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to reflect the new license. We understand that people may be surprised that we're moving the header entirely to discuss the new license. We checked this carefully with the Foundation's lawyer and we believe this is the correct approach. Essentially, all code in the project is now made available by the LLVM project under our new license, so you will see that the license headers include that license only. Some of our contributors have contributed code under our old license, and accordingly, we have retained a copy of our old license notice in the top-level files in each project and repository. llvm-svn: 351636
250 lines
7.2 KiB
C++
250 lines
7.2 KiB
C++
//===--- llvm-opt-fuzzer.cpp - Fuzzer for instruction selection ----------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// Tool to fuzz optimization passes using libFuzzer.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Bitcode/BitcodeReader.h"
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#include "llvm/Bitcode/BitcodeWriter.h"
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#include "llvm/CodeGen/CommandFlags.inc"
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#include "llvm/FuzzMutate/FuzzerCLI.h"
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#include "llvm/FuzzMutate/IRMutator.h"
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#include "llvm/IR/Verifier.h"
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#include "llvm/Passes/PassBuilder.h"
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#include "llvm/Support/SourceMgr.h"
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#include "llvm/Support/TargetRegistry.h"
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#include "llvm/Support/TargetSelect.h"
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using namespace llvm;
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static cl::opt<std::string>
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TargetTripleStr("mtriple", cl::desc("Override target triple for module"));
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// Passes to run for this fuzzer instance. Expects new pass manager syntax.
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static cl::opt<std::string> PassPipeline(
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"passes",
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cl::desc("A textual description of the pass pipeline for testing"));
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static std::unique_ptr<IRMutator> Mutator;
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static std::unique_ptr<TargetMachine> TM;
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std::unique_ptr<IRMutator> createOptMutator() {
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std::vector<TypeGetter> Types{
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Type::getInt1Ty, Type::getInt8Ty, Type::getInt16Ty, Type::getInt32Ty,
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Type::getInt64Ty, Type::getFloatTy, Type::getDoubleTy};
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std::vector<std::unique_ptr<IRMutationStrategy>> Strategies;
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Strategies.push_back(
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llvm::make_unique<InjectorIRStrategy>(
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InjectorIRStrategy::getDefaultOps()));
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Strategies.push_back(
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llvm::make_unique<InstDeleterIRStrategy>());
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return llvm::make_unique<IRMutator>(std::move(Types), std::move(Strategies));
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}
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extern "C" LLVM_ATTRIBUTE_USED size_t LLVMFuzzerCustomMutator(
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uint8_t *Data, size_t Size, size_t MaxSize, unsigned int Seed) {
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assert(Mutator &&
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"IR mutator should have been created during fuzzer initialization");
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LLVMContext Context;
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auto M = parseAndVerify(Data, Size, Context);
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if (!M) {
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errs() << "error: mutator input module is broken!\n";
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return 0;
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}
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Mutator->mutateModule(*M, Seed, Size, MaxSize);
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if (verifyModule(*M, &errs())) {
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errs() << "mutation result doesn't pass verification\n";
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#ifndef NDEBUG
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M->dump();
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#endif
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// Avoid adding incorrect test cases to the corpus.
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return 0;
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}
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std::string Buf;
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{
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raw_string_ostream OS(Buf);
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WriteBitcodeToFile(*M, OS);
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}
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if (Buf.size() > MaxSize)
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return 0;
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// There are some invariants which are not checked by the verifier in favor
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// of having them checked by the parser. They may be considered as bugs in the
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// verifier and should be fixed there. However until all of those are covered
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// we want to check for them explicitly. Otherwise we will add incorrect input
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// to the corpus and this is going to confuse the fuzzer which will start
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// exploration of the bitcode reader error handling code.
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auto NewM = parseAndVerify(
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reinterpret_cast<const uint8_t*>(Buf.data()), Buf.size(), Context);
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if (!NewM) {
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errs() << "mutator failed to re-read the module\n";
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#ifndef NDEBUG
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M->dump();
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#endif
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return 0;
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}
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memcpy(Data, Buf.data(), Buf.size());
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return Buf.size();
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}
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extern "C" int LLVMFuzzerTestOneInput(const uint8_t *Data, size_t Size) {
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assert(TM && "Should have been created during fuzzer initialization");
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if (Size <= 1)
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// We get bogus data given an empty corpus - ignore it.
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return 0;
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// Parse module
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//
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LLVMContext Context;
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auto M = parseAndVerify(Data, Size, Context);
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if (!M) {
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errs() << "error: input module is broken!\n";
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return 0;
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}
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// Set up target dependant options
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//
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M->setTargetTriple(TM->getTargetTriple().normalize());
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M->setDataLayout(TM->createDataLayout());
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setFunctionAttributes(TM->getTargetCPU(), TM->getTargetFeatureString(), *M);
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// Create pass pipeline
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//
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PassBuilder PB(TM.get());
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LoopAnalysisManager LAM;
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FunctionAnalysisManager FAM;
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CGSCCAnalysisManager CGAM;
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ModulePassManager MPM;
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ModuleAnalysisManager MAM;
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FAM.registerPass([&] { return PB.buildDefaultAAPipeline(); });
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PB.registerModuleAnalyses(MAM);
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PB.registerCGSCCAnalyses(CGAM);
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PB.registerFunctionAnalyses(FAM);
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PB.registerLoopAnalyses(LAM);
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PB.crossRegisterProxies(LAM, FAM, CGAM, MAM);
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auto Err = PB.parsePassPipeline(MPM, PassPipeline, false, false);
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assert(!Err && "Should have been checked during fuzzer initialization");
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// Only fail with assert above, otherwise ignore the parsing error.
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consumeError(std::move(Err));
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// Run passes which we need to test
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//
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MPM.run(*M, MAM);
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// Check that passes resulted in a correct code
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if (verifyModule(*M, &errs())) {
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errs() << "Transformation resulted in an invalid module\n";
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abort();
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}
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return 0;
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}
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static void handleLLVMFatalError(void *, const std::string &Message, bool) {
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// TODO: Would it be better to call into the fuzzer internals directly?
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dbgs() << "LLVM ERROR: " << Message << "\n"
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<< "Aborting to trigger fuzzer exit handling.\n";
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abort();
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}
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extern "C" LLVM_ATTRIBUTE_USED int LLVMFuzzerInitialize(
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int *argc, char ***argv) {
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EnableDebugBuffering = true;
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// Make sure we print the summary and the current unit when LLVM errors out.
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install_fatal_error_handler(handleLLVMFatalError, nullptr);
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// Initialize llvm
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//
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InitializeAllTargets();
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InitializeAllTargetMCs();
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PassRegistry &Registry = *PassRegistry::getPassRegistry();
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initializeCore(Registry);
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initializeCoroutines(Registry);
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initializeScalarOpts(Registry);
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initializeObjCARCOpts(Registry);
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initializeVectorization(Registry);
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initializeIPO(Registry);
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initializeAnalysis(Registry);
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initializeTransformUtils(Registry);
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initializeInstCombine(Registry);
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initializeAggressiveInstCombine(Registry);
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initializeInstrumentation(Registry);
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initializeTarget(Registry);
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// Parse input options
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//
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handleExecNameEncodedOptimizerOpts(*argv[0]);
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parseFuzzerCLOpts(*argc, *argv);
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// Create TargetMachine
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//
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if (TargetTripleStr.empty()) {
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errs() << *argv[0] << ": -mtriple must be specified\n";
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exit(1);
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}
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Triple TargetTriple = Triple(Triple::normalize(TargetTripleStr));
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std::string Error;
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const Target *TheTarget =
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TargetRegistry::lookupTarget(MArch, TargetTriple, Error);
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if (!TheTarget) {
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errs() << *argv[0] << ": " << Error;
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exit(1);
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}
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TargetOptions Options = InitTargetOptionsFromCodeGenFlags();
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TM.reset(TheTarget->createTargetMachine(
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TargetTriple.getTriple(), getCPUStr(), getFeaturesStr(),
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Options, getRelocModel(), getCodeModel(), CodeGenOpt::Default));
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assert(TM && "Could not allocate target machine!");
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// Check that pass pipeline is specified and correct
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//
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if (PassPipeline.empty()) {
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errs() << *argv[0] << ": at least one pass should be specified\n";
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exit(1);
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}
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PassBuilder PB(TM.get());
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ModulePassManager MPM;
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if (auto Err = PB.parsePassPipeline(MPM, PassPipeline, false, false)) {
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errs() << *argv[0] << ": " << toString(std::move(Err)) << "\n";
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exit(1);
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}
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// Create mutator
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//
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Mutator = createOptMutator();
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return 0;
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}
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