CreateAndResolve(true, __func__);
}));
control_.Update([](auto& aControl) { aControl.mReceiving = true; });
audio_pipeline->UpdateTransport_m(aTransportId, std::move(bundle_filter_));
audio_pipeline_ = audio_pipeline;
}
void SetBundleFilter(UniquePtr<MediaPipelineFilter>&& filter) {
bundle_filter_ = std::move(filter);
}
void UpdateTransport_s(const std::string& aTransportId,
UniquePtr<MediaPipelineFilter>&& filter) {
audio_pipeline_->UpdateTransport_s(aTransportId, std::move(filter));
}
private:
UniquePtr<MediaPipelineFilter> bundle_filter_;
};
void WaitFor(TimeDuration aDuration) {
bool done = false;
NS_DelayedDispatchToCurrentThread(
NS_NewRunnableFunction(__func__, [&] { done = true; }),
aDuration.ToMilliseconds());
SpinEventLoopUntil<ProcessFailureBehavior::IgnoreAndContinue>(
"WaitFor(TimeDuration aDuration)"_ns, [&] { return done; });
}
webrtc::AudioState::Config CreateAudioStateConfig() {
webrtc::AudioState::Config audio_state_config;
audio_state_config.audio_mixer = webrtc::AudioMixerImpl::Create();
webrtc::AudioProcessingBuilder audio_processing_builder;
audio_state_config.audio_processing = audio_processing_builder.Create();
audio_state_config.audio_device_module = new webrtc::FakeAudioDeviceModule();
return audio_state_config;
}
class MediaPipelineTest : public ::testing::Test {
public:
MediaPipelineTest()
: main_task_queue_(
WrapUnique<TaskQueueWrapper<DeletionPolicy::NonBlocking>>(
new MainAsCurrent())),
shared_state_(MakeAndAddRef<SharedWebrtcState>(
AbstractThread::MainThread(), CreateAudioStateConfig(),
already_AddRefed(
webrtc::CreateBuiltinAudioDecoderFactory().release()),
WrapUnique(new webrtc::NoTrialsConfig()))),
p1_(shared_state_),
p2_(shared_state_) {}
~MediaPipelineTest() {
p1_.Shutdown();
p2_.Shutdown();
}
static void SetUpTestCase() {
test_utils = new MtransportTestUtils();
NSS_NoDB_Init(nullptr);
NSS_SetDomesticPolicy();
}
// Setup transport.
void InitTransports() {
test_utils->SyncDispatchToSTS(
WrapRunnableNM(&TestAgent::Connect, &p2_, &p1_));
}
// Verify RTP and RTCP
void TestAudioSend(bool aIsRtcpMux,
UniquePtr<MediaPipelineFilter>&& initialFilter = nullptr,
UniquePtr<MediaPipelineFilter>&& refinedFilter = nullptr,
unsigned int ms_until_filter_update = 500,
unsigned int ms_of_traffic_after_answer = 10000) {
bool bundle = !!(initialFilter);
// We do not support testing bundle without rtcp mux, since that doesn't
// make any sense.
ASSERT_FALSE(!aIsRtcpMux && bundle);
p2_.SetBundleFilter(std::move(initialFilter));
// Setup transport flows
InitTransports();
std::string transportId = aIsRtcpMux ? "mux" : "non-mux";
p1_.CreatePipeline(transportId);
p2_.CreatePipeline(transportId);
// Set state of transports to CONNECTING. MediaPipeline doesn't really care
// about this transition, but we're trying to simluate what happens in a
// real case.
RunOnSts([&] {
p1_.SetState_s(transportId, TransportLayer::TS_CONNECTING);
p1_.SetRtcpState_s(transportId, TransportLayer::TS_CONNECTING);
p2_.SetState_s(transportId, TransportLayer::TS_CONNECTING);
p2_.SetRtcpState_s(transportId, TransportLayer::TS_CONNECTING);
});
WaitFor(TimeDuration::FromMilliseconds(10));
// Set state of transports to OPEN (ie; connected). This should result in
// media flowing.
RunOnSts([&] {
p1_.SetState_s(transportId, TransportLayer::TS_OPEN);
p1_.SetRtcpState_s(transportId, TransportLayer::TS_OPEN);
p2_.SetState_s(transportId, TransportLayer::TS_OPEN);
p2_.SetRtcpState_s(transportId, TransportLayer::TS_OPEN);
});
if (bundle) {
WaitFor(TimeDuration::FromMilliseconds(ms_until_filter_update));
// Leaving refinedFilter not set implies we want to just update with
// the other side's SSRC
if (!refinedFilter) {
refinedFilter = MakeUnique<MediaPipelineFilter>();
// Might not be safe, strictly speaking.
refinedFilter->AddRemoteSSRC(p1_.GetLocalSSRC());
}
RunOnSts([&] {
p2_.UpdateTransport_s(transportId, std::move(refinedFilter));
});
}
// wait for some RTP/RTCP tx and rx to happen
WaitFor(TimeDuration::FromMilliseconds(ms_of_traffic_after_answer));
p1_.Stop();
p2_.Stop();
// wait for any packets in flight to arrive
WaitFor(TimeDuration::FromMilliseconds(200));
p1_.Shutdown();
p2_.Shutdown();
if (!bundle) {
// If we are filtering, allow the test-case to do this checking.
ASSERT_GE(p1_.GetAudioRtpCountSent(), 40);
ASSERT_EQ(p1_.GetAudioRtpCountReceived(), p2_.GetAudioRtpCountSent());
ASSERT_EQ(p1_.GetAudioRtpCountSent(), p2_.GetAudioRtpCountReceived());
}
// No RTCP packets should have been dropped, because we do not filter them.
// Calling ShutdownMedia_m on both pipelines does not stop the flow of
// RTCP. So, we might be off by one here.
ASSERT_LE(p2_.GetAudioRtcpCountReceived(), p1_.GetAudioRtcpCountSent());
ASSERT_GE(p2_.GetAudioRtcpCountReceived() + 1, p1_.GetAudioRtcpCountSent());
}
void TestAudioReceiverBundle(
bool bundle_accepted, UniquePtr<MediaPipelineFilter>&& initialFilter,
UniquePtr<MediaPipelineFilter>&& refinedFilter = nullptr,
unsigned int ms_until_answer = 500,
unsigned int ms_of_traffic_after_answer = 10000) {
TestAudioSend(true, std::move(initialFilter), std::move(refinedFilter),
ms_until_answer, ms_of_traffic_after_answer);
}
protected:
// main_task_queue_ has this type to make sure it goes through Delete() when
// we're destroyed.
UniquePtr<TaskQueueWrapper<DeletionPolicy::NonBlocking>> main_task_queue_;
const RefPtr<SharedWebrtcState> shared_state_;
TestAgentSend p1_;
TestAgentReceive p2_;
};
class MediaPipelineFilterTest : public ::testing::Test {
public:
bool Filter(MediaPipelineFilter& filter, uint32_t ssrc, uint8_t payload_type,
const Maybe<std::string>& mid = Nothing()) {
webrtc::RTPHeader header;
header.ssrc = ssrc;
header.payloadType = payload_type;
mid.apply([&](const auto& mid) { header.extension.mid = mid; });
return filter.Filter(header);
}
};
TEST_F(MediaPipelineFilterTest, TestConstruct) { MediaPipelineFilter filter; }
TEST_F(MediaPipelineFilterTest, TestDefault) {
MediaPipelineFilter filter;
EXPECT_FALSE(Filter(filter, 233, 110));
}
TEST_F(MediaPipelineFilterTest, TestSSRCFilter) {
MediaPipelineFilter filter;
filter.AddRemoteSSRC(555);
EXPECT_TRUE(Filter(filter, 555, 110));
EXPECT_FALSE(Filter(filter, 556, 110));
}
TEST_F(MediaPipelineFilterTest, TestSSRCFilterOverridesPayloadTypeFilter) {
MediaPipelineFilter filter;
filter.AddRemoteSSRC(555);
filter.AddUniqueReceivePT(110);
// We have a configured ssrc; do not allow payload type matching.
EXPECT_FALSE(Filter(filter, 556, 110));
EXPECT_TRUE(Filter(filter, 555, 110));
}
#define SSRC(ssrc) \
((ssrc >> 24) & 0xFF), ((ssrc >> 16) & 0xFF), ((ssrc >> 8) & 0xFF), \
(ssrc & 0xFF)
#define REPORT_FRAGMENT(ssrc) \
SSRC(ssrc), 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
#define RTCP_TYPEINFO(num_rrs, type, size) 0x80 + num_rrs, type, 0, size
TEST_F(MediaPipelineFilterTest, TestMidFilter) {
MediaPipelineFilter filter;
const auto mid = Some(std::string("mid0"));
filter.SetRemoteMediaStreamId(mid);
EXPECT_FALSE(Filter(filter, 16, 110));
EXPECT_TRUE(Filter(filter, 16, 110, mid));
EXPECT_TRUE(Filter(filter, 16, 110));
EXPECT_FALSE(Filter(filter, 17, 110));
// The mid filter maintains a set of SSRCs. Adding a new SSRC should work
// and still allow previous SSRCs to work. Unrecognized SSRCs should still be
// filtered out.
EXPECT_TRUE(Filter(filter, 18, 111, mid));
EXPECT_TRUE(Filter(filter, 18, 111));
EXPECT_TRUE(Filter(filter, 16, 110));
EXPECT_FALSE(Filter(filter, 17, 110));
}
TEST_F(MediaPipelineFilterTest, TestPayloadTypeFilter) {
MediaPipelineFilter filter;
filter.AddUniqueReceivePT(110);
EXPECT_TRUE(Filter(filter, 555, 110));
EXPECT_FALSE(Filter(filter, 556, 111));
// Matching based on unique payload type causes us to learn the ssrc.
EXPECT_TRUE(Filter(filter, 555, 98));
// Once we have learned an SSRC, do _not_ learn new ones based on payload
// type.
EXPECT_FALSE(Filter(filter, 557, 110));
}
TEST_F(MediaPipelineFilterTest, TestSSRCMovedWithMid) {
MediaPipelineFilter filter;
const auto mid0 = Some(std::string("mid0"));
const auto mid1 = Some(std::string("mid1"));
filter.SetRemoteMediaStreamId(mid0);
ASSERT_TRUE(Filter(filter, 555, 110, mid0));
ASSERT_TRUE(Filter(filter, 555, 110));
// Present a new MID binding
ASSERT_FALSE(Filter(filter, 555, 110, mid1));
ASSERT_FALSE(Filter(filter, 555, 110));
}
TEST_F(MediaPipelineFilterTest, TestRemoteSDPNoSSRCs) {
// If the remote SDP doesn't have SSRCs, right now this is a no-op and
// there is no point of even incorporating a filter, but we make the
// behavior consistent to avoid confusion.
MediaPipelineFilter filter;
const auto mid = Some(std::string("mid0"));
filter.SetRemoteMediaStreamId(mid);
filter.AddUniqueReceivePT(111);
EXPECT_TRUE(Filter(filter, 555, 110, mid));
EXPECT_TRUE(Filter(filter, 555, 110));
// Update but remember binding./
MediaPipelineFilter filter2;
filter.Update(filter2);
// Ensure that the old SSRC still works.
EXPECT_TRUE(Filter(filter, 555, 110));
// Forget the previous binding
MediaPipelineFilter filter3;
filter3.SetRemoteMediaStreamId(Some(std::string("mid1")));
filter.Update(filter3);
ASSERT_FALSE(Filter(filter, 555, 110));
}
TEST_F(MediaPipelineTest, TestAudioSendNoMux) { TestAudioSend(false); }
TEST_F(MediaPipelineTest, TestAudioSendMux) { TestAudioSend(true); }
TEST_F(MediaPipelineTest, TestAudioSendBundle) {
auto filter = MakeUnique<MediaPipelineFilter>();
// These durations have to be _extremely_ long to have any assurance that
// some RTCP will be sent at all. This is because the first RTCP packet
// is sometimes sent before the transports are ready, which causes it to
// be dropped.
TestAudioReceiverBundle(
true, std::move(filter),
// We do not specify the filter for the remote description, so it will be
// set to something sane after a short time.
nullptr, 10000, 10000);
// Some packets should have been dropped, but not all
ASSERT_GT(p1_.GetAudioRtpCountSent(), p2_.GetAudioRtpCountReceived());
ASSERT_GT(p2_.GetAudioRtpCountReceived(), 40);
ASSERT_GT(p1_.GetAudioRtcpCountSent(), 1);
}
TEST_F(MediaPipelineTest, TestAudioSendEmptyBundleFilter) {
auto filter = MakeUnique<MediaPipelineFilter>();
auto bad_answer_filter = MakeUnique<MediaPipelineFilter>();
TestAudioReceiverBundle(true, std::move(filter),
std::move(bad_answer_filter));
// Filter is empty, so should drop everything.
ASSERT_EQ(0, p2_.GetAudioRtpCountReceived());
}
} // end namespace
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