wiki:GEC19Agenda/GIMI/Procedure/Execute

Version 4 (modified by divyashri.bhat@gmail.com, 10 years ago) (diff)

--

Image Map

How to use OML4R to write your OML application

1. Setup your Application

1.1 Download the tar file of your application

sudo su
wget http://www.gpolab.bbn.com/experiment-support/gec17/pingPlus/pingPlus_v3.tar.gz
tar xvzf pingPlus_v3.tar.gz
cd pingPlus_v3
make

1.2 Test connectivity

On the receiver

chmod +x pingPlusListener
ping -c 5 10.10.10.1
ifconfig eth1 0.0.0.0
ping -c 5 10.10.10.1
./pingPlusListener 10002

The format for the pingPlusListener is sudo ./pingPlusListener <EtherType>

On the sender

ping -c 5 10.10.10.2
ifconfig eth1 0.0.0.0
ping -c 5 10.10.10.2
chmod +x pingPlus
 ./pingPlus 02:26:ae:0e:9b:3e eth1 10002

The format for the sender is

./pingPlus <server mac> <client i/f name> <EtherType> <count>

1. Observe your Output

root@sender:/users/dbhat/pingPlus_v3# ./pingPlus 02:26:ae:0e:9b:3e eth1 10002 5
RQ:'9641+4173' to 2:26:ae:e:9b:3e.
RL:9641+4173=13814 from 2:26:ae:e:9b:3e.
RTT = 0.920166
RQ:'2271+7533' to 2:26:ae:e:9b:3e.
RL:2271+7533=9804 from 2:26:ae:e:9b:3e.
RTT = 0.654053
RQ:'8858+353' to 2:26:ae:e:9b:3e.
RL:8858+353=9211 from 2:26:ae:e:9b:3e.
RTT = 0.489014
RQ:'447+5696' to 2:26:ae:e:9b:3e.
RL:447+5696=6143 from 2:26:ae:e:9b:3e.
RTT = 0.290039
RQ:'7238+5082' to 2:26:ae:e:9b:3e.
RL:7238+5082=12320 from 2:26:ae:e:9b:3e.
RTT = 0.252930

2. Write your Parser

3. Instrument your Application using LabWiki

defProperty('source1', "sender-gimiinsta", "ID of a resource")

defProperty('sinkaddr11', '02:ee:1a:a2:51:11', "Ping destination address")
defProperty('eth11','eth1',"Output Eth interface")


defApplication('pingl2') do |app|
  app.description = 'Simple Definition for the pingl2 application'
  # Define the path to the binary executable for this application
  app.binary_path = '/usr/local/bin/pingl2.rb'
  # Define the configurable parameters for this application
  # For example if target is set to foo.com and count is set to 2, then the 
  # application will be started with the command line:
  # /usr/bin/ping-oml2 -a foo.com -c 2
  app.defProperty('target', 'Address to ping', '-a', {:type => :string})
  app.defProperty('count', 'Number of times to ping', '-c', {:type => :integer})
  app.defProperty('if_num', 'interface number', '-i', {:type => :integer})
  app.defProperty('eth', 'Ethernet Type', '-e', {:type => :string})
  # Define the OML2 measurement point that this application provides.
  # Here we have only one measurement point (MP) named 'ping'. Each measurement
  # sample from this MP will be composed of a 4-tuples (addr,ttl,rtt,rtt_unit)
  app.defMeasurement('pingrl') do |m|
    m.defMetric('dest_hw_addr',:string)
  end
    app.defMeasurement('pingrtt') do |m|
    m.defMetric('rtt',:double)
  end
end
defGroup('Source1', property.source1) do |node|
  node.addApplication("pingl2") do |app|
    app.setProperty('target', property.sinkaddr11)
    app.setProperty('count', 30)
    app.setProperty('if_num', 10002)
    app.setProperty('eth',property.eth11)
    app.measure('pingrl', :samples => 1)
    app.measure('pingrtt', :samples => 1)
  end
end



onEvent(:ALL_UP_AND_INSTALLED) do |event|
  info "Starting the ping"
  after 5 do
    allGroups.startApplications
  end
  after 70 do
    info "Stopping the ping"
    allGroups.stopApplications
    Experiment.done
  end
end

defGraph 'RTT' do |g|
  g.ms('pingrtt').select(:rtt__oml_seq, :rtt__rtt, :rl__dest_hw_addr)\
     .from(:pingl2_pingrtt___rtt, :pingl2_pingrl___rl)\
     .where(:rtt__oml_seq => :rl__oml_seq)
  g.caption "RTT of received packets."
  g.type 'line_chart3'
  g.mapping :x_axis => :oml_seq, :y_axis => :rtt, :group_by => :dest_hw_addr
  g.xaxis :legend => 'oml_seq'
  g.yaxis :legend => 'rtt', :ticks => {:format => 's'}
end

Attachments (4)

Download all attachments as: .zip