/* * Copyright (C) 2017-2021 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "shared/source/memory_manager/memory_manager.h" #include "shared/test/common/test_macros/test_checks_shared.h" #include "opencl/source/command_queue/command_queue_hw.h" #include "opencl/source/event/event.h" #include "opencl/test/unit_test/command_queue/command_queue_fixture.h" #include "opencl/test/unit_test/command_queue/enqueue_fixture.h" #include "opencl/test/unit_test/fixtures/cl_device_fixture.h" #include "test.h" using namespace NEO; struct OOMSetting { bool oomCS; bool oomISH; }; static OOMSetting oomSettings[] = { {true, false}, {false, true}, {true, true}}; struct OOMCommandQueueImageTest : public ClDeviceFixture, public CommandQueueFixture, public ::testing::TestWithParam { using CommandQueueFixture::SetUp; OOMCommandQueueImageTest() { } void SetUp() override { REQUIRE_IMAGES_OR_SKIP(defaultHwInfo); ClDeviceFixture::SetUp(); context = new MockContext(pClDevice); CommandQueueFixture::SetUp(context, pClDevice, 0); srcImage = Image2dHelper<>::create(context); dstImage = Image2dHelper<>::create(context); const auto &oomSetting = GetParam(); auto oomSize = 10u; if (oomSetting.oomCS) { auto &cs = pCmdQ->getCS(oomSize); // CommandStream may be larger than requested so grab what wasnt requested cs.getSpace(cs.getAvailableSpace() - oomSize); ASSERT_EQ(oomSize, cs.getAvailableSpace()); } if (oomSetting.oomISH) { auto &ish = pCmdQ->getIndirectHeap(IndirectHeap::DYNAMIC_STATE, oomSize); // IndirectHeap may be larger than requested so grab what wasnt requested ish.getSpace(ish.getAvailableSpace() - oomSize); ASSERT_EQ(oomSize, ish.getAvailableSpace()); } } void TearDown() override { if (IsSkipped()) { return; } delete dstImage; delete srcImage; context->release(); CommandQueueFixture::TearDown(); ClDeviceFixture::TearDown(); } MockContext *context; Image *srcImage = nullptr; Image *dstImage = nullptr; }; HWTEST_P(OOMCommandQueueImageTest, WhenCopyingImageThenMaxAvailableSpaceIsNotExceeded) { CommandQueueHw cmdQ(context, pClDevice, 0, false); auto &commandStream = pCmdQ->getCS(1024); auto &indirectHeap = pCmdQ->getIndirectHeap(IndirectHeap::DYNAMIC_STATE, 10); auto usedBeforeCS = commandStream.getUsed(); auto usedBeforeISH = indirectHeap.getUsed(); auto retVal1 = EnqueueCopyImageHelper<>::enqueue(pCmdQ); auto retVal2 = EnqueueCopyImageHelper<>::enqueue(&cmdQ); auto usedAfterCS = commandStream.getUsed(); auto usedAfterISH = indirectHeap.getUsed(); EXPECT_LE(usedAfterCS - usedBeforeCS, commandStream.getMaxAvailableSpace()); if (usedAfterISH > usedBeforeISH) { EXPECT_LE(usedAfterISH - usedBeforeISH, indirectHeap.getMaxAvailableSpace()); } else { EXPECT_LE(usedAfterISH, indirectHeap.getMaxAvailableSpace()); } EXPECT_EQ(CL_SUCCESS, retVal1); EXPECT_EQ(CL_SUCCESS, retVal2); } HWTEST_P(OOMCommandQueueImageTest, WhenFillingImageThenMaxAvailableSpaceIsNotExceeded) { CommandQueueHw cmdQ(context, pClDevice, 0, false); auto &commandStream = pCmdQ->getCS(1024); auto &indirectHeap = pCmdQ->getIndirectHeap(IndirectHeap::DYNAMIC_STATE, 10); auto usedBeforeCS = commandStream.getUsed(); auto usedBeforeISH = indirectHeap.getUsed(); auto retVal1 = EnqueueFillImageHelper<>::enqueue(pCmdQ); auto retVal2 = EnqueueFillImageHelper<>::enqueue(&cmdQ); auto usedAfterCS = commandStream.getUsed(); auto usedAfterISH = indirectHeap.getUsed(); EXPECT_LE(usedAfterCS - usedBeforeCS, commandStream.getMaxAvailableSpace()); if (usedAfterISH > usedBeforeISH) { EXPECT_LE(usedAfterISH - usedBeforeISH, indirectHeap.getMaxAvailableSpace()); } else { EXPECT_LE(usedAfterISH, indirectHeap.getMaxAvailableSpace()); } EXPECT_EQ(CL_SUCCESS, retVal1); EXPECT_EQ(CL_SUCCESS, retVal2); } HWTEST_P(OOMCommandQueueImageTest, WhenReadingImageThenMaxAvailableSpaceIsNotExceeded) { CommandQueueHw cmdQ(context, pClDevice, 0, false); auto &commandStream = pCmdQ->getCS(1024); auto &indirectHeap = pCmdQ->getIndirectHeap(IndirectHeap::DYNAMIC_STATE, 10); auto usedBeforeCS = commandStream.getUsed(); auto usedBeforeISH = indirectHeap.getUsed(); auto retVal1 = EnqueueReadImageHelper<>::enqueue(pCmdQ); auto retVal2 = EnqueueReadImageHelper<>::enqueue(&cmdQ); auto usedAfterCS = commandStream.getUsed(); auto usedAfterISH = indirectHeap.getUsed(); EXPECT_LE(usedAfterCS - usedBeforeCS, commandStream.getMaxAvailableSpace()); if (usedAfterISH > usedBeforeISH) { EXPECT_LE(usedAfterISH - usedBeforeISH, indirectHeap.getMaxAvailableSpace()); } else { EXPECT_LE(usedAfterISH, indirectHeap.getMaxAvailableSpace()); } EXPECT_EQ(CL_SUCCESS, retVal1); EXPECT_EQ(CL_SUCCESS, retVal2); } HWTEST_P(OOMCommandQueueImageTest, WhenWritingImageThenMaxAvailableSpaceIsNotExceeded) { CommandQueueHw cmdQ(context, pClDevice, 0, false); auto &commandStream = pCmdQ->getCS(1024); auto &indirectHeap = pCmdQ->getIndirectHeap(IndirectHeap::DYNAMIC_STATE, 10); auto usedBeforeCS = commandStream.getUsed(); auto usedBeforeISH = indirectHeap.getUsed(); auto retVal1 = EnqueueWriteImageHelper<>::enqueue(pCmdQ); auto retVal2 = EnqueueWriteImageHelper<>::enqueue(&cmdQ); auto usedAfterCS = commandStream.getUsed(); auto usedAfterISH = indirectHeap.getUsed(); EXPECT_LE(usedAfterCS - usedBeforeCS, commandStream.getMaxAvailableSpace()); if (usedAfterISH > usedBeforeISH) { EXPECT_LE(usedAfterISH - usedBeforeISH, indirectHeap.getMaxAvailableSpace()); } else { EXPECT_LE(usedAfterISH, indirectHeap.getMaxAvailableSpace()); } EXPECT_EQ(CL_SUCCESS, retVal1); EXPECT_EQ(CL_SUCCESS, retVal2); } INSTANTIATE_TEST_CASE_P( OOM, OOMCommandQueueImageTest, testing::ValuesIn(oomSettings));