src/Vulkan/VkTimelineSemaphore.hpp - SwiftShader.git - Git at Google

 // Copyright 2021 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 VK_TIMELINE_SEMAPHORE_HPP_
 #define VK_TIMELINE_SEMAPHORE_HPP_

 #include "VkConfig.hpp"
 #include "VkObject.hpp"
 #include "VkSemaphore.hpp"

 #include "marl/conditionvariable.h"
 #include "marl/mutex.h"

 #include "System/Synchronization.hpp"

 #include <chrono>

 namespace vk {

 // Timeline Semaphores track a 64-bit payload instead of a binary payload.
 //
 // A timeline does not have a "signaled" and "unsignalled" state. Threads instead wait
 // for the payload to become a certain value. When a thread signals the timeline, it provides
 // a new payload that is greater than the current payload.
 //
 // There is no way to reset a timeline or to decrease the payload's value. A user must instead
 // create a new timeline with a new initial payload if they desire this behavior.
 class TimelineSemaphore : public Semaphore, public Object<TimelineSemaphore, VkSemaphore>
 {
 public:
 	// WaitForAny represents a single vkWaitSemaphores() call with the
 	// VK_SEMAPHORE_WAIT_ANY_BIT set.
 	class WaitForAny
 	{
 	public:
 		// Creates a WaitForAny object and populates it with the contents of a VkSemaphoreWaitInfo.
 		WaitForAny(const VkSemaphoreWaitInfo *pWaitInfo);
 		~WaitForAny();

 		void wait();
 		template<class CLOCK, class DURATION>
 		VkResult wait(std::chrono::time_point<CLOCK, DURATION> end_ns);
 		void signal();

 	private:
 		marl::mutex mutex;
 		marl::ConditionVariable cv;
 		// TODO(b/181683382) -- Add Thread Safety Analysis instrumentation when it can properly
 		// analyze lambdas.
 		bool is_signaled = false;
 		marl::containers::vector<TimelineSemaphore *, 16> semaphores;
 	};

 	TimelineSemaphore(const VkSemaphoreCreateInfo *pCreateInfo, void *mem, const VkAllocationCallbacks *pAllocator);
 	TimelineSemaphore();

 	static size_t ComputeRequiredAllocationSize(const VkSemaphoreCreateInfo *pCreateInfo);

 	// Block until this semaphore is signaled with the specified value;
 	void wait(uint64_t value);

 	// Wait until a certain amount of time has passed or until the specified value is signaled.
 	template<class CLOCK, class DURATION>
 	VkResult wait(uint64_t value, std::chrono::time_point<CLOCK, DURATION> end_ns);

 	// Set the payload to the specified value and signal all waiting threads.
 	void signal(uint64_t value);

 	// Retrieve the current payload. This should not be used to make thread execution decisions as
 	// there's no guarantee that the value returned here matches the actual payload's value.
 	uint64_t getCounterValue();

 	// Clean up any allocated resources
 	void destroy(const VkAllocationCallbacks *pAllocator);

 private:
 	enum class AddWaitResult
 	{
 		kWaitAdded = 0,
 		kWaitUpdated,
 		kValueAlreadySignaled
 	};

 	AddWaitResult addWait(WaitForAny *waitObject, uint64_t waitValue);
 	void removeWait(WaitForAny *waitObject);

 	// Guards access to all the resources that may be accessed by other threads.
 	// No clang Thread Safety Analysis is used on variables guarded by mutex
 	// as there is an issue with TSA. Despite instrumenting everything properly,
 	// compilation will fail when a lambda function uses a guarded resource.
 	marl::mutex mutex;

 	// Entry point to the marl threading library that handles blocking and unblocking.
 	marl::ConditionVariable cv;

 	// TODO(b/181683382) -- Add Thread Safety Analysis instrumentation when it can properly
 	// analyze lambdas.
 	// The 64-bit payload.
 	uint64_t counter;

 	// All the WaitForAny objects waiting on this semaphore to reach specific values.
 	std::map<WaitForAny *, uint64_t> any_waits;
 };

 template<typename Clock, typename Duration>
 VkResult TimelineSemaphore::wait(uint64_t value,
                                  const std::chrono::time_point<Clock, Duration> timeout)
 {
 	marl::lock lock(mutex);
 	if(!cv.wait_until(lock, timeout, [&]() { return counter >= value; }))
 	{
 		return VK_TIMEOUT;
 	}
 	return VK_SUCCESS;
 }

 template<typename Clock, typename Duration>
 VkResult TimelineSemaphore::WaitForAny::wait(const std::chrono::time_point<Clock, Duration> timeout)
 {
 	marl::lock lock(mutex);
 	if(!cv.wait_until(lock, timeout, [&]() { return is_signaled; }))
 	{
 		return VK_TIMEOUT;
 	}
 	return VK_SUCCESS;
 }

 }  // namespace vk

 #endif  // VK_TIMELINE_SEMAPHORE_HPP_
	// Copyright 2021 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 VK_TIMELINE_SEMAPHORE_HPP_
	#define VK_TIMELINE_SEMAPHORE_HPP_

	#include "VkConfig.hpp"
	#include "VkObject.hpp"
	#include "VkSemaphore.hpp"

	#include "marl/conditionvariable.h"
	#include "marl/mutex.h"

	#include "System/Synchronization.hpp"

	#include <chrono>

	namespace vk {

	// Timeline Semaphores track a 64-bit payload instead of a binary payload.
	//
	// A timeline does not have a "signaled" and "unsignalled" state. Threads instead wait
	// for the payload to become a certain value. When a thread signals the timeline, it provides
	// a new payload that is greater than the current payload.
	//
	// There is no way to reset a timeline or to decrease the payload's value. A user must instead
	// create a new timeline with a new initial payload if they desire this behavior.
	class TimelineSemaphore : public Semaphore, public Object<TimelineSemaphore, VkSemaphore>
	{
	public:
	// WaitForAny represents a single vkWaitSemaphores() call with the
	// VK_SEMAPHORE_WAIT_ANY_BIT set.
	class WaitForAny
	{
	public:
	// Creates a WaitForAny object and populates it with the contents of a VkSemaphoreWaitInfo.
	WaitForAny(const VkSemaphoreWaitInfo *pWaitInfo);
	~WaitForAny();

	void wait();
	template<class CLOCK, class DURATION>
	VkResult wait(std::chrono::time_point<CLOCK, DURATION> end_ns);
	void signal();

	private:
	marl::mutex mutex;
	marl::ConditionVariable cv;
	// TODO(b/181683382) -- Add Thread Safety Analysis instrumentation when it can properly
	// analyze lambdas.
	bool is_signaled = false;
	marl::containers::vector<TimelineSemaphore *, 16> semaphores;
	};

	TimelineSemaphore(const VkSemaphoreCreateInfo pCreateInfo, void mem, const VkAllocationCallbacks *pAllocator);
	TimelineSemaphore();

	static size_t ComputeRequiredAllocationSize(const VkSemaphoreCreateInfo *pCreateInfo);

	// Block until this semaphore is signaled with the specified value;
	void wait(uint64_t value);

	// Wait until a certain amount of time has passed or until the specified value is signaled.
	template<class CLOCK, class DURATION>
	VkResult wait(uint64_t value, std::chrono::time_point<CLOCK, DURATION> end_ns);

	// Set the payload to the specified value and signal all waiting threads.
	void signal(uint64_t value);

	// Retrieve the current payload. This should not be used to make thread execution decisions as
	// there's no guarantee that the value returned here matches the actual payload's value.
	uint64_t getCounterValue();

	// Clean up any allocated resources
	void destroy(const VkAllocationCallbacks *pAllocator);

	private:
	enum class AddWaitResult
	{
	kWaitAdded = 0,
	kWaitUpdated,
	kValueAlreadySignaled
	};

	AddWaitResult addWait(WaitForAny *waitObject, uint64_t waitValue);
	void removeWait(WaitForAny *waitObject);

	// Guards access to all the resources that may be accessed by other threads.
	// No clang Thread Safety Analysis is used on variables guarded by mutex
	// as there is an issue with TSA. Despite instrumenting everything properly,
	// compilation will fail when a lambda function uses a guarded resource.
	marl::mutex mutex;

	// Entry point to the marl threading library that handles blocking and unblocking.
	marl::ConditionVariable cv;

	// TODO(b/181683382) -- Add Thread Safety Analysis instrumentation when it can properly
	// analyze lambdas.
	// The 64-bit payload.
	uint64_t counter;

	// All the WaitForAny objects waiting on this semaphore to reach specific values.
	std::map<WaitForAny *, uint64_t> any_waits;
	};

	template<typename Clock, typename Duration>
	VkResult TimelineSemaphore::wait(uint64_t value,
	const std::chrono::time_point<Clock, Duration> timeout)
	{
	marl::lock lock(mutex);
	if(!cv.wait_until(lock, timeout, [&]() { return counter >= value; }))
	{
	return VK_TIMEOUT;
	}
	return VK_SUCCESS;
	}

	template<typename Clock, typename Duration>
	VkResult TimelineSemaphore::WaitForAny::wait(const std::chrono::time_point<Clock, Duration> timeout)
	{
	marl::lock lock(mutex);
	if(!cv.wait_until(lock, timeout, [&]() { return is_signaled; }))
	{
	return VK_TIMEOUT;
	}
	return VK_SUCCESS;
	}

	} // namespace vk

	#endif // VK_TIMELINE_SEMAPHORE_HPP_