//===-- llvm/BinaryFormat/XCOFF.h - The XCOFF file format -------*- 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 defines manifest constants for the XCOFF object file format. // //===----------------------------------------------------------------------===// #ifndef LLVM_BINARYFORMAT_XCOFF_H #define LLVM_BINARYFORMAT_XCOFF_H #include #include namespace llvm { class StringRef; template class SmallString; template class Expected; namespace XCOFF { // Constants used in the XCOFF definition. constexpr size_t FileNamePadSize = 6; constexpr size_t NameSize = 8; constexpr size_t FileHeaderSize32 = 20; constexpr size_t SectionHeaderSize32 = 40; constexpr size_t SymbolTableEntrySize = 18; constexpr size_t RelocationSerializationSize32 = 10; constexpr uint16_t RelocOverflow = 65535; constexpr uint8_t AllocRegNo = 31; enum ReservedSectionNum : int16_t { N_DEBUG = -2, N_ABS = -1, N_UNDEF = 0 }; enum MagicNumber : uint16_t { XCOFF32 = 0x01DF, XCOFF64 = 0x01F7 }; // x_smclas field of x_csect from system header: /usr/include/syms.h /// Storage Mapping Class definitions. enum StorageMappingClass : uint8_t { // READ ONLY CLASSES XMC_PR = 0, ///< Program Code XMC_RO = 1, ///< Read Only Constant XMC_DB = 2, ///< Debug Dictionary Table XMC_GL = 6, ///< Global Linkage (Interfile Interface Code) XMC_XO = 7, ///< Extended Operation (Pseudo Machine Instruction) XMC_SV = 8, ///< Supervisor Call (32-bit process only) XMC_SV64 = 17, ///< Supervisor Call for 64-bit process XMC_SV3264 = 18, ///< Supervisor Call for both 32- and 64-bit processes XMC_TI = 12, ///< Traceback Index csect XMC_TB = 13, ///< Traceback Table csect // READ WRITE CLASSES XMC_RW = 5, ///< Read Write Data XMC_TC0 = 15, ///< TOC Anchor for TOC Addressability XMC_TC = 3, ///< General TOC item XMC_TD = 16, ///< Scalar data item in the TOC XMC_DS = 10, ///< Descriptor csect XMC_UA = 4, ///< Unclassified - Treated as Read Write XMC_BS = 9, ///< BSS class (uninitialized static internal) XMC_UC = 11, ///< Un-named Fortran Common XMC_TL = 20, ///< Initialized thread-local variable XMC_UL = 21, ///< Uninitialized thread-local variable XMC_TE = 22 ///< Symbol mapped at the end of TOC }; // Flags for defining the section type. Masks for use with the (signed, 32-bit) // s_flags field of the section header structure, selecting for values in the // lower 16 bits. Defined in the system header `scnhdr.h`. enum SectionTypeFlags : int32_t { STYP_PAD = 0x0008, STYP_DWARF = 0x0010, STYP_TEXT = 0x0020, STYP_DATA = 0x0040, STYP_BSS = 0x0080, STYP_EXCEPT = 0x0100, STYP_INFO = 0x0200, STYP_TDATA = 0x0400, STYP_TBSS = 0x0800, STYP_LOADER = 0x1000, STYP_DEBUG = 0x2000, STYP_TYPCHK = 0x4000, STYP_OVRFLO = 0x8000 }; /// Values for defining the section subtype of sections of type STYP_DWARF as /// they would appear in the (signed, 32-bit) s_flags field of the section /// header structure, contributing to the 16 most significant bits. Defined in /// the system header `scnhdr.h`. enum DwarfSectionSubtypeFlags : int32_t { SSUBTYP_DWINFO = 0x1'0000, ///< DWARF info section SSUBTYP_DWLINE = 0x2'0000, ///< DWARF line section SSUBTYP_DWPBNMS = 0x3'0000, ///< DWARF pubnames section SSUBTYP_DWPBTYP = 0x4'0000, ///< DWARF pubtypes section SSUBTYP_DWARNGE = 0x5'0000, ///< DWARF aranges section SSUBTYP_DWABREV = 0x6'0000, ///< DWARF abbrev section SSUBTYP_DWSTR = 0x7'0000, ///< DWARF str section SSUBTYP_DWRNGES = 0x8'0000, ///< DWARF ranges section SSUBTYP_DWLOC = 0x9'0000, ///< DWARF loc section SSUBTYP_DWFRAME = 0xA'0000, ///< DWARF frame section SSUBTYP_DWMAC = 0xB'0000 ///< DWARF macinfo section }; // STORAGE CLASSES, n_sclass field of syment. // The values come from `storclass.h` and `dbxstclass.h`. enum StorageClass : uint8_t { // Storage classes used for symbolic debugging symbols. C_FILE = 103, // File name C_BINCL = 108, // Beginning of include file C_EINCL = 109, // Ending of include file C_GSYM = 128, // Global variable C_STSYM = 133, // Statically allocated symbol C_BCOMM = 135, // Beginning of common block C_ECOMM = 137, // End of common block C_ENTRY = 141, // Alternate entry C_BSTAT = 143, // Beginning of static block C_ESTAT = 144, // End of static block C_GTLS = 145, // Global thread-local variable C_STTLS = 146, // Static thread-local variable // Storage classes used for DWARF symbols. C_DWARF = 112, // DWARF section symbol // Storage classes used for absolute symbols. C_LSYM = 129, // Automatic variable allocated on stack C_PSYM = 130, // Argument to subroutine allocated on stack C_RSYM = 131, // Register variable C_RPSYM = 132, // Argument to function or procedure stored in register C_ECOML = 136, // Local member of common block C_FUN = 142, // Function or procedure // Storage classes used for undefined external symbols or // symbols of general sections. C_EXT = 2, // External symbol C_WEAKEXT = 111, // Weak external symbol // Storage classes used for symbols of general sections. C_NULL = 0, C_STAT = 3, // Static C_BLOCK = 100, // ".bb" or ".eb" C_FCN = 101, // ".bf" or ".ef" C_HIDEXT = 107, // Un-named external symbol C_INFO = 110, // Comment string in .info section C_DECL = 140, // Declaration of object (type) // Storage classes - Obsolete/Undocumented. C_AUTO = 1, // Automatic variable C_REG = 4, // Register variable C_EXTDEF = 5, // External definition C_LABEL = 6, // Label C_ULABEL = 7, // Undefined label C_MOS = 8, // Member of structure C_ARG = 9, // Function argument C_STRTAG = 10, // Structure tag C_MOU = 11, // Member of union C_UNTAG = 12, // Union tag C_TPDEF = 13, // Type definition C_USTATIC = 14, // Undefined static C_ENTAG = 15, // Enumeration tag C_MOE = 16, // Member of enumeration C_REGPARM = 17, // Register parameter C_FIELD = 18, // Bit field C_EOS = 102, // End of structure C_LINE = 104, C_ALIAS = 105, // Duplicate tag C_HIDDEN = 106, // Special storage class for external C_EFCN = 255, // Physical end of function // Storage classes - reserved C_TCSYM = 134 // Reserved }; // Flags for defining the symbol type. Values to be encoded into the lower 3 // bits of the (unsigned, 8-bit) x_smtyp field of csect auxiliary symbol table // entries. Defined in the system header `syms.h`. enum SymbolType : uint8_t { XTY_ER = 0, ///< External reference. XTY_SD = 1, ///< Csect definition for initialized storage. XTY_LD = 2, ///< Label definition. ///< Defines an entry point to an initialized csect. XTY_CM = 3 ///< Common csect definition. For uninitialized storage. }; /// Values for visibility as they would appear when encoded in the high 4 bits /// of the 16-bit unsigned n_type field of symbol table entries. Valid for /// 32-bit XCOFF only when the vstamp in the auxiliary header is greater than 1. enum VisibilityType : uint16_t { SYM_V_UNSPECIFIED = 0x0000, SYM_V_INTERNAL = 0x1000, SYM_V_HIDDEN = 0x2000, SYM_V_PROTECTED = 0x3000, SYM_V_EXPORTED = 0x4000 }; // Relocation types, defined in `/usr/include/reloc.h`. enum RelocationType : uint8_t { R_POS = 0x00, ///< Positive relocation. Provides the address of the referenced ///< symbol. R_RL = 0x0c, ///< Positive indirect load relocation. Modifiable instruction. R_RLA = 0x0d, ///< Positive load address relocation. Modifiable instruction. R_NEG = 0x01, ///< Negative relocation. Provides the negative of the address ///< of the referenced symbol. R_REL = 0x02, ///< Relative to self relocation. Provides a displacement value ///< between the address of the referenced symbol and the ///< address being relocated. R_TOC = 0x03, ///< Relative to the TOC relocation. Provides a displacement ///< that is the difference between the address of the ///< referenced symbol and the TOC anchor csect. R_TRL = 0x12, ///< TOC relative indirect load relocation. Similar to R_TOC, ///< but not modifiable instruction. R_TRLA = 0x13, ///< Relative to the TOC or to the thread-local storage base ///< relocation. Compilers are not permitted to generate this ///< relocation type. It is the result of a reversible ///< transformation by the linker of an R_TOC relation that turned a ///< load instruction into an add-immediate instruction. R_GL = 0x05, ///< Global linkage-external TOC address relocation. Provides the ///< address of the external TOC associated with a defined ///< external symbol. R_TCL = 0x06, ///< Local object TOC address relocation. Provides the address ///< of the local TOC entry of a defined external symbol. R_REF = 0x0f, ///< A non-relocating relocation. Used to prevent the binder ///< from garbage collecting a csect (such as code used for ///< dynamic initialization of non-local statics) for which ///< another csect has an implicit dependency. R_BA = 0x08, ///< Branch absolute relocation. Provides the address of the ///< referenced symbol. References a non-modifiable instruction. R_BR = 0x0a, ///< Branch relative to self relocation. Provides the ///< displacement that is the difference between the address of ///< the referenced symbol and the address of the referenced ///< branch instruction. References a non-modifiable instruction. R_RBA = 0x18, ///< Branch absolute relocation. Similar to R_BA but ///< references a modifiable instruction. R_RBR = 0x1a, ///< Branch relative to self relocation. Similar to the R_BR ///< relocation type, but references a modifiable instruction. R_TLS = 0x20, ///< General-dynamic reference to TLS symbol. R_TLS_IE = 0x21, ///< Initial-exec reference to TLS symbol. R_TLS_LD = 0x22, ///< Local-dynamic reference to TLS symbol. R_TLS_LE = 0x23, ///< Local-exec reference to TLS symbol. R_TLSM = 0x24, ///< Module reference to TLS. Provides a handle for the module ///< containing the referenced symbol. R_TLSML = 0x25, ///< Module reference to the local TLS storage. R_TOCU = 0x30, ///< Relative to TOC upper. Specifies the high-order 16 bits of ///< a large code model TOC-relative relocation. R_TOCL = 0x31 ///< Relative to TOC lower. Specifies the low-order 16 bits of a ///< large code model TOC-relative relocation. }; enum CFileStringType : uint8_t { XFT_FN = 0, ///< Specifies the source-file name. XFT_CT = 1, ///< Specifies the compiler time stamp. XFT_CV = 2, ///< Specifies the compiler version number. XFT_CD = 128 ///< Specifies compiler-defined information. }; enum CFileLangId : uint8_t { TB_C = 0, ///< C language. TB_CPLUSPLUS = 9 ///< C++ language. }; enum CFileCpuId : uint8_t { TCPU_PPC64 = 2, ///< PowerPC common architecture 64-bit mode. TCPU_COM = 3, ///< POWER and PowerPC architecture common. TCPU_970 = 19 ///< PPC970 - PowerPC 64-bit architecture. }; enum SymbolAuxType : uint8_t { AUX_EXCEPT = 255, ///< Identifies an exception auxiliary entry. AUX_FCN = 254, ///< Identifies a function auxiliary entry. AUX_SYM = 253, ///< Identifies a symbol auxiliary entry. AUX_FILE = 252, ///< Identifies a file auxiliary entry. AUX_CSECT = 251, ///< Identifies a csect auxiliary entry. AUX_SECT = 250 ///< Identifies a SECT auxiliary entry. }; // 64-bit XCOFF file only. StringRef getMappingClassString(XCOFF::StorageMappingClass SMC); StringRef getRelocationTypeString(XCOFF::RelocationType Type); Expected> parseParmsType(uint32_t Value, unsigned FixedParmsNum, unsigned FloatingParmsNum); Expected> parseParmsTypeWithVecInfo(uint32_t Value, unsigned FixedParmsNum, unsigned FloatingParmsNum, unsigned VectorParmsNum); Expected> parseVectorParmsType(uint32_t Value, unsigned ParmsNum); struct TracebackTable { enum LanguageID : uint8_t { C, Fortran, Pascal, Ada, PL1, Basic, Lisp, Cobol, Modula2, CPlusPlus, Rpg, PL8, PLIX = PL8, Assembly, Java, ObjectiveC }; // Byte 1 static constexpr uint32_t VersionMask = 0xFF00'0000; static constexpr uint8_t VersionShift = 24; // Byte 2 static constexpr uint32_t LanguageIdMask = 0x00FF'0000; static constexpr uint8_t LanguageIdShift = 16; // Byte 3 static constexpr uint32_t IsGlobaLinkageMask = 0x0000'8000; static constexpr uint32_t IsOutOfLineEpilogOrPrologueMask = 0x0000'4000; static constexpr uint32_t HasTraceBackTableOffsetMask = 0x0000'2000; static constexpr uint32_t IsInternalProcedureMask = 0x0000'1000; static constexpr uint32_t HasControlledStorageMask = 0x0000'0800; static constexpr uint32_t IsTOClessMask = 0x0000'0400; static constexpr uint32_t IsFloatingPointPresentMask = 0x0000'0200; static constexpr uint32_t IsFloatingPointOperationLogOrAbortEnabledMask = 0x0000'0100; // Byte 4 static constexpr uint32_t IsInterruptHandlerMask = 0x0000'0080; static constexpr uint32_t IsFunctionNamePresentMask = 0x0000'0040; static constexpr uint32_t IsAllocaUsedMask = 0x0000'0020; static constexpr uint32_t OnConditionDirectiveMask = 0x0000'001C; static constexpr uint32_t IsCRSavedMask = 0x0000'0002; static constexpr uint32_t IsLRSavedMask = 0x0000'0001; static constexpr uint8_t OnConditionDirectiveShift = 2; // Byte 5 static constexpr uint32_t IsBackChainStoredMask = 0x8000'0000; static constexpr uint32_t IsFixupMask = 0x4000'0000; static constexpr uint32_t FPRSavedMask = 0x3F00'0000; static constexpr uint32_t FPRSavedShift = 24; // Byte 6 static constexpr uint32_t HasExtensionTableMask = 0x0080'0000; static constexpr uint32_t HasVectorInfoMask = 0x0040'0000; static constexpr uint32_t GPRSavedMask = 0x003F'0000; static constexpr uint32_t GPRSavedShift = 16; // Byte 7 static constexpr uint32_t NumberOfFixedParmsMask = 0x0000'FF00; static constexpr uint8_t NumberOfFixedParmsShift = 8; // Byte 8 static constexpr uint32_t NumberOfFloatingPointParmsMask = 0x0000'00FE; static constexpr uint32_t HasParmsOnStackMask = 0x0000'0001; static constexpr uint8_t NumberOfFloatingPointParmsShift = 1; // Masks to select leftmost bits for decoding parameter type information. // Bit to use when vector info is not presented. static constexpr uint32_t ParmTypeIsFloatingBit = 0x8000'0000; static constexpr uint32_t ParmTypeFloatingIsDoubleBit = 0x4000'0000; // Bits to use when vector info is presented. static constexpr uint32_t ParmTypeIsFixedBits = 0x0000'0000; static constexpr uint32_t ParmTypeIsVectorBits = 0x4000'0000; static constexpr uint32_t ParmTypeIsFloatingBits = 0x8000'0000; static constexpr uint32_t ParmTypeIsDoubleBits = 0xC000'0000; static constexpr uint32_t ParmTypeMask = 0xC000'0000; // Vector extension static constexpr uint16_t NumberOfVRSavedMask = 0xFC00; static constexpr uint16_t IsVRSavedOnStackMask = 0x0200; static constexpr uint16_t HasVarArgsMask = 0x0100; static constexpr uint8_t NumberOfVRSavedShift = 10; static constexpr uint16_t NumberOfVectorParmsMask = 0x00FE; static constexpr uint16_t HasVMXInstructionMask = 0x0001; static constexpr uint8_t NumberOfVectorParmsShift = 1; static constexpr uint32_t ParmTypeIsVectorCharBit = 0x0000'0000; static constexpr uint32_t ParmTypeIsVectorShortBit = 0x4000'0000; static constexpr uint32_t ParmTypeIsVectorIntBit = 0x8000'0000; static constexpr uint32_t ParmTypeIsVectorFloatBit = 0xC000'0000; static constexpr uint8_t WidthOfParamType = 2; }; // Extended Traceback table flags. enum ExtendedTBTableFlag : uint8_t { TB_OS1 = 0x80, ///< Reserved for OS use. TB_RESERVED = 0x40, ///< Reserved for compiler. TB_SSP_CANARY = 0x20, ///< stack smasher canary present on stack. TB_OS2 = 0x10, ///< Reserved for OS use. TB_EH_INFO = 0x08, ///< Exception handling info present. TB_LONGTBTABLE2 = 0x01 ///< Additional tbtable extension exists. }; StringRef getNameForTracebackTableLanguageId(TracebackTable::LanguageID LangId); SmallString<32> getExtendedTBTableFlagString(uint8_t Flag); struct CsectProperties { CsectProperties(StorageMappingClass SMC, SymbolType ST) : MappingClass(SMC), Type(ST) {} StorageMappingClass MappingClass; SymbolType Type; }; } // end namespace XCOFF } // end namespace llvm #endif