0x1949 Team - FAZEMRX - MANAGER
Edit File: needrestart
#!/usr/bin/perl # nagios: -epn # needrestart - Restart daemons after library updates. # # Authors: # Thomas Liske <thomas@fiasko-nw.net> # # Copyright Holder: # 2013 - 2020 (C) Thomas Liske [http://fiasko-nw.net/~thomas/] # # License: # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this package; if not, write to the Free Software # Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA # use Cwd qw(realpath); use Getopt::Std; use NeedRestart; use NeedRestart::UI; use NeedRestart::Interp; use NeedRestart::Kernel; use NeedRestart::uCode; use NeedRestart::Utils; use Sort::Naturally; use Locale::TextDomain 'needrestart'; use List::Util qw(sum); use warnings; use strict; $|++; $Getopt::Std::STANDARD_HELP_VERSION++; my $LOGPREF = '[main]'; my $is_systemd = -d q(/run/systemd/system); my $is_runit = -e q(/run/runit.stopit); my $is_tty = (-t *STDERR || -t *STDOUT || -t *STDIN); my $is_vm; my $is_container; if($is_systemd && -x q(/usr/bin/systemd-detect-virt)) { # check if we are inside of a vm my $ret = system(qw(/usr/bin/systemd-detect-virt --vm --quiet)); unless($? == -1 || $? & 127) { $is_vm = ($? >> 8) == 0; } # check if we are inside of a container $ret = system(qw(/usr/bin/systemd-detect-virt --container --quiet)); unless($? == -1 || $? & 127) { $is_container = ($? >> 8) == 0; } } elsif (-r "/proc/1/environ") { # check if we are inside of a container (fallback) local $/; open(HENV, '<', '/proc/1/environ'); $is_container = scalar(grep {/^container=/;} unpack("(Z*)*", <HENV>)); close(HENV) } sub HELP_MESSAGE { print <<USG; Usage: needrestart [-vn] [-c <cfg>] [-r <mode>] [-f <fe>] [-u <ui>] [-bkl] -v be more verbose -q be quiet -m <mode> set detail level e (e)asy mode a (a)dvanced mode -n set default answer to 'no' -c <cfg> config filename -r <mode> set restart mode l (l)ist only i (i)nteractive restart a (a)utomatically restart -b enable batch mode -p enable nagios plugin mode -f <fe> override debconf frontend (DEBIAN_FRONTEND, debconf(7)) -t <seconds> tolerate interpreter process start times within this value -u <ui> use preferred UI package (-u ? shows available packages) By using the following options only the specified checks are performed: -k check for obsolete kernel -l check for obsolete libraries -w check for obsolete CPU microcode --help show this help --version show version information USG } sub VERSION_MESSAGE { print <<LIC; needrestart $NeedRestart::VERSION - Restart daemons after library updates. Authors: Thomas Liske <thomas\@fiasko-nw.net> Copyright Holder: 2013 - 2020 (C) Thomas Liske [http://fiasko-nw.net/~thomas/] Upstream: https://github.com/liske/needrestart This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. LIC #/ } our %nrconf = ( verbosity => 1, hook_d => '/etc/needrestart/hook.d', notify_d => '/etc/needrestart/notify.d', restart_d => '/etc/needrestart/restart.d', sendnotify => 1, restart => 'i', defno => 0, ui_mode => 'a', systemctl_combine => 0, blacklist => [], blacklist_interp => [], blacklist_rc => [], blacklist_mappings => [], override_rc => {}, override_cont => {}, skip_mapfiles => -1, interpscan => 1, kernelhints => 1, kernelfilter => qr(.), ucodehints => 1, q(nagios-status) => { services => 1, kernel => 2, ucode => 2, sessions => 2, containers => 1, }, has_pam_systemd => 1, tolerance => 2, ); # backup ARGV (required for Debconf) my @argv = @ARGV; our $opt_c = '/etc/needrestart/needrestart.conf'; our $opt_v; our $opt_r; our $opt_n; our $opt_m; our $opt_b; our $opt_f; our $opt_k; our $opt_l; our $opt_p; our $opt_q; our $opt_t; our $opt_u; our $opt_w; unless(getopts('c:vr:nm:bf:klpqt:u:w')) { HELP_MESSAGE; exit 1; } # disable exiting and STDOUT in Getopt::Std for further use of getopts $Getopt::Std::STANDARD_HELP_VERSION = undef; # restore ARGV @ARGV = @argv; die "ERROR: Could not read config file '$opt_c'!\n" unless(-r $opt_c || $opt_b); # override debconf frontend $ENV{DEBIAN_FRONTEND} = $opt_f if($opt_f); # be quiet if($opt_q) { $nrconf{verbosity} = 0; } # be verbose elsif($opt_v) { $nrconf{verbosity} = 2; } # slurp config file print STDERR "$LOGPREF eval $opt_c\n" if($nrconf{verbosity} > 1); eval do { local $/; open my $fh, $opt_c or die "ERROR: $!\n"; my $cfg = <$fh>; close($fh); $cfg; }; die "Error parsing $opt_c: $@" if($@); # fallback to stdio on verbose mode $nrconf{ui} = qq(NeedRestart::UI::stdio) if($nrconf{verbosity} > 1); die "Hook directory '$nrconf{hook_d}' is invalid!\n" unless(-d $nrconf{hook_d} || $opt_b); $opt_r = $ENV{NEEDRESTART_MODE} if(!defined($opt_r) && exists($ENV{NEEDRESTART_MODE})); $opt_r = $nrconf{restart} unless(defined($opt_r)); die "ERROR: Unknown restart option '$opt_r'!\n" unless($opt_r =~ /^(l|i|a)$/); $is_tty = 0 if($opt_r eq 'i' && exists($ENV{DEBIAN_FRONTEND}) && $ENV{DEBIAN_FRONTEND} eq 'noninteractive'); $opt_r = 'l' if(!$is_tty && $opt_r eq 'i'); # always run in batch mode if we run noninteractive $opt_b++ if(exists($ENV{DEBIAN_FRONTEND}) && $ENV{DEBIAN_FRONTEND} eq 'noninteractive'); $opt_m = $nrconf{ui_mode} unless(defined($opt_m)); die "ERROR: Unknown UI mode '$opt_m'!\n" unless($opt_m =~ /^(e|a)$/); $opt_r = 'l' if($opt_m eq 'e'); $opt_t = $nrconf{tolerance} unless(defined($opt_t)); $nrconf{defno}++ if($opt_n); $opt_b++ if($opt_p); # print version in verbose mode print STDERR "$LOGPREF needrestart v$NeedRestart::VERSION\n" if($nrconf{verbosity} > 1); # running mode (user or root) my $uid = $<; if($uid) { if($opt_p) { print "UNKN - This plugin needs to be run as root!\n"; exit 3; } print STDERR "$LOGPREF running in user mode\n" if($nrconf{verbosity} > 1); } else { print STDERR "$LOGPREF running in root mode\n" if($nrconf{verbosity} > 1); } # get current runlevel, fallback to '2' my $runlevel = `who -r` || ''; chomp($runlevel); $runlevel = 2 unless($runlevel =~ s/^.+run-level (\S)\s.+$/$1/); # get UI if(defined($opt_u)) { if ($opt_u eq '?') { print STDERR join("\n\t", __(q(Available UI packages:)), needrestart_ui_list($nrconf{verbosity}, ($is_tty ? $nrconf{ui} : 'NeedRestart::UI::stdio')))."\n"; exit 0; } else { $nrconf{ui} = $opt_u; } } my $ui = ($opt_b ? NeedRestart::UI->new(0) : needrestart_ui($nrconf{verbosity}, ($is_tty ? $nrconf{ui} : 'NeedRestart::UI::stdio'))); die "Error: no UI class available!\n" unless(defined($ui)); # enable/disable checks unless(defined($opt_k) || defined($opt_l) || defined($opt_w)) { $opt_k = ($uid ? undef : 1); $opt_l = 1; $opt_w = ($uid ? undef : $nrconf{ucodehints}); } sub parse_lsbinit($) { my $rc = '/etc/init.d/'.shift; # ignore upstart-job magic if(-l $rc && readlink($rc) eq '/lib/init/upstart-job') { print STDERR "$LOGPREF ignoring $rc since it is a converted upstart job\n" if($nrconf{verbosity} > 1); return (); } open(HLSB, '<', $rc) || die "Can't open $rc: $!\n"; my %lsb; my $found_lsb; my %chkconfig; my $found_chkconfig; while(my $line = <HLSB>) { chomp($line); unless($found_chkconfig) { if($line =~ /^# chkconfig: (\d+) /) { $chkconfig{runlevels} = $1; $found_chkconfig++ } } elsif($line =~ /^# (\S+): (.+)$/) { $chkconfig{lc($1)} = $2; } unless($found_lsb) { $found_lsb++ if($line =~ /^### BEGIN INIT INFO/); next; } elsif($line =~ /^### END INIT INFO/) { last; } $lsb{lc($1)} = $2 if($line =~ /^# ([^:]+):\s+(.+)$/); } # convert chkconfig tags to LSB tags if($found_chkconfig && !$found_lsb) { print STDERR "$LOGPREF $rc is missing LSB tags, found chkconfig tags instead\n" if($nrconf{verbosity} > 1); $found_lsb++; $lsb{pidfiles} = [$chkconfig{pidfile}]; $lsb{q(default-start)} = $chkconfig{runlevels}; } unless($found_lsb) { print STDERR "WARNING: $rc has no LSB tags!\n" unless(%lsb); return (); } # pid file heuristic unless(exists($lsb{pidfiles})) { my $found = 0; my %pidfiles; while(my $line = <HLSB>) { if($line =~ m@(\S*/run/[^/]+.pid)@ && -r $1) { $pidfiles{$1}++; $found++; } } $lsb{pidfiles} = [keys %pidfiles] if($found); } close(HLSB); return %lsb; } print STDERR "$LOGPREF systemd detected\n" if($nrconf{verbosity} > 1 && $is_systemd); print STDERR "$LOGPREF vm detected\n" if($nrconf{verbosity} > 1 && $is_vm); print STDERR "$LOGPREF container detected\n" if($nrconf{verbosity} > 1 && $is_container); sub systemd_refuse_restart { my $svc = shift; my $systemctl = nr_fork_pipe($nrconf{verbosity} > 1, qq(systemctl), qq(show), qq(--property=RefuseManualStop), $svc); my $ret = <$systemctl>; close($systemctl); if($ret && $ret =~ /^RefuseManualStop=yes/) { print STDERR "$LOGPREF systemd refuses restarts of $svc\n" if($nrconf{verbosity} > 1); return 1; } return 0; } my @systemd_restart; sub restart_cmd($) { my $rc = shift; my $restcmd = "$nrconf{restart_d}/$rc"; if(-x $restcmd) { print STDERR "$LOGPREF using restart.d file $rc\n" if($nrconf{verbosity} > 1); ($restcmd); } elsif($rc =~ /.+\.service$/) { if($nrconf{systemctl_combine}) { push(@systemd_restart, $rc); (); } else { (qw(systemctl restart), $rc); } } else { if($is_systemd) { if($nrconf{systemctl_combine}) { push(@systemd_restart, qq($rc.service)); (); } else { (qw(systemctl restart), qq($rc.service)); } } elsif($is_runit && -d qq(/etc/sv/$rc)) { if(-e qq(/etc/service/$rc)) { (qw(sv restart), $rc); } else { (q(service), $rc, q(restart)); } } else { (q(invoke-rc.d), $rc, q(restart)); } } } # map UID to username (cached) my %uidcache; sub uid2name($) { my $uid = shift; return $uidcache{$uid} if(exists($uidcache{$uid})); return $uidcache{$uid} = getpwuid($uid) || $uid; } my %nagios = ( # kernel kstr => q(unknown), kret => 3, kperf => q(U), # uCode mstr => q(unknown), mret => 3, mperf => q(U), # services sstr => q(unknown), sret => 3, sperf => q(U), # sessions ustr => q(unknown), uret => 3, uperf => q(U), ); print "NEEDRESTART-VER: $NeedRestart::VERSION\n" if($opt_b && !$opt_p); my %restart; my %sessions; my @guests; my @easy_hints; if(defined($opt_l)) { my @ign_pids=($$, getppid()); # inspect only pids my $ptable = nr_ptable(); # find session parent sub findppid($@) { my $uid = shift; my ($pid, @pids) = @_; if($ptable->{$pid}->{ppid} == 1) { return $pid if($ptable->{$pid}->{uid} == $uid); return undef; } foreach my $pid (@pids) { my $ppid = &findppid($uid, $pid); return $ppid if($ppid); } return $pid; } $ui->progress_prep(scalar keys %$ptable, __ 'Scanning processes...'); my %stage2; for my $pid (sort {$a <=> $b} keys %$ptable) { $ui->progress_step; # user-mode: skip foreign processes next if($uid && $ptable->{$pid}->{uid} != $uid); # skip myself next if(grep {$pid == $_} @ign_pids); my $restart = 0; my $exe = nr_readlink($pid); # ignore kernel threads next unless(defined($exe)); # orphaned binary $restart++ if (defined($exe) && $exe =~ s/ \(deleted\)$//); # Linux $restart++ if (defined($exe) && $exe =~ s/^\(deleted\)//); # Linux VServer $restart++ unless(defined($ptable->{$pid}->{exec})); print STDERR "$LOGPREF #$pid uses obsolete binary $exe\n" if($restart && $nrconf{verbosity} > 1); # ignore blacklisted binaries next if(grep { $exe =~ /$_/; } @{$nrconf{blacklist}}); # Sync $exe with the initial value from Proc:ProcessTable to prevent race # conditions in later checks. $exe = $ptable->{$pid}->{exec} if(defined($ptable->{$pid}->{exec})); # read file mappings (Linux 2.0+) unless($restart) { if(open(HMAP, '<', "/proc/$pid/maps")) { while(<HMAP>) { chomp; my ($maddr, $mperm, $moffset, $mdev, $minode, $path) = split(/\s+/, $_, 6); # skip special handles and non-executable mappings next unless(defined($path) && $minode != 0 && $path ne '' && $mperm =~ /x/); # skip special device paths next if(scalar grep { $path =~ /$_/; } @{$nrconf{blacklist_mappings}}); # removed executable mapped files if($path =~ s/ \(deleted\)$// || # Linux $path =~ s/^\(deleted\)//) { # Linux VServer print STDERR "$LOGPREF #$pid uses deleted $path\n" if($nrconf{verbosity} > 1); $restart++; last; } # check for outdated lib mappings unless($nrconf{skip_mapfiles} == 1) { $maddr =~ s/^0+([^-])/$1/; $maddr =~ s/-0+(.)/-$1/; my @paths = ("/proc/$pid/map_files/$maddr", "/proc/$pid/root/$path"); my ($testp) = grep { -e $_; } @paths; unless($testp) { unless($nrconf{skip_mapfiles} == -1) { print STDERR "$LOGPREF #$pid uses non-existing $path\n" if($nrconf{verbosity} > 1); $restart++; last; } next; } # get on-disk info my ($sdev, $sinode) = stat($testp); my @sdevs = ( # glibc gnu_dev_* definition from sysmacros.h sprintf("%02x:%02x", (($sdev >> 8) & 0xfff) | (($sdev >> 32) & ~0xfff), (($sdev & 0xff) | (($sdev >> 12) & ~0xff))), # Traditional definition of major(3) and minor(3) sprintf("%02x:%02x", $sdev >> 8, $sdev & 0xff), # kFreeBSD: /proc/<pid>/maps does not contain device IDs qq(00:00) ); # Don't compare device numbers on anon filesystems # w/o a backing device (like OpenVZ's simfs). my $major = (($sdev >> 8) & 0xfff) | (($sdev >> 32) & ~0xfff); $mdev = "00:00" if ($major == 0 || $major == 144 || $major == 145 || $major == 146); # compare maps content vs. on-disk unless($minode eq $sinode && ((grep {$mdev eq $_} @sdevs) || # BTRFS breaks device ID mapping completely... # ignoring unnamed device IDs for now $mdev =~ /^00:/)) { print STDERR "$LOGPREF #$pid uses obsolete $path\n" if($nrconf{verbosity} > 1); $restart++; last; } } } close(HMAP); } else { print STDERR "$LOGPREF #$pid could not open maps: $!\n" if($nrconf{verbosity} > 1); } } unless($restart || !$nrconf{interpscan}) { $restart++ if(needrestart_interp_check($nrconf{verbosity} > 1, $pid, $exe, $nrconf{blacklist_interp}, $opt_t)); } # handle containers (LXC, docker, etc.) next if($restart && needrestart_cont_check($nrconf{verbosity} > 1, $pid, $exe, $opt_t)); # restart needed? next unless($restart); # handle user sessions if($ptable->{$pid}->{ttydev} ne '' && (!$is_systemd || !$nrconf{has_pam_systemd})) { my $ttydev = realpath( $ptable->{$pid}->{ttydev} ); print STDERR "$LOGPREF #$pid part of user session: uid=$ptable->{$pid}->{uid} sess=$ttydev\n" if($nrconf{verbosity} > 1); push(@{ $sessions{ $ptable->{$pid}->{uid} }->{ $ttydev }->{ $ptable->{$pid}->{fname} } }, $pid); # add session processes to stage2 only in user mode $stage2{$pid} = $exe if($uid); next; } # find parent process my $ppid = $ptable->{$pid}->{ppid}; if($ppid != $pid && $ppid > 1 && !$uid) { print STDERR "$LOGPREF #$pid is a child of #$ppid\n" if($nrconf{verbosity} > 1); if($uid && $ptable->{$ppid}->{uid} != $uid) { print STDERR "$LOGPREF #$ppid is a foreign process\n" if($nrconf{verbosity} > 1); $stage2{$pid} = $exe; } else { unless(exists($stage2{$ppid})) { my $pexe = nr_readlink($ppid); # ignore kernel threads next unless(defined($pexe)); $stage2{$ppid} = $pexe; } } } else { print STDERR "$LOGPREF #$pid is not a child\n" if($nrconf{verbosity} > 1 && !$uid); $stage2{$pid} = $exe; } } $ui->progress_fin; if(scalar keys %stage2 && !$uid) { $ui->progress_prep(scalar keys %stage2, __ 'Scanning candidates...'); PIDLOOP: foreach my $pid (sort {$a <=> $b} keys %stage2) { $ui->progress_step; # skip myself next if(grep {$pid == $_} @ign_pids); my $exe = nr_readlink($pid); $exe =~ s/ \(deleted\)$//; # Linux $exe =~ s/^\(deleted\)//; # Linux VServer print STDERR "$LOGPREF #$pid exe => $exe\n" if($nrconf{verbosity} > 1); # try to find interpreter source file ($exe) = (needrestart_interp_source($nrconf{verbosity} > 1, $pid, $exe), $exe); # ignore blacklisted binaries next if(grep { $exe =~ /$_/; } @{$nrconf{blacklist}}); if($is_systemd) { # systemd manager if($pid == 1 && $exe =~ m@^(/usr)?/lib/systemd/systemd@) { print STDERR "$LOGPREF #$pid is systemd manager\n" if($nrconf{verbosity} > 1); $restart{q(systemd-manager)}++; next; } # get unit name from /proc/<pid>/cgroup if(open(HCGROUP, qq(/proc/$pid/cgroup))) { my ($rc) = map { chomp; my ($id, $type, $value) = split(/:/); if($type ne q(name=systemd)) { (); } else { if($value =~ m@/user-(\d+)\.slice/session-(\d+)\.scope@) { print STDERR "$LOGPREF #$pid part of user session: uid=$1 sess=$2\n" if($nrconf{verbosity} > 1); push(@{ $sessions{$1}->{"session #$2"}->{ $ptable->{$pid}->{fname} } }, $pid); next; } if($value =~ m@/user\@(\d+)\.service@) { print STDERR "$LOGPREF #$pid part of user manager service: uid=$1\n" if($nrconf{verbosity} > 1); push(@{ $sessions{$1}->{'user manager service'}->{ $ptable->{$pid}->{fname} } }, $pid); next; } if($value =~ m@/machine.slice/machine.qemu(.*).scope@) { for my $cmdlineidx (0 .. $#{$ptable->{$pid}->{cmdline}} ) { if ( ${$ptable->{$pid}->{cmdline}}[$cmdlineidx] eq "-name") { foreach ( split(/,/, ${$ptable->{$pid}->{cmdline}}[$cmdlineidx+1]) ) { if ( index($_, "guest=") == 0 ) { my @namearg = split(/=/, $_, 2); if ($#{namearg} == 1) { print STDERR "$LOGPREF #$pid detected as VM guest '$namearg[1]' in group '$value'\n" if($nrconf{verbosity} > 1); push(@guests, __x("'{name}' with pid {pid}", name => $namearg[1], pid=>$pid) ); } next PIDLOOP; } } } } print STDERR "$LOGPREF #$pid detected as VM guest with unknown name in group '$value'\n" if($nrconf{verbosity} > 1); push(@guests, __x("'Unkown VM' with pid {pid}", pid=>$pid) ); next; } elsif($value =~ m@/([^/]+\.service)$@) { ($1); } else { print STDERR "$LOGPREF #$pid unexpected cgroup '$value'\n" if($nrconf{verbosity} > 1); (); } } } <HCGROUP>; close(HCGROUP); if($rc) { print STDERR "$LOGPREF #$pid is $rc\n" if($nrconf{verbosity} > 1); $restart{$rc}++; next; } } # did not get the unit name, yet - try systemctl status print STDERR "$LOGPREF /proc/$pid/cgroup: $!\n" if($nrconf{verbosity} > 1 && $!); print STDERR "$LOGPREF trying systemctl status\n" if($nrconf{verbosity} > 1); my $systemctl = nr_fork_pipe($nrconf{verbosity} > 1, qq(systemctl), qq(-n), qq(0), qq(--full), qq(status), $pid); my $ret = <$systemctl>; close($systemctl); if(defined($ret) && $ret =~ /([^\s]+\.service)( |$)/) { my $s = $1; print STDERR "$LOGPREF #$pid is $s\n" if($nrconf{verbosity} > 1); $restart{$s}++; $s =~ s/\.service$//; delete($restart{$s}); next; } } else { # sysv init if($pid == 1 && $exe =~ m@^/sbin/init@) { print STDERR "$LOGPREF #$pid is sysv init\n" if($nrconf{verbosity} > 1); $restart{q(sysv-init)}++; next; } } my $pkg; foreach my $hook (nsort <$nrconf{hook_d}/*>) { print STDERR "$LOGPREF #$pid running $hook\n" if($nrconf{verbosity} > 1); my $found = 0; my $prun = nr_fork_pipe($nrconf{verbosity} > 1, $hook, ($nrconf{verbosity} > 1 ? qw(-v) : ()), $exe); my @nopids; while(<$prun>) { chomp; my @v = split(/\|/); if($v[0] eq 'PACKAGE' && $v[1]) { $pkg = $v[1]; print STDERR "$LOGPREF #$pid package: $v[1]\n" if($nrconf{verbosity} > 1); next; } if($v[0] eq 'RC') { my %lsb = parse_lsbinit($v[1]); unless(%lsb && exists($lsb{'default-start'})) { # If the script has no LSB tags we consider to call it later - they # are broken anyway. print STDERR "$LOGPREF no LSB headers found at $v[1]\n" if($nrconf{verbosity} > 1); push(@nopids, $v[1]); } # In the run-levels S and 1 no daemons are being started (normally). # We don't call any rc.d script not started in the current run-level. elsif($lsb{'default-start'} =~ /$runlevel/) { # If a pidfile has been found, try to look for the daemon and ignore # any forked/detached childs (just a heuristic due Debian Bug#721810). if(exists($lsb{pidfiles})) { foreach my $pidfile (@{ $lsb{pidfiles} }) { open(HPID, '<', "$pidfile") || next; my $p = <HPID>; close(HPID); if(int($p) == $pid) { print STDERR "$LOGPREF #$pid has been started by $v[1] - triggering\n" if($nrconf{verbosity} > 1); $restart{$v[1]}++; $found++; last; } } } else { print STDERR "$LOGPREF no pidfile reference found at $v[1]\n" if($nrconf{verbosity} > 1); push(@nopids, $v[1]); } } else { print STDERR "$LOGPREF #$pid rc.d script $v[1] should not start in the current run-level($runlevel)\n" if($nrconf{verbosity} > 1); } } } # No perfect hit - call any rc scripts instead. print STDERR "$LOGPREF #$pid running $hook no perfect hit found $found pids $#nopids\n" if($nrconf{verbosity} > 1); if(!$found && $#nopids > -1) { foreach my $rc (@nopids) { if($is_systemd && exists($restart{"$rc.service"})) { print STDERR "$LOGPREF #$pid rc.d script $rc seems to be superseded by $rc.service\n" if($nrconf{verbosity} > 1); } else { $restart{$rc}++; } } $found++; } last if($found); } } $ui->progress_fin; } # List user's processes in user-mode if($uid && scalar %stage2) { my %fnames; foreach my $pid (keys %stage2) { push(@{$fnames{ $ptable->{$pid}->{fname} }}, $pid); } if($opt_b) { print map { "NEEDRESTART-PID: $_=".join(',', @{ $fnames{$_} })."\n"; } nsort keys %fnames; } else { $ui->notice(__ 'Your outdated processes:'); $ui->notice(join(', ',map { $_.'['.join(', ', @{ $fnames{$_} }).']'; } nsort keys %fnames)); } } } # Apply rc/service blacklist foreach my $rc (keys %restart) { next unless(scalar grep { $rc =~ /$_/; } @{$nrconf{blacklist_rc}}); print STDERR "$LOGPREF $rc is blacklisted -> ignored\n" if($nrconf{verbosity} > 1); delete($restart{$rc}); } # Skip kernel stuff within container if($is_container || needrestart_cont_check($nrconf{verbosity} > 1, 1, nr_readlink(1), 1)) { print STDERR "$LOGPREF inside container, skipping kernel checks\n" if($nrconf{verbosity} > 1); $opt_k = undef; } # Skip uCode stuff within container or vm if($is_container || $is_vm || needrestart_cont_check($nrconf{verbosity} > 1, 1, nr_readlink(1), 1)) { print STDERR "$LOGPREF inside container or vm, skipping microcode checks\n" if($nrconf{verbosity} > 1); $opt_w = undef; } my ($ucode_result, %ucode_vars) = (NRM_UNKNOWN); if(defined($opt_w)) { ($ucode_result, %ucode_vars) = ($nrconf{ucodehints} || $opt_w ? nr_ucode_check($nrconf{verbosity} > 1, $ui) : ()); } if(defined($opt_k)) { my ($kresult, %kvars) = ($nrconf{kernelhints} || $opt_b ? nr_kernel_check($nrconf{verbosity} > 1, $nrconf{kernelfilter}, $ui) : ()); if(defined($kresult)) { if($opt_b) { unless($opt_p) { print "NEEDRESTART-KCUR: $kvars{KVERSION}\n"; print "NEEDRESTART-KEXP: $kvars{EVERSION}\n" if(defined($kvars{EVERSION})); print "NEEDRESTART-KSTA: $kresult\n"; } else { $nagios{kstr} = $kvars{KVERSION}; if($kresult == NRK_VERUPGRADE) { $nagios{kstr} .= "!=$kvars{EVERSION}"; $nagios{kret} = $nrconf{q(nagios-status)}->{kernel}; $nagios{kperf} = 2; } elsif($kresult == NRK_ABIUPGRADE) { $nagios{kret} = $nrconf{q(nagios-status)}->{kernel}; $nagios{kperf} = 1; } elsif($kresult == NRK_NOUPGRADE) { $nagios{kret} = 0; $nagios{kperf} = 0; } if($nagios{kret} == 1) { $nagios{kstr} .= " (!)"; } elsif($nagios{kret} == 2) { $nagios{kstr} .= " (!!)"; } } } else { if($kresult == NRK_NOUPGRADE) { unless($opt_m eq 'e') { $ui->vspace(); $ui->notice(($kvars{ABIDETECT} ? __('Running kernel seems to be up-to-date.') : __('Running kernel seems to be up-to-date (ABI upgrades are not detected).'))) } } elsif($kresult == NRK_ABIUPGRADE) { push(@easy_hints, __ 'an outdated kernel image') if($opt_m eq 'e'); if($nrconf{kernelhints} < 0) { $ui->vspace(); $ui->notice(__x( 'The currently running kernel version is {kversion} and there is an ABI compatible upgrade pending.', kversion => $kvars{KVERSION}, )); } else { $ui->announce_abi(%kvars); } } elsif($kresult == NRK_VERUPGRADE) { push(@easy_hints, __ 'an outdated kernel image') if($opt_m eq 'e'); if($nrconf{kernelhints} < 0) { $ui->vspace(); $ui->notice(__x( 'The currently running kernel version is {kversion} which is not the expected kernel version {eversion}.', kversion => $kvars{KVERSION}, eversion => $kvars{EVERSION}, )); } else { $ui->announce_ver(%kvars); } } else { $ui->vspace(); $ui->notice(__ 'Failed to retrieve available kernel versions.'); } } } } if($opt_w) { if($opt_b) { unless($opt_p) { print "NEEDRESTART-UCSTA: $ucode_result\n"; if($ucode_result != NRM_UNKNOWN) { print "NEEDRESTART-UCCUR: $ucode_vars{CURRENT}\n"; print "NEEDRESTART-UCEXP: $ucode_vars{AVAIL}\n"; } } else { if($ucode_result == NRM_OBSOLETE) { $nagios{mstr} = "OBSOLETE"; $nagios{mret} = $nrconf{q(nagios-status)}->{ucode}; $nagios{mperf} = 1; } elsif($ucode_result == NRM_CURRENT) { $nagios{mstr} = "CURRENT"; $nagios{mret} = 0; $nagios{mperf} = 0; } if($nagios{mret} == 1) { $nagios{mstr} .= " (!)"; } elsif($nagios{mret} == 2) { $nagios{mstr} .= " (!!)"; } } } else { if($ucode_result == NRM_CURRENT) { unless($opt_m eq 'e') { $ui->vspace(); $ui->notice(__('The processor microcode seems to be up-to-date.')); } } elsif($ucode_result == NRM_OBSOLETE) { push(@easy_hints, __ 'outdated processor microcode') if($opt_m eq 'e'); if($nrconf{ucodehints}) { $ui->announce_ucode(%ucode_vars); } } else { $ui->vspace(); $ui->notice(__ 'Failed to check for processor microcode upgrades.'); } } } if(defined($opt_l) && !$uid) { ## SERVICES $ui->vspace(); unless(scalar %restart) { $ui->notice(__ 'No services need to be restarted.') unless($opt_b || $opt_m eq 'e'); if($opt_p) { $nagios{sstr} = q(none); $nagios{sret} = 0; $nagios{sperf} = 0; } } else { if($opt_m eq 'e' && $opt_r ne 'i') { push(@easy_hints, __ 'outdated binaries'); } elsif($opt_b || $opt_r ne 'i') { my @skipped_services; my @refused_services; $ui->notice(__ 'Services to be restarted:') if($opt_r eq 'l'); $ui->notice(__ 'Restarting services...') if($opt_r eq 'a'); if($opt_p) { $nagios{sstr} = (scalar keys %restart); $nagios{sret} = $nrconf{q(nagios-status)}->{services}; $nagios{sperf} = (scalar keys %restart); if($nagios{sret} == 1) { $nagios{sstr} .= " (!)"; } elsif($nagios{sret} == 2) { $nagios{sstr} .= " (!!)"; } } foreach my $rc (sort { lc($a) cmp lc($b) } keys %restart) { # always combine restarts in one systemctl command local $nrconf{systemctl_combine} = 1 unless($opt_r eq 'l'); if($opt_b) { print "NEEDRESTART-SVC: $rc\n" unless($opt_p); next; } # record service which can not be restarted if($is_systemd && systemd_refuse_restart($rc)) { push(@refused_services, $rc); next; } # don't restart greylisted services... my $restart = !$nrconf{defno}; foreach my $re (keys %{$nrconf{override_rc}}) { next unless($rc =~ /$re/); $restart = $nrconf{override_rc}->{$re}; last; } # ...but complain about them unless($restart) { push(@skipped_services, $rc); next; } my @cmd = restart_cmd($rc); next unless($#cmd > -1); $ui->command(join(' ', '', @cmd)); $ui->runcmd(sub { system(@cmd) if($opt_r eq 'a'); }); } unless($#systemd_restart == -1) { my @cmd = (qq(systemctl), qq(restart), @systemd_restart); $ui->command(join(' ', '', @cmd)); $ui->runcmd(sub { system(@cmd) if($opt_r eq 'a'); }); } @systemd_restart = (); if($#skipped_services > -1) { $ui->vspace(); $ui->notice(__ 'Service restarts being deferred:'); foreach my $rc (sort @skipped_services) { my @cmd = restart_cmd($rc); $ui->command(join(' ', '', @cmd)) if($#cmd > -1); } unless($#systemd_restart == -1) { my @cmd = (qq(systemctl), qq(restart), @systemd_restart); $ui->command(join(' ', '', @cmd)); } } # report services restarts refused by systemd if($#refused_services > -1) { $ui->vspace(); $ui->notice(__ 'Service restarts being refused by systemd:'); foreach my $rc (sort @refused_services) { $ui->command(qq( $rc)); } } } else { my $o = 0; my @skipped_services = keys %restart; # filter service units which are refused to be restarted my @refused_services; my %rs = map { my $rc = $_; if($is_systemd) { if(systemd_refuse_restart($rc)) { push(@refused_services, $rc); @skipped_services = grep { $_ ne $rc; } @skipped_services; (); } else { ($rc => 1); } } else { ($rc => 1); } } keys %restart; $ui->notice(__ 'Restarting services...'); $ui->query_pkgs(__('Services to be restarted:'), $nrconf{defno}, \%rs, $nrconf{override_rc}, sub { # always combine restarts in one systemctl command local $nrconf{systemctl_combine} = 1; my $rc = shift; @skipped_services = grep { $_ ne $rc; } @skipped_services; my @cmd = restart_cmd($rc); return unless($#cmd > -1); $ui->command(join(' ', '', @cmd)); system(@cmd); }); if($#systemd_restart > -1) { my @cmd = (qw(systemctl restart), @systemd_restart); $ui->command(join(' ', '', @cmd)); $ui->runcmd(sub { system(@cmd); }); } @systemd_restart = (); if($#skipped_services > -1) { $ui->notice(__ 'Service restarts being deferred:'); foreach my $rc (sort @skipped_services) { my @cmd = restart_cmd($rc); $ui->command(join(' ', '', @cmd)) if($#cmd > -1); } unless($#systemd_restart == -1) { my @cmd = (qq(systemctl), qq(restart), @systemd_restart); $ui->command(join(' ', '', @cmd)); } } # report services restarts refused by systemd if($#refused_services > -1) { $ui->notice(__ 'Service restarts being refused by systemd:'); foreach my $rc (sort @refused_services) { $ui->command(qq( $rc)); } } } } ## CONTAINERS $ui->vspace(); @systemd_restart = (); my %conts = needrestart_cont_get($nrconf{verbosity} > 1); unless(scalar %conts) { $ui->notice(__ 'No containers need to be restarted.') unless($opt_b || $opt_m eq 'e'); if($opt_p) { $nagios{cstr} = q(none); $nagios{cret} = 0; $nagios{cperf} = 0; } } else { if($opt_m eq 'e' && $opt_r ne 'i') { push(@easy_hints, __ 'outdated containers'); } elsif($opt_b || $opt_r ne 'i') { my @skipped_containers; $ui->notice(__ 'Containers to be restarted:') if($opt_r eq 'l'); $ui->notice(__ 'Restarting containers...') if($opt_r eq 'a'); if($opt_p) { $nagios{cstr} = (scalar keys %conts); $nagios{cret} = $nrconf{q(nagios-status)}->{containers}; $nagios{cperf} = (scalar keys %conts); if($nagios{cret} == 1) { $nagios{cstr} .= " (!)"; } elsif($nagios{cret} == 2) { $nagios{cstr} .= " (!!)"; } } foreach my $cont (sort { lc($a) cmp lc($b) } keys %conts) { if($opt_b) { print "NEEDRESTART-CONT: $cont\n" unless($opt_p); next; } # don't restart greylisted containers... my $restart = !$nrconf{defno}; foreach my $re (keys %{$nrconf{override_cont}}) { next unless($cont =~ /$re/); $restart = $nrconf{override_cont}->{$re}; last; } # ...but complain about them unless($restart) { push(@skipped_containers, $cont); next; } $ui->command(join(' ', '', @{ $conts{$cont} })); $ui->runcmd(sub { system(@{ $conts{$cont} }) if($opt_r eq 'a'); }); } if($#skipped_containers > -1) { $ui->notice(__ 'Container restarts being deferred:'); foreach my $cont (sort @skipped_containers) { $ui->command(join(' ', '', @{ $conts{$cont} })); } } } else { my $o = 0; $ui->notice(__ 'Restarting containers...'); $ui->query_conts(__('Containers to be restarted:'), $nrconf{defno}, \%conts, $nrconf{override_cont}, sub { my $cont = shift; $ui->command(join(' ', '', @{ $conts{$cont} })); system(@{ $conts{$cont} }); }); } } ## SESSIONS $ui->vspace(); # list and notify user sessions unless(scalar keys %sessions) { $ui->notice(__ 'No user sessions are running outdated binaries.') unless($opt_b || $opt_m eq 'e'); if($opt_p) { $nagios{ustr} = 'none'; $nagios{uret} = 0; $nagios{uperf} = 0; } } else { if($opt_m eq 'e') { push(@easy_hints, __ 'outdated sessions'); } else { $ui->notice(__ 'User sessions running outdated binaries:'); } if($opt_p) { my $count = sum map { scalar keys %{ $sessions{$_} } } keys %sessions; $nagios{ustr} = $count; $nagios{uret} = $nrconf{q(nagios-status)}->{sessions}; $nagios{uperf} = $count; if($nagios{uret} == 1) { $nagios{ustr} .= " (!)"; } elsif($nagios{uret} == 2) { $nagios{ustr} .= " (!!)"; } } unless($opt_p || $opt_b) { foreach my $uid (sort { ncmp(uid2name($a), uid2name($b)); } keys %sessions) { foreach my $sess (sort keys %{ $sessions{$uid} }) { my $fnames = join(', ',map { $_.'['.join(',', @{ $sessions{$uid}->{$sess}->{$_} }).']'; } nsort keys %{ $sessions{$uid}->{$sess} }); $ui->notice(' '.uid2name($uid)." @ $sess: $fnames") unless($opt_m eq 'e'); if($nrconf{sendnotify}) { local %ENV; $ENV{NR_UID} = $uid; $ENV{NR_USERNAME} = uid2name($uid); $ENV{NR_SESSION} = $sess; $ENV{NR_SESSPPID} = findppid($uid, sort map { @$_; } values %{ $sessions{$uid}->{$sess} }); foreach my $bin (nsort <$nrconf{notify_d}/*>) { next unless(-x $bin); next if($bin =~ /(~|\.dpkg-[^.]+)$/); print STDERR "$LOGPREF run $bin\n" if($nrconf{verbosity} > 1); my $pipe = nr_fork_pipew($nrconf{verbosity} > 1, $bin); print $pipe "$fnames\n"; last if(close($pipe)); } } } } } } ## GUESTS $ui->vspace(); if (! @guests) { $ui->notice(__ 'No VM guests are running outdated hypervisor (qemu) binaries on this host.') unless($opt_b || $opt_m eq 'e'); } else { if($opt_m eq 'e') { push(@easy_hints, __ 'outdated VM guests'); } else { unless($opt_p || $opt_b) { $ui->notice(__ 'VM guests are running outdated hypervisor (qemu) binaries on this host:'); foreach ( @guests ) { $ui->notice(" $_"); } } } } } # easy mode: print hint on outdated stuff if(scalar @easy_hints) { my $t = pop(@easy_hints); my $h = join(', ', @easy_hints); $ui->announce_ehint(EHINT => ($h ? join(' ', $h, __ 'and', '') : '') . $t); } my @sessions_list; if(scalar %sessions) { # build a sorted list of user @ session strings # # used in the nagios and batch outputs below @sessions_list = map { my $uid = $_; my $user = uid2name($uid); my @ret; foreach my $sess (sort keys %{ $sessions{$uid} }) { push(@ret, "$user \@ $sess"); } @ret; } sort { ncmp(uid2name($a), uid2name($b)); } keys %sessions } # nagios plugin output if($opt_p) { my %states = ( 0 => q(OK), 1 => q(WARN), 2 => q(CRIT), 3 => q(UNKN), ); my ($ret) = reverse sort (($opt_k ? $nagios{kret} : ()), ($opt_w ? $nagios{mret} : ()), ($opt_l ? ($nagios{sret}, $nagios{cret}, $nagios{uret}) : ())); print "$states{$ret} - ", join(', ', ($opt_k ? "Kernel: $nagios{kstr}" : ()), ($opt_w ? "Microcode: $nagios{mstr}" : ()), ($opt_l ? "Services: $nagios{sstr}" : ()), ($opt_l ? "Containers: $nagios{cstr}" : ()), ($opt_l ? "Sessions: $nagios{ustr}" : ()), ), '|', join(' ', ( ($opt_k && $nagios{kret} != 3) ? "Kernel=$nagios{kperf};0;;0;2" : ()), ( ($opt_w && $nagios{mret} != 3) ? "Microcode=$nagios{mperf};0;;0;1" : ()), ( ($opt_l && $nagios{sret} != 3) ? "Services=$nagios{sperf};;0;0" : ()), ( ($opt_l && $nagios{cret} != 3) ? "Containers=$nagios{cperf};;0;0" : ()), ( ($opt_l && $nagios{uret} != 3) ? "Sessions=$nagios{uperf};0;;0" : ()), ), "\n"; if(scalar %restart) { print "Services:", join("\n- ", '', sort keys %restart), "\n"; } my %conts = needrestart_cont_get($nrconf{verbosity} > 1); if(scalar %conts) { print "Containers:", join("\n- ", '', sort keys %conts), "\n"; } if(scalar %sessions) { print "Sessions:", join("\n- ", '', @sessions_list), "\n"; } exit $ret; } if ($opt_b and scalar %sessions) { for my $sess (@sessions_list) { print "NEEDRESTART-SESS: $sess\n"; } }