//===- TraceValues.cpp - Value Tracing for debugging ----------------------===// // // The LLVM Compiler Infrastructure // // This file was developed by the LLVM research group and is distributed under // the University of Illinois Open Source License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Support for inserting LLVM code to print values at basic block and function // exits. // //===----------------------------------------------------------------------===// #include "llvm/Transforms/Instrumentation.h" #include "llvm/Constants.h" #include "llvm/DerivedTypes.h" #include "llvm/Instructions.h" #include "llvm/Module.h" #include "llvm/Pass.h" #include "llvm/Assembly/Writer.h" #include "llvm/Support/CommandLine.h" #include "llvm/ADT/StringExtras.h" #include #include using namespace llvm; static cl::opt DisablePtrHashing("tracedisablehashdisable", cl::Hidden, cl::desc("Disable pointer hashing in the -trace or -tracem " "passes")); static cl::list TraceFuncNames("tracefunc", cl::desc("Only trace specific functions in the " "-trace or -tracem passes"), cl::value_desc("function"), cl::Hidden); static void TraceValuesAtBBExit(BasicBlock *BB, Function *Printf, Function* HashPtrToSeqNum, std::vector *valuesStoredInFunction); // We trace a particular function if no functions to trace were specified // or if the function is in the specified list. // inline static bool TraceThisFunction(Function &F) { if (TraceFuncNames.empty()) return true; return std::find(TraceFuncNames.begin(), TraceFuncNames.end(), F.getName()) != TraceFuncNames.end(); } namespace { struct ExternalFuncs { Function *PrintfFunc, *HashPtrFunc, *ReleasePtrFunc; Function *RecordPtrFunc, *PushOnEntryFunc, *ReleaseOnReturnFunc; void doInitialization(Module &M); // Add prototypes for external functions }; class InsertTraceCode : public FunctionPass { protected: ExternalFuncs externalFuncs; public: // Add a prototype for runtime functions not already in the program. // bool doInitialization(Module &M); //-------------------------------------------------------------------------- // Function InsertCodeToTraceValues // // Inserts tracing code for all live values at basic block and/or function // exits as specified by `traceBasicBlockExits' and `traceFunctionExits'. // bool doit(Function *M); virtual void handleBasicBlock(BasicBlock *BB, std::vector &VI) = 0; // runOnFunction - This method does the work. // bool runOnFunction(Function &F); virtual void getAnalysisUsage(AnalysisUsage &AU) const { AU.setPreservesCFG(); } }; struct FunctionTracer : public InsertTraceCode { // Ignore basic blocks here... virtual void handleBasicBlock(BasicBlock *BB, std::vector &VI) {} }; struct BasicBlockTracer : public InsertTraceCode { // Trace basic blocks here... virtual void handleBasicBlock(BasicBlock *BB, std::vector &VI) { TraceValuesAtBBExit(BB, externalFuncs.PrintfFunc, externalFuncs.HashPtrFunc, &VI); } }; // Register the passes... RegisterOpt X("tracem","Insert Function trace code only"); RegisterOpt Y("trace","Insert BB and Function trace code"); } // end anonymous namespace /// Just trace functions FunctionPass *llvm::createTraceValuesPassForFunction() { return new FunctionTracer(); } /// Trace BB's and functions FunctionPass *llvm::createTraceValuesPassForBasicBlocks() { return new BasicBlockTracer(); } // Add a prototype for external functions used by the tracing code and require // the trace library for this module. // void ExternalFuncs::doInitialization(Module &M) { M.addLibrary("trace"); const Type *SBP = PointerType::get(Type::SByteTy); const FunctionType *MTy = FunctionType::get(Type::IntTy, std::vector(1, SBP), true); PrintfFunc = M.getOrInsertFunction("printf", MTy); // uint (sbyte*) HashPtrFunc = M.getOrInsertFunction("HashPointerToSeqNum", Type::UIntTy, SBP, 0); // void (sbyte*) ReleasePtrFunc = M.getOrInsertFunction("ReleasePointerSeqNum", Type::VoidTy, SBP, 0); RecordPtrFunc = M.getOrInsertFunction("RecordPointer", Type::VoidTy, SBP, 0); PushOnEntryFunc = M.getOrInsertFunction("PushPointerSet", Type::VoidTy, 0); ReleaseOnReturnFunc = M.getOrInsertFunction("ReleasePointersPopSet", Type::VoidTy, 0); } // Add a prototype for external functions used by the tracing code. // bool InsertTraceCode::doInitialization(Module &M) { externalFuncs.doInitialization(M); return false; } static inline GlobalVariable *getStringRef(Module *M, const std::string &str) { // Create a constant internal string reference... Constant *Init = ConstantArray::get(str); // Create the global variable and record it in the module // The GV will be renamed to a unique name if needed. GlobalVariable *GV = new GlobalVariable(Init->getType(), true, GlobalValue::InternalLinkage, Init, "trstr"); M->getGlobalList().push_back(GV); return GV; } // // Check if this instruction has any uses outside its basic block, // or if it used by either a Call or Return instruction (ditto). // (Values stored to memory within this BB are live at end of BB but are // traced at the store instruction, not where they are computed.) // static inline bool LiveAtBBExit(const Instruction* I) { const BasicBlock *BB = I->getParent(); for (Value::use_const_iterator U = I->use_begin(); U != I->use_end(); ++U) if (const Instruction *UI = dyn_cast(*U)) if (UI->getParent() != BB || isa(UI)) return true; return false; } static inline bool TraceThisOpCode(unsigned opCode) { // Explicitly test for opCodes *not* to trace so that any new opcodes will // be traced by default (VoidTy's are already excluded) // return (opCode < Instruction::OtherOpsBegin && opCode != Instruction::Alloca && opCode != Instruction::PHI && opCode != Instruction::Cast); } // Trace a value computed by an instruction if it is non-void, it is computed // by a real computation, not just a copy (see TraceThisOpCode), and // -- it is a load instruction: we want to check values read from memory // -- or it is live at exit from the basic block (i.e., ignore local temps) // static bool ShouldTraceValue(const Instruction *I) { return I->getType() != Type::VoidTy && TraceThisOpCode(I->getOpcode()) && (isa(I) || LiveAtBBExit(I)); } static std::string getPrintfCodeFor(const Value *V) { if (V == 0) return ""; if (V->getType()->isFloatingPoint()) return "%g"; else if (V->getType() == Type::LabelTy) return "0x%p"; else if (isa(V->getType())) return DisablePtrHashing ? "0x%p" : "%d"; else if (V->getType()->isIntegral()) return "%d"; assert(0 && "Illegal value to print out..."); return ""; } static void InsertPrintInst(Value *V, BasicBlock *BB, Instruction *InsertBefore, std::string Message, Function *Printf, Function* HashPtrToSeqNum) { // Escape Message by replacing all % characters with %% chars. std::string Tmp; std::swap(Tmp, Message); std::string::iterator I = std::find(Tmp.begin(), Tmp.end(), '%'); while (I != Tmp.end()) { Message.append(Tmp.begin(), I); Message += "%%"; ++I; // Make sure to erase the % as well... Tmp.erase(Tmp.begin(), I); I = std::find(Tmp.begin(), Tmp.end(), '%'); } Message += Tmp; Module *Mod = BB->getParent()->getParent(); // Turn the marker string into a global variable... GlobalVariable *fmtVal = getStringRef(Mod, Message+getPrintfCodeFor(V)+"\n"); // Turn the format string into an sbyte * Constant *GEP=ConstantExpr::getGetElementPtr(fmtVal, std::vector(2,Constant::getNullValue(Type::LongTy))); // Insert a call to the hash function if this is a pointer value if (V && isa(V->getType()) && !DisablePtrHashing) { const Type *SBP = PointerType::get(Type::SByteTy); if (V->getType() != SBP) // Cast pointer to be sbyte* V = new CastInst(V, SBP, "Hash_cast", InsertBefore); std::vector HashArgs(1, V); V = new CallInst(HashPtrToSeqNum, HashArgs, "ptrSeqNum", InsertBefore); } // Insert the first print instruction to print the string flag: std::vector PrintArgs; PrintArgs.push_back(GEP); if (V) PrintArgs.push_back(V); new CallInst(Printf, PrintArgs, "trace", InsertBefore); } static void InsertVerbosePrintInst(Value *V, BasicBlock *BB, Instruction *InsertBefore, const std::string &Message, Function *Printf, Function* HashPtrToSeqNum) { std::ostringstream OutStr; if (V) WriteAsOperand(OutStr, V); InsertPrintInst(V, BB, InsertBefore, Message+OutStr.str()+" = ", Printf, HashPtrToSeqNum); } static void InsertReleaseInst(Value *V, BasicBlock *BB, Instruction *InsertBefore, Function* ReleasePtrFunc) { const Type *SBP = PointerType::get(Type::SByteTy); if (V->getType() != SBP) // Cast pointer to be sbyte* V = new CastInst(V, SBP, "RPSN_cast", InsertBefore); std::vector releaseArgs(1, V); new CallInst(ReleasePtrFunc, releaseArgs, "", InsertBefore); } static void InsertRecordInst(Value *V, BasicBlock *BB, Instruction *InsertBefore, Function* RecordPtrFunc) { const Type *SBP = PointerType::get(Type::SByteTy); if (V->getType() != SBP) // Cast pointer to be sbyte* V = new CastInst(V, SBP, "RP_cast", InsertBefore); std::vector releaseArgs(1, V); new CallInst(RecordPtrFunc, releaseArgs, "", InsertBefore); } // Look for alloca and free instructions. These are the ptrs to release. // Release the free'd pointers immediately. Record the alloca'd pointers // to be released on return from the current function. // static void ReleasePtrSeqNumbers(BasicBlock *BB, ExternalFuncs& externalFuncs) { for (BasicBlock::iterator II=BB->begin(), IE = BB->end(); II != IE; ++II) if (FreeInst *FI = dyn_cast(II)) InsertReleaseInst(FI->getOperand(0), BB, FI,externalFuncs.ReleasePtrFunc); else if (AllocaInst *AI = dyn_cast(II)) InsertRecordInst(AI, BB, AI->getNext(), externalFuncs.RecordPtrFunc); } // Insert print instructions at the end of basic block BB for each value // computed in BB that is live at the end of BB, // or that is stored to memory in BB. // If the value is stored to memory, we load it back before printing it // We also return all such loaded values in the vector valuesStoredInFunction // for printing at the exit from the function. (Note that in each invocation // of the function, this will only get the last value stored for each static // store instruction). // static void TraceValuesAtBBExit(BasicBlock *BB, Function *Printf, Function* HashPtrToSeqNum, std::vector *valuesStoredInFunction) { // Get an iterator to point to the insertion location, which is // just before the terminator instruction. // TerminatorInst *InsertPos = BB->getTerminator(); std::ostringstream OutStr; WriteAsOperand(OutStr, BB, false); InsertPrintInst(0, BB, InsertPos, "LEAVING BB:" + OutStr.str(), Printf, HashPtrToSeqNum); // Insert a print instruction for each instruction preceding InsertPos. // The print instructions must go before InsertPos, so we use the // instruction *preceding* InsertPos to check when to terminate the loop. // for (BasicBlock::iterator II = BB->begin(); &*II != InsertPos; ++II) { if (StoreInst *SI = dyn_cast(II)) { // Trace the stored value and address InsertVerbosePrintInst(SI->getOperand(0), BB, InsertPos, " (store value) ", Printf, HashPtrToSeqNum); InsertVerbosePrintInst(SI->getOperand(1), BB, InsertPos, " (store addr ) ", Printf, HashPtrToSeqNum); } else if (ShouldTraceValue(II)) InsertVerbosePrintInst(II, BB, InsertPos, " ", Printf, HashPtrToSeqNum); } } static inline void InsertCodeToShowFunctionEntry(Function &F, Function *Printf, Function* HashPtrToSeqNum){ // Get an iterator to point to the insertion location BasicBlock &BB = F.getEntryBlock(); Instruction *InsertPos = BB.begin(); std::ostringstream OutStr; WriteAsOperand(OutStr, &F); InsertPrintInst(0, &BB, InsertPos, "ENTERING FUNCTION: " + OutStr.str(), Printf, HashPtrToSeqNum); // Now print all the incoming arguments unsigned ArgNo = 0; for (Function::arg_iterator I = F.arg_begin(), E = F.arg_end(); I != E; ++I, ++ArgNo){ InsertVerbosePrintInst(I, &BB, InsertPos, " Arg #" + utostr(ArgNo) + ": ", Printf, HashPtrToSeqNum); } } static inline void InsertCodeToShowFunctionExit(BasicBlock *BB, Function *Printf, Function* HashPtrToSeqNum) { // Get an iterator to point to the insertion location ReturnInst *Ret = cast(BB->getTerminator()); std::ostringstream OutStr; WriteAsOperand(OutStr, BB->getParent(), true); InsertPrintInst(0, BB, Ret, "LEAVING FUNCTION: " + OutStr.str(), Printf, HashPtrToSeqNum); // print the return value, if any if (BB->getParent()->getReturnType() != Type::VoidTy) InsertPrintInst(Ret->getReturnValue(), BB, Ret, " Returning: ", Printf, HashPtrToSeqNum); } bool InsertTraceCode::runOnFunction(Function &F) { if (!TraceThisFunction(F)) return false; std::vector valuesStoredInFunction; std::vector exitBlocks; // Insert code to trace values at function entry InsertCodeToShowFunctionEntry(F, externalFuncs.PrintfFunc, externalFuncs.HashPtrFunc); // Push a pointer set for recording alloca'd pointers at entry. if (!DisablePtrHashing) new CallInst(externalFuncs.PushOnEntryFunc, std::vector(), "", F.getEntryBlock().begin()); for (Function::iterator BB = F.begin(); BB != F.end(); ++BB) { if (isa(BB->getTerminator())) exitBlocks.push_back(BB); // record this as an exit block // Insert trace code if this basic block is interesting... handleBasicBlock(BB, valuesStoredInFunction); if (!DisablePtrHashing) // release seq. numbers on free/ret ReleasePtrSeqNumbers(BB, externalFuncs); } for (unsigned i=0; i != exitBlocks.size(); ++i) { // Insert code to trace values at function exit InsertCodeToShowFunctionExit(exitBlocks[i], externalFuncs.PrintfFunc, externalFuncs.HashPtrFunc); // Release all recorded pointers before RETURN. Do this LAST! if (!DisablePtrHashing) new CallInst(externalFuncs.ReleaseOnReturnFunc, std::vector(), "", exitBlocks[i]->getTerminator()); } return true; }