README file for Contiki's IPv6 multicast core Author: George Oikonomou What does it do =============== These files, alongside some core modifications, add support for IPv6 multicast to contiki's uIPv6 engine. Currently, three modes are supported: * 'Enhanced Stateless Multicast RPL Forwarding' (ESMRF) ESMRF is an enhanced version of the SMRF engine with the aim of resolving the sending limitation of SMRF to allow any node within the DODAG to send multicast traffic up and down the RPL tree. ESMRF is documented here: http://dl.acm.org/citation.cfm?id=2753479 * 'Stateless Multicast RPL Forwarding' (SMRF) RPL in MOP 3 handles group management as per the RPL docs, SMRF is a lightweight engine which handles datagram forwarding. SMRF is documented here: http://dx.doi.org/10.1007/s11277-013-1250-5 and here: http://dx.doi.org/10.1109/PerComW.2012.6197494 * 'Multicast Forwarding with Trickle' according to the algorithm described in the internet draft: http://tools.ietf.org/html/draft-ietf-roll-trickle-mcast The version of this draft that's currently implementated is documented in `roll-tm.h` More engines can (and hopefully will) be added in the future. The first addition is most likely going to be an updated implementation of MPL The Big Gotcha ============== Currently we only support traffic originating and destined inside a single 6LoWPAN To be able to send multicast traffic from the internet to 6LoWPAN nodes or the other way round, we need border routers or other gateway devices to be able to achieve the following: * Add/Remove Trickle Multicast, RPL or other HBHO headers as necessary for datagrams entering / exiting the 6LoWPAN * Advertise multicast group membership to the internet (e.g. with MLD) These are currently not implemented and are in the ToDo list. Contributions welcome. Where to Start ============== The best place in `examples/ipv6/multicast` There is a cooja example demonstrating basic functionality How to Use ========== Look in `core/net/ipv6/multicast/uip-mcast6-engines.h` for a list of supported multicast engines. To turn on multicast support, add this line in your `project-` or `contiki-conf.h` #define UIP_MCAST6_CONF_ENGINE xyz where xyz is a value from `uip-mcast6-engines.h` To disable: #define UIP_MCAST6_CONF_ENGINE 0 You also need to make sure the multicast code gets built. Your example's (or platform's) Makefile should include this: MODULES += core/net/ipv6/multicast How to extend ============= Let's assume you want to write an engine called foo. The multicast API defines a multicast engine driver in a fashion similar to the various NETSTACK layer drivers. This API defines functions for basic multicast operations (init, in, out). In order to extend multicast with a new engine, perform the following steps: - Open `uip-mcast6-engines.h` and assign a unique integer code to your engine #define UIP_MCAST6_ENGINE_FOO xyz - Include your engine's `foo.h` - In `foo.c`, implement: * `init()` * `in()` * `out()` * Define your driver like so: `const struct uip_mcast6_driver foo_driver = { ... }` - If you want to maintain stats: * Standard multicast stats are maintained in `uip_mcast6_stats`. Don't access this struct directly, use the macros provided in `uip-mcast6-stats.h` instead * You can add your own stats extensions. To do so, declare your own stats struct in your engine's module, e.g `struct foo_stats` * When you initialise the stats module with `UIP_MCAST6_STATS_INIT`, pass a pointer to your stats variable as the macro's argument. An example of how to extend multicast stats, look at the ROLL TM engine - Open `uip-mcast6.h` and add a section in the `#if` spree. This aims to configure the uIPv6 core. More specifically, you need to: * Specify if you want to put RPL in MOP3 by defining `RPL_WITH_MULTICAST`: 1: MOP 3, 0: non-multicast MOP * Define your engine details #define UIP_MCAST6 foo_driver #define UIP_MCAST6_STATS foo_stats typedef struct foo_stats uip_mcast6_stats_t; * Optionally, add a configuration check block to stop builds when the configuration is not sane. If you need your engine to perform operations not supported by the generic UIP_MCAST6 API, you will have to hook those in the uip core manually. As an example, see how the core is modified so that it can deliver ICMPv6 datagrams to the ROLL TM engine.