//===- InputFiles.h ---------------------------------------------*- 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 // //===----------------------------------------------------------------------===// #ifndef LLD_MACHO_INPUT_FILES_H #define LLD_MACHO_INPUT_FILES_H #include "MachOStructs.h" #include "Target.h" #include "lld/Common/DWARF.h" #include "lld/Common/LLVM.h" #include "lld/Common/Memory.h" #include "llvm/ADT/CachedHashString.h" #include "llvm/ADT/DenseSet.h" #include "llvm/ADT/SetVector.h" #include "llvm/BinaryFormat/MachO.h" #include "llvm/DebugInfo/DWARF/DWARFUnit.h" #include "llvm/Object/Archive.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/Threading.h" #include "llvm/TextAPI/TextAPIReader.h" #include namespace llvm { namespace lto { class InputFile; } // namespace lto namespace MachO { class InterfaceFile; } // namespace MachO class TarWriter; } // namespace llvm namespace lld { namespace macho { struct PlatformInfo; class ConcatInputSection; class Symbol; class Defined; struct Reloc; enum class RefState : uint8_t; // If --reproduce option is given, all input files are written // to this tar archive. extern std::unique_ptr tar; // If .subsections_via_symbols is set, each InputSection will be split along // symbol boundaries. The field offset represents the offset of the subsection // from the start of the original pre-split InputSection. struct Subsection { uint64_t offset = 0; InputSection *isec = nullptr; }; using Subsections = std::vector; class InputFile; class Section { public: InputFile *file; StringRef segname; StringRef name; uint32_t flags; uint64_t addr; Subsections subsections; Section(InputFile *file, StringRef segname, StringRef name, uint32_t flags, uint64_t addr) : file(file), segname(segname), name(name), flags(flags), addr(addr) {} // Ensure pointers to Sections are never invalidated. Section(const Section &) = delete; Section &operator=(const Section &) = delete; Section(Section &&) = delete; Section &operator=(Section &&) = delete; private: // Whether we have already split this section into individual subsections. // For sections that cannot be split (e.g. literal sections), this is always // false. bool doneSplitting = false; friend class ObjFile; }; // Represents a call graph profile edge. struct CallGraphEntry { // The index of the caller in the symbol table. uint32_t fromIndex; // The index of the callee in the symbol table. uint32_t toIndex; // Number of calls from callee to caller in the profile. uint64_t count; CallGraphEntry(uint32_t fromIndex, uint32_t toIndex, uint64_t count) : fromIndex(fromIndex), toIndex(toIndex), count(count) {} }; class InputFile { public: enum Kind { ObjKind, OpaqueKind, DylibKind, ArchiveKind, BitcodeKind, }; virtual ~InputFile() = default; Kind kind() const { return fileKind; } StringRef getName() const { return name; } static void resetIdCount() { idCount = 0; } MemoryBufferRef mb; std::vector symbols; std::vector
sections; ArrayRef objCImageInfo; // If not empty, this stores the name of the archive containing this file. // We use this string for creating error messages. std::string archiveName; // Provides an easy way to sort InputFiles deterministically. const int id; // True if this is a lazy ObjFile or BitcodeFile. bool lazy = false; protected: InputFile(Kind kind, MemoryBufferRef mb, bool lazy = false) : mb(mb), id(idCount++), lazy(lazy), fileKind(kind), name(mb.getBufferIdentifier()) {} InputFile(Kind, const llvm::MachO::InterfaceFile &); private: const Kind fileKind; const StringRef name; static int idCount; }; struct FDE { uint32_t funcLength; Symbol *personality; InputSection *lsda; }; // .o file class ObjFile final : public InputFile { public: ObjFile(MemoryBufferRef mb, uint32_t modTime, StringRef archiveName, bool lazy = false, bool forceHidden = false); ArrayRef getDataInCode() const; template void parse(); static bool classof(const InputFile *f) { return f->kind() == ObjKind; } std::string sourceFile() const; // Parses line table information for diagnostics. compileUnit should be used // for other purposes. lld::DWARFCache *getDwarf(); llvm::DWARFUnit *compileUnit = nullptr; std::unique_ptr dwarfCache; Section *addrSigSection = nullptr; const uint32_t modTime; bool forceHidden; std::vector debugSections; std::vector callGraph; llvm::DenseMap fdes; std::vector optimizationHints; private: llvm::once_flag initDwarf; template void parseLazy(); template void parseSections(ArrayRef); template void parseSymbols(ArrayRef sectionHeaders, ArrayRef nList, const char *strtab, bool subsectionsViaSymbols); template Symbol *parseNonSectionSymbol(const NList &sym, StringRef name); template void parseRelocations(ArrayRef sectionHeaders, const SectionHeader &, Section &); void parseDebugInfo(); void parseOptimizationHints(ArrayRef data); void splitEhFrames(ArrayRef dataArr, Section &ehFrameSection); void registerCompactUnwind(Section &compactUnwindSection); void registerEhFrames(Section &ehFrameSection); }; // command-line -sectcreate file class OpaqueFile final : public InputFile { public: OpaqueFile(MemoryBufferRef mb, StringRef segName, StringRef sectName); static bool classof(const InputFile *f) { return f->kind() == OpaqueKind; } }; // .dylib or .tbd file class DylibFile final : public InputFile { public: // Mach-O dylibs can re-export other dylibs as sub-libraries, meaning that the // symbols in those sub-libraries will be available under the umbrella // library's namespace. Those sub-libraries can also have their own // re-exports. When loading a re-exported dylib, `umbrella` should be set to // the root dylib to ensure symbols in the child library are correctly bound // to the root. On the other hand, if a dylib is being directly loaded // (through an -lfoo flag), then `umbrella` should be a nullptr. explicit DylibFile(MemoryBufferRef mb, DylibFile *umbrella, bool isBundleLoader, bool explicitlyLinked); explicit DylibFile(const llvm::MachO::InterfaceFile &interface, DylibFile *umbrella, bool isBundleLoader, bool explicitlyLinked); explicit DylibFile(DylibFile *umbrella); void parseLoadCommands(MemoryBufferRef mb); void parseReexports(const llvm::MachO::InterfaceFile &interface); bool isReferenced() const { return numReferencedSymbols > 0; } bool isExplicitlyLinked() const; void setExplicitlyLinked() { explicitlyLinked = true; } static bool classof(const InputFile *f) { return f->kind() == DylibKind; } StringRef installName; DylibFile *exportingFile = nullptr; DylibFile *umbrella; SmallVector rpaths; uint32_t compatibilityVersion = 0; uint32_t currentVersion = 0; int64_t ordinal = 0; // Ordinal numbering starts from 1, so 0 is a sentinel unsigned numReferencedSymbols = 0; RefState refState; bool reexport = false; bool forceNeeded = false; bool forceWeakImport = false; bool deadStrippable = false; private: bool explicitlyLinked = false; // Access via isExplicitlyLinked(). public: // An executable can be used as a bundle loader that will load the output // file being linked, and that contains symbols referenced, but not // implemented in the bundle. When used like this, it is very similar // to a dylib, so we've used the same class to represent it. bool isBundleLoader; // Synthetic Dylib objects created by $ld$previous symbols in this dylib. // Usually empty. These synthetic dylibs won't have synthetic dylibs // themselves. SmallVector extraDylibs; private: DylibFile *getSyntheticDylib(StringRef installName, uint32_t currentVersion, uint32_t compatVersion); bool handleLDSymbol(StringRef originalName); void handleLDPreviousSymbol(StringRef name, StringRef originalName); void handleLDInstallNameSymbol(StringRef name, StringRef originalName); void handleLDHideSymbol(StringRef name, StringRef originalName); void checkAppExtensionSafety(bool dylibIsAppExtensionSafe) const; void parseExportedSymbols(uint32_t offset, uint32_t size); llvm::DenseSet hiddenSymbols; }; // .a file class ArchiveFile final : public InputFile { public: explicit ArchiveFile(std::unique_ptr &&file, bool forceHidden); void addLazySymbols(); void fetch(const llvm::object::Archive::Symbol &); // LLD normally doesn't use Error for error-handling, but the underlying // Archive library does, so this is the cleanest way to wrap it. Error fetch(const llvm::object::Archive::Child &, StringRef reason); const llvm::object::Archive &getArchive() const { return *file; }; static bool classof(const InputFile *f) { return f->kind() == ArchiveKind; } private: std::unique_ptr file; // Keep track of children fetched from the archive by tracking // which address offsets have been fetched already. llvm::DenseSet seen; // Load all symbols with hidden visibility (-load_hidden). bool forceHidden; }; class BitcodeFile final : public InputFile { public: explicit BitcodeFile(MemoryBufferRef mb, StringRef archiveName, uint64_t offsetInArchive, bool lazy = false, bool forceHidden = false); static bool classof(const InputFile *f) { return f->kind() == BitcodeKind; } void parse(); std::unique_ptr obj; bool forceHidden; private: void parseLazy(); }; extern llvm::SetVector inputFiles; extern llvm::DenseMap cachedReads; llvm::Optional readFile(StringRef path); void extract(InputFile &file, StringRef reason); namespace detail { template std::vector findCommands(const void *anyHdr, size_t maxCommands, Types... types) { std::vector cmds; std::initializer_list typesList{types...}; const auto *hdr = reinterpret_cast(anyHdr); const uint8_t *p = reinterpret_cast(hdr) + target->headerSize; for (uint32_t i = 0, n = hdr->ncmds; i < n; ++i) { auto *cmd = reinterpret_cast(p); if (llvm::is_contained(typesList, cmd->cmd)) { cmds.push_back(cmd); if (cmds.size() == maxCommands) return cmds; } p += cmd->cmdsize; } return cmds; } } // namespace detail // anyHdr should be a pointer to either mach_header or mach_header_64 template const CommandType *findCommand(const void *anyHdr, Types... types) { std::vector cmds = detail::findCommands(anyHdr, 1, types...); return cmds.size() ? cmds[0] : nullptr; } template std::vector findCommands(const void *anyHdr, Types... types) { return detail::findCommands(anyHdr, 0, types...); } } // namespace macho std::string toString(const macho::InputFile *file); std::string toString(const macho::Section &); } // namespace lld #endif