/* * Copyright (C) 2019-2020 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "core/helpers/options.h" #include "core/unit_tests/helpers/debug_manager_state_restore.h" #include "core/utilities/arrayref.h" #include "runtime/api/api.h" #include "runtime/mem_obj/image.h" #include "runtime/memory_manager/os_agnostic_memory_manager.h" #include "runtime/platform/platform.h" #include "runtime/sharings/d3d/cl_d3d_api.h" #include "runtime/sharings/d3d/d3d_buffer.h" #include "runtime/sharings/d3d/d3d_sharing.h" #include "runtime/sharings/d3d/d3d_surface.h" #include "runtime/sharings/d3d/d3d_texture.h" #include "unit_tests/fixtures/d3d_test_fixture.h" #include "gmock/gmock.h" #include "gtest/gtest.h" namespace NEO { TYPED_TEST_CASE_P(D3DTests); TYPED_TEST_P(D3DTests, givenSharedResourceBufferAndInteropUserSyncEnabledWhenReleaseIsCalledThenDontDoExplicitFinish) { this->context->setInteropUserSyncEnabled(true); this->mockSharingFcns->mockBufferDesc.MiscFlags = D3DResourceFlags::MISC_SHARED; EXPECT_CALL(*this->mockSharingFcns, getBufferDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockBufferDesc)); class MockCmdQ : public CommandQueue { public: MockCmdQ(Context *context, ClDevice *device, const cl_queue_properties *properties) : CommandQueue(context, device, properties){}; cl_int finish() override { finishCalled++; return CL_SUCCESS; } uint32_t finishCalled = 0; }; auto mockCmdQ = std::unique_ptr(new MockCmdQ(this->context, this->context->getDevice(0), 0)); auto buffer = std::unique_ptr(D3DBuffer::create(this->context, (D3DBufferObj *)&this->dummyD3DBuffer, CL_MEM_READ_WRITE, nullptr)); ASSERT_NE(nullptr, buffer.get()); cl_mem bufferMem = (cl_mem)buffer.get(); auto retVal = this->enqueueAcquireD3DObjectsApi(this->mockSharingFcns, mockCmdQ.get(), 1, &bufferMem, 0, nullptr, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(0u, mockCmdQ->finishCalled); retVal = this->enqueueReleaseD3DObjectsApi(this->mockSharingFcns, mockCmdQ.get(), 1, &bufferMem, 0, nullptr, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(0u, mockCmdQ->finishCalled); } TYPED_TEST_P(D3DTests, givenNonSharedResourceBufferAndInteropUserSyncDisabledWhenReleaseIsCalledThenDoExplicitFinishTwice) { this->context->setInteropUserSyncEnabled(false); class MockCmdQ : public CommandQueue { public: MockCmdQ(Context *context, ClDevice *device, const cl_queue_properties *properties) : CommandQueue(context, device, properties){}; cl_int finish() override { finishCalled++; return CL_SUCCESS; } uint32_t finishCalled = 0; }; auto mockCmdQ = std::unique_ptr(new MockCmdQ(this->context, this->context->getDevice(0), 0)); auto buffer = std::unique_ptr(D3DBuffer::create(this->context, (D3DBufferObj *)&this->dummyD3DBuffer, CL_MEM_READ_WRITE, nullptr)); ASSERT_NE(nullptr, buffer.get()); cl_mem bufferMem = (cl_mem)buffer.get(); auto retVal = this->enqueueAcquireD3DObjectsApi(this->mockSharingFcns, mockCmdQ.get(), 1, &bufferMem, 0, nullptr, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(0u, mockCmdQ->finishCalled); retVal = this->enqueueReleaseD3DObjectsApi(this->mockSharingFcns, mockCmdQ.get(), 1, &bufferMem, 0, nullptr, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(2u, mockCmdQ->finishCalled); } TYPED_TEST_P(D3DTests, givenSharedResourceBufferAndInteropUserSyncDisabledWhenReleaseIsCalledThenDoExplicitFinishOnce) { this->context->setInteropUserSyncEnabled(false); this->mockSharingFcns->mockBufferDesc.MiscFlags = D3DResourceFlags::MISC_SHARED; EXPECT_CALL(*this->mockSharingFcns, getBufferDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockBufferDesc)); class MockCmdQ : public CommandQueue { public: MockCmdQ(Context *context, ClDevice *device, const cl_queue_properties *properties) : CommandQueue(context, device, properties){}; cl_int finish() override { finishCalled++; return CL_SUCCESS; } uint32_t finishCalled = 0; }; auto mockCmdQ = std::unique_ptr(new MockCmdQ(this->context, this->context->getDevice(0), 0)); auto buffer = std::unique_ptr(D3DBuffer::create(this->context, (D3DBufferObj *)&this->dummyD3DBuffer, CL_MEM_READ_WRITE, nullptr)); ASSERT_NE(nullptr, buffer.get()); cl_mem bufferMem = (cl_mem)buffer.get(); auto retVal = this->enqueueAcquireD3DObjectsApi(this->mockSharingFcns, mockCmdQ.get(), 1, &bufferMem, 0, nullptr, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(0u, mockCmdQ->finishCalled); retVal = this->enqueueReleaseD3DObjectsApi(this->mockSharingFcns, mockCmdQ.get(), 1, &bufferMem, 0, nullptr, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(1u, mockCmdQ->finishCalled); } TYPED_TEST_P(D3DTests, givenNonSharedResourceBufferAndInteropUserSyncEnabledWhenReleaseIsCalledThenDoExplicitFinishOnce) { this->context->setInteropUserSyncEnabled(true); class MockCmdQ : public CommandQueue { public: MockCmdQ(Context *context, ClDevice *device, const cl_queue_properties *properties) : CommandQueue(context, device, properties){}; cl_int finish() override { finishCalled++; return CL_SUCCESS; } uint32_t finishCalled = 0; }; auto mockCmdQ = std::unique_ptr(new MockCmdQ(this->context, this->context->getDevice(0), 0)); auto buffer = std::unique_ptr(D3DBuffer::create(this->context, (D3DBufferObj *)&this->dummyD3DBuffer, CL_MEM_READ_WRITE, nullptr)); ASSERT_NE(nullptr, buffer.get()); cl_mem bufferMem = (cl_mem)buffer.get(); auto retVal = this->enqueueAcquireD3DObjectsApi(this->mockSharingFcns, mockCmdQ.get(), 1, &bufferMem, 0, nullptr, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(0u, mockCmdQ->finishCalled); retVal = this->enqueueReleaseD3DObjectsApi(this->mockSharingFcns, mockCmdQ.get(), 1, &bufferMem, 0, nullptr, nullptr); EXPECT_EQ(CL_SUCCESS, retVal); EXPECT_EQ(1u, mockCmdQ->finishCalled); } TYPED_TEST_P(D3DTests, givenSharedResourceFlagWhenCreate2dTextureThenStagingTextureEqualsPassedTexture) { this->mockSharingFcns->mockTexture2dDesc.MiscFlags = D3DResourceFlags::MISC_SHARED; this->mockSharingFcns->mockTexture2dDesc.ArraySize = 4; this->mockSharingFcns->mockTexture2dDesc.MipLevels = 4; ::testing::InSequence is; EXPECT_CALL(*this->mockSharingFcns, getTexture2dDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockTexture2dDesc)); EXPECT_CALL(*this->mockSharingFcns, createTexture2d(_, _, _)) .Times(0); EXPECT_CALL(*this->mockSharingFcns, getSharedHandle((D3DTexture2d *)&this->dummyD3DTexture, _)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, addRef((D3DTexture2d *)&this->dummyD3DTexture)) .Times(1); auto image = std::unique_ptr(D3DTexture::create2d(this->context, (D3DTexture2d *)&this->dummyD3DTexture, CL_MEM_READ_WRITE, 4, nullptr)); ASSERT_NE(nullptr, image.get()); auto d3dTexture = static_cast *>(image->getSharingHandler().get()); ASSERT_NE(nullptr, d3dTexture); EXPECT_TRUE(d3dTexture->isSharedResource()); EXPECT_EQ(&this->dummyD3DTexture, d3dTexture->getResourceStaging()); EXPECT_CALL(*this->mockSharingFcns, release((D3DTexture2d *)&this->dummyD3DTexture)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, release((D3DQuery *)d3dTexture->getQuery())) .Times(1); } TYPED_TEST_P(D3DTests, givenNonSharedResourceFlagWhenCreate2dTextureThenCreateStagingTexture) { this->mockSharingFcns->mockTexture2dDesc.MiscFlags = 0; ::testing::InSequence is; EXPECT_CALL(*this->mockSharingFcns, getTexture2dDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockTexture2dDesc)); EXPECT_CALL(*this->mockSharingFcns, createTexture2d(_, _, _)) .Times(1) .WillOnce(SetArgPointee<0>((D3DTexture2d *)&this->dummyD3DTextureStaging)); EXPECT_CALL(*this->mockSharingFcns, getSharedHandle((D3DTexture2d *)&this->dummyD3DTextureStaging, _)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, addRef((D3DTexture2d *)&this->dummyD3DTexture)) .Times(1); auto image = std::unique_ptr(D3DTexture::create2d(this->context, (D3DTexture2d *)&this->dummyD3DTexture, CL_MEM_READ_WRITE, 1, nullptr)); ASSERT_NE(nullptr, image.get()); auto d3dTexture = static_cast *>(image->getSharingHandler().get()); ASSERT_NE(nullptr, d3dTexture); EXPECT_FALSE(d3dTexture->isSharedResource()); EXPECT_EQ(&this->dummyD3DTextureStaging, d3dTexture->getResourceStaging()); EXPECT_CALL(*this->mockSharingFcns, release((D3DTexture2d *)&this->dummyD3DTextureStaging)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, release((D3DTexture2d *)&this->dummyD3DTexture)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, release((D3DQuery *)d3dTexture->getQuery())) .Times(1); } TYPED_TEST_P(D3DTests, givenSharedResourceFlagWhenCreate3dTextureThenStagingTextureEqualsPassedTexture) { this->mockSharingFcns->mockTexture3dDesc.MiscFlags = D3DResourceFlags::MISC_SHARED; this->mockSharingFcns->mockTexture3dDesc.MipLevels = 4; EXPECT_CALL(*this->mockSharingFcns, getTexture3dDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockTexture3dDesc)); EXPECT_CALL(*this->mockSharingFcns, createTexture3d(_, _, _)) .Times(0); EXPECT_CALL(*this->mockSharingFcns, getSharedHandle((D3DTexture2d *)&this->dummyD3DTexture, _)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, addRef((D3DTexture3d *)&this->dummyD3DTexture)) .Times(1); auto image = std::unique_ptr(D3DTexture::create3d(this->context, (D3DTexture3d *)&this->dummyD3DTexture, CL_MEM_READ_WRITE, 0, nullptr)); ASSERT_NE(nullptr, image.get()); auto d3dTexture = static_cast *>(image->getSharingHandler().get()); ASSERT_NE(nullptr, d3dTexture); EXPECT_TRUE(d3dTexture->isSharedResource()); EXPECT_EQ(&this->dummyD3DTexture, d3dTexture->getResourceStaging()); EXPECT_CALL(*this->mockSharingFcns, release((D3DTexture2d *)&this->dummyD3DTexture)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, release((D3DQuery *)d3dTexture->getQuery())) .Times(1); } TYPED_TEST_P(D3DTests, givenNonSharedResourceFlagWhenCreate3dTextureThenCreateStagingTexture) { this->mockSharingFcns->mockTexture3dDesc.MiscFlags = 0; EXPECT_CALL(*this->mockSharingFcns, getTexture3dDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockTexture3dDesc)); EXPECT_CALL(*this->mockSharingFcns, createTexture3d(_, _, _)) .Times(1) .WillOnce(SetArgPointee<0>((D3DTexture3d *)&this->dummyD3DTextureStaging)); EXPECT_CALL(*this->mockSharingFcns, getSharedHandle((D3DTexture2d *)&this->dummyD3DTextureStaging, _)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, addRef((D3DTexture3d *)&this->dummyD3DTexture)) .Times(1); auto image = std::unique_ptr(D3DTexture::create3d(this->context, (D3DTexture3d *)&this->dummyD3DTexture, CL_MEM_READ_WRITE, 1, nullptr)); ASSERT_NE(nullptr, image.get()); auto d3dTexture = static_cast *>(image->getSharingHandler().get()); ASSERT_NE(nullptr, d3dTexture); EXPECT_FALSE(d3dTexture->isSharedResource()); EXPECT_EQ(&this->dummyD3DTextureStaging, d3dTexture->getResourceStaging()); EXPECT_CALL(*this->mockSharingFcns, release((D3DTexture2d *)&this->dummyD3DTextureStaging)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, release((D3DTexture2d *)&this->dummyD3DTexture)) .Times(1); EXPECT_CALL(*this->mockSharingFcns, release((D3DQuery *)d3dTexture->getQuery())) .Times(1); } TYPED_TEST_P(D3DTests, givenD3DDeviceParamWhenContextCreationThenSetProperValues) { cl_device_id deviceID = this->context->getDevice(0); cl_platform_id pid[1] = {this->pPlatform}; auto param = this->pickParam(CL_CONTEXT_D3D10_DEVICE_KHR, CL_CONTEXT_D3D11_DEVICE_KHR); cl_context_properties validProperties[5] = {CL_CONTEXT_PLATFORM, (cl_context_properties)pid[0], param, 0, 0}; cl_int retVal = CL_SUCCESS; auto ctx = std::unique_ptr(Context::create(validProperties, ClDeviceVector(&deviceID, 1), nullptr, nullptr, retVal)); EXPECT_EQ(CL_SUCCESS, retVal); ASSERT_NE(nullptr, ctx.get()); EXPECT_EQ(1u, ctx->preferD3dSharedResources); EXPECT_NE(nullptr, ctx->getSharing>()); } TYPED_TEST_P(D3DTests, givenSharedNTHandleFlagWhenCreate2dTextureThenGetNtHandle) { this->mockSharingFcns->mockTexture2dDesc.MiscFlags = D3DResourceFlags::MISC_SHARED_NTHANDLE; EXPECT_CALL(*this->mockSharingFcns, getTexture2dDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockTexture2dDesc)); EXPECT_CALL(*this->mockSharingFcns, createTexture2d(_, _, _)) .Times(1) .WillOnce(SetArgPointee<0>((D3DTexture2d *)&this->dummyD3DTextureStaging)); EXPECT_CALL(*this->mockSharingFcns, getSharedHandle(_, _)) .Times(0); EXPECT_CALL(*this->mockSharingFcns, getSharedNTHandle(_, _)) .Times(1); auto image = std::unique_ptr(D3DTexture::create2d(this->context, (D3DTexture2d *)&this->dummyD3DTexture, CL_MEM_READ_WRITE, 1, nullptr)); ASSERT_NE(nullptr, image.get()); auto d3dTexture = static_cast *>(image->getSharingHandler().get()); ASSERT_NE(nullptr, d3dTexture); } TYPED_TEST_P(D3DTests, givenSharedNTHandleFlagWhenCreate3dTextureThenGetNtHandle) { this->mockSharingFcns->mockTexture3dDesc.MiscFlags = D3DResourceFlags::MISC_SHARED_NTHANDLE; EXPECT_CALL(*this->mockSharingFcns, getTexture3dDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockTexture3dDesc)); EXPECT_CALL(*this->mockSharingFcns, createTexture3d(_, _, _)) .Times(1) .WillOnce(SetArgPointee<0>((D3DTexture3d *)&this->dummyD3DTextureStaging)); EXPECT_CALL(*this->mockSharingFcns, getSharedHandle(_, _)) .Times(0); EXPECT_CALL(*this->mockSharingFcns, getSharedNTHandle(_, _)) .Times(1); auto image = std::unique_ptr(D3DTexture::create3d(this->context, (D3DTexture3d *)&this->dummyD3DTexture, CL_MEM_READ_WRITE, 1, nullptr)); ASSERT_NE(nullptr, image.get()); auto d3dTexture = static_cast *>(image->getSharingHandler().get()); ASSERT_NE(nullptr, d3dTexture); } TYPED_TEST_P(D3DTests, fillBufferDesc) { D3DBufferDesc requestedDesc = {}; D3DBufferDesc expectedDesc = {}; expectedDesc.ByteWidth = 10; expectedDesc.MiscFlags = D3DResourceFlags::MISC_SHARED; this->mockSharingFcns->fillCreateBufferDesc(requestedDesc, 10); EXPECT_TRUE(memcmp(&requestedDesc, &expectedDesc, sizeof(D3DBufferDesc)) == 0); } TYPED_TEST_P(D3DTests, fillTexture2dDesc) { D3DTexture2dDesc requestedDesc = {}; D3DTexture2dDesc expectedDesc = {}; D3DTexture2dDesc srcDesc = {}; cl_uint subresource = 4; srcDesc.Width = 10; srcDesc.Height = 20; srcDesc.MipLevels = 9; srcDesc.ArraySize = 5; srcDesc.Format = DXGI_FORMAT::DXGI_FORMAT_A8_UNORM; srcDesc.SampleDesc = {8, 9}; srcDesc.BindFlags = 123; srcDesc.CPUAccessFlags = 456; srcDesc.MiscFlags = 789; expectedDesc.Width = srcDesc.Width; expectedDesc.Height = srcDesc.Height; expectedDesc.MipLevels = 1; expectedDesc.ArraySize = 1; expectedDesc.Format = srcDesc.Format; expectedDesc.MiscFlags = D3DResourceFlags::MISC_SHARED; expectedDesc.SampleDesc = srcDesc.SampleDesc; for (uint32_t i = 0u; i < (subresource % srcDesc.MipLevels); i++) { expectedDesc.Width /= 2; expectedDesc.Height /= 2; } this->mockSharingFcns->fillCreateTexture2dDesc(requestedDesc, &srcDesc, subresource); EXPECT_TRUE(memcmp(&requestedDesc, &expectedDesc, sizeof(D3DTexture2dDesc)) == 0); } TYPED_TEST_P(D3DTests, fillTexture3dDesc) { D3DTexture3dDesc requestedDesc = {}; D3DTexture3dDesc expectedDesc = {}; D3DTexture3dDesc srcDesc = {}; cl_uint subresource = 4; srcDesc.Width = 10; srcDesc.Height = 20; srcDesc.Depth = 30; srcDesc.MipLevels = 9; srcDesc.Format = DXGI_FORMAT::DXGI_FORMAT_A8_UNORM; srcDesc.BindFlags = 123; srcDesc.CPUAccessFlags = 456; srcDesc.MiscFlags = 789; expectedDesc.Width = srcDesc.Width; expectedDesc.Height = srcDesc.Height; expectedDesc.Depth = srcDesc.Depth; expectedDesc.MipLevels = 1; expectedDesc.Format = srcDesc.Format; expectedDesc.MiscFlags = D3DResourceFlags::MISC_SHARED; for (uint32_t i = 0u; i < (subresource % srcDesc.MipLevels); i++) { expectedDesc.Width /= 2; expectedDesc.Height /= 2; expectedDesc.Depth /= 2; } this->mockSharingFcns->fillCreateTexture3dDesc(requestedDesc, &srcDesc, subresource); EXPECT_TRUE(memcmp(&requestedDesc, &expectedDesc, sizeof(D3DTexture3dDesc)) == 0); } TYPED_TEST_P(D3DTests, givenPlaneWhenFindYuvSurfaceCalledThenReturnValidImgFormat) { const ClSurfaceFormatInfo *surfaceFormat; DXGI_FORMAT testFormat[] = {DXGI_FORMAT::DXGI_FORMAT_NV12, DXGI_FORMAT::DXGI_FORMAT_P010, DXGI_FORMAT::DXGI_FORMAT_P016}; int channelDataType[] = {CL_UNORM_INT8, CL_UNORM_INT16, CL_UNORM_INT16}; for (int n = 0; n < 3; n++) { surfaceFormat = D3DTexture::findYuvSurfaceFormatInfo(testFormat[n], ImagePlane::NO_PLANE, CL_MEM_READ_WRITE); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_order == CL_RG); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_data_type == channelDataType[n]); surfaceFormat = D3DTexture::findYuvSurfaceFormatInfo(testFormat[n], ImagePlane::PLANE_U, CL_MEM_READ_WRITE); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_order == CL_RG); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_data_type == channelDataType[n]); surfaceFormat = D3DTexture::findYuvSurfaceFormatInfo(testFormat[n], ImagePlane::PLANE_UV, CL_MEM_READ_WRITE); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_order == CL_RG); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_data_type == channelDataType[n]); surfaceFormat = D3DTexture::findYuvSurfaceFormatInfo(testFormat[n], ImagePlane::PLANE_V, CL_MEM_READ_WRITE); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_order == CL_RG); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_data_type == channelDataType[n]); surfaceFormat = D3DTexture::findYuvSurfaceFormatInfo(testFormat[n], ImagePlane::PLANE_Y, CL_MEM_READ_WRITE); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_order == CL_R); EXPECT_TRUE(surfaceFormat->OCLImageFormat.image_channel_data_type == channelDataType[n]); } } TYPED_TEST_P(D3DTests, inForced32BitAddressingBufferCreatedHas32BitAllocation) { auto buffer = std::unique_ptr(D3DBuffer::create(this->context, (D3DBufferObj *)&this->dummyD3DBuffer, CL_MEM_READ_WRITE, nullptr)); ASSERT_NE(nullptr, buffer.get()); auto *allocation = buffer->getGraphicsAllocation(); EXPECT_NE(nullptr, allocation); EXPECT_TRUE(allocation->is32BitAllocation()); } TYPED_TEST_P(D3DTests, givenD3DTexture2dWhenOclImageIsCreatedThenSharedImageAllocationTypeIsSet) { this->mockSharingFcns->mockTexture2dDesc.Format = DXGI_FORMAT_P016; EXPECT_CALL(*this->mockSharingFcns, getTexture2dDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockTexture2dDesc)); auto image = std::unique_ptr(D3DTexture::create2d(this->context, reinterpret_cast(&this->dummyD3DTexture), CL_MEM_READ_WRITE, 7, nullptr)); ASSERT_NE(nullptr, image.get()); ASSERT_NE(nullptr, image->getGraphicsAllocation()); EXPECT_EQ(GraphicsAllocation::AllocationType::SHARED_IMAGE, image->getGraphicsAllocation()->getAllocationType()); } TYPED_TEST_P(D3DTests, givenD3DTexture3dWhenOclImageIsCreatedThenSharedImageAllocationTypeIsSet) { this->mockSharingFcns->mockTexture3dDesc.MiscFlags = D3DResourceFlags::MISC_SHARED; EXPECT_CALL(*this->mockSharingFcns, getTexture3dDesc(_, _)) .Times(1) .WillOnce(SetArgPointee<0>(this->mockSharingFcns->mockTexture3dDesc)); EXPECT_CALL(*this->mockSharingFcns, createTexture3d(_, _, _)) .Times(1) .WillOnce(SetArgPointee<0>(reinterpret_cast(&this->dummyD3DTextureStaging))); auto image = std::unique_ptr(D3DTexture::create3d(this->context, reinterpret_cast(&this->dummyD3DTexture), CL_MEM_READ_WRITE, 1, nullptr)); ASSERT_NE(nullptr, image.get()); ASSERT_NE(nullptr, image->getGraphicsAllocation()); EXPECT_EQ(GraphicsAllocation::AllocationType::SHARED_IMAGE, image->getGraphicsAllocation()->getAllocationType()); } REGISTER_TYPED_TEST_CASE_P(D3DTests, givenSharedResourceBufferAndInteropUserSyncEnabledWhenReleaseIsCalledThenDontDoExplicitFinish, givenNonSharedResourceBufferAndInteropUserSyncDisabledWhenReleaseIsCalledThenDoExplicitFinishTwice, givenSharedResourceBufferAndInteropUserSyncDisabledWhenReleaseIsCalledThenDoExplicitFinishOnce, givenNonSharedResourceBufferAndInteropUserSyncEnabledWhenReleaseIsCalledThenDoExplicitFinishOnce, givenSharedResourceFlagWhenCreate2dTextureThenStagingTextureEqualsPassedTexture, givenNonSharedResourceFlagWhenCreate2dTextureThenCreateStagingTexture, givenSharedResourceFlagWhenCreate3dTextureThenStagingTextureEqualsPassedTexture, givenNonSharedResourceFlagWhenCreate3dTextureThenCreateStagingTexture, givenD3DDeviceParamWhenContextCreationThenSetProperValues, givenSharedNTHandleFlagWhenCreate2dTextureThenGetNtHandle, givenSharedNTHandleFlagWhenCreate3dTextureThenGetNtHandle, fillBufferDesc, fillTexture2dDesc, fillTexture3dDesc, givenPlaneWhenFindYuvSurfaceCalledThenReturnValidImgFormat, inForced32BitAddressingBufferCreatedHas32BitAllocation, givenD3DTexture2dWhenOclImageIsCreatedThenSharedImageAllocationTypeIsSet, givenD3DTexture3dWhenOclImageIsCreatedThenSharedImageAllocationTypeIsSet); INSTANTIATE_TYPED_TEST_CASE_P(D3DSharingTests, D3DTests, D3DTypes); using D3D10Test = D3DTests; TEST_F(D3D10Test, givenIncompatibleD3DAdapterWhenGettingDeviceIdsThenNoDevicesAreReturned) { cl_device_id deviceID; cl_uint numDevices = 15; auto clAdapterId = context->getDevice(0)->getHardwareInfo().platform.usDeviceID; auto d3dAdapterId = clAdapterId + 1; mockSharingFcns->mockDxgiDesc.DeviceId = d3dAdapterId; EXPECT_NE(clAdapterId, d3dAdapterId); auto retVal = clGetDeviceIDsFromD3D10KHR(pPlatform, CL_D3D10_DEVICE_KHR, nullptr, CL_ALL_DEVICES_FOR_D3D10_KHR, 1, &deviceID, &numDevices); EXPECT_EQ(CL_DEVICE_NOT_FOUND, retVal); EXPECT_EQ(0, numDevices); } using D3D11Test = D3DTests; TEST_F(D3D11Test, givenIncompatibleD3DAdapterWhenGettingDeviceIdsThenNoDevicesAreReturned) { cl_device_id deviceID; cl_uint numDevices = 15; auto clAdapterId = context->getDevice(0)->getHardwareInfo().platform.usDeviceID; auto d3dAdapterId = clAdapterId + 1; mockSharingFcns->mockDxgiDesc.DeviceId = d3dAdapterId; EXPECT_NE(clAdapterId, d3dAdapterId); auto retVal = clGetDeviceIDsFromD3D11KHR(pPlatform, CL_D3D11_DEVICE_KHR, nullptr, CL_ALL_DEVICES_FOR_D3D11_KHR, 1, &deviceID, &numDevices); EXPECT_EQ(CL_DEVICE_NOT_FOUND, retVal); EXPECT_EQ(0, numDevices); } } // namespace NEO