media/codec2/hidl/1.0/utils/Component.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-Component"
 #include <android-base/logging.h>

 #include <codec2/hidl/1.0/Component.h>
 #include <codec2/hidl/1.0/ComponentStore.h>
 #include <codec2/hidl/1.0/InputBufferManager.h>

 #ifndef __ANDROID_APEX__
 #include <FilterWrapper.h>
 #endif

 #include <hidl/HidlBinderSupport.h>
 #include <utils/Timers.h>

 #include <C2BqBufferPriv.h>
 #include <C2Debug.h>
 #include <C2PlatformSupport.h>

 #include <chrono>
 #include <thread>

 namespace android {
 namespace hardware {
 namespace media {
 namespace c2 {
 namespace V1_0 {
 namespace utils {

 using namespace ::android;

 // ComponentListener wrapper
 struct Component::Listener : public C2Component::Listener {

     Listener(const sp<Component>& component) :
         mComponent(component),
         mListener(component->mListener) {
     }

     virtual void onError_nb(
             std::weak_ptr<C2Component> /* c2component */,
             uint32_t errorCode) override {
         sp<IComponentListener> listener = mListener.promote();
         if (listener) {
             Return<void> transStatus = listener->onError(Status::OK, errorCode);
             if (!transStatus.isOk()) {
                 LOG(ERROR) << "Component::Listener::onError_nb -- "
                            << "transaction failed.";
             }
         }
     }

     virtual void onTripped_nb(
             std::weak_ptr<C2Component> /* c2component */,
             std::vector<std::shared_ptr<C2SettingResult>> c2settingResult
             ) override {
         sp<IComponentListener> listener = mListener.promote();
         if (listener) {
             hidl_vec<SettingResult> settingResults(c2settingResult.size());
             size_t ix = 0;
             for (const std::shared_ptr<C2SettingResult> &c2result :
                     c2settingResult) {
                 if (c2result) {
                     if (!objcpy(&settingResults[ix++], *c2result)) {
                         break;
                     }
                 }
             }
             settingResults.resize(ix);
             Return<void> transStatus = listener->onTripped(settingResults);
             if (!transStatus.isOk()) {
                 LOG(ERROR) << "Component::Listener::onTripped_nb -- "
                            << "transaction failed.";
             }
         }
     }

     virtual void onWorkDone_nb(
             std::weak_ptr<C2Component> /* c2component */,
             std::list<std::unique_ptr<C2Work>> c2workItems) override {
         for (const std::unique_ptr<C2Work>& work : c2workItems) {
             if (work) {
                 if (work->worklets.empty()
                         || !work->worklets.back()
                         || (work->worklets.back()->output.flags &
                             C2FrameData::FLAG_INCOMPLETE) == 0) {
                     InputBufferManager::
                             unregisterFrameData(mListener, work->input);
                 }
             }
         }

         sp<IComponentListener> listener = mListener.promote();
         if (listener) {
             WorkBundle workBundle;

             sp<Component> strongComponent = mComponent.promote();
             beginTransferBufferQueueBlocks(c2workItems, true);
             if (!objcpy(&workBundle, c2workItems, strongComponent ?
                     &strongComponent->mBufferPoolSender : nullptr)) {
                 LOG(ERROR) << "Component::Listener::onWorkDone_nb -- "
                            << "received corrupted work items.";
                 endTransferBufferQueueBlocks(c2workItems, false, true);
                 return;
             }
             Return<void> transStatus = listener->onWorkDone(workBundle);
             if (!transStatus.isOk()) {
                 LOG(ERROR) << "Component::Listener::onWorkDone_nb -- "
                            << "transaction failed.";
                 endTransferBufferQueueBlocks(c2workItems, false, true);
                 return;
             }
             endTransferBufferQueueBlocks(c2workItems, true, true);
         }
     }

 protected:
     wp<Component> mComponent;
     wp<IComponentListener> mListener;
 };

 // Component::Sink
 struct Component::Sink : public IInputSink {
     std::shared_ptr<Component> mComponent;
     sp<IConfigurable> mConfigurable;

     virtual Return<Status> queue(const WorkBundle& workBundle) override {
         return mComponent->queue(workBundle);
     }

     virtual Return<sp<IConfigurable>> getConfigurable() override {
         return mConfigurable;
     }

     Sink(const std::shared_ptr<Component>& component);
     virtual ~Sink() override;

     // Process-wide map: Component::Sink -> C2Component.
     static std::mutex sSink2ComponentMutex;
     static std::map<IInputSink*, std::weak_ptr<C2Component>> sSink2Component;

     static std::shared_ptr<C2Component> findLocalComponent(
             const sp<IInputSink>& sink);
 };

 std::mutex
         Component::Sink::sSink2ComponentMutex{};
 std::map<IInputSink*, std::weak_ptr<C2Component>>
         Component::Sink::sSink2Component{};

 Component::Sink::Sink(const std::shared_ptr<Component>& component)
         : mComponent{component},
           mConfigurable{[&component]() -> sp<IConfigurable> {
               Return<sp<IComponentInterface>> ret1 = component->getInterface();
               if (!ret1.isOk()) {
                   LOG(ERROR) << "Sink::Sink -- component's transaction failed.";
                   return nullptr;
               }
               Return<sp<IConfigurable>> ret2 =
                       static_cast<sp<IComponentInterface>>(ret1)->
                       getConfigurable();
               if (!ret2.isOk()) {
                   LOG(ERROR) << "Sink::Sink -- interface's transaction failed.";
                   return nullptr;
               }
               return static_cast<sp<IConfigurable>>(ret2);
           }()} {
     std::lock_guard<std::mutex> lock(sSink2ComponentMutex);
     sSink2Component.emplace(this, component->mComponent);
 }

 Component::Sink::~Sink() {
     std::lock_guard<std::mutex> lock(sSink2ComponentMutex);
     sSink2Component.erase(this);
 }

 std::shared_ptr<C2Component> Component::Sink::findLocalComponent(
         const sp<IInputSink>& sink) {
     std::lock_guard<std::mutex> lock(sSink2ComponentMutex);
     auto i = sSink2Component.find(sink.get());
     if (i == sSink2Component.end()) {
         return nullptr;
     }
     return i->second.lock();
 }

 // Component
 Component::Component(
         const std::shared_ptr<C2Component>& component,
         const sp<IComponentListener>& listener,
         const sp<ComponentStore>& store,
         const sp<::android::hardware::media::bufferpool::V2_0::
         IClientManager>& clientPoolManager)
       : mComponent{component},
         mInterface{new ComponentInterface(component->intf(),
                                           store->getParameterCache())},
         mListener{listener},
         mStore{store},
         mBufferPoolSender{clientPoolManager} {
     // Retrieve supported parameters from store
     // TODO: We could cache this per component/interface type
     mInit = mInterface->status();
 }

 c2_status_t Component::status() const {
     return mInit;
 }

 // Methods from ::android::hardware::media::c2::V1_0::IComponent
 Return<Status> Component::queue(const WorkBundle& workBundle) {
     std::list<std::unique_ptr<C2Work>> c2works;

     if (!objcpy(&c2works, workBundle)) {
         return Status::CORRUPTED;
     }

     // Register input buffers.
     for (const std::unique_ptr<C2Work>& work : c2works) {
         if (work) {
             InputBufferManager::
                     registerFrameData(mListener, work->input);
         }
     }

     return static_cast<Status>(mComponent->queue_nb(&c2works));
 }

 Return<void> Component::flush(flush_cb _hidl_cb) {
     std::list<std::unique_ptr<C2Work>> c2flushedWorks;
     c2_status_t c2res = mComponent->flush_sm(
             C2Component::FLUSH_COMPONENT,
             &c2flushedWorks);

     // Unregister input buffers.
     for (const std::unique_ptr<C2Work>& work : c2flushedWorks) {
         if (work) {
             if (work->worklets.empty()
                     || !work->worklets.back()
                     || (work->worklets.back()->output.flags &
                         C2FrameData::FLAG_INCOMPLETE) == 0) {
                 InputBufferManager::
                         unregisterFrameData(mListener, work->input);
             }
         }
     }

     WorkBundle flushedWorkBundle;
     Status res = static_cast<Status>(c2res);
     beginTransferBufferQueueBlocks(c2flushedWorks, true);
     if (c2res == C2_OK) {
         if (!objcpy(&flushedWorkBundle, c2flushedWorks, &mBufferPoolSender)) {
             res = Status::CORRUPTED;
         }
     }
     _hidl_cb(res, flushedWorkBundle);
     endTransferBufferQueueBlocks(c2flushedWorks, true, true);
     return Void();
 }

 Return<Status> Component::drain(bool withEos) {
     return static_cast<Status>(mComponent->drain_nb(withEos ?
             C2Component::DRAIN_COMPONENT_WITH_EOS :
             C2Component::DRAIN_COMPONENT_NO_EOS));
 }

 Return<Status> Component::setOutputSurface(
         uint64_t blockPoolId,
         const sp<HGraphicBufferProducer2>& surface) {
     std::shared_ptr<C2BlockPool> pool;
     GetCodec2BlockPool(blockPoolId, mComponent, &pool);
     if (pool && pool->getAllocatorId() == C2PlatformAllocatorStore::BUFFERQUEUE) {
         std::shared_ptr<C2BufferQueueBlockPool> bqPool =
                 std::static_pointer_cast<C2BufferQueueBlockPool>(pool);
         C2BufferQueueBlockPool::OnRenderCallback cb =
             [this](uint64_t producer, int32_t slot, int64_t nsecs) {
                 // TODO: batch this
                 hidl_vec<IComponentListener::RenderedFrame> rendered;
                 rendered.resize(1);
                 rendered[0] = { producer, slot, nsecs };
                 (void)mListener->onFramesRendered(rendered).isOk();
         };
         if (bqPool) {
             bqPool->setRenderCallback(cb);
             bqPool->configureProducer(surface);
         }
     }
     return Status::OK;
 }

 Return<void> Component::connectToInputSurface(
         const sp<IInputSurface>& inputSurface,
         connectToInputSurface_cb _hidl_cb) {
     Status status;
     sp<IInputSurfaceConnection> connection;
     auto transStatus = inputSurface->connect(
             asInputSink(),
             [&status, &connection](
                     Status s, const sp<IInputSurfaceConnection>& c) {
                 status = s;
                 connection = c;
             }
         );
     _hidl_cb(status, connection);
     return Void();
 }

 Return<void> Component::connectToOmxInputSurface(
         const sp<HGraphicBufferProducer1>& producer,
         const sp<::android::hardware::media::omx::V1_0::
         IGraphicBufferSource>& source,
         connectToOmxInputSurface_cb _hidl_cb) {
     (void)producer;
     (void)source;
     (void)_hidl_cb;
     return Void();
 }

 Return<Status> Component::disconnectFromInputSurface() {
     // TODO implement
     return Status::OK;
 }

 namespace /* unnamed */ {

 struct BlockPoolIntf : public ConfigurableC2Intf {
     BlockPoolIntf(const std::shared_ptr<C2BlockPool>& pool)
           : ConfigurableC2Intf{
                 "C2BlockPool:" +
                     (pool ? std::to_string(pool->getLocalId()) : "null"),
                 0},
             mPool{pool} {
     }

     virtual c2_status_t config(
             const std::vector<C2Param*>& params,
             c2_blocking_t mayBlock,
             std::vector<std::unique_ptr<C2SettingResult>>* const failures
             ) override {
         (void)params;
         (void)mayBlock;
         (void)failures;
         return C2_OK;
     }

     virtual c2_status_t query(
             const std::vector<C2Param::Index>& indices,
             c2_blocking_t mayBlock,
             std::vector<std::unique_ptr<C2Param>>* const params
             ) const override {
         (void)indices;
         (void)mayBlock;
         (void)params;
         return C2_OK;
     }

     virtual c2_status_t querySupportedParams(
             std::vector<std::shared_ptr<C2ParamDescriptor>>* const params
             ) const override {
         (void)params;
         return C2_OK;
     }

     virtual c2_status_t querySupportedValues(
             std::vector<C2FieldSupportedValuesQuery>& fields,
             c2_blocking_t mayBlock) const override {
         (void)fields;
         (void)mayBlock;
         return C2_OK;
     }

 protected:
     std::shared_ptr<C2BlockPool> mPool;
 };

 } // unnamed namespace

 Return<void> Component::createBlockPool(
         uint32_t allocatorId,
         createBlockPool_cb _hidl_cb) {
     std::shared_ptr<C2BlockPool> blockPool;
 #ifdef __ANDROID_APEX__
     c2_status_t status = CreateCodec2BlockPool(
             static_cast<C2PlatformAllocatorStore::id_t>(allocatorId),
             mComponent,
             &blockPool);
 #else
     c2_status_t status = ComponentStore::GetFilterWrapper()->createBlockPool(
             static_cast<C2PlatformAllocatorStore::id_t>(allocatorId),
             mComponent,
             &blockPool);
 #endif
     if (status != C2_OK) {
         blockPool = nullptr;
     }
     if (blockPool) {
         mBlockPoolsMutex.lock();
         mBlockPools.emplace(blockPool->getLocalId(), blockPool);
         mBlockPoolsMutex.unlock();
     } else if (status == C2_OK) {
         status = C2_CORRUPTED;
     }

     _hidl_cb(static_cast<Status>(status),
             blockPool ? blockPool->getLocalId() : 0,
             new CachedConfigurable(
             std::make_unique<BlockPoolIntf>(blockPool)));
     return Void();
 }

 Return<Status> Component::destroyBlockPool(uint64_t blockPoolId) {
     std::lock_guard<std::mutex> lock(mBlockPoolsMutex);
     return mBlockPools.erase(blockPoolId) == 1 ?
             Status::OK : Status::CORRUPTED;
 }

 Return<Status> Component::start() {
     return static_cast<Status>(mComponent->start());
 }

 Return<Status> Component::stop() {
     InputBufferManager::unregisterFrameData(mListener);
     return static_cast<Status>(mComponent->stop());
 }

 Return<Status> Component::reset() {
     Status status = static_cast<Status>(mComponent->reset());
     {
         std::lock_guard<std::mutex> lock(mBlockPoolsMutex);
         mBlockPools.clear();
     }
     InputBufferManager::unregisterFrameData(mListener);
     return status;
 }

 Return<Status> Component::release() {
     Status status = static_cast<Status>(mComponent->release());
     {
         std::lock_guard<std::mutex> lock(mBlockPoolsMutex);
         mBlockPools.clear();
     }
     InputBufferManager::unregisterFrameData(mListener);
     return status;
 }

 Return<sp<IComponentInterface>> Component::getInterface() {
     return sp<IComponentInterface>(mInterface);
 }

 Return<sp<IInputSink>> Component::asInputSink() {
     std::lock_guard<std::mutex> lock(mSinkMutex);
     if (!mSink) {
         mSink = new Sink(shared_from_this());
     }
     return {mSink};
 }

 std::shared_ptr<C2Component> Component::findLocalComponent(
         const sp<IInputSink>& sink) {
     return Component::Sink::findLocalComponent(sink);
 }

 void Component::initListener(const sp<Component>& self) {
     std::shared_ptr<C2Component::Listener> c2listener =
             std::make_shared<Listener>(self);
     c2_status_t res = mComponent->setListener_vb(c2listener, C2_DONT_BLOCK);
     if (res != C2_OK) {
         mInit = res;
     }
 }

 Component::~Component() {
     InputBufferManager::unregisterFrameData(mListener);
     mStore->reportComponentDeath(this);
 }

 }  // namespace utils
 }  // namespace V1_0
 }  // 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-Component"
	#include <android-base/logging.h>

	#include <codec2/hidl/1.0/Component.h>
	#include <codec2/hidl/1.0/ComponentStore.h>
	#include <codec2/hidl/1.0/InputBufferManager.h>

	#ifndef __ANDROID_APEX__
	#include <FilterWrapper.h>
	#endif

	#include <hidl/HidlBinderSupport.h>
	#include <utils/Timers.h>

	#include <C2BqBufferPriv.h>
	#include <C2Debug.h>
	#include <C2PlatformSupport.h>

	#include <chrono>
	#include <thread>

	namespace android {
	namespace hardware {
	namespace media {
	namespace c2 {
	namespace V1_0 {
	namespace utils {

	using namespace ::android;

	// ComponentListener wrapper
	struct Component::Listener : public C2Component::Listener {

	Listener(const sp<Component>& component) :
	mComponent(component),
	mListener(component->mListener) {
	}

	virtual void onError_nb(
	std::weak_ptr<C2Component> /* c2component */,
	uint32_t errorCode) override {
	sp<IComponentListener> listener = mListener.promote();
	if (listener) {
	Return<void> transStatus = listener->onError(Status::OK, errorCode);
	if (!transStatus.isOk()) {
	LOG(ERROR) << "Component::Listener::onError_nb -- "
	<< "transaction failed.";
	}
	}
	}

	virtual void onTripped_nb(
	std::weak_ptr<C2Component> /* c2component */,
	std::vector<std::shared_ptr<C2SettingResult>> c2settingResult
	) override {
	sp<IComponentListener> listener = mListener.promote();
	if (listener) {
	hidl_vec<SettingResult> settingResults(c2settingResult.size());
	size_t ix = 0;
	for (const std::shared_ptr<C2SettingResult> &c2result :
	c2settingResult) {
	if (c2result) {
	if (!objcpy(&settingResults[ix++], *c2result)) {
	break;
	}
	}
	}
	settingResults.resize(ix);
	Return<void> transStatus = listener->onTripped(settingResults);
	if (!transStatus.isOk()) {
	LOG(ERROR) << "Component::Listener::onTripped_nb -- "
	<< "transaction failed.";
	}
	}
	}

	virtual void onWorkDone_nb(
	std::weak_ptr<C2Component> /* c2component */,
	std::list<std::unique_ptr<C2Work>> c2workItems) override {
	for (const std::unique_ptr<C2Work>& work : c2workItems) {
	if (work) {
	if (work->worklets.empty()
	\|\| !work->worklets.back()
	\|\| (work->worklets.back()->output.flags &
	C2FrameData::FLAG_INCOMPLETE) == 0) {
	InputBufferManager::
	unregisterFrameData(mListener, work->input);
	}
	}
	}

	sp<IComponentListener> listener = mListener.promote();
	if (listener) {
	WorkBundle workBundle;

	sp<Component> strongComponent = mComponent.promote();
	beginTransferBufferQueueBlocks(c2workItems, true);
	if (!objcpy(&workBundle, c2workItems, strongComponent ?
	&strongComponent->mBufferPoolSender : nullptr)) {
	LOG(ERROR) << "Component::Listener::onWorkDone_nb -- "
	<< "received corrupted work items.";
	endTransferBufferQueueBlocks(c2workItems, false, true);
	return;
	}
	Return<void> transStatus = listener->onWorkDone(workBundle);
	if (!transStatus.isOk()) {
	LOG(ERROR) << "Component::Listener::onWorkDone_nb -- "
	<< "transaction failed.";
	endTransferBufferQueueBlocks(c2workItems, false, true);
	return;
	}
	endTransferBufferQueueBlocks(c2workItems, true, true);
	}
	}

	protected:
	wp<Component> mComponent;
	wp<IComponentListener> mListener;
	};

	// Component::Sink
	struct Component::Sink : public IInputSink {
	std::shared_ptr<Component> mComponent;
	sp<IConfigurable> mConfigurable;

	virtual Return<Status> queue(const WorkBundle& workBundle) override {
	return mComponent->queue(workBundle);
	}

	virtual Return<sp<IConfigurable>> getConfigurable() override {
	return mConfigurable;
	}

	Sink(const std::shared_ptr<Component>& component);
	virtual ~Sink() override;

	// Process-wide map: Component::Sink -> C2Component.
	static std::mutex sSink2ComponentMutex;
	static std::map<IInputSink*, std::weak_ptr<C2Component>> sSink2Component;

	static std::shared_ptr<C2Component> findLocalComponent(
	const sp<IInputSink>& sink);
	};

	std::mutex
	Component::Sink::sSink2ComponentMutex{};
	std::map<IInputSink*, std::weak_ptr<C2Component>>
	Component::Sink::sSink2Component{};

	Component::Sink::Sink(const std::shared_ptr<Component>& component)
	: mComponent{component},
	mConfigurable{[&component]() -> sp<IConfigurable> {
	Return<sp<IComponentInterface>> ret1 = component->getInterface();
	if (!ret1.isOk()) {
	LOG(ERROR) << "Sink::Sink -- component's transaction failed.";
	return nullptr;
	}
	Return<sp<IConfigurable>> ret2 =
	static_cast<sp<IComponentInterface>>(ret1)->
	getConfigurable();
	if (!ret2.isOk()) {
	LOG(ERROR) << "Sink::Sink -- interface's transaction failed.";
	return nullptr;
	}
	return static_cast<sp<IConfigurable>>(ret2);
	}()} {
	std::lock_guard<std::mutex> lock(sSink2ComponentMutex);
	sSink2Component.emplace(this, component->mComponent);
	}

	Component::Sink::~Sink() {
	std::lock_guard<std::mutex> lock(sSink2ComponentMutex);
	sSink2Component.erase(this);
	}

	std::shared_ptr<C2Component> Component::Sink::findLocalComponent(
	const sp<IInputSink>& sink) {
	std::lock_guard<std::mutex> lock(sSink2ComponentMutex);
	auto i = sSink2Component.find(sink.get());
	if (i == sSink2Component.end()) {
	return nullptr;
	}
	return i->second.lock();
	}

	// Component
	Component::Component(
	const std::shared_ptr<C2Component>& component,
	const sp<IComponentListener>& listener,
	const sp<ComponentStore>& store,
	const sp<::android::hardware::media::bufferpool::V2_0::
	IClientManager>& clientPoolManager)
	: mComponent{component},
	mInterface{new ComponentInterface(component->intf(),
	store->getParameterCache())},
	mListener{listener},
	mStore{store},
	mBufferPoolSender{clientPoolManager} {
	// Retrieve supported parameters from store
	// TODO: We could cache this per component/interface type
	mInit = mInterface->status();
	}

	c2_status_t Component::status() const {
	return mInit;
	}

	// Methods from ::android::hardware::media::c2::V1_0::IComponent
	Return<Status> Component::queue(const WorkBundle& workBundle) {
	std::list<std::unique_ptr<C2Work>> c2works;

	if (!objcpy(&c2works, workBundle)) {
	return Status::CORRUPTED;
	}

	// Register input buffers.
	for (const std::unique_ptr<C2Work>& work : c2works) {
	if (work) {
	InputBufferManager::
	registerFrameData(mListener, work->input);
	}
	}

	return static_cast<Status>(mComponent->queue_nb(&c2works));
	}

	Return<void> Component::flush(flush_cb _hidl_cb) {
	std::list<std::unique_ptr<C2Work>> c2flushedWorks;
	c2_status_t c2res = mComponent->flush_sm(
	C2Component::FLUSH_COMPONENT,
	&c2flushedWorks);

	// Unregister input buffers.
	for (const std::unique_ptr<C2Work>& work : c2flushedWorks) {
	if (work) {
	if (work->worklets.empty()
	\|\| !work->worklets.back()
	\|\| (work->worklets.back()->output.flags &
	C2FrameData::FLAG_INCOMPLETE) == 0) {
	InputBufferManager::
	unregisterFrameData(mListener, work->input);
	}
	}
	}

	WorkBundle flushedWorkBundle;
	Status res = static_cast<Status>(c2res);
	beginTransferBufferQueueBlocks(c2flushedWorks, true);
	if (c2res == C2_OK) {
	if (!objcpy(&flushedWorkBundle, c2flushedWorks, &mBufferPoolSender)) {
	res = Status::CORRUPTED;
	}
	}
	_hidl_cb(res, flushedWorkBundle);
	endTransferBufferQueueBlocks(c2flushedWorks, true, true);
	return Void();
	}

	Return<Status> Component::drain(bool withEos) {
	return static_cast<Status>(mComponent->drain_nb(withEos ?
	C2Component::DRAIN_COMPONENT_WITH_EOS :
	C2Component::DRAIN_COMPONENT_NO_EOS));
	}

	Return<Status> Component::setOutputSurface(
	uint64_t blockPoolId,
	const sp<HGraphicBufferProducer2>& surface) {
	std::shared_ptr<C2BlockPool> pool;
	GetCodec2BlockPool(blockPoolId, mComponent, &pool);
	if (pool && pool->getAllocatorId() == C2PlatformAllocatorStore::BUFFERQUEUE) {
	std::shared_ptr<C2BufferQueueBlockPool> bqPool =
	std::static_pointer_cast<C2BufferQueueBlockPool>(pool);
	C2BufferQueueBlockPool::OnRenderCallback cb =
	[this](uint64_t producer, int32_t slot, int64_t nsecs) {
	// TODO: batch this
	hidl_vec<IComponentListener::RenderedFrame> rendered;
	rendered.resize(1);
	rendered[0] = { producer, slot, nsecs };
	(void)mListener->onFramesRendered(rendered).isOk();
	};
	if (bqPool) {
	bqPool->setRenderCallback(cb);
	bqPool->configureProducer(surface);
	}
	}
	return Status::OK;
	}

	Return<void> Component::connectToInputSurface(
	const sp<IInputSurface>& inputSurface,
	connectToInputSurface_cb _hidl_cb) {
	Status status;
	sp<IInputSurfaceConnection> connection;
	auto transStatus = inputSurface->connect(
	asInputSink(),
	[&status, &connection](
	Status s, const sp<IInputSurfaceConnection>& c) {
	status = s;
	connection = c;
	}
	);
	_hidl_cb(status, connection);
	return Void();
	}

	Return<void> Component::connectToOmxInputSurface(
	const sp<HGraphicBufferProducer1>& producer,
	const sp<::android::hardware::media::omx::V1_0::
	IGraphicBufferSource>& source,
	connectToOmxInputSurface_cb _hidl_cb) {
	(void)producer;
	(void)source;
	(void)_hidl_cb;
	return Void();
	}

	Return<Status> Component::disconnectFromInputSurface() {
	// TODO implement
	return Status::OK;
	}

	namespace /* unnamed */ {

	struct BlockPoolIntf : public ConfigurableC2Intf {
	BlockPoolIntf(const std::shared_ptr<C2BlockPool>& pool)
	: ConfigurableC2Intf{
	"C2BlockPool:" +
	(pool ? std::to_string(pool->getLocalId()) : "null"),
	0},
	mPool{pool} {
	}

	virtual c2_status_t config(
	const std::vector<C2Param*>& params,
	c2_blocking_t mayBlock,
	std::vector<std::unique_ptr<C2SettingResult>>* const failures
	) override {
	(void)params;
	(void)mayBlock;
	(void)failures;
	return C2_OK;
	}

	virtual c2_status_t query(
	const std::vector<C2Param::Index>& indices,
	c2_blocking_t mayBlock,
	std::vector<std::unique_ptr<C2Param>>* const params
	) const override {
	(void)indices;
	(void)mayBlock;
	(void)params;
	return C2_OK;
	}

	virtual c2_status_t querySupportedParams(
	std::vector<std::shared_ptr<C2ParamDescriptor>>* const params
	) const override {
	(void)params;
	return C2_OK;
	}

	virtual c2_status_t querySupportedValues(
	std::vector<C2FieldSupportedValuesQuery>& fields,
	c2_blocking_t mayBlock) const override {
	(void)fields;
	(void)mayBlock;
	return C2_OK;
	}

	protected:
	std::shared_ptr<C2BlockPool> mPool;
	};

	} // unnamed namespace

	Return<void> Component::createBlockPool(
	uint32_t allocatorId,
	createBlockPool_cb _hidl_cb) {
	std::shared_ptr<C2BlockPool> blockPool;
	#ifdef __ANDROID_APEX__
	c2_status_t status = CreateCodec2BlockPool(
	static_cast<C2PlatformAllocatorStore::id_t>(allocatorId),
	mComponent,
	&blockPool);
	#else
	c2_status_t status = ComponentStore::GetFilterWrapper()->createBlockPool(
	static_cast<C2PlatformAllocatorStore::id_t>(allocatorId),
	mComponent,
	&blockPool);
	#endif
	if (status != C2_OK) {
	blockPool = nullptr;
	}
	if (blockPool) {
	mBlockPoolsMutex.lock();
	mBlockPools.emplace(blockPool->getLocalId(), blockPool);
	mBlockPoolsMutex.unlock();
	} else if (status == C2_OK) {
	status = C2_CORRUPTED;
	}

	_hidl_cb(static_cast<Status>(status),
	blockPool ? blockPool->getLocalId() : 0,
	new CachedConfigurable(
	std::make_unique<BlockPoolIntf>(blockPool)));
	return Void();
	}

	Return<Status> Component::destroyBlockPool(uint64_t blockPoolId) {
	std::lock_guard<std::mutex> lock(mBlockPoolsMutex);
	return mBlockPools.erase(blockPoolId) == 1 ?
	Status::OK : Status::CORRUPTED;
	}

	Return<Status> Component::start() {
	return static_cast<Status>(mComponent->start());
	}

	Return<Status> Component::stop() {
	InputBufferManager::unregisterFrameData(mListener);
	return static_cast<Status>(mComponent->stop());
	}

	Return<Status> Component::reset() {
	Status status = static_cast<Status>(mComponent->reset());
	{
	std::lock_guard<std::mutex> lock(mBlockPoolsMutex);
	mBlockPools.clear();
	}
	InputBufferManager::unregisterFrameData(mListener);
	return status;
	}

	Return<Status> Component::release() {
	Status status = static_cast<Status>(mComponent->release());
	{
	std::lock_guard<std::mutex> lock(mBlockPoolsMutex);
	mBlockPools.clear();
	}
	InputBufferManager::unregisterFrameData(mListener);
	return status;
	}

	Return<sp<IComponentInterface>> Component::getInterface() {
	return sp<IComponentInterface>(mInterface);
	}

	Return<sp<IInputSink>> Component::asInputSink() {
	std::lock_guard<std::mutex> lock(mSinkMutex);
	if (!mSink) {
	mSink = new Sink(shared_from_this());
	}
	return {mSink};
	}

	std::shared_ptr<C2Component> Component::findLocalComponent(
	const sp<IInputSink>& sink) {
	return Component::Sink::findLocalComponent(sink);
	}

	void Component::initListener(const sp<Component>& self) {
	std::shared_ptr<C2Component::Listener> c2listener =
	std::make_shared<Listener>(self);
	c2_status_t res = mComponent->setListener_vb(c2listener, C2_DONT_BLOCK);
	if (res != C2_OK) {
	mInit = res;
	}
	}

	Component::~Component() {
	InputBufferManager::unregisterFrameData(mListener);
	mStore->reportComponentDeath(this);
	}

	} // namespace utils
	} // namespace V1_0
	} // namespace c2
	} // namespace media
	} // namespace hardware
	} // namespace android