src/third_party/angle/src/libANGLE/renderer/d3d/d3d11/Fence11.cpp - cobalt - Git at Google

 //
 // Copyright 2013 The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //

 // Fence11.cpp: Defines the rx::FenceNV11 and rx::Sync11 classes which implement
 // rx::FenceNVImpl and rx::SyncImpl.

 #include "libANGLE/renderer/d3d/d3d11/Fence11.h"

 #include "common/utilities.h"
 #include "libANGLE/Context.h"
 #include "libANGLE/renderer/d3d/d3d11/Context11.h"
 #include "libANGLE/renderer/d3d/d3d11/Renderer11.h"

 namespace rx
 {

 //
 // Template helpers for set and test operations.
 //

 template <class FenceClass>
 angle::Result FenceSetHelper(const gl::Context *context, FenceClass *fence)
 {
     if (!fence->mQuery)
     {
         D3D11_QUERY_DESC queryDesc;
         queryDesc.Query     = D3D11_QUERY_EVENT;
         queryDesc.MiscFlags = 0;

         Context11 *context11 = GetImplAs<Context11>(context);
         HRESULT result = fence->mRenderer->getDevice()->CreateQuery(&queryDesc, &fence->mQuery);
         ANGLE_TRY_HR(context11, result, "Failed to create event query");
     }

     fence->mRenderer->getDeviceContext()->End(fence->mQuery);
     return angle::Result::Continue;
 }

 template <class FenceClass>
 angle::Result FenceTestHelper(const gl::Context *context,
                               FenceClass *fence,
                               bool flushCommandBuffer,
                               GLboolean *outFinished)
 {
     ASSERT(fence->mQuery);

     UINT getDataFlags = (flushCommandBuffer ? 0 : D3D11_ASYNC_GETDATA_DONOTFLUSH);

     Context11 *context11 = GetImplAs<Context11>(context);
     HRESULT result =
         fence->mRenderer->getDeviceContext()->GetData(fence->mQuery, nullptr, 0, getDataFlags);
     ANGLE_TRY_HR(context11, result, "Failed to get query data");

     ASSERT(result == S_OK || result == S_FALSE);
     *outFinished = ((result == S_OK) ? GL_TRUE : GL_FALSE);
     return angle::Result::Continue;
 }

 //
 // FenceNV11
 //

 FenceNV11::FenceNV11(Renderer11 *renderer) : FenceNVImpl(), mRenderer(renderer), mQuery(nullptr) {}

 FenceNV11::~FenceNV11()
 {
     SafeRelease(mQuery);
 }

 angle::Result FenceNV11::set(const gl::Context *context, GLenum condition)
 {
     return FenceSetHelper(context, this);
 }

 angle::Result FenceNV11::test(const gl::Context *context, GLboolean *outFinished)
 {
     return FenceTestHelper(context, this, true, outFinished);
 }

 angle::Result FenceNV11::finish(const gl::Context *context)
 {
     GLboolean finished = GL_FALSE;

     int loopCount = 0;
     while (finished != GL_TRUE)
     {
         loopCount++;
         ANGLE_TRY(FenceTestHelper(context, this, true, &finished));

         bool checkDeviceLost = (loopCount % kPollingD3DDeviceLostCheckFrequency) == 0;
         if (checkDeviceLost && mRenderer->testDeviceLost())
         {
             ANGLE_TRY_HR(GetImplAs<Context11>(context), DXGI_ERROR_DRIVER_INTERNAL_ERROR,
                          "Device was lost while querying result of an event query.");
         }

         ScheduleYield();
     }

     return angle::Result::Continue;
 }

 //
 // Sync11
 //

 // Important note on accurate timers in Windows:
 //
 // QueryPerformanceCounter has a few major issues, including being 10x as expensive to call
 // as timeGetTime on laptops and "jumping" during certain hardware events.
 //
 // See the comments at the top of the Chromium source file "chromium/src/base/time/time_win.cc"
 //   https://code.google.com/p/chromium/codesearch#chromium/src/base/time/time_win.cc
 //
 // We still opt to use QPC. In the present and moving forward, most newer systems will not suffer
 // from buggy implementations.

 Sync11::Sync11(Renderer11 *renderer) : SyncImpl(), mRenderer(renderer), mQuery(nullptr)
 {
     LARGE_INTEGER counterFreqency = {};
     BOOL success                  = QueryPerformanceFrequency(&counterFreqency);
     ASSERT(success);

     mCounterFrequency = counterFreqency.QuadPart;
 }

 Sync11::~Sync11()
 {
     SafeRelease(mQuery);
 }

 angle::Result Sync11::set(const gl::Context *context, GLenum condition, GLbitfield flags)
 {
     ASSERT(condition == GL_SYNC_GPU_COMMANDS_COMPLETE && flags == 0);
     return FenceSetHelper(context, this);
 }

 angle::Result Sync11::clientWait(const gl::Context *context,
                                  GLbitfield flags,
                                  GLuint64 timeout,
                                  GLenum *outResult)
 {
     ASSERT(outResult);

     bool flushCommandBuffer = ((flags & GL_SYNC_FLUSH_COMMANDS_BIT) != 0);

     *outResult = GL_WAIT_FAILED;

     GLboolean result = GL_FALSE;
     ANGLE_TRY(FenceTestHelper(context, this, flushCommandBuffer, &result));

     if (result == GL_TRUE)
     {
         *outResult = GL_ALREADY_SIGNALED;
         return angle::Result::Continue;
     }

     if (timeout == 0)
     {
         *outResult = GL_TIMEOUT_EXPIRED;
         return angle::Result::Continue;
     }

     LARGE_INTEGER currentCounter = {};
     BOOL success                 = QueryPerformanceCounter(&currentCounter);
     ASSERT(success);

     LONGLONG timeoutInSeconds = static_cast<LONGLONG>(timeout / 1000000000ull);
     LONGLONG endCounter       = currentCounter.QuadPart + mCounterFrequency * timeoutInSeconds;

     // Extremely unlikely, but if mCounterFrequency is large enough, endCounter can wrap
     if (endCounter < currentCounter.QuadPart)
     {
         endCounter = MAXLONGLONG;
     }

     int loopCount = 0;
     while (currentCounter.QuadPart < endCounter && !result)
     {
         loopCount++;
         ScheduleYield();
         success = QueryPerformanceCounter(&currentCounter);
         ASSERT(success);

         *outResult = GL_WAIT_FAILED;

         ANGLE_TRY(FenceTestHelper(context, this, flushCommandBuffer, &result));

         bool checkDeviceLost = (loopCount % kPollingD3DDeviceLostCheckFrequency) == 0;
         if (checkDeviceLost && mRenderer->testDeviceLost())
         {
             *outResult = GL_WAIT_FAILED;
             ANGLE_TRY_HR(GetImplAs<Context11>(context), DXGI_ERROR_DRIVER_INTERNAL_ERROR,
                          "Device was lost while querying result of an event query.");
         }
     }

     if (currentCounter.QuadPart >= endCounter)
     {
         *outResult = GL_TIMEOUT_EXPIRED;
     }
     else
     {
         *outResult = GL_CONDITION_SATISFIED;
     }

     return angle::Result::Continue;
 }

 angle::Result Sync11::serverWait(const gl::Context *context, GLbitfield flags, GLuint64 timeout)
 {
     // Because our API is currently designed to be called from a single thread, we don't need to do
     // extra work for a server-side fence. GPU commands issued after the fence is created will
     // always be processed after the fence is signaled.
     return angle::Result::Continue;
 }

 angle::Result Sync11::getStatus(const gl::Context *context, GLint *outResult)
 {
     GLboolean result = GL_FALSE;

     // The spec does not specify any way to report errors during the status test (e.g. device
     // lost) so we report the fence is unblocked in case of error or signaled.
     *outResult = GL_SIGNALED;
     ANGLE_TRY(FenceTestHelper(context, this, false, &result));

     *outResult = (result ? GL_SIGNALED : GL_UNSIGNALED);
     return angle::Result::Continue;
 }

 }  // namespace rx
	//
	// Copyright 2013 The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//

	// Fence11.cpp: Defines the rx::FenceNV11 and rx::Sync11 classes which implement
	// rx::FenceNVImpl and rx::SyncImpl.

	#include "libANGLE/renderer/d3d/d3d11/Fence11.h"

	#include "common/utilities.h"
	#include "libANGLE/Context.h"
	#include "libANGLE/renderer/d3d/d3d11/Context11.h"
	#include "libANGLE/renderer/d3d/d3d11/Renderer11.h"

	namespace rx
	{

	//
	// Template helpers for set and test operations.
	//

	template <class FenceClass>
	angle::Result FenceSetHelper(const gl::Context context, FenceClass fence)
	{
	if (!fence->mQuery)
	{
	D3D11_QUERY_DESC queryDesc;
	queryDesc.Query = D3D11_QUERY_EVENT;
	queryDesc.MiscFlags = 0;

	Context11 *context11 = GetImplAs<Context11>(context);
	HRESULT result = fence->mRenderer->getDevice()->CreateQuery(&queryDesc, &fence->mQuery);
	ANGLE_TRY_HR(context11, result, "Failed to create event query");
	}

	fence->mRenderer->getDeviceContext()->End(fence->mQuery);
	return angle::Result::Continue;
	}

	template <class FenceClass>
	angle::Result FenceTestHelper(const gl::Context *context,
	FenceClass *fence,
	bool flushCommandBuffer,
	GLboolean *outFinished)
	{
	ASSERT(fence->mQuery);

	UINT getDataFlags = (flushCommandBuffer ? 0 : D3D11_ASYNC_GETDATA_DONOTFLUSH);

	Context11 *context11 = GetImplAs<Context11>(context);
	HRESULT result =
	fence->mRenderer->getDeviceContext()->GetData(fence->mQuery, nullptr, 0, getDataFlags);
	ANGLE_TRY_HR(context11, result, "Failed to get query data");

	ASSERT(result == S_OK \|\| result == S_FALSE);
	*outFinished = ((result == S_OK) ? GL_TRUE : GL_FALSE);
	return angle::Result::Continue;
	}

	//
	// FenceNV11
	//

	FenceNV11::FenceNV11(Renderer11 *renderer) : FenceNVImpl(), mRenderer(renderer), mQuery(nullptr) {}

	FenceNV11::~FenceNV11()
	{
	SafeRelease(mQuery);
	}

	angle::Result FenceNV11::set(const gl::Context *context, GLenum condition)
	{
	return FenceSetHelper(context, this);
	}

	angle::Result FenceNV11::test(const gl::Context context, GLboolean outFinished)
	{
	return FenceTestHelper(context, this, true, outFinished);
	}

	angle::Result FenceNV11::finish(const gl::Context *context)
	{
	GLboolean finished = GL_FALSE;

	int loopCount = 0;
	while (finished != GL_TRUE)
	{
	loopCount++;
	ANGLE_TRY(FenceTestHelper(context, this, true, &finished));

	bool checkDeviceLost = (loopCount % kPollingD3DDeviceLostCheckFrequency) == 0;
	if (checkDeviceLost && mRenderer->testDeviceLost())
	{
	ANGLE_TRY_HR(GetImplAs<Context11>(context), DXGI_ERROR_DRIVER_INTERNAL_ERROR,
	"Device was lost while querying result of an event query.");
	}

	ScheduleYield();
	}

	return angle::Result::Continue;
	}

	//
	// Sync11
	//

	// Important note on accurate timers in Windows:
	//
	// QueryPerformanceCounter has a few major issues, including being 10x as expensive to call
	// as timeGetTime on laptops and "jumping" during certain hardware events.
	//
	// See the comments at the top of the Chromium source file "chromium/src/base/time/time_win.cc"
	// https://code.google.com/p/chromium/codesearch#chromium/src/base/time/time_win.cc
	//
	// We still opt to use QPC. In the present and moving forward, most newer systems will not suffer
	// from buggy implementations.

	Sync11::Sync11(Renderer11 *renderer) : SyncImpl(), mRenderer(renderer), mQuery(nullptr)
	{
	LARGE_INTEGER counterFreqency = {};
	BOOL success = QueryPerformanceFrequency(&counterFreqency);
	ASSERT(success);

	mCounterFrequency = counterFreqency.QuadPart;
	}

	Sync11::~Sync11()
	{
	SafeRelease(mQuery);
	}

	angle::Result Sync11::set(const gl::Context *context, GLenum condition, GLbitfield flags)
	{
	ASSERT(condition == GL_SYNC_GPU_COMMANDS_COMPLETE && flags == 0);
	return FenceSetHelper(context, this);
	}

	angle::Result Sync11::clientWait(const gl::Context *context,
	GLbitfield flags,
	GLuint64 timeout,
	GLenum *outResult)
	{
	ASSERT(outResult);

	bool flushCommandBuffer = ((flags & GL_SYNC_FLUSH_COMMANDS_BIT) != 0);

	*outResult = GL_WAIT_FAILED;

	GLboolean result = GL_FALSE;
	ANGLE_TRY(FenceTestHelper(context, this, flushCommandBuffer, &result));

	if (result == GL_TRUE)
	{
	*outResult = GL_ALREADY_SIGNALED;
	return angle::Result::Continue;
	}

	if (timeout == 0)
	{
	*outResult = GL_TIMEOUT_EXPIRED;
	return angle::Result::Continue;
	}

	LARGE_INTEGER currentCounter = {};
	BOOL success = QueryPerformanceCounter(&currentCounter);
	ASSERT(success);

	LONGLONG timeoutInSeconds = static_cast<LONGLONG>(timeout / 1000000000ull);
	LONGLONG endCounter = currentCounter.QuadPart + mCounterFrequency * timeoutInSeconds;

	// Extremely unlikely, but if mCounterFrequency is large enough, endCounter can wrap
	if (endCounter < currentCounter.QuadPart)
	{
	endCounter = MAXLONGLONG;
	}

	int loopCount = 0;
	while (currentCounter.QuadPart < endCounter && !result)
	{
	loopCount++;
	ScheduleYield();
	success = QueryPerformanceCounter(&currentCounter);
	ASSERT(success);

	*outResult = GL_WAIT_FAILED;

	ANGLE_TRY(FenceTestHelper(context, this, flushCommandBuffer, &result));

	bool checkDeviceLost = (loopCount % kPollingD3DDeviceLostCheckFrequency) == 0;
	if (checkDeviceLost && mRenderer->testDeviceLost())
	{
	*outResult = GL_WAIT_FAILED;
	ANGLE_TRY_HR(GetImplAs<Context11>(context), DXGI_ERROR_DRIVER_INTERNAL_ERROR,
	"Device was lost while querying result of an event query.");
	}
	}

	if (currentCounter.QuadPart >= endCounter)
	{
	*outResult = GL_TIMEOUT_EXPIRED;
	}
	else
	{
	*outResult = GL_CONDITION_SATISFIED;
	}

	return angle::Result::Continue;
	}

	angle::Result Sync11::serverWait(const gl::Context *context, GLbitfield flags, GLuint64 timeout)
	{
	// Because our API is currently designed to be called from a single thread, we don't need to do
	// extra work for a server-side fence. GPU commands issued after the fence is created will
	// always be processed after the fence is signaled.
	return angle::Result::Continue;
	}

	angle::Result Sync11::getStatus(const gl::Context context, GLint outResult)
	{
	GLboolean result = GL_FALSE;

	// The spec does not specify any way to report errors during the status test (e.g. device
	// lost) so we report the fence is unblocked in case of error or signaled.
	*outResult = GL_SIGNALED;
	ANGLE_TRY(FenceTestHelper(context, this, false, &result));

	*outResult = (result ? GL_SIGNALED : GL_UNSIGNALED);
	return angle::Result::Continue;
	}

	} // namespace rx