//===-- llvm-ar.cpp - LLVM archive librarian utility ----------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Builds up (relatively) standard unix archive files (.a) containing LLVM // bitcode or other files. // //===----------------------------------------------------------------------===// #include "llvm/ADT/StringSwitch.h" #include "llvm/ADT/Triple.h" #include "llvm/IR/LLVMContext.h" #include "llvm/Object/Archive.h" #include "llvm/Object/ArchiveWriter.h" #include "llvm/Object/MachO.h" #include "llvm/Object/ObjectFile.h" #include "llvm/Support/Chrono.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/Errc.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Format.h" #include "llvm/Support/FormatVariadic.h" #include "llvm/Support/InitLLVM.h" #include "llvm/Support/LineIterator.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/Path.h" #include "llvm/Support/Process.h" #include "llvm/Support/StringSaver.h" #include "llvm/Support/TargetSelect.h" #include "llvm/Support/ToolOutputFile.h" #include "llvm/Support/raw_ostream.h" #include "llvm/ToolDrivers/llvm-dlltool/DlltoolDriver.h" #include "llvm/ToolDrivers/llvm-lib/LibDriver.h" #if !defined(_MSC_VER) && !defined(__MINGW32__) #include #else #include #endif using namespace llvm; // The name this program was invoked as. static StringRef ToolName; // The basename of this program. static StringRef Stem; const char RanlibHelp[] = R"( OVERVIEW: LLVM Ranlib (llvm-ranlib) This program generates an index to speed access to archives USAGE: llvm-ranlib OPTIONS: -help - Display available options -version - Display the version of this program )"; const char ArHelp[] = R"( OVERVIEW: LLVM Archiver USAGE: llvm-ar [options] [-][modifiers] [relpos] [files] llvm-ar -M [ - Ignored for compatibility --help - Display available options --version - Display the version of this program OPERATIONS: d - delete [files] from the archive m - move [files] in the archive p - print [files] found in the archive q - quick append [files] to the archive r - replace or insert [files] into the archive s - act as ranlib t - display contents of archive x - extract [files] from the archive MODIFIERS: [a] - put [files] after [relpos] [b] - put [files] before [relpos] (same as [i]) [c] - do not warn if archive had to be created [D] - use zero for timestamps and uids/gids (default) [i] - put [files] before [relpos] (same as [b]) [l] - ignored for compatibility [L] - add archive's contents [o] - preserve original dates [s] - create an archive index (cf. ranlib) [S] - do not build a symbol table [T] - create a thin archive [u] - update only [files] newer than archive contents [U] - use actual timestamps and uids/gids [v] - be verbose about actions taken )"; void printHelpMessage() { if (Stem.contains_lower("ranlib")) outs() << RanlibHelp; else if (Stem.contains_lower("ar")) outs() << ArHelp; } // Show the error message and exit. LLVM_ATTRIBUTE_NORETURN static void fail(Twine Error) { errs() << ToolName << ": " << Error << ".\n"; printHelpMessage(); exit(1); } static void failIfError(std::error_code EC, Twine Context = "") { if (!EC) return; std::string ContextStr = Context.str(); if (ContextStr == "") fail(EC.message()); fail(Context + ": " + EC.message()); } static void failIfError(Error E, Twine Context = "") { if (!E) return; handleAllErrors(std::move(E), [&](const llvm::ErrorInfoBase &EIB) { std::string ContextStr = Context.str(); if (ContextStr == "") fail(EIB.message()); fail(Context + ": " + EIB.message()); }); } static SmallVector PositionalArgs; static bool MRI; namespace { enum Format { Default, GNU, BSD, DARWIN, Unknown }; } static Format FormatType = Default; static std::string Options; // This enumeration delineates the kinds of operations on an archive // that are permitted. enum ArchiveOperation { Print, ///< Print the contents of the archive Delete, ///< Delete the specified members Move, ///< Move members to end or as given by {a,b,i} modifiers QuickAppend, ///< Quickly append to end of archive ReplaceOrInsert, ///< Replace or Insert members DisplayTable, ///< Display the table of contents Extract, ///< Extract files back to file system CreateSymTab ///< Create a symbol table in an existing archive }; // Modifiers to follow operation to vary behavior static bool AddAfter = false; ///< 'a' modifier static bool AddBefore = false; ///< 'b' modifier static bool Create = false; ///< 'c' modifier static bool OriginalDates = false; ///< 'o' modifier static bool OnlyUpdate = false; ///< 'u' modifier static bool Verbose = false; ///< 'v' modifier static bool Symtab = true; ///< 's' modifier static bool Deterministic = true; ///< 'D' and 'U' modifiers static bool Thin = false; ///< 'T' modifier static bool AddLibrary = false; ///< 'L' modifier // Relative Positional Argument (for insert/move). This variable holds // the name of the archive member to which the 'a', 'b' or 'i' modifier // refers. Only one of 'a', 'b' or 'i' can be specified so we only need // one variable. static std::string RelPos; // This variable holds the name of the archive file as given on the // command line. static std::string ArchiveName; // This variable holds the list of member files to proecess, as given // on the command line. static std::vector Members; // Extract the member filename from the command line for the [relpos] argument // associated with a, b, and i modifiers static void getRelPos() { if (PositionalArgs.size() == 0) fail("Expected [relpos] for a, b, or i modifier"); RelPos = PositionalArgs[0]; PositionalArgs.erase(PositionalArgs.begin()); } // Get the archive file name from the command line static void getArchive() { if (PositionalArgs.size() == 0) fail("An archive name must be specified"); ArchiveName = PositionalArgs[0]; PositionalArgs.erase(PositionalArgs.begin()); } // Copy over remaining items in PositionalArgs to our Members vector static void getMembers() { for (auto &Arg : PositionalArgs) Members.push_back(Arg); } std::vector> ArchiveBuffers; std::vector> Archives; static object::Archive &readLibrary(const Twine &Library) { auto BufOrErr = MemoryBuffer::getFile(Library, -1, false); failIfError(BufOrErr.getError(), "Could not open library"); ArchiveBuffers.push_back(std::move(*BufOrErr)); auto LibOrErr = object::Archive::create(ArchiveBuffers.back()->getMemBufferRef()); failIfError(errorToErrorCode(LibOrErr.takeError()), "Could not parse library"); Archives.push_back(std::move(*LibOrErr)); return *Archives.back(); } static void runMRIScript(); // Parse the command line options as presented and return the operation // specified. Process all modifiers and check to make sure that constraints on // modifier/operation pairs have not been violated. static ArchiveOperation parseCommandLine() { if (MRI) { if (!PositionalArgs.empty() || !Options.empty()) fail("Cannot mix -M and other options"); runMRIScript(); } // Keep track of number of operations. We can only specify one // per execution. unsigned NumOperations = 0; // Keep track of the number of positional modifiers (a,b,i). Only // one can be specified. unsigned NumPositional = 0; // Keep track of which operation was requested ArchiveOperation Operation; bool MaybeJustCreateSymTab = false; for(unsigned i=0; i 1) fail("Only one operation may be specified"); if (NumPositional > 1) fail("You may only specify one of a, b, and i modifiers"); if (AddAfter || AddBefore) { if (Operation != Move && Operation != ReplaceOrInsert) fail("The 'a', 'b' and 'i' modifiers can only be specified with " "the 'm' or 'r' operations"); } if (OriginalDates && Operation != Extract) fail("The 'o' modifier is only applicable to the 'x' operation"); if (OnlyUpdate && Operation != ReplaceOrInsert) fail("The 'u' modifier is only applicable to the 'r' operation"); if (AddLibrary && Operation != QuickAppend) fail("The 'L' modifier is only applicable to the 'q' operation"); // Return the parsed operation to the caller return Operation; } // Implements the 'p' operation. This function traverses the archive // looking for members that match the path list. static void doPrint(StringRef Name, const object::Archive::Child &C) { if (Verbose) outs() << "Printing " << Name << "\n"; Expected DataOrErr = C.getBuffer(); failIfError(DataOrErr.takeError()); StringRef Data = *DataOrErr; outs().write(Data.data(), Data.size()); } // Utility function for printing out the file mode when the 't' operation is in // verbose mode. static void printMode(unsigned mode) { outs() << ((mode & 004) ? "r" : "-"); outs() << ((mode & 002) ? "w" : "-"); outs() << ((mode & 001) ? "x" : "-"); } // Implement the 't' operation. This function prints out just // the file names of each of the members. However, if verbose mode is requested // ('v' modifier) then the file type, permission mode, user, group, size, and // modification time are also printed. static void doDisplayTable(StringRef Name, const object::Archive::Child &C) { if (Verbose) { Expected ModeOrErr = C.getAccessMode(); failIfError(ModeOrErr.takeError()); sys::fs::perms Mode = ModeOrErr.get(); printMode((Mode >> 6) & 007); printMode((Mode >> 3) & 007); printMode(Mode & 007); Expected UIDOrErr = C.getUID(); failIfError(UIDOrErr.takeError()); outs() << ' ' << UIDOrErr.get(); Expected GIDOrErr = C.getGID(); failIfError(GIDOrErr.takeError()); outs() << '/' << GIDOrErr.get(); Expected Size = C.getSize(); failIfError(Size.takeError()); outs() << ' ' << format("%6llu", Size.get()); auto ModTimeOrErr = C.getLastModified(); failIfError(ModTimeOrErr.takeError()); // Note: formatv() only handles the default TimePoint<>, which is in // nanoseconds. // TODO: fix format_provider> to allow other units. sys::TimePoint<> ModTimeInNs = ModTimeOrErr.get(); outs() << ' ' << formatv("{0:%b %e %H:%M %Y}", ModTimeInNs); outs() << ' '; } if (C.getParent()->isThin()) { outs() << sys::path::parent_path(ArchiveName); outs() << '/'; } outs() << Name << "\n"; } // Implement the 'x' operation. This function extracts files back to the file // system. static void doExtract(StringRef Name, const object::Archive::Child &C) { // Retain the original mode. Expected ModeOrErr = C.getAccessMode(); failIfError(ModeOrErr.takeError()); sys::fs::perms Mode = ModeOrErr.get(); int FD; failIfError(sys::fs::openFileForWrite(sys::path::filename(Name), FD, sys::fs::CD_CreateAlways, sys::fs::F_None, Mode), Name); { raw_fd_ostream file(FD, false); // Get the data and its length Expected BufOrErr = C.getBuffer(); failIfError(BufOrErr.takeError()); StringRef Data = BufOrErr.get(); // Write the data. file.write(Data.data(), Data.size()); } // If we're supposed to retain the original modification times, etc. do so // now. if (OriginalDates) { auto ModTimeOrErr = C.getLastModified(); failIfError(ModTimeOrErr.takeError()); failIfError( sys::fs::setLastAccessAndModificationTime(FD, ModTimeOrErr.get())); } if (close(FD)) fail("Could not close the file"); } static bool shouldCreateArchive(ArchiveOperation Op) { switch (Op) { case Print: case Delete: case Move: case DisplayTable: case Extract: case CreateSymTab: return false; case QuickAppend: case ReplaceOrInsert: return true; } llvm_unreachable("Missing entry in covered switch."); } static void performReadOperation(ArchiveOperation Operation, object::Archive *OldArchive) { if (Operation == Extract && OldArchive->isThin()) fail("extracting from a thin archive is not supported"); bool Filter = !Members.empty(); { Error Err = Error::success(); for (auto &C : OldArchive->children(Err)) { Expected NameOrErr = C.getName(); failIfError(NameOrErr.takeError()); StringRef Name = NameOrErr.get(); if (Filter) { auto I = find(Members, Name); if (I == Members.end()) continue; Members.erase(I); } switch (Operation) { default: llvm_unreachable("Not a read operation"); case Print: doPrint(Name, C); break; case DisplayTable: doDisplayTable(Name, C); break; case Extract: doExtract(Name, C); break; } } failIfError(std::move(Err)); } if (Members.empty()) return; for (StringRef Name : Members) errs() << Name << " was not found\n"; exit(1); } static void addMember(std::vector &Members, StringRef FileName, int Pos = -1) { Expected NMOrErr = NewArchiveMember::getFile(FileName, Deterministic); failIfError(NMOrErr.takeError(), FileName); // Use the basename of the object path for the member name. NMOrErr->MemberName = sys::path::filename(NMOrErr->MemberName); if (Pos == -1) Members.push_back(std::move(*NMOrErr)); else Members[Pos] = std::move(*NMOrErr); } static void addMember(std::vector &Members, const object::Archive::Child &M, int Pos = -1) { if (Thin && !M.getParent()->isThin()) fail("Cannot convert a regular archive to a thin one"); Expected NMOrErr = NewArchiveMember::getOldMember(M, Deterministic); failIfError(NMOrErr.takeError()); if (Pos == -1) Members.push_back(std::move(*NMOrErr)); else Members[Pos] = std::move(*NMOrErr); } static void addLibMember(std::vector &Members, StringRef FileName) { Expected NMOrErr = NewArchiveMember::getFile(FileName, Deterministic); failIfError(NMOrErr.takeError(), FileName); if (identify_magic(NMOrErr->Buf->getBuffer()) == file_magic::archive) { object::Archive &Lib = readLibrary(FileName); Error Err = Error::success(); for (auto &Child : Lib.children(Err)) addMember(Members, Child); failIfError(std::move(Err)); } else { // Use the basename of the object path for the member name. NMOrErr->MemberName = sys::path::filename(NMOrErr->MemberName); Members.push_back(std::move(*NMOrErr)); } } enum InsertAction { IA_AddOldMember, IA_AddNewMember, IA_Delete, IA_MoveOldMember, IA_MoveNewMember }; static InsertAction computeInsertAction(ArchiveOperation Operation, const object::Archive::Child &Member, StringRef Name, std::vector::iterator &Pos) { if (Operation == QuickAppend || Members.empty()) return IA_AddOldMember; auto MI = find_if(Members, [Name](StringRef Path) { return Name == sys::path::filename(Path); }); if (MI == Members.end()) return IA_AddOldMember; Pos = MI; if (Operation == Delete) return IA_Delete; if (Operation == Move) return IA_MoveOldMember; if (Operation == ReplaceOrInsert) { StringRef PosName = sys::path::filename(RelPos); if (!OnlyUpdate) { if (PosName.empty()) return IA_AddNewMember; return IA_MoveNewMember; } // We could try to optimize this to a fstat, but it is not a common // operation. sys::fs::file_status Status; failIfError(sys::fs::status(*MI, Status), *MI); auto ModTimeOrErr = Member.getLastModified(); failIfError(ModTimeOrErr.takeError()); if (Status.getLastModificationTime() < ModTimeOrErr.get()) { if (PosName.empty()) return IA_AddOldMember; return IA_MoveOldMember; } if (PosName.empty()) return IA_AddNewMember; return IA_MoveNewMember; } llvm_unreachable("No such operation"); } // We have to walk this twice and computing it is not trivial, so creating an // explicit std::vector is actually fairly efficient. static std::vector computeNewArchiveMembers(ArchiveOperation Operation, object::Archive *OldArchive) { std::vector Ret; std::vector Moved; int InsertPos = -1; StringRef PosName = sys::path::filename(RelPos); if (OldArchive) { Error Err = Error::success(); for (auto &Child : OldArchive->children(Err)) { int Pos = Ret.size(); Expected NameOrErr = Child.getName(); failIfError(NameOrErr.takeError()); StringRef Name = NameOrErr.get(); if (Name == PosName) { assert(AddAfter || AddBefore); if (AddBefore) InsertPos = Pos; else InsertPos = Pos + 1; } std::vector::iterator MemberI = Members.end(); InsertAction Action = computeInsertAction(Operation, Child, Name, MemberI); switch (Action) { case IA_AddOldMember: addMember(Ret, Child); break; case IA_AddNewMember: addMember(Ret, *MemberI); break; case IA_Delete: break; case IA_MoveOldMember: addMember(Moved, Child); break; case IA_MoveNewMember: addMember(Moved, *MemberI); break; } if (MemberI != Members.end()) Members.erase(MemberI); } failIfError(std::move(Err)); } if (Operation == Delete) return Ret; if (!RelPos.empty() && InsertPos == -1) fail("Insertion point not found"); if (RelPos.empty()) InsertPos = Ret.size(); assert(unsigned(InsertPos) <= Ret.size()); int Pos = InsertPos; for (auto &M : Moved) { Ret.insert(Ret.begin() + Pos, std::move(M)); ++Pos; } if (AddLibrary) { assert(Operation == QuickAppend); for (auto &Member : Members) addLibMember(Ret, Member); return Ret; } for (unsigned I = 0; I != Members.size(); ++I) Ret.insert(Ret.begin() + InsertPos, NewArchiveMember()); Pos = InsertPos; for (auto &Member : Members) { addMember(Ret, Member, Pos); ++Pos; } return Ret; } static object::Archive::Kind getDefaultForHost() { return Triple(sys::getProcessTriple()).isOSDarwin() ? object::Archive::K_DARWIN : object::Archive::K_GNU; } static object::Archive::Kind getKindFromMember(const NewArchiveMember &Member) { Expected> OptionalObject = object::ObjectFile::createObjectFile(Member.Buf->getMemBufferRef()); if (OptionalObject) return isa(**OptionalObject) ? object::Archive::K_DARWIN : object::Archive::K_GNU; // squelch the error in case we had a non-object file consumeError(OptionalObject.takeError()); return getDefaultForHost(); } static void performWriteOperation(ArchiveOperation Operation, object::Archive *OldArchive, std::unique_ptr OldArchiveBuf, std::vector *NewMembersP) { std::vector NewMembers; if (!NewMembersP) NewMembers = computeNewArchiveMembers(Operation, OldArchive); object::Archive::Kind Kind; switch (FormatType) { case Default: if (Thin) Kind = object::Archive::K_GNU; else if (OldArchive) Kind = OldArchive->kind(); else if (NewMembersP) Kind = NewMembersP->size() ? getKindFromMember(NewMembersP->front()) : getDefaultForHost(); else Kind = NewMembers.size() ? getKindFromMember(NewMembers.front()) : getDefaultForHost(); break; case GNU: Kind = object::Archive::K_GNU; break; case BSD: if (Thin) fail("Only the gnu format has a thin mode"); Kind = object::Archive::K_BSD; break; case DARWIN: if (Thin) fail("Only the gnu format has a thin mode"); Kind = object::Archive::K_DARWIN; break; case Unknown: llvm_unreachable(""); } Error E = writeArchive(ArchiveName, NewMembersP ? *NewMembersP : NewMembers, Symtab, Kind, Deterministic, Thin, std::move(OldArchiveBuf)); failIfError(std::move(E), ArchiveName); } static void createSymbolTable(object::Archive *OldArchive) { // When an archive is created or modified, if the s option is given, the // resulting archive will have a current symbol table. If the S option // is given, it will have no symbol table. // In summary, we only need to update the symbol table if we have none. // This is actually very common because of broken build systems that think // they have to run ranlib. if (OldArchive->hasSymbolTable()) return; performWriteOperation(CreateSymTab, OldArchive, nullptr, nullptr); } static void performOperation(ArchiveOperation Operation, object::Archive *OldArchive, std::unique_ptr OldArchiveBuf, std::vector *NewMembers) { switch (Operation) { case Print: case DisplayTable: case Extract: performReadOperation(Operation, OldArchive); return; case Delete: case Move: case QuickAppend: case ReplaceOrInsert: performWriteOperation(Operation, OldArchive, std::move(OldArchiveBuf), NewMembers); return; case CreateSymTab: createSymbolTable(OldArchive); return; } llvm_unreachable("Unknown operation."); } static int performOperation(ArchiveOperation Operation, std::vector *NewMembers) { // Create or open the archive object. ErrorOr> Buf = MemoryBuffer::getFile(ArchiveName, -1, false); std::error_code EC = Buf.getError(); if (EC && EC != errc::no_such_file_or_directory) fail("error opening '" + ArchiveName + "': " + EC.message() + "!"); if (!EC) { Error Err = Error::success(); object::Archive Archive(Buf.get()->getMemBufferRef(), Err); EC = errorToErrorCode(std::move(Err)); failIfError(EC, "error loading '" + ArchiveName + "': " + EC.message() + "!"); performOperation(Operation, &Archive, std::move(Buf.get()), NewMembers); return 0; } assert(EC == errc::no_such_file_or_directory); if (!shouldCreateArchive(Operation)) { failIfError(EC, Twine("error loading '") + ArchiveName + "'"); } else { if (!Create) { // Produce a warning if we should and we're creating the archive errs() << ToolName << ": creating " << ArchiveName << "\n"; } } performOperation(Operation, nullptr, nullptr, NewMembers); return 0; } static void runMRIScript() { enum class MRICommand { AddLib, AddMod, Create, Delete, Save, End, Invalid }; ErrorOr> Buf = MemoryBuffer::getSTDIN(); failIfError(Buf.getError()); const MemoryBuffer &Ref = *Buf.get(); bool Saved = false; std::vector NewMembers; for (line_iterator I(Ref, /*SkipBlanks*/ false), E; I != E; ++I) { StringRef Line = *I; Line = Line.split(';').first; Line = Line.split('*').first; Line = Line.trim(); if (Line.empty()) continue; StringRef CommandStr, Rest; std::tie(CommandStr, Rest) = Line.split(' '); Rest = Rest.trim(); if (!Rest.empty() && Rest.front() == '"' && Rest.back() == '"') Rest = Rest.drop_front().drop_back(); auto Command = StringSwitch(CommandStr.lower()) .Case("addlib", MRICommand::AddLib) .Case("addmod", MRICommand::AddMod) .Case("create", MRICommand::Create) .Case("delete", MRICommand::Delete) .Case("save", MRICommand::Save) .Case("end", MRICommand::End) .Default(MRICommand::Invalid); switch (Command) { case MRICommand::AddLib: { object::Archive &Lib = readLibrary(Rest); { Error Err = Error::success(); for (auto &Member : Lib.children(Err)) addMember(NewMembers, Member); failIfError(std::move(Err)); } break; } case MRICommand::AddMod: addMember(NewMembers, Rest); break; case MRICommand::Create: Create = true; if (!ArchiveName.empty()) fail("Editing multiple archives not supported"); if (Saved) fail("File already saved"); ArchiveName = Rest; break; case MRICommand::Delete: { StringRef Name = sys::path::filename(Rest); llvm::erase_if(NewMembers, [=](NewArchiveMember &M) { return M.MemberName == Name; }); break; } case MRICommand::Save: Saved = true; break; case MRICommand::End: break; case MRICommand::Invalid: fail("Unknown command: " + CommandStr); } } // Nothing to do if not saved. if (Saved) performOperation(ReplaceOrInsert, &NewMembers); exit(0); } static bool handleGenericOption(StringRef arg) { if (arg == "-help" || arg == "--help") { printHelpMessage(); return true; } if (arg == "-version" || arg == "--version") { cl::PrintVersionMessage(); return true; } return false; } static int ar_main(int argc, char **argv) { SmallVector Argv(argv, argv + argc); BumpPtrAllocator Alloc; StringSaver Saver(Alloc); cl::ExpandResponseFiles(Saver, cl::TokenizeGNUCommandLine, Argv); for(size_t i = 1; i < Argv.size(); ++i) { StringRef Arg = Argv[i]; const char *match; auto MatchFlagWithArg = [&](const char *expected) { size_t len = strlen(expected); if (Arg == expected) { if (++i >= Argv.size()) fail(std::string(expected) + " requires an argument"); match = Argv[i]; return true; } if (Arg.startswith(expected) && Arg.size() > len && Arg[len] == '=') { match = Arg.data() + len + 1; return true; } return false; }; if (handleGenericOption(Argv[i])) return 0; if (Arg == "--") { for(; i < Argv.size(); ++i) PositionalArgs.push_back(Argv[i]); break; } if (Arg[0] == '-') { if (Arg.startswith("--")) Arg = Argv[i] + 2; else Arg = Argv[i] + 1; if (Arg == "M") { MRI = true; } else if (MatchFlagWithArg("format")) { FormatType = StringSwitch(match) .Case("default", Default) .Case("gnu", GNU) .Case("darwin", DARWIN) .Case("bsd", BSD) .Default(Unknown); if (FormatType == Unknown) fail(std::string("Invalid format ") + match); } else if (MatchFlagWithArg("plugin")) { // Ignored. } else { Options += Argv[i] + 1; } } else if (Options.empty()) { Options += Argv[i]; } else { PositionalArgs.push_back(Argv[i]); } } ArchiveOperation Operation = parseCommandLine(); return performOperation(Operation, nullptr); } static int ranlib_main(int argc, char **argv) { bool ArchiveSpecified = false; for(int i = 1; i < argc; ++i) { if (handleGenericOption(argv[i])) { return 0; } else { if (ArchiveSpecified) fail("Exactly one archive should be specified"); ArchiveSpecified = true; ArchiveName = argv[i]; } } return performOperation(CreateSymTab, nullptr); } int main(int argc, char **argv) { InitLLVM X(argc, argv); ToolName = argv[0]; llvm::InitializeAllTargetInfos(); llvm::InitializeAllTargetMCs(); llvm::InitializeAllAsmParsers(); Stem = sys::path::stem(ToolName); if (Stem.contains_lower("dlltool")) return dlltoolDriverMain(makeArrayRef(argv, argc)); if (Stem.contains_lower("ranlib")) return ranlib_main(argc, argv); if (Stem.contains_lower("lib")) return libDriverMain(makeArrayRef(argv, argc)); if (Stem.contains_lower("ar")) return ar_main(argc, argv); fail("Not ranlib, ar, lib or dlltool!"); }