//===-- runtime/file.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 // //===----------------------------------------------------------------------===// // Raw system I/O wrappers #ifndef FORTRAN_RUNTIME_FILE_H_ #define FORTRAN_RUNTIME_FILE_H_ #include "io-error.h" #include "memory.h" #include #include namespace Fortran::runtime::io { enum class OpenStatus { Old, New, Scratch, Replace, Unknown }; enum class CloseStatus { Keep, Delete }; enum class Position { AsIs, Rewind, Append }; enum class Action { Read, Write, ReadWrite }; class OpenFile { public: using FileOffset = std::int64_t; const char *path() const { return path_.get(); } void set_path(OwningPtr &&, std::size_t bytes); std::size_t pathLength() const { return pathLength_; } bool mayRead() const { return mayRead_; } bool mayWrite() const { return mayWrite_; } bool mayPosition() const { return mayPosition_; } bool mayAsynchronous() const { return mayAsynchronous_; } void set_mayAsynchronous(bool yes) { mayAsynchronous_ = yes; } FileOffset position() const { return position_; } bool isTerminal() const { return isTerminal_; } std::optional knownSize() const { return knownSize_; } bool IsOpen() const { return fd_ >= 0; } void Open(OpenStatus, std::optional, Position, IoErrorHandler &); void Predefine(int fd); void Close(CloseStatus, IoErrorHandler &); // Reads data into memory; returns amount acquired. Synchronous. // Partial reads (less than minBytes) signify end-of-file. If the // buffer is larger than minBytes, and extra returned data will be // preserved for future consumption, set maxBytes larger than minBytes // to reduce system calls This routine handles EAGAIN/EWOULDBLOCK and EINTR. std::size_t Read(FileOffset, char *, std::size_t minBytes, std::size_t maxBytes, IoErrorHandler &); // Writes data. Synchronous. Partial writes indicate program-handled // error conditions. std::size_t Write(FileOffset, const char *, std::size_t, IoErrorHandler &); // Truncates the file void Truncate(FileOffset, IoErrorHandler &); // Asynchronous transfers int ReadAsynchronously(FileOffset, char *, std::size_t, IoErrorHandler &); int WriteAsynchronously( FileOffset, const char *, std::size_t, IoErrorHandler &); void Wait(int id, IoErrorHandler &); void WaitAll(IoErrorHandler &); private: struct Pending { int id; int ioStat{0}; OwningPtr next; }; void CheckOpen(const Terminator &); bool Seek(FileOffset, IoErrorHandler &); bool RawSeek(FileOffset); bool RawSeekToEnd(); int PendingResult(const Terminator &, int); int fd_{-1}; OwningPtr path_; std::size_t pathLength_; bool mayRead_{false}; bool mayWrite_{false}; bool mayPosition_{false}; bool mayAsynchronous_{false}; FileOffset position_{0}; std::optional knownSize_; bool isTerminal_{false}; int nextId_; OwningPtr pending_; }; bool IsATerminal(int fd); bool IsExtant(const char *path); bool MayRead(const char *path); bool MayWrite(const char *path); bool MayReadAndWrite(const char *path); } // namespace Fortran::runtime::io #endif // FORTRAN_RUNTIME_FILE_H_