webrtc/talk/session/media/channelmanager_unittest.cc

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// libjingle
// Copyright 2008 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 "talk/media/base/fakecapturemanager.h"
#include "talk/media/base/fakemediaengine.h"
#include "talk/media/base/fakemediaprocessor.h"
#include "talk/media/base/nullvideorenderer.h"
#include "talk/media/base/testutils.h"
#include "talk/media/devices/fakedevicemanager.h"
#include "talk/p2p/base/fakesession.h"
#include "talk/session/media/channelmanager.h"
#include "webrtc/base/gunit.h"
#include "webrtc/base/logging.h"
#include "webrtc/base/thread.h"
namespace cricket {
static const AudioCodec kAudioCodecs[] = {
AudioCodec(97, "voice", 1, 2, 3, 0),
AudioCodec(110, "CELT", 32000, 48000, 2, 0),
AudioCodec(111, "OPUS", 48000, 32000, 2, 0),
};
static const VideoCodec kVideoCodecs[] = {
VideoCodec(99, "H264", 100, 200, 300, 0),
VideoCodec(100, "VP8", 100, 200, 300, 0),
VideoCodec(96, "rtx", 100, 200, 300, 0),
};
class ChannelManagerTest : public testing::Test {
protected:
ChannelManagerTest() : fme_(NULL), fdm_(NULL), fcm_(NULL), cm_(NULL) {
}
virtual void SetUp() {
fme_ = new cricket::FakeMediaEngine();
fme_->SetAudioCodecs(MAKE_VECTOR(kAudioCodecs));
fme_->SetVideoCodecs(MAKE_VECTOR(kVideoCodecs));
fdme_ = new cricket::FakeDataEngine();
fdm_ = new cricket::FakeDeviceManager();
fcm_ = new cricket::FakeCaptureManager();
cm_ = new cricket::ChannelManager(
fme_, fdme_, fdm_, fcm_, rtc::Thread::Current());
session_ = new cricket::FakeSession(true);
std::vector<std::string> in_device_list, out_device_list, vid_device_list;
in_device_list.push_back("audio-in1");
in_device_list.push_back("audio-in2");
out_device_list.push_back("audio-out1");
out_device_list.push_back("audio-out2");
vid_device_list.push_back("video-in1");
vid_device_list.push_back("video-in2");
fdm_->SetAudioInputDevices(in_device_list);
fdm_->SetAudioOutputDevices(out_device_list);
fdm_->SetVideoCaptureDevices(vid_device_list);
}
virtual void TearDown() {
delete session_;
delete cm_;
cm_ = NULL;
fdm_ = NULL;
fcm_ = NULL;
fdme_ = NULL;
fme_ = NULL;
}
rtc::Thread worker_;
cricket::FakeMediaEngine* fme_;
cricket::FakeDataEngine* fdme_;
cricket::FakeDeviceManager* fdm_;
cricket::FakeCaptureManager* fcm_;
cricket::ChannelManager* cm_;
cricket::FakeSession* session_;
};
// Test that we startup/shutdown properly.
TEST_F(ChannelManagerTest, StartupShutdown) {
EXPECT_FALSE(cm_->initialized());
EXPECT_EQ(rtc::Thread::Current(), cm_->worker_thread());
EXPECT_TRUE(cm_->Init());
EXPECT_TRUE(cm_->initialized());
cm_->Terminate();
EXPECT_FALSE(cm_->initialized());
}
// Test that we startup/shutdown properly with a worker thread.
TEST_F(ChannelManagerTest, StartupShutdownOnThread) {
worker_.Start();
EXPECT_FALSE(cm_->initialized());
EXPECT_EQ(rtc::Thread::Current(), cm_->worker_thread());
EXPECT_TRUE(cm_->set_worker_thread(&worker_));
EXPECT_EQ(&worker_, cm_->worker_thread());
EXPECT_TRUE(cm_->Init());
EXPECT_TRUE(cm_->initialized());
// Setting the worker thread while initialized should fail.
EXPECT_FALSE(cm_->set_worker_thread(rtc::Thread::Current()));
cm_->Terminate();
EXPECT_FALSE(cm_->initialized());
}
// Test that we can create and destroy a voice and video channel.
TEST_F(ChannelManagerTest, CreateDestroyChannels) {
EXPECT_TRUE(cm_->Init());
cricket::VoiceChannel* voice_channel = cm_->CreateVoiceChannel(
session_, cricket::CN_AUDIO, false);
EXPECT_TRUE(voice_channel != NULL);
cricket::VideoChannel* video_channel =
cm_->CreateVideoChannel(session_, cricket::CN_VIDEO,
false, voice_channel);
EXPECT_TRUE(video_channel != NULL);
cricket::DataChannel* data_channel =
cm_->CreateDataChannel(session_, cricket::CN_DATA,
false, cricket::DCT_RTP);
EXPECT_TRUE(data_channel != NULL);
cm_->DestroyVideoChannel(video_channel);
cm_->DestroyVoiceChannel(voice_channel);
cm_->DestroyDataChannel(data_channel);
cm_->Terminate();
}
// Test that we can create and destroy a voice and video channel with a worker.
TEST_F(ChannelManagerTest, CreateDestroyChannelsOnThread) {
worker_.Start();
EXPECT_TRUE(cm_->set_worker_thread(&worker_));
EXPECT_TRUE(cm_->Init());
delete session_;
session_ = new cricket::FakeSession(&worker_, true);
cricket::VoiceChannel* voice_channel = cm_->CreateVoiceChannel(
session_, cricket::CN_AUDIO, false);
EXPECT_TRUE(voice_channel != NULL);
cricket::VideoChannel* video_channel =
cm_->CreateVideoChannel(session_, cricket::CN_VIDEO,
false, voice_channel);
EXPECT_TRUE(video_channel != NULL);
cricket::DataChannel* data_channel =
cm_->CreateDataChannel(session_, cricket::CN_DATA,
false, cricket::DCT_RTP);
EXPECT_TRUE(data_channel != NULL);
cm_->DestroyVideoChannel(video_channel);
cm_->DestroyVoiceChannel(voice_channel);
cm_->DestroyDataChannel(data_channel);
cm_->Terminate();
}
// Test that we fail to create a voice/video channel if the session is unable
// to create a cricket::TransportChannel
TEST_F(ChannelManagerTest, NoTransportChannelTest) {
EXPECT_TRUE(cm_->Init());
session_->set_fail_channel_creation(true);
// The test is useless unless the session does not fail creating
// cricket::TransportChannel.
ASSERT_TRUE(session_->CreateChannel(
"audio", "rtp", cricket::ICE_CANDIDATE_COMPONENT_RTP) == NULL);
cricket::VoiceChannel* voice_channel = cm_->CreateVoiceChannel(
session_, cricket::CN_AUDIO, false);
EXPECT_TRUE(voice_channel == NULL);
cricket::VideoChannel* video_channel =
cm_->CreateVideoChannel(session_, cricket::CN_VIDEO,
false, voice_channel);
EXPECT_TRUE(video_channel == NULL);
cricket::DataChannel* data_channel =
cm_->CreateDataChannel(session_, cricket::CN_DATA,
false, cricket::DCT_RTP);
EXPECT_TRUE(data_channel == NULL);
cm_->Terminate();
}
// Test that SetDefaultVideoCodec passes through the right values.
TEST_F(ChannelManagerTest, SetDefaultVideoEncoderConfig) {
cricket::VideoCodec codec(96, "G264", 1280, 720, 60, 0);
cricket::VideoEncoderConfig config(codec, 1, 2);
EXPECT_TRUE(cm_->Init());
EXPECT_TRUE(cm_->SetDefaultVideoEncoderConfig(config));
EXPECT_EQ(config, fme_->default_video_encoder_config());
}
struct GetCapturerFrameSize : public sigslot::has_slots<> {
void OnVideoFrame(VideoCapturer* capturer, const VideoFrame* frame) {
width = frame->GetWidth();
height = frame->GetHeight();
}
GetCapturerFrameSize(VideoCapturer* capturer) : width(0), height(0) {
capturer->SignalVideoFrame.connect(this,
&GetCapturerFrameSize::OnVideoFrame);
static_cast<FakeVideoCapturer*>(capturer)->CaptureFrame();
}
size_t width;
size_t height;
};
TEST_F(ChannelManagerTest, DefaultCapturerAspectRatio) {
VideoCodec codec(100, "VP8", 640, 360, 30, 0);
VideoFormat format(640, 360, 33, FOURCC_ANY);
VideoEncoderConfig config(codec, 1, 2);
EXPECT_TRUE(cm_->Init());
// A capturer created before the default encoder config is set will have no
// set aspect ratio, so it'll be 4:3 (based on the fake video capture impl).
VideoCapturer* capturer = cm_->CreateVideoCapturer();
ASSERT_TRUE(capturer != NULL);
EXPECT_EQ(CS_RUNNING, capturer->Start(format));
GetCapturerFrameSize size(capturer);
EXPECT_EQ(640u, size.width);
EXPECT_EQ(480u, size.height);
delete capturer;
// Try again, but with the encoder config set to 16:9.
EXPECT_TRUE(cm_->SetDefaultVideoEncoderConfig(config));
capturer = cm_->CreateVideoCapturer();
ASSERT_TRUE(capturer != NULL);
EXPECT_EQ(CS_RUNNING, capturer->Start(format));
GetCapturerFrameSize cropped_size(capturer);
EXPECT_EQ(640u, cropped_size.width);
EXPECT_EQ(360u, cropped_size.height);
delete capturer;
}
// Test that SetDefaultVideoCodec passes through the right values.
TEST_F(ChannelManagerTest, SetDefaultVideoCodecBeforeInit) {
cricket::VideoCodec codec(96, "G264", 1280, 720, 60, 0);
cricket::VideoEncoderConfig config(codec, 1, 2);
EXPECT_TRUE(cm_->SetDefaultVideoEncoderConfig(config));
EXPECT_TRUE(cm_->Init());
EXPECT_EQ(config, fme_->default_video_encoder_config());
}
TEST_F(ChannelManagerTest, SetAudioOptionsBeforeInit) {
// Test that values that we set before Init are applied.
AudioOptions options;
options.auto_gain_control.Set(true);
options.echo_cancellation.Set(false);
EXPECT_TRUE(cm_->SetAudioOptions("audio-in1", "audio-out1", options));
std::string audio_in, audio_out;
AudioOptions set_options;
// Check options before Init.
EXPECT_TRUE(cm_->GetAudioOptions(&audio_in, &audio_out, &set_options));
EXPECT_EQ("audio-in1", audio_in);
EXPECT_EQ("audio-out1", audio_out);
EXPECT_EQ(options, set_options);
EXPECT_TRUE(cm_->Init());
// Check options after Init.
EXPECT_TRUE(cm_->GetAudioOptions(&audio_in, &audio_out, &set_options));
EXPECT_EQ("audio-in1", audio_in);
EXPECT_EQ("audio-out1", audio_out);
EXPECT_EQ(options, set_options);
// At this point, the media engine should also be initialized.
EXPECT_EQ(options, fme_->audio_options());
EXPECT_EQ(cricket::kDefaultAudioDelayOffset,
fme_->audio_delay_offset());
}
TEST_F(ChannelManagerTest, GetAudioOptionsWithNullParameters) {
std::string audio_in, audio_out;
AudioOptions options;
options.echo_cancellation.Set(true);
EXPECT_TRUE(cm_->SetAudioOptions("audio-in2", "audio-out2", options));
EXPECT_TRUE(cm_->GetAudioOptions(&audio_in, NULL, NULL));
EXPECT_EQ("audio-in2", audio_in);
EXPECT_TRUE(cm_->GetAudioOptions(NULL, &audio_out, NULL));
EXPECT_EQ("audio-out2", audio_out);
AudioOptions out_options;
EXPECT_TRUE(cm_->GetAudioOptions(NULL, NULL, &out_options));
bool echo_cancellation = false;
EXPECT_TRUE(out_options.echo_cancellation.Get(&echo_cancellation));
EXPECT_TRUE(echo_cancellation);
}
TEST_F(ChannelManagerTest, SetAudioOptions) {
// Test initial state.
EXPECT_TRUE(cm_->Init());
EXPECT_EQ(std::string(cricket::DeviceManagerInterface::kDefaultDeviceName),
fme_->audio_in_device());
EXPECT_EQ(std::string(cricket::DeviceManagerInterface::kDefaultDeviceName),
fme_->audio_out_device());
EXPECT_EQ(cricket::kDefaultAudioDelayOffset,
fme_->audio_delay_offset());
// Test setting specific values.
AudioOptions options;
options.auto_gain_control.Set(true);
EXPECT_TRUE(cm_->SetAudioOptions("audio-in1", "audio-out1", options));
EXPECT_EQ("audio-in1", fme_->audio_in_device());
EXPECT_EQ("audio-out1", fme_->audio_out_device());
bool auto_gain_control = false;
EXPECT_TRUE(
fme_->audio_options().auto_gain_control.Get(&auto_gain_control));
EXPECT_TRUE(auto_gain_control);
EXPECT_EQ(cricket::kDefaultAudioDelayOffset,
fme_->audio_delay_offset());
// Test setting bad values.
EXPECT_FALSE(cm_->SetAudioOptions("audio-in9", "audio-out2", options));
}
TEST_F(ChannelManagerTest, SetEngineAudioOptions) {
EXPECT_TRUE(cm_->Init());
// Test setting specific values.
AudioOptions options;
options.experimental_ns.Set(true);
EXPECT_TRUE(cm_->SetEngineAudioOptions(options));
bool experimental_ns = false;
EXPECT_TRUE(fme_->audio_options().experimental_ns.Get(&experimental_ns));
EXPECT_TRUE(experimental_ns);
}
TEST_F(ChannelManagerTest, SetEngineAudioOptionsBeforeInitFails) {
// Test that values that we set before Init are not applied.
AudioOptions options;
options.experimental_ns.Set(true);
EXPECT_FALSE(cm_->SetEngineAudioOptions(options));
EXPECT_FALSE(fme_->audio_options().experimental_ns.IsSet());
}
TEST_F(ChannelManagerTest, SetCaptureDeviceBeforeInit) {
// Test that values that we set before Init are applied.
EXPECT_TRUE(cm_->SetCaptureDevice("video-in2"));
EXPECT_TRUE(cm_->Init());
EXPECT_EQ("video-in2", cm_->video_device_name());
}
TEST_F(ChannelManagerTest, GetCaptureDeviceBeforeInit) {
std::string video_in;
// Test that GetCaptureDevice works before Init.
EXPECT_TRUE(cm_->SetCaptureDevice("video-in1"));
EXPECT_TRUE(cm_->GetCaptureDevice(&video_in));
EXPECT_EQ("video-in1", video_in);
// Test that options set before Init can be gotten after Init.
EXPECT_TRUE(cm_->SetCaptureDevice("video-in2"));
EXPECT_TRUE(cm_->Init());
EXPECT_TRUE(cm_->GetCaptureDevice(&video_in));
EXPECT_EQ("video-in2", video_in);
}
TEST_F(ChannelManagerTest, SetCaptureDevice) {
// Test setting defaults.
EXPECT_TRUE(cm_->Init());
EXPECT_TRUE(cm_->SetCaptureDevice("")); // will use DeviceManager default
EXPECT_EQ("video-in1", cm_->video_device_name());
// Test setting specific values.
EXPECT_TRUE(cm_->SetCaptureDevice("video-in2"));
EXPECT_EQ("video-in2", cm_->video_device_name());
// TODO(juberti): Add test for invalid value here.
}
// Test unplugging and plugging back the preferred devices. When the preferred
// device is unplugged, we fall back to the default device. When the preferred
// device is plugged back, we use it.
TEST_F(ChannelManagerTest, SetAudioOptionsUnplugPlug) {
// Set preferences "audio-in1" and "audio-out1" before init.
AudioOptions options;
EXPECT_TRUE(cm_->SetAudioOptions("audio-in1", "audio-out1", options));
// Unplug device "audio-in1" and "audio-out1".
std::vector<std::string> in_device_list, out_device_list;
in_device_list.push_back("audio-in2");
out_device_list.push_back("audio-out2");
fdm_->SetAudioInputDevices(in_device_list);
fdm_->SetAudioOutputDevices(out_device_list);
// Init should fall back to default devices.
EXPECT_TRUE(cm_->Init());
// The media engine should use the default.
EXPECT_EQ("", fme_->audio_in_device());
EXPECT_EQ("", fme_->audio_out_device());
// The channel manager keeps the preferences "audio-in1" and "audio-out1".
std::string audio_in, audio_out;
EXPECT_TRUE(cm_->GetAudioOptions(&audio_in, &audio_out, NULL));
EXPECT_EQ("audio-in1", audio_in);
EXPECT_EQ("audio-out1", audio_out);
cm_->Terminate();
// Plug devices "audio-in2" and "audio-out2" back.
in_device_list.push_back("audio-in1");
out_device_list.push_back("audio-out1");
fdm_->SetAudioInputDevices(in_device_list);
fdm_->SetAudioOutputDevices(out_device_list);
// Init again. The preferences, "audio-in2" and "audio-out2", are used.
EXPECT_TRUE(cm_->Init());
EXPECT_EQ("audio-in1", fme_->audio_in_device());
EXPECT_EQ("audio-out1", fme_->audio_out_device());
EXPECT_TRUE(cm_->GetAudioOptions(&audio_in, &audio_out, NULL));
EXPECT_EQ("audio-in1", audio_in);
EXPECT_EQ("audio-out1", audio_out);
}
// We have one camera. Unplug it, fall back to no camera.
TEST_F(ChannelManagerTest, SetCaptureDeviceUnplugPlugOneCamera) {
// Set preferences "video-in1" before init.
std::vector<std::string> vid_device_list;
vid_device_list.push_back("video-in1");
fdm_->SetVideoCaptureDevices(vid_device_list);
EXPECT_TRUE(cm_->SetCaptureDevice("video-in1"));
// Unplug "video-in1".
vid_device_list.clear();
fdm_->SetVideoCaptureDevices(vid_device_list);
// Init should fall back to avatar.
EXPECT_TRUE(cm_->Init());
// The media engine should use no camera.
EXPECT_EQ("", cm_->video_device_name());
// The channel manager keeps the user preference "video-in".
std::string video_in;
EXPECT_TRUE(cm_->GetCaptureDevice(&video_in));
EXPECT_EQ("video-in1", video_in);
cm_->Terminate();
// Plug device "video-in1" back.
vid_device_list.push_back("video-in1");
fdm_->SetVideoCaptureDevices(vid_device_list);
// Init again. The user preferred device, "video-in1", is used.
EXPECT_TRUE(cm_->Init());
EXPECT_EQ("video-in1", cm_->video_device_name());
EXPECT_TRUE(cm_->GetCaptureDevice(&video_in));
EXPECT_EQ("video-in1", video_in);
}
// We have multiple cameras. Unplug the preferred, fall back to another camera.
TEST_F(ChannelManagerTest, SetCaptureDeviceUnplugPlugTwoDevices) {
// Set video device to "video-in1" before init.
EXPECT_TRUE(cm_->SetCaptureDevice("video-in1"));
// Unplug device "video-in1".
std::vector<std::string> vid_device_list;
vid_device_list.push_back("video-in2");
fdm_->SetVideoCaptureDevices(vid_device_list);
// Init should fall back to default device "video-in2".
EXPECT_TRUE(cm_->Init());
// The media engine should use the default device "video-in2".
EXPECT_EQ("video-in2", cm_->video_device_name());
// The channel manager keeps the user preference "video-in".
std::string video_in;
EXPECT_TRUE(cm_->GetCaptureDevice(&video_in));
EXPECT_EQ("video-in1", video_in);
cm_->Terminate();
// Plug device "video-in1" back.
vid_device_list.push_back("video-in1");
fdm_->SetVideoCaptureDevices(vid_device_list);
// Init again. The user preferred device, "video-in1", is used.
EXPECT_TRUE(cm_->Init());
EXPECT_EQ("video-in1", cm_->video_device_name());
EXPECT_TRUE(cm_->GetCaptureDevice(&video_in));
EXPECT_EQ("video-in1", video_in);
}
TEST_F(ChannelManagerTest, GetCaptureDevice) {
std::string video_in;
// Test setting/getting defaults.
EXPECT_TRUE(cm_->Init());
EXPECT_TRUE(cm_->SetCaptureDevice(""));
EXPECT_TRUE(cm_->GetCaptureDevice(&video_in));
EXPECT_EQ("video-in1", video_in);
// Test setting/getting specific values.
EXPECT_TRUE(cm_->SetCaptureDevice("video-in2"));
EXPECT_TRUE(cm_->GetCaptureDevice(&video_in));
EXPECT_EQ("video-in2", video_in);
}
TEST_F(ChannelManagerTest, GetSetOutputVolumeBeforeInit) {
int level;
// Before init, SetOutputVolume() remembers the volume but does not change the
// volume of the engine. GetOutputVolume() should fail.
EXPECT_EQ(-1, fme_->output_volume());
EXPECT_FALSE(cm_->GetOutputVolume(&level));
EXPECT_FALSE(cm_->SetOutputVolume(-1)); // Invalid volume.
EXPECT_TRUE(cm_->SetOutputVolume(99));
EXPECT_EQ(-1, fme_->output_volume());
// Init() will apply the remembered volume.
EXPECT_TRUE(cm_->Init());
EXPECT_TRUE(cm_->GetOutputVolume(&level));
EXPECT_EQ(99, level);
EXPECT_EQ(level, fme_->output_volume());
EXPECT_TRUE(cm_->SetOutputVolume(60));
EXPECT_TRUE(cm_->GetOutputVolume(&level));
EXPECT_EQ(60, level);
EXPECT_EQ(level, fme_->output_volume());
}
TEST_F(ChannelManagerTest, GetSetOutputVolume) {
int level;
EXPECT_TRUE(cm_->Init());
EXPECT_TRUE(cm_->GetOutputVolume(&level));
EXPECT_EQ(level, fme_->output_volume());
EXPECT_FALSE(cm_->SetOutputVolume(-1)); // Invalid volume.
EXPECT_TRUE(cm_->SetOutputVolume(60));
EXPECT_EQ(60, fme_->output_volume());
EXPECT_TRUE(cm_->GetOutputVolume(&level));
EXPECT_EQ(60, level);
}
// Test that logging options set before Init are applied properly,
// and retained even after Init.
TEST_F(ChannelManagerTest, SetLoggingBeforeInit) {
cm_->SetVoiceLogging(rtc::LS_INFO, "test-voice");
cm_->SetVideoLogging(rtc::LS_VERBOSE, "test-video");
EXPECT_EQ(rtc::LS_INFO, fme_->voice_loglevel());
EXPECT_STREQ("test-voice", fme_->voice_logfilter().c_str());
EXPECT_EQ(rtc::LS_VERBOSE, fme_->video_loglevel());
EXPECT_STREQ("test-video", fme_->video_logfilter().c_str());
EXPECT_TRUE(cm_->Init());
EXPECT_EQ(rtc::LS_INFO, fme_->voice_loglevel());
EXPECT_STREQ("test-voice", fme_->voice_logfilter().c_str());
EXPECT_EQ(rtc::LS_VERBOSE, fme_->video_loglevel());
EXPECT_STREQ("test-video", fme_->video_logfilter().c_str());
}
// Test that logging options set after Init are applied properly.
TEST_F(ChannelManagerTest, SetLogging) {
EXPECT_TRUE(cm_->Init());
cm_->SetVoiceLogging(rtc::LS_INFO, "test-voice");
cm_->SetVideoLogging(rtc::LS_VERBOSE, "test-video");
EXPECT_EQ(rtc::LS_INFO, fme_->voice_loglevel());
EXPECT_STREQ("test-voice", fme_->voice_logfilter().c_str());
EXPECT_EQ(rtc::LS_VERBOSE, fme_->video_loglevel());
EXPECT_STREQ("test-video", fme_->video_logfilter().c_str());
}
// Test that the Video/Voice Processors register and unregister
TEST_F(ChannelManagerTest, RegisterProcessors) {
cricket::FakeMediaProcessor fmp;
EXPECT_TRUE(cm_->Init());
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_TX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_RX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_TX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_RX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_TX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_RX));
EXPECT_TRUE(cm_->RegisterVoiceProcessor(1,
&fmp,
cricket::MPD_RX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_TX));
EXPECT_TRUE(fme_->voice_processor_registered(cricket::MPD_RX));
EXPECT_TRUE(cm_->UnregisterVoiceProcessor(1,
&fmp,
cricket::MPD_RX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_TX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_RX));
EXPECT_TRUE(cm_->RegisterVoiceProcessor(1,
&fmp,
cricket::MPD_TX));
EXPECT_TRUE(fme_->voice_processor_registered(cricket::MPD_TX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_RX));
EXPECT_TRUE(cm_->UnregisterVoiceProcessor(1,
&fmp,
cricket::MPD_TX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_TX));
EXPECT_FALSE(fme_->voice_processor_registered(cricket::MPD_RX));
}
TEST_F(ChannelManagerTest, SetVideoRtxEnabled) {
std::vector<VideoCodec> codecs;
const VideoCodec rtx_codec(96, "rtx", 0, 0, 0, 0);
// By default RTX is disabled.
cm_->GetSupportedVideoCodecs(&codecs);
EXPECT_FALSE(ContainsMatchingCodec(codecs, rtx_codec));
// Enable and check.
EXPECT_TRUE(cm_->SetVideoRtxEnabled(true));
cm_->GetSupportedVideoCodecs(&codecs);
EXPECT_TRUE(ContainsMatchingCodec(codecs, rtx_codec));
// Disable and check.
EXPECT_TRUE(cm_->SetVideoRtxEnabled(false));
cm_->GetSupportedVideoCodecs(&codecs);
EXPECT_FALSE(ContainsMatchingCodec(codecs, rtx_codec));
// Cannot toggle rtx after initialization.
EXPECT_TRUE(cm_->Init());
EXPECT_FALSE(cm_->SetVideoRtxEnabled(true));
EXPECT_FALSE(cm_->SetVideoRtxEnabled(false));
// Can set again after terminate.
cm_->Terminate();
EXPECT_TRUE(cm_->SetVideoRtxEnabled(true));
cm_->GetSupportedVideoCodecs(&codecs);
EXPECT_TRUE(ContainsMatchingCodec(codecs, rtx_codec));
}
} // namespace cricket