/* * Copyright (C) 2018-2019 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "runtime/helpers/array_count.h" #include "unit_tests/test_files/patch_list.h" #include "gmock/gmock.h" #include "mock/mock_decoder.h" #include SProgramBinaryHeader createProgramBinaryHeader(const uint32_t numberOfKernels, const uint32_t patchListSize) { return SProgramBinaryHeader{MAGIC_CL, 0, 0, 0, numberOfKernels, 0, patchListSize}; } SKernelBinaryHeaderCommon createKernelBinaryHeaderCommon(const uint32_t kernelNameSize, const uint32_t patchListSize) { SKernelBinaryHeaderCommon kernelHeader = {}; kernelHeader.CheckSum = 0xFFFFFFFF; kernelHeader.ShaderHashCode = 0xFFFFFFFFFFFFFFFF; kernelHeader.KernelNameSize = kernelNameSize; kernelHeader.PatchListSize = patchListSize; return kernelHeader; } namespace NEO { TEST(DecoderTests, WhenParsingValidListOfParametersThenReturnValueIsZero) { const char *argv[] = { "ocloc", "decoder", "-file", "test_files/binary.bin", "-patch", "test_files/patch", "-dump", "test_files/created"}; MockDecoder decoder; EXPECT_EQ(0, decoder.validateInput(static_cast(arrayCount(argv)), argv)); } TEST(DecoderTests, WhenMissingParametersThenValidateInputReturnsErrorCode) { const char *argv[] = { "ocloc", "decoder", "-patch", "test_files"}; MockDecoder decoder; EXPECT_NE(0, decoder.validateInput(static_cast(arrayCount(argv)), argv)); } TEST(DecoderTests, GivenWrongParametersWhenParsingParametersThenValidateInputReturnsErrorCode) { const char *argv[] = { "cloc", "decoder", "-file", "test_files/no_extension", "-patch", "test_files", "-dump", "test_files/created"}; MockDecoder decoder; EXPECT_NE(0, decoder.validateInput(static_cast(arrayCount(argv)), argv)); } TEST(DecoderTests, GivenValidSizeStringWhenGettingSizeThenProperOutcomeIsExpectedAndExceptionIsNotThrown) { MockDecoder decoder; EXPECT_EQ(static_cast(1), decoder.getSize("uint8_t")); EXPECT_EQ(static_cast(2), decoder.getSize("uint16_t")); EXPECT_EQ(static_cast(4), decoder.getSize("uint32_t")); EXPECT_EQ(static_cast(8), decoder.getSize("uint64_t")); } TEST(DecoderTests, GivenProperStructWhenReadingStructFieldsThenFieldsVectorGetsPopulatedCorrectly) { std::vector lines; lines.push_back("/* */"); lines.push_back("struct SPatchSamplerStateArray :"); lines.push_back(" SPatchItemHeader"); lines.push_back("{"); lines.push_back(" uint64_t SomeField;"); lines.push_back(" uint32_t Offset;"); lines.push_back(""); lines.push_back(" uint16_t Count;"); lines.push_back(" uint8_t BorderColorOffset;"); lines.push_back("};"); std::vector fields; MockDecoder decoder; size_t pos = 4; uint32_t full_size = decoder.readStructFields(lines, pos, fields); EXPECT_EQ(static_cast(15), full_size); EXPECT_EQ(static_cast(8), fields[0].size); EXPECT_EQ("SomeField", fields[0].name); EXPECT_EQ(static_cast(4), fields[1].size); EXPECT_EQ("Offset", fields[1].name); EXPECT_EQ(static_cast(2), fields[2].size); EXPECT_EQ("Count", fields[2].name); EXPECT_EQ(static_cast(1), fields[3].size); EXPECT_EQ("BorderColorOffset", fields[3].name); } TEST(DecoderTests, GivenProperPatchListFileWhenParsingTokensThenFileIsParsedCorrectly) { MockDecoder decoder; decoder.pathToPatch = "test_files/"; decoder.parseTokens(); EXPECT_EQ(static_cast(28), (decoder.programHeader.size)); EXPECT_EQ(static_cast(4), (decoder.programHeader.fields[0].size)); EXPECT_EQ("Magic", (decoder.programHeader.fields[0].name)); EXPECT_EQ(static_cast(4), (decoder.programHeader.fields[1].size)); EXPECT_EQ("Version", (decoder.programHeader.fields[1].name)); EXPECT_EQ(static_cast(4), (decoder.programHeader.fields[2].size)); EXPECT_EQ("Device", (decoder.programHeader.fields[2].name)); EXPECT_EQ(static_cast(4), (decoder.programHeader.fields[3].size)); EXPECT_EQ("GPUPointerSizeInBytes", (decoder.programHeader.fields[3].name)); EXPECT_EQ(static_cast(4), (decoder.programHeader.fields[4].size)); EXPECT_EQ("NumberOfKernels", (decoder.programHeader.fields[4].name)); EXPECT_EQ(static_cast(4), (decoder.programHeader.fields[5].size)); EXPECT_EQ("SteppingId", (decoder.programHeader.fields[5].name)); EXPECT_EQ(static_cast(4), (decoder.programHeader.fields[6].size)); EXPECT_EQ("PatchListSize", (decoder.programHeader.fields[6].name)); EXPECT_EQ(static_cast(40), (decoder.kernelHeader.size)); EXPECT_EQ(static_cast(4), (decoder.kernelHeader.fields[0].size)); EXPECT_EQ("CheckSum", (decoder.kernelHeader.fields[0].name)); EXPECT_EQ(static_cast(8), (decoder.kernelHeader.fields[1].size)); EXPECT_EQ("ShaderHashCode", (decoder.kernelHeader.fields[1].name)); EXPECT_EQ(static_cast(4), (decoder.kernelHeader.fields[2].size)); EXPECT_EQ("KernelNameSize", (decoder.kernelHeader.fields[2].name)); EXPECT_EQ(static_cast(4), (decoder.kernelHeader.fields[3].size)); EXPECT_EQ("PatchListSize", (decoder.kernelHeader.fields[3].name)); EXPECT_EQ(static_cast(4), (decoder.kernelHeader.fields[4].size)); EXPECT_EQ("KernelHeapSize", (decoder.kernelHeader.fields[4].name)); EXPECT_EQ(static_cast(4), (decoder.kernelHeader.fields[5].size)); EXPECT_EQ("GeneralStateHeapSize", (decoder.kernelHeader.fields[5].name)); EXPECT_EQ(static_cast(4), (decoder.kernelHeader.fields[6].size)); EXPECT_EQ("DynamicStateHeapSize", (decoder.kernelHeader.fields[6].name)); EXPECT_EQ(static_cast(4), (decoder.kernelHeader.fields[7].size)); EXPECT_EQ("SurfaceStateHeapSize", (decoder.kernelHeader.fields[7].name)); EXPECT_EQ(static_cast(4), (decoder.kernelHeader.fields[8].size)); EXPECT_EQ("KernelUnpaddedSize", (decoder.kernelHeader.fields[8].name)); EXPECT_EQ(static_cast(4), (decoder.patchTokens[2]->size)); EXPECT_EQ("PATCH_TOKEN_STATE_SIP", (decoder.patchTokens[2]->name)); EXPECT_EQ(static_cast(4), (decoder.patchTokens[2]->fields[0].size)); EXPECT_EQ("SystemKernelOffset", (decoder.patchTokens[2]->fields[0].name)); EXPECT_EQ(static_cast(12), decoder.patchTokens[5]->size); EXPECT_EQ("PATCH_TOKEN_SAMPLER_STATE_ARRAY", decoder.patchTokens[5]->name); EXPECT_EQ(static_cast(4), (decoder.patchTokens[5]->fields[0].size)); EXPECT_EQ("Offset", (decoder.patchTokens[5]->fields[0].name)); EXPECT_EQ(static_cast(4), (decoder.patchTokens[5]->fields[1].size)); EXPECT_EQ("Count", (decoder.patchTokens[5]->fields[1].name)); EXPECT_EQ(static_cast(4), (decoder.patchTokens[5]->fields[2].size)); EXPECT_EQ("BorderColorOffset", (decoder.patchTokens[5]->fields[2].name)); EXPECT_EQ(static_cast(8), decoder.patchTokens[42]->size); EXPECT_EQ("PATCH_TOKEN_ALLOCATE_CONSTANT_MEMORY_SURFACE_PROGRAM_BINARY_INFO", decoder.patchTokens[42]->name); EXPECT_EQ(static_cast(4), (decoder.patchTokens[42]->fields[0].size)); EXPECT_EQ("ConstantBufferIndex", (decoder.patchTokens[42]->fields[0].name)); EXPECT_EQ(static_cast(4), (decoder.patchTokens[42]->fields[1].size)); EXPECT_EQ("InlineDataSize", (decoder.patchTokens[42]->fields[1].name)); EXPECT_EQ(static_cast(4), decoder.patchTokens[19]->size); EXPECT_EQ("PATCH_TOKEN_MEDIA_INTERFACE_DESCRIPTOR_LOAD", decoder.patchTokens[19]->name); EXPECT_EQ(static_cast(4), (decoder.patchTokens[19]->fields[0].size)); EXPECT_EQ("InterfaceDescriptorDataOffset", (decoder.patchTokens[19]->fields[0].name)); } TEST(DecoderTests, WhenPathToPatchTokensNotProvidedThenUseDefaults) { MockDecoder decoder; decoder.pathToPatch = ""; decoder.parseTokens(); EXPECT_NE(0U, decoder.programHeader.size); EXPECT_NE(0U, decoder.kernelHeader.size); } TEST(DecoderTests, GivenValidBinaryWhenReadingPatchTokensFromBinaryThenBinaryIsReadCorrectly) { std::string binaryString; std::stringstream binarySS; uint8_t byte; uint32_t byte4; byte4 = 4; binarySS.write(reinterpret_cast(&byte4), sizeof(uint32_t)); byte4 = 16; binarySS.write(reinterpret_cast(&byte4), sizeof(uint32_t)); byte4 = 1234; binarySS.write(reinterpret_cast(&byte4), sizeof(uint32_t)); byte4 = 5678; binarySS.write(reinterpret_cast(&byte4), sizeof(uint32_t)); byte4 = 2; binarySS.write(reinterpret_cast(&byte4), sizeof(uint32_t)); byte4 = 12; binarySS.write(reinterpret_cast(&byte4), sizeof(uint32_t)); byte = 255; for (auto i = 0; i < 4; ++i) { binarySS.write(reinterpret_cast(&byte), sizeof(uint8_t)); } binaryString = binarySS.str(); std::vector binary(binaryString.begin(), binaryString.end()); MockDecoder decoder; std::stringstream out; auto PTptr = std::make_unique(); PTptr->size = 20; PTptr->name = "Example patchtoken"; PTptr->fields.push_back(PTField{4, "First"}); PTptr->fields.push_back(PTField{4, "Second"}); decoder.patchTokens.insert(std::pair>(4, std::move(PTptr))); void *ptr = reinterpret_cast(binary.data()); decoder.readPatchTokens(ptr, 28, out); std::string s = "Example patchtoken:\n\t4 Token 4\n\t4 Size 16\n\t4 First 1234\n\t4 Second 5678\nUnidentified PatchToken:\n\t4 Token 2\n\t4 Size 12\n\tHex ff ff ff ff\n"; EXPECT_EQ(s, out.str()); } TEST(DecoderTests, GivenValidBinaryWithoutPatchTokensWhenProcessingBinaryThenBinaryIsReadCorrectly) { auto programHeader = createProgramBinaryHeader(1, 0); std::string kernelName("ExampleKernel"); auto kernelHeader = createKernelBinaryHeaderCommon(static_cast(kernelName.size() + 1), 0); std::stringstream binarySS; binarySS.write(reinterpret_cast(&programHeader), sizeof(SProgramBinaryHeader)); binarySS.write(reinterpret_cast(&kernelHeader), sizeof(SKernelBinaryHeaderCommon)); binarySS.write(kernelName.c_str(), kernelHeader.KernelNameSize); std::stringstream ptmFile; MockDecoder decoder; decoder.pathToPatch = "test_files/"; decoder.pathToDump = "non_existing_folder/"; decoder.parseTokens(); std::string binaryString = binarySS.str(); std::vector binary(binaryString.begin(), binaryString.end()); auto ptr = reinterpret_cast(binary.data()); int retVal = decoder.processBinary(ptr, ptmFile); EXPECT_EQ(0, retVal); std::string expectedOutput = "ProgramBinaryHeader:\n\t4 Magic 1229870147\n\t4 Version 0\n\t4 Device 0\n\t4 GPUPointerSizeInBytes 0\n\t4 NumberOfKernels 1\n\t4 SteppingId 0\n\t4 PatchListSize 0\nKernel #0\nKernelBinaryHeader:\n\t4 CheckSum 4294967295\n\t8 ShaderHashCode 18446744073709551615\n\t4 KernelNameSize 14\n\t4 PatchListSize 0\n\t4 KernelHeapSize 0\n\t4 GeneralStateHeapSize 0\n\t4 DynamicStateHeapSize 0\n\t4 SurfaceStateHeapSize 0\n\t4 KernelUnpaddedSize 0\n\tKernelName ExampleKernel\n"; EXPECT_EQ(expectedOutput, ptmFile.str()); } TEST(DecoderTests, GivenValidBinaryWhenProcessingBinaryThenProgramAndKernelAndPatchTokensAreReadCorrectly) { std::stringstream binarySS; //ProgramBinaryHeader auto programHeader = createProgramBinaryHeader(1, 30); binarySS.write(reinterpret_cast(&programHeader), sizeof(SProgramBinaryHeader)); //PATCH_TOKEN_ALLOCATE_CONSTANT_MEMORY_SURFACE_PROGRAM_BINARY_INFO SPatchAllocateConstantMemorySurfaceProgramBinaryInfo patchAllocateConstantMemory; patchAllocateConstantMemory.Token = 42; patchAllocateConstantMemory.Size = 16; patchAllocateConstantMemory.ConstantBufferIndex = 0; patchAllocateConstantMemory.InlineDataSize = 14; binarySS.write(reinterpret_cast(&patchAllocateConstantMemory), sizeof(patchAllocateConstantMemory)); //InlineData for (uint8_t i = 0; i < 14; ++i) { binarySS.write(reinterpret_cast(&i), sizeof(uint8_t)); } //KernelBinaryHeader std::string kernelName("ExampleKernel"); auto kernelHeader = createKernelBinaryHeaderCommon(static_cast(kernelName.size() + 1), 12); binarySS.write(reinterpret_cast(&kernelHeader), sizeof(SKernelBinaryHeaderCommon)); binarySS.write(kernelName.c_str(), kernelHeader.KernelNameSize); //PATCH_TOKEN_MEDIA_INTERFACE_DESCRIPTOR_LOAD SPatchMediaInterfaceDescriptorLoad patchMediaInterfaceDescriptorLoad; patchMediaInterfaceDescriptorLoad.Token = 19; patchMediaInterfaceDescriptorLoad.Size = 12; patchMediaInterfaceDescriptorLoad.InterfaceDescriptorDataOffset = 0; binarySS.write(reinterpret_cast(&patchMediaInterfaceDescriptorLoad), sizeof(SPatchMediaInterfaceDescriptorLoad)); std::string binaryString = binarySS.str(); std::vector binary(binaryString.begin(), binaryString.end()); std::stringstream ptmFile; MockDecoder decoder; decoder.pathToPatch = "test_files/"; decoder.pathToDump = "non_existing_folder/"; decoder.parseTokens(); auto ptr = reinterpret_cast(binary.data()); int retVal = decoder.processBinary(ptr, ptmFile); EXPECT_EQ(0, retVal); std::string expectedOutput = "ProgramBinaryHeader:\n\t4 Magic 1229870147\n\t4 Version 0\n\t4 Device 0\n\t4 GPUPointerSizeInBytes 0\n\t4 NumberOfKernels 1\n\t4 SteppingId 0\n\t4 PatchListSize 30\nPATCH_TOKEN_ALLOCATE_CONSTANT_MEMORY_SURFACE_PROGRAM_BINARY_INFO:\n\t4 Token 42\n\t4 Size 16\n\t4 ConstantBufferIndex 0\n\t4 InlineDataSize 14\n\tHex 0 1 2 3 4 5 6 7 8 9 a b c d\nKernel #0\nKernelBinaryHeader:\n\t4 CheckSum 4294967295\n\t8 ShaderHashCode 18446744073709551615\n\t4 KernelNameSize 14\n\t4 PatchListSize 12\n\t4 KernelHeapSize 0\n\t4 GeneralStateHeapSize 0\n\t4 DynamicStateHeapSize 0\n\t4 SurfaceStateHeapSize 0\n\t4 KernelUnpaddedSize 0\n\tKernelName ExampleKernel\nPATCH_TOKEN_MEDIA_INTERFACE_DESCRIPTOR_LOAD:\n\t4 Token 19\n\t4 Size 12\n\t4 InterfaceDescriptorDataOffset 0\n"; EXPECT_EQ(expectedOutput, ptmFile.str()); EXPECT_TRUE(decoder.getMockIga()->disasmWasCalled); EXPECT_FALSE(decoder.getMockIga()->asmWasCalled); } } // namespace NEO