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      1 //===- CrashDebugger.cpp - Debug compilation crashes ----------------------===//
      2 //
      3 //                     The LLVM Compiler Infrastructure
      4 //
      5 // This file is distributed under the University of Illinois Open Source
      6 // License. See LICENSE.TXT for details.
      7 //
      8 //===----------------------------------------------------------------------===//
      9 //
     10 // This file defines the bugpoint internals that narrow down compilation crashes
     11 //
     12 //===----------------------------------------------------------------------===//
     13 
     14 #include "BugDriver.h"
     15 #include "ListReducer.h"
     16 #include "ToolRunner.h"
     17 #include "llvm/ADT/SmallPtrSet.h"
     18 #include "llvm/IR/CFG.h"
     19 #include "llvm/IR/Constants.h"
     20 #include "llvm/IR/DerivedTypes.h"
     21 #include "llvm/IR/Instructions.h"
     22 #include "llvm/IR/Module.h"
     23 #include "llvm/IR/ValueSymbolTable.h"
     24 #include "llvm/IR/Verifier.h"
     25 #include "llvm/Pass.h"
     26 #include "llvm/PassManager.h"
     27 #include "llvm/Support/CommandLine.h"
     28 #include "llvm/Support/FileUtilities.h"
     29 #include "llvm/Transforms/Scalar.h"
     30 #include "llvm/Transforms/Utils/Cloning.h"
     31 #include <set>
     32 using namespace llvm;
     33 
     34 namespace {
     35   cl::opt<bool>
     36   KeepMain("keep-main",
     37            cl::desc("Force function reduction to keep main"),
     38            cl::init(false));
     39   cl::opt<bool>
     40   NoGlobalRM ("disable-global-remove",
     41          cl::desc("Do not remove global variables"),
     42          cl::init(false));
     43 }
     44 
     45 namespace llvm {
     46   class ReducePassList : public ListReducer<std::string> {
     47     BugDriver &BD;
     48   public:
     49     ReducePassList(BugDriver &bd) : BD(bd) {}
     50 
     51     // doTest - Return true iff running the "removed" passes succeeds, and
     52     // running the "Kept" passes fail when run on the output of the "removed"
     53     // passes.  If we return true, we update the current module of bugpoint.
     54     //
     55     TestResult doTest(std::vector<std::string> &Removed,
     56                       std::vector<std::string> &Kept,
     57                       std::string &Error) override;
     58   };
     59 }
     60 
     61 ReducePassList::TestResult
     62 ReducePassList::doTest(std::vector<std::string> &Prefix,
     63                        std::vector<std::string> &Suffix,
     64                        std::string &Error) {
     65   std::string PrefixOutput;
     66   Module *OrigProgram = nullptr;
     67   if (!Prefix.empty()) {
     68     outs() << "Checking to see if these passes crash: "
     69            << getPassesString(Prefix) << ": ";
     70     if (BD.runPasses(BD.getProgram(), Prefix, PrefixOutput))
     71       return KeepPrefix;
     72 
     73     OrigProgram = BD.Program;
     74 
     75     BD.Program = ParseInputFile(PrefixOutput, BD.getContext());
     76     if (BD.Program == nullptr) {
     77       errs() << BD.getToolName() << ": Error reading bitcode file '"
     78              << PrefixOutput << "'!\n";
     79       exit(1);
     80     }
     81     sys::fs::remove(PrefixOutput);
     82   }
     83 
     84   outs() << "Checking to see if these passes crash: "
     85          << getPassesString(Suffix) << ": ";
     86 
     87   if (BD.runPasses(BD.getProgram(), Suffix)) {
     88     delete OrigProgram;            // The suffix crashes alone...
     89     return KeepSuffix;
     90   }
     91 
     92   // Nothing failed, restore state...
     93   if (OrigProgram) {
     94     delete BD.Program;
     95     BD.Program = OrigProgram;
     96   }
     97   return NoFailure;
     98 }
     99 
    100 namespace {
    101   /// ReduceCrashingGlobalVariables - This works by removing the global
    102   /// variable's initializer and seeing if the program still crashes. If it
    103   /// does, then we keep that program and try again.
    104   ///
    105   class ReduceCrashingGlobalVariables : public ListReducer<GlobalVariable*> {
    106     BugDriver &BD;
    107     bool (*TestFn)(const BugDriver &, Module *);
    108   public:
    109     ReduceCrashingGlobalVariables(BugDriver &bd,
    110                                   bool (*testFn)(const BugDriver &, Module *))
    111       : BD(bd), TestFn(testFn) {}
    112 
    113     TestResult doTest(std::vector<GlobalVariable*> &Prefix,
    114                       std::vector<GlobalVariable*> &Kept,
    115                       std::string &Error) override {
    116       if (!Kept.empty() && TestGlobalVariables(Kept))
    117         return KeepSuffix;
    118       if (!Prefix.empty() && TestGlobalVariables(Prefix))
    119         return KeepPrefix;
    120       return NoFailure;
    121     }
    122 
    123     bool TestGlobalVariables(std::vector<GlobalVariable*> &GVs);
    124   };
    125 }
    126 
    127 bool
    128 ReduceCrashingGlobalVariables::TestGlobalVariables(
    129                               std::vector<GlobalVariable*> &GVs) {
    130   // Clone the program to try hacking it apart...
    131   ValueToValueMapTy VMap;
    132   Module *M = CloneModule(BD.getProgram(), VMap);
    133 
    134   // Convert list to set for fast lookup...
    135   std::set<GlobalVariable*> GVSet;
    136 
    137   for (unsigned i = 0, e = GVs.size(); i != e; ++i) {
    138     GlobalVariable* CMGV = cast<GlobalVariable>(VMap[GVs[i]]);
    139     assert(CMGV && "Global Variable not in module?!");
    140     GVSet.insert(CMGV);
    141   }
    142 
    143   outs() << "Checking for crash with only these global variables: ";
    144   PrintGlobalVariableList(GVs);
    145   outs() << ": ";
    146 
    147   // Loop over and delete any global variables which we aren't supposed to be
    148   // playing with...
    149   for (Module::global_iterator I = M->global_begin(), E = M->global_end();
    150        I != E; ++I)
    151     if (I->hasInitializer() && !GVSet.count(I)) {
    152       I->setInitializer(nullptr);
    153       I->setLinkage(GlobalValue::ExternalLinkage);
    154     }
    155 
    156   // Try running the hacked up program...
    157   if (TestFn(BD, M)) {
    158     BD.setNewProgram(M);        // It crashed, keep the trimmed version...
    159 
    160     // Make sure to use global variable pointers that point into the now-current
    161     // module.
    162     GVs.assign(GVSet.begin(), GVSet.end());
    163     return true;
    164   }
    165 
    166   delete M;
    167   return false;
    168 }
    169 
    170 namespace {
    171   /// ReduceCrashingFunctions reducer - This works by removing functions and
    172   /// seeing if the program still crashes. If it does, then keep the newer,
    173   /// smaller program.
    174   ///
    175   class ReduceCrashingFunctions : public ListReducer<Function*> {
    176     BugDriver &BD;
    177     bool (*TestFn)(const BugDriver &, Module *);
    178   public:
    179     ReduceCrashingFunctions(BugDriver &bd,
    180                             bool (*testFn)(const BugDriver &, Module *))
    181       : BD(bd), TestFn(testFn) {}
    182 
    183     TestResult doTest(std::vector<Function*> &Prefix,
    184                       std::vector<Function*> &Kept,
    185                       std::string &Error) override {
    186       if (!Kept.empty() && TestFuncs(Kept))
    187         return KeepSuffix;
    188       if (!Prefix.empty() && TestFuncs(Prefix))
    189         return KeepPrefix;
    190       return NoFailure;
    191     }
    192 
    193     bool TestFuncs(std::vector<Function*> &Prefix);
    194   };
    195 }
    196 
    197 bool ReduceCrashingFunctions::TestFuncs(std::vector<Function*> &Funcs) {
    198   // If main isn't present, claim there is no problem.
    199   if (KeepMain && std::find(Funcs.begin(), Funcs.end(),
    200                             BD.getProgram()->getFunction("main")) ==
    201                       Funcs.end())
    202     return false;
    203 
    204   // Clone the program to try hacking it apart...
    205   ValueToValueMapTy VMap;
    206   Module *M = CloneModule(BD.getProgram(), VMap);
    207 
    208   // Convert list to set for fast lookup...
    209   std::set<Function*> Functions;
    210   for (unsigned i = 0, e = Funcs.size(); i != e; ++i) {
    211     Function *CMF = cast<Function>(VMap[Funcs[i]]);
    212     assert(CMF && "Function not in module?!");
    213     assert(CMF->getFunctionType() == Funcs[i]->getFunctionType() && "wrong ty");
    214     assert(CMF->getName() == Funcs[i]->getName() && "wrong name");
    215     Functions.insert(CMF);
    216   }
    217 
    218   outs() << "Checking for crash with only these functions: ";
    219   PrintFunctionList(Funcs);
    220   outs() << ": ";
    221 
    222   // Loop over and delete any functions which we aren't supposed to be playing
    223   // with...
    224   for (Module::iterator I = M->begin(), E = M->end(); I != E; ++I)
    225     if (!I->isDeclaration() && !Functions.count(I))
    226       DeleteFunctionBody(I);
    227 
    228   // Try running the hacked up program...
    229   if (TestFn(BD, M)) {
    230     BD.setNewProgram(M);        // It crashed, keep the trimmed version...
    231 
    232     // Make sure to use function pointers that point into the now-current
    233     // module.
    234     Funcs.assign(Functions.begin(), Functions.end());
    235     return true;
    236   }
    237   delete M;
    238   return false;
    239 }
    240 
    241 
    242 namespace {
    243   /// ReduceCrashingBlocks reducer - This works by setting the terminators of
    244   /// all terminators except the specified basic blocks to a 'ret' instruction,
    245   /// then running the simplify-cfg pass.  This has the effect of chopping up
    246   /// the CFG really fast which can reduce large functions quickly.
    247   ///
    248   class ReduceCrashingBlocks : public ListReducer<const BasicBlock*> {
    249     BugDriver &BD;
    250     bool (*TestFn)(const BugDriver &, Module *);
    251   public:
    252     ReduceCrashingBlocks(BugDriver &bd,
    253                          bool (*testFn)(const BugDriver &, Module *))
    254       : BD(bd), TestFn(testFn) {}
    255 
    256     TestResult doTest(std::vector<const BasicBlock*> &Prefix,
    257                       std::vector<const BasicBlock*> &Kept,
    258                       std::string &Error) override {
    259       if (!Kept.empty() && TestBlocks(Kept))
    260         return KeepSuffix;
    261       if (!Prefix.empty() && TestBlocks(Prefix))
    262         return KeepPrefix;
    263       return NoFailure;
    264     }
    265 
    266     bool TestBlocks(std::vector<const BasicBlock*> &Prefix);
    267   };
    268 }
    269 
    270 bool ReduceCrashingBlocks::TestBlocks(std::vector<const BasicBlock*> &BBs) {
    271   // Clone the program to try hacking it apart...
    272   ValueToValueMapTy VMap;
    273   Module *M = CloneModule(BD.getProgram(), VMap);
    274 
    275   // Convert list to set for fast lookup...
    276   SmallPtrSet<BasicBlock*, 8> Blocks;
    277   for (unsigned i = 0, e = BBs.size(); i != e; ++i)
    278     Blocks.insert(cast<BasicBlock>(VMap[BBs[i]]));
    279 
    280   outs() << "Checking for crash with only these blocks:";
    281   unsigned NumPrint = Blocks.size();
    282   if (NumPrint > 10) NumPrint = 10;
    283   for (unsigned i = 0, e = NumPrint; i != e; ++i)
    284     outs() << " " << BBs[i]->getName();
    285   if (NumPrint < Blocks.size())
    286     outs() << "... <" << Blocks.size() << " total>";
    287   outs() << ": ";
    288 
    289   // Loop over and delete any hack up any blocks that are not listed...
    290   for (Module::iterator I = M->begin(), E = M->end(); I != E; ++I)
    291     for (Function::iterator BB = I->begin(), E = I->end(); BB != E; ++BB)
    292       if (!Blocks.count(BB) && BB->getTerminator()->getNumSuccessors()) {
    293         // Loop over all of the successors of this block, deleting any PHI nodes
    294         // that might include it.
    295         for (succ_iterator SI = succ_begin(BB), E = succ_end(BB); SI != E; ++SI)
    296           (*SI)->removePredecessor(BB);
    297 
    298         TerminatorInst *BBTerm = BB->getTerminator();
    299 
    300         if (!BB->getTerminator()->getType()->isVoidTy())
    301           BBTerm->replaceAllUsesWith(Constant::getNullValue(BBTerm->getType()));
    302 
    303         // Replace the old terminator instruction.
    304         BB->getInstList().pop_back();
    305         new UnreachableInst(BB->getContext(), BB);
    306       }
    307 
    308   // The CFG Simplifier pass may delete one of the basic blocks we are
    309   // interested in.  If it does we need to take the block out of the list.  Make
    310   // a "persistent mapping" by turning basic blocks into <function, name> pairs.
    311   // This won't work well if blocks are unnamed, but that is just the risk we
    312   // have to take.
    313   std::vector<std::pair<std::string, std::string> > BlockInfo;
    314 
    315   for (SmallPtrSet<BasicBlock*, 8>::iterator I = Blocks.begin(),
    316          E = Blocks.end(); I != E; ++I)
    317     BlockInfo.push_back(std::make_pair((*I)->getParent()->getName(),
    318                                        (*I)->getName()));
    319 
    320   // Now run the CFG simplify pass on the function...
    321   std::vector<std::string> Passes;
    322   Passes.push_back("simplifycfg");
    323   Passes.push_back("verify");
    324   Module *New = BD.runPassesOn(M, Passes);
    325   delete M;
    326   if (!New) {
    327     errs() << "simplifycfg failed!\n";
    328     exit(1);
    329   }
    330   M = New;
    331 
    332   // Try running on the hacked up program...
    333   if (TestFn(BD, M)) {
    334     BD.setNewProgram(M);      // It crashed, keep the trimmed version...
    335 
    336     // Make sure to use basic block pointers that point into the now-current
    337     // module, and that they don't include any deleted blocks.
    338     BBs.clear();
    339     const ValueSymbolTable &GST = M->getValueSymbolTable();
    340     for (unsigned i = 0, e = BlockInfo.size(); i != e; ++i) {
    341       Function *F = cast<Function>(GST.lookup(BlockInfo[i].first));
    342       ValueSymbolTable &ST = F->getValueSymbolTable();
    343       Value* V = ST.lookup(BlockInfo[i].second);
    344       if (V && V->getType() == Type::getLabelTy(V->getContext()))
    345         BBs.push_back(cast<BasicBlock>(V));
    346     }
    347     return true;
    348   }
    349   delete M;  // It didn't crash, try something else.
    350   return false;
    351 }
    352 
    353 namespace {
    354   /// ReduceCrashingInstructions reducer - This works by removing the specified
    355   /// non-terminator instructions and replacing them with undef.
    356   ///
    357   class ReduceCrashingInstructions : public ListReducer<const Instruction*> {
    358     BugDriver &BD;
    359     bool (*TestFn)(const BugDriver &, Module *);
    360   public:
    361     ReduceCrashingInstructions(BugDriver &bd,
    362                                bool (*testFn)(const BugDriver &, Module *))
    363       : BD(bd), TestFn(testFn) {}
    364 
    365     TestResult doTest(std::vector<const Instruction*> &Prefix,
    366                       std::vector<const Instruction*> &Kept,
    367                       std::string &Error) override {
    368       if (!Kept.empty() && TestInsts(Kept))
    369         return KeepSuffix;
    370       if (!Prefix.empty() && TestInsts(Prefix))
    371         return KeepPrefix;
    372       return NoFailure;
    373     }
    374 
    375     bool TestInsts(std::vector<const Instruction*> &Prefix);
    376   };
    377 }
    378 
    379 bool ReduceCrashingInstructions::TestInsts(std::vector<const Instruction*>
    380                                            &Insts) {
    381   // Clone the program to try hacking it apart...
    382   ValueToValueMapTy VMap;
    383   Module *M = CloneModule(BD.getProgram(), VMap);
    384 
    385   // Convert list to set for fast lookup...
    386   SmallPtrSet<Instruction*, 64> Instructions;
    387   for (unsigned i = 0, e = Insts.size(); i != e; ++i) {
    388     assert(!isa<TerminatorInst>(Insts[i]));
    389     Instructions.insert(cast<Instruction>(VMap[Insts[i]]));
    390   }
    391 
    392   outs() << "Checking for crash with only " << Instructions.size();
    393   if (Instructions.size() == 1)
    394     outs() << " instruction: ";
    395   else
    396     outs() << " instructions: ";
    397 
    398   for (Module::iterator MI = M->begin(), ME = M->end(); MI != ME; ++MI)
    399     for (Function::iterator FI = MI->begin(), FE = MI->end(); FI != FE; ++FI)
    400       for (BasicBlock::iterator I = FI->begin(), E = FI->end(); I != E;) {
    401         Instruction *Inst = I++;
    402         if (!Instructions.count(Inst) && !isa<TerminatorInst>(Inst) &&
    403             !isa<LandingPadInst>(Inst)) {
    404           if (!Inst->getType()->isVoidTy())
    405             Inst->replaceAllUsesWith(UndefValue::get(Inst->getType()));
    406           Inst->eraseFromParent();
    407         }
    408       }
    409 
    410   // Verify that this is still valid.
    411   PassManager Passes;
    412   Passes.add(createVerifierPass());
    413   Passes.add(createDebugInfoVerifierPass());
    414   Passes.run(*M);
    415 
    416   // Try running on the hacked up program...
    417   if (TestFn(BD, M)) {
    418     BD.setNewProgram(M);      // It crashed, keep the trimmed version...
    419 
    420     // Make sure to use instruction pointers that point into the now-current
    421     // module, and that they don't include any deleted blocks.
    422     Insts.clear();
    423     for (SmallPtrSet<Instruction*, 64>::const_iterator I = Instructions.begin(),
    424              E = Instructions.end(); I != E; ++I)
    425       Insts.push_back(*I);
    426     return true;
    427   }
    428   delete M;  // It didn't crash, try something else.
    429   return false;
    430 }
    431 
    432 /// DebugACrash - Given a predicate that determines whether a component crashes
    433 /// on a program, try to destructively reduce the program while still keeping
    434 /// the predicate true.
    435 static bool DebugACrash(BugDriver &BD,
    436                         bool (*TestFn)(const BugDriver &, Module *),
    437                         std::string &Error) {
    438   // See if we can get away with nuking some of the global variable initializers
    439   // in the program...
    440   if (!NoGlobalRM &&
    441       BD.getProgram()->global_begin() != BD.getProgram()->global_end()) {
    442     // Now try to reduce the number of global variable initializers in the
    443     // module to something small.
    444     Module *M = CloneModule(BD.getProgram());
    445     bool DeletedInit = false;
    446 
    447     for (Module::global_iterator I = M->global_begin(), E = M->global_end();
    448          I != E; ++I)
    449       if (I->hasInitializer()) {
    450         I->setInitializer(nullptr);
    451         I->setLinkage(GlobalValue::ExternalLinkage);
    452         DeletedInit = true;
    453       }
    454 
    455     if (!DeletedInit) {
    456       delete M;  // No change made...
    457     } else {
    458       // See if the program still causes a crash...
    459       outs() << "\nChecking to see if we can delete global inits: ";
    460 
    461       if (TestFn(BD, M)) {      // Still crashes?
    462         BD.setNewProgram(M);
    463         outs() << "\n*** Able to remove all global initializers!\n";
    464       } else {                  // No longer crashes?
    465         outs() << "  - Removing all global inits hides problem!\n";
    466         delete M;
    467 
    468         std::vector<GlobalVariable*> GVs;
    469 
    470         for (Module::global_iterator I = BD.getProgram()->global_begin(),
    471                E = BD.getProgram()->global_end(); I != E; ++I)
    472           if (I->hasInitializer())
    473             GVs.push_back(I);
    474 
    475         if (GVs.size() > 1 && !BugpointIsInterrupted) {
    476           outs() << "\n*** Attempting to reduce the number of global "
    477                     << "variables in the testcase\n";
    478 
    479           unsigned OldSize = GVs.size();
    480           ReduceCrashingGlobalVariables(BD, TestFn).reduceList(GVs, Error);
    481           if (!Error.empty())
    482             return true;
    483 
    484           if (GVs.size() < OldSize)
    485             BD.EmitProgressBitcode(BD.getProgram(), "reduced-global-variables");
    486         }
    487       }
    488     }
    489   }
    490 
    491   // Now try to reduce the number of functions in the module to something small.
    492   std::vector<Function*> Functions;
    493   for (Module::iterator I = BD.getProgram()->begin(),
    494          E = BD.getProgram()->end(); I != E; ++I)
    495     if (!I->isDeclaration())
    496       Functions.push_back(I);
    497 
    498   if (Functions.size() > 1 && !BugpointIsInterrupted) {
    499     outs() << "\n*** Attempting to reduce the number of functions "
    500       "in the testcase\n";
    501 
    502     unsigned OldSize = Functions.size();
    503     ReduceCrashingFunctions(BD, TestFn).reduceList(Functions, Error);
    504 
    505     if (Functions.size() < OldSize)
    506       BD.EmitProgressBitcode(BD.getProgram(), "reduced-function");
    507   }
    508 
    509   // Attempt to delete entire basic blocks at a time to speed up
    510   // convergence... this actually works by setting the terminator of the blocks
    511   // to a return instruction then running simplifycfg, which can potentially
    512   // shrinks the code dramatically quickly
    513   //
    514   if (!DisableSimplifyCFG && !BugpointIsInterrupted) {
    515     std::vector<const BasicBlock*> Blocks;
    516     for (Module::const_iterator I = BD.getProgram()->begin(),
    517            E = BD.getProgram()->end(); I != E; ++I)
    518       for (Function::const_iterator FI = I->begin(), E = I->end(); FI !=E; ++FI)
    519         Blocks.push_back(FI);
    520     unsigned OldSize = Blocks.size();
    521     ReduceCrashingBlocks(BD, TestFn).reduceList(Blocks, Error);
    522     if (Blocks.size() < OldSize)
    523       BD.EmitProgressBitcode(BD.getProgram(), "reduced-blocks");
    524   }
    525 
    526   // Attempt to delete instructions using bisection. This should help out nasty
    527   // cases with large basic blocks where the problem is at one end.
    528   if (!BugpointIsInterrupted) {
    529     std::vector<const Instruction*> Insts;
    530     for (Module::const_iterator MI = BD.getProgram()->begin(),
    531            ME = BD.getProgram()->end(); MI != ME; ++MI)
    532       for (Function::const_iterator FI = MI->begin(), FE = MI->end(); FI != FE;
    533            ++FI)
    534         for (BasicBlock::const_iterator I = FI->begin(), E = FI->end();
    535              I != E; ++I)
    536           if (!isa<TerminatorInst>(I))
    537             Insts.push_back(I);
    538 
    539     ReduceCrashingInstructions(BD, TestFn).reduceList(Insts, Error);
    540   }
    541 
    542   // FIXME: This should use the list reducer to converge faster by deleting
    543   // larger chunks of instructions at a time!
    544   unsigned Simplification = 2;
    545   do {
    546     if (BugpointIsInterrupted) break;
    547     --Simplification;
    548     outs() << "\n*** Attempting to reduce testcase by deleting instruc"
    549            << "tions: Simplification Level #" << Simplification << '\n';
    550 
    551     // Now that we have deleted the functions that are unnecessary for the
    552     // program, try to remove instructions that are not necessary to cause the
    553     // crash.  To do this, we loop through all of the instructions in the
    554     // remaining functions, deleting them (replacing any values produced with
    555     // nulls), and then running ADCE and SimplifyCFG.  If the transformed input
    556     // still triggers failure, keep deleting until we cannot trigger failure
    557     // anymore.
    558     //
    559     unsigned InstructionsToSkipBeforeDeleting = 0;
    560   TryAgain:
    561 
    562     // Loop over all of the (non-terminator) instructions remaining in the
    563     // function, attempting to delete them.
    564     unsigned CurInstructionNum = 0;
    565     for (Module::const_iterator FI = BD.getProgram()->begin(),
    566            E = BD.getProgram()->end(); FI != E; ++FI)
    567       if (!FI->isDeclaration())
    568         for (Function::const_iterator BI = FI->begin(), E = FI->end(); BI != E;
    569              ++BI)
    570           for (BasicBlock::const_iterator I = BI->begin(), E = --BI->end();
    571                I != E; ++I, ++CurInstructionNum) {
    572             if (InstructionsToSkipBeforeDeleting) {
    573               --InstructionsToSkipBeforeDeleting;
    574             } else {
    575               if (BugpointIsInterrupted) goto ExitLoops;
    576 
    577               if (isa<LandingPadInst>(I))
    578                 continue;
    579 
    580               outs() << "Checking instruction: " << *I;
    581               Module *M = BD.deleteInstructionFromProgram(I, Simplification);
    582 
    583               // Find out if the pass still crashes on this pass...
    584               if (TestFn(BD, M)) {
    585                 // Yup, it does, we delete the old module, and continue trying
    586                 // to reduce the testcase...
    587                 BD.setNewProgram(M);
    588                 InstructionsToSkipBeforeDeleting = CurInstructionNum;
    589                 goto TryAgain;  // I wish I had a multi-level break here!
    590               }
    591 
    592               // This pass didn't crash without this instruction, try the next
    593               // one.
    594               delete M;
    595             }
    596           }
    597 
    598     if (InstructionsToSkipBeforeDeleting) {
    599       InstructionsToSkipBeforeDeleting = 0;
    600       goto TryAgain;
    601     }
    602 
    603   } while (Simplification);
    604 ExitLoops:
    605 
    606   // Try to clean up the testcase by running funcresolve and globaldce...
    607   if (!BugpointIsInterrupted) {
    608     outs() << "\n*** Attempting to perform final cleanups: ";
    609     Module *M = CloneModule(BD.getProgram());
    610     M = BD.performFinalCleanups(M, true);
    611 
    612     // Find out if the pass still crashes on the cleaned up program...
    613     if (TestFn(BD, M)) {
    614       BD.setNewProgram(M);     // Yup, it does, keep the reduced version...
    615     } else {
    616       delete M;
    617     }
    618   }
    619 
    620   BD.EmitProgressBitcode(BD.getProgram(), "reduced-simplified");
    621 
    622   return false;
    623 }
    624 
    625 static bool TestForOptimizerCrash(const BugDriver &BD, Module *M) {
    626   return BD.runPasses(M);
    627 }
    628 
    629 /// debugOptimizerCrash - This method is called when some pass crashes on input.
    630 /// It attempts to prune down the testcase to something reasonable, and figure
    631 /// out exactly which pass is crashing.
    632 ///
    633 bool BugDriver::debugOptimizerCrash(const std::string &ID) {
    634   outs() << "\n*** Debugging optimizer crash!\n";
    635 
    636   std::string Error;
    637   // Reduce the list of passes which causes the optimizer to crash...
    638   if (!BugpointIsInterrupted)
    639     ReducePassList(*this).reduceList(PassesToRun, Error);
    640   assert(Error.empty());
    641 
    642   outs() << "\n*** Found crashing pass"
    643          << (PassesToRun.size() == 1 ? ": " : "es: ")
    644          << getPassesString(PassesToRun) << '\n';
    645 
    646   EmitProgressBitcode(Program, ID);
    647 
    648   bool Success = DebugACrash(*this, TestForOptimizerCrash, Error);
    649   assert(Error.empty());
    650   return Success;
    651 }
    652 
    653 static bool TestForCodeGenCrash(const BugDriver &BD, Module *M) {
    654   std::string Error;
    655   BD.compileProgram(M, &Error);
    656   if (!Error.empty()) {
    657     errs() << "<crash>\n";
    658     return true;  // Tool is still crashing.
    659   }
    660   errs() << '\n';
    661   return false;
    662 }
    663 
    664 /// debugCodeGeneratorCrash - This method is called when the code generator
    665 /// crashes on an input.  It attempts to reduce the input as much as possible
    666 /// while still causing the code generator to crash.
    667 bool BugDriver::debugCodeGeneratorCrash(std::string &Error) {
    668   errs() << "*** Debugging code generator crash!\n";
    669 
    670   return DebugACrash(*this, TestForCodeGenCrash, Error);
    671 }
    672