#! no #makes things work when run without install use lib qw( ../perl-piped/blib/lib ../lib/perl ); #makes programm work AFTER install use lib qw( /usr/lib/perl ); use RRDp; # this simpulates a standard mrtg-2.x setup ... we can use this to # compare performance ... $main::DEBUG=0; $STEP = 300; $RUNS = 12*24*30*6; $GRUNS = 20; $RRD = "piped-demo.rrd"; $GIF = "piped-demo.gif"; $PNG = "piped-demo.png"; # some magic to find the correct rrdtol executable if ( -x "/usr/bin/rrdtool") { RRDp::start "/usr/bin/rrdtool"; } elsif ( -x "../bin/rrdtool") { RRDp::start "../bin/rrdtool"; } else { RRDp::start "../src/rrdtool"; } print "* Creating RRD with properties equivalent to mrtg-2.x logfile\n\n"; $START = time()-$RUNS*$STEP; RRDp::cmd "create $RRD -b $START -s $STEP DS:in:GAUGE:400:U:U DS:out:GAUGE:400:U:U RRA:AVERAGE:0.5:1:600 RRA:AVERAGE:0.5:6:600 RRA:MAX:0.5:6:600 RRA:AVERAGE:0.5:24:600 RRA:MAX:0.5:24:600 RRA:AVERAGE:0.5:144:600 RRA:MAX:0.5:144:600"; $answer = RRDp::read; ($user,$sys,$real) = ($RRDp::user,$RRDp::sys,$RRDp::real); print "* Filling RRD with $RUNS Values. One moment please ...\n"; print " If you are running over NFS this will take *MUCH* longer\n\n"; for ($i=$START+1; $i<$START+$STEP*$RUNS; $i+=$STEP+int((rand()-0.5)*7)){ $line = "update $RRD $i:".int(rand(100000)).":".int(rand(100000)); RRDp::cmd $line; $answer = RRDp::read; } ($user1,$sys1,$real1) = ($RRDp::user,$RRDp::sys,$RRDp::real); printf "-- performance analysis Update test\n". " usr/upd: %1.5fs sys/upd: %1.5fs real/upd: %1.5fs upd/sec: %1.0f\n", ($user1-$user)/($RUNS), ($sys1-$sys)/($RUNS), ($real1-$real)/($RUNS), ($RUNS)/($real1-$real); print "\n"; # creating some graphs print "* Creating $GRUNS GIF graphs: $GIF\n\n"; $now = time; for ($i=0;$i<$GRUNS;$i++) { RRDp::cmd "graph $GIF ", "--title 'Test GRAPH' ", "--height 150 --vertical-label 'Dummy Units' ". "--start now".(-$RUNS*$STEP), "--color ARROW#bfbfbf", "DEF:alpha=$RRD:in:AVERAGE", "DEF:beta=$RRD:out:AVERAGE", "CDEF:calc=alpha,beta,+,1.5,/", "AREA:alpha#0022e9:Alpha", "STACK:beta#00b871:Beta", "STACK:calc#ff0091:Calc\\j", "PRINT:alpha:AVERAGE:'Average Alpha\\: %1.2lf %S'", "PRINT:alpha:MIN:'Min Alpha\\: %1.2lf %S'", "PRINT:alpha:MAX:'Max Alpha\\: %1.2lf %S'", "GPRINT:calc:AVERAGE:'Average calc\\: %1.2lf %S\\r'", "GPRINT:calc:MIN:'Min calc\\: %1.2lf %S'", "GPRINT:calc:MAX:'Max calc\\: %1.2lf %S'", "VRULE:".($now-3600)."#008877:'60 Minutes ago'", "COMMENT:'\\s'", "COMMENT:'Graph created on: ".localtime(time())."\\c'"; $answer = RRDp::read; } ($user2,$sys2,$real2) = ($RRDp::user,$RRDp::sys,$RRDp::real); print "ANSWER:\n$$answer"; printf "\n-- average Time for one Graph\n". " usr/grf: %1.5fs sys/grf: %1.5fs real/grf: %1.5fs graphs/sec: %1.2f\n", ($user2-$user1)/$GRUNS, ($sys2-$sys1)/$GRUNS, ($real2-$real1)/$GRUNS, $GRUNS/($real2-$real1); print "\n\n* Creating $GRUNS PNG graphs: $PNG\n\n"; $now = time; ($user1,$sys1,$real1) = ($RRDp::user,$RRDp::sys,$RRDp::real); for ($i=0;$i<$GRUNS;$i++) { RRDp::cmd "graph $PNG ", "--title 'Test GRAPH' ", "--imgformat PNG --height 150 --vertical-label 'Dummy Units' ". "--start now".(-$RUNS*$STEP), "--color ARROW#bfbfbf", "DEF:alpha=$RRD:in:AVERAGE", "DEF:beta=$RRD:out:AVERAGE", "CDEF:calc=alpha,beta,+,1.5,/", "AREA:alpha#0022e9:Alpha", "STACK:beta#00b871:Beta", "STACK:calc#ff0091:Calc\\j", "PRINT:alpha:AVERAGE:'Average Alpha\\: %1.2lf %S'", "PRINT:alpha:MIN:'Min Alpha\\: %1.2lf %S'", "PRINT:alpha:MAX:'Max Alpha\\: %1.2lf %S'", "GPRINT:calc:AVERAGE:'Average calc\\: %1.2lf %S\\r'", "GPRINT:calc:MIN:'Min calc\\: %1.2lf %S'", "GPRINT:calc:MAX:'Max calc\\: %1.2lf %S'", "VRULE:".($now-3600)."#008877:'60 Minutes ago'", "COMMENT:'\\s'", "COMMENT:'Graph created on: ".localtime(time())."\\c'"; $answer = RRDp::read; } ($user2,$sys2,$real2) = ($RRDp::user,$RRDp::sys,$RRDp::real); print "ANSWER:\n$$answer"; printf "\n-- average Time for one PNG Graph\n". " usr/grf: %1.5fs sys/grf: %1.5fs real/grf: %1.5fs". " graphs/sec: %1.2f\n\n", ($user2-$user1)/$GRUNS, ($sys2-$sys1)/$GRUNS, ($real2-$real1)/$GRUNS, $GRUNS/($real2-$real1); RRDp::end;