//===- lld/Core/LinkingContext.h - Linker Target Info Interface -----------===// // // The LLVM Linker // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef LLD_CORE_LINKING_CONTEXT_H #define LLD_CORE_LINKING_CONTEXT_H #include "lld/Core/Error.h" #include "lld/Core/LLVM.h" #include "lld/Core/Node.h" #include "lld/Core/Reference.h" #include "lld/Core/Reader.h" #include "llvm/Support/ErrorOr.h" #include "llvm/Support/raw_ostream.h" #include #include namespace lld { class PassManager; class File; class Writer; class Node; class SharedLibraryFile; /// \brief The LinkingContext class encapsulates "what and how" to link. /// /// The base class LinkingContext contains the options needed by core linking. /// Subclasses of LinkingContext have additional options needed by specific /// Writers. class LinkingContext { public: virtual ~LinkingContext(); /// \name Methods needed by core linking /// @{ /// Name of symbol linker should use as "entry point" to program, /// usually "main" or "start". virtual StringRef entrySymbolName() const { return _entrySymbolName; } /// Whether core linking should remove Atoms not reachable by following /// References from the entry point Atom or from all global scope Atoms /// if globalsAreDeadStripRoots() is true. bool deadStrip() const { return _deadStrip; } /// Only used if deadStrip() returns true. Means all global scope Atoms /// should be marked live (along with all Atoms they reference). Usually /// this method returns false for main executables, but true for dynamic /// shared libraries. bool globalsAreDeadStripRoots() const { return _globalsAreDeadStripRoots; } /// Only used if deadStrip() returns true. This method returns the names /// of DefinedAtoms that should be marked live (along with all Atoms they /// reference). Only Atoms with scope scopeLinkageUnit or scopeGlobal can /// be kept live using this method. const std::vector &deadStripRoots() const { return _deadStripRoots; } /// Add the given symbol name to the dead strip root set. Only used if /// deadStrip() returns true. void addDeadStripRoot(StringRef symbolName) { assert(!symbolName.empty() && "Empty symbol cannot be a dead strip root"); _deadStripRoots.push_back(symbolName); } /// Normally, every UndefinedAtom must be replaced by a DefinedAtom or a /// SharedLibraryAtom for the link to be successful. This method controls /// whether core linking prints out a list of remaining UndefinedAtoms. /// /// \todo This should be a method core linking calls with a list of the /// UndefinedAtoms so that different drivers can format the error message /// as needed. bool printRemainingUndefines() const { return _printRemainingUndefines; } /// Normally, every UndefinedAtom must be replaced by a DefinedAtom or a /// SharedLibraryAtom for the link to be successful. This method controls /// whether core linking considers remaining undefines to be an error. bool allowRemainingUndefines() const { return _allowRemainingUndefines; } /// Normally, every UndefinedAtom must be replaced by a DefinedAtom or a /// SharedLibraryAtom for the link to be successful. This method controls /// whether core linking considers remaining undefines from the shared library /// to be an error. bool allowShlibUndefines() const { return _allowShlibUndefines; } /// If true, core linking will write the path to each input file to stdout /// (i.e. llvm::outs()) as it is used. This is used to implement the -t /// linker option. /// /// \todo This should be a method core linking calls so that drivers can /// format the line as needed. bool logInputFiles() const { return _logInputFiles; } /// Parts of LLVM use global variables which are bound to command line /// options (see llvm::cl::Options). This method returns "command line" /// options which are used to configure LLVM's command line settings. /// For instance the -debug-only XXX option can be used to dynamically /// trace different parts of LLVM and lld. const std::vector &llvmOptions() const { return _llvmOptions; } /// \name Methods used by Drivers to configure TargetInfo /// @{ void setOutputPath(StringRef str) { _outputPath = str; } // Set the entry symbol name. You may also need to call addDeadStripRoot() for // the symbol if your platform supports dead-stripping, so that the symbol // will not be removed from the output. void setEntrySymbolName(StringRef name) { _entrySymbolName = name; } void setDeadStripping(bool enable) { _deadStrip = enable; } void setGlobalsAreDeadStripRoots(bool v) { _globalsAreDeadStripRoots = v; } void setPrintRemainingUndefines(bool print) { _printRemainingUndefines = print; } void setAllowRemainingUndefines(bool allow) { _allowRemainingUndefines = allow; } void setAllowShlibUndefines(bool allow) { _allowShlibUndefines = allow; } void setLogInputFiles(bool log) { _logInputFiles = log; } void appendLLVMOption(const char *opt) { _llvmOptions.push_back(opt); } std::vector> &getNodes() { return _nodes; } const std::vector> &getNodes() const { return _nodes; } /// This method adds undefined symbols specified by the -u option to the to /// the list of undefined symbols known to the linker. This option essentially /// forces an undefined symbol to be created. You may also need to call /// addDeadStripRoot() for the symbol if your platform supports dead /// stripping, so that the symbol will not be removed from the output. void addInitialUndefinedSymbol(StringRef symbolName) { _initialUndefinedSymbols.push_back(symbolName); } /// Iterators for symbols that appear on the command line. typedef std::vector StringRefVector; typedef StringRefVector::iterator StringRefVectorIter; typedef StringRefVector::const_iterator StringRefVectorConstIter; /// Create linker internal files containing atoms for the linker to include /// during link. Flavors can override this function in their LinkingContext /// to add more internal files. These internal files are positioned before /// the actual input files. virtual void createInternalFiles(std::vector > &) const; /// Return the list of undefined symbols that are specified in the /// linker command line, using the -u option. ArrayRef initialUndefinedSymbols() const { return _initialUndefinedSymbols; } /// After all set* methods are called, the Driver calls this method /// to validate that there are no missing options or invalid combinations /// of options. If there is a problem, a description of the problem /// is written to the supplied stream. /// /// \returns true if there is an error with the current settings. bool validate(raw_ostream &diagnostics); /// Formats symbol name for use in error messages. virtual std::string demangle(StringRef symbolName) const = 0; /// @} /// \name Methods used by Driver::link() /// @{ /// Returns the file system path to which the linked output should be written. /// /// \todo To support in-memory linking, we need an abstraction that allows /// the linker to write to an in-memory buffer. StringRef outputPath() const { return _outputPath; } /// Accessor for Register object embedded in LinkingContext. const Registry ®istry() const { return _registry; } Registry ®istry() { return _registry; } /// This method is called by core linking to give the Writer a chance /// to add file format specific "files" to set of files to be linked. This is /// how file format specific atoms can be added to the link. virtual void createImplicitFiles(std::vector> &) = 0; /// This method is called by core linking to build the list of Passes to be /// run on the merged/linked graph of all input files. virtual void addPasses(PassManager &pm) = 0; /// Calls through to the writeFile() method on the specified Writer. /// /// \param linkedFile This is the merged/linked graph of all input file Atoms. virtual llvm::Error writeFile(const File &linkedFile) const; /// Return the next ordinal and Increment it. virtual uint64_t getNextOrdinalAndIncrement() const { return _nextOrdinal++; } // This function is called just before the Resolver kicks in. // Derived classes may use it to change the list of input files. virtual void finalizeInputFiles() = 0; /// Callback invoked for each file the Resolver decides we are going to load. /// This can be used to update context state based on the file, and emit /// errors for any differences between the context state and a loaded file. /// For example, we can error if we try to load a file which is a different /// arch from that being linked. virtual llvm::Error handleLoadedFile(File &file) = 0; /// @} protected: LinkingContext(); // Must be subclassed /// Abstract method to lazily instantiate the Writer. virtual Writer &writer() const = 0; /// Method to create an internal file for the entry symbol virtual std::unique_ptr createEntrySymbolFile() const; std::unique_ptr createEntrySymbolFile(StringRef filename) const; /// Method to create an internal file for an undefined symbol virtual std::unique_ptr createUndefinedSymbolFile() const; std::unique_ptr createUndefinedSymbolFile(StringRef filename) const; StringRef _outputPath; StringRef _entrySymbolName; bool _deadStrip = false; bool _globalsAreDeadStripRoots = false; bool _printRemainingUndefines = true; bool _allowRemainingUndefines = false; bool _logInputFiles = false; bool _allowShlibUndefines = false; std::vector _deadStripRoots; std::vector _llvmOptions; StringRefVector _initialUndefinedSymbols; std::vector> _nodes; mutable llvm::BumpPtrAllocator _allocator; mutable uint64_t _nextOrdinal = 0; Registry _registry; private: /// Validate the subclass bits. Only called by validate. virtual bool validateImpl(raw_ostream &diagnostics) = 0; }; } // end namespace lld #endif