1MRTG-SQUID(1) mrtg MRTG-SQUID(1)
2
3
4
6 mrtg-squid - using mrtg to monitor Squid
7
9 Squid 2.3 knows SNMP and you can therefore use mrtg to monitor it quite
10 easily.
11
12 I have made some modifications to mrtg which simplify this. My work is
13 based on earlier modification made by: matija.grabnar@arnes.si and
14 kostas@nlanr.net.
15
17 I added new code for displaying correct units to the previous patches
18 "perminute" and "perhour" ("option" tokens), which allows other mea‐
19 surement in addition to "persecond".
20
21 Then I created a new option token "dorelpercent" which allows the cal‐
22 culation of the percentage of IN-stream / OUT-stream on the fly and
23 then displays it on a fixed scale from 0% to 100%. For my requirements,
24 this does good work. Maybe someone wants a floating scale. It should
25 not be a problem to implement it, too (but give me an option to keep my
26 fixed scale). If IN-stream is always less than OUT-stream both lines
27 (OUT-stream and relative percent) are always displayed on top of IN-
28 stream bulk. Otherwise this option makes no sense. With this option you
29 can display hitrates, errorrates (for router monitoring: rel.
30 droprates) easily now.
31
32 If you use this options please consider that you need a 5th colour‐
33 name/value pair in your Colours statements!
34
35 Due to some discussion on this list, I have implemented two tokens too:
36
37 "kilo" and "kMG"
38
39 "kilo" should contain the value of k (1000 or 1024), where 1000 is the
40 default.
41
42 "kMG" is a comma separated list of multiplier prefixes, used instead of
43 "", "k", "M", "G", "T" on the MRTG display. Leave the place free, if
44 you want no prefix.
45
46 Also an incomplete list of OIDs for the new SQUID release is added.
47
48 I hope you enjoy it.
49
51 You can measure responsetimes in ms and display it with MRTG correctly
52 with:
53
54 kMG[measure-ms]: m,,k,M,G,T
55 short[measure-ms]: s
56
57 You can display now MB/s as 1024*1024 B/s with:
58
59 kilo[volume]: 1024
60
61 A sample config for squid:
62
63 Target[proxy-hit]: cacheHttpHits&cacheProtoClientHttpRequests:public@proxy
64 Title[proxy-hit]: HTTP Hits
65 PageTop[proxy-hit]: <H2>proxy Cache Statistics: HTTP Hits / Requests</H2>
66 Suppress[proxy-hit]: y
67 LegendI[proxy-hit]: HTTP hits
68 LegendO[proxy-hit]: HTTP requests
69 Legend1[proxy-hit]: HTTP hits
70 Legend2[proxy-hit]: HTTP requests
71 YLegend[proxy-hit]: perminute
72 ShortLegend[proxy-hit]: req/min
73 Options[proxy-hit]: nopercent, perminute, dorelpercent
74
75 Target[proxy-srvkbinout]: cacheServerInKb&cacheServerOutKb:public@proxy
76 Title[proxy-srvkbinout]: Cache Server Traffic In / Out
77 PageTop[proxy-srvkbinout]: <H2>Cache Statistics: Server traffic volume (In/Out) </H2>
78 Suppress[proxy-srvkbinout]: y
79 LegendI[proxy-srvkbinout]: Traffic In
80 LegendO[proxy-srvkbinout]: Traffic Out
81 Legend1[proxy-srvkbinout]: Traffic In
82 Legend2[proxy-srvkbinout]: Traffic Out
83 YLegend[proxy-srvkbinout]: per minute
84 ShortLegend[proxy-srvkbinout]: b/min
85 kMG[proxy-srvkbinout]: k,M,G,T
86 kilo[proxy-srvkbinout]: 1024
87 Options[proxy-srvkbinout]: nopercent, perminute
88
90 Andreas Papst <andreas.papst@univie.ac.at> Dirk-Lüder Kreie
91 <deelkar@gmx.de>
92
93
94
952.15.1 2007-02-01 MRTG-SQUID(1)