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Texinfo @vindex commands add entries to the Variable and Constant Macro Index. Similarly, @items in @vtables are automatically indexed. A number of @tables exist where all @items are @vindexed or all @items are variables, but not indexed, suggesting an optimization by converting such @tables to @vtables and dropping the @vindex. Using a @vtable provides a context for processing @items whereby it can be known the @items should have header and standards annotations. This commit converts @tables of such @items to @vtables in order to establish a framework for automated processing. A pleasant consequence of these changes is that @items previously lacking a @vindex are present in the Variable and Constant Macro Index now. @vindex entries previously detected by summary.awk will still be detected as @items with appropriate annotations. The @vtable of the NSS databases is converted to a @table because 1) those @items are not variables (and will no longer appear in the Variable and Constant Macro Index) and 2) they do not need header and standards annotations, so the incorrect context is fixed. * manual/nss.texi: Change incorrect @vtable to @table. * manual/arith.texi: Convert @tables of variables to @vtables and remove unnecessary indexing. * manual/filesys.texi: Likewise. * manual/llio.texi: Likewise. * manual/memory.texi: Likewise. * manual/process.texi: Likewise. * manual/resource.texi: Likewise. * manual/search.texi: Likewise. * manual/signal.texi: Likewise. * manual/socket.texi: Likewise. * manual/stdio.texi: Likewise. * manual/sysinfo.texi: Likewise. * manual/syslog.texi: Likewise. * manual/terminal.texi: Likewise. * manual/time.texi: Likewise. * manual/users.texi: Likewise.
579 lines
21 KiB
Plaintext
579 lines
21 KiB
Plaintext
@node Syslog, Mathematics, Low-Level Terminal Interface, Top
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@c %MENU% System logging and messaging
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@chapter Syslog
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This chapter describes facilities for issuing and logging messages of
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system administration interest. This chapter has nothing to do with
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programs issuing messages to their own users or keeping private logs
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(One would typically do that with the facilities described in
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@ref{I/O on Streams}).
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Most systems have a facility called ``Syslog'' that allows programs to
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submit messages of interest to system administrators and can be
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configured to pass these messages on in various ways, such as printing
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on the console, mailing to a particular person, or recording in a log
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file for future reference.
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A program uses the facilities in this chapter to submit such messages.
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@menu
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* Overview of Syslog:: Overview of a system's Syslog facility
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* Submitting Syslog Messages:: Functions to submit messages to Syslog
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@end menu
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@node Overview of Syslog
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@section Overview of Syslog
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System administrators have to deal with lots of different kinds of
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messages from a plethora of subsystems within each system, and usually
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lots of systems as well. For example, an FTP server might report every
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connection it gets. The kernel might report hardware failures on a disk
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drive. A DNS server might report usage statistics at regular intervals.
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Some of these messages need to be brought to a system administrator's
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attention immediately. And it may not be just any system administrator
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-- there may be a particular system administrator who deals with a
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particular kind of message. Other messages just need to be recorded for
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future reference if there is a problem. Still others may need to have
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information extracted from them by an automated process that generates
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monthly reports.
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To deal with these messages, most Unix systems have a facility called
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"Syslog." It is generally based on a daemon called ``Syslogd''
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Syslogd listens for messages on a Unix domain socket named
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@file{/dev/log}. Based on classification information in the messages
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and its configuration file (usually @file{/etc/syslog.conf}), Syslogd
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routes them in various ways. Some of the popular routings are:
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@itemize @bullet
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@item
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Write to the system console
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@item
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Mail to a specific user
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@item
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Write to a log file
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@item
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Pass to another daemon
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@item
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Discard
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@end itemize
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Syslogd can also handle messages from other systems. It listens on the
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@code{syslog} UDP port as well as the local socket for messages.
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Syslog can handle messages from the kernel itself. But the kernel
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doesn't write to @file{/dev/log}; rather, another daemon (sometimes
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called ``Klogd'') extracts messages from the kernel and passes them on to
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Syslog as any other process would (and it properly identifies them as
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messages from the kernel).
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Syslog can even handle messages that the kernel issued before Syslogd or
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Klogd was running. A Linux kernel, for example, stores startup messages
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in a kernel message ring and they are normally still there when Klogd
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later starts up. Assuming Syslogd is running by the time Klogd starts,
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Klogd then passes everything in the message ring to it.
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In order to classify messages for disposition, Syslog requires any process
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that submits a message to it to provide two pieces of classification
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information with it:
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@table @asis
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@item facility
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This identifies who submitted the message. There are a small number of
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facilities defined. The kernel, the mail subsystem, and an FTP server
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are examples of recognized facilities. For the complete list,
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@xref{syslog; vsyslog}. Keep in mind that these are
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essentially arbitrary classifications. "Mail subsystem" doesn't have any
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more meaning than the system administrator gives to it.
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@item priority
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This tells how important the content of the message is. Examples of
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defined priority values are: debug, informational, warning and critical.
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For the complete list, see @ref{syslog; vsyslog}. Except for
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the fact that the priorities have a defined order, the meaning of each
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of these priorities is entirely determined by the system administrator.
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@end table
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A ``facility/priority'' is a number that indicates both the facility
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and the priority.
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@strong{Warning:} This terminology is not universal. Some people use
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``level'' to refer to the priority and ``priority'' to refer to the
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combination of facility and priority. A Linux kernel has a concept of a
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message ``level,'' which corresponds both to a Syslog priority and to a
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Syslog facility/priority (It can be both because the facility code for
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the kernel is zero, and that makes priority and facility/priority the
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same value).
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@Theglibc{} provides functions to submit messages to Syslog. They
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do it by writing to the @file{/dev/log} socket. @xref{Submitting Syslog
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Messages}.
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The @glibcadj{} functions only work to submit messages to the Syslog
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facility on the same system. To submit a message to the Syslog facility
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on another system, use the socket I/O functions to write a UDP datagram
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to the @code{syslog} UDP port on that system. @xref{Sockets}.
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@node Submitting Syslog Messages
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@section Submitting Syslog Messages
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@Theglibc{} provides functions to submit messages to the Syslog
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facility:
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@menu
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* openlog:: Open connection to Syslog
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* syslog; vsyslog:: Submit message to Syslog
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* closelog:: Close connection to Syslog
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* setlogmask:: Cause certain messages to be ignored
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* Syslog Example:: Example of all of the above
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@end menu
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These functions only work to submit messages to the Syslog facility on
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the same system. To submit a message to the Syslog facility on another
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system, use the socket I/O functions to write a UDP datagram to the
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@code{syslog} UDP port on that system. @xref{Sockets}.
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@node openlog
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@subsection openlog
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The symbols referred to in this section are declared in the file
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@file{syslog.h}.
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@comment syslog.h
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@comment BSD
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@deftypefun void openlog (const char *@var{ident}, int @var{option}, int @var{facility})
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@safety{@prelim{}@mtsafe{}@asunsafe{@asulock{}}@acunsafe{@aculock{} @acsfd{}}}
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@c openlog @asulock @aculock @acsfd
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@c libc_lock_lock @asulock @aculock
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@c openlog_internal @acsfd [always guarded by syslog_lock, so no race]
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@c strncpy dup ok
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@c socket dup @acsfd
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@c fcntl dup ok
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@c connect dup ok
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@c close dup @acsfd
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@c cancel_handler(NULL) @aculock
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@c libc_lock_unlock @aculock
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@code{openlog} opens or reopens a connection to Syslog in preparation
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for submitting messages.
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@var{ident} is an arbitrary identification string which future
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@code{syslog} invocations will prefix to each message. This is intended
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to identify the source of the message, and people conventionally set it
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to the name of the program that will submit the messages.
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If @var{ident} is NULL, or if @code{openlog} is not called, the default
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identification string used in Syslog messages will be the program name,
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taken from argv[0].
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Please note that the string pointer @var{ident} will be retained
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internally by the Syslog routines. You must not free the memory that
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@var{ident} points to. It is also dangerous to pass a reference to an
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automatic variable since leaving the scope would mean ending the
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lifetime of the variable. If you want to change the @var{ident} string,
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you must call @code{openlog} again; overwriting the string pointed to by
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@var{ident} is not thread-safe.
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You can cause the Syslog routines to drop the reference to @var{ident} and
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go back to the default string (the program name taken from argv[0]), by
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calling @code{closelog}: @xref{closelog}.
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In particular, if you are writing code for a shared library that might get
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loaded and then unloaded (e.g. a PAM module), and you use @code{openlog},
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you must call @code{closelog} before any point where your library might
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get unloaded, as in this example:
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@smallexample
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#include <syslog.h>
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void
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shared_library_function (void)
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@{
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openlog ("mylibrary", option, priority);
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syslog (LOG_INFO, "shared library has been invoked");
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closelog ();
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@}
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@end smallexample
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Without the call to @code{closelog}, future invocations of @code{syslog}
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by the program using the shared library may crash, if the library gets
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unloaded and the memory containing the string @code{"mylibrary"} becomes
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unmapped. This is a limitation of the BSD syslog interface.
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@code{openlog} may or may not open the @file{/dev/log} socket, depending
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on @var{option}. If it does, it tries to open it and connect it as a
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stream socket. If that doesn't work, it tries to open it and connect it
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as a datagram socket. The socket has the ``Close on Exec'' attribute,
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so the kernel will close it if the process performs an exec.
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You don't have to use @code{openlog}. If you call @code{syslog} without
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having called @code{openlog}, @code{syslog} just opens the connection
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implicitly and uses defaults for the information in @var{ident} and
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@var{options}.
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@var{options} is a bit string, with the bits as defined by the following
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single bit masks:
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@vtable @code
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@item LOG_PERROR
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If on, @code{openlog} sets up the connection so that any @code{syslog}
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on this connection writes its message to the calling process' Standard
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Error stream in addition to submitting it to Syslog. If off, @code{syslog}
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does not write the message to Standard Error.
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@item LOG_CONS
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If on, @code{openlog} sets up the connection so that a @code{syslog} on
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this connection that fails to submit a message to Syslog writes the
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message instead to system console. If off, @code{syslog} does not write
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to the system console (but of course Syslog may write messages it
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receives to the console).
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@item LOG_PID
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When on, @code{openlog} sets up the connection so that a @code{syslog}
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on this connection inserts the calling process' Process ID (PID) into
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the message. When off, @code{openlog} does not insert the PID.
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@item LOG_NDELAY
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When on, @code{openlog} opens and connects the @file{/dev/log} socket.
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When off, a future @code{syslog} call must open and connect the socket.
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@strong{Portability note:} In early systems, the sense of this bit was
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exactly the opposite.
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@item LOG_ODELAY
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This bit does nothing. It exists for backward compatibility.
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@end vtable
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If any other bit in @var{options} is on, the result is undefined.
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@var{facility} is the default facility code for this connection. A
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@code{syslog} on this connection that specifies default facility causes
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this facility to be associated with the message. See @code{syslog} for
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possible values. A value of zero means the default, which is
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@code{LOG_USER}.
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If a Syslog connection is already open when you call @code{openlog},
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@code{openlog} ``reopens'' the connection. Reopening is like opening
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except that if you specify zero for the default facility code, the
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default facility code simply remains unchanged and if you specify
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LOG_NDELAY and the socket is already open and connected, @code{openlog}
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just leaves it that way.
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@c There is a bug in closelog() (glibc 2.1.3) wherein it does not reset the
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@c default log facility to LOG_USER, which means the default default log
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@c facility could be whatever the default log facility was for a previous
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@c Syslog connection. I have documented what the function should be rather
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@c than what it is because I think if anyone ever gets concerned, the code
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@c will change.
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@end deftypefun
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@node syslog; vsyslog
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@subsection syslog, vsyslog
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The symbols referred to in this section are declared in the file
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@file{syslog.h}.
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@c syslog() is implemented as a call to vsyslog().
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@comment syslog.h
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@comment BSD
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@deftypefun void syslog (int @var{facility_priority}, const char *@var{format}, @dots{})
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@safety{@prelim{}@mtsafe{@mtsenv{} @mtslocale{}}@asunsafe{@asucorrupt{} @ascuheap{} @asulock{} @ascudlopen{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{} @acsfd{}}}
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@c syslog @mtsenv @mtslocale @asucorrupt @ascuheap @asulock @ascudlopen @acucorrupt @aculock @acsmem @acsfd
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@c va_start dup ok
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@c vsyslog_chk @mtsenv @mtslocale @asucorrupt @ascuheap @asulock @ascudlopen @acucorrupt @aculock @acsmem @acsfd
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@c syslog(INTERNALLOG) dup @mtsenv @mtslocale @asucorrupt @ascuheap @asulock @ascudlopen @acucorrupt @aculock @acsmem @acsfd
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@c open_memstream @ascuheap @acsmem
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@c stpcpy dup ok
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@c getpid dup ok
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@c mempcpy dup ok
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@c fsetlocking [no @mtasurace:stream @asulock for exclusive stream]
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@c fprintf @mtslocale @ascuheap @acsmem [no @asucorrupt @aculock @acucorrupt on temp memstream]
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@c time dup ok
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@c localtime_r dup @mtsenv @mtslocale @ascuheap @asulock @aculock @acsmem @acsfd
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@c strftime_l(C) dup @mtsenv @mtslocale @asucorrupt @ascuheap @asulock @ascudlopen @acucorrupt @aculock @acsmem @acsfd
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@c ftell dup ok [no @asucorrupt @aculock @acucorrupt on temp memstream]
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@c fputs_unlocked dup ok [no @mtasurace:stream @asucorrupt @acucorrupt on temp memstream]
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@c putc_unlocked dup ok [no @mtasurace:stream @asucorrupt @acucorrupt on temp memstream]
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@c vfprintf/vfprintf_chk dup @mtslocale @ascuheap @acsmem [no @mtasurace:stream @asucorrupt @acucorrupt on temp memstream]
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@c fclose dup @ascuheap @acsmem [no @asulock @aculock @acsfd on caller-locked memstream]
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@c writev dup ok
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@c libc_lock_lock dup @asulock @aculock
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@c memset dup ok
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@c sigemptyset dup ok
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@c sigaction(SIGPIPE) dup @mtasusig:PIPE @acusig:PIPE
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@c openlog_internal dup @acsfd
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@c send dup ok
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@c closelog_internal dup @acsfd
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@c open dup @acsfd
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@c dprintf dup ok
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@c libc_lock_unlock @asulock @aculock
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@c free dup @acsuheap @acsmem
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@c va_end dup ok
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@code{syslog} submits a message to the Syslog facility. It does this by
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writing to the Unix domain socket @code{/dev/log}.
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@code{syslog} submits the message with the facility and priority indicated
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by @var{facility_priority}. The macro @code{LOG_MAKEPRI} generates a
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facility/priority from a facility and a priority, as in the following
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example:
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@smallexample
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LOG_MAKEPRI(LOG_USER, LOG_WARNING)
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@end smallexample
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The possible values for the facility code are (macros):
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@c Internally, there is also LOG_KERN, but LOG_KERN == 0, which means
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@c if you try to use it here, just selects default.
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@vtable @code
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@item LOG_USER
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A miscellaneous user process
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@item LOG_MAIL
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Mail
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@item LOG_DAEMON
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A miscellaneous system daemon
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@item LOG_AUTH
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Security (authorization)
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@item LOG_SYSLOG
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Syslog
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@item LOG_LPR
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Central printer
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@item LOG_NEWS
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Network news (e.g. Usenet)
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@item LOG_UUCP
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UUCP
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@item LOG_CRON
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Cron and At
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@item LOG_AUTHPRIV
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Private security (authorization)
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@item LOG_FTP
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Ftp server
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@item LOG_LOCAL0
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Locally defined
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@item LOG_LOCAL1
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Locally defined
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@item LOG_LOCAL2
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Locally defined
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@item LOG_LOCAL3
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Locally defined
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@item LOG_LOCAL4
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Locally defined
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@item LOG_LOCAL5
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Locally defined
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@item LOG_LOCAL6
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Locally defined
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@item LOG_LOCAL7
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Locally defined
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@end vtable
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Results are undefined if the facility code is anything else.
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@strong{NB:} @code{syslog} recognizes one other facility code: that of
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the kernel. But you can't specify that facility code with these
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functions. If you try, it looks the same to @code{syslog} as if you are
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requesting the default facility. But you wouldn't want to anyway,
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because any program that uses @theglibc{} is not the kernel.
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You can use just a priority code as @var{facility_priority}. In that
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case, @code{syslog} assumes the default facility established when the
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Syslog connection was opened. @xref{Syslog Example}.
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The possible values for the priority code are (macros):
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@vtable @code
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@item LOG_EMERG
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The message says the system is unusable.
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@item LOG_ALERT
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Action on the message must be taken immediately.
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@item LOG_CRIT
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The message states a critical condition.
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@item LOG_ERR
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The message describes an error.
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@item LOG_WARNING
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The message is a warning.
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@item LOG_NOTICE
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The message describes a normal but important event.
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@item LOG_INFO
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The message is purely informational.
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@item LOG_DEBUG
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The message is only for debugging purposes.
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@end vtable
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Results are undefined if the priority code is anything else.
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If the process does not presently have a Syslog connection open (i.e.,
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it did not call @code{openlog}), @code{syslog} implicitly opens the
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connection the same as @code{openlog} would, with the following defaults
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for information that would otherwise be included in an @code{openlog}
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call: The default identification string is the program name. The
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default default facility is @code{LOG_USER}. The default for all the
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connection options in @var{options} is as if those bits were off.
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@code{syslog} leaves the Syslog connection open.
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If the @file{/dev/log} socket is not open and connected, @code{syslog}
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opens and connects it, the same as @code{openlog} with the
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@code{LOG_NDELAY} option would.
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@code{syslog} leaves @file{/dev/log} open and connected unless its attempt
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to send the message failed, in which case @code{syslog} closes it (with the
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hope that a future implicit open will restore the Syslog connection to a
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usable state).
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Example:
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@smallexample
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#include <syslog.h>
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syslog (LOG_MAKEPRI(LOG_LOCAL1, LOG_ERROR),
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"Unable to make network connection to %s. Error=%m", host);
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@end smallexample
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@end deftypefun
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@comment syslog.h
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@comment BSD
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@deftypefun void vsyslog (int @var{facility_priority}, const char *@var{format}, va_list @var{arglist})
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@safety{@prelim{}@mtsafe{@mtsenv{} @mtslocale{}}@asunsafe{@asucorrupt{} @ascuheap{} @asulock{} @ascudlopen{}}@acunsafe{@acucorrupt{} @aculock{} @acsmem{} @acsfd{}}}
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@c vsyslog @mtsenv @mtslocale @asucorrupt @ascuheap @asulock @ascudlopen @acucorrupt @aculock @acsmem @acsfd
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@c vsyslog_chk dup @mtsenv @mtslocale @asucorrupt @ascuheap @asulock @ascudlopen @acucorrupt @aculock @acsmem @acsfd
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This is functionally identical to @code{syslog}, with the BSD style variable
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length argument.
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@end deftypefun
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@node closelog
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@subsection closelog
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The symbols referred to in this section are declared in the file
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@file{syslog.h}.
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@comment syslog.h
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@comment BSD
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@deftypefun void closelog (void)
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@safety{@prelim{}@mtsafe{}@asunsafe{@asulock{}}@acunsafe{@aculock{} @acsfd{}}}
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@c closelog @asulock @aculock @acsfd
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@c libc_lock_lock @asulock @aculock
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@c closelog_internal @acsfd [always guarded by syslog_lock, so no race]
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@c close dup@acsfd
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@c cancel_handler(NULL) @aculock
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@c libc_lock_unlock @aculock
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@code{closelog} closes the current Syslog connection, if there is one.
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This includes closing the @file{/dev/log} socket, if it is open.
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@code{closelog} also sets the identification string for Syslog messages
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back to the default, if @code{openlog} was called with a non-NULL argument
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|
to @var{ident}. The default identification string is the program name
|
|
taken from argv[0].
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If you are writing shared library code that uses @code{openlog} to
|
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generate custom syslog output, you should use @code{closelog} to drop
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@theglibc{}'s internal reference to the @var{ident} pointer when you are
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|
done. Please read the section on @code{openlog} for more information:
|
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@xref{openlog}.
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|
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@code{closelog} does not flush any buffers. You do not have to call
|
|
@code{closelog} before re-opening a Syslog connection with @code{openlog}.
|
|
Syslog connections are automatically closed on exec or exit.
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|
|
|
@end deftypefun
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|
|
@node setlogmask
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|
@subsection setlogmask
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|
|
|
The symbols referred to in this section are declared in the file
|
|
@file{syslog.h}.
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|
|
|
@comment syslog.h
|
|
@comment BSD
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|
@deftypefun int setlogmask (int @var{mask})
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|
@safety{@prelim{}@mtunsafe{@mtasurace{:LogMask}}@asunsafe{}@acsafe{}}
|
|
@c Read and modify are not guarded by syslog_lock, so concurrent changes
|
|
@c or even uses are undefined. This should use an atomic swap instead,
|
|
@c at least for modifications.
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|
|
|
@code{setlogmask} sets a mask (the ``logmask'') that determines which
|
|
future @code{syslog} calls shall be ignored. If a program has not
|
|
called @code{setlogmask}, @code{syslog} doesn't ignore any calls. You
|
|
can use @code{setlogmask} to specify that messages of particular
|
|
priorities shall be ignored in the future.
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|
|
|
A @code{setlogmask} call overrides any previous @code{setlogmask} call.
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|
|
|
Note that the logmask exists entirely independently of opening and
|
|
closing of Syslog connections.
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|
|
|
Setting the logmask has a similar effect to, but is not the same as,
|
|
configuring Syslog. The Syslog configuration may cause Syslog to
|
|
discard certain messages it receives, but the logmask causes certain
|
|
messages never to get submitted to Syslog in the first place.
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|
|
|
@var{mask} is a bit string with one bit corresponding to each of the
|
|
possible message priorities. If the bit is on, @code{syslog} handles
|
|
messages of that priority normally. If it is off, @code{syslog}
|
|
discards messages of that priority. Use the message priority macros
|
|
described in @ref{syslog; vsyslog} and the @code{LOG_MASK} to construct
|
|
an appropriate @var{mask} value, as in this example:
|
|
|
|
@smallexample
|
|
LOG_MASK(LOG_EMERG) | LOG_MASK(LOG_ERROR)
|
|
@end smallexample
|
|
|
|
or
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|
|
|
@smallexample
|
|
~(LOG_MASK(LOG_INFO))
|
|
@end smallexample
|
|
|
|
There is also a @code{LOG_UPTO} macro, which generates a mask with the bits
|
|
on for a certain priority and all priorities above it:
|
|
|
|
@smallexample
|
|
LOG_UPTO(LOG_ERROR)
|
|
@end smallexample
|
|
|
|
The unfortunate naming of the macro is due to the fact that internally,
|
|
higher numbers are used for lower message priorities.
|
|
|
|
@end deftypefun
|
|
|
|
|
|
@node Syslog Example
|
|
@subsection Syslog Example
|
|
|
|
Here is an example of @code{openlog}, @code{syslog}, and @code{closelog}:
|
|
|
|
This example sets the logmask so that debug and informational messages
|
|
get discarded without ever reaching Syslog. So the second @code{syslog}
|
|
in the example does nothing.
|
|
|
|
@smallexample
|
|
#include <syslog.h>
|
|
|
|
setlogmask (LOG_UPTO (LOG_NOTICE));
|
|
|
|
openlog ("exampleprog", LOG_CONS | LOG_PID | LOG_NDELAY, LOG_LOCAL1);
|
|
|
|
syslog (LOG_NOTICE, "Program started by User %d", getuid ());
|
|
syslog (LOG_INFO, "A tree falls in a forest");
|
|
|
|
closelog ();
|
|
|
|
@end smallexample
|