/* * Copyright (c) 2018, Intel Corporation * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. */ #include "unit_tests/fixtures/device_fixture.h" #include "unit_tests/mocks/mock_kernel.h" #include "test.h" using namespace OCLRT; typedef Test KernelSubstituteTest; TEST_F(KernelSubstituteTest, givenKernelWhenSubstituteKernelHeapWithGreaterSizeThenAllocatesNewKernelAllocation) { MockKernelWithInternals kernel(*pDevice); auto pHeader = const_cast(kernel.kernelInfo.heapInfo.pKernelHeader); const size_t initialHeapSize = 0x40; pHeader->KernelHeapSize = initialHeapSize; EXPECT_EQ(nullptr, kernel.kernelInfo.kernelAllocation); kernel.kernelInfo.createKernelAllocation(pDevice->getMemoryManager()); auto firstAllocation = kernel.kernelInfo.kernelAllocation; EXPECT_NE(nullptr, firstAllocation); auto firstAllocationSize = firstAllocation->getUnderlyingBufferSize(); EXPECT_EQ(initialHeapSize, firstAllocationSize); auto firstAllocationId = static_cast(firstAllocation)->id; const size_t newHeapSize = initialHeapSize + 1; char newHeap[newHeapSize]; kernel.mockKernel->substituteKernelHeap(newHeap, newHeapSize); auto secondAllocation = kernel.kernelInfo.kernelAllocation; EXPECT_NE(nullptr, secondAllocation); auto secondAllocationSize = secondAllocation->getUnderlyingBufferSize(); EXPECT_NE(initialHeapSize, secondAllocationSize); EXPECT_EQ(newHeapSize, secondAllocationSize); auto secondAllocationId = static_cast(secondAllocation)->id; EXPECT_NE(firstAllocationId, secondAllocationId); pDevice->getMemoryManager()->checkGpuUsageAndDestroyGraphicsAllocations(secondAllocation); } TEST_F(KernelSubstituteTest, givenKernelWhenSubstituteKernelHeapWithSameSizeThenDoesNotAllocateNewKernelAllocation) { MockKernelWithInternals kernel(*pDevice); auto pHeader = const_cast(kernel.kernelInfo.heapInfo.pKernelHeader); const size_t initialHeapSize = 0x40; pHeader->KernelHeapSize = initialHeapSize; EXPECT_EQ(nullptr, kernel.kernelInfo.kernelAllocation); kernel.kernelInfo.createKernelAllocation(pDevice->getMemoryManager()); auto firstAllocation = kernel.kernelInfo.kernelAllocation; EXPECT_NE(nullptr, firstAllocation); auto firstAllocationSize = firstAllocation->getUnderlyingBufferSize(); EXPECT_EQ(initialHeapSize, firstAllocationSize); auto firstAllocationId = static_cast(firstAllocation)->id; const size_t newHeapSize = initialHeapSize; char newHeap[newHeapSize]; kernel.mockKernel->substituteKernelHeap(newHeap, newHeapSize); auto secondAllocation = kernel.kernelInfo.kernelAllocation; EXPECT_NE(nullptr, secondAllocation); auto secondAllocationSize = secondAllocation->getUnderlyingBufferSize(); EXPECT_EQ(initialHeapSize, secondAllocationSize); auto secondAllocationId = static_cast(secondAllocation)->id; EXPECT_EQ(firstAllocationId, secondAllocationId); pDevice->getMemoryManager()->checkGpuUsageAndDestroyGraphicsAllocations(secondAllocation); } TEST_F(KernelSubstituteTest, givenKernelWhenSubstituteKernelHeapWithSmallerSizeThenDoesNotAllocateNewKernelAllocation) { MockKernelWithInternals kernel(*pDevice); auto pHeader = const_cast(kernel.kernelInfo.heapInfo.pKernelHeader); const size_t initialHeapSize = 0x40; pHeader->KernelHeapSize = initialHeapSize; EXPECT_EQ(nullptr, kernel.kernelInfo.kernelAllocation); kernel.kernelInfo.createKernelAllocation(pDevice->getMemoryManager()); auto firstAllocation = kernel.kernelInfo.kernelAllocation; EXPECT_NE(nullptr, firstAllocation); auto firstAllocationSize = firstAllocation->getUnderlyingBufferSize(); EXPECT_EQ(initialHeapSize, firstAllocationSize); auto firstAllocationId = static_cast(firstAllocation)->id; const size_t newHeapSize = initialHeapSize - 1; char newHeap[newHeapSize]; kernel.mockKernel->substituteKernelHeap(newHeap, newHeapSize); auto secondAllocation = kernel.kernelInfo.kernelAllocation; EXPECT_NE(nullptr, secondAllocation); auto secondAllocationSize = secondAllocation->getUnderlyingBufferSize(); EXPECT_EQ(initialHeapSize, secondAllocationSize); auto secondAllocationId = static_cast(secondAllocation)->id; EXPECT_EQ(firstAllocationId, secondAllocationId); pDevice->getMemoryManager()->checkGpuUsageAndDestroyGraphicsAllocations(secondAllocation); } TEST_F(KernelSubstituteTest, givenKernelWithUsedKernelAllocationWhenSubstituteKernelHeapAndAllocateNewMemoryThenStoreOldAllocationOnTemporaryList) { MockKernelWithInternals kernel(*pDevice); auto pHeader = const_cast(kernel.kernelInfo.heapInfo.pKernelHeader); auto memoryManager = pDevice->getMemoryManager(); const size_t initialHeapSize = 0x40; pHeader->KernelHeapSize = initialHeapSize; kernel.kernelInfo.createKernelAllocation(memoryManager); auto firstAllocation = kernel.kernelInfo.kernelAllocation; firstAllocation->taskCount = ObjectNotUsed - 1; const size_t newHeapSize = initialHeapSize + 1; char newHeap[newHeapSize]; EXPECT_TRUE(memoryManager->graphicsAllocations.peekIsEmpty()); kernel.mockKernel->substituteKernelHeap(newHeap, newHeapSize); auto secondAllocation = kernel.kernelInfo.kernelAllocation; EXPECT_FALSE(memoryManager->graphicsAllocations.peekIsEmpty()); EXPECT_EQ(memoryManager->graphicsAllocations.peekHead(), firstAllocation); memoryManager->checkGpuUsageAndDestroyGraphicsAllocations(secondAllocation); memoryManager->cleanAllocationList(firstAllocation->taskCount, TEMPORARY_ALLOCATION); }