<!-- Title information -->
-<title>The DXSpider Installation and Administration Manual
-<author>Ian Maude, G0VGS, (ianmaude@btinternet.com)
-<date>$Date$ $Revision$
+<title>The DXSpider Administration Manual v1.48</title>
+<author>Ian Maude, G0VGS, (ianmaude@btinternet.com)</author>
+<date>Version 1.48 August 2001 revision 1.1</date>
+
<abstract>
A reference for SysOps of the DXSpider DXCluster program.
</abstract>
<!-- Begin the document -->
-<sect>Installation (Original version by Iain Philipps, G0RDI)
+<sect>Routing and Filtering
<sect1>Introduction
<P>
-This section describes the installation of DX Spider v1.46 on a
-<htmlurl url="http://www.redhat.com" name="RedHat"> Linux Distribution.
-Wherever possible I will try to include differences for other distributions.
-I do not intend to try and cover the installation of Linux or the setup
-of the AX25 utilities. If you need help on this then read Iains original
-installation guide that comes with the Spider distribution.
-
-<P>
-I am assuming a general knowledge of Linux and its commands. You should
-know how to use <em>tar</em> and how to edit files using your favourite editor.
-
-<P>
-The crucial ingredient for all of this is
-<htmlurl url="http://www.perl.org" name="Perl">. Earlier versions of
-Spider required perl 5.004, however it is now <it>STRONGLY</it> recommended
-that you use at least version 5.005_03 as this is the version being used
-in the development of Spider.
-
-<P>In addition to the standard Red Hat distribution you will require the
-following modules from <htmlurl url="http://www.cpan.org/CPAN.html" name="http://www.cpan.org/CPAN.html"> ...
-
-<P>
-<itemize>
-
-<item> Data-Dumper-2.101.tar.gz
-<item> TimeDate-1.10.tar.gz
-<item> IO-1.20.tar.gz (for perl 5.00403 and lower)
-<item> Net-Telnet-3.02.tar.gz
-<item> Curses-1.05.tar.gz
-<item> Time-HiRes-01.20.tar.gz
-
-</itemize>
-
-<P>
-
-<em>Do</em> get the latest versions of these packages and install them
-but use the above list as the earliest versions usable.
-
-<sect1>Preparation
-
-<P>
-I will assume that you have already downloaded the latest tarball of
-the DXSpider software and are ready to install it. I am assuming version
-1.46 for this section but of course you would use the latest version.
-
-<P>
-Login as root and create a user to run the cluster under. <bf><it>UNDER
-NO CIRCUMSTANCES USE ROOT AS THIS USER!</it></bf>. I am going to use
-the name <em>sysop</em>. You can call it anything you wish. Depending
-on your security requirements you may wish to use an existing user,
-however this is your own choice.
-
-<P>
-<tscreen><verb>
-# adduser -m sysop
-</verb></tscreen>
-
-<P>
-Now set a password for the user ...
-
-<tscreen><verb>
-# passwd sysop
-# New UNIX password:
-# Retype new UNIX password:
-passwd: all authentication tokens updated successfully
-</verb></tscreen>
-
-<sect1>Installing the software
-
-<P>
-Now to unpack the DX Spider distribution, set symbolic links and group
-permissions. Copy the tarball to /home/sysop and do the following.
-
-<tscreen><verb>
-# cd ~sysop
-# tar xvfz spider-1.46.tar.gz
-# ln -s ~sysop/spider /spider
-# groupadd -g 251 spider (or another number)
-</verb></tscreen>
-
-If you do not have the command <em>groupadd</em> available to you simply
-add a line in /etc/group by hand.
-
-<tscreen><verb>
-# vi /etc/group (or your favorite editor)
-</verb></tscreen>
-
-You also need to add some others to the group, including your own callsign
-(this will be used as an alias) and root. The finished line in /etc/group
-should look something like this
-
-<tt>
-spider:x:251:sysop,g0vgs,root
-</tt>
-
-<P>
-The next step is to set the permissions on the Spider directory tree and files ....
-
-<tscreen><verb>
-# chown -R sysop.spider spider
-# find . -type d -exec chmod 2775 {} \;
-# find . -type f -exec chmod 775 {} \;
-</verb></tscreen>
-
-<P>
-This last step allows various users of the group <em>spider</em> to have
-write access to all the directories. This is not really needed just yet
-but will be useful when web interfaces start to appear.
-
-<P>
-Finally, you need to fix the permissions on the ax25_call and netrom_call
-programs. Check where they are with the <em>locate</em> command and alter
-the permissions with the <em>chmod</em> command like this ..
-
-<tscreen><verb>
-# chown root ax25_call netrom_call
-# chmod 4775 ax25_call netrom_call
-</verb></tscreen>
-
-<sect1>Setting callsigns etc
-
-<P>
-Now login to your machine as the user you created earlier. In my case that
-user is called <em>sysop</em>. Once logged in, issue the following commands ....
-
-<tscreen><verb>
-$ cd /spider
-$ mkdir local
-$ mkdir local_cmd
-$ cp perl/DXVars.pm.issue local/DXVars.pm
-$ cd local
-$ vi DXVars.pm (or your favourite editor)
-</verb></tscreen>
-
-<P>
-Using the distributed DXVars.pm as a a template, set your cluster callsign,
-sysop callsign and other user info to suit your own environment. Note that
-this a perl file which will be parsed and executed as part of the cluster. If
-you get it wrong then perl will complain when you start the cluster process.
-It is important only to alter the text of any section. Some of the lines look
-a little odd. Take this line for example ....
-
-<tt>
-$myemail = "ianmaude\@btinternet.com";
-</tt>
-
-<P>
-There appears to be an extra slash in there. However this has to be there
-for the file to work so leave it in.
-
-<P><bf>PLEASE USE CAPITAL LETTERS FOR CALLSIGNS</bf>
-
-<P>
-DON'T alter any file in /spider/perl, they are overwritten with every
-release. Any files or commands you place in /spider/local or /spider/local_cmd
-will automagically be used in preference to the ones in /spider/perl EVEN
-while the cluster is running!
-
-<P>
-Save the new file and change directory to ../perl ....
-
-<tscreen><verb>
-$ cd ../perl
-</verb></tscreen>
-
-<P>
-Now type the following command which creates the basic user file with you as
-the sysop.
-
-<tscreen><verb>
-$ ./create_sysop.pl
-</verb></tscreen>
-
-<sect1>Starting up for the first time
-
-<P>
-We can now bring spider up for the first time and see if all is well or not!
-It should look something like this ...
-
-<tscreen><verb>
-$ ./cluster.pl
-DXSpider DX Cluster Version 1.46
-Copyright (c) 1998 Dirk Koopman G1TLH
-loading prefixes ...
-loading band data ...
-loading user file system ...
-starting listener ...
-reading existing message headers
-reading cron jobs
-orft we jolly well go ...
-</verb></tscreen>
-
-<P>
-If all is well then login on another term or console as <em>sysop</em> and
-cd to /spider/src. Now issue the following command ...
-
-<tscreen><verb>
-$ ./client
-</verb></tscreen>
-
-<P>
-This should log you into the cluster as the sysop under the alias callsign we
-set earlier. In this case the callsign is G0VGS. The cluster callsign is set
-in the DXVars.pm file in /spider/local. In this case we will assume that this
-was set as GB7MBC. You should therefore see this when you login ....
-
-<tscreen><verb>
-G0VGS de GB7MBC 19-Nov-1999 2150Z >
-</verb></tscreen>
-
-If you do, congratulations! If not, look over the instructions again, you
-have probably missed something out. You can shut spider down again with the
-command ....
-
-<tscreen><verb>
-shutdown
-</verb></tscreen>
-
-<P>
-and both the cluster and the client should return to Linux prompts.
-
-<sect1>The Client program
-
-<P>
-In earlier versions of Spider, all the processes were Perl scripts. This
-was fine but with a lot of users your computer memory would soon be used up.
-To combat this a new client was written in "C". This client only works for
-<em>incoming</em> connects at the moment. Before you can use it though it
-has to be "made". CD to /spider/src and type <em>make</em>. You
-should see the output on your screen and hopefully now have a small C program
-called <em>client</em>. Leave it in this directory.
-
-
-<sect>Quick installation guide
-
-<P>
-This section is designed for experienced Spider sysops who want to install
-Spider from scratch. It is simply a check list of things that need to be
-done without any explanations. The name in brackets at the end of each line
-is the user that should be doing that process.
-
-<itemize>
-<item>Login as root
-<item>Get the additional CPAN modules and install them (root)
-<item>Create the "sysop" user and set a password (root)
-<item>Put the Spider tarball in ~sysop and untar it (root)
-<item>ln -s ~sysop/spider /spider (root)
-<item>groupadd -g 251 spider (root)
-<item>Add any more users you need to the group entry in /etc/group (root)
-<item>Set the permissions on the spider tree (root)
-<item>Fix permissions on ax25_call and netrom_call (root)
-<item>Login as the sysop user
-<item>cd to /spider (sysop)
-<item>mkdir local (sysop)
-<item>mkdir local_cmd (sysop)
-<item>cp perl/DXVars.pm.issue local/DXVars.pm (sysop)
-<item>cd to /spider/local and edit DXVars to set your details (sysop)
-<item>cd ../perl (sysop)
-<item>./create_sysop.pl (sysop)
-<item>./cluster.pl (sysop)
-</itemize>
-
-Spider should now be running and you should be able to login using the
-client program.
-
-<itemize>
-<item>Login as root
-<item>Enter the correct line in ax25d.conf (root)
-<item>Enter the correct line in /etc/services (root)
-<item>Enter the correct line in /etc/inetd.conf (root)
-<item>killall -HUP inetd (root)
-</itemize>
-
-Spider should now be able to accept logins via telnet, netrom and ax25.
-
-<itemize>
-<item>Login as sysop
-<item>Start the cluster (sysop)
-<item>set/node and type for links (sysop)
-<item>Write any connect scripts (sysop)
-<item>Edit /spider/crontab as required (sysop)
-<item>Edit any other files as necessary (sysop)
-<item>Set filters, hops and forwarding files (sysop)
-<item>Login as root
-<item>Enter the correct line in /etc/inittab (root)
-</itemize>
-
-<sect>Configuration
-
-<sect1>Allowing ax25 connects from users
-
-<P>
-As stated previously, the aim of this document is not to tell you how to
-configure Linux or the ax25 utilities. However, you do need to add a line
-in your ax25d.conf to allow connections to DXSpider for your users. For
-each interface that you wish to allow connections on, use the following format ...
-
-<tscreen><verb>
-default * * * * * * - sysop /spider/src/client client %u ax25
-</verb></tscreen>
-
-or, if you wish your users to be able to use SSID's on their callsigns ..
-
-<tscreen><verb>
-default * * * * * * - sysop /spider/src/client client %s ax25
-</verb></tscreen>
-
-For most purposes this is not desirable. The only time you probably will need this is
-when you need to allow other cluster nodes that are using SSID's in. In this case it
-owuld probably be better to use the first example and then add a specific line for that
-node like this:
-
-<tscreen><verb>
-GB7DJK-2 * * * * * * - sysop /spider/src/client client gb7djk-2 ax25
-default * * * * * * - sysop /spider/src/client client %u ax25
-</verb></tscreen>
-
-<sect1>Allowing telnet connects from users
-
-<P>
-From version 1.47 there is a new (more efficient) way of doing this (see next section) but,
-if you prefer, the method of doing it described here will continue to work just fine.
-
-<P>
-Allowing telnet connections is quite simple. Firstly you need to add a line
-in /etc/services to allow connections to a port number, like this ....
-
-<tscreen><verb>
-spdlogin 7300/tcp # spider anonymous login port
-</verb></tscreen>
-
-Then add a line in /etc/inetd.conf like this ....
-
-<tscreen><verb>
-spdlogin stream tcp nowait root /usr/sbin/tcpd /spider/src/client login telnet
-</verb></tscreen>
-
-<P>
-Once this is done, you need to restart inetd like this ....
-
-<tscreen><verb>
-killall -HUP inetd
-</verb></tscreen>
-
-
-<P>Now login as <em>sysop</em> and cd spider/src. You can test that spider
-is accepting telnet logins by issuing the following command ....
-
-<tscreen><verb>
-./client login telnet
-</verb></tscreen>
-
-You should get a login prompt and on issuing a callsign, you will be given
-access to the cluster. Note, you will not get a password login. There seems
-no good reason for a password prompt to be given so it is not asked for.
-
-<P>
-Assuming all is well, then try a telnet from your linux console ....
-
-<tscreen><verb>
-telnet localhost 7300
-</verb></tscreen>
+From DXSpider version 1.48, major changes were introduced to the way
+node connections are treated. This is part of an ongoing process to
+remove problems with loops and to enable talk and other functions to
+propagate across the whole of the worldwide cluster network. In fact,
+in a Spider network, it would be useful, perhaps even necessary to
+have loops. This would give real resilience to the network, meaning
+that if a link dropped, the information flow would simply come in and
+go out via a different route. Of course, we do not have a complete
+network of Spider nodes, there are other programs out there. Some of
+these do not have any protection from loops. Certainly AK1A does not
+handle loops well at all. It is therefore necessary to have some form
+of protection for these nodes.
<P>
-You should now get the login prompt and be able to login as before.
-
-<sect1>Setting up telnet connects (from 1.47 onwards)
+In fact DXSpider has had a simple system for some time which is called
+<it>isolation</it>. This is similar to what, in other systems such as
+<bf>clx</bf>, is called <it>passive mode</it>. A more detailed explanation
+of <it>isolation</it> is given further below. This system is still available
+and, for simple networks, is probably all that you need.
<P>
-From version 1.47 you can chose to allow the perl cluster.pl program to
-allow connections direct (i.e. not via the <tt>/spider/src/client</tt>
-interface program). If you are using Windows then this is the only method
-available of allowing incoming telnet connections.
+The new functionality introduced in version 1.48 is filtering the node
+and user protocol frames on a "per interface" basis. We call this
+<it>route filtering</it>. This is used <bf>instead of</bf>
+<it>isolation</it>.
-<P>
-To do this you need first to remove any line that you may previously have set
-up in /etc/inetd.conf. Remember to:-
+<p>
+What this really means is that you can control more or less completely
+which PC protocol frames, to do with user and node management, pass to
+each of your partner nodes. You can also limit what comes into your
+node from your partners. You can even control the settings that your
+partner node has for the routing information that it sends to you
+(using the <it>rcmd</it> command).
-<tscreen><verb>
-killall -HUP inetd
-</verb></tscreen>
+<sect1>Route Filters
<p>
-to make the change happen...
+Initially when route filters were being tested we generated a
+"default" filter. Unfortunately it quickly became apparent that this
+might suit the UK cluster network but didn't really fit anybody else.
+However using a default filter is an appropriate thing to do. How, is
+explained further on.
<p>
-Having done that then you need to copy the file
-<tt>/spider/perl/Listeners.pm</tt> to <tt>/spider/local</tt> and
-then edit it. You will need to uncomment the line containing &dquot;0.0.0.0&dquot;
-and select the correct port to listen on. So that it looks like this:-
-
-<tscreen><verb>
-@listen = (
- ["0.0.0.0", 7300],
-);
-</verb></tscreen>
-
-<p>As standard, the listener will listen on all interfaces simultaniously. If you require more
-control than this, you can specify each interface individually:-
-
-<tscreen><verb>
-@listen = (
- ["gb7baa.dxcluster.net", 7300],
- ["44.131.16.2", 6300],
-);
-</verb></tscreen>
-
-<p>This will only be successful if the IP addresses on each interface are static.
-If you are using some kind of dynamic IP addressing then the 'default' method is the
-only one which will work.
-
-<P>
-Restart the cluster.pl program to enable the listener.
-
-<P>
-One important difference with the internal listener is that no echoing is done by the
-cluster program. Users will need to set 'local-echo' on in their telnet clients if
-it isn't set automatically (as per the standards). Needless to say this will probably
-only apply to Windows users.
-
-<sect1>Setting up for AGW Engine (1.47 onwards)
-
-<p>AGW Engine is a Windows based ax25 stack. You can connect to an AGW engine from Linux
-as well as Windows based machines.
-
-<p>In order to enable access to an AGW Engine you need to copy <tt>/spider/perl/AGWConnect.pm</tt>
-to <tt>/spider/local</tt> and edit it. Specifically you must:-
-
-<itemize>
-<item> set <tt>$enable</tt> to 1.
-<item> set <tt>$login</tt> and <tt>$passwd</tt> to the values set up in your AGW installation.
-If you haven't set any there, then you should not touch these values.
-<item> You can connect to a remote AGW engine (ie on some other machine) by changing <tt>$addr</tt>
-and <tt>$port</tt> appropriately.
-<item> Restart the cluster.pl program
-</itemize>
-
-
-<sect1>Setting up node connects
-
-<P>
-In order to allow cluster node connections, spider needs to know that the
-connecting callsign is a cluster node. This is the case whether the connect
-is incoming or outgoing. In spider this is a simple task and can be done in
-runtime.
-
-<P>
-Later versions of Spider can distinguish different software and treat them
-differently. For example, the WCY beacon cannot be handles by AK1A type
-nodes as AK1A does not know what to do with PC73. There are 4 different
-types of node at present and although they may not have any major
-differences at the moment, it allows for compatibility. The 4 types are ...
-
-<tscreen><verb>
-set/node (AK1A type)
-set/spider
-set/dxnet
-set/clx
-</verb></tscreen>
-
-<P>
-For now, we will assume that the cluster we are going to connect to is an
-AK1A type node.
-
-<P>
-Start up the cluster as you did before and login as the sysop with client.
-The cluster node I am wanting to make a connection to is GB7BAA but you would
-obviously use whatever callsign you required. At the prompt type ...
-
-<tscreen><verb>
-set/node gb7baa
-</verb></tscreen>
-
-<P>
-The case does not matter as long as you have a version of DXSpider later than
-1.33. Earlier versions required the callsign to be in upper case.
-
-<P>
-That is now set, it is as simple as that. To prove it, login on yet another
-console as sysop, cd to spider/src and issue the command ...
-
-<tscreen><verb>
-./client gb7baa (using the callsign you set as a node)
-</verb></tscreen>
-
-<P>
-You should get an initialisation string from DXSpider like this ...
-
-<tscreen><verb>
-./client gb7baa
-PC38^GB7MBC^~
-</verb></tscreen>
-
-If the callsign you just set up as a cluster node is for an incoming connect,
-this is all that needs to be done. If the connection is to be outgoing then
-a connection script needs to be written.
-
-<P>
-Sometimes you make a mistake... Honest, it does happen. If you want to make a node
-back to being a normal user, regardless
-of what type it is, do:
-
-<tscreen><verb>
-unset/node gb7baa
-</verb></tscreen>
-
-<sect1>Connection scripts
-
-<P>
-Because DXSpider operates under Linux, connections can be made using just about
-any protocol; AX25, NETRom, tcp/ip, ROSE etc are all possible examples.
-Connect scripts live in the /spider/connect directory and are simple ascii files.
-Writing a script for connections is therefore relatively simple.
-
-<P>
-The connect scripts consist of lines which start with the following keywords
-or symbols:-
-
-<descrip>
-
-<tag/#/All lines starting with a <tt>#</tt> are ignored, as are completely
- blank lines.
-
-<tag/timeout/<tt>timeout</tt> followed by a number is the number of seconds to wait for a
- command to complete. If there is no timeout specified in the script
- then the default is 60 seconds.
-
-<tag/abort/ <tt>abort</tt> is a regular expression containing one or more strings to look
- for to abort a connection. This is a perl regular expression and is
- executed ignoring case.
-
-<tag/connect/<tt>connect</tt> followed by ax25, agw (for Windows users) or telnet and some type dependent
- information. In the case of a telnet connection, there can be up to
- two parameters.
- The first is the ip address or hostname of the computer you wish to
- connect to and the second is the port number you want to use (this
- can be left out if it is a normal telnet session).
- In the case of an ax25 session then this would normally be a call to
- ax25_call or netrom_call as in the example above. It is your
- responsibility to get your node and other ax25 parameters to work
- before going down this route!
-
-<tag/'/<tt>'</tt> is the delimiting character for a word or phrase of an expect/send
- line in a chat type script. The words/phrases normally come in pairs,
- either can be empty. Each line reads input from the connection until
- it sees the string (or perl regular expression) contained in the
- left hand string. If the left hand string is empty then it doesn't
- read or wait for anything. The comparison is done ignoring case.
- When the left hand string has found what it is looking for (if it is)
- then the right hand string is sent to the connection.
- This process is repeated for every line of chat script.
+The first thing that you must do is determine whether you need to do route filtering <bf>at all</bf>. If you are a "normal" node with two or three partners
+and you arranged in an "official" non-looping tree type network, then <bf>you do
+not need to do route filtering</bf> and you will feel a lot better for not
+getting involved. If you are successfully using <it>isolation</it> then you
+also probably don't need to use route filtering.
-<tag/client/<tt>client</tt> starts the connection, put the arguments you would want here
- if you were starting the client program manually. You only need this
- if the script has a different name to the callsign you are trying to
- connect to (i.e. you have a script called other which actually
- connects to GB7DJK-1 [instead of a script called gb7djk-1]).
-</descrip>
-
-
-There are many possible ways to configure the script but here are three examples,
-one for a NETRom/AX25 connect, one for AGW engines and one for tcp/ip.
-
-<tscreen><verb>
-timeout 60
-abort (Busy|Sorry|Fail)
-# don't forget to chmod 4775 netrom_call!
-connect ax25 /usr/sbin/netrom_call bbs gb7djk g1tlh
-'Connect' ''
-'Connect' 'c np7'
-'Connect' 'c gb7dxm'
-# you can leave this out if you call the script 'gb7dxm'
-client gb7dxm ax25
-</verb></tscreen>
-
-<P>
-
-<tscreen><verb>
-timeout 60
-abort (Busy|Sorry|Fail)
-# this does exactly the same as the previous example
-# the '1' is the AGW port number to connect thru for g1tlh
-connect agw 1 g1tlh
-'Connect' ''
-'Connect' 'c np7'
-'Connect' 'c gb7dxm'
-# you can leave this out if you call the script 'gb7dxm'
-client gb7dxm ax25
-</verb></tscreen>
-
-<P>
-
-<tscreen><verb>
-timeout 15
-connect telnet dirkl.tobit.co.uk
-'login' 'gb7djk'
-'word' 'gb7djk'
-# tell GB7DJK-1 that it is connected to GB7DJK
-# you can leave this out if you call this script 'gb7djk'
-client gb7djk telnet
-</verb></tscreen>
-
-<P>
-Both these examples assume that everything is set up properly at the other end.
-You will find other examples in the /spider/examples directory.
-
-<sect1>Starting the connection
-
-<P>
-You start the connection, from within a sysop enabled cluster login, by typing
-in the word <em>connect</em> followed by a script name like this ....
-
-<tscreen><verb>
-G0VGS de GB7MBC 13-Dec-1998 2041Z >connect gb7djk-1
-connection to GB7DJK-1 started
-G0VGS de GB7MBC 13-Dec-1998 2043Z >
-</verb></tscreen>
-
-This will start a connection using the script called <em>gb7djk-1</em>. You can
-follow the connection by watching the term or console from where you started
-<em>cluster.pl</em>. From version 1.47 onwards, you will need to <tt>set/debug connect</tt> first.
-You should see something like this ...
-
-<tscreen><verb>
-<- D G1TLH connect gb7djk-1
--> D G1TLH connection to GB7DJK-1 started
--> D G1TLH G1TLH de GB7DJK 13-Dec-1998 2046Z >
-timeout set to 15
-CONNECT sort: telnet command: dirkl.tobit.co.uk
-CHAT "login" -> "gb7djk"
-received "
-Red Hat Linux release 5.1 (Manhattan)
-Kernel 2.0.35 on an i586
-"
-received "login: "
-sent "gb7djk"
-CHAT "word" -> "gb7djk"
-received "gb7djk"
-received "Password: "
-sent "gb7djk"
-Connected to GB7DJK-1, starting normal protocol
-<- O GB7DJK-1 telnet
--> B GB7DJK-1 0
-GB7DJK-1 channel func state 0 -> init
-<- D GB7DJK-1
-<- D GB7DJK-1 Last login: Sun Dec 13 17:59:56 from dirk1
-<- D GB7DJK-1 PC38^GB7DJK-1^~
-<- D GB7DJK-1 PC18^ 1 nodes, 0 local / 1 total users Max users 0 Uptime
-0 00:00^5447^~
- etc
-
-</verb></tscreen>
-
-<P>
-With later versions of Spider there is a set/login command for users. This
-tells them when a user or node logs in or out. If you do not add a line to
-your scripts after the final line (or before the client line which should always
-be last if needed) then the login/logout information will be sent to users
-<it>before</it> the login actually completes. This means if a node is
-unreachable, it will continue sending logins and logouts to users even though it
-is not actually connecting. To avoid this use the following line ...
-
-<tscreen><verb>
-'connect' ''
-</verb></tscreen>
-
-<P>
-In a script, this might look like ...
-
-<tscreen><verb>
-timeout 35
-abort (Busy|Sorry|Fail)
-connect telnet mary 3000
-'ogin:' 'gb7mbc'
-'>' 'telnet 44.131.93.96 7305'
-'connect' ''
-</verb></tscreen>
-
-<sect1>Telnet echo
-
-<P>
-Cluster links in particular suffer greatly from the presence of telnet echo.
-This is caused by the telnet negotiation itself and can create at worst severe
-loops. At best it creates unnecessary bandwidth and large logfiles! There are
-things that can be done to limit this problem but will not always work dependent
-on the route taken to connect.
-
-<P>
-Telnet echo itself should only be a problem if the connection is being made to
-the telnet port (23). This port uses special rules that include echo negotiation.
-If the connection is to a different port, such as 7300, this negotiation does
-not happen and therefore no echo should be present.
-
-<P>
-Sometimes it is not possible to make a direct connection to another node and this
-can cause problems. There is a way of trying to suppress the telnet echo but
-this will not always work, unfortunately it is difficult to be more specific.
-Here is an example of what I mean ...
-
-<tscreen><verb>
-timeout 35
-abort (Busy|Sorry|Fail)
-connect telnet mary.lancs.ac.uk
-'ogin:' 'gb7mbc'
-'word:' 'mypasswd'
-'\$' 'stty -echo raw'
-'\$' 'telnet 44.131.93.96'
-'connect' ''
-</verb></tscreen>
-
-So, the first connection is made by Spider. This is fine as Spider uses the
-Net_Telnet script from within perl. This actually uses TCP rather than TELNET
-so no negotiation will be done on the first connection. Once connected to
-mary.lancs.ac.uk, the command is sent to suppress echo. Now a telnet is made
-to a cluster node that is accepting connections on port 23. The problem with
-this link is that the negotiation is made by the remote machine, therefore you
-have no control over it. The chances are that this link will create echo and
-there will be no way you can stop it.
-
-
-<sect>Automating things
-
-<P>
-Ok, you should now have DXSpider running nicely and allowing connects by cluster
-nodes or users. However, it has to be shutdown and restarted manually and if
-connection scripts fail they have to be started again manually too, not much use
-if you are not at the console! So, in this section we will automate both.
-Firstly starting the cluster.
-
-<sect1>Autostarting the cluster
-
-<P>
-This is not only a way to start the cluster automatically, it also works as a
-watchdog, checking the sanity of DXSpider and respawning it should it crash for
-any reason. Before doing the following, shutdown the cluster as you did earlier.
-
-<P>
-Login as root and bring up the /etc/inittab file in your favourite editor. Add
-the following lines to the file near the end ...
-
-<tscreen><verb>
-##Start DXSpider on bootup and respawn it should it crash
-DX:3:respawn:/bin/su -c "/usr/bin/perl -w /spider/perl/cluster.pl" sysop >/dev/tty7
-</verb></tscreen>
-
-<P>
-This line works fine for RedHat distributions. It is also fine for SuSE up to
-7.0. From Suse 7.1 you need to add runlevels 2 and 5 like this ...
-
-<tscreen><verb>
-DX:235:respawn:/bin/su -c "/usr/bin/perl -w /spider/perl/cluster.pl" sysop >/dev/tty7
-</verb></tscreen>
-
-
-The line required for Slackware distributions is slightly different. My thanks to
-Aurelio, PA3EZL for this information.
-
-<tscreen><verb>
-DX:23:respawn:/bin/su - sysop -c "/usr/bin/perl -w /spider/perl/cluster.pl" >/dev/tty7
-</verb></tscreen>
-
-<P>
-This will automatically start DXSpider on tty7 (ALT-F7) on bootup and restart
-it should it crash for any reason.
-
-<P>
-As root type the command <em>telinit q</em>. DXSpider should start up
-immediately. You will see the output on tty7 and if you login as <em>sysop</em>
-you should find everything running nicely.
-
-<P>
-So far so good, now to automate script connections...
-
-<sect1>The crontab file
-
-<P>
-Login as <em>sysop</em> and create a file in /spider/local_cmd called crontab.
-Edit it with your favourite editor and add a line like this (I have included
-a comment)
-
-<tscreen><verb>
-# check every 10 minutes to see if gb7xxx is connected and if not
-# start a connect job going
-
-0,10,20,30,40,50 * * * * start_connect('gb7xxx') if unless connected('gb7xxx')
-</verb></tscreen>
-
-<P>
-The callsign involved will be the callsign of the cluster node you are
-going to connect to. This will now check every 10 minutes to see if
-gb7xxx is connected, if it is then nothing will be done. If it is not,
-then a connect attempt will be started.
-
-<P>
-There are probably lots of other things you could use this crontab file for.
-If you want to know more about it, look at the
-<htmlurl url="http://www.dxcluster.org/cron.html" name="DXSpider"> website
-at the cron page where it is explained more fully.
-
-<sect>Hop control
-
-<P>
-Starting with version 1.13 there is simple hop control available on a per
-node basis. Also it is possible to isolate a network completely so that you
-get all the benefits of being on that network, but can't pass on information
-from it to any other networks you may be connected to (or vice versa).
-
-<sect1>Basic hop control
-
-<P>
-In /spider/data you will find a file called hop_table.pl. This is the file
-that controls your hop count settings. It has a set of default hops on the
-various PC frames and also a set for each node you want to alter the hops for.
-You may be happy with the default settings of course, but this powerful tool
-can help to protect and improve the network. The file will look something
-like this ...
-
-<tscreen><verb>
-#
-# hop table construction
-#
-
-package DXProt;
-
-# default hopcount to use
-$def_hopcount = 5;
-
-# some variable hop counts based on message type
-%hopcount =
-(
- 11 => 10,
- 16 => 10,
- 17 => 10,
- 19 => 10,
- 21 => 10,
-);
-
-
-# the per node hop control thingy
-
-
-%nodehops =
-
- GB7ADX => { 11 => 8,
- 12 => 8,
- 16 => 8,
- 17 => 8,
- 19 => 8,
- 21 => 8,
- },
-
- GB7UDX => { 11 => 8,
- 12 => 8,
- 16 => 8,
- 17 => 8,
- 19 => 8,
- 21 => 8,
- },
- GB7BAA => {
- 11 => 5,
- 12 => 8,
- 16 => 8,
- 17 => 8,
- 19 => 8,
- 21 => 8,
- },
-};
-</verb></tscreen>
-
-<P>
-Each set of hops is contained within a pair of curly braces and contains a
-series of PC frame types. PC11 for example is a DX spot. The figures here
-are not exhaustive but should give you a good idea of how the file works.
-
-<P>
-You can alter this file at any time, including whilst the cluster is running.
-If you alter the file during runtime, the command <em>load/hops</em> will
-bring your changes into effect.
-
-<sect1>Isolating networks
-
-<P>
-It is possible to isolate networks from each other on a "gateway" node using the
- <em>set/isolate <node_call></em> command.
-
-<P>
-The effect of this is to partition an isolated network completely from another
-nodes connected to your node. Your node will appear on and otherwise behave
-normally on every network to which you are connected, but data from an isolated
-network will not cross onto any other network or vice versa. However all the
-spot, announce and WWV traffic and personal messages will still be handled
-locally (because you are a real node on all connected networks), that is locally
-connected users will appear on all networks and will be able to access and
-receive information from all networks transparently. All routed messages will
-be sent as normal, so if a user on one network knows that you are a gateway for
-another network, he can still still send a talk/announce etc message via your
-node and it will be routed across.
-
-<P>
-The only limitation currently is that non-private messages cannot be passed down
-isolated links regardless of whether they are generated locally. This will change
-when the bulletin routing facility is added.
-
-<P>
-If you use isolate on a node connection you will continue to receive all
-information from the isolated partner, however you will not pass any information
-back to the isolated node. There are times when you would like to forward only
-spots across a link (maybe during a contest for example). To do this, isolate
-the node in the normal way and put in a filter in the /spider/filter/spots
-directory to override the isolate. This filter can be very simple and consists
-of just one line ....
-
-<tscreen><verb>
-$in = [
- [ 1, 0, 'd', 0, 3] # The last figure (3) is the hop count
-];
-</verb></tscreen>
-
-<P>
-There is a lot more on filtering in the next section.
-
-<sect>Filtering (Old Style upto v1.44)
-
-<P>
-Filters can be set for spots, announcements and WWV. You will find the
-directories for these under /spider/filter. You will find some examples in
-the directories with the suffix <em>.issue</em>. There are two types of
-filter, one for incoming information and one for outgoing information.
-Outgoing filters are in the form <em>CALLSIGN.pl</em> and incoming filters
-are in the form <em>in_CALLSIGN.pl</em>. Filters can be set for both nodes
-and users.
-
-<P>
-All filters work in basically the same way. There are several elements
-delimited by commas. There can be many lines in the filter and they are
-read from the top by the program. When writing a filter you need to think
-carefully about just what you want to achieve. You are either going to write
-a filter to <em>accept</em> or to <em>reject</em>. Think of a filter as
-having 2 main elements. For a reject filter, you would have a line or multiple
-lines rejecting the things you do not wish to receive and then a default line
-accepting everything else that is not included in the filter. Likewise, for an
-accept filter, you would have a line or multiple lines accepting the things you
-wish to receive and a default line rejecting everthing else.
-
-<P>
-In the example below, a user requires a filter that would only return SSB spots
-posted in Europe on the HF bands. This is achieved by first rejecting the CW
-section of each HF band and rejecting all of VHF, UHF etc based on frequency.
-Secondly, a filter rule is set based on CQ zones to only accept spots posted in
-Europe. Lastly, a default filter rule is set to reject anything outside the filter.
-
-<tscreen><verb>
-$in = [
- [ 0, 0, 'r', # reject all CW spots
- [
- 1800.0, 1850.0,
- 3500.0, 3600.0,
- 7000.0, 7040.0,
- 14000.0, 14100.0,
- 18068.0, 18110.0,
- 21000.0, 21150.0,
- 24890.0, 24930.0,
- 28000.0, 28180.0,
- 30000.0, 49000000000.0,
- ] ,1 ],
- [ 1, 11, 'n', [ 14, 15, 16, 20, 33, ], 15 ], #accept EU
- [ 0, 0, 'd', 0, 1 ], # 1 = want, 'd' = everything else
-];
-</verb></tscreen>
+<p>
+You will only require this functionality if you are
+"well-connected". What that means is that you are connected to several
+different parts of (say) the EU cluster and, at the same time, also
+connected to two or three places in the US which, in turn are
+connected back to the EU. This is called a "loop" and if you are
+seriously looped then you need filtering.
<P>
-The actual elements of each filter are described more fully in the following
-sections.
-
-<sect1>Spots
+I should at this stage give a little bit of background on filters. All
+the filters in Spider work in basically the same way. You can either
+accept or reject various options in order to create the filter rules
+you wish to achieve. Some filters are user settable, others can only
+be altered by the sysop. Route filtering can only be done by the sysop.
-<P>
-The elements of the Spot filter are ....
+<P>
+Anyway, without further discouragement, let me start the process
+of explanation.
-<tscreen><verb>
-[action, field_no, sort, possible_values, hops]
-</verb></tscreen>
+<sect1>The node_default filter
<P>
-There are 3 elements here to look at. Firstly, the action element. This is
-very simple and only 2 possible states exist, accept (1) or drop (0).
+All normal systems should have a default routing filter and it should
+usually be set to send only the normal, unlooped, view of your
+"national" network. Here in the UK that means nodes from the UK and
+Eire, in EU it is more complex as the networks there grew up in a more
+intertwined way.
-<P>
-The second element is the field_no. There are 13 possiblities to choose from
-here ....
+<p>
+The generic commands are:-
<tscreen><verb>
- 0 = frequency
- 1 = call
- 2 = date in unix format
- 3 = comment
- 4 = spotter
- 5 = spotted dxcc country
- 6 = spotter's dxcc country
- 7 = origin
- 8 = spotted itu
- 9 = spotted cq
- 10 = spotter's itu
- 11 = spotter's cq
- 12 = callsign of the channel on which the spot has appeared
+reject/route node_default <filter_option>
+
+or
+
+accept/route node_default <filter_option>
</verb></tscreen>
-<P>
-The third element tells us what to expect in the fourth element. There are
-4 possibilities ....
+where filter_option is one of the following ...
<tscreen><verb>
- n - numeric list of numbers e.g. [ 1,2,3 ]
- r - ranges of pairs of numbers e.g. between 2 and 4 or 10 to 17 - [ 2,4, 10,17 ]
- a - an alphanumeric regex
- d - the default rule
+call <prefixes>
+call_dxcc <numbers>
+call_itu <numbers>
+call_zone <numbers>
+channel <prefixes>
+channel_dxcc <numbers>
+channel_itu <numbers>
+channel_zone <numbers>
</verb></tscreen>
-<P>
-The fifth element is simply the hops to set in this filter. This would only
-be used if the filter was for a node of course and overrides the hop count in
-hop_table.pl.
+Please be careful if you alter this setting, it will affect
+<bf><it>ALL</it></bf> your links!
-<P>
-So, let's look at an example spot filter. It does not matter in the example
-who the filter is to be used for. So, what do we need in the filter? We need
-to filter the spots the user/node requires and also set a default rule for
-anything else outside the filter. Below is a simple filter that stops spots
-arriving from outside Europe.
+<p>
+For the default routing filter then you have two real choices: either
+a "national" view or the "safe" option of only your own
+callsign. Examples of each (for my node: GB7DJK) are:-
-<tscreen><verb>$in = [
- [ 0, 4, 'a', '^(K|N|A|W|VE|VA|J)'], # 0 = drop, 'a' = alphanumeric
- [ 1, 0, 'd', 0, 1 ], # 1 = want, 'd' = everything else
- ];
+<tscreen><verb>
+acc/route node_default call_dxcc 61,38
+acc/route node_default call gb7djk
</verb></tscreen>
-<P>
-So the filter is wrapped in between a pair of square brackets. This tells
-Spider to look in between these limits. Then each line is contained within
-its own square brackets and ends with a comma. Lets look carefully at the first
-line. The first element is 0 (drop). Therefore anything we put on this line
-will not be accepted. The next element is 4. This means we are filtering by
-the spotter. The third element is the letter "a" which tells the program to
-expect an alphanumeric expression in the fourth element. The fourth element
-is a list of letters separated by the pipe symbol.
-
-<P>
-What this line does is tell the program to drop any spots posted by anyone in
-the USA, Canada or Japan.
+GB7DJK uses the first of these. The DXCC countries can be obtained from the
+<it>show/prefix</it> command.
-<P>
-The second line is the default rule for anything else. The "d" tells us this
-and the line simply reads... accept anything else.
+<p>
+The example filters shown control <it>output</it> <bf>TO</bf> all your
+partner nodes unless they have a specific filter applied to them (see
+next section).
-<P>
-You can add as many lines as you need to complete the filter but if there are
-several lines of the same type it is neater to enclose them all as one line.
-An example of this is where specific bands are set. We could write this like
-this ....
+<p>
+It is also possible to control the <it>incoming</it> routing
+information that you are prepared to accept <bf>FROM</bf> your partner
+nodes. The reason this is necessary is to make sure that stuff like
+mail, pings and similar commands a) go down the correct links and b)
+don't loop around excessively. Again using GB7DJK as an example a typical
+default input filter would be something like:
<tscreen><verb>
-[ 0,0,'r',[1800.0, 2000.0], 1],
-[ 0,0,'r',[10100.0, 10150.0], 1],
-[ 0,0,'r',[14000.0, 14350.0], 1],
-[ 0,0,'r',[18000.0, 18200.0], 1],
+rej/route node_default input call_dxcc 61,38 and not channel_dxcc 61,38
</verb></tscreen>
-<P>
-But the line below achieves the same thing and is more efficient ....
+What this does is accept node and user information for our national
+network from nodes that are in our national network, but rejects such
+information from anyone else. Although it doesn't explicitly say so,
+by implication, any other node information (not from the UK and Eire)
+is accepted.
+
+<p>
+As I imagine it will take a little while to get one's head around all of this you
+can study the effect of any rules that you try by watching the debug output
+after having done:-
<tscreen><verb>
- [ 0, 0, 'r',
- [
- 1800.0, 2000.0, # top band
- 10100.0, 10150.0, # WARC
- 14000.0, 14350.0, # 20m
- 18000.0, 18200.0, # WARC
- [ ,1 ],
+set/debug filter
</verb></tscreen>
+After you have got tired of that, to put it back the way it was:-
+
+<tscreen><verb>
+unset/debug filter
+</verb></tscreen>
-<sect1>Announcements
+<sect1>General route filtering
<P>
+Exactly the same rules apply for general route filtering. You would
+use either an accept filter or a reject filter like this ...
+
<tscreen><verb>
+reject/route <node_call> <filter_option>
-# This is an example announce or filter allowing only West EU announces
-#
-# The element list is:-
-# 0 - callsign of announcer
-# 1 - destination * = all, <callsign> = routed to the node
-# 2 - text
-# 3 - * - sysop, <some text> - special list eg 6MUK, ' ', normal announce
-# 4 - origin
-# 5 - 0 - announce, 1 - wx
-# 6 - channel callsign (the interface from which this spot came)
+or
-$in = [
- [ 1, 0, 'a', '^(P[ABCDE]|DK0WCY|G|M|2|EI|F|ON)' ],
- [ 0, 0, 'd', 0 ]
-];
+accept/route <node_call> <filter_option>
</verb></tscreen>
-In this example, only the prefixes listed will be allowed. It is possible to
-be quite specific. The Dutch prefix "P" is followed by several secondary
-identifiers which are allowed. So, in the example, "PA" or "PE" would be ok
-but not "PG". It is even possible to allow information from a single callsign.
-In the example this is DK0WCY, to allow the posting of his Aurora Beacon.
-
-<sect1>WWV
-
<P>
+Here are some examples of route filters ...
+
<tscreen><verb>
+rej/route gb7djk call_dxcc 61,38 (everything except UK+EIRE nodes)
+rej/route all (equiv to [very] restricted mode)
+acc/route gb7djk call_dxcc 61,38 (send only UK+EIRE nodes)
+acc/route gb7djk call gb7djk (equiv to SET/ISOLATE)
+</verb></tscreen>
-# This is an example WWV filter
-#
-# The element list is:-
-# 0 - nominal unix date of spot (ie the day + hour:13)
-# 1 - the hour
-# 2 - SFI
-# 3 - K
-# 4 - I
-# 5 - text
-# 6 - spotter
-# 7 - origin
-# 8 - incoming interface callsign
-
-# this one doesn't filter, it just sets the hop count to 6 and is
-# used mainly just to override any isolation from WWV coming from
-# the internet.
+In practice you will either be opening the default filter out for a
+partner by defining a specific filter for that callsign:-
+
+<tscreen><verb>
+acc/route gb7baa all
+acc/route gb7baa input all
+</verb></tscreen>
-$in = [
- [ 1, 0, 'd', 0, 6 ]
-];
+or restricting it quite a lot, in fact making it very nearly like an <it>isolated</it> node, like this:-
+<tscreen><verb>
+acc/route pi4ehv-8 call gb7djk
+rej/route pi4ehv-8 input call_dxcc 61,38
</verb></tscreen>
-<P>
-It should be noted that the filter will start to be used only once a user/node
-has logged out and back in again.
-<P>
-I am not going to spend any more time on these filters now as they will become
-more "comprehensive" in the near future.
+This last example takes everything except UK and Eire from PI4EHV-8
+but only sends him my local configuration (just a PC19 for GB7DJK and
+PC16s for my local users).
+
+<p>
+It is possible to do <bf>much</bf> more complex rules, there are up to 10
+accept/reject pairs per callsign per filter. For more information see the
+next section.
-<sect>Filtering (New Style v1.45 and later)
<sect1>General filter rules
DXSpider system. They all use the same general mechanism.
<P>
-In general terms you can create a 'reject' or an 'accept' filter which can have
+In general terms you can create a "reject" or an "accept" filter which can have
up to 10 lines in it. You do this using, for example ...
<tscreen><verb>
to the accept line, which lets through everything else on HF. The next filter line
lets through just VHF/UHF spots from EU.
+<sect1>Basic hop control
+
+<P>
+In /spider/data you will find a file called hop_table.pl. This is the file
+that controls your hop count settings. It has a set of default hops on the
+various PC frames and also a set for each node you want to alter the hops for.
+You may be happy with the default settings of course, but this powerful tool
+can help to protect and improve the network. The file will look something
+like this ...
+
+<tscreen><verb>
+#
+# hop table construction
+#
+
+package DXProt;
+
+# default hopcount to use
+$def_hopcount = 5;
+
+# some variable hop counts based on message type
+%hopcount =
+(
+ 11 => 10,
+ 16 => 10,
+ 17 => 10,
+ 19 => 10,
+ 21 => 10,
+);
+
+
+# the per node hop control thingy
+
+
+%nodehops =
+
+ GB7ADX => { 11 => 8,
+ 12 => 8,
+ 16 => 8,
+ 17 => 8,
+ 19 => 8,
+ 21 => 8,
+ },
+
+ GB7UDX => { 11 => 8,
+ 12 => 8,
+ 16 => 8,
+ 17 => 8,
+ 19 => 8,
+ 21 => 8,
+ },
+ GB7BAA => {
+ 11 => 5,
+ 12 => 8,
+ 16 => 8,
+ 17 => 8,
+ 19 => 8,
+ 21 => 8,
+ },
+};
+</verb></tscreen>
+
+<P>
+Each set of hops is contained within a pair of curly braces and contains a
+series of PC frame types. PC11 for example is a DX spot. The figures here
+are not exhaustive but should give you a good idea of how the file works.
+
+<P>
+You can alter this file at any time, including whilst the cluster is running.
+If you alter the file during runtime, the command <em>load/hops</em> will
+bring your changes into effect.
+
+<sect1>Isolating networks
+
+<P>
+It is possible to isolate networks from each other on a "gateway" node using the
+ <em>set/isolate <node_call></em> command.
+
+<P>
+The effect of this is to partition an isolated network completely from another
+node connected to your node. Your node will appear on and otherwise behave
+normally on every network to which you are connected, but data from an isolated
+network will not cross onto any other network or vice versa. However all the
+spot, announce and WWV traffic and personal messages will still be handled
+locally (because you are a real node on all connected networks), that is locally
+connected users will appear on all networks and will be able to access and
+receive information from all networks transparently. All routed messages will
+be sent as normal, so if a user on one network knows that you are a gateway for
+another network, he can still still send a talk/announce etc message via your
+node and it will be routed across.
+
+<P>
+The only limitation currently is that non-private messages cannot be passed down
+isolated links regardless of whether they are generated locally. This will change
+when the bulletin routing facility is added.
+
+<P>
+If you use isolate on a node connection you will continue to receive all
+information from the isolated partner, however you will not pass any information
+back to the isolated node. There are times when you would like to forward only
+spots across a link (maybe during a contest for example). To do this, isolate
+the node in the normal way and put in a filter in the /spider/filter/spots
+directory to override the isolate. This filter can be very simple and consists
+of just one line ....
+
+<tscreen><verb>
+$in = [
+ [ 1, 0, 'd', 0, 3] # The last figure (3) is the hop count
+];
+</verb></tscreen>
<sect>Other filters
accept/ann user_default by G,M,2
</verb></tscreen>
+<sect1>accept/route (8)
+
+<P>
+<tt>
+<bf>accept/route <call> [0-9] <pattern></bf> Set an 'accept' filter line for routing
+</tt>
+
+<P>
+Create an 'accept this routing PC Protocol' line for a filter.
+
+<P>
+An accept filter line means that if a PC16/17/19/21/24/41/50 matches this filter
+it is passed thru that interface. See HELP FILTERING for more info. Please read this
+to understand how filters work - it will save a lot of grief later on.
+
+<P>
+You can use any of the following things in this line:-
+
+<tscreen><verb>
+ call <prefixes> the callsign of the thingy
+ call_dxcc <numbers> eg: 61,62 (from eg: sh/pre G)
+ call_itu <numbers>
+ call_zone <numbers>
+ origin <prefixes> really the interface it came in on
+ origin_dxcc <numbers> eg: 61,62 (from eg: sh/pre G)
+ origin_itu <numbers>
+ origin_zone <numbers>
+</verb></tscreen>
+
+<P>
+some examples:-
+
+<tscreen><verb>
+ acc/route gb7djk call_dxcc 61,38 (send only UK+EIRE nodes)
+ acc/route gb7djk call gb7djk (equiv to SET/ISOLATE)
+</verb></tscreen>
+
+<P>
+You can use the tag 'all' to accept everything eg:
+
+<tscreen><verb>
+ acc/route all
+</verb></tscreen>
+
<sect1>accept/spots (0)
<P>
<P>
Send an announcement to LOCAL users only, where <text> is the text
-of the announcement you wish to broadcast
+of the announcement you wish to broadcast. If you do not wish to receive
+announces, use the <em>set/noannounce</em> command. Any announces made by
+a sysop will override set/noannounce.
<sect1>announce full (0)
reject/ann user_default by G,M,2
</verb></tscreen>
+<sect1>reject/route (8)
+
+<P>
+<tt>
+<bf>reject/route <call> [0-9] <pattern></bf> Set an 'reject' filter line for routing
+</tt>
+
+<P>
+Create an 'reject this routing PC Protocol' line for a filter.
+
+<P>
+An reject filter line means that if a PC16/17/19/21/24/41/50 matches this filter
+it is NOT passed thru that interface. See HELP FILTERING for more info. Please
+read this to understand how filters work - it will save a lot of grief later on.
+You can use any of the following things in this line:-
+
+<tscreen><verb>
+ call <prefixes> the callsign of the thingy
+ call_dxcc <numbers> eg: 61,62 (from eg: sh/pre G)
+ call_itu <numbers>
+ call_zone <numbers>
+ origin <prefixes> really the interface it came in on
+ origin_dxcc <numbers> eg: 61,62 (from eg: sh/pre G)
+ origin_itu <numbers>
+ origin_zone <numbers>
+</verb></tscreen>
+
+<P>
+some examples:-
+
+<tscreen><verb>
+ rej/route gb7djk call_dxcc 61,38 (everything except UK+EIRE nodes)
+</verb></tscreen>
+
+<P>
+You can use the tag 'all' to reject everything eg:
+
+<tscreen><verb>
+ rej/route all (equiv to [very] restricted mode)
+</verb></tscreen>
+
<sect1>reject/spots (0)
<P>
<P>
Add a beep to DX and other terminal messages.
+<sect1>set/bbs (5)
+
+<P>
+<tt>
+<bf>set/bbs <call> [<call>..]</bf>Make <call> a BBS
+</tt>
+
<sect1>set/clx (5)
<P>
Display all the bad spotter's callsigns in the system, see SET/BADSPOTTER
for more information.
+<sect1>show/configuration (0)
+
+<P>
+<tt>
+<bf>show/configuration [<node>]</bf> Show all visible nodes and their users
+</tt>
+
+<P>
+This command allows you to see all the users that can be seen
+and the nodes to which they are connected. With the optional <em>node</em>,
+you can specify a particular node to look at.
+
+This command is normally abbreviated to: sh/c
+
+BE WARNED: the list that is returned can be VERY long
+
+<sect1>show/configuration/node (0)
+
+<P>
+<tt>
+<bf>show/configuration/node</bf> Show all the nodes connected
+</tt>
+
+<P>
+Show all the nodes connected locally and the nodes they have connected.
+
+<sect1>show/connect (1)
+
+<P>
+<tt>
+<bf>show/connect</bf> Show all the active connections
+</tt>
+
+<P>
+This command shows information on all the active connections known to
+the node. This command gives slightly more information than WHO.
+
<sect1>show/date (0)
<P>
This command shows the internal status of a message and includes information
such as to whom it has been forwarded, its size, origin etc etc.
+<P>
+If no message number is given then the status of the message system is
+displayed.
+
+<sect1>stat/route_node (5)
+
+<P>
+<tt>
+<bf>stat/route_node <callsign></bf> Show the data in a Route::Node object
+</tt>
+
+<sect1>stat/route_user (5)
+
+<P>
+<tt>
+<bf>stat/route_user <callsign></bf> Show the data in a Route::User object
+</tt>
+
<sect1>stat/user (5)
<P>