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#!/bin/perl |
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#============================================================= -*-perl-*- |
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# |
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# BackupPC: Main program for PC backups. |
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# |
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# DESCRIPTION |
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# |
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# BackupPC reads the configuration and status information from |
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# $TopDir/conf. It then runs and manages all the backup activity. |
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# |
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# As specified by $Conf{WakeupSchedule}, BackupPC wakes up periodically |
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# to queue backups on all the PCs. This is a four step process: |
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# 1) For each host and DHCP address backup requests are queued on the |
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# background command queue. |
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# 2) For each PC, BackupPC_dump is forked. Several of these may |
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# be run in parallel, based on the configuration. |
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# 3) For each complete, good, backup, BackupPC_link is forked. |
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# Only one of these tasks runs at a time. |
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# 4) In the background BackupPC_trashClean is run to remove any expired |
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# backups. Once each night, BackupPC_nightly is run to complete some |
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# additional administrative tasks (pool cleaning etc). |
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# |
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# BackupPC also listens for connections on a unix domain socket and |
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# the tcp port $Conf{ServerPort}, which are used by various |
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# sub-programs and the CGI script BackupPC_Admin for status reporting |
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# and user-initiated backup or backup cancel requests. |
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# |
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# AUTHOR |
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# Craig Barratt <cbarratt@users.sourceforge.net> |
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# |
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# COPYRIGHT |
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# Copyright (C) 2001-2003 Craig Barratt |
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# |
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# This program is free software; you can redistribute it and/or modify |
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# it under the terms of the GNU General Public License as published by |
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# the Free Software Foundation; either version 2 of the License, or |
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# (at your option) any later version. |
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# |
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# This program is distributed in the hope that it will be useful, |
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# but WITHOUT ANY WARRANTY; without even the implied warranty of |
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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# GNU General Public License for more details. |
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# |
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# You should have received a copy of the GNU General Public License |
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# along with this program; if not, write to the Free Software |
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# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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# |
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#======================================================================== |
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# |
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# Version 2.1.0, released 20 Jun 2004. |
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# |
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# See http://backuppc.sourceforge.net. |
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# |
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#======================================================================== |
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|
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use strict; |
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no utf8; |
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use vars qw(%Status %Info $Hosts); |
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use lib "__INSTALLDIR__/lib"; |
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use BackupPC::Lib; |
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use BackupPC::FileZIO; |
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|
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use File::Path; |
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use Data::Dumper; |
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use Getopt::Std; |
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use Socket; |
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use Carp; |
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use Digest::MD5; |
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|
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########################################################################### |
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# Handle command line options |
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########################################################################### |
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my %opts; |
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if ( !getopts("d", \%opts) || @ARGV != 0 ) { |
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print("usage: $0 [-d]\n"); |
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exit(1); |
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} |
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|
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########################################################################### |
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# Initialize major data structures and variables |
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########################################################################### |
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|
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# |
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# Get an instance of BackupPC::Lib and get some shortcuts. |
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# |
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die("BackupPC::Lib->new failed\n") if ( !(my $bpc = BackupPC::Lib->new) ); |
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my $TopDir = $bpc->TopDir(); |
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my $BinDir = $bpc->BinDir(); |
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my %Conf = $bpc->Conf(); |
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|
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# |
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# Verify we are running as the correct user |
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# |
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if ( $Conf{BackupPCUserVerify} |
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&& $> != (my $uid = (getpwnam($Conf{BackupPCUser}))[2]) ) { |
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die "Wrong user: my userid is $>, instead of $uid ($Conf{BackupPCUser})\n"; |
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} |
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|
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# |
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# %Status maintain status information about each host. |
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# It is a hash of hashes, whose first index is the host. |
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# |
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%Status = (); |
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|
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# |
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# %Info is a hash giving general information about BackupPC status. |
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# |
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%Info = (); |
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|
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# |
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# Read old status |
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# |
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if ( -f "$TopDir/log/status.pl" && !(my $ret = do "$TopDir/log/status.pl") ) { |
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die "couldn't parse $TopDir/log/status.pl: $@" if $@; |
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die "couldn't do $TopDir/log/status.pl: $!" unless defined $ret; |
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die "couldn't run $TopDir/log/status.pl"; |
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} |
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|
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# |
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# %Jobs maintains information about currently running jobs. |
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# It is a hash of hashes, whose first index is the host. |
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# |
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my %Jobs = (); |
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|
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# |
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# There are three command queues: |
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# - @UserQueue is a queue of user initiated backup requests. |
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# - @BgQueue is a queue of automatically scheduled backup requests. |
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# - @CmdQueue is a queue of administrative jobs, including tasks |
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# like BackupPC_link, BackupPC_trashClean, and BackupPC_nightly |
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# Each queue is an array of hashes. Each hash stores information |
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# about the command request. |
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# |
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my @UserQueue = (); |
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my @CmdQueue = (); |
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my @BgQueue = (); |
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|
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# |
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# To quickly lookup if a given host is on a given queue, we keep |
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# a hash of flags for each queue type. |
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# |
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my(%CmdQueueOn, %UserQueueOn, %BgQueueOn); |
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|
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# |
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# One or more clients can connect to the server to get status information |
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# or request/cancel backups etc. The %Clients hash maintains information |
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# about each of these socket connections. The hash key is an incrementing |
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# number stored in $ClientConnCnt. Each entry is a hash that contains |
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# various information about the client connection. |
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# |
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my %Clients = (); |
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my $ClientConnCnt; |
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|
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# |
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# Read file descriptor mask used by select(). Every file descriptor |
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# on which we expect to read (or accept) has the corresponding bit |
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# set. |
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# |
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my $FDread = ''; |
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|
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# |
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# Unix seconds when we next wakeup. A value of zero forces the scheduler |
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# to compute the next wakeup time. |
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# |
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my $NextWakeup = 0; |
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|
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# |
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# Name of signal saved by catch_signal |
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# |
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my $SigName = ""; |
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|
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# |
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# Misc variables |
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# |
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my($RunNightlyWhenIdle, $FirstWakeup, $CmdJob, $ServerInetPort); |
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my($BackupPCNightlyJobs, $BackupPCNightlyLock); |
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|
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# |
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# Complete the rest of the initialization |
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# |
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Main_Initialize(); |
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|
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########################################################################### |
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# Main loop |
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########################################################################### |
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while ( 1 ) |
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{ |
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# |
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# Check if we can/should run BackupPC_nightly |
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# |
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Main_TryToRun_nightly(); |
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|
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# |
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# Check if we can run a new command from @CmdQueue. |
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# |
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Main_TryToRun_CmdQueue(); |
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|
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# |
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# Check if we can run a new command from @UserQueue or @BgQueue. |
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# |
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Main_TryToRun_Bg_or_User_Queue(); |
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|
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# |
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# Do a select() to wait for the next interesting thing to happen |
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# (timeout, signal, someone sends a message, child dies etc). |
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# |
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my $fdRead = Main_Select(); |
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|
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# |
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# Process a signal if we received one. |
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# |
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if ( $SigName ) { |
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Main_Process_Signal(); |
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$fdRead = undef; |
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} |
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|
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# |
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# Check if a timeout has occurred. |
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# |
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Main_Check_Timeout(); |
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|
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# |
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# Check for, and process, any messages (output) from our jobs |
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# |
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Main_Check_Job_Messages($fdRead); |
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|
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# |
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# Check for, and process, any output from our clients. Also checks |
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# for new connections to our SERVER_UNIX and SERVER_INET sockets. |
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# |
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Main_Check_Client_Messages($fdRead); |
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} |
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|
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############################################################################ |
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# Main_Initialize() |
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# |
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# Main initialization routine. Called once at statup. |
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############################################################################ |
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sub Main_Initialize |
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{ |
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umask($Conf{UmaskMode}); |
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|
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# |
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# Check for another running process, check that PASSWD is set and |
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# verify executables are configured correctly. |
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# |
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if ( $Info{pid} ne "" && kill(0, $Info{pid}) ) { |
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print(STDERR $bpc->timeStamp, |
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"Another BackupPC is running (pid $Info{pid}); quitting...\n"); |
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exit(1); |
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} |
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foreach my $progName ( qw(SmbClientPath NmbLookupPath PingPath DfPath |
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SendmailPath SshPath) ) { |
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next if ( $Conf{$progName} eq "" || -x $Conf{$progName} ); |
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print(STDERR $bpc->timeStamp, |
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"\$Conf{$progName} = '$Conf{$progName}' is not a" |
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. " valid executable program\n"); |
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exit(1); |
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} |
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|
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if ( $opts{d} ) { |
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# |
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# daemonize by forking |
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# |
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defined(my $pid = fork) or die "Can't fork: $!"; |
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exit if $pid; # parent exits |
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} |
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|
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# |
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# Open the LOG file and redirect STDOUT, STDERR etc |
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# |
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LogFileOpen(); |
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|
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# |
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# Read the hosts file (force a read). |
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# |
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exit(1) if ( !HostsUpdate(1) ); |
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|
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# |
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# Clean up %ENV for taint checking |
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# |
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delete @ENV{qw(IFS CDPATH ENV BASH_ENV)}; |
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$ENV{PATH} = $Conf{MyPath}; |
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|
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# |
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# Initialize server sockets |
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# |
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ServerSocketInit(); |
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|
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# |
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# Catch various signals |
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# |
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foreach my $sig ( qw(INT BUS SEGV PIPE TERM ALRM HUP) ) { |
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$SIG{$sig} = \&catch_signal; |
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} |
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|
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# |
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# Report that we started, and update %Info. |
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# |
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print(LOG $bpc->timeStamp, "BackupPC started, pid $$\n"); |
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$Info{ConfigModTime} = $bpc->ConfigMTime(); |
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$Info{pid} = $$; |
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$Info{startTime} = time; |
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$Info{ConfigLTime} = time; |
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$Info{Version} = $bpc->{Version}; |
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|
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# |
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# Update the status left over form the last time BackupPC ran. |
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# Requeue any pending links. |
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# |
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foreach my $host ( sort(keys(%$Hosts)) ) { |
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if ( $Status{$host}{state} eq "Status_backup_in_progress" ) { |
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# |
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# should we restart it? skip it for now. |
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# |
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$Status{$host}{state} = "Status_idle"; |
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} elsif ( $Status{$host}{state} eq "Status_link_pending" |
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|| $Status{$host}{state} eq "Status_link_running" ) { |
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QueueLink($host); |
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} else { |
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$Status{$host}{state} = "Status_idle"; |
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} |
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$Status{$host}{activeJob} = 0; |
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} |
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foreach my $host ( sort(keys(%Status)) ) { |
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next if ( defined($Hosts->{$host}) ); |
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delete($Status{$host}); |
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} |
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|
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# |
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# Write out our initial status and save our PID |
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# |
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StatusWrite(); |
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if ( open(PID, ">", "$TopDir/log/BackupPC.pid") ) { |
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print(PID $$); |
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close(PID); |
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} |
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|
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# |
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# For unknown reasons there is a very infrequent error about not |
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# being able to coerce GLOBs inside the XS Data::Dumper. I've |
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# only seen this on a particular platform and perl version. |
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# For now the workaround appears to be use the perl version of |
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# XS Data::Dumper. |
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# |
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$Data::Dumper::Useqq = 1; |
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} |
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|
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############################################################################ |
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# Main_TryToRun_nightly() |
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# |
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# Checks to see if we can/should run BackupPC_nightly or |
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# BackupPC_trashClean. If so we push the appropriate command onto |
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# @CmdQueue. |
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############################################################################ |
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sub Main_TryToRun_nightly |
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{ |
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# |
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# Check if we should run BackupPC_nightly or BackupPC_trashClean. |
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# BackupPC_nightly is run when the current job queue is empty. |
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# BackupPC_trashClean is run in the background always. |
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# |
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my $trashCleanRunning = defined($Jobs{$bpc->trashJob}) ? 1 : 0; |
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if ( !$trashCleanRunning && !$CmdQueueOn{$bpc->trashJob} ) { |
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# |
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# This should only happen once at startup, but just in case this |
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# code will re-start BackupPC_trashClean if it quits |
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# |
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unshift(@CmdQueue, { |
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host => $bpc->trashJob, |
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user => "BackupPC", |
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reqTime => time, |
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cmd => ["$BinDir/BackupPC_trashClean"], |
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}); |
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$CmdQueueOn{$bpc->trashJob} = 1; |
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} |
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if ( keys(%Jobs) == $trashCleanRunning && $RunNightlyWhenIdle == 1 ) { |
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|
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# |
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# Queue multiple nightly jobs based on the configuration |
381 |
# |
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$Conf{MaxBackupPCNightlyJobs} = 1 |
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if ( $Conf{MaxBackupPCNightlyJobs} <= 0 ); |
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$Conf{BackupPCNightlyPeriod} = 1 |
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if ( $Conf{BackupPCNightlyPeriod} <= 0 ); |
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# |
387 |
# Decide what subset of the 16 top-level directories 0..9a..f |
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# we run BackupPC_nightly on, based on $Conf{BackupPCNightlyPeriod}. |
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# If $Conf{BackupPCNightlyPeriod} == 1 then we run 0..15 every |
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# time. If $Conf{BackupPCNightlyPeriod} == 2 then we run |
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# 0..7 one night and 89a-f the next night. And so on. |
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# |
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# $Info{NightlyPhase} counts which night, from 0 to |
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# $Conf{BackupPCNightlyPeriod} - 1. |
395 |
# |
396 |
my $start = int($Info{NightlyPhase} * 16 |
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/ $Conf{BackupPCNightlyPeriod}); |
398 |
my $end = int(($Info{NightlyPhase} + 1) * 16 |
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/ $Conf{BackupPCNightlyPeriod}); |
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$end = $start + 1 if ( $end <= $start ); |
401 |
$Info{NightlyPhase}++; |
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$Info{NightlyPhase} = 0 if ( $end >= 16 ); |
403 |
|
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# |
405 |
# Zero out the data we expect to get from BackupPC_nightly. |
406 |
# In the future if we want to split BackupPC_nightly over |
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# more than one night we will only zero out the portion |
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# that we are running right now. |
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# |
410 |
for my $p ( qw(pool cpool) ) { |
411 |
for ( my $i = $start ; $i < $end ; $i++ ) { |
412 |
$Info{pool}{$p}[$i]{FileCnt} = 0; |
413 |
$Info{pool}{$p}[$i]{DirCnt} = 0; |
414 |
$Info{pool}{$p}[$i]{Kb} = 0; |
415 |
$Info{pool}{$p}[$i]{Kb2} = 0; |
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$Info{pool}{$p}[$i]{KbRm} = 0; |
417 |
$Info{pool}{$p}[$i]{FileCntRm} = 0; |
418 |
$Info{pool}{$p}[$i]{FileCntRep} = 0; |
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$Info{pool}{$p}[$i]{FileRepMax} = 0; |
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$Info{pool}{$p}[$i]{FileCntRename} = 0; |
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$Info{pool}{$p}[$i]{FileLinkMax} = 0; |
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$Info{pool}{$p}[$i]{Time} = 0; |
423 |
} |
424 |
} |
425 |
print(LOG $bpc->timeStamp, |
426 |
sprintf("Running %d BackupPC_nightly jobs from %d..%d" |
427 |
. " (out of 0..15)\n", |
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$Conf{MaxBackupPCNightlyJobs}, $start, $end - 1)); |
429 |
|
430 |
# |
431 |
# Now queue the $Conf{MaxBackupPCNightlyJobs} jobs. |
432 |
# The granularity on start and end is now 0..256. |
433 |
# |
434 |
$start *= 16; |
435 |
$end *= 16; |
436 |
my $start0 = $start; |
437 |
for ( my $i = 0 ; $i < $Conf{MaxBackupPCNightlyJobs} ; $i++ ) { |
438 |
# |
439 |
# The first nightly job gets the -m option (does email, log aging). |
440 |
# All jobs get the start and end options from 0..255 telling |
441 |
# them which parts of the pool to traverse. |
442 |
# |
443 |
my $cmd = ["$BinDir/BackupPC_nightly"]; |
444 |
push(@$cmd, "-m") if ( $i == 0 ); |
445 |
push(@$cmd, $start); |
446 |
$start = $start0 + int(($end - $start0) |
447 |
* ($i + 1) / $Conf{MaxBackupPCNightlyJobs}); |
448 |
push(@$cmd, $start - 1); |
449 |
|
450 |
my $job = $bpc->adminJob($i); |
451 |
unshift(@CmdQueue, { |
452 |
host => $job, |
453 |
user => "BackupPC", |
454 |
reqTime => time, |
455 |
cmd => $cmd, |
456 |
}); |
457 |
$CmdQueueOn{$job} = 1; |
458 |
} |
459 |
$RunNightlyWhenIdle = 2; |
460 |
|
461 |
} |
462 |
} |
463 |
|
464 |
############################################################################ |
465 |
# Main_TryToRun_CmdQueue() |
466 |
# |
467 |
# Decide if we can run a new command from the @CmdQueue. |
468 |
# We only run one of these at a time. The @CmdQueue is |
469 |
# used to run BackupPC_link (for the corresponding host), |
470 |
# BackupPC_trashClean, and BackupPC_nightly using a fake |
471 |
# host name of $bpc->adminJob. |
472 |
############################################################################ |
473 |
sub Main_TryToRun_CmdQueue |
474 |
{ |
475 |
my($req, $host); |
476 |
|
477 |
while ( $CmdJob eq "" && @CmdQueue > 0 && $RunNightlyWhenIdle != 1 |
478 |
|| @CmdQueue > 0 && $RunNightlyWhenIdle == 2 |
479 |
&& $bpc->isAdminJob($CmdQueue[0]->{host}) |
480 |
) { |
481 |
local(*FH); |
482 |
$req = pop(@CmdQueue); |
483 |
|
484 |
$host = $req->{host}; |
485 |
if ( defined($Jobs{$host}) ) { |
486 |
print(LOG $bpc->timeStamp, |
487 |
"Botch on admin job for $host: already in use!!\n"); |
488 |
# |
489 |
# This could happen during normal opertion: a user could |
490 |
# request a backup while a BackupPC_link is queued from |
491 |
# a previous backup. But it is unlikely. Just put this |
492 |
# request back on the end of the queue. |
493 |
# |
494 |
unshift(@CmdQueue, $req); |
495 |
return; |
496 |
} |
497 |
$CmdQueueOn{$host} = 0; |
498 |
my $cmd = $req->{cmd}; |
499 |
my $pid = open(FH, "-|"); |
500 |
if ( !defined($pid) ) { |
501 |
print(LOG $bpc->timeStamp, |
502 |
"can't fork for $host, request by $req->{user}\n"); |
503 |
close(FH); |
504 |
next; |
505 |
} |
506 |
if ( !$pid ) { |
507 |
setpgrp 0,0; |
508 |
exec(@$cmd); |
509 |
print(LOG $bpc->timeStamp, "can't exec @$cmd for $host\n"); |
510 |
exit(0); |
511 |
} |
512 |
$Jobs{$host}{pid} = $pid; |
513 |
$Jobs{$host}{fh} = *FH; |
514 |
$Jobs{$host}{fn} = fileno(FH); |
515 |
vec($FDread, $Jobs{$host}{fn}, 1) = 1; |
516 |
$Jobs{$host}{startTime} = time; |
517 |
$Jobs{$host}{reqTime} = $req->{reqTime}; |
518 |
$cmd = $bpc->execCmd2ShellCmd(@$cmd); |
519 |
$Jobs{$host}{cmd} = $cmd; |
520 |
$Jobs{$host}{user} = $req->{user}; |
521 |
$Jobs{$host}{type} = $Status{$host}{type}; |
522 |
$Status{$host}{state} = "Status_link_running"; |
523 |
$Status{$host}{activeJob} = 1; |
524 |
$Status{$host}{endTime} = time; |
525 |
$CmdJob = $host if ( $host ne $bpc->trashJob ); |
526 |
$cmd =~ s/$BinDir\///g; |
527 |
print(LOG $bpc->timeStamp, "Running $cmd (pid=$pid)\n"); |
528 |
if ( $cmd =~ /^BackupPC_nightly\s/ ) { |
529 |
$BackupPCNightlyJobs++; |
530 |
$BackupPCNightlyLock++; |
531 |
} |
532 |
} |
533 |
} |
534 |
|
535 |
############################################################################ |
536 |
# Main_TryToRun_Bg_or_User_Queue() |
537 |
# |
538 |
# Decide if we can run any new backup requests from @BgQueue |
539 |
# or @UserQueue. Several of these can be run at the same time |
540 |
# based on %Conf settings. Jobs from @UserQueue take priority, |
541 |
# and at total of $Conf{MaxBackups} + $Conf{MaxUserBackups} |
542 |
# simultaneous jobs can run from @UserQueue. After @UserQueue |
543 |
# is exhausted, up to $Conf{MaxBackups} simultaneous jobs can |
544 |
# run from @BgQueue. |
545 |
############################################################################ |
546 |
sub Main_TryToRun_Bg_or_User_Queue |
547 |
{ |
548 |
my($req, $host); |
549 |
while ( $RunNightlyWhenIdle == 0 ) { |
550 |
local(*FH); |
551 |
my(@args, @deferUserQueue, @deferBgQueue, $progName, $type); |
552 |
my $nJobs = keys(%Jobs); |
553 |
# |
554 |
# CmdJob and trashClean don't count towards MaxBackups / MaxUserBackups |
555 |
# |
556 |
$nJobs -= $BackupPCNightlyJobs if ( $CmdJob ne "" ); |
557 |
$nJobs-- if ( defined($Jobs{$bpc->trashJob} ) ); |
558 |
if ( $nJobs < $Conf{MaxBackups} + $Conf{MaxUserBackups} |
559 |
&& @UserQueue > 0 ) { |
560 |
$req = pop(@UserQueue); |
561 |
if ( defined($Jobs{$req->{host}}) ) { |
562 |
push(@deferUserQueue, $req); |
563 |
next; |
564 |
} |
565 |
push(@args, $req->{doFull} ? "-f" : "-i") |
566 |
if (( !$req->{restore} ) && ( !$req->{archive} )); |
567 |
$UserQueueOn{$req->{host}} = 0; |
568 |
} elsif ( $nJobs < $Conf{MaxBackups} |
569 |
&& (@CmdQueue + $nJobs) |
570 |
<= $Conf{MaxBackups} + $Conf{MaxPendingCmds} |
571 |
&& @BgQueue > 0 ) { |
572 |
my $du; |
573 |
if ( time - $Info{DUlastValueTime} >= 60 ) { |
574 |
# |
575 |
# Update our notion of disk usage no more than |
576 |
# once every minute |
577 |
# |
578 |
$du = $bpc->CheckFileSystemUsage($TopDir); |
579 |
$Info{DUlastValue} = $du; |
580 |
$Info{DUlastValueTime} = time; |
581 |
} else { |
582 |
# |
583 |
# if we recently checked it then just use the old value |
584 |
# |
585 |
$du = $Info{DUlastValue}; |
586 |
} |
587 |
if ( $Info{DUDailyMaxReset} ) { |
588 |
$Info{DUDailyMaxStartTime} = time; |
589 |
$Info{DUDailyMaxReset} = 0; |
590 |
$Info{DUDailyMax} = 0; |
591 |
} |
592 |
if ( $du > $Info{DUDailyMax} ) { |
593 |
$Info{DUDailyMax} = $du; |
594 |
$Info{DUDailyMaxTime} = time; |
595 |
} |
596 |
if ( $du > $Conf{DfMaxUsagePct} ) { |
597 |
my $nSkip = @BgQueue + @deferBgQueue; |
598 |
print(LOG $bpc->timeStamp, |
599 |
"Disk too full ($du%); skipping $nSkip hosts\n"); |
600 |
$Info{DUDailySkipHostCnt} += $nSkip; |
601 |
@BgQueue = (); |
602 |
@deferBgQueue = (); |
603 |
%BgQueueOn = (); |
604 |
next; |
605 |
} |
606 |
$req = pop(@BgQueue); |
607 |
if ( defined($Jobs{$req->{host}}) ) { |
608 |
push(@deferBgQueue, $req); |
609 |
next; |
610 |
} |
611 |
$BgQueueOn{$req->{host}} = 0; |
612 |
} else { |
613 |
while ( @deferBgQueue ) { |
614 |
push(@BgQueue, pop(@deferBgQueue)); |
615 |
} |
616 |
while ( @deferUserQueue ) { |
617 |
push(@UserQueue, pop(@deferUserQueue)); |
618 |
} |
619 |
last; |
620 |
} |
621 |
$host = $req->{host}; |
622 |
my $user = $req->{user}; |
623 |
if ( $req->{restore} ) { |
624 |
$progName = "BackupPC_restore"; |
625 |
$type = "restore"; |
626 |
push(@args, $req->{hostIP}, $req->{host}, $req->{reqFileName}); |
627 |
} elsif ( $req->{archive} ) { |
628 |
$progName = "BackupPC_archive"; |
629 |
$type = "archive"; |
630 |
push(@args, $req->{user}, $req->{host}, $req->{reqFileName}); |
631 |
} else { |
632 |
$progName = "BackupPC_dump"; |
633 |
$type = "backup"; |
634 |
push(@args, "-d") if ( $req->{dhcp} ); |
635 |
push(@args, "-e") if ( $req->{dumpExpire} ); |
636 |
push(@args, $host); |
637 |
} |
638 |
my $pid = open(FH, "-|"); |
639 |
if ( !defined($pid) ) { |
640 |
print(LOG $bpc->timeStamp, |
641 |
"can't fork to run $progName for $host, request by $user\n"); |
642 |
close(FH); |
643 |
next; |
644 |
} |
645 |
if ( !$pid ) { |
646 |
setpgrp 0,0; |
647 |
exec("$BinDir/$progName", @args); |
648 |
print(LOG $bpc->timeStamp, "can't exec $progName for $host\n"); |
649 |
exit(0); |
650 |
} |
651 |
$Jobs{$host}{pid} = $pid; |
652 |
$Jobs{$host}{fh} = *FH; |
653 |
$Jobs{$host}{fn} = fileno(FH); |
654 |
$Jobs{$host}{dhcp} = $req->{dhcp}; |
655 |
vec($FDread, $Jobs{$host}{fn}, 1) = 1; |
656 |
$Jobs{$host}{startTime} = time; |
657 |
$Jobs{$host}{reqTime} = $req->{reqTime}; |
658 |
$Jobs{$host}{userReq} = $req->{userReq}; |
659 |
$Jobs{$host}{cmd} = $bpc->execCmd2ShellCmd($progName, @args); |
660 |
$Jobs{$host}{user} = $user; |
661 |
$Jobs{$host}{type} = $type; |
662 |
$Status{$host}{userReq} = $req->{userReq} |
663 |
if ( defined($Hosts->{$host}) ); |
664 |
if ( !$req->{dhcp} ) { |
665 |
$Status{$host}{state} = "Status_".$type."_starting"; |
666 |
$Status{$host}{activeJob} = 1; |
667 |
$Status{$host}{startTime} = time; |
668 |
$Status{$host}{endTime} = ""; |
669 |
} |
670 |
} |
671 |
} |
672 |
|
673 |
############################################################################ |
674 |
# Main_Select() |
675 |
# |
676 |
# If necessary, figure out when to next wakeup based on $Conf{WakeupSchedule}, |
677 |
# and then do a select() to wait for the next thing to happen |
678 |
# (timeout, signal, someone sends a message, child dies etc). |
679 |
############################################################################ |
680 |
sub Main_Select |
681 |
{ |
682 |
if ( $NextWakeup <= 0 ) { |
683 |
# |
684 |
# Figure out when to next wakeup based on $Conf{WakeupSchedule}. |
685 |
# |
686 |
my($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) |
687 |
= localtime(time); |
688 |
my($currHours) = $hour + $min / 60 + $sec / 3600; |
689 |
if ( $bpc->ConfigMTime() != $Info{ConfigModTime} ) { |
690 |
ServerReload("Re-read config file because mtime changed"); |
691 |
} |
692 |
my $delta = -1; |
693 |
foreach my $t ( @{$Conf{WakeupSchedule} || [0..23]} ) { |
694 |
next if ( $t < 0 || $t > 24 ); |
695 |
my $tomorrow = $t + 24; |
696 |
if ( $delta < 0 |
697 |
|| ($tomorrow - $currHours > 0 |
698 |
&& $delta > $tomorrow - $currHours) ) { |
699 |
$delta = $tomorrow - $currHours; |
700 |
$FirstWakeup = $t == $Conf{WakeupSchedule}[0]; |
701 |
} |
702 |
if ( $delta < 0 |
703 |
|| ($t - $currHours > 0 && $delta > $t - $currHours) ) { |
704 |
$delta = $t - $currHours; |
705 |
$FirstWakeup = $t == $Conf{WakeupSchedule}[0]; |
706 |
} |
707 |
} |
708 |
$NextWakeup = time + $delta * 3600; |
709 |
$Info{nextWakeup} = $NextWakeup; |
710 |
print(LOG $bpc->timeStamp, "Next wakeup is ", |
711 |
$bpc->timeStamp($NextWakeup, 1), "\n"); |
712 |
} |
713 |
# |
714 |
# Call select(), waiting until either a signal, a timeout, |
715 |
# any output from our jobs, or any messages from clients |
716 |
# connected via tcp. |
717 |
# select() is where we (hopefully) spend most of our time blocked... |
718 |
# |
719 |
my $timeout = $NextWakeup - time; |
720 |
$timeout = 1 if ( $timeout <= 0 ); |
721 |
my $ein = $FDread; |
722 |
select(my $rout = $FDread, undef, $ein, $timeout); |
723 |
|
724 |
return $rout; |
725 |
} |
726 |
|
727 |
############################################################################ |
728 |
# Main_Process_Signal() |
729 |
# |
730 |
# Signal handler. |
731 |
############################################################################ |
732 |
sub Main_Process_Signal |
733 |
{ |
734 |
# |
735 |
# Process signals |
736 |
# |
737 |
if ( $SigName eq "HUP" ) { |
738 |
ServerReload("Re-read config file because of a SIG_HUP"); |
739 |
} elsif ( $SigName ) { |
740 |
ServerShutdown("Got signal $SigName... cleaning up"); |
741 |
} |
742 |
$SigName = ""; |
743 |
} |
744 |
|
745 |
############################################################################ |
746 |
# Main_Check_Timeout() |
747 |
# |
748 |
# Check if a timeout has occured, and if so, queue all the PCs for backups. |
749 |
# Also does log file aging on the first timeout after midnight. |
750 |
############################################################################ |
751 |
sub Main_Check_Timeout |
752 |
{ |
753 |
# |
754 |
# Process timeouts |
755 |
# |
756 |
return if ( time < $NextWakeup || $NextWakeup <= 0 ); |
757 |
$NextWakeup = 0; |
758 |
if ( $FirstWakeup ) { |
759 |
# |
760 |
# This is the first wakeup after midnight. Do log file aging |
761 |
# and various house keeping. |
762 |
# |
763 |
$FirstWakeup = 0; |
764 |
printf(LOG "%s24hr disk usage: %d%% max, %d%% recent," |
765 |
. " %d skipped hosts\n", |
766 |
$bpc->timeStamp, $Info{DUDailyMax}, $Info{DUlastValue}, |
767 |
$Info{DUDailySkipHostCnt}); |
768 |
$Info{DUDailyMaxReset} = 1; |
769 |
$Info{DUDailyMaxPrev} = $Info{DUDailyMax}; |
770 |
$Info{DUDailySkipHostCntPrev} = $Info{DUDailySkipHostCnt}; |
771 |
$Info{DUDailySkipHostCnt} = 0; |
772 |
my $lastLog = $Conf{MaxOldLogFiles} - 1; |
773 |
if ( -f "$TopDir/log/LOG.$lastLog" ) { |
774 |
print(LOG $bpc->timeStamp, |
775 |
"Removing $TopDir/log/LOG.$lastLog\n"); |
776 |
unlink("$TopDir/log/LOG.$lastLog"); |
777 |
} |
778 |
if ( -f "$TopDir/log/LOG.$lastLog.z" ) { |
779 |
print(LOG $bpc->timeStamp, |
780 |
"Removing $TopDir/log/LOG.$lastLog.z\n"); |
781 |
unlink("$TopDir/log/LOG.$lastLog.z"); |
782 |
} |
783 |
print(LOG $bpc->timeStamp, "Aging LOG files, LOG -> LOG.0 -> " |
784 |
. "LOG.1 -> ... -> LOG.$lastLog\n"); |
785 |
close(STDERR); # dup of LOG |
786 |
close(STDOUT); # dup of LOG |
787 |
close(LOG); |
788 |
for ( my $i = $lastLog - 1 ; $i >= 0 ; $i-- ) { |
789 |
my $j = $i + 1; |
790 |
rename("$TopDir/log/LOG.$i", "$TopDir/log/LOG.$j") |
791 |
if ( -f "$TopDir/log/LOG.$i" ); |
792 |
rename("$TopDir/log/LOG.$i.z", "$TopDir/log/LOG.$j.z") |
793 |
if ( -f "$TopDir/log/LOG.$i.z" ); |
794 |
} |
795 |
# |
796 |
# Compress the log file LOG -> LOG.0.z (if enabled). |
797 |
# Otherwise, just rename LOG -> LOG.0. |
798 |
# |
799 |
BackupPC::FileZIO->compressCopy("$TopDir/log/LOG", |
800 |
"$TopDir/log/LOG.0.z", |
801 |
"$TopDir/log/LOG.0", |
802 |
$Conf{CompressLevel}, 1); |
803 |
LogFileOpen(); |
804 |
# |
805 |
# Remember to run nightly script after current jobs are done |
806 |
# |
807 |
$RunNightlyWhenIdle = 1; |
808 |
} |
809 |
# |
810 |
# Write out the current status and then queue all the PCs |
811 |
# |
812 |
HostsUpdate(0); |
813 |
StatusWrite(); |
814 |
%BgQueueOn = () if ( @BgQueue == 0 ); |
815 |
%UserQueueOn = () if ( @UserQueue == 0 ); |
816 |
%CmdQueueOn = () if ( @CmdQueue == 0 ); |
817 |
QueueAllPCs(); |
818 |
} |
819 |
|
820 |
############################################################################ |
821 |
# Main_Check_Job_Messages($fdRead) |
822 |
# |
823 |
# Check if select() says we have bytes waiting from any of our jobs. |
824 |
# Handle each of the messages when complete (newline terminated). |
825 |
############################################################################ |
826 |
sub Main_Check_Job_Messages |
827 |
{ |
828 |
my($fdRead) = @_; |
829 |
foreach my $host ( keys(%Jobs) ) { |
830 |
next if ( !vec($fdRead, $Jobs{$host}{fn}, 1) ); |
831 |
my $mesg; |
832 |
# |
833 |
# do a last check to make sure there is something to read so |
834 |
# we are absolutely sure we won't block. |
835 |
# |
836 |
vec(my $readMask, $Jobs{$host}{fn}, 1) = 1; |
837 |
if ( !select($readMask, undef, undef, 0.0) ) { |
838 |
print(LOG $bpc->timeStamp, "Botch in Main_Check_Job_Messages:" |
839 |
. " nothing to read from $host. Debug dump:\n"); |
840 |
my($dump) = Data::Dumper->new( |
841 |
[ \%Clients, \%Jobs, \$FDread, \$fdRead], |
842 |
[qw(*Clients, *Jobs *FDread, *fdRead)]); |
843 |
$dump->Indent(1); |
844 |
print(LOG $dump->Dump); |
845 |
next; |
846 |
} |
847 |
my $nbytes = sysread($Jobs{$host}{fh}, $mesg, 1024); |
848 |
$Jobs{$host}{mesg} .= $mesg if ( $nbytes > 0 ); |
849 |
# |
850 |
# Process any complete lines of output from this jobs. |
851 |
# Any output to STDOUT or STDERR from the children is processed here. |
852 |
# |
853 |
while ( $Jobs{$host}{mesg} =~ /(.*?)[\n\r]+(.*)/s ) { |
854 |
$mesg = $1; |
855 |
$Jobs{$host}{mesg} = $2; |
856 |
if ( $Jobs{$host}{dhcp} ) { |
857 |
if ( $mesg =~ /^DHCP (\S+) (\S+)/ ) { |
858 |
my $newHost = $bpc->uriUnesc($2); |
859 |
if ( defined($Jobs{$newHost}) ) { |
860 |
print(LOG $bpc->timeStamp, |
861 |
"Backup on $newHost is already running\n"); |
862 |
kill($bpc->sigName2num("INT"), $Jobs{$host}{pid}); |
863 |
$nbytes = 0; |
864 |
last; |
865 |
} |
866 |
$Jobs{$host}{dhcpHostIP} = $host; |
867 |
$Status{$newHost}{dhcpHostIP} = $host; |
868 |
$Jobs{$newHost} = $Jobs{$host}; |
869 |
delete($Jobs{$host}); |
870 |
$host = $newHost; |
871 |
$Status{$host}{state} = "Status_backup_starting"; |
872 |
$Status{$host}{activeJob} = 1; |
873 |
$Status{$host}{startTime} = $Jobs{$host}{startTime}; |
874 |
$Status{$host}{endTime} = ""; |
875 |
$Jobs{$host}{dhcp} = 0; |
876 |
} else { |
877 |
print(LOG $bpc->timeStamp, "dhcp $host: $mesg\n"); |
878 |
} |
879 |
} elsif ( $mesg =~ /^started (.*) dump, share=(.*)/ ) { |
880 |
$Jobs{$host}{type} = $1; |
881 |
$Jobs{$host}{shareName} = $2; |
882 |
print(LOG $bpc->timeStamp, |
883 |
"Started $1 backup on $host (pid=$Jobs{$host}{pid}", |
884 |
$Jobs{$host}{dhcpHostIP} |
885 |
? ", dhcp=$Jobs{$host}{dhcpHostIP}" : "", |
886 |
", share=$Jobs{$host}{shareName})\n"); |
887 |
$Status{$host}{state} = "Status_backup_in_progress"; |
888 |
$Status{$host}{reason} = ""; |
889 |
$Status{$host}{type} = $1; |
890 |
$Status{$host}{startTime} = time; |
891 |
$Status{$host}{deadCnt} = 0; |
892 |
$Status{$host}{aliveCnt}++; |
893 |
$Status{$host}{dhcpCheckCnt}-- |
894 |
if ( $Status{$host}{dhcpCheckCnt} > 0 ); |
895 |
} elsif ( $mesg =~ /^xferPids (.*)/ ) { |
896 |
$Jobs{$host}{xferPid} = $1; |
897 |
} elsif ( $mesg =~ /^started_restore/ ) { |
898 |
$Jobs{$host}{type} = "restore"; |
899 |
print(LOG $bpc->timeStamp, |
900 |
"Started restore on $host" |
901 |
. " (pid=$Jobs{$host}{pid})\n"); |
902 |
$Status{$host}{state} = "Status_restore_in_progress"; |
903 |
$Status{$host}{reason} = ""; |
904 |
$Status{$host}{type} = "restore"; |
905 |
$Status{$host}{startTime} = time; |
906 |
$Status{$host}{deadCnt} = 0; |
907 |
$Status{$host}{aliveCnt}++; |
908 |
} elsif ( $mesg =~ /^started_archive/ ) { |
909 |
$Jobs{$host}{type} = "archive"; |
910 |
print(LOG $bpc->timeStamp, |
911 |
"Started archive on $host" |
912 |
. " (pid=$Jobs{$host}{pid})\n"); |
913 |
$Status{$host}{state} = "Status_archive_in_progress"; |
914 |
$Status{$host}{reason} = ""; |
915 |
$Status{$host}{type} = "archive"; |
916 |
$Status{$host}{startTime} = time; |
917 |
$Status{$host}{deadCnt} = 0; |
918 |
$Status{$host}{aliveCnt}++; |
919 |
} elsif ( $mesg =~ /^(full|incr) backup complete/ ) { |
920 |
print(LOG $bpc->timeStamp, "Finished $1 backup on $host\n"); |
921 |
$Status{$host}{reason} = "Reason_backup_done"; |
922 |
delete($Status{$host}{error}); |
923 |
delete($Status{$host}{errorTime}); |
924 |
$Status{$host}{endTime} = time; |
925 |
} elsif ( $mesg =~ /^backups disabled/ ) { |
926 |
print(LOG $bpc->timeStamp, |
927 |
"Ignoring old backup error on $host\n"); |
928 |
$Status{$host}{reason} = "Reason_backup_done"; |
929 |
delete($Status{$host}{error}); |
930 |
delete($Status{$host}{errorTime}); |
931 |
$Status{$host}{endTime} = time; |
932 |
} elsif ( $mesg =~ /^restore complete/ ) { |
933 |
print(LOG $bpc->timeStamp, "Finished restore on $host\n"); |
934 |
$Status{$host}{reason} = "Reason_restore_done"; |
935 |
delete($Status{$host}{error}); |
936 |
delete($Status{$host}{errorTime}); |
937 |
$Status{$host}{endTime} = time; |
938 |
} elsif ( $mesg =~ /^archive complete/ ) { |
939 |
print(LOG $bpc->timeStamp, "Finished archive on $host\n"); |
940 |
$Status{$host}{reason} = "Reason_archive_done"; |
941 |
delete($Status{$host}{error}); |
942 |
delete($Status{$host}{errorTime}); |
943 |
$Status{$host}{endTime} = time; |
944 |
} elsif ( $mesg =~ /^nothing to do/ ) { |
945 |
if ( $Status{$host}{reason} ne "Reason_backup_failed" |
946 |
&& $Status{$host}{reason} ne "Reason_restore_failed" ) { |
947 |
$Status{$host}{state} = "Status_idle"; |
948 |
$Status{$host}{reason} = "Reason_nothing_to_do"; |
949 |
$Status{$host}{startTime} = time; |
950 |
} |
951 |
$Status{$host}{dhcpCheckCnt}-- |
952 |
if ( $Status{$host}{dhcpCheckCnt} > 0 ); |
953 |
} elsif ( $mesg =~ /^no ping response/ |
954 |
|| $mesg =~ /^ping too slow/ |
955 |
|| $mesg =~ /^host not found/ ) { |
956 |
$Status{$host}{state} = "Status_idle"; |
957 |
if ( $Status{$host}{userReq} |
958 |
|| $Status{$host}{reason} ne "Reason_backup_failed" |
959 |
|| $Status{$host}{error} =~ /^aborted by user/ ) { |
960 |
$Status{$host}{reason} = "Reason_no_ping"; |
961 |
$Status{$host}{error} = $mesg; |
962 |
$Status{$host}{startTime} = time; |
963 |
} |
964 |
$Status{$host}{deadCnt}++; |
965 |
if ( $Status{$host}{deadCnt} >= $Conf{BlackoutBadPingLimit} ) { |
966 |
$Status{$host}{aliveCnt} = 0; |
967 |
} |
968 |
} elsif ( $mesg =~ /^dump failed: (.*)/ ) { |
969 |
$Status{$host}{state} = "Status_idle"; |
970 |
$Status{$host}{error} = $1; |
971 |
$Status{$host}{errorTime} = time; |
972 |
$Status{$host}{endTime} = time; |
973 |
if ( $Status{$host}{reason} |
974 |
eq "Reason_backup_canceled_by_user" ) { |
975 |
print(LOG $bpc->timeStamp, |
976 |
"Backup canceled on $host ($1)\n"); |
977 |
} else { |
978 |
$Status{$host}{reason} = "Reason_backup_failed"; |
979 |
print(LOG $bpc->timeStamp, |
980 |
"Backup failed on $host ($1)\n"); |
981 |
} |
982 |
} elsif ( $mesg =~ /^restore failed: (.*)/ ) { |
983 |
$Status{$host}{state} = "Status_idle"; |
984 |
$Status{$host}{error} = $1; |
985 |
$Status{$host}{errorTime} = time; |
986 |
$Status{$host}{endTime} = time; |
987 |
if ( $Status{$host}{reason} |
988 |
eq "Reason_restore_canceled_by_user" ) { |
989 |
print(LOG $bpc->timeStamp, |
990 |
"Restore canceled on $host ($1)\n"); |
991 |
} else { |
992 |
$Status{$host}{reason} = "Reason_restore_failed"; |
993 |
print(LOG $bpc->timeStamp, |
994 |
"Restore failed on $host ($1)\n"); |
995 |
} |
996 |
} elsif ( $mesg =~ /^archive failed: (.*)/ ) { |
997 |
$Status{$host}{state} = "Status_idle"; |
998 |
$Status{$host}{error} = $1; |
999 |
$Status{$host}{errorTime} = time; |
1000 |
$Status{$host}{endTime} = time; |
1001 |
if ( $Status{$host}{reason} |
1002 |
eq "Reason_archive_canceled_by_user" ) { |
1003 |
print(LOG $bpc->timeStamp, |
1004 |
"Archive canceled on $host ($1)\n"); |
1005 |
} else { |
1006 |
$Status{$host}{reason} = "Reason_archive_failed"; |
1007 |
print(LOG $bpc->timeStamp, |
1008 |
"Archive failed on $host ($1)\n"); |
1009 |
} |
1010 |
} elsif ( $mesg =~ /^log\s+(.*)/ ) { |
1011 |
print(LOG $bpc->timeStamp, "$1\n"); |
1012 |
} elsif ( $mesg =~ /^BackupPC_stats (\d+) = (.*)/ ) { |
1013 |
my $chunk = int($1 / 16); |
1014 |
my @f = split(/,/, $2); |
1015 |
$Info{pool}{$f[0]}[$chunk]{FileCnt} += $f[1]; |
1016 |
$Info{pool}{$f[0]}[$chunk]{DirCnt} += $f[2]; |
1017 |
$Info{pool}{$f[0]}[$chunk]{Kb} += $f[3]; |
1018 |
$Info{pool}{$f[0]}[$chunk]{Kb2} += $f[4]; |
1019 |
$Info{pool}{$f[0]}[$chunk]{KbRm} += $f[5]; |
1020 |
$Info{pool}{$f[0]}[$chunk]{FileCntRm} += $f[6]; |
1021 |
$Info{pool}{$f[0]}[$chunk]{FileCntRep} += $f[7]; |
1022 |
$Info{pool}{$f[0]}[$chunk]{FileRepMax} = $f[8] |
1023 |
if ( $Info{pool}{$f[0]}[$chunk]{FileRepMax} < $f[8] ); |
1024 |
$Info{pool}{$f[0]}[$chunk]{FileCntRename} += $f[9]; |
1025 |
$Info{pool}{$f[0]}[$chunk]{FileLinkMax} = $f[10] |
1026 |
if ( $Info{pool}{$f[0]}[$chunk]{FileLinkMax} < $f[10] ); |
1027 |
$Info{pool}{$f[0]}[$chunk]{Time} = time; |
1028 |
} elsif ( $mesg =~ /^BackupPC_nightly lock_off/ ) { |
1029 |
$BackupPCNightlyLock--; |
1030 |
if ( $BackupPCNightlyLock == 0 ) { |
1031 |
# |
1032 |
# This means the last BackupPC_nightly is done with |
1033 |
# the pool clean, so it's to start running regular |
1034 |
# backups again. |
1035 |
# |
1036 |
$RunNightlyWhenIdle = 0; |
1037 |
} |
1038 |
} elsif ( $mesg =~ /^processState\s+(.+)/ ) { |
1039 |
$Jobs{$host}{processState} = $1; |
1040 |
} elsif ( $mesg =~ /^link\s+(.+)/ ) { |
1041 |
my($h) = $1; |
1042 |
$Status{$h}{needLink} = 1; |
1043 |
} else { |
1044 |
print(LOG $bpc->timeStamp, "$host: $mesg\n"); |
1045 |
} |
1046 |
} |
1047 |
# |
1048 |
# shut down the client connection if we read EOF |
1049 |
# |
1050 |
if ( $nbytes <= 0 ) { |
1051 |
close($Jobs{$host}{fh}); |
1052 |
vec($FDread, $Jobs{$host}{fn}, 1) = 0; |
1053 |
if ( $CmdJob eq $host || $bpc->isAdminJob($host) ) { |
1054 |
my $cmd = $Jobs{$host}{cmd}; |
1055 |
$cmd =~ s/$BinDir\///g; |
1056 |
print(LOG $bpc->timeStamp, "Finished $host ($cmd)\n"); |
1057 |
$Status{$host}{state} = "Status_idle"; |
1058 |
$Status{$host}{endTime} = time; |
1059 |
if ( $cmd =~ /^BackupPC_nightly\s/ ) { |
1060 |
$BackupPCNightlyJobs--; |
1061 |
#print(LOG $bpc->timeStamp, "BackupPC_nightly done; now" |
1062 |
# . " have $BackupPCNightlyJobs running\n"); |
1063 |
if ( $BackupPCNightlyJobs <= 0 ) { |
1064 |
$BackupPCNightlyJobs = 0; |
1065 |
$RunNightlyWhenIdle = 0; |
1066 |
$CmdJob = ""; |
1067 |
# |
1068 |
# Combine the 16 per-directory results |
1069 |
# |
1070 |
for my $p ( qw(pool cpool) ) { |
1071 |
$Info{"${p}FileCnt"} = 0; |
1072 |
$Info{"${p}DirCnt"} = 0; |
1073 |
$Info{"${p}Kb"} = 0; |
1074 |
$Info{"${p}Kb2"} = 0; |
1075 |
$Info{"${p}KbRm"} = 0; |
1076 |
$Info{"${p}FileCntRm"} = 0; |
1077 |
$Info{"${p}FileCntRep"} = 0; |
1078 |
$Info{"${p}FileRepMax"} = 0; |
1079 |
$Info{"${p}FileCntRename"} = 0; |
1080 |
$Info{"${p}FileLinkMax"} = 0; |
1081 |
$Info{"${p}Time"} = 0; |
1082 |
for ( my $i = 0 ; $i < 16 ; $i++ ) { |
1083 |
$Info{"${p}FileCnt"} |
1084 |
+= $Info{pool}{$p}[$i]{FileCnt}; |
1085 |
$Info{"${p}DirCnt"} |
1086 |
+= $Info{pool}{$p}[$i]{DirCnt}; |
1087 |
$Info{"${p}Kb"} |
1088 |
+= $Info{pool}{$p}[$i]{Kb}; |
1089 |
$Info{"${p}Kb2"} |
1090 |
+= $Info{pool}{$p}[$i]{Kb2}; |
1091 |
$Info{"${p}KbRm"} |
1092 |
+= $Info{pool}{$p}[$i]{KbRm}; |
1093 |
$Info{"${p}FileCntRm"} |
1094 |
+= $Info{pool}{$p}[$i]{FileCntRm}; |
1095 |
$Info{"${p}FileCntRep"} |
1096 |
+= $Info{pool}{$p}[$i]{FileCntRep}; |
1097 |
$Info{"${p}FileRepMax"} |
1098 |
= $Info{pool}{$p}[$i]{FileRepMax} |
1099 |
if ( $Info{"${p}FileRepMax"} < |
1100 |
$Info{pool}{$p}[$i]{FileRepMax} ); |
1101 |
$Info{"${p}FileCntRename"} |
1102 |
+= $Info{pool}{$p}[$i]{FileCntRename}; |
1103 |
$Info{"${p}FileLinkMax"} |
1104 |
= $Info{pool}{$p}[$i]{FileLinkMax} |
1105 |
if ( $Info{"${p}FileLinkMax"} < |
1106 |
$Info{pool}{$p}[$i]{FileLinkMax} ); |
1107 |
$Info{"${p}Time"} = $Info{pool}{$p}[$i]{Time} |
1108 |
if ( $Info{"${p}Time"} < |
1109 |
$Info{pool}{$p}[$i]{Time} ); |
1110 |
} |
1111 |
printf(LOG "%s%s nightly clean removed %d files of" |
1112 |
. " size %.2fGB\n", |
1113 |
$bpc->timeStamp, ucfirst($p), |
1114 |
$Info{"${p}FileCntRm"}, |
1115 |
$Info{"${p}KbRm"} / (1000 * 1024)); |
1116 |
printf(LOG "%s%s is %.2fGB, %d files (%d repeated, " |
1117 |
. "%d max chain, %d max links), %d directories\n", |
1118 |
$bpc->timeStamp, ucfirst($p), |
1119 |
$Info{"${p}Kb"} / (1000 * 1024), |
1120 |
$Info{"${p}FileCnt"}, $Info{"${p}FileCntRep"}, |
1121 |
$Info{"${p}FileRepMax"}, |
1122 |
$Info{"${p}FileLinkMax"}, $Info{"${p}DirCnt"}); |
1123 |
} |
1124 |
} |
1125 |
} else { |
1126 |
$CmdJob = ""; |
1127 |
} |
1128 |
} else { |
1129 |
# |
1130 |
# Queue BackupPC_link to complete the backup |
1131 |
# processing for this host. |
1132 |
# |
1133 |
if ( defined($Status{$host}) |
1134 |
&& ($Status{$host}{reason} eq "Reason_backup_done" |
1135 |
|| $Status{$host}{needLink}) ) { |
1136 |
QueueLink($host); |
1137 |
} elsif ( defined($Status{$host}) ) { |
1138 |
$Status{$host}{state} = "Status_idle"; |
1139 |
} |
1140 |
} |
1141 |
delete($Jobs{$host}); |
1142 |
$Status{$host}{activeJob} = 0 if ( defined($Status{$host}) ); |
1143 |
} |
1144 |
} |
1145 |
# |
1146 |
# When we are idle (empty Jobs, CmdQueue, BgQueue, UserQueue) we |
1147 |
# do a pass over %Status updating the deadCnt and aliveCnt for |
1148 |
# DHCP hosts. The reason we need to do this later is we can't |
1149 |
# be sure whether a DHCP host is alive or dead until we have passed |
1150 |
# over all the DHCP pool. |
1151 |
# |
1152 |
return if ( @CmdQueue || @BgQueue || @UserQueue || keys(%Jobs) > 1 ); |
1153 |
foreach my $host ( keys(%Status) ) { |
1154 |
next if ( $Status{$host}{dhcpCheckCnt} <= 0 ); |
1155 |
$Status{$host}{deadCnt} += $Status{$host}{dhcpCheckCnt}; |
1156 |
$Status{$host}{dhcpCheckCnt} = 0; |
1157 |
if ( $Status{$host}{deadCnt} >= $Conf{BlackoutBadPingLimit} ) { |
1158 |
$Status{$host}{aliveCnt} = 0; |
1159 |
} |
1160 |
} |
1161 |
} |
1162 |
|
1163 |
############################################################################ |
1164 |
# Main_Check_Client_Messages($fdRead) |
1165 |
# |
1166 |
# Check for, and process, any output from our clients. Also checks |
1167 |
# for new connections to our SERVER_UNIX and SERVER_INET sockets. |
1168 |
############################################################################ |
1169 |
sub Main_Check_Client_Messages |
1170 |
{ |
1171 |
my($fdRead) = @_; |
1172 |
foreach my $client ( keys(%Clients) ) { |
1173 |
next if ( !vec($fdRead, $Clients{$client}{fn}, 1) ); |
1174 |
my($mesg, $host); |
1175 |
# |
1176 |
# do a last check to make sure there is something to read so |
1177 |
# we are absolutely sure we won't block. |
1178 |
# |
1179 |
vec(my $readMask, $Clients{$client}{fn}, 1) = 1; |
1180 |
if ( !select($readMask, undef, undef, 0.0) ) { |
1181 |
print(LOG $bpc->timeStamp, "Botch in Main_Check_Client_Messages:" |
1182 |
. " nothing to read from $client. Debug dump:\n"); |
1183 |
my($dump) = Data::Dumper->new( |
1184 |
[ \%Clients, \%Jobs, \$FDread, \$fdRead], |
1185 |
[qw(*Clients, *Jobs *FDread, *fdRead)]); |
1186 |
$dump->Indent(1); |
1187 |
print(LOG $dump->Dump); |
1188 |
next; |
1189 |
} |
1190 |
my $nbytes = sysread($Clients{$client}{fh}, $mesg, 1024); |
1191 |
$Clients{$client}{mesg} .= $mesg if ( $nbytes > 0 ); |
1192 |
# |
1193 |
# Process any complete lines received from this client. |
1194 |
# |
1195 |
while ( $Clients{$client}{mesg} =~ /(.*?)[\n\r]+(.*)/s ) { |
1196 |
my($reply); |
1197 |
my $cmd = $1; |
1198 |
$Clients{$client}{mesg} = $2; |
1199 |
# |
1200 |
# Authenticate the message by checking the MD5 digest |
1201 |
# |
1202 |
my $md5 = Digest::MD5->new; |
1203 |
if ( $cmd !~ /^(.{22}) (.*)/ |
1204 |
|| ($md5->add($Clients{$client}{seed} |
1205 |
. $Clients{$client}{mesgCnt} |
1206 |
. $Conf{ServerMesgSecret} . $2), |
1207 |
$md5->b64digest ne $1) ) { |
1208 |
print(LOG $bpc->timeStamp, "Corrupted message '$cmd' from" |
1209 |
. " client '$Clients{$client}{clientName}':" |
1210 |
. " shutting down client connection\n"); |
1211 |
$nbytes = 0; |
1212 |
last; |
1213 |
} |
1214 |
$Clients{$client}{mesgCnt}++; |
1215 |
$cmd = $2; |
1216 |
if ( $cmd =~ /^stop (\S+)\s+(\S+)\s+(\S*)/ ) { |
1217 |
$host = $1; |
1218 |
my $user = $2; |
1219 |
my $backoff = $3; |
1220 |
$host = $bpc->uriUnesc($host); |
1221 |
if ( $CmdJob ne $host && defined($Status{$host}) |
1222 |
&& defined($Jobs{$host}) ) { |
1223 |
print(LOG $bpc->timeStamp, |
1224 |
"Stopping current $Jobs{$host}{type} of $host," |
1225 |
. " request by $user (backoff=$backoff)\n"); |
1226 |
kill($bpc->sigName2num("INT"), $Jobs{$host}{pid}); |
1227 |
# |
1228 |
# Don't close the pipe now; wait until the child |
1229 |
# really exits later. Otherwise close() will |
1230 |
# block until the child has exited. |
1231 |
# old code: |
1232 |
##vec($FDread, $Jobs{$host}{fn}, 1) = 0; |
1233 |
##close($Jobs{$host}{fh}); |
1234 |
##delete($Jobs{$host}); |
1235 |
|
1236 |
$Status{$host}{state} = "Status_idle"; |
1237 |
if ( $Jobs{$host}{type} eq "restore" ) { |
1238 |
$Status{$host}{reason} |
1239 |
= "Reason_restore_canceled_by_user"; |
1240 |
} elsif ( $Jobs{$host}{type} eq "archive" ) { |
1241 |
$Status{$host}{reason} |
1242 |
= "Reason_archive_canceled_by_user"; |
1243 |
} else { |
1244 |
$Status{$host}{reason} |
1245 |
= "Reason_backup_canceled_by_user"; |
1246 |
} |
1247 |
$Status{$host}{activeJob} = 0; |
1248 |
$Status{$host}{startTime} = time; |
1249 |
$reply = "ok: $Jobs{$host}{type} of $host canceled"; |
1250 |
} elsif ( $BgQueueOn{$host} || $UserQueueOn{$host} ) { |
1251 |
print(LOG $bpc->timeStamp, |
1252 |
"Stopping pending backup of $host," |
1253 |
. " request by $user (backoff=$backoff)\n"); |
1254 |
@BgQueue = grep($_->{host} ne $host, @BgQueue); |
1255 |
@UserQueue = grep($_->{host} ne $host, @UserQueue); |
1256 |
$BgQueueOn{$host} = $UserQueueOn{$host} = 0; |
1257 |
$reply = "ok: pending backup of $host canceled"; |
1258 |
} else { |
1259 |
print(LOG $bpc->timeStamp, |
1260 |
"Nothing to do for stop backup of $host," |
1261 |
. " request by $user (backoff=$backoff)\n"); |
1262 |
$reply = "ok: no backup was pending or running"; |
1263 |
} |
1264 |
if ( defined($Status{$host}) && $backoff ne "" ) { |
1265 |
if ( $backoff > 0 ) { |
1266 |
$Status{$host}{backoffTime} = time + $backoff * 3600; |
1267 |
} else { |
1268 |
delete($Status{$host}{backoffTime}); |
1269 |
} |
1270 |
} |
1271 |
} elsif ( $cmd =~ /^backup all$/ ) { |
1272 |
QueueAllPCs(); |
1273 |
} elsif ( $cmd =~ /^BackupPC_nightly run$/ ) { |
1274 |
$RunNightlyWhenIdle = 1; |
1275 |
} elsif ( $cmd =~ /^backup (\S+)\s+(\S+)\s+(\S+)\s+(\S+)/ ) { |
1276 |
my $hostIP = $1; |
1277 |
$host = $2; |
1278 |
my $user = $3; |
1279 |
my $doFull = $4; |
1280 |
$host = $bpc->uriUnesc($host); |
1281 |
$hostIP = $bpc->uriUnesc($hostIP); |
1282 |
if ( !defined($Status{$host}) ) { |
1283 |
print(LOG $bpc->timeStamp, |
1284 |
"User $user requested backup of unknown host" |
1285 |
. " $host\n"); |
1286 |
$reply = "error: unknown host $host"; |
1287 |
} elsif ( defined($Jobs{$host}) |
1288 |
&& $Jobs{$host}{type} ne "restore" ) { |
1289 |
print(LOG $bpc->timeStamp, |
1290 |
"User $user requested backup of $host," |
1291 |
. " but one is currently running\n"); |
1292 |
$reply = "error: backup of $host is already running"; |
1293 |
} else { |
1294 |
print(LOG $bpc->timeStamp, |
1295 |
"User $user requested backup of $host" |
1296 |
. " ($hostIP)\n"); |
1297 |
if ( $BgQueueOn{$hostIP} ) { |
1298 |
@BgQueue = grep($_->{host} ne $hostIP, @BgQueue); |
1299 |
$BgQueueOn{$hostIP} = 0; |
1300 |
} |
1301 |
if ( $UserQueueOn{$hostIP} ) { |
1302 |
@UserQueue = grep($_->{host} ne $hostIP, @UserQueue); |
1303 |
$UserQueueOn{$hostIP} = 0; |
1304 |
} |
1305 |
unshift(@UserQueue, { |
1306 |
host => $hostIP, |
1307 |
user => $user, |
1308 |
reqTime => time, |
1309 |
doFull => $doFull, |
1310 |
userReq => 1, |
1311 |
dhcp => $hostIP eq $host ? 0 : 1, |
1312 |
}); |
1313 |
$UserQueueOn{$hostIP} = 1; |
1314 |
$reply = "ok: requested backup of $host"; |
1315 |
} |
1316 |
} elsif ( $cmd =~ /^archive (\S+)\s+(\S+)\s+(\S+)/ ) { |
1317 |
my $user = $1; |
1318 |
my $archivehost = $2; |
1319 |
my $reqFileName = $3; |
1320 |
$host = $bpc->uriUnesc($archivehost); |
1321 |
if ( !defined($Status{$host}) ) { |
1322 |
print(LOG $bpc->timeStamp, |
1323 |
"User $user requested archive of unknown archive host" |
1324 |
. " $host"); |
1325 |
$reply = "archive error: unknown archive host $host"; |
1326 |
} else { |
1327 |
print(LOG $bpc->timeStamp, |
1328 |
"User $user requested archive on $host" |
1329 |
. " ($host)\n"); |
1330 |
if ( defined($Jobs{$host}) ) { |
1331 |
$reply = "Archive currently running on $host, please try later"; |
1332 |
} else { |
1333 |
unshift(@UserQueue, { |
1334 |
host => $host, |
1335 |
hostIP => $user, |
1336 |
reqFileName => $reqFileName, |
1337 |
reqTime => time, |
1338 |
dhcp => 0, |
1339 |
archive => 1, |
1340 |
userReq => 1, |
1341 |
}); |
1342 |
$UserQueueOn{$host} = 1; |
1343 |
$reply = "ok: requested archive on $host"; |
1344 |
} |
1345 |
} |
1346 |
} elsif ( $cmd =~ /^restore (\S+)\s+(\S+)\s+(\S+)\s+(\S+)/ ) { |
1347 |
my $hostIP = $1; |
1348 |
$host = $2; |
1349 |
my $user = $3; |
1350 |
my $reqFileName = $4; |
1351 |
$host = $bpc->uriUnesc($host); |
1352 |
$hostIP = $bpc->uriUnesc($hostIP); |
1353 |
if ( !defined($Status{$host}) ) { |
1354 |
print(LOG $bpc->timeStamp, |
1355 |
"User $user requested restore to unknown host" |
1356 |
. " $host"); |
1357 |
$reply = "restore error: unknown host $host"; |
1358 |
} else { |
1359 |
print(LOG $bpc->timeStamp, |
1360 |
"User $user requested restore to $host" |
1361 |
. " ($hostIP)\n"); |
1362 |
unshift(@UserQueue, { |
1363 |
host => $host, |
1364 |
hostIP => $hostIP, |
1365 |
reqFileName => $reqFileName, |
1366 |
reqTime => time, |
1367 |
dhcp => 0, |
1368 |
restore => 1, |
1369 |
userReq => 1, |
1370 |
}); |
1371 |
$UserQueueOn{$host} = 1; |
1372 |
if ( defined($Jobs{$host}) ) { |
1373 |
$reply = "ok: requested restore of $host, but a" |
1374 |
. " job is currently running," |
1375 |
. " so this request will start later"; |
1376 |
} else { |
1377 |
$reply = "ok: requested restore of $host"; |
1378 |
} |
1379 |
} |
1380 |
} elsif ( $cmd =~ /^status\s*(.*)/ ) { |
1381 |
my($args) = $1; |
1382 |
my($dump, @values, @names); |
1383 |
foreach my $type ( split(/\s+/, $args) ) { |
1384 |
if ( $type =~ /^queues/ ) { |
1385 |
push(@values, \@BgQueue, \@UserQueue, \@CmdQueue); |
1386 |
push(@names, qw(*BgQueue *UserQueue *CmdQueue)); |
1387 |
} elsif ( $type =~ /^jobs/ ) { |
1388 |
push(@values, \%Jobs); |
1389 |
push(@names, qw(*Jobs)); |
1390 |
} elsif ( $type =~ /^queueLen/ ) { |
1391 |
push(@values, { |
1392 |
BgQueue => scalar(@BgQueue), |
1393 |
UserQueue => scalar(@UserQueue), |
1394 |
CmdQueue => scalar(@CmdQueue), |
1395 |
}); |
1396 |
push(@names, qw(*QueueLen)); |
1397 |
} elsif ( $type =~ /^info/ ) { |
1398 |
push(@values, \%Info); |
1399 |
push(@names, qw(*Info)); |
1400 |
} elsif ( $type =~ /^hosts/ ) { |
1401 |
push(@values, \%Status); |
1402 |
push(@names, qw(*Status)); |
1403 |
} elsif ( $type =~ /^host\((.*)\)/ ) { |
1404 |
my $h = $bpc->uriUnesc($1); |
1405 |
if ( defined($Status{$h}) ) { |
1406 |
push(@values, { |
1407 |
%{$Status{$h}}, |
1408 |
BgQueueOn => $BgQueueOn{$h}, |
1409 |
UserQueueOn => $UserQueueOn{$h}, |
1410 |
CmdQueueOn => $CmdQueueOn{$h}, |
1411 |
}); |
1412 |
push(@names, qw(*StatusHost)); |
1413 |
} else { |
1414 |
print(LOG $bpc->timeStamp, |
1415 |
"Unknown host $h for status request\n"); |
1416 |
} |
1417 |
} else { |
1418 |
print(LOG $bpc->timeStamp, |
1419 |
"Unknown status request $type\n"); |
1420 |
} |
1421 |
} |
1422 |
$dump = Data::Dumper->new(\@values, \@names); |
1423 |
$dump->Indent(0); |
1424 |
$reply = $dump->Dump; |
1425 |
} elsif ( $cmd =~ /^link\s+(.+)/ ) { |
1426 |
my($host) = $1; |
1427 |
$host = $bpc->uriUnesc($host); |
1428 |
QueueLink($host); |
1429 |
} elsif ( $cmd =~ /^log\s+(.*)/ ) { |
1430 |
print(LOG $bpc->timeStamp, "$1\n"); |
1431 |
} elsif ( $cmd =~ /^server\s+(\w+)/ ) { |
1432 |
my($type) = $1; |
1433 |
if ( $type eq 'reload' ) { |
1434 |
ServerReload("Reloading config/host files via CGI request"); |
1435 |
} elsif ( $type eq 'shutdown' ) { |
1436 |
$reply = "Shutting down...\n"; |
1437 |
syswrite($Clients{$client}{fh}, $reply, length($reply)); |
1438 |
ServerShutdown("Server shutting down..."); |
1439 |
} |
1440 |
} elsif ( $cmd =~ /^quit/ || $cmd =~ /^exit/ ) { |
1441 |
$nbytes = 0; |
1442 |
last; |
1443 |
} else { |
1444 |
print(LOG $bpc->timeStamp, "Unknown command $cmd\n"); |
1445 |
$reply = "error: bad command $cmd"; |
1446 |
} |
1447 |
# |
1448 |
# send a reply to the client, at a minimum "ok\n". |
1449 |
# |
1450 |
$reply = "ok" if ( $reply eq "" ); |
1451 |
$reply .= "\n"; |
1452 |
syswrite($Clients{$client}{fh}, $reply, length($reply)); |
1453 |
} |
1454 |
# |
1455 |
# Detect possible denial-of-service attack from sending a huge line |
1456 |
# (ie: never terminated). 32K seems to be plenty big enough as |
1457 |
# a limit. |
1458 |
# |
1459 |
if ( length($Clients{$client}{mesg}) > 32 * 1024 ) { |
1460 |
print(LOG $bpc->timeStamp, "Line too long from client" |
1461 |
. " '$Clients{$client}{clientName}':" |
1462 |
. " shutting down client connection\n"); |
1463 |
$nbytes = 0; |
1464 |
} |
1465 |
# |
1466 |
# Shut down the client connection if we read EOF |
1467 |
# |
1468 |
if ( $nbytes <= 0 ) { |
1469 |
close($Clients{$client}{fh}); |
1470 |
vec($FDread, $Clients{$client}{fn}, 1) = 0; |
1471 |
delete($Clients{$client}); |
1472 |
} |
1473 |
} |
1474 |
# |
1475 |
# Accept any new connections on each of our listen sockets |
1476 |
# |
1477 |
if ( vec($fdRead, fileno(SERVER_UNIX), 1) ) { |
1478 |
local(*CLIENT); |
1479 |
my $paddr = accept(CLIENT, SERVER_UNIX); |
1480 |
$ClientConnCnt++; |
1481 |
$Clients{$ClientConnCnt}{clientName} = "unix socket"; |
1482 |
$Clients{$ClientConnCnt}{mesg} = ""; |
1483 |
$Clients{$ClientConnCnt}{fh} = *CLIENT; |
1484 |
$Clients{$ClientConnCnt}{fn} = fileno(CLIENT); |
1485 |
vec($FDread, $Clients{$ClientConnCnt}{fn}, 1) = 1; |
1486 |
# |
1487 |
# Generate and send unique seed for MD5 digests to avoid |
1488 |
# replay attacks. See BackupPC::Lib::ServerMesg(). |
1489 |
# |
1490 |
my $seed = time . ",$ClientConnCnt,$$,0\n"; |
1491 |
$Clients{$ClientConnCnt}{seed} = $seed; |
1492 |
$Clients{$ClientConnCnt}{mesgCnt} = 0; |
1493 |
syswrite($Clients{$ClientConnCnt}{fh}, $seed, length($seed)); |
1494 |
} |
1495 |
if ( $ServerInetPort > 0 && vec($fdRead, fileno(SERVER_INET), 1) ) { |
1496 |
local(*CLIENT); |
1497 |
my $paddr = accept(CLIENT, SERVER_INET); |
1498 |
my($port,$iaddr) = sockaddr_in($paddr); |
1499 |
my $name = gethostbyaddr($iaddr, AF_INET); |
1500 |
$ClientConnCnt++; |
1501 |
$Clients{$ClientConnCnt}{mesg} = ""; |
1502 |
$Clients{$ClientConnCnt}{fh} = *CLIENT; |
1503 |
$Clients{$ClientConnCnt}{fn} = fileno(CLIENT); |
1504 |
$Clients{$ClientConnCnt}{clientName} = "$name:$port"; |
1505 |
vec($FDread, $Clients{$ClientConnCnt}{fn}, 1) = 1; |
1506 |
# |
1507 |
# Generate and send unique seed for MD5 digests to avoid |
1508 |
# replay attacks. See BackupPC::Lib::ServerMesg(). |
1509 |
# |
1510 |
my $seed = time . ",$ClientConnCnt,$$,$port\n"; |
1511 |
$Clients{$ClientConnCnt}{seed} = $seed; |
1512 |
$Clients{$ClientConnCnt}{mesgCnt} = 0; |
1513 |
syswrite($Clients{$ClientConnCnt}{fh}, $seed, length($seed)); |
1514 |
} |
1515 |
} |
1516 |
|
1517 |
########################################################################### |
1518 |
# Miscellaneous subroutines |
1519 |
########################################################################### |
1520 |
|
1521 |
# |
1522 |
# Write the current status to $TopDir/log/status.pl |
1523 |
# |
1524 |
sub StatusWrite |
1525 |
{ |
1526 |
my($dump) = Data::Dumper->new( |
1527 |
[ \%Info, \%Status], |
1528 |
[qw(*Info *Status)]); |
1529 |
$dump->Indent(1); |
1530 |
if ( open(STATUS, ">", "$TopDir/log/status.pl") ) { |
1531 |
print(STATUS $dump->Dump); |
1532 |
close(STATUS); |
1533 |
} |
1534 |
} |
1535 |
|
1536 |
# |
1537 |
# Compare function for host sort. Hosts with errors go first, |
1538 |
# sorted with the oldest errors first. The remaining hosts |
1539 |
# are sorted so that those with the oldest backups go first. |
1540 |
# |
1541 |
sub HostSortCompare |
1542 |
{ |
1543 |
return -1 if ( $Status{$a}{error} ne "" && $Status{$b}{error} eq "" ); |
1544 |
return 1 if ( $Status{$a}{error} eq "" && $Status{$b}{error} ne "" ); |
1545 |
return $Status{$a}{endTime} <=> $Status{$b}{endTime}; |
1546 |
} |
1547 |
|
1548 |
# |
1549 |
# Queue all the hosts for backup. This means queuing all the fixed |
1550 |
# ip hosts and all the dhcp address ranges. We also additionally |
1551 |
# queue the dhcp hosts with a -e flag to check for expired dumps. |
1552 |
# |
1553 |
sub QueueAllPCs |
1554 |
{ |
1555 |
foreach my $host ( sort(HostSortCompare keys(%$Hosts)) ) { |
1556 |
delete($Status{$host}{backoffTime}) |
1557 |
if ( defined($Status{$host}{backoffTime}) |
1558 |
&& $Status{$host}{backoffTime} < time ); |
1559 |
next if ( defined($Jobs{$host}) |
1560 |
|| $BgQueueOn{$host} |
1561 |
|| $UserQueueOn{$host} |
1562 |
|| $CmdQueueOn{$host} ); |
1563 |
if ( $Hosts->{$host}{dhcp} ) { |
1564 |
$Status{$host}{dhcpCheckCnt}++; |
1565 |
if ( $RunNightlyWhenIdle ) { |
1566 |
# |
1567 |
# Once per night queue a check for DHCP hosts that just |
1568 |
# checks for expired dumps. We need to do this to handle |
1569 |
# the case when a DHCP host has not been on the network for |
1570 |
# a long time, and some of the old dumps need to be expired. |
1571 |
# Normally expiry checks are done by BackupPC_dump only |
1572 |
# after the DHCP hosts has been detected on the network. |
1573 |
# |
1574 |
unshift(@BgQueue, |
1575 |
{host => $host, user => "BackupPC", reqTime => time, |
1576 |
dhcp => 0, dumpExpire => 1}); |
1577 |
$BgQueueOn{$host} = 1; |
1578 |
} |
1579 |
} else { |
1580 |
# |
1581 |
# this is a fixed ip host: queue it |
1582 |
# |
1583 |
unshift(@BgQueue, |
1584 |
{host => $host, user => "BackupPC", reqTime => time, |
1585 |
dhcp => $Hosts->{$host}{dhcp}}); |
1586 |
$BgQueueOn{$host} = 1; |
1587 |
} |
1588 |
} |
1589 |
foreach my $dhcp ( @{$Conf{DHCPAddressRanges}} ) { |
1590 |
for ( my $i = $dhcp->{first} ; $i <= $dhcp->{last} ; $i++ ) { |
1591 |
my $ipAddr = "$dhcp->{ipAddrBase}.$i"; |
1592 |
next if ( defined($Jobs{$ipAddr}) |
1593 |
|| $BgQueueOn{$ipAddr} |
1594 |
|| $UserQueueOn{$ipAddr} |
1595 |
|| $CmdQueueOn{$ipAddr} ); |
1596 |
# |
1597 |
# this is a potential dhcp ip address (we don't know the |
1598 |
# host name yet): queue it |
1599 |
# |
1600 |
unshift(@BgQueue, |
1601 |
{host => $ipAddr, user => "BackupPC", reqTime => time, |
1602 |
dhcp => 1}); |
1603 |
$BgQueueOn{$ipAddr} = 1; |
1604 |
} |
1605 |
} |
1606 |
} |
1607 |
|
1608 |
# |
1609 |
# Queue a BackupPC_link for the given host |
1610 |
# |
1611 |
sub QueueLink |
1612 |
{ |
1613 |
my($host) = @_; |
1614 |
|
1615 |
return if ( $CmdQueueOn{$host} ); |
1616 |
$Status{$host}{state} = "Status_link_pending"; |
1617 |
$Status{$host}{needLink} = 0; |
1618 |
unshift(@CmdQueue, { |
1619 |
host => $host, |
1620 |
user => "BackupPC", |
1621 |
reqTime => time, |
1622 |
cmd => ["$BinDir/BackupPC_link", $host], |
1623 |
}); |
1624 |
$CmdQueueOn{$host} = 1; |
1625 |
} |
1626 |
|
1627 |
# |
1628 |
# Read the hosts file, and update Status if any hosts have been |
1629 |
# added or deleted. We also track the mtime so the only need to |
1630 |
# update the hosts file on changes. |
1631 |
# |
1632 |
# This function is called at startup, SIGHUP, and on each wakeup. |
1633 |
# It returns 1 on success and undef on failure. |
1634 |
# |
1635 |
sub HostsUpdate |
1636 |
{ |
1637 |
my($force) = @_; |
1638 |
my $newHosts; |
1639 |
# |
1640 |
# Nothing to do if we already have the current hosts file |
1641 |
# |
1642 |
return 1 if ( !$force && defined($Hosts) |
1643 |
&& $Info{HostsModTime} == $bpc->HostsMTime() ); |
1644 |
if ( !defined($newHosts = $bpc->HostInfoRead()) ) { |
1645 |
print(LOG $bpc->timeStamp, "Can't read hosts file!\n"); |
1646 |
return; |
1647 |
} |
1648 |
print(LOG $bpc->timeStamp, "Reading hosts file\n"); |
1649 |
$Hosts = $newHosts; |
1650 |
$Info{HostsModTime} = $bpc->HostsMTime(); |
1651 |
# |
1652 |
# Now update %Status in case any hosts have been added or deleted |
1653 |
# |
1654 |
foreach my $host ( sort(keys(%$Hosts)) ) { |
1655 |
next if ( defined($Status{$host}) ); |
1656 |
$Status{$host}{state} = "Status_idle"; |
1657 |
print(LOG $bpc->timeStamp, "Added host $host to backup list\n"); |
1658 |
} |
1659 |
foreach my $host ( sort(keys(%Status)) ) { |
1660 |
next if ( $host eq $bpc->trashJob |
1661 |
|| $bpc->isAdminJob($host) |
1662 |
|| defined($Hosts->{$host}) |
1663 |
|| defined($Jobs{$host}) |
1664 |
|| $BgQueueOn{$host} |
1665 |
|| $UserQueueOn{$host} |
1666 |
|| $CmdQueueOn{$host} ); |
1667 |
print(LOG $bpc->timeStamp, "Deleted host $host from backup list\n"); |
1668 |
delete($Status{$host}); |
1669 |
} |
1670 |
return 1; |
1671 |
} |
1672 |
|
1673 |
# |
1674 |
# Remember the signal name for later processing |
1675 |
# |
1676 |
sub catch_signal |
1677 |
{ |
1678 |
if ( $SigName ) { |
1679 |
$SigName = shift; |
1680 |
foreach my $host ( keys(%Jobs) ) { |
1681 |
kill($bpc->sigName2num("INT"), $Jobs{$host}{pid}); |
1682 |
} |
1683 |
# |
1684 |
# In case we are inside the exit handler, reopen the log file |
1685 |
# |
1686 |
close(LOG); |
1687 |
LogFileOpen(); |
1688 |
print(LOG "Fatal error: unhandled signal $SigName\n"); |
1689 |
unlink("$TopDir/log/BackupPC.pid"); |
1690 |
confess("Got new signal $SigName... quitting\n"); |
1691 |
} else { |
1692 |
$SigName = shift; |
1693 |
} |
1694 |
} |
1695 |
|
1696 |
# |
1697 |
# Open the log file and point STDOUT and STDERR there too |
1698 |
# |
1699 |
sub LogFileOpen |
1700 |
{ |
1701 |
mkpath("$TopDir/log", 0, 0777) if ( !-d "$TopDir/log" ); |
1702 |
open(LOG, ">>$TopDir/log/LOG") |
1703 |
|| die("Can't create LOG file $TopDir/log/LOG"); |
1704 |
close(STDOUT); |
1705 |
close(STDERR); |
1706 |
open(STDOUT, ">&LOG"); |
1707 |
open(STDERR, ">&LOG"); |
1708 |
select(LOG); $| = 1; |
1709 |
select(STDERR); $| = 1; |
1710 |
select(STDOUT); $| = 1; |
1711 |
} |
1712 |
|
1713 |
# |
1714 |
# Initialize the unix-domain and internet-domain sockets that |
1715 |
# we listen to for client connections (from the CGI script and |
1716 |
# some of the BackupPC sub-programs). |
1717 |
# |
1718 |
sub ServerSocketInit |
1719 |
{ |
1720 |
if ( !defined(fileno(SERVER_UNIX)) ) { |
1721 |
# |
1722 |
# one-time only: initialize unix-domain socket |
1723 |
# |
1724 |
if ( !socket(SERVER_UNIX, PF_UNIX, SOCK_STREAM, 0) ) { |
1725 |
print(LOG $bpc->timeStamp, "unix socket() failed: $!\n"); |
1726 |
exit(1); |
1727 |
} |
1728 |
my $sockFile = "$TopDir/log/BackupPC.sock"; |
1729 |
unlink($sockFile); |
1730 |
if ( !bind(SERVER_UNIX, sockaddr_un($sockFile)) ) { |
1731 |
print(LOG $bpc->timeStamp, "unix bind() failed: $!\n"); |
1732 |
exit(1); |
1733 |
} |
1734 |
if ( !listen(SERVER_UNIX, SOMAXCONN) ) { |
1735 |
print(LOG $bpc->timeStamp, "unix listen() failed: $!\n"); |
1736 |
exit(1); |
1737 |
} |
1738 |
vec($FDread, fileno(SERVER_UNIX), 1) = 1; |
1739 |
} |
1740 |
return if ( $ServerInetPort == $Conf{ServerPort} ); |
1741 |
if ( $ServerInetPort > 0 ) { |
1742 |
vec($FDread, fileno(SERVER_INET), 1) = 0; |
1743 |
close(SERVER_INET); |
1744 |
$ServerInetPort = -1; |
1745 |
} |
1746 |
if ( $Conf{ServerPort} > 0 ) { |
1747 |
# |
1748 |
# Setup a socket to listen on $Conf{ServerPort} |
1749 |
# |
1750 |
my $proto = getprotobyname('tcp'); |
1751 |
if ( !socket(SERVER_INET, PF_INET, SOCK_STREAM, $proto) ) { |
1752 |
print(LOG $bpc->timeStamp, "inet socket() failed: $!\n"); |
1753 |
exit(1); |
1754 |
} |
1755 |
if ( !setsockopt(SERVER_INET, SOL_SOCKET, SO_REUSEADDR, pack("l",1)) ) { |
1756 |
print(LOG $bpc->timeStamp, "setsockopt() failed: $!\n"); |
1757 |
exit(1); |
1758 |
} |
1759 |
if ( !bind(SERVER_INET, sockaddr_in($Conf{ServerPort}, INADDR_ANY)) ) { |
1760 |
print(LOG $bpc->timeStamp, "inet bind() failed: $!\n"); |
1761 |
exit(1); |
1762 |
} |
1763 |
if ( !listen(SERVER_INET, SOMAXCONN) ) { |
1764 |
print(LOG $bpc->timeStamp, "inet listen() failed: $!\n"); |
1765 |
exit(1); |
1766 |
} |
1767 |
vec($FDread, fileno(SERVER_INET), 1) = 1; |
1768 |
$ServerInetPort = $Conf{ServerPort}; |
1769 |
} |
1770 |
} |
1771 |
|
1772 |
# |
1773 |
# Reload the server. Used by Main_Process_Signal when $SigName eq "HUP" |
1774 |
# or when the command "server reload" is received. |
1775 |
# |
1776 |
sub ServerReload |
1777 |
{ |
1778 |
my($mesg) = @_; |
1779 |
$mesg = $bpc->ConfigRead() || $mesg; |
1780 |
print(LOG $bpc->timeStamp, "$mesg\n"); |
1781 |
$Info{ConfigModTime} = $bpc->ConfigMTime(); |
1782 |
%Conf = $bpc->Conf(); |
1783 |
umask($Conf{UmaskMode}); |
1784 |
ServerSocketInit(); |
1785 |
HostsUpdate(0); |
1786 |
$NextWakeup = 0; |
1787 |
$Info{ConfigLTime} = time; |
1788 |
} |
1789 |
|
1790 |
# |
1791 |
# Gracefully shutdown the server. Used by Main_Process_Signal when |
1792 |
# $SigName ne "" && $SigName ne "HUP" or when the command |
1793 |
# "server shutdown" is received. |
1794 |
# |
1795 |
sub ServerShutdown |
1796 |
{ |
1797 |
my($mesg) = @_; |
1798 |
print(LOG $bpc->timeStamp, "$mesg\n"); |
1799 |
if ( keys(%Jobs) ) { |
1800 |
foreach my $host ( keys(%Jobs) ) { |
1801 |
kill($bpc->sigName2num("INT"), $Jobs{$host}{pid}); |
1802 |
} |
1803 |
sleep(1); |
1804 |
foreach my $host ( keys(%Jobs) ) { |
1805 |
kill($bpc->sigName2num("KILL"), $Jobs{$host}{pid}); |
1806 |
} |
1807 |
%Jobs = (); |
1808 |
} |
1809 |
StatusWrite(); |
1810 |
unlink("$TopDir/log/BackupPC.pid"); |
1811 |
exit(1); |
1812 |
} |
1813 |
|