mirror of
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dbae3a3940
"number of arguments, from zero to five" is wrong, because on Linux maximal number of arguments is 6, not 5. Also, maximal number of arguments is kernel-dependent, so let's not include it here at all. Moreover, "Each kind of system call has a definite number of arguments" is questionable. Think about SYS_open on Linux, which takes 2 or 3 arguments. Or SYS_clone on Linux x86_64, which takes 2 to 5 arguments. So I propose to fully remove this sentence. Signed-off-by: Askar Safin <safinaskar@zohomail.com> Reviewed-by: Adhemerval Zanella <adhemerval.zanella@linaro.org>
1075 lines
42 KiB
Plaintext
1075 lines
42 KiB
Plaintext
@node Program Basics, Processes, Signal Handling, Top
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@c %MENU% Writing the beginning and end of your program
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@chapter The Basic Program/System Interface
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@cindex process
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@cindex program
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@cindex address space
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@cindex thread of control
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@dfn{Processes} are the primitive units for allocation of system
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resources. Each process has its own address space and (usually) one
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thread of control. A process executes a program; you can have multiple
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processes executing the same program, but each process has its own copy
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of the program within its own address space and executes it
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independently of the other copies. Though it may have multiple threads
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of control within the same program and a program may be composed of
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multiple logically separate modules, a process always executes exactly
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one program.
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Note that we are using a specific definition of ``program'' for the
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purposes of this manual, which corresponds to a common definition in the
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context of Unix systems. In popular usage, ``program'' enjoys a much
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broader definition; it can refer for example to a system's kernel, an
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editor macro, a complex package of software, or a discrete section of
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code executing within a process.
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Writing the program is what this manual is all about. This chapter
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explains the most basic interface between your program and the system
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that runs, or calls, it. This includes passing of parameters (arguments
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and environment) from the system, requesting basic services from the
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system, and telling the system the program is done.
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A program starts another program with the @code{exec} family of system calls.
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This chapter looks at program startup from the execee's point of view. To
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see the event from the execor's point of view, see @ref{Executing a File}.
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@menu
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* Program Arguments:: Parsing your program's command-line arguments
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* Environment Variables:: Less direct parameters affecting your program
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* Auxiliary Vector:: Least direct parameters affecting your program
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* System Calls:: Requesting service from the system
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* Program Termination:: Telling the system you're done; return status
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@end menu
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@node Program Arguments, Environment Variables, , Program Basics
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@section Program Arguments
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@cindex program arguments
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@cindex command line arguments
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@cindex arguments, to program
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@cindex program startup
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@cindex startup of program
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@cindex invocation of program
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@cindex @code{main} function
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@findex main
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The system starts a C program by calling the function @code{main}. It
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is up to you to write a function named @code{main}---otherwise, you
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won't even be able to link your program without errors.
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In @w{ISO C} you can define @code{main} either to take no arguments, or to
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take two arguments that represent the command line arguments to the
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program, like this:
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@smallexample
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int main (int @var{argc}, char *@var{argv}[])
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@end smallexample
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@cindex argc (program argument count)
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@cindex argv (program argument vector)
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The command line arguments are the whitespace-separated tokens given in
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the shell command used to invoke the program; thus, in @samp{cat foo
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bar}, the arguments are @samp{foo} and @samp{bar}. The only way a
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program can look at its command line arguments is via the arguments of
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@code{main}. If @code{main} doesn't take arguments, then you cannot get
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at the command line.
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The value of the @var{argc} argument is the number of command line
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arguments. The @var{argv} argument is a vector of C strings; its
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elements are the individual command line argument strings. The file
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name of the program being run is also included in the vector as the
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first element; the value of @var{argc} counts this element. A null
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pointer always follows the last element: @code{@var{argv}[@var{argc}]}
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is this null pointer.
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For the command @samp{cat foo bar}, @var{argc} is 3 and @var{argv} has
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three elements, @code{"cat"}, @code{"foo"} and @code{"bar"}.
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In Unix systems you can define @code{main} a third way, using three arguments:
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@smallexample
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int main (int @var{argc}, char *@var{argv}[], char *@var{envp}[])
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@end smallexample
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The first two arguments are just the same. The third argument
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@var{envp} gives the program's environment; it is the same as the value
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of @code{environ}. @xref{Environment Variables}. POSIX.1 does not
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allow this three-argument form, so to be portable it is best to write
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@code{main} to take two arguments, and use the value of @code{environ}.
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@menu
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* Argument Syntax:: By convention, options start with a hyphen.
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* Parsing Program Arguments:: Ways to parse program options and arguments.
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@end menu
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@node Argument Syntax, Parsing Program Arguments, , Program Arguments
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@subsection Program Argument Syntax Conventions
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@cindex program argument syntax
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@cindex syntax, for program arguments
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@cindex command argument syntax
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POSIX recommends these conventions for command line arguments.
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@code{getopt} (@pxref{Getopt}) and @code{argp_parse} (@pxref{Argp}) make
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it easy to implement them.
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@itemize @bullet
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@item
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Arguments are options if they begin with a hyphen delimiter (@samp{-}).
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@item
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Multiple options may follow a hyphen delimiter in a single token if
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the options do not take arguments. Thus, @samp{-abc} is equivalent to
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@samp{-a -b -c}.
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@item
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Option names are single alphanumeric characters (as for @code{isalnum};
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@pxref{Classification of Characters}).
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@item
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Certain options require an argument. For example, the @option{-o} option
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of the @command{ld} command requires an argument---an output file name.
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@item
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An option and its argument may or may not appear as separate tokens. (In
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other words, the whitespace separating them is optional.) Thus,
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@w{@option{-o foo}} and @option{-ofoo} are equivalent.
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@item
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Options typically precede other non-option arguments.
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The implementations of @code{getopt} and @code{argp_parse} in @theglibc{}
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normally make it appear as if all the option arguments were
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specified before all the non-option arguments for the purposes of
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parsing, even if the user of your program intermixed option and
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non-option arguments. They do this by reordering the elements of the
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@var{argv} array. This behavior is nonstandard; if you want to suppress
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it, define the @code{_POSIX_OPTION_ORDER} environment variable.
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@xref{Standard Environment}.
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@item
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The argument @option{--} terminates all options; any following arguments
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are treated as non-option arguments, even if they begin with a hyphen.
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@item
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A token consisting of a single hyphen character is interpreted as an
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ordinary non-option argument. By convention, it is used to specify
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input from or output to the standard input and output streams.
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@item
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Options may be supplied in any order, or appear multiple times. The
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interpretation is left up to the particular application program.
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@end itemize
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@cindex long-named options
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GNU adds @dfn{long options} to these conventions. Long options consist
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of @option{--} followed by a name made of alphanumeric characters and
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dashes. Option names are typically one to three words long, with
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hyphens to separate words. Users can abbreviate the option names as
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long as the abbreviations are unique.
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To specify an argument for a long option, write
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@option{--@var{name}=@var{value}}. This syntax enables a long option to
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accept an argument that is itself optional.
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Eventually, @gnusystems{} will provide completion for long option names
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in the shell.
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@node Parsing Program Arguments, , Argument Syntax, Program Arguments
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@subsection Parsing Program Arguments
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@cindex program arguments, parsing
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@cindex command arguments, parsing
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@cindex parsing program arguments
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If the syntax for the command line arguments to your program is simple
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enough, you can simply pick the arguments off from @var{argv} by hand.
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But unless your program takes a fixed number of arguments, or all of the
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arguments are interpreted in the same way (as file names, for example),
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you are usually better off using @code{getopt} (@pxref{Getopt}) or
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@code{argp_parse} (@pxref{Argp}) to do the parsing.
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@code{getopt} is more standard (the short-option only version of it is a
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part of the POSIX standard), but using @code{argp_parse} is often
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easier, both for very simple and very complex option structures, because
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it does more of the dirty work for you.
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@menu
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* Getopt:: Parsing program options using @code{getopt}.
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* Argp:: Parsing program options using @code{argp_parse}.
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* Suboptions:: Some programs need more detailed options.
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* Suboptions Example:: This shows how it could be done for @code{mount}.
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@end menu
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@c Getopt and argp start at the @section level so that there's
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@c enough room for their internal hierarchy (mostly a problem with
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@c argp). -Miles
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@include getopt.texi
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@include argp.texi
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@node Suboptions, Suboptions Example, Argp, Parsing Program Arguments
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@c This is a @section so that it's at the same level as getopt and argp
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@subsubsection Parsing of Suboptions
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Having a single level of options is sometimes not enough. There might
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be too many options which have to be available or a set of options is
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closely related.
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For this case some programs use suboptions. One of the most prominent
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programs is certainly @code{mount}(8). The @code{-o} option take one
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argument which itself is a comma separated list of options. To ease the
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programming of code like this the function @code{getsubopt} is
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available.
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@deftypefun int getsubopt (char **@var{optionp}, char *const *@var{tokens}, char **@var{valuep})
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@standards{???, stdlib.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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@c getsubopt ok
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@c strchrnul dup ok
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@c memchr dup ok
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@c strncmp dup ok
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The @var{optionp} parameter must be a pointer to a variable containing
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the address of the string to process. When the function returns, the
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reference is updated to point to the next suboption or to the
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terminating @samp{\0} character if there are no more suboptions available.
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The @var{tokens} parameter references an array of strings containing the
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known suboptions. All strings must be @samp{\0} terminated and to mark
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the end a null pointer must be stored. When @code{getsubopt} finds a
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possible legal suboption it compares it with all strings available in
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the @var{tokens} array and returns the index in the string as the
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indicator.
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In case the suboption has an associated value introduced by a @samp{=}
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character, a pointer to the value is returned in @var{valuep}. The
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string is @samp{\0} terminated. If no argument is available
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@var{valuep} is set to the null pointer. By doing this the caller can
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check whether a necessary value is given or whether no unexpected value
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is present.
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In case the next suboption in the string is not mentioned in the
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@var{tokens} array the starting address of the suboption including a
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possible value is returned in @var{valuep} and the return value of the
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function is @samp{-1}.
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@end deftypefun
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@node Suboptions Example, , Suboptions, Parsing Program Arguments
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@subsection Parsing of Suboptions Example
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The code which might appear in the @code{mount}(8) program is a perfect
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example of the use of @code{getsubopt}:
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@smallexample
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@include subopt.c.texi
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@end smallexample
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@node Environment Variables, Auxiliary Vector, Program Arguments, Program Basics
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@section Environment Variables
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@cindex environment variable
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When a program is executed, it receives information about the context in
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which it was invoked in two ways. The first mechanism uses the
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@var{argv} and @var{argc} arguments to its @code{main} function, and is
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discussed in @ref{Program Arguments}. The second mechanism uses
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@dfn{environment variables} and is discussed in this section.
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The @var{argv} mechanism is typically used to pass command-line
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arguments specific to the particular program being invoked. The
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environment, on the other hand, keeps track of information that is
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shared by many programs, changes infrequently, and that is less
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frequently used.
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The environment variables discussed in this section are the same
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environment variables that you set using assignments and the
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@code{export} command in the shell. Programs executed from the shell
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inherit all of the environment variables from the shell.
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@c !!! xref to right part of bash manual when it exists
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@cindex environment
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Standard environment variables are used for information about the user's
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home directory, terminal type, current locale, and so on; you can define
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additional variables for other purposes. The set of all environment
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variables that have values is collectively known as the
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@dfn{environment}.
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Names of environment variables are case-sensitive and must not contain
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the character @samp{=}. System-defined environment variables are
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invariably uppercase.
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The values of environment variables can be anything that can be
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represented as a string. A value must not contain an embedded null
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character, since this is assumed to terminate the string.
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@menu
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* Environment Access:: How to get and set the values of
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environment variables.
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* Standard Environment:: These environment variables have
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standard interpretations.
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@end menu
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@node Environment Access
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@subsection Environment Access
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@cindex environment access
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@cindex environment representation
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The value of an environment variable can be accessed with the
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@code{getenv} function. This is declared in the header file
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@file{stdlib.h}.
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@pindex stdlib.h
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Libraries should use @code{secure_getenv} instead of @code{getenv}, so
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that they do not accidentally use untrusted environment variables.
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Modifications of environment variables are not allowed in
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multi-threaded programs. The @code{getenv} and @code{secure_getenv}
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functions can be safely used in multi-threaded programs.
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@deftypefun {char *} getenv (const char *@var{name})
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@standards{ISO, stdlib.h}
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@safety{@prelim{}@mtsafe{@mtsenv{}}@assafe{}@acsafe{}}
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@c Unguarded access to __environ.
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This function returns a string that is the value of the environment
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variable @var{name}. You must not modify this string. In some non-Unix
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systems not using @theglibc{}, it might be overwritten by subsequent
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calls to @code{getenv} (but not by any other library function). If the
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environment variable @var{name} is not defined, the value is a null
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pointer.
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@end deftypefun
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@deftypefun {char *} secure_getenv (const char *@var{name})
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@standards{GNU, stdlib.h}
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@safety{@prelim{}@mtsafe{@mtsenv{}}@assafe{}@acsafe{}}
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@c Calls getenv unless secure mode is enabled.
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This function is similar to @code{getenv}, but it returns a null
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pointer if the environment is untrusted. This happens when the
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program file has SUID or SGID bits set. General-purpose libraries
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should always prefer this function over @code{getenv} to avoid
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vulnerabilities if the library is referenced from a SUID/SGID program.
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This function is a GNU extension.
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@end deftypefun
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@deftypefun int putenv (char *@var{string})
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@standards{SVID, stdlib.h}
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@safety{@prelim{}@mtunsafe{@mtasuconst{:@mtsenv{}}}@asunsafe{@ascuheap{} @asulock{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{}}}
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@c putenv @mtasuconst:@mtsenv @ascuheap @asulock @acucorrupt @aculock @acsmem
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@c strchr dup ok
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@c strndup dup @ascuheap @acsmem
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@c add_to_environ dup @mtasuconst:@mtsenv @ascuheap @asulock @acucorrupt @aculock @acsmem
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@c free dup @ascuheap @acsmem
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@c unsetenv dup @mtasuconst:@mtsenv @asulock @aculock
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The @code{putenv} function adds or removes definitions from the environment.
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If the @var{string} is of the form @samp{@var{name}=@var{value}}, the
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definition is added to the environment. Otherwise, the @var{string} is
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interpreted as the name of an environment variable, and any definition
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for this variable in the environment is removed.
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If the function is successful it returns @code{0}. Otherwise the return
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value is nonzero and @code{errno} is set to indicate the error.
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The difference to the @code{setenv} function is that the exact string
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given as the parameter @var{string} is put into the environment. If the
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user should change the string after the @code{putenv} call this will
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reflect automatically in the environment. This also requires that
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@var{string} not be an automatic variable whose scope is left before the
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variable is removed from the environment. The same applies of course to
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|
dynamically allocated variables which are freed later.
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This function is part of the extended Unix interface. You should define
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@var{_XOPEN_SOURCE} before including any header.
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@end deftypefun
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@deftypefun int setenv (const char *@var{name}, const char *@var{value}, int @var{replace})
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@standards{BSD, stdlib.h}
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@safety{@prelim{}@mtunsafe{@mtasuconst{:@mtsenv{}}}@asunsafe{@ascuheap{} @asulock{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{}}}
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@c setenv @mtasuconst:@mtsenv @ascuheap @asulock @acucorrupt @aculock @acsmem
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@c add_to_environ @mtasuconst:@mtsenv @ascuheap @asulock @acucorrupt @aculock @acsmem
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@c strlen dup ok
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@c libc_lock_lock @asulock @aculock
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@c strncmp dup ok
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@c realloc dup @ascuheap @acsmem
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|
@c libc_lock_unlock @aculock
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|
@c malloc dup @ascuheap @acsmem
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|
@c free dup @ascuheap @acsmem
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|
@c mempcpy dup ok
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|
@c memcpy dup ok
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|
@c KNOWN_VALUE ok
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|
@c tfind(strcmp) [no @mtsrace guarded access]
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|
@c strcmp dup ok
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@c STORE_VALUE @ascuheap @acucorrupt @acsmem
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@c tsearch(strcmp) @ascuheap @acucorrupt @acsmem [no @mtsrace or @asucorrupt guarded access makes for mtsafe and @asulock]
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|
@c strcmp dup ok
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|
The @code{setenv} function can be used to add a new definition to the
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|
environment. The entry with the name @var{name} is replaced by the
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|
value @samp{@var{name}=@var{value}}. Please note that this is also true
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|
if @var{value} is the empty string. To do this a new string is created
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|
and the strings @var{name} and @var{value} are copied. A null pointer
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|
for the @var{value} parameter is illegal. If the environment already
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|
contains an entry with key @var{name} the @var{replace} parameter
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|
controls the action. If replace is zero, nothing happens. Otherwise
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the old entry is replaced by the new one.
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|
Please note that you cannot remove an entry completely using this function.
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|
If the function is successful it returns @code{0}. Otherwise the
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|
environment is unchanged and the return value is @code{-1} and
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|
@code{errno} is set.
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|
This function was originally part of the BSD library but is now part of
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|
the Unix standard.
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|
@end deftypefun
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|
@deftypefun int unsetenv (const char *@var{name})
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|
@standards{BSD, stdlib.h}
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|
@safety{@prelim{}@mtunsafe{@mtasuconst{:@mtsenv{}}}@asunsafe{@asulock{}}@acunsafe{@aculock{}}}
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|
@c unsetenv @mtasuconst:@mtsenv @asulock @aculock
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|
@c strchr dup ok
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|
@c strlen dup ok
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|
@c libc_lock_lock @asulock @aculock
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@c strncmp dup ok
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|
@c libc_lock_unlock @aculock
|
|
Using this function one can remove an entry completely from the
|
|
environment. If the environment contains an entry with the key
|
|
@var{name} this whole entry is removed. A call to this function is
|
|
equivalent to a call to @code{putenv} when the @var{value} part of the
|
|
string is empty.
|
|
|
|
The function returns @code{-1} if @var{name} is a null pointer, points to
|
|
an empty string, or points to a string containing a @code{=} character.
|
|
It returns @code{0} if the call succeeded.
|
|
|
|
This function was originally part of the BSD library but is now part of
|
|
the Unix standard. The BSD version had no return value, though.
|
|
@end deftypefun
|
|
|
|
There is one more function to modify the whole environment. This
|
|
function is said to be used in the POSIX.9 (POSIX bindings for Fortran
|
|
77) and so one should expect it did made it into POSIX.1. But this
|
|
never happened. But we still provide this function as a GNU extension
|
|
to enable writing standard compliant Fortran environments.
|
|
|
|
@deftypefun int clearenv (void)
|
|
@standards{GNU, stdlib.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasuconst{:@mtsenv{}}}@asunsafe{@ascuheap{} @asulock{}}@acunsafe{@aculock{} @acsmem{}}}
|
|
@c clearenv @mtasuconst:@mtsenv @ascuheap @asulock @aculock @acsmem
|
|
@c libc_lock_lock @asulock @aculock
|
|
@c free dup @ascuheap @acsmem
|
|
@c libc_lock_unlock @aculock
|
|
The @code{clearenv} function removes all entries from the environment.
|
|
Using @code{putenv} and @code{setenv} new entries can be added again
|
|
later.
|
|
|
|
If the function is successful it returns @code{0}. Otherwise the return
|
|
value is nonzero.
|
|
@end deftypefun
|
|
|
|
|
|
You can deal directly with the underlying representation of environment
|
|
objects to add more variables to the environment (for example, to
|
|
communicate with another program you are about to execute;
|
|
@pxref{Executing a File}).
|
|
|
|
@deftypevar {char **} environ
|
|
@standards{POSIX.1, unistd.h}
|
|
The environment is represented as an array of strings. Each string is
|
|
of the format @samp{@var{name}=@var{value}}. The order in which
|
|
strings appear in the environment is not significant, but the same
|
|
@var{name} must not appear more than once. The last element of the
|
|
array is a null pointer.
|
|
|
|
This variable is declared in the header file @file{unistd.h}.
|
|
|
|
If you just want to get the value of an environment variable, use
|
|
@code{getenv}.
|
|
@end deftypevar
|
|
|
|
Unix systems, and @gnusystems{}, pass the initial value of
|
|
@code{environ} as the third argument to @code{main}.
|
|
@xref{Program Arguments}.
|
|
|
|
@node Standard Environment
|
|
@subsection Standard Environment Variables
|
|
@cindex standard environment variables
|
|
|
|
These environment variables have standard meanings. This doesn't mean
|
|
that they are always present in the environment; but if these variables
|
|
@emph{are} present, they have these meanings. You shouldn't try to use
|
|
these environment variable names for some other purpose.
|
|
|
|
@comment Extra blank lines make it look better.
|
|
@table @code
|
|
@item HOME
|
|
@cindex @code{HOME} environment variable
|
|
@cindex home directory
|
|
|
|
This is a string representing the user's @dfn{home directory}, or
|
|
initial default working directory.
|
|
|
|
The user can set @code{HOME} to any value.
|
|
If you need to make sure to obtain the proper home directory
|
|
for a particular user, you should not use @code{HOME}; instead,
|
|
look up the user's name in the user database (@pxref{User Database}).
|
|
|
|
For most purposes, it is better to use @code{HOME}, precisely because
|
|
this lets the user specify the value.
|
|
|
|
@c !!! also USER
|
|
@item LOGNAME
|
|
@cindex @code{LOGNAME} environment variable
|
|
|
|
This is the name that the user used to log in. Since the value in the
|
|
environment can be tweaked arbitrarily, this is not a reliable way to
|
|
identify the user who is running a program; a function like
|
|
@code{getlogin} (@pxref{Who Logged In}) is better for that purpose.
|
|
|
|
For most purposes, it is better to use @code{LOGNAME}, precisely because
|
|
this lets the user specify the value.
|
|
|
|
@item PATH
|
|
@cindex @code{PATH} environment variable
|
|
|
|
A @dfn{path} is a sequence of directory names which is used for
|
|
searching for a file. The variable @code{PATH} holds a path used
|
|
for searching for programs to be run.
|
|
|
|
The @code{execlp} and @code{execvp} functions (@pxref{Executing a File})
|
|
use this environment variable, as do many shells and other utilities
|
|
which are implemented in terms of those functions.
|
|
|
|
The syntax of a path is a sequence of directory names separated by
|
|
colons. An empty string instead of a directory name stands for the
|
|
current directory (@pxref{Working Directory}).
|
|
|
|
A typical value for this environment variable might be a string like:
|
|
|
|
@smallexample
|
|
:/bin:/etc:/usr/bin:/usr/new/X11:/usr/new:/usr/local/bin
|
|
@end smallexample
|
|
|
|
This means that if the user tries to execute a program named @code{foo},
|
|
the system will look for files named @file{foo}, @file{/bin/foo},
|
|
@file{/etc/foo}, and so on. The first of these files that exists is
|
|
the one that is executed.
|
|
|
|
@c !!! also TERMCAP
|
|
@item TERM
|
|
@cindex @code{TERM} environment variable
|
|
|
|
This specifies the kind of terminal that is receiving program output.
|
|
Some programs can make use of this information to take advantage of
|
|
special escape sequences or terminal modes supported by particular kinds
|
|
of terminals. Many programs which use the termcap library
|
|
(@pxref{Finding a Terminal Description,Find,,termcap,The Termcap Library
|
|
Manual}) use the @code{TERM} environment variable, for example.
|
|
|
|
@item TZ
|
|
@cindex @code{TZ} environment variable
|
|
|
|
This specifies the time zone. @xref{TZ Variable}, for information about
|
|
the format of this string and how it is used.
|
|
|
|
@item LANG
|
|
@cindex @code{LANG} environment variable
|
|
|
|
This specifies the default locale to use for attribute categories where
|
|
neither @code{LC_ALL} nor the specific environment variable for that
|
|
category is set. @xref{Locales}, for more information about
|
|
locales.
|
|
|
|
@ignore
|
|
@c I doubt this really exists
|
|
@item LC_ALL
|
|
@cindex @code{LC_ALL} environment variable
|
|
|
|
This is similar to the @code{LANG} environment variable. However, its
|
|
value takes precedence over any values provided for the individual
|
|
attribute category environment variables, or for the @code{LANG}
|
|
environment variable.
|
|
@end ignore
|
|
|
|
@item LC_ALL
|
|
@cindex @code{LC_ALL} environment variable
|
|
|
|
If this environment variable is set it overrides the selection for all
|
|
the locales done using the other @code{LC_*} environment variables. The
|
|
value of the other @code{LC_*} environment variables is simply ignored
|
|
in this case.
|
|
|
|
@item LC_COLLATE
|
|
@cindex @code{LC_COLLATE} environment variable
|
|
|
|
This specifies what locale to use for string sorting.
|
|
|
|
@item LC_CTYPE
|
|
@cindex @code{LC_CTYPE} environment variable
|
|
|
|
This specifies what locale to use for character sets and character
|
|
classification.
|
|
|
|
@item LC_MESSAGES
|
|
@cindex @code{LC_MESSAGES} environment variable
|
|
|
|
This specifies what locale to use for printing messages and to parse
|
|
responses.
|
|
|
|
@item LC_MONETARY
|
|
@cindex @code{LC_MONETARY} environment variable
|
|
|
|
This specifies what locale to use for formatting monetary values.
|
|
|
|
@item LC_NUMERIC
|
|
@cindex @code{LC_NUMERIC} environment variable
|
|
|
|
This specifies what locale to use for formatting numbers.
|
|
|
|
@item LC_TIME
|
|
@cindex @code{LC_TIME} environment variable
|
|
|
|
This specifies what locale to use for formatting date/time values.
|
|
|
|
@item NLSPATH
|
|
@cindex @code{NLSPATH} environment variable
|
|
|
|
This specifies the directories in which the @code{catopen} function
|
|
looks for message translation catalogs.
|
|
|
|
@item _POSIX_OPTION_ORDER
|
|
@cindex @code{_POSIX_OPTION_ORDER} environment variable.
|
|
|
|
If this environment variable is defined, it suppresses the usual
|
|
reordering of command line arguments by @code{getopt} and
|
|
@code{argp_parse}. @xref{Argument Syntax}.
|
|
|
|
@c !!! GNU also has COREFILE, CORESERVER, EXECSERVERS
|
|
@end table
|
|
|
|
@node Auxiliary Vector
|
|
@section Auxiliary Vector
|
|
@cindex auxiliary vector
|
|
|
|
When a program is executed, it receives information from the operating
|
|
system about the environment in which it is operating. The form of this
|
|
information is a table of key-value pairs, where the keys are from the
|
|
set of @samp{AT_} values in @file{elf.h}. Some of the data is provided
|
|
by the kernel for libc consumption, and may be obtained by ordinary
|
|
interfaces, such as @code{sysconf}. However, on a platform-by-platform
|
|
basis there may be information that is not available any other way.
|
|
|
|
@subsection Definition of @code{getauxval}
|
|
@deftypefun {unsigned long int} getauxval (unsigned long int @var{type})
|
|
@standards{???, sys/auxv.h}
|
|
@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
|
|
@c Reads from hwcap or iterates over constant auxv.
|
|
This function is used to inquire about the entries in the auxiliary
|
|
vector. The @var{type} argument should be one of the @samp{AT_} symbols
|
|
defined in @file{elf.h}. If a matching entry is found, the value is
|
|
returned; if the entry is not found, zero is returned and @code{errno} is
|
|
set to @code{ENOENT}.
|
|
@end deftypefun
|
|
|
|
For some platforms, the key @code{AT_HWCAP} is the easiest way to inquire
|
|
about any instruction set extensions available at runtime. In this case,
|
|
there will (of necessity) be a platform-specific set of @samp{HWCAP_}
|
|
values masked together that describe the capabilities of the cpu on which
|
|
the program is being executed.
|
|
|
|
@node System Calls
|
|
@section System Calls
|
|
|
|
@cindex system call
|
|
A system call is a request for service that a program makes of the
|
|
kernel. The service is generally something that only the kernel has
|
|
the privilege to do, such as doing I/O. Programmers don't normally
|
|
need to be concerned with system calls because there are functions in
|
|
@theglibc{} to do virtually everything that system calls do.
|
|
These functions work by making system calls themselves. For example,
|
|
there is a system call that changes the permissions of a file, but
|
|
you don't need to know about it because you can just use @theglibc{}'s
|
|
@code{chmod} function.
|
|
|
|
@cindex kernel call
|
|
System calls are sometimes called kernel calls.
|
|
|
|
However, there are times when you want to make a system call explicitly,
|
|
and for that, @theglibc{} provides the @code{syscall} function.
|
|
@code{syscall} is harder to use and less portable than functions like
|
|
@code{chmod}, but easier and more portable than coding the system call
|
|
in assembler instructions.
|
|
|
|
@code{syscall} is most useful when you are working with a system call
|
|
which is special to your system or is newer than @theglibc{} you
|
|
are using. @code{syscall} is implemented in an entirely generic way;
|
|
the function does not know anything about what a particular system
|
|
call does or even if it is valid.
|
|
|
|
The description of @code{syscall} in this section assumes a certain
|
|
protocol for system calls on the various platforms on which @theglibc{}
|
|
runs. That protocol is not defined by any strong authority, but
|
|
we won't describe it here either because anyone who is coding
|
|
@code{syscall} probably won't accept anything less than kernel and C
|
|
library source code as a specification of the interface between them
|
|
anyway.
|
|
|
|
|
|
@code{syscall} is declared in @file{unistd.h}.
|
|
|
|
@deftypefun {long int} syscall (long int @var{sysno}, @dots{})
|
|
@standards{???, unistd.h}
|
|
@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
|
|
|
|
@code{syscall} performs a generic system call.
|
|
|
|
@cindex system call number
|
|
@var{sysno} is the system call number. Each kind of system call is
|
|
identified by a number. Macros for all the possible system call numbers
|
|
are defined in @file{sys/syscall.h}
|
|
|
|
The remaining arguments are the arguments for the system call, in
|
|
order, and their meanings depend on the kind of system call.
|
|
If you code more arguments than the system call takes, the extra ones to
|
|
the right are ignored.
|
|
|
|
The return value is the return value from the system call, unless the
|
|
system call failed. In that case, @code{syscall} returns @code{-1} and
|
|
sets @code{errno} to an error code that the system call returned. Note
|
|
that system calls do not return @code{-1} when they succeed.
|
|
@cindex errno
|
|
|
|
If you specify an invalid @var{sysno}, @code{syscall} returns @code{-1}
|
|
with @code{errno} = @code{ENOSYS}.
|
|
|
|
Example:
|
|
|
|
@smallexample
|
|
|
|
#include <unistd.h>
|
|
#include <sys/syscall.h>
|
|
#include <errno.h>
|
|
|
|
@dots{}
|
|
|
|
int rc;
|
|
|
|
rc = syscall(SYS_chmod, "/etc/passwd", 0444);
|
|
|
|
if (rc == -1)
|
|
fprintf(stderr, "chmod failed, errno = %d\n", errno);
|
|
|
|
@end smallexample
|
|
|
|
This, if all the compatibility stars are aligned, is equivalent to the
|
|
following preferable code:
|
|
|
|
@smallexample
|
|
|
|
#include <sys/types.h>
|
|
#include <sys/stat.h>
|
|
#include <errno.h>
|
|
|
|
@dots{}
|
|
|
|
int rc;
|
|
|
|
rc = chmod("/etc/passwd", 0444);
|
|
if (rc == -1)
|
|
fprintf(stderr, "chmod failed, errno = %d\n", errno);
|
|
|
|
@end smallexample
|
|
|
|
@end deftypefun
|
|
|
|
|
|
@node Program Termination
|
|
@section Program Termination
|
|
@cindex program termination
|
|
@cindex process termination
|
|
|
|
@cindex exit status value
|
|
The usual way for a program to terminate is simply for its @code{main}
|
|
function to return. The @dfn{exit status value} returned from the
|
|
@code{main} function is used to report information back to the process's
|
|
parent process or shell.
|
|
|
|
A program can also terminate normally by calling the @code{exit}
|
|
function.
|
|
|
|
In addition, programs can be terminated by signals; this is discussed in
|
|
more detail in @ref{Signal Handling}. The @code{abort} function causes
|
|
a signal that kills the program.
|
|
|
|
@menu
|
|
* Normal Termination:: If a program calls @code{exit}, a
|
|
process terminates normally.
|
|
* Exit Status:: The @code{exit status} provides information
|
|
about why the process terminated.
|
|
* Cleanups on Exit:: A process can run its own cleanup
|
|
functions upon normal termination.
|
|
* Aborting a Program:: The @code{abort} function causes
|
|
abnormal program termination.
|
|
* Termination Internals:: What happens when a process terminates.
|
|
@end menu
|
|
|
|
@node Normal Termination
|
|
@subsection Normal Termination
|
|
|
|
A process terminates normally when its program signals it is done by
|
|
calling @code{exit}. Returning from @code{main} is equivalent to
|
|
calling @code{exit}, and the value that @code{main} returns is used as
|
|
the argument to @code{exit}.
|
|
|
|
@deftypefun void exit (int @var{status})
|
|
@standards{ISO, stdlib.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasurace{:exit}}@asunsafe{@asucorrupt{}}@acunsafe{@acucorrupt{} @aculock{}}}
|
|
@c Access to the atexit/on_exit list, the libc_atexit hook and tls dtors
|
|
@c is not guarded. Streams must be flushed, and that triggers the usual
|
|
@c AS and AC issues with streams.
|
|
The @code{exit} function tells the system that the program is done, which
|
|
causes it to terminate the process.
|
|
|
|
@var{status} is the program's exit status, which becomes part of the
|
|
process' termination status. This function does not return.
|
|
@end deftypefun
|
|
|
|
Normal termination causes the following actions:
|
|
|
|
@enumerate
|
|
@item
|
|
Functions that were registered with the @code{atexit} or @code{on_exit}
|
|
functions are called in the reverse order of their registration. This
|
|
mechanism allows your application to specify its own ``cleanup'' actions
|
|
to be performed at program termination. Typically, this is used to do
|
|
things like saving program state information in a file, or unlocking
|
|
locks in shared data bases.
|
|
|
|
@item
|
|
All open streams are closed, writing out any buffered output data. See
|
|
@ref{Closing Streams}. In addition, temporary files opened
|
|
with the @code{tmpfile} function are removed; see @ref{Temporary Files}.
|
|
|
|
@item
|
|
@code{_exit} is called, terminating the program. @xref{Termination Internals}.
|
|
@end enumerate
|
|
|
|
@node Exit Status
|
|
@subsection Exit Status
|
|
@cindex exit status
|
|
|
|
When a program exits, it can return to the parent process a small
|
|
amount of information about the cause of termination, using the
|
|
@dfn{exit status}. This is a value between 0 and 255 that the exiting
|
|
process passes as an argument to @code{exit}.
|
|
|
|
Normally you should use the exit status to report very broad information
|
|
about success or failure. You can't provide a lot of detail about the
|
|
reasons for the failure, and most parent processes would not want much
|
|
detail anyway.
|
|
|
|
There are conventions for what sorts of status values certain programs
|
|
should return. The most common convention is simply 0 for success and 1
|
|
for failure. Programs that perform comparison use a different
|
|
convention: they use status 1 to indicate a mismatch, and status 2 to
|
|
indicate an inability to compare. Your program should follow an
|
|
existing convention if an existing convention makes sense for it.
|
|
|
|
A general convention reserves status values 128 and up for special
|
|
purposes. In particular, the value 128 is used to indicate failure to
|
|
execute another program in a subprocess. This convention is not
|
|
universally obeyed, but it is a good idea to follow it in your programs.
|
|
|
|
@strong{Warning:} Don't try to use the number of errors as the exit
|
|
status. This is actually not very useful; a parent process would
|
|
generally not care how many errors occurred. Worse than that, it does
|
|
not work, because the status value is truncated to eight bits.
|
|
Thus, if the program tried to report 256 errors, the parent would
|
|
receive a report of 0 errors---that is, success.
|
|
|
|
For the same reason, it does not work to use the value of @code{errno}
|
|
as the exit status---these can exceed 255.
|
|
|
|
@strong{Portability note:} Some non-POSIX systems use different
|
|
conventions for exit status values. For greater portability, you can
|
|
use the macros @code{EXIT_SUCCESS} and @code{EXIT_FAILURE} for the
|
|
conventional status value for success and failure, respectively. They
|
|
are declared in the file @file{stdlib.h}.
|
|
@pindex stdlib.h
|
|
|
|
@deftypevr Macro int EXIT_SUCCESS
|
|
@standards{ISO, stdlib.h}
|
|
This macro can be used with the @code{exit} function to indicate
|
|
successful program completion.
|
|
|
|
On POSIX systems, the value of this macro is @code{0}. On other
|
|
systems, the value might be some other (possibly non-constant) integer
|
|
expression.
|
|
@end deftypevr
|
|
|
|
@deftypevr Macro int EXIT_FAILURE
|
|
@standards{ISO, stdlib.h}
|
|
This macro can be used with the @code{exit} function to indicate
|
|
unsuccessful program completion in a general sense.
|
|
|
|
On POSIX systems, the value of this macro is @code{1}. On other
|
|
systems, the value might be some other (possibly non-constant) integer
|
|
expression. Other nonzero status values also indicate failures. Certain
|
|
programs use different nonzero status values to indicate particular
|
|
kinds of "non-success". For example, @code{diff} uses status value
|
|
@code{1} to mean that the files are different, and @code{2} or more to
|
|
mean that there was difficulty in opening the files.
|
|
@end deftypevr
|
|
|
|
Don't confuse a program's exit status with a process' termination status.
|
|
There are lots of ways a process can terminate besides having its program
|
|
finish. In the event that the process termination @emph{is} caused by program
|
|
termination (i.e., @code{exit}), though, the program's exit status becomes
|
|
part of the process' termination status.
|
|
|
|
@node Cleanups on Exit
|
|
@subsection Cleanups on Exit
|
|
|
|
Your program can arrange to run its own cleanup functions if normal
|
|
termination happens. If you are writing a library for use in various
|
|
application programs, then it is unreliable to insist that all
|
|
applications call the library's cleanup functions explicitly before
|
|
exiting. It is much more robust to make the cleanup invisible to the
|
|
application, by setting up a cleanup function in the library itself
|
|
using @code{atexit} or @code{on_exit}.
|
|
|
|
@deftypefun int atexit (void (*@var{function}) (void))
|
|
@standards{ISO, stdlib.h}
|
|
@safety{@prelim{}@mtsafe{}@asunsafe{@ascuheap{} @asulock{}}@acunsafe{@aculock{} @acsmem{}}}
|
|
@c atexit @ascuheap @asulock @aculock @acsmem
|
|
@c cxa_atexit @ascuheap @asulock @aculock @acsmem
|
|
@c __internal_atexit @ascuheap @asulock @aculock @acsmem
|
|
@c __new_exitfn @ascuheap @asulock @aculock @acsmem
|
|
@c __libc_lock_lock @asulock @aculock
|
|
@c calloc dup @ascuheap @acsmem
|
|
@c __libc_lock_unlock @aculock
|
|
@c atomic_write_barrier dup ok
|
|
The @code{atexit} function registers the function @var{function} to be
|
|
called at normal program termination. The @var{function} is called with
|
|
no arguments.
|
|
|
|
The return value from @code{atexit} is zero on success and nonzero if
|
|
the function cannot be registered.
|
|
@end deftypefun
|
|
|
|
@deftypefun int on_exit (void (*@var{function})(int @var{status}, void *@var{arg}), void *@var{arg})
|
|
@standards{SunOS, stdlib.h}
|
|
@safety{@prelim{}@mtsafe{}@asunsafe{@ascuheap{} @asulock{}}@acunsafe{@aculock{} @acsmem{}}}
|
|
@c on_exit @ascuheap @asulock @aculock @acsmem
|
|
@c new_exitfn dup @ascuheap @asulock @aculock @acsmem
|
|
@c atomic_write_barrier dup ok
|
|
This function is a somewhat more powerful variant of @code{atexit}. It
|
|
accepts two arguments, a function @var{function} and an arbitrary
|
|
pointer @var{arg}. At normal program termination, the @var{function} is
|
|
called with two arguments: the @var{status} value passed to @code{exit},
|
|
and the @var{arg}.
|
|
|
|
This function is included in @theglibc{} only for compatibility
|
|
for SunOS, and may not be supported by other implementations.
|
|
@end deftypefun
|
|
|
|
Here's a trivial program that illustrates the use of @code{exit} and
|
|
@code{atexit}:
|
|
|
|
@smallexample
|
|
@include atexit.c.texi
|
|
@end smallexample
|
|
|
|
@noindent
|
|
When this program is executed, it just prints the message and exits.
|
|
|
|
@node Aborting a Program
|
|
@subsection Aborting a Program
|
|
@cindex aborting a program
|
|
|
|
You can abort your program using the @code{abort} function. The prototype
|
|
for this function is in @file{stdlib.h}.
|
|
@pindex stdlib.h
|
|
|
|
@deftypefun void abort (void)
|
|
@standards{ISO, stdlib.h}
|
|
@safety{@prelim{}@mtsafe{}@asunsafe{@asucorrupt{}}@acunsafe{@aculock{} @acucorrupt{}}}
|
|
@c The implementation takes a recursive lock and attempts to support
|
|
@c calls from signal handlers, but if we're in the middle of flushing or
|
|
@c using streams, we may encounter them in inconsistent states.
|
|
The @code{abort} function causes abnormal program termination. This
|
|
does not execute cleanup functions registered with @code{atexit} or
|
|
@code{on_exit}.
|
|
|
|
This function actually terminates the process by raising a
|
|
@code{SIGABRT} signal, and your program can include a handler to
|
|
intercept this signal; see @ref{Signal Handling}.
|
|
@end deftypefun
|
|
|
|
@node Termination Internals
|
|
@subsection Termination Internals
|
|
|
|
The @code{_exit} function is the primitive used for process termination
|
|
by @code{exit}. It is declared in the header file @file{unistd.h}.
|
|
@pindex unistd.h
|
|
|
|
@deftypefun void _exit (int @var{status})
|
|
@standards{POSIX.1, unistd.h}
|
|
@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
|
|
@c Direct syscall (exit_group or exit); calls __task_terminate on hurd,
|
|
@c and abort in the generic posix implementation.
|
|
The @code{_exit} function is the primitive for causing a process to
|
|
terminate with status @var{status}. Calling this function does not
|
|
execute cleanup functions registered with @code{atexit} or
|
|
@code{on_exit}.
|
|
@end deftypefun
|
|
|
|
@deftypefun void _Exit (int @var{status})
|
|
@standards{ISO, stdlib.h}
|
|
@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
|
|
@c Alias for _exit.
|
|
The @code{_Exit} function is the @w{ISO C} equivalent to @code{_exit}.
|
|
The @w{ISO C} committee members were not sure whether the definitions of
|
|
@code{_exit} and @code{_Exit} were compatible so they have not used the
|
|
POSIX name.
|
|
|
|
This function was introduced in @w{ISO C99} and is declared in
|
|
@file{stdlib.h}.
|
|
@end deftypefun
|
|
|
|
When a process terminates for any reason---either because the program
|
|
terminates, or as a result of a signal---the
|
|
following things happen:
|
|
|
|
@itemize @bullet
|
|
@item
|
|
All open file descriptors in the process are closed. @xref{Low-Level I/O}.
|
|
Note that streams are not flushed automatically when the process
|
|
terminates; see @ref{I/O on Streams}.
|
|
|
|
@item
|
|
A process exit status is saved to be reported back to the parent process
|
|
via @code{wait} or @code{waitpid}; see @ref{Process Completion}. If the
|
|
program exited, this status includes as its low-order 8 bits the program
|
|
exit status.
|
|
|
|
|
|
@item
|
|
Any child processes of the process being terminated are assigned a new
|
|
parent process. (On most systems, including GNU, this is the @code{init}
|
|
process, with process ID 1.)
|
|
|
|
@item
|
|
A @code{SIGCHLD} signal is sent to the parent process.
|
|
|
|
@item
|
|
If the process is a session leader that has a controlling terminal, then
|
|
a @code{SIGHUP} signal is sent to each process in the foreground job,
|
|
and the controlling terminal is disassociated from that session.
|
|
@xref{Job Control}.
|
|
|
|
@item
|
|
If termination of a process causes a process group to become orphaned,
|
|
and any member of that process group is stopped, then a @code{SIGHUP}
|
|
signal and a @code{SIGCONT} signal are sent to each process in the
|
|
group. @xref{Job Control}.
|
|
@end itemize
|