//===-- XCOFFYAML.cpp - XCOFF YAMLIO 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 defines classes for handling the YAML representation of XCOFF. // //===----------------------------------------------------------------------===// #include "llvm/ObjectYAML/XCOFFYAML.h" #include "llvm/BinaryFormat/XCOFF.h" #include namespace llvm { namespace XCOFFYAML { Object::Object() { memset(&Header, 0, sizeof(Header)); } AuxSymbolEnt::~AuxSymbolEnt() = default; } // namespace XCOFFYAML namespace yaml { void ScalarBitSetTraits::bitset( IO &IO, XCOFF::SectionTypeFlags &Value) { #define ECase(X) IO.bitSetCase(Value, #X, XCOFF::X) ECase(STYP_PAD); ECase(STYP_DWARF); ECase(STYP_TEXT); ECase(STYP_DATA); ECase(STYP_BSS); ECase(STYP_EXCEPT); ECase(STYP_INFO); ECase(STYP_TDATA); ECase(STYP_TBSS); ECase(STYP_LOADER); ECase(STYP_DEBUG); ECase(STYP_TYPCHK); ECase(STYP_OVRFLO); #undef ECase } void ScalarEnumerationTraits::enumeration( IO &IO, XCOFF::DwarfSectionSubtypeFlags &Value) { #define ECase(X) IO.enumCase(Value, #X, XCOFF::X) ECase(SSUBTYP_DWINFO); ECase(SSUBTYP_DWLINE); ECase(SSUBTYP_DWPBNMS); ECase(SSUBTYP_DWPBTYP); ECase(SSUBTYP_DWARNGE); ECase(SSUBTYP_DWABREV); ECase(SSUBTYP_DWSTR); ECase(SSUBTYP_DWRNGES); ECase(SSUBTYP_DWLOC); ECase(SSUBTYP_DWFRAME); ECase(SSUBTYP_DWMAC); #undef ECase IO.enumFallback(Value); } void ScalarEnumerationTraits::enumeration( IO &IO, XCOFF::StorageClass &Value) { #define ECase(X) IO.enumCase(Value, #X, XCOFF::X) ECase(C_NULL); ECase(C_AUTO); ECase(C_EXT); ECase(C_STAT); ECase(C_REG); ECase(C_EXTDEF); ECase(C_LABEL); ECase(C_ULABEL); ECase(C_MOS); ECase(C_ARG); ECase(C_STRTAG); ECase(C_MOU); ECase(C_UNTAG); ECase(C_TPDEF); ECase(C_USTATIC); ECase(C_ENTAG); ECase(C_MOE); ECase(C_REGPARM); ECase(C_FIELD); ECase(C_BLOCK); ECase(C_FCN); ECase(C_EOS); ECase(C_FILE); ECase(C_LINE); ECase(C_ALIAS); ECase(C_HIDDEN); ECase(C_HIDEXT); ECase(C_BINCL); ECase(C_EINCL); ECase(C_INFO); ECase(C_WEAKEXT); ECase(C_DWARF); ECase(C_GSYM); ECase(C_LSYM); ECase(C_PSYM); ECase(C_RSYM); ECase(C_RPSYM); ECase(C_STSYM); ECase(C_TCSYM); ECase(C_BCOMM); ECase(C_ECOML); ECase(C_ECOMM); ECase(C_DECL); ECase(C_ENTRY); ECase(C_FUN); ECase(C_BSTAT); ECase(C_ESTAT); ECase(C_GTLS); ECase(C_STTLS); ECase(C_EFCN); #undef ECase } void ScalarEnumerationTraits::enumeration( IO &IO, XCOFF::StorageMappingClass &Value) { #define ECase(X) IO.enumCase(Value, #X, XCOFF::X) ECase(XMC_PR); ECase(XMC_RO); ECase(XMC_DB); ECase(XMC_GL); ECase(XMC_XO); ECase(XMC_SV); ECase(XMC_SV64); ECase(XMC_SV3264); ECase(XMC_TI); ECase(XMC_TB); ECase(XMC_RW); ECase(XMC_TC0); ECase(XMC_TC); ECase(XMC_TD); ECase(XMC_DS); ECase(XMC_UA); ECase(XMC_BS); ECase(XMC_UC); ECase(XMC_TL); ECase(XMC_UL); ECase(XMC_TE); #undef ECase } void ScalarEnumerationTraits::enumeration( IO &IO, XCOFF::SymbolType &Value) { #define ECase(X) IO.enumCase(Value, #X, XCOFF::X) ECase(XTY_ER); ECase(XTY_SD); ECase(XTY_LD); ECase(XTY_CM); #undef ECase IO.enumFallback(Value); } void ScalarEnumerationTraits::enumeration( IO &IO, XCOFFYAML::AuxSymbolType &Type) { #define ECase(X) IO.enumCase(Type, #X, XCOFFYAML::X) ECase(AUX_EXCEPT); ECase(AUX_FCN); ECase(AUX_SYM); ECase(AUX_FILE); ECase(AUX_CSECT); ECase(AUX_SECT); ECase(AUX_STAT); #undef ECase } void ScalarEnumerationTraits::enumeration( IO &IO, XCOFF::CFileStringType &Type) { #define ECase(X) IO.enumCase(Type, #X, XCOFF::X) ECase(XFT_FN); ECase(XFT_CT); ECase(XFT_CV); ECase(XFT_CD); #undef ECase } struct NSectionFlags { NSectionFlags(IO &) : Flags(XCOFF::SectionTypeFlags(0)) {} NSectionFlags(IO &, uint32_t C) : Flags(XCOFF::SectionTypeFlags(C)) {} uint32_t denormalize(IO &) { return Flags; } XCOFF::SectionTypeFlags Flags; }; void MappingTraits::mapping( IO &IO, XCOFFYAML::FileHeader &FileHdr) { IO.mapOptional("MagicNumber", FileHdr.Magic); IO.mapOptional("NumberOfSections", FileHdr.NumberOfSections); IO.mapOptional("CreationTime", FileHdr.TimeStamp); IO.mapOptional("OffsetToSymbolTable", FileHdr.SymbolTableOffset); IO.mapOptional("EntriesInSymbolTable", FileHdr.NumberOfSymTableEntries); IO.mapOptional("AuxiliaryHeaderSize", FileHdr.AuxHeaderSize); IO.mapOptional("Flags", FileHdr.Flags); } void MappingTraits::mapping( IO &IO, XCOFFYAML::AuxiliaryHeader &AuxHdr) { IO.mapOptional("Magic", AuxHdr.Magic); IO.mapOptional("Version", AuxHdr.Version); IO.mapOptional("TextStartAddr", AuxHdr.TextStartAddr); IO.mapOptional("DataStartAddr", AuxHdr.DataStartAddr); IO.mapOptional("TOCAnchorAddr", AuxHdr.TOCAnchorAddr); IO.mapOptional("TextSectionSize", AuxHdr.TextSize); IO.mapOptional("DataSectionSize", AuxHdr.InitDataSize); IO.mapOptional("BssSectionSize", AuxHdr.BssDataSize); IO.mapOptional("SecNumOfEntryPoint", AuxHdr.SecNumOfEntryPoint); IO.mapOptional("SecNumOfText", AuxHdr.SecNumOfText); IO.mapOptional("SecNumOfData", AuxHdr.SecNumOfData); IO.mapOptional("SecNumOfTOC", AuxHdr.SecNumOfTOC); IO.mapOptional("SecNumOfLoader", AuxHdr.SecNumOfLoader); IO.mapOptional("SecNumOfBSS", AuxHdr.SecNumOfBSS); IO.mapOptional("MaxAlignOfText", AuxHdr.MaxAlignOfText); IO.mapOptional("MaxAlignOfData", AuxHdr.MaxAlignOfData); IO.mapOptional("ModuleType", AuxHdr.CpuFlag); IO.mapOptional("TextPageSize", AuxHdr.TextPageSize); IO.mapOptional("DataPageSize", AuxHdr.DataPageSize); IO.mapOptional("StackPageSize", AuxHdr.StackPageSize); IO.mapOptional("FlagAndTDataAlignment", AuxHdr.FlagAndTDataAlignment); IO.mapOptional("EntryPointAddr", AuxHdr.EntryPointAddr); IO.mapOptional("MaxStackSize", AuxHdr.MaxStackSize); IO.mapOptional("MaxDataSize", AuxHdr.MaxDataSize); IO.mapOptional("SecNumOfTData", AuxHdr.SecNumOfTData); IO.mapOptional("SecNumOfTBSS", AuxHdr.SecNumOfTBSS); IO.mapOptional("Flag", AuxHdr.Flag); } void MappingTraits::mapping(IO &IO, XCOFFYAML::Relocation &R) { IO.mapOptional("Address", R.VirtualAddress); IO.mapOptional("Symbol", R.SymbolIndex); IO.mapOptional("Info", R.Info); IO.mapOptional("Type", R.Type); } void MappingTraits::mapping(IO &IO, XCOFFYAML::Section &Sec) { MappingNormalization NC(IO, Sec.Flags); IO.mapOptional("Name", Sec.SectionName); IO.mapOptional("Address", Sec.Address); IO.mapOptional("Size", Sec.Size); IO.mapOptional("FileOffsetToData", Sec.FileOffsetToData); IO.mapOptional("FileOffsetToRelocations", Sec.FileOffsetToRelocations); IO.mapOptional("FileOffsetToLineNumbers", Sec.FileOffsetToLineNumbers); IO.mapOptional("NumberOfRelocations", Sec.NumberOfRelocations); IO.mapOptional("NumberOfLineNumbers", Sec.NumberOfLineNumbers); IO.mapOptional("Flags", NC->Flags); IO.mapOptional("DWARFSectionSubtype", Sec.SectionSubtype); IO.mapOptional("SectionData", Sec.SectionData); IO.mapOptional("Relocations", Sec.Relocations); } static void auxSymMapping(IO &IO, XCOFFYAML::CsectAuxEnt &AuxSym, bool Is64) { IO.mapOptional("ParameterHashIndex", AuxSym.ParameterHashIndex); IO.mapOptional("TypeChkSectNum", AuxSym.TypeChkSectNum); IO.mapOptional("SymbolAlignmentAndType", AuxSym.SymbolAlignmentAndType); IO.mapOptional("SymbolType", AuxSym.SymbolType); IO.mapOptional("SymbolAlignment", AuxSym.SymbolAlignment); IO.mapOptional("StorageMappingClass", AuxSym.StorageMappingClass); if (Is64) { IO.mapOptional("SectionOrLengthLo", AuxSym.SectionOrLengthLo); IO.mapOptional("SectionOrLengthHi", AuxSym.SectionOrLengthHi); } else { IO.mapOptional("SectionOrLength", AuxSym.SectionOrLength); IO.mapOptional("StabInfoIndex", AuxSym.StabInfoIndex); IO.mapOptional("StabSectNum", AuxSym.StabSectNum); } } static void auxSymMapping(IO &IO, XCOFFYAML::FileAuxEnt &AuxSym) { IO.mapOptional("FileNameOrString", AuxSym.FileNameOrString); IO.mapOptional("FileStringType", AuxSym.FileStringType); } static void auxSymMapping(IO &IO, XCOFFYAML::BlockAuxEnt &AuxSym, bool Is64) { if (Is64) { IO.mapOptional("LineNum", AuxSym.LineNum); } else { IO.mapOptional("LineNumHi", AuxSym.LineNumHi); IO.mapOptional("LineNumLo", AuxSym.LineNumLo); } } static void auxSymMapping(IO &IO, XCOFFYAML::FunctionAuxEnt &AuxSym, bool Is64) { if (!Is64) IO.mapOptional("OffsetToExceptionTbl", AuxSym.OffsetToExceptionTbl); IO.mapOptional("SizeOfFunction", AuxSym.SizeOfFunction); IO.mapOptional("SymIdxOfNextBeyond", AuxSym.SymIdxOfNextBeyond); IO.mapOptional("PtrToLineNum", AuxSym.PtrToLineNum); } static void auxSymMapping(IO &IO, XCOFFYAML::ExcpetionAuxEnt &AuxSym) { IO.mapOptional("OffsetToExceptionTbl", AuxSym.OffsetToExceptionTbl); IO.mapOptional("SizeOfFunction", AuxSym.SizeOfFunction); IO.mapOptional("SymIdxOfNextBeyond", AuxSym.SymIdxOfNextBeyond); } static void auxSymMapping(IO &IO, XCOFFYAML::SectAuxEntForDWARF &AuxSym) { IO.mapOptional("LengthOfSectionPortion", AuxSym.LengthOfSectionPortion); IO.mapOptional("NumberOfRelocEnt", AuxSym.NumberOfRelocEnt); } static void auxSymMapping(IO &IO, XCOFFYAML::SectAuxEntForStat &AuxSym) { IO.mapOptional("SectionLength", AuxSym.SectionLength); IO.mapOptional("NumberOfRelocEnt", AuxSym.NumberOfRelocEnt); IO.mapOptional("NumberOfLineNum", AuxSym.NumberOfLineNum); } template static void ResetAuxSym(IO &IO, std::unique_ptr &AuxSym) { if (!IO.outputting()) AuxSym.reset(new AuxEntT); } void MappingTraits>::mapping( IO &IO, std::unique_ptr &AuxSym) { const bool Is64 = static_cast(IO.getContext())->Header.Magic == (llvm::yaml::Hex16)XCOFF::XCOFF64; XCOFFYAML::AuxSymbolType AuxType; if (IO.outputting()) AuxType = AuxSym->Type; IO.mapRequired("Type", AuxType); switch (AuxType) { case XCOFFYAML::AUX_EXCEPT: if (!Is64) { IO.setError("an auxiliary symbol of type AUX_EXCEPT cannot be defined in " "XCOFF32"); return; } ResetAuxSym(IO, AuxSym); auxSymMapping(IO, *cast(AuxSym.get())); break; case XCOFFYAML::AUX_FCN: ResetAuxSym(IO, AuxSym); auxSymMapping(IO, *cast(AuxSym.get()), Is64); break; case XCOFFYAML::AUX_SYM: ResetAuxSym(IO, AuxSym); auxSymMapping(IO, *cast(AuxSym.get()), Is64); break; case XCOFFYAML::AUX_FILE: ResetAuxSym(IO, AuxSym); auxSymMapping(IO, *cast(AuxSym.get())); break; case XCOFFYAML::AUX_CSECT: ResetAuxSym(IO, AuxSym); auxSymMapping(IO, *cast(AuxSym.get()), Is64); break; case XCOFFYAML::AUX_SECT: ResetAuxSym(IO, AuxSym); auxSymMapping(IO, *cast(AuxSym.get())); break; case XCOFFYAML::AUX_STAT: if (Is64) { IO.setError( "an auxiliary symbol of type AUX_STAT cannot be defined in XCOFF64"); return; } ResetAuxSym(IO, AuxSym); auxSymMapping(IO, *cast(AuxSym.get())); break; } } void MappingTraits::mapping(IO &IO, XCOFFYAML::Symbol &S) { IO.mapOptional("Name", S.SymbolName); IO.mapOptional("Value", S.Value); IO.mapOptional("Section", S.SectionName); IO.mapOptional("SectionIndex", S.SectionIndex); IO.mapOptional("Type", S.Type); IO.mapOptional("StorageClass", S.StorageClass); IO.mapOptional("NumberOfAuxEntries", S.NumberOfAuxEntries); IO.mapOptional("AuxEntries", S.AuxEntries); } void MappingTraits::mapping( IO &IO, XCOFFYAML::StringTable &Str) { IO.mapOptional("ContentSize", Str.ContentSize); IO.mapOptional("Length", Str.Length); IO.mapOptional("Strings", Str.Strings); IO.mapOptional("RawContent", Str.RawContent); } void MappingTraits::mapping(IO &IO, XCOFFYAML::Object &Obj) { IO.setContext(&Obj); IO.mapTag("!XCOFF", true); IO.mapRequired("FileHeader", Obj.Header); IO.mapOptional("AuxiliaryHeader", Obj.AuxHeader); IO.mapOptional("Sections", Obj.Sections); IO.mapOptional("Symbols", Obj.Symbols); IO.mapOptional("StringTable", Obj.StrTbl); IO.setContext(nullptr); } } // namespace yaml } // namespace llvm