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// Copyright (c) 2010 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <vector>
#include "base/message_loop.h"
#include "base/string_number_conversions.h"
#include "net/base/io_buffer.h"
#include "remoting/proto/video.pb.h"
#include "remoting/protocol/fake_session.h"
#include "remoting/protocol/rtp_utils.h"
#include "remoting/protocol/rtp_video_reader.h"
#include "testing/gtest/include/gtest/gtest.h"
using net::IOBuffer;
using std::vector;
namespace remoting {
namespace protocol {
class RtpVideoReaderTest : public testing::Test,
public VideoStub {
public:
// VideoStub interface.
virtual void ProcessVideoPacket(const VideoPacket* video_packet,
Task* done) {
received_packets_.push_back(VideoPacket());
received_packets_.back() = *video_packet;
done->Run();
delete done;
}
virtual int GetPendingPackets() {
return 0;
}
protected:
struct FragmentInfo {
int sequence_number;
int timestamp;
bool first;
bool last;
Vp8Descriptor::FragmentationInfo fragmentation_info;
int start;
int end;
};
struct ExpectedPacket {
int timestamp;
int flags;
int start;
int end;
};
virtual void SetUp() {
Reset();
InitData(100);
}
virtual void TearDown() {
message_loop_.RunAllPending();
}
void Reset() {
session_ = new FakeSession();
reader_.reset(new RtpVideoReader());
reader_->Init(session_, this);
received_packets_.clear();
}
void InitData(int size) {
data_.resize(size);
for (int i = 0; i < size; ++i) {
data_[i] = static_cast<char>(i);
}
}
bool CompareData(const CompoundBuffer& buffer, char* data, int size) {
scoped_refptr<IOBuffer> buffer_data = buffer.ToIOBufferWithSize();
return buffer.total_bytes() == size &&
memcmp(buffer_data->data(), data, size) == 0;
}
void SplitAndSend(const FragmentInfo fragments[], int count) {
for (int i = 0; i < count; ++i) {
RtpHeader header;
header.sequence_number = fragments[i].sequence_number;
header.marker = fragments[i].last;
header.timestamp = fragments[i].timestamp;
Vp8Descriptor descriptor;
descriptor.non_reference_frame = true;
descriptor.frame_beginning = fragments[i].first;
descriptor.fragmentation_info = fragments[i].fragmentation_info;
int header_size = GetRtpHeaderSize(header);
int vp8_desc_size = GetVp8DescriptorSize(descriptor);
int payload_size = fragments[i].end - fragments[i].start;
int size = header_size + vp8_desc_size + payload_size;
scoped_refptr<net::IOBuffer> buffer = new net::IOBuffer(size);
PackRtpHeader(header, reinterpret_cast<uint8*>(buffer->data()),
header_size);
PackVp8Descriptor(descriptor, reinterpret_cast<uint8*>(buffer->data()) +
header_size, vp8_desc_size);
memcpy(buffer->data() + header_size + vp8_desc_size,
&*data_.begin() + fragments[i].start, payload_size);
reader_->rtp_reader_.OnDataReceived(buffer, size);
}
}
void CheckResults(const ExpectedPacket expected[], int count) {
ASSERT_EQ(count, static_cast<int>(received_packets_.size()));
for (int i = 0; i < count; ++i) {
SCOPED_TRACE("Packet " + base::IntToString(i));
int expected_size = expected[i].end - expected[i].start;
EXPECT_EQ(expected_size,
static_cast<int>(received_packets_[i].data().size()));
EXPECT_EQ(0, memcmp(&*received_packets_[i].data().data(),
&*data_.begin() + expected[i].start, expected_size));
EXPECT_EQ(expected[i].flags, received_packets_[i].flags());
EXPECT_EQ(expected[i].timestamp, received_packets_[i].timestamp());
}
}
scoped_refptr<FakeSession> session_;
scoped_ptr<RtpVideoReader> reader_;
MessageLoop message_loop_;
vector<char> data_;
vector<VideoPacket> received_packets_;
};
// One non-fragmented packet marked as first.
TEST_F(RtpVideoReaderTest, NotFragmented_FirstPacket) {
FragmentInfo fragments[] = {
{ 300, 123, true, false, Vp8Descriptor::NOT_FRAGMENTED, 0, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 123, VideoPacket::FIRST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// One non-fragmented packet marked as last.
TEST_F(RtpVideoReaderTest, NotFragmented_LastPacket) {
FragmentInfo fragments[] = {
{ 3000, 123, false, true, Vp8Descriptor::NOT_FRAGMENTED, 0, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 123, VideoPacket::LAST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Duplicated non-fragmented packet. Must be processed only once.
TEST_F(RtpVideoReaderTest, NotFragmented_Duplicate) {
FragmentInfo fragments[] = {
{ 300, 123, true, false, Vp8Descriptor::NOT_FRAGMENTED, 0, 100 },
{ 300, 123, true, false, Vp8Descriptor::NOT_FRAGMENTED, 0, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 123, VideoPacket::FIRST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// First packet split into two fragments.
TEST_F(RtpVideoReaderTest, TwoFragments_FirstPacket) {
FragmentInfo fragments[] = {
{ 300, 321, true, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 50 },
{ 301, 321, false, false, Vp8Descriptor::LAST_FRAGMENT, 50, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 321, VideoPacket::FIRST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Last packet split into two fragments.
TEST_F(RtpVideoReaderTest, TwoFragments_LastPacket) {
FragmentInfo fragments[] = {
{ 3000, 400, false, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 50 },
{ 3001, 400, false, true, Vp8Descriptor::LAST_FRAGMENT, 50, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 400, VideoPacket::LAST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Duplicated second fragment.
TEST_F(RtpVideoReaderTest, TwoFragments_WithDuplicate) {
FragmentInfo fragments[] = {
{ 3000, 400, false, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 50 },
{ 3001, 400, false, true, Vp8Descriptor::LAST_FRAGMENT, 50, 100 },
{ 3001, 400, false, true, Vp8Descriptor::LAST_FRAGMENT, 50, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 400, VideoPacket::LAST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Packet split into three fragments.
TEST_F(RtpVideoReaderTest, ThreeFragments_Ordered) {
FragmentInfo fragments[] = {
{ 300, 400, true, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 50 },
{ 301, 400, false, false, Vp8Descriptor::MIDDLE_FRAGMENT, 50, 90 },
{ 302, 400, false, false, Vp8Descriptor::LAST_FRAGMENT, 90, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 400, VideoPacket::FIRST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Packet split into three fragments received in reverse order.
TEST_F(RtpVideoReaderTest, ThreeFragments_ReverseOrder) {
FragmentInfo fragments[] = {
{ 302, 400, false, false, Vp8Descriptor::LAST_FRAGMENT, 90, 100 },
{ 301, 400, false, false, Vp8Descriptor::MIDDLE_FRAGMENT, 50, 90 },
{ 300, 400, true, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 50 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 400, VideoPacket::FIRST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Two fragmented packets.
TEST_F(RtpVideoReaderTest, TwoPackets) {
FragmentInfo fragments[] = {
{ 300, 100, true, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 10 },
{ 301, 100, false, false, Vp8Descriptor::MIDDLE_FRAGMENT, 10, 20 },
{ 302, 100, false, false, Vp8Descriptor::LAST_FRAGMENT, 20, 40 },
{ 303, 200, false, false, Vp8Descriptor::FIRST_FRAGMENT, 40, 70 },
{ 304, 200, false, true, Vp8Descriptor::LAST_FRAGMENT, 70, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 100, VideoPacket::FIRST_PACKET, 0, 40 },
{ 200, VideoPacket::LAST_PACKET, 40, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Sequence of three packets, with one lost fragment lost in the second packet.
TEST_F(RtpVideoReaderTest, LostFragment) {
FragmentInfo fragments[] = {
{ 300, 100, true, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 10 },
{ 301, 100, false, false, Vp8Descriptor::MIDDLE_FRAGMENT, 10, 20 },
{ 302, 100, false, false, Vp8Descriptor::LAST_FRAGMENT, 20, 30 },
// Lost: { 303, 200, false, false, Vp8Descriptor::FIRST_FRAGMENT, 40, 50 },
{ 304, 200, false, true, Vp8Descriptor::LAST_FRAGMENT, 30, 40 },
{ 305, 300, true, false, Vp8Descriptor::FIRST_FRAGMENT, 50, 70 },
{ 306, 300, false, true, Vp8Descriptor::LAST_FRAGMENT, 70, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 100, VideoPacket::FIRST_PACKET, 0, 30 },
{ 300, VideoPacket::FIRST_PACKET | VideoPacket::LAST_PACKET, 50, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Sequence of four packets, with two lost fragments.
TEST_F(RtpVideoReaderTest, TwoLostFragments) {
// Fragments 303 and 306 should not be combined because they belong to
// different Vp8 partitions.
FragmentInfo fragments[] = {
{ 300, 100, true, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 10 },
{ 301, 100, false, false, Vp8Descriptor::MIDDLE_FRAGMENT, 10, 20 },
{ 302, 100, false, false, Vp8Descriptor::LAST_FRAGMENT, 20, 30 },
{ 303, 200, false, false, Vp8Descriptor::FIRST_FRAGMENT, 40, 50 },
// Lost: { 304, 200, false, true, Vp8Descriptor::LAST_FRAGMENT, 30, 40 },
// Lost: { 305, 300, true, false, Vp8Descriptor::FIRST_FRAGMENT, 50, 60 },
{ 306, 300, false, true, Vp8Descriptor::LAST_FRAGMENT, 60, 70 },
{ 307, 400, true, false, Vp8Descriptor::FIRST_FRAGMENT, 70, 80 },
{ 308, 400, false, true, Vp8Descriptor::LAST_FRAGMENT, 80, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 100, VideoPacket::FIRST_PACKET, 0, 30 },
{ 400, VideoPacket::FIRST_PACKET | VideoPacket::LAST_PACKET, 70, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Sequence number wrapping.
TEST_F(RtpVideoReaderTest, SequenceNumberWrapping) {
FragmentInfo fragments[] = {
{ 65534, 400, true, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 50 },
{ 65535, 400, false, false, Vp8Descriptor::MIDDLE_FRAGMENT, 50, 90 },
{ 0, 400, false, false, Vp8Descriptor::LAST_FRAGMENT, 90, 100 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 400, VideoPacket::FIRST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// Sequence number wrapping for fragments received out of order.
TEST_F(RtpVideoReaderTest, SequenceNumberWrappingReordered) {
FragmentInfo fragments[] = {
{ 0, 400, false, false, Vp8Descriptor::LAST_FRAGMENT, 90, 100 },
{ 65534, 400, true, false, Vp8Descriptor::FIRST_FRAGMENT, 0, 50 },
{ 65535, 400, false, false, Vp8Descriptor::MIDDLE_FRAGMENT, 50, 90 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 400, VideoPacket::FIRST_PACKET, 0, 100 },
};
CheckResults(expected, arraysize(expected));
}
// An old packet with invalid sequence number.
TEST_F(RtpVideoReaderTest, OldPacket) {
FragmentInfo fragments[] = {
{ 32000, 123, true, true, Vp8Descriptor::NOT_FRAGMENTED, 0, 30 },
// Should be ignored.
{ 10000, 532, true, true, Vp8Descriptor::NOT_FRAGMENTED, 30, 40 },
{ 32001, 223, true, true, Vp8Descriptor::NOT_FRAGMENTED, 40, 50 },
};
SplitAndSend(fragments, arraysize(fragments));
ExpectedPacket expected[] = {
{ 123, VideoPacket::FIRST_PACKET | VideoPacket::LAST_PACKET, 0, 30 },
{ 223, VideoPacket::FIRST_PACKET | VideoPacket::LAST_PACKET, 40, 50 },
};
CheckResults(expected, arraysize(expected));
}
} // namespace protocol
} // namespace remoting
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