webrtc/talk/session/media/mediarecorder_unittest.cc

359 lines
14 KiB
C++

// libjingle
// Copyright 2010 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 <string>
#include "talk/media/base/fakemediaengine.h"
#include "talk/media/base/rtpdump.h"
#include "talk/media/base/testutils.h"
#include "talk/p2p/base/fakesession.h"
#include "talk/session/media/channel.h"
#include "talk/session/media/mediarecorder.h"
#include "webrtc/base/bytebuffer.h"
#include "webrtc/base/fileutils.h"
#include "webrtc/base/gunit.h"
#include "webrtc/base/pathutils.h"
#include "webrtc/base/thread.h"
namespace cricket {
rtc::StreamInterface* Open(const std::string& path) {
return rtc::Filesystem::OpenFile(
rtc::Pathname(path), "wb");
}
/////////////////////////////////////////////////////////////////////////
// Test RtpDumpSink
/////////////////////////////////////////////////////////////////////////
class RtpDumpSinkTest : public testing::Test {
public:
virtual void SetUp() {
EXPECT_TRUE(rtc::Filesystem::GetTemporaryFolder(path_, true, NULL));
path_.SetFilename("sink-test.rtpdump");
sink_.reset(new RtpDumpSink(Open(path_.pathname())));
for (int i = 0; i < ARRAY_SIZE(rtp_buf_); ++i) {
RtpTestUtility::kTestRawRtpPackets[i].WriteToByteBuffer(
RtpTestUtility::kDefaultSsrc, &rtp_buf_[i]);
}
}
virtual void TearDown() {
stream_.reset();
EXPECT_TRUE(rtc::Filesystem::DeleteFile(path_));
}
protected:
void OnRtpPacket(const RawRtpPacket& raw) {
rtc::ByteBuffer buf;
raw.WriteToByteBuffer(RtpTestUtility::kDefaultSsrc, &buf);
sink_->OnPacket(buf.Data(), buf.Length(), false);
}
rtc::StreamResult ReadPacket(RtpDumpPacket* packet) {
if (!stream_.get()) {
sink_.reset(); // This will close the file. So we can read it.
stream_.reset(rtc::Filesystem::OpenFile(path_, "rb"));
reader_.reset(new RtpDumpReader(stream_.get()));
}
return reader_->ReadPacket(packet);
}
rtc::Pathname path_;
rtc::scoped_ptr<RtpDumpSink> sink_;
rtc::ByteBuffer rtp_buf_[3];
rtc::scoped_ptr<rtc::StreamInterface> stream_;
rtc::scoped_ptr<RtpDumpReader> reader_;
};
TEST_F(RtpDumpSinkTest, TestRtpDumpSink) {
// By default, the sink is disabled. The 1st packet is not written.
EXPECT_FALSE(sink_->IsEnabled());
sink_->set_packet_filter(PF_ALL);
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[0]);
// Enable the sink. The 2nd packet is written.
EXPECT_TRUE(sink_->Enable(true));
EXPECT_TRUE(sink_->IsEnabled());
EXPECT_TRUE(rtc::Filesystem::IsFile(path_.pathname()));
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[1]);
// Disable the sink. The 3rd packet is not written.
EXPECT_TRUE(sink_->Enable(false));
EXPECT_FALSE(sink_->IsEnabled());
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[2]);
// Read the recorded file and verify it contains only the 2nd packet.
RtpDumpPacket packet;
EXPECT_EQ(rtc::SR_SUCCESS, ReadPacket(&packet));
EXPECT_TRUE(RtpTestUtility::VerifyPacket(
&packet, &RtpTestUtility::kTestRawRtpPackets[1], false));
EXPECT_EQ(rtc::SR_EOS, ReadPacket(&packet));
}
TEST_F(RtpDumpSinkTest, TestRtpDumpSinkMaxSize) {
EXPECT_TRUE(sink_->Enable(true));
sink_->set_packet_filter(PF_ALL);
sink_->SetMaxSize(strlen(RtpDumpFileHeader::kFirstLine) +
RtpDumpFileHeader::kHeaderLength +
RtpDumpPacket::kHeaderLength +
RtpTestUtility::kTestRawRtpPackets[0].size());
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[0]);
// Exceed the limit size: the 2nd and 3rd packets are not written.
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[1]);
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[2]);
// Read the recorded file and verify that it contains only the first packet.
RtpDumpPacket packet;
EXPECT_EQ(rtc::SR_SUCCESS, ReadPacket(&packet));
EXPECT_TRUE(RtpTestUtility::VerifyPacket(
&packet, &RtpTestUtility::kTestRawRtpPackets[0], false));
EXPECT_EQ(rtc::SR_EOS, ReadPacket(&packet));
}
TEST_F(RtpDumpSinkTest, TestRtpDumpSinkFilter) {
// The default filter is PF_NONE.
EXPECT_EQ(PF_NONE, sink_->packet_filter());
// Set to PF_RTPHEADER before enable.
sink_->set_packet_filter(PF_RTPHEADER);
EXPECT_EQ(PF_RTPHEADER, sink_->packet_filter());
EXPECT_TRUE(sink_->Enable(true));
// We dump only the header of the first packet.
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[0]);
// Set the filter to PF_RTPPACKET. We dump all the second packet.
sink_->set_packet_filter(PF_RTPPACKET);
EXPECT_EQ(PF_RTPPACKET, sink_->packet_filter());
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[1]);
// Set the filter to PF_NONE. We do not dump the third packet.
sink_->set_packet_filter(PF_NONE);
EXPECT_EQ(PF_NONE, sink_->packet_filter());
OnRtpPacket(RtpTestUtility::kTestRawRtpPackets[2]);
// Read the recorded file and verify the header of the first packet and
// the whole packet for the second packet.
RtpDumpPacket packet;
EXPECT_EQ(rtc::SR_SUCCESS, ReadPacket(&packet));
EXPECT_TRUE(RtpTestUtility::VerifyPacket(
&packet, &RtpTestUtility::kTestRawRtpPackets[0], true));
EXPECT_EQ(rtc::SR_SUCCESS, ReadPacket(&packet));
EXPECT_TRUE(RtpTestUtility::VerifyPacket(
&packet, &RtpTestUtility::kTestRawRtpPackets[1], false));
EXPECT_EQ(rtc::SR_EOS, ReadPacket(&packet));
}
/////////////////////////////////////////////////////////////////////////
// Test MediaRecorder
/////////////////////////////////////////////////////////////////////////
void TestMediaRecorder(BaseChannel* channel,
FakeVideoMediaChannel* video_media_channel,
int filter) {
// Create media recorder.
rtc::scoped_ptr<MediaRecorder> recorder(new MediaRecorder);
// Fail to EnableChannel before AddChannel.
EXPECT_FALSE(recorder->EnableChannel(channel, true, true, SINK_PRE_CRYPTO));
EXPECT_FALSE(channel->HasSendSinks(SINK_PRE_CRYPTO));
EXPECT_FALSE(channel->HasRecvSinks(SINK_PRE_CRYPTO));
EXPECT_FALSE(channel->HasSendSinks(SINK_POST_CRYPTO));
EXPECT_FALSE(channel->HasRecvSinks(SINK_POST_CRYPTO));
// Add the channel to the recorder.
rtc::Pathname path;
EXPECT_TRUE(rtc::Filesystem::GetTemporaryFolder(path, true, NULL));
path.SetFilename("send.rtpdump");
std::string send_file = path.pathname();
path.SetFilename("recv.rtpdump");
std::string recv_file = path.pathname();
if (video_media_channel) {
EXPECT_TRUE(recorder->AddChannel(static_cast<VideoChannel*>(channel),
Open(send_file), Open(recv_file), filter));
} else {
EXPECT_TRUE(recorder->AddChannel(static_cast<VoiceChannel*>(channel),
Open(send_file), Open(recv_file), filter));
}
// Enable recording only the sent media.
EXPECT_TRUE(recorder->EnableChannel(channel, true, false, SINK_PRE_CRYPTO));
EXPECT_TRUE(channel->HasSendSinks(SINK_PRE_CRYPTO));
EXPECT_FALSE(channel->HasRecvSinks(SINK_POST_CRYPTO));
EXPECT_FALSE(channel->HasSendSinks(SINK_POST_CRYPTO));
EXPECT_FALSE(channel->HasRecvSinks(SINK_POST_CRYPTO));
if (video_media_channel) {
EXPECT_TRUE_WAIT(video_media_channel->sent_intra_frame(), 100);
}
// Enable recording only the received meida.
EXPECT_TRUE(recorder->EnableChannel(channel, false, true, SINK_PRE_CRYPTO));
EXPECT_FALSE(channel->HasSendSinks(SINK_PRE_CRYPTO));
EXPECT_TRUE(channel->HasRecvSinks(SINK_PRE_CRYPTO));
if (video_media_channel) {
EXPECT_TRUE(video_media_channel->requested_intra_frame());
}
// Enable recording both the sent and the received video.
EXPECT_TRUE(recorder->EnableChannel(channel, true, true, SINK_PRE_CRYPTO));
EXPECT_TRUE(channel->HasSendSinks(SINK_PRE_CRYPTO));
EXPECT_TRUE(channel->HasRecvSinks(SINK_PRE_CRYPTO));
// Enable recording only headers.
if (video_media_channel) {
video_media_channel->set_sent_intra_frame(false);
video_media_channel->set_requested_intra_frame(false);
}
EXPECT_TRUE(recorder->EnableChannel(channel, true, true, SINK_PRE_CRYPTO));
EXPECT_TRUE(channel->HasSendSinks(SINK_PRE_CRYPTO));
EXPECT_TRUE(channel->HasRecvSinks(SINK_PRE_CRYPTO));
if (video_media_channel) {
if ((filter & PF_RTPPACKET) == PF_RTPPACKET) {
// If record the whole RTP packet, trigers FIR.
EXPECT_TRUE(video_media_channel->requested_intra_frame());
EXPECT_TRUE(video_media_channel->sent_intra_frame());
} else {
// If record only the RTP header, does not triger FIR.
EXPECT_FALSE(video_media_channel->requested_intra_frame());
EXPECT_FALSE(video_media_channel->sent_intra_frame());
}
}
// Remove the voice channel from the recorder.
recorder->RemoveChannel(channel, SINK_PRE_CRYPTO);
EXPECT_FALSE(channel->HasSendSinks(SINK_PRE_CRYPTO));
EXPECT_FALSE(channel->HasRecvSinks(SINK_PRE_CRYPTO));
// Delete all files.
recorder.reset();
EXPECT_TRUE(rtc::Filesystem::DeleteFile(send_file));
EXPECT_TRUE(rtc::Filesystem::DeleteFile(recv_file));
}
// Fisrt start recording header and then start recording media. Verify that
// differnt files are created for header and media.
void TestRecordHeaderAndMedia(BaseChannel* channel,
FakeVideoMediaChannel* video_media_channel) {
// Create RTP header recorder.
rtc::scoped_ptr<MediaRecorder> header_recorder(new MediaRecorder);
rtc::Pathname path;
EXPECT_TRUE(rtc::Filesystem::GetTemporaryFolder(path, true, NULL));
path.SetFilename("send-header.rtpdump");
std::string send_header_file = path.pathname();
path.SetFilename("recv-header.rtpdump");
std::string recv_header_file = path.pathname();
if (video_media_channel) {
EXPECT_TRUE(header_recorder->AddChannel(
static_cast<VideoChannel*>(channel),
Open(send_header_file), Open(recv_header_file), PF_RTPHEADER));
} else {
EXPECT_TRUE(header_recorder->AddChannel(
static_cast<VoiceChannel*>(channel),
Open(send_header_file), Open(recv_header_file), PF_RTPHEADER));
}
// Enable recording both sent and received.
EXPECT_TRUE(
header_recorder->EnableChannel(channel, true, true, SINK_POST_CRYPTO));
EXPECT_TRUE(channel->HasSendSinks(SINK_POST_CRYPTO));
EXPECT_TRUE(channel->HasRecvSinks(SINK_POST_CRYPTO));
EXPECT_FALSE(channel->HasSendSinks(SINK_PRE_CRYPTO));
EXPECT_FALSE(channel->HasRecvSinks(SINK_PRE_CRYPTO));
if (video_media_channel) {
EXPECT_FALSE(video_media_channel->sent_intra_frame());
EXPECT_FALSE(video_media_channel->requested_intra_frame());
}
// Verify that header files are created.
EXPECT_TRUE(rtc::Filesystem::IsFile(send_header_file));
EXPECT_TRUE(rtc::Filesystem::IsFile(recv_header_file));
// Create RTP header recorder.
rtc::scoped_ptr<MediaRecorder> recorder(new MediaRecorder);
path.SetFilename("send.rtpdump");
std::string send_file = path.pathname();
path.SetFilename("recv.rtpdump");
std::string recv_file = path.pathname();
if (video_media_channel) {
EXPECT_TRUE(recorder->AddChannel(
static_cast<VideoChannel*>(channel),
Open(send_file), Open(recv_file), PF_RTPPACKET));
} else {
EXPECT_TRUE(recorder->AddChannel(
static_cast<VoiceChannel*>(channel),
Open(send_file), Open(recv_file), PF_RTPPACKET));
}
// Enable recording both sent and received.
EXPECT_TRUE(recorder->EnableChannel(channel, true, true, SINK_PRE_CRYPTO));
EXPECT_TRUE(channel->HasSendSinks(SINK_POST_CRYPTO));
EXPECT_TRUE(channel->HasRecvSinks(SINK_POST_CRYPTO));
EXPECT_TRUE(channel->HasSendSinks(SINK_PRE_CRYPTO));
EXPECT_TRUE(channel->HasRecvSinks(SINK_PRE_CRYPTO));
if (video_media_channel) {
EXPECT_TRUE_WAIT(video_media_channel->sent_intra_frame(), 100);
EXPECT_TRUE(video_media_channel->requested_intra_frame());
}
// Verify that media files are created.
EXPECT_TRUE(rtc::Filesystem::IsFile(send_file));
EXPECT_TRUE(rtc::Filesystem::IsFile(recv_file));
// Delete all files.
header_recorder.reset();
recorder.reset();
EXPECT_TRUE(rtc::Filesystem::DeleteFile(send_header_file));
EXPECT_TRUE(rtc::Filesystem::DeleteFile(recv_header_file));
EXPECT_TRUE(rtc::Filesystem::DeleteFile(send_file));
EXPECT_TRUE(rtc::Filesystem::DeleteFile(recv_file));
}
TEST(MediaRecorderTest, TestMediaRecorderVoiceChannel) {
// Create the voice channel.
FakeSession session(true);
FakeMediaEngine media_engine;
VoiceChannel channel(rtc::Thread::Current(), &media_engine,
new FakeVoiceMediaChannel(NULL), &session, "", false);
EXPECT_TRUE(channel.Init());
TestMediaRecorder(&channel, NULL, PF_RTPPACKET);
TestMediaRecorder(&channel, NULL, PF_RTPHEADER);
TestRecordHeaderAndMedia(&channel, NULL);
}
TEST(MediaRecorderTest, TestMediaRecorderVideoChannel) {
// Create the video channel.
FakeSession session(true);
FakeMediaEngine media_engine;
FakeVideoMediaChannel* media_channel = new FakeVideoMediaChannel(NULL);
VideoChannel channel(rtc::Thread::Current(), &media_engine,
media_channel, &session, "", false, NULL);
EXPECT_TRUE(channel.Init());
TestMediaRecorder(&channel, media_channel, PF_RTPPACKET);
TestMediaRecorder(&channel, media_channel, PF_RTPHEADER);
TestRecordHeaderAndMedia(&channel, media_channel);
}
} // namespace cricket