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################################################################################ ## File: ## Daemon.pm ## Authors: ## Earl Hood earl@earlhood.com ## Detlef Pilzecker deti@cpan.org ## Pavel Denisov akreal@cpan.org ## Description: ## Run Perl program(s) as a daemon process, see docs in the Daemon.pod file ################################################################################ ## Copyright (C) 1997-2015 by Earl Hood, Detlef Pilzecker and Pavel Denisov. ## ## All rights reserved. ## ## This module is free software. It may be used, redistributed and/or modified ## under the same terms as Perl itself. ################################################################################ package Proc::Daemon; use strict; use POSIX(); $Proc::Daemon::VERSION = '0.23'; ################################################################################ # Create the Daemon object: # my $daemon = Proc::Daemon->new( [ %Daemon_Settings ] ) # # %Daemon_Settings are hash key=>values and can be: # work_dir => '/working/daemon/directory' -> defaults to '/' # setgid => 12345 -> defaults to <undef> # setuid => 12345 -> defaults to <undef> # child_STDIN => '/path/to/daemon/STDIN.file' -> defautls to '</dev/null' # child_STDOUT => '/path/to/daemon/STDOUT.file' -> defaults to '+>/dev/null' # child_STDERR => '/path/to/daemon/STDERR.file' -> defaults to '+>/dev/null' # dont_close_fh => [ 'main::DATA', 'PackageName::DATA', 'STDOUT', ... ] # -> arrayref with file handles you do not want to be closed in the daemon. # dont_close_fd => [ 5, 8, ... ] -> arrayref with file # descriptors you do not want to be closed in the daemon. # pid_file => '/path/to/pid/file.txt' -> defaults to # undef (= write no file). # file_umask => 022 -> defaults to 066 # exec_command => 'perl /home/script.pl' -> execute a system command # via Perls *exec PROGRAM* at the end of the Init routine and never return. # Must be an arrayref if you want to create several daemons at once. # # Returns: the blessed object. ################################################################################ sub new { my ( $class, %args ) = @_; my $self = \%args; bless( $self, $class ); $self->{memory} = {}; return $self; } ################################################################################ # Become a daemon: # $daemon->Init # # or, for more daemons with other settings in the same script: # Use a hash as below. The argument must (!) now be a hashref: {...} # even if you don't modify the initial settings (=> use empty hashref). # $daemon->Init( { [ %Daemon_Settings ] } ) # # or, if no Daemon->new() object was created and for backward compatibility: # Proc::Daemon::Init( [ { %Daemon_Settings } ] ) # In this case the argument must be <undef> or a hashref! # # %Daemon_Settings see &new. # # Returns to the parent: # - nothing (parent does exit) if the context is looking for no return value. # - the PID(s) of the daemon(s) created. # Returns to the child (daemon): # its PID (= 0) | never returns if used with 'exec_command'. ################################################################################ sub Init { my Proc::Daemon $self = shift; my $settings_ref = shift; # Check if $self has been blessed into the package, otherwise do it now. unless ( ref( $self ) && eval{ $self->isa( 'Proc::Daemon' ) } ) { $self = ref( $self ) eq 'HASH' ? Proc::Daemon->new( %$self ) : Proc::Daemon->new(); } # If $daemon->Init is used again in the same script, # update to the new arguments. elsif ( ref( $settings_ref ) eq 'HASH' ) { map { $self->{ $_ } = $$settings_ref{ $_ } } keys %$settings_ref; } # Open a filehandle to an anonymous temporary pid file. If this is not # possible (some environments do not allow all users to use anonymous # temporary files), use the pid_file(s) to retrieve the PIDs for the parent. my $FH_MEMORY; unless ( open( $FH_MEMORY, "+>", undef ) || $self->{pid_file} ) { die "Can not <open> anonymous temporary pidfile ('$!'), therefore you must add 'pid_file' as an Init() argument, e.g. to: '/tmp/proc_daemon_pids'"; } # Get the file descriptors the user does not want to close. my %dont_close_fd; if ( defined $self->{dont_close_fd} ) { die "The argument 'dont_close_fd' must be arrayref!" if ref( $self->{dont_close_fd} ) ne 'ARRAY'; foreach ( @{ $self->{dont_close_fd} } ) { die "All entries in 'dont_close_fd' must be numeric ('$_')!" if $_ =~ /\D/; $dont_close_fd{ $_ } = 1; } } # Get the file descriptors of the handles the user does not want to close. if ( defined $self->{dont_close_fh} ) { die "The argument 'dont_close_fh' must be arrayref!" if ref( $self->{dont_close_fh} ) ne 'ARRAY'; foreach ( @{ $self->{dont_close_fh} } ) { if ( defined ( my $fn = fileno $_ ) ) { $dont_close_fd{ $fn } = 1; } } } # If system commands are to be executed, put them in a list. my @exec_command = ref( $self->{exec_command} ) eq 'ARRAY' ? @{ $self->{exec_command} } : ( $self->{exec_command} ); $#exec_command = 0 if $#exec_command < 0; # Create a daemon for every system command. foreach my $exec_command ( @exec_command ) { # The first parent is running here. # Using this subroutine or loop multiple times we must modify the filenames: # 'child_STDIN', 'child_STDOUT', 'child_STDERR' and 'pid_file' for every # daemon (a higher number will be appended to the filenames). $self->adjust_settings(); # First fork. my $pid = Fork(); if ( defined $pid && $pid == 0 ) { # The first child runs here. # Set the new working directory. die "Can't <chdir> to $self->{work_dir}: $!" unless chdir $self->{work_dir}; # Set the file creation mask. $self->{_orig_umask} = umask; umask($self->{file_umask}); # Detach the child from the terminal (no controlling tty), make it the # session-leader and the process-group-leader of a new process group. die "Cannot detach from controlling terminal" if POSIX::setsid() < 0; # "Is ignoring SIGHUP necessary? # # It's often suggested that the SIGHUP signal should be ignored before # the second fork to avoid premature termination of the process. The # reason is that when the first child terminates, all processes, e.g. # the second child, in the orphaned group will be sent a SIGHUP. # # 'However, as part of the session management system, there are exactly # two cases where SIGHUP is sent on the death of a process: # # 1) When the process that dies is the session leader of a session that # is attached to a terminal device, SIGHUP is sent to all processes # in the foreground process group of that terminal device. # 2) When the death of a process causes a process group to become # orphaned, and one or more processes in the orphaned group are # stopped, then SIGHUP and SIGCONT are sent to all members of the # orphaned group.' [2] # # The first case can be ignored since the child is guaranteed not to have # a controlling terminal. The second case isn't so easy to dismiss. # The process group is orphaned when the first child terminates and # POSIX.1 requires that every STOPPED process in an orphaned process # group be sent a SIGHUP signal followed by a SIGCONT signal. Since the # second child is not STOPPED though, we can safely forego ignoring the # SIGHUP signal. In any case, there are no ill-effects if it is ignored." # Source: http://code.activestate.com/recipes/278731/ # # local $SIG{'HUP'} = 'IGNORE'; # Second fork. # This second fork is not absolutely necessary, it is more a precaution. # 1. Prevent possibility of reacquiring a controlling terminal. # Without this fork the daemon would remain a session-leader. In # this case there is a potential possibility that the process could # reacquire a controlling terminal. E.g. if it opens a terminal device, # without using the O_NOCTTY flag. In Perl this is normally the case # when you use <open> on this kind of device, instead of <sysopen> # with the O_NOCTTY flag set. # Note: Because of the second fork the daemon will not be a session- # leader and therefore Signals will not be send to other members of # his process group. If you need the functionality of a session-leader # you may want to call POSIX::setsid() manually on your daemon. # 2. Detach the daemon completely from the parent. # The double-fork prevents the daemon from becoming a zombie. It is # needed in this module because the grandparent process can continue. # Without the second fork and if a child exits before the parent # and you forget to call <wait> in the parent you will get a zombie # until the parent also terminates. Using the second fork we can be # sure that the parent of the daemon is finished near by or before # the daemon exits. $pid = Fork(); if ( defined $pid && $pid == 0 ) { # Here the second child is running. # Close all file handles and descriptors the user does not want # to preserve. my $hc_fd; # highest closed file descriptor close $FH_MEMORY; foreach ( 0 .. OpenMax() ) { unless ( $dont_close_fd{ $_ } ) { if ( $_ == 0 ) { close STDIN } elsif ( $_ == 1 ) { close STDOUT } elsif ( $_ == 2 ) { close STDERR } else { $hc_fd = $_ if POSIX::close( $_ ) } } } # Sets the real group identifier and the effective group # identifier for the daemon process before opening files. # Must set group first because you cannot change group # once you have changed user POSIX::setgid( $self->{setgid} ) if defined $self->{setgid}; # Sets the real user identifier and the effective user # identifier for the daemon process before opening files. POSIX::setuid( $self->{setuid} ) if defined $self->{setuid}; # Reopen STDIN, STDOUT and STDERR to 'child_STD...'-path or to # /dev/null. Data written on a null special file is discarded. # Reads from the null special file always return end of file. open( STDIN, $self->{child_STDIN} || "</dev/null" ) unless $dont_close_fd{ 0 }; open( STDOUT, $self->{child_STDOUT} || "+>/dev/null" ) unless $dont_close_fd{ 1 }; open( STDERR, $self->{child_STDERR} || "+>/dev/null" ) unless $dont_close_fd{ 2 }; # Since <POSIX::close(FD)> is in some cases "secretly" closing # file descriptors without telling it to perl, we need to # re<open> and <CORE::close(FH)> as many files as we closed with # <POSIX::close(FD)>. Otherwise it can happen (especially with # FH opened by __DATA__ or __END__) that there will be two perl # handles associated with one file, what can cause some # confusion. :-) # see: http://rt.perl.org/rt3/Ticket/Display.html?id=72526 if ( $hc_fd ) { my @fh; foreach ( 3 .. $hc_fd ) { open $fh[ $_ ], "</dev/null" } # Perl will try to close all handles when @fh leaves scope # here, but the rude ones will sacrifice themselves to avoid # potential damage later. } # Restore the original file creation mask. umask $self->{_orig_umask}; # Execute a system command and never return. if ( $exec_command ) { exec ($exec_command) or die "couldn't exec $exec_command: $!"; exit; # Not a real exit, but needed since Perl warns you if # there is no statement like <die>, <warn>, or <exit> # following <exec>. The <exec> function executes a system # command and never returns. } # Return the childs own PID (= 0) return $pid; } # First child (= second parent) runs here. # Print the PID of the second child into ... $pid ||= ''; # ... the anonymous temporary pid file. if ( $FH_MEMORY ) { print $FH_MEMORY "$pid\n"; close $FH_MEMORY; } # ... the real 'pid_file'. if ( $self->{pid_file} ) { open( my $FH_PIDFILE, "+>", $self->{pid_file} ) || die "Can not open pidfile (pid_file => '$self->{pid_file}'): $!"; print $FH_PIDFILE $pid; close $FH_PIDFILE; } # Don't <wait> for the second child to exit, # even if we don't have a value in $exec_command. # The second child will become orphan by <exit> here, but then it # will be adopted by init(8), which automatically performs a <wait> # to remove the zombie when the child exits. POSIX::_exit(0); } # Only first parent runs here. # A child that terminates, but has not been waited for becomes # a zombie. So we wait for the first child to exit. waitpid( $pid, 0 ); } # Only first parent runs here. # Exit if the context is looking for no value (void context). exit 0 unless defined wantarray; # Get the daemon PIDs out of the anonymous temporary pid file # or out of the real pid-file(s) my @pid; if ( $FH_MEMORY ) { seek( $FH_MEMORY, 0, 0 ); @pid = map { chomp $_; $_ eq '' ? undef : $_ } <$FH_MEMORY>; $_ = (/^(\d+)$/)[0] foreach @pid; # untaint close $FH_MEMORY; } elsif ( $self->{memory}{pid_file} ) { foreach ( keys %{ $self->{memory}{pid_file} } ) { open( $FH_MEMORY, "<", $_ ) || die "Can not open pid_file '<$_': $!"; push( @pid, <$FH_MEMORY> ); close $FH_MEMORY; } } # Return the daemon PIDs (from second child/ren) to the first parent. return ( wantarray ? @pid : $pid[0] ); } # For backward capability: *init = \&Init; ################################################################################ # Set some defaults and adjust some settings. # Args: ( $self ) # Returns: nothing ################################################################################ sub adjust_settings { my Proc::Daemon $self = shift; # Set default 'work_dir' if needed. $self->{work_dir} ||= '/'; $self->fix_filename( 'child_STDIN', 1 ) if $self->{child_STDIN}; $self->fix_filename( 'child_STDOUT', 1 ) if $self->{child_STDOUT}; $self->fix_filename( 'child_STDERR', 1 ) if $self->{child_STDERR}; # Check 'pid_file's name if ( $self->{pid_file} ) { die "Pidfile (pid_file => '$self->{pid_file}') can not be only a number. I must be able to distinguish it from a PID number in &get_pid('...')." if $self->{pid_file} =~ /^\d+$/; $self->fix_filename( 'pid_file' ); } $self->{file_umask} ||= 066; return; } ################################################################################ # - If the keys value is only a filename add the path of 'work_dir'. # - If we have already set a file for this key with the same "path/name", # add a number to the file. # Args: ( $self, $key, $extract_mode ) # key: one of 'child_STDIN', 'child_STDOUT', 'child_STDERR', 'pid_file' # extract_mode: true = separate <open> MODE form filename before checking # path/filename; false = no MODE to check # Returns: nothing ################################################################################ sub fix_filename { my Proc::Daemon $self = shift; my $key = shift; my $var = $self->{ $key }; my $mode = ( shift ) ? ( $var =~ s/^([\+\<\>\-\|]+)// ? $1 : ( $key eq 'child_STDIN' ? '<' : '+>' ) ) : ''; # add path to filename if ( $var =~ s/^\.\/// || $var !~ /\// ) { $var = $self->{work_dir} =~ /\/$/ ? $self->{work_dir} . $var : $self->{work_dir} . '/' . $var; } # If the file was already in use, modify it with '_number': # filename_X | filename_X.ext if ( $self->{memory}{ $key }{ $var } ) { $var =~ s/([^\/]+)$//; my @i = split( /\./, $1 ); my $j = $#i ? $#i - 1 : 0; $self->{memory}{ "$key\_num" } ||= 0; $i[ $j ] =~ s/_$self->{memory}{ "$key\_num" }$//; $self->{memory}{ "$key\_num" }++; $i[ $j ] .= '_' . $self->{memory}{ "$key\_num" }; $var .= join( '.', @i ); } $self->{memory}{ $key }{ $var } = 1; $self->{ $key } = $mode . $var; return; } ################################################################################ # Fork(): Retries to fork over 30 seconds if possible to fork at all and # if necessary. # Returns the child PID to the parent process and 0 to the child process. # If the fork is unsuccessful it C<warn>s and returns C<undef>. ################################################################################ sub Fork { my $pid; my $loop = 0; FORK: { if ( defined( $pid = fork ) ) { return $pid; } # EAGAIN - fork cannot allocate sufficient memory to copy the parent's # page tables and allocate a task structure for the child. # ENOMEM - fork failed to allocate the necessary kernel structures # because memory is tight. # Last the loop after 30 seconds if ( $loop < 6 && ( $! == POSIX::EAGAIN() || $! == POSIX::ENOMEM() ) ) { $loop++; sleep 5; redo FORK; } } warn "Can't fork: $!"; return undef; } ################################################################################ # OpenMax( [ NUMBER ] ) # Returns the maximum number of possible file descriptors. If sysconf() # does not give me a valid value, I return NUMBER (default is 64). ################################################################################ sub OpenMax { my $openmax = POSIX::sysconf( &POSIX::_SC_OPEN_MAX ); return ( ! defined( $openmax ) || $openmax < 0 ) ? ( shift || 64 ) : $openmax; } ################################################################################ # Check if the (daemon) process is alive: # Status( [ number or string ] ) # # Examples: # $object->Status() - Tries to get the PID out of the settings in new() and checks it. # $object->Status( 12345 ) - Number of PID to check. # $object->Status( './pid.txt' ) - Path to file containing one PID to check. # $object->Status( 'perl /home/my_perl_daemon.pl' ) - Command line entry of the # running program to check. Requires Proc::ProcessTable to work. # # Returns the PID (alive) or 0 (dead). ################################################################################ sub Status { my Proc::Daemon $self = shift; my $pid = shift; # Get the process ID. ( $pid, undef ) = $self->get_pid( $pid ); # Return if no PID was found. return 0 if ! $pid; # The kill(2) system call will check whether it's possible to send # a signal to the pid (that means, to be brief, that the process # is owned by the same user, or we are the super-user). This is a # useful way to check that a child process is alive (even if only # as a zombie) and hasn't changed its UID. return ( kill( 0, $pid ) ? $pid : 0 ); } ################################################################################ # Kill the (daemon) process: # Kill_Daemon( [ number or string [, SIGNAL ] ] ) # # Examples: # $object->Kill_Daemon() - Tries to get the PID out of the settings in new() and kill it. # $object->Kill_Daemon( 12345, 'TERM' ) - Number of PID to kill with signal 'TERM'. The # names or numbers of the signals are the ones listed out by kill -l on your system. # $object->Kill_Daemon( './pid.txt' ) - Path to file containing one PID to kill. # $object->Kill_Daemon( 'perl /home/my_perl_daemon.pl' ) - Command line entry of the # running program to kill. Requires Proc::ProcessTable to work. # # Returns the number of processes successfully killed, # which mostly is not the same as the PID number. ################################################################################ sub Kill_Daemon { my Proc::Daemon $self = shift; my $pid = shift; my $signal = shift || 'KILL'; my $pidfile; # Get the process ID. ( $pid, $pidfile ) = $self->get_pid( $pid ); # Return if no PID was found. return 0 if ! $pid; # Kill the process. my $killed = kill( $signal, $pid ); if ( $killed && $pidfile ) { # Set PID in pid file to '0'. if ( open( my $FH_PIDFILE, "+>", $pidfile ) ) { print $FH_PIDFILE '0'; close $FH_PIDFILE; } else { warn "Can not open pidfile (pid_file => '$pidfile'): $!" } } return $killed; } ################################################################################ # Return the PID of a process: # get_pid( number or string ) # # Examples: # $object->get_pid() - Tries to get the PID out of the settings in new(). # $object->get_pid( 12345 ) - Number of PID to return. # $object->get_pid( './pid.txt' ) - Path to file containing the PID. # $object->get_pid( 'perl /home/my_perl_daemon.pl' ) - Command line entry of # the running program. Requires Proc::ProcessTable to work. # # Returns an array with ( 'the PID | <undef>', 'the pid_file | <undef>' ) ################################################################################ sub get_pid { my Proc::Daemon $self = shift; my $string = shift || ''; my ( $pid, $pidfile ); if ( $string ) { # $string is already a PID. if ( $string =~ /^(\d+)$/ ) { $pid = $1; # untaint } # Open the pidfile and get the PID from it. elsif ( open( my $FH_MEMORY, "<", $string ) ) { $pid = <$FH_MEMORY>; close $FH_MEMORY; die "I found no valid PID ('$pid') in the pidfile: '$string'" if $pid =~ /\D/s; $pid = ($pid =~ /^(\d+)$/)[0]; # untaint $pidfile = $string; } # Get the PID by the system process table. else { $pid = $self->get_pid_by_proc_table_attr( 'cmndline', $string ); } } # Try to get the PID out of the new() settings. if ( ! $pid ) { # Try to get the PID out of the 'pid_file' setting. if ( $self->{pid_file} && open( my $FH_MEMORY, "<", $self->{pid_file} ) ) { $pid = <$FH_MEMORY>; close $FH_MEMORY; if ($pid && $pid =~ /^(\d+)$/) { $pid = $1; # untaint $pidfile = $self->{pid_file}; } else { $pid = undef; } } # Try to get the PID out of the system process # table by the 'exec_command' setting. if ( ! $pid && $self->{exec_command} ) { $pid = $self->get_pid_by_proc_table_attr( 'cmndline', $self->{exec_command} ); } } return ( $pid, $pidfile ); } ################################################################################ # This sub requires the Proc::ProcessTable module to be installed!!! # # Search for the PID of a process in the process table: # $object->get_pid_by_proc_table_attr( 'unix_process_table_attribute', 'string that must match' ) # # unix_process_table_attribute examples: # For more see the README.... files at http://search.cpan.org/~durist/Proc-ProcessTable/ # uid - UID of process # pid - process ID # ppid - parent process ID # fname - file name # state - state of process # cmndline - full command line of process # cwd - current directory of process # # Example: # get_pid_by_proc_table_attr( 'cmndline', 'perl /home/my_perl_daemon.pl' ) # # Returns the process PID on success, otherwise <undef>. ################################################################################ sub get_pid_by_proc_table_attr { my Proc::Daemon $self = shift; my ( $command, $match ) = @_; my $pid; # eval - Module may not be installed eval { require Proc::ProcessTable; my $table = Proc::ProcessTable->new()->table; foreach ( @$table ) { # fix for Proc::ProcessTable: under some conditions $_->cmndline # returns with space and/or other characters at the end next unless $_->$command =~ /^$match\s*$/; $pid = $_->pid; last; } }; warn "- Problem in get_pid_by_proc_table_attr( '$command', '$match' ):\n $@ You may not use a command line entry to get the PID of your process.\n This function requires Proc::ProcessTable (http://search.cpan.org/~durist/Proc-ProcessTable/) to work.\n" if $@; return $pid; } 1;