diff --git a/en_US.ISO8859-1/books/handbook/ppp-and-slip/chapter.sgml b/en_US.ISO8859-1/books/handbook/ppp-and-slip/chapter.sgml index 2c8b4d2982..c10449ca6c 100644 --- a/en_US.ISO8859-1/books/handbook/ppp-and-slip/chapter.sgml +++ b/en_US.ISO8859-1/books/handbook/ppp-and-slip/chapter.sgml @@ -1,3276 +1,3276 @@ Jim Mock Restructured, reorganized, and updated by PPP and SLIP Synopsis PPP SLIP FreeBSD has a number of ways to link one computer to another. To establish a network or Internet connection through a dial-up modem, or to allow others to do so through you, requires the use of PPP or SLIP. This chapter describes setting up these modem-based communication services in detail. After reading this chapter, you will know: How to set up user PPP. How to set up kernel PPP. How to set up PPPoE (PPP over Ethernet). How to set up PPPoA (PPP over ATM). How to configure and set up a SLIP client and server. PPP user PPP PPP kernel PPP PPP over Ethernet Before reading this chapter, you should: Be familiar with basic network terminology. Understand the basics and purpose of a dialup connection and PPP and/or SLIP. You may be wondering what the main difference is between user PPP and kernel PPP. The answer is simple: user PPP processes the inbound and outbound data in userland rather than in the kernel. This is expensive in terms of copying the data between the kernel and userland, but allows a far more feature-rich PPP implementation. User PPP uses the tun device to communicate with the outside world whereas kernel PPP uses the ppp device. Throughout in this chapter, user PPP will simply be referred to as ppp unless a distinction needs to be made between it and any other PPP software such as pppd. Unless otherwise stated, all of the commands explained in this chapter should be executed as root. Tom Rhodes Updated and enhanced by Brian Somers Originally contributed by Nik Clayton With input from Dirk Frömberg Peter Childs Using User PPP User PPP Assumptions This document assumes you have the following: ISP PPP An account with an Internet Service Provider (ISP) which you connect to using PPP. You have a modem or other device connected to your system and configured correctly which allows you to connect to your ISP. The dial-up number(s) of your ISP. PAP CHAP UNIX login name password Your login name and password. (Either a regular &unix; style login and password pair, or a PAP or CHAP login and password pair.) nameserver The IP address of one or more name servers. Normally, you will be given two IP addresses by your ISP to use for this. If they have not given you at least one, then you can use the enable dns command in ppp.conf and ppp will set the name servers for you. This feature depends on your ISPs PPP implementation supporting DNS negotiation. The following information may be supplied by your ISP, but is not completely necessary: The IP address of your ISP's gateway. The gateway is the machine to which you will connect and will be set up as your default route. If you do not have this information, we can make one up and your ISP's PPP server will tell us the correct value when we connect. This IP number is referred to as HISADDR by ppp. The netmask you should use. If your ISP has not provided you with one, you can safely use 255.255.255.255. static IP address If your ISP provides you with a static IP address and hostname, you can enter it. Otherwise, we simply let the peer assign whatever IP address it sees fit. If you do not have any of the required information, contact your ISP. Throughout this section, many of the examples showing the contents of configuration files are numbered by line. These numbers serve to aid in the presentation and discussion only and are not meant to be placed in the actual file. Proper indentation with tab and space characters is also important. Creating PPP Device Nodes PPPcreating device nodes Under normal circumstances, most users will only need one tun device (/dev/tun0). References to tun0 below may be changed to tunN where N is any unit number corresponding to your system. For FreeBSD installations that do not have &man.devfs.5; enabled (FreeBSD 4.X and earlier), the existence of the tun0 device should be verified (this is not necessary if &man.devfs.5; is enabled as device nodes will be created on demand). The easiest way to make sure that the tun0 device is configured correctly is to remake the device. To remake the device, do the following: &prompt.root; cd /dev &prompt.root; sh MAKEDEV tun0 If you need 16 tunnel devices in your kernel, you will need to create them. This can be done by executing the following commands: &prompt.root; cd /dev &prompt.root; sh MAKEDEV tun15 Automatic <application>PPP</application> Configuration PPPconfiguration Both ppp and pppd (the kernel level implementation of PPP) use the configuration files located in the /etc/ppp directory. Examples for user ppp can be found in /usr/share/examples/ppp/. Configuring ppp requires that you edit a number of files, depending on your requirements. What you put in them depends to some extent on whether your ISP allocates IP addresses statically (i.e., you get given one IP address, and always use that one) or dynamically (i.e., your IP address changes each time you connect to your ISP). PPP and Static IP Addresses PPPwith static IP addresses You will need to edit the /etc/ppp/ppp.conf configuration file. It should look similar to the example below. Lines that end in a : start in the first column (beginning of the line)— all other lines should be indented as shown using spaces or tabs. 1 default: 2 set log Phase Chat LCP IPCP CCP tun command 3 ident user-ppp VERSION (built COMPILATIONDATE) 4 set device /dev/cuaa0 5 set speed 115200 6 set dial "ABORT BUSY ABORT NO\\sCARRIER TIMEOUT 5 \ 7 \"\" AT OK-AT-OK ATE1Q0 OK \\dATDT\\T TIMEOUT 40 CONNECT" 8 set timeout 180 9 enable dns 10 11 provider: 12 set phone "(123) 456 7890" 13 set authname foo 14 set authkey bar 15 set login "TIMEOUT 10 \"\" \"\" gin:--gin: \\U word: \\P col: ppp" 16 set timeout 300 17 set ifaddr x.x.x.x y.y.y.y 255.255.255.255 0.0.0.0 18 add default HISADDR Line 1: Identifies the default entry. Commands in this entry are executed automatically when ppp is run. Line 2: Enables logging parameters. When the configuration is working satisfactorily, this line should be reduced to saying set log phase tun in order to avoid excessive log file sizes. Line 3: Tells PPP how to identify itself to the peer. PPP identifies itself to the peer if it has any trouble negotiating and setting up the link, providing information that the peers administrator may find useful when investigating such problems. Line 4: Identifies the device to which the modem is connected. COM1 is /dev/cuaa0 and COM2 is /dev/cuaa1. Line 5: Sets the speed you want to connect at. If 115200 does not work (it should with any reasonably new modem), try 38400 instead. Line 6 & 7: PPPuser PPP The dial string. User PPP uses an expect-send syntax similar to the &man.chat.8; program. Refer to the manual page for information on the features of this language. Note that this command continues onto the next line for readability. Any command in ppp.conf may do this if the last character on the line is a ``\'' character. Line 8: Sets the idle timeout for the link. 180 seconds is the default, so this line is purely cosmetic. Line 9: Tells PPP to ask the peer to confirm the local resolver settings. If you run a local name server, this line should be commented out or removed. Line 10: A blank line for readability. Blank lines are ignored by PPP. Line 11: Identifies an entry for a provider called provider. This could be changed to the name of your ISP so that later you can use the to start the connection. Line 12: Sets the phone number for this provider. Multiple phone numbers may be specified using the colon (:) or pipe character (|)as a separator. The difference between the two separators is described in &man.ppp.8;. To summarize, if you want to rotate through the numbers, use a colon. If you want to always attempt to dial the first number first and only use the other numbers if the first number fails, use the pipe character. Always quote the entire set of phone numbers as shown. You must enclose the phone number in quotation marks (") if there is any intention on using spaces in the phone number. This can cause a simple, yet subtle error. Line 13 & 14: Identifies the user name and password. When connecting using a &unix; style login prompt, these values are referred to by the set login command using the \U and \P variables. When connecting using PAP or CHAP, these values are used at authentication time. Line 15: PAP CHAP If you are using PAP or CHAP, there will be no login at this point, and this line should be commented out or removed. See PAP and CHAP authentication for further details. The login string is of the same chat-like syntax as the dial string. In this example, the string works for a service whose login session looks like this: J. Random Provider login: foo password: bar protocol: ppp You will need to alter this script to suit your own needs. When you write this script for the first time, you should ensure that you have enabled chat logging so you can determine if the conversation is going as expected. Line 16: timeout Sets the default idle timeout (in seconds) for the connection. Here, the connection will be closed automatically after 300 seconds of inactivity. If you never want to timeout, set this value to zero or use the command line switch. Line 17: ISP Sets the interface addresses. The string x.x.x.x should be replaced by the IP address that your provider has allocated to you. The string y.y.y.y should be replaced by the IP address that your ISP indicated for their gateway (the machine to which you connect). If your ISP has not given you a gateway address, use 10.0.0.2/0. If you need to use a guessed address, make sure that you create an entry in /etc/ppp/ppp.linkup as per the instructions for PPP and Dynamic IP addresses. If this line is omitted, ppp cannot run in mode. Line 18: Adds a default route to your ISP's gateway. The special word HISADDR is replaced with the gateway address specified on line 17. It is important that this line appears after line 17, otherwise HISADDR will not yet be initialized. If you do not wish to run ppp in , this line should be moved to the ppp.linkup file. It is not necessary to add an entry to ppp.linkup when you have a static IP address and are running ppp in mode as your routing table entries are already correct before you connect. You may however wish to create an entry to invoke programs after connection. This is explained later with the sendmail example. Example configuration files can be found in the /usr/share/examples/ppp/ directory. PPP and Dynamic IP Addresses PPPwith dynamic IP addresses IPCP If your service provider does not assign static IP addresses, ppp can be configured to negotiate the local and remote addresses. This is done by guessing an IP address and allowing ppp to set it up correctly using the IP Configuration Protocol (IPCP) after connecting. The ppp.conf configuration is the same as PPP and Static IP Addresses, with the following change: 17 set ifaddr 10.0.0.1/0 10.0.0.2/0 255.255.255.255 Again, do not include the line number, it is just for reference. Indentation of at least one space is required. Line 17: The number after the / character is the number of bits of the address that ppp will insist on. You may wish to use IP numbers more appropriate to your circumstances, but the above example will always work. The last argument (0.0.0.0) tells PPP to start negotiations using address 0.0.0.0 rather than 10.0.0.1 and is necessary for some ISPs. Do not use 0.0.0.0 as the first argument to set ifaddr as it prevents PPP from setting up an initial route in mode. If you are not running in mode, you will need to create an entry in /etc/ppp/ppp.linkup. ppp.linkup is used after a connection has been established. At this point, ppp will have assigned the interface addresses and it will now be possible to add the routing table entries: 1 provider: 2 add default HISADDR Line 1: On establishing a connection, ppp will look for an entry in ppp.linkup according to the following rules: First, try to match the same label as we used in ppp.conf. If that fails, look for an entry for the IP address of our gateway. This entry is a four-octet IP style label. If we still have not found an entry, look for the MYADDR entry. Line 2: This line tells ppp to add a default route that points to HISADDR. HISADDR will be replaced with the IP number of the gateway as negotiated by the IPCP. See the pmdemand entry in the files /usr/share/examples/ppp/ppp.conf.sample and /usr/share/examples/ppp/ppp.linkup.sample for a detailed example. Receiving Incoming Calls PPPreceiving incoming calls When you configure ppp to receive incoming calls on a machine connected to a LAN, you must decide if you wish to forward packets to the LAN. If you do, you should allocate the peer an IP number from your LAN's subnet, and use the command enable proxy in your /etc/ppp/ppp.conf file. You should also confirm that the /etc/rc.conf file contains the following: gateway_enable="YES" Which getty? Configuring FreeBSD for Dial-up Services provides a good description on enabling dial-up services using &man.getty.8;. An alternative to getty is mgetty, a smarter version of getty designed with dial-up lines in mind. The advantages of using mgetty is that it actively talks to modems, meaning if port is turned off in /etc/ttys then your modem will not answer the phone. Later versions of mgetty (from 0.99beta onwards) also support the automatic detection of PPP streams, allowing your clients script-less access to your server. Refer to Mgetty and AutoPPP for more information on mgetty. <application>PPP</application> Permissions The ppp command must normally be run as the root user. If however, you wish to allow ppp to run in server mode as a normal user by executing ppp as described below, that user must be given permission to run ppp by adding them to the network group in /etc/group. You will also need to give them access to one or more sections of the configuration file using the allow command: allow users fred mary If this command is used in the default section, it gives the specified users access to everything. PPP Shells for Dynamic-IP Users PPP shells Create a file called /etc/ppp/ppp-shell containing the following: #!/bin/sh IDENT=`echo $0 | sed -e 's/^.*-\(.*\)$/\1/'` CALLEDAS="$IDENT" TTY=`tty` if [ x$IDENT = xdialup ]; then IDENT=`basename $TTY` fi echo "PPP for $CALLEDAS on $TTY" echo "Starting PPP for $IDENT" exec /usr/sbin/ppp -direct $IDENT This script should be executable. Now make a symbolic link called ppp-dialup to this script using the following commands: &prompt.root; ln -s ppp-shell /etc/ppp/ppp-dialup You should use this script as the shell for all of your dialup users. This is an example from /etc/password for a dialup PPP user with username pchilds (remember do not directly edit the password file, use vipw). pchilds:*:1011:300:Peter Childs PPP:/home/ppp:/etc/ppp/ppp-dialup Create a /home/ppp directory that is world readable containing the following 0 byte files: -r--r--r-- 1 root wheel 0 May 27 02:23 .hushlogin -r--r--r-- 1 root wheel 0 May 27 02:22 .rhosts which prevents /etc/motd from being displayed. PPP Shells for Static-IP Users PPP shells Create the ppp-shell file as above, and for each account with statically assigned IPs create a symbolic link to ppp-shell. For example, if you have three dialup customers, fred, sam, and mary, that you route class C networks for, you would type the following: &prompt.root; ln -s /etc/ppp/ppp-shell /etc/ppp/ppp-fred &prompt.root; ln -s /etc/ppp/ppp-shell /etc/ppp/ppp-sam &prompt.root; ln -s /etc/ppp/ppp-shell /etc/ppp/ppp-mary Each of these users dialup accounts should have their shell set to the symbolic link created above (for example, mary's shell should be /etc/ppp/ppp-mary). Setting Up <filename>ppp.conf</filename> for Dynamic-IP Users The /etc/ppp/ppp.conf file should contain something along the lines of: default: set debug phase lcp chat set timeout 0 ttyd0: set ifaddr 203.14.100.1 203.14.100.20 255.255.255.255 enable proxy ttyd1: set ifaddr 203.14.100.1 203.14.100.21 255.255.255.255 enable proxy The indenting is important. The default: section is loaded for each session. For each dialup line enabled in /etc/ttys create an entry similar to the one for ttyd0: above. Each line should get a unique IP address from your pool of IP addresses for dynamic users. Setting Up <filename>ppp.conf</filename> for Static-IP Users Along with the contents of the sample /usr/share/examples/ppp/ppp.conf above you should add a section for each of the statically assigned dialup users. We will continue with our fred, sam, and mary example. fred: set ifaddr 203.14.100.1 203.14.101.1 255.255.255.255 sam: set ifaddr 203.14.100.1 203.14.102.1 255.255.255.255 mary: set ifaddr 203.14.100.1 203.14.103.1 255.255.255.255 The file /etc/ppp/ppp.linkup should also contain routing information for each static IP user if required. The line below would add a route for the 203.14.101.0 class C via the client's ppp link. fred: add 203.14.101.0 netmask 255.255.255.0 HISADDR sam: add 203.14.102.0 netmask 255.255.255.0 HISADDR mary: add 203.14.103.0 netmask 255.255.255.0 HISADDR <command>mgetty</command> and AutoPPP mgetty AutoPPP LCP Configuring and compiling mgetty with the AUTO_PPP option enabled allows mgetty to detect the LCP phase of PPP connections and automatically spawn off a ppp shell. However, since the default login/password sequence does not occur it is necessary to authenticate users using either PAP or CHAP. This section assumes the user has successfully configured, compiled, and installed a version of mgetty with the AUTO_PPP option (v0.99beta or later). Make sure your /usr/local/etc/mgetty+sendfax/login.config file has the following in it: /AutoPPP/ - - /etc/ppp/ppp-pap-dialup This will tell mgetty to run the ppp-pap-dialup script for detected PPP connections. Create a file called /etc/ppp/ppp-pap-dialup containing the following (the file should be executable): #!/bin/sh exec /usr/sbin/ppp -direct pap$IDENT For each dialup line enabled in /etc/ttys, create a corresponding entry in /etc/ppp/ppp.conf. This will happily co-exist with the definitions we created above. pap: enable pap set ifaddr 203.14.100.1 203.14.100.20-203.14.100.40 enable proxy Each user logging in with this method will need to have a username/password in /etc/ppp/ppp.secret file, or alternatively add the following option to authenticate users via PAP from /etc/password file. enable passwdauth If you wish to assign some users a static IP number, you can specify the number as the third argument in /etc/ppp/ppp.secret. See /usr/share/examples/ppp/ppp.secret.sample for examples. MS Extensions DNS NetBIOS PPPMicrosoft extensions It is possible to configure PPP to supply DNS and NetBIOS nameserver addresses on demand. To enable these extensions with PPP version 1.x, the following lines might be added to the relevant section of /etc/ppp/ppp.conf. enable msext set ns 203.14.100.1 203.14.100.2 set nbns 203.14.100.5 And for PPP version 2 and above: accept dns set dns 203.14.100.1 203.14.100.2 set nbns 203.14.100.5 This will tell the clients the primary and secondary name server addresses, and a NetBIOS nameserver host. In version 2 and above, if the set dns line is omitted, PPP will use the values found in /etc/resolv.conf. PAP and CHAP Authentication PAP CHAP Some ISPs set their system up so that the authentication part of your connection is done using either of the PAP or CHAP authentication mechanisms. If this is the case, your ISP will not give a login: prompt when you connect, but will start talking PPP immediately. PAP is less secure than CHAP, but security is not normally an issue here as passwords, although being sent as plain text with PAP, are being transmitted down a serial line only. There is not much room for crackers to eavesdrop. Referring back to the PPP and Static IP addresses or PPP and Dynamic IP addresses sections, the following alterations must be made: 13 set authname MyUserName 14 set authkey MyPassword 15 set login Line 13: This line specifies your PAP/CHAP user name. You will need to insert the correct value for MyUserName. Line 14: password This line specifies your PAP/CHAP password. You will need to insert the correct value for MyPassword. You may want to add an additional line, such as: 16 accept PAP or 16 accept CHAP to make it obvious that this is the intention, but PAP and CHAP are both accepted by default. Line 15: Your ISP will not normally require that you log into the server if you are using PAP or CHAP. You must therefore disable your set login string. Changing Your <command>ppp</command> Configuration on the Fly It is possible to talk to the ppp program while it is running in the background, but only if a suitable diagnostic port has been set up. To do this, add the following line to your configuration: set server /var/run/ppp-tun%d DiagnosticPassword 0177 This will tell PPP to listen to the specified &unix; domain socket, asking clients for the specified password before allowing access. The %d in the name is replaced with the tun device number that is in use. Once a socket has been set up, the &man.pppctl.8; program may be used in scripts that wish to manipulate the running program. Using PPP Network Address Translation Capability PPPNAT PPP has ability to use internal NAT without kernel diverting capabilities. This functionality may be enabled by the following line in /etc/ppp/ppp.conf: nat enable yes Alternatively, PPP NAT may be enabled by command-line option -nat. There is also /etc/rc.conf knob named ppp_nat, which is enabled by default. If you use this feature, you may also find useful the following /etc/ppp/ppp.conf options to enable incoming connections forwarding: nat port tcp 10.0.0.2:ftp ftp nat port tcp 10.0.0.2:http http or do not trust the outside at all nat deny_incoming yes Final System Configuration PPPconfiguration You now have ppp configured, but there are a few more things to do before it is ready to work. They all involve editing the /etc/rc.conf file. Working from the top down in this file, make sure the hostname= line is set, e.g.: hostname="foo.example.com" If your ISP has supplied you with a static IP address and name, it is probably best that you use this name as your host name. Look for the network_interfaces variable. If you want to configure your system to dial your ISP on demand, make sure the tun0 device is added to the list, otherwise remove it. network_interfaces="lo0 tun0" ifconfig_tun0= The ifconfig_tun0 variable should be empty, and a file called /etc/start_if.tun0 should be created. This file should contain the line: ppp -auto mysystem This script is executed at network configuration time, starting your ppp daemon in automatic mode. If you have a LAN for which this machine is a gateway, you may also wish to use the switch. Refer to the manual page for further details. Make sure that the router program is set to NO with the following line in your /etc/rc.conf: router_enable="NO" routed It is important that the routed daemon is not started, as routed tends to delete the default routing table entries created by ppp. It is probably worth your while ensuring that the sendmail_flags line does not include the option, otherwise sendmail will attempt to do a network lookup every now and then, possibly causing your machine to dial out. You may try: sendmail_flags="-bd" sendmail The downside of this is that you must force sendmail to re-examine the mail queue whenever the ppp link is up by typing: &prompt.root; /usr/sbin/sendmail -q You may wish to use the !bg command in ppp.linkup to do this automatically: 1 provider: 2 delete ALL 3 add 0 0 HISADDR 4 !bg sendmail -bd -q30m SMTP If you do not like this, it is possible to set up a dfilter to block SMTP traffic. Refer to the sample files for further details. All that is left is to reboot the machine. After rebooting, you can now either type: &prompt.root; ppp and then dial provider to start the PPP session, or, if you want ppp to establish sessions automatically when there is outbound traffic (and you have not created the start_if.tun0 script), type: &prompt.root; ppp -auto provider Summary To recap, the following steps are necessary when setting up ppp for the first time: Client side: Ensure that the tun device is built into your kernel. Ensure that the tunN device file is available in the /dev directory. Create an entry in /etc/ppp/ppp.conf. The pmdemand example should suffice for most ISPs. If you have a dynamic IP address, create an entry in /etc/ppp/ppp.linkup. Update your /etc/rc.conf file. Create a start_if.tun0 script if you require demand dialing. Server side: Ensure that the tun device is built into your kernel. Ensure that the tunN device file is available in the /dev directory. Create an entry in /etc/passwd (using the &man.vipw.8; program). Create a profile in this users home directory that runs ppp -direct direct-server or similar. Create an entry in /etc/ppp/ppp.conf. The direct-server example should suffice. Create an entry in /etc/ppp/ppp.linkup. Update your /etc/rc.conf file. Gennady B. Sorokopud Parts originally contributed by Robert Huff Using Kernel PPP Setting Up Kernel PPP PPPkernel PPP Before you start setting up PPP on your machine, make sure that pppd is located in /usr/sbin and the directory /etc/ppp exists. pppd can work in two modes: As a client — you want to connect your machine to the outside world via a PPP serial connection or modem line. PPPserver As a server — your machine is located on the network, and is used to connect other computers using PPP. In both cases you will need to set up an options file (/etc/ppp/options or ~/.ppprc if you have more than one user on your machine that uses PPP). You will also need some modem/serial software (preferably comms/kermit), so you can dial and establish a connection with the remote host. Trev Roydhouse Based on information provided by Using <command>pppd</command> as a Client PPPclient Cisco The following /etc/ppp/options might be used to connect to a Cisco terminal server PPP line. crtscts # enable hardware flow control modem # modem control line noipdefault # remote PPP server must supply your IP address # if the remote host does not send your IP during IPCP # negotiation, remove this option passive # wait for LCP packets domain ppp.foo.com # put your domain name here :<remote_ip> # put the IP of remote PPP host here # it will be used to route packets via PPP link # if you didn't specified the noipdefault option # change this line to <local_ip>:<remote_ip> defaultroute # put this if you want that PPP server will be your # default router To connect: kermit modem Dial to the remote host using kermit (or some other modem program), and enter your user name and password (or whatever is needed to enable PPP on the remote host). Exit kermit (without hanging up the line). Enter the following: &prompt.root; /usr/src/usr.sbin/pppd.new/pppd /dev/tty01 19200 Be sure to use the appropriate speed and device name. Now your computer is connected with PPP. If the connection fails, you can add the option to the /etc/ppp/options file, and check console messages to track the problem. Following /etc/ppp/pppup script will make all 3 stages automatic: #!/bin/sh ps ax |grep pppd |grep -v grep pid=`ps ax |grep pppd |grep -v grep|awk '{print $1;}'` if [ "X${pid}" != "X" ] ; then echo 'killing pppd, PID=' ${pid} kill ${pid} fi ps ax |grep kermit |grep -v grep pid=`ps ax |grep kermit |grep -v grep|awk '{print $1;}'` if [ "X${pid}" != "X" ] ; then echo 'killing kermit, PID=' ${pid} kill -9 ${pid} fi ifconfig ppp0 down ifconfig ppp0 delete kermit -y /etc/ppp/kermit.dial pppd /dev/tty01 19200 kermit /etc/ppp/kermit.dial is a kermit script that dials and makes all necessary authorization on the remote host (an example of such a script is attached to the end of this document). Use the following /etc/ppp/pppdown script to disconnect the PPP line: #!/bin/sh pid=`ps ax |grep pppd |grep -v grep|awk '{print $1;}'` if [ X${pid} != "X" ] ; then echo 'killing pppd, PID=' ${pid} kill -TERM ${pid} fi ps ax |grep kermit |grep -v grep pid=`ps ax |grep kermit |grep -v grep|awk '{print $1;}'` if [ "X${pid}" != "X" ] ; then echo 'killing kermit, PID=' ${pid} kill -9 ${pid} fi /sbin/ifconfig ppp0 down /sbin/ifconfig ppp0 delete kermit -y /etc/ppp/kermit.hup /etc/ppp/ppptest Check to see if pppd is still running by executing /usr/etc/ppp/ppptest, which should look like this: #!/bin/sh pid=`ps ax| grep pppd |grep -v grep|awk '{print $1;}'` if [ X${pid} != "X" ] ; then echo 'pppd running: PID=' ${pid-NONE} else echo 'No pppd running.' fi set -x netstat -n -I ppp0 ifconfig ppp0 To hang up the modem, execute /etc/ppp/kermit.hup, which should contain: set line /dev/tty01 ; put your modem device here set speed 19200 set file type binary set file names literal set win 8 set rec pack 1024 set send pack 1024 set block 3 set term bytesize 8 set command bytesize 8 set flow none pau 1 out +++ inp 5 OK out ATH0\13 echo \13 exit Here is an alternate method using chat instead of kermit: The following two files are sufficient to accomplish a pppd connection. /etc/ppp/options: /dev/cuaa1 115200 crtscts # enable hardware flow control modem # modem control line connect "/usr/bin/chat -f /etc/ppp/login.chat.script" noipdefault # remote PPP serve must supply your IP address # if the remote host doesn't send your IP during # IPCP negotiation, remove this option passive # wait for LCP packets domain <your.domain> # put your domain name here : # put the IP of remote PPP host here # it will be used to route packets via PPP link # if you didn't specified the noipdefault option # change this line to <local_ip>:<remote_ip> defaultroute # put this if you want that PPP server will be # your default router /etc/ppp/login.chat.script: The following should go on a single line. ABORT BUSY ABORT 'NO CARRIER' "" AT OK ATDT<phone.number> CONNECT "" TIMEOUT 10 ogin:-\\r-ogin: <login-id> TIMEOUT 5 sword: <password> Once these are installed and modified correctly, all you need to do is run pppd, like so: &prompt.root; pppd Using <command>pppd</command> as a Server /etc/ppp/options should contain something similar to the following: crtscts # Hardware flow control netmask 255.255.255.0 # netmask (not required) 192.114.208.20:192.114.208.165 # IP's of local and remote hosts # local ip must be different from one # you assigned to the Ethernet (or other) # interface on your machine. # remote IP is IP address that will be # assigned to the remote machine domain ppp.foo.com # your domain passive # wait for LCP modem # modem line The following /etc/ppp/pppserv script will tell pppd to behave as a server: #!/bin/sh ps ax |grep pppd |grep -v grep pid=`ps ax |grep pppd |grep -v grep|awk '{print $1;}'` if [ "X${pid}" != "X" ] ; then echo 'killing pppd, PID=' ${pid} kill ${pid} fi ps ax |grep kermit |grep -v grep pid=`ps ax |grep kermit |grep -v grep|awk '{print $1;}'` if [ "X${pid}" != "X" ] ; then echo 'killing kermit, PID=' ${pid} kill -9 ${pid} fi # reset ppp interface ifconfig ppp0 down ifconfig ppp0 delete # enable autoanswer mode kermit -y /etc/ppp/kermit.ans # run ppp pppd /dev/tty01 19200 Use this /etc/ppp/pppservdown script to stop the server: #!/bin/sh ps ax |grep pppd |grep -v grep pid=`ps ax |grep pppd |grep -v grep|awk '{print $1;}'` if [ "X${pid}" != "X" ] ; then echo 'killing pppd, PID=' ${pid} kill ${pid} fi ps ax |grep kermit |grep -v grep pid=`ps ax |grep kermit |grep -v grep|awk '{print $1;}'` if [ "X${pid}" != "X" ] ; then echo 'killing kermit, PID=' ${pid} kill -9 ${pid} fi ifconfig ppp0 down ifconfig ppp0 delete kermit -y /etc/ppp/kermit.noans The following kermit script (/etc/ppp/kermit.ans) will enable/disable autoanswer mode on your modem. It should look like this: set line /dev/tty01 set speed 19200 set file type binary set file names literal set win 8 set rec pack 1024 set send pack 1024 set block 3 set term bytesize 8 set command bytesize 8 set flow none pau 1 out +++ inp 5 OK out ATH0\13 inp 5 OK echo \13 out ATS0=1\13 ; change this to out ATS0=0\13 if you want to disable ; autoanswer mode inp 5 OK echo \13 exit A script named /etc/ppp/kermit.dial is used for dialing and authenticating on the remote host. You will need to customize it for your needs. Put your login and password in this script; you will also need to change the input statement depending on responses from your modem and remote host. ; ; put the com line attached to the modem here: ; set line /dev/tty01 ; ; put the modem speed here: ; set speed 19200 set file type binary ; full 8 bit file xfer set file names literal set win 8 set rec pack 1024 set send pack 1024 set block 3 set term bytesize 8 set command bytesize 8 set flow none set modem hayes set dial hangup off set carrier auto ; Then SET CARRIER if necessary, set dial display on ; Then SET DIAL if necessary, set input echo on set input timeout proceed set input case ignore def \%x 0 ; login prompt counter goto slhup :slcmd ; put the modem in command mode echo Put the modem in command mode. clear ; Clear unread characters from input buffer pause 1 output +++ ; hayes escape sequence input 1 OK\13\10 ; wait for OK if success goto slhup output \13 pause 1 output at\13 input 1 OK\13\10 if fail goto slcmd ; if modem doesn't answer OK, try again :slhup ; hang up the phone clear ; Clear unread characters from input buffer pause 1 echo Hanging up the phone. output ath0\13 ; hayes command for on hook input 2 OK\13\10 if fail goto slcmd ; if no OK answer, put modem in command mode :sldial ; dial the number pause 1 echo Dialing. output atdt9,550311\13\10 ; put phone number here assign \%x 0 ; zero the time counter :look clear ; Clear unread characters from input buffer increment \%x ; Count the seconds input 1 {CONNECT } if success goto sllogin reinput 1 {NO CARRIER\13\10} if success goto sldial reinput 1 {NO DIALTONE\13\10} if success goto slnodial reinput 1 {\255} if success goto slhup reinput 1 {\127} if success goto slhup if < \%x 60 goto look else goto slhup :sllogin ; login assign \%x 0 ; zero the time counter pause 1 echo Looking for login prompt. :slloop increment \%x ; Count the seconds clear ; Clear unread characters from input buffer output \13 ; ; put your expected login prompt here: ; input 1 {Username: } if success goto sluid reinput 1 {\255} if success goto slhup reinput 1 {\127} if success goto slhup if < \%x 10 goto slloop ; try 10 times to get a login prompt else goto slhup ; hang up and start again if 10 failures :sluid ; ; put your userid here: ; output ppp-login\13 input 1 {Password: } ; ; put your password here: ; output ppp-password\13 input 1 {Entering SLIP mode.} echo quit :slnodial echo \7No dialtone. Check the telephone line!\7 exit 1 ; local variables: ; mode: csh ; comment-start: "; " ; comment-start-skip: "; " ; end: Tom Rhodes Contributed by Troubleshooting <acronym>PPP</acronym> Connections PPPtroubleshooting This section covers a few issues which may arise when using PPP over a modem connection. For instance, perhaps you need to know exactly what prompts the system you are dialing into will present. Some ISPs present the ssword prompt, and others will present password; if the ppp script is not written accordingly, the login attempt will fail. The most common way to debug ppp connections is by connecting manually. The following information will walk you through a manual connection step by step. Check the Device Nodes If you reconfigured your kernel then you recall the sio device. If you did not configure your kernel, there is no reason to worry. Just check the dmesg output for the modem device with: &prompt.root; dmesg | grep sio You should get some pertinent output about the sio devices. These are the COM ports we need. If your modem acts like a standard serial port then you should see it listed on sio1, or COM2. If so, you are not required to rebuild the kernel, you just need to make the serial device. You can do this by changing your directory to /dev and running the MAKEDEV script like above. Now make the serial devices with: &prompt.root; sh MAKEDEV cuaa0 cuaa1 cuaa2 cuaa3 which will create the serial devices for your system. When matching up sio modem is on sio1 or COM2 if you are in DOS, then your modem device would be /dev/cuaa1. Connecting Manually Connecting to the Internet by manually controlling ppp is quick, easy, and a great way to debug a connection or just get information on how your ISP treats ppp client connections. Lets start PPP from the command line. Note that in all of our examples we will use example as the hostname of the machine running PPP. You start ppp by just typing ppp: &prompt.root; ppp We have now started ppp. ppp ON example> set device /dev/cuaa1 We set our modem device, in this case it is cuaa1. ppp ON example> set speed 115200 Set the connection speed, in this case we are using 115,200 kbps. ppp ON example> enable dns Tell ppp to configure our resolver and add the nameserver lines to /etc/resolv.conf. If ppp cannot determine our hostname, we can set one manually later. ppp ON example> term Switch to terminal mode so that we can manually control the modem. deflink: Entering terminal mode on /dev/cuaa1 type '~h' for help at OK atdt123456789 Use at to initialize the modem, then use atdt and the number for your ISP to begin the dial in process. CONNECT Confirmation of the connection, if we are going to have any connection problems, unrelated to hardware, here is where we will attempt to resolve them. ISP Login:myusername Here you are prompted for a username, return the prompt with the username that was provided by the ISP. ISP Pass:mypassword This time we are prompted for a password, just reply with the password that was provided by the ISP. Just like logging into &os;, the password will not echo. Shell or PPP:ppp Depending on your ISP this prompt may never appear. Here we are being asked if we wish to use a shell on the provider, or to start ppp. In this example, we have chosen to use ppp as we want an Internet connection. Ppp ON example> Notice that in this example the first has been capitalized. This shows that we have successfully connected to the ISP. PPp ON example> We have successfully authenticated with our ISP and are waiting for the assigned IP address. PPP ON example> We have made an agreement on an IP address and successfully completed our connection. PPP ON example>add default HISADDR Here we add our default route, we need to do this before we can talk to the outside world as currently the only established connection is with the peer. If this fails due to existing routes you can put a bang character ! in front of the . Alternatively, you can set this before making the actual connection and it will negotiate a new route accordingly. If everything went good we should now have an active connection to the Internet, which could be thrown into the background using CTRL z If you notice the PPP return to ppp then we have lost our connection. This is good to know because it shows our connection status. Capital P's show that we have a connection to the ISP and lowercase p's show that the connection has been lost for whatever reason. ppp only has these 2 states. Debugging If you have a direct line and cannot seem to make a connection, then turn hardware flow CTS/RTS to off with the . This is mainly the case if you are connected to some PPP capable terminal servers, where PPP hangs when it tries to write data to your communication link, so it would be waiting for a CTS, or Clear To Send signal which may never come. If you use this option however, you should also use the option, which may be required to defeat hardware dependent on passing certain characters from end to end, most of the time XON/XOFF. See the &man.ppp.8; manual page for more information on this option, and how it is used. If you have an older modem, you may need to use the . Parity is set at none be default, but is used for error checking (with a large increase in traffic) on older modems and some ISPs. You may need this option for the Compuserve ISP. PPP may not return to the command mode, which is usually a negotiation error where the ISP is waiting for your side to start negotiating. At this point, using the ~p command will force ppp to start sending the configuration information. If you never obtain a login prompt, then most likely you need to use PAP or CHAP authentication instead of the &unix; style in the example above. To use PAP or CHAP just add the following options to PPP before going into terminal mode: ppp ON example> set authname myusername Where myusername should be replaced with the username that was assigned by the ISP. ppp ON example> set authkey mypassword Where mypassword should be replaced with the password that was assigned by the ISP. If you connect fine, but cannot seem to find any domain name, try to use &man.ping.8; with an IP address and see if you can get any return information. If you experience 100 percent (100%) packet loss, then it is most likely that you were not assigned a default route. Double check that the option was set during the connection. If you can connect to a remote IP address then it is possible that a resolver address has not been added to the /etc/resolv.conf. This file should look like: domain example.com nameserver x.x.x.x nameserver y.y.y.y Where x.x.x.x and y.y.y.y should be replaced with the IP address of your ISP's DNS servers. This information may or may not have been provided when you signed up, but a quick call to your ISP should remedy that. You could also have &man.syslog.3; provide a logging function for your PPP connection. Just add: !ppp *.* /var/log/ppp.log to /etc/syslog.conf. In most cases, this functionality already exists. Jim Mock Contributed (from http://node.to/freebsd/how-tos/how-to-freebsd-pppoe.html) by Using PPP over Ethernet (PPPoE) PPPover Ethernet PPPoE PPP, over Ethernet This section describes how to set up PPP over Ethernet (PPPoE). Configuring the Kernel No kernel configuration is necessary for PPPoE any longer. If the necessary netgraph support is not built into the kernel, it will be dynamically loaded by ppp. Setting Up <filename>ppp.conf</filename> Here is an example of a working ppp.conf: default: set log Phase tun command # you can add more detailed logging if you wish set ifaddr 10.0.0.1/0 10.0.0.2/0 name_of_service_provider: set device PPPoE:xl1 # replace xl1 with your Ethernet device set authname YOURLOGINNAME set authkey YOURPASSWORD set dial set login add default HISADDR Running <application>ppp</application> As root, you can run: &prompt.root; ppp -ddial name_of_service_provider Starting <application>ppp</application> at Boot Add the following to your /etc/rc.conf file: ppp_enable="YES" ppp_mode="ddial" ppp_nat="YES" # if you want to enable nat for your local network, otherwise NO ppp_profile="name_of_service_provider" Using a PPPoE Service Tag Sometimes it will be necessary to use a service tag to establish your connection. Service tags are used to distinguish between different PPPoE servers attached to a given network. You should have been given any required service tag information in the documentation provided by your ISP. If you cannot locate it there, ask your ISP's tech support personnel. As a last resort, you could try the method suggested by the Roaring Penguin PPPoE program which can be found in the ports collection. Bear in mind however, this may de-program your modem and render it useless, so think twice before doing it. Simply install the program shipped with the modem by your provider. Then, access the System menu from the program. The name of your profile should be listed there. It is usually ISP. The profile name (service tag) will be used in the PPPoE configuration entry in ppp.conf as the provider part of the set device command (see the &man.ppp.8; manual page for full details). It should look like this: set device PPPoE:xl1:ISP Do not forget to change xl1 to the proper device for your Ethernet card. Do not forget to change ISP to the profile you have just found above. For additional information, see: Cheaper Broadband with FreeBSD on DSL by Renaud Waldura. Nutzung von T-DSL und T-Online mit FreeBSD by Udo Erdelhoff (in German). PPPoE with a &tm.3com; <trademark class="registered">HomeConnect</trademark> ADSL Modem Dual Link This modem does not follow RFC 2516 (A Method for transmitting PPP over Ethernet (PPPoE), written by L. Mamakos, K. Lidl, J. Evarts, D. Carrel, D. Simone, and R. Wheeler). Instead, different packet type codes have been used for the Ethernet frames. Please complain to 3Com if you think it should comply with the PPPoE specification. In order to make FreeBSD capable of communicating with this device, a sysctl must be set. This can be done automatically at boot time by updating /etc/sysctl.conf: net.graph.nonstandard_pppoe=1 or can be done for immediate effect with the command sysctl net.graph.nonstandard_pppoe=1. Unfortunately, because this is a system-wide setting, it is not possible to talk to a normal PPPoE client or server and a &tm.3com; HomeConnect ADSL Modem at the same time. Using <application>PPP</application> over ATM (PPPoA) PPPover ATM PPPoA PPP, over ATM The following describes how to set up PPP over ATM (PPPoA). PPPoA is a popular choice among European DSL providers. Using PPPoA with the Alcatel &speedtouch; USB PPPoA support for this device is supplied as a port in FreeBSD because the firmware is distributed under Alcatel's license agreement and can not be redistributed freely with the base system of FreeBSD. To install the software, simply use the ports collection. Install the net/pppoa port and follow the instructions provided with it. Like many USB devices, the Alcatel &speedtouch; USB needs to download firmware from the host computer to operate properly. It is possible to automate this process in &os; so that this transfer takes place whenever the device is plugged into a USB port. The following information can be added to the /etc/usbd.conf file to enable this automatic firmware transfer. This file must be edited as the root user. device "Alcatel SpeedTouch USB" devname "ugen[0-9]+" vendor 0x06b9 product 0x4061 attach "/usr/local/sbin/modem_run -f /usr/local/libdata/mgmt.o" To enable the USB daemon, usbd, put the following the line into /etc/rc.conf: usbd_enable="YES" It is also possible to set up ppp to dial up at startup. To do this add the following lines to /etc/rc.conf. Again, for this procedure you will need to be logged in as the root user. ppp_enable="YES" ppp_mode="ddial" ppp_profile="adsl" For this to work correctly you will need to have used the sample ppp.conf which is supplied with the net/pppoa port. Using mpd You can use mpd to connect to a variety of services, in particular PPTP services. You can find mpd in the ports collection, net/mpd. Many ADSL modems require that a PPTP tunnel is created between the modem and computer, one such modem is the Alcatel &speedtouch; Home. First you must install the port, and then you can configure mpd to suit your requirements and provider settings. The port places a set of sample configuration files which are well documented in PREFIX/etc/mpd/. Note here that PREFIX means the directory into which your ports are installed, this defaults to /usr/local/. A complete guide to configure mpd is available in HTML format once the port has been installed. It is placed in PREFIX/share/doc/mpd/. Here is a sample configuration for connecting to an ADSL service with mpd. The configuration is spread over two files, first the mpd.conf: default: load adsl adsl: new -i ng0 adsl adsl set bundle authname username set bundle password password set bundle disable multilink set link no pap acfcomp protocomp set link disable chap set link accept chap set link keep-alive 30 10 set ipcp no vjcomp set ipcp ranges 0.0.0.0/0 0.0.0.0/0 set iface route default set iface disable on-demand set iface enable proxy-arp set iface idle 0 open The username used to authenticate with your ISP. The password used to authenticate with your ISP. The mpd.links file contains information about the link, or links, you wish to establish. An example mpd.links to accompany the above example is given beneath: adsl: set link type pptp set pptp mode active set pptp enable originate outcall set pptp self 10.0.0.1 set pptp peer 10.0.0.138 The IP address of your &os; computer which you will be using mpd from. The IP address of your ADSL modem. For the Alcatel &speedtouch; Home this address defaults to 10.0.0.138. It is possible to initialize the connection easily by issuing the following command as root: &prompt.root; mpd -b adsl You can see the status of the connection with the following command: &prompt.user; ifconfig ng0 ng0: flags=88d1<UP,POINTOPOINT,RUNNING,NOARP,SIMPLEX,MULTICAST> mtu 1500 inet 216.136.204.117 --> 204.152.186.171 netmask 0xffffffff Using mpd is the recommended way to connect to an ADSL service with &os;. Using pptpclient It is also possible to use FreeBSD to connect to other PPPoA services using net/pptpclient. To use net/pptpclient to connect to a DSL service, install the port or package and edit your /etc/ppp/ppp.conf. You will need to be root to perform both of these operations. An example section of ppp.conf is given below. For further information on ppp.conf options consult the ppp manual page, &man.ppp.8;. adsl: set log phase chat lcp ipcp ccp tun command set timeout 0 enable dns set authname username set authkey password set ifaddr 0 0 add default HISADDR The username of your account with the DSL provider. The password for your account. Because you must put your account's password in the ppp.conf file in plain text form you should make sure than nobody can read the contents of this file. The following series of commands will make sure the file is only readable by the root account. Refer to the manual pages for &man.chmod.1; and &man.chown.8; for further information. &prompt.root; chown root:wheel /etc/ppp/ppp.conf &prompt.root; chmod 600 /etc/ppp/ppp.conf This will open a tunnel for a PPP session to your DSL router. Ethernet DSL modems have a preconfigured LAN IP address which you connect to. In the case of the Alcatel &speedtouch; Home this address is 10.0.0.138. Your router documentation should tell you which address your device uses. To open the tunnel and start a PPP session execute the following command: &prompt.root; pptp address adsl You may wish to add an ampersand (&) to the end of the previous command because pptp will not return your prompt to you otherwise. A tun virtual tunnel device will be created for interaction between the pptp and ppp processes. Once you have been returned to your prompt, or the pptp process has confirmed a connection you can examine the tunnel like so: &prompt.user; ifconfig tun0 tun0: flags=8051<UP,POINTOPOINT,RUNNING,MULTICAST> mtu 1500 inet 216.136.204.21 --> 204.152.186.171 netmask 0xffffff00 Opened by PID 918 If you are unable to connect, check the configuration of your router, which is usually accessible via telnet or with a web browser. If you still cannot connect you should examine the output of the pptp command and the contents of the ppp log file, /var/log/ppp.log for clues. Satoshi Asami Originally contributed by Guy Helmer With input from Piero Serini Using SLIP SLIP Setting Up a SLIP Client SLIPclient 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 set up 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! /dev/cuaa0 is COM1, cuaa1 is COM2, etc. Make sure you have the following in your kernel configuration file: pseudo-device sl 1 - Under &os; 5.X, use instead the folowing + Under &os; 5.X, use instead the following line: device sl It is included in the GENERIC kernel, so this should not be a problem unless you have deleted it. Things You Have to Do Only Once 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 ns2 Make sure you have before in your /etc/host.conf on FreeBSD versions prior to 5.0. Since FreeBSD 5.0, the system uses the file /etc/nsswitch.conf instead, make sure you have before in the line of this file. Without these parameters 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" default route 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 128.32.136.12 nameserver domain name As 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. Making a SLIP Connection SLIPconnecting with 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\x0a Of 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. 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: &prompt.root; 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 instead of as an argument to slattach. How to Shutdown the Connection Do the following: &prompt.root; 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. Troubleshooting If it does not work, feel free to ask me. The things that people tripped over so far: Not using or in slattach (This should not be fatal, but some users have reported that this solves their problems.) Using instead of (might be hard to see the difference on some fonts). Try ifconfig sl0 to see your interface status. For example, you might get: &prompt.root; ifconfig sl0 sl0: flags=10<POINTOPOINT> inet 136.152.64.181 --> 136.152.64.1 netmask ffffff00 If you get no route to host messages from ping, there may be a problem with your routing table. You can use the netstat -r command to display the current routes : &prompt.root; 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) The preceding examples are from a relatively busy system. The numbers on your system will vary depending on network activity. Setting Up a SLIP Server SLIPserver 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. Prerequisites TCP/IP networking 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. modem It is further assumed that you have already set up 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/docs.html. You may also want to check the manual pages for &man.sio.4; for information on the serial port device driver and &man.ttys.5;, &man.gettytab.5;, &man.getty.8;, & &man.init.8; for information relevant to configuring the system to accept logins on modems, and perhaps &man.stty.1; for information on setting serial port parameters (such as clocal for directly-connected serial interfaces). Quick Overview 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. An Example of a SLIP Server Login 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 &man.syslogd.8; and &man.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. Kernel Configuration kernelconfiguration 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 0 The 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 . 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 SLIP 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 on Configuring the FreeBSD Kernel for help in reconfiguring your kernel. Sliplogin Configuration As mentioned earlier, there are three files in the /etc/sliphome directory that are part of the configuration for /usr/sbin/sliplogin (see &man.sliplogin.8; for the actual manual page for sliplogin): slip.hosts, which defines the SLIP users and 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. <filename>slip.hosts</filename> Configuration /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 the file /etc/nsswitch.conf on FreeBSD 5.X, in /etc/host.conf if you use FreeBSD 4.X), 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 autocomp At the end of the line is one or more of the options. — no header compression — compress headers — compress headers if the remote end allows it — disable ICMP packets (so any ping packets will be dropped instead of using up your bandwidth) SLIP TCP/IP networking 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 () 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 need to configure a static route to the SLIP subnet via your SLIP server on your nearest IP router. Ethernet 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 &man.arp.8; to manage the proxy-ARP entries in the SLIP server's ARP table. <filename>slip.login</filename> Configuration 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 $6 This 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 pub The 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. EthernetMAC 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 &man.arp.8; desires; see the manual page on &man.arp.8; for complete information on usage. 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. <filename>slip.logout</filename> Configuration /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 down If 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 $5 The 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). Routing Considerations SLIP routing 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 have to add static routes to your closest default router(s) to route your SLIP client subnet via your SLIP server. Static Routes static routes 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. Running <application>&gated;</application> gated &gated; is proprietary software now and will not be available as source code to the public anymore (more info on the &gated; website). This section only exists to ensure backwards compatibility for those that are still using an older version. 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'll need to 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 ; } ; RIP 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.