Difference between revisions of "ECOC 2018 - Demo session"

From Yuma123 Wiki
Jump to navigationJump to search
 
(3 intermediate revisions by the same user not shown)
Line 1: Line 1:
 
=Background=
 
=Background=
One of the ECOC 2018 demo session ( https://www.ecoc2018.org/programme/demo-session/ ) entries (the one that won the vote for best demo entry! https://www.5g-picture-project.eu/news.html ) featured TSN solution with SDN management based on YANG/NETCONF interface to the nodes and implementation using the yuma123 toolchain. Testsuite with scripts validating the setup, allowing management of traffic generation and visualization of traffic parameters in the topology are published under BSD-3-clause license and are a good all-around example https://sourceforge.net/projects/ecoc-demo-2018
+
One of the ECOC 2018 demo session ( https://www.ecoc2018.org/programme/demo-session/ ) entries featured TSN solution with SDN management based on yuma123 YANG/NETCONF tools. The code used in the demo is published under BSD-3-clause license and is a good all-around example https://sourceforge.net/projects/ecoc-demo-2018
   
  +
The demo won the vote for best demo entry! https://www.5g-picture-project.eu/news.html
Among the key features of the demo from a Model Defined Networking (MDN) aspect are:
 
  +
  +
Demo features relevant to data modeling-driven management :
   
 
* Implementation of the ietf-network-bridge.yang and ietf-network-bridge-flows.yang draft modules
 
* Implementation of the ietf-network-bridge.yang and ietf-network-bridge-flows.yang draft modules
* Package repository (Debian) based on yuma123 with server-client YANG/NETCONF SDK - http://yuma123.org/repos/
+
* Package repository (Debian) based on yuma123 with complete server-client YANG/NETCONF SDK - http://yuma123.org/repos/
* Fully transactional YANG design even for the traffic generator and analyzer functionality in the test network
+
* Fully transactional YANG design including the traffic generator and analyzer functionality in the test network
 
* Interoperability with OpenDaylight on both client and server side and a configuration examples based on extended yangcli syntax ( -- allowing non-interactive entry of containers)
 
* Interoperability with OpenDaylight on both client and server side and a configuration examples based on extended yangcli syntax ( -- allowing non-interactive entry of containers)
 
* Universal traffic visualization approach based on vector graphics and YANG module based indicator specification according to tntapi-traffic-graphic.yang module augmenting ietf-network.yang
 
* Universal traffic visualization approach based on vector graphics and YANG module based indicator specification according to tntapi-traffic-graphic.yang module augmenting ietf-network.yang
   
Below an excerpt of the README is presented:
+
Below an excerpt from the README is presented:
   
 
=Files=
 
=Files=
Line 42: Line 44:
 
./test-monitor
 
./test-monitor
   
Here is example of the output of the monitor (excuse the outdated renderer of the SVG):
+
Here is example of the output of the monitor:
   
 
[[File:testsuite-h100-ecoc-demo-topology.svg]]
 
[[File:testsuite-h100-ecoc-demo-topology.svg]]

Latest revision as of 18:57, 3 January 2019

Background

One of the ECOC 2018 demo session ( https://www.ecoc2018.org/programme/demo-session/ ) entries featured TSN solution with SDN management based on yuma123 YANG/NETCONF tools. The code used in the demo is published under BSD-3-clause license and is a good all-around example https://sourceforge.net/projects/ecoc-demo-2018

The demo won the vote for best demo entry! https://www.5g-picture-project.eu/news.html

Demo features relevant to data modeling-driven management :

  • Implementation of the ietf-network-bridge.yang and ietf-network-bridge-flows.yang draft modules
  • Package repository (Debian) based on yuma123 with complete server-client YANG/NETCONF SDK - http://yuma123.org/repos/
  • Fully transactional YANG design including the traffic generator and analyzer functionality in the test network
  • Interoperability with OpenDaylight on both client and server side and a configuration examples based on extended yangcli syntax ( -- allowing non-interactive entry of containers)
  • Universal traffic visualization approach based on vector graphics and YANG module based indicator specification according to tntapi-traffic-graphic.yang module augmenting ietf-network.yang

Below an excerpt from the README is presented:

Files

  • topology.svg - topology diagram
  • topology.xml - ietf-network model based network spec. Edit to change network addresses, authorization credentials etc.
  • configure.ac - autoconf build script
  • Makefile.am - automake build script (contains the list of all testcases)

Running

apt-get update
apt-get -y upgrade

apt-get -y install software-properties-common
add-apt-repository -s "deb http://yuma123.org/repos/apt/debian stretch main"
wget -O - http://yuma123.org/repos/yuma123.gpg.key | apt-key add -
apt-get update
apt-get -y install testsuite-h100-ecoc-demo
cd /opt/testsuite-h100-ecoc-demo
autoreconf -i -f
./configure

Make sure your topology.xml has correct server/port/username/password configuration:

make check

This should complete with OKs (some scripts report fail if there is external traffic generator incrementing counters)

To start the continuous monitor (updates the files referenced by monitor/index.html for graphical representation of the traffic and periodic reports):

./test-monitor

Here is example of the output of the monitor:

Testsuite-h100-ecoc-demo-topology.svg

Report time: 20:25:19

1. Period:
+------------+---------------------+---------------------+--------------+
|    node    |       start         |         stop        |     period   |
+------------+---------------------+---------------------+--------------+
| middle     | 2018-09-22T18:24:20 | 2018-09-22T18:25:00 |       40.000 |
| local      | 2018-09-22T18:24:20 | 2018-09-22T18:25:00 |       40.000 |
| remote     | 2018-09-22T18:24:20 | 2018-09-22T18:25:00 |       40.000 |
+------------+---------------------+---------------------+--------------+
2. Data transfer rate:
+------------+--------------+-------+
|  if name   |       MB/s   |   %   |
+------------+--------------+-------+
| middle.xe0 |       3412   |   29  |
| remote.xe0 |       6773   |   57  |
+------------+--------------+-------+

3. Timing:
+-----------+--------------+-------------+--------------+---------------+
|  if name  |  delay-min   |  delay-max  |      PDV     |     samples   |
+-----------+--------------+-------------+--------------+---------------+
| local.ge1 |      7353 ns |      7456 ns|       103 ns |    228883040  |
| local.ge2 |      7347 ns |      7449 ns|       102 ns |    229662467  |
| local.ge3 |      7398 ns |      7494 ns|        96 ns |    230612730  |
| local.ge4 |         0 ns |         0 ns|         0 ns |            0  |
+-----------+--------------+-------------+--------------+---------------+

After the monitor is started one would need to enable traffic and change its parameters from another terminal. Here the traffic generators and analysers are started and stopped:

./test-setup-traffic-analyzers ; ./test-setup-traffic-generators-1
# traffic pattern 1
./test-clear-traffic-generators
# no traffic
./test-setup-traffic-analyzers ; ./test-setup-traffic-generators-2
# traffic pattern 2
...

Device side

There are 3 scripts in ./setup (run-netconfd-local.sh, run-netconfd-middle.sh, run-netconfd-remote.sh) that can start the netconfd instances for each node with the correct parameters. Use those to either connect to the VCU-110 cards directly or to connect to another netconfd providing register access. In case there is external host that runs netconfd make sure the parameters are identical e.g. all expected modules are loaded.

Reports

  • test-suite.log - overview
  • test-*.log - individual test reports

Test Network Setup

2x H100 1.6 prototype VCU-110 systems, 1x H100 1.0 prototype and an optional traffic analyzer.

Further in the document the elements will be referred to as:

  • local - the left H100 1.6
  • remote - the right H100 1.6
  • middle - the H100 1.0 in the middle
  • analyzer (optional)

Details about the actual networking addresses and authorization are specified in the topology.xml file and if there is a change in the setup this file needs to be updated before running.

OpenDaylight

The 3 devices can be mounted as NETCONF devices in OpenDaylight southbound interface. The testsuite includes the ./test-odl-install testcase that downloads and installs OpenDaylight (Beryllium-SR4) and configures it using yangcli to mount the 3 nodes. Once this testcase completes one can use the ./test-odl-clear-traffic-generators to stop all traffic in identical way as the non-odl ./test-clear-traffic-generators-[1,2]. This testcase is added as proof of concept that the mounted devices configuration is correctly responding to interaction with OpenDaylight Northbound RESTCONF interface.

The following links can be used to access OpenDaylight web interface (user:admin password:admin):

For more information check the OpenDaylight project documentation.