587 lines
21 KiB
Groff
587 lines
21 KiB
Groff
.\" Copyright (c) 1980, 1983, 1986, 1991, 1993
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.\" The Regents of the University of California.
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.\" All rights reserved. The Berkeley software License Agreement
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.\" specifies the terms and conditions for redistribution.
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.\"
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.\" @(#)intro.2 8.5 (Berkeley) 2/27/95
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.\"
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.\" Adapted to MINIX 3
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.\"
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.Dd July 14, 2010
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.Dt INTRO 2
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.Os
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.Sh NAME
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.Nm intro ,
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.Nm errno
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.Nd introduction to system calls and error numbers
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.Sh SYNOPSIS
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.In errno.h
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.Sh DESCRIPTION
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This section provides an overview of the system calls,
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their error returns, and other common definitions and concepts.
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.Sh DIAGNOSTICS
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Nearly all of the system calls provide an error number in the external
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variable
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.Va errno .
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.Pp
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When a system call detects an error,
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it returns an integer value
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indicating failure (usually \-1)
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and sets the variable
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.Va errno
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accordingly.
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(This allows interpretation of the failure on receiving
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a \-1 and to take action accordingly.)
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Successful calls never set
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.Va errno ;
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once set, it remains until another error occurs.
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It should only be examined after an error has been reported, because
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otherwise a leftover value from some previous error may be found
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instead.
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.Po
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Many library functions that are not system calls also set
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.Va errno
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on return, in the same fashion.
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In these cases a nonzero value may be left in
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.Va errno
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even upon successful return if some internal action failed.
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.Pc
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.Pp
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The manual page for each system call will list some of the common
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errno codes that system call can return, but that should not be
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considered an exhaustive list, i.e.
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a properly written program should be able to gracefully recover from
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any error that a system call might return.
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Documenting all the error codes that a system call can return in
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a more specification-like manner would take more resources than
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this project has available.
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.Pp
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Note also that a number of system calls overload the meanings of these
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error numbers, and that in these cases the meanings must be
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interpreted according to the type and circumstances of the call.
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.Pp
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The following is a list of the errors and their
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names as given in
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.In errno.h .
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.Bl -hang -width Ds
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.It Er 0 OK Em "Error 0" .
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Not used. (The symbol "OK" is only used inside the kernel source.)
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.It 1 EPERM Em "Operation not permitted" .
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An attempt was made to perform an operation limited to processes
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with appropriate privileges or to the owner of a file or other
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resources.
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.It Er 2 ENOENT Em "No such file or directory" .
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A component of a specified pathname did not exist, or the
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pathname was an empty string.
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.It Er 3 ESRCH Em "No such process" .
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No process could be found corresponding to that specified by the given
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process ID.
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It Er 4 EINTR Em "Interrupted function call" .
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An asynchronous signal (such as
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.Dv SIGINT
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or
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.Dv SIGQUIT )
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was caught by the process during the execution of an interruptible
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function.
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If the signal handler performs a normal return, the
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interrupted function call will seem to have returned the error condition.
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.It Er 5 EIO Em "Input/output error" .
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Some physical input or output error occurred.
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This error will not be reported until a subsequent operation on the same file
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descriptor and may be lost (over written) by any subsequent errors.
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.It Er 6 ENXIO Em "Device not configured" .
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Input or output on a special file referred to a device that did not
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exist, or
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made a request beyond the limits of the device.
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This error may also occur when, for example,
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a tape drive is not online or no disk pack is
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loaded on a drive.
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.It Er 7 E2BIG Em "Arg list too long" .
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The number of bytes used for the argument and environment
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list of the new process exceeded the current limit of
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262144 bytes
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.Pf ( Dv ARG_MAX
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in
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.In limits.h ) .
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.It Er 8 ENOEXEC Em "Exec format error" .
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A request was made to execute a file
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that, although it has the appropriate permissions,
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was not in the format required for an
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executable file.
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.It Er 9 EBADF Em "Bad file descriptor" .
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A file descriptor argument was out of range, referred to no open file,
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or a
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.Xr read 2
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(or
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.Xr write 2 )
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request was made to a file that was
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only open for writing (or reading).
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.It Er 10 ECHILD Em "\&No child processes" .
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A
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.Xr wait 2
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or
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.Xr waitpid 2
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function was executed by a process that had no existing or unwaited-for
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child processes.
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.It Er 11 EAGAIN Em "Resource temporarily unavailable" .
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This is a temporary condition and later calls to the
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same routine may complete normally.
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.It Er 12 ENOMEM Em "Cannot allocate memory" .
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The new process image required more memory than was allowed by the hardware
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or by system-imposed memory management constraints.
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Soft limits may be increased to their corresponding hard limits.
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.It Er 13 EACCES Em "Permission denied" .
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An attempt was made to access a file in a way forbidden
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by its file access permissions.
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.It Er 14 EFAULT Em "Bad address" .
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The system detected an invalid address in attempting to
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use an argument of a call.
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The reliable detection of this error cannot be guaranteed and when not detected
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may result in the generation of a signal, indicating an address violation,
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which is sent to the process.
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.It Er 15 ENOTBLK Em "Block device required" .
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A block device operation was attempted on a non-block device or file.
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.It Er 16 EBUSY Em "Resource busy" .
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An attempt to use a system resource which was in use at the time
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in a manner which would have conflicted with the request.
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.It Er 17 EEXIST Em "File exists" .
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An existing file was mentioned in an inappropriate context,
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for instance, as the new link name in a
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.Xr link 2
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function.
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.It Er 18 EXDEV Em "Improper link" .
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A hard link to a file on another file system
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was attempted.
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.It Er 19 ENODEV Em "Operation not supported by device" .
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An attempt was made to apply an inappropriate
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function to a device,
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for example,
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trying to read a write-only device such as a printer.
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.It Er 20 ENOTDIR Em "Not a directory" .
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A component of the specified pathname existed, but it was
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not a directory, when a directory was expected.
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.It Er 21 EISDIR Em "Is a directory" .
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An attempt was made to open a directory with write mode specified.
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.It Er 22 EINVAL Em "Invalid argument" .
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Some invalid argument was supplied.
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(For example, specifying an undefined signal to a
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.Xr signal 3
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or
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.Xr kill 2
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function).
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.It Er 23 ENFILE Em "Too many open files in system" .
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Maximum number of file descriptors allowable on the system
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has been reached and a requests for an open cannot be satisfied
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until at least one has been closed.
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.It Er 24 EMFILE Em "Too many open files" .
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\*[Lt]As released, the limit on the number of
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open files per process is 64.\*[Gt]
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The
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.Xr getrlimit 2
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call with the
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.Ar RLIMIT_NOFILE
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resource will obtain the current limit.
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.It Er 25 ENOTTY Em "Inappropriate ioctl for device" .
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A control function (see
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.Xr ioctl 2 )
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was attempted for a file or
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special device for which the operation was inappropriate.
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.en 26 ETXTBSY "Text file busy
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Attempt to execute a program that is open for writing. Obsolete under MINIX 3.
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.It Er 27 EFBIG Em "File too large" .
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The size of a file exceeded the maximum.
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(The system-wide maximum file size is
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2147483648 (2GB) bytes.
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Each file system may impose a lower limit for files contained within it).
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.It Er 28 ENOSPC Em "Device out of space" .
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A
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.Xr write 2
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to an ordinary file, the creation of a
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directory or symbolic link, or the creation of a directory
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entry failed because no more disk blocks were available
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on the file system, or the allocation of an inode for a newly
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created file failed because no more inodes were available
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on the file system.
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.It Er 29 ESPIPE Em "Illegal seek" .
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An
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.Xr lseek 2
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function was issued on a socket, pipe or
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.Tn FIFO .
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.It Er 30 EROFS Em "Read-only file system" .
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An attempt was made to modify a file or directory
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was made
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on a file system that was read-only at the time.
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.It Er 31 EMLINK Em "Too many links" .
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The number of hard links to a single file has exceeded the maximum.
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(The system-wide maximum number of hard links is 32767.
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Each file system may impose a lower limit for files contained within it).
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.It Er 32 EPIPE Em "Broken pipe" .
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A write on a pipe, socket or
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.Tn FIFO
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for which there is no process
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to read the data.
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.It Er 33 EDOM Em "Numerical argument out of domain" .
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A numerical input argument was outside the defined domain of the mathematical
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function.
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.It Er 34 ERANGE Em "Result too large or too small" .
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The result of the function is too large or too small to be represented
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in the available space.
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.It Er 35 EDEADLK Em "Resource deadlock avoided" .
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An attempt was made to lock a system resource that
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would have resulted in a deadlock situation.
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.It Er 36 ENAMETOOLONG Em "File name too long" .
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A component of a path name exceeded
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.Pq Dv NAME_MAX
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characters, or an entire
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path name exceeded 255
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.Pq Dv PATH_MAX
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characters.
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.It Er 37 ENOLCK Em "No locks available" .
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A system-imposed limit on the number of simultaneous file
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locks was reached.
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.It Er 38 ENOSYS Em "Function not implemented" .
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Attempted a system call that is not available on this
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system.
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.It Er 39 ENOTEMPTY Em "Directory not empty" .
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A directory with entries other than
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.Ql \&.
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and
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.Ql \&..
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was supplied to a remove directory or rename call.
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.It Er 40 ELOOP Em "Too many levels of symbolic links" .
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A path name lookup involved more than 16
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.Pq Dv SYMLOOP_MAX
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symbolic links.
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.It Er 41 ERESTART Em "Service restarted" .
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.It Er 43 ERESTART Em "Identifier removed" .
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An IPC identifier was removed while the current process was waiting on it.
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.It Er 44 EILSEQ Em "Illegal byte sequence" .
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A wide character/multibyte character encoding error occurred.
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.It Er 45 EFTYPE Em "Inappropriate file type or format" .
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Attempted a file operation on a file of a type for which it was invalid.
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.It Er 46 EOVERFLOW Em "Value too large to be stored in data type" .
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A numerical result of the function was too large to be stored in the
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caller-provided space.
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.It Er 50 EPACKSIZE Em "Invalid packet size" .
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.It Er 51 ENOBUFS Em "\&No buffer space available" .
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An operation on a socket or pipe was not performed because
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the system lacked sufficient buffer space or because a queue was full.
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.It Er 52 EBADIOCTL Em "Illegal ioctl for device" .
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.It Er 53 EBADMODE Em "Bad mode in ioctl" .
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.It Er 54 EWOULDBLOCK Em "Would block" .
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.It Er 55 ENETUNREACH Em "Network is unreachable" .
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A socket operation was attempted to an unreachable network.
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.It Er 56 EHOSTUNREACH Em "No route to host" .
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A socket operation was attempted to an unreachable host.
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.It Er 57 EISCONN Em "Socket is already connected" .
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A
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.Xr connect 2
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request was made on an already connected socket; or,
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a
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.Xr sendto 2
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or
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.Xr sendmsg 2
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request on a connected socket specified a destination
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when already connected.
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.It Er 58 EADDRINUSE Em "Address already in use" .
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Only one usage of each address is normally permitted.
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.It Er 59 ECONNREFUSED Em "Connection refused" .
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No connection could be made because the target machine actively
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refused it.
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This usually results from trying to connect
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to a service that is inactive on the foreign host.
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.It Er 60 ECONNRESET Em "Connection reset by peer" .
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A connection was forcibly closed by a peer.
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This normally results from a loss of the connection on the remote
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socket due to a timeout or a reboot.
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.It Er 61 ETIMEDOUT Em "Operation timed out" .
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A
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.Xr connect 2
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or
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.Xr send 2
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request failed because the connected party did not
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properly respond after a period of time.
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(The timeout period is dependent on the communication protocol).
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.It Er 62 EURG Em "Urgent data present" .
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.It Er 63 ENOURG Em "No urgent data present" .
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.It Er 64 ENOTCONN Em "Socket is not connected" .
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An request to send or receive data was disallowed because
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the socket was not connected and (when sending on a datagram socket)
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no address was supplied.
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.It Er 65 ESHUTDOWN Em "Cannot send after socket shutdown" .
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A request to send data was disallowed because the socket
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had already been shut down with a previous
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.Xr shutdown 2
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call.
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.It Er 66 ENOCONN Em "No such connection" .
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.It Er 67 EAFNOSUPPORT Em "Address family not supported by protocol family" .
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An address incompatible with the requested protocol was used.
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For example, you shouldn't necessarily expect to be able to use
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.Tn NS
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addresses with
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.Tn ARPA
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Internet protocols.
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.It Er 68 EPROTONOSUPPORT Em "Protocol not supported" .
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The protocol has not been configured into the
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system or no implementation for it exists.
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.It Er 69 EPROTOTYPE Em "Protocol wrong type for socket" .
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A protocol was specified that does not support the semantics of the
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socket type requested.
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For example, you cannot use the
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.Tn ARPA
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Internet
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.Tn UDP
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protocol with type
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.Dv SOCK_STREAM .
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.It Er 70 EINPROGRESS Em "Operation now in progress" .
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An operation that takes a long time to complete (such as
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a
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.Xr connect 2 )
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was attempted on a non-blocking object (see
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.Xr fcntl 2 ) .
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.It Er 71 EADDRNOTAVAIL Em "Cannot assign requested address" .
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Normally results from an attempt to create a socket with an
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address not on this machine.
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.It Er 72 EALREADY Em "Operation already in progress" .
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An operation was attempted on a non-blocking object that already
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had an operation in progress.
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.It Er 73 EMSGSIZE Em "Message too long" .
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A message sent on a socket was larger than the internal message buffer
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or some other network limit.
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.It Er 74 ENOTSOCK Em "Socket operation on non-socket" .
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Self-explanatory.
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.It Er 75 ENOPROTOOPT Em "Protocol option not available" .
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A bad option or level was specified in a
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.Xr getsockopt 2
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or
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.Xr setsockopt 2
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call.
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.It Er 76 EOPNOTSUPP Em "Operation not supported" (has alias ENOTSUP) .
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The attempted operation is not supported for the type of object referenced.
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Usually this occurs when a file descriptor refers to a file or socket
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that cannot support this operation,
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for example, trying to
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.Em accept
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a connection on a datagram socket.
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.It Er 77 ENETDOWN Em "Network is down" .
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A socket operation encountered a dead network.
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.El
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.Sh DEFINITIONS
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.Bl -tag -width Ds
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.It Process ID
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Each active process in the system is uniquely identified by a positive
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integer called a process ID. The range of this ID is from 1 to 29999.
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.It Parent process ID
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A new process is created by a currently active process; (see
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.Xr fork 2 ) .
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The parent process ID of a process is initially the process ID of its creator.
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If the creating process exits,
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the parent process ID of each child is set to the ID of
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.Em init ,
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.Xr init 8 .
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.It Process Group
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Each active process is a member of a process group that is identified by
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a positive integer called the process group ID.
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This is the process ID of the group leader.
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This grouping permits the signaling of related processes (see
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.Xr termios 4 ).
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.It Session
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A session is a set of one or more process groups.
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A session is created by a successful call to
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.Xr setsid 2 ,
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which causes the caller to become the only member of the only process
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group in the new session.
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.It Session leader
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A process that has created a new session by a successful call to
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.Xr setsid 2 ,
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is known as a session leader.
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Only a session leader may acquire a terminal as its controlling terminal (see
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.Xr termios 4 ) .
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.It Controlling process
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A session leader with a controlling terminal is a controlling process.
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.It Controlling terminal
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A terminal that is associated with a session is known as the controlling
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terminal for that session and its members.
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.It "Real User ID and Real Group ID"
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Each user on the system is identified by a positive integer
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termed the real user ID.
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.Pp
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Each user is also a member of one or more groups.
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One of these groups is distinguished from others and
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used in implementing accounting facilities.
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The positive integer corresponding to this distinguished group is
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termed the real group ID.
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.Pp
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All processes have a real user ID and real group ID.
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These are initialized from the equivalent attributes
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of the process that created it.
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.It "Effective User Id, Effective Group Id, and Group Access List"
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Access to system resources is governed by two values:
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the effective user ID and the group access list.
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(In POSIX.1, the group access list is known as the set of supplementary
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group IDs, and it is unspecified whether the effective group ID is
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a member of the list.)
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.Pp
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The effective user ID and effective group ID are initially the
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process's real user ID and real group ID respectively. Either
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may be modified through execution of a set-user-ID or set-group-ID
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file (possibly by one its ancestors) (see
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.BR execve (2)).
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.Pp
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The group access list is an additional set of group ID's
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used only in determining resource accessibility.
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Access checks are performed as described below in
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.Qq File Access Permissions .
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It Super-user
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A process is recognized as a
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.Em super-user
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process and is granted special privileges if its effective user ID is 0.
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.It Descriptor
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An integer assigned by the system when a file is referenced
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by
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.Xr open 2
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or
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.Xr dup 2 ,
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or when a socket is created by
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.Xr pipe 2 ,
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.Xr socket 2 ,
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or
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.Xr socketpair 2 ,
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which uniquely identifies an access path to that file or socket from
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a given process or any of its children.
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.It File Name
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Names consisting of up to 60
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.Pq Dv NAME_MAX
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characters may be used to name
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an ordinary file, special file, or directory.
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.Pp
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These characters may be selected from the set of all
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.Tn ASCII
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character
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excluding 0 (NUL) and the
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.Tn ASCII
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code for
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.Ql \&/
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(slash).
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(The parity bit, bit 7, must be 0).
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.Pp
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Note that it is generally unwise to use
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.Ql \&* ,
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.Ql \&? ,
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.Ql \&[
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or
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.Ql \&]
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as part of
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file names because of the special meaning attached to these characters
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by the shell.
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.It Pathname
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A path name is a
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.Tn NUL Ns -terminated
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character string starting with an
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optional slash
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.Ql \&/ ,
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followed by zero or more directory names separated
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by slashes, optionally followed by a file name.
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|
The total length of a path name must be less than 255
|
|
.Pq Dv PATH_MAX
|
|
characters.
|
|
.Pp
|
|
If a path name begins with a slash, the path search begins at the
|
|
.Em root
|
|
directory.
|
|
Otherwise, the search begins from the current working directory.
|
|
A slash by itself names the root directory.
|
|
An empty string is not a valid pathname.
|
|
.It Directory
|
|
A directory is a special type of file that contains entries
|
|
that are references to other files.
|
|
Directory entries are called links.
|
|
By convention, a directory contains at least two links,
|
|
.Ql \&.
|
|
and
|
|
.Ql \&.. ,
|
|
referred to as
|
|
.Em dot
|
|
and
|
|
.Em dot-dot
|
|
respectively.
|
|
Dot refers to the directory itself and dot-dot refers to its parent directory.
|
|
.It "Root Directory and Current Working Directory"
|
|
Each process has associated with it a concept of a root directory
|
|
and a current working directory for the purpose of resolving path
|
|
name searches.
|
|
A process's root directory need not be the root
|
|
directory of the root file system.
|
|
.It File Access Permissions
|
|
Every file in the file system has a set of access permissions.
|
|
These permissions are used in determining whether a process
|
|
may perform a requested operation on the file (such as opening
|
|
a file for writing).
|
|
Access permissions are established at the time a file is created.
|
|
They may be changed at some later time through the
|
|
.Xr chmod 2
|
|
call.
|
|
.Pp
|
|
File access is broken down according to whether a file may be: read,
|
|
written, or executed.
|
|
Directory files use the execute permission to control if the
|
|
directory may be searched.
|
|
.Pp
|
|
File access permissions are interpreted by the system as
|
|
they apply to three different classes of users: the owner
|
|
of the file, those users in the file's group, anyone else.
|
|
Every file has an independent set of access permissions for
|
|
each of these classes.
|
|
When an access check is made, the system decides if permission should be
|
|
granted by checking the access information applicable to the caller.
|
|
.Pp
|
|
Read, write, and execute/search permissions on
|
|
a file are granted to a process if:
|
|
.Pp
|
|
The process's effective user ID is that of the super-user.
|
|
(Note: even the super-user cannot execute a non-executable file).
|
|
.Pp
|
|
The process's effective user ID matches the user ID of the owner
|
|
of the file and the owner permissions allow the access.
|
|
.Pp
|
|
The process's effective user ID does not match the user ID of the
|
|
owner of the file, and either the process's effective
|
|
group ID matches the group ID
|
|
of the file, or the group ID of the file is in
|
|
the process's group access list,
|
|
and the group permissions allow the access.
|
|
.Pp
|
|
Neither the effective user ID nor effective group ID
|
|
and group access list of the process
|
|
match the corresponding user ID and group ID of the file,
|
|
but the permissions for ``other users'' allow access.
|
|
.Pp
|
|
Otherwise, permission is denied.
|
|
.It Sockets and Address Families
|
|
A socket is an endpoint for communication between processes.
|
|
Each socket has queues for sending and receiving data.
|
|
.Pp
|
|
Sockets are typed according to their communications properties.
|
|
These properties include whether messages sent and received
|
|
at a socket require the name of the partner, whether communication
|
|
is reliable, the format used in naming message recipients, etc.
|
|
.Pp
|
|
Each instance of the system supports some
|
|
collection of socket types; consult
|
|
.Xr socket 2
|
|
for more information about the types available and
|
|
their properties.
|
|
.Pp
|
|
Each instance of the system supports some number of sets of
|
|
communications protocols.
|
|
Each protocol set supports addresses of a certain format.
|
|
An Address Family is the set of addresses for a specific group of protocols.
|
|
Each socket has an address
|
|
chosen from the address family in which the socket was created.
|
|
.El
|
|
.Sh SEE ALSO
|
|
.Xr intro 3 ,
|
|
.Xr perror 3
|
|
|
|
|