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/*
* Copyright (C) 2017-2018 Intel Corporation
*
* SPDX-License-Identifier: MIT
*
*/
#include "runtime/aub_mem_dump/aub_mem_dump.h"
#include "runtime/aub_mem_dump/page_table_entry_bits.h"
#include "runtime/helpers/array_count.h"
#include "runtime/helpers/dispatch_info.h"
#include "runtime/helpers/flat_batch_buffer_helper_hw.h"
#include "runtime/memory_manager/memory_banks.h"
#include "runtime/memory_manager/memory_manager.h"
#include "runtime/os_interface/debug_settings_manager.h"
#include "test.h"
#include "unit_tests/fixtures/device_fixture.h"
#include "unit_tests/helpers/debug_manager_state_restore.h"
#include "unit_tests/mocks/mock_aub_csr.h"
#include "unit_tests/mocks/mock_aub_file_stream.h"
#include "unit_tests/mocks/mock_aub_subcapture_manager.h"
#include "unit_tests/mocks/mock_csr.h"
#include "unit_tests/mocks/mock_gmm.h"
#include "unit_tests/mocks/mock_graphics_allocation.h"
#include "unit_tests/mocks/mock_kernel.h"
#include "unit_tests/mocks/mock_mdi.h"
#include <fstream>
#include <memory>
using namespace OCLRT;
using ::testing::_;
using ::testing::Invoke;
using ::testing::Return;
typedef Test<DeviceFixture> AubCommandStreamReceiverTests;
template <typename GfxFamily>
struct MockAubCsrToTestDumpAubNonWritable : public AUBCommandStreamReceiverHw<GfxFamily> {
using AUBCommandStreamReceiverHw<GfxFamily>::AUBCommandStreamReceiverHw;
using AUBCommandStreamReceiverHw<GfxFamily>::dumpAubNonWritable;
bool writeMemory(GraphicsAllocation &gfxAllocation) override {
return true;
}
};
TEST_F(AubCommandStreamReceiverTests, givenStructureWhenMisalignedUint64ThenUseSetterGetterFunctionsToSetGetValue) {
const uint64_t value = 0x0123456789ABCDEFu;
AubMemDump::AubCaptureBinaryDumpHD aubCaptureBinaryDumpHD{};
aubCaptureBinaryDumpHD.setBaseAddr(value);
EXPECT_EQ(value, aubCaptureBinaryDumpHD.getBaseAddr());
aubCaptureBinaryDumpHD.setWidth(value);
EXPECT_EQ(value, aubCaptureBinaryDumpHD.getWidth());
aubCaptureBinaryDumpHD.setHeight(value);
EXPECT_EQ(value, aubCaptureBinaryDumpHD.getHeight());
aubCaptureBinaryDumpHD.setPitch(value);
EXPECT_EQ(value, aubCaptureBinaryDumpHD.getPitch());
AubMemDump::AubCmdDumpBmpHd aubCmdDumpBmpHd{};
aubCmdDumpBmpHd.setBaseAddr(value);
EXPECT_EQ(value, aubCmdDumpBmpHd.getBaseAddr());
AubMemDump::CmdServicesMemTraceDumpCompress cmdServicesMemTraceDumpCompress{};
cmdServicesMemTraceDumpCompress.setSurfaceAddress(value);
EXPECT_EQ(value, cmdServicesMemTraceDumpCompress.getSurfaceAddress());
}
TEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenItIsCreatedWithWrongGfxCoreFamilyThenNullPointerShouldBeReturned) {
HardwareInfo hwInfo = *platformDevices[0];
GFXCORE_FAMILY family = hwInfo.pPlatform->eRenderCoreFamily;
const_cast<PLATFORM *>(hwInfo.pPlatform)->eRenderCoreFamily = GFXCORE_FAMILY_FORCE_ULONG; // wrong gfx core family
CommandStreamReceiver *aubCsr = AUBCommandStreamReceiver::create(hwInfo, "", true, *pDevice->executionEnvironment);
EXPECT_EQ(nullptr, aubCsr);
const_cast<PLATFORM *>(hwInfo.pPlatform)->eRenderCoreFamily = family;
}
TEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenTypeIsCheckedThenAubCsrIsReturned) {
HardwareInfo hwInfo = *platformDevices[0];
std::unique_ptr<CommandStreamReceiver> aubCsr(AUBCommandStreamReceiver::create(hwInfo, "", true, *pDevice->executionEnvironment));
EXPECT_NE(nullptr, aubCsr);
EXPECT_EQ(CommandStreamReceiverType::CSR_AUB, aubCsr->getType());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGetEngineIndexFromInstanceIsCalledForGivenEngineInstanceThenEngineIndexForThatInstanceIsReturned) {
auto aubCsr = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
EXPECT_NE(nullptr, aubCsr);
EXPECT_TRUE(aubCsr->getEngineIndexFromInstance(EngineInstanceT(EngineType::ENGINE_RCS, 0)) < arrayCount(allEngineInstances));
EXPECT_TRUE(aubCsr->getEngineIndexFromInstance(EngineInstanceT(EngineType::ENGINE_BCS, 0)) < arrayCount(allEngineInstances));
EXPECT_TRUE(aubCsr->getEngineIndexFromInstance(EngineInstanceT(EngineType::ENGINE_VCS, 0)) < arrayCount(allEngineInstances));
EXPECT_TRUE(aubCsr->getEngineIndexFromInstance(EngineInstanceT(EngineType::ENGINE_VECS, 0)) < arrayCount(allEngineInstances));
EXPECT_THROW(aubCsr->getEngineIndexFromInstance(EngineInstanceT(EngineType::ENGINE_RCS, 1)), std::exception);
EXPECT_THROW(aubCsr->getEngineIndexFromInstance(EngineInstanceT(EngineType::ENGINE_BCS, 1)), std::exception);
EXPECT_THROW(aubCsr->getEngineIndexFromInstance(EngineInstanceT(EngineType::ENGINE_VCS, 1)), std::exception);
EXPECT_THROW(aubCsr->getEngineIndexFromInstance(EngineInstanceT(EngineType::ENGINE_VECS, 1)), std::exception);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGetEngineIndexIsCalledForGivenEngineTypeThenEngineIndexForThatTypeIsReturned) {
auto aubCsr = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
EXPECT_NE(nullptr, aubCsr);
auto engineIndex = aubCsr->getEngineIndex(EngineType::ENGINE_RCS);
EXPECT_EQ(EngineType::ENGINE_RCS, allEngineInstances[engineIndex].type);
engineIndex = aubCsr->getEngineIndex(EngineType::ENGINE_BCS);
EXPECT_EQ(EngineType::ENGINE_BCS, allEngineInstances[engineIndex].type);
engineIndex = aubCsr->getEngineIndex(EngineType::ENGINE_VCS);
EXPECT_EQ(EngineType::ENGINE_VCS, allEngineInstances[engineIndex].type);
engineIndex = aubCsr->getEngineIndex(EngineType::ENGINE_VECS);
EXPECT_EQ(EngineType::ENGINE_VECS, allEngineInstances[engineIndex].type);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCsrWhenItIsCreatedWithDefaultSettingsThenItHasBatchedDispatchModeEnabled) {
DebugManagerStateRestore stateRestore;
DebugManager.flags.CsrDispatchMode.set(0);
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
EXPECT_EQ(DispatchMode::BatchedDispatch, aubCsr->peekDispatchMode());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCsrWhenItIsCreatedWithDebugSettingsThenItHasProperDispatchModeEnabled) {
DebugManagerStateRestore stateRestore;
DebugManager.flags.CsrDispatchMode.set(static_cast<uint32_t>(DispatchMode::ImmediateDispatch));
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
EXPECT_EQ(DispatchMode::ImmediateDispatch, aubCsr->peekDispatchMode());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenItIsCreatedThenMemoryManagerIsNotNull) {
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(**platformDevices, "", true, *pDevice->executionEnvironment));
std::unique_ptr<MemoryManager> memoryManager(aubCsr->createMemoryManager(false, false));
EXPECT_NE(nullptr, memoryManager.get());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenMultipleInstancesAreCreatedThenTheyOperateOnSingleFileStream) {
ExecutionEnvironment executionEnvironment;
auto aubCsr1 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto aubCsr2 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
EXPECT_EQ(aubCsr1->stream, aubCsr2->stream);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenMultipleInstancesAreCreatedThenTheyUseTheSameFileStream) {
ExecutionEnvironment executionEnvironment;
auto aubCsr1 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto streamProvider1 = executionEnvironment.aubCenter->getStreamProvider();
EXPECT_NE(nullptr, streamProvider1);
auto aubCsr2 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto streamProvider2 = executionEnvironment.aubCenter->getStreamProvider();
EXPECT_NE(nullptr, streamProvider2);
EXPECT_EQ(streamProvider1, streamProvider2);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenMultipleInstancesAreCreatedThenTheyUseTheSamePhysicalAddressAllocator) {
ExecutionEnvironment executionEnvironment;
auto aubCsr1 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto physicalAddressAlocator1 = executionEnvironment.aubCenter->getPhysicalAddressAllocator();
EXPECT_NE(nullptr, physicalAddressAlocator1);
auto aubCsr2 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto physicalAddressAlocator2 = executionEnvironment.aubCenter->getPhysicalAddressAllocator();
EXPECT_NE(nullptr, physicalAddressAlocator2);
EXPECT_EQ(physicalAddressAlocator1, physicalAddressAlocator2);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenMultipleInstancesAreCreatedThenTheyUseTheSameAddressMapper) {
ExecutionEnvironment executionEnvironment;
auto aubCsr1 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto addressMapper1 = executionEnvironment.aubCenter->getAddressMapper();
EXPECT_NE(nullptr, addressMapper1);
auto aubCsr2 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto addressMapper2 = executionEnvironment.aubCenter->getAddressMapper();
EXPECT_NE(nullptr, addressMapper2);
EXPECT_EQ(addressMapper1, addressMapper2);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenItIsCreatedThenFileIsNotCreated) {
DebugManagerStateRestore stateRestore;
DebugManager.flags.AUBDumpSubCaptureMode.set(static_cast<int32_t>(AubSubCaptureManager::SubCaptureMode::Filter));
HardwareInfo hwInfo = *platformDevices[0];
std::string fileName = "file_name.aub";
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(reinterpret_cast<AUBCommandStreamReceiverHw<FamilyType> *>(AUBCommandStreamReceiver::create(hwInfo, fileName, true, *pDevice->executionEnvironment)));
EXPECT_NE(nullptr, aubCsr);
EXPECT_FALSE(aubCsr->isFileOpen());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCsrInSubCaptureModeWhenItIsCreatedWithoutDebugFilterSettingsThenItInitializesSubCaptureFiltersWithDefaults) {
DebugManagerStateRestore stateRestore;
DebugManager.flags.AUBDumpSubCaptureMode.set(static_cast<int32_t>(AubSubCaptureManager::SubCaptureMode::Filter));
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
EXPECT_EQ(0u, aubCsr->subCaptureManager->subCaptureFilter.dumpKernelStartIdx);
EXPECT_EQ(static_cast<uint32_t>(-1), aubCsr->subCaptureManager->subCaptureFilter.dumpKernelEndIdx);
EXPECT_STREQ("", aubCsr->subCaptureManager->subCaptureFilter.dumpKernelName.c_str());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCsrInSubCaptureModeWhenItIsCreatedWithDebugFilterSettingsThenItInitializesSubCaptureFiltersWithDebugFilterSettings) {
DebugManagerStateRestore stateRestore;
DebugManager.flags.AUBDumpSubCaptureMode.set(static_cast<int32_t>(AubSubCaptureManager::SubCaptureMode::Filter));
DebugManager.flags.AUBDumpFilterKernelStartIdx.set(10);
DebugManager.flags.AUBDumpFilterKernelEndIdx.set(100);
DebugManager.flags.AUBDumpFilterKernelName.set("kernel_name");
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
EXPECT_EQ(static_cast<uint32_t>(DebugManager.flags.AUBDumpFilterKernelStartIdx.get()), aubCsr->subCaptureManager->subCaptureFilter.dumpKernelStartIdx);
EXPECT_EQ(static_cast<uint32_t>(DebugManager.flags.AUBDumpFilterKernelEndIdx.get()), aubCsr->subCaptureManager->subCaptureFilter.dumpKernelEndIdx);
EXPECT_STREQ(DebugManager.flags.AUBDumpFilterKernelName.get().c_str(), aubCsr->subCaptureManager->subCaptureFilter.dumpKernelName.c_str());
}
HWTEST_F(AubCommandStreamReceiverTests, givenGraphicsAllocationWhenMakeResidentCalledMultipleTimesAffectsResidencyOnce) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
// First makeResident marks the allocation resident
aubCsr->makeResident(*gfxAllocation);
EXPECT_NE(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(aubCsr->peekTaskCount() + 1, gfxAllocation->taskCount);
EXPECT_EQ((int)aubCsr->peekTaskCount() + 1, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(1u, aubCsr->getResidencyAllocations().size());
// Second makeResident should have no impact
aubCsr->makeResident(*gfxAllocation);
EXPECT_NE(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(aubCsr->peekTaskCount() + 1, gfxAllocation->taskCount);
EXPECT_EQ((int)aubCsr->peekTaskCount() + 1, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(1u, aubCsr->getResidencyAllocations().size());
// First makeNonResident marks the allocation as nonresident
aubCsr->makeNonResident(*gfxAllocation);
EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(1u, aubCsr->getEvictionAllocations().size());
// Second makeNonResident should have no impact
aubCsr->makeNonResident(*gfxAllocation);
EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(1u, aubCsr->getEvictionAllocations().size());
memoryManager->freeGraphicsMemoryImpl(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenMultipleInstancesInitializeTheirEnginesThenUniqueGlobalGttAdressesAreGenerated) {
ExecutionEnvironment executionEnvironment;
auto aubCsr1 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto aubCsr2 = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(**platformDevices, "", true, executionEnvironment);
auto engineType = OCLRT::ENGINE_RCS;
auto engineIndex = aubCsr1->getEngineIndex(engineType);
aubCsr1->initializeEngine(engineIndex);
EXPECT_NE(0u, aubCsr1->engineInfoTable[engineType].ggttLRCA);
EXPECT_NE(0u, aubCsr1->engineInfoTable[engineType].ggttHWSP);
EXPECT_NE(0u, aubCsr1->engineInfoTable[engineType].ggttRingBuffer);
aubCsr2->initializeEngine(engineIndex);
EXPECT_NE(aubCsr1->engineInfoTable[engineType].ggttLRCA, aubCsr2->engineInfoTable[engineType].ggttLRCA);
EXPECT_NE(aubCsr1->engineInfoTable[engineType].ggttHWSP, aubCsr2->engineInfoTable[engineType].ggttHWSP);
EXPECT_NE(aubCsr1->engineInfoTable[engineType].ggttRingBuffer, aubCsr2->engineInfoTable[engineType].ggttRingBuffer);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenFlushIsCalledThenItShouldInitializeEngineInfoTable) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {};
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_NE(nullptr, aubCsr->engineInfoTable[engineType].pLRCA);
EXPECT_NE(nullptr, aubCsr->engineInfoTable[engineType].pGlobalHWStatusPage);
EXPECT_NE(nullptr, aubCsr->engineInfoTable[engineType].pRingBuffer);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenFlushIsCalledButSubCaptureIsDisabledThenItShouldntInitializeEngineInfoTable) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
auto aubSubCaptureManagerMock = new AubSubCaptureManagerMock("");
aubSubCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
aubSubCaptureManagerMock->disableSubCapture();
aubCsr->subCaptureManager.reset(aubSubCaptureManagerMock);
ASSERT_FALSE(aubCsr->subCaptureManager->isSubCaptureEnabled());
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {};
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(nullptr, aubCsr->engineInfoTable[engineType].pLRCA);
EXPECT_EQ(nullptr, aubCsr->engineInfoTable[engineType].pGlobalHWStatusPage);
EXPECT_EQ(nullptr, aubCsr->engineInfoTable[engineType].pRingBuffer);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenFlushIsCalledThenItShouldLeaveProperRingTailAlignment) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
auto allocationsForResidency = aubCsr->getResidencyAllocations();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
auto engineType = OCLRT::ENGINE_RCS;
auto ringTailAlignment = sizeof(uint64_t);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
// First flush typically includes a preamble and chain to command buffer
aubCsr->overrideDispatchPolicy(DispatchMode::ImmediateDispatch);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(0ull, aubCsr->engineInfoTable[engineType].tailRingBuffer % ringTailAlignment);
// Second flush should just submit command buffer
cs.getSpace(sizeof(uint64_t));
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(0ull, aubCsr->engineInfoTable[engineType].tailRingBuffer % ringTailAlignment);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInNonStandaloneModeWhenFlushIsCalledThenItShouldNotUpdateHwTagWithLatestSentTaskCount) {
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, false);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {};
EXPECT_EQ(initialHardwareTag, *aubCsr->getTagAddress());
aubCsr->setLatestSentTaskCount(aubCsr->peekTaskCount() + 1);
EXPECT_NE(aubCsr->peekLatestSentTaskCount(), *aubCsr->getTagAddress());
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_NE(aubCsr->peekLatestSentTaskCount(), *aubCsr->getTagAddress());
EXPECT_EQ(initialHardwareTag, *aubCsr->getTagAddress());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneModeWhenFlushIsCalledThenItShouldUpdateHwTagWithLatestSentTaskCount) {
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {};
EXPECT_EQ(initialHardwareTag, *aubCsr->getTagAddress());
aubCsr->setLatestSentTaskCount(aubCsr->peekTaskCount() + 1);
EXPECT_NE(aubCsr->peekLatestSentTaskCount(), *aubCsr->getTagAddress());
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(aubCsr->peekLatestSentTaskCount(), *aubCsr->getTagAddress());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneAndSubCaptureModeWhenFlushIsCalledButSubCaptureIsDisabledThenItShouldUpdateHwTagWithLatestSentTaskCount) {
DebugManagerStateRestore stateRestore;
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
auto aubSubCaptureManagerMock = new AubSubCaptureManagerMock("");
aubSubCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
aubSubCaptureManagerMock->disableSubCapture();
aubCsr->subCaptureManager.reset(aubSubCaptureManagerMock);
ASSERT_FALSE(aubCsr->subCaptureManager->isSubCaptureEnabled());
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {};
aubCsr->setLatestSentTaskCount(aubCsr->peekTaskCount() + 1);
EXPECT_NE(aubCsr->peekLatestSentTaskCount(), *aubCsr->getTagAddress());
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(aubCsr->peekLatestSentTaskCount(), *aubCsr->getTagAddress());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInNonStandaloneAndSubCaptureModeWhenFlushIsCalledButSubCaptureIsDisabledThenItShouldNotUpdateHwTagWithLatestSentTaskCount) {
DebugManagerStateRestore stateRestore;
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, false);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
auto aubSubCaptureManagerMock = new AubSubCaptureManagerMock("");
aubSubCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
aubSubCaptureManagerMock->disableSubCapture();
aubCsr->subCaptureManager.reset(aubSubCaptureManagerMock);
ASSERT_FALSE(aubCsr->subCaptureManager->isSubCaptureEnabled());
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {};
aubCsr->setLatestSentTaskCount(aubCsr->peekTaskCount() + 1);
EXPECT_NE(aubCsr->peekLatestSentTaskCount(), *aubCsr->getTagAddress());
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_NE(aubCsr->peekLatestSentTaskCount(), *aubCsr->getTagAddress());
EXPECT_EQ(initialHardwareTag, *aubCsr->getTagAddress());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenFlushIsCalledAndSubCaptureIsEnabledThenItShouldDeactivateSubCapture) {
DebugManagerStateRestore stateRestore;
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, false);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
const DispatchInfo dispatchInfo;
MultiDispatchInfo multiDispatchInfo;
multiDispatchInfo.push(dispatchInfo);
auto aubSubCaptureManagerMock = new AubSubCaptureManagerMock("");
aubSubCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
aubSubCaptureManagerMock->setSubCaptureToggleActive(true);
aubSubCaptureManagerMock->activateSubCapture(multiDispatchInfo);
aubCsr->subCaptureManager.reset(aubSubCaptureManagerMock);
ASSERT_TRUE(aubCsr->subCaptureManager->isSubCaptureEnabled());
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {};
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_FALSE(aubCsr->subCaptureManager->isSubCaptureEnabled());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneModeWhenFlushIsCalledThenItShouldCallMakeResidentOnCommandBufferAllocation) {
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
auto allocationsForResidency = aubCsr->getResidencyAllocations();
auto commandBuffer = aubExecutionEnvironment->commandBuffer;
LinearStream cs(commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
EXPECT_EQ(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
aubCsr->overrideDispatchPolicy(DispatchMode::ImmediateDispatch);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_NE(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
EXPECT_EQ((int)aubCsr->peekTaskCount() + 1, commandBuffer->residencyTaskCount[0u]);
aubCsr->makeSurfacePackNonResident(aubCsr->getResidencyAllocations(), *pDevice->getOsContext());
EXPECT_EQ(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInNonStandaloneModeWhenFlushIsCalledThenItShouldNotCallMakeResidentOnCommandBufferAllocation) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(false, true, false);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
auto allocationsForResidency = aubCsr->getResidencyAllocations();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
EXPECT_EQ(ObjectNotResident, aubExecutionEnvironment->commandBuffer->residencyTaskCount[0u]);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(ObjectNotResident, aubExecutionEnvironment->commandBuffer->residencyTaskCount[0u]);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneModeWhenFlushIsCalledThenItShouldCallMakeResidentOnResidencyAllocations) {
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
auto memoryManager = aubExecutionEnvironment->executionEnvironment->memoryManager.get();
auto commandBuffer = aubExecutionEnvironment->commandBuffer;
LinearStream cs(commandBuffer);
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
ASSERT_NE(nullptr, gfxAllocation);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {gfxAllocation};
EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
aubCsr->overrideDispatchPolicy(DispatchMode::BatchedDispatch);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_NE(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ((int)aubCsr->peekTaskCount() + 1, gfxAllocation->residencyTaskCount[0u]);
EXPECT_NE(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
EXPECT_EQ((int)aubCsr->peekTaskCount() + 1, commandBuffer->residencyTaskCount[0u]);
aubCsr->makeSurfacePackNonResident(allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
memoryManager->freeGraphicsMemory(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInNonStandaloneModeWhenFlushIsCalledThenItShouldCallMakeResidentOnResidencyAllocations) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(true, true, false);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
auto memoryManager = aubExecutionEnvironment->executionEnvironment->memoryManager.get();
auto commandBuffer = aubExecutionEnvironment->commandBuffer;
LinearStream cs(commandBuffer);
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {gfxAllocation};
EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_NE(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ((int)aubCsr->peekTaskCount() + 1, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
memoryManager->freeGraphicsMemoryImpl(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneAndSubCaptureModeWhenFlushIsCalledAndSubCaptureIsEnabledThenItShouldCallMakeResidentOnCommandBufferAndResidencyAllocations) {
DebugManagerStateRestore stateRestore;
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
auto memoryManager = aubExecutionEnvironment->executionEnvironment->memoryManager.get();
auto commandBuffer = aubExecutionEnvironment->commandBuffer;
LinearStream cs(commandBuffer);
const DispatchInfo dispatchInfo;
MultiDispatchInfo multiDispatchInfo;
multiDispatchInfo.push(dispatchInfo);
auto aubSubCaptureManagerMock = new AubSubCaptureManagerMock("");
aubSubCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
aubSubCaptureManagerMock->setSubCaptureToggleActive(true);
aubSubCaptureManagerMock->activateSubCapture(multiDispatchInfo);
aubCsr->subCaptureManager.reset(aubSubCaptureManagerMock);
ASSERT_TRUE(aubCsr->subCaptureManager->isSubCaptureEnabled());
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
ASSERT_NE(nullptr, gfxAllocation);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {gfxAllocation};
EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
aubCsr->overrideDispatchPolicy(DispatchMode::BatchedDispatch);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_NE(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ((int)aubCsr->peekTaskCount() + 1, gfxAllocation->residencyTaskCount[0u]);
EXPECT_NE(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
EXPECT_EQ((int)aubCsr->peekTaskCount() + 1, commandBuffer->residencyTaskCount[0u]);
aubCsr->makeSurfacePackNonResident(allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount[0u]);
EXPECT_EQ(ObjectNotResident, commandBuffer->residencyTaskCount[0u]);
memoryManager->freeGraphicsMemory(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGraphicsAllocationIsCreatedThenItDoesntHaveTypeNonAubWritable) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(false, false, true);
auto memoryManager = aubExecutionEnvironment->executionEnvironment->memoryManager.get();
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
EXPECT_TRUE(gfxAllocation->isAubWritable());
memoryManager->freeGraphicsMemory(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenProcessResidencyIsCalledOnDefaultAllocationThenAllocationTypeShouldNotBeMadeNonAubWritable) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(false, false, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
auto memoryManager = aubExecutionEnvironment->executionEnvironment->memoryManager.get();
auto gfxDefaultAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
ResidencyContainer allocationsForResidency = {gfxDefaultAllocation};
aubCsr->processResidency(allocationsForResidency, *pDevice->getOsContext());
EXPECT_TRUE(gfxDefaultAllocation->isAubWritable());
memoryManager->freeGraphicsMemory(gfxDefaultAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenWriteMemoryIsCalledOnBufferAndImageTypeAllocationsThenAllocationsHaveAubWritableSetToFalse) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
GraphicsAllocation::AllocationType onlyOneTimeAubWritableTypes[] = {
GraphicsAllocation::AllocationType::BUFFER,
GraphicsAllocation::AllocationType::BUFFER_HOST_MEMORY,
GraphicsAllocation::AllocationType::BUFFER_COMPRESSED,
GraphicsAllocation::AllocationType::IMAGE};
for (size_t i = 0; i < arrayCount(onlyOneTimeAubWritableTypes); i++) {
gfxAllocation->setAubWritable(true);
gfxAllocation->setAllocationType(onlyOneTimeAubWritableTypes[i]);
aubCsr->writeMemory(*gfxAllocation);
EXPECT_FALSE(gfxAllocation->isAubWritable());
}
memoryManager->freeGraphicsMemory(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenProcessResidencyIsCalledOnBufferAndImageAllocationsThenAllocationsTypesShouldBeMadeNonAubWritable) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto gfxBufferAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
gfxBufferAllocation->setAllocationType(GraphicsAllocation::AllocationType::BUFFER);
auto gfxImageAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
gfxImageAllocation->setAllocationType(GraphicsAllocation::AllocationType::IMAGE);
ResidencyContainer allocationsForResidency = {gfxBufferAllocation, gfxImageAllocation};
aubCsr->processResidency(allocationsForResidency, *pDevice->getOsContext());
EXPECT_FALSE(gfxBufferAllocation->isAubWritable());
EXPECT_FALSE(gfxImageAllocation->isAubWritable());
memoryManager->freeGraphicsMemory(gfxBufferAllocation);
memoryManager->freeGraphicsMemory(gfxImageAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModWhenProcessResidencyIsCalledWithDumpAubNonWritableFlagThenAllocationsTypesShouldBeMadeAubWritable) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<MockAubCsrToTestDumpAubNonWritable<FamilyType>> aubCsr(new MockAubCsrToTestDumpAubNonWritable<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto gfxBufferAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
gfxBufferAllocation->setAllocationType(GraphicsAllocation::AllocationType::BUFFER);
gfxBufferAllocation->setAubWritable(false);
auto gfxImageAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
gfxImageAllocation->setAllocationType(GraphicsAllocation::AllocationType::IMAGE);
gfxImageAllocation->setAubWritable(false);
aubCsr->dumpAubNonWritable = true;
ResidencyContainer allocationsForResidency = {gfxBufferAllocation, gfxImageAllocation};
aubCsr->processResidency(allocationsForResidency, *pDevice->getOsContext());
EXPECT_TRUE(gfxBufferAllocation->isAubWritable());
EXPECT_TRUE(gfxImageAllocation->isAubWritable());
memoryManager->freeGraphicsMemory(gfxBufferAllocation);
memoryManager->freeGraphicsMemory(gfxImageAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenProcessResidencyIsCalledWithoutDumpAubWritableFlagThenAllocationsTypesShouldBeKeptNonAubWritable) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<MockAubCsrToTestDumpAubNonWritable<FamilyType>> aubCsr(new MockAubCsrToTestDumpAubNonWritable<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto gfxBufferAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
gfxBufferAllocation->setAllocationType(GraphicsAllocation::AllocationType::BUFFER);
gfxBufferAllocation->setAubWritable(false);
auto gfxImageAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
gfxImageAllocation->setAllocationType(GraphicsAllocation::AllocationType::IMAGE);
gfxImageAllocation->setAubWritable(false);
aubCsr->dumpAubNonWritable = false;
ResidencyContainer allocationsForResidency = {gfxBufferAllocation, gfxImageAllocation};
aubCsr->processResidency(allocationsForResidency, *pDevice->getOsContext());
EXPECT_FALSE(gfxBufferAllocation->isAubWritable());
EXPECT_FALSE(gfxImageAllocation->isAubWritable());
memoryManager->freeGraphicsMemory(gfxBufferAllocation);
memoryManager->freeGraphicsMemory(gfxImageAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGraphicsAllocationTypeIsntNonAubWritableThenWriteMemoryIsAllowed) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
EXPECT_TRUE(aubCsr->writeMemory(*gfxAllocation));
memoryManager->freeGraphicsMemory(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGraphicsAllocationTypeIsNonAubWritableThenWriteMemoryIsNotAllowed) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
gfxAllocation->setAubWritable(false);
EXPECT_FALSE(aubCsr->writeMemory(*gfxAllocation));
memoryManager->freeGraphicsMemory(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGraphicsAllocationSizeIsZeroThenWriteMemoryIsNotAllowed) {
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
MockGraphicsAllocation gfxAllocation((void *)0x1234, 0);
EXPECT_FALSE(aubCsr->writeMemory(gfxAllocation));
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenAllocationDataIsPassedInAllocationViewThenWriteMemoryIsAllowed) {
auto aubCsr = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(*platformDevices[0], "", true, *pDevice->executionEnvironment);
size_t size = 100;
auto ptr = std::make_unique<char[]>(size);
auto addr = reinterpret_cast<uint64_t>(ptr.get());
AllocationView allocationView(addr, size);
EXPECT_TRUE(aubCsr->writeMemory(allocationView));
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenAllocationSizeInAllocationViewIsZeroThenWriteMemoryIsNotAllowed) {
auto aubCsr = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(*platformDevices[0], "", true, *pDevice->executionEnvironment);
AllocationView allocationView(0x1234, 0);
EXPECT_FALSE(aubCsr->writeMemory(allocationView));
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenAUBDumpCaptureFileNameHasBeenSpecifiedThenItShouldBeUsedToOpenTheFileWithAubCapture) {
DebugManagerStateRestore stateRestore;
DebugManager.flags.AUBDumpCaptureFileName.set("file_name.aub");
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(static_cast<MockAubCsr<FamilyType> *>(AUBCommandStreamReceiver::create(*platformDevices[0], "", true, *pDevice->executionEnvironment)));
EXPECT_NE(nullptr, aubCsr);
EXPECT_TRUE(aubCsr->isFileOpen());
EXPECT_STREQ(DebugManager.flags.AUBDumpCaptureFileName.get().c_str(), aubCsr->getFileName().c_str());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenAubSubCaptureIsActivatedThenFileIsOpened) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", false, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(true);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
ASSERT_FALSE(aubCsr->isFileOpen());
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_TRUE(aubCsr->isFileOpen());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenAubSubCaptureRemainsActivedThenTheSameFileShouldBeKeptOpened) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", false, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(true);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
std::string fileName = aubCsr->subCaptureManager->getSubCaptureFileName(multiDispatchInfo);
aubCsr->initFile(fileName);
ASSERT_TRUE(aubCsr->isFileOpen());
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_TRUE(aubCsr->isFileOpen());
EXPECT_STREQ(fileName.c_str(), aubCsr->getFileName().c_str());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenAubSubCaptureIsActivatedWithNewFileNameThenNewFileShouldBeReOpened) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", false, *pDevice->executionEnvironment));
std::string newFileName = "new_file_name.aub";
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(true);
subCaptureManagerMock->setExternalFileName(newFileName);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
std::string fileName = "file_name.aub";
aubCsr->initFile(fileName);
ASSERT_TRUE(aubCsr->isFileOpen());
ASSERT_STREQ(fileName.c_str(), aubCsr->getFileName().c_str());
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_TRUE(aubCsr->isFileOpen());
EXPECT_STRNE(fileName.c_str(), aubCsr->getFileName().c_str());
EXPECT_STREQ(newFileName.c_str(), aubCsr->getFileName().c_str());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenAubSubCaptureIsActivatedForNewFileThenOldEngineInfoTableShouldBeFreed) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", false, *pDevice->executionEnvironment));
std::string newFileName = "new_file_name.aub";
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(true);
subCaptureManagerMock->setExternalFileName(newFileName);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
std::string fileName = "file_name.aub";
aubCsr->initFile(fileName);
ASSERT_STREQ(fileName.c_str(), aubCsr->getFileName().c_str());
aubCsr->activateAubSubCapture(multiDispatchInfo);
ASSERT_STREQ(newFileName.c_str(), aubCsr->getFileName().c_str());
for (auto &engineInfo : aubCsr->engineInfoTable) {
EXPECT_EQ(nullptr, engineInfo.pLRCA);
EXPECT_EQ(nullptr, engineInfo.pGlobalHWStatusPage);
EXPECT_EQ(nullptr, engineInfo.pRingBuffer);
}
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenAubSubCaptureIsActivatedThenForceDumpingAllocationsAubNonWritable) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsrToTestDumpAubNonWritable<FamilyType>> aubCsr(new MockAubCsrToTestDumpAubNonWritable<FamilyType>(*platformDevices[0], "", false, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(true);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_TRUE(aubCsr->dumpAubNonWritable);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenAubSubCaptureRemainsActivatedThenDontForceDumpingAllocationsAubNonWritable) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsrToTestDumpAubNonWritable<FamilyType>> aubCsr(new MockAubCsrToTestDumpAubNonWritable<FamilyType>(*platformDevices[0], "", false, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(true);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
aubCsr->initFile(aubCsr->subCaptureManager->getSubCaptureFileName(multiDispatchInfo));
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_FALSE(aubCsr->dumpAubNonWritable);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenSubCaptureModeRemainsDeactivatedThenSubCaptureIsDisabled) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", false, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(false);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
const DispatchInfo dispatchInfo;
MultiDispatchInfo multiDispatchInfo;
multiDispatchInfo.push(dispatchInfo);
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_FALSE(aubCsr->subCaptureManager->isSubCaptureEnabled());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInSubCaptureModeWhenSubCaptureIsToggledOnThenSubCaptureGetsEnabled) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", false, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(true);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_TRUE(aubCsr->subCaptureManager->isSubCaptureEnabled());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneAndSubCaptureModeWhenSubCaptureRemainsDeactivatedThenNeitherProgrammingFlagsAreInitializedNorCsrIsFlushed) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(false);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_FALSE(aubCsr->flushBatchedSubmissionsCalled);
EXPECT_FALSE(aubCsr->initProgrammingFlagsCalled);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneAndSubCaptureModeWhenSubCaptureRemainsActivatedThenNeitherProgrammingFlagsAreInitializedNorCsrIsFlushed) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(true);
subCaptureManagerMock->setSubCaptureToggleActive(true);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_FALSE(aubCsr->flushBatchedSubmissionsCalled);
EXPECT_FALSE(aubCsr->initProgrammingFlagsCalled);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneAndSubCaptureModeWhenSubCaptureGetsActivatedThenProgrammingFlagsAreInitialized) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(false);
subCaptureManagerMock->setSubCaptureToggleActive(true);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_FALSE(aubCsr->flushBatchedSubmissionsCalled);
EXPECT_TRUE(aubCsr->initProgrammingFlagsCalled);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverInStandaloneAndSubCaptureModeWhenSubCaptureGetsDeactivatedThenCsrIsFlushed) {
DebugManagerStateRestore stateRestore;
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
auto subCaptureManagerMock = new AubSubCaptureManagerMock("");
subCaptureManagerMock->subCaptureMode = AubSubCaptureManager::SubCaptureMode::Toggle;
subCaptureManagerMock->setSubCaptureIsActive(true);
subCaptureManagerMock->setSubCaptureToggleActive(false);
aubCsr->subCaptureManager.reset(subCaptureManagerMock);
MockKernelWithInternals kernelInternals(*pDevice);
Kernel *kernel = kernelInternals.mockKernel;
MockMultiDispatchInfo multiDispatchInfo(kernel);
aubCsr->activateAubSubCapture(multiDispatchInfo);
EXPECT_TRUE(aubCsr->flushBatchedSubmissionsCalled);
EXPECT_FALSE(aubCsr->initProgrammingFlagsCalled);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenForcedBatchBufferFlatteningInImmediateDispatchModeThenNewCombinedBatchBufferIsCreated) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto flatBatchBufferHelper = new FlatBatchBufferHelperHw<FamilyType>(*pDevice->executionEnvironment);
aubCsr->overwriteFlatBatchBufferHelper(flatBatchBufferHelper);
auto chainedBatchBuffer = memoryManager->allocateGraphicsMemory(128u, 64u, false, false);
auto otherAllocation = memoryManager->allocateGraphicsMemory(128u, 64u, false, false);
ASSERT_NE(nullptr, chainedBatchBuffer);
GraphicsAllocation *commandBuffer = memoryManager->allocateGraphicsMemory(4096);
ASSERT_NE(nullptr, commandBuffer);
LinearStream cs(commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 128u, chainedBatchBuffer, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
size_t sizeBatchBuffer = 0xffffu;
std::unique_ptr<GraphicsAllocation, std::function<void(GraphicsAllocation *)>> flatBatchBuffer(
aubCsr->getFlatBatchBufferHelper().flattenBatchBuffer(batchBuffer, sizeBatchBuffer, DispatchMode::ImmediateDispatch),
[&](GraphicsAllocation *ptr) { memoryManager->freeGraphicsMemory(ptr); });
EXPECT_NE(nullptr, flatBatchBuffer->getUnderlyingBuffer());
EXPECT_EQ(alignUp(128u + 128u, 0x1000), sizeBatchBuffer);
memoryManager->freeGraphicsMemory(commandBuffer);
memoryManager->freeGraphicsMemory(chainedBatchBuffer);
memoryManager->freeGraphicsMemory(otherAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenForcedBatchBufferInImmediateDispatchModeAndNoChainedBatchBufferThenCombinedBatchBufferIsNotCreated) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto flatBatchBufferHelper = new FlatBatchBufferHelperHw<FamilyType>(*pDevice->executionEnvironment);
aubCsr->overwriteFlatBatchBufferHelper(flatBatchBufferHelper);
GraphicsAllocation *commandBuffer = memoryManager->allocateGraphicsMemory(4096);
ASSERT_NE(nullptr, commandBuffer);
LinearStream cs(commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 128u, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
size_t sizeBatchBuffer = 0xffffu;
std::unique_ptr<GraphicsAllocation, std::function<void(GraphicsAllocation *)>> flatBatchBuffer(
aubCsr->getFlatBatchBufferHelper().flattenBatchBuffer(batchBuffer, sizeBatchBuffer, DispatchMode::ImmediateDispatch),
[&](GraphicsAllocation *ptr) { memoryManager->freeGraphicsMemory(ptr); });
EXPECT_EQ(nullptr, flatBatchBuffer.get());
EXPECT_EQ(0xffffu, sizeBatchBuffer);
memoryManager->freeGraphicsMemory(commandBuffer);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenForcedBatchBufferAndNotImmediateOrBatchedDispatchModeThenCombinedBatchBufferIsNotCreated) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
auto flatBatchBufferHelper = new FlatBatchBufferHelperHw<FamilyType>(*pDevice->executionEnvironment);
aubCsr->overwriteFlatBatchBufferHelper(flatBatchBufferHelper);
auto chainedBatchBuffer = memoryManager->allocateGraphicsMemory(128u, 64u, false, false);
auto otherAllocation = memoryManager->allocateGraphicsMemory(128u, 64u, false, false);
ASSERT_NE(nullptr, chainedBatchBuffer);
GraphicsAllocation *commandBuffer = memoryManager->allocateGraphicsMemory(4096);
ASSERT_NE(nullptr, commandBuffer);
LinearStream cs(commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 128u, chainedBatchBuffer, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
size_t sizeBatchBuffer = 0xffffu;
std::unique_ptr<GraphicsAllocation, std::function<void(GraphicsAllocation *)>> flatBatchBuffer(
aubCsr->getFlatBatchBufferHelper().flattenBatchBuffer(batchBuffer, sizeBatchBuffer, DispatchMode::AdaptiveDispatch),
[&](GraphicsAllocation *ptr) { memoryManager->freeGraphicsMemory(ptr); });
EXPECT_EQ(nullptr, flatBatchBuffer.get());
EXPECT_EQ(0xffffu, sizeBatchBuffer);
memoryManager->freeGraphicsMemory(commandBuffer);
memoryManager->freeGraphicsMemory(chainedBatchBuffer);
memoryManager->freeGraphicsMemory(otherAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenRegisterCommandChunkIsCalledThenNewChunkIsAddedToTheList) {
typedef typename FamilyType::MI_BATCH_BUFFER_START MI_BATCH_BUFFER_START;
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(false, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 128u, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
aubCsr->getFlatBatchBufferHelper().registerCommandChunk(batchBuffer, sizeof(MI_BATCH_BUFFER_START));
ASSERT_EQ(1u, aubCsr->getFlatBatchBufferHelper().getCommandChunkList().size());
EXPECT_EQ(128u + sizeof(MI_BATCH_BUFFER_START), aubCsr->getFlatBatchBufferHelper().getCommandChunkList()[0].endOffset);
CommandChunk chunk;
chunk.endOffset = 0x123;
aubCsr->getFlatBatchBufferHelper().registerCommandChunk(chunk);
ASSERT_EQ(2u, aubCsr->getFlatBatchBufferHelper().getCommandChunkList().size());
EXPECT_EQ(0x123u, aubCsr->getFlatBatchBufferHelper().getCommandChunkList()[1].endOffset);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenRemovePatchInfoDataIsCalledThenElementIsRemovedFromPatchInfoList) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(false, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
PatchInfoData patchInfoData(0xA000, 0x0, PatchInfoAllocationType::KernelArg, 0xB000, 0x0, PatchInfoAllocationType::Default);
aubCsr->getFlatBatchBufferHelper().setPatchInfoData(patchInfoData);
EXPECT_EQ(1u, aubCsr->getFlatBatchBufferHelper().getPatchInfoCollection().size());
EXPECT_TRUE(aubCsr->getFlatBatchBufferHelper().removePatchInfoData(0xC000));
EXPECT_EQ(1u, aubCsr->getFlatBatchBufferHelper().getPatchInfoCollection().size());
EXPECT_TRUE(aubCsr->getFlatBatchBufferHelper().removePatchInfoData(0xB000));
EXPECT_EQ(0u, aubCsr->getFlatBatchBufferHelper().getPatchInfoCollection().size());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenAddGucStartMessageIsCalledThenBatchBufferAddressIsStoredInPatchInfoCollection) {
DebugManagerStateRestore dbgRestore;
DebugManager.flags.AddPatchInfoCommentsForAUBDump.set(true);
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(false, false, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
std::unique_ptr<char> batchBuffer(new char[1024]);
aubCsr->addGUCStartMessage(static_cast<uint64_t>(reinterpret_cast<std::uintptr_t>(batchBuffer.get())), EngineType::ENGINE_RCS);
auto &patchInfoCollection = aubCsr->getFlatBatchBufferHelper().getPatchInfoCollection();
ASSERT_EQ(1u, patchInfoCollection.size());
EXPECT_EQ(patchInfoCollection[0].sourceAllocation, reinterpret_cast<uint64_t>(batchBuffer.get()));
EXPECT_EQ(patchInfoCollection[0].targetType, PatchInfoAllocationType::GUCStartMessage);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenForcedBatchBufferFlatteningInBatchedDispatchModeThenNewCombinedBatchBufferIsCreated) {
DebugManagerStateRestore dbgRestore;
DebugManager.flags.FlattenBatchBufferForAUBDump.set(true);
DebugManager.flags.AddPatchInfoCommentsForAUBDump.set(true);
DebugManager.flags.CsrDispatchMode.set(static_cast<uint32_t>(DispatchMode::BatchedDispatch));
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(false, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
auto memoryManager = aubExecutionEnvironment->executionEnvironment->memoryManager.get();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
CommandChunk chunk1;
CommandChunk chunk2;
CommandChunk chunk3;
std::unique_ptr<char> commands1(new char[0x100u]);
commands1.get()[0] = 0x1;
chunk1.baseAddressCpu = chunk1.baseAddressGpu = reinterpret_cast<uint64_t>(commands1.get());
chunk1.startOffset = 0u;
chunk1.endOffset = 0x50u;
std::unique_ptr<char> commands2(new char[0x100u]);
commands2.get()[0] = 0x2;
chunk2.baseAddressCpu = chunk2.baseAddressGpu = reinterpret_cast<uint64_t>(commands2.get());
chunk2.startOffset = 0u;
chunk2.endOffset = 0x50u;
aubCsr->getFlatBatchBufferHelper().registerBatchBufferStartAddress(reinterpret_cast<uint64_t>(commands2.get() + 0x40), reinterpret_cast<uint64_t>(commands1.get()));
std::unique_ptr<char> commands3(new char[0x100u]);
commands3.get()[0] = 0x3;
chunk3.baseAddressCpu = chunk3.baseAddressGpu = reinterpret_cast<uint64_t>(commands3.get());
chunk3.startOffset = 0u;
chunk3.endOffset = 0x50u;
aubCsr->getFlatBatchBufferHelper().registerBatchBufferStartAddress(reinterpret_cast<uint64_t>(commands3.get() + 0x40), reinterpret_cast<uint64_t>(commands2.get()));
aubCsr->getFlatBatchBufferHelper().registerCommandChunk(chunk1);
aubCsr->getFlatBatchBufferHelper().registerCommandChunk(chunk2);
aubCsr->getFlatBatchBufferHelper().registerCommandChunk(chunk3);
ASSERT_EQ(3u, aubCsr->getFlatBatchBufferHelper().getCommandChunkList().size());
PatchInfoData patchInfoData1(0xAAAu, 0xAu, PatchInfoAllocationType::IndirectObjectHeap, chunk1.baseAddressGpu, 0x10, PatchInfoAllocationType::Default);
PatchInfoData patchInfoData2(0xBBBu, 0xAu, PatchInfoAllocationType::IndirectObjectHeap, chunk1.baseAddressGpu, 0x60, PatchInfoAllocationType::Default);
PatchInfoData patchInfoData3(0xCCCu, 0xAu, PatchInfoAllocationType::IndirectObjectHeap, 0x0, 0x10, PatchInfoAllocationType::Default);
aubCsr->getFlatBatchBufferHelper().setPatchInfoData(patchInfoData1);
aubCsr->getFlatBatchBufferHelper().setPatchInfoData(patchInfoData2);
aubCsr->getFlatBatchBufferHelper().setPatchInfoData(patchInfoData3);
ASSERT_EQ(3u, aubCsr->getFlatBatchBufferHelper().getPatchInfoCollection().size());
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 128u, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
size_t sizeBatchBuffer = 0u;
std::unique_ptr<GraphicsAllocation, std::function<void(GraphicsAllocation *)>> flatBatchBuffer(
aubCsr->getFlatBatchBufferHelper().flattenBatchBuffer(batchBuffer, sizeBatchBuffer, DispatchMode::BatchedDispatch),
[&](GraphicsAllocation *ptr) { memoryManager->freeGraphicsMemory(ptr); });
EXPECT_NE(nullptr, flatBatchBuffer.get());
EXPECT_EQ(alignUp(0x50u + 0x40u + 0x40u + CSRequirements::csOverfetchSize, 0x1000u), sizeBatchBuffer);
ASSERT_EQ(1u, aubCsr->getFlatBatchBufferHelper().getPatchInfoCollection().size());
EXPECT_EQ(0xAAAu, aubCsr->getFlatBatchBufferHelper().getPatchInfoCollection()[0].sourceAllocation);
EXPECT_EQ(0u, aubCsr->getFlatBatchBufferHelper().getCommandChunkList().size());
EXPECT_EQ(0x3, static_cast<char *>(flatBatchBuffer->getUnderlyingBuffer())[0]);
EXPECT_EQ(0x2, static_cast<char *>(flatBatchBuffer->getUnderlyingBuffer())[0x40]);
EXPECT_EQ(0x1, static_cast<char *>(flatBatchBuffer->getUnderlyingBuffer())[0x40 + 0x40]);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenDefaultDebugConfigThenExpectFlattenBatchBufferIsNotCalled) {
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
auto mockHelper = new MockFlatBatchBufferHelper<FamilyType>(*aubExecutionEnvironment->executionEnvironment);
aubCsr->overwriteFlatBatchBufferHelper(mockHelper);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency = {};
EXPECT_CALL(*mockHelper, flattenBatchBuffer(::testing::_, ::testing::_, ::testing::_)).Times(0);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenForcedFlattenBatchBufferAndImmediateDispatchModeThenExpectFlattenBatchBufferIsCalled) {
DebugManagerStateRestore dbgRestore;
DebugManager.flags.FlattenBatchBufferForAUBDump.set(true);
DebugManager.flags.CsrDispatchMode.set(static_cast<uint32_t>(DispatchMode::ImmediateDispatch));
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
auto allocationsForResidency = aubCsr->getResidencyAllocations();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
auto mockHelper = new MockFlatBatchBufferHelper<FamilyType>(*aubExecutionEnvironment->executionEnvironment);
aubCsr->overwriteFlatBatchBufferHelper(mockHelper);
auto chainedBatchBuffer = aubExecutionEnvironment->executionEnvironment->memoryManager->allocateGraphicsMemory(128u, 64u, false, false);
ASSERT_NE(nullptr, chainedBatchBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 128u, chainedBatchBuffer, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
aubCsr->makeResident(*chainedBatchBuffer);
std::unique_ptr<GraphicsAllocation, std::function<void(GraphicsAllocation *)>> ptr(
aubExecutionEnvironment->executionEnvironment->memoryManager->allocateGraphicsMemory(4096, 4096, false, false),
[&](GraphicsAllocation *ptr) { aubExecutionEnvironment->executionEnvironment->memoryManager->freeGraphicsMemory(ptr); });
auto expectedAllocation = ptr.get();
EXPECT_CALL(*mockHelper, flattenBatchBuffer(::testing::_, ::testing::_, ::testing::_)).WillOnce(::testing::Return(ptr.release()));
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
EXPECT_EQ(batchBuffer.commandBufferAllocation, expectedAllocation);
aubExecutionEnvironment->executionEnvironment->memoryManager->freeGraphicsMemory(chainedBatchBuffer);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenForcedFlattenBatchBufferAndImmediateDispatchModeAndThereIsNoChainedBatchBufferThenExpectFlattenBatchBufferIsCalledAnyway) {
DebugManagerStateRestore dbgRestore;
DebugManager.flags.FlattenBatchBufferForAUBDump.set(true);
DebugManager.flags.CsrDispatchMode.set(static_cast<uint32_t>(DispatchMode::ImmediateDispatch));
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
auto allocationsForResidency = aubCsr->getResidencyAllocations();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
auto mockHelper = new MockFlatBatchBufferHelper<FamilyType>(*aubExecutionEnvironment->executionEnvironment);
aubCsr->overwriteFlatBatchBufferHelper(mockHelper);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 128u, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
EXPECT_CALL(*mockHelper, flattenBatchBuffer(::testing::_, ::testing::_, ::testing::_)).Times(1);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenForcedFlattenBatchBufferAndBatchedDispatchModeThenExpectFlattenBatchBufferIsCalledAnyway) {
DebugManagerStateRestore dbgRestore;
DebugManager.flags.FlattenBatchBufferForAUBDump.set(true);
DebugManager.flags.CsrDispatchMode.set(static_cast<uint32_t>(DispatchMode::BatchedDispatch));
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
auto mockHelper = new MockFlatBatchBufferHelper<FamilyType>(*aubExecutionEnvironment->executionEnvironment);
aubCsr->overwriteFlatBatchBufferHelper(mockHelper);
ResidencyContainer allocationsForResidency;
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 128u, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
EXPECT_CALL(*mockHelper, flattenBatchBuffer(::testing::_, ::testing::_, ::testing::_)).Times(1);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenAddPatchInfoCommentsForAUBDumpIsSetThenAddPatchInfoCommentsIsCalled) {
DebugManagerStateRestore dbgRestore;
DebugManager.flags.AddPatchInfoCommentsForAUBDump.set(true);
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency;
EXPECT_CALL(*aubCsr, addPatchInfoComments()).Times(1);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenAddPatchInfoCommentsForAUBDumpIsNotSetThenAddPatchInfoCommentsIsNotCalled) {
auto aubExecutionEnvironment = getEnvironment<MockAubCsr<FamilyType>>(true, true, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<MockAubCsr<FamilyType>>();
LinearStream cs(aubExecutionEnvironment->commandBuffer);
BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, 0, nullptr, false, false, QueueThrottle::MEDIUM, cs.getUsed(), &cs};
auto engineType = OCLRT::ENGINE_RCS;
ResidencyContainer allocationsForResidency;
EXPECT_CALL(*aubCsr, addPatchInfoComments()).Times(0);
aubCsr->flush(batchBuffer, engineType, allocationsForResidency, *pDevice->getOsContext());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGetIndirectPatchCommandsIsCalledForEmptyPatchInfoListThenIndirectPatchCommandBufferIsNotCreated) {
auto aubExecutionEnvironment = getEnvironment<AUBCommandStreamReceiverHw<FamilyType>>(false, false, true);
auto aubCsr = aubExecutionEnvironment->template getCsr<AUBCommandStreamReceiverHw<FamilyType>>();
size_t indirectPatchCommandsSize = 0u;
std::vector<PatchInfoData> indirectPatchInfo;
std::unique_ptr<char> commandBuffer(aubCsr->getFlatBatchBufferHelper().getIndirectPatchCommands(indirectPatchCommandsSize, indirectPatchInfo));
EXPECT_EQ(0u, indirectPatchCommandsSize);
EXPECT_EQ(0u, indirectPatchInfo.size());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGetIndirectPatchCommandsIsCalledForNonEmptyPatchInfoListThenIndirectPatchCommandBufferIsCreated) {
typedef typename FamilyType::MI_STORE_DATA_IMM MI_STORE_DATA_IMM;
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
PatchInfoData patchInfo1(0xA000, 0u, PatchInfoAllocationType::KernelArg, 0x6000, 0x100, PatchInfoAllocationType::IndirectObjectHeap);
PatchInfoData patchInfo2(0xB000, 0u, PatchInfoAllocationType::KernelArg, 0x6000, 0x200, PatchInfoAllocationType::IndirectObjectHeap);
PatchInfoData patchInfo3(0xC000, 0u, PatchInfoAllocationType::IndirectObjectHeap, 0x1000, 0x100, PatchInfoAllocationType::Default);
PatchInfoData patchInfo4(0xC000, 0u, PatchInfoAllocationType::Default, 0x2000, 0x100, PatchInfoAllocationType::GUCStartMessage);
aubCsr->getFlatBatchBufferHelper().setPatchInfoData(patchInfo1);
aubCsr->getFlatBatchBufferHelper().setPatchInfoData(patchInfo2);
aubCsr->getFlatBatchBufferHelper().setPatchInfoData(patchInfo3);
aubCsr->getFlatBatchBufferHelper().setPatchInfoData(patchInfo4);
size_t indirectPatchCommandsSize = 0u;
std::vector<PatchInfoData> indirectPatchInfo;
std::unique_ptr<char> commandBuffer(aubCsr->getFlatBatchBufferHelper().getIndirectPatchCommands(indirectPatchCommandsSize, indirectPatchInfo));
EXPECT_EQ(4u, indirectPatchInfo.size());
EXPECT_EQ(2u * sizeof(MI_STORE_DATA_IMM), indirectPatchCommandsSize);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenAddBatchBufferStartCalledAndBatchBUfferFlatteningEnabledThenBatchBufferStartAddressIsRegistered) {
typedef typename FamilyType::MI_BATCH_BUFFER_START MI_BATCH_BUFFER_START;
DebugManagerStateRestore dbgRestore;
DebugManager.flags.FlattenBatchBufferForAUBDump.set(true);
std::unique_ptr<MemoryManager> memoryManager(nullptr);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, *pDevice->executionEnvironment));
memoryManager.reset(aubCsr->createMemoryManager(false, false));
MI_BATCH_BUFFER_START bbStart;
aubCsr->addBatchBufferStart(&bbStart, 0xA000u, false);
std::map<uint64_t, uint64_t> &batchBufferStartAddressSequence = aubCsr->getFlatBatchBufferHelper().getBatchBufferStartAddressSequence();
ASSERT_EQ(1u, batchBufferStartAddressSequence.size());
std::pair<uint64_t, uint64_t> addr = *batchBufferStartAddressSequence.begin();
EXPECT_EQ(reinterpret_cast<uint64_t>(&bbStart), addr.first);
EXPECT_EQ(0xA000u, addr.second);
}
class OsAgnosticMemoryManagerForImagesWithNoHostPtr : public OsAgnosticMemoryManager {
public:
OsAgnosticMemoryManagerForImagesWithNoHostPtr(ExecutionEnvironment &executionEnvironment) : OsAgnosticMemoryManager(false, false, executionEnvironment) {}
GraphicsAllocation *allocateGraphicsMemoryForImage(ImageInfo &imgInfo, Gmm *gmm) override {
auto imageAllocation = OsAgnosticMemoryManager::allocateGraphicsMemoryForImage(imgInfo, gmm);
cpuPtr = imageAllocation->getUnderlyingBuffer();
imageAllocation->setCpuPtrAndGpuAddress(nullptr, imageAllocation->getGpuAddress());
return imageAllocation;
};
void freeGraphicsMemoryImpl(GraphicsAllocation *imageAllocation) override {
imageAllocation->setCpuPtrAndGpuAddress(cpuPtr, imageAllocation->getGpuAddress());
OsAgnosticMemoryManager::freeGraphicsMemoryImpl(imageAllocation);
};
void *lockResource(GraphicsAllocation *imageAllocation) override {
lockResourceParam.wasCalled = true;
lockResourceParam.inImageAllocation = imageAllocation;
lockCpuPtr = alignedMalloc(imageAllocation->getUnderlyingBufferSize(), MemoryConstants::pageSize);
lockResourceParam.retCpuPtr = lockCpuPtr;
return lockResourceParam.retCpuPtr;
};
void unlockResource(GraphicsAllocation *imageAllocation) override {
unlockResourceParam.wasCalled = true;
unlockResourceParam.inImageAllocation = imageAllocation;
alignedFree(lockCpuPtr);
};
struct LockResourceParam {
bool wasCalled = false;
GraphicsAllocation *inImageAllocation = nullptr;
void *retCpuPtr = nullptr;
} lockResourceParam;
struct UnlockResourceParam {
bool wasCalled = false;
GraphicsAllocation *inImageAllocation = nullptr;
} unlockResourceParam;
protected:
void *cpuPtr = nullptr;
void *lockCpuPtr = nullptr;
};
using AubCommandStreamReceiverNoHostPtrTests = ::testing::Test;
HWTEST_F(AubCommandStreamReceiverNoHostPtrTests, givenAubCommandStreamReceiverWhenWriteMemoryIsCalledOnImageWithNoHostPtrThenResourceShouldBeLockedToGetCpuAddress) {
ExecutionEnvironment executionEnvironment;
auto memoryManager = new OsAgnosticMemoryManagerForImagesWithNoHostPtr(executionEnvironment);
executionEnvironment.memoryManager.reset(memoryManager);
std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0], "", true, executionEnvironment));
cl_image_desc imgDesc = {};
imgDesc.image_width = 512;
imgDesc.image_height = 1;
imgDesc.image_type = CL_MEM_OBJECT_IMAGE2D;
auto imgInfo = MockGmm::initImgInfo(imgDesc, 0, nullptr);
auto queryGmm = MockGmm::queryImgParams(imgInfo);
auto imageAllocation = memoryManager->allocateGraphicsMemoryForImage(imgInfo, queryGmm.get());
ASSERT_NE(nullptr, imageAllocation);
EXPECT_TRUE(aubCsr->writeMemory(*imageAllocation));
EXPECT_TRUE(memoryManager->lockResourceParam.wasCalled);
EXPECT_EQ(imageAllocation, memoryManager->lockResourceParam.inImageAllocation);
EXPECT_NE(nullptr, memoryManager->lockResourceParam.retCpuPtr);
EXPECT_TRUE(memoryManager->unlockResourceParam.wasCalled);
EXPECT_EQ(imageAllocation, memoryManager->unlockResourceParam.inImageAllocation);
queryGmm.release();
memoryManager->freeGraphicsMemory(imageAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, givenNoDbgDeviceIdFlagWhenAubCsrIsCreatedThenUseDefaultDeviceId) {
const HardwareInfo &hwInfoIn = *platformDevices[0];
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(hwInfoIn, "", true, *pDevice->executionEnvironment));
EXPECT_EQ(hwInfoIn.capabilityTable.aubDeviceId, aubCsr->aubDeviceId);
}
HWTEST_F(AubCommandStreamReceiverTests, givenDbgDeviceIdFlagIsSetWhenAubCsrIsCreatedThenUseDebugDeviceId) {
DebugManagerStateRestore stateRestore;
DebugManager.flags.OverrideAubDeviceId.set(9); //this is Hsw, not used
const HardwareInfo &hwInfoIn = *platformDevices[0];
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(hwInfoIn, "", true, *pDevice->executionEnvironment));
EXPECT_EQ(9u, aubCsr->aubDeviceId);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenGetGTTDataIsCalledThenLocalMemoryIsSetAccordingToCsrFeature) {
const HardwareInfo &hwInfoIn = *platformDevices[0];
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(hwInfoIn, "", true, *pDevice->executionEnvironment));
AubGTTData data = {};
aubCsr->getGTTData(nullptr, data);
EXPECT_TRUE(data.present);
if (aubCsr->localMemoryEnabled) {
EXPECT_TRUE(data.localMemory);
} else {
EXPECT_FALSE(data.localMemory);
}
}
HWTEST_F(AubCommandStreamReceiverTests, givenPhysicalAddressWhenSetGttEntryIsCalledThenGttEntrysBitFieldsShouldBePopulated) {
typedef typename AUBFamilyMapper<FamilyType>::AUB AUB;
AubMemDump::MiGttEntry entry = {};
uint64_t address = 0x0123456789;
AubGTTData data = {true, false};
AUB::setGttEntry(entry, address, data);
EXPECT_EQ(entry.pageConfig.PhysicalAddress, address / 4096);
EXPECT_TRUE(entry.pageConfig.Present);
EXPECT_FALSE(entry.pageConfig.LocalMemory);
}
HWTEST_F(AubCommandStreamReceiverTests, whenGetMemoryBankForGttIsCalledThenCorrectBankIsReturned) {
const HardwareInfo &hwInfoIn = *platformDevices[0];
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(hwInfoIn, "", true, *pDevice->executionEnvironment));
aubCsr->localMemoryEnabled = false;
auto bank = aubCsr->getMemoryBankForGtt();
EXPECT_EQ(MemoryBanks::MainBank, bank);
}
HWTEST_F(AubCommandStreamReceiverTests, givenEntryBitsPresentAndWritableWhenGetAddressSpaceFromPTEBitsIsCalledThenTraceNonLocalIsReturned) {
const HardwareInfo &hwInfoIn = *platformDevices[0];
std::unique_ptr<MockAubCsr<FamilyType>> aubCsr(new MockAubCsr<FamilyType>(hwInfoIn, "", true, *pDevice->executionEnvironment));
auto space = aubCsr->getAddressSpaceFromPTEBits(PageTableEntry::presentBit | PageTableEntry::writableBit);
EXPECT_EQ(AubMemDump::AddressSpaceValues::TraceNonlocal, space);
}
template <typename GfxFamily>
struct MockAubCsrToTestExternalAllocations : public AUBCommandStreamReceiverHw<GfxFamily> {
using AUBCommandStreamReceiverHw<GfxFamily>::AUBCommandStreamReceiverHw;
using AUBCommandStreamReceiverHw<GfxFamily>::externalAllocations;
bool writeMemory(AllocationView &allocationView) override {
writeMemoryParametrization.wasCalled = true;
writeMemoryParametrization.receivedAllocationView = allocationView;
writeMemoryParametrization.statusToReturn = (0 != allocationView.second) ? true : false;
return writeMemoryParametrization.statusToReturn;
}
struct WriteMemoryParametrization {
bool wasCalled = false;
AllocationView receivedAllocationView = {};
bool statusToReturn = false;
} writeMemoryParametrization;
};
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenMakeResidentExternalIsCalledThenGivenAllocationViewShouldBeAddedToExternalAllocations) {
auto aubCsr = std::make_unique<MockAubCsrToTestExternalAllocations<FamilyType>>(*platformDevices[0], "", true, *pDevice->executionEnvironment);
size_t size = 100;
auto ptr = std::make_unique<char[]>(size);
auto addr = reinterpret_cast<uint64_t>(ptr.get());
AllocationView externalAllocation(addr, size);
ASSERT_EQ(0u, aubCsr->externalAllocations.size());
aubCsr->makeResidentExternal(externalAllocation);
EXPECT_EQ(1u, aubCsr->externalAllocations.size());
EXPECT_EQ(addr, aubCsr->externalAllocations[0].first);
EXPECT_EQ(size, aubCsr->externalAllocations[0].second);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenMakeNonResidentExternalIsCalledThenMatchingAllocationViewShouldBeRemovedFromExternalAllocations) {
auto aubCsr = std::make_unique<MockAubCsrToTestExternalAllocations<FamilyType>>(*platformDevices[0], "", true, *pDevice->executionEnvironment);
size_t size = 100;
auto ptr = std::make_unique<char[]>(size);
auto addr = reinterpret_cast<uint64_t>(ptr.get());
AllocationView externalAllocation(addr, size);
aubCsr->makeResidentExternal(externalAllocation);
ASSERT_EQ(1u, aubCsr->externalAllocations.size());
aubCsr->makeNonResidentExternal(addr);
EXPECT_EQ(0u, aubCsr->externalAllocations.size());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenMakeNonResidentExternalIsCalledThenNonMatchingAllocationViewShouldNotBeRemovedFromExternalAllocations) {
auto aubCsr = std::make_unique<MockAubCsrToTestExternalAllocations<FamilyType>>(*platformDevices[0], "", true, *pDevice->executionEnvironment);
size_t size = 100;
auto ptr = std::make_unique<char[]>(size);
auto addr = reinterpret_cast<uint64_t>(ptr.get());
AllocationView externalAllocation(addr, size);
aubCsr->makeResidentExternal(externalAllocation);
ASSERT_EQ(1u, aubCsr->externalAllocations.size());
aubCsr->makeNonResidentExternal(0);
EXPECT_EQ(1u, aubCsr->externalAllocations.size());
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenProcessResidencyIsCalledThenExternalAllocationsShouldBeMadeResident) {
auto aubCsr = std::make_unique<MockAubCsrToTestExternalAllocations<FamilyType>>(*platformDevices[0], "", true, *pDevice->executionEnvironment);
size_t size = 100;
auto ptr = std::make_unique<char[]>(size);
auto addr = reinterpret_cast<uint64_t>(ptr.get());
AllocationView externalAllocation(addr, size);
aubCsr->makeResidentExternal(externalAllocation);
ASSERT_EQ(1u, aubCsr->externalAllocations.size());
ResidencyContainer allocationsForResidency;
aubCsr->processResidency(allocationsForResidency, *pDevice->getOsContext());
EXPECT_TRUE(aubCsr->writeMemoryParametrization.wasCalled);
EXPECT_EQ(addr, aubCsr->writeMemoryParametrization.receivedAllocationView.first);
EXPECT_EQ(size, aubCsr->writeMemoryParametrization.receivedAllocationView.second);
EXPECT_TRUE(aubCsr->writeMemoryParametrization.statusToReturn);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenProcessResidencyIsCalledThenExternalAllocationWithZeroSizeShouldNotBeMadeResident) {
auto aubCsr = std::make_unique<MockAubCsrToTestExternalAllocations<FamilyType>>(*platformDevices[0], "", true, *pDevice->executionEnvironment);
AllocationView externalAllocation(0, 0);
aubCsr->makeResidentExternal(externalAllocation);
ASSERT_EQ(1u, aubCsr->externalAllocations.size());
ResidencyContainer allocationsForResidency;
aubCsr->processResidency(allocationsForResidency, *pDevice->getOsContext());
EXPECT_TRUE(aubCsr->writeMemoryParametrization.wasCalled);
EXPECT_EQ(0u, aubCsr->writeMemoryParametrization.receivedAllocationView.first);
EXPECT_EQ(0u, aubCsr->writeMemoryParametrization.receivedAllocationView.second);
EXPECT_FALSE(aubCsr->writeMemoryParametrization.statusToReturn);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenWriteMemoryIsCalledThenGraphicsAllocationSizeIsReadCorrectly) {
std::unique_ptr<MemoryManager> memoryManager(nullptr);
auto aubCsr = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(*platformDevices[0], "", false, *pDevice->executionEnvironment);
memoryManager.reset(aubCsr->createMemoryManager(false, false));
PhysicalAddressAllocator allocator;
struct PpgttMock : std::conditional<is64bit, PML4, PDPE>::type {
PpgttMock(PhysicalAddressAllocator *allocator) : std::conditional<is64bit, PML4, PDPE>::type(allocator) {}
void pageWalk(uintptr_t vm, size_t size, size_t offset, uint64_t entryBits, PageWalker &pageWalker, uint32_t memoryBank) override {
receivedSize = size;
}
size_t receivedSize = 0;
};
auto ppgttMock = new PpgttMock(&allocator);
aubCsr->ppgtt.reset(ppgttMock);
auto gfxAllocation = memoryManager->allocateGraphicsMemory(sizeof(uint32_t), sizeof(uint32_t), false, false);
gfxAllocation->setAubWritable(true);
auto gmm = new Gmm(nullptr, 1, false);
gfxAllocation->gmm = gmm;
for (bool compressed : {false, true}) {
gmm->isRenderCompressed = compressed;
aubCsr->writeMemory(*gfxAllocation);
if (compressed) {
EXPECT_EQ(gfxAllocation->gmm->gmmResourceInfo->getSizeAllocation(), ppgttMock->receivedSize);
} else {
EXPECT_EQ(gfxAllocation->getUnderlyingBufferSize(), ppgttMock->receivedSize);
}
}
memoryManager->freeGraphicsMemory(gfxAllocation);
}
HWTEST_F(AubCommandStreamReceiverTests, whenAubCommandStreamReceiverIsCreatedThenPPGTTAndGGTTCreatedHavePhysicalAddressAllocatorSet) {
auto aubCsr = std::make_unique<AUBCommandStreamReceiverHw<FamilyType>>(*platformDevices[0], "", false, *pDevice->executionEnvironment);
ASSERT_NE(nullptr, aubCsr->ppgtt.get());
ASSERT_NE(nullptr, aubCsr->ggtt.get());
uintptr_t address = 0x20000;
auto physicalAddress = aubCsr->ppgtt->map(address, MemoryConstants::pageSize, 0, MemoryBanks::MainBank);
EXPECT_NE(0u, physicalAddress);
physicalAddress = aubCsr->ggtt->map(address, MemoryConstants::pageSize, 0, MemoryBanks::MainBank);
EXPECT_NE(0u, physicalAddress);
}
HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenEngineIsInitializedThenDumpHandleIsGenerated) {
auto aubCsr = std::make_unique<MockAubCsrToTestDumpContext<FamilyType>>(**platformDevices, "", true, executionEnvironment);
EXPECT_NE(nullptr, aubCsr);
auto engineType = OCLRT::ENGINE_RCS;
auto engineIndex = aubCsr->getEngineIndex(engineType);
aubCsr->initializeEngine(engineIndex);
EXPECT_NE(0u, aubCsr->handle);
}
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