#!/usr/bin/perl -w use strict; use warnings; use JSON; use File::Which; use Getopt::Long; my $json = {}; my $pool = undef; my $what = undef; GetOptions( "zpool|pool=s" => \$pool, "what=s" => \$what ); my $zpool = which('zpool'); if ($what and !$pool){ print <<_EOF; Usage: $0 [--zpool=] [--what=] is an optional zpool name. If specified, will only output info for this zpool. is one of size, alloc, frag, cap, dedup, health and if specified, will only output the corresponding value If --what is specified then --zpool is mandatory. The default (with no option) is to output all the info of all the zpool in a JSON format _EOF exit 1; } if ($zpool){ my $cmd = "$zpool list -p -H" . ( ($pool) ? " $pool" : ""); foreach (qx($cmd)){ #NAME SIZE ALLOC FREE EXPANDSZ FRAG CAP DEDUP HEALTH ALTROOT #rpool 464G 7.49G 457G - 2% 1% 1.00x ONLINE - if (m/^(?\w+)\s+(?\d+)\s+(?\d+)\s+(?\d+)\s+.+\s+(?\d+(\.\d+)?)\s+(?\d+(\.\d+)?)\s+(?\d+(\.\d+)?)\s+(?\w+)/){ $json->{$+{pool}}->{$_} = $+{$_} foreach (grep { $_ ne 'pool' } keys %+); } $json->{$+{pool}}->{errors} = get_zpool_errors($+{pool}); } } if ($what){ print ((defined $json->{$pool}->{$what}) ? $json->{$pool}->{$what} : 'ZBX_UNSUPORTED'); } elsif ($pool){ print ((defined $json->{$pool}) ? to_json($json->{$pool}) : 'ZBX_UNSUPORTED'); } else { print to_json($json) . "\n"; } exit 0; sub get_zpool_errors { my $pool = shift; my $errors = { read_errors => 0, write_errors => 0, cksum_errors => 0 }; my $i = 0; my $index = {}; foreach my $line (qx($zpool status $pool)){ # Output looks like # pool: rpool # state: ONLINE # status: One or more devices has experienced an unrecoverable error. An # attempt was made to correct the error. Applications are unaffected. # action: Determine if the device needs to be replaced, and clear the errors # using 'zpool clear' or replace the device with 'zpool replace'. # see: http://zfsonlinux.org/msg/ZFS-8000-9P # scan: scrub repaired 0B in 0h5m with 0 errors on Tue May 29 10:04:31 2018 # config: # # NAME STATE READ WRITE CKSUM # rpool ONLINE 0 0 0 # mirror-0 ONLINE 0 0 0 # sda2 ONLINE 0 0 0 # sdb2 ONLINE 0 0 474 # # errors: No known data errors # We want to save status, action, scan and errors if ($line =~ m/^\s*(scan|action|status|errors):\s+(\w+.*)/){ $errors->{$1} = $2; $index->{$i} = $1; } elsif ($line !~ /:/ and defined $index->{$i-1}){ # Here, we reconstitute multiline values (like status and action) chomp($line); $line =~ s/\s+/ /g; $errors->{$index->{$i-1}} .= $line; } elsif ($line =~ m/\s+[a-zA-Z0-9_\-]+\s+[A-Z]+\s+(?\d+(\.\d+)?)(?[KMT])?\s+(?\d+(\.\d+)?)(?[KMT])?\s+(?\d+(\.\d+)?)(?[KMT])?/){ # And here, we count the number of read, write and checksum errors $errors->{read_errors} += convert_suffix($+{'read'},$+{'read_suffix'}); $errors->{write_errors} += convert_suffix($+{'write'},$+{'write_suffix'}); $errors->{cksum_errors} += convert_suffix($+{'cksum'},$+{'cksum_suffix'}); } $i++; } return $errors; } # Error counter can be suffixed. Apply this suffix to get raw error numbers sub convert_suffix { my $val = shift; my $suf = shift; if (!$suf){ return $val; } elsif ($suf eq 'K'){ $val *= 1000; } elsif ($suf eq 'M') { $val *= 1000000; } elsif ($suf eq 'T') { $val *= 1000000000; } return $val; }