/* -*- 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 "MediaBufferDecoder.h" #include #include "AudioBuffer.h" #include "AudioContext.h" #include "AudioNodeEngine.h" #include "BufferMediaResource.h" #include "DecoderTraits.h" #include "MediaContainerType.h" #include "MediaDataDecoderProxy.h" #include "MediaDataDemuxer.h" #include "MediaQueue.h" #include "PDMFactory.h" #include "VideoUtils.h" #include "WebAudioUtils.h" #include "js/MemoryFunctions.h" #include "mozilla/AbstractThread.h" #include "mozilla/Logging.h" #include "mozilla/StaticPrefs_media.h" #include "mozilla/Telemetry.h" #include "mozilla/dom/AudioContextBinding.h" #include "mozilla/dom/BaseAudioContextBinding.h" #include "mozilla/dom/DOMException.h" #include "mozilla/dom/Promise.h" #include "mozilla/dom/ScriptSettings.h" #include "nsComponentManagerUtils.h" #include "nsContentUtils.h" #include "nsIScriptError.h" #include "nsIScriptObjectPrincipal.h" #include "nsMimeTypes.h" #include "nsPrintfCString.h" #include "nsXPCOMCIDInternal.h" namespace mozilla { extern LazyLogModule gMediaDecoderLog; #define LOG(x, ...) \ MOZ_LOG(gMediaDecoderLog, LogLevel::Debug, (x, ##__VA_ARGS__)) using namespace dom; class ReportResultTask final : public Runnable { public: ReportResultTask(WebAudioDecodeJob& aDecodeJob, WebAudioDecodeJob::ResultFn aFunction, WebAudioDecodeJob::ErrorCode aErrorCode) : Runnable("ReportResultTask"), mDecodeJob(aDecodeJob), mFunction(aFunction), mErrorCode(aErrorCode) { MOZ_ASSERT(aFunction); } NS_IMETHOD Run() override { MOZ_ASSERT(NS_IsMainThread()); (mDecodeJob.*mFunction)(mErrorCode); return NS_OK; } private: // Note that the mDecodeJob member will probably die when mFunction is run. // Therefore, it is not safe to do anything fancy with it in this class. // Really, this class is only used because nsRunnableMethod doesn't support // methods accepting arguments. WebAudioDecodeJob& mDecodeJob; WebAudioDecodeJob::ResultFn mFunction; WebAudioDecodeJob::ErrorCode mErrorCode; }; enum class PhaseEnum : int { Decode, AllocateBuffer, Done }; class MediaDecodeTask final : public Runnable { public: MediaDecodeTask(const MediaContainerType& aContainerType, uint8_t* aBuffer, uint32_t aLength, WebAudioDecodeJob& aDecodeJob) : Runnable("MediaDecodeTask"), mContainerType(aContainerType), mBuffer(aBuffer), mLength(aLength), mBatchSize(StaticPrefs::media_rdd_webaudio_batch_size()), mDecodeJob(aDecodeJob), mPhase(PhaseEnum::Decode) { MOZ_ASSERT(aBuffer); MOZ_ASSERT(NS_IsMainThread()); } // MOZ_CAN_RUN_SCRIPT_BOUNDARY until Runnable::Run is MOZ_CAN_RUN_SCRIPT. See // bug 1535398. MOZ_CAN_RUN_SCRIPT_BOUNDARY NS_IMETHOD Run() override; bool Init(); TaskQueue* PSupervisorTaskQueue() { return mPSupervisorTaskQueue; } bool OnPSupervisorTaskQueue() const { return mPSupervisorTaskQueue->IsCurrentThreadIn(); } private: MOZ_CAN_RUN_SCRIPT void ReportFailureOnMainThread(WebAudioDecodeJob::ErrorCode aErrorCode) { if (NS_IsMainThread()) { Cleanup(); mDecodeJob.OnFailure(aErrorCode); } else { // Take extra care to cleanup on the main thread mMainThread->Dispatch(NewRunnableMethod("MediaDecodeTask::Cleanup", this, &MediaDecodeTask::Cleanup)); nsCOMPtr event = new ReportResultTask( mDecodeJob, &WebAudioDecodeJob::OnFailure, aErrorCode); mMainThread->Dispatch(event.forget()); } } void Decode(); void OnCreateDecoderCompleted(RefPtr aDecoder); MOZ_CAN_RUN_SCRIPT void OnCreateDecoderFailed(const MediaResult& aError); MOZ_CAN_RUN_SCRIPT void OnInitDemuxerCompleted(); MOZ_CAN_RUN_SCRIPT void OnInitDemuxerFailed(const MediaResult& aError); void InitDecoder(); void OnInitDecoderCompleted(); MOZ_CAN_RUN_SCRIPT void OnInitDecoderFailed(); void DoDemux(); void OnAudioDemuxCompleted(RefPtr aSamples); MOZ_CAN_RUN_SCRIPT void OnAudioDemuxFailed(const MediaResult& aError); void DoDecode(); void OnAudioDecodeCompleted(MediaDataDecoder::DecodedData&& aResults); MOZ_CAN_RUN_SCRIPT void OnAudioDecodeFailed(const MediaResult& aError); void DoDrain(); MOZ_CAN_RUN_SCRIPT void OnAudioDrainCompleted( MediaDataDecoder::DecodedData&& aResults); MOZ_CAN_RUN_SCRIPT void OnAudioDrainFailed(const MediaResult& aError); void ShutdownDecoder(); MOZ_CAN_RUN_SCRIPT void FinishDecode(); MOZ_CAN_RUN_SCRIPT void AllocateBuffer(); MOZ_CAN_RUN_SCRIPT void CallbackTheResult(); void Cleanup() { MOZ_ASSERT(NS_IsMainThread()); JS_free(nullptr, mBuffer); if (mTrackDemuxer) { mTrackDemuxer->BreakCycles(); } mTrackDemuxer = nullptr; mDemuxer = nullptr; mPSupervisorTaskQueue = nullptr; mPDecoderTaskQueue = nullptr; } private: MediaContainerType mContainerType; uint8_t* mBuffer; const uint32_t mLength; const uint32_t mBatchSize; WebAudioDecodeJob& mDecodeJob; PhaseEnum mPhase; RefPtr mPSupervisorTaskQueue; RefPtr mPDecoderTaskQueue; RefPtr mDemuxer; RefPtr mTrackDemuxer; RefPtr mDecoder; nsTArray> mRawSamples; MediaInfo mMediaInfo; MediaQueue mAudioQueue; RefPtr mMainThread; }; NS_IMETHODIMP MediaDecodeTask::Run() { switch (mPhase) { case PhaseEnum::Decode: Decode(); break; case PhaseEnum::AllocateBuffer: AllocateBuffer(); break; case PhaseEnum::Done: break; } return NS_OK; } bool MediaDecodeTask::Init() { MOZ_ASSERT(NS_IsMainThread()); RefPtr resource = new BufferMediaResource(static_cast(mBuffer), mLength); mMainThread = mDecodeJob.mContext->GetOwnerGlobal()->AbstractMainThreadFor( TaskCategory::Other); mPSupervisorTaskQueue = TaskQueue::Create(GetMediaThreadPool(MediaThreadType::SUPERVISOR), "MediaBufferDecoder::mPSupervisorTaskQueue"); mPDecoderTaskQueue = TaskQueue::Create(GetMediaThreadPool(MediaThreadType::PLATFORM_DECODER), "MediaBufferDecoder::mPDecoderTaskQueue"); // If you change this list to add support for new decoders, please consider // updating HTMLMediaElement::CreateDecoder as well. mDemuxer = DecoderTraits::CreateDemuxer(mContainerType, resource); if (!mDemuxer) { return false; } return true; } class AutoResampler final { public: AutoResampler() : mResampler(nullptr) {} ~AutoResampler() { if (mResampler) { speex_resampler_destroy(mResampler); } } operator SpeexResamplerState*() const { MOZ_ASSERT(mResampler); return mResampler; } void operator=(SpeexResamplerState* aResampler) { mResampler = aResampler; } private: SpeexResamplerState* mResampler; }; void MediaDecodeTask::Decode() { MOZ_ASSERT(OnPSupervisorTaskQueue()); mDemuxer->Init()->Then(PSupervisorTaskQueue(), __func__, this, &MediaDecodeTask::OnInitDemuxerCompleted, &MediaDecodeTask::OnInitDemuxerFailed); } void MediaDecodeTask::OnInitDemuxerCompleted() { MOZ_ASSERT(OnPSupervisorTaskQueue()); if (!!mDemuxer->GetNumberTracks(TrackInfo::kAudioTrack)) { mTrackDemuxer = mDemuxer->GetTrackDemuxer(TrackInfo::kAudioTrack, 0); if (!mTrackDemuxer) { LOG("MediaDecodeTask: Could not get a track demuxer."); ReportFailureOnMainThread(WebAudioDecodeJob::UnknownContent); return; } RefPtr platform = new PDMFactory(); UniquePtr audioInfo = mTrackDemuxer->GetInfo(); // We actively ignore audio tracks that we know we can't play. if (audioInfo && audioInfo->IsValid() && platform->SupportsMimeType(audioInfo->mMimeType) != media::DecodeSupport::Unsupported) { mMediaInfo.mAudio = *audioInfo->GetAsAudioInfo(); } } RefPtr pdm = new PDMFactory(); pdm->CreateDecoder( {*mMediaInfo.mAudio.GetAsAudioInfo(), TrackInfo::kAudioTrack}) ->Then(PSupervisorTaskQueue(), __func__, this, &MediaDecodeTask::OnCreateDecoderCompleted, &MediaDecodeTask::OnCreateDecoderFailed); } void MediaDecodeTask::OnCreateDecoderCompleted( RefPtr aDecoder) { MOZ_ASSERT(OnPSupervisorTaskQueue()); mDecoder = new MediaDataDecoderProxy(aDecoder.forget(), do_AddRef(mPDecoderTaskQueue.get())); InitDecoder(); } void MediaDecodeTask::OnCreateDecoderFailed(const MediaResult& aError) { MOZ_ASSERT(OnPSupervisorTaskQueue()); LOG("MediaDecodeTask: Could not create a decoder."); ReportFailureOnMainThread(WebAudioDecodeJob::UnknownContent); } void MediaDecodeTask::OnInitDemuxerFailed(const MediaResult& aError) { MOZ_ASSERT(OnPSupervisorTaskQueue()); LOG("MediaDecodeTask: Could not initialize the demuxer."); ReportFailureOnMainThread(WebAudioDecodeJob::InvalidContent); } void MediaDecodeTask::InitDecoder() { MOZ_ASSERT(OnPSupervisorTaskQueue()); mDecoder->Init()->Then(PSupervisorTaskQueue(), __func__, this, &MediaDecodeTask::OnInitDecoderCompleted, &MediaDecodeTask::OnInitDecoderFailed); } void MediaDecodeTask::OnInitDecoderCompleted() { MOZ_ASSERT(OnPSupervisorTaskQueue()); DoDemux(); } void MediaDecodeTask::OnInitDecoderFailed() { MOZ_ASSERT(OnPSupervisorTaskQueue()); ShutdownDecoder(); LOG("MediaDecodeTask: Could not initialize the decoder"); ReportFailureOnMainThread(WebAudioDecodeJob::InvalidContent); } void MediaDecodeTask::DoDemux() { MOZ_ASSERT(OnPSupervisorTaskQueue()); mTrackDemuxer->GetSamples(mBatchSize) ->Then(PSupervisorTaskQueue(), __func__, this, &MediaDecodeTask::OnAudioDemuxCompleted, &MediaDecodeTask::OnAudioDemuxFailed); } void MediaDecodeTask::OnAudioDemuxCompleted( RefPtr aSamples) { MOZ_ASSERT(OnPSupervisorTaskQueue()); mRawSamples.AppendElements(aSamples->GetSamples()); DoDemux(); } void MediaDecodeTask::OnAudioDemuxFailed(const MediaResult& aError) { MOZ_ASSERT(OnPSupervisorTaskQueue()); if (aError.Code() == NS_ERROR_DOM_MEDIA_END_OF_STREAM) { DoDecode(); } else { ShutdownDecoder(); LOG("MediaDecodeTask: Audio demux failed"); ReportFailureOnMainThread(WebAudioDecodeJob::InvalidContent); } } void MediaDecodeTask::DoDecode() { MOZ_ASSERT(OnPSupervisorTaskQueue()); if (mRawSamples.IsEmpty()) { DoDrain(); return; } if (mBatchSize > 1 && mDecoder->CanDecodeBatch()) { nsTArray> rawSampleBatch; const int batchSize = std::min((unsigned long)mBatchSize, (unsigned long)mRawSamples.Length()); for (int i = 0; i < batchSize; ++i) { rawSampleBatch.AppendElement(std::move(mRawSamples[i])); } mDecoder->DecodeBatch(std::move(rawSampleBatch)) ->Then(PSupervisorTaskQueue(), __func__, this, &MediaDecodeTask::OnAudioDecodeCompleted, &MediaDecodeTask::OnAudioDecodeFailed); mRawSamples.RemoveElementsAt(0, batchSize); } else { RefPtr sample = std::move(mRawSamples[0]); mDecoder->Decode(sample)->Then(PSupervisorTaskQueue(), __func__, this, &MediaDecodeTask::OnAudioDecodeCompleted, &MediaDecodeTask::OnAudioDecodeFailed); mRawSamples.RemoveElementAt(0); } } void MediaDecodeTask::OnAudioDecodeCompleted( MediaDataDecoder::DecodedData&& aResults) { MOZ_ASSERT(OnPSupervisorTaskQueue()); for (auto&& sample : aResults) { MOZ_ASSERT(sample->mType == MediaData::Type::AUDIO_DATA); RefPtr audioData = sample->As(); mMediaInfo.mAudio.mRate = audioData->mRate; mMediaInfo.mAudio.mChannels = audioData->mChannels; mAudioQueue.Push(audioData.forget()); } DoDecode(); } void MediaDecodeTask::OnAudioDecodeFailed(const MediaResult& aError) { MOZ_ASSERT(OnPSupervisorTaskQueue()); ShutdownDecoder(); LOG("MediaDecodeTask: decode audio failed."); ReportFailureOnMainThread(WebAudioDecodeJob::InvalidContent); } void MediaDecodeTask::DoDrain() { MOZ_ASSERT(OnPSupervisorTaskQueue()); mDecoder->Drain()->Then(PSupervisorTaskQueue(), __func__, this, &MediaDecodeTask::OnAudioDrainCompleted, &MediaDecodeTask::OnAudioDrainFailed); } void MediaDecodeTask::OnAudioDrainCompleted( MediaDataDecoder::DecodedData&& aResults) { MOZ_ASSERT(OnPSupervisorTaskQueue()); if (aResults.IsEmpty()) { FinishDecode(); return; } for (auto&& sample : aResults) { MOZ_ASSERT(sample->mType == MediaData::Type::AUDIO_DATA); RefPtr audioData = sample->As(); mAudioQueue.Push(audioData.forget()); } DoDrain(); } void MediaDecodeTask::OnAudioDrainFailed(const MediaResult& aError) { MOZ_ASSERT(OnPSupervisorTaskQueue()); ShutdownDecoder(); LOG("MediaDecodeTask: Drain audio failed"); ReportFailureOnMainThread(WebAudioDecodeJob::InvalidContent); } void MediaDecodeTask::ShutdownDecoder() { MOZ_ASSERT(OnPSupervisorTaskQueue()); if (!mDecoder) { return; } RefPtr self = this; mDecoder->Shutdown(); mDecoder = nullptr; } void MediaDecodeTask::FinishDecode() { MOZ_ASSERT(OnPSupervisorTaskQueue()); ShutdownDecoder(); uint32_t frameCount = mAudioQueue.AudioFramesCount(); uint32_t channelCount = mMediaInfo.mAudio.mChannels; uint32_t sampleRate = mMediaInfo.mAudio.mRate; if (!frameCount || !channelCount || !sampleRate) { LOG("MediaDecodeTask: invalid content frame count, channel count or " "sample-rate"); ReportFailureOnMainThread(WebAudioDecodeJob::InvalidContent); return; } const uint32_t destSampleRate = mDecodeJob.mContext->SampleRate(); AutoResampler resampler; uint32_t resampledFrames = frameCount; if (sampleRate != destSampleRate) { resampledFrames = static_cast( static_cast(destSampleRate) * static_cast(frameCount) / static_cast(sampleRate)); resampler = speex_resampler_init(channelCount, sampleRate, destSampleRate, SPEEX_RESAMPLER_QUALITY_DEFAULT, nullptr); speex_resampler_skip_zeros(resampler); resampledFrames += speex_resampler_get_output_latency(resampler); } // Allocate contiguous channel buffers. Note that if we end up resampling, // we may write fewer bytes than mResampledFrames to the output buffer, in // which case writeIndex will tell us how many valid samples we have. mDecodeJob.mBuffer.mChannelData.SetLength(channelCount); #if AUDIO_OUTPUT_FORMAT == AUDIO_FORMAT_FLOAT32 // This buffer has separate channel arrays that could be transferred to // JS::NewArrayBufferWithContents(), but AudioBuffer::RestoreJSChannelData() // does not yet take advantage of this. RefPtr buffer = ThreadSharedFloatArrayBufferList::Create(channelCount, resampledFrames, fallible); if (!buffer) { LOG("MediaDecodeTask: Could not create final buffer (f32)"); ReportFailureOnMainThread(WebAudioDecodeJob::UnknownError); return; } for (uint32_t i = 0; i < channelCount; ++i) { mDecodeJob.mBuffer.mChannelData[i] = buffer->GetData(i); } #else CheckedInt bufferSize(sizeof(AudioDataValue)); bufferSize *= resampledFrames; bufferSize *= channelCount; RefPtr buffer = SharedBuffer::Create(bufferSize); if (!buffer) { LOG("MediaDecodeTask: Could not create final buffer (i16)"); ReportFailureOnMainThread(WebAudioDecodeJob::UnknownError); return; } auto data = static_cast(floatBuffer->Data()); for (uint32_t i = 0; i < channelCount; ++i) { mDecodeJob.mBuffer.mChannelData[i] = data; data += resampledFrames; } #endif mDecodeJob.mBuffer.mBuffer = std::move(buffer); mDecodeJob.mBuffer.mVolume = 1.0f; mDecodeJob.mBuffer.mBufferFormat = AUDIO_OUTPUT_FORMAT; uint32_t writeIndex = 0; RefPtr audioData; while ((audioData = mAudioQueue.PopFront())) { if (!audioData->Frames()) { // The packet contains no audio frames, skip it. continue; } audioData->EnsureAudioBuffer(); // could lead to a copy :( const AudioDataValue* bufferData = static_cast(audioData->mAudioBuffer->Data()); if (sampleRate != destSampleRate) { const uint32_t maxOutSamples = resampledFrames - writeIndex; for (uint32_t i = 0; i < audioData->mChannels; ++i) { uint32_t inSamples = audioData->Frames(); uint32_t outSamples = maxOutSamples; AudioDataValue* outData = mDecodeJob.mBuffer.ChannelDataForWrite(i) + writeIndex; WebAudioUtils::SpeexResamplerProcess( resampler, i, &bufferData[i * audioData->Frames()], &inSamples, outData, &outSamples); if (i == audioData->mChannels - 1) { writeIndex += outSamples; MOZ_ASSERT(writeIndex <= resampledFrames); MOZ_ASSERT(inSamples == audioData->Frames()); } } } else { for (uint32_t i = 0; i < audioData->mChannels; ++i) { AudioDataValue* outData = mDecodeJob.mBuffer.ChannelDataForWrite(i) + writeIndex; PodCopy(outData, &bufferData[i * audioData->Frames()], audioData->Frames()); if (i == audioData->mChannels - 1) { writeIndex += audioData->Frames(); } } } } if (sampleRate != destSampleRate) { uint32_t inputLatency = speex_resampler_get_input_latency(resampler); const uint32_t maxOutSamples = resampledFrames - writeIndex; for (uint32_t i = 0; i < channelCount; ++i) { uint32_t inSamples = inputLatency; uint32_t outSamples = maxOutSamples; AudioDataValue* outData = mDecodeJob.mBuffer.ChannelDataForWrite(i) + writeIndex; WebAudioUtils::SpeexResamplerProcess(resampler, i, (AudioDataValue*)nullptr, &inSamples, outData, &outSamples); if (i == channelCount - 1) { writeIndex += outSamples; MOZ_ASSERT(writeIndex <= resampledFrames); MOZ_ASSERT(inSamples == inputLatency); } } } mDecodeJob.mBuffer.mDuration = writeIndex; mPhase = PhaseEnum::AllocateBuffer; mMainThread->Dispatch(do_AddRef(this)); } void MediaDecodeTask::AllocateBuffer() { MOZ_ASSERT(NS_IsMainThread()); if (!mDecodeJob.AllocateBuffer()) { LOG("MediaDecodeTask: Could not allocate final buffer"); ReportFailureOnMainThread(WebAudioDecodeJob::UnknownError); return; } mPhase = PhaseEnum::Done; CallbackTheResult(); } void MediaDecodeTask::CallbackTheResult() { MOZ_ASSERT(NS_IsMainThread()); Cleanup(); // Now, we're ready to call the script back with the resulting buffer mDecodeJob.OnSuccess(WebAudioDecodeJob::NoError); } bool WebAudioDecodeJob::AllocateBuffer() { MOZ_ASSERT(!mOutput); MOZ_ASSERT(NS_IsMainThread()); // Now create the AudioBuffer mOutput = AudioBuffer::Create(mContext->GetOwner(), mContext->SampleRate(), std::move(mBuffer)); return mOutput != nullptr; } void AsyncDecodeWebAudio(const char* aContentType, uint8_t* aBuffer, uint32_t aLength, WebAudioDecodeJob& aDecodeJob) { Maybe containerType = MakeMediaContainerType(aContentType); // Do not attempt to decode the media if we were not successful at sniffing // the container type. if (!*aContentType || strcmp(aContentType, APPLICATION_OCTET_STREAM) == 0 || !containerType) { nsCOMPtr event = new ReportResultTask(aDecodeJob, &WebAudioDecodeJob::OnFailure, WebAudioDecodeJob::UnknownContent); JS_free(nullptr, aBuffer); aDecodeJob.mContext->Dispatch(event.forget()); return; } RefPtr task = new MediaDecodeTask(*containerType, aBuffer, aLength, aDecodeJob); if (!task->Init()) { nsCOMPtr event = new ReportResultTask(aDecodeJob, &WebAudioDecodeJob::OnFailure, WebAudioDecodeJob::UnknownError); aDecodeJob.mContext->Dispatch(event.forget()); } else { nsresult rv = task->PSupervisorTaskQueue()->Dispatch(task.forget()); MOZ_DIAGNOSTIC_ASSERT(NS_SUCCEEDED(rv)); Unused << rv; } } WebAudioDecodeJob::WebAudioDecodeJob(AudioContext* aContext, Promise* aPromise, DecodeSuccessCallback* aSuccessCallback, DecodeErrorCallback* aFailureCallback) : mContext(aContext), mPromise(aPromise), mSuccessCallback(aSuccessCallback), mFailureCallback(aFailureCallback) { MOZ_ASSERT(aContext); MOZ_ASSERT(NS_IsMainThread()); MOZ_COUNT_CTOR(WebAudioDecodeJob); } WebAudioDecodeJob::~WebAudioDecodeJob() { MOZ_ASSERT(NS_IsMainThread()); MOZ_COUNT_DTOR(WebAudioDecodeJob); } void WebAudioDecodeJob::OnSuccess(ErrorCode aErrorCode) { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(aErrorCode == NoError); RefPtr output(mOutput); if (mSuccessCallback) { RefPtr callback(mSuccessCallback); // Ignore errors in calling the callback, since there is not much that we // can do about it here. callback->Call(*output); } mPromise->MaybeResolve(output); mContext->RemoveFromDecodeQueue(this); } void WebAudioDecodeJob::OnFailure(ErrorCode aErrorCode) { MOZ_ASSERT(NS_IsMainThread()); const char* errorMessage; switch (aErrorCode) { case UnknownContent: errorMessage = "The buffer passed to decodeAudioData contains an unknown content " "type."; break; case InvalidContent: errorMessage = "The buffer passed to decodeAudioData contains invalid content which " "cannot be decoded successfully."; break; case NoAudio: errorMessage = "The buffer passed to decodeAudioData does not contain any audio."; break; case NoError: MOZ_FALLTHROUGH_ASSERT("Who passed NoError to OnFailure?"); // Fall through to get some sort of a sane error message if this actually // happens at runtime. case UnknownError: [[fallthrough]]; default: errorMessage = "An unknown error occurred while processing decodeAudioData."; break; } // Ignore errors in calling the callback, since there is not much that we can // do about it here. nsAutoCString errorString(errorMessage); if (mFailureCallback) { RefPtr exception = DOMException::Create( NS_ERROR_DOM_ENCODING_NOT_SUPPORTED_ERR, errorString); RefPtr callback(mFailureCallback); callback->Call(*exception); } mPromise->MaybeRejectWithEncodingError(errorString); mContext->RemoveFromDecodeQueue(this); } size_t WebAudioDecodeJob::SizeOfExcludingThis( MallocSizeOf aMallocSizeOf) const { size_t amount = 0; if (mSuccessCallback) { amount += mSuccessCallback->SizeOfIncludingThis(aMallocSizeOf); } if (mFailureCallback) { amount += mFailureCallback->SizeOfIncludingThis(aMallocSizeOf); } if (mOutput) { amount += mOutput->SizeOfIncludingThis(aMallocSizeOf); } amount += mBuffer.SizeOfExcludingThis(aMallocSizeOf, false); return amount; } size_t WebAudioDecodeJob::SizeOfIncludingThis( MallocSizeOf aMallocSizeOf) const { return aMallocSizeOf(this) + SizeOfExcludingThis(aMallocSizeOf); } } // namespace mozilla