//===- llvm/System/MappedFile.h - MappedFile OS Concept ---------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file was developed by Reid Spencer and is distributed under the // University of Illinois Open Source License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file declares the llvm::sys::MappedFile class. // //===----------------------------------------------------------------------===// #ifndef LLVM_SYSTEM_MAPPEDFILE_H #define LLVM_SYSTEM_MAPPEDFILE_H #include "llvm/System/Path.h" #include "llvm/System/IncludeFile.h" namespace llvm { namespace sys { /// Forward declare a class used for holding platform specific information /// that needs to be struct MappedFileInfo; /// This class provides an abstraction for a memory mapped file in the /// operating system's filesystem. It provides platform independent operations /// for mapping a file into memory for both read and write access. This class /// does not provide facilities for finding the file or operating on paths to /// files. The sys::Path class is used for that. /// @since 1.4 /// @brief An abstraction for memory mapped files. class MappedFile { /// @name Types /// @{ public: enum MappingOptions { READ_ACCESS = 0x0001, ///< Map the file for reading WRITE_ACCESS = 0x0002, ///< Map the file for write access EXEC_ACCESS = 0x0004, ///< Map the file for execution access SHARED_MAPPING = 0x0008 ///< Map the file shared with other processes }; /// @} /// @name Constructors /// @{ public: /// Construct a MappedFile to the \p path in the operating system's file /// system with the mapping \p options provided. /// @throws std::string if an error occurs MappedFile() : path_(), options_(READ_ACCESS), base_(0), info_(0) {} /// Destruct a MappedFile and release all memory associated with it. /// @throws std::string if an error occurs ~MappedFile() { if (info_) terminate(); } /// @} /// @name Accessors /// @{ public: /// This function determines if the file is currently mapped or not. /// @returns true iff the file is mapped into memory, false otherwise /// @brief Determine if a MappedFile is currently mapped /// @throws nothing bool isMapped() const { return base_ != 0; } /// This function returns a void* pointer to the base address of the file /// mapping. This is the memory address of the first byte in the file. /// Note that although a non-const pointer is returned, the memory might /// not actually be writable, depending on the MappingOptions used when /// the MappedFile was opened. /// @returns The base pointer to the memory mapped file. /// @brief Obtain the base pointer to the memory mapped file. /// @throws nothing void* base() const { return base_; } /// This function returns a char* pointer to the base address of the file /// mapping. This is the memory address of the first byte in the file. /// Note that although a non-const pointer is returned, the memory might /// not actually be writable, depending on the MappingOptions used when /// the MappedFile was opened. /// @returns The base pointer to the memory mapped file as a char pointer. /// @brief Obtain the base pointer to the memory mapped file. /// @throws nothing char* charBase() const { return reinterpret_cast(base_); } /// This function returns a reference to the sys::Path object kept by the /// MappedFile object. This contains the path to the file that is or /// will be mapped. /// @returns sys::Path containing the path name. /// @brief Returns the mapped file's path as a sys::Path /// @throws nothing const sys::Path& path() const { return path_; } /// This function returns the number of bytes in the file. /// @throws std::string if an error occurs size_t size() const; /// @} /// @name Mutators /// @{ public: /// Open a file to be mapped and get its size but don't map it yet. /// @returns true if an error occurred bool open( const sys::Path& p, ///< Path to file to be mapped int options = READ_ACCESS, ///< Access mode for the mapping std::string* ErrMsg = 0 ///< Optional error string pointer ) { path_ = p; options_ = options; return initialize(ErrMsg); } /// The mapped file is removed from memory. If the file was mapped for /// write access, the memory contents will be automatically synchronized /// with the file's disk contents. /// @brief Remove the file mapping from memory. void unmap(); /// The mapped file is put into memory. /// @returns The base memory address of the mapped file or 0 if an error /// occurred. /// @brief Map the file into memory. void* map( std::string* ErrMsg = 0///< Optional error string pointer ); /// This method causes the size of the file, and consequently the size /// of the mapping to be set. This is logically the same as unmap(), /// adjust size of the file, map(). Consequently, when calling this /// function, the caller should not rely on previous results of the /// map(), base(), or baseChar() members as they may point to invalid /// areas of memory after this call. /// @throws std::string if an error occurs /// @brief Set the size of the file and memory mapping. bool size(size_t new_size, std::string* ErrMsg = 0); void close() { if (info_) terminate(); } /// @} /// @name Implementation /// @{ private: /// @brief Initialize platform-specific portion bool initialize(std::string* ErrMsg); /// @brief Terminate platform-specific portion void terminate(); /// @} /// @name Data /// @{ private: sys::Path path_; ///< Path to the file. int options_; ///< Options used to create the mapping void* base_; ///< Pointer to the base memory address mutable MappedFileInfo* info_; ///< Platform specific info for the mapping /// @} /// @name Disabled /// @{ private: ///< Disallow assignment MappedFile& operator = ( const MappedFile & that ); ///< Disallow copying MappedFile(const MappedFile& that); /// @} }; } } FORCE_DEFINING_FILE_TO_BE_LINKED(SystemMappedFile) #endif