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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-*/
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
#include <tuple>
#include "CubebUtils.h"
#include "GraphDriver.h"
#include "gmock/gmock.h"
#include "gtest/gtest-printers.h"
#include "gtest/gtest.h"
#include "MediaTrackGraphImpl.h"
#include "mozilla/gtest/WaitFor.h"
#include "mozilla/Attributes.h"
#include "mozilla/SyncRunnable.h"
#include "mozilla/UniquePtr.h"
#include "nsTArray.h"
#include "MockCubeb.h"
using namespace mozilla;
using IterationResult = GraphInterface::IterationResult;
using ::testing::_;
using ::testing::AnyNumber;
using ::testing::NiceMock;
class MockGraphInterface : public GraphInterface {
NS_DECL_THREADSAFE_ISUPPORTS
explicit MockGraphInterface(TrackRate aSampleRate)
: mSampleRate(aSampleRate) {}
MOCK_METHOD0(NotifyInputStopped, void());
MOCK_METHOD5(NotifyInputData, void(const AudioDataValue*, size_t, TrackRate,
uint32_t, uint32_t));
MOCK_METHOD0(DeviceChanged, void());
#ifdef DEBUG
MOCK_CONST_METHOD1(InDriverIteration, bool(const GraphDriver*));
#endif
/* OneIteration cannot be mocked because IterationResult is non-memmovable and
* cannot be passed as a parameter, which GMock does internally. */
IterationResult OneIteration(GraphTime aStateComputedTime, GraphTime,
MixerCallbackReceiver* aMixerReceiver) {
GraphDriver* driver = mCurrentDriver;
if (aMixerReceiver) {
mMixer.StartMixing();
mMixer.Mix(nullptr, driver->AsAudioCallbackDriver()->OutputChannelCount(),
aStateComputedTime - mStateComputedTime, mSampleRate);
aMixerReceiver->MixerCallback(mMixer.MixedChunk(), mSampleRate);
}
if (aStateComputedTime != mStateComputedTime) {
mFramesIteratedEvent.Notify(aStateComputedTime - mStateComputedTime);
++mIterationCount;
}
mStateComputedTime = aStateComputedTime;
if (!mKeepProcessing) {
return IterationResult::CreateStop(
NS_NewRunnableFunction(__func__, [] {}));
}
if (auto guard = mNextDriver.Lock(); guard->isSome()) {
auto tup = guard->extract();
const auto& [driver, switchedRunnable] = tup;
return IterationResult::CreateSwitchDriver(driver, switchedRunnable);
}
if (mEnsureNextIteration) {
driver->EnsureNextIteration();
}
return IterationResult::CreateStillProcessing();
}
void SetEnsureNextIteration(bool aEnsure) { mEnsureNextIteration = aEnsure; }
size_t IterationCount() const { return mIterationCount; }
GraphTime StateComputedTime() const { return mStateComputedTime; }
void SetCurrentDriver(GraphDriver* aDriver) { mCurrentDriver = aDriver; }
void StopIterating() { mKeepProcessing = false; }
void SwitchTo(RefPtr<GraphDriver> aDriver,
RefPtr<Runnable> aSwitchedRunnable = NS_NewRunnableFunction(
"DefaultNoopSwitchedRunnable", [] {})) {
auto guard = mNextDriver.Lock();
MOZ_ASSERT(guard->isNothing());
*guard =
Some(std::make_tuple(std::move(aDriver), std::move(aSwitchedRunnable)));
}
const TrackRate mSampleRate;
MediaEventSource<uint32_t>& FramesIteratedEvent() {
return mFramesIteratedEvent;
}
protected:
Atomic<size_t> mIterationCount{0};
Atomic<GraphTime> mStateComputedTime{0};
Atomic<GraphDriver*> mCurrentDriver{nullptr};
Atomic<bool> mEnsureNextIteration{false};
Atomic<bool> mKeepProcessing{true};
DataMutex<Maybe<std::tuple<RefPtr<GraphDriver>, RefPtr<Runnable>>>>
mNextDriver{"MockGraphInterface::mNextDriver"};
RefPtr<Runnable> mNextDriverSwitchedRunnable;
MediaEventProducer<uint32_t> mFramesIteratedEvent;
AudioMixer mMixer;
virtual ~MockGraphInterface() = default;
};
NS_IMPL_ISUPPORTS0(MockGraphInterface)
TEST(TestAudioCallbackDriver, StartStop)
MOZ_CAN_RUN_SCRIPT_FOR_DEFINITION {
const TrackRate rate = 44100;
MockCubeb* cubeb = new MockCubeb();
CubebUtils::ForceSetCubebContext(cubeb->AsCubebContext());
RefPtr<AudioCallbackDriver> driver;
auto graph = MakeRefPtr<NiceMock<MockGraphInterface>>(rate);
EXPECT_CALL(*graph, NotifyInputStopped).Times(0);
driver = MakeRefPtr<AudioCallbackDriver>(graph, nullptr, rate, 2, 0, nullptr,
nullptr, AudioInputType::Unknown);
EXPECT_FALSE(driver->ThreadRunning()) << "Verify thread is not running";
EXPECT_FALSE(driver->IsStarted()) << "Verify thread is not started";
graph->SetCurrentDriver(driver);
driver->Start();
// Allow some time to "play" audio.
std::this_thread::sleep_for(std::chrono::milliseconds(200));
EXPECT_TRUE(driver->ThreadRunning()) << "Verify thread is running";
EXPECT_TRUE(driver->IsStarted()) << "Verify thread is started";
// This will block untill all events have been executed.
MOZ_KnownLive(driver)->Shutdown();
EXPECT_FALSE(driver->ThreadRunning()) << "Verify thread is not running";
EXPECT_FALSE(driver->IsStarted()) << "Verify thread is not started";
}
void TestSlowStart(const TrackRate aRate) MOZ_CAN_RUN_SCRIPT_FOR_DEFINITION {
std::cerr << "TestSlowStart with rate " << aRate << std::endl;
MockCubeb* cubeb = new MockCubeb();
cubeb->SetStreamStartFreezeEnabled(true);
auto unforcer = WaitFor(cubeb->ForceAudioThread()).unwrap();
Unused << unforcer;
CubebUtils::ForceSetCubebContext(cubeb->AsCubebContext());
RefPtr<AudioCallbackDriver> driver;
auto graph = MakeRefPtr<NiceMock<MockGraphInterface>>(aRate);
EXPECT_CALL(*graph, NotifyInputStopped).Times(0);
nsIThread* mainThread = NS_GetCurrentThread();
Maybe<int64_t> audioStart;
Maybe<uint32_t> alreadyBuffered;
int64_t inputFrameCount = 0;
int64_t processedFrameCount = -1;
ON_CALL(*graph, NotifyInputData)
.WillByDefault([&](const AudioDataValue*, size_t aFrames, TrackRate,
uint32_t, uint32_t aAlreadyBuffered) {
if (!audioStart) {
audioStart = Some(graph->StateComputedTime());
alreadyBuffered = Some(aAlreadyBuffered);
mainThread->Dispatch(NS_NewRunnableFunction(__func__, [&] {
// Start processedFrameCount now, ignoring frames processed while
// waiting for the fallback driver to stop.
processedFrameCount = 0;
}));
}
EXPECT_NEAR(inputFrameCount,
static_cast<int64_t>(graph->StateComputedTime() -
*audioStart + *alreadyBuffered),
WEBAUDIO_BLOCK_SIZE)
<< "Input should be behind state time, due to the delayed start. "
"stateComputedTime="
<< graph->StateComputedTime() << ", audioStartTime=" << *audioStart
<< ", alreadyBuffered=" << *alreadyBuffered;
inputFrameCount += aFrames;
});
driver = MakeRefPtr<AudioCallbackDriver>(graph, nullptr, aRate, 2, 2, nullptr,
(void*)1, AudioInputType::Voice);
EXPECT_FALSE(driver->ThreadRunning()) << "Verify thread is not running";
EXPECT_FALSE(driver->IsStarted()) << "Verify thread is not started";
graph->SetCurrentDriver(driver);
graph->SetEnsureNextIteration(true);
driver->Start();
RefPtr<SmartMockCubebStream> stream = WaitFor(cubeb->StreamInitEvent());
cubeb->SetStreamStartFreezeEnabled(false);
const size_t fallbackIterations = 3;
WaitUntil(graph->FramesIteratedEvent(), [&](uint32_t aFrames) {
const GraphTime tenMillis = aRate / 100;
// An iteration is always rounded upwards to the next full block.
const GraphTime tenMillisIteration =
MediaTrackGraphImpl::RoundUpToEndOfAudioBlock(tenMillis);
// The iteration may be smaller because up to an extra block may have been
// processed and buffered.
const GraphTime tenMillisMinIteration =
tenMillisIteration - WEBAUDIO_BLOCK_SIZE;
// An iteration must be at least one audio block.
const GraphTime minIteration =
std::max<GraphTime>(WEBAUDIO_BLOCK_SIZE, tenMillisMinIteration);
EXPECT_GE(aFrames, minIteration)
<< "Fallback driver iteration >= 10ms, modulo an audio block";
EXPECT_LT(aFrames, static_cast<size_t>(aRate))
<< "Fallback driver iteration <1s (sanity)";
return graph->IterationCount() >= fallbackIterations;
});
MediaEventListener processedListener =
stream->FramesProcessedEvent().Connect(mainThread, [&](uint32_t aFrames) {
if (processedFrameCount >= 0) {
processedFrameCount += aFrames;
}
});
stream->Thaw();
SpinEventLoopUntil(
"processed at least 100ms of audio data from stream callback"_ns,
[&] { return processedFrameCount >= aRate / 10; });
// This will block until all events have been queued.
MOZ_KnownLive(driver)->Shutdown();
// Process processListener events.
NS_ProcessPendingEvents(mainThread);
processedListener.Disconnect();
EXPECT_EQ(inputFrameCount, processedFrameCount);
EXPECT_NEAR(graph->StateComputedTime() - *audioStart,
inputFrameCount + *alreadyBuffered, WEBAUDIO_BLOCK_SIZE)
<< "Graph progresses while audio driver runs. stateComputedTime="
<< graph->StateComputedTime() << ", inputFrameCount=" << inputFrameCount;
}
TEST(TestAudioCallbackDriver, SlowStart)
MOZ_CAN_RUN_SCRIPT_FOR_DEFINITION {
TestSlowStart(1000); // 10ms = 10 <<< 128 samples
TestSlowStart(8000); // 10ms = 80 < 128 samples
TestSlowStart(44100); // 10ms = 441 > 128 samples
}
#ifdef DEBUG
template <typename T>
class MOZ_STACK_CLASS AutoSetter {
std::atomic<T>& mVal;
T mNew;
T mOld;
public:
explicit AutoSetter(std::atomic<T>& aVal, T aNew)
: mVal(aVal), mNew(aNew), mOld(mVal.exchange(aNew)) {}
~AutoSetter() {
DebugOnly<T> oldNew = mVal.exchange(mOld);
MOZ_ASSERT(oldNew == mNew);
}
};
#endif
TEST(TestAudioCallbackDriver, SlowDeviceChange)
MOZ_CAN_RUN_SCRIPT_BOUNDARY {
constexpr TrackRate rate = 48000;
MockCubeb* cubeb = new MockCubeb(MockCubeb::RunningMode::Manual);
CubebUtils::ForceSetCubebContext(cubeb->AsCubebContext());
auto graph = MakeRefPtr<MockGraphInterface>(rate);
auto driver = MakeRefPtr<AudioCallbackDriver>(
graph, nullptr, rate, 2, 1, nullptr, (void*)1, AudioInputType::Voice);
EXPECT_FALSE(driver->ThreadRunning()) << "Verify thread is not running";
EXPECT_FALSE(driver->IsStarted()) << "Verify thread is not started";
#ifdef DEBUG
std::atomic<std::thread::id> threadInDriverIteration((std::thread::id()));
EXPECT_CALL(*graph, InDriverIteration(driver.get())).WillRepeatedly([&] {
return std::this_thread::get_id() == threadInDriverIteration;
});
#endif
constexpr size_t ignoredFrameCount = 1337;
EXPECT_CALL(*graph, NotifyInputData(_, 0, rate, 1, _)).Times(AnyNumber());
EXPECT_CALL(*graph, NotifyInputData(_, ignoredFrameCount, _, _, _)).Times(0);
EXPECT_CALL(*graph, DeviceChanged);
graph->SetCurrentDriver(driver);
graph->SetEnsureNextIteration(true);
// This starts the fallback driver.
driver->Start();
RefPtr<SmartMockCubebStream> stream = WaitFor(cubeb->StreamInitEvent());
// Wait for the audio driver to have started the stream before running data
// callbacks. driver->Start() does a dispatch to the cubeb operation thread
// and starts the stream there.
nsCOMPtr<nsIEventTarget> cubebOpThread = CUBEB_TASK_THREAD;
MOZ_ALWAYS_SUCCEEDS(SyncRunnable::DispatchToThread(
cubebOpThread, NS_NewRunnableFunction(__func__, [] {})));
// This makes the fallback driver stop on its next callback.
EXPECT_EQ(stream->ManualDataCallback(0),
MockCubebStream::KeepProcessing::Yes);
{
#ifdef DEBUG
AutoSetter as(threadInDriverIteration, std::this_thread::get_id());
#endif
while (driver->OnFallback()) {
std::this_thread::sleep_for(std::chrono::milliseconds(1));
}
}
const TimeStamp wallClockStart = TimeStamp::Now();
const GraphTime graphClockStart = graph->StateComputedTime();
const size_t iterationCountStart = graph->IterationCount();
// Flag that the stream should force a devicechange event.
stream->NotifyDeviceChangedNow();
// The audio driver should now have switched on the fallback driver again.
{
#ifdef DEBUG
AutoSetter as(threadInDriverIteration, std::this_thread::get_id());
#endif
EXPECT_TRUE(driver->OnFallback());
}
// Make sure that the audio driver can handle (and ignore) data callbacks for
// a little while after the devicechange callback. Cubeb does not provide
// ordering guarantees here.
auto start = TimeStamp::Now();
while (start + TimeDuration::FromMilliseconds(5) > TimeStamp::Now()) {
EXPECT_EQ(stream->ManualDataCallback(ignoredFrameCount),
MockCubebStream::KeepProcessing::Yes);
std::this_thread::sleep_for(std::chrono::milliseconds(1));
}
// Let the fallback driver start and spin for one second.
std::this_thread::sleep_for(std::chrono::seconds(1));
// Tell the fallback driver to hand over to the audio driver which has
// finished changing devices.
EXPECT_EQ(stream->ManualDataCallback(0),
MockCubebStream::KeepProcessing::Yes);
// Wait for the fallback to stop.
{
#ifdef DEBUG
AutoSetter as(threadInDriverIteration, std::this_thread::get_id());
#endif
while (driver->OnFallback()) {
std::this_thread::sleep_for(std::chrono::milliseconds(1));
}
}
TimeStamp wallClockEnd = TimeStamp::Now();
GraphTime graphClockEnd = graph->StateComputedTime();
size_t iterationCountEnd = graph->IterationCount();
auto wallClockDuration =
media::TimeUnit::FromTimeDuration(wallClockEnd - wallClockStart);
auto graphClockDuration =
media::TimeUnit(CheckedInt64(graphClockEnd) - graphClockStart, rate);
// Check that the time while we switched devices was accounted for by the
// fallback driver.
EXPECT_NEAR(
wallClockDuration.ToSeconds(), graphClockDuration.ToSeconds(),
#ifdef XP_MACOSX
// SystemClockDriver on macOS in CI is underrunning, i.e. the driver
// thread when waiting for the next iteration waits too long. Therefore
// the graph clock is unable to keep up with wall clock.
wallClockDuration.ToSeconds() * 0.8
#else
0.1
#endif
);
// Check that each fallback driver was of reasonable cadence. It's a thread
// that tries to run a task every 10ms. Check that the average callback
// interval i falls in 8ms ≤ i ≤ 40ms.
auto fallbackCadence =
graphClockDuration /
static_cast<int64_t>(iterationCountEnd - iterationCountStart);
EXPECT_LE(8, fallbackCadence.ToMilliseconds());
EXPECT_LE(fallbackCadence.ToMilliseconds(), 40.0);
// This will block until all events have been queued.
MOZ_KnownLive(driver)->Shutdown();
// Drain the event queue.
NS_ProcessPendingEvents(nullptr);
}
TEST(TestAudioCallbackDriver, DeviceChangeAfterStop)
MOZ_CAN_RUN_SCRIPT_BOUNDARY {
constexpr TrackRate rate = 48000;
MockCubeb* cubeb = new MockCubeb(MockCubeb::RunningMode::Manual);
CubebUtils::ForceSetCubebContext(cubeb->AsCubebContext());
auto graph = MakeRefPtr<MockGraphInterface>(rate);
auto driver = MakeRefPtr<AudioCallbackDriver>(
graph, nullptr, rate, 2, 1, nullptr, (void*)1, AudioInputType::Voice);
EXPECT_FALSE(driver->ThreadRunning()) << "Verify thread is not running";
EXPECT_FALSE(driver->IsStarted()) << "Verify thread is not started";
auto newDriver = MakeRefPtr<AudioCallbackDriver>(
graph, nullptr, rate, 2, 1, nullptr, (void*)1, AudioInputType::Voice);
EXPECT_FALSE(newDriver->ThreadRunning()) << "Verify thread is not running";
EXPECT_FALSE(newDriver->IsStarted()) << "Verify thread is not started";
#ifdef DEBUG
std::atomic<std::thread::id> threadInDriverIteration(
(std::this_thread::get_id()));
EXPECT_CALL(*graph, InDriverIteration(_)).WillRepeatedly([&] {
return std::this_thread::get_id() == threadInDriverIteration;
});
#endif
EXPECT_CALL(*graph, NotifyInputData(_, 0, rate, 1, _)).Times(AnyNumber());
EXPECT_CALL(*graph, DeviceChanged);
graph->SetCurrentDriver(driver);
graph->SetEnsureNextIteration(true);
// This starts the fallback driver.
driver->Start();
RefPtr<SmartMockCubebStream> stream = WaitFor(cubeb->StreamInitEvent());
// Wait for the audio driver to have started or the DeviceChanged event will
// be ignored. driver->Start() does a dispatch to the cubeb operation thread
// and starts the stream there.
nsCOMPtr<nsIEventTarget> cubebOpThread = CUBEB_TASK_THREAD;
MOZ_ALWAYS_SUCCEEDS(SyncRunnable::DispatchToThread(
cubebOpThread, NS_NewRunnableFunction(__func__, [] {})));
#ifdef DEBUG
AutoSetter as(threadInDriverIteration, std::this_thread::get_id());
#endif
// This marks the audio driver as running.
EXPECT_EQ(stream->ManualDataCallback(0),
MockCubebStream::KeepProcessing::Yes);
// If a fallback driver callback happens between the audio callback above, and
// the SwitchTo below, the audio driver will perform the switch instead of the
// fallback since the fallback will have stopped. This test may therefore
// intermittently take different code paths.
// Stop the fallback driver by switching audio driver in the graph.
{
Monitor mon(__func__);
MonitorAutoLock lock(mon);
bool switched = false;
graph->SwitchTo(newDriver, NS_NewRunnableFunction(__func__, [&] {
MonitorAutoLock lock(mon);
switched = true;
lock.Notify();
}));
while (!switched) {
lock.Wait();
}
}
{
#ifdef DEBUG
AutoSetter as(threadInDriverIteration, std::thread::id());
#endif
// After stopping the fallback driver, but before newDriver has stopped the
// old audio driver, fire a DeviceChanged event to ensure it is handled
// properly.
AudioCallbackDriver::DeviceChangedCallback_s(driver);
}
graph->StopIterating();
newDriver->EnsureNextIteration();
while (newDriver->OnFallback()) {
std::this_thread::sleep_for(std::chrono::milliseconds(1));
}
// This will block until all events have been queued.
MOZ_KnownLive(driver)->Shutdown();
MOZ_KnownLive(newDriver)->Shutdown();
// Drain the event queue.
NS_ProcessPendingEvents(nullptr);
}
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