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The warning is confusing to those who do not understand the context, and the warning is easy to misunderstand: A reader needs to know that it was written by someone who is generally skeptical of government influence and control, otherwise it reads as an affirmation of the U.S. government's role as the ultimate editor of the manual. This is precisely the opposite of what the warning intends to convey. (Reportedly, it criticizes that several U.S. administrations have tried to restrict the medical advice that U.S.-funded health care workers can provide abroad, considering that censorship.) The warning is also misleading on a technical level. A reader who makes the connection to pregnancy termination will get the wrong impression that calling the abort function will terminate subprocesses of the current process, but this is not what generally happens. Finally, for both GNU and the FSF, it is inappropriate to use female reproductive health as mere joke material, since these organizations do not concern themselves with such issues otherwise, and the warning is purportedly about something else entirely. This reinstates commit340d9652b9
("manual/startup.texi (Aborting a Program): Remove inappropriate joke."), effectively reverting the revert in commitffa81c22a3
("Revert:"). Reviewed-by: Adhemerval Zanella <adhemerval.zanella@linaro.org> Reviewed-by: Carlos O'Donell <carlos@redhat.com>
1076 lines
42 KiB
Plaintext
1076 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 @samp{-o} command
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of the @code{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{@samp{-o foo}} and @samp{-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 @samp{--} 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 @samp{--} 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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@samp{--@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
|
|
environment. The entry with the name @var{name} is replaced by the
|
|
value @samp{@var{name}=@var{value}}. Please note that this is also true
|
|
if @var{value} is the empty string. To do this a new string is created
|
|
and the strings @var{name} and @var{value} are copied. A null pointer
|
|
for the @var{value} parameter is illegal. If the environment already
|
|
contains an entry with key @var{name} the @var{replace} parameter
|
|
controls the action. If replace is zero, nothing happens. Otherwise
|
|
the old entry is replaced by the new one.
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|
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|
Please note that you cannot remove an entry completely using this function.
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|
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|
If the function is successful it returns @code{0}. Otherwise the
|
|
environment is unchanged and the return value is @code{-1} and
|
|
@code{errno} is set.
|
|
|
|
This function was originally part of the BSD library but is now part of
|
|
the Unix standard.
|
|
@end deftypefun
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|
|
|
@deftypefun int unsetenv (const char *@var{name})
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|
@standards{BSD, stdlib.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasuconst{:@mtsenv{}}}@asunsafe{@asulock{}}@acunsafe{@aculock{}}}
|
|
@c unsetenv @mtasuconst:@mtsenv @asulock @aculock
|
|
@c strchr dup ok
|
|
@c strlen dup ok
|
|
@c libc_lock_lock @asulock @aculock
|
|
@c strncmp dup ok
|
|
@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. Each kind
|
|
of system call has a definite number of arguments, from zero to five.
|
|
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
|