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@node Error reporting
@chapter Error reporting

Many functions, especially those involving
system calls, detect and report exceptional
conditions, including error conditions and
interruptions. Exception conditions must often
be checked and handled, often by retrying,
doing something else, or reporting the error
to the user and exit.

Unless otherwise specified, exceptional
conditions are reporting using the facilities
described in this chapter.


@menu
* Error checking::                            Checking whether an exception condition occurred.
* Error codes::                               Values for @code{errno}.
* Error messages::                            Reporting errors to the user.
@end menu



@node Error checking
@section Error checking

@cpindex Checking for errors
@cpindex Errors checking
@cpindex Exception checking
Most functions return a sentinel value when an
exceptional condition occurs, typically a negative
value (actually @code{-1}), a constant such as
@code{EOF}, or @code{NULL}. This return value only
tells you that an exeception condition has occurred.

@hfindex errno.h
@lvindex errno
By including the header file @file{<errno.h>}, the
modifiable lvalue @code{errno} is made available.
@sc{ISO}@tie{}C specifies that @code{errno} is not
necessarily a variable, but rather just an modifiable
lvalue. In fact, must @code{libc}:s, including
@code{slibc} defines it as a macro that calls a
function and uses the unary @code{*}-operator on the
return.

@code{errno} is often thought of as a variable
declared as @code{int errno}, or @code{volatile int errno}.
But the value is thread-local, and is thus more
like @code{_Thread_local volatile int errno}. Because
of this, the @code{errno} is defined as a macro that
calls a function. Otherwise, it would not be
implementable without @sc{ISO}@tie{}C11.

The value of @code{errno} is describes the error,
if and only if the function returned a value indicating
an error. Some, function can return the sentinel
value both on success and error. Therefore, the value
@code{0} on @code{errno} means that the function
returned after successful completion rather than on
failure. Exceptional conditions are describe by
non-zero values listed in @ref{Error codes}.

The state of @code{errno} is undefined unless otherwise
specified after a succesful completion of a function call.
This means that you, generally, cannot check whether an
error has occurred by checking the value of @code{errno}
rather than the return value.



@node Error codes
@section Error codes

TODO: The list of error codes have not be added to slibc yet.



@node Error messages
@section Error messages

@cpindex Error messages
@cpindex Printing errors
@cpindex Errors, printing
The C standard library provides a several mechanisms
for reporting errors to the user, spread out over
a few header files.

@table @code
@item void perror(const char* prefix)
@fnindex perror
@hfindex stdio.h
The @sc{POSIX}.1-2001 standard
(@code{_POSIX_C_SOURCE >= 200112L}), the
@sc{ISO}@tie{}C89 standard, and 4.3 @sc{BSD}
(@code{_BSD_SOURCE}) added this function
to the header file @file{<stdio.h>}.

This function prints an error message
for the current value on @code{errno},
to stderr. If @code{prefix} is neither
@code{NULL} or an empty string, @code{prefix}
followed by a colon and a blank space,
is prepended to the ouput. The function
will also (always) add a line feed to
the end of the message.

This function does not detect or report
errors. Thus, you should not use this
function if you want to be able to tell
whether the messages was actually printed.
Of course, if it was not, your only option
is to print it to another file descriptor
which you normally do not want to do.

This function is subject to race condition
over @code{stderr}.

Because successful function calls may change
the value on @code{errno}, its value must
be saved if there are function calls between
the failure and the call to @code{perror}.

@lvindex program_invocation_name
@lvindex program_invocation_short_name
It is customary to set @code{prefix} to
a value equivalent to @code{program_invocation_name},
or alternatively @code{program_invocation_short_name}.
Sometiems, the name of the called function is
used, this is to simplify debugging. But the
standard is that programs shall print there
them when reporting an error so that the user
knows that program failed.

TODO: Not implemented.

@item char* strerror(int errnum)
@fnindex strerror
@hfindex string.h
The @sc{POSIX}.1-2001 standard
(@code{_POSIX_C_SOURCE >= 200112L}) and
@sc{ISO}@tie{}C89 standard, defines this
function in the header file @file{<string.h>}.

@vrindex LC_MESSAGES
This function returns a description of
the error code whose number is @code{errnum}.
Description may or may not (it is in @command{slibc})
be localised using the @env{LC_MESSAGES} part of
the current locale.

The returned value must not be modified the
the program, by it may be modified by subsequent
calls to @code{strerror}-functions. If the error
code is not recognised some implementations
will return @code{NULL}, other implementations,
such as @command{slibc}'s, will return a message
that states to number of the error code.

According to @sc{POSIX}, @code{errno} must not
be modified if the call is successful. It may
however set @code{errno} on failure. However,
the @command{slibc} implementation cannot fail.

@command{slibc}'s implementation of this function
is threadsafe, this is however not true for
all implementions.

@item int strerror_r(int errnum, char* buffer, size_t size)
@fnindex strerror_r
@hfindex string.h
The @sc{POSIX}.1-2001 standard added this function
to the header file @file{<string.h>}. It is a
reenterant variant fo @code{strerror}. Instead of
returning the error message, it saves it to
@code{buffer}. The allocation size of @code{buffer}
is pass to the function via the argument @code{size}.
If it is too small, @code{ERANGE} is returned.

The function returns a positive value, that is
appropriate for @code{errno}, on error, rather than
setting the value of @code{errno}. Upon successful
completion, @code{0} is returned.

This function is not available if @code{_PORTABLE_SOURCE}
or @code{_LIBRARY_HEADER} is defined, because it is
conflicting with the @sc{GNU}-version. Without knowning
which version that is used, it is impossible to
check for errors.

This function is also non-portable even if the
@sc{GNU}-version is not used, that is, if
@code{_GNU_SOURCE} is not defined and
@code{(_POSIX_C_SOURCE >= 200112L) || (_XOPEN_SOURCE >= 600)}.
Old versions of @sc{GNU} C Library, returned @code{-1}
on failure and set @code{errno}, instead of returned
a value for @code{errno}.

Whilst @code{strerror_r} is not portable, the most
portable use of @code{strerror_r} is
@example
int r;
r = strerror_r(errnum, buffer, size);
if (r > 0 ? (errno = r) : r)
  goto fail;
@end example

Note that, unlike @code{strerror}, there is no
restriction against @code{strerror_r} to set
@code{errno} on success.

@item char* strerror_r(int errnum, char* buffer, size_t size)
@fnindex strerror_r
@hfindex string.h
This is a @sc{GNU} extension, defined in the header file
@file{<string.h>} and is available, instead of the
@sc{XSI}-compliant version, if @code{_GNU_SOURCE} is
defined or if
@code{(_POSIX_C_SOURCE < 200112L) && (_XOPEN_SOURCE < 600)}.
It is identical to the @sc{XSI}-compliant version,
except, rather than returning an error code, it
will set @code{errno} and return @code{NULL} on
failure. On successful completion, @code{buffer}
is returned.

This function is not available if @code{_PORTABLE_SOURCE}
or @code{_LIBRARY_HEADER} is defined, because it is
conflicting with the @sc{XSI}-compliant version. Without
knowning which version that is used, it is impossible
to check for errors.

@item char* strerror_l(int errnum, locale_t locale)
@fnindex strerror_l
@hfindex string.h
The @sc{POSIX}.1-2008 standard
(@code{_POSIX_C_SOURCE >= 200809L}),
defines this function in the header file
@file{<string.h>}. It is identical to
@code{strerror_l} with two exceptions:
it is thread save, and it uses a specified
locale.

@lvindex LC_GLOBAL_LOCALE
The behaviour of this function is undefined
if @code{locale} is @code{LC_GLOBAL_LOCALE}.

@item const char* const sys_errlist[]
This variable is defined in the header files
@file{<errno.h>} (derived from @sc{BSD}
@code{libc}) and @file{<stdio.h>} (derived
from @sc{GNU} @code{libc}) if @code{_BSD_SOURCE}
is defined.

This is a list, index by error codes, of
error messages.

This list is deprecated, and all error codes
may not have been added in all @code{libc}
implementations.

TODO: Not implemented.

@item int sys_nerr
This variable is defined in the header files
@file{<errno.h>} (derived from @sc{BSD}
@code{libc}) and @file{<stdio.h>} (derived
from @sc{GNU} @code{libc}) if @code{_BSD_SOURCE}
is defined.

This is the number of error codes that are
defined, including @code{0} (successful completion.)
That is, the value of the error code with
highest value, plus 1.

TODO: Not implemented.

@item char* program_invocation_name
@lvindex program_invocation_name
@hfindex errno.h
@cpindex Process name
This variable is defined in the header file
@file{<errno.h>}, if @code{_GNU_SOURCE} or
@code{_SLIBC_SOURCE} is defined.

This is the name that was used to invoke the
program running in the current process. This
is the value @code{argv[0]} from the @code{main}
function (where @code{argv} is the second parameter.)
If @code{argc} (the first parameter) is zero, this
variable will have the value @code{NULL}. This is
not necessarily a proper command name. For example,
login shells are usually prefixes with a dash,
for example @code{-bash}, despite that there is
no such command. Often, but not always, this will
not contain directory.

It is recommended for portable programs
to saved the value of @code{argv[0]} from
@code{main} to a global variable (often
named @code{argv0}) instead of using this
variable.

@item char* program_invocation_short_name
@lvindex program_invocation_short_name
@hfindex errno.h
@cpindex Process name
This variable is defined in the header file
@file{<errno.h>}, if @code{_GNU_SOURCE} is
defined. It is similar to @code{program_invocation_name},
but it only contains the basename, that is,
the part after the last slash.

If @code{program_invocation_name} is edited,
@code{program_invocation_short_name} may be
modified too.

@end table