test/peer_scenario/tests/unsignaled_stream_test.cc - src - Git at Google

 /*
  *  Copyright (c) 2020 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "media/base/stream_params.h"
 #include "modules/rtp_rtcp/source/byte_io.h"
 #include "modules/rtp_rtcp/source/rtp_util.h"
 #include "pc/media_session.h"
 #include "pc/session_description.h"
 #include "test/field_trial.h"
 #include "test/gmock.h"
 #include "test/gtest.h"
 #include "test/peer_scenario/peer_scenario.h"

 namespace webrtc {
 namespace test {
 namespace {

 enum class MidTestConfiguration {
   // Legacy endpoint setup where PT demuxing is used.
   kMidNotNegotiated,
   // MID is negotiated but missing from packets. PT demuxing is disabled, so
   // SSRCs have to be added to the SDP for WebRTC to forward packets correctly.
   // Happens when client is spec compliant but the SFU isn't. Popular legacy.
   kMidNegotiatedButMissingFromPackets,
   // Fully spec-compliant: MID is present so we can safely drop packets with
   // unknown MIDs.
   kMidNegotiatedAndPresentInPackets,
 };

 // Gives the parameterized test a readable suffix.
 std::string TestParametersMidTestConfigurationToString(
     testing::TestParamInfo<MidTestConfiguration> info) {
   switch (info.param) {
     case MidTestConfiguration::kMidNotNegotiated:
       return "MidNotNegotiated";
     case MidTestConfiguration::kMidNegotiatedButMissingFromPackets:
       return "MidNegotiatedButMissingFromPackets";
     case MidTestConfiguration::kMidNegotiatedAndPresentInPackets:
       return "MidNegotiatedAndPresentInPackets";
   }
 }

 class FrameObserver : public rtc::VideoSinkInterface<VideoFrame> {
  public:
   FrameObserver() : frame_observed_(false) {}
   void OnFrame(const VideoFrame&) override { frame_observed_ = true; }

   std::atomic<bool> frame_observed_;
 };

 uint32_t get_ssrc(SessionDescriptionInterface* offer, size_t track_index) {
   EXPECT_LT(track_index, offer->description()->contents().size());
   return offer->description()
       ->contents()[track_index]
       .media_description()
       ->streams()[0]
       .ssrcs[0];
 }

 void set_ssrc(SessionDescriptionInterface* offer, size_t index, uint32_t ssrc) {
   EXPECT_LT(index, offer->description()->contents().size());
   cricket::StreamParams& new_stream_params = offer->description()
                                                  ->contents()[index]
                                                  .media_description()
                                                  ->mutable_streams()[0];
   new_stream_params.ssrcs[0] = ssrc;
   new_stream_params.ssrc_groups[0].ssrcs[0] = ssrc;
 }

 }  // namespace

 class UnsignaledStreamTest
     : public ::testing::Test,
       public ::testing::WithParamInterface<MidTestConfiguration> {};

 TEST_P(UnsignaledStreamTest, ReplacesUnsignaledStreamOnCompletedSignaling) {
   // This test covers a scenario that might occur if a remote client starts
   // sending media packets before negotiation has completed. Depending on setup,
   // these packets either get dropped or trigger an unsignalled default stream
   // to be created, and connects that to a default video sink.
   // In some edge cases using Unified Plan and PT demuxing, the default stream
   // is create in a different transceiver to where the media SSRC will actually
   // be used. This test verifies that the default stream is removed properly,
   // and that packets are demuxed and video frames reach the desired sink.
   const MidTestConfiguration kMidTestConfiguration = GetParam();

   // Defined before PeerScenario so it gets destructed after, to avoid use after
   // free.
   PeerScenario s(*::testing::UnitTest::GetInstance()->current_test_info());

   PeerScenarioClient::Config config = PeerScenarioClient::Config();
   // Disable encryption so that we can inject a fake early media packet without
   // triggering srtp failures.
   auto* caller = s.CreateClient(config);
   auto* callee = s.CreateClient(config);

   auto send_node = s.net()->NodeBuilder().Build().node;
   auto ret_node = s.net()->NodeBuilder().Build().node;

   s.net()->CreateRoute(caller->endpoint(), {send_node}, callee->endpoint());
   s.net()->CreateRoute(callee->endpoint(), {ret_node}, caller->endpoint());

   auto signaling = s.ConnectSignaling(caller, callee, {send_node}, {ret_node});
   PeerScenarioClient::VideoSendTrackConfig video_conf;
   video_conf.generator.squares_video->framerate = 15;

   auto first_track = caller->CreateVideo("VIDEO", video_conf);
   FrameObserver first_sink;
   callee->AddVideoReceiveSink(first_track.track->id(), &first_sink);

   signaling.StartIceSignaling();
   std::atomic<bool> offer_exchange_done(false);
   std::atomic<bool> got_unsignaled_packet(false);

   // We will capture the media ssrc of the first added stream, and preemptively
   // inject a new media packet using a different ssrc. What happens depends on
   // the test configuration.
   //
   // MidTestConfiguration::kMidNotNegotiated:
   // - MID is not negotiated which means PT-based demuxing is enabled. Because
   //   the packets have no MID, the second ssrc packet gets forwarded to the
   //   first m= section. This will create a "default stream" for the second ssrc
   //   and connect it to the default video sink (not set in this test). The test
   //   verifies we can recover from this when we later get packets for the first
   //   ssrc.
   //
   // MidTestConfiguration::kMidNegotiatedButMissingFromPackets:
   // - MID is negotiated wich means PT-based demuxing is disabled. Because we
   //   modify the packets not to contain the MID anyway (simulating a legacy SFU
   //   that does not negotiate properly) unknown SSRCs are dropped but do not
   //   otherwise cause any issues.
   //
   // MidTestConfiguration::kMidNegotiatedAndPresentInPackets:
   // - MID is negotiated which means PT-based demuxing is enabled. In this case
   //   the packets have the MID so they either get forwarded or dropped
   //   depending on if the MID is known. The spec-compliant way is also the most
   //   straight-forward one.

   uint32_t first_ssrc = 0;
   uint32_t second_ssrc = 0;
   absl::optional<int> mid_header_extension_id = absl::nullopt;

   signaling.NegotiateSdp(
       /* munge_sdp = */
       [&](SessionDescriptionInterface* offer) {
         // Obtain the MID header extension ID and if we want the
         // MidTestConfiguration::kMidNotNegotiated setup then we remove the MID
         // header extension through SDP munging (otherwise SDP is not modified).
         for (cricket::ContentInfo& content_info :
              offer->description()->contents()) {
           std::vector<RtpExtension> header_extensions =
               content_info.media_description()->rtp_header_extensions();
           for (auto it = header_extensions.begin();
                it != header_extensions.end(); ++it) {
             if (it->uri == RtpExtension::kMidUri) {
               // MID header extension found!
               mid_header_extension_id = it->id;
               if (kMidTestConfiguration ==
                   MidTestConfiguration::kMidNotNegotiated) {
                 // Munge away the extension.
                 header_extensions.erase(it);
               }
               break;
             }
           }
           content_info.media_description()->set_rtp_header_extensions(
               std::move(header_extensions));
         }
         ASSERT_TRUE(mid_header_extension_id.has_value());
       },
       /* modify_sdp = */
       [&](SessionDescriptionInterface* offer) {
         first_ssrc = get_ssrc(offer, 0);
         second_ssrc = first_ssrc + 1;

         send_node->router()->SetWatcher([&](const EmulatedIpPacket& packet) {
           if (IsRtpPacket(packet.data) &&
               ByteReader<uint32_t>::ReadBigEndian(&(packet.cdata()[8])) ==
                   first_ssrc &&
               !got_unsignaled_packet) {
             // Parse packet and modify the SSRC to simulate a second m=
             // section that has not been negotiated yet.
             std::vector<RtpExtension> extensions;
             extensions.emplace_back(RtpExtension::kMidUri,
                                     mid_header_extension_id.value());
             RtpHeaderExtensionMap extensions_map(extensions);
             RtpPacket parsed_packet;
             parsed_packet.IdentifyExtensions(extensions_map);
             ASSERT_TRUE(parsed_packet.Parse(packet.data));
             parsed_packet.SetSsrc(second_ssrc);
             // The MID extension is present if and only if it was negotiated.
             // If present, we either want to remove it or modify it depending
             // on setup.
             switch (kMidTestConfiguration) {
               case MidTestConfiguration::kMidNotNegotiated:
                 EXPECT_FALSE(parsed_packet.HasExtension<RtpMid>());
                 break;
               case MidTestConfiguration::kMidNegotiatedButMissingFromPackets:
                 EXPECT_TRUE(parsed_packet.HasExtension<RtpMid>());
                 ASSERT_TRUE(parsed_packet.RemoveExtension(RtpMid::kId));
                 break;
               case MidTestConfiguration::kMidNegotiatedAndPresentInPackets:
                 EXPECT_TRUE(parsed_packet.HasExtension<RtpMid>());
                 // The simulated second m= section would have a different MID.
                 // If we don't modify it here then `second_ssrc` would end up
                 // being mapped to the first m= section which would cause SSRC
                 // conflicts if we later add the same SSRC to a second m=
                 // section. Hidden assumption: first m= section does not use
                 // MID:1.
                 ASSERT_TRUE(parsed_packet.SetExtension<RtpMid>("1"));
                 break;
             }
             // Inject the modified packet.
             rtc::CopyOnWriteBuffer updated_buffer = parsed_packet.Buffer();
             EmulatedIpPacket updated_packet(
                 packet.from, packet.to, updated_buffer, packet.arrival_time);
             send_node->OnPacketReceived(std::move(updated_packet));
             got_unsignaled_packet = true;
           }
         });
       },
       [&](const SessionDescriptionInterface& answer) {
         EXPECT_EQ(answer.description()->contents().size(), 1u);
         offer_exchange_done = true;
       });
   EXPECT_TRUE(s.WaitAndProcess(&offer_exchange_done));
   EXPECT_TRUE(s.WaitAndProcess(&got_unsignaled_packet));
   EXPECT_TRUE(s.WaitAndProcess(&first_sink.frame_observed_));

   auto second_track = caller->CreateVideo("VIDEO2", video_conf);
   FrameObserver second_sink;
   callee->AddVideoReceiveSink(second_track.track->id(), &second_sink);

   // Create a second video stream, munge the sdp to force it to use our fake
   // early media ssrc.
   offer_exchange_done = false;
   signaling.NegotiateSdp(
       /* munge_sdp = */
       [&](SessionDescriptionInterface* offer) {
         set_ssrc(offer, 1, second_ssrc);
       },
       /* modify_sdp = */ {},
       [&](const SessionDescriptionInterface& answer) {
         EXPECT_EQ(answer.description()->contents().size(), 2u);
         offer_exchange_done = true;
       });
   EXPECT_TRUE(s.WaitAndProcess(&offer_exchange_done));
   EXPECT_TRUE(s.WaitAndProcess(&second_sink.frame_observed_));
   caller->pc()->Close();
   callee->pc()->Close();
 }

 INSTANTIATE_TEST_SUITE_P(
     All,
     UnsignaledStreamTest,
     ::testing::Values(MidTestConfiguration::kMidNotNegotiated,
                       MidTestConfiguration::kMidNegotiatedButMissingFromPackets,
                       MidTestConfiguration::kMidNegotiatedAndPresentInPackets),
     TestParametersMidTestConfigurationToString);

 }  // namespace test
 }  // namespace webrtc
	/*
	* Copyright (c) 2020 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "media/base/stream_params.h"
	#include "modules/rtp_rtcp/source/byte_io.h"
	#include "modules/rtp_rtcp/source/rtp_util.h"
	#include "pc/media_session.h"
	#include "pc/session_description.h"
	#include "test/field_trial.h"
	#include "test/gmock.h"
	#include "test/gtest.h"
	#include "test/peer_scenario/peer_scenario.h"

	namespace webrtc {
	namespace test {
	namespace {

	enum class MidTestConfiguration {
	// Legacy endpoint setup where PT demuxing is used.
	kMidNotNegotiated,
	// MID is negotiated but missing from packets. PT demuxing is disabled, so
	// SSRCs have to be added to the SDP for WebRTC to forward packets correctly.
	// Happens when client is spec compliant but the SFU isn't. Popular legacy.
	kMidNegotiatedButMissingFromPackets,
	// Fully spec-compliant: MID is present so we can safely drop packets with
	// unknown MIDs.
	kMidNegotiatedAndPresentInPackets,
	};

	// Gives the parameterized test a readable suffix.
	std::string TestParametersMidTestConfigurationToString(
	testing::TestParamInfo<MidTestConfiguration> info) {
	switch (info.param) {
	case MidTestConfiguration::kMidNotNegotiated:
	return "MidNotNegotiated";
	case MidTestConfiguration::kMidNegotiatedButMissingFromPackets:
	return "MidNegotiatedButMissingFromPackets";
	case MidTestConfiguration::kMidNegotiatedAndPresentInPackets:
	return "MidNegotiatedAndPresentInPackets";
	}
	}

	class FrameObserver : public rtc::VideoSinkInterface<VideoFrame> {
	public:
	FrameObserver() : frame_observed_(false) {}
	void OnFrame(const VideoFrame&) override { frame_observed_ = true; }

	std::atomic<bool> frame_observed_;
	};

	uint32_t get_ssrc(SessionDescriptionInterface* offer, size_t track_index) {
	EXPECT_LT(track_index, offer->description()->contents().size());
	return offer->description()
	->contents()[track_index]
	.media_description()
	->streams()[0]
	.ssrcs[0];
	}

	void set_ssrc(SessionDescriptionInterface* offer, size_t index, uint32_t ssrc) {
	EXPECT_LT(index, offer->description()->contents().size());
	cricket::StreamParams& new_stream_params = offer->description()
	->contents()[index]
	.media_description()
	->mutable_streams()[0];
	new_stream_params.ssrcs[0] = ssrc;
	new_stream_params.ssrc_groups[0].ssrcs[0] = ssrc;
	}

	} // namespace

	class UnsignaledStreamTest
	: public ::testing::Test,
	public ::testing::WithParamInterface<MidTestConfiguration> {};

	TEST_P(UnsignaledStreamTest, ReplacesUnsignaledStreamOnCompletedSignaling) {
	// This test covers a scenario that might occur if a remote client starts
	// sending media packets before negotiation has completed. Depending on setup,
	// these packets either get dropped or trigger an unsignalled default stream
	// to be created, and connects that to a default video sink.
	// In some edge cases using Unified Plan and PT demuxing, the default stream
	// is create in a different transceiver to where the media SSRC will actually
	// be used. This test verifies that the default stream is removed properly,
	// and that packets are demuxed and video frames reach the desired sink.
	const MidTestConfiguration kMidTestConfiguration = GetParam();

	// Defined before PeerScenario so it gets destructed after, to avoid use after
	// free.
	PeerScenario s(*::testing::UnitTest::GetInstance()->current_test_info());

	PeerScenarioClient::Config config = PeerScenarioClient::Config();
	// Disable encryption so that we can inject a fake early media packet without
	// triggering srtp failures.
	auto* caller = s.CreateClient(config);
	auto* callee = s.CreateClient(config);

	auto send_node = s.net()->NodeBuilder().Build().node;
	auto ret_node = s.net()->NodeBuilder().Build().node;

	s.net()->CreateRoute(caller->endpoint(), {send_node}, callee->endpoint());
	s.net()->CreateRoute(callee->endpoint(), {ret_node}, caller->endpoint());

	auto signaling = s.ConnectSignaling(caller, callee, {send_node}, {ret_node});
	PeerScenarioClient::VideoSendTrackConfig video_conf;
	video_conf.generator.squares_video->framerate = 15;

	auto first_track = caller->CreateVideo("VIDEO", video_conf);
	FrameObserver first_sink;
	callee->AddVideoReceiveSink(first_track.track->id(), &first_sink);

	signaling.StartIceSignaling();
	std::atomic<bool> offer_exchange_done(false);
	std::atomic<bool> got_unsignaled_packet(false);

	// We will capture the media ssrc of the first added stream, and preemptively
	// inject a new media packet using a different ssrc. What happens depends on
	// the test configuration.
	//
	// MidTestConfiguration::kMidNotNegotiated:
	// - MID is not negotiated which means PT-based demuxing is enabled. Because
	// the packets have no MID, the second ssrc packet gets forwarded to the
	// first m= section. This will create a "default stream" for the second ssrc
	// and connect it to the default video sink (not set in this test). The test
	// verifies we can recover from this when we later get packets for the first
	// ssrc.
	//
	// MidTestConfiguration::kMidNegotiatedButMissingFromPackets:
	// - MID is negotiated wich means PT-based demuxing is disabled. Because we
	// modify the packets not to contain the MID anyway (simulating a legacy SFU
	// that does not negotiate properly) unknown SSRCs are dropped but do not
	// otherwise cause any issues.
	//
	// MidTestConfiguration::kMidNegotiatedAndPresentInPackets:
	// - MID is negotiated which means PT-based demuxing is enabled. In this case
	// the packets have the MID so they either get forwarded or dropped
	// depending on if the MID is known. The spec-compliant way is also the most
	// straight-forward one.

	uint32_t first_ssrc = 0;
	uint32_t second_ssrc = 0;
	absl::optional<int> mid_header_extension_id = absl::nullopt;

	signaling.NegotiateSdp(
	/* munge_sdp = */
	[&](SessionDescriptionInterface* offer) {
	// Obtain the MID header extension ID and if we want the
	// MidTestConfiguration::kMidNotNegotiated setup then we remove the MID
	// header extension through SDP munging (otherwise SDP is not modified).
	for (cricket::ContentInfo& content_info :
	offer->description()->contents()) {
	std::vector<RtpExtension> header_extensions =
	content_info.media_description()->rtp_header_extensions();
	for (auto it = header_extensions.begin();
	it != header_extensions.end(); ++it) {
	if (it->uri == RtpExtension::kMidUri) {
	// MID header extension found!
	mid_header_extension_id = it->id;
	if (kMidTestConfiguration ==
	MidTestConfiguration::kMidNotNegotiated) {
	// Munge away the extension.
	header_extensions.erase(it);
	}
	break;
	}
	}
	content_info.media_description()->set_rtp_header_extensions(
	std::move(header_extensions));
	}
	ASSERT_TRUE(mid_header_extension_id.has_value());
	},
	/* modify_sdp = */
	[&](SessionDescriptionInterface* offer) {
	first_ssrc = get_ssrc(offer, 0);
	second_ssrc = first_ssrc + 1;

	send_node->router()->SetWatcher([&](const EmulatedIpPacket& packet) {
	if (IsRtpPacket(packet.data) &&
	ByteReader<uint32_t>::ReadBigEndian(&(packet.cdata()[8])) ==
	first_ssrc &&
	!got_unsignaled_packet) {
	// Parse packet and modify the SSRC to simulate a second m=
	// section that has not been negotiated yet.
	std::vector<RtpExtension> extensions;
	extensions.emplace_back(RtpExtension::kMidUri,
	mid_header_extension_id.value());
	RtpHeaderExtensionMap extensions_map(extensions);
	RtpPacket parsed_packet;
	parsed_packet.IdentifyExtensions(extensions_map);
	ASSERT_TRUE(parsed_packet.Parse(packet.data));
	parsed_packet.SetSsrc(second_ssrc);
	// The MID extension is present if and only if it was negotiated.
	// If present, we either want to remove it or modify it depending
	// on setup.
	switch (kMidTestConfiguration) {
	case MidTestConfiguration::kMidNotNegotiated:
	EXPECT_FALSE(parsed_packet.HasExtension<RtpMid>());
	break;
	case MidTestConfiguration::kMidNegotiatedButMissingFromPackets:
	EXPECT_TRUE(parsed_packet.HasExtension<RtpMid>());
	ASSERT_TRUE(parsed_packet.RemoveExtension(RtpMid::kId));
	break;
	case MidTestConfiguration::kMidNegotiatedAndPresentInPackets:
	EXPECT_TRUE(parsed_packet.HasExtension<RtpMid>());
	// The simulated second m= section would have a different MID.
	// If we don't modify it here then `second_ssrc` would end up
	// being mapped to the first m= section which would cause SSRC
	// conflicts if we later add the same SSRC to a second m=
	// section. Hidden assumption: first m= section does not use
	// MID:1.
	ASSERT_TRUE(parsed_packet.SetExtension<RtpMid>("1"));
	break;
	}
	// Inject the modified packet.
	rtc::CopyOnWriteBuffer updated_buffer = parsed_packet.Buffer();
	EmulatedIpPacket updated_packet(
	packet.from, packet.to, updated_buffer, packet.arrival_time);
	send_node->OnPacketReceived(std::move(updated_packet));
	got_unsignaled_packet = true;
	}
	});
	},
	[&](const SessionDescriptionInterface& answer) {
	EXPECT_EQ(answer.description()->contents().size(), 1u);
	offer_exchange_done = true;
	});
	EXPECT_TRUE(s.WaitAndProcess(&offer_exchange_done));
	EXPECT_TRUE(s.WaitAndProcess(&got_unsignaled_packet));
	EXPECT_TRUE(s.WaitAndProcess(&first_sink.frame_observed_));

	auto second_track = caller->CreateVideo("VIDEO2", video_conf);
	FrameObserver second_sink;
	callee->AddVideoReceiveSink(second_track.track->id(), &second_sink);

	// Create a second video stream, munge the sdp to force it to use our fake
	// early media ssrc.
	offer_exchange_done = false;
	signaling.NegotiateSdp(
	/* munge_sdp = */
	[&](SessionDescriptionInterface* offer) {
	set_ssrc(offer, 1, second_ssrc);
	},
	/* modify_sdp = */ {},
	[&](const SessionDescriptionInterface& answer) {
	EXPECT_EQ(answer.description()->contents().size(), 2u);
	offer_exchange_done = true;
	});
	EXPECT_TRUE(s.WaitAndProcess(&offer_exchange_done));
	EXPECT_TRUE(s.WaitAndProcess(&second_sink.frame_observed_));
	caller->pc()->Close();
	callee->pc()->Close();
	}

	INSTANTIATE_TEST_SUITE_P(
	All,
	UnsignaledStreamTest,
	::testing::Values(MidTestConfiguration::kMidNotNegotiated,
	MidTestConfiguration::kMidNegotiatedButMissingFromPackets,
	MidTestConfiguration::kMidNegotiatedAndPresentInPackets),
	TestParametersMidTestConfigurationToString);

	} // namespace test
	} // namespace webrtc