xref: /freebsd/contrib/llvm-project/llvm/tools/bugpoint/CrashDebugger.cpp (revision 9f23cbd6cae82fd77edfad7173432fa8dccd0a95)
1 //===- CrashDebugger.cpp - Debug compilation crashes ----------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 //
9 // This file defines the bugpoint internals that narrow down compilation crashes
10 //
11 //===----------------------------------------------------------------------===//
12 
13 #include "BugDriver.h"
14 #include "ListReducer.h"
15 #include "ToolRunner.h"
16 #include "llvm/ADT/SmallPtrSet.h"
17 #include "llvm/ADT/StringSet.h"
18 #include "llvm/Analysis/TargetTransformInfo.h"
19 #include "llvm/IR/CFG.h"
20 #include "llvm/IR/Constants.h"
21 #include "llvm/IR/DebugInfo.h"
22 #include "llvm/IR/DerivedTypes.h"
23 #include "llvm/IR/InstIterator.h"
24 #include "llvm/IR/Instructions.h"
25 #include "llvm/IR/LegacyPassManager.h"
26 #include "llvm/IR/Module.h"
27 #include "llvm/IR/ValueSymbolTable.h"
28 #include "llvm/IR/Verifier.h"
29 #include "llvm/Pass.h"
30 #include "llvm/Support/CommandLine.h"
31 #include "llvm/Support/FileUtilities.h"
32 #include "llvm/Transforms/Scalar.h"
33 #include "llvm/Transforms/Utils/BasicBlockUtils.h"
34 #include "llvm/Transforms/Utils/Cloning.h"
35 #include "llvm/Transforms/Utils/Local.h"
36 #include <set>
37 using namespace llvm;
38 
39 namespace {
40 cl::opt<bool> KeepMain("keep-main",
41                        cl::desc("Force function reduction to keep main"),
42                        cl::init(false));
43 cl::opt<bool> NoGlobalRM("disable-global-remove",
44                          cl::desc("Do not remove global variables"),
45                          cl::init(false));
46 
47 cl::opt<bool> NoAttributeRM("disable-attribute-remove",
48                          cl::desc("Do not remove function attributes"),
49                          cl::init(false));
50 
51 cl::opt<bool> ReplaceFuncsWithNull(
52     "replace-funcs-with-null",
53     cl::desc("When stubbing functions, replace all uses will null"),
54     cl::init(false));
55 cl::opt<bool> DontReducePassList("disable-pass-list-reduction",
56                                  cl::desc("Skip pass list reduction steps"),
57                                  cl::init(false));
58 
59 cl::opt<bool> NoNamedMDRM("disable-namedmd-remove",
60                           cl::desc("Do not remove global named metadata"),
61                           cl::init(false));
62 cl::opt<bool> NoStripDebugInfo("disable-strip-debuginfo",
63                                cl::desc("Do not strip debug info metadata"),
64                                cl::init(false));
65 cl::opt<bool> NoStripDebugTypeInfo("disable-strip-debug-types",
66                                cl::desc("Do not strip debug type info metadata"),
67                                cl::init(false));
68 cl::opt<bool> VerboseErrors("verbose-errors",
69                             cl::desc("Print the output of crashing program"),
70                             cl::init(false));
71 }
72 
73 namespace llvm {
74 class ReducePassList : public ListReducer<std::string> {
75   BugDriver &BD;
76 
77 public:
78   ReducePassList(BugDriver &bd) : BD(bd) {}
79 
80   // Return true iff running the "removed" passes succeeds, and running the
81   // "Kept" passes fail when run on the output of the "removed" passes.  If we
82   // return true, we update the current module of bugpoint.
83   Expected<TestResult> doTest(std::vector<std::string> &Removed,
84                               std::vector<std::string> &Kept) override;
85 };
86 }
87 
88 Expected<ReducePassList::TestResult>
89 ReducePassList::doTest(std::vector<std::string> &Prefix,
90                        std::vector<std::string> &Suffix) {
91   std::string PrefixOutput;
92   std::unique_ptr<Module> OrigProgram;
93   if (!Prefix.empty()) {
94     outs() << "Checking to see if these passes crash: "
95            << getPassesString(Prefix) << ": ";
96     if (BD.runPasses(BD.getProgram(), Prefix, PrefixOutput))
97       return KeepPrefix;
98 
99     OrigProgram = std::move(BD.Program);
100 
101     BD.Program = parseInputFile(PrefixOutput, BD.getContext());
102     if (BD.Program == nullptr) {
103       errs() << BD.getToolName() << ": Error reading bitcode file '"
104              << PrefixOutput << "'!\n";
105       exit(1);
106     }
107     sys::fs::remove(PrefixOutput);
108   }
109 
110   outs() << "Checking to see if these passes crash: " << getPassesString(Suffix)
111          << ": ";
112 
113   if (BD.runPasses(BD.getProgram(), Suffix))
114     return KeepSuffix; // The suffix crashes alone...
115 
116   // Nothing failed, restore state...
117   if (OrigProgram)
118     BD.Program = std::move(OrigProgram);
119   return NoFailure;
120 }
121 
122 using BugTester = bool (*)(const BugDriver &, Module *);
123 
124 namespace {
125 /// ReduceCrashingGlobalInitializers - This works by removing global variable
126 /// initializers and seeing if the program still crashes. If it does, then we
127 /// keep that program and try again.
128 class ReduceCrashingGlobalInitializers : public ListReducer<GlobalVariable *> {
129   BugDriver &BD;
130   BugTester TestFn;
131 
132 public:
133   ReduceCrashingGlobalInitializers(BugDriver &bd, BugTester testFn)
134       : BD(bd), TestFn(testFn) {}
135 
136   Expected<TestResult> doTest(std::vector<GlobalVariable *> &Prefix,
137                               std::vector<GlobalVariable *> &Kept) override {
138     if (!Kept.empty() && TestGlobalVariables(Kept))
139       return KeepSuffix;
140     if (!Prefix.empty() && TestGlobalVariables(Prefix))
141       return KeepPrefix;
142     return NoFailure;
143   }
144 
145   bool TestGlobalVariables(std::vector<GlobalVariable *> &GVs);
146 };
147 }
148 
149 bool ReduceCrashingGlobalInitializers::TestGlobalVariables(
150     std::vector<GlobalVariable *> &GVs) {
151   // Clone the program to try hacking it apart...
152   ValueToValueMapTy VMap;
153   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
154 
155   // Convert list to set for fast lookup...
156   std::set<GlobalVariable *> GVSet;
157 
158   for (unsigned i = 0, e = GVs.size(); i != e; ++i) {
159     GlobalVariable *CMGV = cast<GlobalVariable>(VMap[GVs[i]]);
160     assert(CMGV && "Global Variable not in module?!");
161     GVSet.insert(CMGV);
162   }
163 
164   outs() << "Checking for crash with only these global variables: ";
165   PrintGlobalVariableList(GVs);
166   outs() << ": ";
167 
168   // Loop over and delete any global variables which we aren't supposed to be
169   // playing with...
170   for (GlobalVariable &I : M->globals())
171     if (I.hasInitializer() && !GVSet.count(&I)) {
172       DeleteGlobalInitializer(&I);
173       I.setLinkage(GlobalValue::ExternalLinkage);
174       I.setComdat(nullptr);
175     }
176 
177   // Try running the hacked up program...
178   if (TestFn(BD, M.get())) {
179     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
180 
181     // Make sure to use global variable pointers that point into the now-current
182     // module.
183     GVs.assign(GVSet.begin(), GVSet.end());
184     return true;
185   }
186 
187   return false;
188 }
189 
190 namespace {
191 /// ReduceCrashingFunctions reducer - This works by removing functions and
192 /// seeing if the program still crashes. If it does, then keep the newer,
193 /// smaller program.
194 ///
195 class ReduceCrashingFunctions : public ListReducer<Function *> {
196   BugDriver &BD;
197   BugTester TestFn;
198 
199 public:
200   ReduceCrashingFunctions(BugDriver &bd, BugTester testFn)
201       : BD(bd), TestFn(testFn) {}
202 
203   Expected<TestResult> doTest(std::vector<Function *> &Prefix,
204                               std::vector<Function *> &Kept) override {
205     if (!Kept.empty() && TestFuncs(Kept))
206       return KeepSuffix;
207     if (!Prefix.empty() && TestFuncs(Prefix))
208       return KeepPrefix;
209     return NoFailure;
210   }
211 
212   bool TestFuncs(std::vector<Function *> &Prefix);
213 };
214 }
215 
216 static void RemoveFunctionReferences(Module *M, const char *Name) {
217   auto *UsedVar = M->getGlobalVariable(Name, true);
218   if (!UsedVar || !UsedVar->hasInitializer())
219     return;
220   if (isa<ConstantAggregateZero>(UsedVar->getInitializer())) {
221     assert(UsedVar->use_empty());
222     UsedVar->eraseFromParent();
223     return;
224   }
225   auto *OldUsedVal = cast<ConstantArray>(UsedVar->getInitializer());
226   std::vector<Constant *> Used;
227   for (Value *V : OldUsedVal->operand_values()) {
228     Constant *Op = cast<Constant>(V->stripPointerCasts());
229     if (!Op->isNullValue()) {
230       Used.push_back(cast<Constant>(V));
231     }
232   }
233   auto *NewValElemTy = OldUsedVal->getType()->getElementType();
234   auto *NewValTy = ArrayType::get(NewValElemTy, Used.size());
235   auto *NewUsedVal = ConstantArray::get(NewValTy, Used);
236   UsedVar->mutateType(NewUsedVal->getType()->getPointerTo());
237   UsedVar->setInitializer(NewUsedVal);
238 }
239 
240 bool ReduceCrashingFunctions::TestFuncs(std::vector<Function *> &Funcs) {
241   // If main isn't present, claim there is no problem.
242   if (KeepMain && !is_contained(Funcs, BD.getProgram().getFunction("main")))
243     return false;
244 
245   // Clone the program to try hacking it apart...
246   ValueToValueMapTy VMap;
247   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
248 
249   // Convert list to set for fast lookup...
250   std::set<Function *> Functions;
251   for (unsigned i = 0, e = Funcs.size(); i != e; ++i) {
252     Function *CMF = cast<Function>(VMap[Funcs[i]]);
253     assert(CMF && "Function not in module?!");
254     assert(CMF->getFunctionType() == Funcs[i]->getFunctionType() && "wrong ty");
255     assert(CMF->getName() == Funcs[i]->getName() && "wrong name");
256     Functions.insert(CMF);
257   }
258 
259   outs() << "Checking for crash with only these functions: ";
260   PrintFunctionList(Funcs);
261   outs() << ": ";
262   if (!ReplaceFuncsWithNull) {
263     // Loop over and delete any functions which we aren't supposed to be playing
264     // with...
265     for (Function &I : *M)
266       if (!I.isDeclaration() && !Functions.count(&I))
267         DeleteFunctionBody(&I);
268   } else {
269     std::vector<GlobalValue *> ToRemove;
270     // First, remove aliases to functions we're about to purge.
271     for (GlobalAlias &Alias : M->aliases()) {
272       GlobalObject *Root = Alias.getAliaseeObject();
273       auto *F = dyn_cast<Function>(Root);
274       if (F) {
275         if (Functions.count(F))
276           // We're keeping this function.
277           continue;
278       } else if (Root->isNullValue()) {
279         // This referenced a globalalias that we've already replaced,
280         // so we still need to replace this alias.
281       } else {
282         // Not a function, therefore not something we mess with.
283         continue;
284       }
285 
286       PointerType *Ty = cast<PointerType>(Alias.getType());
287       Constant *Replacement = ConstantPointerNull::get(Ty);
288       Alias.replaceAllUsesWith(Replacement);
289       ToRemove.push_back(&Alias);
290     }
291 
292     for (Function &I : *M) {
293       if (!I.isDeclaration() && !Functions.count(&I)) {
294         PointerType *Ty = cast<PointerType>(I.getType());
295         Constant *Replacement = ConstantPointerNull::get(Ty);
296         I.replaceAllUsesWith(Replacement);
297         ToRemove.push_back(&I);
298       }
299     }
300 
301     for (auto *F : ToRemove) {
302       F->eraseFromParent();
303     }
304 
305     // Finally, remove any null members from any global intrinsic.
306     RemoveFunctionReferences(M.get(), "llvm.used");
307     RemoveFunctionReferences(M.get(), "llvm.compiler.used");
308   }
309   // Try running the hacked up program...
310   if (TestFn(BD, M.get())) {
311     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
312 
313     // Make sure to use function pointers that point into the now-current
314     // module.
315     Funcs.assign(Functions.begin(), Functions.end());
316     return true;
317   }
318   return false;
319 }
320 
321 namespace {
322 /// ReduceCrashingFunctionAttributes reducer - This works by removing
323 /// attributes on a particular function and seeing if the program still crashes.
324 /// If it does, then keep the newer, smaller program.
325 ///
326 class ReduceCrashingFunctionAttributes : public ListReducer<Attribute> {
327   BugDriver &BD;
328   std::string FnName;
329   BugTester TestFn;
330 
331 public:
332   ReduceCrashingFunctionAttributes(BugDriver &bd, const std::string &FnName,
333                                    BugTester testFn)
334       : BD(bd), FnName(FnName), TestFn(testFn) {}
335 
336   Expected<TestResult> doTest(std::vector<Attribute> &Prefix,
337                               std::vector<Attribute> &Kept) override {
338     if (!Kept.empty() && TestFuncAttrs(Kept))
339       return KeepSuffix;
340     if (!Prefix.empty() && TestFuncAttrs(Prefix))
341       return KeepPrefix;
342     return NoFailure;
343   }
344 
345   bool TestFuncAttrs(std::vector<Attribute> &Attrs);
346 };
347 }
348 
349 bool ReduceCrashingFunctionAttributes::TestFuncAttrs(
350     std::vector<Attribute> &Attrs) {
351   // Clone the program to try hacking it apart...
352   std::unique_ptr<Module> M = CloneModule(BD.getProgram());
353   Function *F = M->getFunction(FnName);
354 
355   // Build up an AttributeList from the attributes we've been given by the
356   // reducer.
357   AttrBuilder AB(M->getContext());
358   for (auto A : Attrs)
359     AB.addAttribute(A);
360   AttributeList NewAttrs;
361   NewAttrs = NewAttrs.addFnAttributes(BD.getContext(), AB);
362 
363   // Set this new list of attributes on the function.
364   F->setAttributes(NewAttrs);
365 
366   // If the attribute list includes "optnone" we need to make sure it also
367   // includes "noinline" otherwise we will get a verifier failure.
368   if (F->hasFnAttribute(Attribute::OptimizeNone))
369     F->addFnAttr(Attribute::NoInline);
370 
371   // Try running on the hacked up program...
372   if (TestFn(BD, M.get())) {
373     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
374 
375     // Pass along the set of attributes that caused the crash.
376     Attrs.clear();
377     for (Attribute A : NewAttrs.getFnAttrs()) {
378       Attrs.push_back(A);
379     }
380     return true;
381   }
382   return false;
383 }
384 
385 namespace {
386 /// Simplify the CFG without completely destroying it.
387 /// This is not well defined, but basically comes down to "try to eliminate
388 /// unreachable blocks and constant fold terminators without deciding that
389 /// certain undefined behavior cuts off the program at the legs".
390 void simpleSimplifyCfg(Function &F, SmallVectorImpl<BasicBlock *> &BBs) {
391   if (F.empty())
392     return;
393 
394   for (auto *BB : BBs) {
395     ConstantFoldTerminator(BB);
396     MergeBlockIntoPredecessor(BB);
397   }
398 
399   // Remove unreachable blocks
400   // removeUnreachableBlocks can't be used here, it will turn various
401   // undefined behavior into unreachables, but bugpoint was the thing that
402   // generated the undefined behavior, and we don't want it to kill the entire
403   // program.
404   SmallPtrSet<BasicBlock *, 16> Visited;
405   for (auto *BB : depth_first(&F.getEntryBlock()))
406     Visited.insert(BB);
407 
408   SmallVector<BasicBlock *, 16> Unreachable;
409   for (auto &BB : F)
410     if (!Visited.count(&BB))
411       Unreachable.push_back(&BB);
412 
413   // The dead BB's may be in a dead cycle or otherwise have references to each
414   // other.  Because of this, we have to drop all references first, then delete
415   // them all at once.
416   for (auto *BB : Unreachable) {
417     for (BasicBlock *Successor : successors(&*BB))
418       if (Visited.count(Successor))
419         Successor->removePredecessor(&*BB);
420     BB->dropAllReferences();
421   }
422   for (auto *BB : Unreachable)
423     BB->eraseFromParent();
424 }
425 /// ReduceCrashingBlocks reducer - This works by setting the terminators of
426 /// all terminators except the specified basic blocks to a 'ret' instruction,
427 /// then running the simplifycfg pass.  This has the effect of chopping up
428 /// the CFG really fast which can reduce large functions quickly.
429 ///
430 class ReduceCrashingBlocks : public ListReducer<const BasicBlock *> {
431   BugDriver &BD;
432   BugTester TestFn;
433 
434 public:
435   ReduceCrashingBlocks(BugDriver &BD, BugTester testFn)
436       : BD(BD), TestFn(testFn) {}
437 
438   Expected<TestResult> doTest(std::vector<const BasicBlock *> &Prefix,
439                               std::vector<const BasicBlock *> &Kept) override {
440     if (!Kept.empty() && TestBlocks(Kept))
441       return KeepSuffix;
442     if (!Prefix.empty() && TestBlocks(Prefix))
443       return KeepPrefix;
444     return NoFailure;
445   }
446 
447   bool TestBlocks(std::vector<const BasicBlock *> &Prefix);
448 };
449 }
450 
451 bool ReduceCrashingBlocks::TestBlocks(std::vector<const BasicBlock *> &BBs) {
452   // Clone the program to try hacking it apart...
453   ValueToValueMapTy VMap;
454   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
455 
456   // Convert list to set for fast lookup...
457   SmallPtrSet<BasicBlock *, 8> Blocks;
458   for (unsigned i = 0, e = BBs.size(); i != e; ++i)
459     Blocks.insert(cast<BasicBlock>(VMap[BBs[i]]));
460 
461   outs() << "Checking for crash with only these blocks:";
462   unsigned NumPrint = Blocks.size();
463   if (NumPrint > 10)
464     NumPrint = 10;
465   for (unsigned i = 0, e = NumPrint; i != e; ++i)
466     outs() << " " << BBs[i]->getName();
467   if (NumPrint < Blocks.size())
468     outs() << "... <" << Blocks.size() << " total>";
469   outs() << ": ";
470 
471   // Loop over and delete any hack up any blocks that are not listed...
472   for (Function &F : M->functions()) {
473     for (BasicBlock &BB : F) {
474       if (!Blocks.count(&BB) && BB.getTerminator()->getNumSuccessors()) {
475         // Loop over all of the successors of this block, deleting any PHI nodes
476         // that might include it.
477         for (BasicBlock *Succ : successors(&BB))
478           Succ->removePredecessor(&BB);
479 
480         Instruction *BBTerm = BB.getTerminator();
481         if (BBTerm->isEHPad() || BBTerm->getType()->isTokenTy())
482           continue;
483         if (!BBTerm->getType()->isVoidTy())
484           BBTerm->replaceAllUsesWith(Constant::getNullValue(BBTerm->getType()));
485 
486         // Replace the old terminator instruction.
487         BB.back().eraseFromParent();
488         new UnreachableInst(BB.getContext(), &BB);
489       }
490     }
491   }
492 
493   // The CFG Simplifier pass may delete one of the basic blocks we are
494   // interested in.  If it does we need to take the block out of the list.  Make
495   // a "persistent mapping" by turning basic blocks into <function, name> pairs.
496   // This won't work well if blocks are unnamed, but that is just the risk we
497   // have to take. FIXME: Can we just name the blocks?
498   std::vector<std::pair<std::string, std::string>> BlockInfo;
499 
500   for (BasicBlock *BB : Blocks)
501     BlockInfo.emplace_back(std::string(BB->getParent()->getName()),
502                            std::string(BB->getName()));
503 
504   SmallVector<BasicBlock *, 16> ToProcess;
505   for (auto &F : *M) {
506     for (auto &BB : F)
507       if (!Blocks.count(&BB))
508         ToProcess.push_back(&BB);
509     simpleSimplifyCfg(F, ToProcess);
510     ToProcess.clear();
511   }
512   // Verify we didn't break anything
513   std::vector<std::string> Passes;
514   Passes.push_back("verify");
515   std::unique_ptr<Module> New = BD.runPassesOn(M.get(), Passes);
516   if (!New) {
517     errs() << "verify failed!\n";
518     exit(1);
519   }
520   M = std::move(New);
521 
522   // Try running on the hacked up program...
523   if (TestFn(BD, M.get())) {
524     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
525 
526     // Make sure to use basic block pointers that point into the now-current
527     // module, and that they don't include any deleted blocks.
528     BBs.clear();
529     const ValueSymbolTable &GST = BD.getProgram().getValueSymbolTable();
530     for (const auto &BI : BlockInfo) {
531       Function *F = cast<Function>(GST.lookup(BI.first));
532       Value *V = F->getValueSymbolTable()->lookup(BI.second);
533       if (V && V->getType() == Type::getLabelTy(V->getContext()))
534         BBs.push_back(cast<BasicBlock>(V));
535     }
536     return true;
537   }
538   // It didn't crash, try something else.
539   return false;
540 }
541 
542 namespace {
543 /// ReduceCrashingConditionals reducer - This works by changing
544 /// conditional branches to unconditional ones, then simplifying the CFG
545 /// This has the effect of chopping up the CFG really fast which can reduce
546 /// large functions quickly.
547 ///
548 class ReduceCrashingConditionals : public ListReducer<const BasicBlock *> {
549   BugDriver &BD;
550   BugTester TestFn;
551   bool Direction;
552 
553 public:
554   ReduceCrashingConditionals(BugDriver &bd, BugTester testFn, bool Direction)
555       : BD(bd), TestFn(testFn), Direction(Direction) {}
556 
557   Expected<TestResult> doTest(std::vector<const BasicBlock *> &Prefix,
558                               std::vector<const BasicBlock *> &Kept) override {
559     if (!Kept.empty() && TestBlocks(Kept))
560       return KeepSuffix;
561     if (!Prefix.empty() && TestBlocks(Prefix))
562       return KeepPrefix;
563     return NoFailure;
564   }
565 
566   bool TestBlocks(std::vector<const BasicBlock *> &Prefix);
567 };
568 }
569 
570 bool ReduceCrashingConditionals::TestBlocks(
571     std::vector<const BasicBlock *> &BBs) {
572   // Clone the program to try hacking it apart...
573   ValueToValueMapTy VMap;
574   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
575 
576   // Convert list to set for fast lookup...
577   SmallPtrSet<const BasicBlock *, 8> Blocks;
578   for (const auto *BB : BBs)
579     Blocks.insert(cast<BasicBlock>(VMap[BB]));
580 
581   outs() << "Checking for crash with changing conditionals to always jump to "
582          << (Direction ? "true" : "false") << ":";
583   unsigned NumPrint = Blocks.size();
584   if (NumPrint > 10)
585     NumPrint = 10;
586   for (unsigned i = 0, e = NumPrint; i != e; ++i)
587     outs() << " " << BBs[i]->getName();
588   if (NumPrint < Blocks.size())
589     outs() << "... <" << Blocks.size() << " total>";
590   outs() << ": ";
591 
592   // Loop over and delete any hack up any blocks that are not listed...
593   for (auto &F : *M)
594     for (auto &BB : F)
595       if (!Blocks.count(&BB)) {
596         auto *BR = dyn_cast<BranchInst>(BB.getTerminator());
597         if (!BR || !BR->isConditional())
598           continue;
599         if (Direction)
600           BR->setCondition(ConstantInt::getTrue(BR->getContext()));
601         else
602           BR->setCondition(ConstantInt::getFalse(BR->getContext()));
603       }
604 
605   // The following may destroy some blocks, so we save them first
606   std::vector<std::pair<std::string, std::string>> BlockInfo;
607 
608   for (const BasicBlock *BB : Blocks)
609     BlockInfo.emplace_back(std::string(BB->getParent()->getName()),
610                            std::string(BB->getName()));
611 
612   SmallVector<BasicBlock *, 16> ToProcess;
613   for (auto &F : *M) {
614     for (auto &BB : F)
615       if (!Blocks.count(&BB))
616         ToProcess.push_back(&BB);
617     simpleSimplifyCfg(F, ToProcess);
618     ToProcess.clear();
619   }
620   // Verify we didn't break anything
621   std::vector<std::string> Passes;
622   Passes.push_back("verify");
623   std::unique_ptr<Module> New = BD.runPassesOn(M.get(), Passes);
624   if (!New) {
625     errs() << "verify failed!\n";
626     exit(1);
627   }
628   M = std::move(New);
629 
630   // Try running on the hacked up program...
631   if (TestFn(BD, M.get())) {
632     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
633 
634     // Make sure to use basic block pointers that point into the now-current
635     // module, and that they don't include any deleted blocks.
636     BBs.clear();
637     const ValueSymbolTable &GST = BD.getProgram().getValueSymbolTable();
638     for (auto &BI : BlockInfo) {
639       auto *F = cast<Function>(GST.lookup(BI.first));
640       Value *V = F->getValueSymbolTable()->lookup(BI.second);
641       if (V && V->getType() == Type::getLabelTy(V->getContext()))
642         BBs.push_back(cast<BasicBlock>(V));
643     }
644     return true;
645   }
646   // It didn't crash, try something else.
647   return false;
648 }
649 
650 namespace {
651 /// SimplifyCFG reducer - This works by calling SimplifyCFG on each basic block
652 /// in the program.
653 
654 class ReduceSimplifyCFG : public ListReducer<const BasicBlock *> {
655   BugDriver &BD;
656   BugTester TestFn;
657   TargetTransformInfo TTI;
658 
659 public:
660   ReduceSimplifyCFG(BugDriver &bd, BugTester testFn)
661       : BD(bd), TestFn(testFn), TTI(bd.getProgram().getDataLayout()) {}
662 
663   Expected<TestResult> doTest(std::vector<const BasicBlock *> &Prefix,
664                               std::vector<const BasicBlock *> &Kept) override {
665     if (!Kept.empty() && TestBlocks(Kept))
666       return KeepSuffix;
667     if (!Prefix.empty() && TestBlocks(Prefix))
668       return KeepPrefix;
669     return NoFailure;
670   }
671 
672   bool TestBlocks(std::vector<const BasicBlock *> &Prefix);
673 };
674 }
675 
676 bool ReduceSimplifyCFG::TestBlocks(std::vector<const BasicBlock *> &BBs) {
677   // Clone the program to try hacking it apart...
678   ValueToValueMapTy VMap;
679   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
680 
681   // Convert list to set for fast lookup...
682   SmallPtrSet<const BasicBlock *, 8> Blocks;
683   for (const auto *BB : BBs)
684     Blocks.insert(cast<BasicBlock>(VMap[BB]));
685 
686   outs() << "Checking for crash with CFG simplifying:";
687   unsigned NumPrint = Blocks.size();
688   if (NumPrint > 10)
689     NumPrint = 10;
690   for (unsigned i = 0, e = NumPrint; i != e; ++i)
691     outs() << " " << BBs[i]->getName();
692   if (NumPrint < Blocks.size())
693     outs() << "... <" << Blocks.size() << " total>";
694   outs() << ": ";
695 
696   // The following may destroy some blocks, so we save them first
697   std::vector<std::pair<std::string, std::string>> BlockInfo;
698 
699   for (const BasicBlock *BB : Blocks)
700     BlockInfo.emplace_back(std::string(BB->getParent()->getName()),
701                            std::string(BB->getName()));
702 
703   // Loop over and delete any hack up any blocks that are not listed...
704   for (auto &F : *M)
705     // Loop over all of the basic blocks and remove them if they are unneeded.
706     for (Function::iterator BBIt = F.begin(); BBIt != F.end();) {
707       if (!Blocks.count(&*BBIt)) {
708         ++BBIt;
709         continue;
710       }
711       simplifyCFG(&*BBIt++, TTI);
712     }
713   // Verify we didn't break anything
714   std::vector<std::string> Passes;
715   Passes.push_back("verify");
716   std::unique_ptr<Module> New = BD.runPassesOn(M.get(), Passes);
717   if (!New) {
718     errs() << "verify failed!\n";
719     exit(1);
720   }
721   M = std::move(New);
722 
723   // Try running on the hacked up program...
724   if (TestFn(BD, M.get())) {
725     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
726 
727     // Make sure to use basic block pointers that point into the now-current
728     // module, and that they don't include any deleted blocks.
729     BBs.clear();
730     const ValueSymbolTable &GST = BD.getProgram().getValueSymbolTable();
731     for (auto &BI : BlockInfo) {
732       auto *F = cast<Function>(GST.lookup(BI.first));
733       Value *V = F->getValueSymbolTable()->lookup(BI.second);
734       if (V && V->getType() == Type::getLabelTy(V->getContext()))
735         BBs.push_back(cast<BasicBlock>(V));
736     }
737     return true;
738   }
739   // It didn't crash, try something else.
740   return false;
741 }
742 
743 namespace {
744 /// ReduceCrashingInstructions reducer - This works by removing the specified
745 /// non-terminator instructions and replacing them with undef.
746 ///
747 class ReduceCrashingInstructions : public ListReducer<const Instruction *> {
748   BugDriver &BD;
749   BugTester TestFn;
750 
751 public:
752   ReduceCrashingInstructions(BugDriver &bd, BugTester testFn)
753       : BD(bd), TestFn(testFn) {}
754 
755   Expected<TestResult> doTest(std::vector<const Instruction *> &Prefix,
756                               std::vector<const Instruction *> &Kept) override {
757     if (!Kept.empty() && TestInsts(Kept))
758       return KeepSuffix;
759     if (!Prefix.empty() && TestInsts(Prefix))
760       return KeepPrefix;
761     return NoFailure;
762   }
763 
764   bool TestInsts(std::vector<const Instruction *> &Prefix);
765 };
766 }
767 
768 bool ReduceCrashingInstructions::TestInsts(
769     std::vector<const Instruction *> &Insts) {
770   // Clone the program to try hacking it apart...
771   ValueToValueMapTy VMap;
772   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
773 
774   // Convert list to set for fast lookup...
775   SmallPtrSet<Instruction *, 32> Instructions;
776   for (unsigned i = 0, e = Insts.size(); i != e; ++i) {
777     assert(!Insts[i]->isTerminator());
778     Instructions.insert(cast<Instruction>(VMap[Insts[i]]));
779   }
780 
781   outs() << "Checking for crash with only " << Instructions.size();
782   if (Instructions.size() == 1)
783     outs() << " instruction: ";
784   else
785     outs() << " instructions: ";
786 
787   for (Module::iterator MI = M->begin(), ME = M->end(); MI != ME; ++MI)
788     for (Function::iterator FI = MI->begin(), FE = MI->end(); FI != FE; ++FI)
789       for (Instruction &Inst : llvm::make_early_inc_range(*FI)) {
790         if (!Instructions.count(&Inst) && !Inst.isTerminator() &&
791             !Inst.isEHPad() && !Inst.getType()->isTokenTy() &&
792             !Inst.isSwiftError()) {
793           if (!Inst.getType()->isVoidTy())
794             Inst.replaceAllUsesWith(PoisonValue::get(Inst.getType()));
795           Inst.eraseFromParent();
796         }
797       }
798 
799   // Verify that this is still valid.
800   legacy::PassManager Passes;
801   Passes.add(createVerifierPass(/*FatalErrors=*/false));
802   Passes.run(*M);
803 
804   // Try running on the hacked up program...
805   if (TestFn(BD, M.get())) {
806     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
807 
808     // Make sure to use instruction pointers that point into the now-current
809     // module, and that they don't include any deleted blocks.
810     Insts.clear();
811     for (Instruction *Inst : Instructions)
812       Insts.push_back(Inst);
813     return true;
814   }
815   // It didn't crash, try something else.
816   return false;
817 }
818 
819 namespace {
820 /// ReduceCrashingMetadata reducer - This works by removing all metadata from
821 /// the specified instructions.
822 ///
823 class ReduceCrashingMetadata : public ListReducer<Instruction *> {
824   BugDriver &BD;
825   BugTester TestFn;
826 
827 public:
828   ReduceCrashingMetadata(BugDriver &bd, BugTester testFn)
829       : BD(bd), TestFn(testFn) {}
830 
831   Expected<TestResult> doTest(std::vector<Instruction *> &Prefix,
832                               std::vector<Instruction *> &Kept) override {
833     if (!Kept.empty() && TestInsts(Kept))
834       return KeepSuffix;
835     if (!Prefix.empty() && TestInsts(Prefix))
836       return KeepPrefix;
837     return NoFailure;
838   }
839 
840   bool TestInsts(std::vector<Instruction *> &Prefix);
841 };
842 } // namespace
843 
844 bool ReduceCrashingMetadata::TestInsts(std::vector<Instruction *> &Insts) {
845   // Clone the program to try hacking it apart...
846   ValueToValueMapTy VMap;
847   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
848 
849   // Convert list to set for fast lookup...
850   SmallPtrSet<Instruction *, 32> Instructions;
851   for (Instruction *I : Insts)
852     Instructions.insert(cast<Instruction>(VMap[I]));
853 
854   outs() << "Checking for crash with metadata retained from "
855          << Instructions.size();
856   if (Instructions.size() == 1)
857     outs() << " instruction: ";
858   else
859     outs() << " instructions: ";
860 
861   // Try to drop instruction metadata from all instructions, except the ones
862   // selected in Instructions.
863   for (Function &F : *M)
864     for (Instruction &Inst : instructions(F)) {
865       if (!Instructions.count(&Inst)) {
866         Inst.dropUnknownNonDebugMetadata();
867         Inst.setDebugLoc({});
868       }
869     }
870 
871   // Verify that this is still valid.
872   legacy::PassManager Passes;
873   Passes.add(createVerifierPass(/*FatalErrors=*/false));
874   Passes.run(*M);
875 
876   // Try running on the hacked up program...
877   if (TestFn(BD, M.get())) {
878     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
879 
880     // Make sure to use instruction pointers that point into the now-current
881     // module, and that they don't include any deleted blocks.
882     Insts.clear();
883     for (Instruction *I : Instructions)
884       Insts.push_back(I);
885     return true;
886   }
887   // It didn't crash, try something else.
888   return false;
889 }
890 
891 namespace {
892 // Reduce the list of Named Metadata nodes. We keep this as a list of
893 // names to avoid having to convert back and forth every time.
894 class ReduceCrashingNamedMD : public ListReducer<std::string> {
895   BugDriver &BD;
896   BugTester TestFn;
897 
898 public:
899   ReduceCrashingNamedMD(BugDriver &bd, BugTester testFn)
900       : BD(bd), TestFn(testFn) {}
901 
902   Expected<TestResult> doTest(std::vector<std::string> &Prefix,
903                               std::vector<std::string> &Kept) override {
904     if (!Kept.empty() && TestNamedMDs(Kept))
905       return KeepSuffix;
906     if (!Prefix.empty() && TestNamedMDs(Prefix))
907       return KeepPrefix;
908     return NoFailure;
909   }
910 
911   bool TestNamedMDs(std::vector<std::string> &NamedMDs);
912 };
913 }
914 
915 bool ReduceCrashingNamedMD::TestNamedMDs(std::vector<std::string> &NamedMDs) {
916 
917   ValueToValueMapTy VMap;
918   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
919 
920   outs() << "Checking for crash with only these named metadata nodes:";
921   unsigned NumPrint = std::min<size_t>(NamedMDs.size(), 10);
922   for (unsigned i = 0, e = NumPrint; i != e; ++i)
923     outs() << " " << NamedMDs[i];
924   if (NumPrint < NamedMDs.size())
925     outs() << "... <" << NamedMDs.size() << " total>";
926   outs() << ": ";
927 
928   // Make a StringMap for faster lookup
929   StringSet<> Names;
930   for (const std::string &Name : NamedMDs)
931     Names.insert(Name);
932 
933   // First collect all the metadata to delete in a vector, then
934   // delete them all at once to avoid invalidating the iterator
935   std::vector<NamedMDNode *> ToDelete;
936   ToDelete.reserve(M->named_metadata_size() - Names.size());
937   for (auto &NamedMD : M->named_metadata())
938     // Always keep a nonempty llvm.dbg.cu because the Verifier would complain.
939     if (!Names.count(NamedMD.getName()) &&
940         (!(NamedMD.getName() == "llvm.dbg.cu" && NamedMD.getNumOperands() > 0)))
941       ToDelete.push_back(&NamedMD);
942 
943   for (auto *NamedMD : ToDelete)
944     NamedMD->eraseFromParent();
945 
946   // Verify that this is still valid.
947   legacy::PassManager Passes;
948   Passes.add(createVerifierPass(/*FatalErrors=*/false));
949   Passes.run(*M);
950 
951   // Try running on the hacked up program...
952   if (TestFn(BD, M.get())) {
953     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
954     return true;
955   }
956   return false;
957 }
958 
959 namespace {
960 // Reduce the list of operands to named metadata nodes
961 class ReduceCrashingNamedMDOps : public ListReducer<const MDNode *> {
962   BugDriver &BD;
963   BugTester TestFn;
964 
965 public:
966   ReduceCrashingNamedMDOps(BugDriver &bd, BugTester testFn)
967       : BD(bd), TestFn(testFn) {}
968 
969   Expected<TestResult> doTest(std::vector<const MDNode *> &Prefix,
970                               std::vector<const MDNode *> &Kept) override {
971     if (!Kept.empty() && TestNamedMDOps(Kept))
972       return KeepSuffix;
973     if (!Prefix.empty() && TestNamedMDOps(Prefix))
974       return KeepPrefix;
975     return NoFailure;
976   }
977 
978   bool TestNamedMDOps(std::vector<const MDNode *> &NamedMDOps);
979 };
980 }
981 
982 bool ReduceCrashingNamedMDOps::TestNamedMDOps(
983     std::vector<const MDNode *> &NamedMDOps) {
984   // Convert list to set for fast lookup...
985   SmallPtrSet<const MDNode *, 32> OldMDNodeOps;
986   for (unsigned i = 0, e = NamedMDOps.size(); i != e; ++i) {
987     OldMDNodeOps.insert(NamedMDOps[i]);
988   }
989 
990   outs() << "Checking for crash with only " << OldMDNodeOps.size();
991   if (OldMDNodeOps.size() == 1)
992     outs() << " named metadata operand: ";
993   else
994     outs() << " named metadata operands: ";
995 
996   ValueToValueMapTy VMap;
997   std::unique_ptr<Module> M = CloneModule(BD.getProgram(), VMap);
998 
999   // This is a little wasteful. In the future it might be good if we could have
1000   // these dropped during cloning.
1001   for (auto &NamedMD : BD.getProgram().named_metadata()) {
1002     // Drop the old one and create a new one
1003     M->eraseNamedMetadata(M->getNamedMetadata(NamedMD.getName()));
1004     NamedMDNode *NewNamedMDNode =
1005         M->getOrInsertNamedMetadata(NamedMD.getName());
1006     for (MDNode *op : NamedMD.operands())
1007       if (OldMDNodeOps.count(op))
1008         NewNamedMDNode->addOperand(cast<MDNode>(MapMetadata(op, VMap)));
1009   }
1010 
1011   // Verify that this is still valid.
1012   legacy::PassManager Passes;
1013   Passes.add(createVerifierPass(/*FatalErrors=*/false));
1014   Passes.run(*M);
1015 
1016   // Try running on the hacked up program...
1017   if (TestFn(BD, M.get())) {
1018     // Make sure to use instruction pointers that point into the now-current
1019     // module, and that they don't include any deleted blocks.
1020     NamedMDOps.clear();
1021     for (const MDNode *Node : OldMDNodeOps)
1022       NamedMDOps.push_back(cast<MDNode>(*VMap.getMappedMD(Node)));
1023 
1024     BD.setNewProgram(std::move(M)); // It crashed, keep the trimmed version...
1025     return true;
1026   }
1027   // It didn't crash, try something else.
1028   return false;
1029 }
1030 
1031 /// Attempt to eliminate as many global initializers as possible.
1032 static Error ReduceGlobalInitializers(BugDriver &BD, BugTester TestFn) {
1033   Module &OrigM = BD.getProgram();
1034   if (OrigM.global_empty())
1035     return Error::success();
1036 
1037   // Now try to reduce the number of global variable initializers in the
1038   // module to something small.
1039   std::unique_ptr<Module> M = CloneModule(OrigM);
1040   bool DeletedInit = false;
1041 
1042   for (GlobalVariable &GV : M->globals()) {
1043     if (GV.hasInitializer()) {
1044       DeleteGlobalInitializer(&GV);
1045       GV.setLinkage(GlobalValue::ExternalLinkage);
1046       GV.setComdat(nullptr);
1047       DeletedInit = true;
1048     }
1049   }
1050 
1051   if (!DeletedInit)
1052     return Error::success();
1053 
1054   // See if the program still causes a crash...
1055   outs() << "\nChecking to see if we can delete global inits: ";
1056 
1057   if (TestFn(BD, M.get())) { // Still crashes?
1058     BD.setNewProgram(std::move(M));
1059     outs() << "\n*** Able to remove all global initializers!\n";
1060     return Error::success();
1061   }
1062 
1063   // No longer crashes.
1064   outs() << "  - Removing all global inits hides problem!\n";
1065 
1066   std::vector<GlobalVariable *> GVs;
1067   for (GlobalVariable &GV : OrigM.globals())
1068     if (GV.hasInitializer())
1069       GVs.push_back(&GV);
1070 
1071   if (GVs.size() > 1 && !BugpointIsInterrupted) {
1072     outs() << "\n*** Attempting to reduce the number of global initializers "
1073            << "in the testcase\n";
1074 
1075     unsigned OldSize = GVs.size();
1076     Expected<bool> Result =
1077         ReduceCrashingGlobalInitializers(BD, TestFn).reduceList(GVs);
1078     if (Error E = Result.takeError())
1079       return E;
1080 
1081     if (GVs.size() < OldSize)
1082       BD.EmitProgressBitcode(BD.getProgram(), "reduced-global-variables");
1083   }
1084   return Error::success();
1085 }
1086 
1087 static Error ReduceInsts(BugDriver &BD, BugTester TestFn) {
1088   // Attempt to delete instructions using bisection. This should help out nasty
1089   // cases with large basic blocks where the problem is at one end.
1090   if (!BugpointIsInterrupted) {
1091     std::vector<const Instruction *> Insts;
1092     for (const Function &F : BD.getProgram())
1093       for (const BasicBlock &BB : F)
1094         for (const Instruction &I : BB)
1095           if (!I.isTerminator())
1096             Insts.push_back(&I);
1097 
1098     Expected<bool> Result =
1099         ReduceCrashingInstructions(BD, TestFn).reduceList(Insts);
1100     if (Error E = Result.takeError())
1101       return E;
1102   }
1103 
1104   unsigned Simplification = 2;
1105   do {
1106     if (BugpointIsInterrupted)
1107       // TODO: Should we distinguish this with an "interrupted error"?
1108       return Error::success();
1109     --Simplification;
1110     outs() << "\n*** Attempting to reduce testcase by deleting instruc"
1111            << "tions: Simplification Level #" << Simplification << '\n';
1112 
1113     // Now that we have deleted the functions that are unnecessary for the
1114     // program, try to remove instructions that are not necessary to cause the
1115     // crash.  To do this, we loop through all of the instructions in the
1116     // remaining functions, deleting them (replacing any values produced with
1117     // nulls), and then running ADCE and SimplifyCFG.  If the transformed input
1118     // still triggers failure, keep deleting until we cannot trigger failure
1119     // anymore.
1120     //
1121     unsigned InstructionsToSkipBeforeDeleting = 0;
1122   TryAgain:
1123 
1124     // Loop over all of the (non-terminator) instructions remaining in the
1125     // function, attempting to delete them.
1126     unsigned CurInstructionNum = 0;
1127     for (Module::const_iterator FI = BD.getProgram().begin(),
1128                                 E = BD.getProgram().end();
1129          FI != E; ++FI)
1130       if (!FI->isDeclaration())
1131         for (Function::const_iterator BI = FI->begin(), E = FI->end(); BI != E;
1132              ++BI)
1133           for (BasicBlock::const_iterator I = BI->begin(), E = --BI->end();
1134                I != E; ++I, ++CurInstructionNum) {
1135             if (InstructionsToSkipBeforeDeleting) {
1136               --InstructionsToSkipBeforeDeleting;
1137             } else {
1138               if (BugpointIsInterrupted)
1139                 // TODO: Should this be some kind of interrupted error?
1140                 return Error::success();
1141 
1142               if (I->isEHPad() || I->getType()->isTokenTy() ||
1143                   I->isSwiftError())
1144                 continue;
1145 
1146               outs() << "Checking instruction: " << *I;
1147               std::unique_ptr<Module> M =
1148                   BD.deleteInstructionFromProgram(&*I, Simplification);
1149 
1150               // Find out if the pass still crashes on this pass...
1151               if (TestFn(BD, M.get())) {
1152                 // Yup, it does, we delete the old module, and continue trying
1153                 // to reduce the testcase...
1154                 BD.setNewProgram(std::move(M));
1155                 InstructionsToSkipBeforeDeleting = CurInstructionNum;
1156                 goto TryAgain; // I wish I had a multi-level break here!
1157               }
1158             }
1159           }
1160 
1161     if (InstructionsToSkipBeforeDeleting) {
1162       InstructionsToSkipBeforeDeleting = 0;
1163       goto TryAgain;
1164     }
1165 
1166   } while (Simplification);
1167 
1168   // Attempt to drop metadata from instructions that does not contribute to the
1169   // crash.
1170   if (!BugpointIsInterrupted) {
1171     std::vector<Instruction *> Insts;
1172     for (Function &F : BD.getProgram())
1173       for (Instruction &I : instructions(F))
1174         Insts.push_back(&I);
1175 
1176     Expected<bool> Result =
1177         ReduceCrashingMetadata(BD, TestFn).reduceList(Insts);
1178     if (Error E = Result.takeError())
1179       return E;
1180   }
1181 
1182   BD.EmitProgressBitcode(BD.getProgram(), "reduced-instructions");
1183   return Error::success();
1184 }
1185 
1186 /// DebugACrash - Given a predicate that determines whether a component crashes
1187 /// on a program, try to destructively reduce the program while still keeping
1188 /// the predicate true.
1189 static Error DebugACrash(BugDriver &BD, BugTester TestFn) {
1190   // See if we can get away with nuking some of the global variable initializers
1191   // in the program...
1192   if (!NoGlobalRM)
1193     if (Error E = ReduceGlobalInitializers(BD, TestFn))
1194       return E;
1195 
1196   // Now try to reduce the number of functions in the module to something small.
1197   std::vector<Function *> Functions;
1198   for (Function &F : BD.getProgram())
1199     if (!F.isDeclaration())
1200       Functions.push_back(&F);
1201 
1202   if (Functions.size() > 1 && !BugpointIsInterrupted) {
1203     outs() << "\n*** Attempting to reduce the number of functions "
1204               "in the testcase\n";
1205 
1206     unsigned OldSize = Functions.size();
1207     Expected<bool> Result =
1208         ReduceCrashingFunctions(BD, TestFn).reduceList(Functions);
1209     if (Error E = Result.takeError())
1210       return E;
1211 
1212     if (Functions.size() < OldSize)
1213       BD.EmitProgressBitcode(BD.getProgram(), "reduced-function");
1214   }
1215 
1216   if (!NoAttributeRM) {
1217     // For each remaining function, try to reduce that function's attributes.
1218     std::vector<std::string> FunctionNames;
1219     for (Function &F : BD.getProgram())
1220       FunctionNames.push_back(std::string(F.getName()));
1221 
1222     if (!FunctionNames.empty() && !BugpointIsInterrupted) {
1223       outs() << "\n*** Attempting to reduce the number of function attributes"
1224                 " in the testcase\n";
1225 
1226       unsigned OldSize = 0;
1227       unsigned NewSize = 0;
1228       for (std::string &Name : FunctionNames) {
1229         Function *Fn = BD.getProgram().getFunction(Name);
1230         assert(Fn && "Could not find function?");
1231 
1232         std::vector<Attribute> Attrs;
1233         for (Attribute A : Fn->getAttributes().getFnAttrs())
1234           Attrs.push_back(A);
1235 
1236         OldSize += Attrs.size();
1237         Expected<bool> Result =
1238           ReduceCrashingFunctionAttributes(BD, Name, TestFn).reduceList(Attrs);
1239         if (Error E = Result.takeError())
1240           return E;
1241 
1242         NewSize += Attrs.size();
1243       }
1244 
1245       if (OldSize < NewSize)
1246         BD.EmitProgressBitcode(BD.getProgram(), "reduced-function-attributes");
1247     }
1248   }
1249 
1250   // Attempt to change conditional branches into unconditional branches to
1251   // eliminate blocks.
1252   if (!DisableSimplifyCFG && !BugpointIsInterrupted) {
1253     std::vector<const BasicBlock *> Blocks;
1254     for (Function &F : BD.getProgram())
1255       for (BasicBlock &BB : F)
1256         Blocks.push_back(&BB);
1257     unsigned OldSize = Blocks.size();
1258     Expected<bool> Result =
1259         ReduceCrashingConditionals(BD, TestFn, true).reduceList(Blocks);
1260     if (Error E = Result.takeError())
1261       return E;
1262     Result = ReduceCrashingConditionals(BD, TestFn, false).reduceList(Blocks);
1263     if (Error E = Result.takeError())
1264       return E;
1265     if (Blocks.size() < OldSize)
1266       BD.EmitProgressBitcode(BD.getProgram(), "reduced-conditionals");
1267   }
1268 
1269   // Attempt to delete entire basic blocks at a time to speed up
1270   // convergence... this actually works by setting the terminator of the blocks
1271   // to a return instruction then running simplifycfg, which can potentially
1272   // shrinks the code dramatically quickly
1273   //
1274   if (!DisableSimplifyCFG && !BugpointIsInterrupted) {
1275     std::vector<const BasicBlock *> Blocks;
1276     for (Function &F : BD.getProgram())
1277       for (BasicBlock &BB : F)
1278         Blocks.push_back(&BB);
1279     unsigned OldSize = Blocks.size();
1280     Expected<bool> Result = ReduceCrashingBlocks(BD, TestFn).reduceList(Blocks);
1281     if (Error E = Result.takeError())
1282       return E;
1283     if (Blocks.size() < OldSize)
1284       BD.EmitProgressBitcode(BD.getProgram(), "reduced-blocks");
1285   }
1286 
1287   if (!DisableSimplifyCFG && !BugpointIsInterrupted) {
1288     std::vector<const BasicBlock *> Blocks;
1289     for (Function &F : BD.getProgram())
1290       for (BasicBlock &BB : F)
1291         Blocks.push_back(&BB);
1292     unsigned OldSize = Blocks.size();
1293     Expected<bool> Result = ReduceSimplifyCFG(BD, TestFn).reduceList(Blocks);
1294     if (Error E = Result.takeError())
1295       return E;
1296     if (Blocks.size() < OldSize)
1297       BD.EmitProgressBitcode(BD.getProgram(), "reduced-simplifycfg");
1298   }
1299 
1300   // Attempt to delete instructions using bisection. This should help out nasty
1301   // cases with large basic blocks where the problem is at one end.
1302   if (!BugpointIsInterrupted)
1303     if (Error E = ReduceInsts(BD, TestFn))
1304       return E;
1305 
1306   // Attempt to strip debug info metadata.
1307   auto stripMetadata = [&](std::function<bool(Module &)> strip) {
1308     std::unique_ptr<Module> M = CloneModule(BD.getProgram());
1309     strip(*M);
1310     if (TestFn(BD, M.get()))
1311       BD.setNewProgram(std::move(M));
1312   };
1313   if (!NoStripDebugInfo && !BugpointIsInterrupted) {
1314     outs() << "\n*** Attempting to strip the debug info: ";
1315     stripMetadata(StripDebugInfo);
1316   }
1317   if (!NoStripDebugTypeInfo && !BugpointIsInterrupted) {
1318     outs() << "\n*** Attempting to strip the debug type info: ";
1319     stripMetadata(stripNonLineTableDebugInfo);
1320   }
1321 
1322   if (!NoNamedMDRM) {
1323     if (!BugpointIsInterrupted) {
1324       // Try to reduce the amount of global metadata (particularly debug info),
1325       // by dropping global named metadata that anchors them
1326       outs() << "\n*** Attempting to remove named metadata: ";
1327       std::vector<std::string> NamedMDNames;
1328       for (auto &NamedMD : BD.getProgram().named_metadata())
1329         NamedMDNames.push_back(NamedMD.getName().str());
1330       Expected<bool> Result =
1331           ReduceCrashingNamedMD(BD, TestFn).reduceList(NamedMDNames);
1332       if (Error E = Result.takeError())
1333         return E;
1334     }
1335 
1336     if (!BugpointIsInterrupted) {
1337       // Now that we quickly dropped all the named metadata that doesn't
1338       // contribute to the crash, bisect the operands of the remaining ones
1339       std::vector<const MDNode *> NamedMDOps;
1340       for (auto &NamedMD : BD.getProgram().named_metadata())
1341         for (auto *op : NamedMD.operands())
1342           NamedMDOps.push_back(op);
1343       Expected<bool> Result =
1344           ReduceCrashingNamedMDOps(BD, TestFn).reduceList(NamedMDOps);
1345       if (Error E = Result.takeError())
1346         return E;
1347     }
1348     BD.EmitProgressBitcode(BD.getProgram(), "reduced-named-md");
1349   }
1350 
1351   // Try to clean up the testcase by running funcresolve and globaldce...
1352   if (!BugpointIsInterrupted) {
1353     outs() << "\n*** Attempting to perform final cleanups: ";
1354     std::unique_ptr<Module> M = CloneModule(BD.getProgram());
1355     M = BD.performFinalCleanups(std::move(M), true);
1356 
1357     // Find out if the pass still crashes on the cleaned up program...
1358     if (M && TestFn(BD, M.get()))
1359       BD.setNewProgram(
1360           std::move(M)); // Yup, it does, keep the reduced version...
1361   }
1362 
1363   BD.EmitProgressBitcode(BD.getProgram(), "reduced-simplified");
1364 
1365   return Error::success();
1366 }
1367 
1368 static bool TestForOptimizerCrash(const BugDriver &BD, Module *M) {
1369   return BD.runPasses(*M, BD.getPassesToRun());
1370 }
1371 
1372 /// debugOptimizerCrash - This method is called when some pass crashes on input.
1373 /// It attempts to prune down the testcase to something reasonable, and figure
1374 /// out exactly which pass is crashing.
1375 ///
1376 Error BugDriver::debugOptimizerCrash(const std::string &ID) {
1377   outs() << "\n*** Debugging optimizer crash!\n";
1378 
1379   // Reduce the list of passes which causes the optimizer to crash...
1380   if (!BugpointIsInterrupted && !DontReducePassList) {
1381     Expected<bool> Result = ReducePassList(*this).reduceList(PassesToRun);
1382     if (Error E = Result.takeError())
1383       return E;
1384   }
1385 
1386   outs() << "\n*** Found crashing pass"
1387          << (PassesToRun.size() == 1 ? ": " : "es: ")
1388          << getPassesString(PassesToRun) << '\n';
1389 
1390   EmitProgressBitcode(*Program, ID);
1391 
1392   auto Res = DebugACrash(*this, TestForOptimizerCrash);
1393   if (Res || DontReducePassList)
1394     return Res;
1395   // Try to reduce the pass list again. This covers additional cases
1396   // we failed to reduce earlier, because of more complex pass dependencies
1397   // triggering the crash.
1398   auto SecondRes = ReducePassList(*this).reduceList(PassesToRun);
1399   if (Error E = SecondRes.takeError())
1400     return E;
1401   outs() << "\n*** Found crashing pass"
1402          << (PassesToRun.size() == 1 ? ": " : "es: ")
1403          << getPassesString(PassesToRun) << '\n';
1404 
1405   EmitProgressBitcode(getProgram(), "reduced-simplified");
1406   return Res;
1407 }
1408 
1409 static bool TestForCodeGenCrash(const BugDriver &BD, Module *M) {
1410   if (Error E = BD.compileProgram(*M)) {
1411     if (VerboseErrors)
1412       errs() << toString(std::move(E)) << "\n";
1413     else {
1414       consumeError(std::move(E));
1415       errs() << "<crash>\n";
1416     }
1417     return true; // Tool is still crashing.
1418   }
1419   errs() << '\n';
1420   return false;
1421 }
1422 
1423 /// debugCodeGeneratorCrash - This method is called when the code generator
1424 /// crashes on an input.  It attempts to reduce the input as much as possible
1425 /// while still causing the code generator to crash.
1426 Error BugDriver::debugCodeGeneratorCrash() {
1427   errs() << "*** Debugging code generator crash!\n";
1428 
1429   return DebugACrash(*this, TestForCodeGenCrash);
1430 }
1431