/* * libjingle * Copyright 2012 Google Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include "talk/media/base/constants.h" #include "talk/media/base/fakenetworkinterface.h" #include "talk/media/base/rtpdataengine.h" #include "talk/media/base/rtputils.h" #include "webrtc/base/buffer.h" #include "webrtc/base/gunit.h" #include "webrtc/base/helpers.h" #include "webrtc/base/scoped_ptr.h" #include "webrtc/base/ssladapter.h" #include "webrtc/base/timing.h" class FakeTiming : public rtc::Timing { public: FakeTiming() : now_(0.0) {} virtual double TimerNow() { return now_; } void set_now(double now) { now_ = now; } private: double now_; }; class FakeDataReceiver : public sigslot::has_slots<> { public: FakeDataReceiver() : has_received_data_(false) {} void OnDataReceived( const cricket::ReceiveDataParams& params, const char* data, size_t len) { has_received_data_ = true; last_received_data_ = std::string(data, len); last_received_data_len_ = len; last_received_data_params_ = params; } bool has_received_data() const { return has_received_data_; } std::string last_received_data() const { return last_received_data_; } size_t last_received_data_len() const { return last_received_data_len_; } cricket::ReceiveDataParams last_received_data_params() const { return last_received_data_params_; } private: bool has_received_data_; std::string last_received_data_; size_t last_received_data_len_; cricket::ReceiveDataParams last_received_data_params_; }; class RtpDataMediaChannelTest : public testing::Test { protected: virtual void SetUp() { // Seed needed for each test to satisfy expectations. iface_.reset(new cricket::FakeNetworkInterface()); timing_ = new FakeTiming(); dme_.reset(CreateEngine(timing_)); receiver_.reset(new FakeDataReceiver()); } void SetNow(double now) { timing_->set_now(now); } cricket::RtpDataEngine* CreateEngine(FakeTiming* timing) { cricket::RtpDataEngine* dme = new cricket::RtpDataEngine(); dme->SetTiming(timing); return dme; } cricket::RtpDataMediaChannel* CreateChannel() { return CreateChannel(dme_.get()); } cricket::RtpDataMediaChannel* CreateChannel(cricket::RtpDataEngine* dme) { cricket::RtpDataMediaChannel* channel = static_cast(dme->CreateChannel( cricket::DCT_RTP)); channel->SetInterface(iface_.get()); channel->SignalDataReceived.connect( receiver_.get(), &FakeDataReceiver::OnDataReceived); return channel; } FakeDataReceiver* receiver() { return receiver_.get(); } bool HasReceivedData() { return receiver_->has_received_data(); } std::string GetReceivedData() { return receiver_->last_received_data(); } size_t GetReceivedDataLen() { return receiver_->last_received_data_len(); } cricket::ReceiveDataParams GetReceivedDataParams() { return receiver_->last_received_data_params(); } bool HasSentData(int count) { return (iface_->NumRtpPackets() > count); } std::string GetSentData(int index) { // Assume RTP header of length 12 rtc::scoped_ptr packet( iface_->GetRtpPacket(index)); if (packet->size() > 12) { return std::string(packet->data() + 12, packet->size() - 12); } else { return ""; } } cricket::RtpHeader GetSentDataHeader(int index) { rtc::scoped_ptr packet( iface_->GetRtpPacket(index)); cricket::RtpHeader header; GetRtpHeader(packet->data(), packet->size(), &header); return header; } private: rtc::scoped_ptr dme_; // Timing passed into dme_. Owned by dme_; FakeTiming* timing_; rtc::scoped_ptr iface_; rtc::scoped_ptr receiver_; }; TEST_F(RtpDataMediaChannelTest, SetUnknownCodecs) { rtc::scoped_ptr dmc(CreateChannel()); cricket::DataCodec known_codec; known_codec.id = 103; known_codec.name = "google-data"; cricket::DataCodec unknown_codec; unknown_codec.id = 104; unknown_codec.name = "unknown-data"; cricket::DataSendParameters send_parameters_known; send_parameters_known.codecs.push_back(known_codec); cricket::DataRecvParameters recv_parameters_known; recv_parameters_known.codecs.push_back(known_codec); cricket::DataSendParameters send_parameters_unknown; send_parameters_unknown.codecs.push_back(unknown_codec); cricket::DataRecvParameters recv_parameters_unknown; recv_parameters_unknown.codecs.push_back(unknown_codec); cricket::DataSendParameters send_parameters_mixed; send_parameters_mixed.codecs.push_back(known_codec); send_parameters_mixed.codecs.push_back(unknown_codec); cricket::DataRecvParameters recv_parameters_mixed; recv_parameters_mixed.codecs.push_back(known_codec); recv_parameters_mixed.codecs.push_back(unknown_codec); EXPECT_TRUE(dmc->SetSendParameters(send_parameters_known)); EXPECT_FALSE(dmc->SetSendParameters(send_parameters_unknown)); EXPECT_TRUE(dmc->SetSendParameters(send_parameters_mixed)); EXPECT_TRUE(dmc->SetRecvParameters(recv_parameters_known)); EXPECT_FALSE(dmc->SetRecvParameters(recv_parameters_unknown)); EXPECT_FALSE(dmc->SetRecvParameters(recv_parameters_mixed)); } TEST_F(RtpDataMediaChannelTest, AddRemoveSendStream) { rtc::scoped_ptr dmc(CreateChannel()); cricket::StreamParams stream1; stream1.add_ssrc(41); EXPECT_TRUE(dmc->AddSendStream(stream1)); cricket::StreamParams stream2; stream2.add_ssrc(42); EXPECT_TRUE(dmc->AddSendStream(stream2)); EXPECT_TRUE(dmc->RemoveSendStream(41)); EXPECT_TRUE(dmc->RemoveSendStream(42)); EXPECT_FALSE(dmc->RemoveSendStream(43)); } TEST_F(RtpDataMediaChannelTest, AddRemoveRecvStream) { rtc::scoped_ptr dmc(CreateChannel()); cricket::StreamParams stream1; stream1.add_ssrc(41); EXPECT_TRUE(dmc->AddRecvStream(stream1)); cricket::StreamParams stream2; stream2.add_ssrc(42); EXPECT_TRUE(dmc->AddRecvStream(stream2)); EXPECT_FALSE(dmc->AddRecvStream(stream2)); EXPECT_TRUE(dmc->RemoveRecvStream(41)); EXPECT_TRUE(dmc->RemoveRecvStream(42)); } TEST_F(RtpDataMediaChannelTest, SendData) { rtc::scoped_ptr dmc(CreateChannel()); cricket::SendDataParams params; params.ssrc = 42; unsigned char data[] = "food"; rtc::Buffer payload(data, 4); unsigned char padded_data[] = { 0x00, 0x00, 0x00, 0x00, 'f', 'o', 'o', 'd', }; cricket::SendDataResult result; // Not sending EXPECT_FALSE(dmc->SendData(params, payload, &result)); EXPECT_EQ(cricket::SDR_ERROR, result); EXPECT_FALSE(HasSentData(0)); ASSERT_TRUE(dmc->SetSend(true)); // Unknown stream name. EXPECT_FALSE(dmc->SendData(params, payload, &result)); EXPECT_EQ(cricket::SDR_ERROR, result); EXPECT_FALSE(HasSentData(0)); cricket::StreamParams stream; stream.add_ssrc(42); ASSERT_TRUE(dmc->AddSendStream(stream)); // Unknown codec; EXPECT_FALSE(dmc->SendData(params, payload, &result)); EXPECT_EQ(cricket::SDR_ERROR, result); EXPECT_FALSE(HasSentData(0)); cricket::DataCodec codec; codec.id = 103; codec.name = cricket::kGoogleRtpDataCodecName; cricket::DataSendParameters parameters; parameters.codecs.push_back(codec); ASSERT_TRUE(dmc->SetSendParameters(parameters)); // Length too large; std::string x10000(10000, 'x'); EXPECT_FALSE(dmc->SendData( params, rtc::Buffer(x10000.data(), x10000.length()), &result)); EXPECT_EQ(cricket::SDR_ERROR, result); EXPECT_FALSE(HasSentData(0)); // Finally works! EXPECT_TRUE(dmc->SendData(params, payload, &result)); EXPECT_EQ(cricket::SDR_SUCCESS, result); ASSERT_TRUE(HasSentData(0)); EXPECT_EQ(sizeof(padded_data), GetSentData(0).length()); EXPECT_EQ(0, memcmp( padded_data, GetSentData(0).data(), sizeof(padded_data))); cricket::RtpHeader header0 = GetSentDataHeader(0); EXPECT_NE(0, header0.seq_num); EXPECT_NE(0U, header0.timestamp); EXPECT_EQ(header0.ssrc, 42U); EXPECT_EQ(header0.payload_type, 103); // Should bump timestamp by 180000 because the clock rate is 90khz. SetNow(2); EXPECT_TRUE(dmc->SendData(params, payload, &result)); ASSERT_TRUE(HasSentData(1)); EXPECT_EQ(sizeof(padded_data), GetSentData(1).length()); EXPECT_EQ(0, memcmp( padded_data, GetSentData(1).data(), sizeof(padded_data))); cricket::RtpHeader header1 = GetSentDataHeader(1); EXPECT_EQ(header1.ssrc, 42U); EXPECT_EQ(header1.payload_type, 103); EXPECT_EQ(static_cast(header0.seq_num + 1), static_cast(header1.seq_num)); EXPECT_EQ(header0.timestamp + 180000, header1.timestamp); } TEST_F(RtpDataMediaChannelTest, SendDataMultipleClocks) { // Timings owned by RtpDataEngines. FakeTiming* timing1 = new FakeTiming(); rtc::scoped_ptr dme1(CreateEngine(timing1)); rtc::scoped_ptr dmc1( CreateChannel(dme1.get())); FakeTiming* timing2 = new FakeTiming(); rtc::scoped_ptr dme2(CreateEngine(timing2)); rtc::scoped_ptr dmc2( CreateChannel(dme2.get())); ASSERT_TRUE(dmc1->SetSend(true)); ASSERT_TRUE(dmc2->SetSend(true)); cricket::StreamParams stream1; stream1.add_ssrc(41); ASSERT_TRUE(dmc1->AddSendStream(stream1)); cricket::StreamParams stream2; stream2.add_ssrc(42); ASSERT_TRUE(dmc2->AddSendStream(stream2)); cricket::DataCodec codec; codec.id = 103; codec.name = cricket::kGoogleRtpDataCodecName; cricket::DataSendParameters parameters; parameters.codecs.push_back(codec); ASSERT_TRUE(dmc1->SetSendParameters(parameters)); ASSERT_TRUE(dmc2->SetSendParameters(parameters)); cricket::SendDataParams params1; params1.ssrc = 41; cricket::SendDataParams params2; params2.ssrc = 42; unsigned char data[] = "foo"; rtc::Buffer payload(data, 3); cricket::SendDataResult result; EXPECT_TRUE(dmc1->SendData(params1, payload, &result)); EXPECT_TRUE(dmc2->SendData(params2, payload, &result)); // Should bump timestamp by 90000 because the clock rate is 90khz. timing1->set_now(1); // Should bump timestamp by 180000 because the clock rate is 90khz. timing2->set_now(2); EXPECT_TRUE(dmc1->SendData(params1, payload, &result)); EXPECT_TRUE(dmc2->SendData(params2, payload, &result)); ASSERT_TRUE(HasSentData(3)); cricket::RtpHeader header1a = GetSentDataHeader(0); cricket::RtpHeader header2a = GetSentDataHeader(1); cricket::RtpHeader header1b = GetSentDataHeader(2); cricket::RtpHeader header2b = GetSentDataHeader(3); EXPECT_EQ(static_cast(header1a.seq_num + 1), static_cast(header1b.seq_num)); EXPECT_EQ(header1a.timestamp + 90000, header1b.timestamp); EXPECT_EQ(static_cast(header2a.seq_num + 1), static_cast(header2b.seq_num)); EXPECT_EQ(header2a.timestamp + 180000, header2b.timestamp); } TEST_F(RtpDataMediaChannelTest, SendDataRate) { rtc::scoped_ptr dmc(CreateChannel()); ASSERT_TRUE(dmc->SetSend(true)); cricket::DataCodec codec; codec.id = 103; codec.name = cricket::kGoogleRtpDataCodecName; cricket::DataSendParameters parameters; parameters.codecs.push_back(codec); ASSERT_TRUE(dmc->SetSendParameters(parameters)); cricket::StreamParams stream; stream.add_ssrc(42); ASSERT_TRUE(dmc->AddSendStream(stream)); cricket::SendDataParams params; params.ssrc = 42; unsigned char data[] = "food"; rtc::Buffer payload(data, 4); cricket::SendDataResult result; // With rtp overhead of 32 bytes, each one of our packets is 36 // bytes, or 288 bits. So, a limit of 872bps will allow 3 packets, // but not four. parameters.max_bandwidth_bps = 872; ASSERT_TRUE(dmc->SetSendParameters(parameters)); EXPECT_TRUE(dmc->SendData(params, payload, &result)); EXPECT_TRUE(dmc->SendData(params, payload, &result)); EXPECT_TRUE(dmc->SendData(params, payload, &result)); EXPECT_FALSE(dmc->SendData(params, payload, &result)); EXPECT_FALSE(dmc->SendData(params, payload, &result)); SetNow(0.9); EXPECT_FALSE(dmc->SendData(params, payload, &result)); SetNow(1.1); EXPECT_TRUE(dmc->SendData(params, payload, &result)); EXPECT_TRUE(dmc->SendData(params, payload, &result)); SetNow(1.9); EXPECT_TRUE(dmc->SendData(params, payload, &result)); SetNow(2.2); EXPECT_TRUE(dmc->SendData(params, payload, &result)); EXPECT_TRUE(dmc->SendData(params, payload, &result)); EXPECT_TRUE(dmc->SendData(params, payload, &result)); EXPECT_FALSE(dmc->SendData(params, payload, &result)); } TEST_F(RtpDataMediaChannelTest, ReceiveData) { // PT= 103, SN=2, TS=3, SSRC = 4, data = "abcde" unsigned char data[] = { 0x80, 0x67, 0x00, 0x02, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x2A, 0x00, 0x00, 0x00, 0x00, 'a', 'b', 'c', 'd', 'e' }; rtc::Buffer packet(data, sizeof(data)); rtc::scoped_ptr dmc(CreateChannel()); // SetReceived not called. dmc->OnPacketReceived(&packet, rtc::PacketTime()); EXPECT_FALSE(HasReceivedData()); dmc->SetReceive(true); // Unknown payload id dmc->OnPacketReceived(&packet, rtc::PacketTime()); EXPECT_FALSE(HasReceivedData()); cricket::DataCodec codec; codec.id = 103; codec.name = cricket::kGoogleRtpDataCodecName; cricket::DataRecvParameters parameters; parameters.codecs.push_back(codec); ASSERT_TRUE(dmc->SetRecvParameters(parameters)); // Unknown stream dmc->OnPacketReceived(&packet, rtc::PacketTime()); EXPECT_FALSE(HasReceivedData()); cricket::StreamParams stream; stream.add_ssrc(42); ASSERT_TRUE(dmc->AddRecvStream(stream)); // Finally works! dmc->OnPacketReceived(&packet, rtc::PacketTime()); EXPECT_TRUE(HasReceivedData()); EXPECT_EQ("abcde", GetReceivedData()); EXPECT_EQ(5U, GetReceivedDataLen()); } TEST_F(RtpDataMediaChannelTest, InvalidRtpPackets) { unsigned char data[] = { 0x80, 0x65, 0x00, 0x02 }; rtc::Buffer packet(data, sizeof(data)); rtc::scoped_ptr dmc(CreateChannel()); // Too short dmc->OnPacketReceived(&packet, rtc::PacketTime()); EXPECT_FALSE(HasReceivedData()); }