src/Common/Resource.hpp - SwiftShader - Git at Google

 // Copyright 2016 The SwiftShader Authors. All Rights Reserved.
 //
 // 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.

 #ifndef sw_Resource_hpp
 #define sw_Resource_hpp

 #include "MutexLock.hpp"

 namespace sw
 {
 	enum Accessor
 	{
 		PUBLIC,    // Application/API access
 		PRIVATE,   // Renderer access, shared by multiple threads if read-only
 		MANAGED,   // Renderer access, shared read/write access if partitioned
 		EXCLUSIVE
 	};

 	// Resource is a form of shared mutex that guards an internally allocated
 	// buffer. Resource has an exclusive lock mode (sw::Accessor) and lock
 	// count, defaulting to sw::Accessor::PUBLIC and 0, respectively.
 	// Resource doesn't treat any of the sw::Accessor enumerator lock modes
 	// differently, all semantic meaning comes from the usage of Resource.
 	// You can have multiple locks in mode sw::Accessor::EXCLUSIVE.
 	class Resource
 	{
 	public:
 		Resource(size_t bytes);

 		// destruct() is an asynchronous destructor, that will atomically:
 		//   When the resource is unlocked:
 		//     * Delete itself.
 		//   When the resource is locked:
 		//     * Flag itself for deletion when next fully unlocked.
 		void destruct();

 		// lock() will atomically:
 		//   When the resource is unlocked OR the lock mode equals claimer:
 		//     * Increment the lock count.
 		//     * Return a pointer to the buffer.
 		//   When the resource is locked AND the lock mode does not equal claimer:
 		//     * Block until all existing locks are released (lock count equals 0).
 		//     * Switch lock mode to claimer.
 		//     * Increment the lock count.
 		//     * Return a pointer to the buffer.
 		void *lock(Accessor claimer);

 		// lock() will atomically:
 		//   When the resource is unlocked OR the lock mode equals claimer:
 		//     * Increment the lock count.
 		//     * Return a pointer to the buffer.
 		//   When the resource is locked AND the lock mode equals relinquisher:
 		//     * Release *all* existing locks (regardless of prior count).
 		//     * Delete itself and return nullptr if Resource::destruct() had been called while locked.
 		//     * Switch lock mode to claimer.
 		//     * Increment the lock count to 1.
 		//     * Return a pointer to the buffer.
 		//   When the resource is locked AND the lock mode does not equal relinquisher:
 		//     * Block until all existing locks are released (lock count equals 0)
 		//     * Switch lock mode to claimer
 		//     * Increment the lock count to 1.
 		//     * Return a pointer to the buffer.
 		void *lock(Accessor relinquisher, Accessor claimer);

 		// unlock() will atomically:
 		// * Assert if there are no locks.
 		// * Release a single lock.
 		// * Delete itself if Resource::destruct() had been called while locked.
 		void unlock();

 		// unlock() will atomically:
 		//   When the resource is locked AND the lock mode equals relinquisher:
 		//     * Release *all* existing locks (regardless of prior count).
 		//     * Delete itself if Resource::destruct() had been called while locked.
 		//   When the resource is not locked OR the lock mode does not equal relinquisher:
 		//     * Do nothing.
 		void unlock(Accessor relinquisher);

 		// data() will return the Resource's buffer pointer regardless of lock
 		// state.
 		const void *data() const;

 		// size is the size in bytes of the Resource's buffer.
 		const size_t size;

 	private:
 		~Resource();   // Always call destruct() instead

 		MutexLock criticalSection;
 		Event unblock;
 		volatile int blocked;

 		volatile Accessor accessor;
 		volatile int count;
 		bool orphaned;

 		void *buffer;
 	};
 }

 #endif   // sw_Resource_hpp
	// Copyright 2016 The SwiftShader Authors. All Rights Reserved.
	//
	// 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.

	#ifndef sw_Resource_hpp
	#define sw_Resource_hpp

	#include "MutexLock.hpp"

	namespace sw
	{
	enum Accessor
	{
	PUBLIC, // Application/API access
	PRIVATE, // Renderer access, shared by multiple threads if read-only
	MANAGED, // Renderer access, shared read/write access if partitioned
	EXCLUSIVE
	};

	// Resource is a form of shared mutex that guards an internally allocated
	// buffer. Resource has an exclusive lock mode (sw::Accessor) and lock
	// count, defaulting to sw::Accessor::PUBLIC and 0, respectively.
	// Resource doesn't treat any of the sw::Accessor enumerator lock modes
	// differently, all semantic meaning comes from the usage of Resource.
	// You can have multiple locks in mode sw::Accessor::EXCLUSIVE.
	class Resource
	{
	public:
	Resource(size_t bytes);

	// destruct() is an asynchronous destructor, that will atomically:
	// When the resource is unlocked:
	// * Delete itself.
	// When the resource is locked:
	// * Flag itself for deletion when next fully unlocked.
	void destruct();

	// lock() will atomically:
	// When the resource is unlocked OR the lock mode equals claimer:
	// * Increment the lock count.
	// * Return a pointer to the buffer.
	// When the resource is locked AND the lock mode does not equal claimer:
	// * Block until all existing locks are released (lock count equals 0).
	// * Switch lock mode to claimer.
	// * Increment the lock count.
	// * Return a pointer to the buffer.
	void *lock(Accessor claimer);

	// lock() will atomically:
	// When the resource is unlocked OR the lock mode equals claimer:
	// * Increment the lock count.
	// * Return a pointer to the buffer.
	// When the resource is locked AND the lock mode equals relinquisher:
	// * Release all existing locks (regardless of prior count).
	// * Delete itself and return nullptr if Resource::destruct() had been called while locked.
	// * Switch lock mode to claimer.
	// * Increment the lock count to 1.
	// * Return a pointer to the buffer.
	// When the resource is locked AND the lock mode does not equal relinquisher:
	// * Block until all existing locks are released (lock count equals 0)
	// * Switch lock mode to claimer
	// * Increment the lock count to 1.
	// * Return a pointer to the buffer.
	void *lock(Accessor relinquisher, Accessor claimer);

	// unlock() will atomically:
	// * Assert if there are no locks.
	// * Release a single lock.
	// * Delete itself if Resource::destruct() had been called while locked.
	void unlock();

	// unlock() will atomically:
	// When the resource is locked AND the lock mode equals relinquisher:
	// * Release all existing locks (regardless of prior count).
	// * Delete itself if Resource::destruct() had been called while locked.
	// When the resource is not locked OR the lock mode does not equal relinquisher:
	// * Do nothing.
	void unlock(Accessor relinquisher);

	// data() will return the Resource's buffer pointer regardless of lock
	// state.
	const void *data() const;

	// size is the size in bytes of the Resource's buffer.
	const size_t size;

	private:
	~Resource(); // Always call destruct() instead

	MutexLock criticalSection;
	Event unblock;
	volatile int blocked;

	volatile Accessor accessor;
	volatile int count;
	bool orphaned;

	void *buffer;
	};
	}

	#endif // sw_Resource_hpp