Multicast for OLSR mesh networks: Obamp release by Saverio Proto

Saverio Proto (ZioPRoTo) has the released the olsr OBAMP plugin, that was a freifunk project for the Google Summer Of Code. The OBAMP plugin allows multicast traffic to be forwarded in a OLSR mesh network. OBAMP is an overlay protocol. It first makes a mesh network with overlay links (udp tunnels) between the OBAMP nodes, and then it creates a distribution spanning tree over these mesh links.

This version of the OBAMP protocol, implemented as an OLSR plugin, is a simplified one for Wireless Community Networks, where we assume the nodes to be in fixed positions on the roof of the houses. Protocol features regarding mobility have not been implemented (yet).

To explain how the plugin works consider the scenario in the following figure:

There are 7 routers, where only 5 have the OBAMP plugin working. Router 1 2 and 6 also have an attached HNA network with some hosts.

OBAMP nodes generate OLSR OBAMP_ALIVE messages, these OLSR messages are forwarded in the whole network (also by the nodes that do not understand OBAMP thanks to the OLSR design). Because of the flooding mechanism every OBAMP node has a complete list of all the other OBAMP nodes in the mesh network. Every OBAMP node listens on the UDP port 6226 for OBAMP signalling.

When a OBAMP nodes starts it has 5 timers to periodically start operations:

OBAMP_alive_timer: every obamp node sends alive messages to advertise its presence to the other obamp nodes in the network. In the alive message every nodes states its IP address, and if it has already a tree link or not (we will see later this information is important for the outer tree create procedure).
The OBAMP network must have a member called โ€œCoreโ€, that starts the TREE_CREATE procedure. The core is the node with the smallest IP address. When the list of known OBAMP nodes changes, the Core Election procedure is eventually called.

mesh_create_timer: every obamp node every OBAMP_MESH_CREATE_IVAL evaluates how far the other obamp nodes are and selects a subset of nodes to keep mesh links with. Note that to reduce signalling and to increase scalability, the overylay mesh links are setup only with a subset of the nearest OBAMP nodes. To select the overlay neighbor the OBAMP nodes first calculates the ETX distance of the nearest OBAMP nodes, and the creates overlay mesh links to every node that are far in the range (minETX,minETX+1)

tree_create_timer: the core of the network every OBAMP_TREE_CREATE_IVAL sends a message called TREE_CREATE on its mesh links. The creation of the spanning tree is very similar to the spanning tree protocol. When a TREE_CREATE message is received a OBAMP node enables a tree link with its parent and forwards the TREE_CREATE on the other mesh links. TREE_CREATE messages are generated only by the core and are numbered, so TREE_CREATE received over loops can be discarded.

outer_tree_create_timer: The mesh_create algorithm may create cluster of OBAMP nodes within the network that are disconnected between each other. This happens if there are groups OBAMP nodes that are far from each other. If this happens only the cluster where the Core is present will receive the TREE_CREATE and will receive traffic from the distribution tree. To overcome this problem if in a cluster there are not TREE_CREATE every OBAMP_TREE_CREATE_IVAL the node with the smallest IP in the cluster will make a long mesh link with the nearest node that has at least a tree link. All the necessary information to perform this procedure is diffused in the OBAMP_ALIVE messages.

purge_nodes_timer: checks expire time of various variables, and deletes nodes or tree links in a soft state fashion

The OBAMP nodes will capture the multicast udp traffic from the non-OLSR interfaces, and will forward this traffic encapsulated in the UDP tunnels of the distribution tree. The other OBAMP nodes will forward the traffic in the tree and will decapsulate it on their non-OLSR interfaces. To avoid duplicated packets the data is carried into OBAMP_DATA messages, that are identified by a sequence number, and the OBAMP source node where the traffic has been encapsulated.

In the figure black links represent real radio links, and red links represent overlay mesh links (udp tunnels). Router 1 2 3 and will create a OBAMP cluster, with two mesh links. Router 6 and 7 will create a mesh link between them. Because the mesh_create algorithm does not create a mesh link between the two clusters, the router 6 (supposing it has the smallest IP address in the mesh) will create an outer tree link with Router 3.

So please download the code and use it . If you find bugs please report them to Saverio and in the Sourceforge tracker here: 

http://sourceforge.net/tracker/?atid=681702&group_id=117612&func=browse

Thanks for this great result of the summer. Special thanks also to Nino from ninux.org who was the mentor for this projet.

Links

* http://zioproto.ninux.org/wordpress/2009/08/31/olsrd-obamp-plugin/
* http://gredler.at/hg/olsrd/rev/8e7887c1247f
* http://olsr.org
* http://blog.freifunk.net
* http://ninux.org

Freifunk Application for Google Summer of Code – We did not make it .. this time

What happened to the application of the freifunk community (Blog entry) for the Google Summer of code? Well, as you can guess by now, unfortunately we did not get it.. even though we were close. I had asked Leslie Hawthorn and she wrote us back the following lines:

"I know OpenWRT and like them. We simply couldn’t accept everyone. You folks made our short list if that helps. I can give you more feedback if you send me the URL for your ideas list. Is there a way Google can help you beyond Summer of Code? Leslie Hawthorn"

We had some nice ideas. Our intention was to serve as an umbrella for all the freifunk projects here, but maybe we can join the program next year. We still have the ideas pages, which is probably also intresting for developers who want to join freifunk projects in the future.

Some of the project ideas were/are:

  • Multimedia Streaming in Mesh Networks / Porting Obamp to C++
  • Passive + Active Measurement in Mesh Networks / Porting OpenIMP probes to OpenWRT
  • Traffic Flow Visualization / IPFIX DataSource for freimap
  • Mesh Node Status Monitoring / SNMP DataSource for freimap
  • Service Discovery in Mesh Networks / Avahi DataSource for freimap
  • Service Control Module for freimap
  • Topology visualization / B.A.T.M.A.N and olsrd routing decision recovery for freimap
  • Database output for freimap
  • Antenna placement information elements in freifunk map data
  • Search in Wireless Mesh Networks – Yacy
  • Search in Wireless Mesh Networks – Nutch/Lucene
  • Peer-to-peer file sharing applications in Wireless Mesh Networks
  • Developing a Freifunk Theme for CMS
  • VoIP phoning in Freifunk Mesh Networks
  • Porting Freifunk to EeePC
  • Freifunk Webinterface for OpenWrt Kamikaze

( http://wiki.freifunk.net/Ideas)

Rundfreifunk: Livestreams im Freifunk-Netz und auf Radio Blau in Leipzig

Bereits bei we-funk05 (http://we-funk.de/) gab es konkrekte Überlegungen
zu überregionalen Audiostreams im Freifunk-Netz. Die erste Sendung lief in der letzten Woche, unter anderem mit
einem Livestream über 10 Freifunk-Hops!

Die Sendung war in Leipzig über
"Radio Blau" per UKW zu empfangen (multicast und ein freifunk-ungewohnter
Frequenzbereich) und weltweit über den mp3-Stream des freien Leipziger
Radios (http://www.public-ip.org/sendung-154.html). Falls
es in anderen Städten noch Interesse gibt, dabei mitzuarbeiten, würden wir
uns über Rückmeldung freuen. (Hallo Berlin, Wien, Petersborough,..) Sendung Nr. 2 wird zum großen Teil aus Weimar
kommen. p.s. das mp3-stream-Grundrauschen kommt demnächst noch weg
๐Ÿ™‚

via Ufo