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463 lines
18 KiB
Plaintext
463 lines
18 KiB
Plaintext
<!doctype linuxdoc system>
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<!--
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Bird documentation
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Look for "about this documentation" section to learn more.
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(set-fill-column 100)
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Copyright 1999,2000 Pavel Machek <pavel@ucw.cz>, distribute under GPL version 2 or later.
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-->
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<article>
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<title>Bird
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<author>
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Pavel Machek <tt/pavel@ucw.cz/
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<date>2000
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<abstract>
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This document contains documentation for BIRD Internet Routing Daemon
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</abstract>
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<!-- Table of contents -->
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<toc>
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<!-- Begin the document -->
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<sect>Introduction
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<sect1>What is bird
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<p><label id="intro"> You may wonder what 'bird' means. It is acronym of 'BIRD Internet Routing
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Daemon', and we think that's cool name. Its task is similar to what firmware of Cisco routers does,
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or what gated <HTMLURL URL="http://www.gated.org/"> or GNU zebra <HTMLURL
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URL="http://www.zebra.org/"> does. However, you can not run Cisco's firmware on "normal" computer
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and gated is really hard to configure and comes under wrong license. Bird is being developed on
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Charles University, Prague, and can be freely distributed under terms of GNU General Public
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License. Bird is designed to run on Unix and unix-like systems, it is primarily developed on Linux.
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<sect1>About this documentation
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<p>This documentation can have 4 forms: sgml (this is master copy), html, ASCII text (generated from
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html) and dvi/postscript (generated from sgml using sgmltools). You should always edit master copy,
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it is slightly modified linuxdoc dtd. Anything in <descrip> tags is considered definition of
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configuration primitives, <cf> is fragment of configuration within normal text, <m> is
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"meta" information within fragment of configuration -- something in config which is not keyword.
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<sect1>About routing tables
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<p>Bird has one or more routing tables. Each routing table contains
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list of known routes. Each route has certain atributes, most important
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is prefix of network this route is for. Routing table maintains more
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than one entry for network, but at most one entry for one network and
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one protocol. The entry with biggest preference is used for
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routing. You can get list of route attributes in "Route attributes"
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section in filters.
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<sect>Configuration
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<sect1>Introduction
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<p>Bird is configured using text configuration file. At startup, bird
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reads <file/bird.conf/ (unless -c command line parameter is
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given). Everything on a line after <cf/#/ is a comment, whitespace is
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ignored, C-style comments <cf>/* comment */</cf> are also
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recognized. If there's variable number of options, it is grouped using
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<cf/{ }/ brackets. Each option is terminated by <cf/;/.
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<p>Really simple configuration file might look like this, you can find
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example of more complicated configuration file in
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<file>doc/bird.conf.example</file>.
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<code>
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protocol kernel {
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persist; # Don't remove routes on bird shutdown
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scan time 20; # Scan kernel routing table every 20 seconds
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export all; # Default is export none
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}
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protocol device {
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scan time 10; # Scan interfaces every 10 seconds
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}
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protocol rip {
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export all;
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import all;
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}
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</code>
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<sect1>Global options
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<p><descrip>
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<tag>log "<m/filename/"|syslog|stderr all|{ <m/list of
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classes/ }</tag> set logging of classes (either all or <cf/{
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error, trace }/ etc.) into selected destination. Classes are:
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<cf/debug/ for debugging message, <cf/trace/, <cf/info/,
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<cf/remote/ for messages about misbehaviour of remote side, <cf/warning/,
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<cf/error/, <cf/auth/, <cf/fatal/, <cf/bug/ for internal bugs
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of bird. You may specify more than one <cf/log/ line to log to multiple
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destinations.
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<tag>debug protocols all|off|{ states, routes, filters, interfaces, events, packets }</tag>
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sets global default of debugging options.
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<tag>filter <m/name/{ <m/commands/ }</tag> define filter. You can learn more about filters
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in next chapter.
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<tag>protocol rip|ospf|bgp <m/[name]/ { <m>protocol options</m> }</tag> define protocol
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instance, called name (or called something like rip5 if you omit name). You can learn more
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about configuring protocols in their own chapters.
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<tag>define constant = expression</tag> define constant. You can use it later in every place
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you could use simple integer.
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<tag>router id <m/num.num.num.num/</tag> set router id. Router
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id needs to be world-wide unique 32bit number, identifying
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router. It is usually one of router's IP addresses.
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<tag>table <m/name/</tag> create new routing table.
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<tag>eval <m/expr/</tag> evaluates given filter expression. It is used for testing.
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</descrip>
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<sect1>Per-protocol options
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<p>Several options are per-protocol, but all protocols support them. They are described here.
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<descrip>
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<tag>preference <m/expr/</tag> sets preference of this protocol.
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<tag>disabled</tag> disables given protocol.
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<tag>debug <m/setting/</tag> this is similar to global debug setting, except that it only
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affects one protocol.
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<tag>import <m/filter/</tag> filter can be either either <cf> { <m>filter commands</m>
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}</cf> or <cf>filter <m/name/</cf>. Import filter works in direction from protocol to main
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routing table.
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<tag>export <m/filter/</tag> This is similar to <cf>export</cf> keyword, except that it
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works in direction from main routing table to protocol.
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<tag>table <m/name/</tag> Connect this protocol to non-default table.
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</descrip>
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<p>There are per-protocol options that give sense only with certain protocols.
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<descrip>
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<tag>passwords { password "<m/password/" from <m/time/ to <m/time/ passive <m/time/ id
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<m/num/ [...] }</tag> specifies passwords to be used with this protocol. Passive time is
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time from which password is not announced but is allowed. id is password id, as needed by
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certain protocols.
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<tag>interface "<m/mask/" [ { <m/option/ ; [ ... ] } ]</tag> specifies, which interfaces
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this protocol is active at, and allows you to set options on interface-by-interface
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basis. Mask is specified in shell-like patters, thus <cf>interface "*" { mode broadcast;
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};</cf> will start given protocol on all interfaces, with <cf>mode broadcast;</cf> option.
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</descrip>
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<sect>Filters
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<sect1>Introduction
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<p>Bird contains rather simple programming language. (No, it can not yet read mail :-). There are
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two objects in this language: filters and functions. Filters are called by bird core when route is
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being passed between protocol and main routing table, and filters may call functions. Functions may
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call other functions, but recursion is not allowed. Filter language contains control structures such
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as if's and switches, but it allows no loops. Filters are
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interpreted. Filter using many features can be found in <file>filter/test.conf</file>.
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<p>You can find sources of filters language in <file>filter/</file>
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directory. <file>filter/config.Y</file> contains filter grammar, and basically translates source from
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user into tree of <cf>f_inst</cf> structures. These trees are later interpreted using code in
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<file>filter/filter.c</file>. Filters internally work with values/variables in <tt>struct
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f_val</tt>, which contains type of value and value.
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<p>Filter basically gets the route, looks at its attributes and
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modifies some of them if it wishes. At the end, it decides, whether to
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pass change route through (using <cf/accept/), or whether to <cf/reject/ given route. It looks
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like this:
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<code>
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filter not_too_far
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int var;
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{
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if defined( rip_metric ) then
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var = rip_metric;
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else {
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var = 1;
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rip_metric = 1;
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}
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if rip_metric > 10 then
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reject "RIP metric is too big";
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else
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accept "ok";
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}
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</code>
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<p>As you can see, filter has a header, list of local variables, and body. Header consists of
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<cf/filter/ keyword, followed by (unique) name of filter. List of local variables consists of
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pairs <cf><M>type name</M>;</cf>, where each pair defines one local variable. Body consists of
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<cf> { <M>statements</M> }</cf>. Statements are terminated by <cf/;/. You can group
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several statements into one by <cf>{ <M>statements</M> }</cf> construction, that is useful if
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you want to make bigger block of code conditional.
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<p>Bird supports functions, so that you don't have to repeat same blocks of code over and
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over. Functions can have zero or more parameters, and can have local variables. Function basically
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looks like this:
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<code>
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function name ()
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int local_variable;
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{
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local_variable = 5;
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}
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function with_parameters (int parameter)
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{
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print parameter;
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}
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</code>
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<p>Unlike C, variables are declared after function line but before first {. You can not declare
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variables in nested blocks. Functions are called like in C: <cf>name();
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with_parameters(5);</cf>. Function may return value using <cf>return <m/[expr]/</cf>
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syntax. Returning value exits from current function (this is similar to C).
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<p>Filters are declared in similar way to functions, except they can not have explicit
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parameters. They get route table entry as implicit parameter. Route table entry is passed implicitly
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to any functions being called. Filter must terminate with either accept or reject statement.
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<sect1>Data types
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<p>Each variable and each value has certain type. Unlike C, filters distinguish between integers and
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booleans (that is to prevent you from shooting in the foot).
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<descrip>
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<tag/bool/ this is boolean type, it can have only two values, <cf/TRUE/ and
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<cf/FALSE/. Boolean is not compatible with integer and is the only type you can use in if
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statements.
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<tag/int/ this is common integer, you can expect it to store signed values from -2000000000
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to +2000000000.
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<tag/pair/ this is pair of two short integers. Each component can have values from 0 to
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65535. Constant of this type is written as <cf/(1234,5678)/.
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<tag/string/ this is string of characters. There are no ways to modify strings in
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filters. You can pass them between functions, assign to variable of type string, print
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such variables, but you can not concatenate two strings (for example). String constants
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are written as <cf/"This is a string constant"/.
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<tag/ip/ this type can hold single ip address. Depending on version of bird you are using, it
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can be IPv4 or IPv6 address. IPv4 addresses are written (as you would expect) as
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<cf/1.2.3.4/. You can apply special operator <cf>.mask(<M>num</M>)</cf>
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on values of type ip. It masks out all but first <cf><M>num</M></cf> bits from ip
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address. So <cf/1.2.3.4.mask(8) = 1.0.0.0/ is true.
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<tag/prefix/ this type can hold ip address, prefix len pair. Prefixes are written as
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<cf><M>ipaddress</M>/<M>pxlen</M></cf>, or
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<cf><m>ipaddress</m>/<m>netmask</m></cf> There are two special
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operators on prefix:
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<cf/.ip/, which separates ip address from the pair, and <cf/.len/, which separates prefix
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len from the pair.
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<tag/int|ip|prefix|pair set/
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filters know four types of sets. Sets are similar to strings: you can pass them around
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but you can not modify them. Constant of type <cf>set int</cf> looks like <cf>
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[ 1, 2, 5..7 ]</cf>. As you can see, both simple values and ranges are permitted in
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sets. Sets of prefixes are special: you can specify which prefixes should match them by
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using <cf>[ 1.0.0.0/8+, 2.0.0.0/8-, 3.0.0.0/8{5,6} ]</cf>. 3.0.0.0/8{5,6} matches
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prefixes 3.X.X.X, whose prefix length is 5 to 6. 3.0.0.0/8+ is shorthand for 3.0.0.0/{0,8},
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3.0.0.0/8- is shorthand for 3.0.0.0/{0,7}.
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<tag/enum/
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enumerational types are halfway-internal in the bird. You can not define your own
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variable of enumerational type, but some predefined variables are of enumerational
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type. Enumerational types are incompatible with each other, again, for your
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protection.
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<tag/bgppath/
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bgp path is list of autonomous systems.
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<tag/bgpmask/
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bgp mask is mask used for matching bgp paths
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(using <cf>path ~ / 2 3 5 ? / syntax </cf>). <cf/?/ is
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really serving in "any number of autonomous systems", but we
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did not want to use * because then it becomes too easy to
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write <cf>/*</cf> which is start of comment.
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<tag/clist/
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community list. This is similar to set of pairs,
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except that unlike other sets, it can be modified.
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</descrip>
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<sect1>Operations
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<p>Filter language supports common integer operations <cf>(+,-,*,/)</cf>, parenthesis <cf/(a*(b+c))/, comparation
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<cf/(a=b, a!=b, a<b, a>=b)/. Special operators include <cf/˜/ for "in" operation. In operation can be
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used on element and set of that elements, or on ip and prefix, or on prefix and prefix or on bgpath and bgpmask. Its result
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is true if element is in given set or if ip address is inside given prefix. Operator <cf/=/ is used to assign value
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to variable.
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<sect1>Control structures
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<p>Filters support two control structures: if/then/else and case. Syntax of if/then/else is <cf>if
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<M>expression</M> then <M>command</M>; else <M>command</M>;</cf> and you can use <cf>{
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<M>command_1</M>; <M>command_2</M>; <M>...</M> }</cf> instead of one or both commands. <cf>else</cf>
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clause may be omitted.
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<p><cf>case</cf> is similar to case from Pascal. Syntax is <cf>case <m/expr/ { else |
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<m/num_or_prefix [ .. num_or_prefix]/ : <m/statement/ ; [ ... ] }</cf>. Expression after
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<cf>case</cf> can be of any type that can be on the left side of ˜ operator, and anything that could
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be member of set is allowed before :. Multiple commands are allowed without {} grouping. If argument
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matches neither of : clauses, else: clause is used. (Case is actually implemented as set matching,
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internally.)
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<p>Here is example that uses if and case structures:
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<code>
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case arg1 {
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2: print "two"; print "I can do more commands without {}";
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3 .. 5: print "three to five";
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else: print "something else";
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}
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if 1234 = i then printn "."; else { print "*** FAIL: if 1 else"; }
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</code>
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<sect1>Route attributes
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<p>Filter is implicitly passed route, and it can access its attributes, just like it accesses variables.
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<descrip>
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<tag>defined( <m>attribute</m> )</tag>
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returns TRUE if given attribute is defined. Access to undefined attribute results in runtime error.
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<tag/<m/prefix/ network/
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network this route is talking about.
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<tag/<m/ip/ from/
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who told me about this route.
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<tag/<m/ip/ gw/
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what is nexthop packets routed using this route should be forwarded to.
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<tag/<m/enum/ source/
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what protocol told me about this route. This can have values such as <cf/RTS_RIP/ or <cf/RTS_OSPF_EXT/.
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</descrip>
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<p>Plus, there are protocol-specific attributes, which are described in protocol sections.
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<sect1>Utility functions
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<p>There are few functions you might find convient to use:
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<descrip>
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<tag>print <m/expr/ [ <m/, expr .../ ]</tag>
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prints given expressions, usefull mainly while debugging filters.
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<tag>quitbird</tag>
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terminates bird. Usefull while debugging filter interpretter.
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</descrip>
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<sect>Protocols
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<sect1>Rip
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<sect2>Introduction
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<p>Rip protocol (sometimes called Rest In Pieces) is simple protocol, where each router broadcasts
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distances to all networks he can reach. When router hears distance to other network, it increments
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it and broadcasts it back. Broadcasts are done in regular intervals. Therefore, if some network goes
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unreachable, routers keep telling each other that distance is old distance plus 1 (actually, plus
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interface metric, which is usually one). After some time, distance reaches infinity (that's 15 in
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rip) and all routers know that network is unreachable. Rip tries to minimize situations where
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counting to infinity is necessary, because it is slow. Due to infinity being 16, you can not use
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rip on networks where maximal distance is bigger than 15 hosts. You can read more about rip at <HTMLURL
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URL="http://www.ietf.org/html.charters/rip-charter.html">.
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<sect2>Configuration
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<p>In addition to options generic to other protocols, rip supports following options:
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<descrip>
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<tag/authentication none|password|md5/ selects authentication method to use. None means that
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packets are not authenticated at all, password means that plaintext password is embedded
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into each packet, and md5 means that packets are authenticated using md5 cryptographic
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hash. If you set authentication to non-none, it is good idea to add <cf>passwords { }</cf>
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section.
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<tag>honor always|neighbor|never </tag>specifies, when should be routing table updates
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honored. (Always, when sent from host on directly connected network, or never.)
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</descrip>
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<p>There are two options that can be specified per-interface. First is <cf>metric</cf>, with
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default one. Second is <cf>mode multicast|broadcast|quiet|nolisten|version1</cf>, it selects mode for
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rip to work in. If nothing is specified, rip runs in multicasts mode. <cf>version1</cf> is
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currently equivalent to <cf>broadcast</cf>, and it makes rip talk at broadcast address even
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through multicast mode is possible. <cf>quiet</cf> option means that rip will not transmit
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periodic messages onto this interface and <cf>nolisten</cf> means that rip will talk to this
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interface but not listen on it.
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<p>Following options generally override specified behavior from rfc. If you use any of these
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options, bird will no longer be rfc-compatible, which means it will not be able to talk to anything
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other than equally misconfigured bird. I warned you.
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<descrip>
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<tag>port <M>number</M></tag>
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selects IP port to operate on, default 520. (This is useful when testing bird, if you
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set this to address >1024, you will not need to run bird with uid==0).
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<tag>infinity <M>number</M></tag>
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select value of infinity, default 16. Bigger values will make protocol convergence
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even slower.
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<tag>period <M>number</M>
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</tag>specifies number of seconds between periodic updates. Default is 30 seconds. Lower
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number will mean faster convergence but bigger network load.
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<tag>timeouttime <M>number</M>
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</tag>specifies how old route has to be to be considered unreachable. Default is 4*period.
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<tag>garbagetime <M>number</M>
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</tag>specifies how old route has to be to be discarded. Default is 10*period.
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</descrip>
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<p>In addition, rip defines two filter variables, both of type it. <cf>rip_metric</cf> is rip
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metric of current route, <cf>rip_tag</cf> is tag of current route.
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<code>
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protocol rip MyRIP_test {
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debug all;
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port 1520;
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period 7;
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garbagetime 60;
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interface "*";
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honour neighbour;
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passwords { password "ahoj" from 0 to 10;
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password "nazdar" from 10;
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}
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authentication none;
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import filter { print "importing"; accept; };
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export filter { print "exporting"; accept; };
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}
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</code>
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<sect>Getting more help
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<p>This is really last section of this file, should give pointers to
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programmers documentation, web pages mailing lists and similar stuff.
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</article>
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