Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / external / webrtc / 54536bb6d4073c35524579e6be58888213398af4 / . / src / modules / rtp_rtcp / source / rtcp_sender_test.cc
blob: 2d86682ba97654aca4559ba4c693f733f503ba46 [file] [log] [blame]
/*
* Copyright (c) 2012 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.
*/
/*
* This file includes unit tests for the RTCPSender.
*/
#include <gtest/gtest.h>
#include "common_types.h"
#include "rtp_utility.h"
#include "rtcp_sender.h"
#include "rtcp_receiver.h"
#include "rtp_rtcp_impl.h"
namespace webrtc {
void CreateRtpPacket(const bool marker_bit, const WebRtc_UWord8 payload,
const WebRtc_UWord16 seq_num, const WebRtc_UWord32 timestamp,
const WebRtc_UWord32 ssrc, WebRtc_UWord8* array,
WebRtc_UWord16* cur_pos) {
ASSERT_TRUE(payload <= 127);
array[(*cur_pos)++] = 0x80;
array[(*cur_pos)++] = payload | (marker_bit ? 0x80 : 0);
array[(*cur_pos)++] = seq_num >> 8;
array[(*cur_pos)++] = seq_num;
array[(*cur_pos)++] = timestamp >> 24;
array[(*cur_pos)++] = timestamp >> 16;
array[(*cur_pos)++] = timestamp >> 8;
array[(*cur_pos)++] = timestamp;
array[(*cur_pos)++] = ssrc >> 24;
array[(*cur_pos)++] = ssrc >> 16;
array[(*cur_pos)++] = ssrc >> 8;
array[(*cur_pos)++] = ssrc;
// VP8 payload header
array[(*cur_pos)++] = 0x90; // X bit = 1
array[(*cur_pos)++] = 0x20; // T bit = 1
array[(*cur_pos)++] = 0x00; // TID = 0
array[(*cur_pos)++] = 0x00; // Key frame
array[(*cur_pos)++] = 0x00;
array[(*cur_pos)++] = 0x00;
array[(*cur_pos)++] = 0x9d;
array[(*cur_pos)++] = 0x01;
array[(*cur_pos)++] = 0x2a;
array[(*cur_pos)++] = 128;
array[(*cur_pos)++] = 0;
array[(*cur_pos)++] = 96;
array[(*cur_pos)++] = 0;
}
class TestTransport : public Transport,
public RtpData {
public:
TestTransport(RTCPReceiver* rtcp_receiver) :
rtcp_receiver_(rtcp_receiver) {
}
virtual int SendPacket(int /*ch*/, const void* /*data*/, int /*len*/) {
return -1;
}
virtual int SendRTCPPacket(int /*ch*/, const void *packet, int packet_len) {
RTCPUtility::RTCPParserV2 rtcpParser((WebRtc_UWord8*)packet,
(WebRtc_Word32)packet_len,
true); // Allow non-compound RTCP
EXPECT_TRUE(rtcpParser.IsValid());
RTCPHelp::RTCPPacketInformation rtcpPacketInformation;
EXPECT_EQ(0, rtcp_receiver_->IncomingRTCPPacket(rtcpPacketInformation,
&rtcpParser));
rtcp_packet_info_ = rtcpPacketInformation;
return packet_len;
}
virtual int OnReceivedPayloadData(const WebRtc_UWord8* payloadData,
const WebRtc_UWord16 payloadSize,
const WebRtcRTPHeader* rtpHeader)
{return 0;}
RTCPReceiver* rtcp_receiver_;
RTCPHelp::RTCPPacketInformation rtcp_packet_info_;
};
class RtcpSenderTest : public ::testing::Test {
protected:
RtcpSenderTest() {
system_clock_ = ModuleRTPUtility::GetSystemClock();
rtp_rtcp_impl_ = new ModuleRtpRtcpImpl(0, false, system_clock_);
rtcp_sender_ = new RTCPSender(0, false, system_clock_, rtp_rtcp_impl_);
rtcp_receiver_ = new RTCPReceiver(0, system_clock_, rtp_rtcp_impl_);
test_transport_ = new TestTransport(rtcp_receiver_);
// Initialize
EXPECT_EQ(0, rtcp_sender_->Init());
EXPECT_EQ(0, rtcp_sender_->RegisterSendTransport(test_transport_));
EXPECT_EQ(0, rtp_rtcp_impl_->RegisterIncomingDataCallback(test_transport_));
}
~RtcpSenderTest() {
delete rtcp_sender_;
delete rtcp_receiver_;
delete rtp_rtcp_impl_;
delete test_transport_;
delete system_clock_;
}
// Helper function: Incoming RTCP has a specific packet type.
bool gotPacketType(RTCPPacketType packet_type) {
return ((test_transport_->rtcp_packet_info_.rtcpPacketTypeFlags) &
packet_type) != 0U;
}
RtpRtcpClock* system_clock_;
ModuleRtpRtcpImpl* rtp_rtcp_impl_;
RTCPSender* rtcp_sender_;
RTCPReceiver* rtcp_receiver_;
TestTransport* test_transport_;
enum {kMaxPacketLength = 1500};
uint8_t packet_[kMaxPacketLength];
};
TEST_F(RtcpSenderTest, RtcpOff) {
EXPECT_EQ(0, rtcp_sender_->SetRTCPStatus(kRtcpOff));
EXPECT_EQ(-1, rtcp_sender_->SendRTCP(kRtcpSr));
}
TEST_F(RtcpSenderTest, IJStatus) {
ASSERT_FALSE(rtcp_sender_->IJ());
EXPECT_EQ(0, rtcp_sender_->SetIJStatus(true));
ASSERT_TRUE(rtcp_sender_->IJ());
}
TEST_F(RtcpSenderTest, TestCompound) {
const bool marker_bit = false;
const WebRtc_UWord8 payload = 100;
const WebRtc_UWord16 seq_num = 11111;
const WebRtc_UWord32 timestamp = 1234567;
const WebRtc_UWord32 ssrc = 0x11111111;
WebRtc_UWord16 packet_length = 0;
CreateRtpPacket(marker_bit, payload, seq_num, timestamp, ssrc, packet_,
&packet_length);
EXPECT_EQ(25, packet_length);
VideoCodec codec_inst;
strncpy(codec_inst.plName, "VP8", webrtc::kPayloadNameSize - 1);
codec_inst.codecType = webrtc::kVideoCodecVP8;
codec_inst.plType = payload;
EXPECT_EQ(0, rtp_rtcp_impl_->RegisterReceivePayload(codec_inst));
// Make sure RTP packet has been received.
EXPECT_EQ(0, rtp_rtcp_impl_->IncomingPacket(packet_, packet_length));
EXPECT_EQ(0, rtcp_sender_->SetIJStatus(true));
EXPECT_EQ(0, rtcp_sender_->SetRTCPStatus(kRtcpCompound));
EXPECT_EQ(0, rtcp_sender_->SendRTCP(kRtcpRr));
// Transmission time offset packet should be received.
ASSERT_TRUE(test_transport_->rtcp_packet_info_.rtcpPacketTypeFlags &
kRtcpTransmissionTimeOffset);
}
TEST_F(RtcpSenderTest, TestCompound_NoRtpReceived) {
EXPECT_EQ(0, rtcp_sender_->SetIJStatus(true));
EXPECT_EQ(0, rtcp_sender_->SetRTCPStatus(kRtcpCompound));
EXPECT_EQ(0, rtcp_sender_->SendRTCP(kRtcpRr));
// Transmission time offset packet should not be received.
ASSERT_FALSE(test_transport_->rtcp_packet_info_.rtcpPacketTypeFlags &
kRtcpTransmissionTimeOffset);
}
// This test is written to verify actual behaviour. It does not seem
// to make much sense to send an empty TMMBN, since there is no place
// to put an actual limit here. It's just information that no limit
// is set, which is kind of the starting assumption.
// See http://code.google.com/p/webrtc/issues/detail?id=468 for one
// situation where this caused confusion.
TEST_F(RtcpSenderTest, SendsTmmbnIfSetAndEmpty) {
EXPECT_EQ(0, rtcp_sender_->SetRTCPStatus(kRtcpCompound));
TMMBRSet bounding_set;
EXPECT_EQ(0, rtcp_sender_->SetTMMBN(&bounding_set, 3));
ASSERT_EQ(0U, test_transport_->rtcp_packet_info_.rtcpPacketTypeFlags);
EXPECT_EQ(0, rtcp_sender_->SendRTCP(kRtcpSr));
// We now expect the packet to show up in the rtcp_packet_info_ of
// test_transport_.
ASSERT_NE(0U, test_transport_->rtcp_packet_info_.rtcpPacketTypeFlags);
EXPECT_TRUE(gotPacketType(kRtcpTmmbn));
TMMBRSet* incoming_set = NULL;
bool owner = false;
// The BoundingSet function returns the number of members of the
// bounding set, and touches the incoming set only if there's > 1.
EXPECT_EQ(0, test_transport_->rtcp_receiver_->BoundingSet(owner,
incoming_set));
}
TEST_F(RtcpSenderTest, SendsTmmbnIfSetAndValid) {
EXPECT_EQ(0, rtcp_sender_->SetRTCPStatus(kRtcpCompound));
TMMBRSet bounding_set;
bounding_set.VerifyAndAllocateSet(1);
const WebRtc_UWord32 kSourceSsrc = 12345;
bounding_set.AddEntry(32768, 0, kSourceSsrc);
EXPECT_EQ(0, rtcp_sender_->SetTMMBN(&bounding_set, 3));
ASSERT_EQ(0U, test_transport_->rtcp_packet_info_.rtcpPacketTypeFlags);
EXPECT_EQ(0, rtcp_sender_->SendRTCP(kRtcpSr));
// We now expect the packet to show up in the rtcp_packet_info_ of
// test_transport_.
ASSERT_NE(0U, test_transport_->rtcp_packet_info_.rtcpPacketTypeFlags);
EXPECT_TRUE(gotPacketType(kRtcpTmmbn));
TMMBRSet incoming_set;
bool owner = false;
// We expect 1 member of the incoming set.
EXPECT_EQ(1, test_transport_->rtcp_receiver_->BoundingSet(owner,
&incoming_set));
EXPECT_EQ(kSourceSsrc, incoming_set.Ssrc(0));
}
} // namespace webrtc