The following is one way to set up a FreeBSD machine for SLIP on a static host network. For dynamic hostname assignments (your address changes each time you dial up), you probably need to have a more complex setup.
First, determine which serial port your modem is connected to. Many people setup a symbolic link, such as /dev/modem, to point to the real device name, /dev/cuaaN. This allows you to abstract the actual device name should you ever need to move the modem to a different port. It can become quite cumbersome when you need to fix a bunch of files in /etc and .kermrc files all over the system!
Note: /dev/cuaa0 is COM1, cuaa1 is COM2, etc.
Make sure you have the following in your kernel configuration file:
pseudo-device sl 1
It is included in the GENERIC kernel, so this should not be a problem unless you have deleted it.
Add your home machine, the gateway and nameservers to your /etc/hosts file. Mine looks like this:
127.0.0.1 localhost loghost
136.152.64.181 water.CS.Example.EDU water.CS water
136.152.64.1 inr-3.CS.Example.EDU inr-3 slip-gateway
128.32.136.9 ns1.Example.EDU ns1
128.32.136.12 ns2.Example.EDU ns2Make sure you have hosts before bind in your /etc/host.conf. Otherwise, funny things may happen.
Edit the /etc/rc.conf file.
Set your hostname by editing the line that says:
hostname="myname.my.domain"Your machine's full Internet hostname should be placed here.
Add sl0 to the list of network interfaces by changing the line that says:
network_interfaces="lo0"
to:
network_interfaces="lo0 sl0"Set the startup flags of sl0 by adding a line:
ifconfig_sl0="inet ${hostname} slip-gateway netmask 0xffffff00 up"Designate the default router by changing the line:
defaultrouter="NO"to:
defaultrouter="slip-gateway"Make a file /etc/resolv.conf which contains:
domain CS.Example.EDU
nameserver 128.32.136.9
nameserver 128.32.136.12As you can see, these set up the nameserver hosts. Of course, the actual domain names and addresses depend on your environment.
Set the password for root and toor (and any other accounts that do not have a password).
Reboot your machine and make sure it comes up with the correct hostname.
Dial up, type slip at the prompt, enter your machine name and password. What is required to be entered depends on your environment. If you use kermit, you can try a script like this:
# kermit setup
set modem hayes
set line /dev/modem
set speed 115200
set parity none
set flow rts/cts
set terminal bytesize 8
set file type binary
# The next macro will dial up and login
define slip dial 643-9600, input 10 =>, if failure stop, -
output slip\x0d, input 10 Username:, if failure stop, -
output silvia\x0d, input 10 Password:, if failure stop, -
output ***\x0d, echo \x0aCONNECTED\x0aOf course, you have to change the hostname and password to fit yours. After doing so, you can just type slip from the kermit prompt to connect.
Note: Leaving your password in plain text anywhere in the filesystem is generally a bad idea. Do it at your own risk.
Leave the kermit there (you can suspend it by Ctrl-z) and as root, type:
# slattach -h -c -s 115200 /dev/modem
If you are able to ping hosts on the other side of the router, you are connected! If it does not work, you might want to try -a instead of -c as an argument to slattach.
Do the following:
# kill -INT `cat /var/run/slattach.modem.pid`
to kill slattach. Keep in mind you must be root to do the above. Then go back to kermit (by running fg if you suspended it) and exit from it (q).
The slattach manual page says you have to use ifconfig sl0 down to mark the interface down, but this does not seem to make any difference for me. (ifconfig sl0 reports the same thing.)
Some times, your modem might refuse to drop the carrier (mine often does). In that case, simply start kermit and quit it again. It usually goes out on the second try.
If it does not work, feel free to ask me. The things that people tripped over so far:
Not using -c or -a in slattach (This should not be fatal, but some users have reported that this solves their problems.)
Using s10 instead of sl0 (might be hard to see the difference on some fonts).
Try ifconfig sl0 to see your interface status. For example, you might get:
# ifconfig sl0
sl0: flags=10<POINTOPOINT>
inet 136.152.64.181 --> 136.152.64.1 netmask ffffff00Also, netstat -r will give the routing table, in case you get the "no route to host" messages from ping. An example shown here:
# netstat -r
Routing tables
Destination Gateway Flags Refs Use IfaceMTU Rtt Netmasks:
(root node)
(root node)
Route Tree for Protocol Family inet:
(root node) =>
default inr-3.Example.EDU UG 8 224515 sl0 - -
localhost.Exampl localhost.Example. UH 5 42127 lo0 - 0.438
inr-3.Example.ED water.CS.Example.E UH 1 0 sl0 - -
water.CS.Example localhost.Example. UGH 34 47641234 lo0 - 0.438
(root node)This is after the link has been up for a while, the numbers on your system will vary.
This document provides suggestions for setting up SLIP Server services on a FreeBSD system, which typically means configuring your system to automatically startup connections upon login for remote SLIP clients.
This section is very technical in nature, so background knowledge is required. It is assumed that you are familiar with the TCP/IP network protocol, and in particular, network and node addressing, network address masks, subnetting, routing, and routing protocols, such as RIP. Configuring SLIP services on a dial-up server requires a knowledge of these concepts, and if you are not familiar with them, please read a copy of either Craig Hunt's TCP/IP Network Administration published by O'Reilly & Associates, Inc. (ISBN Number 0-937175-82-X), or Douglas Comer's books on the TCP/IP protocol.
It is further assumed that you have already setup your modem(s) and configured the appropriate system files to allow logins through your modems. If you have not prepared your system for this yet, please see the tutorial for configuring dialup services; if you have a World-Wide Web browser available, browse the list of tutorials at http://www.FreeBSD.org/. You may also want to check the manual pages for sio(4) for information on the serial port device driver and ttys(5), gettytab(5), getty(8), & init(8) for information relevant to configuring the system to accept logins on modems, and perhaps stty(1) for information on setting serial port parameters (such as clocal for directly-connected serial interfaces).
In its typical configuration, using FreeBSD as a SLIP server works as follows: a SLIP user dials up your FreeBSD SLIP Server system and logs in with a special SLIP login ID that uses /usr/sbin/sliplogin as the special user's shell. The sliplogin program browses the file /etc/sliphome/slip.hosts to find a matching line for the special user, and if it finds a match, connects the serial line to an available SLIP interface and then runs the shell script /etc/sliphome/slip.login to configure the SLIP interface.
For example, if a SLIP user ID were Shelmerg, Shelmerg's entry in /etc/master.passwd would look something like this:
Shelmerg:password:1964:89::0:0:Guy Helmer - SLIP:/usr/users/Shelmerg:/usr/sbin/sliplogin
When Shelmerg logs in, sliplogin will search /etc/sliphome/slip.hosts for a line that had a matching user ID; for example, there may be a line in /etc/sliphome/slip.hosts that reads:
Shelmerg dc-slip sl-helmer 0xfffffc00 autocomp
sliplogin will find that matching line, hook the serial line into the next available SLIP interface, and then execute /etc/sliphome/slip.login like this:
/etc/sliphome/slip.login 0 19200 Shelmerg dc-slip sl-helmer 0xfffffc00 autocomp
If all goes well, /etc/sliphome/slip.login will issue an ifconfig for the SLIP interface to which sliplogin attached itself (slip interface 0, in the above example, which was the first parameter in the list given to slip.login) to set the local IP address (dc-slip), remote IP address (sl-helmer), network mask for the SLIP interface (0xfffffc00), and any additional flags (autocomp). If something goes wrong, sliplogin usually logs good informational messages via the daemon syslog facility, which usually logs to /var/log/messages (see the manual pages for syslogd(8) and syslog.conf(5) and perhaps check /etc/syslog.conf to see to what syslogd is logging and where it is logging to.
OK, enough of the examples -- let us dive into setting up the system.
FreeBSD's default kernels usually come with two SLIP interfaces defined (sl0 and sl1); you can use netstat -i to see whether these interfaces are defined in your kernel.
Sample output from netstat -i:
Name Mtu Network Address Ipkts Ierrs Opkts Oerrs Coll
ed0 1500 <Link>0.0.c0.2c.5f.4a 291311 0 174209 0 133
ed0 1500 138.247.224 ivory 291311 0 174209 0 133
lo0 65535 <Link> 79 0 79 0 0
lo0 65535 loop localhost 79 0 79 0 0
sl0* 296 <Link> 0 0 0 0 0
sl1* 296 <Link> 0 0 0 0 0The sl0 and sl1 interfaces shown from netstat -i indicate that there are two SLIP interfaces built into the kernel. (The asterisks after the sl0 and sl1 indicate that the interfaces are "down".)
However, FreeBSD's default kernel does not come configured to forward packets (by default, your FreeBSD machine will not act as a router) due to Internet RFC requirements for Internet hosts (see RFCs 1009 [Requirements for Internet Gateways], 1122 [Requirements for Internet Hosts -- Communication Layers], and perhaps 1127 [A Perspective on the Host Requirements RFCs]). If you want your FreeBSD SLIP Server to act as a router, you will have to edit the /etc/rc.conf file and change the setting of the gateway_enable variable to YES.
You will then need to reboot for the new settings to take effect.
You will notice that near the end of the default kernel configuration file (/sys/i386/conf/GENERIC) is a line that reads:
pseudo-device sl 2
This is the line that defines the number of SLIP devices available in the kernel; the number at the end of the line is the maximum number of SLIP connections that may be operating simultaneously.
Please refer to Chapter 7 on Configuring the FreeBSD Kernel for help in reconfiguring your kernel.
As mentioned earlier, there are three files in the /etc/sliphome directory that are part of the configuration for /usr/sbin/sliplogin (see sliplogin(8) for the actual manual page for sliplogin): slip.hosts, which defines the SLIP users & their associated IP addresses; slip.login, which usually just configures the SLIP interface; and (optionally) slip.logout, which undoes slip.login's effects when the serial connection is terminated.
/etc/sliphome/slip.hosts contains lines which have at least four items separated by whitespace:
SLIP user's login ID
Local address (local to the SLIP server) of the SLIP link
Remote address of the SLIP link
Network mask
The local and remote addresses may be host names (resolved to IP addresses by /etc/hosts or by the domain name service, depending on your specifications in /etc/host.conf), and the network mask may be a name that can be resolved by a lookup into /etc/networks. On a sample system, /etc/sliphome/slip.hosts looks like this:
#
# login local-addr remote-addr mask opt1 opt2
# (normal,compress,noicmp)
#
Shelmerg dc-slip sl-helmerg 0xfffffc00 autocompAt the end of the line is one or more of the options.
normal -- no header compression
compress -- compress headers
autocomp -- compress headers if the remote end allows it
noicmp -- disable ICMP packets (so any "ping" packets will be dropped instead of using up your bandwidth)
Your choice of local and remote addresses for your SLIP links depends on whether you are going to dedicate a TCP/IP subnet or if you are going to use "proxy ARP" on your SLIP server (it is not "true" proxy ARP, but that is the terminology used in this section to describe it). If you are not sure which method to select or how to assign IP addresses, please refer to the TCP/IP books referenced in the SLIP Prerequisites (Section 16.6.2.1) and/or consult your IP network manager.
If you are going to use a separate subnet for your SLIP clients, you will need to allocate the subnet number out of your assigned IP network number and assign each of your SLIP client's IP numbers out of that subnet. Then, you will probably either need to configure a static route to the SLIP subnet via your SLIP server on your nearest IP router, or install gated on your FreeBSD SLIP server and configure it to talk the appropriate routing protocols to your other routers to inform them about your SLIP server's route to the SLIP subnet.
Otherwise, if you will use the "proxy ARP" method, you will need to assign your SLIP client's IP addresses out of your SLIP server's Ethernet subnet, and you will also need to adjust your /etc/sliphome/slip.login and /etc/sliphome/slip.logout scripts to use arp(8) to manage the proxy-ARP entries in the SLIP server's ARP table.
The typical /etc/sliphome/slip.login file looks like this:
#!/bin/sh -
#
# @(#)slip.login 5.1 (Berkeley) 7/1/90
#
# generic login file for a slip line. sliplogin invokes this with
# the parameters:
# 1 2 3 4 5 6 7-n
# slipunit ttyspeed loginname local-addr remote-addr mask opt-args
#
/sbin/ifconfig sl$1 inet $4 $5 netmask $6This slip.login file merely runs ifconfig for the appropriate SLIP interface with the local and remote addresses and network mask of the SLIP interface.
If you have decided to use the "proxy ARP" method (instead of using a separate subnet for your SLIP clients), your /etc/sliphome/slip.login file will need to look something like this:
#!/bin/sh -
#
# @(#)slip.login 5.1 (Berkeley) 7/1/90
#
# generic login file for a slip line. sliplogin invokes this with
# the parameters:
# 1 2 3 4 5 6 7-n
# slipunit ttyspeed loginname local-addr remote-addr mask opt-args
#
/sbin/ifconfig sl$1 inet $4 $5 netmask $6
# Answer ARP requests for the SLIP client with our Ethernet addr
/usr/sbin/arp -s $5 00:11:22:33:44:55 pubThe additional line in this slip.login, arp -s $5 00:11:22:33:44:55 pub, creates an ARP entry in the SLIP server's ARP table. This ARP entry causes the SLIP server to respond with the SLIP server's Ethernet MAC address whenever another IP node on the Ethernet asks to speak to the SLIP client's IP address.
When using the example above, be sure to replace the Ethernet MAC address (00:11:22:33:44:55) with the MAC address of your system's Ethernet card, or your "proxy ARP" will definitely not work! You can discover your SLIP server's Ethernet MAC address by looking at the results of running netstat -i; the second line of the output should look something like:
ed0 1500 <Link>0.2.c1.28.5f.4a 191923 0 129457 0 116
This indicates that this particular system's Ethernet MAC address is 00:02:c1:28:5f:4a -- the periods in the Ethernet MAC address given by netstat -i must be changed to colons and leading zeros should be added to each single-digit hexadecimal number to convert the address into the form that arp(8) desires; see the manual page on arp(8) for complete information on usage.
Note: When you create /etc/sliphome/slip.login and /etc/sliphome/slip.logout, the "execute" bit (chmod 755 /etc/sliphome/slip.login /etc/sliphome/slip.logout) must be set, or sliplogin will be unable to execute it.
/etc/sliphome/slip.logout is not strictly needed (unless you are implementing "proxy ARP"), but if you decide to create it, this is an example of a basic slip.logout script:
#!/bin/sh -
#
# slip.logout
#
# logout file for a slip line. sliplogin invokes this with
# the parameters:
# 1 2 3 4 5 6 7-n
# slipunit ttyspeed loginname local-addr remote-addr mask opt-args
#
/sbin/ifconfig sl$1 downIf you are using "proxy ARP", you will want to have /etc/sliphome/slip.logout remove the ARP entry for the SLIP client:
#!/bin/sh -
#
# @(#)slip.logout
#
# logout file for a slip line. sliplogin invokes this with
# the parameters:
# 1 2 3 4 5 6 7-n
# slipunit ttyspeed loginname local-addr remote-addr mask opt-args
#
/sbin/ifconfig sl$1 down
# Quit answering ARP requests for the SLIP client
/usr/sbin/arp -d $5The arp -d $5 removes the ARP entry that the "proxy ARP" slip.login added when the SLIP client logged in.
It bears repeating: make sure /etc/sliphome/slip.logout has the execute bit set after you create it (ie, chmod 755 /etc/sliphome/slip.logout).
If you are not using the "proxy ARP" method for routing packets between your SLIP clients and the rest of your network (and perhaps the Internet), you will probably either have to add static routes to your closest default router(s) to route your SLIP client subnet via your SLIP server, or you will probably need to install and configure gated on your FreeBSD SLIP server so that it will tell your routers via appropriate routing protocols about your SLIP subnet.
Adding static routes to your nearest default routers can be troublesome (or impossible if you do not have authority to do so...). If you have a multiple-router network in your organization, some routers, such as those made by Cisco and Proteon, may not only need to be configured with the static route to the SLIP subnet, but also need to be told which static routes to tell other routers about, so some expertise and troubleshooting/tweaking may be necessary to get static-route-based routing to work.
An alternative to the headaches of static routes is to install gated on your FreeBSD SLIP server and configure it to use the appropriate routing protocols (RIP/OSPF/BGP/EGP) to tell other routers about your SLIP subnet. You can use gated from the ports collection or retrieve and build it yourself from the GateD anonymous FTP site; the current version as of this writing is gated-R3_5Alpha_8.tar.Z, which includes support for FreeBSD "out-of-the-box". Complete information and documentation on gated is available on the Web starting at the Merit GateD Consortium. Compile and install it, and then write a /etc/gated.conf file to configure your gated; here is a sample, similar to what the author used on a FreeBSD SLIP server:
#
# gated configuration file for dc.dsu.edu; for gated version 3.5alpha5
# Only broadcast RIP information for xxx.xxx.yy out the ed Ethernet interface
#
#
# tracing options
#
traceoptions "/var/tmp/gated.output" replace size 100k files 2 general ;
rip yes {
interface sl noripout noripin ;
interface ed ripin ripout version 1 ;
traceoptions route ;
} ;
#
# Turn on a bunch of tracing info for the interface to the kernel:
kernel {
traceoptions remnants request routes info interface ;
} ;
#
# Propagate the route to xxx.xxx.yy out the Ethernet interface via RIP
#
export proto rip interface ed {
proto direct {
xxx.xxx.yy mask 255.255.252.0 metric 1; # SLIP connections
} ;
} ;
#
# Accept routes from RIP via ed Ethernet interfaces
import proto rip interface ed {
all ;
} ;The above sample gated.conf file broadcasts routing information regarding the SLIP subnet xxx.xxx.yy via RIP onto the Ethernet; if you are using a different Ethernet driver than the ed driver, you will need to change the references to the ed interface appropriately. This sample file also sets up tracing to /var/tmp/gated.output for debugging gated's activity; you can certainly turn off the tracing options if gated works OK for you. You will need to change the xxx.xxx.yy's into the network address of your own SLIP subnet (be sure to change the net mask in the proto direct clause as well).
Once you have installed and configured gated on your system, you will need to tell the FreeBSD startup scripts to run gated in place of routed. The easiest way to accomplish this is to set the router and router_flags variables in /etc/rc.conf. Please see the manual page for gated for information on command-line parameters.