= EG-EXP-4: ExoGENI Multi-site Acceptance Test =
This page captures status for the test case EG-EXP-4, which verifies the ability to support basic operations of VMs and data flows between two racks. For overall status see the [wiki:GENIRacksHome/ExogeniRacks/AcceptanceTestStatus ExoGENI Acceptance Test Status] page.
= Test Status =
This section captures the status for each step in the acceptance test plan.
|| '''Step''' || '''State''' || '''Date completed''' ||''' Ticket ''' || '''Comments''' ||
|| Step 1 ||[[Color(yellow,Complete)]]|| ||exoticket:46 ||Run with ExoSM ||
|| Step 2 ||[[Color(yellow,Complete)]]|| || || ||
|| Step 3 ||[[Color(yellow,Complete)]]|| || || ||
|| Step 4 ||[[Color(yellow,Complete)]]|| || || ||
|| Step 5 ||[[Color(yellow,Complete)]]|| || || ||
|| Step 6 ||[[Color(yellow,Complete)]]|| || || ||
|| Step 7 ||[[Color(yellow,Complete)]]|| || ||Run with ExoSM||
|| Step 8 ||[[Color(yellow,Complete)]]|| || ||Replace bare metal with VM pre-06/18 delivery||
|| Step 9 || || || || ||
|| Step 10 || || || || ||
|| Step 11 || || || || ||
|| Step 12 || || || || ||
|| Step 13 || || || || ||
|| Step 14 || || || || ||
|| Step 15 || || || || ||
|| Step 16 || || || || ||
|| Step 17 || || || || ||
[[BR]]
|| '''State Legend''' || '''Description''' ||
|| [[Color(green,Pass)]] || Test completed and met all criteria ||
|| [[Color(#98FB98,Pass: most criteria)]] || Test completed and met most criteria. Exceptions documented ||
|| [[Color(red,Fail)]] || Test completed and failed to meet criteria. ||
|| [[Color(yellow,Complete)]] || Test completed but will require re-execution due to expected changes ||
|| [[Color(orange,Blocked)]] || Blocked by ticketed issue(s). ||
|| [[Color(#63B8FF,In Progress)]] || Currently under test. ||
[[BR]]
= Test Plan Steps =
This test case is modified to use ExoSM to request resources across sites. The nickname:
{{{
exosm=,https://geni.renci.org:11443/orca/xmlrpc
}}}
is used in place of individual site's SM for each experiment in this test case:
{{{
exo-bbn=,https://bbn-hn.exogeni.net:11443/orca/xmlrpc
exo-rci=,https://rci-hn.exogeni.net:11443/orca/xmlrpc
}}}
Also, for initial test run only VMs used.
== Step 1. As Experimenter1, Request !ListResources RENCI ExoGENI ==
Using the credentials lnevers@bbn.com, request listresources from ExoSM, to determine which resources can be requested:
{{{
$ ./src/omni.py -a exosm listresources -o
}}}
== Step 2. Review !ListResources output ==
Reviewed content of output file named rspec-geni-renci-org-11443-orca.xml and determined site information for VM request.
== Step 3. Define a request RSpec ==
Define a request RSpec for a VM at BBN ExoGENI, a VM at RENCI ExoGENI and an unbound exclusive non-!OpenFlow VLAN to connect the 2 endpoints. RSpec created is [EG-EXP-4-exp1.rspec inster_link_here]
== Step 4. Create the first slice. ==
Using the following command create a slice for the first experiment:
{{{
$ $ ./src/omni.py createslice EG-EXP-4-exp1
}}}
== Step 5. Create a sliver ==
Using the ExoSM and the RSpecs defined above create a sliver:
{{{
$ ./src/omni.py createsliver -a exosm EG-EXP-4-exp1 --api-version 2 ./exorspec/EG-EXP-4-exp1.rspec
}}}
Verify that sliver status is ready:
{{{
$ ./src/omni.py sliverstatus -a exosm EG-EXP-4-exp1 --api-version 2
}}}
Determined which VMs are allocated to this sliver:
{{{
$ ./src/omni.py listresources -a exosm EG-EXP-4-exp1 --api-version 2 -o
$ egrep hostname EG-EXP-4-exp1-rspec-geni-renci-org-11443-orca.xml
}}}
== Step 6. Log in to each of the systems, and send traffic to the other system, leave traffic running ==
Connect to the RENCI VM and send traffic to the BBN VM:
{{{
$ ssh root@152.54.14.4
Linux debian 2.6.32-5-amd64 #1 SMP Mon Jan 16 16:22:28 UTC 2012 x86_64
The programs included with the Debian GNU/Linux system are free software;
the exact distribution terms for each program are described in the
individual files in /usr/share/doc/*/copyright.
Debian GNU/Linux comes with ABSOLUTELY NO WARRANTY, to the extent
permitted by applicable law.
Last login: Mon Jun 4 16:47:08 2012 from arendia.gpolab.bbn.com
root@debian:~# ifconfig|grep 172
inet addr:172.16.1.2 Bcast:172.16.1.255 Mask:255.255.255.0
root@debian:~# ping 172.16.1.1
PING 172.16.1.1 (172.16.1.1) 56(84) bytes of data.
64 bytes from 172.16.1.1: icmp_req=1 ttl=64 time=47.5 ms
64 bytes from 172.16.1.1: icmp_req=2 ttl=64 time=17.9 ms
64 bytes from 172.16.1.1: icmp_req=3 ttl=64 time=17.8 ms
}}}
Connect to the BBN VM and send traffic to the RENCI VM:
{{{
$ ssh root@192.1.242.6
Linux debian 2.6.32-5-amd64 #1 SMP Mon Jan 16 16:22:28 UTC 2012 x86_64
The programs included with the Debian GNU/Linux system are free software;
the exact distribution terms for each program are described in the
individual files in /usr/share/doc/*/copyright.
Debian GNU/Linux comes with ABSOLUTELY NO WARRANTY, to the extent
permitted by applicable law.
Last login: Mon Jun 4 16:47:34 2012 from arendia.gpolab.bbn.com
root@debian:~# ifconfig|grep 172
inet addr:172.16.1.1 Bcast:172.16.1.255 Mask:255.255.255.0
root@debian:~# ping 172.16.1.2
PING 172.16.1.2 (172.16.1.2) 56(84) bytes of data.
64 bytes from 172.16.1.2: icmp_req=1 ttl=64 time=21.6 ms
64 bytes from 172.16.1.2: icmp_req=2 ttl=64 time=19.4 ms
}}}
== Step 7. As Experimenter2, Request !ListResources from RENCI ExoGENI ==
Using the credentials lnevers1@bbn.com, request listresources from ExoSM, to determine which resources can be requested:
{{{
$ ./src/omni.py -a exosm listresources -o
}}}
== Step 8. Define a request RSpec ==
Full step description: "Define a request RSpec for one VM and one bare metal node each with two interfaces in the BBN ExoGENI rack, two VMs at RENCI, and two VLANs to connect the BBN ExoGENI to the RENCI ExoGENI."
Note: Bare metal support is available 06/18, therefore initial run through of this test case is down with VMs only.
RSpec created is [EG-EXP-4-exp2.rspec inster_link_here]
== Step 9. Create a second slice ==
Using the following command create a slice for the second experiment:
{{{
$ ./src/omni.py createslice EG-EXP-4-exp2a
}}}
== Step 10. In the second slice, create a sliver at the RENCI ExoGENI aggregate using the RSpecs defined above ==
Using the ExoSM and the RSpecs defined above create a sliver:
{{{
$ ./src/omni.py createsliver -a exosm EG-EXP-4-exp2a --api-version 2 ./exorspec/EG-EXP-4-exp1.rspec
}}}
Verify that sliver status is ready:
{{{
$ ./src/omni.py sliverstatus -a exosm EG-EXP-4-exp2a --api-version 2
}}}
Determined which VMs are allocated to this sliver:
{{{
$ ./src/omni.py listresources -a exosm EG-EXP-4-exp2a --api-version 2 -o
$ egrep hostname EG-EXP-4-exp2a-rspec-geni-renci-org-11443-orca.xml
}}}
== Step 11. Log in to each of the end-point systems, and send traffic to the other end-point system which shares the same VLAN ==
== Step 12. Verify traffic handling per experiment, VM isolation, and MAC address assignment ==
== Step 13. Construct and send a non-IP ethernet packet over the data plane interface. ==
== Step 14. Review baseline monitoring statistics ==
== Step 15. Run test for at least 4 hours ==
== Step 16. Review baseline monitoring statistics ==
== Step 17. Stop traffic and delete slivers ==