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Reviewed-by: Andreas K. Hüttel <dilfridge@gentoo.org>
396 lines
17 KiB
Plaintext
396 lines
17 KiB
Plaintext
@node I/O Overview, I/O on Streams, Pattern Matching, Top
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@c %MENU% Introduction to the I/O facilities
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@chapter Input/Output Overview
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Most programs need to do either input (reading data) or output (writing
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data), or most frequently both, in order to do anything useful. @Theglibc{}
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provides such a large selection of input and output functions
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that the hardest part is often deciding which function is most
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appropriate!
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This chapter introduces concepts and terminology relating to input
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and output. Other chapters relating to the GNU I/O facilities are:
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@itemize @bullet
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@item
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@ref{I/O on Streams}, which covers the high-level functions
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that operate on streams, including formatted input and output.
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@item
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@ref{Low-Level I/O}, which covers the basic I/O and control
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functions on file descriptors.
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@item
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@ref{File System Interface}, which covers functions for operating on
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directories and for manipulating file attributes such as access modes
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and ownership.
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@item
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@ref{Pipes and FIFOs}, which includes information on the basic interprocess
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communication facilities.
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@item
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@ref{Sockets}, which covers a more complicated interprocess communication
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facility with support for networking.
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@item
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@ref{Low-Level Terminal Interface}, which covers functions for changing
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how input and output to terminals or other serial devices are processed.
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@end itemize
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@menu
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* I/O Concepts:: Some basic information and terminology.
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* File Names:: How to refer to a file.
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@end menu
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@node I/O Concepts, File Names, , I/O Overview
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@section Input/Output Concepts
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Before you can read or write the contents of a file, you must establish
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a connection or communications channel to the file. This process is
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called @dfn{opening} the file. You can open a file for reading, writing,
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or both.
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@cindex opening a file
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The connection to an open file is represented either as a stream or as a
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file descriptor. You pass this as an argument to the functions that do
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the actual read or write operations, to tell them which file to operate
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on. Certain functions expect streams, and others are designed to
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operate on file descriptors.
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When you have finished reading from or writing to the file, you can
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terminate the connection by @dfn{closing} the file. Once you have
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closed a stream or file descriptor, you cannot do any more input or
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output operations on it.
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@menu
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* Streams and File Descriptors:: The GNU C Library provides two ways
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to access the contents of files.
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* File Position:: The number of bytes from the
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beginning of the file.
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@end menu
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@node Streams and File Descriptors, File Position, , I/O Concepts
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@subsection Streams and File Descriptors
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When you want to do input or output to a file, you have a choice of two
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basic mechanisms for representing the connection between your program
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and the file: file descriptors and streams. File descriptors are
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represented as objects of type @code{int}, while streams are represented
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as @code{FILE *} objects.
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File descriptors provide a primitive, low-level interface to input and
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output operations. Both file descriptors and streams can represent a
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connection to a device (such as a terminal), or a pipe or socket for
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communicating with another process, as well as a normal file. But, if
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you want to do control operations that are specific to a particular kind
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of device, you must use a file descriptor; there are no facilities to
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use streams in this way. You must also use file descriptors if your
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program needs to do input or output in special modes, such as
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nonblocking (or polled) input (@pxref{File Status Flags}).
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Streams provide a higher-level interface, layered on top of the
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primitive file descriptor facilities. The stream interface treats all
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kinds of files pretty much alike---the sole exception being the three
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styles of buffering that you can choose (@pxref{Stream Buffering}).
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The main advantage of using the stream interface is that the set of
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functions for performing actual input and output operations (as opposed
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to control operations) on streams is much richer and more powerful than
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the corresponding facilities for file descriptors. The file descriptor
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interface provides only simple functions for transferring blocks of
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characters, but the stream interface also provides powerful formatted
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input and output functions (@code{printf} and @code{scanf}) as well as
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functions for character- and line-oriented input and output.
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@c !!! glibc has dprintf, which lets you do printf on an fd.
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Since streams are implemented in terms of file descriptors, you can
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extract the file descriptor from a stream and perform low-level
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operations directly on the file descriptor. You can also initially open
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a connection as a file descriptor and then make a stream associated with
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that file descriptor.
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In general, you should stick with using streams rather than file
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descriptors, unless there is some specific operation you want to do that
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can only be done on a file descriptor. If you are a beginning
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programmer and aren't sure what functions to use, we suggest that you
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concentrate on the formatted input functions (@pxref{Formatted Input})
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and formatted output functions (@pxref{Formatted Output}).
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If you are concerned about portability of your programs to systems other
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than GNU, you should also be aware that file descriptors are not as
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portable as streams. You can expect any system running @w{ISO C} to
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support streams, but @nongnusystems{} may not support file descriptors at
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all, or may only implement a subset of the GNU functions that operate on
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file descriptors. Most of the file descriptor functions in @theglibc{}
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are included in the POSIX.1 standard, however.
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@node File Position, , Streams and File Descriptors, I/O Concepts
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@subsection File Position
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One of the attributes of an open file is its @dfn{file position} that
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keeps track of where in the file the next character is to be read or
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written. On @gnusystems{}, and all POSIX.1 systems, the file position
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is simply an integer representing the number of bytes from the beginning
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of the file.
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The file position is normally set to the beginning of the file when it
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is opened, and each time a character is read or written, the file
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position is incremented. In other words, access to the file is normally
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@dfn{sequential}.
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@cindex file position
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@cindex sequential-access files
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Ordinary files permit read or write operations at any position within
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the file. Some other kinds of files may also permit this. Files which
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do permit this are sometimes referred to as @dfn{random-access} files.
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You can change the file position using the @code{fseek} function on a
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stream (@pxref{File Positioning}) or the @code{lseek} function on a file
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descriptor (@pxref{I/O Primitives}). If you try to change the file
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position on a file that doesn't support random access, you get the
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@code{ESPIPE} error.
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@cindex random-access files
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Streams and descriptors that are opened for @dfn{append access} are
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treated specially for output: output to such files is @emph{always}
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appended sequentially to the @emph{end} of the file, regardless of the
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file position. However, the file position is still used to control where in
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the file reading is done.
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@cindex append-access files
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If you think about it, you'll realize that several programs can read a
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given file at the same time. In order for each program to be able to
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read the file at its own pace, each program must have its own file
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pointer, which is not affected by anything the other programs do.
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In fact, each opening of a file creates a separate file position.
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Thus, if you open a file twice even in the same program, you get two
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streams or descriptors with independent file positions.
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By contrast, if you open a descriptor and then duplicate it to get
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another descriptor, these two descriptors share the same file position:
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changing the file position of one descriptor will affect the other.
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@node File Names, , I/O Concepts, I/O Overview
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@section File Names
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In order to open a connection to a file, or to perform other operations
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such as deleting a file, you need some way to refer to the file. Nearly
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all files have names that are strings---even files which are actually
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devices such as tape drives or terminals. These strings are called
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@dfn{file names}. You specify the file name to say which file you want
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to open or operate on.
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This section describes the conventions for file names and how the
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operating system works with them.
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@cindex file name
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@menu
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* Directories:: Directories contain entries for files.
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* File Name Resolution:: A file name specifies how to look up a file.
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* File Name Errors:: Error conditions relating to file names.
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* File Name Portability:: File name portability and syntax issues.
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@end menu
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@node Directories, File Name Resolution, , File Names
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@subsection Directories
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In order to understand the syntax of file names, you need to understand
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how the file system is organized into a hierarchy of directories.
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@cindex directory
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@cindex link
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@cindex directory entry
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A @dfn{directory} is a file that contains information to associate other
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files with names; these associations are called @dfn{links} or
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@dfn{directory entries}. Sometimes, people speak of ``files in a
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directory'', but in reality, a directory only contains pointers to
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files, not the files themselves.
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@cindex file name component
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The name of a file contained in a directory entry is called a @dfn{file
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name component}. In general, a file name consists of a sequence of one
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or more such components, separated by the slash character (@samp{/}). A
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file name which is just one component names a file with respect to its
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directory. A file name with multiple components names a directory, and
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then a file in that directory, and so on.
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Some other documents, such as the POSIX standard, use the term
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@dfn{pathname} for what we call a file name, and either @dfn{filename}
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or @dfn{pathname component} for what this manual calls a file name
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component. We don't use this terminology because a ``path'' is
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something completely different (a list of directories to search), and we
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think that ``pathname'' used for something else will confuse users. We
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always use ``file name'' and ``file name component'' (or sometimes just
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``component'', where the context is obvious) in GNU documentation. Some
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macros use the POSIX terminology in their names, such as
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@code{PATH_MAX}. These macros are defined by the POSIX standard, so we
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cannot change their names.
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You can find more detailed information about operations on directories
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in @ref{File System Interface}.
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@node File Name Resolution, File Name Errors, Directories, File Names
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@subsection File Name Resolution
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A file name consists of file name components separated by slash
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(@samp{/}) characters. On the systems that @theglibc{} supports,
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multiple successive @samp{/} characters are equivalent to a single
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@samp{/} character.
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@cindex file name resolution
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The process of determining what file a file name refers to is called
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@dfn{file name resolution}. This is performed by examining the
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components that make up a file name in left-to-right order, and locating
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each successive component in the directory named by the previous
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component. Of course, each of the files that are referenced as
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directories must actually exist, be directories instead of regular
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files, and have the appropriate permissions to be accessible by the
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process; otherwise the file name resolution fails.
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@cindex root directory
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@cindex absolute file name
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If a file name begins with a @samp{/}, the first component in the file
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name is located in the @dfn{root directory} of the process (usually all
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processes on the system have the same root directory). Such a file name
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is called an @dfn{absolute file name}.
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@c !!! xref here to chroot, if we ever document chroot. -rm
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@cindex relative file name
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Otherwise, the first component in the file name is located in the
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current working directory (@pxref{Working Directory}). This kind of
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file name is called a @dfn{relative file name}.
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@cindex parent directory
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The file name components @file{.} (``dot'') and @file{..} (``dot-dot'')
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have special meanings. Every directory has entries for these file name
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components. The file name component @file{.} refers to the directory
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itself, while the file name component @file{..} refers to its
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@dfn{parent directory} (the directory that contains the link for the
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directory in question). As a special case, @file{..} in the root
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directory refers to the root directory itself, since it has no parent;
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thus @file{/..} is the same as @file{/}.
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Here are some examples of file names:
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@table @file
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@item /a
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The file named @file{a}, in the root directory.
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@item /a/b
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The file named @file{b}, in the directory named @file{a} in the root directory.
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@item a
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The file named @file{a}, in the current working directory.
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@item /a/./b
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This is the same as @file{/a/b}.
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@item ./a
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The file named @file{a}, in the current working directory.
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@item ../a
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The file named @file{a}, in the parent directory of the current working
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directory.
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@end table
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@c An empty string may ``work'', but I think it's confusing to
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@c try to describe it. It's not a useful thing for users to use--rms.
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A file name that names a directory may optionally end in a @samp{/}.
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You can specify a file name of @file{/} to refer to the root directory,
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but the empty string is not a meaningful file name. If you want to
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refer to the current working directory, use a file name of @file{.} or
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@file{./}.
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Unlike some other operating systems, @gnusystems{} don't have any
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built-in support for file types (or extensions) or file versions as part
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of its file name syntax. Many programs and utilities use conventions
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for file names---for example, files containing C source code usually
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have names suffixed with @samp{.c}---but there is nothing in the file
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system itself that enforces this kind of convention.
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@node File Name Errors, File Name Portability, File Name Resolution, File Names
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@subsection File Name Errors
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@cindex file name errors
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@cindex usual file name errors
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Functions that accept file name arguments usually detect these
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@code{errno} error conditions relating to the file name syntax or
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trouble finding the named file. These errors are referred to throughout
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this manual as the @dfn{usual file name errors}.
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@table @code
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@item EACCES
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The process does not have search permission for a directory component
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of the file name.
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@item ENAMETOOLONG
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This error is used when either the total length of a file name is
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greater than @code{PATH_MAX}, or when an individual file name component
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has a length greater than @code{NAME_MAX}. @xref{Limits for Files}.
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On @gnuhurdsystems{}, there is no imposed limit on overall file name
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length, but some file systems may place limits on the length of a
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component.
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@item ENOENT
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This error is reported when a file referenced as a directory component
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in the file name doesn't exist, or when a component is a symbolic link
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whose target file does not exist. @xref{Symbolic Links}.
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@item ENOTDIR
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A file that is referenced as a directory component in the file name
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exists, but it isn't a directory.
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@item ELOOP
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Too many symbolic links were resolved while trying to look up the file
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name. The system has an arbitrary limit on the number of symbolic links
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that may be resolved in looking up a single file name, as a primitive
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way to detect loops. @xref{Symbolic Links}.
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@end table
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@node File Name Portability, , File Name Errors, File Names
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@subsection Portability of File Names
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The rules for the syntax of file names discussed in @ref{File Names},
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are the rules normally used by @gnusystems{} and by other POSIX
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systems. However, other operating systems may use other conventions.
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There are two reasons why it can be important for you to be aware of
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file name portability issues:
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@itemize @bullet
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@item
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If your program makes assumptions about file name syntax, or contains
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embedded literal file name strings, it is more difficult to get it to
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run under other operating systems that use different syntax conventions.
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@item
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Even if you are not concerned about running your program on machines
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that run other operating systems, it may still be possible to access
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files that use different naming conventions. For example, you may be
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able to access file systems on another computer running a different
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operating system over a network, or read and write disks in formats used
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by other operating systems.
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@end itemize
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The @w{ISO C} standard says very little about file name syntax, only that
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file names are strings. In addition to varying restrictions on the
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length of file names and what characters can validly appear in a file
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name, different operating systems use different conventions and syntax
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for concepts such as structured directories and file types or
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extensions. Some concepts such as file versions might be supported in
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some operating systems and not by others.
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The POSIX.1 standard allows implementations to put additional
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restrictions on file name syntax, concerning what characters are
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permitted in file names and on the length of file name and file name
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component strings. However, on @gnusystems{}, any character except
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the null character is permitted in a file name string, and
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on @gnuhurdsystems{} there are no limits on the length of file name
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strings.
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