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authorMartin Mares <mj@ucw.cz>2000-06-05 09:51:24 +0000
committerMartin Mares <mj@ucw.cz>2000-06-05 09:51:24 +0000
commit42b3daa09cda8a4b80661177d3bf74b9258b0b88 (patch)
treeeb208425de5b9a494c42abc5945da7b48d1d09cc /doc
parentac272c0067cc7f04e74f0418bc0c9ce63a657175 (diff)
Description of protocol module moved to where it belongs. If documentation
of standard modules is stored in their source, such auxilliary files should be as well.
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-<!--
- BIRD Programmer's Guide: Protocols
-
- (c) 2000 Martin Mares <mj@ucw.cz>
--->
-
-<sect>Routing protocols
-
-<sect1>Introduction
-
-<p>The routing protocols are the BIRD's heart and a fine amount of code
-is dedicated to their management and for providing support functions to them.
-(-: Actually, this is the reason why the directory with sources of the core
-code is called <tt/nest/ :-).
-
-<p>When talking about protocols, one need to distinguish between <em/protocols/
-and protocol <em/instances/. A protocol exists exactly once, not depending on whether
-it's configured on not and it can have an arbitrary number of instances corresponding
-to its "incarnations" requested by the configuration file. Each instance is completely
-autonomous, has its own configuration, its own status, its own set of routes and its
-own set of interfaces it works on.
-
-<p>A protocol is represented by a <struct/protocol/ structure containing all the basic
-information (protocol name, default settings and pointers to most of the protocol
-hooks). All these structures are linked in the <param/protocol_list/ list.
-
-<p>Each instance has its own <struct/proto/ structure describing all its properties: protocol
-type, configuration, a resource pool where all resources belonging to the instance
-live, various protocol attributes (take a look at the declaration of <struct/proto/ in
-<tt/protocol.h/), protocol states (see below for what do they mean), connections
-to routing tables, filters attached to the protocol
-and finally a set of pointers to the rest of protocol hooks (they
-are the same for all instances of the protocol, but in order to avoid extra
-indirections when calling the hooks from the fast path, they are stored directly
-in <struct/proto/). The instance is always linked in both the global instance list
-(<param/proto_list/) and a per-status list (either <param/active_proto_list/ for
-running protocols, <param/initial_proto_list/ for protocols being initialized or
-<param/flush_proto_list/ when the protocol is being shut down).
-
-<p>The protocol hooks are described in the next chapter, for more information about
-configuration of protocols, please refer to the configuration chapter and also
-to the description of the <func/proto_commit/ function.
-
-<sect1>Protocol states
-
-<p>As startup and shutdown of each protocol are complex processes which can be affected
-by lots of external events (user's actions, reconfigurations, behaviour of neighboring routers etc.),
-we have decided to supervise them by a pair of simple state machines -- the protocol
-state machine and a core state machine.
-
-<p>The <em/protocol state machine/ corresponds to internal state of the protocol
-and the protocol can alter its state whenever it wants to. There exist
-the following states:
-
-<descrip>
- <tag/PS_DOWN/ The protocol is down and waits for being woken up by calling its
- start() hook.
- <tag/PS_START/ The protocol is waiting for connection with the rest of the
- network. It's active, it has resources allocated, but it still doesn't want
- any routes since it doesn't know what to do with them.
- <tag/PS_UP/ The protocol is up and running. It communicates with the core,
- delivers routes to tables and wants to hear announcement about route changes.
- <tag/PS_STOP/ The protocol has been shut down (either by being asked by the
- core code to do so or due to having encountered a protocol error).
-</descrip>
-
-<p>Unless the protocol is in the <tt/PS_DOWN/ state, it can decide to change
-its state by calling the <func/proto_notify_state/ function.
-
-<p>At any time, the core code can ask the protocol to shut down by calling its stop() hook.
-
-<p>The <em/core state machine/ takes care of the core view of protocol state.
-The states are traversed according to changes of the protocol state machine, but
-sometimes the transitions are delayed if the core needs to finish some actions
-(for example sending of new routes to the protocol) before proceeding to the
-new state. There exist the following core states:
-
-<descrip>
- <tag/FS_HUNGRY/ The protocol is down, it doesn't have any routes and
- doesn't want them.
- <tag/FS_FEEDING/ The protocol has reached the <tt/PS_UP/ state, but
- we are still busy sending the initial set of routes to it.
- <tag/FS_HAPPY/ The protocol is up and has complete routing information.
- <tag/FS_FLUSHING/ The protocol is shutting down (it's in either <tt/PS_STOP/
- or <tt/PS_DOWN/ state) and we're flushing all of its routes from the
- routing tables.
-</descrip>
-
-<sect1>Functions of the protocol module
-
-<p>The protocol module provides the following functions: