//=-- InstrProf.cpp - Instrumented profiling format support -----------------=// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file contains support for clang's instrumentation based PGO and // coverage. // //===----------------------------------------------------------------------===// #include "llvm/IR/Constants.h" #include "llvm/IR/Function.h" #include "llvm/IR/Module.h" #include "llvm/IR/GlobalVariable.h" #include "llvm/ProfileData/InstrProf.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/ManagedStatic.h" using namespace llvm; namespace { class InstrProfErrorCategoryType : public std::error_category { const char *name() const LLVM_NOEXCEPT override { return "llvm.instrprof"; } std::string message(int IE) const override { instrprof_error E = static_cast(IE); switch (E) { case instrprof_error::success: return "Success"; case instrprof_error::eof: return "End of File"; case instrprof_error::unrecognized_format: return "Unrecognized instrumentation profile encoding format"; case instrprof_error::bad_magic: return "Invalid instrumentation profile data (bad magic)"; case instrprof_error::bad_header: return "Invalid instrumentation profile data (file header is corrupt)"; case instrprof_error::unsupported_version: return "Unsupported instrumentation profile format version"; case instrprof_error::unsupported_hash_type: return "Unsupported instrumentation profile hash type"; case instrprof_error::too_large: return "Too much profile data"; case instrprof_error::truncated: return "Truncated profile data"; case instrprof_error::malformed: return "Malformed instrumentation profile data"; case instrprof_error::unknown_function: return "No profile data available for function"; case instrprof_error::hash_mismatch: return "Function control flow change detected (hash mismatch)"; case instrprof_error::count_mismatch: return "Function basic block count change detected (counter mismatch)"; case instrprof_error::counter_overflow: return "Counter overflow"; case instrprof_error::value_site_count_mismatch: return "Function value site count change detected (counter mismatch)"; } llvm_unreachable("A value of instrprof_error has no message."); } }; } static ManagedStatic ErrorCategory; const std::error_category &llvm::instrprof_category() { return *ErrorCategory; } namespace llvm { std::string getPGOFuncName(StringRef RawFuncName, GlobalValue::LinkageTypes Linkage, StringRef FileName) { // Function names may be prefixed with a binary '1' to indicate // that the backend should not modify the symbols due to any platform // naming convention. Do not include that '1' in the PGO profile name. if (RawFuncName[0] == '\1') RawFuncName = RawFuncName.substr(1); std::string FuncName = RawFuncName; if (llvm::GlobalValue::isLocalLinkage(Linkage)) { // For local symbols, prepend the main file name to distinguish them. // Do not include the full path in the file name since there's no guarantee // that it will stay the same, e.g., if the files are checked out from // version control in different locations. if (FileName.empty()) FuncName = FuncName.insert(0, ":"); else FuncName = FuncName.insert(0, FileName.str() + ":"); } return FuncName; } std::string getPGOFuncName(const Function &F) { return getPGOFuncName(F.getName(), F.getLinkage(), F.getParent()->getName()); } GlobalVariable *createPGOFuncNameVar(Module &M, GlobalValue::LinkageTypes Linkage, StringRef FuncName) { // We generally want to match the function's linkage, but available_externally // and extern_weak both have the wrong semantics, and anything that doesn't // need to link across compilation units doesn't need to be visible at all. if (Linkage == GlobalValue::ExternalWeakLinkage) Linkage = GlobalValue::LinkOnceAnyLinkage; else if (Linkage == GlobalValue::AvailableExternallyLinkage) Linkage = GlobalValue::LinkOnceODRLinkage; else if (Linkage == GlobalValue::InternalLinkage || Linkage == GlobalValue::ExternalLinkage) Linkage = GlobalValue::PrivateLinkage; auto *Value = ConstantDataArray::getString(M.getContext(), FuncName, false); auto FuncNameVar = new GlobalVariable(M, Value->getType(), true, Linkage, Value, Twine(getInstrProfNameVarPrefix()) + FuncName); // Hide the symbol so that we correctly get a copy for each executable. if (!GlobalValue::isLocalLinkage(FuncNameVar->getLinkage())) FuncNameVar->setVisibility(GlobalValue::HiddenVisibility); return FuncNameVar; } GlobalVariable *createPGOFuncNameVar(Function &F, StringRef FuncName) { return createPGOFuncNameVar(*F.getParent(), F.getLinkage(), FuncName); } uint64_t stringToHash(uint32_t ValueKind, uint64_t Value) { switch (ValueKind) { case IPVK_IndirectCallTarget: return IndexedInstrProf::ComputeHash(IndexedInstrProf::HashType, (const char *)Value); break; default: llvm_unreachable("value kind not handled !"); } return Value; } void ValueProfRecord::deserializeTo(InstrProfRecord &Record, InstrProfRecord::ValueMapType *VMap) { Record.reserveSites(Kind, NumValueSites); InstrProfValueData *ValueData = getValueProfRecordValueData(this); for (uint64_t VSite = 0; VSite < NumValueSites; ++VSite) { uint8_t ValueDataCount = this->SiteCountArray[VSite]; Record.addValueData(Kind, VSite, ValueData, ValueDataCount, VMap); ValueData += ValueDataCount; } } // Extract data from \c Closure and serialize into \c This instance. void serializeValueProfRecordFrom(ValueProfRecord *This, ValueProfRecordClosure *Closure, uint32_t ValueKind, uint32_t NumValueSites) { uint32_t S; const void *Record = Closure->Record; This->Kind = ValueKind; This->NumValueSites = NumValueSites; InstrProfValueData *DstVD = getValueProfRecordValueData(This); for (S = 0; S < NumValueSites; S++) { uint32_t ND = Closure->GetNumValueDataForSite(Record, ValueKind, S); This->SiteCountArray[S] = ND; Closure->GetValueForSite(Record, DstVD, ValueKind, S, Closure->RemapValueData); DstVD += ND; } } template static T swapToHostOrder(const unsigned char *&D, support::endianness Orig) { using namespace support; if (Orig == little) return endian::readNext(D); else return endian::readNext(D); } // For writing/serializing, Old is the host endianness, and New is // byte order intended on disk. For Reading/deserialization, Old // is the on-disk source endianness, and New is the host endianness. void ValueProfRecord::swapBytes(support::endianness Old, support::endianness New) { using namespace support; if (Old == New) return; if (getHostEndianness() != Old) { sys::swapByteOrder(NumValueSites); sys::swapByteOrder(Kind); } uint32_t ND = getValueProfRecordNumValueData(this); InstrProfValueData *VD = getValueProfRecordValueData(this); // No need to swap byte array: SiteCountArrray. for (uint32_t I = 0; I < ND; I++) { sys::swapByteOrder(VD[I].Value); sys::swapByteOrder(VD[I].Count); } if (getHostEndianness() == Old) { sys::swapByteOrder(NumValueSites); sys::swapByteOrder(Kind); } } /// Return the total size in bytes of the on-disk value profile data /// given the data stored in Record. uint32_t getValueProfDataSize(ValueProfRecordClosure *Closure) { uint32_t Kind; uint32_t TotalSize = sizeof(ValueProfData); const void *Record = Closure->Record; uint32_t NumValueKinds = Closure->GetNumValueKinds(Record); if (NumValueKinds == 0) return TotalSize; for (Kind = IPVK_First; Kind <= IPVK_Last; Kind++) { uint32_t NumValueSites = Closure->GetNumValueSites(Record, Kind); if (!NumValueSites) continue; TotalSize += getValueProfRecordSize(NumValueSites, Closure->GetNumValueData(Record, Kind)); } return TotalSize; } void ValueProfData::deserializeTo(InstrProfRecord &Record, InstrProfRecord::ValueMapType *VMap) { if (NumValueKinds == 0) return; ValueProfRecord *VR = getFirstValueProfRecord(this); for (uint32_t K = 0; K < NumValueKinds; K++) { VR->deserializeTo(Record, VMap); VR = getValueProfRecordNext(VR); } } static std::unique_ptr allocValueProfData(uint32_t TotalSize) { return std::unique_ptr(new (::operator new(TotalSize)) ValueProfData()); } ValueProfData *serializeValueProfDataFrom(ValueProfRecordClosure *Closure) { uint32_t TotalSize = getValueProfDataSize(Closure); ValueProfData *VPD = Closure->AllocValueProfData(TotalSize); VPD->TotalSize = TotalSize; VPD->NumValueKinds = Closure->GetNumValueKinds(Closure->Record); ValueProfRecord *VR = getFirstValueProfRecord(VPD); for (uint32_t Kind = IPVK_First; Kind <= IPVK_Last; Kind++) { uint32_t NumValueSites = Closure->GetNumValueSites(Closure->Record, Kind); if (!NumValueSites) continue; serializeValueProfRecordFrom(VR, Closure, Kind, NumValueSites); VR = getValueProfRecordNext(VR); } return VPD; } // C wrappers of InstrProfRecord member functions used in Closure. // These C wrappers are used as adaptors so that C++ code can be // invoked as callbacks. uint32_t getNumValueKindsInstrProf(const void *Record) { return reinterpret_cast(Record)->getNumValueKinds(); } uint32_t getNumValueSitesInstrProf(const void *Record, uint32_t VKind) { return reinterpret_cast(Record) ->getNumValueSites(VKind); } uint32_t getNumValueDataInstrProf(const void *Record, uint32_t VKind) { return reinterpret_cast(Record) ->getNumValueData(VKind); } uint32_t getNumValueDataForSiteInstrProf(const void *R, uint32_t VK, uint32_t S) { return reinterpret_cast(R) ->getNumValueDataForSite(VK, S); } void getValueForSiteInstrProf(const void *R, InstrProfValueData *Dst, uint32_t K, uint32_t S, uint64_t (*Mapper)(uint32_t, uint64_t)) { return reinterpret_cast(R) ->getValueForSite(Dst, K, S, Mapper); } ValueProfData *allocValueProfDataInstrProf(size_t TotalSizeInBytes) { return (ValueProfData *)(new (::operator new(TotalSizeInBytes)) ValueProfData()); } static ValueProfRecordClosure InstrProfRecordClosure = { 0, getNumValueKindsInstrProf, getNumValueSitesInstrProf, getNumValueDataInstrProf, getNumValueDataForSiteInstrProf, stringToHash, getValueForSiteInstrProf, allocValueProfDataInstrProf}; uint32_t ValueProfData::getSize(const InstrProfRecord &Record) { InstrProfRecordClosure.Record = &Record; return getValueProfDataSize(&InstrProfRecordClosure); } std::unique_ptr ValueProfData::serializeFrom(const InstrProfRecord &Record) { InstrProfRecordClosure.Record = &Record; std::unique_ptr VPD( serializeValueProfDataFrom(&InstrProfRecordClosure)); return VPD; } ErrorOr> ValueProfData::getValueProfData(const unsigned char *D, const unsigned char *const BufferEnd, support::endianness Endianness) { using namespace support; if (D + sizeof(ValueProfData) > BufferEnd) return instrprof_error::truncated; const unsigned char *Header = D; uint32_t TotalSize = swapToHostOrder(Header, Endianness); uint32_t NumValueKinds = swapToHostOrder(Header, Endianness); if (D + TotalSize > BufferEnd) return instrprof_error::too_large; if (NumValueKinds > IPVK_Last + 1) return instrprof_error::malformed; // Total size needs to be mulltiple of quadword size. if (TotalSize % sizeof(uint64_t)) return instrprof_error::malformed; std::unique_ptr VPD = allocValueProfData(TotalSize); memcpy(VPD.get(), D, TotalSize); // Byte swap. VPD->swapBytesToHost(Endianness); // Data integrity check: ValueProfRecord *VR = getFirstValueProfRecord(VPD.get()); for (uint32_t K = 0; K < VPD->NumValueKinds; K++) { if (VR->Kind > IPVK_Last) return instrprof_error::malformed; VR = getValueProfRecordNext(VR); if ((char *)VR - (char *)VPD.get() > (ptrdiff_t)TotalSize) return instrprof_error::malformed; } return std::move(VPD); } void ValueProfData::swapBytesToHost(support::endianness Endianness) { using namespace support; if (Endianness == getHostEndianness()) return; sys::swapByteOrder(TotalSize); sys::swapByteOrder(NumValueKinds); ValueProfRecord *VR = getFirstValueProfRecord(this); for (uint32_t K = 0; K < NumValueKinds; K++) { VR->swapBytes(Endianness, getHostEndianness()); VR = getValueProfRecordNext(VR); } } void ValueProfData::swapBytesFromHost(support::endianness Endianness) { using namespace support; if (Endianness == getHostEndianness()) return; ValueProfRecord *VR = getFirstValueProfRecord(this); for (uint32_t K = 0; K < NumValueKinds; K++) { ValueProfRecord *NVR = getValueProfRecordNext(VR); VR->swapBytes(getHostEndianness(), Endianness); VR = NVR; } sys::swapByteOrder(TotalSize); sys::swapByteOrder(NumValueKinds); } }