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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* 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 "DecoderTemplate.h"
#include <atomic>
#include <utility>
#include "DecoderTypes.h"
#include "MediaInfo.h"
#include "mozilla/ScopeExit.h"
#include "mozilla/Try.h"
#include "mozilla/Unused.h"
#include "mozilla/dom/DOMException.h"
#include "mozilla/dom/Event.h"
#include "mozilla/dom/Promise.h"
#include "mozilla/dom/VideoDecoderBinding.h"
#include "mozilla/dom/VideoFrame.h"
#include "mozilla/dom/WorkerCommon.h"
#include "nsGkAtoms.h"
#include "nsString.h"
#include "nsThreadUtils.h"
mozilla::LazyLogModule gWebCodecsLog("WebCodecs");
namespace mozilla::dom {
#ifdef LOG_INTERNAL
# undef LOG_INTERNAL
#endif // LOG_INTERNAL
#define LOG_INTERNAL(level, msg, ...) \
MOZ_LOG(gWebCodecsLog, LogLevel::level, (msg, ##__VA_ARGS__))
#ifdef LOG
# undef LOG
#endif // LOG
#define LOG(msg, ...) LOG_INTERNAL(Debug, msg, ##__VA_ARGS__)
#ifdef LOGW
# undef LOGW
#endif // LOGW
#define LOGW(msg, ...) LOG_INTERNAL(Warning, msg, ##__VA_ARGS__)
#ifdef LOGE
# undef LOGE
#endif // LOGE
#define LOGE(msg, ...) LOG_INTERNAL(Error, msg, ##__VA_ARGS__)
#ifdef LOGV
# undef LOGV
#endif // LOGV
#define LOGV(msg, ...) LOG_INTERNAL(Verbose, msg, ##__VA_ARGS__)
/*
* Below are ControlMessage classes implementations
*/
template <typename DecoderType>
DecoderTemplate<DecoderType>::ControlMessage::ControlMessage(
const nsACString& aTitle)
: mTitle(aTitle) {}
template <typename DecoderType>
DecoderTemplate<DecoderType>::ConfigureMessage::ConfigureMessage(
Id aId, UniquePtr<ConfigTypeInternal>&& aConfig)
: ControlMessage(
nsPrintfCString("configure #%d (%s)", aId,
NS_ConvertUTF16toUTF8(aConfig->mCodec).get())),
mId(aId),
mConfig(std::move(aConfig)) {}
/* static */
template <typename DecoderType>
typename DecoderTemplate<DecoderType>::ConfigureMessage*
DecoderTemplate<DecoderType>::ConfigureMessage::Create(
UniquePtr<ConfigTypeInternal>&& aConfig) {
// This needs to be atomic since this can run on the main thread or worker
// thread.
static std::atomic<Id> sNextId = NoId;
return new ConfigureMessage(++sNextId, std::move(aConfig));
}
template <typename DecoderType>
DecoderTemplate<DecoderType>::DecodeMessage::DecodeMessage(
Id aId, ConfigId aConfigId, UniquePtr<InputTypeInternal>&& aData)
: ControlMessage(
nsPrintfCString("decode #%zu (config #%d)", aId, aConfigId)),
mId(aId),
mData(std::move(aData)) {}
template <typename DecoderType>
DecoderTemplate<DecoderType>::FlushMessage::FlushMessage(Id aId,
ConfigId aConfigId,
Promise* aPromise)
: ControlMessage(
nsPrintfCString("flush #%zu (config #%d)", aId, aConfigId)),
mId(aId),
mPromise(aPromise) {}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::FlushMessage::RejectPromiseIfAny(
const nsresult& aReason) {
if (mPromise) {
mPromise->MaybeReject(aReason);
}
}
/*
* Below are DecoderTemplate implementation
*/
template <typename DecoderType>
DecoderTemplate<DecoderType>::DecoderTemplate(
nsIGlobalObject* aGlobalObject,
RefPtr<WebCodecsErrorCallback>&& aErrorCallback,
RefPtr<OutputCallbackType>&& aOutputCallback)
: DOMEventTargetHelper(aGlobalObject),
mErrorCallback(std::move(aErrorCallback)),
mOutputCallback(std::move(aOutputCallback)),
mState(CodecState::Unconfigured),
mKeyChunkRequired(true),
mMessageQueueBlocked(false),
mDecodeQueueSize(0),
mDequeueEventScheduled(false),
mLatestConfigureId(ConfigureMessage::NoId),
mDecodeCounter(0),
mFlushCounter(0) {}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::Configure(const ConfigType& aConfig,
ErrorResult& aRv) {
AssertIsOnOwningThread();
LOG("%s %p, Configure: codec %s", DecoderType::Name.get(), this,
NS_ConvertUTF16toUTF8(aConfig.mCodec).get());
nsCString errorMessage;
if (!DecoderType::Validate(aConfig, errorMessage)) {
LOG("Configure: Validate error: %s", errorMessage.get());
aRv.ThrowTypeError(errorMessage);
return;
}
if (mState == CodecState::Closed) {
LOG("Configure: CodecState::Closed, rejecting with InvalidState");
aRv.ThrowInvalidStateError("The codec is no longer usable");
return;
}
// Clone a ConfigType as the active decoder config.
UniquePtr<ConfigTypeInternal> config =
DecoderType::CreateConfigInternal(aConfig);
if (!config) {
aRv.Throw(NS_ERROR_UNEXPECTED); // Invalid description data.
return;
}
mState = CodecState::Configured;
mKeyChunkRequired = true;
mDecodeCounter = 0;
mFlushCounter = 0;
mControlMessageQueue.emplace(
UniquePtr<ControlMessage>(ConfigureMessage::Create(std::move(config))));
mLatestConfigureId = mControlMessageQueue.back()->AsConfigureMessage()->mId;
LOG("%s %p enqueues %s", DecoderType::Name.get(), this,
mControlMessageQueue.back()->ToString().get());
ProcessControlMessageQueue();
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::Decode(InputType& aInput, ErrorResult& aRv) {
AssertIsOnOwningThread();
LOG("%s %p, Decode", DecoderType::Name.get(), this);
if (mState != CodecState::Configured) {
aRv.ThrowInvalidStateError("Decoder must be configured first");
return;
}
if (mKeyChunkRequired) {
// TODO: Verify input's data is truly a key chunk
if (!DecoderType::IsKeyChunk(aInput)) {
aRv.ThrowDataError(
nsPrintfCString("%s needs a key chunk", DecoderType::Name.get()));
return;
}
mKeyChunkRequired = false;
}
mDecodeQueueSize += 1;
mControlMessageQueue.emplace(UniquePtr<ControlMessage>(
new DecodeMessage(++mDecodeCounter, mLatestConfigureId,
DecoderType::CreateInputInternal(aInput))));
LOGV("%s %p enqueues %s", DecoderType::Name.get(), this,
mControlMessageQueue.back()->ToString().get());
ProcessControlMessageQueue();
}
template <typename DecoderType>
already_AddRefed<Promise> DecoderTemplate<DecoderType>::Flush(
ErrorResult& aRv) {
AssertIsOnOwningThread();
LOG("%s %p, Flush", DecoderType::Name.get(), this);
if (mState != CodecState::Configured) {
LOG("%s %p, wrong state!", DecoderType::Name.get(), this);
aRv.ThrowInvalidStateError("Decoder must be configured first");
return nullptr;
}
RefPtr<Promise> p = Promise::Create(GetParentObject(), aRv);
if (NS_WARN_IF(aRv.Failed())) {
return p.forget();
}
mKeyChunkRequired = true;
mControlMessageQueue.emplace(UniquePtr<ControlMessage>(
new FlushMessage(++mFlushCounter, mLatestConfigureId, p)));
LOG("%s %p enqueues %s", DecoderType::Name.get(), this,
mControlMessageQueue.back()->ToString().get());
ProcessControlMessageQueue();
return p.forget();
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::Reset(ErrorResult& aRv) {
AssertIsOnOwningThread();
LOG("%s %p, Reset", DecoderType::Name.get(), this);
if (auto r = ResetInternal(NS_ERROR_DOM_ABORT_ERR); r.isErr()) {
aRv.Throw(r.unwrapErr());
}
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::Close(ErrorResult& aRv) {
AssertIsOnOwningThread();
LOG("%s %p, Close", DecoderType::Name.get(), this);
if (auto r = CloseInternalWithAbort(); r.isErr()) {
aRv.Throw(r.unwrapErr());
}
}
template <typename DecoderType>
Result<Ok, nsresult> DecoderTemplate<DecoderType>::ResetInternal(
const nsresult& aResult) {
AssertIsOnOwningThread();
if (mState == CodecState::Closed) {
return Err(NS_ERROR_DOM_INVALID_STATE_ERR);
}
mState = CodecState::Unconfigured;
mDecodeCounter = 0;
mFlushCounter = 0;
CancelPendingControlMessages(aResult);
DestroyDecoderAgentIfAny();
if (mDecodeQueueSize > 0) {
mDecodeQueueSize = 0;
ScheduleDequeueEventIfNeeded();
}
LOG("%s %p now has its message queue unblocked", DecoderType::Name.get(),
this);
mMessageQueueBlocked = false;
return Ok();
}
template <typename DecoderType>
Result<Ok, nsresult> DecoderTemplate<DecoderType>::CloseInternalWithAbort() {
AssertIsOnOwningThread();
MOZ_TRY(ResetInternal(NS_ERROR_DOM_ABORT_ERR));
mState = CodecState::Closed;
return Ok();
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::CloseInternal(const nsresult& aResult) {
AssertIsOnOwningThread();
MOZ_ASSERT(aResult != NS_ERROR_DOM_ABORT_ERR, "Use CloseInternalWithAbort");
auto r = ResetInternal(aResult);
if (r.isErr()) {
nsCString name;
GetErrorName(r.unwrapErr(), name);
LOGE("Error in ResetInternal during CloseInternal: %s", name.get());
}
mState = CodecState::Closed;
nsCString error;
GetErrorName(aResult, error);
LOGE("%s %p Close on error: %s", DecoderType::Name.get(), this, error.get());
ReportError(aResult);
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::ReportError(const nsresult& aResult) {
AssertIsOnOwningThread();
RefPtr<DOMException> e = DOMException::Create(aResult);
RefPtr<WebCodecsErrorCallback> cb(mErrorCallback);
cb->Call(*e);
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::OutputDecodedData(
const nsTArray<RefPtr<MediaData>>&& aData) {
AssertIsOnOwningThread();
MOZ_ASSERT(mState == CodecState::Configured);
MOZ_ASSERT(mActiveConfig);
nsTArray<RefPtr<OutputType>> frames = DecodedDataToOutputType(
GetParentObject(), std::move(aData), *mActiveConfig);
RefPtr<OutputCallbackType> cb(mOutputCallback);
for (RefPtr<OutputType>& frame : frames) {
LOG("Outputing decoded data: ts: %" PRId64, frame->Timestamp());
RefPtr<OutputType> f = frame;
cb->Call((OutputType&)(*f));
}
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::ScheduleDequeueEventIfNeeded() {
AssertIsOnOwningThread();
if (mDequeueEventScheduled) {
return;
}
mDequeueEventScheduled = true;
QueueATask("dequeue event task", [self = RefPtr{this}]() {
self->FireEvent(nsGkAtoms::ondequeue, u"dequeue"_ns);
self->mDequeueEventScheduled = false;
});
}
template <typename DecoderType>
nsresult DecoderTemplate<DecoderType>::FireEvent(nsAtom* aTypeWithOn,
const nsAString& aEventType) {
if (aTypeWithOn && !HasListenersFor(aTypeWithOn)) {
LOGV("%s %p has no %s event listener", DecoderType::Name.get(), this,
NS_ConvertUTF16toUTF8(aEventType).get());
return NS_ERROR_ABORT;
}
LOGV("Dispatch %s event to %s %p", NS_ConvertUTF16toUTF8(aEventType).get(),
DecoderType::Name.get(), this);
RefPtr<Event> event = new Event(this, nullptr, nullptr);
event->InitEvent(aEventType, true, true);
event->SetTrusted(true);
this->DispatchEvent(*event);
return NS_OK;
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::ProcessControlMessageQueue() {
AssertIsOnOwningThread();
MOZ_ASSERT(mState == CodecState::Configured);
while (!mMessageQueueBlocked && !mControlMessageQueue.empty()) {
UniquePtr<ControlMessage>& msg = mControlMessageQueue.front();
if (msg->AsConfigureMessage()) {
if (ProcessConfigureMessage(msg) ==
MessageProcessedResult::NotProcessed) {
break;
}
} else if (msg->AsDecodeMessage()) {
if (ProcessDecodeMessage(msg) == MessageProcessedResult::NotProcessed) {
break;
}
} else {
MOZ_ASSERT(msg->AsFlushMessage());
if (ProcessFlushMessage(msg) == MessageProcessedResult::NotProcessed) {
break;
}
}
}
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::CancelPendingControlMessages(
const nsresult& aResult) {
AssertIsOnOwningThread();
// Cancel the message that is being processed.
if (mProcessingMessage) {
LOG("%s %p cancels current %s", DecoderType::Name.get(), this,
mProcessingMessage->ToString().get());
mProcessingMessage->Cancel();
if (FlushMessage* flush = mProcessingMessage->AsFlushMessage()) {
flush->RejectPromiseIfAny(aResult);
}
mProcessingMessage.reset();
}
// Clear the message queue.
while (!mControlMessageQueue.empty()) {
LOG("%s %p cancels pending %s", DecoderType::Name.get(), this,
mControlMessageQueue.front()->ToString().get());
MOZ_ASSERT(!mControlMessageQueue.front()->IsProcessing());
if (FlushMessage* flush = mControlMessageQueue.front()->AsFlushMessage()) {
flush->RejectPromiseIfAny(aResult);
}
mControlMessageQueue.pop();
}
}
template <typename DecoderType>
template <typename Func>
void DecoderTemplate<DecoderType>::QueueATask(const char* aName,
Func&& aSteps) {
AssertIsOnOwningThread();
MOZ_ALWAYS_SUCCEEDS(NS_DispatchToCurrentThread(
NS_NewRunnableFunction(aName, std::forward<Func>(aSteps))));
}
template <typename DecoderType>
MessageProcessedResult DecoderTemplate<DecoderType>::ProcessConfigureMessage(
UniquePtr<ControlMessage>& aMessage) {
AssertIsOnOwningThread();
MOZ_ASSERT(mState == CodecState::Configured);
MOZ_ASSERT(aMessage->AsConfigureMessage());
if (mProcessingMessage) {
LOG("%s %p is processing %s. Defer %s", DecoderType::Name.get(), this,
mProcessingMessage->ToString().get(), aMessage->ToString().get());
return MessageProcessedResult::NotProcessed;
}
mProcessingMessage.reset(aMessage.release());
mControlMessageQueue.pop();
ConfigureMessage* msg = mProcessingMessage->AsConfigureMessage();
LOG("%s %p starts processing %s", DecoderType::Name.get(), this,
msg->ToString().get());
DestroyDecoderAgentIfAny();
mMessageQueueBlocked = true;
nsAutoCString errorMessage;
auto i = DecoderType::CreateTrackInfo(msg->Config());
if (i.isErr()) {
nsCString res;
GetErrorName(i.unwrapErr(), res);
errorMessage.AppendPrintf("CreateTrackInfo failed: %s", res.get());
} else if (!DecoderType::IsSupported(msg->Config())) {
errorMessage.Append("Not supported.");
} else if (!CreateDecoderAgent(msg->mId, msg->TakeConfig(), i.unwrap())) {
errorMessage.Append("DecoderAgent creation failed.");
}
if (!errorMessage.IsEmpty()) {
LOGE("%s %p ProcessConfigureMessage error (sync): %s",
DecoderType::Name.get(), this, errorMessage.get());
mProcessingMessage.reset();
QueueATask("Error while configuring decoder",
[self = RefPtr{this}]() MOZ_CAN_RUN_SCRIPT_BOUNDARY {
self->CloseInternal(NS_ERROR_DOM_NOT_SUPPORTED_ERR);
});
return MessageProcessedResult::Processed;
}
MOZ_ASSERT(mAgent);
MOZ_ASSERT(mActiveConfig);
LOG("%s %p now blocks message-queue-processing", DecoderType::Name.get(),
this);
bool preferSW = mActiveConfig->mHardwareAcceleration ==
HardwareAcceleration::Prefer_software;
bool lowLatency = mActiveConfig->mOptimizeForLatency.isSome() &&
mActiveConfig->mOptimizeForLatency.value();
mAgent->Configure(preferSW, lowLatency)
->Then(GetCurrentSerialEventTarget(), __func__,
[self = RefPtr{this}, id = mAgent->mId](
const DecoderAgent::ConfigurePromise::ResolveOrRejectValue&
aResult) {
MOZ_ASSERT(self->mProcessingMessage);
MOZ_ASSERT(self->mProcessingMessage->AsConfigureMessage());
MOZ_ASSERT(self->mState == CodecState::Configured);
MOZ_ASSERT(self->mAgent);
MOZ_ASSERT(id == self->mAgent->mId);
MOZ_ASSERT(self->mActiveConfig);
ConfigureMessage* msg =
self->mProcessingMessage->AsConfigureMessage();
LOG("%s %p, DecoderAgent #%d %s has been %s. now unblocks "
"message-queue-processing",
DecoderType::Name.get(), self.get(), id,
msg->ToString().get(),
aResult.IsResolve() ? "resolved" : "rejected");
msg->Complete();
self->mProcessingMessage.reset();
if (aResult.IsReject()) {
// The spec asks to close the decoder with an
// NotSupportedError so we log the exact error here.
const MediaResult& error = aResult.RejectValue();
LOGE("%s %p, DecoderAgent #%d failed to configure: %s",
DecoderType::Name.get(), self.get(), id,
error.Description().get());
self->QueueATask(
"Error during configure",
[self = RefPtr{self}]() MOZ_CAN_RUN_SCRIPT_BOUNDARY {
MOZ_ASSERT(self->mState != CodecState::Closed);
self->CloseInternal(
NS_ERROR_DOM_ENCODING_NOT_SUPPORTED_ERR);
});
return;
}
self->mMessageQueueBlocked = false;
self->ProcessControlMessageQueue();
})
->Track(msg->Request());
return MessageProcessedResult::Processed;
}
template <typename DecoderType>
MessageProcessedResult DecoderTemplate<DecoderType>::ProcessDecodeMessage(
UniquePtr<ControlMessage>& aMessage) {
AssertIsOnOwningThread();
MOZ_ASSERT(mState == CodecState::Configured);
MOZ_ASSERT(aMessage->AsDecodeMessage());
if (mProcessingMessage) {
LOGV("%s %p is processing %s. Defer %s", DecoderType::Name.get(), this,
mProcessingMessage->ToString().get(), aMessage->ToString().get());
return MessageProcessedResult::NotProcessed;
}
mProcessingMessage.reset(aMessage.release());
mControlMessageQueue.pop();
DecodeMessage* msg = mProcessingMessage->AsDecodeMessage();
LOGV("%s %p starts processing %s", DecoderType::Name.get(), this,
msg->ToString().get());
mDecodeQueueSize -= 1;
ScheduleDequeueEventIfNeeded();
// Treat it like decode error if no DecoderAgent is available or the encoded
// data is invalid.
auto closeOnError = [&]() {
mProcessingMessage.reset();
QueueATask("Error during decode",
[self = RefPtr{this}]() MOZ_CAN_RUN_SCRIPT_BOUNDARY {
MOZ_ASSERT(self->mState != CodecState::Closed);
self->CloseInternal(NS_ERROR_DOM_ENCODING_NOT_SUPPORTED_ERR);
});
return MessageProcessedResult::Processed;
};
if (!mAgent) {
LOGE("%s %p is not configured", DecoderType::Name.get(), this);
return closeOnError();
}
MOZ_ASSERT(mActiveConfig);
RefPtr<MediaRawData> data = InputDataToMediaRawData(
std::move(msg->mData), *(mAgent->mInfo), *mActiveConfig);
if (!data) {
LOGE("%s %p, data for %s is empty or invalid", DecoderType::Name.get(),
this, msg->ToString().get());
return closeOnError();
}
mAgent->Decode(data.get())
->Then(
GetCurrentSerialEventTarget(), __func__,
[self = RefPtr{this}, id = mAgent->mId](
DecoderAgent::DecodePromise::ResolveOrRejectValue&& aResult) {
MOZ_ASSERT(self->mProcessingMessage);
MOZ_ASSERT(self->mProcessingMessage->AsDecodeMessage());
MOZ_ASSERT(self->mState == CodecState::Configured);
MOZ_ASSERT(self->mAgent);
MOZ_ASSERT(id == self->mAgent->mId);
MOZ_ASSERT(self->mActiveConfig);
DecodeMessage* msg = self->mProcessingMessage->AsDecodeMessage();
LOGV("%s %p, DecoderAgent #%d %s has been %s",
DecoderType::Name.get(), self.get(), id, msg->ToString().get(),
aResult.IsResolve() ? "resolved" : "rejected");
nsCString msgStr = msg->ToString();
msg->Complete();
self->mProcessingMessage.reset();
if (aResult.IsReject()) {
// The spec asks to queue a task to run close the decoder
// with an EncodingError so we log the exact error here.
const MediaResult& error = aResult.RejectValue();
LOGE("%s %p, DecoderAgent #%d %s failed: %s",
DecoderType::Name.get(), self.get(), id, msgStr.get(),
error.Description().get());
self->QueueATask(
"Error during decode runnable",
[self = RefPtr{self}]() MOZ_CAN_RUN_SCRIPT_BOUNDARY {
MOZ_ASSERT(self->mState != CodecState::Closed);
self->CloseInternal(
NS_ERROR_DOM_ENCODING_NOT_SUPPORTED_ERR);
});
return;
}
MOZ_ASSERT(aResult.IsResolve());
nsTArray<RefPtr<MediaData>> data =
std::move(aResult.ResolveValue());
if (data.IsEmpty()) {
LOGV("%s %p got no data for %s", DecoderType::Name.get(),
self.get(), msgStr.get());
} else {
LOGV("%s %p, schedule %zu decoded data output for %s",
DecoderType::Name.get(), self.get(), data.Length(),
msgStr.get());
self->QueueATask("Output Decoded Data",
[self = RefPtr{self}, data = std::move(data)]()
MOZ_CAN_RUN_SCRIPT_BOUNDARY {
self->OutputDecodedData(std::move(data));
});
}
self->ProcessControlMessageQueue();
})
->Track(msg->Request());
return MessageProcessedResult::Processed;
}
template <typename DecoderType>
MessageProcessedResult DecoderTemplate<DecoderType>::ProcessFlushMessage(
UniquePtr<ControlMessage>& aMessage) {
AssertIsOnOwningThread();
MOZ_ASSERT(mState == CodecState::Configured);
MOZ_ASSERT(aMessage->AsFlushMessage());
if (mProcessingMessage) {
LOG("%s %p is processing %s. Defer %s", DecoderType::Name.get(), this,
mProcessingMessage->ToString().get(), aMessage->ToString().get());
return MessageProcessedResult::NotProcessed;
}
mProcessingMessage.reset(aMessage.release());
mControlMessageQueue.pop();
FlushMessage* msg = mProcessingMessage->AsFlushMessage();
LOG("%s %p starts processing %s", DecoderType::Name.get(), this,
msg->ToString().get());
// No agent, no thing to do. The promise has been rejected with the
// appropriate error in ResetInternal already.
if (!mAgent) {
LOGE("%s %p no agent, nothing to do", DecoderType::Name.get(), this);
mProcessingMessage.reset();
return MessageProcessedResult::Processed;
}
mAgent->DrainAndFlush()
->Then(
GetCurrentSerialEventTarget(), __func__,
[self = RefPtr{this}, id = mAgent->mId,
this](DecoderAgent::DecodePromise::ResolveOrRejectValue&& aResult) {
MOZ_ASSERT(self->mProcessingMessage);
MOZ_ASSERT(self->mProcessingMessage->AsFlushMessage());
MOZ_ASSERT(self->mState == CodecState::Configured);
MOZ_ASSERT(self->mAgent);
MOZ_ASSERT(id == self->mAgent->mId);
MOZ_ASSERT(self->mActiveConfig);
FlushMessage* msg = self->mProcessingMessage->AsFlushMessage();
LOG("%s %p, DecoderAgent #%d %s has been %s",
DecoderType::Name.get(), self.get(), id, msg->ToString().get(),
aResult.IsResolve() ? "resolved" : "rejected");
nsCString msgStr = msg->ToString();
msg->Complete();
// If flush failed, it means decoder fails to decode the data
// sent before, so we treat it like decode error. We reject
// the promise first and then queue a task to close
// VideoDecoder with an EncodingError.
if (aResult.IsReject()) {
const MediaResult& error = aResult.RejectValue();
LOGE("%s %p, DecoderAgent #%d failed to flush: %s",
DecoderType::Name.get(), self.get(), id,
error.Description().get());
RefPtr<Promise> promise = msg->TakePromise();
// Reject with an EncodingError instead of the error we got
// above.
self->QueueATask(
"Error during flush runnable",
[self = RefPtr{this}, promise]() MOZ_CAN_RUN_SCRIPT_BOUNDARY {
promise->MaybeReject(
NS_ERROR_DOM_ENCODING_NOT_SUPPORTED_ERR);
self->mProcessingMessage.reset();
MOZ_ASSERT(self->mState != CodecState::Closed);
self->CloseInternal(
NS_ERROR_DOM_ENCODING_NOT_SUPPORTED_ERR);
});
return;
}
nsTArray<RefPtr<MediaData>> data =
std::move(aResult.ResolveValue());
if (data.IsEmpty()) {
LOG("%s %p gets no data for %s", DecoderType::Name.get(),
self.get(), msgStr.get());
} else {
LOG("%s %p, schedule %zu decoded data output for %s",
DecoderType::Name.get(), self.get(), data.Length(),
msgStr.get());
}
RefPtr<Promise> promise = msg->TakePromise();
self->QueueATask(
"Flush: output decoding data task",
[self = RefPtr{self}, promise, data = std::move(data)]()
MOZ_CAN_RUN_SCRIPT_BOUNDARY {
self->OutputDecodedData(std::move(data));
promise->MaybeResolveWithUndefined();
});
self->mProcessingMessage.reset();
self->ProcessControlMessageQueue();
})
->Track(msg->Request());
return MessageProcessedResult::Processed;
}
// CreateDecoderAgent will create an DecoderAgent paired with a xpcom-shutdown
// blocker and a worker-reference. Besides the needs mentioned in the header
// file, the blocker and the worker-reference also provides an entry point for
// us to clean up the resources. Other than the decoder dtor, Reset(), or
// Close(), the resources should be cleaned up in the following situations:
// 1. Decoder on window, closing document
// 2. Decoder on worker, closing document
// 3. Decoder on worker, terminating worker
//
// In case 1, the entry point to clean up is in the mShutdownBlocker's
// ShutdownpPomise-resolver. In case 2, the entry point is in mWorkerRef's
// shutting down callback. In case 3, the entry point is in mWorkerRef's
// shutting down callback.
template <typename DecoderType>
bool DecoderTemplate<DecoderType>::CreateDecoderAgent(
DecoderAgent::Id aId, UniquePtr<ConfigTypeInternal>&& aConfig,
UniquePtr<TrackInfo>&& aInfo) {
AssertIsOnOwningThread();
MOZ_ASSERT(mState == CodecState::Configured);
MOZ_ASSERT(!mAgent);
MOZ_ASSERT(!mActiveConfig);
MOZ_ASSERT(!mShutdownBlocker);
MOZ_ASSERT_IF(!NS_IsMainThread(), !mWorkerRef);
auto resetOnFailure = MakeScopeExit([&]() {
mAgent = nullptr;
mActiveConfig = nullptr;
mShutdownBlocker = nullptr;
mWorkerRef = nullptr;
});
// If the decoder is on worker, get a worker reference.
if (!NS_IsMainThread()) {
WorkerPrivate* workerPrivate = GetCurrentThreadWorkerPrivate();
if (NS_WARN_IF(!workerPrivate)) {
return false;
}
// Clean up all the resources when worker is going away.
RefPtr<StrongWorkerRef> workerRef = StrongWorkerRef::Create(
workerPrivate, "DecoderTemplate::CreateDecoderAgent",
[self = RefPtr{this}]() {
LOG("%s %p, worker is going away", DecoderType::Name.get(),
self.get());
Unused << self->ResetInternal(NS_ERROR_DOM_ABORT_ERR);
});
if (NS_WARN_IF(!workerRef)) {
return false;
}
mWorkerRef = new ThreadSafeWorkerRef(workerRef);
}
mAgent = MakeRefPtr<DecoderAgent>(aId, std::move(aInfo));
mActiveConfig = std::move(aConfig);
// ShutdownBlockingTicket requires an unique name to register its own
// nsIAsyncShutdownBlocker since each blocker needs a distinct name.
// To do that, we use DecoderAgent's unique id to create a unique name.
nsAutoString uniqueName;
uniqueName.AppendPrintf(
"Blocker for DecoderAgent #%d (codec: %s) @ %p", mAgent->mId,
NS_ConvertUTF16toUTF8(mActiveConfig->mCodec).get(), mAgent.get());
mShutdownBlocker = media::ShutdownBlockingTicket::Create(
uniqueName, NS_LITERAL_STRING_FROM_CSTRING(__FILE__), __LINE__);
if (!mShutdownBlocker) {
LOGE("%s %p failed to create %s", DecoderType::Name.get(), this,
NS_ConvertUTF16toUTF8(uniqueName).get());
return false;
}
// Clean up all the resources when xpcom-will-shutdown arrives since the page
// is going to be closed.
mShutdownBlocker->ShutdownPromise()->Then(
GetCurrentSerialEventTarget(), __func__,
[self = RefPtr{this}, id = mAgent->mId,
ref = mWorkerRef](bool /* aUnUsed*/) {
LOG("%s %p gets xpcom-will-shutdown notification for DecoderAgent #%d",
DecoderType::Name.get(), self.get(), id);
Unused << self->ResetInternal(NS_ERROR_DOM_ABORT_ERR);
},
[self = RefPtr{this}, id = mAgent->mId,
ref = mWorkerRef](bool /* aUnUsed*/) {
LOG("%s %p removes shutdown-blocker #%d before getting any "
"notification. DecoderAgent #%d should have been dropped",
DecoderType::Name.get(), self.get(), id, id);
MOZ_ASSERT(!self->mAgent || self->mAgent->mId != id);
});
LOG("%s %p creates DecoderAgent #%d @ %p and its shutdown-blocker",
DecoderType::Name.get(), this, mAgent->mId, mAgent.get());
resetOnFailure.release();
return true;
}
template <typename DecoderType>
void DecoderTemplate<DecoderType>::DestroyDecoderAgentIfAny() {
AssertIsOnOwningThread();
if (!mAgent) {
LOG("%s %p has no DecoderAgent to destroy", DecoderType::Name.get(), this);
return;
}
MOZ_ASSERT(mActiveConfig);
MOZ_ASSERT(mShutdownBlocker);
MOZ_ASSERT_IF(!NS_IsMainThread(), mWorkerRef);
LOG("%s %p destroys DecoderAgent #%d @ %p", DecoderType::Name.get(), this,
mAgent->mId, mAgent.get());
mActiveConfig = nullptr;
RefPtr<DecoderAgent> agent = std::move(mAgent);
// mShutdownBlocker should be kept alive until the shutdown is done.
// mWorkerRef is used to ensure this task won't be discarded in worker.
agent->Shutdown()->Then(
GetCurrentSerialEventTarget(), __func__,
[self = RefPtr{this}, id = agent->mId, ref = std::move(mWorkerRef),
blocker = std::move(mShutdownBlocker)](
const ShutdownPromise::ResolveOrRejectValue& aResult) {
LOG("%s %p, DecoderAgent #%d's shutdown has been %s. Drop its "
"shutdown-blocker now",
DecoderType::Name.get(), self.get(), id,
aResult.IsResolve() ? "resolved" : "rejected");
});
}
template class DecoderTemplate<VideoDecoderTraits>;
template class DecoderTemplate<AudioDecoderTraits>;
#undef LOG
#undef LOGW
#undef LOGE
#undef LOGV
#undef LOG_INTERNAL
} // namespace mozilla::dom
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