#! /usr/bin/perl -w # To view the formatted manual page of this file, type: # POSTFIXSOURCE/mantools/srctoman - qshape | nroff -man #++ # NAME # qshape 1 # SUMMARY # Print Postfix queue domain and age distribution # SYNOPSIS # .fi # \fBqshape\fR [\fB-s\fR] [\fB-p\fR] [\fB-m \fImin_subdomains\fR] # [\fB-b \fIbucket_count\fR] [\fB-t \fIbucket_time\fR] # [\fB-l\fR] [\fB-w \fIterminal_width\fR] # [\fB-N \fIbatch_msg_count\fR] [\fB-n \fIbatch_top_domains\fR] # [\fB-c \fIconfig_directory\fR] [\fIqueue_name\fR ...] # DESCRIPTION # The \fBqshape\fR program helps the administrator understand the # Postfix queue message distribution in time and by sender domain # or recipient domain. The program needs read access to the queue # directories and queue files, so it must run as the superuser or # the \fBmail_owner\fR specified in \fBmain.cf\fR (typically # \fBpostfix\fR). # # Options: # .IP \fB-s\fR # Display the sender domain distribution instead of the recipient # domain distribution. By default the recipient distribution is # displayed. There can be more recipients than messages, but as # each message has only one sender, the sender distribution is a # message distribution. # .IP \fB-p\fR # Generate aggregate statistics for parent domains. Top level domains # are not shown, nor are domains with fewer than \fImin_subdomains\fR # subdomains. The names of parent domains are shown with a leading dot, # (e.g. \fI.example.com\fR). # .IP "\fB-m \fImin_subdomains\fR" # When used with the \fB-p\fR option, sets the minimum subdomain count # needed to show a separate line for a parent domain. The default is 5. # .IP "\fB-b \fIbucket_count\fR" # The age distribution is broken up into a sequence of geometrically # increasing intervals. This option sets the number of intervals # or "buckets". Each bucket has a maximum queue age that is twice # as large as that of the previous bucket. The last bucket has no # age limit. # .IP "\fB-t \fIbucket_time\fR" # The age limit in minutes for the first time bucket. The default # value is 5, meaning that the first bucket counts messages between # 0 and 5 minutes old. # .IP "\fB-l\fR" # Instead of using a geometric age sequence, use a linear age sequence, # in other words simple multiples of \fBbucket_time\fR. # # This feature is available in Postfix 2.2 and later. # .IP "\fB-w \fIterminal_width\fR" # The output is right justified, with the counts for the last # bucket shown on the 80th column, the \fIterminal_width\fR can be # adjusted for wider screens allowing more buckets to be displayed # without truncating the domain names on the left. When a row for a # full domain name and its counters does not fit in the specified # number of columns, only the last 17 bytes of the domain name # are shown with the prefix replaced by a '+' character. Truncated # parent domain rows are shown as '.+' followed by the last 16 bytes # of the domain name. If this is still too narrow to show the domain # name and all the counters, the terminal_width limit is violated. # .IP "\fB-N \fIbatch_msg_count\fR" # When the output device is a terminal, intermediate results are # shown each "batch_msg_count" messages. This produces usable results # in a reasonable time even when the deferred queue is large. The # default is to show intermediate results every 1000 messages. # .IP "\fB-n \fIbatch_top_domains\fR" # When reporting intermediate or final results to a termainal, report # only the top "batch_top_domains" domains. The default limit is 20 # domains. # .IP "\fB-c \fIconfig_directory\fR" # The \fBmain.cf\fR configuration file is in the named directory # instead of the default configuration directory. # .PP # Arguments: # .IP \fIqueue_name\fR # By default \fBqshape\fR displays the combined distribution of # the incoming and active queues. To display a different set of # queues, just list their directory names on the command line. # Absolute paths are used as is, other paths are taken relative # to the \fBmain.cf\fR \fBqueue_directory\fR parameter setting. # While \fBmain.cf\fR supports the use of \fI$variable\fR expansion # in the definition of the \fBqueue_directory\fR parameter, the # \fBqshape\fR program does not. If you must use variable expansions # in the \fBqueue_directory\fR setting, you must specify an explicit # absolute path for each queue subdirectory even if you want the # default incoming and active queue distribution. # SEE ALSO # mailq(1), List all messages in the queue. # QSHAPE_README Examples and background material. # FILES # $config_directory/main.cf, Postfix installation parameters. # $queue_directory/maildrop/, local submission directory. # $queue_directory/incoming/, new message queue. # $queue_directory/hold/, messages waiting for tech support. # $queue_directory/active/, messages scheduled for delivery. # $queue_directory/deferred/, messages postponed for later delivery. # LICENSE # .ad # .fi # The Secure Mailer license must be distributed with this software. # AUTHOR(S) # Victor Duchovni # Morgan Stanley #-- use strict; use IO::File; use File::Find; use Getopt::Std; my $cls; # Clear screen escape sequence my $batch_msg_count; # Interim result frequency my $batch_top_domains; # Interim result count my %opts; # Command line switches my %q; # domain counts for queues and buckets my %sub; # subdomain counts for parent domains my $now = time; # reference time my $bnum = 10; # deferred queue bucket count my $width = 80; # screen char width my $dwidth = 18; # min width of domain field my $tick = 5; # minutes my $minsub = 5; # Show parent domains with at least $minsub subdomains my @qlist = qw(incoming active); do { local $SIG{__WARN__} = sub { warn "$0: $_[0]" unless exists($opts{"h"}); die "Usage: $0 [ -s ] [ -p ] [ -m ] [ -l ]\n". "\t[ -b ] [ -t ] [ -w ]\n". "\t[ -N ] [ -n ]\n". "\t[ -c ] [ ... ]\n". "The 's' option shows sender domain counts.\n". "The 'p' option shows address counts by for parent domains.\n". "Parent domains are shown with a leading '.' before the domain name.\n". "Parent domains are only shown if the domain is not a TLD, and at\n". "least (default 5) subdomains are shown in the output.\n\n". "The bucket age ranges in units of minutes are\n". "[0,1), [1,2), [2,4), [4,8), [8, 16), ... i.e.:\n". "\tthe first bucket is [0, bucket_time) minutes\n". "\tthe second bucket is [bucket_time, 2*bucket_time) minutes\n". "\tthe third bucket is [2*bucket_time, 4*bucket_time) minutes...\n". "'-l' makes the ages linear, the number of buckets shown is \n\n". "The default summary is for the incoming and active queues. An explicit\n". "list of queue names can be given on the command line. Non-absolute queue\n". "names are interpreted relative to the Postfix queue directory. Use\n". " to specify a non-default Postfix instance. Values of\n". "the main.cf queue_directory parameter that use variable expansions are\n". "not supported. If necessary, use explicit absolute paths for all queues.\n"; }; getopts("lhc:psw:b:t:m:n:N:", \%opts); warn "Help message" if (exists $opts{"h"}); @qlist = @ARGV if (@ARGV > 0); # The -c option specifies the configuration directory, # it is not used if all queue names are absolute. # foreach (@qlist) { next if (m{^/}); $ENV{q{MAIL_CONFIG}} = $opts{"c"} if (exists $opts{"c"}); chomp(my $qdir = qx{postconf -h queue_directory}); die "$0: postconf failed\n" if ($? != 0); warn "'queue_directory' variable expansion not supported: $qdir\n" if ($qdir =~ /\$/); chdir($qdir) or die "$0: chdir($qdir): $!\n"; last; } }; $width = $opts{"w"} if (exists $opts{"w"} && $opts{"w"} > 80); $bnum = $opts{"b"} if (exists $opts{"b"} && $opts{"b"} > 0); $tick = $opts{"t"} if (exists $opts{"t"} && $opts{"t"} > 0); $minsub = $opts{"m"} if (exists $opts{"m"} && $opts{"m"} > 0); if ( -t STDOUT ) { $batch_msg_count = 1000 unless defined($batch_msg_count = $opts{"N"}); $batch_top_domains = 20 unless defined ($batch_top_domains = $opts{"n"}); $cls = `clear`; } else { $batch_msg_count = 0; $batch_top_domains = 0; $cls = ""; } sub rec_get { my ($h) = @_; my $r = getc($h) || return; my $l = 0; my $shift = 0; while (defined(my $lb = getc($h))) { my $o = ord($lb); $l |= ($o & 0x7f) << $shift ; last if (($o & 0x80) == 0); $shift += 7; return if ($shift > 14); # XXX: max rec len of 2097151 } my $d = ""; return unless ($l == 0 || read($h,$d,$l) == $l); ($r, $l, $d); } sub qenv { my ($qfile) = @_; return unless $qfile =~ m{(^|/)[A-Za-z0-9]{6,}$}; my @st = lstat($qfile); return unless (@st > 0 && -f _ && (($st[2] & 0733) == 0700)); my $h = new IO::File($qfile, "r") || return; my ($t, $s, @r, $dlen); my ($r, $l, $d) = rec_get($h); if ($r eq "C") { # XXX: Sanity check, the first record type is REC_TYPE_SIZE (C) # if the file is proper queue file written by "cleanup", in # this case the second record is always REC_TYPE_TIME. # $dlen = $1 if ($d =~ /^\s*(\d+)\s+\d+\s+\d+/); ($r, $l, $d) = rec_get($h); return unless (defined $r && $r eq "T"); ($t) = split(/\s+/, $d); } elsif ($r eq "S" || $r eq "F") { # For embryonic queue files in the "maildrop" directory the first # record is either a REC_TYPE_FULL (F) followed by REC_TYPE_FROM # or an immediate REC_TYPE_FROM (S). In either case there is no # REC_TYPE_TIME and we get the timestamp via lstat(). # $t = $st[9]; if ($r ne "S") { ($r, $l, $d) = rec_get($h); return unless (defined $r && $r eq "S"); } $s = $d; } else { # XXX: Not a valid queue file! # return undef; } while (my ($r, $l, $d) = rec_get($h)) { if ($r eq "p" && $d > 0) { seek($h, $d, 0) or return (); # follow pointer } if ($r eq "R") { push(@r, $d); } elsif ($r eq "S") { $s = $d; } elsif ($r eq "M") { last unless (defined($s)); if (defined($dlen)) { seek($h, $dlen, 1) or return (); # skip content ($r, $l, $d) = rec_get($h); } else { while ((($r, $l, $d) = rec_get($h)) && ($r =~ /^[NLp]$/)) { if ($r eq "p" && $d > 0) { seek($h, $d, 0) or return (); # follow pointer } } } return unless (defined($r) && $r eq "X"); } elsif ($r eq "E") { last unless (defined($t) && defined($s) && @r); return ($t, $s, @r); } } return (); } # bucket 0 is the total over all the buckets. # buckets 1 to $bnum contain the age breakdown. # sub bucket { my ($qt, $now) = @_; my $m = ($now - $qt) / (60 * $tick); return 1 if ($m < 1); my $b = $opts{"l"} ? int($m+1) : 2 + int(log($m) / log(2)); $b < $bnum ? $b : $bnum; } # Collate by age of message in the selected queues. # my $msgs; sub wanted { if (my ($t, $s, @r) = qenv($_)) { my $b = bucket($t, $now); foreach my $a (map {lc($_)} ($opts{"s"} ? ($s) : @r)) { ++$q{"TOTAL"}->[0]; ++$q{"TOTAL"}->[$b]; $a = "MAILER-DAEMON" if ($a eq ""); $a =~ s/.*\@//; $a =~ s/\.\././g; $a =~ s/\.?(.+?)\.?$/$1/; my $new = 0; do { my $old = (++$q{$a}->[0] > 1); ++$q{$a}->[$b]; ++$sub{$a} if ($new); $new = ! $old; } while ($opts{"p"} && $a =~ s/^(?:\.)?[^.]+\.(.*\.)/.$1/); } if ($batch_msg_count > 0 && ++$msgs % $batch_msg_count == 0) { results(); } } } my @heads; my $fmt; my $dw; sub pdomain { my ($d, @count) = @_; foreach ((0 .. $bnum)) { $count[$_] ||= 0; } my $len = length($d); if ($len > $dw) { if (substr($d, 0, 1) eq ".") { print ".+",substr($d, $len-$dw+2, $dw-2); } else { print "+",substr($d, $len-$dw+1, $dw-1); } } else { print (" " x ($dw - $len), $d); } printf "$fmt\n", @count; } sub results { @heads = (); $dw = $width; $fmt = ""; for (my $i = 0, my $t = 0; $i <= $bnum; ) { $q{"TOTAL"}->[$i] ||= 0; my $l = length($q{"TOTAL"}->[$i]); my $h = ($i == 0) ? "T" : $t; $l = length($h) if (length($h) >= $l); $l = ($l > 2) ? $l + 1 : 3; push(@heads, $h); $fmt .= sprintf "%%%ds", $l; $dw -= $l; if (++$i < $bnum) { $t += ($t && !$opts{"l"}) ? $t : $tick; } else { $t = "$t+"; } } $dw = $dwidth if ($dw < $dwidth); print $cls if ($batch_msg_count > 0); # Print headings # pdomain("", @heads); my $n = 0; # Show per-domain totals # foreach my $d (sort { $q{$b}->[0] <=> $q{$a}->[0] || length($a) <=> length($b) } keys %q) { # Skip parent domains with < $minsub subdomains. # next if ($d =~ /^\./ && $sub{$d} < $minsub); last if ($batch_top_domains > 0 && ++$n > $batch_top_domains); pdomain($d, @{$q{$d}}); } } find(\&wanted, @qlist); results();