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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 "MockCubeb.h"
#include "gtest/gtest.h"
namespace mozilla {
void PrintDevice(cubeb_device_info aInfo) {
printf(
"id: %zu\n"
"device_id: %s\n"
"friendly_name: %s\n"
"group_id: %s\n"
"vendor_name: %s\n"
"type: %d\n"
"state: %d\n"
"preferred: %d\n"
"format: %d\n"
"default_format: %d\n"
"max_channels: %d\n"
"default_rate: %d\n"
"max_rate: %d\n"
"min_rate: %d\n"
"latency_lo: %d\n"
"latency_hi: %d\n",
reinterpret_cast<uintptr_t>(aInfo.devid), aInfo.device_id,
aInfo.friendly_name, aInfo.group_id, aInfo.vendor_name, aInfo.type,
aInfo.state, aInfo.preferred, aInfo.format, aInfo.default_format,
aInfo.max_channels, aInfo.default_rate, aInfo.max_rate, aInfo.min_rate,
aInfo.latency_lo, aInfo.latency_hi);
}
void PrintDevice(AudioDeviceInfo* aInfo) {
cubeb_devid id;
nsString name;
nsString groupid;
nsString vendor;
uint16_t type;
uint16_t state;
uint16_t preferred;
uint16_t supportedFormat;
uint16_t defaultFormat;
uint32_t maxChannels;
uint32_t defaultRate;
uint32_t maxRate;
uint32_t minRate;
uint32_t maxLatency;
uint32_t minLatency;
id = aInfo->DeviceID();
aInfo->GetName(name);
aInfo->GetGroupId(groupid);
aInfo->GetVendor(vendor);
aInfo->GetType(&type);
aInfo->GetState(&state);
aInfo->GetPreferred(&preferred);
aInfo->GetSupportedFormat(&supportedFormat);
aInfo->GetDefaultFormat(&defaultFormat);
aInfo->GetMaxChannels(&maxChannels);
aInfo->GetDefaultRate(&defaultRate);
aInfo->GetMaxRate(&maxRate);
aInfo->GetMinRate(&minRate);
aInfo->GetMinLatency(&minLatency);
aInfo->GetMaxLatency(&maxLatency);
printf(
"device id: %zu\n"
"friendly_name: %s\n"
"group_id: %s\n"
"vendor_name: %s\n"
"type: %d\n"
"state: %d\n"
"preferred: %d\n"
"format: %d\n"
"default_format: %d\n"
"max_channels: %d\n"
"default_rate: %d\n"
"max_rate: %d\n"
"min_rate: %d\n"
"latency_lo: %d\n"
"latency_hi: %d\n",
reinterpret_cast<uintptr_t>(id), NS_LossyConvertUTF16toASCII(name).get(),
NS_LossyConvertUTF16toASCII(groupid).get(),
NS_LossyConvertUTF16toASCII(vendor).get(), type, state, preferred,
supportedFormat, defaultFormat, maxChannels, defaultRate, maxRate,
minRate, minLatency, maxLatency);
}
cubeb_device_info DeviceTemplate(cubeb_devid aId, cubeb_device_type aType,
const char* name) {
// A fake input device
cubeb_device_info device;
device.devid = aId;
device.device_id = "nice name";
device.friendly_name = name;
device.group_id = "the physical device";
device.vendor_name = "mozilla";
device.type = aType;
device.state = CUBEB_DEVICE_STATE_ENABLED;
device.preferred = CUBEB_DEVICE_PREF_NONE;
device.format = CUBEB_DEVICE_FMT_F32NE;
device.default_format = CUBEB_DEVICE_FMT_F32NE;
device.max_channels = 2;
device.default_rate = 44100;
device.max_rate = 44100;
device.min_rate = 16000;
device.latency_lo = 256;
device.latency_hi = 1024;
return device;
}
cubeb_device_info DeviceTemplate(cubeb_devid aId, cubeb_device_type aType) {
return DeviceTemplate(aId, aType, "nice name");
}
void AddDevices(MockCubeb* mock, uint32_t device_count,
cubeb_device_type deviceType) {
mock->ClearDevices(deviceType);
// Add a few input devices (almost all the same but it does not really
// matter as long as they have distinct IDs and only one is the default
// devices)
for (uintptr_t i = 0; i < device_count; i++) {
cubeb_device_info device =
DeviceTemplate(reinterpret_cast<void*>(i + 1), deviceType);
// Make it so that the last device is the default input device.
if (i == device_count - 1) {
device.preferred = CUBEB_DEVICE_PREF_ALL;
}
mock->AddDevice(device);
}
}
void cubeb_mock_destroy(cubeb* context) { delete MockCubeb::AsMock(context); }
MockCubebStream::MockCubebStream(cubeb* aContext, cubeb_devid aInputDevice,
cubeb_stream_params* aInputStreamParams,
cubeb_devid aOutputDevice,
cubeb_stream_params* aOutputStreamParams,
cubeb_data_callback aDataCallback,
cubeb_state_callback aStateCallback,
void* aUserPtr, SmartMockCubebStream* aSelf,
bool aFrozenStart)
: context(aContext),
mUserPtr(aUserPtr),
mHasInput(aInputStreamParams),
mHasOutput(aOutputStreamParams),
mSelf(aSelf),
mFrozenStartMonitor("MockCubebStream::mFrozenStartMonitor"),
mFrozenStart(aFrozenStart),
mDataCallback(aDataCallback),
mStateCallback(aStateCallback),
mInputDeviceID(aInputDevice),
mOutputDeviceID(aOutputDevice),
mAudioGenerator(aInputStreamParams ? aInputStreamParams->channels
: MAX_INPUT_CHANNELS,
aInputStreamParams ? aInputStreamParams->rate
: aOutputStreamParams->rate,
100 /* aFrequency */),
mAudioVerifier(aInputStreamParams ? aInputStreamParams->rate
: aOutputStreamParams->rate,
100 /* aFrequency */) {
MOZ_ASSERT(mAudioGenerator.ChannelCount() <= MAX_INPUT_CHANNELS,
"mInputBuffer has no enough space to hold generated data");
if (aInputStreamParams) {
mInputParams = *aInputStreamParams;
}
if (aOutputStreamParams) {
mOutputParams = *aOutputStreamParams;
}
}
MockCubebStream::~MockCubebStream() = default;
int MockCubebStream::Start() {
NotifyStateChanged(CUBEB_STATE_STARTED);
mStreamStop = false;
if (mFrozenStart) {
// We need to grab mFrozenStartMonitor before returning to avoid races in
// the calling code -- it controls when to mFrozenStartMonitor.Notify().
// TempData helps facilitate this by holding what's needed to block the
// calling thread until the background thread has grabbed the lock.
struct TempData {
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(TempData)
static_assert(HasThreadSafeRefCnt::value,
"Silence a -Wunused-local-typedef warning");
Monitor mMonitor{"MockCubebStream::Start::TempData::mMonitor"};
bool mFinished = false;
private:
~TempData() = default;
};
auto temp = MakeRefPtr<TempData>();
MonitorAutoLock lock(temp->mMonitor);
NS_DispatchBackgroundTask(NS_NewRunnableFunction(
"MockCubebStream::WaitForThawBeforeStart",
[temp, this, self = RefPtr<SmartMockCubebStream>(mSelf)]() mutable {
MonitorAutoLock lock(mFrozenStartMonitor);
{
// Unblock MockCubebStream::Start now that we have locked the frozen
// start monitor.
MonitorAutoLock tempLock(temp->mMonitor);
temp->mFinished = true;
temp->mMonitor.Notify();
temp = nullptr;
}
while (mFrozenStart) {
mFrozenStartMonitor.Wait();
}
if (!mStreamStop) {
MockCubeb::AsMock(context)->StartStream(mSelf);
}
}));
while (!temp->mFinished) {
temp->mMonitor.Wait();
}
return CUBEB_OK;
}
MockCubeb::AsMock(context)->StartStream(this);
return CUBEB_OK;
}
int MockCubebStream::Stop() {
mOutputVerificationEvent.Notify(std::make_tuple(
mAudioVerifier.PreSilenceSamples(), mAudioVerifier.EstimatedFreq(),
mAudioVerifier.CountDiscontinuities()));
int rv = MockCubeb::AsMock(context)->StopStream(this);
mStreamStop = true;
if (rv == CUBEB_OK) {
NotifyStateChanged(CUBEB_STATE_STOPPED);
}
return rv;
}
void MockCubebStream::Destroy() {
// Dispatch an extra STOPPED state change as produced with audioipc.
// https://bugzilla.mozilla.org/show_bug.cgi?id=1801190#c1
NotifyStateChanged(CUBEB_STATE_STOPPED);
MockCubeb::AsMock(context)->StreamDestroy(AsCubebStream());
}
int MockCubebStream::RegisterDeviceChangedCallback(
cubeb_device_changed_callback aDeviceChangedCallback) {
if (mDeviceChangedCallback && aDeviceChangedCallback) {
return CUBEB_ERROR_INVALID_PARAMETER;
}
mDeviceChangedCallback = aDeviceChangedCallback;
return CUBEB_OK;
}
cubeb_stream* MockCubebStream::AsCubebStream() {
return reinterpret_cast<cubeb_stream*>(this);
}
MockCubebStream* MockCubebStream::AsMock(cubeb_stream* aStream) {
return reinterpret_cast<MockCubebStream*>(aStream);
}
cubeb_devid MockCubebStream::GetInputDeviceID() const { return mInputDeviceID; }
cubeb_devid MockCubebStream::GetOutputDeviceID() const {
return mOutputDeviceID;
}
uint32_t MockCubebStream::InputChannels() const {
return mAudioGenerator.ChannelCount();
}
uint32_t MockCubebStream::OutputChannels() const {
return mOutputParams.channels;
}
uint32_t MockCubebStream::InputSampleRate() const {
return mAudioGenerator.mSampleRate;
}
uint32_t MockCubebStream::InputFrequency() const {
return mAudioGenerator.mFrequency;
}
nsTArray<AudioDataValue>&& MockCubebStream::TakeRecordedOutput() {
return std::move(mRecordedOutput);
}
nsTArray<AudioDataValue>&& MockCubebStream::TakeRecordedInput() {
return std::move(mRecordedInput);
}
void MockCubebStream::SetDriftFactor(float aDriftFactor) {
mDriftFactor = aDriftFactor;
}
void MockCubebStream::ForceError() { mForceErrorState = true; }
void MockCubebStream::ForceDeviceChanged() { mForceDeviceChanged = true; };
void MockCubebStream::Thaw() {
MonitorAutoLock l(mFrozenStartMonitor);
mFrozenStart = false;
mFrozenStartMonitor.Notify();
}
void MockCubebStream::SetOutputRecordingEnabled(bool aEnabled) {
mOutputRecordingEnabled = aEnabled;
}
void MockCubebStream::SetInputRecordingEnabled(bool aEnabled) {
mInputRecordingEnabled = aEnabled;
}
MediaEventSource<cubeb_state>& MockCubebStream::StateEvent() {
return mStateEvent;
}
MediaEventSource<uint32_t>& MockCubebStream::FramesProcessedEvent() {
return mFramesProcessedEvent;
}
MediaEventSource<uint32_t>& MockCubebStream::FramesVerifiedEvent() {
return mFramesVerifiedEvent;
}
MediaEventSource<std::tuple<uint64_t, float, uint32_t>>&
MockCubebStream::OutputVerificationEvent() {
return mOutputVerificationEvent;
}
MediaEventSource<void>& MockCubebStream::ErrorForcedEvent() {
return mErrorForcedEvent;
}
MediaEventSource<void>& MockCubebStream::ErrorStoppedEvent() {
return mErrorStoppedEvent;
}
MediaEventSource<void>& MockCubebStream::DeviceChangeForcedEvent() {
return mDeviceChangedForcedEvent;
}
void MockCubebStream::Process10Ms() {
if (mStreamStop) {
return;
}
uint32_t rate = mHasOutput ? mOutputParams.rate : mInputParams.rate;
const long nrFrames =
static_cast<long>(static_cast<float>(rate * 10) * mDriftFactor) /
PR_MSEC_PER_SEC;
if (mInputParams.rate) {
mAudioGenerator.GenerateInterleaved(mInputBuffer, nrFrames);
}
cubeb_stream* stream = AsCubebStream();
const long outframes =
mDataCallback(stream, mUserPtr, mHasInput ? mInputBuffer : nullptr,
mHasOutput ? mOutputBuffer : nullptr, nrFrames);
if (mInputRecordingEnabled && mHasInput) {
mRecordedInput.AppendElements(mInputBuffer, outframes * InputChannels());
}
if (mOutputRecordingEnabled && mHasOutput) {
mRecordedOutput.AppendElements(mOutputBuffer, outframes * OutputChannels());
}
mAudioVerifier.AppendDataInterleaved(mOutputBuffer, outframes,
MAX_OUTPUT_CHANNELS);
mFramesProcessedEvent.Notify(outframes);
if (mAudioVerifier.PreSilenceEnded()) {
mFramesVerifiedEvent.Notify(outframes);
}
if (outframes < nrFrames) {
NotifyStateChanged(CUBEB_STATE_DRAINED);
mStreamStop = true;
return;
}
if (mForceErrorState) {
mForceErrorState = false;
// Let the audio thread (this thread!) run to completion before
// being released, by joining and releasing on main.
NS_DispatchBackgroundTask(NS_NewRunnableFunction(
__func__, [cubeb = MockCubeb::AsMock(context), this,
self = RefPtr<SmartMockCubebStream>(mSelf)] {
cubeb->StopStream(this);
self->mErrorStoppedEvent.Notify();
}));
NotifyStateChanged(CUBEB_STATE_ERROR);
mErrorForcedEvent.Notify();
mStreamStop = true;
return;
}
if (mForceDeviceChanged) {
mForceDeviceChanged = false;
// The device-changed callback is not necessary to be run in the
// audio-callback thread. It's up to the platform APIs. We don't have any
// control over them. Fire the device-changed callback in another thread to
// simulate this.
NS_DispatchBackgroundTask(NS_NewRunnableFunction(
__func__, [this, self = RefPtr<SmartMockCubebStream>(mSelf)] {
mDeviceChangedCallback(this->mUserPtr);
mDeviceChangedForcedEvent.Notify();
}));
}
}
void MockCubebStream::NotifyStateChanged(cubeb_state aState) {
mStateCallback(AsCubebStream(), mUserPtr, aState);
mStateEvent.Notify(aState);
}
MockCubeb::MockCubeb() : ops(&mock_ops) {}
MockCubeb::~MockCubeb() { MOZ_ASSERT(!mFakeAudioThread); };
cubeb* MockCubeb::AsCubebContext() { return reinterpret_cast<cubeb*>(this); }
MockCubeb* MockCubeb::AsMock(cubeb* aContext) {
return reinterpret_cast<MockCubeb*>(aContext);
}
int MockCubeb::EnumerateDevices(cubeb_device_type aType,
cubeb_device_collection* aCollection) {
#ifdef ANDROID
EXPECT_TRUE(false) << "This is not to be called on Android.";
#endif
size_t count = 0;
if (aType & CUBEB_DEVICE_TYPE_INPUT) {
count += mInputDevices.Length();
}
if (aType & CUBEB_DEVICE_TYPE_OUTPUT) {
count += mOutputDevices.Length();
}
aCollection->device = new cubeb_device_info[count];
aCollection->count = count;
uint32_t collection_index = 0;
if (aType & CUBEB_DEVICE_TYPE_INPUT) {
for (auto& device : mInputDevices) {
aCollection->device[collection_index] = device;
collection_index++;
}
}
if (aType & CUBEB_DEVICE_TYPE_OUTPUT) {
for (auto& device : mOutputDevices) {
aCollection->device[collection_index] = device;
collection_index++;
}
}
return CUBEB_OK;
}
int MockCubeb::DestroyDeviceCollection(cubeb_device_collection* aCollection) {
delete[] aCollection->device;
aCollection->count = 0;
return CUBEB_OK;
}
int MockCubeb::RegisterDeviceCollectionChangeCallback(
cubeb_device_type aDevType,
cubeb_device_collection_changed_callback aCallback, void* aUserPtr) {
if (!mSupportsDeviceCollectionChangedCallback) {
return CUBEB_ERROR;
}
if (aDevType & CUBEB_DEVICE_TYPE_INPUT) {
mInputDeviceCollectionChangeCallback = aCallback;
mInputDeviceCollectionChangeUserPtr = aUserPtr;
}
if (aDevType & CUBEB_DEVICE_TYPE_OUTPUT) {
mOutputDeviceCollectionChangeCallback = aCallback;
mOutputDeviceCollectionChangeUserPtr = aUserPtr;
}
return CUBEB_OK;
}
void MockCubeb::AddDevice(cubeb_device_info aDevice) {
if (aDevice.type == CUBEB_DEVICE_TYPE_INPUT) {
mInputDevices.AppendElement(aDevice);
} else if (aDevice.type == CUBEB_DEVICE_TYPE_OUTPUT) {
mOutputDevices.AppendElement(aDevice);
} else {
MOZ_CRASH("bad device type when adding a device in mock cubeb backend");
}
bool isInput = aDevice.type & CUBEB_DEVICE_TYPE_INPUT;
if (isInput && mInputDeviceCollectionChangeCallback) {
mInputDeviceCollectionChangeCallback(AsCubebContext(),
mInputDeviceCollectionChangeUserPtr);
}
if (!isInput && mOutputDeviceCollectionChangeCallback) {
mOutputDeviceCollectionChangeCallback(AsCubebContext(),
mOutputDeviceCollectionChangeUserPtr);
}
}
bool MockCubeb::RemoveDevice(cubeb_devid aId) {
bool foundInput = false;
bool foundOutput = false;
mInputDevices.RemoveElementsBy(
[aId, &foundInput](cubeb_device_info& aDeviceInfo) {
bool foundThisTime = aDeviceInfo.devid == aId;
foundInput |= foundThisTime;
return foundThisTime;
});
mOutputDevices.RemoveElementsBy(
[aId, &foundOutput](cubeb_device_info& aDeviceInfo) {
bool foundThisTime = aDeviceInfo.devid == aId;
foundOutput |= foundThisTime;
return foundThisTime;
});
if (foundInput && mInputDeviceCollectionChangeCallback) {
mInputDeviceCollectionChangeCallback(AsCubebContext(),
mInputDeviceCollectionChangeUserPtr);
}
if (foundOutput && mOutputDeviceCollectionChangeCallback) {
mOutputDeviceCollectionChangeCallback(AsCubebContext(),
mOutputDeviceCollectionChangeUserPtr);
}
// If the device removed was a default device, set another device as the
// default, if there are still devices available.
bool foundDefault = false;
for (uint32_t i = 0; i < mInputDevices.Length(); i++) {
foundDefault |= mInputDevices[i].preferred != CUBEB_DEVICE_PREF_NONE;
}
if (!foundDefault) {
if (!mInputDevices.IsEmpty()) {
mInputDevices[mInputDevices.Length() - 1].preferred =
CUBEB_DEVICE_PREF_ALL;
}
}
foundDefault = false;
for (uint32_t i = 0; i < mOutputDevices.Length(); i++) {
foundDefault |= mOutputDevices[i].preferred != CUBEB_DEVICE_PREF_NONE;
}
if (!foundDefault) {
if (!mOutputDevices.IsEmpty()) {
mOutputDevices[mOutputDevices.Length() - 1].preferred =
CUBEB_DEVICE_PREF_ALL;
}
}
return foundInput | foundOutput;
}
void MockCubeb::ClearDevices(cubeb_device_type aType) {
mInputDevices.Clear();
mOutputDevices.Clear();
}
void MockCubeb::SetSupportDeviceChangeCallback(bool aSupports) {
mSupportsDeviceCollectionChangedCallback = aSupports;
}
void MockCubeb::SetStreamStartFreezeEnabled(bool aEnabled) {
mStreamStartFreezeEnabled = aEnabled;
}
auto MockCubeb::ForceAudioThread() -> RefPtr<ForcedAudioThreadPromise> {
RefPtr<ForcedAudioThreadPromise> p =
mForcedAudioThreadPromise.Ensure(__func__);
mForcedAudioThread = true;
StartStream(nullptr);
return p;
}
void MockCubeb::UnforceAudioThread() {
mForcedAudioThread = false;
StopStream(nullptr);
}
int MockCubeb::StreamInit(cubeb* aContext, cubeb_stream** aStream,
cubeb_devid aInputDevice,
cubeb_stream_params* aInputStreamParams,
cubeb_devid aOutputDevice,
cubeb_stream_params* aOutputStreamParams,
cubeb_data_callback aDataCallback,
cubeb_state_callback aStateCallback, void* aUserPtr) {
auto mockStream = MakeRefPtr<SmartMockCubebStream>(
aContext, aInputDevice, aInputStreamParams, aOutputDevice,
aOutputStreamParams, aDataCallback, aStateCallback, aUserPtr,
mStreamStartFreezeEnabled);
*aStream = mockStream->AsCubebStream();
mStreamInitEvent.Notify(mockStream);
// AddRef the stream to keep it alive. StreamDestroy releases it.
Unused << mockStream.forget().take();
return CUBEB_OK;
}
void MockCubeb::StreamDestroy(cubeb_stream* aStream) {
RefPtr<SmartMockCubebStream> mockStream =
dont_AddRef(MockCubebStream::AsMock(aStream)->mSelf);
mStreamDestroyEvent.Notify(mockStream);
}
void MockCubeb::GoFaster() { mFastMode = true; }
void MockCubeb::DontGoFaster() { mFastMode = false; }
MediaEventSource<RefPtr<SmartMockCubebStream>>& MockCubeb::StreamInitEvent() {
return mStreamInitEvent;
}
MediaEventSource<RefPtr<SmartMockCubebStream>>&
MockCubeb::StreamDestroyEvent() {
return mStreamDestroyEvent;
}
void MockCubeb::StartStream(MockCubebStream* aStream) {
auto streams = mLiveStreams.Lock();
MOZ_ASSERT_IF(!aStream, mForcedAudioThread);
// Forcing an audio thread must happen before starting streams
MOZ_ASSERT_IF(!aStream, streams->IsEmpty());
if (aStream) {
MOZ_ASSERT(!streams->Contains(aStream->mSelf));
streams->AppendElement(aStream->mSelf);
}
if (!mFakeAudioThread) {
mFakeAudioThread = WrapUnique(new std::thread(ThreadFunction_s, this));
}
}
int MockCubeb::StopStream(MockCubebStream* aStream) {
UniquePtr<std::thread> audioThread;
{
auto streams = mLiveStreams.Lock();
if (aStream) {
if (!streams->Contains(aStream->mSelf)) {
return CUBEB_ERROR;
}
streams->RemoveElement(aStream->mSelf);
}
MOZ_ASSERT(mFakeAudioThread);
if (streams->IsEmpty() && !mForcedAudioThread) {
audioThread = std::move(mFakeAudioThread);
}
}
if (audioThread) {
audioThread->join();
}
return CUBEB_OK;
}
void MockCubeb::ThreadFunction() {
if (mForcedAudioThread) {
mForcedAudioThreadPromise.Resolve(MakeRefPtr<AudioThreadAutoUnforcer>(this),
__func__);
}
while (true) {
{
auto streams = mLiveStreams.Lock();
for (auto& stream : *streams) {
stream->Process10Ms();
}
if (streams->IsEmpty() && !mForcedAudioThread) {
break;
}
}
std::this_thread::sleep_for(
std::chrono::microseconds(mFastMode ? 0 : 10 * PR_USEC_PER_MSEC));
}
}
} // namespace mozilla
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