suricata/qa/gnuplot/plot-csv-small-pcap-file.sh

#!/bin/bash
#
#
if [ "$1" = "" ]; then
    echo "call with location of csv file."
    exit 1;
fi

DRAW="lines"
gnuplot << EOF
set datafile separator ","
set terminal png size 1024,768
set output "$1.png"
set title "$1 ticks"
set key autotitle columnhead
set yrange [:]
set xrange [:]
set logscale y
plot "$1" using :4 with $DRAW, \
         "" using :11 with $DRAW, \
         "" using :14 with $DRAW, \
         "" using :15 with $DRAW, \
         "" using :20 with $DRAW, \
         "" using :28 with $DRAW, \
         "" using :32 with $DRAW, \
         "" using :40 with $DRAW
EOF
RESULT=$?
if [ "$RESULT" = "0" ]; then
    echo "PNG $1.png written"
fi
Add per packet profiling. Per packet profiling uses tick based accounting. It has 2 outputs, a summary and a csv file that contains per packet stats. Stats per packet include: 1) total ticks spent 2) ticks spent per individual thread module 3) "threading overhead" which is simply calculated by subtracting (2) of (1). A number of changes were made to integrate the new code in a clean way: a number of generic enums are now placed in tm-threads-common.h so we can include them from any part of the engine. Code depends on --enable-profiling just like the rule profiling code. New yaml parameters: profiling: # packet profiling packets: # Profiling can be disabled here, but it will still have a # performance impact if compiled in. enabled: yes filename: packet_stats.log append: yes # per packet csv output csv: # Output can be disabled here, but it will still have a # performance impact if compiled in. enabled: no filename: packet_stats.csv Example output of summary stats: IP ver Proto cnt min max avg ------ ----- ------ ------ ---------- ------- IPv4 6 19436 11448 5404365 32993 IPv4 256 4 11511 49968 30575 Per Thread module stats: Thread Module IP ver Proto cnt min max avg ------------------------ ------ ----- ------ ------ ---------- ------- TMM_DECODEPCAPFILE IPv4 6 19434 1242 47889 1770 TMM_DETECT IPv4 6 19436 1107 137241 1504 TMM_ALERTFASTLOG IPv4 6 19436 90 1323 155 TMM_ALERTUNIFIED2ALERT IPv4 6 19436 108 1359 138 TMM_ALERTDEBUGLOG IPv4 6 19436 90 1134 154 TMM_LOGHTTPLOG IPv4 6 19436 414 5392089 7944 TMM_STREAMTCP IPv4 6 19434 828 1299159 19438 The proto 256 is a counter for handling of pseudo/tunnel packets. Example output of csv: pcap_cnt,ipver,ipproto,total,TMM_DECODENFQ,TMM_VERDICTNFQ,TMM_RECEIVENFQ,TMM_RECEIVEPCAP,TMM_RECEIVEPCAPFILE,TMM_DECODEPCAP,TMM_DECODEPCAPFILE,TMM_RECEIVEPFRING,TMM_DECODEPFRING,TMM_DETECT,TMM_ALERTFASTLOG,TMM_ALERTFASTLOG4,TMM_ALERTFASTLOG6,TMM_ALERTUNIFIEDLOG,TMM_ALERTUNIFIEDALERT,TMM_ALERTUNIFIED2ALERT,TMM_ALERTPRELUDE,TMM_ALERTDEBUGLOG,TMM_ALERTSYSLOG,TMM_LOGDROPLOG,TMM_ALERTSYSLOG4,TMM_ALERTSYSLOG6,TMM_RESPONDREJECT,TMM_LOGHTTPLOG,TMM_LOGHTTPLOG4,TMM_LOGHTTPLOG6,TMM_PCAPLOG,TMM_STREAMTCP,TMM_DECODEIPFW,TMM_VERDICTIPFW,TMM_RECEIVEIPFW,TMM_RECEIVEERFFILE,TMM_DECODEERFFILE,TMM_RECEIVEERFDAG,TMM_DECODEERFDAG,threading 1,4,6,172008,0,0,0,0,0,0,47889,0,0,48582,1323,0,0,0,0,1359,0,1134,0,0,0,0,0,8028,0,0,0,49356,0,0,0,0,0,0,0,14337 First line of the file contains labels. 2 example gnuplot scripts added to plot the data. 13 years ago			`#!/bin/bash`
			`#`
			`#`
			`if [ "$1" = "" ]; then`
			`echo "call with location of csv file."`
			`exit 1;`
			`fi`

			`DRAW="lines"`
			`gnuplot << EOF`
			`set datafile separator ","`
			`set terminal png size 1024,768`
			`set output "$1.png"`
			`set title "$1 ticks"`
			`set key autotitle columnhead`
			`set yrange [:]`
			`set xrange [:]`
			`set logscale y`
			`plot "$1" using :4 with $DRAW, \`
			`"" using :11 with $DRAW, \`
			`"" using :14 with $DRAW, \`
			`"" using :15 with $DRAW, \`
			`"" using :20 with $DRAW, \`
			`"" using :28 with $DRAW, \`
			`"" using :32 with $DRAW, \`
			`"" using :40 with $DRAW`
			`EOF`
			`RESULT=$?`
			`if [ "$RESULT" = "0" ]; then`
			`echo "PNG $1.png written"`
			`fi`