#pragma once #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-parameter" #endif //===- XCOFFObjectFile.h - XCOFF object file implementation -----*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file declares the XCOFFObjectFile class. // //===----------------------------------------------------------------------===// #ifndef LLVM_OBJECT_XCOFFOBJECTFILE_H #define LLVM_OBJECT_XCOFFOBJECTFILE_H #include "llvm/ADT/SmallString.h" #include "llvm/ADT/SmallVector.h" #include "llvm/BinaryFormat/XCOFF.h" #include "llvm/Object/ObjectFile.h" #include "llvm/Support/Endian.h" #include namespace llvm { namespace object { struct XCOFFFileHeader32 { support::ubig16_t Magic; support::ubig16_t NumberOfSections; // Unix time value, value of 0 indicates no timestamp. // Negative values are reserved. support::big32_t TimeStamp; support::ubig32_t SymbolTableOffset; // File offset to symbol table. support::big32_t NumberOfSymTableEntries; support::ubig16_t AuxHeaderSize; support::ubig16_t Flags; }; struct XCOFFFileHeader64 { support::ubig16_t Magic; support::ubig16_t NumberOfSections; // Unix time value, value of 0 indicates no timestamp. // Negative values are reserved. support::big32_t TimeStamp; support::ubig64_t SymbolTableOffset; // File offset to symbol table. support::ubig16_t AuxHeaderSize; support::ubig16_t Flags; support::ubig32_t NumberOfSymTableEntries; }; template struct XCOFFAuxiliaryHeader { static constexpr uint8_t AuxiHeaderFlagMask = 0xF0; static constexpr uint8_t AuxiHeaderTDataAlignmentMask = 0x0F; public: uint8_t getFlag() const { return static_cast(this)->FlagAndTDataAlignment & AuxiHeaderFlagMask; } uint8_t getTDataAlignment() const { return static_cast(this)->FlagAndTDataAlignment & AuxiHeaderTDataAlignmentMask; } uint16_t getVersion() const { return static_cast(this)->Version; } }; struct XCOFFAuxiliaryHeader32 : XCOFFAuxiliaryHeader { support::ubig16_t AuxMagic; ///< If the value of the o_vstamp field is greater than 1, the ///< o_mflags field is reserved for future use and it should ///< contain 0. Otherwise, this field is not used. support::ubig16_t Version; ///< The valid values are 1 and 2. When the o_vstamp field is 2 ///< in an XCOFF32 file, the new interpretation of the n_type ///< field in the symbol table entry is used. support::ubig32_t TextSize; support::ubig32_t InitDataSize; support::ubig32_t BssDataSize; support::ubig32_t EntryPointAddr; support::ubig32_t TextStartAddr; support::ubig32_t DataStartAddr; support::ubig32_t TOCAnchorAddr; support::ubig16_t SecNumOfEntryPoint; support::ubig16_t SecNumOfText; support::ubig16_t SecNumOfData; support::ubig16_t SecNumOfTOC; support::ubig16_t SecNumOfLoader; support::ubig16_t SecNumOfBSS; support::ubig16_t MaxAlignOfText; support::ubig16_t MaxAlignOfData; support::ubig16_t ModuleType; uint8_t CpuFlag; uint8_t CpuType; support::ubig32_t MaxStackSize; ///< If the value is 0, the system default ///< maximum stack size is used. support::ubig32_t MaxDataSize; ///< If the value is 0, the system default ///< maximum data size is used. support::ubig32_t ReservedForDebugger; ///< This field should contain 0. When a loaded ///< program is being debugged, the memory image of ///< this field may be modified by a debugger to ///< insert a trap instruction. uint8_t TextPageSize; ///< Specifies the size of pages for the exec text. The ///< default value is 0 (system-selected page size). uint8_t DataPageSize; ///< Specifies the size of pages for the exec data. The ///< default value is 0 (system-selected page size). uint8_t StackPageSize; ///< Specifies the size of pages for the stack. The ///< default value is 0 (system-selected page size). uint8_t FlagAndTDataAlignment; support::ubig16_t SecNumOfTData; support::ubig16_t SecNumOfTBSS; }; struct XCOFFAuxiliaryHeader64 : XCOFFAuxiliaryHeader { support::ubig16_t AuxMagic; support::ubig16_t Version; support::ubig32_t ReservedForDebugger; support::ubig64_t TextStartAddr; support::ubig64_t DataStartAddr; support::ubig64_t TOCAnchorAddr; support::ubig16_t SecNumOfEntryPoint; support::ubig16_t SecNumOfText; support::ubig16_t SecNumOfData; support::ubig16_t SecNumOfTOC; support::ubig16_t SecNumOfLoader; support::ubig16_t SecNumOfBSS; support::ubig16_t MaxAlignOfText; support::ubig16_t MaxAlignOfData; support::ubig16_t ModuleType; uint8_t CpuFlag; uint8_t CpuType; uint8_t TextPageSize; uint8_t DataPageSize; uint8_t StackPageSize; uint8_t FlagAndTDataAlignment; support::ubig64_t TextSize; support::ubig64_t InitDataSize; support::ubig64_t BssDataSize; support::ubig64_t EntryPointAddr; support::ubig64_t MaxStackSize; support::ubig64_t MaxDataSize; support::ubig16_t SecNumOfTData; support::ubig16_t SecNumOfTBSS; support::ubig16_t XCOFF64Flag; }; template struct XCOFFSectionHeader { // Least significant 3 bits are reserved. static constexpr unsigned SectionFlagsReservedMask = 0x7; // The low order 16 bits of section flags denotes the section type. static constexpr unsigned SectionFlagsTypeMask = 0xffffu; public: StringRef getName() const; uint16_t getSectionType() const; bool isReservedSectionType() const; }; // Explicit extern template declarations. struct XCOFFSectionHeader32; struct XCOFFSectionHeader64; extern template struct XCOFFSectionHeader; extern template struct XCOFFSectionHeader; struct XCOFFSectionHeader32 : XCOFFSectionHeader { char Name[XCOFF::NameSize]; support::ubig32_t PhysicalAddress; support::ubig32_t VirtualAddress; support::ubig32_t SectionSize; support::ubig32_t FileOffsetToRawData; support::ubig32_t FileOffsetToRelocationInfo; support::ubig32_t FileOffsetToLineNumberInfo; support::ubig16_t NumberOfRelocations; support::ubig16_t NumberOfLineNumbers; support::big32_t Flags; }; struct XCOFFSectionHeader64 : XCOFFSectionHeader { char Name[XCOFF::NameSize]; support::ubig64_t PhysicalAddress; support::ubig64_t VirtualAddress; support::ubig64_t SectionSize; support::big64_t FileOffsetToRawData; support::big64_t FileOffsetToRelocationInfo; support::big64_t FileOffsetToLineNumberInfo; support::ubig32_t NumberOfRelocations; support::ubig32_t NumberOfLineNumbers; support::big32_t Flags; char Padding[4]; }; struct LoaderSectionHeader32; struct LoaderSectionHeader64; struct LoaderSectionSymbolEntry32 { struct NameOffsetInStrTbl { support::big32_t IsNameInStrTbl; // Zero indicates name in string table. support::ubig32_t Offset; }; char SymbolName[XCOFF::NameSize]; support::ubig32_t Value; // The virtual address of the symbol. support::big16_t SectionNumber; uint8_t SymbolType; XCOFF::StorageClass StorageClass; support::ubig32_t ImportFileID; support::ubig32_t ParameterTypeCheck; Expected getSymbolName(const LoaderSectionHeader32 *LoaderSecHeader) const; }; struct LoaderSectionSymbolEntry64 { support::ubig64_t Value; // The virtual address of the symbol. support::ubig32_t Offset; support::big16_t SectionNumber; uint8_t SymbolType; XCOFF::StorageClass StorageClass; support::ubig32_t ImportFileID; support::ubig32_t ParameterTypeCheck; Expected getSymbolName(const LoaderSectionHeader64 *LoaderSecHeader) const; }; struct LoaderSectionRelocationEntry32 { support::ubig32_t VirtualAddr; support::big32_t SymbolIndex; support::ubig16_t Type; support::big16_t SectionNum; }; struct LoaderSectionRelocationEntry64 { support::ubig64_t VirtualAddr; support::ubig16_t Type; support::big16_t SectionNum; support::big32_t SymbolIndex; }; struct LoaderSectionHeader32 { support::ubig32_t Version; support::ubig32_t NumberOfSymTabEnt; support::ubig32_t NumberOfRelTabEnt; support::ubig32_t LengthOfImpidStrTbl; support::ubig32_t NumberOfImpid; support::big32_t OffsetToImpid; support::ubig32_t LengthOfStrTbl; support::big32_t OffsetToStrTbl; uint64_t getOffsetToSymTbl() const { return NumberOfSymTabEnt == 0 ? 0 : sizeof(LoaderSectionHeader32); } uint64_t getOffsetToRelEnt() const { // Relocation table is after Symbol table. return NumberOfRelTabEnt == 0 ? 0 : sizeof(LoaderSectionHeader32) + sizeof(LoaderSectionSymbolEntry32) * NumberOfSymTabEnt; } }; struct LoaderSectionHeader64 { support::ubig32_t Version; support::ubig32_t NumberOfSymTabEnt; support::ubig32_t NumberOfRelTabEnt; support::ubig32_t LengthOfImpidStrTbl; support::ubig32_t NumberOfImpid; support::ubig32_t LengthOfStrTbl; support::big64_t OffsetToImpid; support::big64_t OffsetToStrTbl; support::big64_t OffsetToSymTbl; support::big64_t OffsetToRelEnt; uint64_t getOffsetToSymTbl() const { return OffsetToSymTbl; } uint64_t getOffsetToRelEnt() const { return OffsetToRelEnt; } }; template struct ExceptionSectionEntry { union { support::ubig32_t SymbolIdx; AddressType TrapInstAddr; }; uint8_t LangId; uint8_t Reason; uint32_t getSymbolIndex() const { assert(Reason == 0 && "Get symbol table index of the function only when " "the e_reason field is 0."); return SymbolIdx; } uint64_t getTrapInstAddr() const { assert(Reason != 0 && "Zero is not a valid trap exception reason code."); return TrapInstAddr; } uint8_t getLangID() const { return LangId; } uint8_t getReason() const { return Reason; } }; typedef ExceptionSectionEntry ExceptionSectionEntry32; typedef ExceptionSectionEntry ExceptionSectionEntry64; // Explicit extern template declarations. extern template struct ExceptionSectionEntry; extern template struct ExceptionSectionEntry; struct XCOFFStringTable { uint32_t Size; const char *Data; }; struct XCOFFCsectAuxEnt32 { support::ubig32_t SectionOrLength; support::ubig32_t ParameterHashIndex; support::ubig16_t TypeChkSectNum; uint8_t SymbolAlignmentAndType; XCOFF::StorageMappingClass StorageMappingClass; support::ubig32_t StabInfoIndex; support::ubig16_t StabSectNum; }; struct XCOFFCsectAuxEnt64 { support::ubig32_t SectionOrLengthLowByte; support::ubig32_t ParameterHashIndex; support::ubig16_t TypeChkSectNum; uint8_t SymbolAlignmentAndType; XCOFF::StorageMappingClass StorageMappingClass; support::ubig32_t SectionOrLengthHighByte; uint8_t Pad; XCOFF::SymbolAuxType AuxType; }; class XCOFFCsectAuxRef { public: static constexpr uint8_t SymbolTypeMask = 0x07; static constexpr uint8_t SymbolAlignmentMask = 0xF8; static constexpr size_t SymbolAlignmentBitOffset = 3; XCOFFCsectAuxRef(const XCOFFCsectAuxEnt32 *Entry32) : Entry32(Entry32) {} XCOFFCsectAuxRef(const XCOFFCsectAuxEnt64 *Entry64) : Entry64(Entry64) {} // For getSectionOrLength(), // If the symbol type is XTY_SD or XTY_CM, the csect length. // If the symbol type is XTY_LD, the symbol table // index of the containing csect. // If the symbol type is XTY_ER, 0. uint64_t getSectionOrLength() const { return Entry32 ? getSectionOrLength32() : getSectionOrLength64(); } uint32_t getSectionOrLength32() const { assert(Entry32 && "32-bit interface called on 64-bit object file."); return Entry32->SectionOrLength; } uint64_t getSectionOrLength64() const { assert(Entry64 && "64-bit interface called on 32-bit object file."); return (static_cast(Entry64->SectionOrLengthHighByte) << 32) | Entry64->SectionOrLengthLowByte; } #define GETVALUE(X) Entry32 ? Entry32->X : Entry64->X uint32_t getParameterHashIndex() const { return GETVALUE(ParameterHashIndex); } uint16_t getTypeChkSectNum() const { return GETVALUE(TypeChkSectNum); } XCOFF::StorageMappingClass getStorageMappingClass() const { return GETVALUE(StorageMappingClass); } uintptr_t getEntryAddress() const { return Entry32 ? reinterpret_cast(Entry32) : reinterpret_cast(Entry64); } uint16_t getAlignmentLog2() const { return (getSymbolAlignmentAndType() & SymbolAlignmentMask) >> SymbolAlignmentBitOffset; } uint8_t getSymbolType() const { return getSymbolAlignmentAndType() & SymbolTypeMask; } bool isLabel() const { return getSymbolType() == XCOFF::XTY_LD; } uint32_t getStabInfoIndex32() const { assert(Entry32 && "32-bit interface called on 64-bit object file."); return Entry32->StabInfoIndex; } uint16_t getStabSectNum32() const { assert(Entry32 && "32-bit interface called on 64-bit object file."); return Entry32->StabSectNum; } XCOFF::SymbolAuxType getAuxType64() const { assert(Entry64 && "64-bit interface called on 32-bit object file."); return Entry64->AuxType; } private: uint8_t getSymbolAlignmentAndType() const { return GETVALUE(SymbolAlignmentAndType); } #undef GETVALUE const XCOFFCsectAuxEnt32 *Entry32 = nullptr; const XCOFFCsectAuxEnt64 *Entry64 = nullptr; }; struct XCOFFFileAuxEnt { typedef struct { support::big32_t Magic; // Zero indicates name in string table. support::ubig32_t Offset; char NamePad[XCOFF::FileNamePadSize]; } NameInStrTblType; union { char Name[XCOFF::NameSize + XCOFF::FileNamePadSize]; NameInStrTblType NameInStrTbl; }; XCOFF::CFileStringType Type; uint8_t ReservedZeros[2]; XCOFF::SymbolAuxType AuxType; // 64-bit XCOFF file only. }; struct XCOFFSectAuxEntForStat { support::ubig32_t SectionLength; support::ubig16_t NumberOfRelocEnt; support::ubig16_t NumberOfLineNum; uint8_t Pad[10]; }; // 32-bit XCOFF file only. struct XCOFFFunctionAuxEnt32 { support::ubig32_t OffsetToExceptionTbl; support::ubig32_t SizeOfFunction; support::ubig32_t PtrToLineNum; support::big32_t SymIdxOfNextBeyond; uint8_t Pad[2]; }; struct XCOFFFunctionAuxEnt64 { support::ubig64_t PtrToLineNum; support::ubig32_t SizeOfFunction; support::big32_t SymIdxOfNextBeyond; uint8_t Pad; XCOFF::SymbolAuxType AuxType; // Contains _AUX_FCN; Type of auxiliary entry }; struct XCOFFExceptionAuxEnt { support::ubig64_t OffsetToExceptionTbl; support::ubig32_t SizeOfFunction; support::big32_t SymIdxOfNextBeyond; uint8_t Pad; XCOFF::SymbolAuxType AuxType; // Contains _AUX_EXCEPT; Type of auxiliary entry }; struct XCOFFBlockAuxEnt32 { uint8_t ReservedZeros1[2]; support::ubig16_t LineNumHi; support::ubig16_t LineNumLo; uint8_t ReservedZeros2[12]; }; struct XCOFFBlockAuxEnt64 { support::ubig32_t LineNum; uint8_t Pad[13]; XCOFF::SymbolAuxType AuxType; // Contains _AUX_SYM; Type of auxiliary entry }; struct XCOFFSectAuxEntForDWARF32 { support::ubig32_t LengthOfSectionPortion; uint8_t Pad1[4]; support::ubig32_t NumberOfRelocEnt; uint8_t Pad2[6]; }; struct XCOFFSectAuxEntForDWARF64 { support::ubig64_t LengthOfSectionPortion; support::ubig64_t NumberOfRelocEnt; uint8_t Pad; XCOFF::SymbolAuxType AuxType; // Contains _AUX_SECT; Type of Auxillary entry }; template struct XCOFFRelocation { public: AddressType VirtualAddress; support::ubig32_t SymbolIndex; // Packed field, see XR_* masks for details of packing. uint8_t Info; XCOFF::RelocationType Type; public: bool isRelocationSigned() const; bool isFixupIndicated() const; // Returns the number of bits being relocated. uint8_t getRelocatedLength() const; }; extern template struct XCOFFRelocation; extern template struct XCOFFRelocation; struct XCOFFRelocation32 : XCOFFRelocation {}; struct XCOFFRelocation64 : XCOFFRelocation {}; class XCOFFSymbolRef; class XCOFFObjectFile : public ObjectFile { private: const void *FileHeader = nullptr; const void *AuxiliaryHeader = nullptr; const void *SectionHeaderTable = nullptr; const void *SymbolTblPtr = nullptr; XCOFFStringTable StringTable = {0, nullptr}; const XCOFFSectionHeader32 *sectionHeaderTable32() const; const XCOFFSectionHeader64 *sectionHeaderTable64() const; template const T *sectionHeaderTable() const; size_t getFileHeaderSize() const; size_t getSectionHeaderSize() const; const XCOFFSectionHeader32 *toSection32(DataRefImpl Ref) const; const XCOFFSectionHeader64 *toSection64(DataRefImpl Ref) const; uintptr_t getSectionHeaderTableAddress() const; uintptr_t getEndOfSymbolTableAddress() const; DataRefImpl getSectionByType(XCOFF::SectionTypeFlags SectType) const; uint64_t getSectionFileOffsetToRawData(DataRefImpl Sec) const; // This returns a pointer to the start of the storage for the name field of // the 32-bit or 64-bit SectionHeader struct. This string is *not* necessarily // null-terminated. const char *getSectionNameInternal(DataRefImpl Sec) const; static bool isReservedSectionNumber(int16_t SectionNumber); // Constructor and "create" factory function. The constructor is only a thin // wrapper around the base constructor. The "create" function fills out the // XCOFF-specific information and performs the error checking along the way. XCOFFObjectFile(unsigned Type, MemoryBufferRef Object); static Expected> create(unsigned Type, MemoryBufferRef MBR); // Helper for parsing the StringTable. Returns an 'Error' if parsing failed // and an XCOFFStringTable if parsing succeeded. static Expected parseStringTable(const XCOFFObjectFile *Obj, uint64_t Offset); // Make a friend so it can call the private 'create' function. friend Expected> ObjectFile::createXCOFFObjectFile(MemoryBufferRef Object, unsigned FileType); void checkSectionAddress(uintptr_t Addr, uintptr_t TableAddr) const; public: static constexpr uint64_t InvalidRelocOffset = std::numeric_limits::max(); // Interface inherited from base classes. void moveSymbolNext(DataRefImpl &Symb) const override; Expected getSymbolFlags(DataRefImpl Symb) const override; basic_symbol_iterator symbol_begin() const override; basic_symbol_iterator symbol_end() const override; Expected getSymbolName(DataRefImpl Symb) const override; Expected getSymbolAddress(DataRefImpl Symb) const override; uint64_t getSymbolValueImpl(DataRefImpl Symb) const override; uint32_t getSymbolAlignment(DataRefImpl Symb) const override; uint64_t getCommonSymbolSizeImpl(DataRefImpl Symb) const override; Expected getSymbolType(DataRefImpl Symb) const override; Expected getSymbolSection(DataRefImpl Symb) const override; void moveSectionNext(DataRefImpl &Sec) const override; Expected getSectionName(DataRefImpl Sec) const override; uint64_t getSectionAddress(DataRefImpl Sec) const override; uint64_t getSectionIndex(DataRefImpl Sec) const override; uint64_t getSectionSize(DataRefImpl Sec) const override; Expected> getSectionContents(DataRefImpl Sec) const override; uint64_t getSectionAlignment(DataRefImpl Sec) const override; bool isSectionCompressed(DataRefImpl Sec) const override; bool isSectionText(DataRefImpl Sec) const override; bool isSectionData(DataRefImpl Sec) const override; bool isSectionBSS(DataRefImpl Sec) const override; bool isDebugSection(DataRefImpl Sec) const override; bool isSectionVirtual(DataRefImpl Sec) const override; relocation_iterator section_rel_begin(DataRefImpl Sec) const override; relocation_iterator section_rel_end(DataRefImpl Sec) const override; void moveRelocationNext(DataRefImpl &Rel) const override; /// \returns the relocation offset with the base address of the containing /// section as zero, or InvalidRelocOffset on errors (such as a relocation /// that does not refer to an address in any section). uint64_t getRelocationOffset(DataRefImpl Rel) const override; symbol_iterator getRelocationSymbol(DataRefImpl Rel) const override; uint64_t getRelocationType(DataRefImpl Rel) const override; void getRelocationTypeName(DataRefImpl Rel, SmallVectorImpl &Result) const override; section_iterator section_begin() const override; section_iterator section_end() const override; uint8_t getBytesInAddress() const override; StringRef getFileFormatName() const override; Triple::ArchType getArch() const override; Expected getFeatures() const override; Expected getStartAddress() const override; StringRef mapDebugSectionName(StringRef Name) const override; bool isRelocatableObject() const override; // Below here is the non-inherited interface. bool is64Bit() const; Expected getRawData(const char *Start, uint64_t Size, StringRef Name) const; const XCOFFAuxiliaryHeader32 *auxiliaryHeader32() const; const XCOFFAuxiliaryHeader64 *auxiliaryHeader64() const; const void *getPointerToSymbolTable() const { return SymbolTblPtr; } Expected getSymbolSectionName(XCOFFSymbolRef Ref) const; unsigned getSymbolSectionID(SymbolRef Sym) const; XCOFFSymbolRef toSymbolRef(DataRefImpl Ref) const; // File header related interfaces. const XCOFFFileHeader32 *fileHeader32() const; const XCOFFFileHeader64 *fileHeader64() const; uint16_t getMagic() const; uint16_t getNumberOfSections() const; int32_t getTimeStamp() const; // Symbol table offset and entry count are handled differently between // XCOFF32 and XCOFF64. uint32_t getSymbolTableOffset32() const; uint64_t getSymbolTableOffset64() const; // Note that this value is signed and might return a negative value. Negative // values are reserved for future use. int32_t getRawNumberOfSymbolTableEntries32() const; // The sanitized value appropriate to use as an index into the symbol table. uint32_t getLogicalNumberOfSymbolTableEntries32() const; uint32_t getNumberOfSymbolTableEntries64() const; // Return getLogicalNumberOfSymbolTableEntries32 or // getNumberOfSymbolTableEntries64 depending on the object mode. uint32_t getNumberOfSymbolTableEntries() const; uint32_t getSymbolIndex(uintptr_t SymEntPtr) const; uint64_t getSymbolSize(DataRefImpl Symb) const; uintptr_t getSymbolByIndex(uint32_t Idx) const { return reinterpret_cast(SymbolTblPtr) + XCOFF::SymbolTableEntrySize * Idx; } uintptr_t getSymbolEntryAddressByIndex(uint32_t SymbolTableIndex) const; Expected getSymbolNameByIndex(uint32_t SymbolTableIndex) const; Expected getCFileName(const XCOFFFileAuxEnt *CFileEntPtr) const; uint16_t getOptionalHeaderSize() const; uint16_t getFlags() const; // Section header table related interfaces. ArrayRef sections32() const; ArrayRef sections64() const; int32_t getSectionFlags(DataRefImpl Sec) const; Expected getSectionByNum(int16_t Num) const; Expected getSectionFileOffsetToRawData(XCOFF::SectionTypeFlags SectType) const; void checkSymbolEntryPointer(uintptr_t SymbolEntPtr) const; // Relocation-related interfaces. template Expected getNumberOfRelocationEntries(const XCOFFSectionHeader &Sec) const; template Expected> relocations(const Shdr &Sec) const; // Loader section related interfaces. Expected getImportFileTable() const; // Exception-related interface. template Expected> getExceptionEntries() const; // This function returns string table entry. Expected getStringTableEntry(uint32_t Offset) const; // This function returns the string table. StringRef getStringTable() const; const XCOFF::SymbolAuxType *getSymbolAuxType(uintptr_t AuxEntryAddress) const; static uintptr_t getAdvancedSymbolEntryAddress(uintptr_t CurrentAddress, uint32_t Distance); static bool classof(const Binary *B) { return B->isXCOFF(); } }; // XCOFFObjectFile typedef struct { uint8_t LanguageId; uint8_t CpuTypeId; } CFileLanguageIdAndTypeIdType; struct XCOFFSymbolEntry32 { typedef struct { support::big32_t Magic; // Zero indicates name in string table. support::ubig32_t Offset; } NameInStrTblType; union { char SymbolName[XCOFF::NameSize]; NameInStrTblType NameInStrTbl; }; support::ubig32_t Value; // Symbol value; storage class-dependent. support::big16_t SectionNumber; union { support::ubig16_t SymbolType; CFileLanguageIdAndTypeIdType CFileLanguageIdAndTypeId; }; XCOFF::StorageClass StorageClass; uint8_t NumberOfAuxEntries; }; struct XCOFFSymbolEntry64 { support::ubig64_t Value; // Symbol value; storage class-dependent. support::ubig32_t Offset; support::big16_t SectionNumber; union { support::ubig16_t SymbolType; CFileLanguageIdAndTypeIdType CFileLanguageIdAndTypeId; }; XCOFF::StorageClass StorageClass; uint8_t NumberOfAuxEntries; }; class XCOFFSymbolRef { public: enum { NAME_IN_STR_TBL_MAGIC = 0x0 }; XCOFFSymbolRef(DataRefImpl SymEntDataRef, const XCOFFObjectFile *OwningObjectPtr) : OwningObjectPtr(OwningObjectPtr) { assert(OwningObjectPtr && "OwningObjectPtr cannot be nullptr!"); assert(SymEntDataRef.p != 0 && "Symbol table entry pointer cannot be nullptr!"); if (OwningObjectPtr->is64Bit()) Entry64 = reinterpret_cast(SymEntDataRef.p); else Entry32 = reinterpret_cast(SymEntDataRef.p); } const XCOFFSymbolEntry32 *getSymbol32() { return Entry32; } const XCOFFSymbolEntry64 *getSymbol64() { return Entry64; } uint64_t getValue() const { return Entry32 ? getValue32() : getValue64(); } uint32_t getValue32() const { return Entry32->Value; } uint64_t getValue64() const { return Entry64->Value; } #define GETVALUE(X) Entry32 ? Entry32->X : Entry64->X int16_t getSectionNumber() const { return GETVALUE(SectionNumber); } uint16_t getSymbolType() const { return GETVALUE(SymbolType); } uint8_t getLanguageIdForCFile() const { assert(getStorageClass() == XCOFF::C_FILE && "This interface is for C_FILE only."); return GETVALUE(CFileLanguageIdAndTypeId.LanguageId); } uint8_t getCPUTypeIddForCFile() const { assert(getStorageClass() == XCOFF::C_FILE && "This interface is for C_FILE only."); return GETVALUE(CFileLanguageIdAndTypeId.CpuTypeId); } XCOFF::StorageClass getStorageClass() const { return GETVALUE(StorageClass); } uint8_t getNumberOfAuxEntries() const { return GETVALUE(NumberOfAuxEntries); } #undef GETVALUE uintptr_t getEntryAddress() const { return Entry32 ? reinterpret_cast(Entry32) : reinterpret_cast(Entry64); } Expected getName() const; bool isFunction() const; bool isCsectSymbol() const; Expected getXCOFFCsectAuxRef() const; private: const XCOFFObjectFile *OwningObjectPtr; const XCOFFSymbolEntry32 *Entry32 = nullptr; const XCOFFSymbolEntry64 *Entry64 = nullptr; }; class TBVectorExt { uint16_t Data; SmallString<32> VecParmsInfo; TBVectorExt(StringRef TBvectorStrRef, Error &Err); public: static Expected create(StringRef TBvectorStrRef); uint8_t getNumberOfVRSaved() const; bool isVRSavedOnStack() const; bool hasVarArgs() const; uint8_t getNumberOfVectorParms() const; bool hasVMXInstruction() const; SmallString<32> getVectorParmsInfo() const { return VecParmsInfo; }; }; /// This class provides methods to extract traceback table data from a buffer. /// The various accessors may reference the buffer provided via the constructor. class XCOFFTracebackTable { const uint8_t *const TBPtr; std::optional> ParmsType; std::optional TraceBackTableOffset; std::optional HandlerMask; std::optional NumOfCtlAnchors; std::optional> ControlledStorageInfoDisp; std::optional FunctionName; std::optional AllocaRegister; std::optional VecExt; std::optional ExtensionTable; XCOFFTracebackTable(const uint8_t *Ptr, uint64_t &Size, Error &Err); public: /// Parse an XCOFF Traceback Table from \a Ptr with \a Size bytes. /// Returns an XCOFFTracebackTable upon successful parsing, otherwise an /// Error is returned. /// /// \param[in] Ptr /// A pointer that points just past the initial 4 bytes of zeros at the /// beginning of an XCOFF Traceback Table. /// /// \param[in, out] Size /// A pointer that points to the length of the XCOFF Traceback Table. /// If the XCOFF Traceback Table is not parsed successfully or there are /// extra bytes that are not recognized, \a Size will be updated to be the /// size up to the end of the last successfully parsed field of the table. static Expected create(const uint8_t *Ptr, uint64_t &Size); uint8_t getVersion() const; uint8_t getLanguageID() const; bool isGlobalLinkage() const; bool isOutOfLineEpilogOrPrologue() const; bool hasTraceBackTableOffset() const; bool isInternalProcedure() const; bool hasControlledStorage() const; bool isTOCless() const; bool isFloatingPointPresent() const; bool isFloatingPointOperationLogOrAbortEnabled() const; bool isInterruptHandler() const; bool isFuncNamePresent() const; bool isAllocaUsed() const; uint8_t getOnConditionDirective() const; bool isCRSaved() const; bool isLRSaved() const; bool isBackChainStored() const; bool isFixup() const; uint8_t getNumOfFPRsSaved() const; bool hasVectorInfo() const; bool hasExtensionTable() const; uint8_t getNumOfGPRsSaved() const; uint8_t getNumberOfFixedParms() const; uint8_t getNumberOfFPParms() const; bool hasParmsOnStack() const; const std::optional> &getParmsType() const { return ParmsType; } const std::optional &getTraceBackTableOffset() const { return TraceBackTableOffset; } const std::optional &getHandlerMask() const { return HandlerMask; } const std::optional &getNumOfCtlAnchors() { return NumOfCtlAnchors; } const std::optional> & getControlledStorageInfoDisp() { return ControlledStorageInfoDisp; } const std::optional &getFunctionName() const { return FunctionName; } const std::optional &getAllocaRegister() const { return AllocaRegister; } const std::optional &getVectorExt() const { return VecExt; } const std::optional &getExtensionTable() const { return ExtensionTable; } }; bool doesXCOFFTracebackTableBegin(ArrayRef Bytes); } // namespace object } // namespace llvm #endif // LLVM_OBJECT_XCOFFOBJECTFILE_H #ifdef __GNUC__ #pragma GCC diagnostic pop #endif