/* * Copyright (C) 2020-2023 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "shared/source/gmm_helper/gmm.h" #include "shared/source/gmm_helper/gmm_helper.h" #include "shared/source/helpers/string.h" #include "shared/source/os_interface/driver_info.h" #include "shared/source/os_interface/windows/wddm/um_km_data_translator.h" #include "shared/source/os_interface/windows/wddm_allocation.h" #include "shared/test/common/helpers/debug_manager_state_restore.h" #include "shared/test/common/mocks/mock_gmm_client_context_base.h" #include "shared/test/common/mocks/mock_io_functions.h" #include "shared/test/common/os_interface/windows/wddm_fixture.h" #include "shared/test/common/test_macros/hw_test.h" namespace NEO { std::unique_ptr createHwDeviceIdFromAdapterLuid(OsEnvironmentWin &osEnvironment, LUID adapterLuid, uint32_t nodeMask); using WddmTests = WddmTestWithMockGdiDll; TEST_F(WddmTests, whenCreatingAllocation64kThenDoNotCreateResource) { init(); D3DKMT_HANDLE handle; Gmm gmm(executionEnvironment->rootDeviceEnvironments[0]->getGmmHelper(), nullptr, 20, 0, GMM_RESOURCE_USAGE_OCL_BUFFER, true, {}, true); EXPECT_TRUE(wddm->createAllocation(&gmm, handle)); auto gdiParam = getMockAllocationFcn(); EXPECT_EQ(FALSE, gdiParam->Flags.CreateResource); } TEST_F(WddmTests, whenInitializingWddmThenSetTimestampFrequencyToCorrectValue) { EXPECT_EQ(0u, wddm->timestampFrequency); init(); EXPECT_EQ(1u, wddm->timestampFrequency); } TEST_F(WddmTests, givenWddmWhenPassesCorrectHandleToVerifySharedHandleThenReturnTrue) { init(); D3DKMT_HANDLE handle = 1u; EXPECT_TRUE(wddm->verifySharedHandle(handle)); } TEST_F(WddmTests, givenWddmWhenPassesIncorrectHandleToVerifySharedHandleThenReturnFalse) { init(); D3DKMT_HANDLE handle = 0u; EXPECT_FALSE(wddm->verifySharedHandle(handle)); } TEST_F(WddmTests, givenWddmWhenPassesCorrectHandleToVerifyNTHandleThenReturnTrue) { init(); uint32_t temp = 0; HANDLE handle = &temp; EXPECT_TRUE(wddm->verifyNTHandle(handle)); } TEST_F(WddmTests, givenWddmWhenPassesIncorrectHandleToVerifyNTHandleThenReturnFalse) { init(); HANDLE handle = nullptr; EXPECT_FALSE(wddm->verifyNTHandle(handle)); } TEST_F(WddmTests, whenCheckedIfResourcesCleanupCanBeSkippedThenReturnsFalse) { init(); EXPECT_FALSE(wddm->skipResourceCleanup()); EXPECT_TRUE(wddm->isDriverAvailable()); } TEST_F(WddmTests, whenCheckedIfDebugAttachAvailableThenReturnsFalse) { init(); EXPECT_FALSE(wddm->isDebugAttachAvailable()); } TEST_F(WddmTests, whenCreatingContextWithPowerHintSuccessIsReturned) { init(); auto newContext = osContext.get(); newContext->setUmdPowerHintValue(1); EXPECT_EQ(1, newContext->getUmdPowerHintValue()); wddm->createContext(*newContext); EXPECT_TRUE(wddm->createContext(*newContext)); } TEST_F(WddmTests, whenftrEuDebugIsFalseThenDebuggingEnabledReturnsFalse) { init(); EXPECT_FALSE(wddm->isDebugAttachAvailable()); } TEST_F(WddmTests, whenProgramDebugIsEnabledAndCreatingContextWithInternalEngineThenDebuggableContextReturnsFalse) { executionEnvironment->setDebuggingMode(NEO::DebuggingMode::Online); wddm->init(); OsContextWin osContext(*wddm, 0, 5u, EngineDescriptorHelper::getDefaultDescriptor({aub_stream::EngineType::ENGINE_RCS, EngineUsage::Internal})); osContext.ensureContextInitialized(); EXPECT_FALSE(osContext.isDebuggableContext()); } TEST_F(WddmTests, WhenCallingInitializeContextWithContextCreateDisabledFlagEnabledThenContextHandleIsNull) { std::unordered_map mockableEnvs = {{"NEO_L0_SYSMAN_NO_CONTEXT_MODE", "1"}}; VariableBackup *> mockableEnvValuesBackup(&IoFunctions::mockableEnvValues, &mockableEnvs); init(); auto newContext = osContext.get(); EXPECT_TRUE(newContext->ensureContextInitialized()); EXPECT_EQ(0u, newContext->getWddmContextHandle()); } TEST_F(WddmTests, WhenCallingReInitializeContextWithContextCreateDisabledFlagEnabledThenContextHandleIsNull) { std::unordered_map mockableEnvs = {{"NEO_L0_SYSMAN_NO_CONTEXT_MODE", "1"}}; VariableBackup *> mockableEnvValuesBackup(&IoFunctions::mockableEnvValues, &mockableEnvs); init(); auto newContext = osContext.get(); newContext->reInitializeContext(); EXPECT_EQ(0u, newContext->getWddmContextHandle()); } TEST(WddmPciSpeedInfoTest, WhenGetPciSpeedInfoIsCalledThenUnknownIsReturned) { MockExecutionEnvironment executionEnvironment; RootDeviceEnvironment rootDeviceEnvironment(executionEnvironment); auto wddm = Wddm::createWddm(nullptr, rootDeviceEnvironment); wddm->init(); auto speedInfo = wddm->getPciSpeedInfo(); EXPECT_EQ(-1, speedInfo.genVersion); EXPECT_EQ(-1, speedInfo.width); EXPECT_EQ(-1, speedInfo.maxBandwidth); } TEST_F(WddmTests, whenGetAdapterLuidThenLuidIsReturned) { HwDeviceIdWddm *hwDeviceId = new HwDeviceIdWddm(0, {0, 0}, 1u, executionEnvironment->osEnvironment.get(), nullptr); wddm->hwDeviceId.reset(hwDeviceId); auto luid = wddm->getAdapterLuid(); EXPECT_TRUE(luid.HighPart == 0 && luid.LowPart == 0); } TEST_F(WddmTests, GivenDebugFlagDisablesEvictIfNecessarySupportThenFlagIsFalse) { DebugManagerStateRestore restorer{}; DebugManager.flags.PlaformSupportEvictIfNecessaryFlag.set(0); auto &productHelper = executionEnvironment->rootDeviceEnvironments[0]->getHelper(); wddm->setPlatformSupportEvictIfNecessaryFlag(productHelper); EXPECT_FALSE(wddm->platformSupportsEvictIfNecessary); } TEST_F(WddmTests, GivenDebugFlagEnablesEvictIfNecessarySupportThenFlagIsTrue) { DebugManagerStateRestore restorer{}; DebugManager.flags.PlaformSupportEvictIfNecessaryFlag.set(1); auto &productHelper = executionEnvironment->rootDeviceEnvironments[0]->getHelper(); wddm->setPlatformSupportEvictIfNecessaryFlag(productHelper); EXPECT_TRUE(wddm->platformSupportsEvictIfNecessary); } TEST_F(WddmTests, givenDebugFlagForceEvictOnlyIfNecessaryAllValuesThenForceSettingIsSetCorrectly) { DebugManagerStateRestore restorer{}; auto &productHelper = executionEnvironment->rootDeviceEnvironments[0]->getHelper(); wddm->setPlatformSupportEvictIfNecessaryFlag(productHelper); EXPECT_EQ(-1, wddm->forceEvictOnlyIfNecessary); DebugManager.flags.ForceEvictOnlyIfNecessaryFlag.set(0); wddm->setPlatformSupportEvictIfNecessaryFlag(productHelper); EXPECT_EQ(0, wddm->forceEvictOnlyIfNecessary); DebugManager.flags.ForceEvictOnlyIfNecessaryFlag.set(1); wddm->setPlatformSupportEvictIfNecessaryFlag(productHelper); EXPECT_EQ(1, wddm->forceEvictOnlyIfNecessary); } TEST_F(WddmTests, GivengtSystemInfoSliceInfoHasEnabledSlicesAtHigherIndicesThenExpectTopologyMapCreateAndReturnTrue) { VariableBackup backupHwInfo(defaultHwInfo.get()); defaultHwInfo.get()->gtSystemInfo.MaxSlicesSupported = 2; defaultHwInfo.get()->gtSystemInfo.IsDynamicallyPopulated = true; defaultHwInfo.get()->gtSystemInfo.SliceCount = 1; // Only one slice enabled for (auto &sliceInfo : defaultHwInfo->gtSystemInfo.SliceInfo) { sliceInfo.Enabled = false; } defaultHwInfo.get()->gtSystemInfo.SliceInfo[3].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[3].DualSubSliceEnabledCount = 1; defaultHwInfo.get()->gtSystemInfo.SliceInfo[3].DSSInfo[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[3].DSSInfo[0].SubSlice[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[3].DSSInfo[0].SubSlice[0].EuEnabledCount = 4; defaultHwInfo.get()->gtSystemInfo.SliceInfo[3].DSSInfo[0].SubSlice[1].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[3].DSSInfo[0].SubSlice[1].EuEnabledCount = 4; const HardwareInfo *hwInfo = defaultHwInfo.get(); std::unique_ptr mockGdiDll(setAdapterInfo(&hwInfo->platform, &hwInfo->gtSystemInfo, hwInfo->capabilityTable.gpuAddressSpace)); EXPECT_TRUE(wddm->init()); const auto &topologyMap = wddm->getTopologyMap(); EXPECT_EQ(topologyMap.size(), 1u); } TEST_F(WddmTests, GivenProperTopologyDataWhenInitializingWddmThenExpectTopologyMapCreateAndReturnTrue) { VariableBackup backupHwInfo(defaultHwInfo.get()); defaultHwInfo.get()->gtSystemInfo.MaxSlicesSupported = GT_MAX_SLICE; defaultHwInfo.get()->gtSystemInfo.IsDynamicallyPopulated = true; defaultHwInfo.get()->gtSystemInfo.SliceCount = 1; // Only one slice enabled defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DualSubSliceEnabledCount = 1; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[0].EuEnabledCount = 4; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[1].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[1].EuEnabledCount = 4; const HardwareInfo *hwInfo = defaultHwInfo.get(); std::unique_ptr mockGdiDll(setAdapterInfo(&hwInfo->platform, &hwInfo->gtSystemInfo, hwInfo->capabilityTable.gpuAddressSpace)); EXPECT_TRUE(wddm->init()); const auto &topologyMap = wddm->getTopologyMap(); EXPECT_EQ(topologyMap.size(), 1u); } TEST_F(WddmTests, GivenNoSubsliceEnabledAndDebugFlagsEnabledWhenInitializingWddmThenExpectTopologyMapNotCreated) { VariableBackup backupHwInfo(defaultHwInfo.get()); defaultHwInfo.get()->gtSystemInfo.MaxSlicesSupported = GT_MAX_SLICE; defaultHwInfo.get()->gtSystemInfo.SliceCount = 1; // Only one slice enabled defaultHwInfo.get()->gtSystemInfo.IsDynamicallyPopulated = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DualSubSliceEnabledCount = 1; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[0].Enabled = false; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[1].Enabled = false; const HardwareInfo *hwInfo = defaultHwInfo.get(); std::unique_ptr mockGdiDll(setAdapterInfo(&hwInfo->platform, &hwInfo->gtSystemInfo, hwInfo->capabilityTable.gpuAddressSpace)); EXPECT_TRUE(wddm->init()); const auto &topologyMap = wddm->getTopologyMap(); EXPECT_TRUE(topologyMap.empty()); } TEST_F(WddmTests, GivenProperTopologyDataWhenQueryingTopologyThenExpectTrue) { VariableBackup backupHwInfo(defaultHwInfo.get()); defaultHwInfo.get()->gtSystemInfo.MultiTileArchInfo.TileCount = 1; defaultHwInfo.get()->gtSystemInfo.MaxSlicesSupported = GT_MAX_SLICE; defaultHwInfo.get()->gtSystemInfo.IsDynamicallyPopulated = true; defaultHwInfo.get()->gtSystemInfo.SliceCount = 1; // Only one slice enabled for (auto &sliceInfo : defaultHwInfo->gtSystemInfo.SliceInfo) { sliceInfo.Enabled = false; } defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DualSubSliceEnabledCount = 2; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].Enabled = false; // DSS[0] disabled defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[1].Enabled = true; // DSS[1] enabled defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[1].SubSlice[0].Enabled = false; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[1].SubSlice[1].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[1].SubSlice[1].EuEnabledCount = 4; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[2].Enabled = false; // DSS[2] disabled defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[3].Enabled = true; // DSS[3] enabled defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[3].SubSlice[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[3].SubSlice[1].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[3].SubSlice[1].EuEnabledCount = 4; wddm->rootDeviceEnvironment.setHwInfoAndInitHelpers(defaultHwInfo.get()); EXPECT_TRUE(wddm->buildTopologyMapping()); const auto &topologyMap = wddm->getTopologyMap(); EXPECT_EQ(topologyMap.size(), 1u); EXPECT_EQ(topologyMap.at(0).sliceIndices.size(), 1u); EXPECT_EQ(topologyMap.at(0).sliceIndices[0], 0); EXPECT_EQ(topologyMap.at(0).subsliceIndices.size(), 3u); EXPECT_EQ(topologyMap.at(0).subsliceIndices[0], 3); EXPECT_EQ(topologyMap.at(0).subsliceIndices[1], 6); EXPECT_EQ(topologyMap.at(0).subsliceIndices[2], 7); } TEST_F(WddmTests, GivenMoreThanOneEnabledSliceWhenQueryingTopologyThenExpectTrueAndNoSubSliceIndicesInTopology) { VariableBackup backupHwInfo(defaultHwInfo.get()); defaultHwInfo.get()->gtSystemInfo.MultiTileArchInfo.TileCount = 1; defaultHwInfo.get()->gtSystemInfo.MaxSlicesSupported = GT_MAX_SLICE; defaultHwInfo.get()->gtSystemInfo.SliceCount = 2; defaultHwInfo.get()->gtSystemInfo.IsDynamicallyPopulated = true; for (auto &sliceInfo : defaultHwInfo->gtSystemInfo.SliceInfo) { sliceInfo.Enabled = false; } uint32_t index = 1; for (uint32_t enabledSliceCount = 0; enabledSliceCount < defaultHwInfo.get()->gtSystemInfo.SliceCount; enabledSliceCount++) { defaultHwInfo.get()->gtSystemInfo.SliceInfo[index].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[index].DualSubSliceEnabledCount = 1; defaultHwInfo.get()->gtSystemInfo.SliceInfo[index].DSSInfo[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[index].DSSInfo[0].SubSlice[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[index].DSSInfo[0].SubSlice[0].EuEnabledCount = 4; defaultHwInfo.get()->gtSystemInfo.SliceInfo[index].DSSInfo[0].SubSlice[1].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[index].DSSInfo[0].SubSlice[1].EuEnabledCount = 4; index++; } wddm->rootDeviceEnvironment.setHwInfoAndInitHelpers(defaultHwInfo.get()); EXPECT_TRUE(wddm->buildTopologyMapping()); const auto &topologyMap = wddm->getTopologyMap(); EXPECT_EQ(topologyMap.size(), 1u); EXPECT_EQ(topologyMap.at(0).sliceIndices.size(), 2u); EXPECT_EQ(topologyMap.at(0).sliceIndices[0], 1); EXPECT_EQ(topologyMap.at(0).sliceIndices[1], 2); EXPECT_TRUE(topologyMap.at(0).subsliceIndices.empty()); } TEST_F(WddmTests, GivenNoSubsliceEnabledWhenQueryingTopologyThenExpectFalse) { VariableBackup backupHwInfo(defaultHwInfo.get()); defaultHwInfo.get()->gtSystemInfo.MultiTileArchInfo.TileCount = 1; defaultHwInfo.get()->gtSystemInfo.MaxSlicesSupported = GT_MAX_SLICE; defaultHwInfo.get()->gtSystemInfo.SliceCount = 1; defaultHwInfo.get()->gtSystemInfo.IsDynamicallyPopulated = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DualSubSliceEnabledCount = 1; // Lets say, DSS 0 is disabled and dss 1 is enabled, thus overall DSS enable count is 1 defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].Enabled = false; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[1].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[0].Enabled = false; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[1].Enabled = false; wddm->rootDeviceEnvironment.setHwInfoAndInitHelpers(defaultHwInfo.get()); EXPECT_FALSE(wddm->buildTopologyMapping()); } TEST_F(WddmTests, GivenNoEuThreadsEnabledWhenQueryingTopologyThenExpectFalse) { VariableBackup backupHwInfo(defaultHwInfo.get()); defaultHwInfo.get()->gtSystemInfo.MultiTileArchInfo.TileCount = 1; defaultHwInfo.get()->gtSystemInfo.MaxSlicesSupported = GT_MAX_SLICE; defaultHwInfo.get()->gtSystemInfo.SliceCount = 1; defaultHwInfo.get()->gtSystemInfo.IsDynamicallyPopulated = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DualSubSliceEnabledCount = 1; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[0].Enabled = true; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[0].EuEnabledCount = 0; defaultHwInfo.get()->gtSystemInfo.SliceInfo[0].DSSInfo[0].SubSlice[1].Enabled = false; wddm->rootDeviceEnvironment.setHwInfoAndInitHelpers(defaultHwInfo.get()); EXPECT_FALSE(wddm->buildTopologyMapping()); } TEST_F(WddmTests, GivenNoSliceEnabledWhenQueryingTopologyThenExpectFalse) { VariableBackup backupHwInfo(defaultHwInfo.get()); defaultHwInfo.get()->gtSystemInfo.MultiTileArchInfo.TileCount = 1; for (auto &sliceInfo : defaultHwInfo->gtSystemInfo.SliceInfo) { sliceInfo.Enabled = false; } wddm->rootDeviceEnvironment.setHwInfoAndInitHelpers(defaultHwInfo.get()); EXPECT_FALSE(wddm->buildTopologyMapping()); } TEST_F(WddmTests, GivenPlatformSupportsEvictIfNecessaryWhenAdjustingEvictNeededTrueThenExpectTrue) { wddm->platformSupportsEvictIfNecessary = true; bool value = wddm->adjustEvictNeededParameter(true); EXPECT_TRUE(value); } TEST_F(WddmTests, GivenWddmWhenAdditionalAdapterInfoOptionIsSetThenCorrectValueIsReturned) { wddm->additionalAdapterInfoOptions = 13u; EXPECT_EQ(13u, wddm->getAdditionalAdapterInfoOptions()); } TEST_F(WddmTests, GivenPlatformNotSupportEvictIfNecessaryWhenAdjustingEvictNeededTrueThenExpectTrue) { wddm->platformSupportsEvictIfNecessary = false; bool value = wddm->adjustEvictNeededParameter(true); EXPECT_TRUE(value); } TEST_F(WddmTests, GivenPlatformSupportsEvictIfNecessaryWhenAdjustingEvictNeededFalseThenExpectFalse) { wddm->platformSupportsEvictIfNecessary = true; bool value = wddm->adjustEvictNeededParameter(false); EXPECT_FALSE(value); } TEST_F(WddmTests, GivenForceEvictOnlyIfNecessarySetToNotUseTheEvictFlagWhenAdjustingEvictNeededAlwaysIsFalseThenExpectTrue) { wddm->platformSupportsEvictIfNecessary = true; wddm->forceEvictOnlyIfNecessary = 0; bool value = wddm->adjustEvictNeededParameter(false); EXPECT_TRUE(value); } TEST_F(WddmTests, GivenForceEvictOnlyIfNecessarySetToUseEvictFlagWhenAdjustingEvictNeededAlwaysIsTrueThenExpectFalse) { wddm->forceEvictOnlyIfNecessary = 1; bool value = wddm->adjustEvictNeededParameter(true); EXPECT_FALSE(value); } TEST_F(WddmTests, GivenPlatformNotSupportEvictIfNecessaryWhenAdjustingEvictNeededFalseThenExpectTrue) { wddm->platformSupportsEvictIfNecessary = false; bool value = wddm->adjustEvictNeededParameter(false); EXPECT_TRUE(value); } TEST_F(WddmTests, GivenWddmWhenMapGpuVaCalledThenGmmClientCallsMapGpuVa) { NEO::AllocationData allocData = {}; allocData.type = NEO::AllocationType::BUFFER; wddm->callBaseDestroyAllocations = false; wddm->pagingQueue = PAGINGQUEUE_HANDLE; auto memoryManager = std::make_unique(*executionEnvironment); auto allocation = static_cast(memoryManager->allocateGraphicsMemoryWithProperties(MockAllocationProperties{0, MemoryConstants::pageSize})); wddm->mapGpuVirtualAddress(allocation); EXPECT_GT(reinterpret_cast(allocation->getDefaultGmm()->getGmmHelper()->getClientContext())->mapGpuVirtualAddressCalled, 0u); memoryManager->freeGraphicsMemory(allocation); } TEST_F(WddmTests, givenCheckDeviceStateSetToTrueWhenCallGetDeviceStateAndForceExecutionStateThenProperMessageIsVisible) { DebugManagerStateRestore restorer{}; DebugManager.flags.EnableDebugBreak.set(false); wddm->checkDeviceState = true; auto executionState = D3DKMT_DEVICEEXECUTION_ERROR_OUTOFMEMORY; setMockDeviceExecutionStateFcn(executionState); ::testing::internal::CaptureStderr(); wddm->getDeviceState(); std::string output = testing::internal::GetCapturedStderr(); EXPECT_EQ(std::string("Device execution error, out of memory " + std::to_string(executionState) + "\n"), output); setMockDeviceExecutionStateFcn(D3DKMT_DEVICEEXECUTION_ACTIVE); ::testing::internal::CaptureStderr(); wddm->getDeviceState(); output = testing::internal::GetCapturedStderr(); EXPECT_EQ(std::string(""), output); } TEST_F(WddmTests, givenCheckDeviceStateSetToFalseWhenCallGetDeviceStateAndForceExecutionStateThenNoMessageIsVisible) { DebugManagerStateRestore restorer{}; DebugManager.flags.EnableDebugBreak.set(false); wddm->checkDeviceState = false; auto executionState = D3DKMT_DEVICEEXECUTION_ERROR_OUTOFMEMORY; setMockDeviceExecutionStateFcn(executionState); ::testing::internal::CaptureStderr(); wddm->getDeviceState(); std::string output = testing::internal::GetCapturedStderr(); EXPECT_EQ(std::string(""), output); setMockDeviceExecutionStateFcn(D3DKMT_DEVICEEXECUTION_ACTIVE); ::testing::internal::CaptureStderr(); wddm->getDeviceState(); output = testing::internal::GetCapturedStderr(); EXPECT_EQ(std::string(""), output); } TEST(WddmConstructorTest, givenEnableDeviceStateVerificationSetTrueWhenCreateWddmThenCheckDeviceStateIsTrue) { DebugManagerStateRestore restorer{}; DebugManager.flags.EnableDeviceStateVerification.set(1); auto executionEnvironment = std::make_unique(); auto rootDeviceEnvironment = executionEnvironment->rootDeviceEnvironments[0].get(); auto mockWddm = std::make_unique(*rootDeviceEnvironment); EXPECT_TRUE(mockWddm->checkDeviceState); } TEST(WddmConstructorTest, givenEnableDeviceStateVerificationSetFalseWhenCreateWddmThenCheckDeviceStateIsFalse) { DebugManagerStateRestore restorer{}; DebugManager.flags.EnableDeviceStateVerification.set(0); auto executionEnvironment = std::make_unique(); auto rootDeviceEnvironment = executionEnvironment->rootDeviceEnvironments[0].get(); auto mockWddm = std::make_unique(*rootDeviceEnvironment); EXPECT_FALSE(mockWddm->checkDeviceState); } uint64_t waitForSynchronizationObjectFromCpuCounter = 0u; NTSTATUS __stdcall waitForSynchronizationObjectFromCpuNoOpMock(const D3DKMT_WAITFORSYNCHRONIZATIONOBJECTFROMCPU *waitStruct) { waitForSynchronizationObjectFromCpuCounter++; return STATUS_SUCCESS; } class WddmSkipResourceCleanupMock : public WddmMock { public: using NEO::DriverModel::skipResourceCleanupVar; }; struct WddmSkipResourceCleanupFixtureWithMockGdiDll : public GdiDllFixture, public MockExecutionEnvironmentGmmFixture { void setUp() { MockExecutionEnvironmentGmmFixture::setUp(); GdiDllFixture::setUp(); rootDeviceEnvironment = executionEnvironment->rootDeviceEnvironments[0].get(); wddm = static_cast(Wddm::createWddm(nullptr, *rootDeviceEnvironment)); wddmMockInterface = new WddmMockInterface20(*wddm); wddm->wddmInterface.reset(wddmMockInterface); rootDeviceEnvironment->osInterface = std::make_unique(); rootDeviceEnvironment->osInterface->setDriverModel(std::unique_ptr(wddm)); rootDeviceEnvironment->memoryOperationsInterface = std::make_unique(wddm); osInterface = rootDeviceEnvironment->osInterface.get(); } void init() { auto preemptionMode = PreemptionHelper::getDefaultPreemptionMode(*defaultHwInfo); wddmMockInterface = static_cast(wddm->wddmInterface.release()); wddm->init(); wddm->wddmInterface.reset(wddmMockInterface); auto &gfxCoreHelper = rootDeviceEnvironment->getHelper(); auto engine = gfxCoreHelper.getGpgpuEngineInstances(*rootDeviceEnvironment)[0]; osContext = std::make_unique(*osInterface->getDriverModel()->as(), 0, 0u, EngineDescriptorHelper::getDefaultDescriptor(engine, preemptionMode)); osContext->ensureContextInitialized(); } void tearDown() { osContext.reset(nullptr); GdiDllFixture::tearDown(); MockExecutionEnvironmentGmmFixture::tearDown(); } WddmSkipResourceCleanupMock *wddm = nullptr; OSInterface *osInterface; std::unique_ptr osContext; WddmMockInterface20 *wddmMockInterface = nullptr; RootDeviceEnvironment *rootDeviceEnvironment = nullptr; }; using WddmSkipResourceCleanupFixtureTests = Test; TEST_F(WddmSkipResourceCleanupFixtureTests, givenWaitForSynchronizationObjectFromCpuWhenSkipResourceCleanupIsTrueThenSuccessIsReturnedAndGdiFunctionIsNotCalled) { VariableBackup varBackup(&waitForSynchronizationObjectFromCpuCounter); init(); wddm->skipResourceCleanupVar = true; EXPECT_TRUE(wddm->skipResourceCleanup()); wddm->getGdi()->waitForSynchronizationObjectFromCpu = &waitForSynchronizationObjectFromCpuNoOpMock; MonitoredFence monitoredFence = {}; EXPECT_TRUE(wddm->waitFromCpu(0, monitoredFence)); EXPECT_EQ(0u, waitForSynchronizationObjectFromCpuCounter); } TEST_F(WddmSkipResourceCleanupFixtureTests, givenWaitForSynchronizationObjectFromCpuWhenSkipResourceCleanupIsFalseThenSuccessIsReturnedAndGdiFunctionIsCalled) { VariableBackup varBackup(&waitForSynchronizationObjectFromCpuCounter); init(); wddm->skipResourceCleanupVar = false; EXPECT_FALSE(wddm->skipResourceCleanup()); wddm->getGdi()->waitForSynchronizationObjectFromCpu = &waitForSynchronizationObjectFromCpuNoOpMock; uint64_t fenceValue = 0u; D3DKMT_HANDLE fenceHandle = 1u; MonitoredFence monitoredFence = {}; monitoredFence.lastSubmittedFence = 1u; monitoredFence.cpuAddress = &fenceValue; monitoredFence.fenceHandle = fenceHandle; EXPECT_TRUE(wddm->waitFromCpu(1u, monitoredFence)); EXPECT_EQ(1u, waitForSynchronizationObjectFromCpuCounter); } TEST_F(WddmSkipResourceCleanupFixtureTests, givenWaitForSynchronizationObjectFromCpuWhenSkipResourceCleanupIsFalseAndFenceWasNotUpdatedThenSuccessIsReturnedAndGdiFunctionIsNotCalled) { VariableBackup varBackup(&waitForSynchronizationObjectFromCpuCounter); init(); wddm->skipResourceCleanupVar = false; EXPECT_FALSE(wddm->skipResourceCleanup()); wddm->getGdi()->waitForSynchronizationObjectFromCpu = &waitForSynchronizationObjectFromCpuNoOpMock; uint64_t fenceValue = 1u; MonitoredFence monitoredFence = {}; monitoredFence.lastSubmittedFence = 0u; monitoredFence.cpuAddress = &fenceValue; EXPECT_TRUE(wddm->waitFromCpu(1u, monitoredFence)); EXPECT_EQ(0u, waitForSynchronizationObjectFromCpuCounter); } TEST(WddmAllocationTest, whenAllocationIsShareableThenSharedHandleToModifyIsSharedHandleOfAllocation) { WddmAllocation allocation(0, AllocationType::UNKNOWN, nullptr, 0, MemoryConstants::pageSize, nullptr, MemoryPool::MemoryNull, true, 1u); auto sharedHandleToModify = allocation.getSharedHandleToModify(); EXPECT_NE(nullptr, sharedHandleToModify); *sharedHandleToModify = 1234u; uint64_t handle = 0; int ret = allocation.peekInternalHandle(nullptr, handle); EXPECT_EQ(ret, 0); EXPECT_EQ(*sharedHandleToModify, handle); } TEST(WddmAllocationTest, whenAllocationIsNotShareableThenItDoesntReturnSharedHandleToModifyAndCantPeekInternalHandle) { WddmAllocation allocation(0, AllocationType::UNKNOWN, nullptr, 0, MemoryConstants::pageSize, nullptr, MemoryPool::MemoryNull, false, 1u); auto sharedHandleToModify = allocation.getSharedHandleToModify(); EXPECT_EQ(nullptr, sharedHandleToModify); uint64_t handle = 0; int ret = allocation.peekInternalHandle(nullptr, handle); EXPECT_NE(ret, 0); } } // namespace NEO