2 # $Cambridge: exim/src/src/eximstats.src,v 1.19 2009/10/19 12:26:34 nm4 Exp $
4 # Copyright (c) 2001 University of Cambridge.
5 # See the file NOTICE for conditions of use and distribution.
7 # Perl script to generate statistics from one or more Exim log files.
9 # Usage: eximstats [<options>] <log file> <log file> ...
11 # 1996-05-21: Ignore lines not starting with valid date/time, just in case
12 # these get into a log file.
13 # 1996-11-19: Add the -h option to control the size of the histogram,
14 # and optionally turn it off.
15 # Use some Perl 5 things; it should be everywhere by now.
16 # Add the Perl -w option and rewrite so no warnings are given.
17 # Add the -t option to control the length of the "top" listing.
18 # Add the -ne, -nt options to turn off errors and transport
20 # Add information about length of time on queue, and -q<list> to
21 # control the intervals and turn it off.
22 # Add count and percentage of delayed messages to the Received
24 # Show total number of errors.
25 # Add count and percentage of messages with errors to Received
27 # Add information about relaying and -nr to suppress it.
28 # 1997-02-03 Merged in some of the things Nigel Metheringham had done:
30 # Added received histogram as well as delivered
31 # Added local senders' league table
32 # Added local recipients' league table
33 # 1997-03-10 Fixed typo "destinationss"
34 # Allow for intermediate address between final and original
35 # when testing for relaying
36 # Give better message when no input
37 # 1997-04-24 Fixed bug in layout of error listing that was depending on
38 # text length (output line got repeated).
39 # 1997-05-06 Bug in option decoding when only one option.
40 # Overflow bug when handling very large volumes.
41 # 1997-10-28 Updated to handle revised log format that might show
42 # HELO name as well as host name before IP number
43 # 1998-01-26 Bugs in the function for calculating the number of seconds
44 # since 1970 from a log date
45 # 1998-02-02 Delivery to :blackhole: doesn't have a T= entry in the log
46 # line; cope with this, thereby avoiding undefined problems
47 # Very short log line gave substring error
48 # 1998-02-03 A routed delivery to a local transport may not have <> in the
49 # log line; terminate the address at white space, not <
50 # 1998-09-07 If first line of input was a => line, $thissize was undefined;
52 # 1998-12-21 Adding of $thissize from => line should have been adding $size.
53 # Oops. Should have looked more closely when fixing the previous
55 # 1999-11-12 Increased the field widths for printed integers; numbers are
56 # bigger than originally envisaged.
57 # 2001-03-21 Converted seconds() routine to use Time::Local, fixing a bug
58 # whereby seconds($timestamp) - id_seconds($id) gave an
60 # Added POD documentation.
61 # Moved usage instructions into help() subroutine.
62 # Added 'use strict' and declared all global variables.
63 # Added '-html' flag and resultant code.
64 # Added '-cache' flag and resultant code.
65 # Added add_volume() routine and converted all volume variables
66 # to use it, fixing the overflow problems for individual hosts
68 # Converted all volume output to GB/MB/KB as appropriate.
69 # Don't store local user stats if -nfl is specified.
70 # Modifications done by: Steve Campbell (<steve@computurn.com>)
71 # 2001-04-02 Added the -t_remote_users flag. Steve Campbell.
72 # 2001-10-15 Added the -domain flag. Steve Campbell.
73 # 2001-10-16 Accept files on STDIN or on the command line. Steve Campbell.
74 # 2001-10-21 Removed -domain flag and added -bydomain, -byhost, and -byemail.
75 # We now generate our main parsing subroutine as an eval statement
76 # which improves performance dramatically when not all the results
77 # are required. We also cache the last timestamp to time convertion.
79 # NOTE: 'Top 50 destinations by (message count|volume)' lines are
80 # now 'Top N (host|email|domain) destinations by (message count|volume)'
81 # where N is the topcount. Steve Campbell.
83 # 2001-10-30 V1.16 Joachim Wieland.
84 # Fixed minor bugs in add_volume() when taking over this version
85 # for use in Exim 4: -w gave uninitialized value warnings in
86 # two situations: for the first addition to a counter, and if
87 # there were never any gigabytes, thereby leaving the $gigs
89 # Initialized $last_timestamp to stop a -w uninitialized warning.
90 # Minor layout tweak for grand totals (nitpicking).
91 # Put the IP addresses for relaying stats in [] and separated by
92 # a space from the domain name.
93 # Removed the IPv4-specific address test when picking out addresses
94 # for relaying. Anything inside [] is OK.
96 # 2002-07-02 Philip Hazel
97 # Fixed "uninitialized variable" message that occurred for relay
98 # messages that arrived from H=[1.2.3.4] hosts (no name shown).
99 # This bug didn't affect the output.
101 # 2002-04-15 V1.17 Joachim Wieland.
102 # Added -charts, -chartdir. -chartrel options which use
103 # GD::Graph modules to create graphical charts of the statistics.
105 # 2002-04-15 V1.18 Steve Campbell.
106 # Added a check for $domain to to stop a -w uninitialized warning.
107 # Added -byemaildomain option.
108 # Only print HTML header links to included tables!
110 # 2002-08-02 V1.19 Steve Campbell.
111 # Changed the debug mode to dump the parser onto STDERR rather
112 # than STDOUT. Documented the -d flag into the help().
113 # Rejoined the divergent 2002-04-15 and 2002-07-02 releases.
115 # 2002-08-21 V1.20 Steve Campbell.
116 # Added the '-merge' option to allow merging of previous reports.
117 # Fixed a missing semicolon when doing -bydomain.
118 # Make volume charts plot the data gigs and bytes rather than just bytes.
119 # Only process log lines with $flag =~ /<=|=>|->|==|\*\*|Co/
120 # Converted Emaildomain to Edomain - the column header was too wide!
121 # This changes the text output slightly. You can revert to the old
122 # column widths by changing $COLUMN_WIDTHS to 7;
124 # 2002-09-04 V1.21 Andreas J Mueller
125 # Local deliveries domain now defaults to 'localdomain'.
126 # Don't match F=<From> when looking for the user.
128 # 2002-09-05 V1.22 Steve Campbell
129 # Fixed a perl 5.005 incompatibility problem ('our' variables).
131 # 2002-09-11 V1.23 Steve Campbell
132 # Stopped -charts option from throwing errors on null data.
133 # Don't print out 'Errors encountered' unless there are any.
135 # 2002-10-21 V1.23a Philip Hazel - patch from Tony Finch put in until
136 # Steve's eximstats catches up.
137 # Handle log files that include the timezone after the timestamp.
138 # Switch to assuming that log timestamps are in local time, with
139 # an option for UTC timestamps, as in Exim itself.
141 # 2003-02-05 V1.24 Steve Campbell
142 # Added in Sergey Sholokh's code to convert '<' and '>' characters
143 # in HTML output. Also added code to convert them back with -merge.
144 # Fixed timestamp offsets to convert to seconds rather than minutes.
145 # Updated -merge to work with output files using timezones.
146 # Added cacheing to speed up the calculation of timezone offsets.
148 # 2003-02-07 V1.25 Steve Campbell
149 # Optimised the usage of mktime() in the seconds subroutine.
150 # Removed the now redundant '-cache' option.
151 # html2txt() now explicitly matches HTML tags.
152 # Implemented a new sorting algorithm - the top_n_sort() routine.
153 # Added Danny Carroll's '-nvr' flag and code.
155 # 2003-03-13 V1.26 Steve Campbell
156 # Implemented HTML compliance changes recommended by Bernard Massot.
157 # Bug fix to allow top_n_sort() to handle null keys.
158 # Convert all domains and edomains to lowercase.
159 # Remove preceding dots from domains.
161 # 2003-03-13 V1.27 Steve Campbell
162 # Replaced border attributes with 'border=1', as recommended by
165 # 2003-06-03 V1.28 John Newman
166 # Added in the ability to skip over the parsing and evaulation of
167 # specific transports as passed to eximstats via the new "-nt/.../"
168 # command line argument. This new switch allows the viewing of
169 # not more accurate statistics but more applicable statistics when
170 # special transports are in use (ie; SpamAssassin). We need to be
171 # able to ignore transports such as this otherwise the resulting
172 # local deliveries are significantly skewed (doubled)...
174 # 2003-11-06 V1.29 Steve Campbell
175 # Added the '-pattern "Description" "/pattern/"' option.
177 # 2004-02-17 V1.30 Steve Campbell
178 # Added warnings if required GD::Graph modules are not available or
179 # insufficient -chart* options are specified.
181 # 2004-02-20 V1.31 Andrea Balzi
182 # Only show the Local Sender/Destination links if the tables exist.
184 # 2004-07-05 V1.32 Steve Campbell
185 # Fix '-merge -h0' divide by zero error.
187 # 2004-07-15 V1.33 Steve Campbell
188 # Documentation update - I've converted the subroutine
189 # documentation from POD to comments.
191 # 2004-12-10 V1.34 Steve Campbell
192 # Eximstats can now parse syslog lines as well as mainlog lines.
194 # 2004-12-20 V1.35 Wouter Verhelst
195 # Pie charts by volume were actually generated by count. Fixed.
197 # 2005-02-07 V1.36 Gregor Herrmann / Steve Campbell
198 # Added average sizes to HTML Top tables.
200 # 2005-04-26 V1.37 Frank Heydlauf
201 # Added -xls and the ability to specify output files.
203 # 2005-04-29 V1.38 Steve Campbell
204 # Use FileHandles for outputing results.
205 # Allow any combination of xls, txt, and html output.
206 # Fixed display of large numbers with -nvr option
207 # Fixed merging of reports with empty tables.
209 # 2005-05-27 V1.39 Steve Campbell
210 # Added the -include_original_destination flag
211 # Removed tabs and trailing whitespace.
213 # 2005-06-03 V1.40 Steve Campbell
214 # Whilst parsing the mainlog(s), store information about
215 # the messages in a hash of arrays rather than using
216 # individual hashes. This is a bit cleaner and results in
217 # dramatic memory savings, albeit at a slight CPU cost.
219 # 2005-06-15 V1.41 Steve Campbell
220 # Added the -show_rt<list> flag.
221 # Added the -show_dt<list> flag.
223 # 2005-06-24 V1.42 Steve Campbell
224 # Added Histograms for user specified patterns.
226 # 2005-06-30 V1.43 Steve Campbell
227 # Bug fix for V1.42 with -h0 specified. Spotted by Chris Lear.
229 # 2005-07-26 V1.44 Steve Campbell
230 # Use a glob alias rather than an array ref in the generated
231 # parser. This improves both readability and performance.
233 # 2005-09-30 V1.45 Marco Gaiarin / Steve Campbell
234 # Collect SpamAssassin and rejection statistics.
235 # Don't display local sender or destination tables unless
236 # there is data to show.
237 # Added average volumes into the top table text output.
239 # 2006-02-07 V1.46 Steve Campbell
240 # Collect data on the number of addresses (recipients)
241 # as well as the number of messages.
243 # 2006-05-05 V1.47 Steve Campbell
244 # Added 'Message too big' to the list of mail rejection
245 # reasons (thanks to Marco Gaiarin).
247 # 2006-06-05 V1.48 Steve Campbell
248 # Mainlog lines which have GMT offsets and are too short to
249 # have a flag are now skipped.
251 # 2006-11-10 V1.49 Alain Williams
252 # Added the -emptyok flag.
254 # 2006-11-16 V1.50 Steve Campbell
255 # Fixes for obtaining the IP address from reject messages.
257 # 2006-11-27 V1.51 Steve Campbell
258 # Another update for obtaining the IP address from reject messages.
260 # 2006-11-27 V1.52 Steve Campbell
261 # Tally any reject message containing SpamAssassin.
263 # 2007-01-31 V1.53 Philip Hazel
264 # Allow for [pid] after date in log lines
266 # 2007-02-14 V1.54 Daniel Tiefnig
267 # Improved the '($parent) =' pattern match.
269 # 2007-03-19 V1.55 Steve Campbell
270 # Differentiate between permanent and temporary rejects.
272 # 2007-03-29 V1.56 Jez Hancock
273 # Fixed some broken HTML links and added missing column headers.
275 # 2007-03-30 V1.57 Steve Campbell
276 # Fixed Grand Total Summary Domains, Edomains, and Email columns
277 # for Rejects, Temp Rejects, Ham, and Spam rows.
279 # 2007-04-11 V1.58 Steve Campbell
280 # Fix to get <> and blackhole to show in edomain tables.
282 # 2007-09-20 V1.59 Steve Campbell
283 # Added the -bylocaldomain option
285 # 2007-09-20 V1.60 Heiko Schlittermann
286 # Fix for misinterpreted log lines
290 # For documentation on the logfile format, see
291 # http://www.exim.org/exim-html-4.50/doc/html/spec_48.html#IX2793
295 eximstats - generates statistics from Exim mainlog or syslog files.
299 eximstats [Output] [Options] mainlog1 mainlog2 ...
300 eximstats -merge [Options] report.1.txt report.2.txt ... > weekly_report.txt
308 Output the results in plain text to STDOUT.
310 =item B<-txt>=I<filename>
312 Output the results in plain text. Filename '-' for STDOUT is accepted.
316 Output the results in HTML to STDOUT.
318 =item B<-html>=I<filename>
320 Output the results in HTML. Filename '-' for STDOUT is accepted.
324 Output the results in Excel compatible Format to STDOUT.
325 Requires the Spreadsheet::WriteExcel CPAN module.
327 =item B<-xls>=I<filename>
329 Output the results in Excel compatible format. Filename '-' for STDOUT is accepted.
340 histogram divisions per hour. The default is 1, and
341 0 suppresses histograms. Valid values are:
343 0, 1, 2, 3, 5, 10, 15, 20, 30 or 60.
347 Don't display error information.
351 Don't display relaying information.
353 =item B<-nr>I</pattern/>
355 Don't display relaying information that matches.
359 Don't display transport information.
361 =item B<-nt>I</pattern/>
363 Don't display transport information that matches
367 List of times for queuing information single 0 item suppresses.
371 Display top <number> sources/destinations
372 default is 50, 0 suppresses top listing.
376 Omit local sources/destinations in top listing.
378 =item B<-t_remote_users>
380 Include remote users in the top source/destination listings.
382 =item B<-include_original_destination>
384 Include the original destination email addresses rather than just
385 using the final ones.
386 Useful for finding out which of your mailing lists are receiving mail.
388 =item B<-show_dt>I<list>
390 Show the delivery times (B<DT>)for all the messages.
392 Exim must have been configured to use the +deliver_time logging option
393 for this option to work.
395 I<list> is an optional list of times. Eg -show_dt1,2,4,8 will show
396 the number of messages with delivery times under 1 second, 2 seconds, 4 seconds,
397 8 seconds, and over 8 seconds.
399 =item B<-show_rt>I<list>
401 Show the receipt times for all the messages. The receipt time is
402 defined as the Completed hh:mm:ss - queue_time_overall - the Receipt hh:mm:ss.
403 These figures will be skewed by pipelined messages so might not be that useful.
405 Exim must have been configured to use the +queue_time_overall logging option
406 for this option to work.
408 I<list> is an optional list of times. Eg -show_rt1,2,4,8 will show
409 the number of messages with receipt times under 1 second, 2 seconds, 4 seconds,
410 8 seconds, and over 8 seconds.
414 Show results by sending host. This may be combined with
415 B<-bydomain> and/or B<-byemail> and/or B<-byedomain>. If none of these options
416 are specified, then B<-byhost> is assumed as a default.
420 Show results by sending domain.
421 May be combined with B<-byhost> and/or B<-byemail> and/or B<-byedomain>.
425 Show results by sender's email address.
426 May be combined with B<-byhost> and/or B<-bydomain> and/or B<-byedomain>.
428 =item B<-byemaildomain> or B<-byedomain>
430 Show results by sender's email domain.
431 May be combined with B<-byhost> and/or B<-bydomain> and/or B<-byemail>.
433 =item B<-pattern> I<Description> I</Pattern/>
435 Look for the specified pattern and count the number of lines in which it appears.
436 This option can be specified multiple times. Eg:
438 -pattern 'Refused connections' '/refused connection/'
443 This option allows eximstats to merge old eximstat reports together. Eg:
445 eximstats mainlog.sun > report.sun.txt
446 eximstats mainlog.mon > report.mon.txt
447 eximstats mainlog.tue > report.tue.txt
448 eximstats mainlog.wed > report.web.txt
449 eximstats mainlog.thu > report.thu.txt
450 eximstats mainlog.fri > report.fri.txt
451 eximstats mainlog.sat > report.sat.txt
452 eximstats -merge report.*.txt > weekly_report.txt
453 eximstats -merge -html report.*.txt > weekly_report.html
459 You can merge text or html reports and output the results as text or html.
463 You can use all the normal eximstat output options, but only data
464 included in the original reports can be shown!
468 When merging reports, some loss of accuracy may occur in the top I<n> lists.
469 This will be towards the ends of the lists.
473 The order of items in the top I<n> lists may vary when the data volumes
474 round to the same value.
480 Create graphical charts to be displayed in HTML output.
481 Only valid in combination with I<-html>.
483 This requires the following modules which can be obtained
484 from http://www.cpan.org/modules/01modules.index.html
496 To install these, download and unpack them, then use the normal perl installation procedure:
503 =item B<-chartdir>I <dir>
505 Create the charts in the directory <dir>
507 =item B<-chartrel>I <dir>
509 Specify the relative directory for the "img src=" tags from where to include
514 Specify that it's OK to not find any valid log lines. Without this
515 we will output an error message if we don't find any.
519 Debug flag. This outputs the eval()'d parser onto STDOUT which makes it
520 easier to trap errors in the eval section. Remember to add 1 to the line numbers to allow for the
527 Eximstats parses exim mainlog and syslog files to output a statistical
528 analysis of the messages processed. By default, a text
529 analysis is generated, but you can request other output formats
530 using flags. See the help (B<-help>) to learn
531 about how to create charts from the tables.
535 There is a web site at http://www.exim.org - this contains details of the
536 mailing list exim-users@exim.org.
540 This program does not perfectly handle messages whose received
541 and delivered log lines are in different files, which can happen
542 when you have multiple mail servers and a message cannot be
543 immeadiately delivered. Fixing this could be tricky...
545 Merging of xls files is not (yet) possible. Be free to implement :)
553 # use Time::Local; # PH/FANF
556 use vars qw($HAVE_GD_Graph_pie $HAVE_GD_Graph_linespoints $HAVE_Spreadsheet_WriteExcel);
557 eval { require GD::Graph::pie; };
558 $HAVE_GD_Graph_pie = $@ ? 0 : 1;
559 eval { require GD::Graph::linespoints; };
560 $HAVE_GD_Graph_linespoints = $@ ? 0 : 1;
561 eval { require Spreadsheet::WriteExcel; };
562 $HAVE_Spreadsheet_WriteExcel = $@ ? 0 : 1;
565 ##################################################
567 ##################################################
568 # 'use vars' instead of 'our' as perl5.005 is still in use out there!
569 use vars qw(@tab62 @days_per_month $gig);
570 use vars qw($VERSION);
571 use vars qw($COLUMN_WIDTHS);
572 use vars qw($WEEK $DAY $HOUR $MINUTE);
576 (0,1,2,3,4,5,6,7,8,9,0,0,0,0,0,0, # 0-9
577 0,10,11,12,13,14,15,16,17,18,19,20, # A-K
578 21,22,23,24,25,26,27,28,29,30,31,32, # L-W
579 33,34,35, 0, 0, 0, 0, 0, # X-Z
580 0,36,37,38,39,40,41,42,43,44,45,46, # a-k
581 47,48,49,50,51,52,53,54,55,56,57,58, # l-w
584 @days_per_month = (0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334);
585 $gig = 1024 * 1024 * 1024;
588 # How much space do we allow for the Hosts/Domains/Emails/Edomains column headers?
592 $HOUR = 60 * $MINUTE;
596 # Declare global variables.
597 use vars qw($total_received_data $total_received_data_gigs $total_received_count);
598 use vars qw($total_delivered_data $total_delivered_data_gigs $total_delivered_messages $total_delivered_addresses);
599 use vars qw(%timestamp2time); #Hash of timestamp => time.
600 use vars qw($last_timestamp $last_time); #The last time convertion done.
601 use vars qw($last_date $date_seconds); #The last date convertion done.
602 use vars qw($last_offset $offset_seconds); #The last time offset convertion done.
603 use vars qw($localtime_offset);
604 use vars qw($i); #General loop counter.
605 use vars qw($debug); #Debug mode?
606 use vars qw($ntopchart); #How many entries should make it into the chart?
607 use vars qw($gddirectory); #Where to put files from GD::Graph
609 # SpamAssassin variables
610 use vars qw($spam_score $spam_score_gigs);
611 use vars qw($ham_score $ham_score_gigs);
612 use vars qw(%ham_count_by_ip %spam_count_by_ip);
613 use vars qw(%rejected_count_by_ip %rejected_count_by_reason);
614 use vars qw(%temporarily_rejected_count_by_ip %temporarily_rejected_count_by_reason);
616 #For use in Speadsheed::WriteExcel
617 use vars qw($workbook $ws_global $ws_relayed $ws_errors);
618 use vars qw($row $col $row_hist $col_hist);
619 use vars qw($run_hist);
620 use vars qw($f_default $f_header1 $f_header2 $f_header2_m $f_headertab $f_percent); #Format Header
623 use vars qw($txt_fh $htm_fh $xls_fh);
627 # The following are parameters whose values are
628 # set by command line switches:
629 use vars qw($show_errors $show_relay $show_transport $transport_pattern);
630 use vars qw($topcount $local_league_table $include_remote_users $do_local_domain);
631 use vars qw($hist_opt $hist_interval $hist_number $volume_rounding $emptyOK);
632 use vars qw($relay_pattern @queue_times @user_patterns @user_descriptions);
633 use vars qw(@rcpt_times @delivery_times);
634 use vars qw($include_original_destination);
635 use vars qw($txt_fh $htm_fh $xls_fh);
637 use vars qw(%do_sender); #Do sender by Host, Domain, Email, and/or Edomain tables.
638 use vars qw($charts $chartrel $chartdir $charts_option_specified);
639 use vars qw($merge_reports); #Merge old reports ?
641 # The following are modified in the parse() routine, and
642 # referred to in the print_*() routines.
643 use vars qw($delayed_count $relayed_unshown $begin $end);
644 use vars qw(%messages @message);
645 use vars qw(%received_count %received_data %received_data_gigs);
646 use vars qw(%delivered_messages %delivered_data %delivered_data_gigs %delivered_addresses);
647 use vars qw(%received_count_user %received_data_user %received_data_gigs_user);
648 use vars qw(%delivered_messages_user %delivered_addresses_user %delivered_data_user %delivered_data_gigs_user);
649 use vars qw(%delivered_messages_local_domain %delivered_addresses_local_domain %delivered_data_local_domain %delivered_data_gigs_local_domain);
650 use vars qw(%transported_count %transported_data %transported_data_gigs);
651 use vars qw(%relayed %errors_count $message_errors);
652 use vars qw(@qt_all_bin @qt_remote_bin);
653 use vars qw($qt_all_overflow $qt_remote_overflow);
654 use vars qw(@dt_all_bin @dt_remote_bin %rcpt_times_bin);
655 use vars qw($dt_all_overflow $dt_remote_overflow %rcpt_times_overflow);
656 use vars qw(@received_interval_count @delivered_interval_count);
657 use vars qw(@user_pattern_totals @user_pattern_interval_count);
659 use vars qw(%report_totals);
662 use vars qw($SIZE $FROM_HOST $FROM_ADDRESS $ARRIVAL_TIME $REMOTE_DELIVERED $PROTOCOL);
663 use vars qw($DELAYED $HAD_ERROR);
668 $REMOTE_DELIVERED = 4;
675 ##################################################
677 ##################################################
679 #######################################################################
680 # get_filehandle($file,\%output_files);
681 # Return a filehandle writing to $file.
683 # If %output_files is defined, check that $output_files{$file}
684 # doesn't exist and die if it does, or set it if it doesn't.
685 #######################################################################
687 my($file,$output_files_href) = @_;
689 $file = '-' if ($file eq '');
691 if (defined $output_files_href) {
692 die "You can only output to '$file' once! Use -h for help.\n" if exists $output_files_href->{$file};
693 $output_files_href->{$file} = 1;
701 unlink $file or die "Failed to rm $file: $!";
704 my $fh = new IO::File $file, O_WRONLY|O_CREAT|O_EXCL;
705 die "new IO::File $file failed: $!" unless (defined $fh);
710 #######################################################################
713 # $rounded_volume = volume_rounded($bytes,$gigabytes);
715 # Given a data size in bytes, round it to KB, MB, or GB
718 # Eg 12000 => 12KB, 15000000 => 14GB, etc.
720 # Note: I've experimented with Math::BigInt and it results in a 33%
721 # performance degredation as opposed to storing numbers split into
722 # bytes and gigabytes.
723 #######################################################################
735 if ($volume_rounding) {
739 $rounded = sprintf("%6d", $x);
741 elsif ($x < 10000000) {
742 $rounded = sprintf("%4dKB", ($x + 512)/1024);
745 $rounded = sprintf("%4dMB", ($x + 512*1024)/(1024*1024));
748 # Values between 1GB and 10GB are printed in MB
750 $rounded = sprintf("%4dMB", ($g * 1024) + ($x + 512*1024)/(1024*1024));
753 # Handle values over 10GB
754 $rounded = sprintf("%4dGB", $g + ($x + $gig/2)/$gig);
758 # We don't want any rounding to be done.
759 # and we don't need broken formated output which on one hand avoids numbers from
760 # being interpreted as string by Spreadsheed Calculators, on the other hand
761 # breaks if more than 4 digits! -> flexible length instead of fixed length
762 # Format the return value at the output routine! -fh
763 #$rounded = sprintf("%d", ($g * $gig) + $x);
765 $rounded = sprintf("%.0f", ($g * $gig) + $x);
772 #######################################################################
775 # un_round($rounded_volume,\$bytes,\$gigabytes);
777 # Given a volume in KB, MB or GB, as generated by volume_rounded(),
778 # do the reverse transformation and convert it back into Bytes and Gigabytes.
779 # These are added to the $bytes and $gigabytes parameters.
781 # Given a data size in bytes, round it to KB, MB, or GB
784 # EG: 500 => (500,0), 14GB => (0,14), etc.
785 #######################################################################
787 my($rounded,$bytes_sref,$gigabytes_sref) = @_;
789 if ($rounded =~ /(\d+)GB/) {
790 $$gigabytes_sref += $1;
792 elsif ($rounded =~ /(\d+)MB/) {
793 $$gigabytes_sref += $1 / 1024;
794 $$bytes_sref += (($1 % 1024 ) * 1024 * 1024);
796 elsif ($rounded =~ /(\d+)KB/) {
797 $$gigabytes_sref += $1 / (1024 * 1024);
798 $$bytes_sref += ($1 % (1024 * 1024) * 1024);
800 elsif ($rounded =~ /(\d+)/) {
801 # We need to turn off integer in case we are merging an -nvr report.
803 $$gigabytes_sref += int($1 / $gig);
804 $$bytes_sref += $1 % $gig;
807 #Now reduce the bytes down to less than 1GB.
808 add_volume($bytes_sref,$gigabytes_sref,0) if ($$bytes_sref > $gig);
812 #######################################################################
815 # add_volume(\$bytes,\$gigs,$size);
817 # Add $size to $bytes/$gigs where this is a number split into
818 # bytes ($bytes) and gigabytes ($gigs). This is significantly
819 # faster than using Math::BigInt.
820 #######################################################################
822 my($bytes_ref,$gigs_ref,$size) = @_;
823 $$bytes_ref = 0 if ! defined $$bytes_ref;
824 $$gigs_ref = 0 if ! defined $$gigs_ref;
825 $$bytes_ref += $size;
826 while ($$bytes_ref > $gig) {
833 #######################################################################
836 # $formatted_time = format_time($seconds);
838 # Given a time in seconds, break it down into
839 # weeks, days, hours, minutes, and seconds.
841 # Eg 12005 => 3h20m5s
842 #######################################################################
854 $p .= "$w"."w" if $w > 0;
855 $p .= "$d"."d" if $d > 0;
856 $p .= "$h"."h" if $h > 0;
857 $p .= "$m"."m" if $m > 0;
858 $p .= "$s"."s" if $s > 0 || $p eq "";
863 #######################################################################
866 # $seconds = unformat_time($formatted_time);
868 # Given a time in weeks, days, hours, minutes, or seconds, convert it to seconds.
870 # Eg 3h20m5s => 12005
871 #######################################################################
873 my($formated_time) = pop @_;
876 while ($formated_time =~ s/^(\d+)([wdhms]?)//) {
877 $time += $1 if ($2 eq '' || $2 eq 's');
878 $time += $1 * 60 if ($2 eq 'm');
879 $time += $1 * 60 * 60 if ($2 eq 'h');
880 $time += $1 * 60 * 60 * 24 if ($2 eq 'd');
881 $time += $1 * 60 * 60 * 24 * 7 if ($2 eq 'w');
887 #######################################################################
890 # $time = seconds($timestamp);
892 # Given a time-of-day timestamp, convert it into a time() value using
893 # POSIX::mktime. We expect the timestamp to be of the form
894 # "$year-$mon-$day $hour:$min:$sec", with month going from 1 to 12,
895 # and the year to be absolute (we do the necessary conversions). The
896 # timestamp may be followed with an offset from UTC like "+$hh$mm"; if the
897 # offset is not present, and we have not been told that the log is in UTC
898 # (with the -utc option), then we adjust the time by the current local
899 # time offset so that it can be compared with the time recorded in message
902 # To improve performance, we only use mktime on the date ($year-$mon-$day),
903 # and only calculate it if the date is different to the previous time we
904 # came here. We then add on seconds for the '$hour:$min:$sec'.
906 # We also store the results of the last conversion done, and only
907 # recalculate if the date is different.
909 # We used to have the '-cache' flag which would store the results of the
910 # mktime() call. However, the current way of just using mktime() on the
911 # date obsoletes this.
912 #######################################################################
916 # Is the timestamp the same as the last one?
917 return $last_time if ($last_timestamp eq $timestamp);
919 return 0 unless ($timestamp =~ /^((\d{4})\-(\d\d)-(\d\d))\s(\d\d):(\d\d):(\d\d)( ([+-])(\d\d)(\d\d))?/o);
921 unless ($last_date eq $1) {
923 my(@timestamp) = (0,0,0,$4,$3,$2);
924 $timestamp[5] -= 1900;
926 $date_seconds = mktime(@timestamp);
928 my $time = $date_seconds + ($5 * 3600) + ($6 * 60) + $7;
930 # SC. Use cacheing. Also note we want seconds not minutes.
931 #my($this_offset) = ($10 * 60 + $11) * ($9 . "1") if defined $8;
932 if (defined $8 && ($8 ne $last_offset)) {
934 $offset_seconds = ($10 * 60 + $11) * 60;
935 $offset_seconds = -$offset_seconds if ($9 eq '-');
940 #$time -= $this_offset;
941 $time -= $offset_seconds;
942 } elsif (defined $localtime_offset) {
943 $time -= $localtime_offset;
946 # Store the last timestamp received.
947 $last_timestamp = $timestamp;
954 #######################################################################
957 # $time = id_seconds($message_id);
959 # Given a message ID, convert it into a time() value.
960 #######################################################################
962 my($sub_id) = substr((pop @_), 0, 6);
964 my(@c) = split(//, $sub_id);
965 while($#c >= 0) { $s = $s * 62 + $tab62[ord(shift @c) - ord('0')] }
969 #######################################################################
972 # $seconds = wdhms_seconds($string);
974 # Convert a string in a week/day/hour/minute/second format (eg 4h10s)
976 #######################################################################
978 if ($_[0] =~ /^(?:(\d+)w)?(?:(\d+)d)?(?:(\d+)h)?(?:(\d+)m)?(?:(\d+)s)?/) {
979 return((($1||0) * $WEEK) + (($2||0) * $DAY) + (($3||0) * $HOUR) + (($4||0) * $MINUTE) + ($5||0));
984 #######################################################################
987 # $queued = queue_time($completed_tod, $arrival_time, $id);
989 # Given the completed time of day and either the arrival time
990 # (preferred), or the message ID, calculate how long the message has
993 #######################################################################
995 my($completed_tod, $arrival_time, $id) = @_;
997 # Note: id_seconds() benchmarks as 42% slower than seconds()
998 # and computing the time accounts for a significant portion of
1000 if (defined $arrival_time) {
1001 return(seconds($completed_tod) - seconds($arrival_time));
1004 return(seconds($completed_tod) - id_seconds($id));
1009 #######################################################################
1010 # calculate_localtime_offset();
1012 # $localtime_offset = calculate_localtime_offset();
1014 # Calculate the the localtime offset from gmtime in seconds.
1016 # $localtime = time() + $localtime_offset.
1018 # These are the same semantics as ISO 8601 and RFC 2822 timezone offsets.
1019 # (West is negative, East is positive.)
1020 #######################################################################
1022 # $localtime = gmtime() + $localtime_offset. OLD COMMENT
1023 # This subroutine commented out as it's not currently in use.
1025 #sub calculate_localtime_offset {
1026 # # Pick an arbitrary date, convert it to localtime & gmtime, and return the difference.
1027 # my (@sample_date) = (0,0,0,5,5,100);
1028 # my $localtime = timelocal(@sample_date);
1029 # my $gmtime = timegm(@sample_date);
1030 # my $offset = $localtime - $gmtime;
1034 sub calculate_localtime_offset {
1035 # Assume that the offset at the moment is valid across the whole
1036 # period covered by the logs that we're analysing. This may not
1037 # be true around the time the clocks change in spring or autumn.
1039 # mktime works on local time and gmtime works in UTC
1040 my $local = mktime(gmtime($utc));
1041 return $local - $utc;
1046 #######################################################################
1047 # print_duration_table();
1049 # print_duration_table($title, $message_type, \@times, \@values, $overflow);
1051 # Print a table showing how long a particular step took for
1052 # the messages. The parameters are:
1053 # $title Eg "Time spent on the queue"
1054 # $message_type Eg "Remote"
1055 # \@times The maximum time a message took for it to increment
1056 # the corresponding @values counter.
1057 # \@values An array of message counters.
1058 # $overflow The number of messages which exceeded the maximum
1060 #######################################################################
1061 sub print_duration_table {
1063 my($title, $message_type, $times_aref, $values_aref, $overflow) = @_;
1064 my(@chartdatanames);
1067 my $printed_one = 0;
1068 my $cumulative_percent = 0;
1070 my $queue_total = $overflow;
1071 map {$queue_total += $_} @$values_aref;
1073 my $temp = "$title: $message_type";
1076 my $txt_format = "%5s %4s %6d %5.1f%% %5.1f%%\n";
1077 my $htm_format = "<tr><td align=\"right\">%s %s</td><td align=\"right\">%d</td><td align=\"right\">%5.1f%%</td><td align=\"right\">%5.1f%%</td>\n";
1080 printf $txt_fh ("%s\n%s\n\n", $temp, "-" x length($temp)) if $txt_fh;
1082 print $htm_fh "<hr><a name=\"$title $message_type\"></a><h2>$temp</h2>\n";
1083 print $htm_fh "<table border=0 width=\"100%\"><tr><td><table border=1>\n";
1084 print $htm_fh "<tr><th>Time</th><th>Messages</th><th>Percentage</th><th>Cumulative Percentage</th>\n";
1087 $ws_global->write($row++, $col, "$title: ".$message_type, $f_header2);
1088 my @content=("Time", "Messages", "Percentage", "Cumulative Percentage");
1089 &set_worksheet_line($ws_global, $row++, 1, \@content, $f_headertab);
1093 for ($i = 0; $i <= $#$times_aref; ++$i) {
1094 if ($$values_aref[$i] > 0)
1096 my $percent = ($values_aref->[$i] * 100)/$queue_total;
1097 $cumulative_percent += $percent;
1099 my @content=($printed_one? " " : "Under",
1100 format_time($times_aref->[$i]),
1101 $values_aref->[$i], $percent, $cumulative_percent);
1104 printf $htm_fh ($htm_format, @content);
1105 if (!defined($values_aref->[$i])) {
1106 print $htm_fh "Not defined";
1110 printf $txt_fh ($txt_format, @content);
1111 if (!defined($times_aref->[$i])) {
1112 print $txt_fh "Not defined";
1118 &set_worksheet_line($ws_global, $row, 0, [@content[0,1,2]], $f_default);
1119 &set_worksheet_line($ws_global, $row++, 3, [$content[3]/100,$content[4]/100], $f_percent);
1121 if (!defined($times_aref->[$i])) {
1123 $ws_global->write($row++, $col, "Not defined" );
1127 push(@chartdatanames,
1128 ($printed_one? "" : "Under") . format_time($times_aref->[$i]));
1129 push(@chartdatavals, $$values_aref[$i]);
1134 if ($overflow && $overflow > 0) {
1135 my $percent = ($overflow * 100)/$queue_total;
1136 $cumulative_percent += $percent;
1138 my @content = ("Over ", format_time($times_aref->[-1]),
1139 $overflow, $percent, $cumulative_percent);
1141 printf $txt_fh ($txt_format, @content) if $txt_fh;
1142 printf $htm_fh ($htm_format, @content) if $htm_fh;
1145 &set_worksheet_line($ws_global, $row, 0, [@content[0,1,2]], $f_default);
1146 &set_worksheet_line($ws_global, $row++, 3, [$content[3]/100,$content[4]/100], $f_percent);
1151 push(@chartdatanames, "Over " . format_time($times_aref->[-1]));
1152 push(@chartdatavals, $overflow);
1154 #printf("Unknown %6d\n", $queue_unknown) if $queue_unknown > 0;
1156 print $htm_fh "</table></td><td>";
1158 if ($HAVE_GD_Graph_pie && $charts && ($#chartdatavals > 0)) {
1163 my $graph = GD::Graph::pie->new(200, 200);
1164 my $pngname = "$title-$message_type.png";
1165 $pngname =~ s/[^\w\-\.]/_/;
1167 my $graph_title = "$title ($message_type)";
1168 $graph->set(title => $graph_title) if (length($graph_title) < 21);
1170 my $gd = $graph->plot(\@data) or warn($graph->error);
1172 open(IMG, ">$chartdir/$pngname") or die "Could not write $chartdir/$pngname: $!\n";
1176 print $htm_fh "<img src=\"$chartrel/$pngname\">";
1179 print $htm_fh "</td></tr></table>\n";
1186 print $txt_fh "\n" if $txt_fh;
1187 print $htm_fh "\n" if $htm_fh;
1192 #######################################################################
1193 # print_histogram();
1195 # print_histogram('Deliveries|Messages received|$pattern', $unit, @interval_count);
1197 # Print a histogram of the messages delivered/received per time slot
1198 # (hour by default).
1199 #######################################################################
1200 sub print_histogram {
1201 my($text, $unit, @interval_count) = @_;
1202 my(@chartdatanames);
1206 # save first row of print_histogram for xls output
1214 for ($i = 0; $i < $hist_number; $i++)
1215 { $maxd = $interval_count[$i] if $interval_count[$i] > $maxd; }
1217 my $scale = int(($maxd + 25)/50);
1218 $scale = 1 if $scale == 0;
1221 if ($unit !~ s/y$/ies/) {
1226 # make and output title
1227 my $title = sprintf("$text per %s",
1228 ($hist_interval == 60)? "hour" :
1229 ($hist_interval == 1)? "minute" : "$hist_interval minutes");
1231 my $txt_htm_title = $title . " (each dot is $scale $unit)";
1233 printf $txt_fh ("%s\n%s\n\n", $txt_htm_title, "-" x length($txt_htm_title)) if $txt_fh;
1236 print $htm_fh "<hr><a name=\"$text\"></a><h2>$txt_htm_title</h2>\n";
1237 print $htm_fh "<table border=0 width=\"100%\">\n";
1238 print $htm_fh "<tr><td><pre>\n";
1242 $title =~ s/Messages/Msg/ ;
1244 $ws_global->write($row++, $col_hist+1, $title, $f_headertab);
1250 for ($i = 0; $i < $hist_number; $i++) {
1251 my $c = $interval_count[$i];
1253 # If the interval is an hour (the maximum) print the starting and
1254 # ending hours as a label. Otherwise print the starting hour and
1255 # minutes, which take up the same space.
1258 if ($hist_opt == 1) {
1259 $temp = sprintf("%02d-%02d", $hour, $hour + 1);
1261 print $txt_fh $temp if $txt_fh;
1262 print $htm_fh $temp if $htm_fh;
1267 $ws_global->write($row, 0, [$temp], $f_default);
1271 push(@chartdatanames, $temp);
1276 { $temp = sprintf("%02d:%02d", $hour, $minutes) }
1278 { $temp = sprintf(" :%02d", $minutes) }
1280 print $txt_fh $temp if $txt_fh;
1281 print $htm_fh $temp if $htm_fh;
1282 if (($xls_fh) and ($run_hist==0)) {
1284 $temp = sprintf("%02d:%02d", $hour, $minutes);
1285 $ws_global->write($row, 0, [$temp], $f_default);
1288 push(@chartdatanames, $temp);
1289 $minutes += $hist_interval;
1290 if ($minutes >= 60) {
1295 push(@chartdatavals, $c);
1297 printf $txt_fh (" %6d %s\n", $c, "." x ($c/$scale)) if $txt_fh;
1298 printf $htm_fh (" %6d %s\n", $c, "." x ($c/$scale)) if $htm_fh;
1299 $ws_global->write($row++, $col_hist+1, [$c], $f_default) if $xls_fh;
1303 printf $txt_fh "\n" if $txt_fh;
1304 printf $htm_fh "\n" if $htm_fh;
1308 print $htm_fh "</pre>\n";
1309 print $htm_fh "</td><td>\n";
1310 if ($HAVE_GD_Graph_linespoints && $charts && ($#chartdatavals > 0)) {
1311 # calculate the graph
1316 my $graph = GD::Graph::linespoints->new(300, 300);
1319 y_label => 'Amount',
1321 x_labels_vertical => 1
1323 my $pngname = "histogram_$text.png";
1324 $pngname =~ s/[^\w\._]/_/g;
1326 my $gd = $graph->plot(\@data) or warn($graph->error);
1328 open(IMG, ">$chartdir/$pngname") or die "Could not write $chartdir/$pngname: $!\n";
1332 print $htm_fh "<img src=\"$chartrel/$pngname\">";
1335 print $htm_fh "</td></tr></table>\n";
1338 $col_hist++; # where to continue next times
1340 $row+=2; # leave some space after history block
1341 $run_hist=1; # we have done this once or more
1346 #######################################################################
1347 # print_league_table();
1349 # print_league_table($league_table_type,\%message_count,\%address_count,\%message_data,\%message_data_gigs, $spreadsheet, $row_sref);
1351 # Given hashes of message count, address count, and message data,
1352 # which are keyed by the table type (eg by the sending host), print a
1353 # league table showing the top $topcount (defaults to 50).
1354 #######################################################################
1355 sub print_league_table {
1356 my($text,$m_count,$a_count,$m_data,$m_data_gigs,$spreadsheet, $row_sref) = @_;
1357 my($name) = ($topcount == 1)? "$text" : "$topcount ${text}s";
1358 my($title) = "Top $name by message count";
1359 my(@chartdatanames) = ();
1360 my(@chartdatavals) = ();
1361 my $chartotherval = 0;
1362 $text = ucfirst($text);
1364 # Align non-local addresses to the right (so all the .com's line up).
1365 # Local addresses are aligned on the left as they are userids.
1366 my $align = ($text !~ /local/i) ? 'right' : 'left';
1369 ################################################
1370 # Generate the printf formats and table headers.
1371 ################################################
1372 my(@headers) = ('Messages');
1373 #push(@headers,'Addresses') if defined $a_count;
1374 push(@headers,'Addresses') if defined $a_count && %$a_count;
1375 push(@headers,'Bytes','Average') if defined $m_data;
1377 my $txt_format = "%10s " x @headers . " %s\n";
1378 my $txt_col_headers = sprintf $txt_format, @headers, $text;
1379 my $htm_format = "<tr>" . '<td align="right">%s</td>'x@headers . "<td align=\"$align\" nowrap>%s</td></tr>\n";
1380 my $htm_col_headers = sprintf $htm_format, @headers, $text;
1381 $htm_col_headers =~ s/(<\/?)td/$1th/g; #Convert <td>'s to <th>'s for the header.
1384 ################################################
1385 # Write the table headers
1386 ################################################
1387 printf $txt_fh ("%s\n%s\n%s", $title, "-" x length($title),$txt_col_headers) if $txt_fh;
1390 print $htm_fh <<EoText;
1391 <hr><a name="$text count"></a><h2>$title</h2>
1392 <table border=0 width="100%">
1396 print $htm_fh $htm_col_headers
1400 $spreadsheet->write(${$row_sref}++, 0, $title, $f_header2);
1401 $spreadsheet->write(${$row_sref}++, 0, [@headers, $text], $f_headertab);
1406 foreach my $key (top_n_sort($topcount,$m_count,$m_data_gigs,$m_data)) {
1408 # When displaying the average figures, we calculate the average of
1409 # the rounded data, as the user would calculate it. This reduces
1410 # the accuracy slightly, but we have to do it this way otherwise
1411 # when using -merge to convert results from text to HTML and
1412 # vice-versa discrepencies would occur.
1413 my $messages = $$m_count{$key};
1414 my @content = ($messages);
1415 push(@content, $$a_count{$key}) if defined $a_count;
1416 if (defined $m_data) {
1417 my $rounded_volume = volume_rounded($$m_data{$key},$$m_data_gigs{$key});
1418 my($data,$gigs) = (0,0);
1419 un_round($rounded_volume,\$data,\$gigs);
1420 my $rounded_average = volume_rounded($data/$messages,$gigs/$messages);
1421 push(@content, $rounded_volume, $rounded_average);
1425 printf $txt_fh ($txt_format, @content, $key) if $txt_fh;
1429 $htmlkey =~ s/>/\>\;/g;
1430 $htmlkey =~ s/</\<\;/g;
1431 printf $htm_fh ($htm_format, @content, $htmlkey);
1433 $spreadsheet->write(${$row_sref}++, 0, [@content, $key], $f_default) if $xls_fh;
1435 if (scalar @chartdatanames < $ntopchart) {
1436 push(@chartdatanames, $key);
1437 push(@chartdatavals, $$m_count{$key});
1440 $chartotherval += $$m_count{$key};
1444 push(@chartdatanames, "Other");
1445 push(@chartdatavals, $chartotherval);
1447 print $txt_fh "\n" if $txt_fh;
1449 print $htm_fh "</table>\n";
1450 print $htm_fh "</td><td>\n";
1451 if ($HAVE_GD_Graph_pie && $charts && ($#chartdatavals > 0))
1453 # calculate the graph
1458 my $graph = GD::Graph::pie->new(300, 300);
1461 y_label => 'Amount',
1462 title => 'By count',
1464 my $gd = $graph->plot(\@data) or warn($graph->error);
1468 open(IMG, ">$chartdir/${temp}_count.png") or die "Could not write $chartdir/${temp}_count.png: $!\n";
1472 print $htm_fh "<img src=\"$chartrel/${temp}_count.png\">";
1475 print $htm_fh "</td><td>\n";
1476 print $htm_fh "</td></tr></table>\n\n";
1478 ++${$row_sref} if $xls_fh;
1481 if (defined $m_data) {
1484 $title = "Top $name by volume";
1486 printf $txt_fh ("%s\n%s\n%s", $title, "-" x length($title),$txt_col_headers) if $txt_fh;
1489 print $htm_fh <<EoText;
1490 <hr><a name="$text volume"></a><h2>$title</h2>
1491 <table border=0 width="100%">
1495 print $htm_fh $htm_col_headers;
1498 $spreadsheet->write(${$row_sref}++, 0, $title, $f_header2);
1499 $spreadsheet->write(${$row_sref}++, 0, [@headers, $text], $f_headertab);
1502 @chartdatanames = ();
1503 @chartdatavals = ();
1506 foreach my $key (top_n_sort($topcount,$m_data_gigs,$m_data,$m_count)) {
1507 # The largest volume will be the first (top of the list).
1508 # If it has at least 1 gig, then just use gigabytes to avoid
1509 # risking an integer overflow when generating the pie charts.
1510 if ($$m_data_gigs{$key}) {
1514 my $messages = $$m_count{$key};
1515 my @content = ($messages);
1516 push(@content, $$a_count{$key}) if defined $a_count;
1517 my $rounded_volume = volume_rounded($$m_data{$key},$$m_data_gigs{$key});
1518 my($data ,$gigs) = (0,0);
1519 un_round($rounded_volume,\$data,\$gigs);
1520 my $rounded_average = volume_rounded($data/$messages,$gigs/$messages);
1521 push(@content, $rounded_volume, $rounded_average );
1524 printf $txt_fh ($txt_format, @content, $key) if $txt_fh;
1527 $htmlkey =~ s/>/\>\;/g;
1528 $htmlkey =~ s/</\<\;/g;
1529 printf $htm_fh ($htm_format, @content, $htmlkey);
1531 $spreadsheet->write(${$row_sref}++, 0, [@content, $key], $f_default) if $xls_fh;
1534 if (scalar @chartdatanames < $ntopchart) {
1536 if ($$m_data_gigs{$key}) {
1537 push(@chartdatanames, $key);
1538 push(@chartdatavals, $$m_data_gigs{$key});
1542 push(@chartdatanames, $key);
1543 push(@chartdatavals, $$m_data{$key});
1547 $chartotherval += ($use_gig) ? $$m_data_gigs{$key} : $$m_data{$key};
1550 push(@chartdatanames, "Other");
1551 push(@chartdatavals, $chartotherval);
1553 print $txt_fh "\n" if $txt_fh;
1555 print $htm_fh "</table>\n";
1556 print $htm_fh "</td><td>\n";
1557 if ($HAVE_GD_Graph_pie && $charts && ($#chartdatavals > 0)) {
1558 # calculate the graph
1563 my $graph = GD::Graph::pie->new(300, 300);
1566 y_label => 'Volume' ,
1567 title => 'By Volume',
1569 my $gd = $graph->plot(\@data) or warn($graph->error);
1573 open(IMG, ">$chartdir/${temp}_volume.png") or die "Could not write $chartdir/${temp}_volume.png: $!\n";
1577 print $htm_fh "<img src=\"$chartrel/${temp}_volume.png\">";
1580 print $htm_fh "</td><td>\n";
1581 print $htm_fh "</td></tr></table>\n\n";
1584 ++${$row_sref} if $xls_fh;
1589 #######################################################################
1592 # @sorted_keys = top_n_sort($n,$href1,$href2,$href3);
1594 # Given a hash which has numerical values, return the sorted $n keys which
1595 # point to the top values. The second and third hashes are used as
1596 # tiebreakers. They all must have the same keys.
1598 # The idea behind this routine is that when you only want to see the
1599 # top n members of a set, rather than sorting the entire set and then
1600 # plucking off the top n, sort through the stack as you go, discarding
1601 # any member which is lower than your current n'th highest member.
1603 # This proves to be an order of magnitude faster for large hashes.
1604 # On 200,000 lines of mainlog it benchmarked 9 times faster.
1605 # On 700,000 lines of mainlog it benchmarked 13.8 times faster.
1607 # We assume the values are > 0.
1608 #######################################################################
1610 my($n,$href1,$href2,$href3) = @_;
1612 # PH's original sort was:
1614 # foreach $key (sort
1616 # $$m_count{$b} <=> $$m_count{$a} ||
1617 # $$m_data_gigs{$b} <=> $$m_data_gigs{$a} ||
1618 # $$m_data{$b} <=> $$m_data{$a} ||
1624 #We use a key of '_' to represent non-existant values, as null keys are valid.
1625 #'_' is not a valid domain, edomain, host, or email.
1626 my(@top_n_keys) = ('_') x $n;
1627 my($minimum_value1,$minimum_value2,$minimum_value3) = (0,0,0);
1629 my $n_minus_1 = $n - 1;
1630 my $n_minus_2 = $n - 2;
1632 # Create a dummy hash incase the user has not provided us with
1633 # tiebreaker hashes.
1635 $href2 = \%dummy_hash unless defined $href2;
1636 $href3 = \%dummy_hash unless defined $href3;
1638 # Pick out the top $n keys.
1639 my($key,$value1,$value2,$value3,$i,$comparison,$insert_position);
1640 while (($key,$value1) = each %$href1) {
1642 #print STDERR "key $key ($value1,",$href2->{$key},",",$href3->{$key},") <=> ($minimum_value1,$minimum_value2,$minimum_value3)\n";
1644 # Check to see that the new value is bigger than the lowest of the
1645 # top n keys that we're keeping. We test the main key first, because
1646 # for the majority of cases we can skip creating dummy hash values
1647 # should the user have not provided real tie-breaking hashes.
1648 next unless $value1 >= $minimum_value1;
1650 # Create a dummy hash entry for the key if required.
1651 # Note that setting the dummy_hash value sets it for both href2 &
1652 # href3. Also note that currently we are guarenteed to have a real
1653 # value for href3 if a real value for href2 exists so don't need to
1654 # test for it as well.
1655 $dummy_hash{$key} = 0 unless exists $href2->{$key};
1657 $comparison = $value1 <=> $minimum_value1 ||
1658 $href2->{$key} <=> $minimum_value2 ||
1659 $href3->{$key} <=> $minimum_value3 ||
1660 $top_n_key cmp $key;
1661 next unless ($comparison == 1);
1663 # As we will be using these values a few times, extract them into scalars.
1664 $value2 = $href2->{$key};
1665 $value3 = $href3->{$key};
1667 # This key is bigger than the bottom n key, so the lowest position we
1668 # will insert it into is $n minus 1 (the bottom of the list).
1669 $insert_position = $n_minus_1;
1671 # Now go through the list, stopping when we find a key that we're
1672 # bigger than, or we come to the penultimate position - we've
1673 # already tested bigger than the last.
1675 # Note: we go top down as the list starts off empty.
1676 # Note: stepping through the list in this way benchmarks nearly
1677 # three times faster than doing a sort() on the reduced list.
1678 # I assume this is because the list is already in order, and
1679 # we get a performance boost from not having to do hash lookups
1681 for ($i = 0; $i < $n_minus_1; $i++) {
1682 $top_n_key = $top_n_keys[$i];
1683 if ( ($top_n_key eq '_') ||
1684 ( ($value1 <=> $href1->{$top_n_key} ||
1685 $value2 <=> $href2->{$top_n_key} ||
1686 $value3 <=> $href3->{$top_n_key} ||
1687 $top_n_key cmp $key) == 1
1690 $insert_position = $i;
1695 # Remove the last element, then insert the new one.
1696 $#top_n_keys = $n_minus_2;
1697 splice(@top_n_keys,$insert_position,0,$key);
1699 # Extract our new minimum values.
1700 $top_n_key = $top_n_keys[$n_minus_1];
1701 if ($top_n_key ne '_') {
1702 $minimum_value1 = $href1->{$top_n_key};
1703 $minimum_value2 = $href2->{$top_n_key};
1704 $minimum_value3 = $href3->{$top_n_key};
1708 # Return the top n list, grepping out non-existant values, just in case
1709 # we didn't have that many values.
1710 return(grep(!/^_$/,@top_n_keys));
1715 #######################################################################
1718 # $header = html_header($title);
1720 # Print our HTML header and start the <body> block.
1721 #######################################################################
1724 my $text = << "EoText";
1725 <!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 3.2 Final//EN">
1728 <meta http-equiv="Content-Type" content="text/html; charset=iso-8859-15">
1729 <title>$title</title>
1731 <body bgcolor="white">
1739 #######################################################################
1744 # Display usage instructions and exit.
1745 #######################################################################
1749 eximstats Version $VERSION
1752 eximstats [Output] [Options] mainlog1 mainlog2 ...
1753 eximstats -merge -html [Options] report.1.html ... > weekly_rep.html
1756 eximstats -html=eximstats.html mainlog1 mainlog2 ...
1757 eximstats mainlog1 mainlog2 ... > report.txt
1759 Parses exim mainlog or syslog files and generates a statistical analysis
1760 of the messages processed.
1762 Valid output types are:
1763 -txt[=<file>] plain text (default unless no other type is specified)
1766 With no type and file given, defaults to -txt and STDOUT.
1769 -h<number> histogram divisions per hour. The default is 1, and
1770 0 suppresses histograms. Other valid values are:
1771 2, 3, 5, 10, 15, 20, 30 or 60.
1772 -ne don't display error information
1773 -nr don't display relaying information
1774 -nr/pattern/ don't display relaying information that matches
1775 -nt don't display transport information
1776 -nt/pattern/ don't display transport information that matches
1777 -nvr don't do volume rounding. Display in bytes, not KB/MB/GB.
1778 -t<number> display top <number> sources/destinations
1779 default is 50, 0 suppresses top listing
1780 -tnl omit local sources/destinations in top listing
1781 -t_remote_users show top user sources/destinations from non-local domains
1782 -q<list> list of times for queuing information. -q0 suppresses.
1783 -show_rt<list> Show the receipt times for all the messages.
1784 -show_dt<list> Show the delivery times for all the messages.
1785 <list> is an optional list of times in seconds.
1788 -include_original_destination show both the final and original
1789 destinations in the results rather than just the final ones.
1791 -byhost show results by sending host (default unless bydomain or
1792 byemail is specified)
1793 -bydomain show results by sending domain.
1794 -byemail show results by sender's email address
1795 -byedomain show results by sender's email domain
1796 -bylocaldomain show results by local domain
1798 -pattern "Description" /pattern/
1799 Count lines matching specified patterns and show them in
1800 the results. It can be specified multiple times. Eg:
1801 -pattern 'Refused connections' '/refused connection/'
1803 -merge merge previously generated reports into a new report
1805 -charts Create charts (this requires the GD::Graph modules).
1806 Only valid with -html.
1807 -chartdir <dir> Create the charts' png files in the directory <dir>
1808 -chartrel <dir> Specify the relative directory for the "img src=" tags
1809 from where to include the charts in the html file
1810 -chartdir and -chartrel default to '.'
1812 -emptyok It is OK if there is no valid input, don't print an error.
1814 -d Debug mode - dump the eval'ed parser onto STDERR.
1823 #######################################################################
1824 # generate_parser();
1826 # $parser = generate_parser();
1828 # This subroutine generates the parsing routine which will be
1829 # used to parse the mainlog. We take the base operation, and remove bits not in use.
1830 # This improves performance depending on what bits you take out or add.
1832 # I've tested using study(), but this does not improve performance.
1834 # We store our parsing routing in a variable, and process it looking for #IFDEF (Expression)
1835 # or #IFNDEF (Expression) statements and corresponding #ENDIF (Expression) statements. If
1836 # the expression evaluates to true, then it is included/excluded accordingly.
1837 #######################################################################
1838 sub generate_parser {
1840 my($ip,$host,$email,$edomain,$domain,$thissize,$size,$old,$new);
1841 my($tod,$m_hour,$m_min,$id,$flag,$extra,$length);
1842 my($seconds,$queued,$rcpt_time,$local_domain);
1846 # Convert syslog lines to mainlog format.
1848 next unless s/^.*? exim\\b.*?: //;
1851 $length = length($_);
1852 next if ($length < 38);
1853 next unless /^(\\d{4}\\-\\d\\d-\\d\\d\\s(\\d\\d):(\\d\\d):\\d\\d( [-+]\\d\\d\\d\\d)?)( \\[\\d+\\])?/o;
1855 ($tod,$m_hour,$m_min) = ($1,$2,$3);
1857 # PH - watch for GMT offsets in the timestamp.
1860 next if ($length < 44);
1866 # PH - watch for PID added after the timestamp.
1868 $extra += length($5);
1869 next if ($length < 38 + $extra);
1872 $id = substr($_, 20 + $extra, 16);
1873 $flag = substr($_, 37 + $extra, 2);
1875 if ($flag !~ /^([<>=*-]+|SA)$/ && /rejected|refused|dropped/) {
1880 # Rejects can have no MSGID...
1881 if ($flag eq "Re" && $id !~ /^[-0-9a-zA-Z]+$/) {
1882 $id = "reject:" . ++$rej_id;
1887 # Watch for user specified patterns.
1888 my $user_pattern_index = 0;
1889 foreach (@user_patterns) {
1890 $user_pattern_totals[$user_pattern_index] = 0;
1891 $parser .= " if ($_) {\n";
1892 $parser .= " \$user_pattern_totals[$user_pattern_index]++;\n";
1893 $parser .= " \$user_pattern_interval_count[$user_pattern_index][(\$m_hour*60 + \$m_min)/$hist_interval]++;\n" if ($hist_opt > 0);
1895 $user_pattern_index++;
1899 next unless ($flag =~ /<=|=>|->|==|\\*\\*|Co|SA|Re/);
1901 #Strip away the timestamp, ID and flag to speed up later pattern matches.
1902 #The flags include Co (Completed), Re (Rejected), and SA (SpamAssassin).
1903 $_ = substr($_, 40 + $extra); # PH
1905 # Alias @message to the array of information about the message.
1906 # This minimises the number of calls to hash functions.
1907 $messages{$id} = [] unless exists $messages{$id};
1908 *message = $messages{$id};
1911 # JN - Skip over certain transports as specified via the "-nt/.../" command
1912 # line switch (where ... is a perl style regular expression). This is
1913 # required so that transports that skew stats such as SpamAssassin can be
1915 #IFDEF ($transport_pattern)
1916 if (/\\sT=(\\S+)/) {
1917 next if ($1 =~ /$transport_pattern/o) ;
1919 #ENDIF ($transport_pattern)
1923 # Do some pattern matches to get the host and IP address.
1924 # We expect lines to be of the form "H=[IpAddr]" or "H=Host [IpAddr]" or
1925 # "H=Host (UnverifiedHost) [IpAddr]" or "H=(UnverifiedHost) [IpAddr]".
1926 # We do 2 separate matches to keep the matches simple and fast.
1927 # Host is local unless otherwise specified.
1928 $ip = (/\\bH=.*?(\\[[^]]+\\])/) ? $1
1929 # 2008-03-31 06:25:22 Connection from [213.246.33.217]:39456 refused: too many connections from that IP address // .hs
1930 : (/Connection from (\[\S+\])/) ? $1
1931 # 2008-03-31 06:52:40 SMTP call from mail.cacoshrf.com (ccsd02.ccsd.local) [69.24.118.229]:4511 dropped: too many nonmail commands (last was "RSET") // .hs
1932 : (/SMTP call from .*?(\[\S+\])/) ? $1
1934 $host = (/\\bH=(\\S+)/) ? $1 : "local";
1936 $domain = "localdomain"; #Domain is localdomain unless otherwise specified.
1938 #IFDEF ($do_sender{Domain})
1939 if ($host =~ /^\\[/ || $host =~ /^[\\d\\.]+$/) {
1940 # Host is just an IP address.
1943 elsif ($host =~ /^(\\(?)[^\\.]+\\.([^\\.]+\\..*)/) {
1944 # Remove the host portion from the DNS name. We ensure that we end up
1945 # with at least xxx.yyy. $host can be "(x.y.z)" or "x.y.z".
1946 $domain = lc("$1.$2");
1947 $domain =~ s/^\\.//; #Remove preceding dot.
1949 #ENDIF ($do_sender{Domain})
1951 #IFDEF ($do_sender{Email})
1952 #IFDEF ($include_original_destination)
1953 # Catch both "a@b.com <c@d.com>" and "e@f.com"
1954 #$email = (/^(\S+) (<(\S*?)>)?/) ? $3 || $1 : "";
1955 $email = (/^(\S+ (<[^@>]+@?[^>]*>)?)/) ? $1 : "";
1957 #ENDIF ($include_original_destination)
1959 #IFNDEF ($include_original_destination)
1960 $email = (/^(\S+)/) ? $1 : "";
1961 #ENDIF ($include_original_destination)
1962 #ENDIF ($do_sender{Email})
1964 #IFDEF ($do_sender{Edomain})
1965 if (/^(<>|blackhole)/) {
1968 #IFDEF ($include_original_destination)
1969 elsif (/^(\S+ (<\S*?\\@(\S+?)>)?)/) {
1972 $edomain =~ s/@(\S+?)>/"@" . lc($1) . ">"/e;
1974 #ENDIF ($include_original_destination)
1975 #IFNDEF ($include_original_destination)
1976 elsif (/^\S*?\\@(\S+)/) {
1979 #ENDIF ($include_original_destination)
1984 #ENDIF ($do_sender{Edomain})
1986 if ($tod lt $begin) {
1989 elsif ($tod gt $end) {
1994 if ($flag eq "<=") {
1995 $thissize = (/\\sS=(\\d+)( |$)/) ? $1 : 0;
1996 $message[$SIZE] = $thissize;
1997 $message[$PROTOCOL] = (/ P=(\S+)/) ? $1 : undef;
1999 #IFDEF ($show_relay)
2000 if ($host ne "local") {
2001 # Save incoming information in case it becomes interesting
2002 # later, when delivery lines are read.
2003 my($from) = /^(\\S+)/;
2004 $message[$FROM_HOST] = "$host$ip";
2005 $message[$FROM_ADDRESS] = $from;
2007 #ENDIF ($show_relay)
2009 #IFDEF ($local_league_table || $include_remote_users)
2013 #IFDEF ($local_league_table && $include_remote_users)
2014 { #Store both local and remote users.
2015 #ENDIF ($local_league_table && $include_remote_users)
2017 #IFDEF ($local_league_table && ! $include_remote_users)
2018 if ($host eq "local") { #Store local users only.
2019 #ENDIF ($local_league_table && ! $include_remote_users)
2021 #IFDEF ($include_remote_users && ! $local_league_table)
2022 if ($host ne "local") { #Store remote users only.
2023 #ENDIF ($include_remote_users && ! $local_league_table)
2025 ++$received_count_user{$user};
2026 add_volume(\\$received_data_user{$user},\\$received_data_gigs_user{$user},$thissize);
2029 #ENDIF ($local_league_table || $include_remote_users)
2031 #IFDEF ($do_sender{Host})
2032 ++$received_count{Host}{$host};
2033 add_volume(\\$received_data{Host}{$host},\\$received_data_gigs{Host}{$host},$thissize);
2034 #ENDIF ($do_sender{Host})
2036 #IFDEF ($do_sender{Domain})
2038 ++$received_count{Domain}{$domain};
2039 add_volume(\\$received_data{Domain}{$domain},\\$received_data_gigs{Domain}{$domain},$thissize);
2041 #ENDIF ($do_sender{Domain})
2043 #IFDEF ($do_sender{Email})
2044 ++$received_count{Email}{$email};
2045 add_volume(\\$received_data{Email}{$email},\\$received_data_gigs{Email}{$email},$thissize);
2046 #ENDIF ($do_sender{Email})
2048 #IFDEF ($do_sender{Edomain})
2049 ++$received_count{Edomain}{$edomain};
2050 add_volume(\\$received_data{Edomain}{$edomain},\\$received_data_gigs{Edomain}{$edomain},$thissize);
2051 #ENDIF ($do_sender{Edomain})
2053 ++$total_received_count;
2054 add_volume(\\$total_received_data,\\$total_received_data_gigs,$thissize);
2056 #IFDEF ($#queue_times >= 0 || $#rcpt_times >= 0)
2057 $message[$ARRIVAL_TIME] = $tod;
2058 #ENDIF ($#queue_times >= 0 || $#rcpt_times >= 0)
2060 #IFDEF ($hist_opt > 0)
2061 $received_interval_count[($m_hour*60 + $m_min)/$hist_interval]++;
2062 #ENDIF ($hist_opt > 0)
2065 elsif ($flag eq "=>") {
2066 $size = $message[$SIZE] || 0;
2067 if ($host ne "local") {
2068 $message[$REMOTE_DELIVERED] = 1;
2071 #IFDEF ($show_relay)
2072 # Determine relaying address if either only one address listed,
2073 # or two the same. If they are different, it implies a forwarding
2074 # or aliasing, which is not relaying. Note that for multi-aliased
2075 # addresses, there may be a further address between the first
2078 if (defined $message[$FROM_HOST]) {
2079 if (/^(\\S+)(?:\\s+\\([^)]\\))?\\s+<([^>]+)>/) {
2080 ($old,$new) = ($1,$2);
2086 if ("\\L$new" eq "\\L$old") {
2087 ($old) = /^(\\S+)/ if $old eq "";
2088 my $key = "H=\\L$message[$FROM_HOST]\\E A=\\L$message[$FROM_ADDRESS]\\E => " .
2089 "H=\\L$host\\E$ip A=\\L$old\\E";
2090 if (!defined $relay_pattern || $key !~ /$relay_pattern/o) {
2091 $relayed{$key} = 0 if !defined $relayed{$key};
2099 #ENDIF ($show_relay)
2103 #IFDEF ($local_league_table || $include_remote_users)
2104 #IFDEF ($local_league_table && $include_remote_users)
2105 { #Store both local and remote users.
2106 #ENDIF ($local_league_table && $include_remote_users)
2108 #IFDEF ($local_league_table && ! $include_remote_users)
2109 if ($host eq "local") { #Store local users only.
2110 #ENDIF ($local_league_table && ! $include_remote_users)
2112 #IFDEF ($include_remote_users && ! $local_league_table)
2113 if ($host ne "local") { #Store remote users only.
2114 #ENDIF ($include_remote_users && ! $local_league_table)
2116 if (my($user) = split((/\\s</)? " <" : " ", $_)) {
2117 #IFDEF ($include_original_destination)
2119 #ENDIF ($include_original_destination)
2120 #IFNDEF ($include_original_destination)
2121 if ($user =~ /^[\\/|]/) {
2122 #ENDIF ($include_original_destination)
2123 #my($parent) = $_ =~ /(<[^@]+@?[^>]*>)/;
2124 my($parent) = $_ =~ / (<.+?>) /; #DT 1.54
2125 if (defined $parent) {
2126 $user = "$user $parent";
2127 #IFDEF ($do_local_domain)
2128 if ($parent =~ /\\@(.+)>/) {
2129 $local_domain = lc($1);
2130 ++$delivered_messages_local_domain{$local_domain};
2131 ++$delivered_addresses_local_domain{$local_domain};
2132 add_volume(\\$delivered_data_local_domain{$local_domain},\\$delivered_data_gigs_local_domain{$local_domain},$size);
2134 #ENDIF ($do_local_domain)
2137 ++$delivered_messages_user{$user};
2138 ++$delivered_addresses_user{$user};
2139 add_volume(\\$delivered_data_user{$user},\\$delivered_data_gigs_user{$user},$size);
2142 #ENDIF ($local_league_table || $include_remote_users)
2144 #IFDEF ($do_sender{Host})
2145 $delivered_messages{Host}{$host}++;
2146 $delivered_addresses{Host}{$host}++;
2147 add_volume(\\$delivered_data{Host}{$host},\\$delivered_data_gigs{Host}{$host},$size);
2148 #ENDIF ($do_sender{Host})
2149 #IFDEF ($do_sender{Domain})
2151 ++$delivered_messages{Domain}{$domain};
2152 ++$delivered_addresses{Domain}{$domain};
2153 add_volume(\\$delivered_data{Domain}{$domain},\\$delivered_data_gigs{Domain}{$domain},$size);
2155 #ENDIF ($do_sender{Domain})
2156 #IFDEF ($do_sender{Email})
2157 ++$delivered_messages{Email}{$email};
2158 ++$delivered_addresses{Email}{$email};
2159 add_volume(\\$delivered_data{Email}{$email},\\$delivered_data_gigs{Email}{$email},$size);
2160 #ENDIF ($do_sender{Email})
2161 #IFDEF ($do_sender{Edomain})
2162 ++$delivered_messages{Edomain}{$edomain};
2163 ++$delivered_addresses{Edomain}{$edomain};
2164 add_volume(\\$delivered_data{Edomain}{$edomain},\\$delivered_data_gigs{Edomain}{$edomain},$size);
2165 #ENDIF ($do_sender{Edomain})
2167 ++$total_delivered_messages;
2168 ++$total_delivered_addresses;
2169 add_volume(\\$total_delivered_data,\\$total_delivered_data_gigs,$size);
2171 #IFDEF ($show_transport)
2172 my $transport = (/\\sT=(\\S+)/) ? $1 : ":blackhole:";
2173 ++$transported_count{$transport};
2174 add_volume(\\$transported_data{$transport},\\$transported_data_gigs{$transport},$size);
2175 #ENDIF ($show_transport)
2177 #IFDEF ($hist_opt > 0)
2178 $delivered_interval_count[($m_hour*60 + $m_min)/$hist_interval]++;
2179 #ENDIF ($hist_opt > 0)
2181 #IFDEF ($#delivery_times > 0)
2183 $seconds = wdhms_seconds($1);
2184 for ($i = 0; $i <= $#delivery_times; $i++) {
2185 if ($seconds < $delivery_times[$i]) {
2187 ++$dt_remote_bin[$i] if $message[$REMOTE_DELIVERED];
2191 if ($i > $#delivery_times) {
2193 ++$dt_remote_overflow if $message[$REMOTE_DELIVERED];
2196 #ENDIF ($#delivery_times > 0)
2200 elsif ($flag eq "->") {
2202 #IFDEF ($local_league_table || $include_remote_users)
2203 #IFDEF ($local_league_table && $include_remote_users)
2204 { #Store both local and remote users.
2205 #ENDIF ($local_league_table && $include_remote_users)
2207 #IFDEF ($local_league_table && ! $include_remote_users)
2208 if ($host eq "local") { #Store local users only.
2209 #ENDIF ($local_league_table && ! $include_remote_users)
2211 #IFDEF ($include_remote_users && ! $local_league_table)
2212 if ($host ne "local") { #Store remote users only.
2213 #ENDIF ($include_remote_users && ! $local_league_table)
2215 if (my($user) = split((/\\s</)? " <" : " ", $_)) {
2216 #IFDEF ($include_original_destination)
2218 #ENDIF ($include_original_destination)
2219 #IFNDEF ($include_original_destination)
2220 if ($user =~ /^[\\/|]/) {
2221 #ENDIF ($include_original_destination)
2222 #my($parent) = $_ =~ /(<[^@]+@?[^>]*>)/;
2223 my($parent) = $_ =~ / (<.+?>) /; #DT 1.54
2224 $user = "$user $parent" if defined $parent;
2226 ++$delivered_addresses_user{$user};
2229 #ENDIF ($local_league_table || $include_remote_users)
2231 #IFDEF ($do_sender{Host})
2232 $delivered_addresses{Host}{$host}++;
2233 #ENDIF ($do_sender{Host})
2234 #IFDEF ($do_sender{Domain})
2236 ++$delivered_addresses{Domain}{$domain};
2238 #ENDIF ($do_sender{Domain})
2239 #IFDEF ($do_sender{Email})
2240 ++$delivered_addresses{Email}{$email};
2241 #ENDIF ($do_sender{Email})
2242 #IFDEF ($do_sender{Edomain})
2243 ++$delivered_addresses{Edomain}{$edomain};
2244 #ENDIF ($do_sender{Edomain})
2246 ++$total_delivered_addresses;
2249 elsif ($flag eq "==" && defined($message[$SIZE]) && !defined($message[$DELAYED])) {
2251 $message[$DELAYED] = 1;
2254 elsif ($flag eq "**") {
2255 if (defined ($message[$SIZE])) {
2256 unless (defined $message[$HAD_ERROR]) {
2258 $message[$HAD_ERROR] = 1;
2262 #IFDEF ($show_errors)
2263 ++$errors_count{$_};
2264 #ENDIF ($show_errors)
2268 elsif ($flag eq "Co") {
2270 #IFDEF ($#queue_times >= 0)
2271 $queued = queue_time($tod, $message[$ARRIVAL_TIME], $id);
2273 for ($i = 0; $i <= $#queue_times; $i++) {
2274 if ($queued < $queue_times[$i]) {
2276 ++$qt_remote_bin[$i] if $message[$REMOTE_DELIVERED];
2280 if ($i > $#queue_times) {
2282 ++$qt_remote_overflow if $message[$REMOTE_DELIVERED];
2284 #ENDIF ($#queue_times >= 0)
2286 #IFDEF ($#rcpt_times >= 0)
2288 $seconds = wdhms_seconds($1);
2289 #Calculate $queued if not previously calculated above.
2290 #IFNDEF ($#queue_times >= 0)
2291 $queued = queue_time($tod, $message[$ARRIVAL_TIME], $id);
2292 #ENDIF ($#queue_times >= 0)
2293 $rcpt_time = $seconds - $queued;
2296 if (defined $message[$PROTOCOL]) {
2297 $protocol = $message[$PROTOCOL];
2299 # Create the bin if its not already defined.
2300 unless (exists $rcpt_times_bin{$protocol}) {
2301 initialise_rcpt_times($protocol);
2306 for ($i = 0; $i <= $#rcpt_times; ++$i) {
2307 if ($rcpt_time < $rcpt_times[$i]) {
2308 ++$rcpt_times_bin{all}[$i];
2309 ++$rcpt_times_bin{$protocol}[$i] if defined $protocol;
2314 if ($i > $#rcpt_times) {
2315 ++$rcpt_times_overflow{all};
2316 ++$rcpt_times_overflow{$protocol} if defined $protocol;
2319 #ENDIF ($#rcpt_times >= 0)
2321 delete($messages{$id});
2323 elsif ($flag eq "SA") {
2324 $ip = (/From.*?(\\[[^]]+\\])/ || /\\((local)\\)/) ? $1 : "";
2325 #SpamAssassin message
2326 if (/Action: ((permanently|temporarily) rejected message|flagged as Spam but accepted): score=(\d+\.\d)/) {
2327 #add_volume(\\$spam_score,\\$spam_score_gigs,$3);
2328 ++$spam_count_by_ip{$ip};
2329 } elsif (/Action: scanned but message isn\'t spam: score=(-?\d+\.\d)/) {
2330 #add_volume(\\$ham_score,\\$ham_score_gigs,$1);
2331 ++$ham_count_by_ip{$ip};
2332 } elsif (/(Not running SA because SAEximRunCond expanded to false|check skipped due to message size)/) {
2333 ++$ham_count_by_ip{$ip};
2337 # Look for Reject messages or blackholed messages (deliveries
2338 # without a transport)
2339 if ($flag eq "Re" || ($flag eq "=>" && ! /\\sT=\\S+/)) {
2340 # Correct the IP address for rejects:
2341 # rejected EHLO from my.test.net [10.0.0.5]: syntactically invalid argument(s):
2342 # rejected EHLO from [10.0.0.6]: syntactically invalid argument(s):
2343 $ip = $1 if ($ip eq "local" && /^rejected [HE][HE]LO from .*?(\[.+?\]):/);
2344 if (/SpamAssassin/) {
2345 ++$rejected_count_by_reason{"Rejected by SpamAssassin"};
2346 ++$rejected_count_by_ip{$ip};
2349 /(temporarily rejected [A-Z]*) .*?(: .*?)(:|\s*$)/
2351 ++$temporarily_rejected_count_by_reason{"\u$1$2"};
2352 ++$temporarily_rejected_count_by_ip{$ip};
2355 /(temporarily refused connection)/
2357 ++$temporarily_rejected_count_by_reason{"\u$1"};
2358 ++$temporarily_rejected_count_by_ip{$ip};
2361 /(listed at [^ ]+)/ ||
2362 /(Forged IP detected in HELO)/ ||
2363 /(Invalid domain or IP given in HELO\/EHLO)/ ||
2364 /(unqualified recipient rejected)/ ||
2365 /(closed connection (after|in response) .*?)\s*$/ ||
2366 /(sender rejected)/ ||
2367 # 2005-09-23 15:07:49 1EInHJ-0007Ex-Au H=(a.b.c) [10.0.0.1] F=<> rejected after DATA: This message contains a virus: (Eicar-Test-Signature) please scan your system.
2368 # 2005-10-06 10:50:07 1ENRS3-0000Nr-Kt => blackhole (DATA ACL discarded recipients): This message contains a virus: (Worm.SomeFool.P) please scan your system.
2369 / rejected after DATA: (.*)/ ||
2370 /.DATA ACL discarded recipients.: (.*)/ ||
2371 /rejected after DATA: (unqualified address not permitted)/ ||
2372 /(VRFY rejected)/ ||
2373 # /(sender verify (defer|fail))/i ||
2374 /(too many recipients)/ ||
2375 /(refused relay.*?) to/ ||
2376 /(rejected by non-SMTP ACL: .*)/ ||
2377 /(rejected by local_scan.*)/ ||
2378 # SMTP call from %s dropped: too many syntax or protocol errors (last command was "%s"
2379 # SMTP call from %s dropped: too many nonmail commands
2380 /(dropped: too many ((nonmail|unrecognized) commands|syntax or protocol errors))/ ||
2382 # local_scan() function crashed with signal %d - message temporarily rejected
2383 # local_scan() function timed out - message temporarily rejected
2384 /(local_scan.. function .* - message temporarily rejected)/ ||
2385 # SMTP protocol synchronization error (input sent without waiting for greeting): rejected connection from %s
2386 /(SMTP protocol .*?(error|violation))/ ||
2389 ++$rejected_count_by_reason{"\u$1"};
2390 ++$rejected_count_by_ip{$ip};
2392 elsif (/rejected [HE][HE]LO from [^:]*: syntactically invalid argument/) {
2393 ++$rejected_count_by_reason{"Rejected HELO/EHLO: syntactically invalid argument"};
2394 ++$rejected_count_by_ip{$ip};
2396 elsif (/response to "RCPT TO.*? was: (.*)/) {
2397 ++$rejected_count_by_reason{"Response to RCPT TO was: $1"};
2398 ++$rejected_count_by_ip{$ip};
2401 /(lookup of host )\S+ (failed)/ ||
2403 # rejected from <%s>%s%s%s%s: message too big:
2404 /(rejected [A-Z]*) .*?(: .*?)(:|\s*$)/ ||
2405 # refused connection from %s (host_reject_connection)
2406 # refused connection from %s (tcp wrappers)
2407 /(refused connection )from.*? (\(.*)/ ||
2409 # error from remote mailer after RCPT TO:<a@b.c>: host a.b.c [10.0.0.1]: 450 <a@b.c>: Recipient address rejected: Greylisted for 60 seconds
2410 # error from remote mailer after MAIL FROM:<> SIZE=3468: host a.b.c [10.0.0.1]: 421 a.b.c has refused your connection because your server did not have a PTR record.
2411 /(error from remote mailer after .*?:).*(: .*?)(:|\s*$)/ ||
2413 # a.b.c F=<a@b.c> rejected after DATA: "@" or "." expected after "Undisclosed-Recipient": failing address in "To" header is: <Undisclosed-Recipient:;>
2414 /rejected after DATA: ("." or "." expected).*?(: failing address in .*? header)/ ||
2416 # connection from %s refused load average = %.2f
2417 /(Connection )from.*? (refused: load average)/ ||
2418 # connection from %s refused (IP options)
2419 # Connection from %s refused: too many connections
2420 # connection from %s refused
2421 /([Cc]onnection )from.*? (refused.*)/ ||
2422 # [10.0.0.1]: connection refused
2423 /: (Connection refused)()/
2425 ++$rejected_count_by_reason{"\u$1$2"};
2426 ++$rejected_count_by_ip{$ip};
2429 # 2008-03-31 06:25:22 H=mail.densitron.com [216.70.140.224]:45386 temporarily rejected connection in "connect" ACL: too fast reconnects // .hs
2430 # 2008-03-31 06:25:22 H=mail.densitron.com [216.70.140.224]:45386 temporarily rejected connection in "connect" ACL // .hs
2431 /(temporarily rejected connection in .*?ACL:?.*)/
2433 ++$temporarily_rejected_count_by_ip{$ip};
2434 ++$temporarily_rejected_count_by_reason{"\u$1"};
2437 ++$rejected_count_by_reason{Unknown};
2438 ++$rejected_count_by_ip{$ip};
2439 print STDERR "Unknown rejection: $_" if $debug;
2444 # We now do a 'C preprocessor style operation on our parser
2445 # to remove bits not in use.
2446 my(%defines_in_operation,$removing_lines,$processed_parser);
2447 foreach (split (/\n/,$parser)) {
2448 if ((/^\s*#\s*IFDEF\s*\((.*?)\)/i && ! eval $1) ||
2449 (/^\s*#\s*IFNDEF\s*\((.*?)\)/i && eval $1) ) {
2450 $defines_in_operation{$1} = 1;
2451 $removing_lines = 1;
2454 # Convert constants.
2455 while (/(\$[A-Z][A-Z_]*)\b/) {
2456 my $constant = eval $1;
2457 s/(\$[A-Z][A-Z_]*)\b/$constant/;
2460 $processed_parser .= $_."\n" unless $removing_lines;
2462 if (/^\s*#\s*ENDIF\s*\((.*?)\)/i) {
2463 delete $defines_in_operation{$1};
2464 unless (keys %defines_in_operation) {
2465 $removing_lines = 0;
2469 print STDERR "# START OF PARSER:$processed_parser\n# END OF PARSER\n\n" if $debug;
2471 return $processed_parser;
2476 #######################################################################
2479 # parse($parser,\*FILEHANDLE);
2481 # This subroutine accepts a parser and a filehandle from main and parses each
2482 # line. We store the results into global variables.
2483 #######################################################################
2485 my($parser,$fh) = @_;
2487 if ($merge_reports) {
2488 parse_old_eximstat_reports($fh);
2499 #######################################################################
2504 # Print our headers and contents.
2505 #######################################################################
2509 my $title = "Exim statistics from $begin to $end";
2511 print $txt_fh "\n$title\n" if $txt_fh;
2513 print $htm_fh html_header($title);
2514 print $htm_fh "<ul>\n";
2515 print $htm_fh "<li><a href=\"#Grandtotal\">Grand total summary</a>\n";
2516 print $htm_fh "<li><a href=\"#Patterns\">User Specified Patterns</a>\n" if @user_patterns;
2517 print $htm_fh "<li><a href=\"#Transport\">Deliveries by Transport</a>\n" if $show_transport;
2519 print $htm_fh "<li><a href=\"#Messages received\">Messages received per hour</a>\n";
2520 print $htm_fh "<li><a href=\"#Deliveries\">Deliveries per hour</a>\n";
2523 if ($#queue_times >= 0) {
2524 print $htm_fh "<li><a href=\"#Time spent on the queue all messages\">Time spent on the queue: all messages</a>\n";
2525 print $htm_fh "<li><a href=\"#Time spent on the queue messages with at least one remote delivery\">Time spent on the queue: messages with at least one remote delivery</a>\n";
2528 if ($#delivery_times >= 0) {
2529 print $htm_fh "<li><a href=\"#Delivery times all messages\">Delivery times: all messages</a>\n";
2530 print $htm_fh "<li><a href=\"#Delivery times messages with at least one remote delivery\">Delivery times: messages with at least one remote delivery</a>\n";
2533 if ($#rcpt_times >= 0) {
2534 print $htm_fh "<li><a href=\"#Receipt times all messages\">Receipt times</a>\n";
2537 print $htm_fh "<li><a href=\"#Relayed messages\">Relayed messages</a>\n" if $show_relay;
2539 print $htm_fh "<li><a href=\"#Mail rejection reason count\">Top $topcount mail rejection reasons by message count</a>\n" if %rejected_count_by_reason;
2540 foreach ('Host','Domain','Email','Edomain') {
2541 next unless $do_sender{$_};
2542 print $htm_fh "<li><a href=\"#Sending \l$_ count\">Top $topcount sending \l${_}s by message count</a>\n";
2543 print $htm_fh "<li><a href=\"#Sending \l$_ volume\">Top $topcount sending \l${_}s by volume</a>\n";
2545 if (($local_league_table || $include_remote_users) && %received_count_user) {
2546 print $htm_fh "<li><a href=\"#Local sender count\">Top $topcount local senders by message count</a>\n";
2547 print $htm_fh "<li><a href=\"#Local sender volume\">Top $topcount local senders by volume</a>\n";
2549 foreach ('Host','Domain','Email','Edomain') {
2550 next unless $do_sender{$_};
2551 print $htm_fh "<li><a href=\"#$_ destination count\">Top $topcount \l$_ destinations by message count</a>\n";
2552 print $htm_fh "<li><a href=\"#$_ destination volume\">Top $topcount \l$_ destinations by volume</a>\n";
2554 if (($local_league_table || $include_remote_users) && %delivered_messages_user) {
2555 print $htm_fh "<li><a href=\"#Local destination count\">Top $topcount local destinations by message count</a>\n";
2556 print $htm_fh "<li><a href=\"#Local destination volume\">Top $topcount local destinations by volume</a>\n";
2558 if (($local_league_table || $include_remote_users) && %delivered_messages_local_domain) {
2559 print $htm_fh "<li><a href=\"#Local domain destination count\">Top $topcount local domain destinations by message count</a>\n";
2560 print $htm_fh "<li><a href=\"#Local domain destination volume\">Top $topcount local domain destinations by volume</a>\n";
2563 print $htm_fh "<li><a href=\"#Rejected ip count\">Top $topcount rejected ips by message count</a>\n" if %rejected_count_by_ip;
2564 print $htm_fh "<li><a href=\"#Temporarily rejected ip count\">Top $topcount temporarily rejected ips by message count</a>\n" if %temporarily_rejected_count_by_ip;
2565 print $htm_fh "<li><a href=\"#Non-rejected spamming ip count\">Top $topcount non-rejected spamming ips by message count</a>\n" if %spam_count_by_ip;
2568 print $htm_fh "<li><a href=\"#errors\">List of errors</a>\n" if %errors_count;
2569 print $htm_fh "</ul>\n<hr>\n";
2573 $ws_global->write($row++, $col+0, "Exim Statistics", $f_header1);
2574 &set_worksheet_line($ws_global, $row, $col, ["from:", $begin, "to:", $end], $f_default);
2580 #######################################################################
2581 # print_grandtotals();
2583 # print_grandtotals();
2585 # Print the grand totals.
2586 #######################################################################
2587 sub print_grandtotals {
2589 # Get the sender by headings and results. This is complicated as we can have
2590 # different numbers of columns.
2591 my($sender_txt_header,$sender_txt_format,$sender_html_format);
2592 my(@received_totals,@delivered_totals);
2593 my($row_tablehead, $row_max);
2594 my(@col_headers) = ('TOTAL', 'Volume', 'Messages', 'Addresses');
2596 foreach ('Host','Domain','Email','Edomain') {
2597 next unless $do_sender{$_};
2598 if ($merge_reports) {
2599 push(@received_totals, get_report_total($report_totals{Received},"${_}s"));
2600 push(@delivered_totals,get_report_total($report_totals{Delivered},"${_}s"));
2603 push(@received_totals,scalar(keys %{$received_data{$_}}));
2604 push(@delivered_totals,scalar(keys %{$delivered_data{$_}}));
2606 $sender_txt_header .= " " x ($COLUMN_WIDTHS - length($_)) . $_ . 's';
2607 $sender_html_format .= "<td align=\"right\">%s</td>";
2608 $sender_txt_format .= " " x ($COLUMN_WIDTHS - 5) . "%6s";
2609 push(@col_headers,"${_}s");
2612 my $txt_format1 = " %-16s %9s %6d %6s $sender_txt_format";
2613 my $txt_format2 = " %6d %4.1f%% %6d %4.1f%%",
2614 my $htm_format1 = "<tr><td>%s</td><td align=\"right\">%s</td><td align=\"right\">%s</td><td align=\"right\">%s</td>$sender_html_format";
2615 my $htm_format2 = "<td align=\"right\">%d</td><td align=\"right\">%4.1f%%</td><td align=\"right\">%d</td><td align=\"right\">%4.1f%%</td>";
2618 my $sender_spaces = " " x length($sender_txt_header);
2620 print $txt_fh "Grand total summary\n";
2621 print $txt_fh "-------------------\n";
2622 print $txt_fh " $sender_spaces At least one address\n";
2623 print $txt_fh " TOTAL Volume Messages Addresses $sender_txt_header Delayed Failed\n";
2626 print $htm_fh "<a name=\"Grandtotal\"></a>\n";
2627 print $htm_fh "<h2>Grand total summary</h2>\n";
2628 print $htm_fh "<table border=1>\n";
2629 print $htm_fh "<tr><th>" . join('</th><th>',@col_headers) . "</th><th colspan=2>At least one addr<br>Delayed</th><th colspan=2>At least one addr<br>Failed</th>\n";
2632 $ws_global->write($row++, 0, "Grand total summary", $f_header2);
2633 $ws_global->write($row, 0, \@col_headers, $f_header2);
2634 $ws_global->merge_range($row, scalar(@col_headers), $row, scalar(@col_headers)+1, "At least one addr Delayed", $f_header2_m);
2635 $ws_global->merge_range($row, scalar(@col_headers)+2, $row, scalar(@col_headers)+3, "At least one addr Failed", $f_header2_m);
2636 #$ws_global->write(++$row, scalar(@col_headers), ['Total','Percent','Total','Percent'], $f_header2);
2640 my($volume,$failed_count);
2641 if ($merge_reports) {
2642 $volume = volume_rounded($report_totals{Received}{Volume}, $report_totals{Received}{'Volume-gigs'});
2643 $total_received_count = get_report_total($report_totals{Received},'Messages');
2644 $failed_count = get_report_total($report_totals{Received},'Failed');
2645 $delayed_count = get_report_total($report_totals{Received},'Delayed');
2648 $volume = volume_rounded($total_received_data, $total_received_data_gigs);
2649 $failed_count = $message_errors;
2656 $volume,$total_received_count,'',
2659 ($total_received_count) ? ($delayed_count*100/$total_received_count) : 0,
2661 ($total_received_count) ? ($failed_count*100/$total_received_count) : 0
2664 printf $txt_fh ("$txt_format1$txt_format2\n", 'Received', @content) if $txt_fh;
2665 printf $htm_fh ("$htm_format1$htm_format2\n", 'Received', @content) if $htm_fh;
2667 $ws_global->write(++$row, 0, 'Received', $f_default);
2668 for (my $i=0; $i < scalar(@content); $i++) {
2669 if ($i == 4 || $i == 6) {
2670 $ws_global->write($row, $i+1, $content[$i]/100, $f_percent);
2673 $ws_global->write($row, $i+1, $content[$i], $f_default);
2679 if ($merge_reports) {
2680 $volume = volume_rounded($report_totals{Delivered}{Volume}, $report_totals{Delivered}{'Volume-gigs'});
2681 $total_delivered_messages = get_report_total($report_totals{Delivered},'Messages');
2682 $total_delivered_addresses = get_report_total($report_totals{Delivered},'Addresses');
2685 $volume = volume_rounded($total_delivered_data, $total_delivered_data_gigs);
2688 my @content=($volume, $total_delivered_messages, $total_delivered_addresses, @delivered_totals);
2689 printf $txt_fh ("$txt_format1\n", 'Delivered', @content) if $txt_fh;
2690 printf $htm_fh ("$htm_format1\n", 'Delivered', @content) if $htm_fh;
2693 $ws_global->write(++$row, 0, 'Delivered', $f_default);
2694 for (my $i=0; $i < scalar(@content); $i++) {
2695 $ws_global->write($row, $i+1, $content[$i], $f_default);
2699 if ($merge_reports) {
2700 foreach ('Rejects', 'Temp Rejects', 'Ham', 'Spam') {
2701 my $messages = get_report_total($report_totals{$_},'Messages');
2702 my $addresses = get_report_total($report_totals{$_},'Addresses');
2704 @content = ($_, '', $messages, '');
2705 push(@content,get_report_total($report_totals{$_},'Hosts')) if $do_sender{Host};
2706 #These rows do not have entries for the following columns (if specified)
2707 foreach ('Domain','Email','Edomain') {
2708 push(@content,'') if $do_sender{$_};
2711 printf $txt_fh ("$txt_format1\n", @content) if $txt_fh;
2712 printf $htm_fh ("$htm_format1\n", @content) if $htm_fh;
2713 $ws_global->write(++$row, 0, \@content) if $xls_fh;
2718 foreach my $total_aref (['Rejects',\%rejected_count_by_ip],
2719 ['Temp Rejects',\%temporarily_rejected_count_by_ip],
2720 ['Ham',\%ham_count_by_ip],
2721 ['Spam',\%spam_count_by_ip]) {
2722 #Count the number of messages of this type.
2724 map {$messages += $_} values %{$total_aref->[1]};
2726 if ($messages > 0) {
2727 @content = ($total_aref->[0], '', $messages, '');
2729 #Count the number of distict IPs for the Hosts column.
2730 push(@content,scalar(keys %{$total_aref->[1]})) if $do_sender{Host};
2732 #These rows do not have entries for the following columns (if specified)
2733 foreach ('Domain','Email','Edomain') {
2734 push(@content,'') if $do_sender{$_};
2737 printf $txt_fh ("$txt_format1\n", @content) if $txt_fh;
2738 printf $htm_fh ("$htm_format1\n", @content) if $htm_fh;
2739 $ws_global->write(++$row, 0, \@content) if $xls_fh;
2744 printf $txt_fh "\n" if $txt_fh;
2745 printf $htm_fh "</table>\n" if $htm_fh;
2750 #######################################################################
2751 # print_user_patterns()
2753 # print_user_patterns();
2755 # Print the counts of user specified patterns.
2756 #######################################################################
2757 sub print_user_patterns {
2758 my $txt_format1 = " %-18s %6d";
2759 my $htm_format1 = "<tr><td>%s</td><td align=\"right\">%d</td>";
2762 print $txt_fh "User Specified Patterns\n";
2763 print $txt_fh "-----------------------";
2764 print $txt_fh "\n Total\n";
2767 print $htm_fh "<hr><a name=\"Patterns\"></a><h2>User Specified Patterns</h2>\n";
2768 print $htm_fh "<table border=0 width=\"100%\">\n";
2769 print $htm_fh "<tr><td>\n";
2770 print $htm_fh "<table border=1>\n";
2771 print $htm_fh "<tr><th> </th><th>Total</th>\n";
2774 $ws_global->write($row++, $col, "User Specified Patterns", $f_header2);
2775 &set_worksheet_line($ws_global, $row++, 1, ["Total"], $f_headertab);
2780 if ($merge_reports) {
2781 # We are getting our data from previous reports.
2782 foreach $key (@user_descriptions) {
2783 my $count = get_report_total($report_totals{patterns}{$key},'Total');
2784 printf $txt_fh ("$txt_format1\n",$key,$count) if $txt_fh;
2785 printf $htm_fh ("$htm_format1\n",$key,$count) if $htm_fh;
2788 &set_worksheet_line($ws_global, $row++, 0, [$key,$count], $f_default);
2793 # We are getting our data from mainlog files.
2794 my $user_pattern_index = 0;
2795 foreach $key (@user_descriptions) {
2796 printf $txt_fh ("$txt_format1\n",$key,$user_pattern_totals[$user_pattern_index]) if $txt_fh;
2797 printf $htm_fh ("$htm_format1\n",$key,$user_pattern_totals[$user_pattern_index]) if $htm_fh;
2798 $ws_global->write($row++, 0, [$key,$user_pattern_totals[$user_pattern_index]]) if $xls_fh;
2799 $user_pattern_index++;
2802 print $txt_fh "\n" if $txt_fh;
2803 print $htm_fh "</table>\n\n" if $htm_fh;
2809 if ($hist_opt > 0) {
2810 my $user_pattern_index = 0;
2811 foreach $key (@user_descriptions) {
2812 print_histogram($key, 'occurence', @{$user_pattern_interval_count[$user_pattern_index]});
2813 $user_pattern_index++;
2818 #######################################################################
2823 # Print statistics about rejected mail.
2824 #######################################################################
2826 my($format1,$reason);
2828 my $txt_format1 = " %-40s %6d";
2829 my $htm_format1 = "<tr><td>%s</td><td align=\"right\">%d</td>";
2832 print $txt_fh "Rejected mail by reason\n";
2833 print $txt_fh "-----------------------";
2834 print $txt_fh "\n Total\n";
2837 print $htm_fh "<hr><a name=\"patterns\"></a><h2>Rejected mail by reason</h2>\n";
2838 print $htm_fh "<table border=0 width=\"100%\"><tr><td><table border=1>\n";
2839 print $htm_fh "<tr><th> </th><th>Total</th>\n";
2842 $ws_global->write($row++, $col, "Rejected mail by reason", $f_header2);
2843 &set_worksheet_line($ws_global, $row++, 1, ["Total"], $f_headertab);
2847 my $href = ($merge_reports) ? $report_totals{rejected_mail_by_reason} : \%rejected_count_by_reason;
2848 my(@chartdatanames, @chartdatavals_count);
2850 foreach $reason (top_n_sort($topcount, $href, undef, undef)) {
2851 printf $txt_fh ("$txt_format1\n",$reason,$href->{$reason}) if $txt_fh;
2852 printf $htm_fh ("$htm_format1\n",$reason,$href->{$reason}) if $htm_fh;
2853 set_worksheet_line($ws_global, $row++, 0, [$reason,$href->{$reason}], $f_default) if $xls_fh;
2854 push(@chartdatanames, $reason);
2855 push(@chartdatavals_count, $href->{$reason});
2859 print $txt_fh "\n" if $txt_fh;
2862 print $htm_fh "</tr></table></td><td>";
2863 if ($HAVE_GD_Graph_pie && $charts && ($#chartdatavals_count > 0)) {
2864 # calculate the graph
2867 \@chartdatavals_count
2869 my $graph = GD::Graph::pie->new(200, 200);
2871 x_label => 'Rejection Reasons',
2872 y_label => 'Messages',
2873 title => 'By count',
2875 my $gd = $graph->plot(\@data) or warn($graph->error);
2877 open(IMG, ">$chartdir/rejections_count.png") or die "Could not write $chartdir/rejections_count.png: $!\n";
2881 print $htm_fh "<img src=\"$chartrel/rejections_count.png\">";
2884 print $htm_fh "</td></tr></table>\n\n";
2892 #######################################################################
2893 # print_transport();
2895 # print_transport();
2897 # Print totals by transport.
2898 #######################################################################
2899 sub print_transport {
2900 my(@chartdatanames);
2901 my(@chartdatavals_count);
2902 my(@chartdatavals_vol);
2903 no integer; #Lose this for charting the data.
2905 my $txt_format1 = " %-18s %6s %6d";
2906 my $htm_format1 = "<tr><td>%s</td><td align=\"right\">%s</td><td align=\"right\">%d</td>";
2909 print $txt_fh "Deliveries by transport\n";
2910 print $txt_fh "-----------------------";
2911 print $txt_fh "\n Volume Messages\n";
2914 print $htm_fh "<hr><a name=\"Transport\"></a><h2>Deliveries by Transport</h2>\n";
2915 print $htm_fh "<table border=0 width=\"100%\"><tr><td><table border=1>\n";
2916 print $htm_fh "<tr><th> </th><th>Volume</th><th>Messages</th>\n";
2919 $ws_global->write(++$row, $col, "Deliveries by transport", $f_header2);
2920 $ws_global->write(++$row, 1, ["Volume", "Messages"], $f_headertab);
2924 if ($merge_reports) {
2925 # We are getting our data from previous reports.
2926 foreach $key (sort keys %{$report_totals{transport}}) {
2927 my $count = get_report_total($report_totals{transport}{$key},'Messages');
2928 my @content=($key, volume_rounded($report_totals{transport}{$key}{Volume},
2929 $report_totals{transport}{$key}{'Volume-gigs'}), $count);
2930 push(@chartdatanames, $key);
2931 push(@chartdatavals_count, $count);
2932 push(@chartdatavals_vol, $report_totals{transport}{$key}{'Volume-gigs'}*$gig + $report_totals{transport}{$key}{Volume} );
2933 printf $txt_fh ("$txt_format1\n", @content) if $txt_fh;
2934 printf $htm_fh ("$htm_format1\n", @content) if $htm_fh;
2935 $ws_global->write(++$row, 0, \@content) if $xls_fh;
2939 # We are getting our data from mainlog files.
2940 foreach $key (sort keys %transported_data) {
2941 my @content=($key, volume_rounded($transported_data{$key},$transported_data_gigs{$key}),
2942 $transported_count{$key});
2943 push(@chartdatanames, $key);
2944 push(@chartdatavals_count, $transported_count{$key});
2945 push(@chartdatavals_vol, $transported_data_gigs{$key}*$gig + $transported_data{$key});
2946 printf $txt_fh ("$txt_format1\n", @content) if $txt_fh;
2947 printf $htm_fh ("$htm_format1\n", @content) if $htm_fh;
2948 $ws_global->write(++$row, 0, \@content) if $xls_fh;
2951 print $txt_fh "\n" if $txt_fh;
2953 print $htm_fh "</tr></table></td><td>";
2955 if ($HAVE_GD_Graph_pie && $charts && ($#chartdatavals_count > 0))
2957 # calculate the graph
2960 \@chartdatavals_count
2962 my $graph = GD::Graph::pie->new(200, 200);
2964 x_label => 'Transport',
2965 y_label => 'Messages',
2966 title => 'By count',
2968 my $gd = $graph->plot(\@data) or warn($graph->error);
2970 open(IMG, ">$chartdir/transports_count.png") or die "Could not write $chartdir/transports_count.png: $!\n";
2974 print $htm_fh "<img src=\"$chartrel/transports_count.png\">";
2977 print $htm_fh "</td><td>";
2979 if ($HAVE_GD_Graph_pie && $charts && ($#chartdatavals_vol > 0)) {
2984 my $graph = GD::Graph::pie->new(200, 200);
2986 title => 'By volume',
2988 my $gd = $graph->plot(\@data) or warn($graph->error);
2990 open(IMG, ">$chartdir/transports_vol.png") or die "Could not write $chartdir/transports_vol.png: $!\n";
2994 print $htm_fh "<img src=\"$chartrel/transports_vol.png\">";
2998 print $htm_fh "</td></tr></table>\n\n";
3004 #######################################################################
3009 # Print our totals by relay.
3010 #######################################################################
3012 my $row_print_relay=1;
3013 my $temp = "Relayed messages";
3014 print $htm_fh "<hr><a name=\"$temp\"></a><h2>$temp</h2>\n" if $htm_fh;
3015 if (scalar(keys %relayed) > 0 || $relayed_unshown > 0) {
3018 my $txt_format = "%7d %s\n => %s\n";
3019 my $htm_format = "<tr><td align=\"right\">%d</td><td>%s</td><td>%s</td>\n";
3021 printf $txt_fh ("%s\n%s\n\n", $temp, "-" x length($temp)) if $txt_fh;
3023 print $htm_fh "<table border=1>\n";
3024 print $htm_fh "<tr><th>Count</th><th>From</th><th>To</th>\n";
3027 $ws_relayed->write($row_print_relay++, $col, $temp, $f_header2);
3028 &set_worksheet_line($ws_relayed, $row_print_relay++, 0, ["Count", "From", "To"], $f_headertab);
3033 foreach $key (sort keys %relayed) {
3034 my $count = $relayed{$key};
3037 my($one,$two) = split(/=> /, $key);
3038 my @content=($count, $one, $two);
3039 printf $txt_fh ($txt_format, @content) if $txt_fh;
3040 printf $htm_fh ($htm_format, @content) if $htm_fh;
3043 &set_worksheet_line($ws_relayed, $row_print_relay++, 0, \@content);
3048 print $htm_fh "</table>\n<p>\n" if $htm_fh;
3049 print $txt_fh "${spacing}Total: $shown (plus $relayed_unshown unshown)\n\n" if $txt_fh;
3050 print $htm_fh "${spacing}Total: $shown (plus $relayed_unshown unshown)\n\n" if $htm_fh;
3053 &set_worksheet_line($ws_relayed, $row_print_relay++, 0, [$shown, "Sum of shown" ]);
3054 &set_worksheet_line($ws_relayed, $row_print_relay++, 0, [$relayed_unshown, "unshown"]);
3059 print $txt_fh "No relayed messages\n-------------------\n\n" if $txt_fh;
3060 print $htm_fh "No relayed messages\n\n" if $htm_fh;
3070 #######################################################################
3075 # Print our errors. In HTML, we display them as a list rather than a table -
3076 # Netscape doesn't like large tables!
3077 #######################################################################
3079 my $total_errors = 0;
3082 if (scalar(keys %errors_count) != 0) {
3083 my $temp = "List of errors";
3084 my $htm_format = "<li>%d - %s\n";
3086 printf $txt_fh ("%s\n%s\n\n", $temp, "-" x length($temp)) if $txt_fh;
3088 print $htm_fh "<hr><a name=\"errors\"></a><h2>$temp</h2>\n";
3089 print $htm_fh "<ul><li><b>Count - Error</b>\n";
3093 $ws_errors->write($row++, 0, $temp, $f_header2);
3094 &set_worksheet_line($ws_errors, $row++, 0, ["Count", "Error"], $f_headertab);
3099 foreach $key (sort keys %errors_count) {
3102 $text =~ s/\s\s+/ /g; #Convert multiple spaces to a single space.
3103 $total_errors += $errors_count{$key};
3106 printf $txt_fh ("%5d ", $errors_count{$key});
3107 my $text_remaining = $text;
3108 while (length($text_remaining) > 65) {
3109 my($first,$rest) = $text_remaining =~ /(.{50}\S*)\s+(.+)/;
3111 printf $txt_fh ("%s\n\t ", $first);
3112 $text_remaining = $rest;
3114 printf $txt_fh ("%s\n\n", $text_remaining);
3119 #Translate HTML tag characters. Sergey Sholokh.
3120 $text =~ s/\</\<\;/g;
3121 $text =~ s/\>/\>\;/g;
3123 printf $htm_fh ($htm_format,$errors_count{$key},$text);
3127 &set_worksheet_line($ws_errors, $row++, 0, [$errors_count{$key},$text]);
3131 $temp = "Errors encountered: $total_errors";
3134 print $txt_fh $temp, "\n";
3135 print $txt_fh "-" x length($temp),"\n";
3138 print $htm_fh "</ul>\n<p>\n";
3139 print $htm_fh $temp, "\n";
3143 &set_worksheet_line($ws_errors, $row++, 0, [$total_errors, "Sum of Errors encountered"]);
3150 #######################################################################
3151 # parse_old_eximstat_reports();
3153 # parse_old_eximstat_reports($fh);
3155 # Parse old eximstat output so we can merge daily stats to weekly stats and weekly to monthly etc.
3157 # To test that the merging still works after changes, do something like the following.
3158 # All the diffs should produce no output.
3160 # options='-bydomain -byemail -byhost -byedomain'
3161 # options="$options -show_rt1,2,4 -show_dt 1,2,4"
3162 # options="$options -pattern 'Completed Messages' /Completed/"
3163 # options="$options -pattern 'Received Messages' /<=/"
3165 # ./eximstats $options mainlog > mainlog.txt
3166 # ./eximstats $options -merge mainlog.txt > mainlog.2.txt
3167 # diff mainlog.txt mainlog.2.txt
3169 # ./eximstats $options -html mainlog > mainlog.html
3170 # ./eximstats $options -merge -html mainlog.txt > mainlog.2.html
3171 # diff mainlog.html mainlog.2.html
3173 # ./eximstats $options -merge mainlog.html > mainlog.3.txt
3174 # diff mainlog.txt mainlog.3.txt
3176 # ./eximstats $options -merge -html mainlog.html > mainlog.3.html
3177 # diff mainlog.html mainlog.3.html
3179 # ./eximstats $options -nvr mainlog > mainlog.nvr.txt
3180 # ./eximstats $options -merge mainlog.nvr.txt > mainlog.4.txt
3181 # diff mainlog.txt mainlog.4.txt
3183 # # double_mainlog.txt should have twice the values that mainlog.txt has.
3184 # ./eximstats $options mainlog mainlog > double_mainlog.txt
3185 #######################################################################
3186 sub parse_old_eximstat_reports {
3189 my(%league_table_value_entered, %league_table_value_was_zero, %table_order);
3191 my(%user_pattern_index);
3192 my $user_pattern_index = 0;
3193 map {$user_pattern_index{$_} = $user_pattern_index++} @user_descriptions;
3194 my $user_pattern_keys = join('|', @user_descriptions);
3197 PARSE_OLD_REPORT_LINE:
3198 if (/Exim statistics from ([\d\-]+ [\d:]+(\s+[\+\-]\d+)?) to ([\d\-]+ [\d:]+(\s+[\+\-]\d+)?)/) {
3199 $begin = $1 if ($1 lt $begin);
3200 $end = $3 if ($3 gt $end);
3202 elsif (/Grand total summary/) {
3203 # Fill in $report_totals{Received|Delivered}{Volume|Messages|Addresses|Hosts|Domains|...|Delayed|DelayedPercent|Failed|FailedPercent}
3204 my(@fields, @delivered_fields);
3205 my $doing_table = 0;
3207 $_ = html2txt($_); #Convert general HTML markup to text.
3208 s/At least one addr//g; #Another part of the HTML output we don't want.
3210 # TOTAL Volume Messages Addresses Hosts Domains Delayed Failed
3211 # Received 26MB 237 177 23 8 3.4% 28 11.8%
3212 # Delivered 13MB 233 250 99 88
3213 if (/TOTAL\s+(.*?)\s*$/) {
3215 @delivered_fields = split(/\s+/,$1);
3217 #Delayed and Failed have two columns each, so add the extra field names in.
3218 splice(@delivered_fields,-1,1,'DelayedPercent','Failed','FailedPercent');
3220 # Addresses only figure in the Delivered row, so remove them from the
3222 @fields = grep !/Addresses/, @delivered_fields;
3224 elsif (/(Received)\s+(.*?)\s*$/) {
3225 print STDERR "Parsing $_" if $debug;
3226 add_to_totals($report_totals{$1},\@fields,$2);
3228 elsif (/(Delivered)\s+(.*?)\s*$/) {
3229 print STDERR "Parsing $_" if $debug;
3230 add_to_totals($report_totals{$1},\@delivered_fields,$2);
3232 # If we're merging an old report which doesn't include addresses,
3233 # then use the Messages field instead.
3234 unless (grep(/Addresses/, @delivered_fields)) {
3236 line_to_hash(\%tmp,\@delivered_fields,$data);
3237 add_to_totals($report_totals{Delivered},['Addresses'],$tmp{Messages});
3240 elsif (/(Temp Rejects|Rejects|Ham|Spam)\s+(.*?)\s*$/) {
3241 print STDERR "Parsing $_" if $debug;
3242 add_to_totals($report_totals{$1},['Messages','Hosts'],$2);
3245 last if $doing_table;
3250 elsif (/User Specified Patterns/i) {
3251 #User Specified Patterns
3252 #-----------------------
3256 while (<$fh>) { last if (/Total/); } #Wait until we get the table headers.
3258 print STDERR "Parsing $_" if $debug;
3259 $_ = html2txt($_); #Convert general HTML markup to text.
3260 if (/^\s*(.*?)\s+(\d+)\s*$/) {
3261 $report_totals{patterns}{$1} = {} unless (defined $report_totals{patterns}{$1});
3262 add_to_totals($report_totals{patterns}{$1},['Total'],$2);
3264 last if (/^\s*$/); #Finished if we have a blank line.
3268 elsif (/(^|<h2>)($user_pattern_keys) per /o) {
3269 # Parse User defined pattern histograms if they exist.
3270 parse_histogram($fh, $user_pattern_interval_count[$user_pattern_index{$2}] );
3274 elsif (/Deliveries by transport/i) {
3275 #Deliveries by transport
3276 #-----------------------
3278 # :blackhole: 70KB 51
3279 # address_pipe 655KB 1
3282 while (<$fh>) { last if (/Volume/); } #Wait until we get the table headers.
3284 print STDERR "Parsing $_" if $debug;
3285 $_ = html2txt($_); #Convert general HTML markup to text.
3286 if (/(\S+)\s+(\d+\S*\s+\d+)/) {
3287 $report_totals{transport}{$1} = {} unless (defined $report_totals{transport}{$1});
3288 add_to_totals($report_totals{transport}{$1},['Volume','Messages'],$2);
3290 last if (/^\s*$/); #Finished if we have a blank line.
3293 elsif (/Messages received per/) {
3294 parse_histogram($fh, \@received_interval_count);
3296 elsif (/Deliveries per/) {
3297 parse_histogram($fh, \@delivered_interval_count);
3300 #elsif (/Time spent on the queue: (all messages|messages with at least one remote delivery)/) {
3301 elsif (/(Time spent on the queue|Delivery times|Receipt times): ((\S+) messages|messages with at least one remote delivery)((<[^>]*>)*\s*)$/) {
3302 #Time spent on the queue: all messages
3303 #-------------------------------------
3305 #Under 1m 217 91.9% 91.9%
3311 # Set a pointer to the queue bin so we can use the same code
3312 # block for both all messages and remote deliveries.
3313 #my $bin_aref = ($1 eq 'all messages') ? \@qt_all_bin : \@qt_remote_bin;
3314 my($bin_aref, $times_aref, $overflow_sref);
3315 if ($1 eq 'Time spent on the queue') {
3316 $times_aref = \@queue_times;
3317 if ($2 eq 'all messages') {
3318 $bin_aref = \@qt_all_bin;
3319 $overflow_sref = \$qt_all_overflow;
3322 $bin_aref = \@qt_remote_bin;
3323 $overflow_sref = \$qt_remote_overflow;
3326 elsif ($1 eq 'Delivery times') {
3327 $times_aref = \@delivery_times;
3328 if ($2 eq 'all messages') {
3329 $bin_aref = \@dt_all_bin;
3330 $overflow_sref = \$dt_all_overflow;
3333 $bin_aref = \@dt_remote_bin;
3334 $overflow_sref = \$dt_remote_overflow;
3338 unless (exists $rcpt_times_bin{$3}) {
3339 initialise_rcpt_times($3);
3341 $bin_aref = $rcpt_times_bin{$3};
3342 $times_aref = \@rcpt_times;
3343 $overflow_sref = \$rcpt_times_overflow{$3};
3347 my ($blank_lines, $reached_table) = (0,0);
3349 $_ = html2txt($_); #Convert general HTML markup to text.
3350 # The table is preceded by one blank line, and has one blank line
3351 # following it. As the table may be empty, the best way to determine
3352 # that we've finished it is to look for the second blank line.
3353 ++$blank_lines if /^\s*$/;
3354 last if ($blank_lines >=2); #Finished the table ?
3355 $reached_table = 1 if (/\d/);
3356 next unless $reached_table;
3357 my $previous_seconds_on_queue = 0;
3358 if (/^\s*(Under|Over|)\s+(\d+[smhdw])\s+(\d+)/) {
3359 print STDERR "Parsing $_" if $debug;
3360 my($modifier,$formated_time,$count) = ($1,$2,$3);
3361 my $seconds = unformat_time($formated_time);
3362 my $time_on_queue = ($seconds + $previous_seconds_on_queue) / 2;
3363 $previous_seconds_on_queue = $seconds;
3364 $time_on_queue = $seconds * 2 if ($modifier eq 'Over');
3366 for ($i = 0; $i <= $#$times_aref; $i++) {
3367 if ($time_on_queue < $times_aref->[$i]) {
3368 $$bin_aref[$i] += $count;
3372 $$overflow_sref += $count if ($i > $#$times_aref);
3378 elsif (/Relayed messages/) {
3382 # 1 addr.domain.com [1.2.3.4] a.user@domain.com
3383 # => addr2.domain2.com [5.6.7.8] a2.user2@domain2.com
3385 #<tr><td align="right">1</td><td>addr.domain.com [1.2.3.4] a.user@domain.com </td><td>addr2.domain2.com [5.6.7.8] a2.user2@domain2.com</td>
3387 my $reached_table = 0;
3390 unless ($reached_table) {
3391 last if (/No relayed messages/);
3392 $reached_table = 1 if (/^\s*\d/ || />\d+</);
3393 next unless $reached_table;
3395 if (/>(\d+)<.td><td>(.*?) ?<.td><td>(.*?)</) {
3396 update_relayed($1,$2,$3);
3398 elsif (/^\s*(\d+)\s+(.*?)\s*$/) {
3399 ($count,$sender) = ($1,$2);
3401 elsif (/=>\s+(.*?)\s*$/) {
3402 update_relayed($count,$sender,$1);
3405 last; #Finished the table ?
3410 elsif (/Top (.*?) by (message count|volume)/) {
3411 #Top 50 sending hosts by message count
3412 #-------------------------------------
3415 # Could also have average values for HTML output.
3416 # 48 1468KB 30KB local
3418 my($category,$by_count_or_volume) = ($1,$2);
3420 #As we show 2 views of each table (by count and by volume),
3421 #most (but not all) entries will appear in both tables.
3422 #Set up a hash to record which entries we have already seen
3423 #and one to record which ones we are seeing for the first time.
3424 if ($by_count_or_volume =~ /count/) {
3425 undef %league_table_value_entered;
3426 undef %league_table_value_was_zero;
3430 #As this section processes multiple different table categories,
3431 #set up pointers to the hashes to be updated.
3432 my($messages_href,$addresses_href,$data_href,$data_gigs_href);
3433 if ($category =~ /local sender/) {
3434 $messages_href = \%received_count_user;
3435 $addresses_href = undef;
3436 $data_href = \%received_data_user;
3437 $data_gigs_href = \%received_data_gigs_user;
3439 elsif ($category =~ /sending (\S+?)s?\b/) {
3440 #Top 50 sending (host|domain|email|edomain)s
3441 #Top sending (host|domain|email|edomain)
3442 $messages_href = \%{$received_count{"\u$1"}};
3443 $data_href = \%{$received_data{"\u$1"}};
3444 $data_gigs_href = \%{$received_data_gigs{"\u$1"}};
3446 elsif ($category =~ /local destination/) {
3447 $messages_href = \%delivered_messages_user;
3448 $addresses_href = \%delivered_addresses_user;
3449 $data_href = \%delivered_data_user;
3450 $data_gigs_href = \%delivered_data_gigs_user;
3452 elsif ($category =~ /local domain destination/) {
3453 $messages_href = \%delivered_messages_local_domain;
3454 $addresses_href = \%delivered_addresses_local_domain;
3455 $data_href = \%delivered_data_local_domain;
3456 $data_gigs_href = \%delivered_data_gigs_local_domain;
3458 elsif ($category =~ /(\S+) destination/) {
3459 #Top 50 (host|domain|email|edomain) destinations
3460 #Top (host|domain|email|edomain) destination
3461 $messages_href = \%{$delivered_messages{"\u$1"}};
3462 $addresses_href = \%{$delivered_addresses{"\u$1"}};
3463 $data_href = \%{$delivered_data{"\u$1"}};
3464 $data_gigs_href = \%{$delivered_data_gigs{"\u$1"}};
3466 elsif ($category =~ /temporarily rejected ips/) {
3467 $messages_href = \%temporarily_rejected_count_by_ip;
3469 elsif ($category =~ /rejected ips/) {
3470 $messages_href = \%rejected_count_by_ip;
3472 elsif ($category =~ /non-rejected spamming ips/) {
3473 $messages_href = \%spam_count_by_ip;
3475 elsif ($category =~ /mail temporary rejection reasons/) {
3476 $messages_href = \%temporarily_rejected_count_by_reason;
3478 elsif ($category =~ /mail rejection reasons/) {
3479 $messages_href = \%rejected_count_by_reason;
3482 my $reached_table = 0;
3485 # Watch out for empty tables.
3486 goto PARSE_OLD_REPORT_LINE if (/<h2>/ or (/^\s*[a-zA-Z]/ && !/^\s*Messages/));
3488 $_ = html2txt($_); #Convert general HTML markup to text.
3490 # Messages Addresses Bytes Average
3491 if (/^\s*Messages/) {
3492 my $pattern = '^\s*(\d+)';
3493 $pattern .= (/Addresses/) ? '\s+(\d+)' : '()';
3494 $pattern .= (/Bytes/) ? '\s+([\dKMGB]+)' : '()';
3495 $pattern .= (/Average/) ? '\s+[\dKMGB]+' : '';
3496 $pattern .= '\s+(.*?)\s*$';
3497 $row_re = qr/$pattern/;
3501 next unless $reached_table;
3503 my($messages, $addresses, $rounded_volume, $entry);
3506 ($messages, $addresses, $rounded_volume, $entry) = ($1, $2, $3, $4);
3509 #Else we have finished the table and we may need to do some
3510 #kludging to retain the order of the entries.
3512 if ($by_count_or_volume =~ /volume/) {
3513 #Add a few bytes to appropriate entries to preserve the order.
3514 foreach $rounded_volume (keys %table_order) {
3515 #For each rounded volume, we want to create a list which has things
3516 #ordered from the volume table at the front, and additional things
3517 #from the count table ordered at the back.
3518 @{$table_order{$rounded_volume}{volume}} = () unless defined $table_order{$rounded_volume}{volume};
3519 @{$table_order{$rounded_volume}{'message count'}} = () unless defined $table_order{$rounded_volume}{'message count'};
3521 map {$mark{$_} = 1} @{$table_order{$rounded_volume}{volume}};
3522 @order = @{$table_order{$rounded_volume}{volume}};
3523 map {push(@order,$_)} grep(!$mark{$_},@{$table_order{$rounded_volume}{'message count'}});
3525 my $bonus_bytes = $#order;
3526 $bonus_bytes = 511 if ($bonus_bytes > 511); #Don't go over the half-K boundary!
3527 while (@order and ($bonus_bytes > 0)) {
3528 my $entry = shift(@order);
3529 if ($league_table_value_was_zero{$entry}) {
3530 $$data_href{$entry} += $bonus_bytes;
3531 print STDERR "$category by $by_count_or_volume: added $bonus_bytes bonus bytes to $entry\n" if $debug;
3540 # Store a new table entry.
3542 # Add the entry into the %table_order hash if it has a rounded
3543 # volume (KB/MB/GB).
3544 push(@{$table_order{$rounded_volume}{$by_count_or_volume}},$entry) if ($rounded_volume =~ /\D/);
3546 unless ($league_table_value_entered{$entry}) {
3547 $league_table_value_entered{$entry} = 1;
3548 unless ($$messages_href{$entry}) {
3549 $$messages_href{$entry} = 0;
3550 $$addresses_href{$entry} = 0;
3551 $$data_href{$entry} = 0;
3552 $$data_gigs_href{$entry} = 0;
3553 $league_table_value_was_zero{$entry} = 1;
3556 $$messages_href{$entry} += $messages;
3558 # When adding the addresses, be aware that we could be merging
3559 # an old report which does not include addresses. In this case,
3560 # we add the messages instead.
3561 $$addresses_href{$entry} += ($addresses) ? $addresses : $messages;
3563 #Add the rounded value to the data and data_gigs hashes.
3564 un_round($rounded_volume,\$$data_href{$entry},\$$data_gigs_href{$entry}) if $rounded_volume;
3565 print STDERR "$category by $by_count_or_volume: added $messages,$rounded_volume to $entry\n" if $debug;
3570 elsif (/List of errors/) {
3574 # 1 07904931641@one2one.net R=external T=smtp: SMTP error
3575 # from remote mailer after RCPT TO:<07904931641@one2one.net>:
3576 # host mail.one2one.net [193.133.192.24]: 550 User unknown
3578 #<li>1 - ally.dufc@dunbar.org.uk R=external T=smtp: SMTP error from remote mailer after RCPT TO:<ally.dufc@dunbar.org.uk>: host mail.dunbar.org.uk [216.167.89.88]: 550 Unknown local part ally.dufc in <ally.dufc@dunbar.org.uk>
3581 my $reached_table = 0;
3582 my($count,$error,$blanks);
3584 $reached_table = 1 if (/^( *|<li>)(\d+)/);
3585 next unless $reached_table;
3587 s/^<li>(\d+) -/$1/; #Convert an HTML line to a text line.
3588 $_ = html2txt($_); #Convert general HTML markup to text.
3591 $error .= ' ' . $1; #Join a multiline error.
3593 elsif (/^\s*(\d+)\s+(.*)/) {
3595 #Finished with a previous multiline error so save it.
3596 $errors_count{$error} = 0 unless $errors_count{$error};
3597 $errors_count{$error} += $count;
3599 ($count,$error) = ($1,$2);
3601 elsif (/Errors encountered/) {
3603 #Finished the section, so save our stored last error.
3604 $errors_count{$error} = 0 unless $errors_count{$error};
3605 $errors_count{$error} += $count;
3615 #######################################################################
3616 # parse_histogram($fh, \@delivered_interval_count);
3617 # Parse a histogram into the provided array of counters.
3618 #######################################################################
3619 sub parse_histogram {
3620 my($fh, $counters_aref) = @_;
3622 # Messages received per hour (each dot is 2 messages)
3623 #---------------------------------------------------
3625 #00-01 106 .....................................................
3626 #01-02 103 ...................................................
3628 my $reached_table = 0;
3630 $reached_table = 1 if (/^00/);
3631 next unless $reached_table;
3632 print STDERR "Parsing $_" if $debug;
3633 if (/^(\d+):(\d+)\s+(\d+)/) { #hh:mm start time format ?
3634 $$counters_aref[($1*60 + $2)/$hist_interval] += $3 if $hist_opt;
3636 elsif (/^(\d+)-(\d+)\s+(\d+)/) { #hh-hh start-end time format ?
3637 $$counters_aref[($1*60)/$hist_interval] += $3 if $hist_opt;
3639 else { #Finished the table ?
3646 #######################################################################
3649 # update_relayed($count,$sender,$recipient);
3651 # Adds an entry into the %relayed hash. Currently only used when
3653 #######################################################################
3654 sub update_relayed {
3655 my($count,$sender,$recipient) = @_;
3657 #When generating the key, put in the 'H=' and 'A=' which can be used
3659 my $key = "H=$sender => H=$recipient";
3660 $key =~ s/ ([^=\s]+\@\S+|<>)/ A=$1/g;
3661 if (!defined $relay_pattern || $key !~ /$relay_pattern/o) {
3662 $relayed{$key} = 0 if !defined $relayed{$key};
3663 $relayed{$key} += $count;
3666 $relayed_unshown += $count;
3671 #######################################################################
3674 # add_to_totals(\%totals,\@keys,$values);
3676 # Given a line of space seperated values, add them into the provided hash using @keys
3679 # If the value contains a '%', then the value is set rather than added. Otherwise, we
3680 # convert the value to bytes and gigs. The gigs get added to I<Key>-gigs.
3681 #######################################################################
3683 my($totals_href,$keys_aref,$values) = @_;
3684 my(@values) = split(/\s+/,$values);
3686 for(my $i = 0; $i < @values && $i < @$keys_aref; ++$i) {
3687 my $key = $keys_aref->[$i];
3688 if ($values[$i] =~ /%/) {
3689 $$totals_href{$key} = $values[$i];
3692 $$totals_href{$key} = 0 unless ($$totals_href{$key});
3693 $$totals_href{"$key-gigs"} = 0 unless ($$totals_href{"$key-gigs"});
3694 un_round($values[$i], \$$totals_href{$key}, \$$totals_href{"$key-gigs"});
3695 print STDERR "Added $values[$i] to $key - $$totals_href{$key} , " . $$totals_href{"$key-gigs"} . "GB.\n" if $debug;
3701 #######################################################################
3704 # line_to_hash(\%hash,\@keys,$line);
3706 # Given a line of space seperated values, set them into the provided hash
3707 # using @keys as the hash keys.
3708 #######################################################################
3710 my($href,$keys_aref,$values) = @_;
3711 my(@values) = split(/\s+/,$values);
3712 for(my $i = 0; $i < @values && $i < @$keys_aref; ++$i) {
3713 $$href{$keys_aref->[$i]} = $values[$i];
3718 #######################################################################
3719 # get_report_total();
3721 # $total = get_report_total(\%hash,$key);
3723 # If %hash contains values split into Units and Gigs, we calculate and return
3725 # $hash{$key} + 1024*1024*1024 * $hash{"${key}-gigs"}
3726 #######################################################################
3727 sub get_report_total {
3729 my($hash_ref,$key) = @_;
3730 if ($$hash_ref{"${key}-gigs"}) {
3731 return $$hash_ref{$key} + $gig * $$hash_ref{"${key}-gigs"};
3733 return $$hash_ref{$key} || 0;
3736 #######################################################################
3739 # $text_line = html2txt($html_line);
3741 # Convert a line from html to text. Currently we just convert HTML tags to spaces
3742 # and convert >, <, and tags back.
3743 #######################################################################
3747 # Convert HTML tags to spacing. Note that the reports may contain <Userid> and
3748 # <Userid@Domain> words, so explicitly specify the HTML tags we will remove
3749 # (the ones used by this program). If someone is careless enough to have their
3750 # Userid the same as an HTML tag, there's not much we can do about it.
3751 s/<\/?(html|head|title|body|h\d|ul|li|a\s+|table|tr|td|th|pre|hr|p|br)\b.*?>/ /g;
3753 s/\<\;/\</og; #Convert '<' to '<'.
3754 s/\>\;/\>/og; #Convert '>' to '>'.
3755 s/\ \;/ /og; #Convert ' ' to ' '.
3759 #######################################################################
3762 # $arg = get_next_arg();
3764 # Because eximstats arguments are often passed as variables,
3765 # we can't rely on shell parsing to deal with quotes. This
3766 # subroutine returns $ARGV[1] and does a shift. If $ARGV[1]
3767 # starts with a quote (' or "), and doesn't end in one, then
3768 # we append the next argument to it and shift again. We repeat
3769 # until we've got all of the argument.
3771 # This isn't perfect as all white space gets reduced to one space,
3772 # but it's as good as we can get! If it's esential that spacing
3773 # be preserved precisely, then you get that by not using shell
3775 #######################################################################
3778 my $matched_pattern = 0;
3780 $arg .= ' ' if $arg;
3781 $arg .= $ARGV[1]; shift(@ARGV);
3782 if ($arg !~ /^['"]/) {
3783 $matched_pattern = 1;
3786 if ($arg =~ s/^(['"])(.*)\1$/$2/) {
3787 $matched_pattern = 1;
3791 die "Mismatched argument quotes - <$arg>.\n" unless $matched_pattern;
3795 #######################################################################
3796 # set_worksheet_line($ws_global, $startrow, $startcol, \@content, $format);
3798 # set values to a sequence of cells in a row.
3800 #######################################################################
3801 sub set_worksheet_line {
3802 my ($worksheet, $row, $col, $content, $format) = @_;
3804 foreach my $token (@$content)
3806 $worksheet->write($row, $col++, $token, $format );
3811 #######################################################################
3812 # @rcpt_times = parse_time_list($string);
3814 # Parse a comma seperated list of time values in seconds given by
3815 # the user and fill an array.
3817 # Return a default list if $string is undefined.
3818 # Return () if $string eq '0'.
3819 #######################################################################
3820 sub parse_time_list {
3822 if (! defined $string) {
3823 return(60, 5*60, 15*60, 30*60, 60*60, 3*60*60, 6*60*60, 12*60*60, 24*60*60);
3825 my(@times) = split(/,/, $string);
3826 foreach my $q (@times) { $q = eval($q) + 0 }
3827 @times = sort { $a <=> $b } @times;
3828 @times = () if ($#times == 0 && $times[0] == 0);
3833 #######################################################################
3834 # initialise_rcpt_times($protocol);
3835 # Initialise an array of rcpt_times to 0 for the specified protocol.
3836 #######################################################################
3837 sub initialise_rcpt_times {
3839 for (my $i = 0; $i <= $#rcpt_times; ++$i) {
3840 $rcpt_times_bin{$protocol}[$i] = 0;
3842 $rcpt_times_overflow{$protocol} = 0;
3846 ##################################################
3848 ##################################################
3851 $last_timestamp = '';
3855 $show_transport = 1;
3857 $local_league_table = 1;
3858 $include_remote_users = 0;
3859 $include_original_destination = 0;
3861 $volume_rounding = 1;
3862 $localtime_offset = calculate_localtime_offset(); # PH/FANF
3865 $charts_option_specified = 0;
3869 @queue_times = parse_time_list();
3871 @delivery_times = ();
3874 $offset_seconds = 0;
3880 my(%output_files); # What output files have been specified?
3884 while (@ARGV > 0 && substr($ARGV[0], 0, 1) eq '-') {
3885 if ($ARGV[0] =~ /^\-h(\d+)$/) { $hist_opt = $1 }
3886 elsif ($ARGV[0] =~ /^\-ne$/) { $show_errors = 0 }
3887 elsif ($ARGV[0] =~ /^\-nr(.?)(.*)\1$/) {
3888 if ($1 eq "") { $show_relay = 0 } else { $relay_pattern = $2 }
3890 elsif ($ARGV[0] =~ /^\-q([,\d\+\-\*\/]+)$/) { @queue_times = parse_time_list($1) }
3891 elsif ($ARGV[0] =~ /^-nt$/) { $show_transport = 0 }
3892 elsif ($ARGV[0] =~ /^\-nt(.?)(.*)\1$/)
3894 if ($1 eq "") { $show_transport = 0 } else { $transport_pattern = $2 }
3896 elsif ($ARGV[0] =~ /^-t(\d+)$/) { $topcount = $1 }
3897 elsif ($ARGV[0] =~ /^-tnl$/) { $local_league_table = 0 }
3898 elsif ($ARGV[0] =~ /^-txt=?(\S*)$/) { $txt_fh = get_filehandle($1,\%output_files) }
3899 elsif ($ARGV[0] =~ /^-html=?(\S*)$/) { $htm_fh = get_filehandle($1,\%output_files) }
3900 elsif ($ARGV[0] =~ /^-xls=?(\S*)$/) {
3901 if ($HAVE_Spreadsheet_WriteExcel) {
3902 $xls_fh = get_filehandle($1,\%output_files);
3905 warn "WARNING: CPAN Module Spreadsheet::WriteExcel not installed. Obtain from www.cpan.org\n";
3908 elsif ($ARGV[0] =~ /^-merge$/) { $merge_reports = 1 }
3909 elsif ($ARGV[0] =~ /^-charts$/) {
3911 warn "WARNING: CPAN Module GD::Graph::pie not installed. Obtain from www.cpan.org\n" unless $HAVE_GD_Graph_pie;
3912 warn "WARNING: CPAN Module GD::Graph::linespoints not installed. Obtain from www.cpan.org\n" unless $HAVE_GD_Graph_linespoints;
3914 elsif ($ARGV[0] =~ /^-chartdir$/) { $chartdir = $ARGV[1]; shift; $charts_option_specified = 1; }
3915 elsif ($ARGV[0] =~ /^-chartrel$/) { $chartrel = $ARGV[1]; shift; $charts_option_specified = 1; }
3916 elsif ($ARGV[0] =~ /^-include_original_destination$/) { $include_original_destination = 1 }
3917 elsif ($ARGV[0] =~ /^-cache$/) { } #Not currently used.
3918 elsif ($ARGV[0] =~ /^-byhost$/) { $do_sender{Host} = 1 }
3919 elsif ($ARGV[0] =~ /^-bydomain$/) { $do_sender{Domain} = 1 }
3920 elsif ($ARGV[0] =~ /^-byemail$/) { $do_sender{Email} = 1 }
3921 elsif ($ARGV[0] =~ /^-byemaildomain$/) { $do_sender{Edomain} = 1 }
3922 elsif ($ARGV[0] =~ /^-byedomain$/) { $do_sender{Edomain} = 1 }
3923 elsif ($ARGV[0] =~ /^-bylocaldomain$/) { $do_local_domain = 1 }
3924 elsif ($ARGV[0] =~ /^-emptyok$/) { $emptyOK = 1 }
3925 elsif ($ARGV[0] =~ /^-nvr$/) { $volume_rounding = 0 }
3926 elsif ($ARGV[0] =~ /^-show_rt([,\d\+\-\*\/]+)?$/) { @rcpt_times = parse_time_list($1) }
3927 elsif ($ARGV[0] =~ /^-show_dt([,\d\+\-\*\/]+)?$/) { @delivery_times = parse_time_list($1) }
3928 elsif ($ARGV[0] =~ /^-d$/) { $debug = 1 }
3929 elsif ($ARGV[0] =~ /^--?h(elp)?$/){ help() }
3930 elsif ($ARGV[0] =~ /^-t_remote_users$/) { $include_remote_users = 1 }
3931 elsif ($ARGV[0] =~ /^-pattern$/)
3933 push(@user_descriptions,get_next_arg());
3934 push(@user_patterns,get_next_arg());
3936 elsif ($ARGV[0] =~ /^-utc$/)
3938 # We don't need this value if the log is in UTC.
3939 $localtime_offset = undef;
3943 print STDERR "Eximstats: Unknown or malformed option $ARGV[0]\n";
3949 # keep old default behaviour
3950 if (! ($xls_fh or $htm_fh or $txt_fh)) {
3954 # Check that all the charts options are specified.
3955 warn "-charts option not specified. Use -help for help.\n" if ($charts_option_specified && ! $charts);
3957 # Default to display tables by sending Host.
3958 $do_sender{Host} = 1 unless ($do_sender{Domain} || $do_sender{Email} || $do_sender{Edomain});
3960 # prepare xls Excel Workbook
3961 if (defined $xls_fh) {
3963 # Create a new Excel workbook
3964 $workbook = Spreadsheet::WriteExcel->new($xls_fh);
3967 $ws_global = $workbook->addworksheet('Exim Statistik');
3968 # show $ws_global as initial sheet
3969 $ws_global->set_first_sheet();
3970 $ws_global->activate();
3973 $ws_relayed = $workbook->addworksheet('Relayed Messages');
3974 $ws_relayed->set_column(1, 2, 80);
3977 $ws_errors = $workbook->addworksheet('Errors');
3982 $ws_global->set_column(0, 2, 20); # Columns B-D width set to 30
3983 $ws_global->set_column(3, 3, 15); # Columns B-D width set to 30
3984 $ws_global->set_column(4, 4, 25); # Columns B-D width set to 30
3987 $f_default = $workbook->add_format();
3989 $f_header1 = $workbook->add_format();
3990 $f_header1->set_bold();
3991 #$f_header1->set_color('red');
3992 $f_header1->set_size('15');
3993 $f_header1->set_valign();
3994 # $f_header1->set_align('center');
3995 # $ws_global->write($row++, 2, "Testing Headers 1", $f_header1);
3997 $f_header2 = $workbook->add_format();
3998 $f_header2->set_bold();
3999 $f_header2->set_size('12');
4000 $f_header2->set_valign();
4001 # $ws_global->write($row++, 2, "Testing Headers 2", $f_header2);
4003 # Create another header2 for use in merged cells.
4004 $f_header2_m = $workbook->add_format();
4005 $f_header2_m->set_bold();
4006 $f_header2_m->set_size('8');
4007 $f_header2_m->set_valign();
4008 $f_header2_m->set_align('center');
4010 $f_percent = $workbook->add_format();
4011 $f_percent->set_num_format('0.0%');
4013 $f_headertab = $workbook->add_format();
4014 $f_headertab->set_bold();
4015 $f_headertab->set_valign();
4016 # $ws_global->write($row++, 2, "Testing Headers tab", $f_headertab);
4021 # Initialise the queue/delivery/rcpt time counters.
4022 for (my $i = 0; $i <= $#queue_times; $i++) {
4023 $qt_all_bin[$i] = 0;
4024 $qt_remote_bin[$i] = 0;
4026 for (my $i = 0; $i <= $#delivery_times; $i++) {
4027 $dt_all_bin[$i] = 0;
4028 $dt_remote_bin[$i] = 0;
4030 initialise_rcpt_times('all');
4033 # Compute the number of slots for the histogram
4036 if ($hist_opt > 60 || 60 % $hist_opt != 0)
4038 print STDERR "Eximstats: -h must specify a factor of 60\n";
4041 $hist_interval = 60/$hist_opt; #Interval in minutes.
4042 $hist_number = (24*60)/$hist_interval; #Number of intervals per day.
4043 @received_interval_count = (0) x $hist_number;
4044 @delivered_interval_count = (0) x $hist_number;
4045 my $user_pattern_index = 0;
4046 for (my $user_pattern_index = 0; $user_pattern_index <= $#user_patterns; ++$user_pattern_index) {
4047 @{$user_pattern_interval_count[$user_pattern_index]} = (0) x $hist_number;
4049 @dt_all_bin = (0) x $hist_number;
4050 @dt_remote_bin = (0) x $hist_number;
4053 #$queue_unknown = 0;
4055 $total_received_data = 0;
4056 $total_received_data_gigs = 0;
4057 $total_received_count = 0;
4059 $total_delivered_data = 0;
4060 $total_delivered_data_gigs = 0;
4061 $total_delivered_messages = 0;
4062 $total_delivered_addresses = 0;
4064 $qt_all_overflow = 0;
4065 $qt_remote_overflow = 0;
4066 $dt_all_overflow = 0;
4067 $dt_remote_overflow = 0;
4069 $relayed_unshown = 0;
4070 $message_errors = 0;
4071 $begin = "9999-99-99 99:99:99";
4072 $end = "0000-00-00 00:00:00";
4074 foreach $section ('Received','Delivered','Temp Rejects', 'Rejects','Ham','Spam') {
4075 foreach $type ('Volume','Messages','Delayed','Failed','Hosts','Domains','Emails','Edomains') {
4076 $report_totals{$section}{$type} = 0;
4080 # Generate our parser.
4081 my $parser = generate_parser();
4086 # Scan the input files and collect the data
4087 foreach my $file (@ARGV) {
4088 if ($file =~ /\.gz/) {
4089 unless (open(FILE,"gunzip -c $file |")) {
4090 print STDERR "Failed to gunzip -c $file: $!";
4094 elsif ($file =~ /\.Z/) {
4095 unless (open(FILE,"uncompress -c $file |")) {
4096 print STDERR "Failed to uncompress -c $file: $!";
4101 unless (open(FILE,$file)) {
4102 print STDERR "Failed to read $file: $!";
4106 #Now parse the filehandle, updating the global variables.
4107 parse($parser,\*FILE);
4112 #No files provided. Parse STDIN, updating the global variables.
4113 parse($parser,\*STDIN);
4117 if ($begin eq "9999-99-99 99:99:99" && ! $emptyOK) {
4118 print STDERR "**** No valid log lines read\n";
4122 # Output our results.
4124 print_grandtotals();
4126 # Print counts of user specified patterns if required.
4127 print_user_patterns() if @user_patterns;
4129 # Print rejection reasons.
4132 # Print totals by transport if required.
4133 print_transport() if $show_transport;
4135 # Print the deliveries per interval as a histogram, unless configured not to.
4136 # First find the maximum in one interval and scale accordingly.
4137 if ($hist_opt > 0) {
4138 print_histogram("Messages received", 'message', @received_interval_count);
4139 print_histogram("Deliveries", 'delivery', @delivered_interval_count);
4142 # Print times on queue if required.
4143 if ($#queue_times >= 0) {
4144 print_duration_table("Time spent on the queue", "all messages", \@queue_times, \@qt_all_bin,$qt_all_overflow);
4145 print_duration_table("Time spent on the queue", "messages with at least one remote delivery", \@queue_times, \@qt_remote_bin,$qt_remote_overflow);
4148 # Print delivery times if required.
4149 if ($#delivery_times >= 0) {
4150 print_duration_table("Delivery times", "all messages", \@delivery_times, \@dt_all_bin,$dt_all_overflow);
4151 print_duration_table("Delivery times", "messages with at least one remote delivery", \@delivery_times, \@dt_remote_bin,$dt_remote_overflow);
4154 # Print rcpt times if required.
4155 if ($#rcpt_times >= 0) {
4156 foreach my $protocol ('all', grep(!/^all$/, sort keys %rcpt_times_bin)) {
4157 print_duration_table("Receipt times", "$protocol messages", \@rcpt_times, $rcpt_times_bin{$protocol}, $rcpt_times_overflow{$protocol});
4161 # Print relay information if required.
4162 print_relay() if $show_relay;
4164 # Print the league tables, if topcount isn't zero.
4165 if ($topcount > 0) {
4166 my($ws_rej, $ws_top50, $ws_rej_row, $ws_top50_row, $ws_temp_rej, $ws_temp_rej_row);
4167 $ws_rej_row = $ws_temp_rej_row = $ws_top50_row = 0;
4169 $ws_top50 = $workbook->addworksheet('Deliveries');
4170 $ws_rej = $workbook->addworksheet('Rejections') if (%rejected_count_by_reason || %rejected_count_by_ip || %spam_count_by_ip);
4171 $ws_temp_rej = $workbook->addworksheet('Temporary Rejections') if (%temporarily_rejected_count_by_reason || %temporarily_rejected_count_by_ip);
4174 print_league_table("mail rejection reason", \%rejected_count_by_reason, undef, undef, undef, $ws_rej, \$ws_rej_row) if %rejected_count_by_reason;
4175 print_league_table("mail temporary rejection reason", \%temporarily_rejected_count_by_reason, undef, undef, undef, $ws_temp_rej, \$ws_temp_rej_row) if %temporarily_rejected_count_by_reason;
4177 foreach ('Host','Domain','Email','Edomain') {
4178 next unless $do_sender{$_};
4179 print_league_table("sending \l$_", $received_count{$_}, undef, $received_data{$_},$received_data_gigs{$_}, $ws_top50, \$ws_top50_row);
4182 print_league_table("local sender", \%received_count_user, undef,
4183 \%received_data_user,\%received_data_gigs_user, $ws_top50, \$ws_top50_row) if (($local_league_table || $include_remote_users) && %received_count_user);
4184 foreach ('Host','Domain','Email','Edomain') {
4185 next unless $do_sender{$_};
4186 print_league_table("\l$_ destination", $delivered_messages{$_}, $delivered_addresses{$_}, $delivered_data{$_},$delivered_data_gigs{$_}, $ws_top50, \$ws_top50_row);
4188 print_league_table("local destination", \%delivered_messages_user, \%delivered_addresses_user, \%delivered_data_user,\%delivered_data_gigs_user, $ws_top50, \$ws_top50_row) if (($local_league_table || $include_remote_users) && %delivered_messages_user);
4189 print_league_table("local domain destination", \%delivered_messages_local_domain, \%delivered_addresses_local_domain, \%delivered_data_local_domain,\%delivered_data_gigs_local_domain, $ws_top50, \$ws_top50_row) if (($local_league_table || $include_remote_users) && %delivered_messages_local_domain);
4191 print_league_table("rejected ip", \%rejected_count_by_ip, undef, undef, undef, $ws_rej, \$ws_rej_row) if %rejected_count_by_ip;
4192 print_league_table("temporarily rejected ip", \%temporarily_rejected_count_by_ip, undef, undef, undef, $ws_rej, \$ws_rej_row) if %temporarily_rejected_count_by_ip;
4193 print_league_table("non-rejected spamming ip", \%spam_count_by_ip, undef, undef, undef, $ws_rej, \$ws_rej_row) if %spam_count_by_ip;
4197 # Print the error statistics if required.
4198 print_errors() if $show_errors;
4200 print $htm_fh "</body>\n</html>\n" if $htm_fh;
4203 $txt_fh->close if $txt_fh && ref $txt_fh;
4204 $htm_fh->close if $htm_fh;
4207 # close Excel Workbook
4208 $ws_global->set_first_sheet();
4209 # FIXME: whyever - activate does not work :-/
4210 $ws_global->activate();