Ejemplo n.º 1
0
static Error ReduceInsts(BugDriver &BD,
                        bool (*TestFn)(const BugDriver &, Module *)) {
  // Attempt to delete instructions using bisection. This should help out nasty
  // cases with large basic blocks where the problem is at one end.
  if (!BugpointIsInterrupted) {
    std::vector<const Instruction *> Insts;
    for (const Function &F : *BD.getProgram())
      for (const BasicBlock &BB : F)
        for (const Instruction &I : BB)
          if (!isa<TerminatorInst>(&I))
            Insts.push_back(&I);

    Expected<bool> Result =
        ReduceCrashingInstructions(BD, TestFn).reduceList(Insts);
    if (Error E = Result.takeError())
      return E;
  }

  unsigned Simplification = 2;
  do {
    if (BugpointIsInterrupted)
      // TODO: Should we distinguish this with an "interrupted error"?
      return Error::success();
    --Simplification;
    outs() << "\n*** Attempting to reduce testcase by deleting instruc"
           << "tions: Simplification Level #" << Simplification << '\n';

    // Now that we have deleted the functions that are unnecessary for the
    // program, try to remove instructions that are not necessary to cause the
    // crash.  To do this, we loop through all of the instructions in the
    // remaining functions, deleting them (replacing any values produced with
    // nulls), and then running ADCE and SimplifyCFG.  If the transformed input
    // still triggers failure, keep deleting until we cannot trigger failure
    // anymore.
    //
    unsigned InstructionsToSkipBeforeDeleting = 0;
  TryAgain:

    // Loop over all of the (non-terminator) instructions remaining in the
    // function, attempting to delete them.
    unsigned CurInstructionNum = 0;
    for (Module::const_iterator FI = BD.getProgram()->begin(),
                                E = BD.getProgram()->end();
         FI != E; ++FI)
      if (!FI->isDeclaration())
        for (Function::const_iterator BI = FI->begin(), E = FI->end(); BI != E;
             ++BI)
          for (BasicBlock::const_iterator I = BI->begin(), E = --BI->end();
               I != E; ++I, ++CurInstructionNum) {
            if (InstructionsToSkipBeforeDeleting) {
              --InstructionsToSkipBeforeDeleting;
            } else {
              if (BugpointIsInterrupted)
                // TODO: Should this be some kind of interrupted error?
                return Error::success();

              if (I->isEHPad() || I->getType()->isTokenTy())
                continue;

              outs() << "Checking instruction: " << *I;
              std::unique_ptr<Module> M =
                  BD.deleteInstructionFromProgram(&*I, Simplification);

              // Find out if the pass still crashes on this pass...
              if (TestFn(BD, M.get())) {
                // Yup, it does, we delete the old module, and continue trying
                // to reduce the testcase...
                BD.setNewProgram(M.release());
                InstructionsToSkipBeforeDeleting = CurInstructionNum;
                goto TryAgain; // I wish I had a multi-level break here!
              }
            }
          }

    if (InstructionsToSkipBeforeDeleting) {
      InstructionsToSkipBeforeDeleting = 0;
      goto TryAgain;
    }

  } while (Simplification);
  BD.EmitProgressBitcode(BD.getProgram(), "reduced-instructions");
  return Error::success();
}
Ejemplo n.º 2
0
/// DebugACrash - Given a predicate that determines whether a component crashes
/// on a program, try to destructively reduce the program while still keeping
/// the predicate true.
static bool DebugACrash(BugDriver &BD,
                        bool (*TestFn)(const BugDriver &, Module *),
                        std::string &Error) {
  // See if we can get away with nuking some of the global variable initializers
  // in the program...
  if (!NoGlobalRM &&
      BD.getProgram()->global_begin() != BD.getProgram()->global_end()) {
    // Now try to reduce the number of global variable initializers in the
    // module to something small.
    Module *M = CloneModule(BD.getProgram()).release();
    bool DeletedInit = false;

    for (Module::global_iterator I = M->global_begin(), E = M->global_end();
         I != E; ++I)
      if (I->hasInitializer()) {
        DeleteGlobalInitializer(&*I);
        I->setLinkage(GlobalValue::ExternalLinkage);
        DeletedInit = true;
      }

    if (!DeletedInit) {
      delete M;  // No change made...
    } else {
      // See if the program still causes a crash...
      outs() << "\nChecking to see if we can delete global inits: ";

      if (TestFn(BD, M)) {      // Still crashes?
        BD.setNewProgram(M);
        outs() << "\n*** Able to remove all global initializers!\n";
      } else {                  // No longer crashes?
        outs() << "  - Removing all global inits hides problem!\n";
        delete M;

        std::vector<GlobalVariable*> GVs;

        for (Module::global_iterator I = BD.getProgram()->global_begin(),
               E = BD.getProgram()->global_end(); I != E; ++I)
          if (I->hasInitializer())
            GVs.push_back(&*I);

        if (GVs.size() > 1 && !BugpointIsInterrupted) {
          outs() << "\n*** Attempting to reduce the number of global "
                    << "variables in the testcase\n";

          unsigned OldSize = GVs.size();
          ReduceCrashingGlobalVariables(BD, TestFn).reduceList(GVs, Error);
          if (!Error.empty())
            return true;

          if (GVs.size() < OldSize)
            BD.EmitProgressBitcode(BD.getProgram(), "reduced-global-variables");
        }
      }
    }
  }

  // Now try to reduce the number of functions in the module to something small.
  std::vector<Function*> Functions;
  for (Function &F : *BD.getProgram())
    if (!F.isDeclaration())
      Functions.push_back(&F);

  if (Functions.size() > 1 && !BugpointIsInterrupted) {
    outs() << "\n*** Attempting to reduce the number of functions "
      "in the testcase\n";

    unsigned OldSize = Functions.size();
    ReduceCrashingFunctions(BD, TestFn).reduceList(Functions, Error);

    if (Functions.size() < OldSize)
      BD.EmitProgressBitcode(BD.getProgram(), "reduced-function");
  }

  // Attempt to delete entire basic blocks at a time to speed up
  // convergence... this actually works by setting the terminator of the blocks
  // to a return instruction then running simplifycfg, which can potentially
  // shrinks the code dramatically quickly
  //
  if (!DisableSimplifyCFG && !BugpointIsInterrupted) {
    std::vector<const BasicBlock*> Blocks;
    for (Function &F : *BD.getProgram())
      for (BasicBlock &BB : F)
        Blocks.push_back(&BB);
    unsigned OldSize = Blocks.size();
    ReduceCrashingBlocks(BD, TestFn).reduceList(Blocks, Error);
    if (Blocks.size() < OldSize)
      BD.EmitProgressBitcode(BD.getProgram(), "reduced-blocks");
  }

  // Attempt to delete instructions using bisection. This should help out nasty
  // cases with large basic blocks where the problem is at one end.
  if (!BugpointIsInterrupted) {
    std::vector<const Instruction*> Insts;
    for (const Function &F : *BD.getProgram())
      for (const BasicBlock &BB : F)
        for (const Instruction &I : BB)
          if (!isa<TerminatorInst>(&I))
            Insts.push_back(&I);

    ReduceCrashingInstructions(BD, TestFn).reduceList(Insts, Error);
  }

  // FIXME: This should use the list reducer to converge faster by deleting
  // larger chunks of instructions at a time!
  unsigned Simplification = 2;
  do {
    if (BugpointIsInterrupted) break;
    --Simplification;
    outs() << "\n*** Attempting to reduce testcase by deleting instruc"
           << "tions: Simplification Level #" << Simplification << '\n';

    // Now that we have deleted the functions that are unnecessary for the
    // program, try to remove instructions that are not necessary to cause the
    // crash.  To do this, we loop through all of the instructions in the
    // remaining functions, deleting them (replacing any values produced with
    // nulls), and then running ADCE and SimplifyCFG.  If the transformed input
    // still triggers failure, keep deleting until we cannot trigger failure
    // anymore.
    //
    unsigned InstructionsToSkipBeforeDeleting = 0;
  TryAgain:

    // Loop over all of the (non-terminator) instructions remaining in the
    // function, attempting to delete them.
    unsigned CurInstructionNum = 0;
    for (Module::const_iterator FI = BD.getProgram()->begin(),
           E = BD.getProgram()->end(); FI != E; ++FI)
      if (!FI->isDeclaration())
        for (Function::const_iterator BI = FI->begin(), E = FI->end(); BI != E;
             ++BI)
          for (BasicBlock::const_iterator I = BI->begin(), E = --BI->end();
               I != E; ++I, ++CurInstructionNum) {
            if (InstructionsToSkipBeforeDeleting) {
              --InstructionsToSkipBeforeDeleting;
            } else {
              if (BugpointIsInterrupted) goto ExitLoops;

              if (I->isEHPad() || I->getType()->isTokenTy())
                continue;

              outs() << "Checking instruction: " << *I;
              std::unique_ptr<Module> M =
                  BD.deleteInstructionFromProgram(&*I, Simplification);

              // Find out if the pass still crashes on this pass...
              if (TestFn(BD, M.get())) {
                // Yup, it does, we delete the old module, and continue trying
                // to reduce the testcase...
                BD.setNewProgram(M.release());
                InstructionsToSkipBeforeDeleting = CurInstructionNum;
                goto TryAgain;  // I wish I had a multi-level break here!
              }
            }
          }

    if (InstructionsToSkipBeforeDeleting) {
      InstructionsToSkipBeforeDeleting = 0;
      goto TryAgain;
    }

  } while (Simplification);

  if (!NoNamedMDRM) {
    BD.EmitProgressBitcode(BD.getProgram(), "reduced-instructions");

    if (!BugpointIsInterrupted) {
      // Try to reduce the amount of global metadata (particularly debug info),
      // by dropping global named metadata that anchors them
      outs() << "\n*** Attempting to remove named metadata: ";
      std::vector<std::string> NamedMDNames;
      for (auto &NamedMD : BD.getProgram()->named_metadata())
        NamedMDNames.push_back(NamedMD.getName().str());
      ReduceCrashingNamedMD(BD, TestFn).reduceList(NamedMDNames, Error);
    }

    if (!BugpointIsInterrupted) {
      // Now that we quickly dropped all the named metadata that doesn't
      // contribute to the crash, bisect the operands of the remaining ones
      std::vector<const MDNode *> NamedMDOps;
      for (auto &NamedMD : BD.getProgram()->named_metadata())
        for (auto op : NamedMD.operands())
          NamedMDOps.push_back(op);
      ReduceCrashingNamedMDOps(BD, TestFn).reduceList(NamedMDOps, Error);
    }
  }

ExitLoops:

  // Try to clean up the testcase by running funcresolve and globaldce...
  if (!BugpointIsInterrupted) {
    outs() << "\n*** Attempting to perform final cleanups: ";
    Module *M = CloneModule(BD.getProgram()).release();
    M = BD.performFinalCleanups(M, true).release();

    // Find out if the pass still crashes on the cleaned up program...
    if (TestFn(BD, M)) {
      BD.setNewProgram(M);     // Yup, it does, keep the reduced version...
    } else {
      delete M;
    }
  }

  BD.EmitProgressBitcode(BD.getProgram(), "reduced-simplified");

  return false;
}