@c @c COPYRIGHT (c) 1988-2002. @c On-Line Applications Research Corporation (OAR). @c All rights reserved. @c @c $Id$ @c @chapter Input and Output Primitives Manager @section Introduction The input and output primitives manager is ... The directives provided by the input and output primitives manager are: @itemize @bullet @item @code{pipe} - Create an Inter-Process Channel @item @code{dup} - Duplicates an open file descriptor @item @code{dup2} - Duplicates an open file descriptor @item @code{close} - Closes a file @item @code{read} - Reads from a file @item @code{write} - Writes to a file @item @code{fcntl} - Manipulates an open file descriptor @item @code{lseek} - Reposition read/write file offset @item @code{fsync} - Synchronize file complete in-core state with that on disk @item @code{fdatasync} - Synchronize file in-core data with that on disk @item @code{mount} - Mount a file system @item @code{unmount} - Unmount file systems @item @code{aio_read} - Asynchronous Read @item @code{aio_write} - Asynchronous Write @item @code{lio_listio} - List Directed I/O @item @code{aio_error} - Retrieve Error Status of Asynchronous I/O Operation @item @code{aio_return} - Retrieve Return Status Asynchronous I/O Operation @item @code{aio_cancel} - Cancel Asynchronous I/O Request @item @code{aio_suspend} - Wait for Asynchronous I/O Request @item @code{aio_fsync} - Asynchronous File Synchronization @end itemize @section Background There is currently no text in this section. @section Operations There is currently no text in this section. @section Directives This section details the input and output primitives manager's directives. A subsection is dedicated to each of this manager's directives and describes the calling sequence, related constants, usage, and status codes. @c @c @c @page @subsection pipe - Create an Inter-Process Channel @findex pipe @cindex create an inter @subheading CALLING SEQUENCE: @ifset is-C @example int pipe( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version. @c @c @c @page @subsection dup - Duplicates an open file descriptor @findex dup @cindex duplicates an open file descriptor @subheading CALLING SEQUENCE: @ifset is-C @example #include int dup( int fildes ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item EBADF Invalid file descriptor. @item EINTR Function was interrupted by a signal. @item EMFILE The process already has the maximum number of file descriptors open and tried to open a new one. @end table @subheading DESCRIPTION: The @code{dup} function returns the lowest numbered available file descriptor. This new desciptor refers to the same open file as the original descriptor and shares any locks. @subheading NOTES: NONE @c @c @c @page @subsection dup2 - Duplicates an open file descriptor @findex dup2 @cindex duplicates an open file descriptor @subheading CALLING SEQUENCE: @ifset is-C @example #include int dup2( int fildes, int fildes2 ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item EBADF Invalid file descriptor. @item EINTR Function was interrupted by a signal. @item EMFILE The process already has the maximum number of file descriptors open and tried to open a new one. @end table @subheading DESCRIPTION: @code{Dup2} creates a copy of the file descriptor @code{oldfd}. The old and new descriptors may be used interchangeably. They share locks, file position pointers and flags; for example, if the file position is modified by using @code{lseek} on one of the descriptors, the position is also changed for the other. @subheading NOTES: NONE @c @c @c @page @subsection close - Closes a file. @findex close @cindex closes a file. @subheading CALLING SEQUENCE: @ifset is-C @example #include int close( int fildes ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item EBADF Invalid file descriptor @item EINTR Function was interrupted by a signal. @end table @subheading DESCRIPTION: The @code{close()} function deallocates the file descriptor named by @code{fildes} and makes it available for reuse. All outstanding record locks owned by this process for the file are unlocked. @subheading NOTES: A signal can interrupt the @code{close()} function. In that case, @code{close()} returns -1 with @code{errno} set to EINTR. The file may or may not be closed. @c @c @c @page @subsection read - Reads from a file. @findex read @cindex reads from a file. @subheading CALLING SEQUENCE: @ifset is-C @example #include int read( int fildes, void *buf, unsigned int nbyte ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: On error, this routine returns -1 and sets @code{errno} to one of the following: @table @b @item EAGAIN The O_NONBLOCK flag is set for a file descriptor and the process would be delayed in the I/O operation. @item EBADF Invalid file descriptor @item EINTR Function was interrupted by a signal. @item EIO Input or output error @end table @subheading DESCRIPTION: The @code{read()} function reads @code{nbyte} bytes from the file associated with @code{fildes} into the buffer pointed to by @code{buf}. The @code{read()} function returns the number of bytes actually read and placed in the buffer. This will be less than @code{nbyte} if: @itemize @bullet @item The number of bytes left in the file is less than @code{nbyte}. @item The @code{read()} request was interrupted by a signal. @item The file is a pipe or FIFO or special file with less than @code{nbytes} immediately available for reading. @end itemize When attempting to read from any empty pipe or FIFO: @itemize @bullet @item If no process has the pipe open for writing, zero is returned to indicate end-of-file. @item If some process has the pipe open for writing and O_NONBLOCK is set, -1 is returned and @code{errno} is set to EAGAIN. @item If some process has the pipe open for writing and O_NONBLOCK is clear, @code{read()} waits for some data to be written or the pipe to be closed. @end itemize When attempting to read from a file other than a pipe or FIFO and no data is available. @itemize @bullet @item If O_NONBLOCK is set, -1 is returned and @code{errno} is set to EAGAIN. @item If O_NONBLOCK is clear, @code{read()} waits for some data to become available. @item The O_NONBLOCK flag is ignored if data is available. @end itemize @subheading NOTES: NONE @c @c @c @page @subsection write - Writes to a file @findex write @cindex writes to a file @subheading CALLING SEQUENCE: @ifset is-C @example #include int write( int fildes, const void *buf, unsigned int nbytes ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item EAGAIN The O_NONBLOCK flag is set for a file descriptor and the process would be delayed in the I/O operation. @item EBADF Invalid file descriptor @item EFBIG An attempt was made to write to a file that exceeds the maximum file size @item EINTR The function was interrupted by a signal. @item EIO Input or output error. @item ENOSPC No space left on disk. @item EPIPE Attempt to write to a pope or FIFO with no reader. @end table @subheading DESCRIPTION: The @code{write()} function writes @code{nbyte} from the array pointed to by @code{buf} into the file associated with @code{fildes}. If @code{nybte} is zero and the file is a regular file, the @code{write()} function returns zero and has no other effect. If @code{nbyte} is zero and the file is a special file, te results are not portable. The @code{write()} function returns the number of bytes written. This number will be less than @code{nbytes} if there is an error. It will never be greater than @code{nbytes}. @subheading NOTES: NONE @c @c @c @page @subsection fcntl - Manipulates an open file descriptor @findex fcntl @cindex manipulates an open file descriptor @subheading CALLING SEQUENCE: @ifset is-C @example #include #include #include int fcntl( int fildes, int cmd ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item EACCESS Search permission is denied for a direcotry in a file's path prefix. @item EAGAIN The O_NONBLOCK flag is set for a file descriptor and the process would be delayed in the I/O operation. @item EBADF Invalid file descriptor @item EDEADLK An @code{fcntl} with function F_SETLKW would cause a deadlock. @item EINTR The functioin was interrupted by a signal. @item EINVAL Invalid argument @item EMFILE Too many file descriptor or in use by the process. @item ENOLCK No locks available @end table @subheading DESCRIPTION: @code{fcntl()} performs one of various miscellaneous operations on @code{fd}. The operation in question is determined by @code{cmd}: @table @b @item F_DUPFD Makes @code{arg} be a copy of @code{fd}, closing @code{fd} first if necessary. The same functionality can be more easily achieved by using @code{dup2()}. The old and new descriptors may be used interchangeably. They share locks, file position pointers and flags; for example, if the file position is modified by using @code{lseek()} on one of the descriptors, the position is also changed for the other. The two descriptors do not share the close-on-exec flag, however. The close-on-exec flag of the copy is off, meaning that it will be closed on exec. On success, the new descriptor is returned. @item F_GETFD Read the close-on-exec flag. If the low-order bit is 0, the file will remain open across exec, otherwise it will be closed. @item F_SETFD Set the close-on-exec flag to the value specified by @code{arg} (only the least significant bit is used). @item F_GETFL Read the descriptor's flags (all flags (as set by open()) are returned). @item F_SETFL Set the descriptor's flags to the value specified by @code{arg}. Only @code{O_APPEND} and @code{O_NONBLOCK} may be set. The flags are shared between copies (made with @code{dup()} etc.) of the same file descriptor. The flags and their semantics are described in @code{open()}. @item F_GETLK, F_SETLK and F_SETLKW Manage discretionary file locks. The third argument @code{arg} is a pointer to a struct flock (that may be overwritten by this call). @item F_GETLK Return the flock structure that prevents us from obtaining the lock, or set the @code{l_type} field of the lock to @code{F_UNLCK} if there is no obstruction. @item F_SETLK The lock is set (when @code{l_type} is @code{F_RDLCK} or @code{F_WRLCK}) or cleared (when it is @code{F_UNLCK}. If lock is held by someone else, this call returns -1 and sets @code{errno} to EACCES or EAGAIN. @item F_SETLKW Like @code{F_SETLK}, but instead of returning an error we wait for the lock to be released. @item F_GETOWN Get the process ID (or process group) of the owner of a socket. Process groups are returned as negative values. @item F_SETOWN Set the process or process group that owns a socket. For these commands, ownership means receiving @code{SIGIO} or @code{SIGURG} signals. Process groups are specified using negative values. @end table @subheading NOTES: The errors returned by @code{dup2} are different from those returned by @code{F_DUPFD}. @c @c @c @page @subsection lseek - Reposition read/write file offset @findex lseek @cindex reposition read/write file offset @subheading CALLING SEQUENCE: @ifset is-C @example #include #include int lseek( int fildes, off_t offset, int whence ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item EBADF @code{Fildes} is not an open file descriptor. @item ESPIPE @code{Fildes} is associated with a pipe, socket or FIFO. @item EINVAL @code{Whence} is not a proper value. @end table @subheading DESCRIPTION: The @code{lseek} function repositions the offset of the file descriptor @code{fildes} to the argument offset according to the directive whence. The argument @code{fildes} must be an open file descriptor. @code{Lseek} repositions the file pointer fildes as follows: @itemize @bullet @item If @code{whence} is SEEK_SET, the offset is set to @code{offset} bytes. @item If @code{whence} is SEEK_CUR, the offset is set to its current location plus offset bytes. @item If @code{whence} is SEEK_END, the offset is set to the size of the file plus @code{offset} bytes. @end itemize The @code{lseek} function allows the file offset to be set beyond the end of the existing end-of-file of the file. If data is later written at this point, subsequent reads of the data in the gap return bytes of zeros (until data is actually written into the gap). Some devices are incapable of seeking. The value of the pointer associated with such a device is undefined. @subheading NOTES: NONE @c @c @c @page @subsection fsync - Synchronize file complete in-core state with that on disk @findex fsync @cindex synchronize file complete in @subheading CALLING SEQUENCE: @ifset is-C @example int fsync( int fd ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: On success, zero is returned. On error, -1 is returned, and @code{errno} is set appropriately. @table @b @item EBADF @code{fd} is not a valid descriptor open for writing @item EINVAL @code{fd} is bound to a special file which does not support support synchronization @item EROFS @code{fd} is bound to a special file which does not support support synchronization @item EIO An error occurred during synchronization @end table @subheading DESCRIPTION: @code{fsync} copies all in-core parts of a file to disk. @subheading NOTES: NONE @c @c @c @page @subsection fdatasync - Synchronize file in-core data with that on disk. @findex fdatasync @cindex synchronize file in @subheading CALLING SEQUENCE: @ifset is-C @example int fdatasync( int fd ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: On success, zero is returned. On error, -1 is returned, and @code{errno} is set appropriately. @table @b @item EBADF @code{fd} is not a valid file descriptor open for writing. @item EINVAL @code{fd} is bound to a special file which does not support synchronization. @item EIO An error occurred during synchronization. @item EROFS @code{fd} is bound to a special file which dows not support synchronization. @end table @subheading DESCRIPTION: @code{fdatasync} flushes all data buffers of a file to disk (before the system call returns). It resembles @code{fsync} but is not required to update the metadata such as access time. Applications that access databases or log files often write a tiny data fragment (e.g., one line in a log file) and then call @code{fsync} immediately in order to ensure that the written data is physically stored on the harddisk. Unfortunately, fsync will always initiate two write operations: one for the newly written data and another one in order to update the modification time stored in the inode. If the modification time is not a part of the transaction concept @code{fdatasync} can be used to avoid unnecessary inode disk write operations. @subheading NOTES: NONE @c @c @c @page @subsection mount - Mount a file system @findex mount @cindex mount a file system @subheading CALLING SEQUENCE: @ifset is-C @example #include int mount( rtems_filesystem_mount_table_entry_t **mt_entry, rtems_filesystem_operations_table *fs_ops, rtems_filesystem_options_t fsoptions, char *device, char *mount_point ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item EXXX @end table @subheading DESCRIPTION: The @code{mount} routines mounts the filesystem class which uses the filesystem operations specified by @code{fs_ops} and @code{fsoptions}. The filesystem is mounted at the directory @code{mount_point} and the mode of the mounted filesystem is specified by @code{fsoptions}. If this filesystem class requires a device, then the name of the device must be specified by @code{device}. If this operation succeeds, the mount table entry for the mounted filesystem is returned in @code{mt_entry}. @subheading NOTES: NONE @c @c @c @page @subsection unmount - Unmount file systems @findex unmount @cindex unmount file systems @subheading CALLING SEQUENCE: @ifset is-C @example #include int unmount( const char *mount_path ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item EXXX @end table @subheading DESCRIPTION: The @code{unmount} routine removes the attachment of the filesystem specified by @code{mount_path}. @subheading NOTES: NONE @c @c @c @page @subsection aio_read - Asynchronous Read @findex aio_read @cindex asynchronous read @subheading CALLING SEQUENCE: @ifset is-C @example int aio_read( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version. @c @c @c @page @subsection aio_write - Asynchronous Write @findex aio_write @cindex asynchronous write @subheading CALLING SEQUENCE: @ifset is-C @example int aio_write( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version. @c @c @c @page @subsection lio_listio - List Directed I/O @findex lio_listio @cindex list directed i/o @subheading CALLING SEQUENCE: @ifset is-C @example int lio_listio( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version. @c @c @c @page @subsection aio_error - Retrieve Error Status of Asynchronous I/O Operation @findex aio_error @cindex retrieve error status of asynchronous i/o operation @subheading CALLING SEQUENCE: @ifset is-C @example int aio_error( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version. @c @c @c @page @subsection aio_return - Retrieve Return Status Asynchronous I/O Operation @findex aio_return @cindex retrieve return status asynchronous i/o operation @subheading CALLING SEQUENCE: @ifset is-C @example int aio_return( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version. @c @c @c @page @subsection aio_cancel - Cancel Asynchronous I/O Request @findex aio_cancel @cindex cancel asynchronous i/o request @subheading CALLING SEQUENCE: @ifset is-C @example int aio_cancel( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version. @c @c @c @page @subsection aio_suspend - Wait for Asynchronous I/O Request @findex aio_suspend @cindex wait for asynchronous i/o request @subheading CALLING SEQUENCE: @ifset is-C @example int aio_suspend( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version. @c @c @c @page @subsection aio_fsync - Asynchronous File Synchronization @findex aio_fsync @cindex asynchronous file synchronization @subheading CALLING SEQUENCE: @ifset is-C @example int aio_fsync( ); @end example @end ifset @ifset is-Ada @end ifset @subheading STATUS CODES: @table @b @item E The @end table @subheading DESCRIPTION: @subheading NOTES: This routine is not currently supported by RTEMS but could be in a future version.