media/codec2/hidl/client/output.cpp - third_party/android/platform/frameworks/av - Git at Google

 /*
  * Copyright 2018 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 //#define LOG_NDEBUG 0
 #define LOG_TAG "Codec2-OutputBufferQueue"
 #include <android-base/logging.h>

 #include <android/hardware/graphics/bufferqueue/2.0/IGraphicBufferProducer.h>
 #include <codec2/hidl/output.h>
 #include <cutils/ashmem.h>
 #include <gui/bufferqueue/2.0/B2HGraphicBufferProducer.h>
 #include <sys/mman.h>

 #include <C2AllocatorGralloc.h>
 #include <C2BlockInternal.h>
 #include <C2Buffer.h>
 #include <C2PlatformSupport.h>
 #include <C2SurfaceSyncObj.h>

 #include <iomanip>

 namespace android {
 namespace hardware {
 namespace media {
 namespace c2 {

 using HGraphicBufferProducer = ::android::hardware::graphics::bufferqueue::
         V2_0::IGraphicBufferProducer;
 using B2HGraphicBufferProducer = ::android::hardware::graphics::bufferqueue::
         V2_0::utils::B2HGraphicBufferProducer;

 namespace /* unnamed */ {

 // Create a GraphicBuffer object from a graphic block.
 sp<GraphicBuffer> createGraphicBuffer(const C2ConstGraphicBlock& block) {
     uint32_t width;
     uint32_t height;
     uint32_t format;
     uint64_t usage;
     uint32_t stride;
     uint32_t generation;
     uint64_t bqId;
     int32_t bqSlot;
     _UnwrapNativeCodec2GrallocMetadata(
             block.handle(), &width, &height, &format, &usage,
             &stride, &generation, &bqId, reinterpret_cast<uint32_t*>(&bqSlot));
     native_handle_t *grallocHandle =
             UnwrapNativeCodec2GrallocHandle(block.handle());
     sp<GraphicBuffer> graphicBuffer =
             new GraphicBuffer(grallocHandle,
                               GraphicBuffer::CLONE_HANDLE,
                               width, height, format,
                               1, usage, stride);
     native_handle_delete(grallocHandle);
     return graphicBuffer;
 }

 template <typename BlockProcessor>
 void forEachBlock(C2FrameData& frameData,
                   BlockProcessor process) {
     for (const std::shared_ptr<C2Buffer>& buffer : frameData.buffers) {
         if (buffer) {
             for (const C2ConstGraphicBlock& block :
                     buffer->data().graphicBlocks()) {
                 process(block);
             }
         }
     }
 }

 template <typename BlockProcessor>
 void forEachBlock(const std::list<std::unique_ptr<C2Work>>& workList,
                   BlockProcessor process) {
     for (const std::unique_ptr<C2Work>& work : workList) {
         if (!work) {
             continue;
         }
         for (const std::unique_ptr<C2Worklet>& worklet : work->worklets) {
             if (worklet) {
                 forEachBlock(worklet->output, process);
             }
         }
     }
 }

 sp<HGraphicBufferProducer> getHgbp(const sp<IGraphicBufferProducer>& igbp) {
     sp<HGraphicBufferProducer> hgbp =
             igbp->getHalInterface<HGraphicBufferProducer>();
     return hgbp ? hgbp :
             new B2HGraphicBufferProducer(igbp);
 }

 status_t attachToBufferQueue(const C2ConstGraphicBlock& block,
                              const sp<IGraphicBufferProducer>& igbp,
                              uint32_t generation,
                              int32_t* bqSlot,
                              std::shared_ptr<C2SurfaceSyncMemory> syncMem) {
     if (!igbp) {
         LOG(WARNING) << "attachToBufferQueue -- null producer.";
         return NO_INIT;
     }

     sp<GraphicBuffer> graphicBuffer = createGraphicBuffer(block);
     graphicBuffer->setGenerationNumber(generation);

     LOG(VERBOSE) << "attachToBufferQueue -- attaching buffer:"
             << " block dimension " << block.width() << "x"
                                    << block.height()
             << ", graphicBuffer dimension " << graphicBuffer->getWidth() << "x"
                                            << graphicBuffer->getHeight()
             << std::hex << std::setfill('0')
             << ", format 0x" << std::setw(8) << graphicBuffer->getPixelFormat()
             << ", usage 0x" << std::setw(16) << graphicBuffer->getUsage()
             << std::dec << std::setfill(' ')
             << ", stride " << graphicBuffer->getStride()
             << ", generation " << graphicBuffer->getGenerationNumber();

     C2SyncVariables *syncVar = syncMem ? syncMem->mem() : nullptr;
     status_t result = OK;
     if (syncVar) {
         syncVar->lock();
         if (!syncVar->isDequeueableLocked() ||
             syncVar->getSyncStatusLocked() == C2SyncVariables::STATUS_SWITCHING) {
             syncVar->unlock();
             LOG(WARNING) << "attachToBufferQueue -- attachBuffer failed: "
                             "status = " << INVALID_OPERATION << ".";
             return INVALID_OPERATION;
         }
         result = igbp->attachBuffer(bqSlot, graphicBuffer);
         if (result == OK) {
             syncVar->notifyDequeuedLocked();
         }
         syncVar->unlock();
     } else {
         result = igbp->attachBuffer(bqSlot, graphicBuffer);
     }
     if (result != OK) {
         LOG(WARNING) << "attachToBufferQueue -- attachBuffer failed: "
                         "status = " << result << ".";
         return result;
     }
     LOG(VERBOSE) << "attachToBufferQueue -- attachBuffer returned slot #"
                  << *bqSlot << ".";
     return OK;
 }

 bool getBufferQueueAssignment(const C2ConstGraphicBlock& block,
                               uint32_t* generation,
                               uint64_t* bqId,
                               int32_t* bqSlot) {
     return _C2BlockFactory::GetBufferQueueData(
             _C2BlockFactory::GetGraphicBlockPoolData(block),
             generation, bqId, bqSlot);
 }

 } // unnamed namespace

 OutputBufferQueue::OutputBufferQueue()
       : mGeneration{0}, mBqId{0} {
 }

 OutputBufferQueue::~OutputBufferQueue() {
 }

 bool OutputBufferQueue::configure(const sp<IGraphicBufferProducer>& igbp,
                                   uint32_t generation,
                                   uint64_t bqId,
                                   int maxDequeueBufferCount,
                                   std::shared_ptr<V1_2::SurfaceSyncObj> *syncObj) {
     uint64_t consumerUsage = 0;
     if (igbp->getConsumerUsage(&consumerUsage) != OK) {
         ALOGW("failed to get consumer usage");
     }

     // TODO : Abstract creation process into C2SurfaceSyncMemory class.
     // use C2LinearBlock instead ashmem.
     std::shared_ptr<C2SurfaceSyncMemory> syncMem;
     if (syncObj && igbp) {
         bool mapped = false;
         int memFd = ashmem_create_region("C2SurfaceMem", sizeof(C2SyncVariables));
         size_t memSize = memFd < 0 ? 0 : ashmem_get_size_region(memFd);
         if (memSize > 0) {
             syncMem = C2SurfaceSyncMemory::Create(memFd, memSize);
             if (syncMem) {
                 mapped = true;
                 *syncObj = std::make_shared<V1_2::SurfaceSyncObj>();
                 (*syncObj)->syncMemory = syncMem->handle();
                 (*syncObj)->bqId = bqId;
                 (*syncObj)->generationId = generation;
                 (*syncObj)->consumerUsage = consumerUsage;
                 ALOGD("C2SurfaceSyncMemory created %zu(%zu)", sizeof(C2SyncVariables), memSize);
             }
         }
         if (!mapped) {
             if (memFd >= 0) {
                 ::close(memFd);
             }
             ALOGW("SurfaceSyncObj creation failure");
         }
     }

     size_t tryNum = 0;
     size_t success = 0;
     sp<GraphicBuffer> buffers[BufferQueueDefs::NUM_BUFFER_SLOTS];
     std::weak_ptr<_C2BlockPoolData>
             poolDatas[BufferQueueDefs::NUM_BUFFER_SLOTS];
     {
         std::scoped_lock<std::mutex> l(mMutex);
         if (generation == mGeneration) {
             // case of old BlockPool destruction
             C2SyncVariables *var = mSyncMem ? mSyncMem->mem() : nullptr;
             if (syncObj && var) {
                 *syncObj = std::make_shared<V1_2::SurfaceSyncObj>();
                 (*syncObj)->bqId = bqId;
                 (*syncObj)->syncMemory = mSyncMem->handle();
                 (*syncObj)->generationId = generation;
                 (*syncObj)->consumerUsage = consumerUsage;
                 mMaxDequeueBufferCount = maxDequeueBufferCount;
                 var->lock();
                 var->setSyncStatusLocked(C2SyncVariables::STATUS_INIT);
                 var->setInitialDequeueCountLocked(mMaxDequeueBufferCount, 0);
                 var->unlock();
             }
             return false;
         }
         std::shared_ptr<C2SurfaceSyncMemory> oldMem = mSyncMem;
         C2SyncVariables *oldSync = mSyncMem ? mSyncMem->mem() : nullptr;
         if (oldSync) {
             oldSync->lock();
             oldSync->setSyncStatusLocked(C2SyncVariables::STATUS_SWITCHING);
             oldSync->unlock();
         }
         mSyncMem.reset();
         if (syncMem) {
             mSyncMem = syncMem;
         }
         C2SyncVariables *newSync = mSyncMem ? mSyncMem->mem() : nullptr;

         mIgbp = igbp;
         mGeneration = generation;
         mBqId = bqId;
         mOwner = std::make_shared<int>(0);
         mMaxDequeueBufferCount = maxDequeueBufferCount;
         for (int i = 0; i < BufferQueueDefs::NUM_BUFFER_SLOTS; ++i) {
             if (mBqId == 0 || !mBuffers[i]) {
                 continue;
             }
             std::shared_ptr<_C2BlockPoolData> data = mPoolDatas[i].lock();
             if (!data ||
                 !_C2BlockFactory::BeginAttachBlockToBufferQueue(data)) {
                 continue;
             }
             ++tryNum;
             int bqSlot;

             // Update buffer's generation and usage.
             if ((mBuffers[i]->getUsage() & consumerUsage) != consumerUsage) {
                 mBuffers[i] = new GraphicBuffer(
                     mBuffers[i]->handle, GraphicBuffer::CLONE_HANDLE,
                     mBuffers[i]->width, mBuffers[i]->height,
                     mBuffers[i]->format, mBuffers[i]->layerCount,
                     mBuffers[i]->getUsage() | consumerUsage,
                     mBuffers[i]->stride);
                 if (mBuffers[i]->initCheck() != OK) {
                     ALOGW("%s() failed to update usage, original usage=%" PRIx64
                           ", consumer usage=%" PRIx64,
                           __func__, mBuffers[i]->getUsage(), consumerUsage);
                     continue;
                 }
             }
             mBuffers[i]->setGenerationNumber(generation);

             status_t result = igbp->attachBuffer(&bqSlot, mBuffers[i]);
             if (result != OK) {
                 continue;
             }
             bool attach =
                     _C2BlockFactory::EndAttachBlockToBufferQueue(
                             data, mOwner, getHgbp(mIgbp), mSyncMem,
                             generation, bqId, bqSlot);
             if (!attach) {
                 igbp->cancelBuffer(bqSlot, Fence::NO_FENCE);
                 continue;
             }
             buffers[bqSlot] = mBuffers[i];
             poolDatas[bqSlot] = data;
             ++success;
         }
         for (int i = 0; i < BufferQueueDefs::NUM_BUFFER_SLOTS; ++i) {
             mBuffers[i] = buffers[i];
             mPoolDatas[i] = poolDatas[i];
         }
         if (newSync) {
             newSync->lock();
             newSync->setInitialDequeueCountLocked(mMaxDequeueBufferCount, success);
             newSync->unlock();
         }
     }
     ALOGD("remote graphic buffer migration %zu/%zu",
           success, tryNum);
     return true;
 }

 bool OutputBufferQueue::registerBuffer(const C2ConstGraphicBlock& block) {
     std::shared_ptr<_C2BlockPoolData> data =
             _C2BlockFactory::GetGraphicBlockPoolData(block);
     if (!data) {
         return false;
     }
     std::scoped_lock<std::mutex> l(mMutex);

     if (!mIgbp) {
         return false;
     }

     uint32_t oldGeneration;
     uint64_t oldId;
     int32_t oldSlot;
     // If the block is not bufferqueue-based, do nothing.
     if (!_C2BlockFactory::GetBufferQueueData(
             data, &oldGeneration, &oldId, &oldSlot) || (oldId == 0)) {
         return false;
     }
     // If the block's bqId is the same as the desired bqId, just hold.
     if ((oldId == mBqId) && (oldGeneration == mGeneration)) {
         LOG(VERBOSE) << "holdBufferQueueBlock -- import without attaching:"
                      << " bqId " << oldId
                      << ", bqSlot " << oldSlot
                      << ", generation " << mGeneration
                      << ".";
         _C2BlockFactory::HoldBlockFromBufferQueue(data, mOwner, getHgbp(mIgbp), mSyncMem);
         mPoolDatas[oldSlot] = data;
         mBuffers[oldSlot] = createGraphicBuffer(block);
         mBuffers[oldSlot]->setGenerationNumber(mGeneration);
         return true;
     }
     int32_t d = (int32_t) mGeneration - (int32_t) oldGeneration;
     LOG(WARNING) << "receiving stale buffer: generation "
                  << mGeneration << " , diff " << d  << " : slot "
                  << oldSlot;
     return false;
 }

 status_t OutputBufferQueue::outputBuffer(
         const C2ConstGraphicBlock& block,
         const BnGraphicBufferProducer::QueueBufferInput& input,
         BnGraphicBufferProducer::QueueBufferOutput* output) {
     uint32_t generation;
     uint64_t bqId;
     int32_t bqSlot;
     bool display = V1_0::utils::displayBufferQueueBlock(block);
     if (!getBufferQueueAssignment(block, &generation, &bqId, &bqSlot) ||
         bqId == 0) {
         // Block not from bufferqueue -- it must be attached before queuing.

         std::shared_ptr<C2SurfaceSyncMemory> syncMem;
         mMutex.lock();
         sp<IGraphicBufferProducer> outputIgbp = mIgbp;
         uint32_t outputGeneration = mGeneration;
         syncMem = mSyncMem;
         mMutex.unlock();

         status_t status = attachToBufferQueue(
                 block, outputIgbp, outputGeneration, &bqSlot, syncMem);

         if (status != OK) {
             LOG(WARNING) << "outputBuffer -- attaching failed.";
             return INVALID_OPERATION;
         }

         auto syncVar = syncMem ? syncMem->mem() : nullptr;
         if(syncVar) {
             syncVar->lock();
             status = outputIgbp->queueBuffer(static_cast<int>(bqSlot),
                                          input, output);
             if (status == OK) {
                 syncVar->notifyQueuedLocked();
             }
             syncVar->unlock();
         } else {
             status = outputIgbp->queueBuffer(static_cast<int>(bqSlot),
                                          input, output);
         }
         if (status != OK) {
             LOG(ERROR) << "outputBuffer -- queueBuffer() failed "
                        "on non-bufferqueue-based block. "
                        "Error = " << status << ".";
             return status;
         }
         return OK;
     }

     std::shared_ptr<C2SurfaceSyncMemory> syncMem;
     mMutex.lock();
     sp<IGraphicBufferProducer> outputIgbp = mIgbp;
     uint32_t outputGeneration = mGeneration;
     uint64_t outputBqId = mBqId;
     syncMem = mSyncMem;
     mMutex.unlock();

     if (!outputIgbp) {
         LOG(VERBOSE) << "outputBuffer -- output surface is null.";
         return NO_INIT;
     }

     if (!display) {
         LOG(WARNING) << "outputBuffer -- cannot display "
                      "bufferqueue-based block to the bufferqueue.";
         return UNKNOWN_ERROR;
     }
     if (bqId != outputBqId || generation != outputGeneration) {
         int32_t diff = (int32_t) outputGeneration - (int32_t) generation;
         LOG(WARNING) << "outputBuffer -- buffers from old generation to "
                      << outputGeneration << " , diff: " << diff
                      << " , slot: " << bqSlot;
         return DEAD_OBJECT;
     }

     auto syncVar = syncMem ? syncMem->mem() : nullptr;
     status_t status = OK;
     if (syncVar) {
         syncVar->lock();
         status = outputIgbp->queueBuffer(static_cast<int>(bqSlot),
                                                   input, output);
         if (status == OK) {
             syncVar->notifyQueuedLocked();
         }
         syncVar->unlock();
     } else {
         status = outputIgbp->queueBuffer(static_cast<int>(bqSlot),
                                                   input, output);
     }

     if (status != OK) {
         LOG(ERROR) << "outputBuffer -- queueBuffer() failed "
                    "on bufferqueue-based block. "
                    "Error = " << status << ".";
         return status;
     }
     return OK;
 }

 void OutputBufferQueue::holdBufferQueueBlocks(
         const std::list<std::unique_ptr<C2Work>>& workList) {
     forEachBlock(workList,
                  std::bind(&OutputBufferQueue::registerBuffer,
                            this, std::placeholders::_1));
 }

 void OutputBufferQueue::updateMaxDequeueBufferCount(int maxDequeueBufferCount) {
     mMutex.lock();
     mMaxDequeueBufferCount = maxDequeueBufferCount;
     auto syncVar = mSyncMem ? mSyncMem->mem() : nullptr;
     if (syncVar) {
         syncVar->lock();
         syncVar->updateMaxDequeueCountLocked(maxDequeueBufferCount);
         syncVar->unlock();
     }
     mMutex.unlock();
     ALOGD("set max dequeue count %d from update", maxDequeueBufferCount);
 }

 }  // namespace c2
 }  // namespace media
 }  // namespace hardware
 }  // namespace android
	/*
	* Copyright 2018 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	//#define LOG_NDEBUG 0
	#define LOG_TAG "Codec2-OutputBufferQueue"
	#include <android-base/logging.h>

	#include <android/hardware/graphics/bufferqueue/2.0/IGraphicBufferProducer.h>
	#include <codec2/hidl/output.h>
	#include <cutils/ashmem.h>
	#include <gui/bufferqueue/2.0/B2HGraphicBufferProducer.h>
	#include <sys/mman.h>

	#include <C2AllocatorGralloc.h>
	#include <C2BlockInternal.h>
	#include <C2Buffer.h>
	#include <C2PlatformSupport.h>
	#include <C2SurfaceSyncObj.h>

	#include <iomanip>

	namespace android {
	namespace hardware {
	namespace media {
	namespace c2 {

	using HGraphicBufferProducer = ::android::hardware::graphics::bufferqueue::
	V2_0::IGraphicBufferProducer;
	using B2HGraphicBufferProducer = ::android::hardware::graphics::bufferqueue::
	V2_0::utils::B2HGraphicBufferProducer;

	namespace /* unnamed */ {

	// Create a GraphicBuffer object from a graphic block.
	sp<GraphicBuffer> createGraphicBuffer(const C2ConstGraphicBlock& block) {
	uint32_t width;
	uint32_t height;
	uint32_t format;
	uint64_t usage;
	uint32_t stride;
	uint32_t generation;
	uint64_t bqId;
	int32_t bqSlot;
	_UnwrapNativeCodec2GrallocMetadata(
	block.handle(), &width, &height, &format, &usage,
	&stride, &generation, &bqId, reinterpret_cast<uint32_t*>(&bqSlot));
	native_handle_t *grallocHandle =
	UnwrapNativeCodec2GrallocHandle(block.handle());
	sp<GraphicBuffer> graphicBuffer =
	new GraphicBuffer(grallocHandle,
	GraphicBuffer::CLONE_HANDLE,
	width, height, format,
	1, usage, stride);
	native_handle_delete(grallocHandle);
	return graphicBuffer;
	}

	template <typename BlockProcessor>
	void forEachBlock(C2FrameData& frameData,
	BlockProcessor process) {
	for (const std::shared_ptr<C2Buffer>& buffer : frameData.buffers) {
	if (buffer) {
	for (const C2ConstGraphicBlock& block :
	buffer->data().graphicBlocks()) {
	process(block);
	}
	}
	}
	}

	template <typename BlockProcessor>
	void forEachBlock(const std::list<std::unique_ptr<C2Work>>& workList,
	BlockProcessor process) {
	for (const std::unique_ptr<C2Work>& work : workList) {
	if (!work) {
	continue;
	}
	for (const std::unique_ptr<C2Worklet>& worklet : work->worklets) {
	if (worklet) {
	forEachBlock(worklet->output, process);
	}
	}
	}
	}

	sp<HGraphicBufferProducer> getHgbp(const sp<IGraphicBufferProducer>& igbp) {
	sp<HGraphicBufferProducer> hgbp =
	igbp->getHalInterface<HGraphicBufferProducer>();
	return hgbp ? hgbp :
	new B2HGraphicBufferProducer(igbp);
	}

	status_t attachToBufferQueue(const C2ConstGraphicBlock& block,
	const sp<IGraphicBufferProducer>& igbp,
	uint32_t generation,
	int32_t* bqSlot,
	std::shared_ptr<C2SurfaceSyncMemory> syncMem) {
	if (!igbp) {
	LOG(WARNING) << "attachToBufferQueue -- null producer.";
	return NO_INIT;
	}

	sp<GraphicBuffer> graphicBuffer = createGraphicBuffer(block);
	graphicBuffer->setGenerationNumber(generation);

	LOG(VERBOSE) << "attachToBufferQueue -- attaching buffer:"
	<< " block dimension " << block.width() << "x"
	<< block.height()
	<< ", graphicBuffer dimension " << graphicBuffer->getWidth() << "x"
	<< graphicBuffer->getHeight()
	<< std::hex << std::setfill('0')
	<< ", format 0x" << std::setw(8) << graphicBuffer->getPixelFormat()
	<< ", usage 0x" << std::setw(16) << graphicBuffer->getUsage()
	<< std::dec << std::setfill(' ')
	<< ", stride " << graphicBuffer->getStride()
	<< ", generation " << graphicBuffer->getGenerationNumber();

	C2SyncVariables *syncVar = syncMem ? syncMem->mem() : nullptr;
	status_t result = OK;
	if (syncVar) {
	syncVar->lock();
	if (!syncVar->isDequeueableLocked() \|\|
	syncVar->getSyncStatusLocked() == C2SyncVariables::STATUS_SWITCHING) {
	syncVar->unlock();
	LOG(WARNING) << "attachToBufferQueue -- attachBuffer failed: "
	"status = " << INVALID_OPERATION << ".";
	return INVALID_OPERATION;
	}
	result = igbp->attachBuffer(bqSlot, graphicBuffer);
	if (result == OK) {
	syncVar->notifyDequeuedLocked();
	}
	syncVar->unlock();
	} else {
	result = igbp->attachBuffer(bqSlot, graphicBuffer);
	}
	if (result != OK) {
	LOG(WARNING) << "attachToBufferQueue -- attachBuffer failed: "
	"status = " << result << ".";
	return result;
	}
	LOG(VERBOSE) << "attachToBufferQueue -- attachBuffer returned slot #"
	<< *bqSlot << ".";
	return OK;
	}

	bool getBufferQueueAssignment(const C2ConstGraphicBlock& block,
	uint32_t* generation,
	uint64_t* bqId,
	int32_t* bqSlot) {
	return _C2BlockFactory::GetBufferQueueData(
	_C2BlockFactory::GetGraphicBlockPoolData(block),
	generation, bqId, bqSlot);
	}

	} // unnamed namespace

	OutputBufferQueue::OutputBufferQueue()
	: mGeneration{0}, mBqId{0} {
	}

	OutputBufferQueue::~OutputBufferQueue() {
	}

	bool OutputBufferQueue::configure(const sp<IGraphicBufferProducer>& igbp,
	uint32_t generation,
	uint64_t bqId,
	int maxDequeueBufferCount,
	std::shared_ptr<V1_2::SurfaceSyncObj> *syncObj) {
	uint64_t consumerUsage = 0;
	if (igbp->getConsumerUsage(&consumerUsage) != OK) {
	ALOGW("failed to get consumer usage");
	}

	// TODO : Abstract creation process into C2SurfaceSyncMemory class.
	// use C2LinearBlock instead ashmem.
	std::shared_ptr<C2SurfaceSyncMemory> syncMem;
	if (syncObj && igbp) {
	bool mapped = false;
	int memFd = ashmem_create_region("C2SurfaceMem", sizeof(C2SyncVariables));
	size_t memSize = memFd < 0 ? 0 : ashmem_get_size_region(memFd);
	if (memSize > 0) {
	syncMem = C2SurfaceSyncMemory::Create(memFd, memSize);
	if (syncMem) {
	mapped = true;
	*syncObj = std::make_shared<V1_2::SurfaceSyncObj>();
	(*syncObj)->syncMemory = syncMem->handle();
	(*syncObj)->bqId = bqId;
	(*syncObj)->generationId = generation;
	(*syncObj)->consumerUsage = consumerUsage;
	ALOGD("C2SurfaceSyncMemory created %zu(%zu)", sizeof(C2SyncVariables), memSize);
	}
	}
	if (!mapped) {
	if (memFd >= 0) {
	::close(memFd);
	}
	ALOGW("SurfaceSyncObj creation failure");
	}
	}

	size_t tryNum = 0;
	size_t success = 0;
	sp<GraphicBuffer> buffers[BufferQueueDefs::NUM_BUFFER_SLOTS];
	std::weak_ptr<_C2BlockPoolData>
	poolDatas[BufferQueueDefs::NUM_BUFFER_SLOTS];
	{
	std::scoped_lock<std::mutex> l(mMutex);
	if (generation == mGeneration) {
	// case of old BlockPool destruction
	C2SyncVariables *var = mSyncMem ? mSyncMem->mem() : nullptr;
	if (syncObj && var) {
	*syncObj = std::make_shared<V1_2::SurfaceSyncObj>();
	(*syncObj)->bqId = bqId;
	(*syncObj)->syncMemory = mSyncMem->handle();
	(*syncObj)->generationId = generation;
	(*syncObj)->consumerUsage = consumerUsage;
	mMaxDequeueBufferCount = maxDequeueBufferCount;
	var->lock();
	var->setSyncStatusLocked(C2SyncVariables::STATUS_INIT);
	var->setInitialDequeueCountLocked(mMaxDequeueBufferCount, 0);
	var->unlock();
	}
	return false;
	}
	std::shared_ptr<C2SurfaceSyncMemory> oldMem = mSyncMem;
	C2SyncVariables *oldSync = mSyncMem ? mSyncMem->mem() : nullptr;
	if (oldSync) {
	oldSync->lock();
	oldSync->setSyncStatusLocked(C2SyncVariables::STATUS_SWITCHING);
	oldSync->unlock();
	}
	mSyncMem.reset();
	if (syncMem) {
	mSyncMem = syncMem;
	}
	C2SyncVariables *newSync = mSyncMem ? mSyncMem->mem() : nullptr;

	mIgbp = igbp;
	mGeneration = generation;
	mBqId = bqId;
	mOwner = std::make_shared<int>(0);
	mMaxDequeueBufferCount = maxDequeueBufferCount;
	for (int i = 0; i < BufferQueueDefs::NUM_BUFFER_SLOTS; ++i) {
	if (mBqId == 0 \|\| !mBuffers[i]) {
	continue;
	}
	std::shared_ptr<_C2BlockPoolData> data = mPoolDatas[i].lock();
	if (!data \|\|
	!_C2BlockFactory::BeginAttachBlockToBufferQueue(data)) {
	continue;
	}
	++tryNum;
	int bqSlot;

	// Update buffer's generation and usage.
	if ((mBuffers[i]->getUsage() & consumerUsage) != consumerUsage) {
	mBuffers[i] = new GraphicBuffer(
	mBuffers[i]->handle, GraphicBuffer::CLONE_HANDLE,
	mBuffers[i]->width, mBuffers[i]->height,
	mBuffers[i]->format, mBuffers[i]->layerCount,
	mBuffers[i]->getUsage() \| consumerUsage,
	mBuffers[i]->stride);
	if (mBuffers[i]->initCheck() != OK) {
	ALOGW("%s() failed to update usage, original usage=%" PRIx64
	", consumer usage=%" PRIx64,
	__func__, mBuffers[i]->getUsage(), consumerUsage);
	continue;
	}
	}
	mBuffers[i]->setGenerationNumber(generation);

	status_t result = igbp->attachBuffer(&bqSlot, mBuffers[i]);
	if (result != OK) {
	continue;
	}
	bool attach =
	_C2BlockFactory::EndAttachBlockToBufferQueue(
	data, mOwner, getHgbp(mIgbp), mSyncMem,
	generation, bqId, bqSlot);
	if (!attach) {
	igbp->cancelBuffer(bqSlot, Fence::NO_FENCE);
	continue;
	}
	buffers[bqSlot] = mBuffers[i];
	poolDatas[bqSlot] = data;
	++success;
	}
	for (int i = 0; i < BufferQueueDefs::NUM_BUFFER_SLOTS; ++i) {
	mBuffers[i] = buffers[i];
	mPoolDatas[i] = poolDatas[i];
	}
	if (newSync) {
	newSync->lock();
	newSync->setInitialDequeueCountLocked(mMaxDequeueBufferCount, success);
	newSync->unlock();
	}
	}
	ALOGD("remote graphic buffer migration %zu/%zu",
	success, tryNum);
	return true;
	}

	bool OutputBufferQueue::registerBuffer(const C2ConstGraphicBlock& block) {
	std::shared_ptr<_C2BlockPoolData> data =
	_C2BlockFactory::GetGraphicBlockPoolData(block);
	if (!data) {
	return false;
	}
	std::scoped_lock<std::mutex> l(mMutex);

	if (!mIgbp) {
	return false;
	}

	uint32_t oldGeneration;
	uint64_t oldId;
	int32_t oldSlot;
	// If the block is not bufferqueue-based, do nothing.
	if (!_C2BlockFactory::GetBufferQueueData(
	data, &oldGeneration, &oldId, &oldSlot) \|\| (oldId == 0)) {
	return false;
	}
	// If the block's bqId is the same as the desired bqId, just hold.
	if ((oldId == mBqId) && (oldGeneration == mGeneration)) {
	LOG(VERBOSE) << "holdBufferQueueBlock -- import without attaching:"
	<< " bqId " << oldId
	<< ", bqSlot " << oldSlot
	<< ", generation " << mGeneration
	<< ".";
	_C2BlockFactory::HoldBlockFromBufferQueue(data, mOwner, getHgbp(mIgbp), mSyncMem);
	mPoolDatas[oldSlot] = data;
	mBuffers[oldSlot] = createGraphicBuffer(block);
	mBuffers[oldSlot]->setGenerationNumber(mGeneration);
	return true;
	}
	int32_t d = (int32_t) mGeneration - (int32_t) oldGeneration;
	LOG(WARNING) << "receiving stale buffer: generation "
	<< mGeneration << " , diff " << d << " : slot "
	<< oldSlot;
	return false;
	}

	status_t OutputBufferQueue::outputBuffer(
	const C2ConstGraphicBlock& block,
	const BnGraphicBufferProducer::QueueBufferInput& input,
	BnGraphicBufferProducer::QueueBufferOutput* output) {
	uint32_t generation;
	uint64_t bqId;
	int32_t bqSlot;
	bool display = V1_0::utils::displayBufferQueueBlock(block);
	if (!getBufferQueueAssignment(block, &generation, &bqId, &bqSlot) \|\|
	bqId == 0) {
	// Block not from bufferqueue -- it must be attached before queuing.

	std::shared_ptr<C2SurfaceSyncMemory> syncMem;
	mMutex.lock();
	sp<IGraphicBufferProducer> outputIgbp = mIgbp;
	uint32_t outputGeneration = mGeneration;
	syncMem = mSyncMem;
	mMutex.unlock();

	status_t status = attachToBufferQueue(
	block, outputIgbp, outputGeneration, &bqSlot, syncMem);

	if (status != OK) {
	LOG(WARNING) << "outputBuffer -- attaching failed.";
	return INVALID_OPERATION;
	}

	auto syncVar = syncMem ? syncMem->mem() : nullptr;
	if(syncVar) {
	syncVar->lock();
	status = outputIgbp->queueBuffer(static_cast<int>(bqSlot),
	input, output);
	if (status == OK) {
	syncVar->notifyQueuedLocked();
	}
	syncVar->unlock();
	} else {
	status = outputIgbp->queueBuffer(static_cast<int>(bqSlot),
	input, output);
	}
	if (status != OK) {
	LOG(ERROR) << "outputBuffer -- queueBuffer() failed "
	"on non-bufferqueue-based block. "
	"Error = " << status << ".";
	return status;
	}
	return OK;
	}

	std::shared_ptr<C2SurfaceSyncMemory> syncMem;
	mMutex.lock();
	sp<IGraphicBufferProducer> outputIgbp = mIgbp;
	uint32_t outputGeneration = mGeneration;
	uint64_t outputBqId = mBqId;
	syncMem = mSyncMem;
	mMutex.unlock();

	if (!outputIgbp) {
	LOG(VERBOSE) << "outputBuffer -- output surface is null.";
	return NO_INIT;
	}

	if (!display) {
	LOG(WARNING) << "outputBuffer -- cannot display "
	"bufferqueue-based block to the bufferqueue.";
	return UNKNOWN_ERROR;
	}
	if (bqId != outputBqId \|\| generation != outputGeneration) {
	int32_t diff = (int32_t) outputGeneration - (int32_t) generation;
	LOG(WARNING) << "outputBuffer -- buffers from old generation to "
	<< outputGeneration << " , diff: " << diff
	<< " , slot: " << bqSlot;
	return DEAD_OBJECT;
	}

	auto syncVar = syncMem ? syncMem->mem() : nullptr;
	status_t status = OK;
	if (syncVar) {
	syncVar->lock();
	status = outputIgbp->queueBuffer(static_cast<int>(bqSlot),
	input, output);
	if (status == OK) {
	syncVar->notifyQueuedLocked();
	}
	syncVar->unlock();
	} else {
	status = outputIgbp->queueBuffer(static_cast<int>(bqSlot),
	input, output);
	}

	if (status != OK) {
	LOG(ERROR) << "outputBuffer -- queueBuffer() failed "
	"on bufferqueue-based block. "
	"Error = " << status << ".";
	return status;
	}
	return OK;
	}

	void OutputBufferQueue::holdBufferQueueBlocks(
	const std::list<std::unique_ptr<C2Work>>& workList) {
	forEachBlock(workList,
	std::bind(&OutputBufferQueue::registerBuffer,
	this, std::placeholders::_1));
	}

	void OutputBufferQueue::updateMaxDequeueBufferCount(int maxDequeueBufferCount) {
	mMutex.lock();
	mMaxDequeueBufferCount = maxDequeueBufferCount;
	auto syncVar = mSyncMem ? mSyncMem->mem() : nullptr;
	if (syncVar) {
	syncVar->lock();
	syncVar->updateMaxDequeueCountLocked(maxDequeueBufferCount);
	syncVar->unlock();
	}
	mMutex.unlock();
	ALOGD("set max dequeue count %d from update", maxDequeueBufferCount);
	}

	} // namespace c2
	} // namespace media
	} // namespace hardware
	} // namespace android