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android / platform / external / webrtc / bdc0b0d869e9a14bbfafcbb84e294a13383e6fa6 / . / webrtc / modules / rtp_rtcp / source / rtcp_packet_unittest.cc
blob: 009715964477e9388b32bc0b348f18361f38aeeb [file] [log] [blame]
/*
* Copyright (c) 2014 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 RtcpPacket.
*/
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "webrtc/modules/rtp_rtcp/source/rtcp_packet.h"
#include "webrtc/test/rtcp_packet_parser.h"
using ::testing::ElementsAre;
using webrtc::rtcp::App;
using webrtc::rtcp::Bye;
using webrtc::rtcp::Dlrr;
using webrtc::rtcp::Empty;
using webrtc::rtcp::Fir;
using webrtc::rtcp::Ij;
using webrtc::rtcp::Nack;
using webrtc::rtcp::Pli;
using webrtc::rtcp::Sdes;
using webrtc::rtcp::SenderReport;
using webrtc::rtcp::Sli;
using webrtc::rtcp::RawPacket;
using webrtc::rtcp::ReceiverReport;
using webrtc::rtcp::Remb;
using webrtc::rtcp::ReportBlock;
using webrtc::rtcp::Rpsi;
using webrtc::rtcp::Rrtr;
using webrtc::rtcp::SenderReport;
using webrtc::rtcp::Tmmbn;
using webrtc::rtcp::Tmmbr;
using webrtc::rtcp::VoipMetric;
using webrtc::rtcp::Xr;
using webrtc::test::RtcpPacketParser;
namespace webrtc {
const uint32_t kSenderSsrc = 0x12345678;
const uint32_t kRemoteSsrc = 0x23456789;
TEST(RtcpPacketTest, Rr) {
ReceiverReport rr;
rr.From(kSenderSsrc);
rtc::scoped_ptr<RawPacket> packet(rr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.receiver_report()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.receiver_report()->Ssrc());
EXPECT_EQ(0, parser.report_block()->num_packets());
}
TEST(RtcpPacketTest, RrWithOneReportBlock) {
ReportBlock rb;
rb.To(kRemoteSsrc);
rb.WithFractionLost(55);
rb.WithCumulativeLost(0x111111);
rb.WithExtHighestSeqNum(0x22222222);
rb.WithJitter(0x33333333);
rb.WithLastSr(0x44444444);
rb.WithDelayLastSr(0x55555555);
ReceiverReport rr;
rr.From(kSenderSsrc);
EXPECT_TRUE(rr.WithReportBlock(rb));
rtc::scoped_ptr<RawPacket> packet(rr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.receiver_report()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.receiver_report()->Ssrc());
EXPECT_EQ(1, parser.report_block()->num_packets());
EXPECT_EQ(kRemoteSsrc, parser.report_block()->Ssrc());
EXPECT_EQ(55U, parser.report_block()->FractionLost());
EXPECT_EQ(0x111111U, parser.report_block()->CumPacketLost());
EXPECT_EQ(0x22222222U, parser.report_block()->ExtHighestSeqNum());
EXPECT_EQ(0x33333333U, parser.report_block()->Jitter());
EXPECT_EQ(0x44444444U, parser.report_block()->LastSr());
EXPECT_EQ(0x55555555U, parser.report_block()->DelayLastSr());
}
TEST(RtcpPacketTest, RrWithTwoReportBlocks) {
ReportBlock rb1;
rb1.To(kRemoteSsrc);
ReportBlock rb2;
rb2.To(kRemoteSsrc + 1);
ReceiverReport rr;
rr.From(kSenderSsrc);
EXPECT_TRUE(rr.WithReportBlock(rb1));
EXPECT_TRUE(rr.WithReportBlock(rb2));
rtc::scoped_ptr<RawPacket> packet(rr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.receiver_report()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.receiver_report()->Ssrc());
EXPECT_EQ(2, parser.report_block()->num_packets());
EXPECT_EQ(1, parser.report_blocks_per_ssrc(kRemoteSsrc));
EXPECT_EQ(1, parser.report_blocks_per_ssrc(kRemoteSsrc + 1));
}
TEST(RtcpPacketTest, RrWithTooManyReportBlocks) {
ReceiverReport rr;
rr.From(kSenderSsrc);
const int kMaxReportBlocks = (1 << 5) - 1;
ReportBlock rb;
for (int i = 0; i < kMaxReportBlocks; ++i) {
rb.To(kRemoteSsrc + i);
EXPECT_TRUE(rr.WithReportBlock(rb));
}
rb.To(kRemoteSsrc + kMaxReportBlocks);
EXPECT_FALSE(rr.WithReportBlock(rb));
}
TEST(RtcpPacketTest, Sr) {
SenderReport sr;
sr.From(kSenderSsrc);
sr.WithNtpSec(0x11111111);
sr.WithNtpFrac(0x22222222);
sr.WithRtpTimestamp(0x33333333);
sr.WithPacketCount(0x44444444);
sr.WithOctetCount(0x55555555);
rtc::scoped_ptr<RawPacket> packet(sr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.sender_report()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.sender_report()->Ssrc());
EXPECT_EQ(0x11111111U, parser.sender_report()->NtpSec());
EXPECT_EQ(0x22222222U, parser.sender_report()->NtpFrac());
EXPECT_EQ(0x33333333U, parser.sender_report()->RtpTimestamp());
EXPECT_EQ(0x44444444U, parser.sender_report()->PacketCount());
EXPECT_EQ(0x55555555U, parser.sender_report()->OctetCount());
EXPECT_EQ(0, parser.report_block()->num_packets());
}
TEST(RtcpPacketTest, SrWithOneReportBlock) {
ReportBlock rb;
rb.To(kRemoteSsrc);
SenderReport sr;
sr.From(kSenderSsrc);
EXPECT_TRUE(sr.WithReportBlock(rb));
rtc::scoped_ptr<RawPacket> packet(sr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.sender_report()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.sender_report()->Ssrc());
EXPECT_EQ(1, parser.report_block()->num_packets());
EXPECT_EQ(kRemoteSsrc, parser.report_block()->Ssrc());
}
TEST(RtcpPacketTest, SrWithTwoReportBlocks) {
ReportBlock rb1;
rb1.To(kRemoteSsrc);
ReportBlock rb2;
rb2.To(kRemoteSsrc + 1);
SenderReport sr;
sr.From(kSenderSsrc);
EXPECT_TRUE(sr.WithReportBlock(rb1));
EXPECT_TRUE(sr.WithReportBlock(rb2));
rtc::scoped_ptr<RawPacket> packet(sr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.sender_report()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.sender_report()->Ssrc());
EXPECT_EQ(2, parser.report_block()->num_packets());
EXPECT_EQ(1, parser.report_blocks_per_ssrc(kRemoteSsrc));
EXPECT_EQ(1, parser.report_blocks_per_ssrc(kRemoteSsrc + 1));
}
TEST(RtcpPacketTest, SrWithTooManyReportBlocks) {
SenderReport sr;
sr.From(kSenderSsrc);
const int kMaxReportBlocks = (1 << 5) - 1;
ReportBlock rb;
for (int i = 0; i < kMaxReportBlocks; ++i) {
rb.To(kRemoteSsrc + i);
EXPECT_TRUE(sr.WithReportBlock(rb));
}
rb.To(kRemoteSsrc + kMaxReportBlocks);
EXPECT_FALSE(sr.WithReportBlock(rb));
}
TEST(RtcpPacketTest, IjNoItem) {
Ij ij;
rtc::scoped_ptr<RawPacket> packet(ij.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.ij()->num_packets());
EXPECT_EQ(0, parser.ij_item()->num_packets());
}
TEST(RtcpPacketTest, IjOneItem) {
Ij ij;
EXPECT_TRUE(ij.WithJitterItem(0x11111111));
rtc::scoped_ptr<RawPacket> packet(ij.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.ij()->num_packets());
EXPECT_EQ(1, parser.ij_item()->num_packets());
EXPECT_EQ(0x11111111U, parser.ij_item()->Jitter());
}
TEST(RtcpPacketTest, IjTwoItems) {
Ij ij;
EXPECT_TRUE(ij.WithJitterItem(0x11111111));
EXPECT_TRUE(ij.WithJitterItem(0x22222222));
rtc::scoped_ptr<RawPacket> packet(ij.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.ij()->num_packets());
EXPECT_EQ(2, parser.ij_item()->num_packets());
EXPECT_EQ(0x22222222U, parser.ij_item()->Jitter());
}
TEST(RtcpPacketTest, IjTooManyItems) {
Ij ij;
const int kMaxIjItems = (1 << 5) - 1;
for (int i = 0; i < kMaxIjItems; ++i) {
EXPECT_TRUE(ij.WithJitterItem(i));
}
EXPECT_FALSE(ij.WithJitterItem(kMaxIjItems));
}
TEST(RtcpPacketTest, AppWithNoData) {
App app;
app.WithSubType(30);
uint32_t name = 'n' << 24;
name += 'a' << 16;
name += 'm' << 8;
name += 'e';
app.WithName(name);
rtc::scoped_ptr<RawPacket> packet(app.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.app()->num_packets());
EXPECT_EQ(30U, parser.app()->SubType());
EXPECT_EQ(name, parser.app()->Name());
EXPECT_EQ(0, parser.app_item()->num_packets());
}
TEST(RtcpPacketTest, App) {
App app;
app.From(kSenderSsrc);
app.WithSubType(30);
uint32_t name = 'n' << 24;
name += 'a' << 16;
name += 'm' << 8;
name += 'e';
app.WithName(name);
const char kData[] = {'t', 'e', 's', 't', 'd', 'a', 't', 'a'};
const size_t kDataLength = sizeof(kData) / sizeof(kData[0]);
app.WithData((const uint8_t*)kData, kDataLength);
rtc::scoped_ptr<RawPacket> packet(app.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.app()->num_packets());
EXPECT_EQ(30U, parser.app()->SubType());
EXPECT_EQ(name, parser.app()->Name());
EXPECT_EQ(1, parser.app_item()->num_packets());
EXPECT_EQ(kDataLength, parser.app_item()->DataLength());
EXPECT_EQ(0, strncmp(kData, (const char*)parser.app_item()->Data(),
parser.app_item()->DataLength()));
}
TEST(RtcpPacketTest, SdesWithOneChunk) {
Sdes sdes;
EXPECT_TRUE(sdes.WithCName(kSenderSsrc, "alice@host"));
rtc::scoped_ptr<RawPacket> packet(sdes.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.sdes()->num_packets());
EXPECT_EQ(1, parser.sdes_chunk()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.sdes_chunk()->Ssrc());
EXPECT_EQ("alice@host", parser.sdes_chunk()->Cname());
}
TEST(RtcpPacketTest, SdesWithMultipleChunks) {
Sdes sdes;
EXPECT_TRUE(sdes.WithCName(kSenderSsrc, "a"));
EXPECT_TRUE(sdes.WithCName(kSenderSsrc + 1, "ab"));
EXPECT_TRUE(sdes.WithCName(kSenderSsrc + 2, "abc"));
EXPECT_TRUE(sdes.WithCName(kSenderSsrc + 3, "abcd"));
EXPECT_TRUE(sdes.WithCName(kSenderSsrc + 4, "abcde"));
EXPECT_TRUE(sdes.WithCName(kSenderSsrc + 5, "abcdef"));
rtc::scoped_ptr<RawPacket> packet(sdes.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.sdes()->num_packets());
EXPECT_EQ(6, parser.sdes_chunk()->num_packets());
EXPECT_EQ(kSenderSsrc + 5, parser.sdes_chunk()->Ssrc());
EXPECT_EQ("abcdef", parser.sdes_chunk()->Cname());
}
TEST(RtcpPacketTest, SdesWithTooManyChunks) {
Sdes sdes;
const int kMaxChunks = (1 << 5) - 1;
for (int i = 0; i < kMaxChunks; ++i) {
uint32_t ssrc = kSenderSsrc + i;
std::ostringstream oss;
oss << "cname" << i;
EXPECT_TRUE(sdes.WithCName(ssrc, oss.str()));
}
EXPECT_FALSE(sdes.WithCName(kSenderSsrc + kMaxChunks, "foo"));
}
TEST(RtcpPacketTest, CnameItemWithEmptyString) {
Sdes sdes;
EXPECT_TRUE(sdes.WithCName(kSenderSsrc, ""));
rtc::scoped_ptr<RawPacket> packet(sdes.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.sdes()->num_packets());
EXPECT_EQ(1, parser.sdes_chunk()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.sdes_chunk()->Ssrc());
EXPECT_EQ("", parser.sdes_chunk()->Cname());
}
TEST(RtcpPacketTest, Pli) {
Pli pli;
pli.From(kSenderSsrc);
pli.To(kRemoteSsrc);
rtc::scoped_ptr<RawPacket> packet(pli.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.pli()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.pli()->Ssrc());
EXPECT_EQ(kRemoteSsrc, parser.pli()->MediaSsrc());
}
TEST(RtcpPacketTest, Sli) {
const uint16_t kFirstMb = 7777;
const uint16_t kNumberOfMb = 6666;
const uint8_t kPictureId = 60;
Sli sli;
sli.From(kSenderSsrc);
sli.To(kRemoteSsrc);
sli.WithFirstMb(kFirstMb);
sli.WithNumberOfMb(kNumberOfMb);
sli.WithPictureId(kPictureId);
rtc::scoped_ptr<RawPacket> packet(sli.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.sli()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.sli()->Ssrc());
EXPECT_EQ(kRemoteSsrc, parser.sli()->MediaSsrc());
EXPECT_EQ(1, parser.sli_item()->num_packets());
EXPECT_EQ(kFirstMb, parser.sli_item()->FirstMb());
EXPECT_EQ(kNumberOfMb, parser.sli_item()->NumberOfMb());
EXPECT_EQ(kPictureId, parser.sli_item()->PictureId());
}
TEST(RtcpPacketTest, Nack) {
Nack nack;
const uint16_t kList[] = {0, 1, 3, 8, 16};
const uint16_t kListLength = sizeof(kList) / sizeof(kList[0]);
nack.From(kSenderSsrc);
nack.To(kRemoteSsrc);
nack.WithList(kList, kListLength);
rtc::scoped_ptr<RawPacket> packet(nack.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.nack()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.nack()->Ssrc());
EXPECT_EQ(kRemoteSsrc, parser.nack()->MediaSsrc());
EXPECT_EQ(1, parser.nack_item()->num_packets());
std::vector<uint16_t> seqs = parser.nack_item()->last_nack_list();
EXPECT_EQ(kListLength, seqs.size());
for (size_t i = 0; i < kListLength; ++i) {
EXPECT_EQ(kList[i], seqs[i]);
}
}
TEST(RtcpPacketTest, NackWithWrap) {
Nack nack;
const uint16_t kList[] = {65500, 65516, 65534, 65535, 0, 1, 3, 20, 100};
const uint16_t kListLength = sizeof(kList) / sizeof(kList[0]);
nack.From(kSenderSsrc);
nack.To(kRemoteSsrc);
nack.WithList(kList, kListLength);
rtc::scoped_ptr<RawPacket> packet(nack.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.nack()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.nack()->Ssrc());
EXPECT_EQ(kRemoteSsrc, parser.nack()->MediaSsrc());
EXPECT_EQ(4, parser.nack_item()->num_packets());
std::vector<uint16_t> seqs = parser.nack_item()->last_nack_list();
EXPECT_EQ(kListLength, seqs.size());
for (size_t i = 0; i < kListLength; ++i) {
EXPECT_EQ(kList[i], seqs[i]);
}
}
TEST(RtcpPacketTest, NackFragmented) {
Nack nack;
const uint16_t kList[] = {1, 100, 200, 300, 400};
const uint16_t kListLength = sizeof(kList) / sizeof(kList[0]);
nack.From(kSenderSsrc);
nack.To(kRemoteSsrc);
nack.WithList(kList, kListLength);
class Verifier : public rtcp::RtcpPacket::PacketReadyCallback {
public:
void OnPacketReady(uint8_t* data, size_t length) override {
++packets_created_;
RtcpPacketParser parser;
parser.Parse(data, length);
EXPECT_EQ(1, parser.nack()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.nack()->Ssrc());
EXPECT_EQ(kRemoteSsrc, parser.nack()->MediaSsrc());
switch (packets_created_) {
case 1:
EXPECT_THAT(parser.nack_item()->last_nack_list(),
ElementsAre(1, 100, 200));
break;
case 2:
EXPECT_THAT(parser.nack_item()->last_nack_list(),
ElementsAre(300, 400));
break;
default:
ADD_FAILURE() << "Unexpected packet count: " << packets_created_;
}
}
int packets_created_ = 0;
} verifier;
const size_t kBufferSize = 12 + (3 * 4); // Fits common header + 3 nack items
uint8_t buffer[kBufferSize];
EXPECT_TRUE(nack.BuildExternalBuffer(buffer, kBufferSize, &verifier));
EXPECT_EQ(2, verifier.packets_created_);
}
TEST(RtcpPacketTest, NackWithTooSmallBuffer) {
const uint16_t kList[] = {1};
const size_t kMinNackBlockSize = 16;
Nack nack;
nack.From(kSenderSsrc);
nack.To(kRemoteSsrc);
nack.WithList(kList, 1);
class Verifier : public rtcp::RtcpPacket::PacketReadyCallback {
public:
void OnPacketReady(uint8_t* data, size_t length) override {
ADD_FAILURE() << "Buffer should be too small.";
}
} verifier;
uint8_t buffer[kMinNackBlockSize - 1];
EXPECT_FALSE(
nack.BuildExternalBuffer(buffer, kMinNackBlockSize - 1, &verifier));
}
TEST(RtcpPacketTest, Rpsi) {
Rpsi rpsi;
// 1000001 (7 bits = 1 byte in native string).
const uint64_t kPictureId = 0x41;
const uint16_t kNumberOfValidBytes = 1;
rpsi.WithPayloadType(100);
rpsi.WithPictureId(kPictureId);
rtc::scoped_ptr<RawPacket> packet(rpsi.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(100, parser.rpsi()->PayloadType());
EXPECT_EQ(kNumberOfValidBytes * 8, parser.rpsi()->NumberOfValidBits());
EXPECT_EQ(kPictureId, parser.rpsi()->PictureId());
}
TEST(RtcpPacketTest, RpsiWithTwoByteNativeString) {
Rpsi rpsi;
// |1 0000001 (7 bits = 1 byte in native string).
const uint64_t kPictureId = 0x81;
const uint16_t kNumberOfValidBytes = 2;
rpsi.WithPictureId(kPictureId);
rtc::scoped_ptr<RawPacket> packet(rpsi.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(kNumberOfValidBytes * 8, parser.rpsi()->NumberOfValidBits());
EXPECT_EQ(kPictureId, parser.rpsi()->PictureId());
}
TEST(RtcpPacketTest, RpsiWithThreeByteNativeString) {
Rpsi rpsi;
// 10000|00 100000|0 1000000 (7 bits = 1 byte in native string).
const uint64_t kPictureId = 0x102040;
const uint16_t kNumberOfValidBytes = 3;
rpsi.WithPictureId(kPictureId);
rtc::scoped_ptr<RawPacket> packet(rpsi.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(kNumberOfValidBytes * 8, parser.rpsi()->NumberOfValidBits());
EXPECT_EQ(kPictureId, parser.rpsi()->PictureId());
}
TEST(RtcpPacketTest, RpsiWithFourByteNativeString) {
Rpsi rpsi;
// 1000|001 00001|01 100001|1 1000010 (7 bits = 1 byte in native string).
const uint64_t kPictureId = 0x84161C2;
const uint16_t kNumberOfValidBytes = 4;
rpsi.WithPictureId(kPictureId);
rtc::scoped_ptr<RawPacket> packet(rpsi.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(kNumberOfValidBytes * 8, parser.rpsi()->NumberOfValidBits());
EXPECT_EQ(kPictureId, parser.rpsi()->PictureId());
}
TEST(RtcpPacketTest, RpsiWithMaxPictureId) {
Rpsi rpsi;
// 1 1111111| 1111111 1|111111 11|11111 111|1111 1111|111 11111|
// 11 111111|1 1111111 (7 bits = 1 byte in native string).
const uint64_t kPictureId = 0xffffffffffffffff;
const uint16_t kNumberOfValidBytes = 10;
rpsi.WithPictureId(kPictureId);
rtc::scoped_ptr<RawPacket> packet(rpsi.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(kNumberOfValidBytes * 8, parser.rpsi()->NumberOfValidBits());
EXPECT_EQ(kPictureId, parser.rpsi()->PictureId());
}
TEST(RtcpPacketTest, Fir) {
Fir fir;
fir.From(kSenderSsrc);
fir.To(kRemoteSsrc);
fir.WithCommandSeqNum(123);
rtc::scoped_ptr<RawPacket> packet(fir.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.fir()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.fir()->Ssrc());
EXPECT_EQ(1, parser.fir_item()->num_packets());
EXPECT_EQ(kRemoteSsrc, parser.fir_item()->Ssrc());
EXPECT_EQ(123U, parser.fir_item()->SeqNum());
}
TEST(RtcpPacketTest, AppendPacket) {
Fir fir;
ReportBlock rb;
ReceiverReport rr;
rr.From(kSenderSsrc);
EXPECT_TRUE(rr.WithReportBlock(rb));
rr.Append(&fir);
rtc::scoped_ptr<RawPacket> packet(rr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.receiver_report()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.receiver_report()->Ssrc());
EXPECT_EQ(1, parser.report_block()->num_packets());
EXPECT_EQ(1, parser.fir()->num_packets());
}
TEST(RtcpPacketTest, AppendPacketOnEmpty) {
Empty empty;
ReceiverReport rr;
rr.From(kSenderSsrc);
empty.Append(&rr);
rtc::scoped_ptr<RawPacket> packet(empty.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.receiver_report()->num_packets());
EXPECT_EQ(0, parser.report_block()->num_packets());
}
TEST(RtcpPacketTest, AppendPacketWithOwnAppendedPacket) {
Fir fir;
Bye bye;
ReportBlock rb;
ReceiverReport rr;
EXPECT_TRUE(rr.WithReportBlock(rb));
rr.Append(&fir);
SenderReport sr;
sr.Append(&bye);
sr.Append(&rr);
rtc::scoped_ptr<RawPacket> packet(sr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.sender_report()->num_packets());
EXPECT_EQ(1, parser.receiver_report()->num_packets());
EXPECT_EQ(1, parser.report_block()->num_packets());
EXPECT_EQ(1, parser.bye()->num_packets());
EXPECT_EQ(1, parser.fir()->num_packets());
}
TEST(RtcpPacketTest, Bye) {
Bye bye;
bye.From(kSenderSsrc);
rtc::scoped_ptr<RawPacket> packet(bye.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.bye()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.bye()->Ssrc());
}
TEST(RtcpPacketTest, ByeWithCsrcs) {
Fir fir;
Bye bye;
bye.From(kSenderSsrc);
EXPECT_TRUE(bye.WithCsrc(0x22222222));
EXPECT_TRUE(bye.WithCsrc(0x33333333));
bye.Append(&fir);
rtc::scoped_ptr<RawPacket> packet(bye.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.bye()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.bye()->Ssrc());
EXPECT_EQ(1, parser.fir()->num_packets());
}
TEST(RtcpPacketTest, ByeWithTooManyCsrcs) {
Bye bye;
bye.From(kSenderSsrc);
const int kMaxCsrcs = (1 << 5) - 2; // 5 bit len, first item is sender SSRC.
for (int i = 0; i < kMaxCsrcs; ++i) {
EXPECT_TRUE(bye.WithCsrc(i));
}
EXPECT_FALSE(bye.WithCsrc(kMaxCsrcs));
}
TEST(RtcpPacketTest, BuildWithInputBuffer) {
Fir fir;
ReportBlock rb;
ReceiverReport rr;
rr.From(kSenderSsrc);
EXPECT_TRUE(rr.WithReportBlock(rb));
rr.Append(&fir);
const size_t kRrLength = 8;
const size_t kReportBlockLength = 24;
const size_t kFirLength = 20;
class Verifier : public rtcp::RtcpPacket::PacketReadyCallback {
public:
void OnPacketReady(uint8_t* data, size_t length) override {
RtcpPacketParser parser;
parser.Parse(data, length);
EXPECT_EQ(1, parser.receiver_report()->num_packets());
EXPECT_EQ(1, parser.report_block()->num_packets());
EXPECT_EQ(1, parser.fir()->num_packets());
++packets_created_;
}
int packets_created_ = 0;
} verifier;
const size_t kBufferSize = kRrLength + kReportBlockLength + kFirLength;
uint8_t buffer[kBufferSize];
EXPECT_TRUE(rr.BuildExternalBuffer(buffer, kBufferSize, &verifier));
EXPECT_EQ(1, verifier.packets_created_);
}
TEST(RtcpPacketTest, BuildWithTooSmallBuffer) {
ReportBlock rb;
ReceiverReport rr;
rr.From(kSenderSsrc);
EXPECT_TRUE(rr.WithReportBlock(rb));
const size_t kRrLength = 8;
const size_t kReportBlockLength = 24;
// No packet.
class Verifier : public rtcp::RtcpPacket::PacketReadyCallback {
void OnPacketReady(uint8_t* data, size_t length) override {
ADD_FAILURE() << "Packet should not fit within max size.";
}
} verifier;
const size_t kBufferSize = kRrLength + kReportBlockLength - 1;
uint8_t buffer[kBufferSize];
EXPECT_FALSE(rr.BuildExternalBuffer(buffer, kBufferSize, &verifier));
}
TEST(RtcpPacketTest, BuildWithTooSmallBuffer_FragmentedSend) {
Fir fir;
ReportBlock rb;
ReceiverReport rr;
rr.From(kSenderSsrc);
EXPECT_TRUE(rr.WithReportBlock(rb));
rr.Append(&fir);
const size_t kRrLength = 8;
const size_t kReportBlockLength = 24;
class Verifier : public rtcp::RtcpPacket::PacketReadyCallback {
public:
void OnPacketReady(uint8_t* data, size_t length) override {
RtcpPacketParser parser;
parser.Parse(data, length);
switch (packets_created_++) {
case 0:
EXPECT_EQ(1, parser.receiver_report()->num_packets());
EXPECT_EQ(1, parser.report_block()->num_packets());
EXPECT_EQ(0, parser.fir()->num_packets());
break;
case 1:
EXPECT_EQ(0, parser.receiver_report()->num_packets());
EXPECT_EQ(0, parser.report_block()->num_packets());
EXPECT_EQ(1, parser.fir()->num_packets());
break;
default:
ADD_FAILURE() << "OnPacketReady not expected to be called "
<< packets_created_ << " times.";
}
}
int packets_created_ = 0;
} verifier;
const size_t kBufferSize = kRrLength + kReportBlockLength;
uint8_t buffer[kBufferSize];
EXPECT_TRUE(rr.BuildExternalBuffer(buffer, kBufferSize, &verifier));
EXPECT_EQ(2, verifier.packets_created_);
}
TEST(RtcpPacketTest, Remb) {
Remb remb;
remb.From(kSenderSsrc);
remb.AppliesTo(kRemoteSsrc);
remb.AppliesTo(kRemoteSsrc + 1);
remb.AppliesTo(kRemoteSsrc + 2);
remb.WithBitrateBps(261011);
rtc::scoped_ptr<RawPacket> packet(remb.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.psfb_app()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.psfb_app()->Ssrc());
EXPECT_EQ(1, parser.remb_item()->num_packets());
EXPECT_EQ(261011, parser.remb_item()->last_bitrate_bps());
std::vector<uint32_t> ssrcs = parser.remb_item()->last_ssrc_list();
EXPECT_EQ(kRemoteSsrc, ssrcs[0]);
EXPECT_EQ(kRemoteSsrc + 1, ssrcs[1]);
EXPECT_EQ(kRemoteSsrc + 2, ssrcs[2]);
}
TEST(RtcpPacketTest, Tmmbr) {
Tmmbr tmmbr;
tmmbr.From(kSenderSsrc);
tmmbr.To(kRemoteSsrc);
tmmbr.WithBitrateKbps(312);
tmmbr.WithOverhead(60);
rtc::scoped_ptr<RawPacket> packet(tmmbr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.tmmbr()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.tmmbr()->Ssrc());
EXPECT_EQ(1, parser.tmmbr_item()->num_packets());
EXPECT_EQ(312U, parser.tmmbr_item()->BitrateKbps());
EXPECT_EQ(60U, parser.tmmbr_item()->Overhead());
}
TEST(RtcpPacketTest, TmmbnWithNoItem) {
Tmmbn tmmbn;
tmmbn.From(kSenderSsrc);
rtc::scoped_ptr<RawPacket> packet(tmmbn.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.tmmbn()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.tmmbn()->Ssrc());
EXPECT_EQ(0, parser.tmmbn_items()->num_packets());
}
TEST(RtcpPacketTest, TmmbnWithOneItem) {
Tmmbn tmmbn;
tmmbn.From(kSenderSsrc);
EXPECT_TRUE(tmmbn.WithTmmbr(kRemoteSsrc, 312, 60));
rtc::scoped_ptr<RawPacket> packet(tmmbn.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.tmmbn()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.tmmbn()->Ssrc());
EXPECT_EQ(1, parser.tmmbn_items()->num_packets());
EXPECT_EQ(kRemoteSsrc, parser.tmmbn_items()->Ssrc(0));
EXPECT_EQ(312U, parser.tmmbn_items()->BitrateKbps(0));
EXPECT_EQ(60U, parser.tmmbn_items()->Overhead(0));
}
TEST(RtcpPacketTest, TmmbnWithTwoItems) {
Tmmbn tmmbn;
tmmbn.From(kSenderSsrc);
EXPECT_TRUE(tmmbn.WithTmmbr(kRemoteSsrc, 312, 60));
EXPECT_TRUE(tmmbn.WithTmmbr(kRemoteSsrc + 1, 1288, 40));
rtc::scoped_ptr<RawPacket> packet(tmmbn.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.tmmbn()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.tmmbn()->Ssrc());
EXPECT_EQ(2, parser.tmmbn_items()->num_packets());
EXPECT_EQ(kRemoteSsrc, parser.tmmbn_items()->Ssrc(0));
EXPECT_EQ(312U, parser.tmmbn_items()->BitrateKbps(0));
EXPECT_EQ(60U, parser.tmmbn_items()->Overhead(0));
EXPECT_EQ(kRemoteSsrc + 1, parser.tmmbn_items()->Ssrc(1));
EXPECT_EQ(1288U, parser.tmmbn_items()->BitrateKbps(1));
EXPECT_EQ(40U, parser.tmmbn_items()->Overhead(1));
}
TEST(RtcpPacketTest, TmmbnWithTooManyItems) {
Tmmbn tmmbn;
tmmbn.From(kSenderSsrc);
const int kMaxTmmbrItems = 50;
for (int i = 0; i < kMaxTmmbrItems; ++i)
EXPECT_TRUE(tmmbn.WithTmmbr(kRemoteSsrc + i, 312, 60));
EXPECT_FALSE(tmmbn.WithTmmbr(kRemoteSsrc + kMaxTmmbrItems, 312, 60));
}
TEST(RtcpPacketTest, XrWithNoReportBlocks) {
Xr xr;
xr.From(kSenderSsrc);
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
}
TEST(RtcpPacketTest, XrWithRrtr) {
Rrtr rrtr;
rrtr.WithNtpSec(0x11111111);
rrtr.WithNtpFrac(0x22222222);
Xr xr;
xr.From(kSenderSsrc);
EXPECT_TRUE(xr.WithRrtr(&rrtr));
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
EXPECT_EQ(1, parser.rrtr()->num_packets());
EXPECT_EQ(0x11111111U, parser.rrtr()->NtpSec());
EXPECT_EQ(0x22222222U, parser.rrtr()->NtpFrac());
}
TEST(RtcpPacketTest, XrWithTwoRrtrBlocks) {
Rrtr rrtr1;
rrtr1.WithNtpSec(0x11111111);
rrtr1.WithNtpFrac(0x22222222);
Rrtr rrtr2;
rrtr2.WithNtpSec(0x33333333);
rrtr2.WithNtpFrac(0x44444444);
Xr xr;
xr.From(kSenderSsrc);
EXPECT_TRUE(xr.WithRrtr(&rrtr1));
EXPECT_TRUE(xr.WithRrtr(&rrtr2));
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
EXPECT_EQ(2, parser.rrtr()->num_packets());
EXPECT_EQ(0x33333333U, parser.rrtr()->NtpSec());
EXPECT_EQ(0x44444444U, parser.rrtr()->NtpFrac());
}
TEST(RtcpPacketTest, XrWithDlrrWithOneSubBlock) {
Dlrr dlrr;
EXPECT_TRUE(dlrr.WithDlrrItem(0x11111111, 0x22222222, 0x33333333));
Xr xr;
xr.From(kSenderSsrc);
EXPECT_TRUE(xr.WithDlrr(&dlrr));
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
EXPECT_EQ(1, parser.dlrr()->num_packets());
EXPECT_EQ(1, parser.dlrr_items()->num_packets());
EXPECT_EQ(0x11111111U, parser.dlrr_items()->Ssrc(0));
EXPECT_EQ(0x22222222U, parser.dlrr_items()->LastRr(0));
EXPECT_EQ(0x33333333U, parser.dlrr_items()->DelayLastRr(0));
}
TEST(RtcpPacketTest, XrWithDlrrWithTwoSubBlocks) {
Dlrr dlrr;
EXPECT_TRUE(dlrr.WithDlrrItem(0x11111111, 0x22222222, 0x33333333));
EXPECT_TRUE(dlrr.WithDlrrItem(0x44444444, 0x55555555, 0x66666666));
Xr xr;
xr.From(kSenderSsrc);
EXPECT_TRUE(xr.WithDlrr(&dlrr));
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
EXPECT_EQ(1, parser.dlrr()->num_packets());
EXPECT_EQ(2, parser.dlrr_items()->num_packets());
EXPECT_EQ(0x11111111U, parser.dlrr_items()->Ssrc(0));
EXPECT_EQ(0x22222222U, parser.dlrr_items()->LastRr(0));
EXPECT_EQ(0x33333333U, parser.dlrr_items()->DelayLastRr(0));
EXPECT_EQ(0x44444444U, parser.dlrr_items()->Ssrc(1));
EXPECT_EQ(0x55555555U, parser.dlrr_items()->LastRr(1));
EXPECT_EQ(0x66666666U, parser.dlrr_items()->DelayLastRr(1));
}
TEST(RtcpPacketTest, DlrrWithTooManySubBlocks) {
const int kMaxItems = 100;
Dlrr dlrr;
for (int i = 0; i < kMaxItems; ++i)
EXPECT_TRUE(dlrr.WithDlrrItem(i, i, i));
EXPECT_FALSE(dlrr.WithDlrrItem(kMaxItems, kMaxItems, kMaxItems));
}
TEST(RtcpPacketTest, XrWithTwoDlrrBlocks) {
Dlrr dlrr1;
EXPECT_TRUE(dlrr1.WithDlrrItem(0x11111111, 0x22222222, 0x33333333));
Dlrr dlrr2;
EXPECT_TRUE(dlrr2.WithDlrrItem(0x44444444, 0x55555555, 0x66666666));
Xr xr;
xr.From(kSenderSsrc);
EXPECT_TRUE(xr.WithDlrr(&dlrr1));
EXPECT_TRUE(xr.WithDlrr(&dlrr2));
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
EXPECT_EQ(2, parser.dlrr()->num_packets());
EXPECT_EQ(2, parser.dlrr_items()->num_packets());
EXPECT_EQ(0x11111111U, parser.dlrr_items()->Ssrc(0));
EXPECT_EQ(0x22222222U, parser.dlrr_items()->LastRr(0));
EXPECT_EQ(0x33333333U, parser.dlrr_items()->DelayLastRr(0));
EXPECT_EQ(0x44444444U, parser.dlrr_items()->Ssrc(1));
EXPECT_EQ(0x55555555U, parser.dlrr_items()->LastRr(1));
EXPECT_EQ(0x66666666U, parser.dlrr_items()->DelayLastRr(1));
}
TEST(RtcpPacketTest, XrWithVoipMetric) {
VoipMetric metric;
metric.To(kRemoteSsrc);
metric.LossRate(1);
metric.DiscardRate(2);
metric.BurstDensity(3);
metric.GapDensity(4);
metric.BurstDuration(0x1111);
metric.GapDuration(0x2222);
metric.RoundTripDelay(0x3333);
metric.EndSystemDelay(0x4444);
metric.SignalLevel(5);
metric.NoiseLevel(6);
metric.Rerl(7);
metric.Gmin(8);
metric.Rfactor(9);
metric.ExtRfactor(10);
metric.MosLq(11);
metric.MosCq(12);
metric.RxConfig(13);
metric.JbNominal(0x5555);
metric.JbMax(0x6666);
metric.JbAbsMax(0x7777);
Xr xr;
xr.From(kSenderSsrc);
EXPECT_TRUE(xr.WithVoipMetric(&metric));
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
EXPECT_EQ(1, parser.voip_metric()->num_packets());
EXPECT_EQ(kRemoteSsrc, parser.voip_metric()->Ssrc());
EXPECT_EQ(1, parser.voip_metric()->LossRate());
EXPECT_EQ(2, parser.voip_metric()->DiscardRate());
EXPECT_EQ(3, parser.voip_metric()->BurstDensity());
EXPECT_EQ(4, parser.voip_metric()->GapDensity());
EXPECT_EQ(0x1111, parser.voip_metric()->BurstDuration());
EXPECT_EQ(0x2222, parser.voip_metric()->GapDuration());
EXPECT_EQ(0x3333, parser.voip_metric()->RoundTripDelay());
EXPECT_EQ(0x4444, parser.voip_metric()->EndSystemDelay());
EXPECT_EQ(5, parser.voip_metric()->SignalLevel());
EXPECT_EQ(6, parser.voip_metric()->NoiseLevel());
EXPECT_EQ(7, parser.voip_metric()->Rerl());
EXPECT_EQ(8, parser.voip_metric()->Gmin());
EXPECT_EQ(9, parser.voip_metric()->Rfactor());
EXPECT_EQ(10, parser.voip_metric()->ExtRfactor());
EXPECT_EQ(11, parser.voip_metric()->MosLq());
EXPECT_EQ(12, parser.voip_metric()->MosCq());
EXPECT_EQ(13, parser.voip_metric()->RxConfig());
EXPECT_EQ(0x5555, parser.voip_metric()->JbNominal());
EXPECT_EQ(0x6666, parser.voip_metric()->JbMax());
EXPECT_EQ(0x7777, parser.voip_metric()->JbAbsMax());
}
TEST(RtcpPacketTest, XrWithMultipleReportBlocks) {
Rrtr rrtr;
Dlrr dlrr;
EXPECT_TRUE(dlrr.WithDlrrItem(1, 2, 3));
VoipMetric metric;
Xr xr;
xr.From(kSenderSsrc);
EXPECT_TRUE(xr.WithRrtr(&rrtr));
EXPECT_TRUE(xr.WithDlrr(&dlrr));
EXPECT_TRUE(xr.WithVoipMetric(&metric));
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
EXPECT_EQ(1, parser.rrtr()->num_packets());
EXPECT_EQ(1, parser.dlrr()->num_packets());
EXPECT_EQ(1, parser.dlrr_items()->num_packets());
EXPECT_EQ(1, parser.voip_metric()->num_packets());
}
TEST(RtcpPacketTest, DlrrWithoutItemNotIncludedInPacket) {
Rrtr rrtr;
Dlrr dlrr;
VoipMetric metric;
Xr xr;
xr.From(kSenderSsrc);
EXPECT_TRUE(xr.WithRrtr(&rrtr));
EXPECT_TRUE(xr.WithDlrr(&dlrr));
EXPECT_TRUE(xr.WithVoipMetric(&metric));
rtc::scoped_ptr<RawPacket> packet(xr.Build());
RtcpPacketParser parser;
parser.Parse(packet->Buffer(), packet->Length());
EXPECT_EQ(1, parser.xr_header()->num_packets());
EXPECT_EQ(kSenderSsrc, parser.xr_header()->Ssrc());
EXPECT_EQ(1, parser.rrtr()->num_packets());
EXPECT_EQ(0, parser.dlrr()->num_packets());
EXPECT_EQ(1, parser.voip_metric()->num_packets());
}
TEST(RtcpPacketTest, XrWithTooManyBlocks) {
const int kMaxBlocks = 50;
Xr xr;
Rrtr rrtr;
for (int i = 0; i < kMaxBlocks; ++i)
EXPECT_TRUE(xr.WithRrtr(&rrtr));
EXPECT_FALSE(xr.WithRrtr(&rrtr));
Dlrr dlrr;
for (int i = 0; i < kMaxBlocks; ++i)
EXPECT_TRUE(xr.WithDlrr(&dlrr));
EXPECT_FALSE(xr.WithDlrr(&dlrr));
VoipMetric voip_metric;
for (int i = 0; i < kMaxBlocks; ++i)
EXPECT_TRUE(xr.WithVoipMetric(&voip_metric));
EXPECT_FALSE(xr.WithVoipMetric(&voip_metric));
}
} // namespace webrtc