include/lld/Core/File.h - llvm-project/lld - Git at Google

 //===- Core/File.h - A Container of Atoms ---------------------------------===//
 //
 // 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_CORE_FILE_H
 #define LLD_CORE_FILE_H

 #include "lld/Core/AbsoluteAtom.h"
 #include "lld/Core/DefinedAtom.h"
 #include "lld/Core/SharedLibraryAtom.h"
 #include "lld/Core/UndefinedAtom.h"
 #include "llvm/ADT/Optional.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/Twine.h"
 #include "llvm/Support/Allocator.h"
 #include "llvm/Support/ErrorHandling.h"
 #include <functional>
 #include <memory>
 #include <mutex>
 #include <vector>

 namespace lld {

 class LinkingContext;

 /// Every Atom is owned by some File. A common scenario is for a single
 /// object file (.o) to be parsed by some reader and produce a single
 /// File object that represents the content of that object file.
 ///
 /// To iterate through the Atoms in a File there are four methods that
 /// return collections.  For instance to iterate through all the DefinedAtoms
 /// in a File object use:
 ///      for (const DefinedAtoms *atom : file->defined()) {
 ///      }
 ///
 /// The Atom objects in a File are owned by the File object.  The Atom objects
 /// are destroyed when the File object is destroyed.
 class File {
 public:
   virtual ~File();

   /// Kinds of files that are supported.
   enum Kind {
     kindErrorObject,          ///< a error object file (.o)
     kindNormalizedObject,     ///< a normalized file (.o)
     kindMachObject,           ///< a MachO object file (.o)
     kindCEntryObject,         ///< a file for CEntries
     kindHeaderObject,         ///< a file for file headers
     kindEntryObject,          ///< a file for the entry
     kindUndefinedSymsObject,  ///< a file for undefined symbols
     kindStubHelperObject,     ///< a file for stub helpers
     kindResolverMergedObject, ///< the resolver merged file.
     kindSectCreateObject,     ///< a sect create object file (.o)
     kindSharedLibrary,        ///< shared library (.so)
     kindArchiveLibrary        ///< archive (.a)
   };

   /// Returns file kind.  Need for dyn_cast<> on File objects.
   Kind kind() const {
     return _kind;
   }

   /// This returns the path to the file which was used to create this object
   /// (e.g. "/tmp/foo.o"). If the file is a member of an archive file, the
   /// returned string includes the archive file name.
   StringRef path() const {
     if (_archivePath.empty())
       return _path;
     if (_archiveMemberPath.empty())
       _archiveMemberPath = (_archivePath + "(" + _path + ")").str();
     return _archiveMemberPath;
   }

   /// Returns the path of the archive file name if this file is instantiated
   /// from an archive file. Otherwise returns the empty string.
   StringRef archivePath() const { return _archivePath; }
   void setArchivePath(StringRef path) { _archivePath = std::string(path); }

   /// Returns the path name of this file. It doesn't include archive file name.
   StringRef memberPath() const { return _path; }

   /// Returns the command line order of the file.
   uint64_t ordinal() const {
     assert(_ordinal != UINT64_MAX);
     return _ordinal;
   }

   /// Returns true/false depending on whether an ordinal has been set.
   bool hasOrdinal() const { return (_ordinal != UINT64_MAX); }

   /// Sets the command line order of the file.
   void setOrdinal(uint64_t ordinal) const { _ordinal = ordinal; }

   /// Returns the ordinal for the next atom to be defined in this file.
   uint64_t getNextAtomOrdinalAndIncrement() const {
     return _nextAtomOrdinal++;
   }

   /// For allocating any objects owned by this File.
   llvm::BumpPtrAllocator &allocator() const {
     return _allocator;
   }

   /// The type of atom mutable container.
   template <typename T> using AtomVector = std::vector<OwningAtomPtr<T>>;

   /// The range type for the atoms.
   template <typename T> class AtomRange {
   public:
     AtomRange(AtomVector<T> &v) : _v(v) {}
     AtomRange(const AtomVector<T> &v) : _v(const_cast<AtomVector<T> &>(v)) {}

     using ConstDerefFn = const T* (*)(const OwningAtomPtr<T>&);
     using DerefFn = T* (*)(OwningAtomPtr<T>&);

     typedef llvm::mapped_iterator<typename AtomVector<T>::const_iterator,
                                   ConstDerefFn> ConstItTy;
     typedef llvm::mapped_iterator<typename AtomVector<T>::iterator,
                                   DerefFn> ItTy;

     static const T* DerefConst(const OwningAtomPtr<T> &p) {
       return p.get();
     }

     static T* Deref(OwningAtomPtr<T> &p) {
       return p.get();
     }

     ConstItTy begin() const {
       return ConstItTy(_v.begin(), ConstDerefFn(DerefConst));
     }
     ConstItTy end() const {
       return ConstItTy(_v.end(), ConstDerefFn(DerefConst));
     }

     ItTy begin() {
       return ItTy(_v.begin(), DerefFn(Deref));
     }
     ItTy end() {
       return ItTy(_v.end(), DerefFn(Deref));
     }

     llvm::iterator_range<typename AtomVector<T>::iterator> owning_ptrs() {
       return llvm::make_range(_v.begin(), _v.end());
     }

     llvm::iterator_range<typename AtomVector<T>::iterator> owning_ptrs() const {
       return llvm::make_range(_v.begin(), _v.end());
     }

     bool empty() const {
       return _v.empty();
     }

     size_t size() const {
       return _v.size();
     }

     const OwningAtomPtr<T> &operator[](size_t idx) const {
       return _v[idx];
     }

     OwningAtomPtr<T> &operator[](size_t idx) {
       return _v[idx];
     }

   private:
     AtomVector<T> &_v;
   };

   /// Must be implemented to return the AtomVector object for
   /// all DefinedAtoms in this File.
   virtual const AtomRange<DefinedAtom> defined() const = 0;

   /// Must be implemented to return the AtomVector object for
   /// all UndefinedAtomw in this File.
   virtual const AtomRange<UndefinedAtom> undefined() const = 0;

   /// Must be implemented to return the AtomVector object for
   /// all SharedLibraryAtoms in this File.
   virtual const AtomRange<SharedLibraryAtom> sharedLibrary() const = 0;

   /// Must be implemented to return the AtomVector object for
   /// all AbsoluteAtoms in this File.
   virtual const AtomRange<AbsoluteAtom> absolute() const = 0;

   /// Drop all of the atoms owned by this file.  This will result in all of
   /// the atoms running their destructors.
   /// This is required because atoms may be allocated on a BumpPtrAllocator
   /// of a different file.  We need to destruct all atoms before any files.
   virtual void clearAtoms() = 0;

   /// If a file is parsed using a different method than doParse(),
   /// one must use this method to set the last error status, so that
   /// doParse will not be called twice. Only YAML reader uses this
   /// (because YAML reader does not read blobs but structured data).
   void setLastError(std::error_code err) { _lastError = err; }

   std::error_code parse();

   // Usually each file owns a std::unique_ptr<MemoryBuffer>.
   // However, there's one special case. If a file is an archive file,
   // the archive file and its children all shares the same memory buffer.
   // This method is used by the ArchiveFile to give its children
   // co-ownership of the buffer.
   void setSharedMemoryBuffer(std::shared_ptr<MemoryBuffer> mb) {
     _sharedMemoryBuffer = mb;
   }

 protected:
   /// only subclasses of File can be instantiated
   File(StringRef p, Kind kind)
     : _path(p), _kind(kind), _ordinal(UINT64_MAX),
       _nextAtomOrdinal(0) {}

   /// Subclasses should override this method to parse the
   /// memory buffer passed to this file's constructor.
   virtual std::error_code doParse() { return std::error_code(); }

   static AtomVector<DefinedAtom> _noDefinedAtoms;
   static AtomVector<UndefinedAtom> _noUndefinedAtoms;
   static AtomVector<SharedLibraryAtom> _noSharedLibraryAtoms;
   static AtomVector<AbsoluteAtom> _noAbsoluteAtoms;
   mutable llvm::BumpPtrAllocator _allocator;

 private:
   StringRef _path;
   std::string _archivePath;
   mutable std::string _archiveMemberPath;
   Kind              _kind;
   mutable uint64_t  _ordinal;
   mutable uint64_t _nextAtomOrdinal;
   std::shared_ptr<MemoryBuffer> _sharedMemoryBuffer;
   llvm::Optional<std::error_code> _lastError;
   std::mutex _parseMutex;
 };

 /// An ErrorFile represents a file that doesn't exist.
 /// If you try to parse a file which doesn't exist, an instance of this
 /// class will be returned. That's parse method always returns an error.
 /// This is useful to delay erroring on non-existent files, so that we
 /// can do unit testing a driver using non-existing file paths.
 class ErrorFile : public File {
 public:
   ErrorFile(StringRef path, std::error_code ec)
       : File(path, kindErrorObject), _ec(ec) {}

   std::error_code doParse() override { return _ec; }

   const AtomRange<DefinedAtom> defined() const override {
     llvm_unreachable("internal error");
   }
   const AtomRange<UndefinedAtom> undefined() const override {
     llvm_unreachable("internal error");
   }
   const AtomRange<SharedLibraryAtom> sharedLibrary() const override {
     llvm_unreachable("internal error");
   }
   const AtomRange<AbsoluteAtom> absolute() const override {
     llvm_unreachable("internal error");
   }

   void clearAtoms() override {
   }

 private:
   std::error_code _ec;
 };

 } // end namespace lld

 #endif
	//===- Core/File.h - A Container of Atoms ---------------------------------===//
	//
	// 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_CORE_FILE_H
	#define LLD_CORE_FILE_H

	#include "lld/Core/AbsoluteAtom.h"
	#include "lld/Core/DefinedAtom.h"
	#include "lld/Core/SharedLibraryAtom.h"
	#include "lld/Core/UndefinedAtom.h"
	#include "llvm/ADT/Optional.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/Twine.h"
	#include "llvm/Support/Allocator.h"
	#include "llvm/Support/ErrorHandling.h"
	#include <functional>
	#include <memory>
	#include <mutex>
	#include <vector>

	namespace lld {

	class LinkingContext;

	/// Every Atom is owned by some File. A common scenario is for a single
	/// object file (.o) to be parsed by some reader and produce a single
	/// File object that represents the content of that object file.
	///
	/// To iterate through the Atoms in a File there are four methods that
	/// return collections. For instance to iterate through all the DefinedAtoms
	/// in a File object use:
	/// for (const DefinedAtoms *atom : file->defined()) {
	/// }
	///
	/// The Atom objects in a File are owned by the File object. The Atom objects
	/// are destroyed when the File object is destroyed.
	class File {
	public:
	virtual ~File();

	/// Kinds of files that are supported.
	enum Kind {
	kindErrorObject, ///< a error object file (.o)
	kindNormalizedObject, ///< a normalized file (.o)
	kindMachObject, ///< a MachO object file (.o)
	kindCEntryObject, ///< a file for CEntries
	kindHeaderObject, ///< a file for file headers
	kindEntryObject, ///< a file for the entry
	kindUndefinedSymsObject, ///< a file for undefined symbols
	kindStubHelperObject, ///< a file for stub helpers
	kindResolverMergedObject, ///< the resolver merged file.
	kindSectCreateObject, ///< a sect create object file (.o)
	kindSharedLibrary, ///< shared library (.so)
	kindArchiveLibrary ///< archive (.a)
	};

	/// Returns file kind. Need for dyn_cast<> on File objects.
	Kind kind() const {
	return _kind;
	}

	/// This returns the path to the file which was used to create this object
	/// (e.g. "/tmp/foo.o"). If the file is a member of an archive file, the
	/// returned string includes the archive file name.
	StringRef path() const {
	if (_archivePath.empty())
	return _path;
	if (_archiveMemberPath.empty())
	_archiveMemberPath = (_archivePath + "(" + _path + ")").str();
	return _archiveMemberPath;
	}

	/// Returns the path of the archive file name if this file is instantiated
	/// from an archive file. Otherwise returns the empty string.
	StringRef archivePath() const { return _archivePath; }
	void setArchivePath(StringRef path) { _archivePath = std::string(path); }

	/// Returns the path name of this file. It doesn't include archive file name.
	StringRef memberPath() const { return _path; }

	/// Returns the command line order of the file.
	uint64_t ordinal() const {
	assert(_ordinal != UINT64_MAX);
	return _ordinal;
	}

	/// Returns true/false depending on whether an ordinal has been set.
	bool hasOrdinal() const { return (_ordinal != UINT64_MAX); }

	/// Sets the command line order of the file.
	void setOrdinal(uint64_t ordinal) const { _ordinal = ordinal; }

	/// Returns the ordinal for the next atom to be defined in this file.
	uint64_t getNextAtomOrdinalAndIncrement() const {
	return _nextAtomOrdinal++;
	}

	/// For allocating any objects owned by this File.
	llvm::BumpPtrAllocator &allocator() const {
	return _allocator;
	}

	/// The type of atom mutable container.
	template <typename T> using AtomVector = std::vector<OwningAtomPtr<T>>;

	/// The range type for the atoms.
	template <typename T> class AtomRange {
	public:
	AtomRange(AtomVector<T> &v) : _v(v) {}
	AtomRange(const AtomVector<T> &v) : _v(const_cast<AtomVector<T> &>(v)) {}

	using ConstDerefFn = const T* (*)(const OwningAtomPtr<T>&);
	using DerefFn = T* (*)(OwningAtomPtr<T>&);

	typedef llvm::mapped_iterator<typename AtomVector<T>::const_iterator,
	ConstDerefFn> ConstItTy;
	typedef llvm::mapped_iterator<typename AtomVector<T>::iterator,
	DerefFn> ItTy;

	static const T* DerefConst(const OwningAtomPtr<T> &p) {
	return p.get();
	}

	static T* Deref(OwningAtomPtr<T> &p) {
	return p.get();
	}

	ConstItTy begin() const {
	return ConstItTy(_v.begin(), ConstDerefFn(DerefConst));
	}
	ConstItTy end() const {
	return ConstItTy(_v.end(), ConstDerefFn(DerefConst));
	}

	ItTy begin() {
	return ItTy(_v.begin(), DerefFn(Deref));
	}
	ItTy end() {
	return ItTy(_v.end(), DerefFn(Deref));
	}

	llvm::iterator_range<typename AtomVector<T>::iterator> owning_ptrs() {
	return llvm::make_range(_v.begin(), _v.end());
	}

	llvm::iterator_range<typename AtomVector<T>::iterator> owning_ptrs() const {
	return llvm::make_range(_v.begin(), _v.end());
	}

	bool empty() const {
	return _v.empty();
	}

	size_t size() const {
	return _v.size();
	}

	const OwningAtomPtr<T> &operator[](size_t idx) const {
	return _v[idx];
	}

	OwningAtomPtr<T> &operator[](size_t idx) {
	return _v[idx];
	}

	private:
	AtomVector<T> &_v;
	};

	/// Must be implemented to return the AtomVector object for
	/// all DefinedAtoms in this File.
	virtual const AtomRange<DefinedAtom> defined() const = 0;

	/// Must be implemented to return the AtomVector object for
	/// all UndefinedAtomw in this File.
	virtual const AtomRange<UndefinedAtom> undefined() const = 0;

	/// Must be implemented to return the AtomVector object for
	/// all SharedLibraryAtoms in this File.
	virtual const AtomRange<SharedLibraryAtom> sharedLibrary() const = 0;

	/// Must be implemented to return the AtomVector object for
	/// all AbsoluteAtoms in this File.
	virtual const AtomRange<AbsoluteAtom> absolute() const = 0;

	/// Drop all of the atoms owned by this file. This will result in all of
	/// the atoms running their destructors.
	/// This is required because atoms may be allocated on a BumpPtrAllocator
	/// of a different file. We need to destruct all atoms before any files.
	virtual void clearAtoms() = 0;

	/// If a file is parsed using a different method than doParse(),
	/// one must use this method to set the last error status, so that
	/// doParse will not be called twice. Only YAML reader uses this
	/// (because YAML reader does not read blobs but structured data).
	void setLastError(std::error_code err) { _lastError = err; }

	std::error_code parse();

	// Usually each file owns a std::unique_ptr<MemoryBuffer>.
	// However, there's one special case. If a file is an archive file,
	// the archive file and its children all shares the same memory buffer.
	// This method is used by the ArchiveFile to give its children
	// co-ownership of the buffer.
	void setSharedMemoryBuffer(std::shared_ptr<MemoryBuffer> mb) {
	_sharedMemoryBuffer = mb;
	}

	protected:
	/// only subclasses of File can be instantiated
	File(StringRef p, Kind kind)
	: _path(p), _kind(kind), _ordinal(UINT64_MAX),
	_nextAtomOrdinal(0) {}

	/// Subclasses should override this method to parse the
	/// memory buffer passed to this file's constructor.
	virtual std::error_code doParse() { return std::error_code(); }

	static AtomVector<DefinedAtom> _noDefinedAtoms;
	static AtomVector<UndefinedAtom> _noUndefinedAtoms;
	static AtomVector<SharedLibraryAtom> _noSharedLibraryAtoms;
	static AtomVector<AbsoluteAtom> _noAbsoluteAtoms;
	mutable llvm::BumpPtrAllocator _allocator;

	private:
	StringRef _path;
	std::string _archivePath;
	mutable std::string _archiveMemberPath;
	Kind _kind;
	mutable uint64_t _ordinal;
	mutable uint64_t _nextAtomOrdinal;
	std::shared_ptr<MemoryBuffer> _sharedMemoryBuffer;
	llvm::Optional<std::error_code> _lastError;
	std::mutex _parseMutex;
	};

	/// An ErrorFile represents a file that doesn't exist.
	/// If you try to parse a file which doesn't exist, an instance of this
	/// class will be returned. That's parse method always returns an error.
	/// This is useful to delay erroring on non-existent files, so that we
	/// can do unit testing a driver using non-existing file paths.
	class ErrorFile : public File {
	public:
	ErrorFile(StringRef path, std::error_code ec)
	: File(path, kindErrorObject), _ec(ec) {}

	std::error_code doParse() override { return _ec; }

	const AtomRange<DefinedAtom> defined() const override {
	llvm_unreachable("internal error");
	}
	const AtomRange<UndefinedAtom> undefined() const override {
	llvm_unreachable("internal error");
	}
	const AtomRange<SharedLibraryAtom> sharedLibrary() const override {
	llvm_unreachable("internal error");
	}
	const AtomRange<AbsoluteAtom> absolute() const override {
	llvm_unreachable("internal error");
	}

	void clearAtoms() override {
	}

	private:
	std::error_code _ec;
	};

	} // end namespace lld

	#endif