# The contents of this file are subject to the Netscape Public # License Version 1.1 (the "License"); you may not use this file # except in compliance with the License. You may obtain a copy of # the License at http://www.mozilla.org/NPL/ # # Software distributed under the License is distributed on an "AS # IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or # implied. See the License for the specific language governing # rights and limitations under the License. # # The Original Code is the Netscape Mailstone utility, # released March 17, 2000. # # The Initial Developer of the Original Code is Netscape # Communications Corporation. Portions created by Netscape are # Copyright (C) 1997-2000 Netscape Communications Corporation. All # Rights Reserved. # # Contributor(s): Dan Christian # Marcel DePaolis # # Alternatively, the contents of this file may be used under the # terms of the GNU Public License (the "GPL"), in which case the # provisions of the GPL are applicable instead of those above. # If you wish to allow use of your version of this file only # under the terms of the GPL and not to allow others to use your # version of this file under the NPL, indicate your decision by # deleting the provisions above and replace them with the notice # and other provisions required by the GPL. If you do not delete # the provisions above, a recipient may use your version of this # file under either the NPL or the GPL. ##################################################### # This file does argument processing, file IO, and other utility routines # Where the online docs live #$mailstoneURL = # "http://home.netscape.com/eng/server/messaging/4.1/mailston/stone.htm"; #$mailstoneURL = # "http://developer.iplanet.com/docs/manuals/messaging.html"; #$mailstoneURL = # "http://docs.iplanet.com/docs/manuals/messaging/nms415/mailstone/stone.htm" $mailstoneURL = "http:doc/MailStone.html"; # Subdirs for results (each under a timestamp dir). Should just hardwire. $tmpbase = "tmp"; $resultbase = "results"; # This holds everything about the test and system configuration @workload = (); # Setup the special CONFIG section $params{"sectionTitle"} = "CONFIG"; $params{"sectionParams"} = ""; $params{"lineList"} = (); push @workload, \%params; # Get the lists discribing the data we process do 'protoconf.pl' || die "$@\n"; %includedFiles = (); # array of included files # Utility functions # Create a unique hash array. Programming Perl, 2nd edition, p291 (p217?) package ArrayInstance; sub new { my $type = shift; my %params = @_; my $self = {}; return bless $self, $type; } package main; # run a command in the background, return its PID # Uses fork: will not run on NT in perl 5.004 # if the server is "localhost", ignore the rcmd part # if stdin, stdout, and/or stderr is set, redirect those for the sub process sub forkproc { my $rcmd = shift; my $server = shift; my $command = shift; my $stdin = shift; my $stdout = shift; my $stderr = shift; if (my $pid = fork()) { return $pid; # parent } # rest of this is in the child if ($stdin) { # redirect stdin if needed close (STDIN); open STDIN, "<$stdin" || die "Couldn't open $stdin for input\n"; } if ($stdout) { # redirect stdout if needed close (STDOUT); open STDOUT, ">>$stdout" || die "Couldn't open $stdout for output\n"; } if ($stderr) { # redirect stderr if needed close (STDERR); open STDERR, ">>$stderr" || die "Couldn't open $stderr for output\n"; } if ($server =~ /^localhost$/i) { exec $command; die "Coundn't exec $command:$!\n"; } else { exec split (/\s+/, $rcmd), $server, $command; die "Coundn't exec $rcmd $server $command:$!\n"; } } # Relocate file to tmp directory (if it is in the results directory), # and put a ~ on the end of it. # ASSUMES tmp and results are on the same partition (on NT, same drive). # Usage: fileBackup (filename) sub fileBackup { my $filename = shift; my $bfile = $filename; (-f $filename) || return 0; # file doent exist $bfile =~ s/$resultbase/$tmpbase/; # move to tmp $bfile .= "~"; # indicate that this is a backup (-f $bfile) && unlink ($bfile); #print "Backing up $filename to $bfile\n"; # DEBUG rename ($filename, $bfile) || unlink ($filename); } # Insert text into a file after a tagline # fileInsertAfter (filename, tagstring, newtext) sub fileInsertAfter { my $filename = shift || die "fileInsertAfter: missing filename"; my $tagline = shift || die "fileInsertAfter: missing tagline"; my $newtext = shift || die "fileInsertAfter: missing text"; my $foundit = 0; open(OLD, "<$filename") || open(OLD, "gunzip -c $filename |") || die "fileInsertAfter: Could not open input $filename: $!"; open(NEW, ">$filename+") || die "fileInsertAfter: Could not open output $filename+: $!"; while () { print NEW $_; # copy (including tagline) next unless (/$tagline/); # matched tagline print NEW $newtext; # insert new text $foundit++; last; # only change first occurrence } if ($foundit) { # copy rest of file while () { print NEW $_; } } close (OLD); close (NEW); if ($foundit) { fileBackup ($filename); rename ("$filename+", "$filename"); #print "Updated $filename\n"; # DEBUG return $foundit; } else { ($params{DEBUG}) && print "No change to $filename\n"; # DEBUG unlink ("$filename+"); return 0; } } # Do text for text replacements in a file. # Perl wildcards are automatically quoted. # fileReplace (filename, matchPat, oldtext, newtext) sub fileReplaceText { my $filename = shift || die "fileReplaceText: missing filename"; my $tagline = shift || die "fileReplaceText: missing tagline ($filename)"; my $oldtext = shift; my $newtext = shift; my $foundit = 0; return if ($newtext eq ""); # nothing to do return if ($oldtext eq ""); # nothing can be done open(OLD, "<$filename") || open(OLD, "gunzip -c $filename |") || die "fileReplaceText: Could not open input $filename: $!"; open(NEW, ">$filename+") || die "fileReplaceText: Could not open output $filename+: $!"; $oldtext =~ s/([][{}*+?^.\/])/\\$1/g; # quote regex syntax while () { if (/$tagline/i) { # matched tagline $foundit++; s/$oldtext/$newtext/; # do the replace } print NEW $_; } close (OLD); close (NEW); if ($foundit) { fileBackup ($filename); rename ("$filename+", "$filename"); #print "Updated $filename\n"; # DEBUG return $foundit; } else { ($params{DEBUG}) && print "No change to $filename\n"; # DEBUG unlink ("$filename+"); return 0; } } # copy a file to a new name. Handles possible compression. OS independent. # fileCopy (filename, newname) sub fileCopy { my $filename = shift || die "fileReplaceText: missing filename"; my $newname = shift || die "fileReplaceText: missing newname ($filename)"; open(OLD, "<$filename") || open(OLD, "gunzip -c $filename |") || die "fileReplaceText: Could not open input $filename: $!"; open(NEW, ">$newname") || die "fileReplaceText: Could not open output $newname: $!"; while () { # copy it print NEW $_; } close (OLD); close (NEW); return 0; } # display a file to STDOUT. Handles possible compression sub fileShow { my $filename = shift || die "fileShow: missing filename"; open(SHOWIT, "<$filename") || open(SHOWIT, "gunzip -c $filename.gz |") || die "fileShow: Couldn't open $filename: $!"; while () { print; } close(SHOWIT); } # sub function to figure time extents # (start, end) = dataMinMax counterName \@protocols oldstarttime oldendtime # Use 0 for uninitialized start or end sub dataMinMax { my $name = shift; my $protos = shift; my $start = shift; my $end = shift; # make global # create the plot script and data files # Figure out the encompassing time extent foreach $p (@$protos) { # create the plot data files my @times = sort numeric keys %{ $graphs{$p}->{$name}}; if ($#times <= 0) { next; } if (($start == 0) || ($times[0] < $start)) { $start = $times[0]; } if (($end == 0) || ($times[0] > $end)) { $end = $times[$#times]; } } #printf ("Data $name start=$start end=$end (%d points)...\n", # $end - $start); return ($start, $end); } # simple function to formatted a number into n, n K, n M, or n G sub kformat { my $n = shift; my $r = ""; if ($n > (1024*1024*1024)) { $r = sprintf "%.2fG", $n / (1024*1024*1024); } elsif ($n > (1024*1024)) { $r = sprintf "%.2fM", $n / (1024*1024); } elsif ($n > 1024) { $r = sprintf "%.2fK", $n / 1024; } else { $r = sprintf "%d ", $n; } return $r; } # simple function to formatted a time into Ns, Nms, or Nus # the goal is to make a table of timss uncluttered and easy to read # I don't convert to minutes or hours because the non-1000x multipliers # are hard to back solve in your head for comparisons sub tformat { my $n = shift; my $r = ""; if ($n == 0.0) { $r = "0.0"; # make exactly 0 explicit } elsif ($n < 0.001) { $r = sprintf "%.2fus", $n * 1000 * 1000; } elsif ($n < 1.0) { $r = sprintf "%.2fms", $n * 1000; } elsif ($n >= 1000.0) { $r = sprintf "%.0fs", $n; } elsif ($n >= 100.0) { $r = sprintf "%.1fs", $n; } else { $r = sprintf "%.3fs", $n; } return $r; } #Usage: commify (1234567) returns 1,234,567 sub commify { # perl cookbook p64-65 my $text = reverse $_[0]; $text =~ s/(\d\d\d)(?=\d)(?!\d*\.)/$1,/g; return scalar reverse $text; } # subroutine to enable numeric sorts. Programming Perl p218 # Use: sort numeric ... sub numeric { $a <=> $b; } # on NT, turn slash to backslash, then print. Else print. sub pathprint { my $str = shift; $str =~ s!/!\\!g if ($params{NT}); # turn slash to back slash print $str; } # figureTimeNumber number # Given an number like: 60m, 1h, 100s, 4d, 200 # Return 60, 1, 100, 4, 200 sub figureTimeNumber { my $arg = shift; ($arg =~ /([0-9]+)(s|sec|second|seconds|m|min|minute|minutes|h|hr|hour|hours|d|day|days)$/i) && return $1; return $arg; # return default } # figureTimeUnits number, default # Given an number like: 60m, 1h, 100s, 4d # Return a string of minutes, hours, seconds, days # Else return the second argument sub figureTimeUnits { my $arg = shift; ($arg =~ /(s|sec|second|seconds)$/i) && return "seconds"; ($arg =~ /(m|min|minute|minutes)$/i) && return "minutes"; ($arg =~ /(h|hr|hour|hours)$/i) && return "hours"; ($arg =~ /(d|day|days)$/i) && return "days"; return shift; # return default } # figureTimeSeconds number, defaultUnits # Given an number like: 60m, 2h, 100s, 4d # Return 60*60, 2*60*60, 100, 4*24*60*60 sub figureTimeSeconds { my $arg = shift; ($arg =~ /([0-9]+)(s|sec|second|seconds)$/i) && return $1; ($arg =~ /([0-9]+)(m|min|minute|minutes)$/i) && return (60*$1); ($arg =~ /([0-9]+)(h|hr|hour|hours)$/i) && return (60*60*$1); ($arg =~ /([0-9]+)(d|day|days)$/i) && return (24*60*60*$1); if ($_) { my $def = shift; return $arg * figureTimeSeconds ("1$def"); # return scaled by default } else { return $arg; # return it } } # BACK COMPATIBILITY (everything now in the workload file) # read the testbed conf file, convert to workload sections # machine, how many processes, how many threads/proc, arch # only the first 2 fields are required. Lines starting with # are ignored. # You can include other files using # exampe: # client1 5 10 SunOS5.5.1 sub readTestbedFile { my $filename = shift; foreach $section (@workload) { next unless ($section->{sectionTitle} =~ /CLIENT/o); print "Testbed $filename skipped, clients read in workload\n"; return 1; # clients already read in workload } my $level = 0; if ($_) { $level = 1 + shift; die "Too many nested includes ($level) in $filename!" unless ($level < 100); } my $handle = "$filename$level"; open($handle, "<$filename") || open($handle, "gunzip -c $filename.gz |") || die "Couldn't open testbed $filename: $!"; while(<$handle>) { chomp; s/#.*//; # strip any comments from line m/^\s*$/o && next; # continue if blank line # handle include statement if (m/^<(include|INCLUDE)\s+([^\s]+)\s*>/o) { #print "Including $2 from $filename\n"; readTestbedFile ($2, $level) || die; next; } # get the server name and number of processes my @line = split(/\s+/); # create CLIENT entry in workload my $sparm = ArrayInstance->new(); if ($line[1]) { $sparm->{"sectionTitle"} = "CLIENT"; $sparm->{"sectionParams"} = "HOSTS=$line[0]"; $sparm->{"PROCESSES"} = $line[1]; $sparm->{"THREADS"} = $line[2] if ($line[2]); $sparm->{"ARCH"} = $line[3] if ($line[3]); } else { $sparm->{"sectionTitle"} = "MONITOR"; $sparm->{"sectionParams"} = "HOSTS=$line[0]"; $sparm->{"COMMAND"} = $line[2]; } ($params{DEBUG}) && print "<$sparm->{sectionTitle} $sparm->{sectionParams}>\n"; push @workload, $sparm; } close ($handle); } # BACK COMPATIBILITY (everything now in the saved workload file) # This is now only needed to process mailstone4.1 runs sub readConfigFile { my $filename = shift; open(CONFIG, "<$filename") || open(CONFIG, "gunzip -c $filename.gz |") || die "Couldn't open config file $filename: $!"; while() { chomp; s/#.*//; # strip any comments from line m/^\s*$/o && next; # continue if blank line # get the property and value my @line = split(/=/); $params{$line[0]} = $line[1]; } close CONFIG; } # read the workload file and store it as a list of hashes # Each hash always has the fields: sectionTitle and sectionParams # usage: readWorkloadFile filename, \@list sub readWorkloadFile { my $filename = shift || die "readWorkloadFile: Missing file name"; my $plist = shift || die "readWorkloadFile: Missing return list"; my $level = 0; # file inclusion level my @handles; my $fh = "$filename$level"; ($params{DEBUG}) && print "Reading workload from $filename.\n"; open($fh, "<$filename") || open($fh, "gunzip -c $filename.gz |") || die "readWorkloadFile Couldn't open testbed $filename: $!"; $includedFiles{$filename} = 1; # mark file as included my $sparm=0; my $conline = ""; while($fh) { while(<$fh>) { s/#.*//; # strip any comments from line (quoting?) s/\s*$//; # strip trailing white space if ($conline) { # utilize line continue $_ = $conline . "\\\n" . $_; $conline = ""; } if (m/\\$/o) { # check for quoted line continue s/\\$//; # $conline = $_; next; } s/^\s*//; # strip initial white space m/^$/o && next; # continue if blank line # handle include and includeOnce statements if ((m/^<(include)\s+(\S+)\s*>/i) || (m/^<(includeonce)\s+(\S+)\s*>/i)) { my $incfile = $2; if (($1 =~ m/^includeonce/i) && ($includedFiles{$incfile})) { ($params{DEBUG}) && print "readWorkloadFile:includeOnce $incfile already read.\n"; next; } ($params{DEBUG}) && print "readWorkloadFile include $incfile from $filename.\n"; $includedFiles{$incfile} = 1; # mark file push @handles, $fh; # push current handle on to stack if ($level++ > 99) { # check recursion and make handles unique die "readWorkloadFile: include level too deep: $filename $level\n"; } $fh = "$incfile$level"; open($fh, "<$incfile") || open($fh, "gunzip -c $incfile.gz |") || die "readWorkloadFile Couldn't open testbed file $incfile: $!"; $filename = $incfile; # for error messages next; } if (m!^$!o) { # end of section my $end = $1; unless ($sparm->{"sectionTitle"} =~ /$end/i) { die "readWorkloadFile Mismatched section $filename: $. '$sparm->{sectionTitle}' '$end'\n"; return 0; } ($params{DEBUG}) && print "{sectionTitle}>\n"; push @$plist, $sparm; $sparm = 0; next; } if (m!^<(\w+)\s*(.*)>$!o) { # start of section my $sec = $1; my $more = $2; if ($sparm) { die "readWorkloadFile Missing section end $filename: $. '$sparm->{sectionTitle}'\n"; } if ($sec =~ /CONFIG/i) { # special case, map to existing global $sparm = \%params; } elsif ($sec =~ /DEFAULT/i) { # special case, only one DEFAULT if ($defaultSection) { # use existing defaultSection $sparm = $defaultSection; } else { # create a new one $sparm = ArrayInstance->new(); $sparm->{"sectionTitle"} = uc $sec; # ignore case $sparm->{"lineList"} = (); $defaultSection = $sparm; } } else { $sparm = ArrayInstance->new(); $sparm->{"sectionTitle"} = uc $sec; # ignore case $sparm->{"lineList"} = (); } $sparm->{"sectionParams"} = $more; # take newest more info ($params{DEBUG}) && print "<$sparm->{sectionTitle} $sparm->{sectionParams}>\n"; next; } # must be in a section, get parameters unless ($sparm) { die "readWorkloadFile Entry encountered outside a section $filename: $. $_\n"; return 0; } my ($nm, $val) = split (/[\s=]+/, $_, 2); $nm = uc $nm; # ignore case ($params{DEBUG}) && print " $nm = $val\n"; if ($nm =~ /ACCOUNTFORMAT/) { # BACK COMPATIBILITY print "WARNING: 'accountFormat' is obsolete. Use 'addressFormat' and 'loginFormat'\n"; $sparm->{"addressFormat"} = $val; push @{$sparm->{"lineList"}}, "addressFormat $val"; $val =~ s/@.+$//; # strip at and everything after $sparm->{"loginFormat"} = $val; push @{$sparm->{"lineList"}}, "loginFormat $val"; next; } elsif ($nm =~ /NUMACCOUNTS/) { # BACK COMPATIBILITY print "WARNING: 'numAccounts' is obsolete. Use 'numAddresses' and 'numLogins'\n"; $sparm->{"numAddresses"} = $val; push @{$sparm->{"lineList"}}, "numAddresses $val"; $sparm->{"numLogins"} = $val; push @{$sparm->{"lineList"}}, "numLogins $val"; next; } elsif ($nm =~ /BEGINACCOUNTS/) { # BACK COMPATIBILITY print "WARNING: 'beginAccounts' is obsolete. Use 'firstAddress' and 'firstLogin'\n"; $sparm->{"firstAddress"} = $val; push @{$sparm->{"lineList"}}, "firstAddress $val"; $sparm->{"firstLogin"} = $val; push @{$sparm->{"lineList"}}, "firstLogin $val"; next; } push @{$sparm->{"lineList"}}, $_; # save lines in original order $sparm->{$nm} = $val; next; } close ($fh); $fh = pop @handles || last; # empty include stack $filename = $fh; $sparm = 0; # can only include whole sections } return 1; # success } # Write out a workload list to a file # Optionally, pass in a list of sectionTitle's it should ignore # usage: writeWorkloadFile filename \@list [\@skipList] sub writeWorkloadFile { my $filename = shift || die "writeWorkloadFile: Missing file name"; my $plist = shift || die "writeWorkloadFile: Missing return list"; my $skip = shift; my @skipH; my $configSeen = 0; my $defaultSeen = 0; my @paramH; if ($skip) { foreach $s (@$skip) { # turn list into a hash $skipH{(uc $s)} = $s; # fix case for index } } foreach $s (@workloadParameters) { # turn list into a hash $paramH{(uc $s)} = $s; # fix case for index } ($params{DEBUG}) && print "Writing workload to $filename.\n"; unless (open(WORKOUT, ">$filename")) { die "Couldn't open testbed $filename: $!"; } foreach $sparm (@$plist) { # each hash reference in the list if (($skip) && ($skipH{$sparm->{"sectionTitle"}})) { #($params{DEBUG}) && #print "Skipping section $sparm->{sectionTitle}\n"; next; } # all CONFIG,DEFAULT sections point to the same hash, output once only if ($sparm->{"sectionTitle"} =~ /^CONFIG$/) { next if $configSeen; $configSeen++; } if ($sparm->{"sectionTitle"} =~ /^DEFAULT$/) { next if $defaultSeen; $defaultSeen++; } if ($sparm->{sectionParams}) { # write section with extra args print WORKOUT "<$sparm->{sectionTitle} $sparm->{sectionParams}>\n"; } else { print WORKOUT "<$sparm->{sectionTitle}>\n"; } if ($sparm->{"sectionTitle"} =~ /^(CONFIG|CLIENT)$/) { # for Config or Client, output the hash to get computed config foreach $k (sort keys %$sparm) { # output each parameter # skip sectionTitle and sectionParams ($k =~ /^(sectionTitle|sectionParams|lineList)$/) && next; printf WORKOUT " %s\t%s\n", ($paramH{$k}) ? $paramH{$k} : $k, $sparm->{$k}; } } else { # write out the line list foreach $l (@{$sparm->{"lineList"}}) { print WORKOUT " $l\n"; } } print WORKOUT "{sectionTitle}>\n\n"; } close WORKOUT; } # Usage: getClientFilename hostname section sub getClientFilename { my $cli = shift || die "Missing client name"; my $section = shift || die "Missing section hash"; return "$tmpdir/$cli-$section->{GROUP}.out" if ($params{USEGROUPS} && $section->{GROUP}); return "$tmpdir/$cli.out" } sub setConfigDefaults { # set CONFIG defaults # These are set after writing out the test copy to avoid clutter # Path to gnuplot executable $params{GNUPLOT}="gnuplot/gnuplot" unless ($params{GNUPLOT}); # This is the directory the client lives in $params{TEMPDIR} = "/var/tmp" unless($params{TEMPDIR}); # Set default remote shell #$params{RSH} = "/usr/bin/rsh" $params{RSH} = "ssh" unless($params{RSH}); # Set default remote copy #$params{RCP} = "/usr/bin/rcp" $params{RCP} = "scp" unless($params{RCP}); # Size of generated gifs $params{CHARTHEIGHT} = 480 unless($params{CHARTHEIGHT}); $params{CHARTWIDTH} = 640 unless($params{CHARTWIDTH}); $params{CHARTPOINTS} = int (($params{CHARTWIDTH}-60)*0.8) unless($params{CHARTPOINTS}); # The name of the remote executable $params{CLIENTCOMMAND} = "mailclient" unless ($params{CLIENTCOMMAND}); # Set default monitoring command $params{MONITORCOMMAND} = "vmstat %f" unless($params{MONITORCOMMAND}); # Set default switches to makeusers $params{MAKEUSERSARGS} = "-4" unless ($params{MAKEUSERSARGS}); # Figure out @protocols, this sets the report order @protocols = (); { my %skipH; foreach $s (@nonProtocolSections) { # turn list into a hash #print "$s "; $skipH{(uc $s)} = $s; # fix case for index } print "\n"; foreach $sparm (@workload) { # each hash reference in the list next if ($skipH{$sparm->{"sectionTitle"}}); ($params{DEBUG}) && print "Found protocol ". $sparm->{"sectionTitle"} . "\n"; push @protocols, $sparm->{"sectionTitle"}; # add to skip list so only added once $skipH{(uc $sparm->{"sectionTitle"})} = $sparm->{"sectionTitle"}; } } @protocolsAll = @protocols; push @protocolsAll, "Total"; # figure out the graphs ??? } sub parseArgs { # get args while (@ARGV) { my $arg = shift(@ARGV); if ($arg =~ /^-a$/i) { # was undocumented feature in 4.1 $params{ADDGRAPHS} = shift(@ARGV); # extra graphs next; } if ($arg =~ /^-b$/i) { $params{TITLE} = shift(@ARGV); # banner next; } # BACK COMPATIBILITY (everything now in the saved workload file) if ($arg =~ /^-c$/i) { # config file, read when encountered my $configFile = shift(@ARGV); readConfigFile ($configFile); next; } if ($arg =~ /^-d$/i) { $params{DEBUG}++; # Debug next; } if ($arg =~ /^-h$/i) { # Help print "Usage: -w workfile [-t time] [-r ramptime] [-l load] [-v] [-d]\n"; print "\t[-b banner] [-n notes] [-s sysconfigfile] [-a add_graphs_file]\n"; print "\t[-c configfile] [-m machinefile] [-z] [PARAM=value]...\n"; die "Usage"; } if ($arg =~ /^-l$/i) { # "load", FIX: naming conventions $params{CLIENTCOUNT} = shift(@ARGV); # desired client count next; } # BACK COMPATIBILITY (everything now in the saved workload file) if ($arg =~ /^-m$/i) { $params{TESTBED} = shift(@ARGV); # testbed machines file next; } if ($arg =~ /^-n$/i) { $params{COMMENTS} = shift(@ARGV); # notes next; } if ($arg =~ /^-r$/i) { $params{RAMPTIME} = shift(@ARGV); # ramptime next; } if ($arg =~ /^-s$/i) { $params{SYSCONFIG} = shift(@ARGV); # system config html file next; } if ($arg =~ /^-t$/i) { $params{TIME} = shift(@ARGV); # test time next; } if ($arg =~ /^-v$/i) { $params{VERBOSE} = 1; # verbose mode next; } if ($arg =~ /^-w$/i) { # workload file (may occur multiple times) my $f = shift(@ARGV); readWorkloadFile ($f, \@workload) || die "Error reading workload: $@\n"; $params{WORKLOAD} = $f; next; } if ($arg =~ /^-z$/i) { $params{NT} = 1; # NT mode next; } # any other CONFIG parameter: FIELD=value if ($arg =~ /^(\w+)=(\S.*)$/) { my $field = uc $1; $params{$field} = $2; next; } die "Unknown argument '$arg'"; } if ($params{NT}) { # should use Cwd module $cwd = `cd`; # NT get current directory $cwd = `pwd` unless ($cwd); # in case we are really on UNIX } else { $cwd = `pwd`; # in case we are really on UNIX } chomp $cwd; # strip NL } return 1;