//===- llvm-readobj.cpp - Dump contents of an Object File -----------------===// // // 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 is a tool similar to readelf, except it works on multiple object file // formats. The main purpose of this tool is to provide detailed output suitable // for FileCheck. // // Flags should be similar to readelf where supported, but the output format // does not need to be identical. The point is to not make users learn yet // another set of flags. // // Output should be specialized for each format where appropriate. // //===----------------------------------------------------------------------===// #include "llvm-readobj.h" #include "ObjDumper.h" #include "WindowsResourceDumper.h" #include "llvm/DebugInfo/CodeView/GlobalTypeTableBuilder.h" #include "llvm/DebugInfo/CodeView/MergingTypeTableBuilder.h" #include "llvm/Object/Archive.h" #include "llvm/Object/COFFImportFile.h" #include "llvm/Object/ELFObjectFile.h" #include "llvm/Object/MachOUniversal.h" #include "llvm/Object/ObjectFile.h" #include "llvm/Object/Wasm.h" #include "llvm/Object/WindowsResource.h" #include "llvm/Object/XCOFFObjectFile.h" #include "llvm/Support/Casting.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/DataTypes.h" #include "llvm/Support/Debug.h" #include "llvm/Support/Errc.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/FormatVariadic.h" #include "llvm/Support/InitLLVM.h" #include "llvm/Support/Path.h" #include "llvm/Support/ScopedPrinter.h" #include "llvm/Support/TargetRegistry.h" #include "llvm/Support/WithColor.h" using namespace llvm; using namespace llvm::object; namespace opts { cl::list InputFilenames(cl::Positional, cl::desc(""), cl::ZeroOrMore); // --all, -a cl::opt All("all", cl::desc("Equivalent to setting: --file-headers, --program-headers, " "--section-headers, --symbols, --relocations, " "--dynamic-table, --notes, --version-info, --unwind, " "--section-groups and --elf-hash-histogram.")); cl::alias AllShort("a", cl::desc("Alias for --all"), cl::aliasopt(All)); // --dependent-libraries cl::opt DependentLibraries("dependent-libraries", cl::desc("Display the dependent libraries section")); // --headers, -e cl::opt Headers("headers", cl::desc("Equivalent to setting: --file-headers, --program-headers, " "--section-headers")); cl::alias HeadersShort("e", cl::desc("Alias for --headers"), cl::aliasopt(Headers)); // --wide, -W cl::opt WideOutput("wide", cl::desc("Ignored for compatibility with GNU readelf"), cl::Hidden); cl::alias WideOutputShort("W", cl::desc("Alias for --wide"), cl::aliasopt(WideOutput)); // --file-headers, --file-header, -h cl::opt FileHeaders("file-headers", cl::desc("Display file headers ")); cl::alias FileHeadersShort("h", cl::desc("Alias for --file-headers"), cl::aliasopt(FileHeaders), cl::NotHidden); cl::alias FileHeadersSingular("file-header", cl::desc("Alias for --file-headers"), cl::aliasopt(FileHeaders)); // --section-headers, --sections, -S // Also -s in llvm-readobj mode. cl::opt SectionHeaders("section-headers", cl::desc("Display all section headers.")); cl::alias SectionsShortUpper("S", cl::desc("Alias for --section-headers"), cl::aliasopt(SectionHeaders), cl::NotHidden); cl::alias SectionHeadersAlias("sections", cl::desc("Alias for --section-headers"), cl::aliasopt(SectionHeaders), cl::NotHidden); // --section-relocations // Also --sr in llvm-readobj mode. cl::opt SectionRelocations("section-relocations", cl::desc("Display relocations for each section shown.")); // --section-symbols // Also --st in llvm-readobj mode. cl::opt SectionSymbols("section-symbols", cl::desc("Display symbols for each section shown.")); // --section-data // Also --sd in llvm-readobj mode. cl::opt SectionData("section-data", cl::desc("Display section data for each section shown.")); // --section-mapping cl::opt SectionMapping("section-mapping", cl::desc("Display the section to segment mapping.")); // --relocations, --relocs, -r cl::opt Relocations("relocations", cl::desc("Display the relocation entries in the file")); cl::alias RelocationsShort("r", cl::desc("Alias for --relocations"), cl::aliasopt(Relocations), cl::NotHidden); cl::alias RelocationsGNU("relocs", cl::desc("Alias for --relocations"), cl::aliasopt(Relocations)); // --notes, -n cl::opt Notes("notes", cl::desc("Display the ELF notes in the file")); cl::alias NotesShort("n", cl::desc("Alias for --notes"), cl::aliasopt(Notes)); // --dyn-relocations cl::opt DynRelocs("dyn-relocations", cl::desc("Display the dynamic relocation entries in the file")); // --section-details // Also -t in llvm-readelf mode. cl::opt SectionDetails("section-details", cl::desc("Display the section details")); // --symbols // Also -s in llvm-readelf mode, or -t in llvm-readobj mode. cl::opt Symbols("symbols", cl::desc("Display the symbol table. Also display the dynamic " "symbol table when using GNU output style for ELF")); cl::alias SymbolsGNU("syms", cl::desc("Alias for --symbols"), cl::aliasopt(Symbols)); // --dyn-symbols, --dyn-syms // Also --dt in llvm-readobj mode. cl::opt DynamicSymbols("dyn-symbols", cl::desc("Display the dynamic symbol table")); cl::alias DynSymsGNU("dyn-syms", cl::desc("Alias for --dyn-symbols"), cl::aliasopt(DynamicSymbols)); // --hash-symbols cl::opt HashSymbols( "hash-symbols", cl::desc("Display the dynamic symbols derived from the hash section")); // --unwind, -u cl::opt UnwindInfo("unwind", cl::desc("Display unwind information")); cl::alias UnwindInfoShort("u", cl::desc("Alias for --unwind"), cl::aliasopt(UnwindInfo)); // --dynamic-table, --dynamic, -d cl::opt DynamicTable("dynamic-table", cl::desc("Display the ELF .dynamic section table")); cl::alias DynamicTableShort("d", cl::desc("Alias for --dynamic-table"), cl::aliasopt(DynamicTable), cl::NotHidden); cl::alias DynamicTableAlias("dynamic", cl::desc("Alias for --dynamic-table"), cl::aliasopt(DynamicTable)); // --needed-libs cl::opt NeededLibraries("needed-libs", cl::desc("Display the needed libraries")); // --program-headers, --segments, -l cl::opt ProgramHeaders("program-headers", cl::desc("Display ELF program headers")); cl::alias ProgramHeadersShort("l", cl::desc("Alias for --program-headers"), cl::aliasopt(ProgramHeaders), cl::NotHidden); cl::alias SegmentsAlias("segments", cl::desc("Alias for --program-headers"), cl::aliasopt(ProgramHeaders)); // --string-dump, -p cl::list StringDump( "string-dump", cl::value_desc("number|name"), cl::desc("Display the specified section(s) as a list of strings"), cl::ZeroOrMore); cl::alias StringDumpShort("p", cl::desc("Alias for --string-dump"), cl::aliasopt(StringDump), cl::Prefix); // --hex-dump, -x cl::list HexDump("hex-dump", cl::value_desc("number|name"), cl::desc("Display the specified section(s) as hexadecimal bytes"), cl::ZeroOrMore); cl::alias HexDumpShort("x", cl::desc("Alias for --hex-dump"), cl::aliasopt(HexDump), cl::Prefix); // --demangle, -C cl::opt Demangle("demangle", cl::desc("Demangle symbol names in output")); cl::alias DemangleShort("C", cl::desc("Alias for --demangle"), cl::aliasopt(Demangle), cl::NotHidden); // --hash-table cl::opt HashTable("hash-table", cl::desc("Display ELF hash table")); // --gnu-hash-table cl::opt GnuHashTable("gnu-hash-table", cl::desc("Display ELF .gnu.hash section")); // --expand-relocs cl::opt ExpandRelocs("expand-relocs", cl::desc("Expand each shown relocation to multiple lines")); // --raw-relr cl::opt RawRelr("raw-relr", cl::desc("Do not decode relocations in SHT_RELR section, display raw contents")); // --codeview cl::opt CodeView("codeview", cl::desc("Display CodeView debug information")); // --codeview-merged-types cl::opt CodeViewMergedTypes("codeview-merged-types", cl::desc("Display the merged CodeView type stream")); // --codeview-ghash cl::opt CodeViewEnableGHash( "codeview-ghash", cl::desc( "Enable global hashing for CodeView type stream de-duplication")); // --codeview-subsection-bytes cl::opt CodeViewSubsectionBytes( "codeview-subsection-bytes", cl::desc("Dump raw contents of codeview debug sections and records")); // --arch-specific cl::opt ArchSpecificInfo("arch-specific", cl::desc("Displays architecture-specific information, if there is any.")); cl::alias ArchSpecifcInfoShort("A", cl::desc("Alias for --arch-specific"), cl::aliasopt(ArchSpecificInfo), cl::NotHidden); // --coff-imports cl::opt COFFImports("coff-imports", cl::desc("Display the PE/COFF import table")); // --coff-exports cl::opt COFFExports("coff-exports", cl::desc("Display the PE/COFF export table")); // --coff-directives cl::opt COFFDirectives("coff-directives", cl::desc("Display the PE/COFF .drectve section")); // --coff-basereloc cl::opt COFFBaseRelocs("coff-basereloc", cl::desc("Display the PE/COFF .reloc section")); // --coff-debug-directory cl::opt COFFDebugDirectory("coff-debug-directory", cl::desc("Display the PE/COFF debug directory")); // --coff-tls-directory cl::opt COFFTLSDirectory("coff-tls-directory", cl::desc("Display the PE/COFF TLS directory")); // --coff-resources cl::opt COFFResources("coff-resources", cl::desc("Display the PE/COFF .rsrc section")); // --coff-load-config cl::opt COFFLoadConfig("coff-load-config", cl::desc("Display the PE/COFF load config")); // --elf-linker-options cl::opt ELFLinkerOptions("elf-linker-options", cl::desc("Display the ELF .linker-options section")); // --macho-data-in-code cl::opt MachODataInCode("macho-data-in-code", cl::desc("Display MachO Data in Code command")); // --macho-indirect-symbols cl::opt MachOIndirectSymbols("macho-indirect-symbols", cl::desc("Display MachO indirect symbols")); // --macho-linker-options cl::opt MachOLinkerOptions("macho-linker-options", cl::desc("Display MachO linker options")); // --macho-segment cl::opt MachOSegment("macho-segment", cl::desc("Display MachO Segment command")); // --macho-version-min cl::opt MachOVersionMin("macho-version-min", cl::desc("Display MachO version min command")); // --macho-dysymtab cl::opt MachODysymtab("macho-dysymtab", cl::desc("Display MachO Dysymtab command")); // --stackmap cl::opt PrintStackMap("stackmap", cl::desc("Display contents of stackmap section")); // --stack-sizes cl::opt PrintStackSizes("stack-sizes", cl::desc("Display contents of all stack sizes sections")); // --version-info, -V cl::opt VersionInfo("version-info", cl::desc("Display ELF version sections (if present)")); cl::alias VersionInfoShort("V", cl::desc("Alias for -version-info"), cl::aliasopt(VersionInfo)); // --elf-section-groups, --section-groups, -g cl::opt SectionGroups("elf-section-groups", cl::desc("Display ELF section group contents")); cl::alias SectionGroupsAlias("section-groups", cl::desc("Alias for -elf-sections-groups"), cl::aliasopt(SectionGroups)); cl::alias SectionGroupsShort("g", cl::desc("Alias for -elf-sections-groups"), cl::aliasopt(SectionGroups)); // --elf-hash-histogram, --histogram, -I cl::opt HashHistogram( "elf-hash-histogram", cl::desc("Display bucket list histogram for hash sections")); cl::alias HashHistogramShort("I", cl::desc("Alias for -elf-hash-histogram"), cl::aliasopt(HashHistogram)); cl::alias HistogramAlias("histogram", cl::desc("Alias for --elf-hash-histogram"), cl::aliasopt(HashHistogram)); // --cg-profile cl::opt CGProfile("cg-profile", cl::desc("Display callgraph profile section")); cl::alias ELFCGProfile("elf-cg-profile", cl::desc("Alias for --cg-profile"), cl::aliasopt(CGProfile)); // -addrsig cl::opt Addrsig("addrsig", cl::desc("Display address-significance table")); // -elf-output-style cl::opt Output("elf-output-style", cl::desc("Specify ELF dump style"), cl::values(clEnumVal(LLVM, "LLVM default style"), clEnumVal(GNU, "GNU readelf style")), cl::init(LLVM)); cl::extrahelp HelpResponse("\nPass @FILE as argument to read options from FILE.\n"); } // namespace opts static StringRef ToolName; namespace llvm { LLVM_ATTRIBUTE_NORETURN static void error(Twine Msg) { // Flush the standard output to print the error at a // proper place. fouts().flush(); WithColor::error(errs(), ToolName) << Msg << "\n"; exit(1); } LLVM_ATTRIBUTE_NORETURN void reportError(Error Err, StringRef Input) { assert(Err); if (Input == "-") Input = ""; handleAllErrors(createFileError(Input, std::move(Err)), [&](const ErrorInfoBase &EI) { error(EI.message()); }); llvm_unreachable("error() call should never return"); } void reportWarning(Error Err, StringRef Input) { assert(Err); if (Input == "-") Input = ""; // Flush the standard output to print the warning at a // proper place. fouts().flush(); handleAllErrors( createFileError(Input, std::move(Err)), [&](const ErrorInfoBase &EI) { WithColor::warning(errs(), ToolName) << EI.message() << "\n"; }); } } // namespace llvm namespace { struct ReadObjTypeTableBuilder { ReadObjTypeTableBuilder() : Allocator(), IDTable(Allocator), TypeTable(Allocator), GlobalIDTable(Allocator), GlobalTypeTable(Allocator) {} llvm::BumpPtrAllocator Allocator; llvm::codeview::MergingTypeTableBuilder IDTable; llvm::codeview::MergingTypeTableBuilder TypeTable; llvm::codeview::GlobalTypeTableBuilder GlobalIDTable; llvm::codeview::GlobalTypeTableBuilder GlobalTypeTable; std::vector> Binaries; }; } // namespace static ReadObjTypeTableBuilder CVTypes; /// Creates an format-specific object file dumper. static Expected> createDumper(const ObjectFile &Obj, ScopedPrinter &Writer) { if (const COFFObjectFile *COFFObj = dyn_cast(&Obj)) return createCOFFDumper(*COFFObj, Writer); if (const ELFObjectFileBase *ELFObj = dyn_cast(&Obj)) return createELFDumper(*ELFObj, Writer); if (const MachOObjectFile *MachOObj = dyn_cast(&Obj)) return createMachODumper(*MachOObj, Writer); if (const WasmObjectFile *WasmObj = dyn_cast(&Obj)) return createWasmDumper(*WasmObj, Writer); if (const XCOFFObjectFile *XObj = dyn_cast(&Obj)) return createXCOFFDumper(*XObj, Writer); return createStringError(errc::invalid_argument, "unsupported object file format"); } /// Dumps the specified object file. static void dumpObject(ObjectFile &Obj, ScopedPrinter &Writer, const Archive *A = nullptr) { std::string FileStr = A ? Twine(A->getFileName() + "(" + Obj.getFileName() + ")").str() : Obj.getFileName().str(); std::string ContentErrString; if (Error ContentErr = Obj.initContent()) ContentErrString = "unable to continue dumping, the file is corrupt: " + toString(std::move(ContentErr)); ObjDumper *Dumper; Expected> DumperOrErr = createDumper(Obj, Writer); if (!DumperOrErr) reportError(DumperOrErr.takeError(), FileStr); Dumper = (*DumperOrErr).get(); if (opts::Output == opts::LLVM || opts::InputFilenames.size() > 1 || A) { Writer.startLine() << "\n"; Writer.printString("File", FileStr); } if (opts::Output == opts::LLVM) { Writer.printString("Format", Obj.getFileFormatName()); Writer.printString("Arch", Triple::getArchTypeName(Obj.getArch())); Writer.printString( "AddressSize", std::string(formatv("{0}bit", 8 * Obj.getBytesInAddress()))); Dumper->printLoadName(); } if (opts::FileHeaders) Dumper->printFileHeaders(); // This is only used for ELF currently. In some cases, when an object is // corrupt (e.g. truncated), we can't dump anything except the file header. if (!ContentErrString.empty()) reportError(createError(ContentErrString), FileStr); if (opts::SectionDetails || opts::SectionHeaders) { if (opts::Output == opts::GNU && opts::SectionDetails) Dumper->printSectionDetails(); else Dumper->printSectionHeaders(); } if (opts::HashSymbols) Dumper->printHashSymbols(); if (opts::ProgramHeaders || opts::SectionMapping == cl::BOU_TRUE) Dumper->printProgramHeaders(opts::ProgramHeaders, opts::SectionMapping); if (opts::DynamicTable) Dumper->printDynamicTable(); if (opts::NeededLibraries) Dumper->printNeededLibraries(); if (opts::Relocations) Dumper->printRelocations(); if (opts::DynRelocs) Dumper->printDynamicRelocations(); if (opts::UnwindInfo) Dumper->printUnwindInfo(); if (opts::Symbols || opts::DynamicSymbols) Dumper->printSymbols(opts::Symbols, opts::DynamicSymbols); if (!opts::StringDump.empty()) Dumper->printSectionsAsString(Obj, opts::StringDump); if (!opts::HexDump.empty()) Dumper->printSectionsAsHex(Obj, opts::HexDump); if (opts::HashTable) Dumper->printHashTable(); if (opts::GnuHashTable) Dumper->printGnuHashTable(); if (opts::VersionInfo) Dumper->printVersionInfo(); if (Obj.isELF()) { if (opts::DependentLibraries) Dumper->printDependentLibs(); if (opts::ELFLinkerOptions) Dumper->printELFLinkerOptions(); if (opts::ArchSpecificInfo) Dumper->printArchSpecificInfo(); if (opts::SectionGroups) Dumper->printGroupSections(); if (opts::HashHistogram) Dumper->printHashHistograms(); if (opts::CGProfile) Dumper->printCGProfile(); if (opts::Addrsig) Dumper->printAddrsig(); if (opts::Notes) Dumper->printNotes(); } if (Obj.isCOFF()) { if (opts::COFFImports) Dumper->printCOFFImports(); if (opts::COFFExports) Dumper->printCOFFExports(); if (opts::COFFDirectives) Dumper->printCOFFDirectives(); if (opts::COFFBaseRelocs) Dumper->printCOFFBaseReloc(); if (opts::COFFDebugDirectory) Dumper->printCOFFDebugDirectory(); if (opts::COFFTLSDirectory) Dumper->printCOFFTLSDirectory(); if (opts::COFFResources) Dumper->printCOFFResources(); if (opts::COFFLoadConfig) Dumper->printCOFFLoadConfig(); if (opts::CGProfile) Dumper->printCGProfile(); if (opts::Addrsig) Dumper->printAddrsig(); if (opts::CodeView) Dumper->printCodeViewDebugInfo(); if (opts::CodeViewMergedTypes) Dumper->mergeCodeViewTypes(CVTypes.IDTable, CVTypes.TypeTable, CVTypes.GlobalIDTable, CVTypes.GlobalTypeTable, opts::CodeViewEnableGHash); } if (Obj.isMachO()) { if (opts::MachODataInCode) Dumper->printMachODataInCode(); if (opts::MachOIndirectSymbols) Dumper->printMachOIndirectSymbols(); if (opts::MachOLinkerOptions) Dumper->printMachOLinkerOptions(); if (opts::MachOSegment) Dumper->printMachOSegment(); if (opts::MachOVersionMin) Dumper->printMachOVersionMin(); if (opts::MachODysymtab) Dumper->printMachODysymtab(); } if (opts::PrintStackMap) Dumper->printStackMap(); if (opts::PrintStackSizes) Dumper->printStackSizes(); } /// Dumps each object file in \a Arc; static void dumpArchive(const Archive *Arc, ScopedPrinter &Writer) { Error Err = Error::success(); for (auto &Child : Arc->children(Err)) { Expected> ChildOrErr = Child.getAsBinary(); if (!ChildOrErr) { if (auto E = isNotObjectErrorInvalidFileType(ChildOrErr.takeError())) reportError(std::move(E), Arc->getFileName()); continue; } Binary *Bin = ChildOrErr->get(); if (ObjectFile *Obj = dyn_cast(Bin)) dumpObject(*Obj, Writer, Arc); else if (COFFImportFile *Imp = dyn_cast(Bin)) dumpCOFFImportFile(Imp, Writer); else reportWarning(createStringError(errc::invalid_argument, Bin->getFileName() + " has an unsupported file type"), Arc->getFileName()); } if (Err) reportError(std::move(Err), Arc->getFileName()); } /// Dumps each object file in \a MachO Universal Binary; static void dumpMachOUniversalBinary(const MachOUniversalBinary *UBinary, ScopedPrinter &Writer) { for (const MachOUniversalBinary::ObjectForArch &Obj : UBinary->objects()) { Expected> ObjOrErr = Obj.getAsObjectFile(); if (ObjOrErr) dumpObject(*ObjOrErr.get(), Writer); else if (auto E = isNotObjectErrorInvalidFileType(ObjOrErr.takeError())) reportError(ObjOrErr.takeError(), UBinary->getFileName()); else if (Expected> AOrErr = Obj.getAsArchive()) dumpArchive(&*AOrErr.get(), Writer); } } /// Dumps \a WinRes, Windows Resource (.res) file; static void dumpWindowsResourceFile(WindowsResource *WinRes, ScopedPrinter &Printer) { WindowsRes::Dumper Dumper(WinRes, Printer); if (auto Err = Dumper.printData()) reportError(std::move(Err), WinRes->getFileName()); } /// Opens \a File and dumps it. static void dumpInput(StringRef File, ScopedPrinter &Writer) { // Attempt to open the binary. Expected> BinaryOrErr = createBinary(File, /*Context=*/nullptr, /*InitContent=*/false); if (!BinaryOrErr) reportError(BinaryOrErr.takeError(), File); Binary &Binary = *BinaryOrErr.get().getBinary(); if (Archive *Arc = dyn_cast(&Binary)) dumpArchive(Arc, Writer); else if (MachOUniversalBinary *UBinary = dyn_cast(&Binary)) dumpMachOUniversalBinary(UBinary, Writer); else if (ObjectFile *Obj = dyn_cast(&Binary)) dumpObject(*Obj, Writer); else if (COFFImportFile *Import = dyn_cast(&Binary)) dumpCOFFImportFile(Import, Writer); else if (WindowsResource *WinRes = dyn_cast(&Binary)) dumpWindowsResourceFile(WinRes, Writer); else llvm_unreachable("unrecognized file type"); CVTypes.Binaries.push_back(std::move(*BinaryOrErr)); } /// Registers aliases that should only be allowed by readobj. static void registerReadobjAliases() { // -s has meant --sections for a very long time in llvm-readobj despite // meaning --symbols in readelf. static cl::alias SectionsShort("s", cl::desc("Alias for --section-headers"), cl::aliasopt(opts::SectionHeaders), cl::NotHidden); // llvm-readelf reserves it for --section-details. static cl::alias SymbolsShort("t", cl::desc("Alias for --symbols"), cl::aliasopt(opts::Symbols), cl::NotHidden); // The following two-letter aliases are only provided for readobj, as readelf // allows single-letter args to be grouped together. static cl::alias SectionRelocationsShort( "sr", cl::desc("Alias for --section-relocations"), cl::aliasopt(opts::SectionRelocations)); static cl::alias SectionDataShort("sd", cl::desc("Alias for --section-data"), cl::aliasopt(opts::SectionData)); static cl::alias SectionSymbolsShort("st", cl::desc("Alias for --section-symbols"), cl::aliasopt(opts::SectionSymbols)); static cl::alias DynamicSymbolsShort("dt", cl::desc("Alias for --dyn-symbols"), cl::aliasopt(opts::DynamicSymbols)); } /// Registers aliases that should only be allowed by readelf. static void registerReadelfAliases() { // -s is here because for readobj it means --sections. static cl::alias SymbolsShort("s", cl::desc("Alias for --symbols"), cl::aliasopt(opts::Symbols), cl::NotHidden, cl::Grouping); // -t is here because for readobj it is an alias for --symbols. static cl::alias SectionDetailsShort( "t", cl::desc("Alias for --section-details"), cl::aliasopt(opts::SectionDetails), cl::NotHidden); // Allow all single letter flags to be grouped together. for (auto &OptEntry : cl::getRegisteredOptions()) { StringRef ArgName = OptEntry.getKey(); cl::Option *Option = OptEntry.getValue(); if (ArgName.size() == 1) apply(Option, cl::Grouping); } } int main(int argc, const char *argv[]) { InitLLVM X(argc, argv); ToolName = argv[0]; // Register the target printer for --version. cl::AddExtraVersionPrinter(TargetRegistry::printRegisteredTargetsForVersion); if (sys::path::stem(argv[0]).contains("readelf")) { opts::Output = opts::GNU; registerReadelfAliases(); } else { registerReadobjAliases(); } cl::ParseCommandLineOptions(argc, argv, "LLVM Object Reader\n"); // Default to print error if no filename is specified. if (opts::InputFilenames.empty()) { error("no input files specified"); } if (opts::All) { opts::FileHeaders = true; opts::ProgramHeaders = true; opts::SectionHeaders = true; opts::Symbols = true; opts::Relocations = true; opts::DynamicTable = true; opts::Notes = true; opts::VersionInfo = true; opts::UnwindInfo = true; opts::SectionGroups = true; opts::HashHistogram = true; if (opts::Output == opts::LLVM) { opts::Addrsig = true; opts::PrintStackSizes = true; } } if (opts::Headers) { opts::FileHeaders = true; opts::ProgramHeaders = true; opts::SectionHeaders = true; } ScopedPrinter Writer(fouts()); for (const std::string &I : opts::InputFilenames) dumpInput(I, Writer); if (opts::CodeViewMergedTypes) { if (opts::CodeViewEnableGHash) dumpCodeViewMergedTypes(Writer, CVTypes.GlobalIDTable.records(), CVTypes.GlobalTypeTable.records()); else dumpCodeViewMergedTypes(Writer, CVTypes.IDTable.records(), CVTypes.TypeTable.records()); } return 0; }