blob: 32d0df1c2e61b7dc5efcdae83f63a41881071371 [file] [log] [blame]
/*
* Copyright 2018 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.
*/
#include <string>
#include "call/rtp_video_sender.h"
#include "call/test/mock_bitrate_allocator.h"
#include "call/test/mock_rtp_transport_controller_send.h"
#include "logging/rtc_event_log/rtc_event_log.h"
#include "modules/utility/include/process_thread.h"
#include "modules/video_coding/fec_controller_default.h"
#include "rtc_base/experiments/alr_experiment.h"
#include "rtc_base/fakeclock.h"
#include "rtc_base/task_queue_for_test.h"
#include "test/field_trial.h"
#include "test/gmock.h"
#include "test/gtest.h"
#include "test/mock_transport.h"
#include "video/test/mock_video_stream_encoder.h"
#include "video/video_send_stream_impl.h"
namespace webrtc {
namespace internal {
namespace {
using testing::NiceMock;
using testing::StrictMock;
using testing::ReturnRef;
using testing::Return;
using testing::Invoke;
using testing::_;
constexpr int64_t kDefaultInitialBitrateBps = 333000;
const double kDefaultBitratePriority = 0.5;
const float kAlrProbingExperimentPaceMultiplier = 1.0f;
std::string GetAlrProbingExperimentString() {
return std::string(
AlrExperimentSettings::kScreenshareProbingBweExperimentName) +
"/1.0,2875,80,40,-60,3/";
}
class MockRtpVideoSender : public RtpVideoSenderInterface {
public:
MOCK_METHOD1(RegisterProcessThread, void(ProcessThread*));
MOCK_METHOD0(DeRegisterProcessThread, void());
MOCK_METHOD1(SetActive, void(bool));
MOCK_METHOD1(SetActiveModules, void(const std::vector<bool>));
MOCK_METHOD0(IsActive, bool());
MOCK_METHOD1(OnNetworkAvailability, void(bool));
MOCK_CONST_METHOD0(GetRtpStates, std::map<uint32_t, RtpState>());
MOCK_CONST_METHOD0(GetRtpPayloadStates,
std::map<uint32_t, RtpPayloadState>());
MOCK_METHOD2(DeliverRtcp, void(const uint8_t*, size_t));
MOCK_METHOD1(OnBitrateAllocationUpdated, void(const VideoBitrateAllocation&));
MOCK_METHOD3(OnEncodedImage,
EncodedImageCallback::Result(const EncodedImage&,
const CodecSpecificInfo*,
const RTPFragmentationHeader*));
MOCK_METHOD1(OnTransportOverheadChanged, void(size_t));
MOCK_METHOD1(OnOverheadChanged, void(size_t));
MOCK_METHOD4(OnBitrateUpdated, void(uint32_t, uint8_t, int64_t, int));
MOCK_CONST_METHOD0(GetPayloadBitrateBps, uint32_t());
MOCK_CONST_METHOD0(GetProtectionBitrateBps, uint32_t());
MOCK_METHOD3(SetEncodingData, void(size_t, size_t, size_t));
};
BitrateAllocationUpdate CreateAllocation(int bitrate_bps) {
BitrateAllocationUpdate update;
update.target_bitrate = DataRate::bps(bitrate_bps);
update.packet_loss_ratio = 0;
update.round_trip_time = TimeDelta::Zero();
return update;
}
} // namespace
class VideoSendStreamImplTest : public ::testing::Test {
protected:
VideoSendStreamImplTest()
: clock_(1000 * 1000 * 1000),
config_(&transport_),
send_delay_stats_(&clock_),
test_queue_("test_queue"),
process_thread_(ProcessThread::Create("test_thread")),
call_stats_(&clock_, process_thread_.get()),
stats_proxy_(&clock_,
config_,
VideoEncoderConfig::ContentType::kRealtimeVideo) {
config_.rtp.ssrcs.push_back(8080);
config_.rtp.payload_type = 1;
EXPECT_CALL(transport_controller_, keepalive_config())
.WillRepeatedly(ReturnRef(keepalive_config_));
EXPECT_CALL(transport_controller_, packet_router())
.WillRepeatedly(Return(&packet_router_));
EXPECT_CALL(transport_controller_,
CreateRtpVideoSender(_, _, _, _, _, _, _, _, _, _))
.WillRepeatedly(Return(&rtp_video_sender_));
EXPECT_CALL(rtp_video_sender_, SetActive(_))
.WillRepeatedly(testing::Invoke(
[&](bool active) { rtp_video_sender_active_ = active; }));
EXPECT_CALL(rtp_video_sender_, IsActive())
.WillRepeatedly(
testing::Invoke([&]() { return rtp_video_sender_active_; }));
}
~VideoSendStreamImplTest() {}
std::unique_ptr<VideoSendStreamImpl> CreateVideoSendStreamImpl(
int initial_encoder_max_bitrate,
double initial_encoder_bitrate_priority,
VideoEncoderConfig::ContentType content_type) {
EXPECT_CALL(bitrate_allocator_, GetStartBitrate(_))
.WillOnce(Return(123000));
std::map<uint32_t, RtpState> suspended_ssrcs;
std::map<uint32_t, RtpPayloadState> suspended_payload_states;
return absl::make_unique<VideoSendStreamImpl>(
&stats_proxy_, &test_queue_, &call_stats_, &transport_controller_,
&bitrate_allocator_, &send_delay_stats_, &video_stream_encoder_,
&event_log_, &config_, initial_encoder_max_bitrate,
initial_encoder_bitrate_priority, suspended_ssrcs,
suspended_payload_states, content_type,
absl::make_unique<FecControllerDefault>(&clock_));
}
protected:
NiceMock<MockTransport> transport_;
NiceMock<MockRtpTransportControllerSend> transport_controller_;
NiceMock<MockBitrateAllocator> bitrate_allocator_;
NiceMock<MockVideoStreamEncoder> video_stream_encoder_;
NiceMock<MockRtpVideoSender> rtp_video_sender_;
bool rtp_video_sender_active_ = false;
SimulatedClock clock_;
RtcEventLogNullImpl event_log_;
VideoSendStream::Config config_;
SendDelayStats send_delay_stats_;
rtc::test::TaskQueueForTest test_queue_;
std::unique_ptr<ProcessThread> process_thread_;
CallStats call_stats_;
SendStatisticsProxy stats_proxy_;
PacketRouter packet_router_;
RtpKeepAliveConfig keepalive_config_;
};
TEST_F(VideoSendStreamImplTest, RegistersAsBitrateObserverOnStart) {
test_queue_.SendTask([this] {
config_.track_id = "test";
const bool kSuspend = false;
config_.suspend_below_min_bitrate = kSuspend;
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kRealtimeVideo);
EXPECT_CALL(bitrate_allocator_, AddObserver(vss_impl.get(), _))
.WillOnce(Invoke(
[&](BitrateAllocatorObserver*, MediaStreamAllocationConfig config) {
EXPECT_EQ(config.min_bitrate_bps, 0u);
EXPECT_EQ(config.max_bitrate_bps, kDefaultInitialBitrateBps);
EXPECT_EQ(config.pad_up_bitrate_bps, 0u);
EXPECT_EQ(config.enforce_min_bitrate, !kSuspend);
EXPECT_EQ(config.track_id, "test");
EXPECT_EQ(config.bitrate_priority, kDefaultBitratePriority);
EXPECT_EQ(config.has_packet_feedback, false);
}));
vss_impl->Start();
EXPECT_CALL(bitrate_allocator_, RemoveObserver(vss_impl.get())).Times(1);
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, UpdatesObserverOnConfigurationChange) {
test_queue_.SendTask([this] {
config_.track_id = "test";
const bool kSuspend = false;
config_.suspend_below_min_bitrate = kSuspend;
config_.rtp.extensions.emplace_back(
RtpExtension::kTransportSequenceNumberUri, 1);
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kRealtimeVideo);
vss_impl->Start();
// QVGA + VGA configuration matching defaults in media/engine/simulcast.cc.
VideoStream qvga_stream;
qvga_stream.width = 320;
qvga_stream.height = 180;
qvga_stream.max_framerate = 30;
qvga_stream.min_bitrate_bps = 30000;
qvga_stream.target_bitrate_bps = 150000;
qvga_stream.max_bitrate_bps = 200000;
qvga_stream.max_qp = 56;
qvga_stream.bitrate_priority = 1;
VideoStream vga_stream;
vga_stream.width = 640;
vga_stream.height = 360;
vga_stream.max_framerate = 30;
vga_stream.min_bitrate_bps = 150000;
vga_stream.target_bitrate_bps = 500000;
vga_stream.max_bitrate_bps = 700000;
vga_stream.max_qp = 56;
vga_stream.bitrate_priority = 1;
int min_transmit_bitrate_bps = 30000;
config_.rtp.ssrcs.emplace_back(1);
config_.rtp.ssrcs.emplace_back(2);
EXPECT_CALL(bitrate_allocator_, AddObserver(vss_impl.get(), _))
.WillOnce(Invoke(
[&](BitrateAllocatorObserver*, MediaStreamAllocationConfig config) {
EXPECT_EQ(config.min_bitrate_bps,
static_cast<uint32_t>(min_transmit_bitrate_bps));
EXPECT_EQ(config.max_bitrate_bps,
static_cast<uint32_t>(qvga_stream.max_bitrate_bps +
vga_stream.max_bitrate_bps));
EXPECT_EQ(config.pad_up_bitrate_bps,
static_cast<uint32_t>(qvga_stream.target_bitrate_bps +
vga_stream.min_bitrate_bps));
EXPECT_EQ(config.enforce_min_bitrate, !kSuspend);
EXPECT_EQ(config.has_packet_feedback, true);
}));
static_cast<VideoStreamEncoderInterface::EncoderSink*>(vss_impl.get())
->OnEncoderConfigurationChanged(
std::vector<VideoStream>{qvga_stream, vga_stream},
min_transmit_bitrate_bps);
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, UpdatesObserverOnConfigurationChangeWithAlr) {
test_queue_.SendTask([this] {
config_.track_id = "test";
const bool kSuspend = false;
config_.suspend_below_min_bitrate = kSuspend;
config_.rtp.extensions.emplace_back(
RtpExtension::kTransportSequenceNumberUri, 1);
config_.periodic_alr_bandwidth_probing = true;
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kScreen);
vss_impl->Start();
// Simulcast screenshare.
VideoStream low_stream;
low_stream.width = 1920;
low_stream.height = 1080;
low_stream.max_framerate = 5;
low_stream.min_bitrate_bps = 30000;
low_stream.target_bitrate_bps = 200000;
low_stream.max_bitrate_bps = 1000000;
low_stream.num_temporal_layers = 2;
low_stream.max_qp = 56;
low_stream.bitrate_priority = 1;
VideoStream high_stream;
high_stream.width = 1920;
high_stream.height = 1080;
high_stream.max_framerate = 30;
high_stream.min_bitrate_bps = 60000;
high_stream.target_bitrate_bps = 1250000;
high_stream.max_bitrate_bps = 1250000;
high_stream.num_temporal_layers = 2;
high_stream.max_qp = 56;
high_stream.bitrate_priority = 1;
// With ALR probing, this will be the padding target instead of
// low_stream.target_bitrate_bps + high_stream.min_bitrate_bps.
int min_transmit_bitrate_bps = 400000;
config_.rtp.ssrcs.emplace_back(1);
config_.rtp.ssrcs.emplace_back(2);
EXPECT_CALL(bitrate_allocator_, AddObserver(vss_impl.get(), _))
.WillOnce(Invoke(
[&](BitrateAllocatorObserver*, MediaStreamAllocationConfig config) {
EXPECT_EQ(config.min_bitrate_bps,
static_cast<uint32_t>(low_stream.min_bitrate_bps));
EXPECT_EQ(config.max_bitrate_bps,
static_cast<uint32_t>(low_stream.max_bitrate_bps +
high_stream.max_bitrate_bps));
EXPECT_EQ(config.pad_up_bitrate_bps,
static_cast<uint32_t>(min_transmit_bitrate_bps));
EXPECT_EQ(config.enforce_min_bitrate, !kSuspend);
EXPECT_EQ(config.has_packet_feedback, true);
}));
static_cast<VideoStreamEncoderInterface::EncoderSink*>(vss_impl.get())
->OnEncoderConfigurationChanged(
std::vector<VideoStream>{low_stream, high_stream},
min_transmit_bitrate_bps);
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, ReportFeedbackAvailability) {
test_queue_.SendTask([this] {
config_.rtp.extensions.emplace_back(
RtpExtension::kTransportSequenceNumberUri,
RtpExtension::kTransportSequenceNumberDefaultId);
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kRealtimeVideo);
EXPECT_CALL(bitrate_allocator_, AddObserver(vss_impl.get(), _))
.WillOnce(Invoke(
[&](BitrateAllocatorObserver*, MediaStreamAllocationConfig config) {
EXPECT_EQ(config.has_packet_feedback, true);
}));
vss_impl->Start();
EXPECT_CALL(bitrate_allocator_, RemoveObserver(vss_impl.get())).Times(1);
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, SetsScreensharePacingFactorWithFeedback) {
test::ScopedFieldTrials alr_experiment(GetAlrProbingExperimentString());
test_queue_.SendTask([this] {
config_.rtp.extensions.emplace_back(
RtpExtension::kTransportSequenceNumberUri,
RtpExtension::kTransportSequenceNumberDefaultId);
EXPECT_CALL(transport_controller_,
SetPacingFactor(kAlrProbingExperimentPaceMultiplier))
.Times(1);
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kScreen);
vss_impl->Start();
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, DoesNotSetPacingFactorWithoutFeedback) {
test::ScopedFieldTrials alr_experiment(GetAlrProbingExperimentString());
test_queue_.SendTask([this] {
EXPECT_CALL(transport_controller_, SetPacingFactor(_)).Times(0);
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kScreen);
vss_impl->Start();
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, ForwardsVideoBitrateAllocationWhenEnabled) {
test_queue_.SendTask([this] {
EXPECT_CALL(transport_controller_, SetPacingFactor(_)).Times(0);
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kScreen);
vss_impl->Start();
VideoBitrateAllocationObserver* const observer =
static_cast<VideoBitrateAllocationObserver*>(vss_impl.get());
// Populate a test instance of video bitrate allocation.
VideoBitrateAllocation alloc;
alloc.SetBitrate(0, 0, 10000);
alloc.SetBitrate(0, 1, 20000);
alloc.SetBitrate(1, 0, 30000);
alloc.SetBitrate(1, 1, 40000);
// Encoder starts out paused, don't forward allocation.
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc)).Times(0);
observer->OnBitrateAllocationUpdated(alloc);
// Unpause encoder, allocation should be passed through.
const uint32_t kBitrateBps = 100000;
EXPECT_CALL(rtp_video_sender_, GetPayloadBitrateBps())
.Times(1)
.WillOnce(Return(kBitrateBps));
static_cast<BitrateAllocatorObserver*>(vss_impl.get())
->OnBitrateUpdated(CreateAllocation(kBitrateBps));
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc)).Times(1);
observer->OnBitrateAllocationUpdated(alloc);
// Pause encoder again, and block allocations.
EXPECT_CALL(rtp_video_sender_, GetPayloadBitrateBps())
.Times(1)
.WillOnce(Return(0));
static_cast<BitrateAllocatorObserver*>(vss_impl.get())
->OnBitrateUpdated(CreateAllocation(0));
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc)).Times(0);
observer->OnBitrateAllocationUpdated(alloc);
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, ThrottlesVideoBitrateAllocationWhenTooSimilar) {
test_queue_.SendTask([this] {
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kScreen);
vss_impl->Start();
// Unpause encoder, to allows allocations to be passed through.
const uint32_t kBitrateBps = 100000;
EXPECT_CALL(rtp_video_sender_, GetPayloadBitrateBps())
.Times(1)
.WillOnce(Return(kBitrateBps));
static_cast<BitrateAllocatorObserver*>(vss_impl.get())
->OnBitrateUpdated(CreateAllocation(kBitrateBps));
VideoBitrateAllocationObserver* const observer =
static_cast<VideoBitrateAllocationObserver*>(vss_impl.get());
// Populate a test instance of video bitrate allocation.
VideoBitrateAllocation alloc;
alloc.SetBitrate(0, 0, 10000);
alloc.SetBitrate(0, 1, 20000);
alloc.SetBitrate(1, 0, 30000);
alloc.SetBitrate(1, 1, 40000);
// Initial value.
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc)).Times(1);
observer->OnBitrateAllocationUpdated(alloc);
VideoBitrateAllocation updated_alloc = alloc;
// Needs 10% increase in bitrate to trigger immediate forward.
const uint32_t base_layer_min_update_bitrate_bps =
alloc.GetBitrate(0, 0) + alloc.get_sum_bps() / 10;
// Too small increase, don't forward.
updated_alloc.SetBitrate(0, 0, base_layer_min_update_bitrate_bps - 1);
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(_)).Times(0);
observer->OnBitrateAllocationUpdated(updated_alloc);
// Large enough increase, do forward.
updated_alloc.SetBitrate(0, 0, base_layer_min_update_bitrate_bps);
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(updated_alloc))
.Times(1);
observer->OnBitrateAllocationUpdated(updated_alloc);
// This is now a decrease compared to last forward allocation, forward
// immediately.
updated_alloc.SetBitrate(0, 0, base_layer_min_update_bitrate_bps - 1);
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(updated_alloc))
.Times(1);
observer->OnBitrateAllocationUpdated(updated_alloc);
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, ForwardsVideoBitrateAllocationOnLayerChange) {
test_queue_.SendTask([this] {
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kScreen);
vss_impl->Start();
// Unpause encoder, to allows allocations to be passed through.
const uint32_t kBitrateBps = 100000;
EXPECT_CALL(rtp_video_sender_, GetPayloadBitrateBps())
.Times(1)
.WillOnce(Return(kBitrateBps));
static_cast<BitrateAllocatorObserver*>(vss_impl.get())
->OnBitrateUpdated(CreateAllocation(kBitrateBps));
VideoBitrateAllocationObserver* const observer =
static_cast<VideoBitrateAllocationObserver*>(vss_impl.get());
// Populate a test instance of video bitrate allocation.
VideoBitrateAllocation alloc;
alloc.SetBitrate(0, 0, 10000);
alloc.SetBitrate(0, 1, 20000);
alloc.SetBitrate(1, 0, 30000);
alloc.SetBitrate(1, 1, 40000);
// Initial value.
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc)).Times(1);
observer->OnBitrateAllocationUpdated(alloc);
// Move some bitrate from one layer to a new one, but keep sum the same.
// Since layout has changed, immediately trigger forward.
VideoBitrateAllocation updated_alloc = alloc;
updated_alloc.SetBitrate(2, 0, 10000);
updated_alloc.SetBitrate(1, 1, alloc.GetBitrate(1, 1) - 10000);
EXPECT_EQ(alloc.get_sum_bps(), updated_alloc.get_sum_bps());
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(updated_alloc))
.Times(1);
observer->OnBitrateAllocationUpdated(updated_alloc);
vss_impl->Stop();
});
}
TEST_F(VideoSendStreamImplTest, ForwardsVideoBitrateAllocationAfterTimeout) {
test_queue_.SendTask([this] {
rtc::ScopedFakeClock fake_clock;
fake_clock.SetTimeMicros(clock_.TimeInMicroseconds());
auto vss_impl = CreateVideoSendStreamImpl(
kDefaultInitialBitrateBps, kDefaultBitratePriority,
VideoEncoderConfig::ContentType::kScreen);
vss_impl->Start();
const uint32_t kBitrateBps = 100000;
// Unpause encoder, to allows allocations to be passed through.
EXPECT_CALL(rtp_video_sender_, GetPayloadBitrateBps())
.Times(1)
.WillRepeatedly(Return(kBitrateBps));
static_cast<BitrateAllocatorObserver*>(vss_impl.get())
->OnBitrateUpdated(CreateAllocation(kBitrateBps));
VideoBitrateAllocationObserver* const observer =
static_cast<VideoBitrateAllocationObserver*>(vss_impl.get());
// Populate a test instance of video bitrate allocation.
VideoBitrateAllocation alloc;
alloc.SetBitrate(0, 0, 10000);
alloc.SetBitrate(0, 1, 20000);
alloc.SetBitrate(1, 0, 30000);
alloc.SetBitrate(1, 1, 40000);
EncodedImage encoded_image;
CodecSpecificInfo codec_specific;
EXPECT_CALL(rtp_video_sender_, OnEncodedImage(_, _, _))
.WillRepeatedly(Return(
EncodedImageCallback::Result(EncodedImageCallback::Result::OK)));
// Max time we will throttle similar video bitrate allocations.
static constexpr int64_t kMaxVbaThrottleTimeMs = 500;
{
// Initial value.
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc))
.Times(1);
observer->OnBitrateAllocationUpdated(alloc);
}
{
// Sending same allocation again, this one should be throttled.
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc))
.Times(0);
observer->OnBitrateAllocationUpdated(alloc);
}
fake_clock.AdvanceTimeMicros(kMaxVbaThrottleTimeMs * 1000);
{
// Sending similar allocation again after timeout, should forward.
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc))
.Times(1);
observer->OnBitrateAllocationUpdated(alloc);
}
{
// Sending similar allocation again without timeout, throttle.
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc))
.Times(0);
observer->OnBitrateAllocationUpdated(alloc);
}
{
// Send encoded image, should be a noop.
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc))
.Times(0);
static_cast<EncodedImageCallback*>(vss_impl.get())
->OnEncodedImage(encoded_image, &codec_specific, nullptr);
}
{
// Advance time and send encoded image, this should wake up and send
// cached bitrate allocation.
fake_clock.AdvanceTimeMicros(kMaxVbaThrottleTimeMs * 1000);
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc))
.Times(1);
static_cast<EncodedImageCallback*>(vss_impl.get())
->OnEncodedImage(encoded_image, &codec_specific, nullptr);
}
{
// Advance time and send encoded image, there should be no cached
// allocation to send.
fake_clock.AdvanceTimeMicros(kMaxVbaThrottleTimeMs * 1000);
EXPECT_CALL(rtp_video_sender_, OnBitrateAllocationUpdated(alloc))
.Times(0);
static_cast<EncodedImageCallback*>(vss_impl.get())
->OnEncodedImage(encoded_image, &codec_specific, nullptr);
}
vss_impl->Stop();
});
}
} // namespace internal
} // namespace webrtc