index 92dd941fc01a4961bbba81c5081f6c228c663680..fa523bdfb1ecb6002a4ef8d0fb44f1cb94c68c37 100644 (file)
D\bDE\bES\bSC\bCR\bRI\bIP\bPT\bTI\bIO\bON\bN
For your convenience some of the commands are explained here by using
D\bDE\bES\bSC\bCR\bRI\bIP\bPT\bTI\bIO\bON\bN
For your convenience some of the commands are explained here by using
- detailed examples. They are not always cut-and-paste ready because com-
- ments are intermixed with the examples.
+ detailed examples. They are not always cut-and-paste ready because
+ comments are intermixed with the examples.
E\bEX\bXA\bAM\bMP\bPL\bLE\bES\bS
E\bEX\bXA\bAM\bMP\bPL\bLE\bES\bS
- D\bDa\bat\bta\ba w\bwi\bit\bth\bh m\bmu\bul\blt\bti\bip\bpl\ble\be r\bre\bes\bso\bol\blu\but\bti\bio\bon\bns\bs
-
+ D\bDa\bat\bta\ba w\bwi\bit\bth\bh m\bmu\bul\blt\bti\bip\bpl\ble\be r\bre\bes\bso\bol\blu\but\bti\bio\bon\bns\bs
--end now --start end-120000s --width 400
DEF:ds0a=/home/rrdtool/data/router1.rrd:ds0:AVERAGE
DEF:ds0b=/home/rrdtool/data/router1.rrd:ds0:AVERAGE:step=1800
--end now --start end-120000s --width 400
DEF:ds0a=/home/rrdtool/data/router1.rrd:ds0:AVERAGE
DEF:ds0b=/home/rrdtool/data/router1.rrd:ds0:AVERAGE:step=1800
LINE1:ds0b#00CCFF:"resolution 1800 seconds per interval\l"
LINE1:ds0c#FF00FF:"resolution 7200 seconds per interval\l"
LINE1:ds0b#00CCFF:"resolution 1800 seconds per interval\l"
LINE1:ds0c#FF00FF:"resolution 7200 seconds per interval\l"
- N\bNi\bic\bce\bel\bly\by f\bfo\bor\brm\bma\bat\btt\bte\bed\bd l\ble\beg\bge\ben\bnd\bd s\bse\bec\bct\bti\bio\bon\bn
-
+ N\bNi\bic\bce\bel\bly\by f\bfo\bor\brm\bma\bat\btt\bte\bed\bd l\ble\beg\bge\ben\bnd\bd s\bse\bec\bct\bti\bio\bon\bn
DEF:ds0=/home/rrdtool/data/router1.rrd:ds0:AVERAGE
DEF:ds1=/home/rrdtool/data/router1.rrd:ds1:AVERAGE
VDEF:ds0max=ds0,MAXIMUM
DEF:ds0=/home/rrdtool/data/router1.rrd:ds0:AVERAGE
DEF:ds1=/home/rrdtool/data/router1.rrd:ds1:AVERAGE
VDEF:ds0max=ds0,MAXIMUM
GPRINT:ds1min:"%6.2lf %Sbps"
GPRINT:ds1pct:"%6.2lf %Sbps\l"
GPRINT:ds1min:"%6.2lf %Sbps"
GPRINT:ds1pct:"%6.2lf %Sbps\l"
- O\bOf\bff\bfs\bse\bet\btt\bti\bin\bng\bg a\ba l\bli\bin\bne\be o\bon\bn t\bth\bhe\be y\by-\b-a\bax\bxi\bis\bs
-
+ O\bOf\bff\bfs\bse\bet\btt\bti\bin\bng\bg a\ba l\bli\bin\bne\be o\bon\bn t\bth\bhe\be y\by-\b-a\bax\bxi\bis\bs
Depending on your needs you can do this in two ways:
Depending on your needs you can do this in two ways:
- · Offset the data, then graph this
+ · Offset the data, then graph this
DEF:mydata=my.rrd:ds:AVERAGE
DEF:mydata=my.rrd:ds:AVERAGE
CDEF:data=mydata,100,+
LINE1:data#FF0000:"Data with offset"
CDEF:data=mydata,100,+
LINE1:data#FF0000:"Data with offset"
- · Graph the original data, with an offset
+ · Graph the original data, with an offset
DEF:mydata=my.rrd:ds:AVERAGE
DEF:mydata=my.rrd:ds:AVERAGE
LINE1:data#FF0000:"Data with offset":STACK
LINE1:data#FF0000:"Data with offset":STACK
- D\bDr\bra\baw\bwi\bin\bng\bg d\bda\bas\bsh\bhe\bed\bd l\bli\bin\bne\bes\bs
-
+ D\bDr\bra\baw\bwi\bin\bng\bg d\bda\bas\bsh\bhe\bed\bd l\bli\bin\bne\bes\bs
Also works for HRULE and VRULE
Also works for HRULE and VRULE
- · default style: - - - - -
+ · default style: - - - - -
LINE1:data#FF0000:"dashed line":dashes
LINE1:data#FF0000:"dashed line":dashes
- · more fancy style with offset: - - --- - --- -
+ · more fancy style with offset: - - --- - --- -
LINE1:data#FF0000:"another dashed
line":dashes=15,5,5,10:dash-offset=10
LINE1:data#FF0000:"another dashed
line":dashes=15,5,5,10:dash-offset=10
- T\bTi\bim\bme\be r\bra\ban\bng\bge\bes\bs
-
+ T\bTi\bim\bme\be r\bra\ban\bng\bge\bes\bs
Last four weeks: --start end-4w --end 00:00
January 2001: --start 20010101 --end start+31d
January 2001: --start 20010101 --end 20010201
Last four weeks: --start end-4w --end 00:00
January 2001: --start 20010101 --end start+31d
January 2001: --start 20010101 --end 20010201
Last 24 hours: <nothing at all>
Yesterday: --end 00:00
Last 24 hours: <nothing at all>
Yesterday: --end 00:00
- V\bVi\bie\bew\bwi\bin\bng\bg t\bth\bhe\be c\bcu\bur\brr\bre\ben\bnt\bt a\ban\bnd\bd p\bpr\bre\bev\bvi\bio\bou\bus\bs w\bwe\bee\bek\bk t\bto\bog\bge\bet\bth\bhe\ber\br
-
+ V\bVi\bie\bew\bwi\bin\bng\bg t\bth\bhe\be c\bcu\bur\brr\bre\ben\bnt\bt a\ban\bnd\bd p\bpr\bre\bev\bvi\bio\bou\bus\bs w\bwe\bee\bek\bk t\bto\bog\bge\bet\bth\bhe\ber\br
--end now --start end-1w
DEF:thisweek=router.rrd:ds0:AVERAGE
DEF:lastweek=router.rrd:ds0:AVERAGE:end=now-1w:start=end-1w
--end now --start end-1w
DEF:thisweek=router.rrd:ds0:AVERAGE
DEF:lastweek=router.rrd:ds0:AVERAGE:end=now-1w:start=end-1w
AREA:lastweek#0000FF:Last\ week
LINE1:thisweek#FF0000:This\ week
AREA:lastweek#0000FF:Last\ week
LINE1:thisweek#FF0000:This\ week
- A\bAb\bbe\ber\brr\bra\ban\bnt\bt B\bBe\beh\bha\bav\bvi\bio\bou\bur\br D\bDe\bet\bte\bec\bct\bti\bio\bon\bn
-
+ A\bAb\bbe\ber\brr\bra\ban\bnt\bt B\bBe\beh\bha\bav\bvi\bio\bou\bur\br D\bDe\bet\bte\bec\bct\bti\bio\bon\bn
If the specialized function R\bRR\bRA\bAs\bs exist for aberrant behavior detection,
they can be used to generate the graph of a time series with confidence
bands and failures.
If the specialized function R\bRR\bRA\bAs\bs exist for aberrant behavior detection,
they can be used to generate the graph of a time series with confidence
bands and failures.
LINE1:scaledlower#ff0000:"Lower Confidence Bound: Average bits out"
This example generates a graph of the data series in blue (LINE2 with
LINE1:scaledlower#ff0000:"Lower Confidence Bound: Average bits out"
This example generates a graph of the data series in blue (LINE2 with
- the scaledobs virtual data source), confidence bounds in red (scaledup-
- per and scaledlower virtual data sources), and potential failures (i.e.
- potential aberrant aberrant behavior) marked by vertical yellow lines
- (the fail data source).
+ the scaledobs virtual data source), confidence bounds in red
+ (scaledupper and scaledlower virtual data sources), and potential
+ failures (i.e. potential aberrant aberrant behavior) marked by vertical
+ yellow lines (the fail data source).
The raw data comes from an AVERAGE R\bRR\bRA\bA, the finest resolution of the
observed time series (one consolidated data point per primary data
point). The predicted (or smoothed) values are stored in the HWPREDICT
R\bRR\bRA\bA. The predicted deviations (think standard deviation) values are
The raw data comes from an AVERAGE R\bRR\bRA\bA, the finest resolution of the
observed time series (one consolidated data point per primary data
point). The predicted (or smoothed) values are stored in the HWPREDICT
R\bRR\bRA\bA. The predicted deviations (think standard deviation) values are
- stored in the DEVPREDICT R\bRR\bRA\bA. Finally, the FAILURES R\bRR\bRA\bA contains indi-
- cators, with 1 denoting a potential failure.
+ stored in the DEVPREDICT R\bRR\bRA\bA. Finally, the FAILURES R\bRR\bRA\bA contains
+ indicators, with 1 denoting a potential failure.
All of the data is rescaled to bits (instead of Octets) by multiplying
by 8. The confidence bounds are computed by an offset of 2 deviations
All of the data is rescaled to bits (instead of Octets) by multiplying
by 8. The confidence bounds are computed by an offset of 2 deviations
_\bA _\bn_\bo_\bt_\be _\bo_\bn _\bd_\ba_\bt_\ba _\br_\be_\bd_\bu_\bc_\bt_\bi_\bo_\bn_\b:
_\bA _\bn_\bo_\bt_\be _\bo_\bn _\bd_\ba_\bt_\ba _\br_\be_\bd_\bu_\bc_\bt_\bi_\bo_\bn_\b:
- The r\brr\brd\bdt\bto\boo\bol\bl _\bg_\br_\ba_\bp_\bh command is designed to plot data at a specified tem-
- poral resolution, regardless of the actually resolution of the data in
- the RRD file. This can present a problem for the specialized consoli-
- dation functions which maintain a one-to-one mapping between primary
- data points and consolidated data points. If a graph insists on viewing
- the contents of these R\bRR\bRA\bAs\bs on a coarser temporal scale, the _\bg_\br_\ba_\bp_\bh com-
- mand tries to do something intelligent, but the confidence bands and
- failures no longer have the same meaning and may be misleading.
+ The r\brr\brd\bdt\bto\boo\bol\bl _\bg_\br_\ba_\bp_\bh command is designed to plot data at a specified
+ temporal resolution, regardless of the actually resolution of the data
+ in the RRD file. This can present a problem for the specialized
+ consolidation functions which maintain a one-to-one mapping between
+ primary data points and consolidated data points. If a graph insists on
+ viewing the contents of these R\bRR\bRA\bAs\bs on a coarser temporal scale, the
+ _\bg_\br_\ba_\bp_\bh command tries to do something intelligent, but the confidence
+ bands and failures no longer have the same meaning and may be
+ misleading.
S\bSE\bEE\bE A\bAL\bLS\bSO\bO
rrdgraph gives an overview of how r\brr\brd\bdt\bto\boo\bol\bl g\bgr\bra\bap\bph\bh works. rrdgraph_data
S\bSE\bEE\bE A\bAL\bLS\bSO\bO
rrdgraph gives an overview of how r\brr\brd\bdt\bto\boo\bol\bl g\bgr\bra\bap\bph\bh works. rrdgraph_data
language used in the x\bxD\bDE\bEF\bF statements. rrdgraph_graph page describes
all the graph and print functions.
language used in the x\bxD\bDE\bEF\bF statements. rrdgraph_graph page describes
all the graph and print functions.
- Make sure to read rrdgraph_examples for tips&tricks.
-
A\bAU\bUT\bTH\bHO\bOR\bR
Program by Tobias Oetiker <tobi@oetiker.ch>
A\bAU\bUT\bTH\bHO\bOR\bR
Program by Tobias Oetiker <tobi@oetiker.ch>
- This manual page by Alex van den Bogaerdt <alex@ergens.op.het.net>
+ This manual page by Alex van den Bogaerdt <alex@vandenbogaerdt.nl> with
+ corrections and/or additions by several people
-1.3rc6 2008-03-25 RRDGRAPH_EXAMPLES(1)
+1.3.999 2009-05-10 RRDGRAPH_EXAMPLES(1)