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Reviewed-by: DJ Delorie <dj@redhat.com>
1109 lines
44 KiB
Plaintext
1109 lines
44 KiB
Plaintext
@node System Management, System Configuration, Users and Groups, Top
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@c %MENU% Controlling the system and getting information about it
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@chapter System Management
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This chapter describes facilities for controlling the system that
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underlies a process (including the operating system and hardware) and
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for getting information about it. Anyone can generally use the
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informational facilities, but usually only a properly privileged process
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can make changes.
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@menu
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* Host Identification:: Determining the name of the machine.
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* Platform Type:: Determining operating system and basic
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machine type
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* Filesystem Handling:: Controlling/querying mounts
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@end menu
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To get information on parameters of the system that are built into the
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system, such as the maximum length of a filename, @ref{System
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Configuration}.
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@node Host Identification
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@section Host Identification
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This section explains how to identify the particular system on which your
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program is running. First, let's review the various ways computer systems
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are named, which is a little complicated because of the history of the
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development of the Internet.
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Every Unix system (also known as a host) has a host name, whether it's
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connected to a network or not. In its simplest form, as used before
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computer networks were an issue, it's just a word like @samp{chicken}.
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@cindex host name
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But any system attached to the Internet or any network like it conforms
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to a more rigorous naming convention as part of the Domain Name System
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(DNS). In the DNS, every host name is composed of two parts:
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@cindex DNS
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@cindex Domain Name System
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@enumerate
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@item
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hostname
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@cindex hostname
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@item
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domain name
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@cindex domain name
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@end enumerate
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You will note that ``hostname'' looks a lot like ``host name'', but is
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not the same thing, and that people often incorrectly refer to entire
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host names as ``domain names.''
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In the DNS, the full host name is properly called the FQDN (Fully Qualified
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Domain Name) and consists of the hostname, then a period, then the
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domain name. The domain name itself usually has multiple components
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separated by periods. So for example, a system's hostname may be
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@samp{chicken} and its domain name might be @samp{ai.mit.edu}, so
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its FQDN (which is its host name) is @samp{chicken.ai.mit.edu}.
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@cindex FQDN
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Adding to the confusion, though, is that the DNS is not the only name space
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in which a computer needs to be known. Another name space is the
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NIS (aka YP) name space. For NIS purposes, there is another domain
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name, which is called the NIS domain name or the YP domain name. It
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need not have anything to do with the DNS domain name.
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@cindex YP
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@cindex NIS
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@cindex NIS domain name
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@cindex YP domain name
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Confusing things even more is the fact that in the DNS, it is possible for
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multiple FQDNs to refer to the same system. However, there is always
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exactly one of them that is the true host name, and it is called the
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canonical FQDN.
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In some contexts, the host name is called a ``node name.''
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For more information on DNS host naming, see @ref{Host Names}.
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@pindex hostname
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@pindex hostid
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@pindex unistd.h
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Prototypes for these functions appear in @file{unistd.h}.
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The programs @code{hostname}, @code{hostid}, and @code{domainname} work
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by calling these functions.
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@deftypefun int gethostname (char *@var{name}, size_t @var{size})
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@standards{BSD, unistd.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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@c Direct syscall on unix; implemented in terms of uname on posix and of
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@c hurd_get_host_config on hurd.
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This function returns the host name of the system on which it is called,
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in the array @var{name}. The @var{size} argument specifies the size of
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this array, in bytes. Note that this is @emph{not} the DNS hostname.
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If the system participates in the DNS, this is the FQDN (see above).
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The return value is @code{0} on success and @code{-1} on failure. In
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@theglibc{}, @code{gethostname} fails if @var{size} is not large
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enough; then you can try again with a larger array. The following
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@code{errno} error condition is defined for this function:
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@table @code
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@item ENAMETOOLONG
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The @var{size} argument is less than the size of the host name plus one.
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@end table
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@pindex sys/param.h
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On some systems, there is a symbol for the maximum possible host name
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length: @code{MAXHOSTNAMELEN}. It is defined in @file{sys/param.h}.
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But you can't count on this to exist, so it is cleaner to handle
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failure and try again.
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@code{gethostname} stores the beginning of the host name in @var{name}
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even if the host name won't entirely fit. For some purposes, a
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truncated host name is good enough. If it is, you can ignore the
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error code.
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@end deftypefun
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@deftypefun int sethostname (const char *@var{name}, size_t @var{length})
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@standards{BSD, unistd.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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@c Direct syscall on unix; implemented in terms of hurd_set_host_config
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@c on hurd.
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The @code{sethostname} function sets the host name of the system that
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calls it to @var{name}, a string with length @var{length}. Only
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privileged processes are permitted to do this.
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Usually @code{sethostname} gets called just once, at system boot time.
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Often, the program that calls it sets it to the value it finds in the
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file @code{/etc/hostname}.
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@cindex /etc/hostname
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Be sure to set the host name to the full host name, not just the DNS
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hostname (see above).
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The return value is @code{0} on success and @code{-1} on failure.
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The following @code{errno} error condition is defined for this function:
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@table @code
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@item EPERM
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This process cannot set the host name because it is not privileged.
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@end table
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@end deftypefun
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@deftypefun int getdomainnname (char *@var{name}, size_t @var{length})
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@standards{???, unistd.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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@c Syscalls uname, then strlen and memcpy.
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@cindex NIS domain name
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@cindex YP domain name
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@code{getdomainname} returns the NIS (aka YP) domain name of the system
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on which it is called. Note that this is not the more popular DNS
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domain name. Get that with @code{gethostname}.
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The specifics of this function are analogous to @code{gethostname}, above.
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@end deftypefun
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@deftypefun int setdomainname (const char *@var{name}, size_t @var{length})
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@standards{???, unistd.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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@c Direct syscall.
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@cindex NIS domain name
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@cindex YP domain name
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@code{setdomainname} sets the NIS (aka YP) domain name of the system
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on which it is called. Note that this is not the more popular DNS
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domain name. Set that with @code{sethostname}.
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The specifics of this function are analogous to @code{sethostname}, above.
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@end deftypefun
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@deftypefun {long int} gethostid (void)
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@standards{BSD, unistd.h}
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@safety{@prelim{}@mtsafe{@mtshostid{} @mtsenv{} @mtslocale{}}@asunsafe{@ascudlopen{} @ascuplugin{} @asucorrupt{} @ascuheap{} @asulock{}}@acunsafe{@aculock{} @acucorrupt{} @acsmem{} @acsfd{}}}
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@c On HURD, calls _hurd_get_host_config and strtol. On Linux, open
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@c HOSTIDFILE, reads an int32_t and closes; if that fails, it calls
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@c gethostname and gethostbyname_r to use the h_addr.
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This function returns the ``host ID'' of the machine the program is
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running on. By convention, this is usually the primary Internet IP address
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of that machine, converted to a @w{@code{long int}}. However, on some
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systems it is a meaningless but unique number which is hard-coded for
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each machine.
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This is not widely used. It arose in BSD 4.2, but was dropped in BSD 4.4.
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It is not required by POSIX.
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The proper way to query the IP address is to use @code{gethostbyname}
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on the results of @code{gethostname}. For more information on IP addresses,
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@xref{Host Addresses}.
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@end deftypefun
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@deftypefun int sethostid (long int @var{id})
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@standards{BSD, unistd.h}
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@safety{@prelim{}@mtunsafe{@mtasuconst{:@mtshostid{}}}@asunsafe{}@acunsafe{@acucorrupt{} @acsfd{}}}
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The @code{sethostid} function sets the ``host ID'' of the host machine
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to @var{id}. Only privileged processes are permitted to do this. Usually
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it happens just once, at system boot time.
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The proper way to establish the primary IP address of a system
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is to configure the IP address resolver to associate that IP address with
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the system's host name as returned by @code{gethostname}. For example,
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put a record for the system in @file{/etc/hosts}.
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See @code{gethostid} above for more information on host ids.
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The return value is @code{0} on success and @code{-1} on failure.
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The following @code{errno} error conditions are defined for this function:
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@table @code
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@item EPERM
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This process cannot set the host name because it is not privileged.
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@item ENOSYS
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The operating system does not support setting the host ID. On some
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systems, the host ID is a meaningless but unique number hard-coded for
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each machine.
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@end table
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@end deftypefun
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@node Platform Type
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@section Platform Type Identification
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You can use the @code{uname} function to find out some information about
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the type of computer your program is running on. This function and the
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associated data type are declared in the header file
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@file{sys/utsname.h}.
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@pindex sys/utsname.h
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As a bonus, @code{uname} also gives some information identifying the
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particular system your program is running on. This is the same information
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which you can get with functions targeted to this purpose described in
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@ref{Host Identification}.
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@deftp {Data Type} {struct utsname}
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@standards{POSIX.1, sys/utsname.h}
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The @code{utsname} structure is used to hold information returned
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by the @code{uname} function. It has the following members:
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@table @code
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@item char sysname[]
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This is the name of the operating system in use.
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@item char release[]
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This is the current release level of the operating system implementation.
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@item char version[]
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This is the current version level within the release of the operating
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system.
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@item char machine[]
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This is a description of the type of hardware that is in use.
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Some systems provide a mechanism to interrogate the kernel directly for
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this information. On systems without such a mechanism, @theglibc{}
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fills in this field based on the configuration name that was
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specified when building and installing the library.
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GNU uses a three-part name to describe a system configuration; the three
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parts are @var{cpu}, @var{manufacturer} and @var{system-type}, and they
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are separated with dashes. Any possible combination of three names is
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potentially meaningful, but most such combinations are meaningless in
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practice and even the meaningful ones are not necessarily supported by
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any particular GNU program.
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Since the value in @code{machine} is supposed to describe just the
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hardware, it consists of the first two parts of the configuration name:
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@samp{@var{cpu}-@var{manufacturer}}. For example, it might be one of these:
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@quotation
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@code{"sparc-sun"},
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@code{"i386-@var{anything}"},
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@code{"m68k-hp"},
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@code{"m68k-sony"},
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@code{"m68k-sun"},
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@code{"mips-dec"}
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@end quotation
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@item char nodename[]
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This is the host name of this particular computer. In @theglibc{},
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the value is the same as that returned by @code{gethostname};
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see @ref{Host Identification}.
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@code{gethostname} is implemented with a call to @code{uname}.
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@item char domainname[]
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This is the NIS or YP domain name. It is the same value returned by
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@code{getdomainname}; see @ref{Host Identification}. This element
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is a relatively recent invention and use of it is not as portable as
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use of the rest of the structure.
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@c getdomainname() is implemented with a call to uname().
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@end table
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@end deftp
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@deftypefun int uname (struct utsname *@var{info})
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@standards{POSIX.1, sys/utsname.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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@c Direct syscall on unix; the posix fallback is to call gethostname and
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@c then fills in the other fields with constants; on HURD, it calls
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@c proc_uname and then gethostname.
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The @code{uname} function fills in the structure pointed to by
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@var{info} with information about the operating system and host machine.
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A non-negative return value indicates that the data was successfully stored.
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@code{-1} as the return value indicates an error. The only error possible is
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@code{EFAULT}, which we normally don't mention as it is always a
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possibility.
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@end deftypefun
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@node Filesystem Handling
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@section Controlling and Querying Mounts
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All files are in filesystems, and before you can access any file, its
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filesystem must be mounted. Because of Unix's concept of
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@emph{Everything is a file}, mounting of filesystems is central to doing
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almost anything. This section explains how to find out what filesystems
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are currently mounted and what filesystems are available for mounting,
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and how to change what is mounted.
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The classic filesystem is the contents of a disk drive. The concept is
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considerably more abstract, though, and lots of things other than disk
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drives can be mounted.
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Some block devices don't correspond to traditional devices like disk
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drives. For example, a loop device is a block device whose driver uses
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a regular file in another filesystem as its medium. So if that regular
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file contains appropriate data for a filesystem, you can by mounting the
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loop device essentially mount a regular file.
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Some filesystems aren't based on a device of any kind. The ``proc''
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filesystem, for example, contains files whose data is made up by the
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filesystem driver on the fly whenever you ask for it. And when you
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write to it, the data you write causes changes in the system. No data
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gets stored.
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@c It would be good to mention NFS mounts here.
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@menu
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* Mount Information:: What is or could be mounted?
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* Mount-Unmount-Remount:: Controlling what is mounted and how
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@end menu
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@node Mount Information, Mount-Unmount-Remount, , Filesystem Handling
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@subsection Mount Information
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For some programs it is desirable and necessary to access information
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about whether a certain filesystem is mounted and, if it is, where, or
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simply to get lists of all the available filesystems. @Theglibc{}
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provides some functions to retrieve this information portably.
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Traditionally Unix systems have a file named @file{/etc/fstab} which
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describes all possibly mounted filesystems. The @code{mount} program
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uses this file to mount at startup time of the system all the
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necessary filesystems. The information about all the filesystems
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actually mounted is normally kept in a file named either
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@file{/var/run/mtab} or @file{/etc/mtab}. Both files share the same
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syntax and it is crucial that this syntax is followed all the time.
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Therefore it is best to never directly write to the files. The functions
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described in this section can do this and they also provide the
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functionality to convert the external textual representation to the
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internal representation.
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Note that the @file{fstab} and @file{mtab} files are maintained on a
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system by @emph{convention}. It is possible for the files not to exist
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or not to be consistent with what is really mounted or available to
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mount, if the system's administration policy allows it. But programs
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that mount and unmount filesystems typically maintain and use these
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files as described herein.
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@vindex _PATH_FSTAB
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@vindex _PATH_MNTTAB
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@vindex _PATH_MOUNTED
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@vindex FSTAB
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@vindex MNTTAB
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@vindex MOUNTED
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The filenames given above should never be used directly. The portable
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way to handle these files is to use the macros @code{_PATH_FSTAB},
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defined in @file{fstab.h}, or @code{_PATH_MNTTAB}, defined in
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@file{mntent.h} and @file{paths.h}, for @file{fstab}; and the macro
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@code{_PATH_MOUNTED}, also defined in @file{mntent.h} and
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@file{paths.h}, for @file{mtab}. There are also two alternate macro
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names @code{FSTAB}, @code{MNTTAB}, and @code{MOUNTED} defined but
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these names are deprecated and kept only for backward compatibility.
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The names @code{_PATH_MNTTAB} and @code{_PATH_MOUNTED} should always be used.
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@menu
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* fstab:: The @file{fstab} file
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* mtab:: The @file{mtab} file
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* Other Mount Information:: Other (non-libc) sources of mount information
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@end menu
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@node fstab
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@subsubsection The @file{fstab} file
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The internal representation for entries of the file is @w{@code{struct
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fstab}}, defined in @file{fstab.h}.
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@deftp {Data Type} {struct fstab}
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@standards{BSD, fstab.h}
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This structure is used with the @code{getfsent}, @code{getfsspec}, and
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@code{getfsfile} functions.
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@table @code
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@item char *fs_spec
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This element describes the device from which the filesystem is mounted.
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Normally this is the name of a special device, such as a hard disk
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partition, but it could also be a more or less generic string. For
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@dfn{NFS} it would be a hostname and directory name combination.
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Even though the element is not declared @code{const} it shouldn't be
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modified. The missing @code{const} has historic reasons, since this
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function predates @w{ISO C}. The same is true for the other string
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elements of this structure.
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@item char *fs_file
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This describes the mount point on the local system. I.e., accessing any
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file in this filesystem has implicitly or explicitly this string as a
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prefix.
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@item char *fs_vfstype
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This is the type of the filesystem. Depending on what the underlying
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kernel understands it can be any string.
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@item char *fs_mntops
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This is a string containing options passed to the kernel with the
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@code{mount} call. Again, this can be almost anything. There can be
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more than one option, separated from the others by a comma. Each option
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consists of a name and an optional value part, introduced by an @code{=}
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character.
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If the value of this element must be processed it should ideally be done
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using the @code{getsubopt} function; see @ref{Suboptions}.
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@item const char *fs_type
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This name is poorly chosen. This element points to a string (possibly
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in the @code{fs_mntops} string) which describes the modes with which the
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filesystem is mounted. @file{fstab} defines five macros to describe the
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possible values:
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@vtable @code
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@item FSTAB_RW
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The filesystem gets mounted with read and write enabled.
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@item FSTAB_RQ
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The filesystem gets mounted with read and write enabled. Write access
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is restricted by quotas.
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@item FSTAB_RO
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The filesystem gets mounted read-only.
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@item FSTAB_SW
|
|
This is not a 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 values must happen using @code{strcmp}
|
|
since these are all strings. Comparing the pointer will probably always
|
|
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 @code{dump} utility used on Unix systems.
|
|
@end table
|
|
@end deftp
|
|
|
|
|
|
To read the entire content of the of the @file{fstab} file @theglibc{}
|
|
contains a set of three functions which are designed in the usual way.
|
|
|
|
@deftypefun int setfsent (void)
|
|
@standards{BSD, fstab.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasurace{:fsent}}@asunsafe{@ascuheap{} @asucorrupt{} @asulock{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{} @acsfd{}}}
|
|
@c setfsent @mtasurace:fsent @ascuheap @asucorrupt @asulock @acucorrupt @aculock @acsmem @acsfd
|
|
@c fstab_init(1) @mtasurace:fsent @ascuheap @asucorrupt @asulock @acucorrupt @aculock @acsmem @acsfd
|
|
@c malloc dup @ascuheap @acsmem
|
|
@c rewind dup @asucorrupt @acucorrupt [no @aculock]
|
|
@c setmntent dup @ascuheap @asulock @acsmem @acsfd @aculock
|
|
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
|
|
|
|
@deftypefun void endfsent (void)
|
|
@standards{BSD, fstab.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasurace{:fsent}}@asunsafe{@ascuheap{} @asucorrupt{} @asulock{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{} @acsfd{}}}
|
|
@c endfsent @mtasurace:fsent @ascuheap @asucorrupt @asulock @acucorrupt @aculock @acsmem @acsfd
|
|
@c endmntent dup @ascuheap @asulock @aculock @acsmem @acsfd
|
|
This function makes sure that all resources acquired by a prior call to
|
|
@code{setfsent} (explicitly or implicitly by calling @code{getfsent}) are
|
|
freed.
|
|
@end deftypefun
|
|
|
|
@deftypefun {struct fstab *} getfsent (void)
|
|
@standards{BSD, fstab.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasurace{:fsent} @mtslocale{}}@asunsafe{@asucorrupt{} @ascuheap{} @asulock{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{}}}
|
|
@c getfsent @mtasurace:fsent @mtslocale @asucorrupt @ascuheap @asulock @acucorrupt @aculock @acsmem
|
|
@c fstab_init(0) dup @mtasurace:fsent @ascuheap @asucorrupt @asulock @acucorrupt @aculock @acsmem @acsfd
|
|
@c fstab_fetch @mtasurace:fsent @mtslocale @asucorrupt @ascuheap @acucorrupt @aculock @acsmem
|
|
@c getmntent_r dup @mtslocale @asucorrupt @ascuheap @acucorrupt @aculock @acsmem
|
|
@c fstab_convert @mtasurace:fsent
|
|
@c hasmntopt dup ok
|
|
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 a 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}
|
|
returns a @code{NULL} pointer.
|
|
@end deftypefun
|
|
|
|
@deftypefun {struct fstab *} getfsspec (const char *@var{name})
|
|
@standards{BSD, fstab.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasurace{:fsent} @mtslocale{}}@asunsafe{@asucorrupt{} @ascuheap{} @asulock{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{}}}
|
|
@c getffsspec @mtasurace:fsent @mtslocale @asucorrupt @ascuheap @asulock @acucorrupt @aculock @acsmem
|
|
@c fstab_init(1) dup @mtasurace:fsent @ascuheap @asucorrupt @asulock @acucorrupt @aculock @acsmem @acsfd
|
|
@c fstab_fetch dup @mtasurace:fsent @mtslocale @asucorrupt @ascuheap @acucorrupt @aculock @acsmem
|
|
@c strcmp dup ok
|
|
@c fstab_convert dup @mtasurace:fsent
|
|
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 a 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}
|
|
returns a @code{NULL} pointer.
|
|
@end deftypefun
|
|
|
|
@deftypefun {struct fstab *} getfsfile (const char *@var{name})
|
|
@standards{BSD, fstab.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasurace{:fsent} @mtslocale{}}@asunsafe{@asucorrupt{} @ascuheap{} @asulock{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{}}}
|
|
@c getffsfile @mtasurace:fsent @mtslocale @asucorrupt @ascuheap @asulock @acucorrupt @aculock @acsmem
|
|
@c fstab_init(1) dup @mtasurace:fsent @ascuheap @asucorrupt @asulock @acucorrupt @aculock @acsmem @acsfd
|
|
@c fstab_fetch dup @mtasurace:fsent @mtslocale @asucorrupt @ascuheap @acucorrupt @aculock @acsmem
|
|
@c strcmp dup ok
|
|
@c fstab_convert dup @mtasurace:fsent
|
|
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 a 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}
|
|
returns a @code{NULL} pointer.
|
|
@end deftypefun
|
|
|
|
|
|
@node mtab
|
|
@subsubsection The @file{mtab} file
|
|
The following functions and data structure access the @file{mtab} file.
|
|
|
|
@deftp {Data Type} {struct mntent}
|
|
@standards{BSD, mntent.h}
|
|
This structure is used with the @code{getmntent}, @code{getmntent_r},
|
|
@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 values this string can have.
|
|
But since the kernel can support 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 symbols provided in @file{mntent.h}.
|
|
|
|
@vtable @code
|
|
@item MNTTYPE_IGNORE
|
|
This symbol expands to @code{"ignore"}. The value is sometimes 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 doesn't make 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 customizable values are chosen to be the
|
|
default.
|
|
@item MNTOPT_RO
|
|
Expands to @code{"ro"}. See the @code{FSTAB_RO} value, it means the
|
|
filesystem is mounted read-only.
|
|
@item MNTOPT_RW
|
|
Expands to @code{"rw"}. See 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 for all files from the filesystem is 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
|
|
is even a thread safe variant of the get function. Besides this @theglibc{}
|
|
contains functions to alter the file and test for specific options.
|
|
|
|
@deftypefun {FILE *} setmntent (const char *@var{file}, const char *@var{mode})
|
|
@standards{BSD, mntent.h}
|
|
@safety{@prelim{}@mtsafe{}@asunsafe{@ascuheap{} @asulock{}}@acunsafe{@acsmem{} @acsfd{} @aculock{}}}
|
|
@c setmntent @ascuheap @asulock @acsmem @acsfd @aculock
|
|
@c strlen dup ok
|
|
@c mempcpy dup ok
|
|
@c memcpy dup ok
|
|
@c fopen dup @ascuheap @asulock @acsmem @acsfd @aculock
|
|
@c fsetlocking dup ok [no @mtasurace:stream @asulock: exclusive stream]
|
|
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
|
|
handle for future use. Otherwise the return value is @code{NULL}
|
|
and @code{errno} is set accordingly.
|
|
@end deftypefun
|
|
|
|
@deftypefun int endmntent (FILE *@var{stream})
|
|
@standards{BSD, mntent.h}
|
|
@safety{@prelim{}@mtsafe{}@asunsafe{@ascuheap{} @asulock{}}@acunsafe{@aculock{} @acsmem{} @acsfd{}}}
|
|
@c endmntent @ascuheap @asulock @aculock @acsmem @acsfd
|
|
@c fclose dup @ascuheap @asulock @aculock @acsmem @acsfd
|
|
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 @math{1} unless an error occurred in which case it
|
|
is @math{0}.
|
|
@end deftypefun
|
|
|
|
@deftypefun {struct mntent *} getmntent (FILE *@var{stream})
|
|
@standards{BSD, mntent.h}
|
|
@safety{@prelim{}@mtunsafe{@mtasurace{:mntentbuf} @mtslocale{}}@asunsafe{@asucorrupt{} @ascuheap{} @asuinit{}}@acunsafe{@acuinit{} @acucorrupt{} @aculock{} @acsmem{}}}
|
|
@c getmntent @mtasurace:mntentbuf @mtslocale @asucorrupt @ascuheap @asuinit @acuinit @acucorrupt @aculock @acsmem
|
|
@c libc_once @ascuheap @asuinit @acuinit @acsmem
|
|
@c allocate @ascuheap @acsmem
|
|
@c malloc dup @ascuheap @acsmem
|
|
@c getmntent_r dup @mtslocale @asucorrupt @ascuheap @acucorrupt @aculock @acsmem
|
|
The @code{getmntent} function takes as the parameter a file handle
|
|
previously returned by a 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.
|
|
|
|
The file format used prescribes the use of spaces or tab characters to
|
|
separate the fields. This makes it harder to use names containing one
|
|
of these characters (e.g., mount points using spaces). Therefore
|
|
these characters are encoded in the files and the @code{getmntent}
|
|
function takes care of the decoding while reading the entries back in.
|
|
@code{'\040'} is used to encode a space character, @code{'\011'} to
|
|
encode a tab character, @code{'\012'} to encode a newline character,
|
|
and @code{'\\'} to encode a backslash.
|
|
|
|
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 the file.
|
|
@end deftypefun
|
|
|
|
@deftypefun {struct mntent *} getmntent_r (FILE *@var{stream}, struct mntent *@var{result}, char *@var{buffer}, int @var{bufsize})
|
|
@standards{BSD, mntent.h}
|
|
@safety{@prelim{}@mtsafe{@mtslocale{}}@asunsafe{@asucorrupt{} @ascuheap{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{}}}
|
|
@c getmntent_r @mtslocale @asucorrupt @ascuheap @acucorrupt @aculock @acsmem
|
|
@c flockfile dup @aculock
|
|
@c fgets_unlocked dup @asucorrupt @acucorrupt [locked, so no @mtsrace:stream]
|
|
@c funlockfile dup @aculock
|
|
@c strchr dup ok
|
|
@c strspn dup ok
|
|
@c strsep dup ok
|
|
@c decode_name ok
|
|
@c sscanf dup @mtslocale @ascuheap @acsmem
|
|
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}.
|
|
|
|
Escaped characters (space, tab, backslash) are converted back in the
|
|
same way as it happens for @code{getmentent}.
|
|
|
|
The function returns a @code{NULL} pointer in error cases. 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
|
|
|
|
@deftypefun int addmntent (FILE *@var{stream}, const struct mntent *@var{mnt})
|
|
@standards{BSD, mntent.h}
|
|
@safety{@prelim{}@mtsafe{@mtsrace{:stream} @mtslocale{}}@asunsafe{@asucorrupt{}}@acunsafe{@acucorrupt{}}}
|
|
@c addmntent @mtasurace:stream @mtslocale @asucorrupt @acucorrupt
|
|
@c fseek dup @asucorrupt @acucorrupt [no @aculock]
|
|
@c encode_name ok
|
|
@c fprintf dup @mtslocale @asucorrupt @acucorrupt [no @ascuheap @acsmem, no @aculock]
|
|
@c fflush dup @asucorrupt @acucorrupt [no @aculock]
|
|
The @code{addmntent} function allows adding a 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 entry
|
|
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 takes care of spaces and tab characters in the names to be
|
|
written to the file. It converts them and the backslash character into
|
|
the format described in the @code{getmntent} description above.
|
|
|
|
This function returns @math{0} in case the operation was successful.
|
|
Otherwise the return value is @math{1} and @code{errno} is set
|
|
appropriately.
|
|
@end deftypefun
|
|
|
|
@deftypefun {char *} hasmntopt (const struct mntent *@var{mnt}, const char *@var{opt})
|
|
@standards{BSD, mntent.h}
|
|
@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
|
|
@c hasmntopt ok
|
|
@c strlen dup ok
|
|
@c strstr dup ok
|
|
@c strchr dup ok
|
|
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
|
|
exists 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
|
|
|
|
@node Other Mount Information
|
|
@subsubsection Other (Non-libc) Sources of Mount Information
|
|
|
|
On a system with a Linux kernel and the @code{proc} filesystem, you can
|
|
get information on currently mounted filesystems from the file
|
|
@file{mounts} in the @code{proc} filesystem. Its format is similar to
|
|
that of the @file{mtab} file, but represents what is truly mounted
|
|
without relying on facilities outside the kernel to keep @file{mtab} up
|
|
to date.
|
|
|
|
|
|
@node Mount-Unmount-Remount, , Mount Information, Filesystem Handling
|
|
@subsection Mount, Unmount, Remount
|
|
|
|
This section describes the functions for mounting, unmounting, and
|
|
remounting filesystems.
|
|
|
|
Only the superuser can mount, unmount, or remount a filesystem.
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These functions do not access the @file{fstab} and @file{mtab} files. You
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should maintain and use these separately. @xref{Mount Information}.
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The symbols in this section are declared in @file{sys/mount.h}.
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@deftypefun {int} mount (const char *@var{special_file}, const char *@var{dir}, const char *@var{fstype}, unsigned long int @var{options}, const void *@var{data})
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@standards{SVID, sys/mount.h}
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@standards{BSD, sys/mount.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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@c Direct syscall.
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@code{mount} mounts or remounts a filesystem. The two operations are
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quite different and are merged rather unnaturally into this one function.
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The @code{MS_REMOUNT} option, explained below, determines whether
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@code{mount} mounts or remounts.
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For a mount, the filesystem on the block device represented by the
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device special file named @var{special_file} gets mounted over the mount
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point @var{dir}. This means that the directory @var{dir} (along with any
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files in it) is no longer visible; in its place (and still with the name
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@var{dir}) is the root directory of the filesystem on the device.
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As an exception, if the filesystem type (see below) is one which is not
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based on a device (e.g. ``proc''), @code{mount} instantiates a
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filesystem and mounts it over @var{dir} and ignores @var{special_file}.
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For a remount, @var{dir} specifies the mount point where the filesystem
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to be remounted is (and remains) mounted and @var{special_file} is
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ignored. Remounting a filesystem means changing the options that control
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operations on the filesystem while it is mounted. It does not mean
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unmounting and mounting again.
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For a mount, you must identify the type of the filesystem with
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@var{fstype}. This type tells the kernel how to access the filesystem
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and can be thought of as the name of a filesystem driver. The
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acceptable values are system dependent. On a system with a Linux kernel
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and the @code{proc} filesystem, the list of possible values is in the
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file @file{filesystems} in the @code{proc} filesystem (e.g. type
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@kbd{cat /proc/filesystems} to see the list). With a Linux kernel, the
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types of filesystems that @code{mount} can mount, and their type names,
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depends on what filesystem drivers are configured into the kernel or
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loaded as loadable kernel modules. An example of a common value for
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@var{fstype} is @code{ext2}.
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For a remount, @code{mount} ignores @var{fstype}.
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@c This is traditionally called "rwflag" for historical reasons.
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@c No point in confusing people today, though.
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@var{options} specifies a variety of options that apply until the
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filesystem is unmounted or remounted. The precise meaning of an option
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depends on the filesystem and with some filesystems, an option may have
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no effect at all. Furthermore, for some filesystems, some of these
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options (but never @code{MS_RDONLY}) can be overridden for individual
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file accesses via @code{ioctl}.
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@var{options} is a bit string with bit fields defined using the
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following mask and masked value macros:
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@vtable @code
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@item MS_MGC_MASK
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This multibit field contains a magic number. If it does not have the value
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@code{MS_MGC_VAL}, @code{mount} assumes all the following bits are zero and
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the @var{data} argument is a null string, regardless of their actual values.
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@item MS_REMOUNT
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This bit on means to remount the filesystem. Off means to mount it.
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@c There is a mask MS_RMT_MASK in mount.h that says only two of the options
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@c can be reset by remount. But the Linux kernel has its own version of
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@c MS_RMT_MASK that says they all can be reset. As far as I can tell,
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@c libc just passes the arguments straight through to the kernel.
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@item MS_RDONLY
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This bit on specifies that no writing to the filesystem shall be allowed
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while it is mounted. This cannot be overridden by @code{ioctl}. This
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option is available on nearly all filesystems.
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@item MS_NOSUID
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This bit on specifies that Setuid and Setgid permissions on files in the
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filesystem shall be ignored while it is mounted.
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@item MS_NOEXEC
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This bit on specifies that no files in the filesystem shall be executed
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while the filesystem is mounted.
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@item MS_NODEV
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This bit on specifies that no device special files in the filesystem
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shall be accessible while the filesystem is mounted.
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@item MS_SYNCHRONOUS
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This bit on specifies that all writes to the filesystem while it is
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mounted shall be synchronous; i.e., data shall be synced before each
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write completes rather than held in the buffer cache.
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@item MS_MANDLOCK
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This bit on specifies that mandatory locks on files shall be permitted while
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the filesystem is mounted.
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@item MS_NOATIME
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This bit on specifies that access times of files shall not be updated when
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the files are accessed while the filesystem is mounted.
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@item MS_NODIRATIME
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This bit on specifies that access times of directories shall not be updated
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when the directories are accessed while the filesystem in mounted.
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@c there is also S_QUOTA Linux fs.h (mount.h still uses its former name
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@c S_WRITE), but I can't see what it does. Turns on quotas, I guess.
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@end vtable
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Any bits not covered by the above masks should be set off; otherwise,
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results are undefined.
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The meaning of @var{data} depends on the filesystem type and is controlled
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|
entirely by the filesystem driver in the kernel.
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Example:
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@smallexample
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@group
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#include <sys/mount.h>
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mount("/dev/hdb", "/cdrom", "iso9660", MS_MGC_VAL | MS_RDONLY | MS_NOSUID, "");
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mount("/dev/hda2", "/mnt", "", MS_MGC_VAL | MS_REMOUNT, "");
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@end group
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@end smallexample
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Appropriate arguments for @code{mount} are conventionally recorded in
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the @file{fstab} table. @xref{Mount Information}.
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The return value is zero if the mount or remount is successful. Otherwise,
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it is @code{-1} and @code{errno} is set appropriately. The values of
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@code{errno} are filesystem dependent, but here is a general list:
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|
@table @code
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|
@item EPERM
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The process is not superuser.
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@item ENODEV
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The file system type @var{fstype} is not known to the kernel.
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|
@item ENOTBLK
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The file @var{dev} is not a block device special file.
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@item EBUSY
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@itemize @bullet
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@item
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The device is already mounted.
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@item
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The mount point is busy. (E.g. it is some process' working directory or
|
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has a filesystem mounted on it already).
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@item
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The request is to remount read-only, but there are files open for writing.
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@end itemize
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|
@item EINVAL
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@itemize @bullet
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|
@item
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|
A remount was attempted, but there is no filesystem mounted over the
|
|
specified mount point.
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|
@item
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|
The supposed filesystem has an invalid superblock.
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@end itemize
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|
@item EACCES
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|
@itemize @bullet
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|
@item
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|
The filesystem is inherently read-only (possibly due to a switch on the
|
|
device) and the process attempted to mount it read/write (by setting the
|
|
@code{MS_RDONLY} bit off).
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|
|
@item
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@var{special_file} or @var{dir} is not accessible due to file permissions.
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|
|
@item
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@var{special_file} is not accessible because it is in a filesystem that is
|
|
mounted with the @code{MS_NODEV} option.
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|
@end itemize
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|
@item EM_FILE
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|
The table of dummy devices is full. @code{mount} needs to create a
|
|
dummy device (aka ``unnamed'' device) if the filesystem being mounted is
|
|
not one that uses a device.
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|
|
@end table
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|
|
@end deftypefun
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|
|
|
|
@deftypefun {int} umount2 (const char *@var{file}, int @var{flags})
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|
@standards{GNU, sys/mount.h}
|
|
@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
|
|
@c Direct syscall.
|
|
|
|
@code{umount2} unmounts a filesystem.
|
|
|
|
You can identify the filesystem to unmount either by the device special
|
|
file that contains the filesystem or by the mount point. The effect is
|
|
the same. Specify either as the string @var{file}.
|
|
|
|
@var{flags} contains the one-bit field identified by the following
|
|
mask macro:
|
|
|
|
@vtable @code
|
|
|
|
@item MNT_FORCE
|
|
This bit on means to force the unmounting even if the filesystem is
|
|
busy, by making it unbusy first. If the bit is off and the filesystem is
|
|
busy, @code{umount2} fails with @code{errno} = @code{EBUSY}. Depending
|
|
on the filesystem, this may override all, some, or no busy conditions.
|
|
|
|
@end vtable
|
|
|
|
All other bits in @var{flags} should be set to zero; otherwise, the result
|
|
is undefined.
|
|
|
|
Example:
|
|
|
|
@smallexample
|
|
@group
|
|
#include <sys/mount.h>
|
|
|
|
umount2("/mnt", MNT_FORCE);
|
|
|
|
umount2("/dev/hdd1", 0);
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|
|
|
@end group
|
|
@end smallexample
|
|
|
|
After the filesystem is unmounted, the directory that was the mount point
|
|
is visible, as are any files in it.
|
|
|
|
As part of unmounting, @code{umount2} syncs the filesystem.
|
|
|
|
If the unmounting is successful, the return value is zero. Otherwise, it
|
|
is @code{-1} and @code{errno} is set accordingly:
|
|
|
|
@table @code
|
|
@item EPERM
|
|
The process is not superuser.
|
|
@item EBUSY
|
|
The filesystem cannot be unmounted because it is busy. E.g. it contains
|
|
a directory that is some process's working directory or a file that some
|
|
process has open. With some filesystems in some cases, you can avoid
|
|
this failure with the @code{MNT_FORCE} option.
|
|
|
|
@item EINVAL
|
|
@var{file} validly refers to a file, but that file is neither a mount
|
|
point nor a device special file of a currently mounted filesystem.
|
|
|
|
@end table
|
|
|
|
This function is not available on all systems.
|
|
@end deftypefun
|
|
|
|
@deftypefun {int} umount (const char *@var{file})
|
|
@standards{SVID, sys/mount.h}
|
|
@standards{GNU, sys/mount.h}
|
|
@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
|
|
@c Direct syscall or wrapper for umount2.
|
|
|
|
@code{umount} does the same thing as @code{umount2} with @var{flags} set
|
|
to zeroes. It is more widely available than @code{umount2} but since it
|
|
lacks the possibility to forcefully unmount a filesystem is deprecated
|
|
when @code{umount2} is also available.
|
|
@end deftypefun
|