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/****************************************************************************
* Copyright (C) 2014-2015 Intel Corporation. All Rights Reserved.
*
* 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 (including the next
* paragraph) 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.
*
* @file JitManager.cpp
*
* @brief Implementation if the Jit Manager.
*
* Notes:
*
******************************************************************************/
#include "jit_pch.hpp"
#include "JitManager.h"
#include "jit_api.h"
#include "fetch_jit.h"
#include "core/state.h"
#include "gen_state_llvm.h"
#include <sstream>
#if defined(_WIN32)
#include <psapi.h>
#include <cstring>
#define INTEL_OUTPUT_DIR "c:\\Intel"
#define SWR_OUTPUT_DIR INTEL_OUTPUT_DIR "\\SWR"
#define JITTER_OUTPUT_DIR SWR_OUTPUT_DIR "\\Jitter"
#endif // _WIN32
#if defined(__APPLE) || defined(FORCE_LINUX) || defined(__linux__) || defined(__gnu_linux__)
#include <pwd.h>
#include <sys/stat.h>
#endif
using namespace llvm;
using namespace SwrJit;
//////////////////////////////////////////////////////////////////////////
/// @brief Contructor for JitManager.
/// @param simdWidth - SIMD width to be used in generated program.
JitManager::JitManager(uint32_t simdWidth, const char *arch, const char* core)
: mContext(), mBuilder(mContext), mIsModuleFinalized(true), mJitNumber(0), mVWidth(simdWidth), mArch(arch)
{
InitializeNativeTarget();
InitializeNativeTargetAsmPrinter();
InitializeNativeTargetDisassembler();
TargetOptions tOpts;
tOpts.AllowFPOpFusion = FPOpFusion::Fast;
tOpts.NoInfsFPMath = false;
tOpts.NoNaNsFPMath = false;
tOpts.UnsafeFPMath = false;
#if defined(_DEBUG)
#if LLVM_VERSION_MAJOR == 3 && LLVM_VERSION_MINOR < 7
tOpts.NoFramePointerElim = true;
#endif
#endif
//tOpts.PrintMachineCode = true;
mCore = std::string(core);
std::transform(mCore.begin(), mCore.end(), mCore.begin(), ::tolower);
std::unique_ptr<Module> newModule(new Module("", mContext));
mpCurrentModule = newModule.get();
StringRef hostCPUName;
hostCPUName = sys::getHostCPUName();
#if defined(_WIN32)
// Needed for MCJIT on windows
Triple hostTriple(sys::getProcessTriple());
hostTriple.setObjectFormat(Triple::COFF);
mpCurrentModule->setTargetTriple(hostTriple.getTriple());
#endif // _WIN32
auto optLevel = CodeGenOpt::Aggressive;
mpExec = EngineBuilder(std::move(newModule))
.setTargetOptions(tOpts)
.setOptLevel(optLevel)
.setMCPU(hostCPUName)
.create();
if (KNOB_JIT_ENABLE_CACHE)
{
mCache.Init(this, hostCPUName, optLevel);
mpExec->setObjectCache(&mCache);
}
#if LLVM_USE_INTEL_JITEVENTS
JITEventListener *vTune = JITEventListener::createIntelJITEventListener();
mpExec->RegisterJITEventListener(vTune);
#endif
mFP32Ty = Type::getFloatTy(mContext); // float type
mInt8Ty = Type::getInt8Ty(mContext);
mInt32Ty = Type::getInt32Ty(mContext); // int type
mInt64Ty = Type::getInt64Ty(mContext); // int type
// fetch function signature
#if USE_SIMD16_SHADERS
// typedef void(__cdecl *PFN_FETCH_FUNC)(SWR_FETCH_CONTEXT& fetchInfo, simd16vertex& out);
#else
// typedef void(__cdecl *PFN_FETCH_FUNC)(SWR_FETCH_CONTEXT& fetchInfo, simdvertex& out);
#endif
std::vector<Type*> fsArgs;
// llvm5 is picky and does not take a void * type
fsArgs.push_back(PointerType::get(Gen_SWR_FETCH_CONTEXT(this), 0));
fsArgs.push_back(PointerType::get(Gen_SWR_FETCH_CONTEXT(this), 0));
#if USE_SIMD16_SHADERS
fsArgs.push_back(PointerType::get(Gen_simd16vertex(this), 0));
#else
fsArgs.push_back(PointerType::get(Gen_simdvertex(this), 0));
#endif
mFetchShaderTy = FunctionType::get(Type::getVoidTy(mContext), fsArgs, false);
mSimtFP32Ty = VectorType::get(mFP32Ty, mVWidth);
mSimtInt32Ty = VectorType::get(mInt32Ty, mVWidth);
mSimdVectorTy = ArrayType::get(mSimtFP32Ty, 4);
mSimdVectorInt32Ty = ArrayType::get(mSimtInt32Ty, 4);
#if USE_SIMD16_SHADERS
mSimd16FP32Ty = ArrayType::get(mSimtFP32Ty, 2);
mSimd16Int32Ty = ArrayType::get(mSimtInt32Ty, 2);
mSimd16VectorFP32Ty = ArrayType::get(mSimd16FP32Ty, 4);
mSimd16VectorInt32Ty = ArrayType::get(mSimd16Int32Ty, 4);
#endif
#if defined(_WIN32)
// explicitly instantiate used symbols from potentially staticly linked libs
sys::DynamicLibrary::AddSymbol("exp2f", &exp2f);
sys::DynamicLibrary::AddSymbol("log2f", &log2f);
sys::DynamicLibrary::AddSymbol("sinf", &sinf);
sys::DynamicLibrary::AddSymbol("cosf", &cosf);
sys::DynamicLibrary::AddSymbol("powf", &powf);
#endif
#if defined(_WIN32)
if (KNOB_DUMP_SHADER_IR)
{
CreateDirectoryPath(INTEL_OUTPUT_DIR);
CreateDirectoryPath(SWR_OUTPUT_DIR);
CreateDirectoryPath(JITTER_OUTPUT_DIR);
}
#endif
}
//////////////////////////////////////////////////////////////////////////
/// @brief Create new LLVM module.
void JitManager::SetupNewModule()
{
SWR_ASSERT(mIsModuleFinalized == true && "Current module is not finalized!");
std::unique_ptr<Module> newModule(new Module("", mContext));
mpCurrentModule = newModule.get();
#if defined(_WIN32)
// Needed for MCJIT on windows
Triple hostTriple(sys::getProcessTriple());
hostTriple.setObjectFormat(Triple::COFF);
newModule->setTargetTriple(hostTriple.getTriple());
#endif // _WIN32
mpExec->addModule(std::move(newModule));
mIsModuleFinalized = false;
}
DIType* JitManager::CreateDebugStructType(StructType* pType, const std::string& name, DIFile* pFile, uint32_t lineNum,
const std::vector<std::pair<std::string, uint32_t>>& members)
{
DIBuilder builder(*mpCurrentModule);
SmallVector<Metadata*, 8> ElemTypes;
DataLayout DL = DataLayout(mpCurrentModule);
uint32_t size = DL.getTypeAllocSizeInBits(pType);
uint32_t alignment = DL.getABITypeAlignment(pType);
DINode::DIFlags flags = DINode::DIFlags::FlagPublic;
DICompositeType* pDIStructTy = builder.createStructType(pFile, name, pFile, lineNum, size, alignment,
flags, nullptr, builder.getOrCreateArray(ElemTypes));
// Register mapping now to break loops (in case struct contains itself or pointers to itself)
mDebugStructMap[pType] = pDIStructTy;
uint32_t idx = 0;
for (auto& elem : pType->elements())
{
std::string name = members[idx].first;
uint32_t lineNum = members[idx].second;
size = DL.getTypeAllocSizeInBits(elem);
alignment = DL.getABITypeAlignment(elem);
uint32_t offset = DL.getStructLayout(pType)->getElementOffsetInBits(idx);
llvm::DIType* pDebugTy = GetDebugType(elem);
ElemTypes.push_back(builder.createMemberType(pDIStructTy, name, pFile, lineNum, size, alignment, offset, flags, pDebugTy));
idx++;
}
pDIStructTy->replaceElements(builder.getOrCreateArray(ElemTypes));
return pDIStructTy;
}
DIType* JitManager::GetDebugArrayType(Type* pTy)
{
DIBuilder builder(*mpCurrentModule);
DataLayout DL = DataLayout(mpCurrentModule);
ArrayType* pArrayTy = cast<ArrayType>(pTy);
uint32_t size = DL.getTypeAllocSizeInBits(pArrayTy);
uint32_t alignment = DL.getABITypeAlignment(pArrayTy);
SmallVector<Metadata*, 8> Elems;
Elems.push_back(builder.getOrCreateSubrange(0, pArrayTy->getNumElements()));
return builder.createArrayType(size, alignment, GetDebugType(pArrayTy->getElementType()), builder.getOrCreateArray(Elems));
}
// Create a DIType from llvm Type
DIType* JitManager::GetDebugType(Type* pTy)
{
DIBuilder builder(*mpCurrentModule);
Type::TypeID id = pTy->getTypeID();
switch (id)
{
case Type::VoidTyID: return builder.createUnspecifiedType("void"); break;
case Type::HalfTyID: return builder.createBasicType("float16", 16, dwarf::DW_ATE_float); break;
case Type::FloatTyID: return builder.createBasicType("float", 32, dwarf::DW_ATE_float); break;
case Type::DoubleTyID: return builder.createBasicType("double", 64, dwarf::DW_ATE_float); break;
case Type::IntegerTyID: return GetDebugIntegerType(pTy); break;
case Type::StructTyID: return GetDebugStructType(pTy); break;
case Type::ArrayTyID: return GetDebugArrayType(pTy); break;
case Type::PointerTyID: return builder.createPointerType(GetDebugType(pTy->getPointerElementType()), 64, 64); break;
case Type::VectorTyID: return GetDebugVectorType(pTy); break;
case Type::FunctionTyID: return GetDebugFunctionType(pTy); break;
default: SWR_ASSERT(false, "Unimplemented llvm type");
}
return nullptr;
}
// Create a DISubroutineType from an llvm FunctionType
DIType* JitManager::GetDebugFunctionType(Type* pTy)
{
SmallVector<Metadata*, 8> ElemTypes;
FunctionType* pFuncTy = cast<FunctionType>(pTy);
DIBuilder builder(*mpCurrentModule);
// Add result type
ElemTypes.push_back(GetDebugType(pFuncTy->getReturnType()));
// Add arguments
for (auto& param : pFuncTy->params())
{
ElemTypes.push_back(GetDebugType(param));
}
return builder.createSubroutineType(builder.getOrCreateTypeArray(ElemTypes));
}
DIType* JitManager::GetDebugIntegerType(Type* pTy)
{
DIBuilder builder(*mpCurrentModule);
IntegerType* pIntTy = cast<IntegerType>(pTy);
switch (pIntTy->getBitWidth())
{
case 1: return builder.createBasicType("int1", 1, dwarf::DW_ATE_unsigned); break;
case 8: return builder.createBasicType("int8", 8, dwarf::DW_ATE_signed); break;
case 16: return builder.createBasicType("int16", 16, dwarf::DW_ATE_signed); break;
case 32: return builder.createBasicType("int", 32, dwarf::DW_ATE_signed); break;
case 64: return builder.createBasicType("int64", 64, dwarf::DW_ATE_signed); break;
default: SWR_ASSERT(false, "Unimplemented integer bit width");
}
return nullptr;
}
DIType* JitManager::GetDebugVectorType(Type* pTy)
{
DIBuilder builder(*mpCurrentModule);
VectorType* pVecTy = cast<VectorType>(pTy);
DataLayout DL = DataLayout(mpCurrentModule);
uint32_t size = DL.getTypeAllocSizeInBits(pVecTy);
uint32_t alignment = DL.getABITypeAlignment(pVecTy);
SmallVector<Metadata*, 1> Elems;
Elems.push_back(builder.getOrCreateSubrange(0, pVecTy->getVectorNumElements()));
return builder.createVectorType(size, alignment, GetDebugType(pVecTy->getVectorElementType()), builder.getOrCreateArray(Elems));
}
//////////////////////////////////////////////////////////////////////////
/// @brief Dump function x86 assembly to file.
/// @note This should only be called after the module has been jitted to x86 and the
/// module will not be further accessed.
void JitManager::DumpAsm(Function* pFunction, const char* fileName)
{
if (KNOB_DUMP_SHADER_IR)
{
#if defined(_WIN32)
DWORD pid = GetCurrentProcessId();
char procname[MAX_PATH];
GetModuleFileNameA(NULL, procname, MAX_PATH);
const char* pBaseName = strrchr(procname, '\\');
std::stringstream outDir;
outDir << JITTER_OUTPUT_DIR << pBaseName << "_" << pid << std::ends;
CreateDirectoryPath(outDir.str().c_str());
#endif
std::error_code EC;
Module* pModule = pFunction->getParent();
const char *funcName = pFunction->getName().data();
char fName[256];
#if defined(_WIN32)
sprintf(fName, "%s\\%s.%s.asm", outDir.str().c_str(), funcName, fileName);
#else
sprintf(fName, "%s.%s.asm", funcName, fileName);
#endif
raw_fd_ostream filestream(fName, EC, llvm::sys::fs::F_None);
legacy::PassManager* pMPasses = new legacy::PassManager();
auto* pTarget = mpExec->getTargetMachine();
pTarget->Options.MCOptions.AsmVerbose = true;
pTarget->addPassesToEmitFile(*pMPasses, filestream, TargetMachine::CGFT_AssemblyFile);
pMPasses->run(*pModule);
delete pMPasses;
pTarget->Options.MCOptions.AsmVerbose = false;
}
}
std::string JitManager::GetOutputDir()
{
#if defined(_WIN32)
DWORD pid = GetCurrentProcessId();
char procname[MAX_PATH];
GetModuleFileNameA(NULL, procname, MAX_PATH);
const char* pBaseName = strrchr(procname, '\\');
std::stringstream outDir;
outDir << JITTER_OUTPUT_DIR << pBaseName << "_" << pid;
CreateDirectoryPath(outDir.str().c_str());
return outDir.str();
#endif
return "";
}
//////////////////////////////////////////////////////////////////////////
/// @brief Dump function to file.
void JitManager::DumpToFile(Module *M, const char *fileName)
{
if (KNOB_DUMP_SHADER_IR)
{
std::string outDir = GetOutputDir();
std::error_code EC;
const char *funcName = M->getName().data();
char fName[256];
#if defined(_WIN32)
sprintf(fName, "%s\\%s.%s.ll", outDir.c_str(), funcName, fileName);
#else
sprintf(fName, "%s.%s.ll", funcName, fileName);
#endif
raw_fd_ostream fd(fName, EC, llvm::sys::fs::F_None);
M->print(fd, nullptr);
fd.flush();
}
}
//////////////////////////////////////////////////////////////////////////
/// @brief Dump function to file.
void JitManager::DumpToFile(Function *f, const char *fileName)
{
if (KNOB_DUMP_SHADER_IR)
{
std::string outDir = GetOutputDir();
std::error_code EC;
const char *funcName = f->getName().data();
char fName[256];
#if defined(_WIN32)
sprintf(fName, "%s\\%s.%s.ll", outDir.c_str(), funcName, fileName);
#else
sprintf(fName, "%s.%s.ll", funcName, fileName);
#endif
raw_fd_ostream fd(fName, EC, llvm::sys::fs::F_None);
Module* pModule = f->getParent();
pModule->print(fd, nullptr);
#if defined(_WIN32)
sprintf(fName, "%s\\cfg.%s.%s.dot", outDir.c_str(), funcName, fileName);
#else
sprintf(fName, "cfg.%s.%s.dot", funcName, fileName);
#endif
fd.flush();
raw_fd_ostream fd_cfg(fName, EC, llvm::sys::fs::F_Text);
WriteGraph(fd_cfg, (const Function*)f);
fd_cfg.flush();
}
}
extern "C"
{
bool g_DllActive = true;
//////////////////////////////////////////////////////////////////////////
/// @brief Create JIT context.
/// @param simdWidth - SIMD width to be used in generated program.
HANDLE JITCALL JitCreateContext(uint32_t targetSimdWidth, const char* arch, const char* core)
{
return new JitManager(targetSimdWidth, arch, core);
}
//////////////////////////////////////////////////////////////////////////
/// @brief Destroy JIT context.
void JITCALL JitDestroyContext(HANDLE hJitContext)
{
if (g_DllActive)
{
delete reinterpret_cast<JitManager*>(hJitContext);
}
}
}
//////////////////////////////////////////////////////////////////////////
/// JitCache
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
/// JitCacheFileHeader
//////////////////////////////////////////////////////////////////////////
struct JitCacheFileHeader
{
void Init(
uint32_t llCRC,
uint32_t objCRC,
const std::string& moduleID,
const std::string& cpu,
uint32_t optLevel,
uint64_t objSize)
{
m_objSize = objSize;
m_llCRC = llCRC;
m_objCRC = objCRC;
strncpy(m_ModuleID, moduleID.c_str(), JC_STR_MAX_LEN - 1);
m_ModuleID[JC_STR_MAX_LEN - 1] = 0;
strncpy(m_Cpu, cpu.c_str(), JC_STR_MAX_LEN - 1);
m_Cpu[JC_STR_MAX_LEN - 1] = 0;
m_optLevel = optLevel;
}
#if defined(ENABLE_JIT_DEBUG)
void Init(
uint32_t llCRC,
uint32_t objCRC,
const std::string& moduleID,
const std::string& cpu,
uint32_t optLevel,
uint64_t objSize,
uint32_t modCRC,
uint64_t modSize)
{
Init(llCRC, objCRC, moduleID, cpu, optLevel, objSize);
m_modCRC = modCRC;
m_modSize = modSize;
}
void Init(
uint32_t modCRC,
uint64_t modSize)
{
m_modCRC = modCRC;
m_modSize = modSize;
}
#endif
bool IsValid(uint32_t llCRC, const std::string& moduleID, const std::string& cpu, uint32_t optLevel)
{
if ((m_MagicNumber != JC_MAGIC_NUMBER) ||
(m_llCRC != llCRC) ||
(m_platformKey != JC_PLATFORM_KEY) ||
(m_optLevel != optLevel))
{
return false;
}
m_ModuleID[JC_STR_MAX_LEN - 1] = 0;
if (strncmp(moduleID.c_str(), m_ModuleID, JC_STR_MAX_LEN - 1))
{
return false;
}
m_Cpu[JC_STR_MAX_LEN - 1] = 0;
if (strncmp(cpu.c_str(), m_Cpu, JC_STR_MAX_LEN - 1))
{
return false;
}
return true;
}
uint64_t GetObjectSize() const { return m_objSize; }
uint64_t GetObjectCRC() const { return m_objCRC; }
#if defined(ENABLE_JIT_DEBUG)
uint64_t GetSharedModuleSize() const { return m_modSize; }
uint64_t GetSharedModuleCRC() const { return m_modCRC; }
#endif
private:
static const uint64_t JC_MAGIC_NUMBER = 0xfedcba9876543211ULL + 3;
static const size_t JC_STR_MAX_LEN = 32;
static const uint32_t JC_PLATFORM_KEY =
(LLVM_VERSION_MAJOR << 24) |
(LLVM_VERSION_MINOR << 16) |
(LLVM_VERSION_PATCH << 8) |
((sizeof(void*) > sizeof(uint32_t)) ? 1 : 0);
uint64_t m_MagicNumber = JC_MAGIC_NUMBER;
uint64_t m_objSize = 0;
uint32_t m_llCRC = 0;
uint32_t m_platformKey = JC_PLATFORM_KEY;
uint32_t m_objCRC = 0;
uint32_t m_optLevel = 0;
char m_ModuleID[JC_STR_MAX_LEN] = {};
char m_Cpu[JC_STR_MAX_LEN] = {};
#if defined(ENABLE_JIT_DEBUG)
uint32_t m_modCRC = 0;
uint64_t m_modSize = 0;
#endif
};
static inline uint32_t ComputeModuleCRC(const llvm::Module* M)
{
std::string bitcodeBuffer;
raw_string_ostream bitcodeStream(bitcodeBuffer);
llvm::WriteBitcodeToFile(M, bitcodeStream);
//M->print(bitcodeStream, nullptr, false);
bitcodeStream.flush();
return ComputeCRC(0, bitcodeBuffer.data(), bitcodeBuffer.size());
}
/// constructor
JitCache::JitCache()
{
#if defined(__APPLE) || defined(FORCE_LINUX) || defined(__linux__) || defined(__gnu_linux__)
if (strncmp(KNOB_JIT_CACHE_DIR.c_str(), "~/", 2) == 0) {
char *homedir;
if (!(homedir = getenv("HOME"))) {
homedir = getpwuid(getuid())->pw_dir;
}
mCacheDir = homedir;
mCacheDir += (KNOB_JIT_CACHE_DIR.c_str() + 1);
} else
#endif
{
mCacheDir = KNOB_JIT_CACHE_DIR;
}
}
#if defined(_WIN32)
int ExecUnhookedProcess(const char* pCmdLine)
{
static const char *g_pEnv = "RASTY_DISABLE_HOOK=1\0";
STARTUPINFOA StartupInfo{};
StartupInfo.cb = sizeof(STARTUPINFOA);
PROCESS_INFORMATION procInfo{};
BOOL ProcessValue = CreateProcessA(
NULL,
(LPSTR)pCmdLine,
NULL,
NULL,
TRUE,
0,
(LPVOID)g_pEnv,
NULL,
&StartupInfo,
&procInfo);
if (ProcessValue && procInfo.hProcess)
{
WaitForSingleObject(procInfo.hProcess, INFINITE);
DWORD exitVal = 0;
if (!GetExitCodeProcess(procInfo.hProcess, &exitVal))
{
exitVal = 1;
}
CloseHandle(procInfo.hProcess);
return exitVal;
}
return -1;
}
#endif
#if defined(_WIN64) && defined(ENABLE_JIT_DEBUG) && defined(JIT_BASE_DIR)
EXTERN_C IMAGE_DOS_HEADER __ImageBase;
static __inline HINSTANCE GetModuleHINSTANCE() { return (HINSTANCE)&__ImageBase; }
#endif
/// notifyObjectCompiled - Provides a pointer to compiled code for Module M.
void JitCache::notifyObjectCompiled(const llvm::Module *M, llvm::MemoryBufferRef Obj)
{
const std::string& moduleID = M->getModuleIdentifier();
if (!moduleID.length())
{
return;
}
if (!llvm::sys::fs::exists(mCacheDir.str()) &&
llvm::sys::fs::create_directories(mCacheDir.str()))
{
SWR_INVALID("Unable to create directory: %s", mCacheDir.c_str());
return;
}
JitCacheFileHeader header;
llvm::SmallString<MAX_PATH> filePath = mCacheDir;
llvm::sys::path::append(filePath, moduleID);
llvm::SmallString<MAX_PATH> objPath = filePath;
objPath += JIT_OBJ_EXT;
{
std::error_code err;
llvm::raw_fd_ostream fileObj(objPath.c_str(), err, llvm::sys::fs::F_None);
fileObj << Obj.getBuffer();
fileObj.flush();
}
{
std::error_code err;
llvm::raw_fd_ostream fileObj(filePath.c_str(), err, llvm::sys::fs::F_None);
uint32_t objcrc = ComputeCRC(0, Obj.getBufferStart(), Obj.getBufferSize());
header.Init(mCurrentModuleCRC, objcrc, moduleID, mCpu, mOptLevel, Obj.getBufferSize());
fileObj.write((const char*)&header, sizeof(header));
fileObj.flush();
}
}
/// Returns a pointer to a newly allocated MemoryBuffer that contains the
/// object which corresponds with Module M, or 0 if an object is not
/// available.
std::unique_ptr<llvm::MemoryBuffer> JitCache::getObject(const llvm::Module* M)
{
const std::string& moduleID = M->getModuleIdentifier();
mCurrentModuleCRC = ComputeModuleCRC(M);
if (!moduleID.length())
{
return nullptr;
}
if (!llvm::sys::fs::exists(mCacheDir))
{
return nullptr;
}
llvm::SmallString<MAX_PATH> filePath = mCacheDir;
llvm::sys::path::append(filePath, moduleID);
llvm::SmallString<MAX_PATH> objFilePath = filePath;
objFilePath += JIT_OBJ_EXT;
#if defined(ENABLE_JIT_DEBUG)
FILE* fpModuleIn = nullptr;
#endif
FILE* fpObjIn = nullptr;
FILE* fpIn = fopen(filePath.c_str(), "rb");
if (!fpIn)
{
return nullptr;
}
std::unique_ptr<llvm::MemoryBuffer> pBuf = nullptr;
do
{
JitCacheFileHeader header;
if (!fread(&header, sizeof(header), 1, fpIn))
{
break;
}
if (!header.IsValid(mCurrentModuleCRC, moduleID, mCpu, mOptLevel))
{
break;
}
fpObjIn = fopen(objFilePath.c_str(), "rb");
if (!fpObjIn)
{
break;
}
#if LLVM_VERSION_MAJOR < 6
pBuf = llvm::MemoryBuffer::getNewUninitMemBuffer(size_t(header.GetObjectSize()));
#else
pBuf = llvm::WritableMemoryBuffer::getNewUninitMemBuffer(size_t(header.GetObjectSize()));
#endif
if (!fread(const_cast<char*>(pBuf->getBufferStart()), header.GetObjectSize(), 1, fpObjIn))
{
pBuf = nullptr;
break;
}
if (header.GetObjectCRC() != ComputeCRC(0, pBuf->getBufferStart(), pBuf->getBufferSize()))
{
SWR_TRACE("Invalid object cache file, ignoring: %s", filePath.c_str());
pBuf = nullptr;
break;
}
}
while (0);
fclose(fpIn);
if (fpObjIn)
{
fclose(fpObjIn);
}
#if defined(ENABLE_JIT_DEBUG)
if (fpModuleIn)
{
fclose(fpModuleIn);
}
#endif
return pBuf;
}
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