/* * Copyright (C) 2017-2019 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "runtime/helpers/aligned_memory.h" #include "runtime/helpers/ptr_math.h" #include "runtime/helpers/surface_formats.h" #include "runtime/kernel/kernel.h" #include "runtime/mem_obj/image.h" #include "runtime/memory_manager/surface.h" #include "test.h" #include "unit_tests/fixtures/device_fixture.h" #include "unit_tests/fixtures/image_fixture.h" #include "unit_tests/mocks/mock_kernel.h" #include "unit_tests/mocks/mock_program.h" #include "hw_cmds.h" using namespace NEO; class MediaImageSetArgTest : public DeviceFixture, public testing::Test { public: MediaImageSetArgTest() { memset(&kernelHeader, 0, sizeof(kernelHeader)); } protected: void SetUp() override { DeviceFixture::SetUp(); pKernelInfo = std::make_unique(); program = std::make_unique(*pDevice->getExecutionEnvironment()); kernelHeader.SurfaceStateHeapSize = sizeof(surfaceStateHeap); pKernelInfo->heapInfo.pSsh = surfaceStateHeap; pKernelInfo->heapInfo.pKernelHeader = &kernelHeader; pKernelInfo->usesSsh = true; pKernelInfo->isVmeWorkload = true; pKernelInfo->kernelArgInfo.resize(2); pKernelInfo->kernelArgInfo[1].offsetHeap = 0x00; pKernelInfo->kernelArgInfo[0].offsetHeap = 0x40; pKernelInfo->kernelArgInfo[1].isMediaImage = true; pKernelInfo->kernelArgInfo[0].isMediaImage = true; pKernelInfo->kernelArgInfo[1].isImage = true; pKernelInfo->kernelArgInfo[0].isImage = true; pKernel = new MockKernel(program.get(), *pKernelInfo, *pDevice); ASSERT_NE(nullptr, pKernel); ASSERT_EQ(CL_SUCCESS, pKernel->initialize()); ASSERT_EQ(true, pKernel->isVmeKernel()); pKernel->setKernelArgHandler(0, &Kernel::setArgImage); pKernel->setKernelArgHandler(1, &Kernel::setArgImage); context = new MockContext(pDevice); srcImage = Image2dHelper<>::create(context); ASSERT_NE(nullptr, srcImage); } void TearDown() override { delete srcImage; delete pKernel; delete context; DeviceFixture::TearDown(); } cl_int retVal = CL_SUCCESS; MockContext *context; std::unique_ptr program; MockKernel *pKernel = nullptr; SKernelBinaryHeaderCommon kernelHeader; std::unique_ptr pKernelInfo; char surfaceStateHeap[0x80]; Image *srcImage = nullptr; }; HWTEST_F(MediaImageSetArgTest, setKernelArgImage) { typedef typename FamilyType::MEDIA_SURFACE_STATE MEDIA_SURFACE_STATE; auto pSurfaceState = reinterpret_cast( ptrOffset(pKernel->getSurfaceStateHeap(), pKernelInfo->kernelArgInfo[0].offsetHeap)); srcImage->setMediaImageArg(const_cast(pSurfaceState)); SurfaceOffsets surfaceOffsets; srcImage->getSurfaceOffsets(surfaceOffsets); EXPECT_EQ(srcImage->getGraphicsAllocation()->getGpuAddress() + surfaceOffsets.offset, pSurfaceState->getSurfaceBaseAddress()); std::vector surfaces; pKernel->getResidency(surfaces); EXPECT_EQ(0u, surfaces.size()); } HWTEST_F(MediaImageSetArgTest, clSetKernelArgImage) { typedef typename FamilyType::MEDIA_SURFACE_STATE MEDIA_SURFACE_STATE; cl_mem memObj = srcImage; retVal = clSetKernelArg( pKernel, 0, sizeof(memObj), &memObj); ASSERT_EQ(CL_SUCCESS, retVal); auto pSurfaceState = reinterpret_cast( ptrOffset(pKernel->getSurfaceStateHeap(), pKernelInfo->kernelArgInfo[0].offsetHeap)); uint64_t surfaceAddress = pSurfaceState->getSurfaceBaseAddress(); ASSERT_EQ(srcImage->getGraphicsAllocation()->getGpuAddress(), surfaceAddress); EXPECT_EQ(srcImage->getImageDesc().image_width, pSurfaceState->getWidth()); EXPECT_EQ(srcImage->getImageDesc().image_height, pSurfaceState->getHeight()); typename FamilyType::MEDIA_SURFACE_STATE::TILE_MODE tileMode; if (srcImage->allowTiling()) { tileMode = FamilyType::MEDIA_SURFACE_STATE::TILE_MODE_TILEMODE_YMAJOR; } else { tileMode = FamilyType::MEDIA_SURFACE_STATE::TILE_MODE_TILEMODE_LINEAR; } EXPECT_EQ(tileMode, pSurfaceState->getTileMode()); EXPECT_EQ(MEDIA_SURFACE_STATE::SURFACE_FORMAT_Y8_UNORM_VA, pSurfaceState->getSurfaceFormat()); EXPECT_EQ(MEDIA_SURFACE_STATE::PICTURE_STRUCTURE_FRAME_PICTURE, pSurfaceState->getPictureStructure()); std::vector surfaces; pKernel->getResidency(surfaces); for (auto &surface : surfaces) { delete surface; } EXPECT_EQ(1u, surfaces.size()); }