include/fmq/AidlMQDescriptorShim.h - third_party/android.googlesource.com/platform/system/libfmq - Git at Google

 /*
  * Copyright (C) 2020 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.
  */

 #include <aidl/android/hardware/common/fmq/MQDescriptor.h>
 #include <cutils/native_handle.h>
 #include <fmq/MQDescriptorBase.h>
 #include <limits>
 #include <type_traits>

 namespace android {
 namespace details {

 using aidl::android::hardware::common::fmq::GrantorDescriptor;
 using aidl::android::hardware::common::fmq::MQDescriptor;
 using aidl::android::hardware::common::fmq::SynchronizedReadWrite;
 using aidl::android::hardware::common::fmq::UnsynchronizedWrite;
 using android::hardware::MQFlavor;

 template <typename T, MQFlavor flavor>
 struct AidlMQDescriptorShim {
     // Takes ownership of handle
     AidlMQDescriptorShim(const std::vector<android::hardware::GrantorDescriptor>& grantors,
                          native_handle_t* nHandle, size_t size);

     // Takes ownership of handle
     AidlMQDescriptorShim(
             const MQDescriptor<
                     T, typename std::conditional<flavor == hardware::kSynchronizedReadWrite,
                                                  SynchronizedReadWrite, UnsynchronizedWrite>::type>&
                     desc);

     // Takes ownership of handle
     AidlMQDescriptorShim(size_t bufferSize, native_handle_t* nHandle, size_t messageSize,
                          bool configureEventFlag = false);

     explicit AidlMQDescriptorShim(const AidlMQDescriptorShim& other)
         : AidlMQDescriptorShim(0, nullptr, 0) {
         *this = other;
     }
     AidlMQDescriptorShim& operator=(const AidlMQDescriptorShim& other);

     ~AidlMQDescriptorShim();

     size_t getSize() const;

     size_t getQuantum() const;

     uint32_t getFlags() const;

     bool isHandleValid() const { return mHandle != nullptr; }
     size_t countGrantors() const { return mGrantors.size(); }

     inline const std::vector<android::hardware::GrantorDescriptor>& grantors() const {
         return mGrantors;
     }

     inline const ::native_handle_t* handle() const { return mHandle; }

     inline ::native_handle_t* handle() { return mHandle; }

     static const size_t kOffsetOfGrantors;
     static const size_t kOffsetOfHandle;

   private:
     std::vector<android::hardware::GrantorDescriptor> mGrantors;
     native_handle_t* mHandle = nullptr;
     uint32_t mQuantum = 0;
     uint32_t mFlags = 0;
 };

 template <typename T, MQFlavor flavor>
 AidlMQDescriptorShim<T, flavor>::AidlMQDescriptorShim(
         const MQDescriptor<T, typename std::conditional<flavor == hardware::kSynchronizedReadWrite,
                                                         SynchronizedReadWrite,
                                                         UnsynchronizedWrite>::type>& desc)
     : mQuantum(desc.quantum), mFlags(desc.flags) {
     if (desc.quantum < 0 || desc.flags < 0) {
         // MQDescriptor uses signed integers, but the values must be positive.
         hardware::details::logError("Invalid MQDescriptor. Values must be positive. quantum: " +
                                     std::to_string(desc.quantum) +
                                     ". flags: " + std::to_string(desc.flags));
         return;
     }

     mGrantors.resize(desc.grantors.size());
     for (size_t i = 0; i < desc.grantors.size(); ++i) {
         if (desc.grantors[i].offset < 0 || desc.grantors[i].extent < 0 ||
             desc.grantors[i].fdIndex < 0) {
             // GrantorDescriptor uses signed integers, but the values must be positive.
             // Return before setting up the native_handle to make this invalid.
             hardware::details::logError(
                     "Invalid MQDescriptor grantors. Values must be positive. Grantor index: " +
                     std::to_string(i) + ". offset: " + std::to_string(desc.grantors[i].offset) +
                     ". extent: " + std::to_string(desc.grantors[i].extent));
             return;
         }
         mGrantors[i].flags = 0;
         mGrantors[i].fdIndex = desc.grantors[i].fdIndex;
         mGrantors[i].offset = desc.grantors[i].offset;
         mGrantors[i].extent = desc.grantors[i].extent;
     }

     mHandle = native_handle_create(desc.handle.fds.size() /* num fds */,
                                    desc.handle.ints.size() /* num ints */);
     if (mHandle == nullptr) {
         hardware::details::logError("Null native_handle_t");
         return;
     }
     int data_index = 0;
     for (const auto& fd : desc.handle.fds) {
         mHandle->data[data_index] = dup(fd.get());
         data_index++;
     }
     for (const auto& data_int : desc.handle.ints) {
         mHandle->data[data_index] = data_int;
         data_index++;
     }
 }

 template <typename T, MQFlavor flavor>
 AidlMQDescriptorShim<T, flavor>::AidlMQDescriptorShim(
         const std::vector<android::hardware::GrantorDescriptor>& grantors, native_handle_t* nhandle,
         size_t size)
     : mGrantors(grantors),
       mHandle(nhandle),
       mQuantum(static_cast<uint32_t>(size)),
       mFlags(flavor) {}

 template <typename T, MQFlavor flavor>
 AidlMQDescriptorShim<T, flavor>& AidlMQDescriptorShim<T, flavor>::operator=(
         const AidlMQDescriptorShim& other) {
     mGrantors = other.mGrantors;
     if (mHandle != nullptr) {
         native_handle_close(mHandle);
         native_handle_delete(mHandle);
         mHandle = nullptr;
     }
     mQuantum = other.mQuantum;
     mFlags = other.mFlags;

     if (other.mHandle != nullptr) {
         mHandle = native_handle_create(other.mHandle->numFds, other.mHandle->numInts);

         for (int i = 0; i < other.mHandle->numFds; ++i) {
             mHandle->data[i] = dup(other.mHandle->data[i]);
         }

         memcpy(&mHandle->data[other.mHandle->numFds], &other.mHandle->data[other.mHandle->numFds],
                static_cast<size_t>(other.mHandle->numInts) * sizeof(int));
     }

     return *this;
 }

 template <typename T, MQFlavor flavor>
 AidlMQDescriptorShim<T, flavor>::AidlMQDescriptorShim(size_t bufferSize, native_handle_t* nHandle,
                                                       size_t messageSize, bool configureEventFlag)
     : mHandle(nHandle), mQuantum(messageSize), mFlags(flavor) {
     /*
      * TODO(b/165674950) Since AIDL does not support unsigned integers, it can only support
      * The offset of EventFlag word needs to fit into an int32_t in MQDescriptor. This word comes
      * after the readPtr, writePtr, and dataBuffer.
      */
     bool overflow = bufferSize > std::numeric_limits<uint64_t>::max() -
                                          (sizeof(hardware::details::RingBufferPosition) +
                                           sizeof(hardware::details::RingBufferPosition));
     uint64_t largestOffset = hardware::details::alignToWordBoundary(
             sizeof(hardware::details::RingBufferPosition) +
             sizeof(hardware::details::RingBufferPosition) + bufferSize);
     if (overflow || largestOffset > std::numeric_limits<int32_t>::max() ||
         messageSize > std::numeric_limits<int32_t>::max()) {
         hardware::details::logError(
                 "Queue size is too large. Message size: " + std::to_string(messageSize) +
                 " bytes. Data buffer size: " + std::to_string(bufferSize) + " bytes. Max size: " +
                 std::to_string(std::numeric_limits<int32_t>::max()) + " bytes.");
         return;
     }

     /*
      * If configureEventFlag is true, allocate an additional spot in mGrantor
      * for containing the fd and offset for mmapping the EventFlag word.
      */
     mGrantors.resize(configureEventFlag ? hardware::details::kMinGrantorCountForEvFlagSupport
                                         : hardware::details::kMinGrantorCount);

     size_t memSize[] = {
             sizeof(hardware::details::RingBufferPosition), /* memory to be allocated for read
                                                             * pointer counter
                                                             */
             sizeof(hardware::details::RingBufferPosition), /* memory to be allocated for write
                                                      pointer counter */
             bufferSize,                   /* memory to be allocated for data buffer */
             sizeof(std::atomic<uint32_t>) /* memory to be allocated for EventFlag word */
     };

     /*
      * Create a default grantor descriptor for read, write pointers and
      * the data buffer. fdIndex parameter is set to 0 by default and
      * the offset for each grantor is contiguous.
      */
     for (size_t grantorPos = 0, offset = 0; grantorPos < mGrantors.size();
          offset += memSize[grantorPos++]) {
         mGrantors[grantorPos] = {
                 0 /* grantor flags */, 0 /* fdIndex */,
                 static_cast<uint32_t>(hardware::details::alignToWordBoundary(offset)),
                 memSize[grantorPos]};
     }
 }

 template <typename T, MQFlavor flavor>
 AidlMQDescriptorShim<T, flavor>::~AidlMQDescriptorShim() {
     if (mHandle != nullptr) {
         native_handle_close(mHandle);
         native_handle_delete(mHandle);
     }
 }

 template <typename T, MQFlavor flavor>
 size_t AidlMQDescriptorShim<T, flavor>::getSize() const {
     return mGrantors[hardware::details::DATAPTRPOS].extent;
 }

 template <typename T, MQFlavor flavor>
 size_t AidlMQDescriptorShim<T, flavor>::getQuantum() const {
     return mQuantum;
 }

 template <typename T, MQFlavor flavor>
 uint32_t AidlMQDescriptorShim<T, flavor>::getFlags() const {
     return mFlags;
 }

 template <typename T, MQFlavor flavor>
 std::string toString(const AidlMQDescriptorShim<T, flavor>& q) {
     std::string os;
     if (flavor & hardware::kSynchronizedReadWrite) {
         os += "fmq_sync";
     }
     if (flavor & hardware::kUnsynchronizedWrite) {
         os += "fmq_unsync";
     }
     os += " {" + toString(q.grantors().size()) + " grantor(s), " +
           "size = " + toString(q.getSize()) + ", .handle = " + toString(q.handle()) +
           ", .quantum = " + toString(q.getQuantum()) + "}";
     return os;
 }

 }  // namespace details
 }  // namespace android
	/*
	* Copyright (C) 2020 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.
	*/

	#include <aidl/android/hardware/common/fmq/MQDescriptor.h>
	#include <cutils/native_handle.h>
	#include <fmq/MQDescriptorBase.h>
	#include <limits>
	#include <type_traits>

	namespace android {
	namespace details {

	using aidl::android::hardware::common::fmq::GrantorDescriptor;
	using aidl::android::hardware::common::fmq::MQDescriptor;
	using aidl::android::hardware::common::fmq::SynchronizedReadWrite;
	using aidl::android::hardware::common::fmq::UnsynchronizedWrite;
	using android::hardware::MQFlavor;

	template <typename T, MQFlavor flavor>
	struct AidlMQDescriptorShim {
	// Takes ownership of handle
	AidlMQDescriptorShim(const std::vector<android::hardware::GrantorDescriptor>& grantors,
	native_handle_t* nHandle, size_t size);

	// Takes ownership of handle
	AidlMQDescriptorShim(
	const MQDescriptor<
	T, typename std::conditional<flavor == hardware::kSynchronizedReadWrite,
	SynchronizedReadWrite, UnsynchronizedWrite>::type>&
	desc);

	// Takes ownership of handle
	AidlMQDescriptorShim(size_t bufferSize, native_handle_t* nHandle, size_t messageSize,
	bool configureEventFlag = false);

	explicit AidlMQDescriptorShim(const AidlMQDescriptorShim& other)
	: AidlMQDescriptorShim(0, nullptr, 0) {
	*this = other;
	}
	AidlMQDescriptorShim& operator=(const AidlMQDescriptorShim& other);

	~AidlMQDescriptorShim();

	size_t getSize() const;

	size_t getQuantum() const;

	uint32_t getFlags() const;

	bool isHandleValid() const { return mHandle != nullptr; }
	size_t countGrantors() const { return mGrantors.size(); }

	inline const std::vector<android::hardware::GrantorDescriptor>& grantors() const {
	return mGrantors;
	}

	inline const ::native_handle_t* handle() const { return mHandle; }

	inline ::native_handle_t* handle() { return mHandle; }

	static const size_t kOffsetOfGrantors;
	static const size_t kOffsetOfHandle;

	private:
	std::vector<android::hardware::GrantorDescriptor> mGrantors;
	native_handle_t* mHandle = nullptr;
	uint32_t mQuantum = 0;
	uint32_t mFlags = 0;
	};

	template <typename T, MQFlavor flavor>
	AidlMQDescriptorShim<T, flavor>::AidlMQDescriptorShim(
	const MQDescriptor<T, typename std::conditional<flavor == hardware::kSynchronizedReadWrite,
	SynchronizedReadWrite,
	UnsynchronizedWrite>::type>& desc)
	: mQuantum(desc.quantum), mFlags(desc.flags) {
	if (desc.quantum < 0 \|\| desc.flags < 0) {
	// MQDescriptor uses signed integers, but the values must be positive.
	hardware::details::logError("Invalid MQDescriptor. Values must be positive. quantum: " +
	std::to_string(desc.quantum) +
	". flags: " + std::to_string(desc.flags));
	return;
	}

	mGrantors.resize(desc.grantors.size());
	for (size_t i = 0; i < desc.grantors.size(); ++i) {
	if (desc.grantors[i].offset < 0 \|\| desc.grantors[i].extent < 0 \|\|
	desc.grantors[i].fdIndex < 0) {
	// GrantorDescriptor uses signed integers, but the values must be positive.
	// Return before setting up the native_handle to make this invalid.
	hardware::details::logError(
	"Invalid MQDescriptor grantors. Values must be positive. Grantor index: " +
	std::to_string(i) + ". offset: " + std::to_string(desc.grantors[i].offset) +
	". extent: " + std::to_string(desc.grantors[i].extent));
	return;
	}
	mGrantors[i].flags = 0;
	mGrantors[i].fdIndex = desc.grantors[i].fdIndex;
	mGrantors[i].offset = desc.grantors[i].offset;
	mGrantors[i].extent = desc.grantors[i].extent;
	}

	mHandle = native_handle_create(desc.handle.fds.size() /* num fds */,
	desc.handle.ints.size() /* num ints */);
	if (mHandle == nullptr) {
	hardware::details::logError("Null native_handle_t");
	return;
	}
	int data_index = 0;
	for (const auto& fd : desc.handle.fds) {
	mHandle->data[data_index] = dup(fd.get());
	data_index++;
	}
	for (const auto& data_int : desc.handle.ints) {
	mHandle->data[data_index] = data_int;
	data_index++;
	}
	}

	template <typename T, MQFlavor flavor>
	AidlMQDescriptorShim<T, flavor>::AidlMQDescriptorShim(
	const std::vector<android::hardware::GrantorDescriptor>& grantors, native_handle_t* nhandle,
	size_t size)
	: mGrantors(grantors),
	mHandle(nhandle),
	mQuantum(static_cast<uint32_t>(size)),
	mFlags(flavor) {}

	template <typename T, MQFlavor flavor>
	AidlMQDescriptorShim<T, flavor>& AidlMQDescriptorShim<T, flavor>::operator=(
	const AidlMQDescriptorShim& other) {
	mGrantors = other.mGrantors;
	if (mHandle != nullptr) {
	native_handle_close(mHandle);
	native_handle_delete(mHandle);
	mHandle = nullptr;
	}
	mQuantum = other.mQuantum;
	mFlags = other.mFlags;

	if (other.mHandle != nullptr) {
	mHandle = native_handle_create(other.mHandle->numFds, other.mHandle->numInts);

	for (int i = 0; i < other.mHandle->numFds; ++i) {
	mHandle->data[i] = dup(other.mHandle->data[i]);
	}

	memcpy(&mHandle->data[other.mHandle->numFds], &other.mHandle->data[other.mHandle->numFds],
	static_cast<size_t>(other.mHandle->numInts) * sizeof(int));
	}

	return *this;
	}

	template <typename T, MQFlavor flavor>
	AidlMQDescriptorShim<T, flavor>::AidlMQDescriptorShim(size_t bufferSize, native_handle_t* nHandle,
	size_t messageSize, bool configureEventFlag)
	: mHandle(nHandle), mQuantum(messageSize), mFlags(flavor) {
	/*
	* TODO(b/165674950) Since AIDL does not support unsigned integers, it can only support
	* The offset of EventFlag word needs to fit into an int32_t in MQDescriptor. This word comes
	* after the readPtr, writePtr, and dataBuffer.
	*/
	bool overflow = bufferSize > std::numeric_limits<uint64_t>::max() -
	(sizeof(hardware::details::RingBufferPosition) +
	sizeof(hardware::details::RingBufferPosition));
	uint64_t largestOffset = hardware::details::alignToWordBoundary(
	sizeof(hardware::details::RingBufferPosition) +
	sizeof(hardware::details::RingBufferPosition) + bufferSize);
	if (overflow \|\| largestOffset > std::numeric_limits<int32_t>::max() \|\|
	messageSize > std::numeric_limits<int32_t>::max()) {
	hardware::details::logError(
	"Queue size is too large. Message size: " + std::to_string(messageSize) +
	" bytes. Data buffer size: " + std::to_string(bufferSize) + " bytes. Max size: " +
	std::to_string(std::numeric_limits<int32_t>::max()) + " bytes.");
	return;
	}

	/*
	* If configureEventFlag is true, allocate an additional spot in mGrantor
	* for containing the fd and offset for mmapping the EventFlag word.
	*/
	mGrantors.resize(configureEventFlag ? hardware::details::kMinGrantorCountForEvFlagSupport
	: hardware::details::kMinGrantorCount);

	size_t memSize[] = {
	sizeof(hardware::details::RingBufferPosition), /* memory to be allocated for read
	* pointer counter
	*/
	sizeof(hardware::details::RingBufferPosition), /* memory to be allocated for write
	pointer counter */
	bufferSize, /* memory to be allocated for data buffer */
	sizeof(std::atomic<uint32_t>) /* memory to be allocated for EventFlag word */
	};

	/*
	* Create a default grantor descriptor for read, write pointers and
	* the data buffer. fdIndex parameter is set to 0 by default and
	* the offset for each grantor is contiguous.
	*/
	for (size_t grantorPos = 0, offset = 0; grantorPos < mGrantors.size();
	offset += memSize[grantorPos++]) {
	mGrantors[grantorPos] = {
	0 /* grantor flags /, 0 / fdIndex */,
	static_cast<uint32_t>(hardware::details::alignToWordBoundary(offset)),
	memSize[grantorPos]};
	}
	}

	template <typename T, MQFlavor flavor>
	AidlMQDescriptorShim<T, flavor>::~AidlMQDescriptorShim() {
	if (mHandle != nullptr) {
	native_handle_close(mHandle);
	native_handle_delete(mHandle);
	}
	}

	template <typename T, MQFlavor flavor>
	size_t AidlMQDescriptorShim<T, flavor>::getSize() const {
	return mGrantors[hardware::details::DATAPTRPOS].extent;
	}

	template <typename T, MQFlavor flavor>
	size_t AidlMQDescriptorShim<T, flavor>::getQuantum() const {
	return mQuantum;
	}

	template <typename T, MQFlavor flavor>
	uint32_t AidlMQDescriptorShim<T, flavor>::getFlags() const {
	return mFlags;
	}

	template <typename T, MQFlavor flavor>
	std::string toString(const AidlMQDescriptorShim<T, flavor>& q) {
	std::string os;
	if (flavor & hardware::kSynchronizedReadWrite) {
	os += "fmq_sync";
	}
	if (flavor & hardware::kUnsynchronizedWrite) {
	os += "fmq_unsync";
	}
	os += " {" + toString(q.grantors().size()) + " grantor(s), " +
	"size = " + toString(q.getSize()) + ", .handle = " + toString(q.handle()) +
	", .quantum = " + toString(q.getQuantum()) + "}";
	return os;
	}

	} // namespace details
	} // namespace android