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Scaling large lists report

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Olof hagsand 2019-04-17 15:50:38 +02:00
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1
CHANGELOG.md
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@ -102,6 +102,7 @@
### Minor changes
* A scaling of [large lists](doc/scaling) report is added
* A new "hello world" example is added
* Optimized validation of large lists
* New xmldb_get1() returning actual cache - not a copy. This has lead to some householding instead of just deleting the copy

3
README.md
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@ -8,6 +8,7 @@ support.
* [Background](#background)
* [Frequently asked questions (FAQ)](doc/FAQ.md)
* [Hello world](example/hello/README.md)
* [Changelog](CHANGELOG.md)
* [Installation](#installation)
* [Licenses](#licenses)
@ -26,7 +27,7 @@ support.
* [Runtime](#runtime)
* [Clixon project page](http://www.clicon.org)
* [Tests and CI](test/README.md)
* [Scaling: large lists](doc/large-lists.md)
* [Scaling: large lists](doc/scaling/large-lists.md)
* [Containers](docker/README.md)
* [Roadmap](doc/ROADMAP.md)
* [Reference manual](#reference)

134
doc/large-lists.md
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@ -1,134 +0,0 @@
# Large lists in Clixon
* [Background](#background)
* [Overview](#overview)
* [Test descriptions]#test-descriptions)
## Background
Clixon is a configuration management tool. In this paper the case of
a large number of "flat" list and leaf-list entries are investigated.
There may be other scaling usecases, such as large configuratin
"depth", large number of requesting clients, etc. However, these are
not investigated here.
## Overview
The basic case is a large list, according to the following Yang specification:
```
list y {
key "a";
leaf a {
type int32;
}
leaf b {
type string;
}
}
```
where `a` is a unique key and `b` is a payload, useful in replace operations.
There is also a leaf-list as follows:
```
leaf-list c {
type string;
}
```
XML lists with `N` elements are generated based on
this configuration, eg for `N=10`:
```
<y><a>0</a><b>0</b></y>
<y><a>1</a><b>1</b></y>
<y><a>2</a><b>2</b></y>
<y><a>3</a><b>3</b></y>
<y><a>4</a><b>4</b></y>
<y><a>5</a><b>5</b></y>
<y><a>6</a><b>6</b></y>
<y><a>7</a><b>7</b></y>
<y><a>8</a><b>8</b></y>
<y><a>9</a><b>9</b></y>
```
Requests are made using a random function, a request on the list above will on the form:
```
curl -G http://localhost/restconf/data/y=(rnd%$N)
```
## Test descriptions
### Limitations
Test were not made using CLI interaction.
### Setup
The setup consisted of the following components running on the same machine:
* A clixon backend daemon
* A clixon restconf daemon
* An nginx daemon daemon
* A netconf client program
* curl client
* A bash terminal and test script [plot_perf.sh](../test/plot_perf.sh)
* Gnuplot for generating plots
### Config file
The following Clixon config file was used:
```
<clixon-config xmlns="http://clicon.org/config">
<CLICON_CONFIGFILE>$cfg</CLICON_CONFIGFILE>
<CLICON_YANG_DIR>$dir</CLICON_YANG_DIR>
<CLICON_YANG_DIR>/usr/local/share/clixon</CLICON_YANG_DIR>
<CLICON_YANG_MODULE_MAIN>scaling</CLICON_YANG_MODULE_MAIN>
<CLICON_SOCK>/usr/local/var/example/example.sock</CLICON_SOCK>
<CLICON_BACKEND_PIDFILE>/usr/local/var/example/example.pidfile</CLICON_BACKEND_PIDFILE>
<CLICON_RESTCONF_PRETTY>false</CLICON_RESTCONF_PRETTY>
<CLICON_XMLDB_DIR>$dir</CLICON_XMLDB_DIR>
<CLICON_XMLDB_PRETTY>false</CLICON_XMLDB_PRETTY>
</clixon-config>
```
where `$dir` and `$cfg`are local files. For more info see [plot_perf.sh].
### Testcases
All tests measure the "real" time of a command on a lightly loaded
machine using the Linux command `time(1)`.
The following tests were made (for each architecture and protocol):
* Write `N` entries in one single operation. (With an empty datastore)
* Read `N` entries in one single operation. (With a datastore of `N` entries)
* Commit `N` entries (With a candidate of `N` entries and empty running)
* Read 1 entry (In a datastore of `N` entries)
* Write/Replace 1 entry (In a datastore of `N` entries)
* Delete 1 entry (In a datastore of `N` entries)
### Protocols
The tests are made using:
* Netconf[RFC6241] and
* Restconf[RFC8040].
Notably, CLI tests are for future study.
### Architectures
The tests were made on the following hardware, all running Ubuntu Linux:
* [i686] dual Intel Core Duo processor (IBM Thinkpad X60), 3GB memory
* arm 32-bit (Raspberry PI 3)
* x86 64-bit (Intel NUC)
### Operating systems
On i686:
```
Linux version 4.4.0-143-generic (buildd@lgw01-amd64-037) (gcc version 5.4.0 20160609 (Ubuntu 5.4.0-6ubuntu1~16.04.10) ) #169-Ubuntu SMP Thu Feb 7 07:56:51 UTC 2019
```
## Results
## References
[RFC6241](https://tools.ietf.org/html/rfc6241) "Network Configuration Protocol (NETCONF)"
[RFC8040](https://tools.ietf.org/html/rfc8040) "RESTCONF Protocol"
[i686](https://ark.intel.com/content/www/us/en/ark/products/27235/intel-core-duo-processor-t2400-2m-cache-1-83-ghz-667-mhz-fsb.html)
[plot_perf.sh](../test/plot_perf.sh) Test script

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@ -0,0 +1,131 @@
# Large lists in Clixon
* [Background](#background)
* [Overview](#overview)
* [Test descriptions](#test-descriptions)
* [Results](#results)
* [References](#references)
## Background
CIixon can handle large configurations. Here, large number of elements
in a "flat" list is presented. There are other scaling usecases,
such as large configuratin "depth", large number of requesting
clients, etc.
## Overview
The basic case is a large list, according to the following Yang specification:
```
container x {
description "top-level container";
list y {
description "List with potential large number of elements";
key "a";
leaf a {
description "key in list";
type int32;
}
leaf b {
description "payload data";
type string;
}
}
}
```
where `a` is a unique key and `b` is a payload, useful in replace operations.
XML lists with `N` elements are generated based on
this configuration, eg for `N=10`:
```
<y><a>0</a><b>0</b></y>
<y><a>1</a><b>1</b></y>
<y><a>2</a><b>2</b></y>
<y><a>3</a><b>3</b></y>
<y><a>4</a><b>4</b></y>
<y><a>5</a><b>5</b></y>
<y><a>6</a><b>6</b></y>
<y><a>7</a><b>7</b></y>
<y><a>8</a><b>8</b></y>
<y><a>9</a><b>9</b></y>
```
Requests are either made over the _whole_ dataset, or for one specific element. The following example shows a Restconf GET operation of a single element:
```
curl -X GET http://localhost/restconf/data/scaling:x/y=3
{"scaling:y": [{"a": 3,"b": "3"}]}
```
Operations of single elements (transactions) are made in a burst of
random elements, typically 100.
## Tests
All details of the setup are in the [test script](../../test/plot_perf.sh).
### Testcases
All tests measure the "real" time of a command on a lightly loaded
machine using the Linux command `time(1)`.
The following tests were made (for each architecture and protocol):
* Write `N` entries in one single operation. (With an empty datastore)
* Read `N` entries in one single operation. (With a datastore of `N` entries)
* Commit `N` entries (With a candidate of `N` entries and empty running)
* Read 1 entry (In a datastore of `N` entries)
* Write/Replace 1 entry (In a datastore of `N` entries)
* Delete 1 entry (In a datastore of `N` entries)
The tests are made using Netconf and Restconf, except commit which is made only for Netconf.
### Architecture and OS
The tests were made on the following hardware, all running Ubuntu Linux:
* i686: dual Intel Core Duo processor (IBM Thinkpad X60)
* arm: ARMv7 Processor rev 5 (v7l) (Raspberry PI 2 Model B)
* x86-64: Intel Quad-core I5-8259U (Intel NUC Coffee Lake)
i686: Ubuntu 16.04.6 LTS
```
Linux version 4.4.0-143-generic (buildd@lgw01-amd64-037) (gcc version 5.4.0 20160609 (Ubuntu 5.4.0-6ubuntu1~16.04.10) ) #169-Ubuntu SMP Thu Feb 7 07:56:51 UTC 2019
```
Arm : Raspbian GNU/Linux 9
```
Linux version 4.14.79-v7+ (dc4@dc4-XPS13-9333) (gcc version 4.9.3 (crosstool-NG crosstool-ng-1.22.0-88-g8460611)) #1159 SMP Sun Nov 4 17:50:20 GMT 2018
```
x86_64: Ubuntu 18.04.1 LTS
```
inux version 4.15.0-47-generic (buildd@lgw01-amd64-001) (gcc version 7.3.0 (Ubuntu 7.3.0-16ubuntu3)) #50-Ubuntu SMP Wed Mar 13 10:44:52 UTC 2019
```
## Results
![Get config](clixon-get-0.png "Get config")
![Put config](clixon-put-0.png "Put config")
![Commit config](clixon-commit-0.png "Commit config")
![Get single entry](clixon-get-100.png "Get single entry")
![Put single entry](clixon-put-100.png "Put single entry")
![Delete single entry](clixon-delete-100.png "Delete single entry")
## Discussion
## References
[RFC6241](https://tools.ietf.org/html/rfc6241) "Network Configuration Protocol (NETCONF)"
[RFC8040](https://tools.ietf.org/html/rfc8040) "RESTCONF Protocol"
[i686](https://ark.intel.com/content/www/us/en/ark/products/27235/intel-core-duo-processor-t2400-2m-cache-1-83-ghz-667-mhz-fsb.html)
[plot_perf.sh](../test/plot_perf.sh) Test script

3
example/README.md
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@ -1,6 +1,5 @@
# Clixon examples
Clixon have the following examples:
* [Main example](main/README.md)
* [Hello world](hello/README.md)
* [Main example](main/README.md)

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test/plot_perf.sh
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@ -1,39 +1,34 @@
#!/bin/bash
# Transactions per second for large lists read/write plotter using gnuplot
# What do I want to plot?
# First: on i32, i64, arm32
# PART 1: Basic load
# 1. How long to write 100K entries?
# - netconf / restconf
# - list / leaf-list
# 2. How long to read 100K entries?
# - netconf/ restconf
# - list / leaf-list
# 3. How long to commit 100K entries? (netconf)
# - list / leaf-list
#
# PART 2: Load 100K entries. Commit.
# 4. How many read operations per second?
# - netconf/ restconf
# - list / leaf-list
# 5. How many write operations per second?
# - netconf / restconf
# - list / leaf-list
# 6. How may delete operations per second?
# - netconf / restconf
# - list / leaf-list
# The script uses bash builtin "time" command which is somewhat difficult to
# understand. See: https://linux.die.net/man/1/bash # pipelines
# You essentially have to do: { time stuff; } 2>&1
# See: https://stackoverflow.com/questions/26784870/parsing-the-output-of-bashs-time-builtin
# Performance of large lists. See large-lists.md
# The parameters are shown below (under Default values)
# Examples
# 1. run all measurements up to 10000 entris collect all results in /tmp/plots
# run=true plot=false to=10000 resdir=/tmp/plots ./plot_perf.sh
# 2. Use existing data plot and show on X11
# run=false plot=true resdir=/tmp/plots term=x11 ./plot_perf.sh
# 3. Use existing data plot i686 and armv7l data as png
# archs="i686 armv7l" run=false plot=true resdir=/tmp/plots term=png ./plot_perf.sh
# Magic line must be first in script (see README.md)
s="$_" ; . ./lib.sh || if [ "$s" = $0 ]; then exit 0; else return 0; fi
# op from step to reqs
to=1000
step=100
reqs=100
arch=$(arch)
# Default values
: ${to:=5000} # Max N
: ${step=1000} # Iterate in steps (also starting point)
: ${reqs=100} # Number of requests in each burst
: ${run:=true} # run tests (or skip them). If false just plot
: ${term:=x11} # x11 interactive, alt: png
: ${resdir=$dir} # Result dir (both data and gnuplot)
: ${plot=false} # Result dir (both data and gnuplot)
: ${archs=$arch} # Plotting can be made for many architectures (not run)
# 0 prefix to protect against shell dynamic binding)
to0=$to
step0=$step
reqs0=$reqs
ext=$term # gnuplot output file extenstion
# Global variables
APPNAME=example
@ -42,6 +37,13 @@ fyang=$dir/plot.yang
fxml=$dir/data.xml
fjson=$dir/data.json
# Resultdir - if different from $dir that gets erased
#resdir=$dir
if [ ! -d $resdir ]; then
mkdir $resdir
fi
# For memcheck
# clixon_netconf="valgrind --leak-check=full --show-leak-kinds=all clixon_netconf"
# clixon_netconf="valgrind --tool=callgrind clixon_netconf
@ -53,19 +55,20 @@ module scaling{
namespace "urn:example:clixon";
prefix sc;
container x {
list y {
key "a";
leaf a {
type uint32;
description "top-level container";
list y {
description "List with potential large number of elements";
key "a";
leaf a {
description "key in list";
type int32;
}
leaf b {
description "payload data";
type string;
}
}
leaf b {
type string;
}
}
leaf-list c {
type string;
}
}
}
}
EOF
@ -109,48 +112,49 @@ genfile(){
# where proto is one of:
# netconf, restconf
# where op is one of:
# writeall readall commitall read write
# get put delete commit
runnet(){
op=$1
n=$2 # Number of entries in DB
nr=$2 # Number of entries in DB (keep diff from n due to shell dynamic binding)
reqs=$3
echo -n "$n " >> $dir/$op-netconf-$reqs
file=$resdir/$op-netconf-$reqs-$arch
echo -n "$nr " >> $file
case $op in
write)
put)
if [ $reqs = 0 ]; then # Write all in one go
genfile $n netconf;
{ time -p cat $fxml | $clixon_netconf -qf $cfg -y $fyang ; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-netconf-$reqs
genfile $nr netconf;
{ time -p cat $fxml | $clixon_netconf -qf $cfg -y $fyang ; } 2>&1 | awk '/real/ {print $2}' | tr , . >> $file
else # reqs != 0
{ time -p for (( i=0; i<$reqs; i++ )); do
rnd=$(( ( RANDOM % $n ) ));
rnd=$(( ( RANDOM % $nr ) ));
echo "<rpc><edit-config><target><candidate/></target><config><x xmlns=\"urn:example:clixon\"><y><a>$rnd</a><b>$rnd</b></y></x></config></edit-config></rpc>]]>]]>";
done | $clixon_netconf -qf $cfg -y $fyang ; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-netconf-$reqs
done | $clixon_netconf -qf $cfg -y $fyang > /dev/null; } 2>&1 | awk '/real/ {print $2}' | tr , . >> $file
fi
;;
read)
get)
if [ $reqs = 0 ]; then # Read all in one go
{ time -p echo "<rpc><get-config><source><running/></source></get-config></rpc>]]>]]>" | $clixon_netconf -qf $cfg -y $fyang > /dev/null ; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-netconf-$reqs
{ time -p echo "<rpc><get-config><source><running/></source></get-config></rpc>]]>]]>" | $clixon_netconf -qf $cfg -y $fyang > /dev/null ; } 2>&1 | awk '/real/ {print $2}' | tr , . >> $file
else # reqs != 0
{ time -p for (( i=0; i<$reqs; i++ )); do
rnd=$(( ( RANDOM % $nr ) ))
echo "<rpc><edit-config><target><candidate/></target><config><x><y><a>$rnd</a><b>$rnd</b></y></x></config></edit-config></rpc>]]>]]>"
done | $clixon_netconf -qf $cfg -y $fyang; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-netconf-$reqs
echo "<rpc><edit-config><target><candidate/></target><config><x xmlns=\"urn:example:clixon\"><y><a>$rnd</a><b>$rnd</b></y></x></config></edit-config></rpc>]]>]]>"
done | $clixon_netconf -qf $cfg -y $fyang > /dev/null; } 2>&1 | awk '/real/ {print $2}' | tr , . >> $file
fi
;;
delete)
{ time -p for (( i=0; i<$reqs; i++ )); do
rnd=$(( ( RANDOM % $nr ) ))
echo "<rpc><edit-config><target><candidate/></target><config><x><y><a>$rnd</a><b>$rnd</b></y></x></config></edit-config></rpc>]]>]]>"
done | $clixon_netconf -qf $cfg -y $fyang; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-netconf-$reqs
echo "<rpc><edit-config><target><candidate/></target><config><x xmlns=\"urn:example:clixon\"><y><a>$rnd</a><b>$rnd</b></y></x></config></edit-config></rpc>]]>]]>"
done | $clixon_netconf -qf $cfg -y $fyang; } 2>&1 | awk '/real/ {print $2}' | tr , . >> $file
;;
commit)
{ time -p echo "<rpc><commit/></rpc>]]>]]>" | $clixon_netconf -qf $cfg -y $fyang > /dev/null ; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-netconf-$reqs
{ time -p echo "<rpc><commit/></rpc>]]>]]>" | $clixon_netconf -qf $cfg -y $fyang > /dev/null ; } 2>&1 | awk '/real/ {print $2}' | tr , . >> $file
;;
*)
err "Operation not supported" "$op"
exit
;;
;;
esac
}
@ -159,43 +163,43 @@ done | $clixon_netconf -qf $cfg -y $fyang; } 2>&1 | awk '/real/ {print $2}' >> $
# where proto is one of:
# netconf, restconf
# where op is one of:
# writeall readall commitall read write
# get put delete
runrest(){
op=$1
n=$2 # Number of entries in DB
nr=$2 # Number of entries in DB
reqs=$3
echo -n "$n " >> $dir/$op-restconf-$reqs
file=$resdir/$op-restconf-$reqs-$arch
echo -n "$nr " >> $file
case $op in
write)
put)
if [ $reqs = 0 ]; then # Write all in one go
genfile $n restconf
genfile $nr restconf
# restconf @- means from stdin
{ time -p curl -sS -X PUT -d @$fjson http://localhost/restconf/data/scaling:x ; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-restconf-$reqs
{ time -p curl -sS -X PUT -d @$fjson http://localhost/restconf/data/scaling:x ; } 2>&1 | awk '/real/ {print $2}' | tr , . >> $file
else # Small requests
{ time -p for (( i=0; i<$reqs; i++ )); do
rnd=$(( ( RANDOM % $n ) ));
rnd=$(( ( RANDOM % $nr ) ));
curl -sS -X PUT http://localhost/restconf/data/scaling:x/y=$rnd -d "{\"scaling:y\":{\"a\":$rnd,\"b\":\"$rnd\"}}"
done ; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-restconf-$reqs
done ; } 2>&1 | awk '/real/ {print $2}' | tr , .>> $file
#
fi
;;
read)
get)
if [ $reqs = 0 ]; then # Read all in one go
{ time -p curl -sS -X GET http://localhost/restconf/data/scaling:x > /dev/null; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-restconf-$reqs
{ time -p curl -sS -X GET http://localhost/restconf/data/scaling:x > /dev/null; } 2>&1 | awk '/real/ {print $2}' | tr , . >> $file
else # Small requests
{ time -p for (( i=0; i<$reqs; i++ )); do
rnd=$(( ( RANDOM % $n ) ));
rnd=$(( ( RANDOM % $nr ) ));
curl -sS -X GET http://localhost/restconf/data/scaling:x/y=$rnd
done ; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-restconf-$reqs
done ; } 2>&1 | awk '/real/ {print $2}' | tr , .>> $file
fi
;;
delete)
delete)
{ time -p for (( i=0; i<$reqs; i++ )); do
rnd=$(( ( RANDOM % $n ) ));
rnd=$(( ( RANDOM % $nr ) ));
curl -sS -X GET http://localhost/restconf/data/scaling:x/y=$rnd
done ; } 2>&1 | awk '/real/ {print $2}' >> $dir/$op-restconf-$reqs
done ; } 2>&1 | awk '/real/ {print $2}' | tr , .>> $file
;;
*)
err "Operation not supported" "$op"
@ -246,8 +250,8 @@ plot(){
fi
# reset file
new "Create file $dir/$op-$proto-$reqs"
echo "" > $dir/$op-$proto-$reqs
new "Create file $resdir/$op-$proto-$reqs-$arch"
echo -n "" > $resdir/$op-$proto-$reqs-$arch
for (( n=$from; n<=$to; n=$n+$step )); do
reset
if [ $can = n ]; then
@ -256,7 +260,7 @@ plot(){
commit
fi
fi
new "$op-$proto-$reqs $n"
new "$op-$proto-$reqs-$arch $n"
if [ $proto = netconf ]; then
runnet $op $n $reqs
else
@ -266,6 +270,7 @@ plot(){
echo # newline
}
if $run; then
new "test params: -f $cfg -y $fyang"
if [ $BE -ne 0 ]; then
new "kill old backend"
@ -286,26 +291,35 @@ start_restconf -f $cfg -y $fyang
new "waiting"
sleep $RCWAIT
to=$to0
step=$step0
reqs=$reqs0
# Put all tests
for proto in netconf restconf; do
new "$proto write all entries to candidate (restconf:running)"
plot write $proto $step $step $to 0 0 0 # all candidate 0 running 0
new "$proto put all entries to candidate (restconf:running)"
plot put $proto $step $step $to 0 0 0 # all candidate 0 running 0
done
# Get all tests
for proto in netconf restconf; do
new "$proto read all entries from running"
plot read netconf $step $step $to 0 n n # start w full datastore
new "$proto get all entries from running"
plot get $proto $step $step $to 0 n n # start w full datastore
done
# Netconf commit all
new "Netconf commit all entries from candidate to running"
plot commit netconf $step $step $to 0 n 0 # candidate full running empty
reqs=100
# Transactions get/put/delete
reqs=$reqs0
for proto in netconf restconf; do
new "$proto read $reqs from full database"
plot read $proto $step $step $to $reqs n n
new "$proto get $reqs from full database"
plot get $proto $step $step $to $reqs n n
new "$proto Write $reqs to full database(replace / alter values)"
plot write $proto $step $step $to $reqs n n
new "$proto put $reqs to full database(replace / alter values)"
plot put $proto $step $step $to $reqs n n
new "$proto delete $reqs from full database(replace / alter values)"
plot delete $proto $step $step $to $reqs n n
@ -324,15 +338,127 @@ if [ $BE -ne 0 ]; then
# kill backend
stop_backend -f $cfg
fi
fi # if run
if $plot; then
# 1. Get config
gplot=""
for a in $archs; do
gplot="$gplot \"$resdir/get-restconf-0-$a\" title \"rc-$a\", \"$resdir/get-netconf-0-$a\" title \"nc-$a\","
done
arch=$(arch)
gnuplot -persist <<EOF
set title "Clixon transactions per second r/w large lists" font ",14" textcolor rgbcolor "royalblue"
set xlabel "entries"
set ylabel "transactions per second"
set terminal x11 enhanced title "Clixon transactions " persist raise
plot "$dir/readlist" with linespoints title "read list", "$dir/writelist" with linespoints title "write list", "$dir/writeleaflist" with linespoints title "write leaf-list" , "$dir/restreadlist" with linespoints title "rest get list"
set title "Clixon get config"
set style data linespoint
set xlabel "Entries"
set ylabel "Time[s]"
set grid
set terminal $term
set yrange [*:*]
set output "$resdir/clixon-get-0.$term"
plot $gplot
EOF
# 2. Put config
gplot=""
for a in $archs; do
gplot="$gplot \"$resdir/put-restconf-0-$a\" title \"rc-$a\", \"$resdir/put-netconf-0-$a\" title \"nc-$a\","
done
gnuplot -persist <<EOF
set title "Clixon put config"
set style data linespoint
set xlabel "Entries"
set ylabel "Time[s]"
set grid
set terminal $term
set yrange [*:*]
set output "$resdir/clixon-put-0.$term"
plot $gplot
EOF
# 3. Commit config
gplot=""
for a in $archs; do
gplot="$gplot \"$resdir/commit-netconf-0-$a\" title \"nc-$a\","
done
gnuplot -persist <<EOF
set title "Clixon commit config"
set style data linespoint
set xlabel "Entries"
set ylabel "Time[s]"
set grid
set terminal $term
set yrange [*:*]
set output "$resdir/clixon-commit-0.$term"
plot $gplot
EOF
# 4. Get single entry
gplot=""
for a in $archs; do
gplot="$gplot \"$resdir/get-restconf-100-$a\" using 1:(\$2/$reqs0) title \"rc-$a\", \"$resdir/get-netconf-100-$a\" using 1:(\$2/$reqs0) title \"nc-$a\","
done
gnuplot -persist <<EOF
set title "Clixon get single entry"
set style data linespoint
set xlabel "Entries"
set ylabel "Time[s]"
set grid
set terminal $term
set yrange [*:*]
set output "$resdir/clixon-get-100.$term"
plot $gplot
EOF
# 5. Put single entry
gplot=""
for a in $archs; do
gplot="$gplot \"$resdir/put-restconf-100-$a\" using 1:(\$2/$reqs0) title \"rc-$a\", \"$resdir/put-netconf-100-$a\" using 1:(\$2/$reqs0) title \"nc-$a\","
done
gnuplot -persist <<EOF
set title "Clixon put single entry"
set style data linespoint
set xlabel "Entries"
set ylabel "Time[s]"
set grid
set terminal $term
set yrange [*:*]
set output "$resdir/clixon-put-100.$term"
plot $gplot
EOF
# 6. Delete single entry
gplot=""
for a in $archs; do
gplot="$gplot \"$resdir/delete-restconf-100-$a\" using 1:(\$2/$reqs0) title \"rc-$a\", \"$resdir/delete-netconf-100-$a\" using 1:(\$2/$reqs0) title \"nc-$a\","
done
gnuplot -persist <<EOF
set title "Clixon delete single entry"
set style data linespoint
set xlabel "Entries"
set ylabel "Time[s]"
set grid
set terminal $term
set yrange [*:*]
set output "$resdir/clixon-delete-100.$term"
plot $gplot
EOF
fi # if plot
#rm -rf $dir