Abstract
v 1.3, 13 February 1999
This document is a step-by-step guide to setting up a Linux dialin
server which allows SLIP and PPP connections over a phone line.
Copyright 1999 Josh Gentry
I encourage redistribution of this document, non-commercial and commercial.
I would like to be notified of redistribution. You are NOT permitted
to alter the contents of this document, though I do not care about changes
in presentation.
Acknowledgments
Much of the information in this document was originally gleaned from
the following LDP HOWTOs: Linux Serial HOWTO
Linux Modem HOWTO
Linux Kernel HOWTO
Linux PPP HOWTO
A great deal of information was found in Gert Doering's online documentation
for mgetty+sendfax. Additionally, the following online documents were valuable
in the configuration of AutoPPP in mgetty:
https://members.bellatlantic.net/~mrdennis/mgetty.html,
Mick Dennis https://oh3tr.ele.tut.fi/~oh3fg/ppp/ppps.html,
Kalevi Hautaniemi
Much information on PAP was learned from Olaf Kirch's Linux Network Administrators' Guide and the S.u.S.E. Support Data Base (https://wi-pc44.fh-konstanz.de/support-db/sdb_e/kfr_17.html).
The majority of the information in this document was originally gathered for, or derived from the process of setting up a Linux RedHat 5.1 dialin server for Mr. James Hart. He teaches at the Technical/Vocational Institute in Albuquerque, NM. Tony Lucero was my partner on that project. Their help and guidance were invaluable.
Finally, a big thank you to all those who have aided in the development of the Linux kernel and Linux applications. This document is my small contribution to their effort.
Disclaimer
This document carries no explicit or implied warranty. Nor is there
any guarantee that the information contained in this document is accurate.
It is offered in the hopes of helping others, but you use it at your own
risk. The author will not be liable for any damages that occur as a result
of using this document.
1 Introduction
A dialin server is a host equipped with a modem and phone line, that allows other hosts with modems and phone lines to call and connect to it. There are several reasons a person might want to do this; to use the resources on the dialin server, or, if the dialin server is on a network, to use the dialin server to access the network. Further, if this LAN is connected to the Internet, the client may be able to access the Internet via the dialin server.
1.1 Raison d'être
The majority of information needed to setup a Linux dialin server is available in LDP HOWTOs. When I used these documents to setup such a server, however, the fragmentary nature of the information was a major obstacle. This document consolidates much of the needed information and presents it as a step-by-step guide.
1.2 This Document as Guide
Setting up a dialin server is a common project, but not a simple one. This document attempts to rigorously set forth a step-by-step guide to the process. It is likely, however, that you will need to reference additional documents. The LDP HOWTOs listed above should be considered invaluable companions to this document, and should be consulted in the order listed above. Furthermore, do not neglect the documentation included with your getty and PPP packages.
1.3 Clients and Servers
The protocols used to connect two hosts via a phone line are technically
peer-to-peer protocols; there is no real difference between the machine
that dials and the machine that is dialed into. Conceptually, however,
it is easier to think in client/server terms. "When you dial into a site
to establish a PPP connection, you are a client. The machine to which you
connect is the server." (Linux
PPP HOWTO, Hart) I will use this convention throughout the document.
Setting up a dialin server is the process of setting
up a machine to answer the phone, participate in the setup of a connection
with the client, and authenticate the client.
1.4 Differences Between Linux Distributions
My experience is with RedHat Linux 5.1. I believe most of the information in this document will apply to all distributions. Where I am aware of or suspect differences between distributions, I will note it in the text.
1.5 Software Packages Covered
Linux kernel v2.0.34--https://sunsite.unc.edu/LDP/HOWTO/INFO-SHEET.html
mgetty+sendfax-https://www.leo.org/~doering/mgetty
PPP-2.3.3-https://sunsite.unc.edu/pub/Linux/system/network/serial/ppp/!INDEX
2 Modem Installation
For a host to be a dialin server, it must be physically possible to dial into it. This requires that the host have at least one modem and phone line. Modems are serial devices, therefor it is highly recommended that you read the Linux Serial HOWTO, as well as the Linux Modem HOWTO.
2.1 Modem Type
Plug-and -Play modems are not well supported by Linux. This means that you want a jumperable modem, or an external modem. Start by asking your vendor what brand they recommend.
2.2 Ports
Serial ports, like all I/O ports, have an address. By default,
Linux initializes four serial devices. Some may be familiar with
these ports as Microsoft refers to them, COM 1-4. In Linux these
ports are referred to as ttyS0-ttyS3. For example, the port known
to Microsoft as COM 1, would be known to Linux as ttyS0.
Note that if you use use a port address other than
these four, you will have to initialize that port with "setserial."
See the "setserial" man page.
External modems plug into external serial ports
(RS-232 ports) on your PC. These ports are automatically assigned
an address by Linux.
Internal modems plug into the internal PCI or ISA
slots of your PC. An internal modem is actually a modem and a serial
port. It carries its own, and it is the modem's serial port that
you plug into the internal slot. For these modems, you set the port
address on the modem. This is why you want a jumperable modem.
You use the jumpers to manually set address and IRQ. The prepriatorial
modem documentation should explain how to set the jumpers for port address
and IRQ.
Note, if your PC has two external serial (RS-232)
ports, as most PC's do, the Linux Modem HOW-TO recommends setting your
internal modem address to ttyS2 or higher.
3 Kernel Support
This is the part of the process most likely to scare those new to Linux.
It scared me. Turns out not to be as difficult as you think, and if you
do make a mistake, you can usually just recompile your kernel again. You
should now read the Linux
Kernel HOWTO.
There is an alternative to compiling
the PPP driver into the kernel. You can install the driver as a loadable
module. The advantages of this are that your kernel is smaller, and
it is not necessary to recompile. The PPP driver is linked to the
kernel and loaded into memory space only when it is needed. I believe
the argument for compiling the driver into the kernel is that PPP does
execute faster if it is compiled into the kernel.
You can link the loadable module to the kernel by
recompiling the kernel as described below, but as Matt Kressel has pointed
out to me, if you have the "insmod" command installed on your system, it
is not neccessary to recompile. Issue the command "insmod ppp" to
install the PPP driver as a loadable module. I found that I had to
"insmod slhc" before I could successfully install PPP with "insmod ppp".
I am not sure why, but "insmod ppp" would not work without the slhc module.
The command "lsmod" lists the loadable modules currently
installed on the system. There is also a command for removing modules.
If these commands are installed on your system, then you should also have
the man pages. Do a "man insmod" for more information.
3.1 Kernel and Source Code
The kernel is a binary, an executable program. Developers do not write
the kernel as an executable, they write code that is fed into a compiler,
and the compiler produces the executable from that source code.
With Linux, you have the source code that is used
to produce the kernel executable. This means that you can customize your
kernel to include only the capabilities that you need, creating a leaner,
meaner kernel. Because of this, you can not assume that a kernel includes
support for specialized tasks, such as those required for networking. You
will have to check and see, and if your kernel does not contain the necessary
support, you will have to recompile your kernel.
3.2 Recompiling the Kernel
To compile the kernel, you create a configuration file. You can check
your current configuration file to see if needed capabilities are already
compiled into your kernel.
Most dialin servers will be hosts on a LAN. This document assumes that
the host is already configured as part of the LAN. If this is not the case,
you should reference other documents at the LDP before continuing, such
as the Linux Network Administrators' Guide.
I prefer to use xconfig. It is a graphical tool
for viewing and modifying the kernel configuration file. It requires that
you have X-windows installed and running, and that you have Tk installed.
In xconfig you will find the options for SLIP and PPP support in the
category "Network devices." These have to be supported for a SLIP and PPP
dialin server. If the server will provide access to a network, the
kernel must include support for IP forwarding. In xconfig this is found
in the category "Network options."
If you must recompile the kernel, it is highly recommended
that you read the Linux
Kernel HOWTO. These are the basic steps:
1. Make a copy of your present kernel in case of emergency
2. cd /usr/src/linux-(kernel version number)
3. Issue the command "make config". If you are running X-windows
you can try "make xconfig" to use a point-and-click interface for this
process.
4. Say "yes" to all the proper networking options: SLIP, PPP,
IP forwarding, etc (your LAN network configuration should already be configured).
5. Save and exit
6. Issue the command "make dep"
7. Issue the command "make clean"
8. Issue the command "make zImage"
9. cd /usr/src/linux-(kernel version number)/arch/i386/boot
10. cp zImage /vmlinuz (or wherever your kernel resides)
11. Issue the command "lilo"
That should do it. The Linux Kernel HOWTO states that you should be able to issue the command "make zlilo" after you have made the zImage, and that making zlilo will copy and install the new kernel for you. This did not work on my system, however.
4 gettys
You will need a getty that can handle modem communications. Once started,
usually from inittab, the getty runs as a background process. Your modem
getty will be idle until the modem receives a call, at which point it will
"answer" the phone and negotiate the specifics of modem-to-modem communication
with the client. There are several gettys that can be used for this task.
This document covers the usage of mgetty. You can acquire the mgetty+sendfax
package and official documentation at Gert Doering's website, https://www.leo.org/~doering/mgetty.
It was included with RedHat 5.1 and lived in /sbin/mgetty and /etc/mgetty+sendfax.
Note that anytime you see something like "/sbin/mgetty"
that it is simply the path to the file. Files may be located in different
locations in the directory structure on different machines, and possibly
with different distributions. Therefor, the path to the file would be different.
You will need to verify the location of the necessary files on your system.
There are many options for mgetty that you can edit
to your desired configuration, most importantly in /etc/mgetty+sendfax/mgetty.config.
Refer to the mgetty documentation if you need to make changes to the default
settings. The default settings worked for us. If you wish to enable AutoPPP,
you will need to edit /etc/mgetty+sendfax/login.config. Detailed instructions
on that task appear later in this section.
To start mgetty, edit /etc/inittab. Here is another
point where the serial and modem HOWTOs are helpful. You must tell mgetty
which serial port to monitor. In Linux these ports are numbered 0-3, and
named ttyS* for dialin. For a modem we installed on the third internal
port, we added this line to /etc/inittab:
S2:2345:respawn:/sbin/mgetty ttyS2 -D /dev/ttyS2
The option "-D" tells mgetty to expect data only, no faxes. After this
use the command "kill -1 1" to force initd to re-read inittab. This will
cause mgetty to be started.
Note that if you use a multi-port serial board,
those ports might be named differently than the four ports Linux initializes
by default. In his excellent document on mgetty and AutoPPP, Mick Dennis
reports naming the ports on his Cyclade Cyclom 16YeP as /dev/ttyC*.
Using the default settings, mgetty negotiates a
SLIP (Serial Line Internet Protocol) connection and allows authentication
via /etc/passwd. This is a functional system that allows a user to login
to a shell account. If desired, a mechanism can be provided to allow users
to start pppd after logging in over there SLIP connection. First, make
sure that all users have permission to execute pppd by issuing the command:
chmod u+s /usr/sbin/pppd
Next, add this line to /etc/bashrc:
alias ppp="exec /usr/sbin/pppd -detach"
This way, after the user has logged in over the SLIP connection, they
can start pppd by typing "ppp." This procedure is taken from Robert Hart's
Linux PPP HOWTO.
Another option is to create a PPP account. The entry in /etc/passwd
might look like this:
ppp:x:351:230:pppclient:/home/ppp:/usr/sbin/pppd
When a user connects they simply login as "ppp." Once they provide the
password, pppd starts automatically.
For Microsoft clients to work with this setup, the
client must be configured to provide a terminal screen after connection.
This is not a default setting. These are the steps to do it in Windows
95:
1. Click on My Computer
2. Click on Dial-Up Networking
3. Right-click on the icon for the connection
4. Click on Properties
5. Click on Configure
6. Click on Options
7. Click box next to "Bring up terminal window after dialing"
4.1 AutoPPP and mgetty
Most Windows users will not like the requirement to use a login screen after connecting to the server. It is possible for the system administrator to remove this annoying extra step by using mgetty's ability to start pppd upon initiating a connection. To do this, you enable AutoPPP.
4.2 Compiling mgetty
Note: I have been told by several people, that when they chose
to install mgetty from their Redhat 5.2 distribution mgetty was automatically
compiled to include AutoPPP.
For AutoPPP to function, you must edit the makefile
before compiling. On or near line 110 you will need this:
CFLAGS=-02 -Wall -pipe -DAUTO_PPP
After that edit, compile mgetty according to the mgetty documentation
instructions.
Next, you edit /etc/mgetty+sendfax/login.config to look like this around
line 50:
/AutoPPP/ - - /usr/sbin/pppd file /etc/ppp/options.server
Once you have completed this configuration, mgetty will automatically
start pppd when it receives the LCP configure request. (For more on LCP
read the pppd man page.) The "file" option tells pppd to read the file
/etc/ppp/options.server instead of the default /etc/ppp/options. Since
pppd uses /etc/ppp/options for acting as a client or server by default
(remember, it is technically peer-to-peer), using this option helps keep
the desired options for acting as client or server separate.
Assuming that you have edited /etc/mgetty+sendfax/mgetty.config
to your preferences, you are done. Note that in every instance that
you change the options for a process, the process will have to be restarted
before the new options can take affect.
Note: If you wish to be able to dial out with
a modem that is being monitored by mgetty, you will need to pay attention
to what device your communications program uses. See https://www.leo.org/~doering/mgetty/mgetty_10.html#SEC10
5 PPP (Point-to-Point Protocol)
The Point-to-Point Protocol is the most popular protocol used for connecting hosts by phone line.
5.1 Compiling pppd
Adhere to the PPP package documentation. If you will be using shadow passwords, you will need to use the following command:
make HAS_SHADOW=1
To use the MS-DNS option for Windows compatibility, and shadow, use:
make USE_MS_DNS=1 HAS_SHADOW=1
For more on this, see https://oh3tr.ele.tut.fi/~oh3fg/ppp/ppps.html.
5.2 Configuring pppd
PPP is configured by editing the options files read by pppd in /etc/ppp. Remember that in this configuration pppd will read /etc/ppp/options.server when it is started by mgetty. The most complete list of pppd options I have found is in the pppd man page. If you do not use PAP or CHAP, your file /etc/ppp/options.server might look like this:
-detach
asyncmap 0
modem
crtscts
lock
proxyarp
ms-dns aa.bb.cc.dd
ms-dns ee.ff.gg.hh
-detach-do not fork to become a background process
asyncmap 0-to allow pppd to work over a rlogin/telnet connection
modem-use the modem control lines
crtscts-use hardware flow control
lock-specifies that pppd use the UUCP-style lock on the serial device
proxyarp-adds an entry into the ARP table with the IP address of the
client and the IP address of the NIC
ms-dns-specifies the address of the DNS server to be used by Microsoft
clients (As far as I know, there is now equivelent option for non-Microsoft
clients. A Linux client must have the address of the DNS in /etc/hosts.)
5.3 Configuring + PAP
PAP (Password Authentication Protocol) is one of the two protocols that
PPP uses to authenticate peers. The other is CHAP (Challenge Handshake
Authentication Protocol). CHAP is a more secure protocol, but is not as
widely supported as PAP. Thus, this document addresses the use of PAP,
only. For more information on both PAP and CHAP, see Olaf Kirch's Linux
Network Administrators' Guide.
Since PPP is technically a peer-to-peer protocol,
PAP allows two-way authentication. This means that not only the "server"
can request the "client" to authenticate itself, but the reverse is also
true. The "client" can require the "server" to authenticate itself. In
practice, this in not often done. Most PPP servers are not configured to
authenticate themselves to clients.
It is not difficult to configure your PPP server
to use PAP. To the /etc/ppp/options.server file above, simply add the following
entry:
require-pap
refuse-chap
With this configuration, pppd will check client login names and passwords against the file /etc/ppp/pap-secrets. The client will be granted access only if it matches an entry I /etc/ppp/pap-secrets. Example:
#user server secret
addrs
jdoe *
password *
If the "server" and "addrs" fields are filled in, then the client will only be granted access if the login name and password are sent from the designated server and IP address/fully qualified domain name.
5.4 PAP using /etc/password
If you do not wish to create an entry in /etc/ppp/pap-secrets for each client allowed PPP access, you can instruct pppd to check login names and passwords against /etc/passwd instead of /etc/ppp/pap-secrets. Add the option "login" to /etc/ppp/options.server. For this configuration, your /etc/ppp/options.server file will look like this:
-detach
asyncmap 0
modem
crtscts
lock
require-pap
refuse-chap
login
proxyarp
ms-dns aa.bb.cc.dd
ms-dns ee.ff.gg.hh
If the "login" option is used, the file /etc/ppp/pap-secrets need not exist. In fact, it might interfere with the proper functioning of PAP. You can remove the file, or it can contain the following line:
* * ""
The advantage of maintaining /etc/ppp/pap-secrets with this line is that it leaves you the option of denying PPP access to individual accounts that have entries in /etc/passwd. To do so, below the above line, enter the following line:
username * -
where "username" is the username of the account you wish to deny PPP access. Example:
#user server
secret addrs
*
*
""
*
jdoe *
-
*
5.5 IP Address Allocation with PPP
For PPP to work, the client must have an IP address. Most dialin clients
will not have their own IP address, so it is necessary to assign an IP
address to the serial port that the client connects through.
Earlier, we created a PPP options file that specifies the configuration
of PPP connections the server will provide, /etc/ppp/options.server. It
is also possible to create an options file that is specific to connections
made through a specified serial port. For example, to create a file for
ttyS2, your create the file /etc/ppp/options.ttyS2.
One of the options that can be defined in such a
file is IP address assigned to the port for PPP connections. This is the
format for this option:
ii.jj.kk.ll:mm.nn.oo.pp
The first IP address, from left to right, is the IP address of the server.
The second IP address is the IP address assigned to the serial port for
PPP connections.
Note, it is extremely important that you verify
that the IP address you assign to the serial port is a valid IP address
on your subnet, and that it is not assigned to any other device on the
network.
6 Congratulations
You are done.
Feed back on this document is appreciated: email jgentry@swcp.com