compute-runtime/unit_tests/command_stream/aub_command_stream_receiver_tests.cpp

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#include "runtime/command_stream/aub_command_stream_receiver_hw.h"
#include "runtime/helpers/hw_info.h"
#include "runtime/memory_manager/memory_manager.h"
#include "test.h"
#include "unit_tests/fixtures/device_fixture.h"

using OCLRT::AUBCommandStreamReceiver;
using OCLRT::AUBCommandStreamReceiverHw;
using OCLRT::BatchBuffer;
using OCLRT::CommandStreamReceiver;
using OCLRT::GraphicsAllocation;
using OCLRT::HardwareInfo;
using OCLRT::LinearStream;
using OCLRT::MemoryManager;
using OCLRT::ObjectNotResident;
using OCLRT::platformDevices;

typedef Test<DeviceFixture> AubCommandStreamReceiverTests;

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 *csr = AUBCommandStreamReceiver::create(hwInfo, "");
    EXPECT_EQ(nullptr, csr);

    const_cast<PLATFORM *>(hwInfo.pPlatform)->eRenderCoreFamily = family;
}

HWTEST_F(AubCommandStreamReceiverTests, givenAubCommandStreamReceiverWhenItIsCreatedThenMemoryManagerIsNotNull) {
    HardwareInfo hwInfo;

    std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(hwInfo));
    std::unique_ptr<MemoryManager> memoryManager(aubCsr->createMemoryManager(false));
    EXPECT_NE(nullptr, memoryManager.get());
    aubCsr->setMemoryManager(nullptr);
}

HWTEST_F(AubCommandStreamReceiverTests, givenGraphicsAllocationWhenMakeResidentCalledMultipleTimesAffectsResidencyOnce) {
    std::unique_ptr<AUBCommandStreamReceiverHw<FamilyType>> aubCsr(new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0]));
    std::unique_ptr<MemoryManager> memoryManager(aubCsr->createMemoryManager(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);
    EXPECT_EQ((int)aubCsr->peekTaskCount(), gfxAllocation->residencyTaskCount);
    EXPECT_EQ(1u, memoryManager->getResidencyAllocations().size());

    // Second makeResident should have no impact
    aubCsr->makeResident(*gfxAllocation);
    EXPECT_NE(ObjectNotResident, gfxAllocation->residencyTaskCount);
    EXPECT_EQ((int)aubCsr->peekTaskCount(), gfxAllocation->residencyTaskCount);
    EXPECT_EQ(1u, memoryManager->getResidencyAllocations().size());

    // First makeNonResident marks the allocation as nonresident
    aubCsr->makeNonResident(*gfxAllocation);
    EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount);
    EXPECT_EQ(1u, memoryManager->getEvictionAllocations().size());

    // Second makeNonResident should have no impact
    aubCsr->makeNonResident(*gfxAllocation);
    EXPECT_EQ(ObjectNotResident, gfxAllocation->residencyTaskCount);
    EXPECT_EQ(1u, memoryManager->getEvictionAllocations().size());

    memoryManager->freeGraphicsMemoryImpl(gfxAllocation);
    aubCsr->setMemoryManager(nullptr);
}

HWTEST_F(AubCommandStreamReceiverTests, flushShouldLeaveProperRingTailAlignment) {
    auto csr = new AUBCommandStreamReceiverHw<FamilyType>(*platformDevices[0]);
    auto mm = csr->createMemoryManager(false);

    GraphicsAllocation *commandBuffer = mm->allocateGraphicsMemory(4096, 4096);
    ASSERT_NE(nullptr, commandBuffer);
    LinearStream cs(commandBuffer);

    auto engineOrdinal = OCLRT::ENGINE_RCS;
    auto ringTailAlignment = sizeof(uint64_t);

    BatchBuffer batchBuffer{cs.getGraphicsAllocation(), 0, false, false, cs.getUsed(), &cs};

    // First flush typically includes a preamble and chain to command buffer
    csr->flush(batchBuffer, engineOrdinal, nullptr);
    EXPECT_EQ(0ull, csr->engineInfoTable[engineOrdinal].tailRingBuffer % ringTailAlignment);

    // Second flush should just submit command buffer
    cs.getSpace(sizeof(uint64_t));
    csr->flush(batchBuffer, engineOrdinal, nullptr);
    EXPECT_EQ(0ull, csr->engineInfoTable[engineOrdinal].tailRingBuffer % ringTailAlignment);

    mm->freeGraphicsMemory(commandBuffer);
    delete csr;
    delete mm;
}