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@node System Information, System Configuration, Users and Groups, Top
@chapter System Information

This chapter describes functions that return information about the
particular machine that is in use---the type of hardware, the type of
software, and the individual machine's name.

@menu
* Host Identification::         Determining the name of the machine.
* Hardware/Software Type ID::   Determining the hardware type of the
                                 machine and what operating system it is
                                 running.
* Filesystem handling::         Which is mounted and/or available?
@end menu


@node Host Identification
@section Host Identification

This section explains how to identify the particular machine that your
program is running on.  The identification of a machine consists of its
Internet host name and Internet address; see @ref{Internet Namespace}.
The host name should always be a fully qualified domain name, like
@w{@samp{crispy-wheats-n-chicken.ai.mit.edu}}, not a simple name like
just @w{@samp{crispy-wheats-n-chicken}}.

@pindex hostname
@pindex hostid
@pindex unistd.h
Prototypes for these functions appear in @file{unistd.h}.  The shell
commands @code{hostname} and @code{hostid} work by calling them.

@comment unistd.h
@comment BSD
@deftypefun int gethostname (char *@var{name}, size_t @var{size})
This function returns the name of the host machine in the array
@var{name}.  The @var{size} argument specifies the size of this array,
in bytes.

The return value is @code{0} on success and @code{-1} on failure.  In
the GNU C library, @code{gethostname} fails if @var{size} is not large
enough; then you can try again with a larger array.  The following
@code{errno} error condition is defined for this function:

@table @code
@item ENAMETOOLONG
The @var{size} argument is less than the size of the host name plus one.
@end table

@pindex sys/param.h
On some systems, there is a symbol for the maximum possible host name
length: @code{MAXHOSTNAMELEN}.  It is defined in @file{sys/param.h}.
But you can't count on this to exist, so it is cleaner to handle
failure and try again.

@code{gethostname} stores the beginning of the host name in @var{name}
even if the host name won't entirely fit.  For some purposes, a
truncated host name is good enough.  If it is, you can ignore the
error code.
@end deftypefun

@comment unistd.h
@comment BSD
@deftypefun int sethostname (const char *@var{name}, size_t @var{length})
The @code{sethostname} function sets the name of the host machine to
@var{name}, a string with length @var{length}.  Only privileged
processes are allowed to do this.  Usually it happens just once, at
system boot time.

The return value is @code{0} on success and @code{-1} on failure.
The following @code{errno} error condition is defined for this function:

@table @code
@item EPERM
This process cannot set the host name because it is not privileged.
@end table
@end deftypefun

@comment unistd.h
@comment BSD
@deftypefun {long int} gethostid (void)
This function returns the ``host ID'' of the machine the program is
running on.  By convention, this is usually the primary Internet address
of that machine, converted to a @w{@code{long int}}.  However, some
systems it is a meaningless but unique number which is hard-coded for
each machine.
@end deftypefun

@comment unistd.h
@comment BSD
@deftypefun int sethostid (long int @var{id})
The @code{sethostid} function sets the ``host ID'' of the host machine
to @var{id}.  Only privileged processes are allowed to do this.  Usually
it happens just once, at system boot time.

The return value is @code{0} on success and @code{-1} on failure.
The following @code{errno} error condition is defined for this function:

@table @code
@item EPERM
This process cannot set the host name because it is not privileged.

@item ENOSYS
The operating system does not support setting the host ID.  On some
systems, the host ID is a meaningless but unique number hard-coded for
each machine.
@end table
@end deftypefun

@node Hardware/Software Type ID
@section Hardware/Software Type Identification

You can use the @code{uname} function to find out some information about
the type of computer your program is running on.  This function and the
associated data type are declared in the header file
@file{sys/utsname.h}.
@pindex sys/utsname.h

@comment sys/utsname.h
@comment POSIX.1
@deftp {Data Type} {struct utsname}
The @code{utsname} structure is used to hold information returned
by the @code{uname} function.  It has the following members:

@table @code
@item char sysname[]
This is the name of the operating system in use.

@item char nodename[]
This is the network name of this particular computer.  In the GNU
library, the value is the same as that returned by @code{gethostname};
see @ref{Host Identification}.

@item char release[]
This is the current release level of the operating system implementation.

@item char version[]
This is the current version level within the release of the operating
system.

@item char machine[]
This is a description of the type of hardware that is in use.

Some systems provide a mechanism to interrogate the kernel directly for
this information.  On systems without such a mechanism, the GNU C
library fills in this field based on the configuration name that was
specified when building and installing the library.

GNU uses a three-part name to describe a system configuration; the three
parts are @var{cpu}, @var{manufacturer} and @var{system-type}, and they
are separated with dashes.  Any possible combination of three names is
potentially meaningful, but most such combinations are meaningless in
practice and even the meaningful ones are not necessarily supported by
any particular GNU program.

Since the value in @code{machine} is supposed to describe just the
hardware, it consists of the first two parts of the configuration name:
@samp{@var{cpu}-@var{manufacturer}}.  For example, it might be one of these:

@quotation
@code{"sparc-sun"},
@code{"i386-@var{anything}"},
@code{"m68k-hp"},
@code{"m68k-sony"},
@code{"m68k-sun"},
@code{"mips-dec"}
@end quotation
@end table
@end deftp

@comment sys/utsname.h
@comment POSIX.1
@deftypefun int uname (struct utsname *@var{info})
The @code{uname} function fills in the structure pointed to by
@var{info} with information about the operating system and host machine.
A non-negative value indicates that the data was successfully stored.

@code{-1} as the value indicates an error.  The only error possible is
@code{EFAULT}, which we normally don't mention as it is always a
possibility.
@end deftypefun


@node Filesystem handling
@section Which filesystems are mounted and/or available?

The Unix concept of @emph{Everything is a file} is based on the
possibility to @dfn{mount} filesystems or other things into the
filesystem.  For some programs it is desirable and necessary to access
the information whether and if yes, where a certain filesystem is
mounted or simply to get lists of all the available filesystems.  The
GNU libc provides some functions to retrieve this information portably.

Traditionally Unix systems have a file named @file{/etc/fstab} which
describes all possibly mounted filesystems.  The @code{mount} program
uses this file to mount at startup time of the system all the necessary
filesystems.  The information about all the filesystems actually mounted
is normally kept in a file named @file{/etc/mtab}.  Both files shared
the same synteax and it is crucial that this syntax is followed all the
time.  Therefore it is best to never directly write the files.  The
functions described in this section can do this and they also provide
the functionality to convert the external textual representation to the
internal representation.

@vindex _PATH_FSTAB
@vindex _PATH_MNTTAB
@vindex FSTAB
@vindex _PATH_MOUNTED
The filenames given above should never be used directly.  The portable
way to handle these file is to use the macros @code{_PATH_FSTAB},
defined in @file{fsab.h} and @code{_PATH_MNTTAB}, defined in
@file{mntent.h}, respectively.  There are also two alternate macro names
@code{FSTAB} and @code{_PATH_MOUNTED} defined but both names are
depricated and kept only for backward compatibility.  The two former
names always should be used.

The internal representation for entries of the file is @w{@code{struct
fstab}}, defined in @file{fstab.h}.

@comment fstab.h
@comment BSD
@deftp {Data Type} {struct fstab}
This structure is used with the @code{getfsent}, @code{getfsspec}, and
@code{getfsfile} functions.

@table @code
@item char *fs_spec
This element desribes the device from which the filesystem is mounted.
Normally this is the name of a special device, such as a hard disk
partition, but it could also be a more or less generic string.  For
@dfn{NFS} it would be a hostname and directory name combination.

Even though the element is not declared @code{const} it shouldn't be
modified.  The missing @code{const} has historic reasons, since this
function predates @w{ISO C}.  The same is true for the other string
elements of this structure.

@item char *fs_file
This desribes the mount point on the local system.  I.e., accessing any
file in this filesystem has implicitly or explicitily this string as a
prefix.

@item char *fs_vfstype
This is the type of the filesystem.  Depending on what the underlying
kernel understands it can be any string.

@item char *fs_mntops
This is a string containing options passed to the kernel with the
@code{mount} call.  Again, this can be almost anything.  There can be
more than one option, separated from the others by a comma.  Each option
consists of a name and an optional value part, introduced by an @code{=}
character.

If the value of this element must be processed it best should happen
using the @code{getsubopt} function; see @ref{Suboptions}.

@item const char *fs_type
This name os poorly chosen.  This element points to a string (possibly
in the @code{fs_mntops} string) which describes the modes with which the
filesystem is mounted.  @file{fstab} defines five macros to describe the
possible values:

@vtable @code
@item FSTAB_RW
The filesystems gets mounted with read and write enabled.
@item FSTAB_RQ
The filesystems gets mounted with read and write enabled.  Write access
is restricted by quotas.
@item FSTAB_RO
The filesystem get mounted read-only.
@item FSTAB_SW
This is no real filesystem, it is a swap device.
@item FSTAB_XX
This entry from the @file{fstab} file is totally ignored.
@end vtable

Testing for equality with these value must happen using @code{strcmp}
since these are all strings.  Comparing the pointer probably always will
fail.

@item int fs_freq
This element describes the dump frequency in days.

@item int fs_passno
This element describes the pass number on parallel dumps.  It is closely
related to the actual @code{dump} program used on Unix systems.
@end table
@end deftp


To read the entire content of the of the @file{fstab} file the GNU libc
contains a set of three functions which are designed in the usual way.

@comment fstab.h
@comment BSD
@deftypefun int setfsent (void)
This function makes sure that the internal read pointer for the
@file{fstab} file is at the beginning of the file.  This is done by
either opening the file or resetting the read pointer.

Since the file handle is internal to the libc this function is not
thread-safe.

This function returns a non-zero value if the operation was successful
and the @code{getfs*} functions can be used to read the entries of the
file.
@end deftypefun

@comment fstab.h
@comment BSD
@deftypefun void endfsent (void)
This function makes sure that all resources acquired by a prior call to
@code{setfsent} (explicit or implicitly by calling @code{getfsent}) are
freed.
@end deftypefun

@comment fstab.h
@comment BSD
@deftypefun {struct fstab *} getfsent (void)
This function returns the next entry of the @file{fstab} file.  If this
is the first call to any of the functions handling @file{fstab} since
program start or the last call of @code{endfsent}, the file will be
opened.

The function returns a pointer to an variable of type @code{struct
fstab}.  This variable is shared by all threads and therefore this
function is not thread-safe.  If an error occurred @code{getfsent}
return a @code{NULL} pointer.
@end deftypefun

@comment fstab.h
@comment BSD
@deftypefun {struct fstab *} getfsspec (const char *@var{name})
This function returns the next entry of the @file{fstab} file which has
a string equal to @var{name} pointed to by the @code{fs_spec} element.
Since there is normally exactly one entry for each special device it
makes no sense to call this function more than once for the same
argument.  If this is the first call to any of the functions handling
@file{fstab} since program start or the last call of @code{endfsent},
the file will be opened.

The function returns a pointer to an variable of type @code{struct
fstab}.  This variable is shared by all threads and therefore this
function is not thread-safe.  If an error occurred @code{getfsent}
return a @code{NULL} pointer.
@end deftypefun

@comment fstab.h
@comment BSD
@deftypefun {struct fstab *} getfsfile (const char *@var{name})
This function returns the next entry of the @file{fstab} file which has
a string equal to @var{name} pointed to by the @code{fs_file} element.
Since there is normally exactly one entry for each mount point it
makes no sense to call this function more than once for the same
argument.  If this is the first call to any of the functions handling
@file{fstab} since program start or the last call of @code{endfsent},
the file will be opened.

The function returns a pointer to an variable of type @code{struct
fstab}.  This variable is shared by all threads and therefore this
function is not thread-safe.  If an error occurred @code{getfsent}
return a @code{NULL} pointer.
@end deftypefun

To access the @file{matb} file there is a different set of functions and
also a different structure to describe the results.


@comment fstab.h
@comment BSD
@deftp {Data Type} {struct mntent}
This structure is used with the @code{getmntent}, @code{getmntent_t},
@code{addmntent}, and @code{hasmntopt} functions.

@table @code
@item char *mnt_fsname
This element contains a pointer to a string describing the name of the
special device from which the filesystem is mounted.  It corresponds to
the @code{fs_spec} element in @code{struct fstab}.

@item char *mnt_dir
This element points to a string describing the mount point of the
filesystem.  It corresponds to the @code{fs_file} element in
@code{struct fstab}.

@item char *mnt_type
@code{mnt_type} describes the filesystem type and is therefore
equivalent to @code{fs_vfstype} in @code{struct fstab}.  @file{mntent.h}
defines a few symbolic names for some of the value this string can have.
But since the kernel can support an arbitrary filesystems it does not
make much sense to give them symbolic names.  If one knows the symbol
name one also knows the filesystem name.  Nevertheless here follows the
list of the symbol provided in @file{mntent.h}.

@vtable @code
@item MNTTYPE_IGNORE
This symbol expands to @code{"ignore"}.  The value is sometime used in
@file{fstab} files to make sure entries are not used without removing them.
@item MNTTYPE_NFS
Expands to @code{"nfs"}.  Using this macro sometimes could make sense
since it names the default NFS implementation, in case both version 2
and 3 are supported.
@item MNTTYPE_SWAP
This symbol expands to @code{"swap"}.  It names the special @file{fstab}
entry which names one of the possibly multiple swap partitions.
@end vtable

@item char *mnt_opts
The element contains a string describing the options used while mounting
the filesystem.  As for the equivalent element @code{fs_mntops} of
@code{struct fstab} it is best to use the function @code{getsubopt}
(@pxref{Suboptions}) to access the parts of this string.

The @file{mntent.h} file defines a number of macros with string values
which correspond to some of the options understood by the kernel.  There
might be many more options which are possible so it makes not much sense
to rely on these macros but to be consistent here is the list:

@vtable @code
@item MNTOPT_DEFAULTS
Expands to @code{"defaults"}.  This option should be used alone since it
indicates all values for the custumizable values are chosen to be the
default.
@item MNTOPT_RO
Expand to @code{"ro"}.  See the the @code{FSTAB_RO} value, it means the
filesystem is mounted read-only.
@item MNTOPT_RW
Expand to @code{"rw"}.  See the the @code{FSTAB_RW} value, it means the
filesystem is mounted with read and write permissions.
@item MNTOPT_SUID
Expands to @code{"suid"}.  This means that the SUID bit (@pxref{How
Change Persona}) is respected when a program from the filesystem is
started.
@item MNTOPT_NOSUID
Expands to @code{"nosuid"}.  This is the opposite of @code{MNTOPT_SUID},
the SUID bit is for all files from the filesystem ignored.
@item MNTOPT_NOAUTO
Expands to @code{"noauto"}.  At startup time the @code{mount} program
will ignore this entry if it is started with the @code{-a} option to
mount all filesystems mentioned in the @file{fstab} file.
@end vtable

As for the @code{FSTAB_*} entries introduced above it is important to
use @code{strcmp} to check for equality.

@item mnt_freq
This elements corresponds to @code{fs_freq} and also specifies the
frequency in days in which dumps are made.

@item mnt_passno
This element is equivalent to @code{fs_passno} with the same meaning
which is uninteresting for all programs beside @code{dump}.
@end table
@end deftp

For accessing the @file{mtab} file there is again a set of three
functions to access all entries in a row.  Unlike the functions to
handle @file{fstab} these functions do not access a fixed file and there
even is a thread safe variant of the get-function.  Beside this the GNU
libc contains function to alter the file and test for specific options.

@comment mntent.h
@comment BSD
@deftypefun {FILE *} setmntent (const char *@var{file}, const char *@var{mode})
The @code{setmntent} function prepares the file named @var{FILE} which
must be in the format of a @file{fstab} and @file{mtab} file for the
upcoming processing through the other functions of the family.  The
@var{mode} parameter can be chosen in the way the @var{opentype}
parameter for @code{fopen} (@pxref{Opening Streams}) can be chosen.  If
the file is opened for writing the file is also allowed to be empty.

If the file was successfully opened @code{setmntent} returns a file
descriptor for future use.  Otherwise the return value is @code{NULL}
and @code{errno} is set accordingly.
@end deftypefun

@comment mntent.h
@comment BSD
@deftypefun int endmntent (FILE *@var{stream})
This function takes for the @var{stream} parameter a file handle which
previously was returned from the @code{setmntent} call.
@code{endmntent} closes the stream and frees all resources.

The return value is @code[1} unless an error occurred in which case it
is @code{0}.
@end deftypefun

@comment mntent.h
@comment BSD
@deftypefun {struct mntent *} getmntent (FILE *@var{stream})
The @code{getmntent} function takes as the parameter a file handle
previously returned by successful call to @code{setmntent}.  It returns
a pointer to a static variable of type @code{struct mntent} which is
filled with the information from the next entry from the file currently
read.

If there was an error or the end of the file is reached the return value
is @code{NULL}.

This function is not thread-safe since all calls to this function return
a pointer to the same static variable.  @code{getmntent_r} should be
used in situations where multiple threads access use the file.
@end deftypefun

@comment mntent.h
@comment BSD
@deftypefun {struct mntent *} getmntent_r (FILE *@var{stream}, struct mentent *@var{result}, char *@var{buffer}, int @var{bufsize})
The @code{getmntent_r} function is the reentrant variant of
@code{getmntent}.  It also returns the next entry from the file and
returns a pointer.  The actual variable the values are stored in is not
static, though.  Instead the function stores the values in the variable
pointed to by the @var{result} parameter.  Additional information (e.g.,
the strings pointed to by the elements of the result) are kept in the
buffer of size @var{bufsize} pointed to by @var{buffer}.

The function return in error cases a @code{NULL} pointer.  Errors could be:
@itemize @bullet
@item
error while reading the file,
@item
end of file reached,
@item
@var{bufsize} is too small for reading a complete new entry.
@end itemize
@end deftypefun

@comment mntent.h
@comment BSD
@deftypefun int addmntent (FILE *@var{stream}, const struct mntent *@var{mnt})
The @code{addmntent} function allows to add new entry to the file
previously opened with @code{setmntent}.  The new entries are always
appended.  I.e., even if the position of the file descriptor is not at
the end of the file this function does not overwrite an existing
following the current position.

The implication of this is that to remove an entry from a file one has
to create a new file while leaving out the entry to be removed and after
closing the file remove the old one and rename the new file to the
chosen name.

This function returns @code{0} in case the operation was successful.
Otherwise the return value is @code{1} and @code{errno} is set
appropriately.
@end deftypefun

@comment mntent.h
@comment BSD
@deftypefun {char *} hasmntopt (const struct mntent *@var{mnt}, const char *@var{opt})
This function can be used to check whether the string pointed to by the
@code{mnt_opts} element of the variable pointed to by @var{mnt} contains
the option @var{opt}.  If this is true a pointer to the beginning of the
option in the @code{mnt_opts} element is returned.  If no such option
exist the function returns @code{NULL}.

This function is useful to test whether a specific option is present but
when all options have to be processed one is better off with using the
@code{getsubopt} function to iterate over all options in the string.
@end deftypefun