//===------------------- FaultMaps.h - The "FaultMaps" section --*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef LLVM_CODEGEN_FAULTMAPS_H #define LLVM_CODEGEN_FAULTMAPS_H #include "llvm/ADT/DenseMap.h" #include "llvm/MC/MCSymbol.h" #include "llvm/Support/Endian.h" #include "llvm/Support/Format.h" #include #include namespace llvm { class AsmPrinter; class MCExpr; class MCSymbol; class MCStreamer; class FaultMaps { public: enum FaultKind { FaultingLoad = 1, FaultKindMax }; static const char *faultTypeToString(FaultKind); explicit FaultMaps(AsmPrinter &AP); void recordFaultingOp(FaultKind FaultTy, const MCSymbol *HandlerLabel); void serializeToFaultMapSection(); private: static const char *WFMP; struct FaultInfo { FaultKind Kind; const MCExpr *FaultingOffsetExpr; const MCExpr *HandlerOffsetExpr; FaultInfo() : Kind(FaultKindMax), FaultingOffsetExpr(nullptr), HandlerOffsetExpr(nullptr) {} explicit FaultInfo(FaultMaps::FaultKind Kind, const MCExpr *FaultingOffset, const MCExpr *HandlerOffset) : Kind(Kind), FaultingOffsetExpr(FaultingOffset), HandlerOffsetExpr(HandlerOffset) {} }; typedef std::vector FunctionFaultInfos; // We'd like to keep a stable iteration order for FunctionInfos to help // FileCheck based testing. struct MCSymbolComparator { bool operator()(const MCSymbol *LHS, const MCSymbol *RHS) const { return LHS->getName() < RHS->getName(); } }; std::map FunctionInfos; AsmPrinter &AP; void emitFunctionInfo(const MCSymbol *FnLabel, const FunctionFaultInfos &FFI); }; /// A parser for the __llvm_faultmaps section generated by the FaultMaps class /// above. This parser is version locked with with the __llvm_faultmaps section /// generated by the version of LLVM that includes it. No guarantees are made /// with respect to forward or backward compatibility. class FaultMapParser { typedef uint8_t FaultMapVersionType; static const size_t FaultMapVersionOffset = 0; typedef uint8_t Reserved0Type; static const size_t Reserved0Offset = FaultMapVersionOffset + sizeof(FaultMapVersionType); typedef uint16_t Reserved1Type; static const size_t Reserved1Offset = Reserved0Offset + sizeof(Reserved0Type); typedef uint32_t NumFunctionsType; static const size_t NumFunctionsOffset = Reserved1Offset + sizeof(Reserved1Type); static const size_t FunctionInfosOffset = NumFunctionsOffset + sizeof(NumFunctionsType); const uint8_t *P; const uint8_t *E; template static T read(const uint8_t *P, const uint8_t *E) { assert(P + sizeof(T) <= E && "out of bounds read!"); return support::endian::read(P); } public: class FunctionFaultInfoAccessor { typedef uint32_t FaultKindType; static const size_t FaultKindOffset = 0; typedef uint32_t FaultingPCOffsetType; static const size_t FaultingPCOffsetOffset = FaultKindOffset + sizeof(FaultKindType); typedef uint32_t HandlerPCOffsetType; static const size_t HandlerPCOffsetOffset = FaultingPCOffsetOffset + sizeof(FaultingPCOffsetType); const uint8_t *P; const uint8_t *E; public: static const size_t Size = HandlerPCOffsetOffset + sizeof(HandlerPCOffsetType); explicit FunctionFaultInfoAccessor(const uint8_t *P, const uint8_t *E) : P(P), E(E) {} FaultKindType getFaultKind() const { return read(P + FaultKindOffset, E); } FaultingPCOffsetType getFaultingPCOffset() const { return read(P + FaultingPCOffsetOffset, E); } HandlerPCOffsetType getHandlerPCOffset() const { return read(P + HandlerPCOffsetOffset, E); } }; class FunctionInfoAccessor { typedef uint64_t FunctionAddrType; static const size_t FunctionAddrOffset = 0; typedef uint32_t NumFaultingPCsType; static const size_t NumFaultingPCsOffset = FunctionAddrOffset + sizeof(FunctionAddrType); typedef uint32_t ReservedType; static const size_t ReservedOffset = NumFaultingPCsOffset + sizeof(NumFaultingPCsType); static const size_t FunctionFaultInfosOffset = ReservedOffset + sizeof(ReservedType); static const size_t FunctionInfoHeaderSize = FunctionFaultInfosOffset; const uint8_t *P; const uint8_t *E; public: FunctionInfoAccessor() : P(nullptr), E(nullptr) {} explicit FunctionInfoAccessor(const uint8_t *P, const uint8_t *E) : P(P), E(E) {} FunctionAddrType getFunctionAddr() const { return read(P + FunctionAddrOffset, E); } NumFaultingPCsType getNumFaultingPCs() const { return read(P + NumFaultingPCsOffset, E); } FunctionFaultInfoAccessor getFunctionFaultInfoAt(uint32_t Index) const { assert(Index < getNumFaultingPCs() && "index out of bounds!"); const uint8_t *Begin = P + FunctionFaultInfosOffset + FunctionFaultInfoAccessor::Size * Index; return FunctionFaultInfoAccessor(Begin, E); } FunctionInfoAccessor getNextFunctionInfo() const { size_t MySize = FunctionInfoHeaderSize + getNumFaultingPCs() * FunctionFaultInfoAccessor::Size; const uint8_t *Begin = P + MySize; assert(Begin < E && "out of bounds!"); return FunctionInfoAccessor(Begin, E); } }; explicit FaultMapParser(const uint8_t *Begin, const uint8_t *End) : P(Begin), E(End) {} FaultMapVersionType getFaultMapVersion() const { auto Version = read(P + FaultMapVersionOffset, E); assert(Version == 1 && "only version 1 supported!"); return Version; } NumFunctionsType getNumFunctions() const { return read(P + NumFunctionsOffset, E); } FunctionInfoAccessor getFirstFunctionInfo() const { const uint8_t *Begin = P + FunctionInfosOffset; return FunctionInfoAccessor(Begin, E); } }; raw_ostream & operator<<(raw_ostream &OS, const FaultMapParser::FunctionFaultInfoAccessor &); raw_ostream &operator<<(raw_ostream &OS, const FaultMapParser::FunctionInfoAccessor &); raw_ostream &operator<<(raw_ostream &OS, const FaultMapParser &); } // namespace llvm #endif