/* -*- 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 "GMPVideoEncoderChild.h" #include "GMPContentChild.h" #include #include "mozilla/Unused.h" #include "GMPVideoEncodedFrameImpl.h" #include "GMPVideoi420FrameImpl.h" #include "runnable_utils.h" namespace mozilla::gmp { GMPVideoEncoderChild::GMPVideoEncoderChild(GMPContentChild* aPlugin) : GMPSharedMemManager(aPlugin), mPlugin(aPlugin), mVideoEncoder(nullptr), mVideoHost(this), mNeedShmemIntrCount(0), mPendingEncodeComplete(false) { MOZ_ASSERT(mPlugin); } GMPVideoEncoderChild::~GMPVideoEncoderChild() { MOZ_ASSERT(!mNeedShmemIntrCount); } void GMPVideoEncoderChild::Init(GMPVideoEncoder* aEncoder) { MOZ_ASSERT(aEncoder, "Cannot initialize video encoder child without a video encoder!"); mVideoEncoder = aEncoder; } GMPVideoHostImpl& GMPVideoEncoderChild::Host() { return mVideoHost; } void GMPVideoEncoderChild::Encoded(GMPVideoEncodedFrame* aEncodedFrame, const uint8_t* aCodecSpecificInfo, uint32_t aCodecSpecificInfoLength) { MOZ_ASSERT(mPlugin->GMPMessageLoop() == MessageLoop::current()); auto ef = static_cast(aEncodedFrame); GMPVideoEncodedFrameData frameData; ef->RelinquishFrameData(frameData); nsTArray codecSpecific; codecSpecific.AppendElements(aCodecSpecificInfo, aCodecSpecificInfoLength); SendEncoded(frameData, codecSpecific); aEncodedFrame->Destroy(); } void GMPVideoEncoderChild::Error(GMPErr aError) { MOZ_ASSERT(mPlugin->GMPMessageLoop() == MessageLoop::current()); SendError(aError); } mozilla::ipc::IPCResult GMPVideoEncoderChild::RecvInitEncode( const GMPVideoCodec& aCodecSettings, nsTArray&& aCodecSpecific, const int32_t& aNumberOfCores, const uint32_t& aMaxPayloadSize) { if (!mVideoEncoder) { return IPC_FAIL(this, "!mVideoDecoder"); } // Ignore any return code. It is OK for this to fail without killing the // process. mVideoEncoder->InitEncode(aCodecSettings, aCodecSpecific.Elements(), aCodecSpecific.Length(), this, aNumberOfCores, aMaxPayloadSize); return IPC_OK(); } mozilla::ipc::IPCResult GMPVideoEncoderChild::RecvEncode( const GMPVideoi420FrameData& aInputFrame, nsTArray&& aCodecSpecificInfo, nsTArray&& aFrameTypes) { if (!mVideoEncoder) { return IPC_FAIL(this, "!mVideoDecoder"); } auto f = new GMPVideoi420FrameImpl(aInputFrame, &mVideoHost); // Ignore any return code. It is OK for this to fail without killing the // process. mVideoEncoder->Encode(f, aCodecSpecificInfo.Elements(), aCodecSpecificInfo.Length(), aFrameTypes.Elements(), aFrameTypes.Length()); return IPC_OK(); } mozilla::ipc::IPCResult GMPVideoEncoderChild::RecvChildShmemForPool( Shmem&& aEncodedBuffer) { if (aEncodedBuffer.IsWritable()) { mVideoHost.SharedMemMgr()->MgrDeallocShmem(GMPSharedMem::kGMPEncodedData, aEncodedBuffer); } return IPC_OK(); } mozilla::ipc::IPCResult GMPVideoEncoderChild::RecvSetChannelParameters( const uint32_t& aPacketLoss, const uint32_t& aRTT) { if (!mVideoEncoder) { return IPC_FAIL(this, "!mVideoDecoder"); } // Ignore any return code. It is OK for this to fail without killing the // process. mVideoEncoder->SetChannelParameters(aPacketLoss, aRTT); return IPC_OK(); } mozilla::ipc::IPCResult GMPVideoEncoderChild::RecvSetRates( const uint32_t& aNewBitRate, const uint32_t& aFrameRate) { if (!mVideoEncoder) { return IPC_FAIL(this, "!mVideoDecoder"); } // Ignore any return code. It is OK for this to fail without killing the // process. mVideoEncoder->SetRates(aNewBitRate, aFrameRate); return IPC_OK(); } mozilla::ipc::IPCResult GMPVideoEncoderChild::RecvSetPeriodicKeyFrames( const bool& aEnable) { if (!mVideoEncoder) { return IPC_FAIL(this, "!mVideoDecoder"); } // Ignore any return code. It is OK for this to fail without killing the // process. mVideoEncoder->SetPeriodicKeyFrames(aEnable); return IPC_OK(); } mozilla::ipc::IPCResult GMPVideoEncoderChild::RecvEncodingComplete() { MOZ_ASSERT(mPlugin->GMPMessageLoop() == MessageLoop::current()); if (mNeedShmemIntrCount) { // There's a GMP blocked in Alloc() waiting for the CallNeedShem() to // return a frame they can use. Don't call the GMP's EncodingComplete() // now and don't delete the GMPVideoEncoderChild, defer processing the // EncodingComplete() until once the Alloc() finishes. mPendingEncodeComplete = true; return IPC_OK(); } if (!mVideoEncoder) { // There is not much to clean up anymore. Unused << Send__delete__(this); return IPC_OK(); } // Ignore any return code. It is OK for this to fail without killing the // process. mVideoEncoder->EncodingComplete(); mVideoHost.DoneWithAPI(); mPlugin = nullptr; Unused << Send__delete__(this); return IPC_OK(); } bool GMPVideoEncoderChild::Alloc(size_t aSize, Shmem* aMem) { MOZ_ASSERT(mPlugin->GMPMessageLoop() == MessageLoop::current()); bool rv; #ifndef SHMEM_ALLOC_IN_CHILD ++mNeedShmemIntrCount; rv = SendNeedShmem(aSize, aMem); --mNeedShmemIntrCount; if (mPendingEncodeComplete && mNeedShmemIntrCount == 0) { mPendingEncodeComplete = false; mPlugin->GMPMessageLoop()->PostTask( NewRunnableMethod("gmp::GMPVideoEncoderChild::RecvEncodingComplete", this, &GMPVideoEncoderChild::RecvEncodingComplete)); } #else rv = AllocShmem(aSize, aMem); #endif return rv; } void GMPVideoEncoderChild::Dealloc(Shmem&& aMem) { #ifndef SHMEM_ALLOC_IN_CHILD SendParentShmemForPool(std::move(aMem)); #else DeallocShmem(aMem); #endif } } // namespace mozilla::gmp