media/bufferpool/2.0/Accessor.cpp - third_party/android/platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 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_TAG "BufferPoolConnection"

 #include "Accessor.h"
 #include "AccessorImpl.h"
 #include "Connection.h"

 namespace android {
 namespace hardware {
 namespace media {
 namespace bufferpool {
 namespace V2_0 {
 namespace implementation {

 void ConnectionDeathRecipient::add(
         int64_t connectionId,
         const sp<Accessor> &accessor) {
     std::lock_guard<std::mutex> lock(mLock);
     if (mAccessors.find(connectionId) == mAccessors.end()) {
         mAccessors.insert(std::make_pair(connectionId, accessor));
     }
 }

 void ConnectionDeathRecipient::remove(int64_t connectionId) {
     std::lock_guard<std::mutex> lock(mLock);
     mAccessors.erase(connectionId);
     auto it = mConnectionToCookie.find(connectionId);
     if (it != mConnectionToCookie.end()) {
         uint64_t cookie = it->second;
         mConnectionToCookie.erase(it);
         auto cit = mCookieToConnections.find(cookie);
         if (cit != mCookieToConnections.end()) {
             cit->second.erase(connectionId);
             if (cit->second.size() == 0) {
                 mCookieToConnections.erase(cit);
             }
         }
     }
 }

 void ConnectionDeathRecipient::addCookieToConnection(
         uint64_t cookie,
         int64_t connectionId) {
     std::lock_guard<std::mutex> lock(mLock);
     if (mAccessors.find(connectionId) == mAccessors.end()) {
         return;
     }
     mConnectionToCookie.insert(std::make_pair(connectionId, cookie));
     auto it = mCookieToConnections.find(cookie);
     if (it != mCookieToConnections.end()) {
         it->second.insert(connectionId);
     } else {
         mCookieToConnections.insert(std::make_pair(
                 cookie, std::set<int64_t>{connectionId}));
     }
 }

 void ConnectionDeathRecipient::serviceDied(
         uint64_t cookie,
         const wp<::android::hidl::base::V1_0::IBase>& /* who */
         ) {
     std::map<int64_t, const wp<Accessor>> connectionsToClose;
     {
         std::lock_guard<std::mutex> lock(mLock);

         auto it = mCookieToConnections.find(cookie);
         if (it != mCookieToConnections.end()) {
             for (auto conIt = it->second.begin(); conIt != it->second.end(); ++conIt) {
                 auto accessorIt = mAccessors.find(*conIt);
                 if (accessorIt != mAccessors.end()) {
                     connectionsToClose.insert(std::make_pair(*conIt, accessorIt->second));
                     mAccessors.erase(accessorIt);
                 }
                 mConnectionToCookie.erase(*conIt);
             }
             mCookieToConnections.erase(it);
         }
     }

     if (connectionsToClose.size() > 0) {
         sp<Accessor> accessor;
         for (auto it = connectionsToClose.begin(); it != connectionsToClose.end(); ++it) {
             accessor = it->second.promote();

             if (accessor) {
                 accessor->close(it->first);
                 ALOGD("connection %lld closed on death", (long long)it->first);
             }
         }
     }
 }

 namespace {
 static sp<ConnectionDeathRecipient> sConnectionDeathRecipient =
         new ConnectionDeathRecipient();
 }

 sp<ConnectionDeathRecipient> Accessor::getConnectionDeathRecipient() {
     return sConnectionDeathRecipient;
 }

 void Accessor::createInvalidator() {
     Accessor::Impl::createInvalidator();
 }

 // Methods from ::android::hardware::media::bufferpool::V2_0::IAccessor follow.
 Return<void> Accessor::connect(
         const sp<::android::hardware::media::bufferpool::V2_0::IObserver>& observer,
         connect_cb _hidl_cb) {
     sp<Connection> connection;
     ConnectionId connectionId;
     uint32_t msgId;
     const StatusDescriptor* fmqDesc;
     const InvalidationDescriptor* invDesc;

     ResultStatus status = connect(
             observer, false, &connection, &connectionId, &msgId, &fmqDesc, &invDesc);
     if (status == ResultStatus::OK) {
         _hidl_cb(status, connection, connectionId, msgId, *fmqDesc, *invDesc);
     } else {
         _hidl_cb(status, nullptr, -1LL, 0,
                  android::hardware::MQDescriptorSync<BufferStatusMessage>(
                          std::vector<android::hardware::GrantorDescriptor>(),
                          nullptr /* nhandle */, 0 /* size */),
                  android::hardware::MQDescriptorUnsync<BufferInvalidationMessage>(
                          std::vector<android::hardware::GrantorDescriptor>(),
                          nullptr /* nhandle */, 0 /* size */));
     }
     return Void();
 }

 Accessor::Accessor(const std::shared_ptr<BufferPoolAllocator> &allocator)
     : mImpl(new Impl(allocator)) {}

 Accessor::~Accessor() {
 }

 bool Accessor::isValid() {
     return (bool)mImpl && mImpl->isValid();
 }

 ResultStatus Accessor::flush() {
     if (mImpl) {
         mImpl->flush();
         return ResultStatus::OK;
     }
     return ResultStatus::CRITICAL_ERROR;
 }

 ResultStatus Accessor::allocate(
         ConnectionId connectionId,
         const std::vector<uint8_t> &params,
         BufferId *bufferId, const native_handle_t** handle) {
     if (mImpl) {
         return mImpl->allocate(connectionId, params, bufferId, handle);
     }
     return ResultStatus::CRITICAL_ERROR;
 }

 ResultStatus Accessor::fetch(
         ConnectionId connectionId, TransactionId transactionId,
         BufferId bufferId, const native_handle_t** handle) {
     if (mImpl) {
         return mImpl->fetch(connectionId, transactionId, bufferId, handle);
     }
     return ResultStatus::CRITICAL_ERROR;
 }

 ResultStatus Accessor::connect(
         const sp<IObserver> &observer, bool local,
         sp<Connection> *connection, ConnectionId *pConnectionId,
         uint32_t *pMsgId,
         const StatusDescriptor** statusDescPtr,
         const InvalidationDescriptor** invDescPtr) {
     if (mImpl) {
         ResultStatus status = mImpl->connect(
                 this, observer, connection, pConnectionId, pMsgId,
                 statusDescPtr, invDescPtr);
         if (!local && status == ResultStatus::OK) {
             sp<Accessor> accessor(this);
             sConnectionDeathRecipient->add(*pConnectionId, accessor);
         }
         return status;
     }
     return ResultStatus::CRITICAL_ERROR;
 }

 ResultStatus Accessor::close(ConnectionId connectionId) {
     if (mImpl) {
         ResultStatus status = mImpl->close(connectionId);
         sConnectionDeathRecipient->remove(connectionId);
         return status;
     }
     return ResultStatus::CRITICAL_ERROR;
 }

 void Accessor::cleanUp(bool clearCache) {
     if (mImpl) {
         mImpl->cleanUp(clearCache);
     }
 }

 //IAccessor* HIDL_FETCH_IAccessor(const char* /* name */) {
 //    return new Accessor();
 //}

 }  // namespace implementation
 }  // namespace V2_0
 }  // namespace bufferpool
 }  // namespace media
 }  // namespace hardware
 }  // namespace android
	/*
	* Copyright (C) 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_TAG "BufferPoolConnection"

	#include "Accessor.h"
	#include "AccessorImpl.h"
	#include "Connection.h"

	namespace android {
	namespace hardware {
	namespace media {
	namespace bufferpool {
	namespace V2_0 {
	namespace implementation {

	void ConnectionDeathRecipient::add(
	int64_t connectionId,
	const sp<Accessor> &accessor) {
	std::lock_guard<std::mutex> lock(mLock);
	if (mAccessors.find(connectionId) == mAccessors.end()) {
	mAccessors.insert(std::make_pair(connectionId, accessor));
	}
	}

	void ConnectionDeathRecipient::remove(int64_t connectionId) {
	std::lock_guard<std::mutex> lock(mLock);
	mAccessors.erase(connectionId);
	auto it = mConnectionToCookie.find(connectionId);
	if (it != mConnectionToCookie.end()) {
	uint64_t cookie = it->second;
	mConnectionToCookie.erase(it);
	auto cit = mCookieToConnections.find(cookie);
	if (cit != mCookieToConnections.end()) {
	cit->second.erase(connectionId);
	if (cit->second.size() == 0) {
	mCookieToConnections.erase(cit);
	}
	}
	}
	}

	void ConnectionDeathRecipient::addCookieToConnection(
	uint64_t cookie,
	int64_t connectionId) {
	std::lock_guard<std::mutex> lock(mLock);
	if (mAccessors.find(connectionId) == mAccessors.end()) {
	return;
	}
	mConnectionToCookie.insert(std::make_pair(connectionId, cookie));
	auto it = mCookieToConnections.find(cookie);
	if (it != mCookieToConnections.end()) {
	it->second.insert(connectionId);
	} else {
	mCookieToConnections.insert(std::make_pair(
	cookie, std::set<int64_t>{connectionId}));
	}
	}

	void ConnectionDeathRecipient::serviceDied(
	uint64_t cookie,
	const wp<::android::hidl::base::V1_0::IBase>& /* who */
	) {
	std::map<int64_t, const wp<Accessor>> connectionsToClose;
	{
	std::lock_guard<std::mutex> lock(mLock);

	auto it = mCookieToConnections.find(cookie);
	if (it != mCookieToConnections.end()) {
	for (auto conIt = it->second.begin(); conIt != it->second.end(); ++conIt) {
	auto accessorIt = mAccessors.find(*conIt);
	if (accessorIt != mAccessors.end()) {
	connectionsToClose.insert(std::make_pair(*conIt, accessorIt->second));
	mAccessors.erase(accessorIt);
	}
	mConnectionToCookie.erase(*conIt);
	}
	mCookieToConnections.erase(it);
	}
	}

	if (connectionsToClose.size() > 0) {
	sp<Accessor> accessor;
	for (auto it = connectionsToClose.begin(); it != connectionsToClose.end(); ++it) {
	accessor = it->second.promote();

	if (accessor) {
	accessor->close(it->first);
	ALOGD("connection %lld closed on death", (long long)it->first);
	}
	}
	}
	}

	namespace {
	static sp<ConnectionDeathRecipient> sConnectionDeathRecipient =
	new ConnectionDeathRecipient();
	}

	sp<ConnectionDeathRecipient> Accessor::getConnectionDeathRecipient() {
	return sConnectionDeathRecipient;
	}

	void Accessor::createInvalidator() {
	Accessor::Impl::createInvalidator();
	}

	// Methods from ::android::hardware::media::bufferpool::V2_0::IAccessor follow.
	Return<void> Accessor::connect(
	const sp<::android::hardware::media::bufferpool::V2_0::IObserver>& observer,
	connect_cb _hidl_cb) {
	sp<Connection> connection;
	ConnectionId connectionId;
	uint32_t msgId;
	const StatusDescriptor* fmqDesc;
	const InvalidationDescriptor* invDesc;

	ResultStatus status = connect(
	observer, false, &connection, &connectionId, &msgId, &fmqDesc, &invDesc);
	if (status == ResultStatus::OK) {
	_hidl_cb(status, connection, connectionId, msgId, fmqDesc, invDesc);
	} else {
	_hidl_cb(status, nullptr, -1LL, 0,
	android::hardware::MQDescriptorSync<BufferStatusMessage>(
	std::vector<android::hardware::GrantorDescriptor>(),
	nullptr /* nhandle /, 0 / size */),
	android::hardware::MQDescriptorUnsync<BufferInvalidationMessage>(
	std::vector<android::hardware::GrantorDescriptor>(),
	nullptr /* nhandle /, 0 / size */));
	}
	return Void();
	}

	Accessor::Accessor(const std::shared_ptr<BufferPoolAllocator> &allocator)
	: mImpl(new Impl(allocator)) {}

	Accessor::~Accessor() {
	}

	bool Accessor::isValid() {
	return (bool)mImpl && mImpl->isValid();
	}

	ResultStatus Accessor::flush() {
	if (mImpl) {
	mImpl->flush();
	return ResultStatus::OK;
	}
	return ResultStatus::CRITICAL_ERROR;
	}

	ResultStatus Accessor::allocate(
	ConnectionId connectionId,
	const std::vector<uint8_t> &params,
	BufferId bufferId, const native_handle_t* handle) {
	if (mImpl) {
	return mImpl->allocate(connectionId, params, bufferId, handle);
	}
	return ResultStatus::CRITICAL_ERROR;
	}

	ResultStatus Accessor::fetch(
	ConnectionId connectionId, TransactionId transactionId,
	BufferId bufferId, const native_handle_t** handle) {
	if (mImpl) {
	return mImpl->fetch(connectionId, transactionId, bufferId, handle);
	}
	return ResultStatus::CRITICAL_ERROR;
	}

	ResultStatus Accessor::connect(
	const sp<IObserver> &observer, bool local,
	sp<Connection> connection, ConnectionId pConnectionId,
	uint32_t *pMsgId,
	const StatusDescriptor** statusDescPtr,
	const InvalidationDescriptor** invDescPtr) {
	if (mImpl) {
	ResultStatus status = mImpl->connect(
	this, observer, connection, pConnectionId, pMsgId,
	statusDescPtr, invDescPtr);
	if (!local && status == ResultStatus::OK) {
	sp<Accessor> accessor(this);
	sConnectionDeathRecipient->add(*pConnectionId, accessor);
	}
	return status;
	}
	return ResultStatus::CRITICAL_ERROR;
	}

	ResultStatus Accessor::close(ConnectionId connectionId) {
	if (mImpl) {
	ResultStatus status = mImpl->close(connectionId);
	sConnectionDeathRecipient->remove(connectionId);
	return status;
	}
	return ResultStatus::CRITICAL_ERROR;
	}

	void Accessor::cleanUp(bool clearCache) {
	if (mImpl) {
	mImpl->cleanUp(clearCache);
	}
	}

	//IAccessor* HIDL_FETCH_IAccessor(const char* /* name */) {
	// return new Accessor();
	//}

	} // namespace implementation
	} // namespace V2_0
	} // namespace bufferpool
	} // namespace media
	} // namespace hardware
	} // namespace android