/* * Copyright (C) 2018-2025 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "shared/source/command_stream/submission_status.h" #include "shared/source/helpers/file_io.h" #include "shared/source/helpers/gpu_page_fault_helper.h" #include "shared/source/helpers/hw_info.h" #include "shared/source/os_interface/device_factory.h" #include "shared/source/os_interface/driver_info.h" #include "shared/source/os_interface/linux/i915.h" #include "shared/source/os_interface/linux/memory_info.h" #include "shared/source/os_interface/linux/os_context_linux.h" #include "shared/source/os_interface/linux/os_inc.h" #include "shared/source/os_interface/os_interface.h" #include "shared/source/utilities/directory.h" #include "shared/test/common/helpers/debug_manager_state_restore.h" #include "shared/test/common/helpers/default_hw_info.h" #include "shared/test/common/helpers/engine_descriptor_helper.h" #include "shared/test/common/helpers/raii_gfx_core_helper.h" #include "shared/test/common/helpers/variable_backup.h" #include "shared/test/common/libult/linux/drm_mock.h" #include "shared/test/common/mocks/linux/mock_drm_memory_manager.h" #include "shared/test/common/mocks/linux/mock_ioctl_helper.h" #include "shared/test/common/mocks/linux/mock_os_context_linux.h" #include "shared/test/common/mocks/mock_execution_environment.h" #include "shared/test/common/os_interface/linux/drm_mock_memory_info.h" #include "shared/test/common/os_interface/linux/sys_calls_linux_ult.h" #include "shared/test/common/test_macros/hw_test.h" #include "gtest/gtest.h" #include #include using namespace NEO; namespace NEO { extern bool returnEmptyFilesVector; } std::string getLinuxDevicesPath(const char *file) { std::string resultString(Os::sysFsPciPathPrefix); resultString += file; return resultString; } TEST(DrmTest, whenGettingSubmissionStatusFromReturnCodeThenProperValueIsReturned) { EXPECT_EQ(SubmissionStatus::success, Drm::getSubmissionStatusFromReturnCode(0)); EXPECT_EQ(SubmissionStatus::outOfHostMemory, Drm::getSubmissionStatusFromReturnCode(EWOULDBLOCK)); EXPECT_EQ(SubmissionStatus::outOfHostMemory, Drm::getSubmissionStatusFromReturnCode(ENOSPC)); EXPECT_EQ(SubmissionStatus::outOfHostMemory, Drm::getSubmissionStatusFromReturnCode(ENOMEM)); EXPECT_EQ(SubmissionStatus::outOfMemory, Drm::getSubmissionStatusFromReturnCode(ENXIO)); EXPECT_EQ(SubmissionStatus::failed, Drm::getSubmissionStatusFromReturnCode(EBUSY)); } TEST(DrmTest, GivenValidPciPathWhenGettingAdapterBdfThenCorrectValuesAreReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; { drm.setPciPath("0000:ab:cd.e"); EXPECT_EQ(0, drm.queryAdapterBDF()); auto adapterBdf = drm.adapterBDF; EXPECT_EQ(0xabu, adapterBdf.Bus); EXPECT_EQ(0xcdu, adapterBdf.Device); EXPECT_EQ(0xeu, adapterBdf.Function); auto pciInfo = drm.getPciBusInfo(); EXPECT_EQ(0x0u, pciInfo.pciDomain); EXPECT_EQ(0xabu, pciInfo.pciBus); EXPECT_EQ(0xcdu, pciInfo.pciDevice); EXPECT_EQ(0xeu, pciInfo.pciFunction); } { drm.setPciPath("0000:01:23.4"); EXPECT_EQ(0, drm.queryAdapterBDF()); auto adapterBdf = drm.adapterBDF; EXPECT_EQ(0x1u, adapterBdf.Bus); EXPECT_EQ(0x23u, adapterBdf.Device); EXPECT_EQ(0x4u, adapterBdf.Function); auto pciInfo = drm.getPciBusInfo(); EXPECT_EQ(0x0u, pciInfo.pciDomain); EXPECT_EQ(0x1u, pciInfo.pciBus); EXPECT_EQ(0x23u, pciInfo.pciDevice); EXPECT_EQ(0x4u, pciInfo.pciFunction); } } TEST(DrmTest, GivenInvalidPciPathWhenGettingAdapterBdfThenInvalidPciInfoIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.setPciPath("invalidPci"); EXPECT_EQ(1, drm.queryAdapterBDF()); auto adapterBdf = drm.adapterBDF; EXPECT_EQ(std::numeric_limits::max(), adapterBdf.Data); auto pciInfo = drm.getPciBusInfo(); EXPECT_EQ(PhysicalDevicePciBusInfo::invalidValue, pciInfo.pciDomain); EXPECT_EQ(PhysicalDevicePciBusInfo::invalidValue, pciInfo.pciBus); EXPECT_EQ(PhysicalDevicePciBusInfo::invalidValue, pciInfo.pciDevice); EXPECT_EQ(PhysicalDevicePciBusInfo::invalidValue, pciInfo.pciFunction); } TEST(DrmTest, GivenInvalidPciPathWhenFrequencyIsQueriedThenReturnError) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto hwInfo = *defaultHwInfo; int maxFrequency = 0; drm.setPciPath("invalidPci"); int ret = drm.getMaxGpuFrequency(hwInfo, maxFrequency); EXPECT_NE(0, ret); EXPECT_EQ(0, maxFrequency); } TEST(DrmTest, GivenValidSysfsNodeWhenGetDeviceMemoryMaxClockRateInMhzIsCalledThenReturnSuccess) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.setPciPath("device"); VariableBackup mockOpen(&SysCalls::sysCallsOpen, [](const char *pathname, int flags) -> int { return 1; }); VariableBackup mockPread(&SysCalls::sysCallsPread, [](int fd, void *buf, size_t count, off_t offset) -> ssize_t { const std::string testData("800"); memcpy(buf, testData.data(), testData.length() + 1); return 4; }); uint32_t clkRate = 0; EXPECT_TRUE(drm.getDeviceMemoryMaxClockRateInMhz(0, clkRate)); EXPECT_EQ(clkRate, 800u); } struct MockIoctlHelperForSmallBar : public IoctlHelperUpstream { using IoctlHelperUpstream::IoctlHelperUpstream; std::unique_ptr createMemoryInfo() override { auto memoryInfo{new MockMemoryInfo{drm}}; memoryInfo->smallBarDetected = true; return std::unique_ptr{memoryInfo}; } }; TEST(DrmTest, givenSmallBarDetectedInMemoryInfoWhenSetupHardwareInfoCalledThenErrorMessagePrinted) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.setPciPath("0000:ab:cd.e"); auto setupHardwareInfo = [](HardwareInfo *hwInfo, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, defaultHwInfo.get(), setupHardwareInfo}; auto mockIoctlHelper = std::make_unique(drm); drm.ioctlHelper.reset(mockIoctlHelper.release()); ::testing::internal::CaptureStderr(); EXPECT_EQ(-1, drm.setupHardwareInfo(&device, false)); std::string output = testing::internal::GetCapturedStderr(); EXPECT_STREQ("WARNING: Small BAR detected for device 0000:ab:cd.e\n", output.c_str()); } TEST(DrmTest, GivenMemoryInfoWithLocalMemoryRegionsWhenGetDeviceMemoryPhysicalSizeInBytesIsCalledThenCorrectSizeReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto ioctlHelper{drm.getIoctlHelper()}; const auto memoryClassSystem = static_cast(ioctlHelper->getDrmParamValue(DrmParam::memoryClassSystem)); const auto memoryClassDevice = static_cast(ioctlHelper->getDrmParamValue(DrmParam::memoryClassDevice)); std::vector memRegions(3); memRegions[0] = {{memoryClassSystem, 0}, 1024}; memRegions[1] = {{memoryClassDevice, 0}, 2048}; memRegions[2] = {{memoryClassDevice, 1}, 3072}; drm.memoryInfo.reset(new MemoryInfo{memRegions, drm}); uint64_t size{0U}; EXPECT_TRUE(drm.getDeviceMemoryPhysicalSizeInBytes(0, size)); EXPECT_EQ(2048u, size); } TEST(DrmTest, GivenMemoryInfoWithNoLocalMemoryRegionsWhenGetDeviceMemoryPhysicalSizeInBytesIsCalledThenZeroIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto ioctlHelper{drm.getIoctlHelper()}; const auto memoryClassSystem = static_cast(ioctlHelper->getDrmParamValue(DrmParam::memoryClassSystem)); std::vector memRegions(1); memRegions[0] = {{memoryClassSystem, 0}, 2048}; drm.memoryInfo.reset(new MemoryInfo{memRegions, drm}); uint64_t size{0U}; EXPECT_FALSE(drm.getDeviceMemoryPhysicalSizeInBytes(0, size)); EXPECT_EQ(0U, size); } TEST(DrmTest, GivenNoMemoryInfoWhenGetDeviceMemoryPhysicalSizeInBytesIsCalledThenZeroIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; uint64_t size{0U}; EXPECT_FALSE(drm.getDeviceMemoryPhysicalSizeInBytes(0, size)); EXPECT_EQ(0U, size); } TEST(DrmTest, GivenInValidSysfsNodeWhenGetDeviceMemoryMaxClockRateInMhzIsCalledThenReturnSuccess) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.setPciPath("device"); VariableBackup mockOpen(&SysCalls::sysCallsOpen, [](const char *pathname, int flags) -> int { return -1; }); uint32_t clkRate = 0; EXPECT_FALSE(drm.getDeviceMemoryMaxClockRateInMhz(0, clkRate)); } TEST(DrmTest, givenSysfsNodeReadFailsWithErrnoWhenGetDeviceMemoryMaxClockRateInMhzIsCalledThenReturnError) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.setPciPath("device"); VariableBackup mockOpen(&SysCalls::sysCallsOpen, [](const char *pathname, int flags) -> int { return 1; }); VariableBackup mockPread(&SysCalls::sysCallsPread, [](int fd, void *buf, size_t count, off_t offset) -> ssize_t { const std::string testData("800"); memcpy(buf, testData.data(), testData.length() + 1); errno = 1; return 4; }); uint32_t clkRate = 0; EXPECT_FALSE(drm.getDeviceMemoryMaxClockRateInMhz(0, clkRate)); } TEST(DrmTest, givenSysfsNodeReadFailsWithImproperDataWhenGetDeviceMemoryMaxClockRateInMhzIsCalledThenReturnError) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.setPciPath("device"); VariableBackup mockOpen(&SysCalls::sysCallsOpen, [](const char *pathname, int flags) -> int { return 1; }); VariableBackup mockPread(&SysCalls::sysCallsPread, [](int fd, void *buf, size_t count, off_t offset) -> ssize_t { const std::string testData("abc"); memcpy(buf, testData.data(), testData.length() + 1); return 4; }); uint32_t clkRate = 0; EXPECT_FALSE(drm.getDeviceMemoryMaxClockRateInMhz(0, clkRate)); } TEST(DrmTest, WhenGettingRevisionIdThenCorrectIdIsReturned) { auto executionEnvironment = std::make_unique(); auto pDrm = std::make_unique(*executionEnvironment->rootDeviceEnvironments[0]); EXPECT_NE(nullptr, pDrm); auto hwInfo = pDrm->getRootDeviceEnvironment().getMutableHardwareInfo(); static constexpr uint16_t mockDeviceId = 0x1234; static constexpr uint16_t mockRevisionId = 0xB; hwInfo->platform.usDeviceID = 0; hwInfo->platform.usRevId = 0; VariableBackup mockIoctl(&SysCalls::sysCallsIoctl); SysCalls::sysCallsIoctl = [](int fileDescriptor, unsigned long int request, void *arg) -> int { if (request == DRM_IOCTL_I915_GETPARAM) { auto getParam = reinterpret_cast(arg); if (getParam->param == I915_PARAM_CHIPSET_ID) { *getParam->value = mockDeviceId; } else if (getParam->param == I915_PARAM_REVISION) { *getParam->value = mockRevisionId; } else { return -1; } return 0; } return 1; }; EXPECT_TRUE(pDrm->queryDeviceIdAndRevision()); EXPECT_EQ(mockDeviceId, hwInfo->platform.usDeviceID); EXPECT_EQ(mockRevisionId, hwInfo->platform.usRevId); } TEST(DrmTest, GivenDrmWhenAskedForGttSizeThenReturnCorrectValue) { auto executionEnvironment = std::make_unique(); auto drm = std::make_unique(*executionEnvironment->rootDeviceEnvironments[0]); uint64_t queryGttSize = 0; drm->storedRetValForGetGttSize = 0; drm->storedGTTSize = 1ull << 31; EXPECT_EQ(0, drm->Drm::queryGttSize(queryGttSize, true)); EXPECT_EQ(drm->storedGTTSize, queryGttSize); queryGttSize = 0; drm->storedRetValForGetGttSize = 0; drm->storedGTTSize = 1ull << 47; EXPECT_EQ(0, drm->Drm::queryGttSize(queryGttSize, true)); EXPECT_EQ(drm->storedGTTSize, queryGttSize); queryGttSize = 0; drm->storedRetValForGetGttSize = 0; drm->storedGTTSize = 1ull << 47; EXPECT_EQ(0, drm->Drm::queryGttSize(queryGttSize, false)); EXPECT_EQ(drm->storedGTTSize, queryGttSize); queryGttSize = 0; drm->storedRetValForGetGttSize = 0; drm->storedGTTSize = (1ull << 48) - 1; EXPECT_EQ(0, drm->Drm::queryGttSize(queryGttSize, true)); EXPECT_EQ(1ull << 48, queryGttSize); queryGttSize = 0; drm->storedRetValForGetGttSize = 0; drm->storedGTTSize = (1ull << 48) - 1; EXPECT_EQ(0, drm->Drm::queryGttSize(queryGttSize, false)); EXPECT_EQ(drm->storedGTTSize, queryGttSize); queryGttSize = 0; drm->storedRetValForGetGttSize = 0; drm->storedGTTSize = (1ull << 47) + 1; EXPECT_EQ(0, drm->Drm::queryGttSize(queryGttSize, true)); EXPECT_EQ(1ull << 48, queryGttSize); queryGttSize = 0; drm->storedRetValForGetGttSize = 0; drm->storedGTTSize = (1ull << 47) + 1; EXPECT_EQ(0, drm->Drm::queryGttSize(queryGttSize, false)); EXPECT_EQ(drm->storedGTTSize, queryGttSize); queryGttSize = 0; drm->storedRetValForGetGttSize = -1; EXPECT_NE(0, drm->Drm::queryGttSize(queryGttSize, true)); EXPECT_EQ(0u, queryGttSize); } TEST(DrmTest, GivenDrmWhenAskedForContextThatFailsThenFalseIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock *pDrm = new DrmMock(*executionEnvironment->rootDeviceEnvironments[0]); pDrm->storedRetVal = -1; EXPECT_EQ(-1, pDrm->createDrmContext(1, false, false)); pDrm->storedRetVal = 0; delete pDrm; } TEST(DrmTest, GivenDrmWhenAskedForContextThatIsSuccessThenTrueIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock *pDrm = new DrmMock(*executionEnvironment->rootDeviceEnvironments[0]); pDrm->storedRetVal = 0; EXPECT_EQ(0, pDrm->createDrmContext(1, false, false)); if (pDrm->ioctlHelper->hasContextFreqHint()) { EXPECT_EQ(1u, pDrm->lowLatencyHintRequested); } delete pDrm; } TEST(DrmTest, givenDrmWhenOsContextIsCreatedThenCreateAndDestroyNewDrmOsContext) { auto executionEnvironment = std::make_unique(); DrmMock drmMock(*executionEnvironment->rootDeviceEnvironments[0]); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); { OsContextLinux osContext1(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext1.ensureContextInitialized(false); EXPECT_EQ(1u, osContext1.getDrmContextIds().size()); EXPECT_EQ(drmMock.storedDrmContextId, osContext1.getDrmContextIds()[0]); EXPECT_EQ(0u, drmMock.receivedDestroyContextId); { OsContextLinux osContext2(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext2.ensureContextInitialized(false); EXPECT_EQ(1u, osContext2.getDrmContextIds().size()); EXPECT_EQ(drmMock.storedDrmContextId, osContext2.getDrmContextIds()[0]); EXPECT_EQ(0u, drmMock.receivedDestroyContextId); } } EXPECT_EQ(4u, drmMock.receivedContextParamRequestCount); } TEST(DrmTest, whenCreatingDrmContextWithVirtualMemoryAddressSpaceThenProperVmIdIsSet) { auto executionEnvironment = std::make_unique(); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); DrmMock drmMock(*executionEnvironment->rootDeviceEnvironments[0]); ASSERT_EQ(1u, drmMock.virtualMemoryIds.size()); OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); EXPECT_EQ(2u, drmMock.receivedContextParamRequestCount); EXPECT_EQ(drmMock.requestSetVmId, static_cast(drmMock.getVirtualMemoryAddressSpace(0u))); } TEST(DrmTest, whenCreatingDrmContextWithNoVirtualMemoryAddressSpaceThenProperContextIdIsSet) { auto executionEnvironment = std::make_unique(); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); DrmMock drmMock(*executionEnvironment->rootDeviceEnvironments[0]); drmMock.destroyVirtualMemoryAddressSpace(); ASSERT_EQ(0u, drmMock.virtualMemoryIds.size()); OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); EXPECT_EQ(1u, drmMock.receivedContextParamRequestCount); // unrecoverable context } TEST(DrmTest, givenDrmAndNegativeCheckNonPersistentContextsSupportWhenOsContextIsCreatedThenReceivedContextParamRequestCountReturnsCorrectValue) { auto executionEnvironment = std::make_unique(); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); DrmMock drmMock(*executionEnvironment->rootDeviceEnvironments[0]); auto expectedCount = 1u; // unrecoverable context { drmMock.storedRetValForPersistant = -1; drmMock.checkNonPersistentContextsSupport(); expectedCount += 2; OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); EXPECT_EQ(expectedCount, drmMock.receivedContextParamRequestCount); } { drmMock.storedRetValForPersistant = 0; drmMock.checkNonPersistentContextsSupport(); ++expectedCount; OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); expectedCount += 3; EXPECT_EQ(expectedCount, drmMock.receivedContextParamRequestCount); } } TEST(DrmTest, WhenEnablingTurboBoostThenSucceeds) { auto executionEnvironment = std::make_unique(); DrmMock *pDrm = new DrmMock(*executionEnvironment->rootDeviceEnvironments[0]); int ret = pDrm->enableTurboBoost(); EXPECT_EQ(0, ret); delete pDrm; } TEST(DrmTest, WhenGettingEnabledPooledEuThenCorrectValueIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock *pDrm = new DrmMock(*executionEnvironment->rootDeviceEnvironments[0]); int enabled = 0; int ret = 0; pDrm->storedHasPooledEU = -1; #if defined(I915_PARAM_HAS_POOLED_EU) ret = pDrm->getEnabledPooledEu(enabled); EXPECT_EQ(0, ret); EXPECT_EQ(-1, enabled); pDrm->storedHasPooledEU = 0; ret = pDrm->getEnabledPooledEu(enabled); EXPECT_EQ(0, ret); EXPECT_EQ(0, enabled); pDrm->storedHasPooledEU = 1; ret = pDrm->getEnabledPooledEu(enabled); EXPECT_EQ(0, ret); EXPECT_EQ(1, enabled); pDrm->storedRetValForPooledEU = -1; ret = pDrm->getEnabledPooledEu(enabled); EXPECT_EQ(-1, ret); EXPECT_EQ(1, enabled); #else ret = pDrm->getEnabledPooledEu(enabled); EXPECT_EQ(0, ret); EXPECT_EQ(0, enabled); #endif delete pDrm; } TEST(DrmTest, WhenGettingMinEuInPoolThenCorrectValueIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock *pDrm = new DrmMock(*executionEnvironment->rootDeviceEnvironments[0]); pDrm->storedMinEUinPool = -1; int minEUinPool = 0; int ret = 0; #if defined(I915_PARAM_MIN_EU_IN_POOL) ret = pDrm->getMinEuInPool(minEUinPool); EXPECT_EQ(0, ret); EXPECT_EQ(-1, minEUinPool); pDrm->storedMinEUinPool = 0; ret = pDrm->getMinEuInPool(minEUinPool); EXPECT_EQ(0, ret); EXPECT_EQ(0, minEUinPool); pDrm->storedMinEUinPool = 1; ret = pDrm->getMinEuInPool(minEUinPool); EXPECT_EQ(0, ret); EXPECT_EQ(1, minEUinPool); pDrm->storedRetValForMinEUinPool = -1; ret = pDrm->getMinEuInPool(minEUinPool); EXPECT_EQ(-1, ret); EXPECT_EQ(1, minEUinPool); #else ret = pDrm->getMinEuInPool(minEUinPool); EXPECT_EQ(0, ret); EXPECT_EQ(0, minEUinPool); #endif delete pDrm; } TEST(DrmTest, givenDrmWhenGetErrnoIsCalledThenErrnoValueIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock *pDrm = new DrmMock(*executionEnvironment->rootDeviceEnvironments[0]); EXPECT_NE(nullptr, pDrm); auto errnoFromDrm = pDrm->getErrno(); EXPECT_EQ(errno, errnoFromDrm); delete pDrm; } TEST(DrmTest, givenPlatformWhereGetSseuRetFailureWhenCallSetQueueSliceCountThenSliceCountIsNotSet) { uint64_t newSliceCount = 1; auto executionEnvironment = std::make_unique(); auto drm = std::make_unique(*executionEnvironment->rootDeviceEnvironments[0]); drm->storedRetValForGetSSEU = -1; drm->checkQueueSliceSupport(); EXPECT_FALSE(drm->sliceCountChangeSupported); EXPECT_FALSE(drm->setQueueSliceCount(newSliceCount)); EXPECT_NE(drm->getSliceMask(newSliceCount), drm->storedParamSseu); } TEST(DrmTest, whenCheckNonPeristentSupportIsCalledThenAreNonPersistentContextsSupportedReturnsCorrectValues) { auto executionEnvironment = std::make_unique(); auto drm = std::make_unique(*executionEnvironment->rootDeviceEnvironments[0]); drm->storedRetValForPersistant = -1; drm->checkNonPersistentContextsSupport(); EXPECT_FALSE(drm->areNonPersistentContextsSupported()); drm->storedRetValForPersistant = 0; drm->checkNonPersistentContextsSupport(); EXPECT_TRUE(drm->areNonPersistentContextsSupported()); } TEST(DrmTest, givenPlatformWhereSetSseuRetFailureWhenCallSetQueueSliceCountThenReturnFalse) { uint64_t newSliceCount = 1; auto executionEnvironment = std::make_unique(); auto drm = std::make_unique(*executionEnvironment->rootDeviceEnvironments[0]); drm->storedRetValForSetSSEU = -1; drm->storedRetValForGetSSEU = 0; drm->checkQueueSliceSupport(); EXPECT_TRUE(drm->sliceCountChangeSupported); EXPECT_FALSE(drm->setQueueSliceCount(newSliceCount)); } TEST(DrmTest, givenPlatformWithSupportToChangeSliceCountWhenCallSetQueueSliceCountThenReturnTrue) { uint64_t newSliceCount = 1; auto executionEnvironment = std::make_unique(); auto drm = std::make_unique(*executionEnvironment->rootDeviceEnvironments[0]); drm->storedRetValForSetSSEU = 0; drm->storedRetValForSetSSEU = 0; drm->checkQueueSliceSupport(); EXPECT_TRUE(drm->sliceCountChangeSupported); EXPECT_TRUE(drm->setQueueSliceCount(newSliceCount)); GemContextParamSseu sseu = {}; EXPECT_EQ(0, drm->getQueueSliceCount(&sseu)); EXPECT_EQ(drm->getSliceMask(newSliceCount), sseu.sliceMask); } namespace NEO { namespace SysCalls { extern uint32_t closeFuncCalled; extern uint32_t openFuncCalled; extern int closeFuncArgPassed; extern uint32_t vmId; } // namespace SysCalls } // namespace NEO TEST(HwDeviceId, whenHwDeviceIdIsDestroyedThenFileDescriptorIsClosed) { SysCalls::closeFuncCalled = 0; int fileDescriptor = 0x1234; { HwDeviceIdDrm hwDeviceId(fileDescriptor, ""); } EXPECT_EQ(1u, SysCalls::closeFuncCalled); EXPECT_EQ(fileDescriptor, SysCalls::closeFuncArgPassed); } TEST(DrmTest, givenDrmWhenCreatingOsContextThenCreateDrmContextWithVmId) { auto executionEnvironment = std::make_unique(); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); DrmMock drmMock(*executionEnvironment->rootDeviceEnvironments[0]); OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); drmMock.latestCreatedVmId = 0u; auto expectedVmId = drmMock.latestCreatedVmId + 1; EXPECT_EQ(expectedVmId, drmMock.getVirtualMemoryAddressSpace(0)); auto &contextIds = osContext.getDrmContextIds(); EXPECT_EQ(1u, contextIds.size()); } TEST(DrmTest, givenDrmWithPerContextVMRequiredWhenCreatingOsContextsThenImplicitVmIdPerContextIsUsed) { MockExecutionEnvironment executionEnvironment{}; auto &rootEnv = *executionEnvironment.rootDeviceEnvironments[0]; rootEnv.executionEnvironment.setDebuggingMode(NEO::DebuggingMode::online); DrmMock drmMock(rootEnv); EXPECT_TRUE(drmMock.requirePerContextVM); OsContextLinux osContext1(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext1.ensureContextInitialized(false); OsContextLinux osContext2(drmMock, 0, 5u, EngineDescriptorHelper::getDefaultDescriptor()); osContext2.ensureContextInitialized(false); } TEST(DrmTest, givenPerContextVMRequiredWhenCreatingOsContextsThenExplicitVmIsCreated) { MockExecutionEnvironment executionEnvironment{}; auto &rootEnv = *executionEnvironment.rootDeviceEnvironments[0]; rootEnv.executionEnvironment.setDebuggingMode(NEO::DebuggingMode::online); DrmMock drmMock(rootEnv); EXPECT_TRUE(drmMock.requirePerContextVM); drmMock.storedRetValForVmId = 20; OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); EXPECT_EQ(2u, drmMock.receivedContextParamRequestCount); auto &drmVmIds = osContext.getDrmVmIds(); EXPECT_EQ(4u, drmVmIds.size()); EXPECT_NE(20u, drmVmIds[0]); EXPECT_EQ(1, drmMock.ioctlCount.gemVmCreate); EXPECT_EQ(0u, drmMock.receivedGemVmControl.vmId); EXPECT_EQ(drmMock.latestCreatedVmId, drmVmIds[0]); EXPECT_EQ(1, drmMock.createDrmVmCalled); EXPECT_EQ(1, drmMock.ioctlCount.contextGetParam); } TEST(DrmTest, givenPerContextVMRequiredWhenVmIdCreationFailsThenQueryVmIsCalled) { MockExecutionEnvironment executionEnvironment{}; auto &rootEnv = *executionEnvironment.rootDeviceEnvironments[0]; DrmMock drmMock(rootEnv); drmMock.setPerContextVMRequired(true); drmMock.storedRetValForVmCreate = -1; MockOsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); drmMock.createDrmVmCalled = 0; auto vmId = static_cast(drmMock.storedRetValForVmId); auto status = osContext.ensureContextInitialized(false); EXPECT_EQ(1, drmMock.createDrmVmCalled); EXPECT_EQ(1, drmMock.ioctlCount.contextGetParam); EXPECT_EQ(osContext.drmVmIds[0], vmId); EXPECT_TRUE(status); } TEST(DrmTest, givenPerContextVMRequiredWhenCreatingOsContextForSubDeviceThenVmIdPerContextIsCreateddAndStoredAtSubDeviceIndex) { MockExecutionEnvironment executionEnvironment{}; auto &rootEnv = *executionEnvironment.rootDeviceEnvironments[0]; rootEnv.executionEnvironment.setDebuggingMode(NEO::DebuggingMode::online); DrmMock drmMock(rootEnv); EXPECT_TRUE(drmMock.requirePerContextVM); drmMock.storedRetValForVmId = 4; DeviceBitfield deviceBitfield(1 << 3); OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor(deviceBitfield)); osContext.ensureContextInitialized(false); EXPECT_EQ(2u, drmMock.receivedContextParamRequestCount); auto &drmVmIds = osContext.getDrmVmIds(); EXPECT_EQ(4u, drmVmIds.size()); EXPECT_EQ(drmMock.latestCreatedVmId, drmVmIds[3]); EXPECT_EQ(0u, drmVmIds[0]); EXPECT_EQ(0u, drmVmIds[2]); } TEST(DrmTest, givenPerContextVMRequiredWhenCreatingOsContextsForRootDeviceThenVmIdsPerContextAreCreatedAndStoredAtSubDeviceIndices) { MockExecutionEnvironment executionEnvironment{}; auto &rootEnv = *executionEnvironment.rootDeviceEnvironments[0]; rootEnv.executionEnvironment.setDebuggingMode(NEO::DebuggingMode::online); DrmMock drmMock(rootEnv); EXPECT_TRUE(drmMock.requirePerContextVM); drmMock.storedRetValForVmId = 4; DeviceBitfield deviceBitfield(1 | 1 << 1); OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor(deviceBitfield)); osContext.ensureContextInitialized(false); EXPECT_EQ(2 * 2u, drmMock.receivedContextParamRequestCount); auto &drmVmIds = osContext.getDrmVmIds(); EXPECT_EQ(4u, drmVmIds.size()); EXPECT_EQ(drmMock.latestCreatedVmId - 1, drmVmIds[0]); EXPECT_EQ(drmMock.latestCreatedVmId, drmVmIds[1]); EXPECT_EQ(0u, drmVmIds[2]); } TEST(DrmTest, givenNoPerContextVmsDrmWhenCreatingOsContextsThenVmIdIsNotQueriedAndStored) { auto executionEnvironment = std::make_unique(); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); DrmMock drmMock(*executionEnvironment->rootDeviceEnvironments[0]); EXPECT_FALSE(drmMock.requirePerContextVM); drmMock.storedRetValForVmId = 1; OsContextLinux osContext(drmMock, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); EXPECT_EQ(2u, drmMock.receivedContextParamRequestCount); auto &drmVmIds = osContext.getDrmVmIds(); EXPECT_EQ(0u, drmVmIds.size()); } TEST(DrmTest, givenProgramDebuggingAndContextDebugAvailableWhenCreatingContextThenSetContextDebugFlagIsCalled) { auto executionEnvironment = std::make_unique(); executionEnvironment->setDebuggingMode(NEO::DebuggingMode::online); executionEnvironment->prepareRootDeviceEnvironments(1); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); executionEnvironment->calculateMaxOsContextCount(); executionEnvironment->rootDeviceEnvironments[0]->osInterface = std::make_unique(); DrmMockNonFailing drmMock(*executionEnvironment->rootDeviceEnvironments[0]); drmMock.contextDebugSupported = true; drmMock.callBaseCreateDrmContext = false; OsContextLinux osContext(drmMock, 0, 5u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); // drmMock returns ctxId == 0 EXPECT_EQ(0u, drmMock.passedContextDebugId); } TEST(DrmTest, givenProgramDebuggingAndContextDebugAvailableWhenCreatingContextForInternalEngineThenSetContextDebugFlagIsNotCalled) { auto executionEnvironment = std::make_unique(); executionEnvironment->setDebuggingMode(NEO::DebuggingMode::online); executionEnvironment->prepareRootDeviceEnvironments(1); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); executionEnvironment->calculateMaxOsContextCount(); executionEnvironment->rootDeviceEnvironments[0]->osInterface = std::make_unique(); DrmMockNonFailing drmMock(*executionEnvironment->rootDeviceEnvironments[0]); drmMock.contextDebugSupported = true; OsContextLinux osContext(drmMock, 0, 5u, EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_RCS, EngineUsage::internal})); osContext.ensureContextInitialized(false); EXPECT_EQ(static_cast(-1), drmMock.passedContextDebugId); } TEST(DrmTest, givenNotEnabledDebuggingOrContextDebugUnsupportedWhenCreatingContextThenCooperativeFlagIsNotPassedToCreateDrmContext) { auto executionEnvironment = std::make_unique(); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); executionEnvironment->calculateMaxOsContextCount(); executionEnvironment->rootDeviceEnvironments[0]->osInterface = std::make_unique(); DrmMockNonFailing drmMock(*executionEnvironment->rootDeviceEnvironments[0]); drmMock.contextDebugSupported = true; drmMock.callBaseCreateDrmContext = false; drmMock.capturedCooperativeContextRequest = true; EXPECT_FALSE(executionEnvironment->isDebuggingEnabled()); OsContextLinux osContext(drmMock, 0, 5u, EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_RCS, EngineUsage::regular})); osContext.ensureContextInitialized(false); EXPECT_FALSE(drmMock.capturedCooperativeContextRequest); executionEnvironment->setDebuggingMode(NEO::DebuggingMode::online); drmMock.contextDebugSupported = false; drmMock.callBaseCreateDrmContext = false; drmMock.capturedCooperativeContextRequest = true; OsContextLinux osContext2(drmMock, 0, 5u, EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_RCS, EngineUsage::regular})); osContext2.ensureContextInitialized(false); EXPECT_FALSE(drmMock.capturedCooperativeContextRequest); } TEST(DrmTest, givenPrintIoctlDebugFlagSetWhenGettingTimestampFrequencyThenCaptureExpectedOutput) { DebugManagerStateRestore restore; debugManager.flags.PrintIoctlEntries.set(true); auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; int frequency = 0; testing::internal::CaptureStdout(); // start capturing int ret = drm.getTimestampFrequency(frequency); debugManager.flags.PrintIoctlEntries.set(false); std::string outputString = testing::internal::GetCapturedStdout(); // stop capturing EXPECT_EQ(0, ret); EXPECT_EQ(1000, frequency); std::string expectedString = "DRM_IOCTL_I915_GETPARAM: param: I915_PARAM_CS_TIMESTAMP_FREQUENCY, output value: 1000, retCode: 0"; EXPECT_NE(std::string::npos, outputString.find(expectedString)); } TEST(DrmTest, givenPrintIoctlDebugFlagNotSetWhenGettingTimestampFrequencyThenCaptureExpectedOutput) { DebugManagerStateRestore restore; debugManager.flags.PrintIoctlEntries.set(false); auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; int frequency = 0; testing::internal::CaptureStdout(); // start capturing int ret = drm.getTimestampFrequency(frequency); std::string outputString = testing::internal::GetCapturedStdout(); // stop capturing EXPECT_EQ(0, ret); EXPECT_EQ(1000, frequency); std::string expectedString = "DRM_IOCTL_I915_GETPARAM: param: I915_PARAM_CS_TIMESTAMP_FREQUENCY, output value: 1000, retCode: 0"; EXPECT_EQ(std::string::npos, outputString.find(expectedString)); } TEST(DrmTest, givenPrintIoctlDebugFlagSetWhenGettingOATimestampFrequencyThenCaptureExpectedOutput) { DebugManagerStateRestore restore; debugManager.flags.PrintIoctlEntries.set(true); auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; int frequency = 0; testing::internal::CaptureStdout(); // start capturing int ret = drm.getOaTimestampFrequency(frequency); debugManager.flags.PrintIoctlEntries.set(false); std::string outputString = testing::internal::GetCapturedStdout(); // stop capturing EXPECT_EQ(0, ret); EXPECT_EQ(123456, frequency); std::string expectedString = "DRM_IOCTL_I915_GETPARAM: param: I915_PARAM_OA_TIMESTAMP_FREQUENCY, output value: 123456, retCode: 0"; EXPECT_NE(std::string::npos, outputString.find(expectedString)); } TEST(DrmTest, givenProgramDebuggingWhenCreatingContextThenUnrecoverableContextIsSet) { auto executionEnvironment = std::make_unique(); executionEnvironment->setDebuggingMode(NEO::DebuggingMode::online); executionEnvironment->prepareRootDeviceEnvironments(1); executionEnvironment->rootDeviceEnvironments[0]->setHwInfoAndInitHelpers(defaultHwInfo.get()); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); executionEnvironment->calculateMaxOsContextCount(); executionEnvironment->rootDeviceEnvironments[0]->osInterface = std::make_unique(); DrmMock drm(*executionEnvironment->rootDeviceEnvironments[0]); OsContextLinux osContext(drm, 0, 0u, EngineDescriptorHelper::getDefaultDescriptor()); osContext.ensureContextInitialized(false); EXPECT_TRUE(drm.unrecoverableContextSet); EXPECT_EQ(0u, drm.receivedRecoverableContextValue); EXPECT_EQ(2u, drm.receivedContextParamRequestCount); } TEST(DrmTest, whenImmediateVmBindIsRequiredThenUseVmBindImmediate) { for (auto requireImmediateVmBind : ::testing::Bool()) { MockExecutionEnvironment executionEnvironment{}; DrmMock drm(*executionEnvironment.rootDeviceEnvironments[0]); auto ioctlHelper = std::make_unique(drm); ioctlHelper->isImmediateVmBindRequiredResult = requireImmediateVmBind; drm.ioctlHelper = std::move(ioctlHelper); EXPECT_EQ(requireImmediateVmBind, drm.useVMBindImmediate()); } } TEST(DrmTest, whenPageFaultIsSupportedThenUseVmBindImmediate) { auto executionEnvironment = std::make_unique(); DrmMock drm(*executionEnvironment->rootDeviceEnvironments[0]); for (auto hasPageFaultSupport : {false, true}) { drm.pageFaultSupported = hasPageFaultSupport; EXPECT_EQ(hasPageFaultSupport, drm.useVMBindImmediate()); } } TEST(DrmTest, whenImmediateVmBindExtIsEnabledThenUseVmBindImmediate) { DebugManagerStateRestore restorer; auto executionEnvironment = std::make_unique(); DrmMock drm(*executionEnvironment->rootDeviceEnvironments[0]); for (auto enableImmediateBind : {false, true}) { debugManager.flags.EnableImmediateVmBindExt.set(enableImmediateBind); EXPECT_EQ(enableImmediateBind, drm.useVMBindImmediate()); } } TEST(DrmQueryTest, GivenDrmWhenSetupHardwareInfoCalledThenCorrectMaxValuesInGtSystemInfoArePreservedAndIoctlHelperSet) { DebugManagerStateRestore restore; debugManager.flags.IgnoreProductSpecificIoctlHelper.set(true); auto executionEnvironment = std::make_unique(); *executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo() = *NEO::defaultHwInfo.get(); auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.failRetTopology = true; drm.storedEUVal = 48; drm.storedSSVal = 6; hwInfo->gtSystemInfo.SliceCount = 2; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.ioctlHelper.reset(); drm.setupHardwareInfo(&device, false); EXPECT_NE(nullptr, drm.getIoctlHelper()); EXPECT_EQ(2u, hwInfo->gtSystemInfo.MaxSlicesSupported); EXPECT_EQ(NEO::defaultHwInfo->gtSystemInfo.MaxSubSlicesSupported, hwInfo->gtSystemInfo.MaxSubSlicesSupported); EXPECT_EQ(NEO::defaultHwInfo->gtSystemInfo.MaxEuPerSubSlice, hwInfo->gtSystemInfo.MaxEuPerSubSlice); } TEST(DrmQueryTest, GivenLessAvailableSubSlicesThanMaxSubSlicesWhenQueryingTopologyInfoThenCorrectMaxSubSliceCountIsSet) { auto executionEnvironment = std::make_unique(); auto hwInfo = *NEO::defaultHwInfo.get(); *executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo() = hwInfo; DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.disableSomeTopology = true; DrmQueryTopologyData topologyData = {}; drm.storedSVal = hwInfo.gtSystemInfo.MaxSlicesSupported; drm.storedSSVal = hwInfo.gtSystemInfo.MaxSubSlicesSupported; drm.storedEUVal = hwInfo.gtSystemInfo.MaxSubSlicesSupported * hwInfo.gtSystemInfo.MaxEuPerSubSlice; drm.engineInfoQueried = true; drm.systemInfoQueried = true; const auto ret = drm.queryTopology(*executionEnvironment->rootDeviceEnvironments[0]->getHardwareInfo(), topologyData); const uint8_t topologyBitMask = 0b11000110; int actualSliceCount = 0; for (int i = 0; i < drm.storedSVal; i++) { const uint8_t mask = 0b1 << (i % 8); if ((topologyBitMask & mask) != 0) { actualSliceCount++; } } int actualSubSliceCount = 0; for (int i = 0; i < actualSliceCount; i++) { for (int j = 0; j < drm.storedSSVal / drm.storedSVal; j++) { const uint8_t mask = 0b1 << (j % 8); if ((topologyBitMask & mask) != 0) { actualSubSliceCount++; } } } int actualEUCount = 0; for (int i = 0; i < actualSubSliceCount; i++) { for (int j = 0; j < drm.storedEUVal / drm.storedSSVal; j++) { const uint8_t mask = 0b1 << (j % 8); if ((topologyBitMask & mask) != 0) { actualEUCount++; } } } EXPECT_GT(drm.storedSVal, actualSliceCount); EXPECT_GT(drm.storedSSVal, actualSubSliceCount); EXPECT_GT(drm.storedEUVal, actualEUCount); if (drm.storedSVal > 1) { EXPECT_TRUE(ret); EXPECT_LE(topologyData.maxSlices, static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported)); EXPECT_LE(topologyData.maxSubSlicesPerSlice, static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported / hwInfo.gtSystemInfo.MaxSlicesSupported)); } else { EXPECT_FALSE(ret); EXPECT_EQ(topologyData.maxSlices, 0); EXPECT_EQ(topologyData.maxSubSlicesPerSlice, 0); } EXPECT_EQ(topologyData.sliceCount, actualSliceCount); EXPECT_EQ(topologyData.subSliceCount, actualSubSliceCount); EXPECT_EQ(topologyData.euCount, actualEUCount); EXPECT_EQ(topologyData.maxEusPerSubSlice, static_cast(hwInfo.gtSystemInfo.MaxEuPerSubSlice)); } TEST(DrmQueryTest, givenDrmWhenGettingTopologyMapThenCorrectMapIsReturned) { auto executionEnvironment = std::make_unique(); *executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo() = *NEO::defaultHwInfo.get(); DrmMock drmMock{*executionEnvironment->rootDeviceEnvironments[0]}; DrmQueryTopologyData topologyData = {}; drmMock.engineInfoQueried = true; drmMock.systemInfoQueried = true; EXPECT_TRUE(drmMock.queryTopology(*executionEnvironment->rootDeviceEnvironments[0]->getHardwareInfo(), topologyData)); auto topologyMap = drmMock.getTopologyMap(); EXPECT_LE(1u, topologyMap.size()); for (uint32_t i = 0; i < topologyMap.size(); i++) { EXPECT_EQ(drmMock.storedSVal, static_cast(topologyMap.at(i).sliceIndices.size())); } } TEST(DrmQueryTest, GivenSingleSliceConfigWhenQueryingTopologyInfoThenSubsliceIndicesAreStored) { auto executionEnvironment = std::make_unique(); auto hwInfo = *NEO::defaultHwInfo.get(); *executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo() = hwInfo; DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; DrmQueryTopologyData topologyData = {}; drm.storedSVal = hwInfo.gtSystemInfo.MaxSlicesSupported; drm.storedSSVal = hwInfo.gtSystemInfo.MaxSubSlicesSupported; drm.storedEUVal = hwInfo.gtSystemInfo.MaxSubSlicesSupported * hwInfo.gtSystemInfo.MaxEuPerSubSlice; drm.engineInfoQueried = true; drm.systemInfoQueried = true; EXPECT_TRUE(drm.queryTopology(*executionEnvironment->rootDeviceEnvironments[0]->getHardwareInfo(), topologyData)); EXPECT_EQ(topologyData.sliceCount, static_cast(hwInfo.gtSystemInfo.MaxSlicesSupported)); EXPECT_EQ(topologyData.subSliceCount, static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported)); EXPECT_EQ(topologyData.euCount, static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported * hwInfo.gtSystemInfo.MaxEuPerSubSlice)); EXPECT_EQ(topologyData.maxSlices, drm.storedSVal); EXPECT_EQ(topologyData.maxSubSlicesPerSlice, static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported / hwInfo.gtSystemInfo.MaxSlicesSupported)); auto topologyMap = drm.getTopologyMap(); for (uint32_t i = 0; i < topologyMap.size(); i++) { EXPECT_EQ(drm.storedSVal, static_cast(topologyMap.at(i).sliceIndices.size())); if (drm.storedSVal == 1) { EXPECT_EQ(static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported / hwInfo.gtSystemInfo.MaxSlicesSupported), topologyMap.at(i).subsliceIndices.size()); } else { EXPECT_EQ(0u, topologyMap.at(i).subsliceIndices.size()); } for (int subsliceId = 0; subsliceId < static_cast(topologyMap.at(i).subsliceIndices.size()); subsliceId++) { EXPECT_EQ(subsliceId, topologyMap.at(i).subsliceIndices[subsliceId]); } } } TEST(DrmQueryTest, GivenMultiSliceConfigWhenQueryingTopologyInfoThenSubsliceIndicesAreNotStored) { auto executionEnvironment = std::make_unique(); auto hwInfo = *NEO::defaultHwInfo.get(); *executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo() = hwInfo; DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; DrmQueryTopologyData topologyData = {}; drm.storedSVal = hwInfo.gtSystemInfo.MaxSlicesSupported; drm.storedSSVal = hwInfo.gtSystemInfo.MaxSubSlicesSupported; drm.storedEUVal = hwInfo.gtSystemInfo.MaxSubSlicesSupported * hwInfo.gtSystemInfo.MaxEuPerSubSlice; drm.engineInfoQueried = true; drm.systemInfoQueried = true; EXPECT_TRUE(drm.queryTopology(*executionEnvironment->rootDeviceEnvironments[0]->getHardwareInfo(), topologyData)); EXPECT_EQ(topologyData.sliceCount, static_cast(hwInfo.gtSystemInfo.MaxSlicesSupported)); EXPECT_EQ(topologyData.subSliceCount, static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported)); EXPECT_EQ(topologyData.euCount, static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported * hwInfo.gtSystemInfo.MaxEuPerSubSlice)); EXPECT_EQ(topologyData.maxSlices, static_cast(drm.storedSVal)); EXPECT_EQ(topologyData.maxSubSlicesPerSlice, static_cast(hwInfo.gtSystemInfo.MaxSubSlicesSupported / hwInfo.gtSystemInfo.MaxSlicesSupported)); auto topologyMap = drm.getTopologyMap(); for (uint32_t i = 0; i < topologyMap.size(); i++) { EXPECT_EQ(drm.storedSVal, static_cast(topologyMap.at(i).sliceIndices.size())); if (drm.storedSVal > 1) { EXPECT_EQ(0u, topologyMap.at(i).subsliceIndices.size()); } else { EXPECT_EQ(static_cast(topologyData.maxSubSlicesPerSlice), topologyMap.at(i).subsliceIndices.size()); } } } TEST(DrmQueryTest, GivenNonTileArchitectureWhenFrequencyIsQueriedThenFallbackToLegacyInterface) { int expectedMaxFrequency = 2000; auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto hwInfo = *defaultHwInfo; hwInfo.gtSystemInfo.MultiTileArchInfo.TileCount = 0; hwInfo.gtSystemInfo.MultiTileArchInfo.IsValid = true; std::string gtMaxFreqFile = getLinuxDevicesPath("device/drm/card1/gt_max_freq_mhz"); EXPECT_TRUE(fileExists(gtMaxFreqFile)); drm.setPciPath("device"); int maxFrequency = 0; int ret = drm.getMaxGpuFrequency(hwInfo, maxFrequency); EXPECT_EQ(0, ret); EXPECT_EQ(expectedMaxFrequency, maxFrequency); } TEST(DrmQueryTest, GivenTileArchitectureIsInvalidWhenFrequencyIsQueriedThenFallbackToLegacyInterface) { int expectedMaxFrequency = 2000; auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto hwInfo = *defaultHwInfo; hwInfo.gtSystemInfo.MultiTileArchInfo.TileCount = 2; hwInfo.gtSystemInfo.MultiTileArchInfo.IsValid = false; std::string gtMaxFreqFile = getLinuxDevicesPath("device/drm/card1/gt_max_freq_mhz"); EXPECT_TRUE(fileExists(gtMaxFreqFile)); drm.setPciPath("device"); int maxFrequency = 0; int ret = drm.getMaxGpuFrequency(hwInfo, maxFrequency); EXPECT_EQ(0, ret); EXPECT_EQ(expectedMaxFrequency, maxFrequency); } TEST(DrmQueryTest, GivenRpsMaxFreqFileExistsWhenFrequencyIsQueriedThenValidValueIsReturned) { int expectedMaxFrequency = 3000; auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto hwInfo = *defaultHwInfo; hwInfo.gtSystemInfo.MultiTileArchInfo.TileCount = 1; hwInfo.gtSystemInfo.MultiTileArchInfo.IsValid = true; std::string rpsMaxFreqFile = getLinuxDevicesPath("device/drm/card1/gt/gt0/rps_max_freq_mhz"); EXPECT_TRUE(fileExists(rpsMaxFreqFile)); drm.setPciPath("device"); int maxFrequency = 0; int ret = drm.getMaxGpuFrequency(hwInfo, maxFrequency); EXPECT_EQ(0, ret); EXPECT_EQ(expectedMaxFrequency, maxFrequency); } TEST(DrmQueryTest, GivenRpsMaxFreqFilesExistWhenFrequenciesAreQueriedThenValidValueIsReturned) { int expectedMaxFrequency = 4000; auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto hwInfo = *defaultHwInfo; hwInfo.gtSystemInfo.MultiTileArchInfo.TileCount = 2; hwInfo.gtSystemInfo.MultiTileArchInfo.IsValid = true; std::string rpsMaxFreqFile = getLinuxDevicesPath("device/drm/card1/gt/gt1/rps_max_freq_mhz"); EXPECT_TRUE(fileExists(rpsMaxFreqFile)); drm.setPciPath("device"); int maxFrequency = 0; int ret = drm.getMaxGpuFrequency(hwInfo, maxFrequency); EXPECT_EQ(0, ret); EXPECT_EQ(expectedMaxFrequency, maxFrequency); } TEST(DrmQueryTest, GivenRpsMaxFreqFileDoesntExistWhenFrequencyIsQueriedThenFallbackToLegacyInterface) { USE_REAL_FILE_SYSTEM(); int expectedMaxFrequency = 2000; auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto hwInfo = *defaultHwInfo; hwInfo.gtSystemInfo.MultiTileArchInfo.TileCount = 3; hwInfo.gtSystemInfo.MultiTileArchInfo.IsValid = true; std::string rpsMaxFreqFile = getLinuxDevicesPath("device/drm/card1/gt/gt2/rps_max_freq_mhz"); EXPECT_FALSE(fileExists(rpsMaxFreqFile)); std::string gtMaxFreqFile = getLinuxDevicesPath("device/drm/card1/gt_max_freq_mhz"); EXPECT_TRUE(fileExists(gtMaxFreqFile)); drm.setPciPath("device"); int maxFrequency = 0; int ret = drm.getMaxGpuFrequency(hwInfo, maxFrequency); EXPECT_EQ(0, ret); EXPECT_EQ(expectedMaxFrequency, maxFrequency); } TEST(DrmTest, whenCheckedIfResourcesCleanupCanBeSkippedThenReturnsFalse) { auto executionEnvironment = std::make_unique(); DrmMock *pDrm = new DrmMock(*executionEnvironment->rootDeviceEnvironments[0]); EXPECT_TRUE(pDrm->isDriverAvailable()); EXPECT_FALSE(pDrm->skipResourceCleanup()); delete pDrm; } TEST(DrmQueryTest, givenUapiPrelimVersionThenReturnCorrectString) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; std::string prelimVersionFile = getLinuxDevicesPath("device/drm/card1/prelim_uapi_version"); EXPECT_TRUE(fileExists(prelimVersionFile)); drm.setPciPath("device"); std::string prelimVersion = ""; drm.getPrelimVersion(prelimVersion); EXPECT_EQ("2.0", prelimVersion); } TEST(DrmQueryTest, givenUapiPrelimVersionWithInvalidPathThenReturnEmptyString) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.setPciPath("invalidPath"); std::string prelimVersion = "2.0"; drm.getPrelimVersion(prelimVersion); EXPECT_TRUE(prelimVersion.empty()); } TEST(DrmTest, givenInvalidUapiPrelimVersionThenFallbackToBasePrelim) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; const auto productFamily = defaultHwInfo->platform.eProductFamily; std::unique_ptr ioctlHelper(IoctlHelper::getI915Helper(productFamily, "-1", drm)); EXPECT_NE(nullptr, ioctlHelper.get()); } TEST(DrmTest, GivenCompletionFenceDebugFlagWhenCreatingDrmObjectThenExpectCorrectSetting) { DebugManagerStateRestore restore; auto executionEnvironment = std::make_unique(); executionEnvironment->rootDeviceEnvironments[0]->initGmm(); DrmMock drmDefault{*executionEnvironment->rootDeviceEnvironments[0]}; drmDefault.callBaseIsVmBindAvailable = true; if (drmDefault.isVmBindAvailable()) { EXPECT_TRUE(drmDefault.completionFenceSupport()); } else { EXPECT_FALSE(drmDefault.completionFenceSupport()); } debugManager.flags.UseVmBind.set(1); debugManager.flags.EnableDrmCompletionFence.set(1); DrmMock drmEnabled{*executionEnvironment->rootDeviceEnvironments[0]}; drmEnabled.callBaseIsVmBindAvailable = true; EXPECT_TRUE(drmEnabled.completionFenceSupport()); debugManager.flags.EnableDrmCompletionFence.set(0); DrmMock drmDisabled{*executionEnvironment->rootDeviceEnvironments[0]}; drmDisabled.callBaseIsVmBindAvailable = true; EXPECT_FALSE(drmDisabled.completionFenceSupport()); } TEST(DrmTest, GivenMinusEbusyIoctlErrorWhenCallingExecbufferThenCallIoctlAgain) { MockExecutionEnvironment executionEnvironment{}; DrmMock drm{*executionEnvironment.rootDeviceEnvironments[0]}; VariableBackup mockIoctl(&SysCalls::sysCallsIoctl); VariableBackup mockErrno(&errno); SysCalls::sysCallsIoctl = [](int fileDescriptor, unsigned long int request, void *arg) -> int { static int ioctlCount; ioctlCount++; if (ioctlCount == 1) { errno = -EBUSY; return -1; } ioctlCount = 0; return 0; }; EXPECT_EQ(0, drm.Drm::ioctl(DrmIoctl::gemExecbuffer2, nullptr)); } TEST(DrmTest, GivenIoctlErrorWhenIsGpuHangIsCalledThenErrorIsThrown) { MockExecutionEnvironment executionEnvironment{}; DrmMock drm{*executionEnvironment.rootDeviceEnvironments[0]}; uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(0); mockOsContextLinux.drmContextIds.push_back(3); EXPECT_THROW(drm.isGpuHangDetected(mockOsContextLinux), std::runtime_error); } TEST(DrmTest, GivenZeroBatchActiveAndZeroBatchPendingResetStatsWhenIsGpuHangIsCalledThenNoHangIsReported) { MockExecutionEnvironment executionEnvironment{}; DrmMock drm{*executionEnvironment.rootDeviceEnvironments[0]}; uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(0); mockOsContextLinux.drmContextIds.push_back(3); ResetStats resetStats{}; resetStats.contextId = 0; drm.resetStatsToReturn.push_back(resetStats); resetStats.contextId = 3; drm.resetStatsToReturn.push_back(resetStats); bool isGpuHangDetected{}; EXPECT_NO_THROW(isGpuHangDetected = drm.isGpuHangDetected(mockOsContextLinux)); EXPECT_FALSE(isGpuHangDetected); } TEST(DrmTest, GivenBatchActiveGreaterThanZeroResetStatsWhenIsGpuHangIsCalledThenHangIsReported) { MockExecutionEnvironment executionEnvironment{}; DrmMock drm{*executionEnvironment.rootDeviceEnvironments[0]}; uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(0); mockOsContextLinux.drmContextIds.push_back(3); ResetStats resetStats{}; resetStats.contextId = 0; drm.resetStatsToReturn.push_back(resetStats); resetStats.contextId = 3; resetStats.batchActive = 2; drm.resetStatsToReturn.push_back(resetStats); bool isGpuHangDetected{}; EXPECT_NO_THROW(isGpuHangDetected = drm.isGpuHangDetected(mockOsContextLinux)); EXPECT_TRUE(isGpuHangDetected); } TEST(DrmTest, GivenBatchPendingGreaterThanZeroResetStatsWhenIsGpuHangIsCalledThenHangIsReported) { MockExecutionEnvironment executionEnvironment{}; DrmMock drm{*executionEnvironment.rootDeviceEnvironments[0]}; uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(8); ResetStats resetStats{}; resetStats.contextId = 8; resetStats.batchPending = 7; drm.resetStatsToReturn.push_back(resetStats); bool isGpuHangDetected{}; EXPECT_NO_THROW(isGpuHangDetected = drm.isGpuHangDetected(mockOsContextLinux)); EXPECT_TRUE(isGpuHangDetected); } class MockIoctlHelperResetStats : public MockIoctlHelper { public: using MockIoctlHelper::MockIoctlHelper; int getResetStats(ResetStats &resetStats, uint32_t *status, ResetStatsFault *resetStatsFault) override { int ret = MockIoctlHelper::getResetStats(resetStats, status, resetStatsFault); if (status) { *status = statusReturnValue; } if (resetStatsFault) { *resetStatsFault = resetStatsFaultReturnValue; } return ret; } bool validPageFault(uint16_t flags) override { return true; } uint32_t getStatusForResetStats(bool banned) override { if (banned) { return statusReturnValue; } else { return 0u; } } uint32_t statusReturnValue = 0; ResetStatsFault resetStatsFaultReturnValue{}; }; TEST(DrmTest, GivenResetStatsWithValidFaultAndDebuggingEnabledWhenIsGpuHangIsCalledThenProcessNotTerminated) { DebugManagerStateRestore restore; debugManager.flags.DisableScratchPages.set(true); MockExecutionEnvironment executionEnvironment{}; DrmMock drm{*executionEnvironment.rootDeviceEnvironments[0]}; executionEnvironment.setDebuggingMode(NEO::DebuggingMode::online); drm.configureScratchPagePolicy(); drm.configureGpuFaultCheckThreshold(); uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; auto ioctlHelper = std::make_unique(drm); MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(0); ResetStats resetStatsExpected{}; ResetStatsFault resetStatsFaultExpected{}; resetStatsExpected.contextId = 0; drm.resetStatsToReturn.push_back(resetStatsExpected); resetStatsFaultExpected.flags = 1; resetStatsFaultExpected.addr = 0x1234; resetStatsFaultExpected.type = 2; resetStatsFaultExpected.level = 3; ioctlHelper->statusReturnValue = 2u; ioctlHelper->resetStatsFaultReturnValue = resetStatsFaultExpected; drm.ioctlHelper = std::move(ioctlHelper); EXPECT_FALSE(drm.isGpuHangDetected(mockOsContextLinux)); } TEST(DrmDeathTest, GivenResetStatsWithValidFaultWhenIsGpuHangIsCalledThenProcessTerminated) { DebugManagerStateRestore restore; debugManager.flags.DisableScratchPages.set(true); MockExecutionEnvironment executionEnvironment{}; DrmMock drm{*executionEnvironment.rootDeviceEnvironments[0]}; drm.configureScratchPagePolicy(); drm.configureGpuFaultCheckThreshold(); uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; auto ioctlHelper = std::make_unique(drm); MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(0); ResetStats resetStatsExpected{}; ResetStatsFault resetStatsFaultExpected{}; resetStatsExpected.contextId = 0; drm.resetStatsToReturn.push_back(resetStatsExpected); resetStatsFaultExpected.flags = 1; resetStatsFaultExpected.addr = 0x1234; resetStatsFaultExpected.type = 2; resetStatsFaultExpected.level = 3; ioctlHelper->statusReturnValue = 2u; ioctlHelper->resetStatsFaultReturnValue = resetStatsFaultExpected; drm.ioctlHelper = std::move(ioctlHelper); int strSize = std::snprintf(nullptr, 0, "Segmentation fault from GPU at 0x%llx, ctx_id: %u (%s) type: %d (%s), level: %d (%s), access: %d (%s), banned: %d, aborting.\n", static_cast(resetStatsFaultExpected.addr), resetStatsExpected.contextId, EngineHelpers::engineTypeToString(aub_stream::ENGINE_BCS).c_str(), resetStatsFaultExpected.type, GpuPageFaultHelpers::faultTypeToString(static_cast(resetStatsFaultExpected.type)).c_str(), resetStatsFaultExpected.level, GpuPageFaultHelpers::faultLevelToString(static_cast(resetStatsFaultExpected.level)).c_str(), resetStatsFaultExpected.access, GpuPageFaultHelpers::faultAccessToString(static_cast(resetStatsFaultExpected.access)).c_str(), true) + 1; std::unique_ptr buf(new char[strSize]); std::snprintf(buf.get(), strSize, "Segmentation fault from GPU at 0x%llx, ctx_id: %u (%s) type: %d (%s), level: %d (%s), access: %d (%s), banned: %d, aborting.\n", static_cast(resetStatsFaultExpected.addr), resetStatsExpected.contextId, EngineHelpers::engineTypeToString(aub_stream::ENGINE_BCS).c_str(), resetStatsFaultExpected.type, GpuPageFaultHelpers::faultTypeToString(static_cast(resetStatsFaultExpected.type)).c_str(), resetStatsFaultExpected.level, GpuPageFaultHelpers::faultLevelToString(static_cast(resetStatsFaultExpected.level)).c_str(), resetStatsFaultExpected.access, GpuPageFaultHelpers::faultAccessToString(static_cast(resetStatsFaultExpected.access)).c_str(), true); std::string expectedString = std::string(buf.get()); ::testing::internal::CaptureStderr(); ::testing::internal::CaptureStdout(); EXPECT_THROW(drm.isGpuHangDetected(mockOsContextLinux), std::runtime_error); auto stderrString = ::testing::internal::GetCapturedStderr(); auto stdoutString = ::testing::internal::GetCapturedStdout(); EXPECT_EQ(expectedString, stderrString); EXPECT_EQ(expectedString, stdoutString); } struct DrmMockCheckPageFault : public DrmMock { public: using DrmMock::checkToDisableScratchPage; using DrmMock::DrmMock; using DrmMock::getGpuFaultCheckThreshold; }; using DrmDisableScratchPagesDefaultTest = ::testing::Test; HWTEST2_F(DrmDisableScratchPagesDefaultTest, givenDefaultDisableScratchPagesThenCheckingGpuFaultCheckIsSetToDefaultValueAndScratchPageIsDisabled, IsAtLeastXeHpcCore) { auto executionEnvironment = std::make_unique(); DrmMockCheckPageFault drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.configureScratchPagePolicy(); drm.configureGpuFaultCheckThreshold(); EXPECT_TRUE(drm.checkToDisableScratchPage()); EXPECT_EQ(10u, drm.getGpuFaultCheckThreshold()); } HWTEST2_F(DrmDisableScratchPagesDefaultTest, givenDefaultDisableScratchPagesThenCheckingGpuFaultCheckIsSetToDefaultAndScratchPageIsEnabled, IsBeforeXeHpcCore) { auto executionEnvironment = std::make_unique(); DrmMockCheckPageFault drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.configureScratchPagePolicy(); drm.configureGpuFaultCheckThreshold(); EXPECT_FALSE(drm.checkToDisableScratchPage()); EXPECT_EQ(10u, drm.getGpuFaultCheckThreshold()); } TEST(DrmTest, givenDisableScratchPagesWhenSettingGpuFaultCheckThresholdThenThesholdValueIsSet) { constexpr unsigned int iteration = 3u; constexpr unsigned int threshold = 3u; ASSERT_NE(0u, iteration); ASSERT_NE(0u, threshold); DebugManagerStateRestore restore; auto executionEnvironment = std::make_unique(); debugManager.flags.DisableScratchPages.set(false); debugManager.flags.GpuFaultCheckThreshold.set(-1); DrmMockCheckPageFault drm1{*executionEnvironment->rootDeviceEnvironments[0]}; drm1.configureScratchPagePolicy(); drm1.configureGpuFaultCheckThreshold(); EXPECT_FALSE(drm1.checkToDisableScratchPage()); EXPECT_EQ(10u, drm1.getGpuFaultCheckThreshold()); debugManager.flags.DisableScratchPages.set(true); debugManager.flags.GpuFaultCheckThreshold.set(-1); DrmMockCheckPageFault drm2{*executionEnvironment->rootDeviceEnvironments[0]}; drm2.configureScratchPagePolicy(); drm2.configureGpuFaultCheckThreshold(); EXPECT_TRUE(drm2.checkToDisableScratchPage()); EXPECT_EQ(10u, drm2.getGpuFaultCheckThreshold()); debugManager.flags.DisableScratchPages.set(true); debugManager.flags.GpuFaultCheckThreshold.set(threshold); DrmMockCheckPageFault drm3{*executionEnvironment->rootDeviceEnvironments[0]}; drm3.configureScratchPagePolicy(); drm3.configureGpuFaultCheckThreshold(); EXPECT_TRUE(drm3.checkToDisableScratchPage()); EXPECT_EQ(threshold, drm3.getGpuFaultCheckThreshold()); debugManager.flags.DisableScratchPages.set(false); debugManager.flags.GpuFaultCheckThreshold.set(threshold); DrmMockCheckPageFault drm4{*executionEnvironment->rootDeviceEnvironments[0]}; drm4.configureScratchPagePolicy(); drm4.configureGpuFaultCheckThreshold(); EXPECT_FALSE(drm4.checkToDisableScratchPage()); EXPECT_EQ(threshold, drm4.getGpuFaultCheckThreshold()); } struct MockDrmMemoryManagerCheckPageFault : public MockDrmMemoryManager { using MockDrmMemoryManager::MockDrmMemoryManager; void checkUnexpectedGpuPageFault() override { checkUnexpectedGpuPageFaultCalled++; } size_t checkUnexpectedGpuPageFaultCalled = 0; }; TEST(DrmTest, givenDisableScratchPagesSetWhenSettingGpuFaultCheckThresholdThenFaultCheckingIsHappeningAfterThreshold) { constexpr unsigned int iteration = 3u; constexpr unsigned int threshold = 3u; ASSERT_NE(0u, iteration); ASSERT_NE(0u, threshold); DebugManagerStateRestore restore; debugManager.flags.DisableScratchPages.set(true); debugManager.flags.GpuFaultCheckThreshold.set(threshold); auto executionEnvironment = std::make_unique(); auto rootDeviceEnvironment = executionEnvironment->rootDeviceEnvironments[0].get(); rootDeviceEnvironment->setHwInfoAndInitHelpers(defaultHwInfo.get()); rootDeviceEnvironment->osInterface = std::make_unique(); rootDeviceEnvironment->osInterface->setDriverModel(std::unique_ptr(new DrmMock(*rootDeviceEnvironment))); auto memoryManager = new MockDrmMemoryManagerCheckPageFault(GemCloseWorkerMode::gemCloseWorkerInactive, false, false, *executionEnvironment); executionEnvironment->memoryManager.reset(memoryManager); auto &drm = *executionEnvironment->rootDeviceEnvironments[0]->osInterface->getDriverModel()->as(); drm.configureScratchPagePolicy(); drm.configureGpuFaultCheckThreshold(); uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(0); ResetStats resetStats{}; resetStats.contextId = 0; drm.resetStatsToReturn.push_back(resetStats); bool isGpuHangDetected{}; for (auto i = 0u; i < iteration; i++) { memoryManager->checkUnexpectedGpuPageFaultCalled = 0u; for (auto j = 0u; j < threshold; j++) { EXPECT_NO_THROW(isGpuHangDetected = drm.isGpuHangDetected(mockOsContextLinux)); EXPECT_FALSE(isGpuHangDetected); EXPECT_EQ(0u, memoryManager->checkUnexpectedGpuPageFaultCalled); } EXPECT_NO_THROW(isGpuHangDetected = drm.isGpuHangDetected(mockOsContextLinux)); EXPECT_FALSE(isGpuHangDetected); EXPECT_EQ(1u, memoryManager->checkUnexpectedGpuPageFaultCalled); } } TEST(DrmTest, givenDisableScratchPagesSetWhenSettingGpuFaultCheckThresholdToZeroThenFaultCheckingDoesNotHappen) { constexpr unsigned int iteration = 20u; ASSERT_NE(0u, iteration); DebugManagerStateRestore restore; debugManager.flags.DisableScratchPages.set(true); debugManager.flags.GpuFaultCheckThreshold.set(0u); auto executionEnvironment = std::make_unique(); auto rootDeviceEnvironment = executionEnvironment->rootDeviceEnvironments[0].get(); rootDeviceEnvironment->setHwInfoAndInitHelpers(defaultHwInfo.get()); rootDeviceEnvironment->osInterface = std::make_unique(); rootDeviceEnvironment->osInterface->setDriverModel(std::unique_ptr(new DrmMock(*rootDeviceEnvironment))); auto memoryManager = new MockDrmMemoryManagerCheckPageFault(GemCloseWorkerMode::gemCloseWorkerInactive, false, false, *executionEnvironment); executionEnvironment->memoryManager.reset(memoryManager); auto &drm = *executionEnvironment->rootDeviceEnvironments[0]->osInterface->getDriverModel()->as(); drm.configureScratchPagePolicy(); drm.configureGpuFaultCheckThreshold(); uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(0); ResetStats resetStats{}; resetStats.contextId = 0; drm.resetStatsToReturn.push_back(resetStats); bool isGpuHangDetected{}; for (auto i = 0u; i < iteration; i++) { EXPECT_NO_THROW(isGpuHangDetected = drm.isGpuHangDetected(mockOsContextLinux)); EXPECT_FALSE(isGpuHangDetected); } EXPECT_EQ(0u, memoryManager->checkUnexpectedGpuPageFaultCalled); } TEST(DrmTest, whenNotDisablingScratchPagesThenFaultCheckingDoesNotHappen) { constexpr unsigned int iteration = 20u; ASSERT_NE(0u, iteration); DebugManagerStateRestore restore; debugManager.flags.DisableScratchPages.set(false); auto executionEnvironment = std::make_unique(); auto rootDeviceEnvironment = executionEnvironment->rootDeviceEnvironments[0].get(); rootDeviceEnvironment->setHwInfoAndInitHelpers(defaultHwInfo.get()); rootDeviceEnvironment->osInterface = std::make_unique(); rootDeviceEnvironment->osInterface->setDriverModel(std::unique_ptr(new DrmMock(*rootDeviceEnvironment))); auto memoryManager = new MockDrmMemoryManagerCheckPageFault(GemCloseWorkerMode::gemCloseWorkerInactive, false, false, *executionEnvironment); executionEnvironment->memoryManager.reset(memoryManager); auto &drm = *executionEnvironment->rootDeviceEnvironments[0]->osInterface->getDriverModel()->as(); drm.configureScratchPagePolicy(); drm.configureGpuFaultCheckThreshold(); uint32_t contextId{0}; EngineDescriptor engineDescriptor{EngineDescriptorHelper::getDefaultDescriptor({aub_stream::ENGINE_BCS, EngineUsage::regular})}; MockOsContextLinux mockOsContextLinux{drm, 0, contextId, engineDescriptor}; mockOsContextLinux.drmContextIds.push_back(0); ResetStats resetStats{}; resetStats.contextId = 0; drm.resetStatsToReturn.push_back(resetStats); bool isGpuHangDetected{}; for (auto i = 0u; i < iteration; i++) { EXPECT_NO_THROW(isGpuHangDetected = drm.isGpuHangDetected(mockOsContextLinux)); EXPECT_FALSE(isGpuHangDetected); } EXPECT_EQ(0u, memoryManager->checkUnexpectedGpuPageFaultCalled); } TEST(DrmTest, givenSetupIoctlHelperWhenCalledTwiceThenIoctlHelperIsSetOnlyOnce) { DebugManagerStateRestore restore; debugManager.flags.IgnoreProductSpecificIoctlHelper.set(true); auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper.reset(nullptr); const auto productFamily = executionEnvironment->rootDeviceEnvironments[0]->getHardwareInfo()->platform.eProductFamily; drm.setupIoctlHelper(productFamily); EXPECT_NE(nullptr, drm.ioctlHelper.get()); auto ioctlHelper = drm.ioctlHelper.get(); drm.setupIoctlHelper(productFamily); EXPECT_EQ(ioctlHelper, drm.ioctlHelper.get()); } TEST(DrmTest, GivenDrmWhenDiscoveringDevicesThenCloseOnExecFlagIsPassedToFdOpen) { SysCalls::openFuncCalled = 0; VariableBackup openCounter(&SysCalls::openFuncCalled); VariableBackup mockOpen(&SysCalls::sysCallsOpen, [](const char *pathname, int flags) -> int { EXPECT_TRUE(flags & O_CLOEXEC); return 1; }); auto executionEnvironment = std::make_unique(); auto rootDeviceEnvironment = executionEnvironment->rootDeviceEnvironments[0].get(); rootDeviceEnvironment->setHwInfoAndInitHelpers(defaultHwInfo.get()); rootDeviceEnvironment->osInterface = std::make_unique(); rootDeviceEnvironment->osInterface->setDriverModel(std::unique_ptr(new DrmMock(*rootDeviceEnvironment))); auto devices = Drm::discoverDevices(*executionEnvironment); EXPECT_NE(0u, SysCalls::openFuncCalled); SysCalls::openFuncCalled = 0; VariableBackup emptyDir(&NEO::returnEmptyFilesVector, true); devices = Drm::discoverDevices(*executionEnvironment); EXPECT_NE(0u, SysCalls::openFuncCalled); } TEST(DrmWrapperTest, WhenGettingDrmIoctlVersionValueThenIoctlHelperIsNotNeeded) { EXPECT_EQ(getIoctlRequestValue(DrmIoctl::version, nullptr), static_cast(DRM_IOCTL_VERSION)); } TEST(DrmWrapperTest, WhenGettingIoctlStringValueThenProperStringIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; MockIoctlHelper ioctlHelper{drm}; EXPECT_STREQ(ioctlHelper.getIoctlString(DrmIoctl::getparam).c_str(), "DRM_IOCTL_I915_GETPARAM"); } TEST(DrmWrapperTest, WhenGettingDrmParamValueStringThenProperStringIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; MockIoctlHelper ioctlHelper{drm}; std::map ioctlCodeStringMap = { {DrmParam::paramHasPooledEu, "I915_PARAM_HAS_POOLED_EU"}, {DrmParam::paramEuTotal, "I915_PARAM_EU_TOTAL"}, {DrmParam::paramSubsliceTotal, "I915_PARAM_SUBSLICE_TOTAL"}, {DrmParam::paramMinEuInPool, "I915_PARAM_MIN_EU_IN_POOL"}, {DrmParam::paramCsTimestampFrequency, "I915_PARAM_CS_TIMESTAMP_FREQUENCY"}}; for (auto &ioctlCodeString : ioctlCodeStringMap) { EXPECT_STREQ(ioctlHelper.getDrmParamString(ioctlCodeString.first).c_str(), ioctlCodeString.second); } } TEST(DrmHwInfoTest, givenTopologyDataWithoutSystemInfoWhenSettingHwInfoThenCorrectValuesAreSet) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper = std::make_unique(drm); auto ioctlHelper = static_cast(drm.ioctlHelper.get()); ioctlHelper->topologyDataToSet.sliceCount = 2; ioctlHelper->topologyDataToSet.subSliceCount = 6; ioctlHelper->topologyDataToSet.euCount = 12; ioctlHelper->topologyDataToSet.numL3Banks = 3; ioctlHelper->topologyDataToSet.maxSlices = 4; ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice = 4; ioctlHelper->topologyDataToSet.maxEusPerSubSlice = 9; ioctlHelper->topologyMapToSet[0].sliceIndices = {1, 2}; ioctlHelper->topologyMapToSet[0].subsliceIndices = {}; ioctlHelper->topologyMapToSet[1].sliceIndices = {1, 2}; ioctlHelper->topologyMapToSet[1].subsliceIndices = {}; auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); hwInfo->gtSystemInfo = {}; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.systemInfoQueried = true; EXPECT_EQ(nullptr, drm.systemInfo.get()); drm.setupHardwareInfo(&device, false); EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_EQ(hwInfo->gtSystemInfo.SliceCount, 2u); EXPECT_EQ(hwInfo->gtSystemInfo.SubSliceCount, 6u); EXPECT_EQ(hwInfo->gtSystemInfo.DualSubSliceCount, 6u); EXPECT_EQ(hwInfo->gtSystemInfo.EUCount, 12u); EXPECT_EQ(hwInfo->gtSystemInfo.L3BankCount, 3u); EXPECT_EQ(hwInfo->gtSystemInfo.MaxEuPerSubSlice, 9u); EXPECT_EQ(hwInfo->gtSystemInfo.MaxSlicesSupported, 2u); EXPECT_EQ(hwInfo->gtSystemInfo.MaxSubSlicesSupported, 16u); EXPECT_EQ(hwInfo->gtSystemInfo.MaxDualSubSlicesSupported, 16u); EXPECT_TRUE(hwInfo->gtSystemInfo.IsDynamicallyPopulated); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[0].Enabled); EXPECT_TRUE(hwInfo->gtSystemInfo.SliceInfo[1].Enabled); EXPECT_TRUE(hwInfo->gtSystemInfo.SliceInfo[2].Enabled); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[3].Enabled); for (auto slice = 4u; slice < GT_MAX_SLICE; slice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[slice].Enabled); } } TEST(DrmHwInfoTest, givenTopologyDataWithAsymtricTopologyMappingWhenSettingHwInfoThenMinimalSubsetIsTaken) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper = std::make_unique(drm); auto ioctlHelper = static_cast(drm.ioctlHelper.get()); ioctlHelper->topologyDataToSet.sliceCount = 3; ioctlHelper->topologyDataToSet.subSliceCount = 6; ioctlHelper->topologyDataToSet.euCount = 12; ioctlHelper->topologyDataToSet.numL3Banks = 3; ioctlHelper->topologyDataToSet.maxSlices = 4; ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice = 4; ioctlHelper->topologyDataToSet.maxEusPerSubSlice = 9; ioctlHelper->topologyMapToSet[0].sliceIndices = {1, 2, 3}; ioctlHelper->topologyMapToSet[0].subsliceIndices = {}; ioctlHelper->topologyMapToSet[1].sliceIndices = {2, 3, 4}; ioctlHelper->topologyMapToSet[1].subsliceIndices = {}; auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); hwInfo->gtSystemInfo = {}; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.systemInfoQueried = true; EXPECT_EQ(nullptr, drm.systemInfo.get()); drm.setupHardwareInfo(&device, false); EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_TRUE(hwInfo->gtSystemInfo.IsDynamicallyPopulated); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[0].Enabled); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[1].Enabled); EXPECT_TRUE(hwInfo->gtSystemInfo.SliceInfo[2].Enabled); EXPECT_TRUE(hwInfo->gtSystemInfo.SliceInfo[3].Enabled); for (auto slice = 4u; slice < GT_MAX_SLICE; slice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[slice].Enabled); } } TEST(DrmHwInfoTest, givenTopologyDataWithSingleSliceWhenSettingHwInfoThenCorrectValuesAreSet) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper = std::make_unique(drm); auto ioctlHelper = static_cast(drm.ioctlHelper.get()); ioctlHelper->topologyDataToSet.sliceCount = 1; ioctlHelper->topologyDataToSet.subSliceCount = 6; ioctlHelper->topologyDataToSet.euCount = 12; ioctlHelper->topologyDataToSet.numL3Banks = 3; ioctlHelper->topologyDataToSet.maxSlices = 4; ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice = 4; ioctlHelper->topologyDataToSet.maxEusPerSubSlice = 9; ioctlHelper->topologyMapToSet[0].sliceIndices = {1}; ioctlHelper->topologyMapToSet[0].subsliceIndices = {1, 2, 3, 4, 5, 6}; ioctlHelper->topologyMapToSet[1].sliceIndices = {1}; ioctlHelper->topologyMapToSet[1].subsliceIndices = {2, 3, 4, 5, 6, 7}; auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); hwInfo->gtSystemInfo = {}; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.systemInfoQueried = true; EXPECT_EQ(nullptr, drm.systemInfo.get()); drm.setupHardwareInfo(&device, false); EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_TRUE(hwInfo->gtSystemInfo.IsDynamicallyPopulated); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[0].Enabled); EXPECT_TRUE(hwInfo->gtSystemInfo.SliceInfo[1].Enabled); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[2].Enabled); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[3].Enabled); for (auto slice = 4u; slice < GT_MAX_SLICE; slice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[slice].Enabled); } EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[1].SubSliceInfo[0].Enabled); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[1].SubSliceInfo[1].Enabled); for (auto subslice = 2u; subslice < 7; subslice++) { EXPECT_TRUE(hwInfo->gtSystemInfo.SliceInfo[1].SubSliceInfo[subslice].Enabled); } for (auto subslice = 7u; subslice < GT_MAX_SUBSLICE_PER_SLICE; subslice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[1].SubSliceInfo[subslice].Enabled); } } TEST(DrmHwInfoTest, givenTopologyDataWithoutTopologyMappingWhenSettingHwInfoThenCorrectValuesAreSet) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper = std::make_unique(drm); auto ioctlHelper = static_cast(drm.ioctlHelper.get()); ioctlHelper->topologyDataToSet.sliceCount = 2; ioctlHelper->topologyDataToSet.subSliceCount = 6; ioctlHelper->topologyDataToSet.euCount = 12; ioctlHelper->topologyDataToSet.numL3Banks = 3; ioctlHelper->topologyDataToSet.maxSlices = 4; ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice = 4; ioctlHelper->topologyDataToSet.maxEusPerSubSlice = 9; auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); hwInfo->gtSystemInfo = {}; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.systemInfoQueried = true; EXPECT_EQ(nullptr, drm.systemInfo.get()); drm.setupHardwareInfo(&device, false); EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_FALSE(hwInfo->gtSystemInfo.IsDynamicallyPopulated); for (auto slice = 0u; slice < GT_MAX_SLICE; slice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[slice].Enabled); } } TEST(DrmHwInfoTest, givenTopologyDataWithIncorrectSliceMaskWhenSettingHwInfoThenFailureIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper = std::make_unique(drm); auto ioctlHelper = static_cast(drm.ioctlHelper.get()); ioctlHelper->topologyDataToSet.sliceCount = 2; ioctlHelper->topologyDataToSet.subSliceCount = 6; ioctlHelper->topologyDataToSet.euCount = 12; ioctlHelper->topologyDataToSet.numL3Banks = 3; ioctlHelper->topologyDataToSet.maxSlices = 4; ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice = 4; ioctlHelper->topologyDataToSet.maxEusPerSubSlice = 9; ioctlHelper->topologyMapToSet[0].sliceIndices = {1}; ioctlHelper->topologyMapToSet[1].sliceIndices = {2}; auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); hwInfo->gtSystemInfo = {}; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.systemInfoQueried = true; EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_NE(0, drm.setupHardwareInfo(&device, false)); } TEST(DrmHwInfoTest, givenTopologyDataWithSingleSliceAndNoCommonSubSliceMaskWhenSettingHwInfoThenSuccessIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper = std::make_unique(drm); auto ioctlHelper = static_cast(drm.ioctlHelper.get()); ioctlHelper->topologyDataToSet.sliceCount = 1; ioctlHelper->topologyDataToSet.subSliceCount = 3; ioctlHelper->topologyDataToSet.euCount = 12; ioctlHelper->topologyDataToSet.numL3Banks = 3; ioctlHelper->topologyDataToSet.maxSlices = 2; ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice = 7; ioctlHelper->topologyDataToSet.maxEusPerSubSlice = 9; ioctlHelper->topologyMapToSet[0].sliceIndices = {1}; ioctlHelper->topologyMapToSet[0].subsliceIndices = {0, 1, 2}; ioctlHelper->topologyMapToSet[1].sliceIndices = {1}; ioctlHelper->topologyMapToSet[1].subsliceIndices = {4, 5, 6}; auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); hwInfo->gtSystemInfo = {}; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.systemInfoQueried = true; EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_EQ(0, drm.setupHardwareInfo(&device, false)); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[0].Enabled); EXPECT_TRUE(hwInfo->gtSystemInfo.SliceInfo[1].Enabled); for (auto slice = 2u; slice < GT_MAX_SLICE; slice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[slice].Enabled); } for (auto subslice = 0u; subslice < GT_MAX_SUBSLICE_PER_SLICE; subslice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[1].SubSliceInfo[subslice].Enabled); } EXPECT_GE(GfxCoreHelper::getHighestEnabledDualSubSlice(*hwInfo), 2u * ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice); } TEST(DrmHwInfoTest, givenTopologyDataWithSingleSliceAndMoreSubslicesThanMaxSubslicePerSliceWhenSettingHwInfoThenNoSubSliceInfoIsSet) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper = std::make_unique(drm); auto ioctlHelper = static_cast(drm.ioctlHelper.get()); ioctlHelper->topologyDataToSet.sliceCount = 1; ioctlHelper->topologyDataToSet.subSliceCount = 3; ioctlHelper->topologyDataToSet.euCount = 12; ioctlHelper->topologyDataToSet.numL3Banks = 3; ioctlHelper->topologyDataToSet.maxSlices = 2; ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice = 7; ioctlHelper->topologyDataToSet.maxEusPerSubSlice = 9; ioctlHelper->topologyMapToSet[0].sliceIndices = {1}; ioctlHelper->topologyMapToSet[0].subsliceIndices = {0, 1, GT_MAX_SUBSLICE_PER_SLICE}; ioctlHelper->topologyMapToSet[1].sliceIndices = {1}; ioctlHelper->topologyMapToSet[1].subsliceIndices = {0, 1, GT_MAX_SUBSLICE_PER_SLICE}; auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); hwInfo->gtSystemInfo = {}; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.systemInfoQueried = true; EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_EQ(0, drm.setupHardwareInfo(&device, false)); EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[0].Enabled); EXPECT_TRUE(hwInfo->gtSystemInfo.SliceInfo[1].Enabled); for (auto slice = 2u; slice < GT_MAX_SLICE; slice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[slice].Enabled); } for (auto subslice = 0u; subslice < GT_MAX_SUBSLICE_PER_SLICE; subslice++) { EXPECT_FALSE(hwInfo->gtSystemInfo.SliceInfo[1].SubSliceInfo[subslice].Enabled); } EXPECT_GE(GfxCoreHelper::getHighestEnabledDualSubSlice(*hwInfo), 2u * ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice); } TEST(DrmHwInfoTest, givenTopologyDataWithoutL3BankCountWhenSettingHwInfoThenL3BankCountIsSetBasedOnMaxDualSubslicesBeforeQueryTopology) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper = std::make_unique(drm); auto ioctlHelper = static_cast(drm.ioctlHelper.get()); ioctlHelper->topologyDataToSet.sliceCount = 1; ioctlHelper->topologyDataToSet.subSliceCount = 1; ioctlHelper->topologyDataToSet.maxEusPerSubSlice = 1; ioctlHelper->topologyDataToSet.euCount = 1; ioctlHelper->topologyDataToSet.maxSlices = 1; ioctlHelper->topologyDataToSet.maxSubSlicesPerSlice = 16; auto hwInfo = executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(); hwInfo->gtSystemInfo = {}; auto setupHardwareInfo = [](HardwareInfo *hwInfo, bool, const ReleaseHelper *) { hwInfo->gtSystemInfo.MaxSubSlicesSupported = 8; hwInfo->gtSystemInfo.MaxDualSubSlicesSupported = 8; }; DeviceDescriptor device = {0, hwInfo, setupHardwareInfo}; drm.systemInfoQueried = true; EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_EQ(0, drm.setupHardwareInfo(&device, false)); EXPECT_EQ(nullptr, drm.systemInfo.get()); EXPECT_EQ(hwInfo->gtSystemInfo.L3BankCount, 8u); EXPECT_EQ(hwInfo->gtSystemInfo.MaxSubSlicesSupported, 16u); EXPECT_EQ(hwInfo->gtSystemInfo.MaxDualSubSlicesSupported, 16u); } TEST(DrmWrapperTest, givenEAgainOrEIntrOrEBusyWhenCheckingIfReinvokeRequiredThenTrueIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; MockIoctlHelper ioctlHelper{drm}; EXPECT_TRUE(checkIfIoctlReinvokeRequired(EAGAIN, DrmIoctl::getparam, &ioctlHelper)); EXPECT_TRUE(checkIfIoctlReinvokeRequired(EINTR, DrmIoctl::getparam, &ioctlHelper)); EXPECT_TRUE(checkIfIoctlReinvokeRequired(EBUSY, DrmIoctl::getparam, &ioctlHelper)); EXPECT_TRUE(checkIfIoctlReinvokeRequired(-EBUSY, DrmIoctl::getparam, &ioctlHelper)); } TEST(DrmWrapperTest, givenNoIoctlHelperAndEAgainOrEIntrOrEBusyWhenCheckingIfReinvokeRequiredThenTrueIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; EXPECT_TRUE(checkIfIoctlReinvokeRequired(EAGAIN, DrmIoctl::getparam, nullptr)); EXPECT_TRUE(checkIfIoctlReinvokeRequired(EINTR, DrmIoctl::getparam, nullptr)); EXPECT_TRUE(checkIfIoctlReinvokeRequired(EBUSY, DrmIoctl::getparam, nullptr)); EXPECT_TRUE(checkIfIoctlReinvokeRequired(-EBUSY, DrmIoctl::getparam, nullptr)); } TEST(DrmWrapperTest, givenErrorWhenCheckingIfReinvokeRequiredThenFalseIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; MockIoctlHelper ioctlHelper{drm}; EXPECT_FALSE(checkIfIoctlReinvokeRequired(ENOENT, DrmIoctl::getparam, &ioctlHelper)); EXPECT_FALSE(checkIfIoctlReinvokeRequired(ENOENT, DrmIoctl::getparam, nullptr)); } TEST(IoctlHelperTest, whenGettingFileNameForFrequencyFilesThenProperStringIsReturned) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto ioctlHelper = drm.getIoctlHelper(); EXPECT_STREQ("/gt_max_freq_mhz", ioctlHelper->getFileForMaxGpuFrequency().c_str()); EXPECT_STREQ("/gt/gt2/rps_max_freq_mhz", ioctlHelper->getFileForMaxGpuFrequencyOfSubDevice(2).c_str()); EXPECT_STREQ("/gt/gt1/mem_RP0_freq_mhz", ioctlHelper->getFileForMaxMemoryFrequencyOfSubDevice(1).c_str()); } TEST(IoctlHelperTest, givenIoctlHelperWhenCallCreateGemThenProperValuesSet) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto ioctlHelper = drm.getIoctlHelper(); ASSERT_NE(nullptr, ioctlHelper); uint64_t size = 1234; uint32_t memoryBanks = 3u; EXPECT_EQ(0, drm.ioctlCount.gemCreate); uint32_t handle = ioctlHelper->createGem(size, memoryBanks, false); EXPECT_EQ(1, drm.ioctlCount.gemCreate); EXPECT_EQ(size, drm.createParamsSize); // dummy mock handle EXPECT_EQ(1u, drm.createParamsHandle); EXPECT_EQ(handle, drm.createParamsHandle); } TEST(DistanceInfoTest, givenDistanceInfosWhenAssignRegionsFromDistancesThenCorrectRegionsSet) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto ioctlHelper = drm.getIoctlHelper(); auto memoryClassSystem = static_cast(ioctlHelper->getDrmParamValue(DrmParam::memoryClassSystem)); auto memoryClassDevice = static_cast(ioctlHelper->getDrmParamValue(DrmParam::memoryClassDevice)); std::vector memRegions(4); memRegions[0] = {{memoryClassSystem, 0}, 1024, 0}; memRegions[1] = {{memoryClassDevice, 0}, 1024, 0}; memRegions[2] = {{memoryClassDevice, 1}, 1024, 0}; memRegions[3] = {{memoryClassDevice, 2}, 1024, 0}; auto memoryInfo = std::make_unique(memRegions, drm); std::vector engines(3); engines[0] = {static_cast(ioctlHelper->getDrmParamValue(DrmParam::engineClassRender)), 0}; engines[1] = {static_cast(ioctlHelper->getDrmParamValue(DrmParam::engineClassCopy)), 0}; engines[2] = {static_cast(ioctlHelper->getDrmParamValue(DrmParam::engineClassCopy)), 2}; auto distances = std::vector(); for (const auto ®ion : memRegions) { if (region.region.memoryClass == memoryClassSystem) { continue; } for (const auto &engine : engines) { DistanceInfo dist{}; dist.engine = engine; dist.region = {region.region.memoryClass, region.region.memoryInstance}; dist.distance = (region.region.memoryInstance == engine.engineInstance) ? 0 : 100; distances.push_back(dist); } } memoryInfo->assignRegionsFromDistances(distances); EXPECT_EQ(1024u, memoryInfo->getMemoryRegionSize(1)); EXPECT_EQ(1024u, memoryInfo->getMemoryRegionSize(2)); EXPECT_ANY_THROW(memoryInfo->getMemoryRegionSize(4)); } TEST(DrmTest, GivenProductSpecificIoctlHelperAvailableWhenSetupIoctlHelperThenCreateProductSpecificOne) { auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper.reset(); auto productFamily = defaultHwInfo->platform.eProductFamily; VariableBackup(Drm & drm)>>> createFuncBackup{&ioctlHelperFactory[productFamily]}; static uint32_t customFuncCalled = 0; ioctlHelperFactory[productFamily] = [](Drm &drm) -> std::unique_ptr { EXPECT_EQ(0u, customFuncCalled); customFuncCalled++; return std::make_unique(drm); }; customFuncCalled = 0; drm.setupIoctlHelper(productFamily); EXPECT_EQ(1u, customFuncCalled); } TEST(DrmTest, GivenProductSpecificIoctlHelperAvailableAndDebugFlagToIgnoreIsSetWhenSetupIoctlHelperThenDontCreateProductSpecificOne) { DebugManagerStateRestore restore; debugManager.flags.IgnoreProductSpecificIoctlHelper.set(true); auto executionEnvironment = std::make_unique(); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; drm.ioctlHelper.reset(); auto productFamily = defaultHwInfo->platform.eProductFamily; VariableBackup(Drm & drm)>>> createFuncBackup{&ioctlHelperFactory[productFamily]}; static uint32_t customFuncCalled = 0; ioctlHelperFactory[productFamily] = [](Drm &drm) -> std::unique_ptr { EXPECT_EQ(0u, customFuncCalled); customFuncCalled++; return std::make_unique(drm); }; customFuncCalled = 0; drm.setupIoctlHelper(productFamily); EXPECT_EQ(0u, customFuncCalled); } TEST(DrmTest, GivenSysFsPciPathWhenCallinggetSysFsPciPathBaseNameThenResultIsCorrect) { auto executionEnvironment = std::make_unique(); class DrmMockPciPath : public DrmMock { public: DrmMockPciPath(RootDeviceEnvironment &rootDeviceEnvironment) : DrmMock(rootDeviceEnvironment) {} std::string mockSysFsPciPath = "/sys/devices/pci0000:00/0000:00:02.0/drm/card0"; std::string getSysFsPciPath() override { return mockSysFsPciPath; } }; DrmMockPciPath drm{*executionEnvironment->rootDeviceEnvironments[0]}; EXPECT_STREQ("card0", drm.getSysFsPciPathBaseName().c_str()); drm.mockSysFsPciPath = "/sys/devices/pci0000:00/0000:00:02.0/drm/card7"; EXPECT_STREQ("card7", drm.getSysFsPciPathBaseName().c_str()); drm.mockSysFsPciPath = "card8"; EXPECT_STREQ("card8", drm.getSysFsPciPathBaseName().c_str()); } using DrmHwTest = ::testing::Test; HWTEST_F(DrmHwTest, GivenDrmWhenSetupHardwareInfoCalledThenGfxCoreHelperIsInitializedFromProductHelper) { DebugManagerStateRestore restore; struct MockGfxCoreHelper : NEO::GfxCoreHelperHw { void initializeFromProductHelper(const ProductHelper &productHelper) override { initFromProductHelperCalled = true; } bool initFromProductHelperCalled = false; }; auto executionEnvironment = std::make_unique(); NEO::RAIIGfxCoreHelperFactory raii(*executionEnvironment->rootDeviceEnvironments[0]); DrmMock drm{*executionEnvironment->rootDeviceEnvironments[0]}; auto setupHardwareInfo = [](HardwareInfo *, bool, const ReleaseHelper *) {}; DeviceDescriptor device = {0, executionEnvironment->rootDeviceEnvironments[0]->getMutableHardwareInfo(), setupHardwareInfo}; drm.ioctlHelper = std::make_unique(drm); drm.setupHardwareInfo(&device, false); EXPECT_TRUE(raii.mockGfxCoreHelper->initFromProductHelperCalled); }