Provided by: libmoosex-daemonize-perl_0.18-1_all bug

NAME

       MooseX::Daemonize::Core - A Role with the core daemonization features

SYNOPSIS

         package My::Daemon;
         use Moose;

         with 'MooseX::Daemonize::Core';

         sub start {
             my $self = shift;
             # daemonize me ...
             $self->daemonize;
             # return from the parent,...
             return unless $self->is_daemon;
             # but continue on in the child (daemon)
         }

DESCRIPTION

       This is the basic daemonization Role, it provides a few methods (see below) and the
       minimum features needed to properly daemonize your code.

   Important Notes
       None of the methods in this role will exit the parent process for you, it only forks and
       detaches your child (daemon) process. It is your responsibility to exit the parent process
       in some way.

       There is no PID or PID file management in this role, that is your responsibility (see some
       of the other roles in this distro for that).

ATTRIBUTES

       is_daemon (is = rw, isa => Bool)>
           This attribute is used to signal if we are within the daemon process or not.

       no_double_fork (is = rw, isa => Bool)>
           Setting this attribute to true will cause this method to not perform the typical
           double-fork, which is extra added protection from your process accidentally aquiring a
           controlling terminal. More information can be found above, and by Googling "double
           fork daemonize".

           If you the double-fork behavior off, you might want to enable the ignore_zombies.

       ignore_zombies (is = rw, isa => Bool)>
           Setting this attribute to a true value will result in setting the $SIG{CHLD} handler
           to "IGNORE". This tells perl to clean up zombie processes. By default, and for the
           most part you don't need it, only when you turn off the double fork behavior (with the
           no_double_fork attribute) do you sometimes want this behavior.

       dont_close_all_files (is = rw, isa => Bool)>
           Setting this attribute to true will cause it to skip closing all the filehandles. This
           is useful if you are opening things like sockets and such in the pre-fork.

METHODS

       daemon_fork (?%options)
           This forks off the child process to be daemonized. Just as with the built in fork, it
           returns the child pid to the parent process, 0 to the child process. It will also set
           the is_daemon flag appropriately.

           The %options argument remains for backwards compatibility, but it is suggested that
           you use the attributes listed above instead.

       daemon_detach (?%options)
           This detaches the new child process from the terminal by doing the following things.

           The %options argument remains for backwards compatibility, but it is suggested that
           you use the attributes listed above instead.

           Becomes a session leader
               This detaches the program from the controlling terminal, it is accomplished by
               calling POSIX::setsid.

           Performing the double-fork
               See below for information on how to change this part of the process.

           Changes the current working directory to "/"
               This is standard daemon behavior, if you want a different working directory then
               simply change it later in your daemons code.

           Clears the file creation mask.
           Closes all open file descriptors.
               See the dont_close_all_files attribute for information on how to change this part
               of the process.

           Reopen STDERR, STDOUT & STDIN to /dev/null
               This behavior can be controlled slightly though the MX_DAEMON_STDERR and
               MX_DAEMON_STDOUT environment variables. It will look for a filename in either of
               these variables and redirect STDOUT and/or STDERR to those files. This is useful
               for debugging and/or testing purposes.

               NOTE

               If called from within the parent process (the is_daemon flag is set to false),
               this method will simply return and do nothing.

           daemonize (?%options)
               This will simply call "daemon_fork" followed by "daemon_detach".

               The %options argument remains for backwards compatibility, but it is suggested
               that you use the attributes listed above instead.

           meta()
               The "meta()" method from Class::MOP::Class

STUFF YOU SHOULD READ

       Note about double fork
           Taken from <http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/66012> in a
           comment entitled The second fork _is_ necessary by Jonathan Bartlett, it is not the
           definitive statement on the issue, but it's clear and well written enough so I decided
           to reproduce it here.

             The first fork accomplishes two things - allow the shell to return,
             and allow you to do a setsid().

             The setsid() removes yourself from your controlling terminal. You
             see, before, you were still listed as a job of your previous process,
             and therefore the user might accidentally send you a signal. setsid()
             gives you a new session, and removes the existing controlling terminal.

             The problem is, you are now a session leader. As a session leader, if
             you open a file descriptor that is a terminal, it will become your
             controlling terminal (oops!). Therefore, the second fork makes you NOT
             be a session leader. Only session leaders can acquire a controlling
             terminal, so you can open up any file you wish without worrying that
             it will make you a controlling terminal.

             So - first fork - allow shell to return, and permit you to call setsid()

             Second fork - prevent you from accidentally reacquiring a controlling
             terminal.

           That said, you don't always want this to be the behavior, so you are free to specify
           otherwise using the no_double_fork attribute.

       Note about zombies
           Doing the double fork (see above) tends to get rid of your zombies since by the time
           you have double forked your daemon process is then owned by the init process. However,
           sometimes the double-fork is more than you really need, and you want to keep your
           daemon processes a little closer to you. In this case you have to watch out for
           zombies, you can avoid then by just setting the ignore_zombies attribute (see above).

ENVIRONMENT VARIABLES

       These variables are best just used for debugging and/or testing, but not used for actual
       logging. For that, you should reopen STDOUT/ERR on your own.

       MX_DAEMON_STDOUT
           A filename to redirect the daemon STDOUT to.

       MX_DAEMON_STDERR
           A filename to redirect the daemon STDERR to.

DEPENDENCIES

       Moose::Role, POSIX

INCOMPATIBILITIES

       None reported.

BUGS AND LIMITATIONS

       No bugs have been reported.

       Please report any bugs or feature requests to "bug-acme-dahut-call@rt.cpan.org", or
       through the web interface at <http://rt.cpan.org>.

SEE ALSO

       Proc::Daemon

       This code is based HEAVILY on Proc::Daemon, we originally depended on it, but we needed
       some more flexibility, so instead we just stole the code.

AUTHOR

       Stevan Little  "<stevan.little@iinteractive.com>"

LICENCE AND COPYRIGHT

       Copyright (c) 2007-2011, Chris Prather "<perigrin@cpan.org>". All rights reserved.

       Portions heavily borrowed from Proc::Daemon which is copyright Earl Hood.

       This module is free software; you can redistribute it and/or modify it under the same
       terms as Perl itself. See perlartistic.

DISCLAIMER OF WARRANTY

       BECAUSE THIS SOFTWARE IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE SOFTWARE,
       TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE
       COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE SOFTWARE "AS IS" WITHOUT WARRANTY OF
       ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
       WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO
       THE QUALITY AND PERFORMANCE OF THE SOFTWARE IS WITH YOU. SHOULD THE SOFTWARE PROVE
       DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR, OR CORRECTION.

       IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT
       HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE SOFTWARE AS PERMITTED BY
       THE ABOVE LICENCE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL,
       INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE
       SOFTWARE (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR
       LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE SOFTWARE TO OPERATE WITH ANY
       OTHER SOFTWARE), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
       SUCH DAMAGES.