xref: /freebsd/usr.sbin/ppp/ppp.8 (revision f4c129f5fb1669b284d76a838b1e509f97c2d299)
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2.\" Copyright (c) 2001 Brian Somers <brian@Awfulhak.org>
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26.\" $FreeBSD$
27.\"
28.Dd May 20, 2021
29.Dt PPP 8
30.Os
31.Sh NAME
32.Nm ppp
33.Nd Point to Point Protocol (a.k.a. user-ppp)
34.Sh SYNOPSIS
35.Nm
36.Op Fl Va mode
37.Op Fl nat
38.Op Fl quiet
39.Op Fl unit Ns Ar N
40.Op Ar system ...
41.Sh DESCRIPTION
42This is a user process
43.Em PPP
44software package.
45Sometimes,
46.Em PPP
47is implemented as a part of the kernel (e.g., as managed by
48.Nm pppd )
49and it is thus somewhat hard to debug and/or modify its behaviour.
50However, in this implementation
51.Em PPP
52is done as a user process with the help of the
53tunnel device driver (tun).
54.Pp
55The
56.Fl nat
57flag does the equivalent of a
58.Dq nat enable yes ,
59enabling
60.Nm Ns No 's
61network address translation features.
62This allows
63.Nm
64to act as a NAT or masquerading engine for all machines on an internal
65LAN.
66Refer to
67.Xr libalias 3
68for details on the technical side of the NAT engine.
69Refer to the
70.Sx NETWORK ADDRESS TRANSLATION (PACKET ALIASING)
71section of this manual page for details on how to configure NAT in
72.Nm .
73.Pp
74The
75.Fl quiet
76flag tells
77.Nm
78to be silent at startup rather than displaying the mode and interface
79to standard output.
80.Pp
81The
82.Fl unit
83flag tells
84.Nm
85to only attempt to open
86.Pa /dev/tun Ns Ar N .
87Normally,
88.Nm
89will start with a value of 0 for
90.Ar N ,
91and keep trying to open a tunnel device by incrementing the value of
92.Ar N
93by one each time until it succeeds.
94If it fails three times in a row
95because the device file is missing, it gives up.
96.Pp
97The following
98.Va mode Ns No s
99are understood by
100.Nm :
101.Bl -tag -width XXX -offset XXX
102.It Fl auto
103.Nm
104opens the tun interface, configures it then goes into the background.
105The link is not brought up until outgoing data is detected on the tun
106interface at which point
107.Nm
108attempts to bring up the link.
109Packets received (including the first one) while
110.Nm
111is trying to bring the link up will remain queued for a default of
1122 minutes.
113See the
114.Dq set choked
115command below.
116.Pp
117In
118.Fl auto
119mode, at least one
120.Dq system
121must be given on the command line (see below) and a
122.Dq set ifaddr
123must be done in the system profile that specifies a peer IP address to
124use when configuring the interface.
125Something like
126.Dq 10.0.0.1/0
127is usually appropriate.
128See the
129.Dq pmdemand
130system in
131.Pa /usr/share/examples/ppp/ppp.conf.sample
132for an example.
133.It Fl background
134Here,
135.Nm
136attempts to establish a connection with the peer immediately.
137If it succeeds,
138.Nm
139goes into the background and the parent process returns an exit code
140of 0.
141If it fails,
142.Nm
143exits with a non-zero result.
144.It Fl foreground
145In foreground mode,
146.Nm
147attempts to establish a connection with the peer immediately, but never
148becomes a daemon.
149The link is created in background mode.
150This is useful if you wish to control
151.Nm Ns No 's
152invocation from another process.
153.It Fl direct
154This is used for communicating over an already established connection,
155usually when receiving incoming connections accepted by
156.Xr getty 8 .
157.Nm
158ignores the
159.Dq set device
160line and uses descriptor 0 as the link.
161.Nm
162will also ignore any configured chat scripts unless the
163.Dq force-scripts
164option has been enabled.
165.Pp
166If callback is configured,
167.Nm
168will use the
169.Dq set device
170information when dialing back.
171.Pp
172When run in
173.Fl direct
174mode,
175.Nm
176will behave slightly differently if descriptor 0 was created by
177.Xr pipe 2 .
178As pipes are not bi-directional, ppp will redirect all writes to descriptor
1791 (standard output), leaving only reads acting on descriptor 0.
180No special action is taken if descriptor 0 was created by
181.Xr socketpair 2 .
182.It Fl dedicated
183This option is designed for machines connected with a dedicated
184wire.
185.Nm
186will always keep the device open and will ignore any configured
187chat scripts unless the
188.Dq force-scripts
189option has been enabled.
190.It Fl ddial
191This mode is equivalent to
192.Fl auto
193mode except that
194.Nm
195will bring the link back up any time it is dropped for any reason.
196.It Fl interactive
197This is a no-op, and gives the same behaviour as if none of the above
198modes have been specified.
199.Nm
200loads any sections specified on the command line then provides an
201interactive prompt.
202.El
203.Pp
204One or more configuration entries or systems
205(as specified in
206.Pa /etc/ppp/ppp.conf )
207may also be specified on the command line.
208.Nm
209will read the
210.Dq default
211system from
212.Pa /etc/ppp/ppp.conf
213at startup, followed by each of the systems specified on the command line.
214.Sh Major Features
215.Bl -diag
216.It Provides an interactive user interface.
217Using its command mode, the user can
218easily enter commands to establish the connection with the remote end, check
219the status of connection and close the connection.
220All functions can also be optionally password protected for security.
221.It Supports both manual and automatic dialing.
222Interactive mode has a
223.Dq term
224command which enables you to talk to the device directly.
225When you are connected to the remote peer and it starts to talk
226.Em PPP ,
227.Nm
228detects it and switches to packet mode automatically.
229Once you have
230determined the proper sequence for connecting with the remote host, you
231can write a chat script to {define} the necessary dialing and login
232procedure for later convenience.
233.It Supports on-demand dialup capability.
234By using
235.Fl auto
236mode,
237.Nm
238will act as a daemon and wait for a packet to be sent over the
239.Em PPP
240link.
241When this happens, the daemon automatically dials and establishes the
242connection.
243In almost the same manner
244.Fl ddial
245mode (direct-dial mode) also automatically dials and establishes the
246connection.
247However, it differs in that it will dial the remote site
248any time it detects the link is down, even if there are no packets to be
249sent.
250This mode is useful for full-time connections where we worry less
251about line charges and more about being connected full time.
252A third
253.Fl dedicated
254mode is also available.
255This mode is targeted at a dedicated link between two machines.
256.Nm
257will never voluntarily quit from dedicated mode - you must send it the
258.Dq quit all
259command via its diagnostic socket.
260A
261.Dv SIGHUP
262will force an LCP renegotiation, and a
263.Dv SIGTERM
264will force it to exit.
265.It Supports client callback.
266.Nm
267can use either the standard LCP callback protocol or the Microsoft
268CallBack Control Protocol (https://winprotocoldoc.blob.core.windows.net/productionwindowsarchives/MS-CBCP/[MS-CBCP].pdf).
269.It Supports NAT or packet aliasing.
270Packet aliasing (a.k.a.\& IP masquerading) allows computers on a
271private, unregistered network to access the Internet.
272The
273.Em PPP
274host acts as a masquerading gateway.
275IP addresses as well as TCP and
276UDP port numbers are NAT'd for outgoing packets and de-NAT'd for
277returning packets.
278.It Supports background PPP connections.
279In background mode, if
280.Nm
281successfully establishes the connection, it will become a daemon.
282Otherwise, it will exit with an error.
283This allows the setup of
284scripts that wish to execute certain commands only if the connection
285is successfully established.
286.It Supports server-side PPP connections.
287In direct mode,
288.Nm
289acts as server which accepts incoming
290.Em PPP
291connections on stdin/stdout.
292.It Supports PAP and CHAP (rfc 1994, 2433 and 2759) authentication.
293With PAP or CHAP, it is possible to skip the Unix style
294.Xr login 1
295procedure, and use the
296.Em PPP
297protocol for authentication instead.
298If the peer requests Microsoft CHAP authentication and
299.Nm
300is compiled with DES support, an appropriate MD4/DES response will be
301made.
302.It Supports RADIUS (rfc 2138 & 2548) authentication.
303An extension to PAP and CHAP,
304.Em \&R Ns No emote
305.Em \&A Ns No ccess
306.Em \&D Ns No ial
307.Em \&I Ns No n
308.Em \&U Ns No ser
309.Em \&S Ns No ervice
310allows authentication information to be stored in a central or
311distributed database along with various per-user framed connection
312characteristics.
313If
314.Xr libradius 3
315is available at compile time,
316.Nm
317will use it to make
318.Em RADIUS
319requests when configured to do so.
320.It Supports Proxy Arp.
321.Nm
322can be configured to make one or more proxy arp entries on behalf of
323the peer.
324This allows routing from the peer to the LAN without
325configuring each machine on that LAN.
326.It Supports packet filtering.
327User can {define} four kinds of filters: the
328.Em in
329filter for incoming packets, the
330.Em out
331filter for outgoing packets, the
332.Em dial
333filter to {define} a dialing trigger packet and the
334.Em alive
335filter for keeping a connection alive with the trigger packet.
336.It Tunnel driver supports bpf.
337The user can use
338.Xr tcpdump 1
339to check the packet flow over the
340.Em PPP
341link.
342.It Supports PPP over TCP and PPP over UDP.
343If a device name is specified as
344.Em host Ns No : Ns Em port Ns
345.Xo
346.Op / Ns tcp|udp ,
347.Xc
348.Nm
349will open a TCP or UDP connection for transporting data rather than using a
350conventional serial device.
351UDP connections force
352.Nm
353into synchronous mode.
354.It Supports PPP over Ethernet (rfc 2516).
355If
356.Nm
357is given a device specification of the format
358.No PPPoE: Ns Ar iface Ns Xo
359.Op \&: Ns Ar provider Ns
360.Xc
361and if
362.Xr netgraph 4
363is available,
364.Nm
365will attempt talk
366.Em PPP
367over Ethernet to
368.Ar provider
369using the
370.Ar iface
371network interface.
372.Pp
373On systems that do not support
374.Xr netgraph 4 ,
375an external program such as
376.Xr pppoed 8
377may be used.
378.It "Supports IETF draft Predictor-1 (rfc 1978) and DEFLATE (rfc 1979) compression."
379.Nm
380supports not only VJ-compression but also Predictor-1 and DEFLATE compression.
381Normally, a modem has built-in compression (e.g., v42.bis) and the system
382may receive higher data rates from it as a result of such compression.
383While this is generally a good thing in most other situations, this
384higher speed data imposes a penalty on the system by increasing the
385number of serial interrupts the system has to process in talking to the
386modem and also increases latency.
387Unlike VJ-compression, Predictor-1 and DEFLATE compression pre-compresses
388.Em all
389network traffic flowing through the link, thus reducing overheads to a
390minimum.
391.It Supports Microsoft's IPCP extensions (rfc 1877).
392Name Server Addresses and NetBIOS Name Server Addresses can be negotiated
393with clients using the Microsoft
394.Em PPP
395stack (i.e., Win95, WinNT)
396.It Supports Multi-link PPP (rfc 1990)
397It is possible to configure
398.Nm
399to open more than one physical connection to the peer, combining the
400bandwidth of all links for better throughput.
401.It Supports MPPE (draft-ietf-pppext-mppe)
402MPPE is Microsoft Point to Point Encryption scheme.
403It is possible to configure
404.Nm
405to participate in Microsoft's Windows VPN.
406For now,
407.Nm
408can only get encryption keys from CHAP 81 authentication.
409.Nm
410must be compiled with DES for MPPE to operate.
411.It Supports IPV6CP (rfc 2023).
412An IPv6 connection can be made in addition to or instead of the normal
413IPv4 connection.
414.El
415.Sh PERMISSIONS
416.Nm
417is installed as user
418.Dv root
419and group
420.Dv network ,
421with permissions
422.Dv 04554 .
423By default,
424.Nm
425will not run if the invoking user id is not zero.
426This may be overridden by using the
427.Dq allow users
428command in
429.Pa /etc/ppp/ppp.conf .
430When running as a normal user,
431.Nm
432switches to user id 0 in order to alter the system routing table, set up
433system lock files and read the ppp configuration files.
434All external commands (executed via the "shell" or "!bg" commands) are executed
435as the user id that invoked
436.Nm .
437Refer to the
438.Sq ID0
439logging facility if you are interested in what exactly is done as user id
440zero.
441.Sh GETTING STARTED
442When you first run
443.Nm
444you may need to deal with some initial configuration details.
445.Bl -bullet
446.It
447Make sure that your system has a group named
448.Dq network
449in the
450.Pa /etc/group
451file and that the group contains the names of all users expected to use
452.Nm .
453Refer to the
454.Xr group 5
455manual page for details.
456Each of these users must also be given access using the
457.Dq allow users
458command in
459.Pa /etc/ppp/ppp.conf .
460.It
461Create a log file.
462.Nm
463uses
464.Xr syslog 3
465to log information.
466A common log file name is
467.Pa /var/log/ppp.log .
468To make output go to this file, put the following lines in the
469.Pa /etc/syslog.conf
470file:
471.Bd -literal -offset indent
472!ppp
473*.*<TAB>/var/log/ppp.log
474.Ed
475.Pp
476It is possible to have more than one
477.Em PPP
478log file by creating a link to the
479.Nm
480executable:
481.Pp
482.Dl # cd /usr/sbin
483.Dl # ln ppp ppp0
484.Pp
485and using
486.Bd -literal -offset indent
487!ppp0
488*.*<TAB>/var/log/ppp0.log
489.Ed
490.Pp
491in
492.Pa /etc/syslog.conf .
493Do not forget to send a
494.Dv HUP
495signal to
496.Xr syslogd 8
497after altering
498.Pa /etc/syslog.conf .
499.It
500Although not strictly relevant to
501.Nm Ns No 's
502operation, you should configure your resolver so that it works correctly.
503This can be done by configuring a local DNS
504(using
505.Xr named 8 )
506or by adding the correct
507.Sq nameserver
508lines to the file
509.Pa /etc/resolv.conf .
510Refer to the
511.Xr resolv.conf 5
512manual page for details.
513.Pp
514Alternatively, if the peer supports it,
515.Nm
516can be configured to ask the peer for the nameserver address(es) and to
517update
518.Pa /etc/resolv.conf
519automatically.
520Refer to the
521.Dq enable dns
522and
523.Dq resolv
524commands below for details.
525.El
526.Sh MANUAL DIALING
527In the following examples, we assume that your machine name is
528.Dv awfulhak .
529when you invoke
530.Nm
531(see
532.Sx PERMISSIONS
533above) with no arguments, you are presented with a prompt:
534.Bd -literal -offset indent
535ppp ON awfulhak>
536.Ed
537.Pp
538The
539.Sq ON
540part of your prompt should always be in upper case.
541If it is in lower case, it means that you must supply a password using the
542.Dq passwd
543command.
544This only ever happens if you connect to a running version of
545.Nm
546and have not authenticated yourself using the correct password.
547.Pp
548You can start by specifying the device name and speed:
549.Bd -literal -offset indent
550ppp ON awfulhak> set device /dev/cuau0
551ppp ON awfulhak> set speed 38400
552.Ed
553.Pp
554Normally, hardware flow control (CTS/RTS) is used.
555However, under
556certain circumstances (as may happen when you are connected directly
557to certain PPP-capable terminal servers), this may result in
558.Nm
559hanging as soon as it tries to write data to your communications link
560as it is waiting for the CTS (clear to send) signal - which will never
561come.
562Thus, if you have a direct line and cannot seem to make a
563connection, try turning CTS/RTS off with
564.Dq set ctsrts off .
565If you need to do this, check the
566.Dq set accmap
567description below too - you will probably need to
568.Dq set accmap 000a0000 .
569.Pp
570Usually, parity is set to
571.Dq none ,
572and this is
573.Nm Ns No 's
574default.
575Parity is a rather archaic error checking mechanism that is no
576longer used because modern modems do their own error checking, and most
577link-layer protocols (that is what
578.Nm
579is) use much more reliable checking mechanisms.
580Parity has a relatively
581huge overhead (a 12.5% increase in traffic) and as a result, it is always
582disabled
583(set to
584.Dq none )
585when
586.Dv PPP
587is opened.
588However, some ISPs (Internet Service Providers) may use
589specific parity settings at connection time (before
590.Dv PPP
591is opened).
592Notably, Compuserve insist on even parity when logging in:
593.Bd -literal -offset indent
594ppp ON awfulhak> set parity even
595.Ed
596.Pp
597You can now see what your current device settings look like:
598.Bd -literal -offset indent
599ppp ON awfulhak> show physical
600Name: deflink
601 State:           closed
602 Device:          N/A
603 Link Type:       interactive
604 Connect Count:   0
605 Queued Packets:  0
606 Phone Number:    N/A
607
608Defaults:
609 Device List:     /dev/cuau0
610 Characteristics: 38400bps, cs8, even parity, CTS/RTS on
611
612Connect time: 0 secs
6130 octets in, 0 octets out
614Overall 0 bytes/sec
615ppp ON awfulhak>
616.Ed
617.Pp
618The term command can now be used to talk directly to the device:
619.Bd -literal -offset indent
620ppp ON awfulhak> term
621at
622OK
623atdt123456
624CONNECT
625login: myispusername
626Password: myisppassword
627Protocol: ppp
628.Ed
629.Pp
630When the peer starts to talk in
631.Em PPP ,
632.Nm
633detects this automatically and returns to command mode.
634.Bd -literal -offset indent
635ppp ON awfulhak>               # No link has been established
636Ppp ON awfulhak>               # We've connected & finished LCP
637PPp ON awfulhak>               # We've authenticated
638PPP ON awfulhak>               # We've agreed IP numbers
639.Ed
640.Pp
641If it does not, it is probable that the peer is waiting for your end to
642start negotiating.
643To force
644.Nm
645to start sending
646.Em PPP
647configuration packets to the peer, use the
648.Dq ~p
649command to drop out of terminal mode and enter packet mode.
650.Pp
651If you never even receive a login prompt, it is quite likely that the
652peer wants to use PAP or CHAP authentication instead of using Unix-style
653login/password authentication.
654To set things up properly, drop back to
655the prompt and set your authentication name and key, then reconnect:
656.Bd -literal -offset indent
657~.
658ppp ON awfulhak> set authname myispusername
659ppp ON awfulhak> set authkey myisppassword
660ppp ON awfulhak> term
661at
662OK
663atdt123456
664CONNECT
665.Ed
666.Pp
667You may need to tell ppp to initiate negotiations with the peer here too:
668.Bd -literal -offset indent
669~p
670ppp ON awfulhak>               # No link has been established
671Ppp ON awfulhak>               # We've connected & finished LCP
672PPp ON awfulhak>               # We've authenticated
673PPP ON awfulhak>               # We've agreed IP numbers
674.Ed
675.Pp
676You are now connected!
677Note that
678.Sq PPP
679in the prompt has changed to capital letters to indicate that you have
680a peer connection.
681If only some of the three Ps go uppercase, wait until
682either everything is uppercase or lowercase.
683If they revert to lowercase, it means that
684.Nm
685could not successfully negotiate with the peer.
686A good first step for troubleshooting at this point would be to
687.Bd -literal -offset indent
688ppp ON awfulhak> set log local phase lcp ipcp
689.Ed
690.Pp
691and try again.
692Refer to the
693.Dq set log
694command description below for further details.
695If things fail at this point,
696it is quite important that you turn logging on and try again.
697It is also
698important that you note any prompt changes and report them to anyone trying
699to help you.
700.Pp
701When the link is established, the show command can be used to see how
702things are going:
703.Bd -literal -offset indent
704PPP ON awfulhak> show physical
705* Modem related information is shown here *
706PPP ON awfulhak> show ccp
707* CCP (compression) related information is shown here *
708PPP ON awfulhak> show lcp
709* LCP (line control) related information is shown here *
710PPP ON awfulhak> show ipcp
711* IPCP (IP) related information is shown here *
712PPP ON awfulhak> show ipv6cp
713* IPV6CP (IPv6) related information is shown here *
714PPP ON awfulhak> show link
715* Link (high level) related information is shown here *
716PPP ON awfulhak> show bundle
717* Logical (high level) connection related information is shown here *
718.Ed
719.Pp
720At this point, your machine has a host route to the peer.
721This means
722that you can only make a connection with the host on the other side
723of the link.
724If you want to add a default route entry (telling your
725machine to send all packets without another routing entry to the other
726side of the
727.Em PPP
728link), enter the following command:
729.Bd -literal -offset indent
730PPP ON awfulhak> add default HISADDR
731.Ed
732.Pp
733The string
734.Sq HISADDR
735represents the IP address of the connected peer.
736If the
737.Dq add
738command fails due to an existing route, you can overwrite the existing
739route using:
740.Bd -literal -offset indent
741PPP ON awfulhak> add! default HISADDR
742.Ed
743.Pp
744This command can also be executed before actually making the connection.
745If a new IP address is negotiated at connection time,
746.Nm
747will update your default route accordingly.
748.Pp
749You can now use your network applications (ping, telnet, ftp, etc.)
750in other windows or terminals on your machine.
751If you wish to reuse the current terminal, you can put
752.Nm
753into the background using your standard shell suspend and background
754commands (usually
755.Dq ^Z
756followed by
757.Dq bg ) .
758.Pp
759Refer to the
760.Sx PPP COMMAND LIST
761section for details on all available commands.
762.Sh AUTOMATIC DIALING
763To use automatic dialing, you must prepare some Dial and Login chat scripts.
764See the example definitions in
765.Pa /usr/share/examples/ppp/ppp.conf.sample
766(the format of
767.Pa /etc/ppp/ppp.conf
768is pretty simple).
769Each line contains one comment, inclusion, label or command:
770.Bl -bullet
771.It
772A line starting with a
773.Pq Dq #
774character is treated as a comment line.
775Leading whitespace are ignored when identifying comment lines.
776.It
777An inclusion is a line beginning with the word
778.Sq {!include} .
779It must have one argument - the file to {include}.
780You may wish to
781.Dq {!include} ~/.ppp.conf
782for compatibility with older versions of
783.Nm .
784.It
785A label name starts in the first column and is followed by
786a colon
787.Pq Dq \&: .
788.It
789A command line must contain a space or tab in the first column.
790.It
791A string starting with the
792.Dq $
793character is substituted with the value of the environment variable by
794the same name.
795Likewise, a string starting with the
796.Dq ~
797character is substituted with the full path to the home directory of
798the user account by the same name, and the
799.Dq ~
800character by itself is substituted with the full path to the home directory
801of the current user.
802If you want to include a literal
803.Dq $
804or
805.Dq ~
806character in a command or argument, enclose them in double quotes, e.g.,
807.Bd -literal -offset indent
808set password "pa$ss~word"
809.Ed
810.El
811.Pp
812The
813.Pa /etc/ppp/ppp.conf
814file should consist of at least a
815.Dq default
816section.
817This section is always executed.
818It should also contain
819one or more sections, named according to their purpose, for example,
820.Dq MyISP
821would represent your ISP, and
822.Dq ppp-in
823would represent an incoming
824.Nm
825configuration.
826You can now specify the destination label name when you invoke
827.Nm .
828Commands associated with the
829.Dq default
830label are executed, followed by those associated with the destination
831label provided.
832When
833.Nm
834is started with no arguments, the
835.Dq default
836section is still executed.
837The load command can be used to manually load a section from the
838.Pa /etc/ppp/ppp.conf
839file:
840.Bd -literal -offset indent
841ppp ON awfulhak> load MyISP
842.Ed
843.Pp
844Note, no action is taken by
845.Nm
846after a section is loaded, whether it is the result of passing a label on
847the command line or using the
848.Dq load
849command.
850Only the commands specified for that label in the configuration
851file are executed.
852However, when invoking
853.Nm
854with the
855.Fl background ,
856.Fl ddial ,
857or
858.Fl dedicated
859switches, the link mode tells
860.Nm
861to establish a connection.
862Refer to the
863.Dq set mode
864command below for further details.
865.Pp
866Once the connection is made, the
867.Sq ppp
868portion of the prompt will change to
869.Sq PPP :
870.Bd -literal -offset indent
871# ppp MyISP
872\&...
873ppp ON awfulhak> dial
874Ppp ON awfulhak>
875PPp ON awfulhak>
876PPP ON awfulhak>
877.Ed
878.Pp
879The Ppp prompt indicates that
880.Nm
881has entered the authentication phase.
882The PPp prompt indicates that
883.Nm
884has entered the network phase.
885The PPP prompt indicates that
886.Nm
887has successfully negotiated a network layer protocol and is in
888a usable state.
889.Pp
890If the
891.Pa /etc/ppp/ppp.linkup
892file is available, its contents are executed
893when the
894.Em PPP
895connection is established.
896See the provided
897.Dq pmdemand
898example in
899.Pa /usr/share/examples/ppp/ppp.conf.sample
900which runs a script in the background after the connection is established
901(refer to the
902.Dq shell
903and
904.Dq bg
905commands below for a description of possible substitution strings).
906Similarly, when a connection is closed, the contents of the
907.Pa /etc/ppp/ppp.linkdown
908file are executed.
909Both of these files have the same format as
910.Pa /etc/ppp/ppp.conf .
911.Pp
912In previous versions of
913.Nm ,
914it was necessary to re-add routes such as the default route in the
915.Pa ppp.linkup
916file.
917.Nm
918supports
919.Sq sticky routes ,
920where all routes that contain the
921.Dv HISADDR ,
922.Dv MYADDR ,
923.Dv HISADDR6
924or
925.Dv MYADDR6
926literals will automatically be updated when the values of these variables
927change.
928.Sh BACKGROUND DIALING
929If you want to establish a connection using
930.Nm
931non-interactively (such as from a
932.Xr crontab 5
933entry or an
934.Xr at 1
935job) you should use the
936.Fl background
937option.
938When
939.Fl background
940is specified,
941.Nm
942attempts to establish the connection immediately.
943If multiple phone
944numbers are specified, each phone number will be tried once.
945If the attempt fails,
946.Nm
947exits immediately with a non-zero exit code.
948If it succeeds, then
949.Nm
950becomes a daemon, and returns an exit status of zero to its caller.
951The daemon exits automatically if the connection is dropped by the
952remote system, or it receives a
953.Dv TERM
954signal.
955.Sh DIAL ON DEMAND
956Demand dialing is enabled with the
957.Fl auto
958or
959.Fl ddial
960options.
961You must also specify the destination label in
962.Pa /etc/ppp/ppp.conf
963to use.
964It must contain the
965.Dq set ifaddr
966command to {define} the remote peers IP address.
967(refer to
968.Pa /usr/share/examples/ppp/ppp.conf.sample )
969.Bd -literal -offset indent
970# ppp -auto pmdemand
971.Ed
972.Pp
973When
974.Fl auto
975or
976.Fl ddial
977is specified,
978.Nm
979runs as a daemon but you can still configure or examine its
980configuration by using the
981.Dq set server
982command in
983.Pa /etc/ppp/ppp.conf ,
984(for example,
985.Dq Li "set server +3000 mypasswd" )
986and connecting to the diagnostic port as follows:
987.Bd -literal -offset indent
988# pppctl 3000	(assuming tun0)
989Password:
990PPP ON awfulhak> show who
991tcp (127.0.0.1:1028) *
992.Ed
993.Pp
994The
995.Dq show who
996command lists users that are currently connected to
997.Nm
998itself.
999If the diagnostic socket is closed or changed to a different
1000socket, all connections are immediately dropped.
1001.Pp
1002In
1003.Fl auto
1004mode, when an outgoing packet is detected,
1005.Nm
1006will perform the dialing action (chat script) and try to connect
1007with the peer.
1008In
1009.Fl ddial
1010mode, the dialing action is performed any time the line is found
1011to be down.
1012If the connect fails, the default behaviour is to wait 30 seconds
1013and then attempt to connect when another outgoing packet is detected.
1014This behaviour can be changed using the
1015.Dq set redial
1016command:
1017.Pp
1018.No set redial Ar secs Ns
1019.Oo + Ns Ar inc Ns
1020.Oo - Ns Ar max Ns Oc Oc Ns
1021.Op . Ns Ar next
1022.Op Ar attempts
1023.Pp
1024.Bl -tag -width attempts -compact
1025.It Ar secs
1026is the number of seconds to wait before attempting
1027to connect again.
1028If the argument is the literal string
1029.Sq Li random ,
1030the delay period is a random value between 1 and 30 seconds inclusive.
1031.It Ar inc
1032is the number of seconds that
1033.Ar secs
1034should be incremented each time a new dial attempt is made.
1035The timeout reverts to
1036.Ar secs
1037only after a successful connection is established.
1038The default value for
1039.Ar inc
1040is zero.
1041.It Ar max
1042is the maximum number of times
1043.Nm
1044should increment
1045.Ar secs .
1046The default value for
1047.Ar max
1048is 10.
1049.It Ar next
1050is the number of seconds to wait before attempting
1051to dial the next number in a list of numbers (see the
1052.Dq set phone
1053command).
1054The default is 3 seconds.
1055Again, if the argument is the literal string
1056.Sq Li random ,
1057the delay period is a random value between 1 and 30 seconds.
1058.It Ar attempts
1059is the maximum number of times to try to connect for each outgoing packet
1060that triggers a dial.
1061The previous value is unchanged if this parameter is omitted.
1062If a value of zero is specified for
1063.Ar attempts ,
1064.Nm
1065will keep trying until a connection is made.
1066.El
1067.Pp
1068So, for example:
1069.Bd -literal -offset indent
1070set redial 10.3 4
1071.Ed
1072.Pp
1073will attempt to connect 4 times for each outgoing packet that causes
1074a dial attempt with a 3 second delay between each number and a 10 second
1075delay after all numbers have been tried.
1076If multiple phone numbers
1077are specified, the total number of attempts is still 4 (it does not
1078attempt each number 4 times).
1079.Pp
1080Alternatively,
1081.Bd -literal -offset indent
1082set redial 10+10-5.3 20
1083.Ed
1084.Pp
1085tells
1086.Nm
1087to attempt to connect 20 times.
1088After the first attempt,
1089.Nm
1090pauses for 10 seconds.
1091After the next attempt it pauses for 20 seconds
1092and so on until after the sixth attempt it pauses for 1 minute.
1093The next 14 pauses will also have a duration of one minute.
1094If
1095.Nm
1096connects, disconnects and fails to connect again, the timeout starts again
1097at 10 seconds.
1098.Pp
1099Modifying the dial delay is very useful when running
1100.Nm
1101in
1102.Fl auto
1103mode on both ends of the link.
1104If each end has the same timeout,
1105both ends wind up calling each other at the same time if the link
1106drops and both ends have packets queued.
1107At some locations, the serial link may not be reliable, and carrier
1108may be lost at inappropriate times.
1109It is possible to have
1110.Nm
1111redial should carrier be unexpectedly lost during a session.
1112.Bd -literal -offset indent
1113set reconnect timeout ntries
1114.Ed
1115.Pp
1116This command tells
1117.Nm
1118to re-establish the connection
1119.Ar ntries
1120times on loss of carrier with a pause of
1121.Ar timeout
1122seconds before each try.
1123For example,
1124.Bd -literal -offset indent
1125set reconnect 3 5
1126.Ed
1127.Pp
1128tells
1129.Nm
1130that on an unexpected loss of carrier, it should wait
1131.Ar 3
1132seconds before attempting to reconnect.
1133This may happen up to
1134.Ar 5
1135times before
1136.Nm
1137gives up.
1138The default value of ntries is zero (no reconnect).
1139Care should be taken with this option.
1140If the local timeout is slightly
1141longer than the remote timeout, the reconnect feature will always be
1142triggered (up to the given number of times) after the remote side
1143times out and hangs up.
1144NOTE: In this context, losing too many LQRs constitutes a loss of
1145carrier and will trigger a reconnect.
1146If the
1147.Fl background
1148flag is specified, all phone numbers are dialed at most once until
1149a connection is made.
1150The next number redial period specified with the
1151.Dq set redial
1152command is honoured, as is the reconnect tries value.
1153If your redial
1154value is less than the number of phone numbers specified, not all
1155the specified numbers will be tried.
1156To terminate the program, type
1157.Bd -literal -offset indent
1158PPP ON awfulhak> close
1159ppp ON awfulhak> quit all
1160.Ed
1161.Pp
1162A simple
1163.Dq quit
1164command will terminate the
1165.Xr pppctl 8
1166or
1167.Xr telnet 1
1168connection but not the
1169.Nm
1170program itself.
1171You must use
1172.Dq quit all
1173to terminate
1174.Nm
1175as well.
1176.Sh RECEIVING INCOMING PPP CONNECTIONS (Method 1)
1177To handle an incoming
1178.Em PPP
1179connection request, follow these steps:
1180.Bl -enum
1181.It
1182Make sure the modem and (optionally)
1183.Pa /etc/rc.serial
1184is configured correctly.
1185.Bl -bullet -compact
1186.It
1187Use Hardware Handshake (CTS/RTS) for flow control.
1188.It
1189Modem should be set to NO echo back (ATE0) and NO results string (ATQ1).
1190.El
1191.It
1192Edit
1193.Pa /etc/ttys
1194to enable a
1195.Xr getty 8
1196on the port where the modem is attached.
1197For example:
1198.Pp
1199.Dl ttyd1 Qo /usr/libexec/getty std.38400 Qc dialup on secure
1200.Pp
1201Do not forget to send a
1202.Dv HUP
1203signal to the
1204.Xr init 8
1205process to start the
1206.Xr getty 8 :
1207.Pp
1208.Dl # kill -HUP 1
1209.Pp
1210It is usually also necessary to train your modem to the same DTR speed
1211as the getty:
1212.Bd -literal -offset indent
1213# ppp
1214ppp ON awfulhak> set device /dev/cuau1
1215ppp ON awfulhak> set speed 38400
1216ppp ON awfulhak> term
1217deflink: Entering terminal mode on /dev/cuau1
1218Type `~?' for help
1219at
1220OK
1221at
1222OK
1223atz
1224OK
1225at
1226OK
1227~.
1228ppp ON awfulhak> quit
1229.Ed
1230.It
1231Create a
1232.Pa /usr/local/bin/ppplogin
1233file with the following contents:
1234.Bd -literal -offset indent
1235#! /bin/sh
1236exec /usr/sbin/ppp -direct incoming
1237.Ed
1238.Pp
1239Direct mode
1240.Pq Fl direct
1241lets
1242.Nm
1243work with stdin and stdout.
1244You can also use
1245.Xr pppctl 8
1246to connect to a configured diagnostic port, in the same manner as with
1247client-side
1248.Nm .
1249.Pp
1250Here, the
1251.Ar incoming
1252section must be set up in
1253.Pa /etc/ppp/ppp.conf .
1254.Pp
1255Make sure that the
1256.Ar incoming
1257section contains the
1258.Dq allow users
1259command as appropriate.
1260.It
1261Prepare an account for the incoming user.
1262.Bd -literal
1263ppp:xxxx:66:66:PPP Login User:/home/ppp:/usr/local/bin/ppplogin
1264.Ed
1265.Pp
1266Refer to the manual entries for
1267.Xr adduser 8
1268and
1269.Xr vipw 8
1270for details.
1271.It
1272Support for IPCP Domain Name Server and NetBIOS Name Server negotiation
1273can be enabled using the
1274.Dq accept dns
1275and
1276.Dq set nbns
1277commands.
1278Refer to their descriptions below.
1279.El
1280.Sh RECEIVING INCOMING PPP CONNECTIONS (Method 2)
1281This method differs in that we use
1282.Nm
1283to authenticate the connection rather than
1284.Xr login 1 :
1285.Bl -enum
1286.It
1287Configure your default section in
1288.Pa /etc/gettytab
1289with automatic ppp recognition by specifying the
1290.Dq pp
1291capability:
1292.Bd -literal
1293default:\\
1294	:pp=/usr/local/bin/ppplogin:\\
1295	.....
1296.Ed
1297.It
1298Configure your serial device(s), enable a
1299.Xr getty 8
1300and create
1301.Pa /usr/local/bin/ppplogin
1302as in the first three steps for method 1 above.
1303.It
1304Add either
1305.Dq enable chap
1306or
1307.Dq enable pap
1308(or both)
1309to
1310.Pa /etc/ppp/ppp.conf
1311under the
1312.Sq incoming
1313label (or whatever label
1314.Pa ppplogin
1315uses).
1316.It
1317Create an entry in
1318.Pa /etc/ppp/ppp.secret
1319for each incoming user:
1320.Bd -literal
1321Pfred<TAB>xxxx
1322Pgeorge<TAB>yyyy
1323.Ed
1324.El
1325.Pp
1326Now, as soon as
1327.Xr getty 8
1328detects a ppp connection (by recognising the HDLC frame headers), it runs
1329.Dq /usr/local/bin/ppplogin .
1330.Pp
1331It is
1332.Em VITAL
1333that either PAP or CHAP are enabled as above.
1334If they are not, you are
1335allowing anybody to establish a ppp session with your machine
1336.Em without
1337a password, opening yourself up to all sorts of potential attacks.
1338.Sh AUTHENTICATING INCOMING CONNECTIONS
1339Normally, the receiver of a connection requires that the peer
1340authenticates itself.
1341This may be done using
1342.Xr login 1 ,
1343but alternatively, you can use PAP or CHAP.
1344CHAP is the more secure of the two, but some clients may not support it.
1345Once you decide which you wish to use, add the command
1346.Sq enable chap
1347or
1348.Sq enable pap
1349to the relevant section of
1350.Pa ppp.conf .
1351.Pp
1352You must then configure the
1353.Pa /etc/ppp/ppp.secret
1354file.
1355This file contains one line per possible client, each line
1356containing up to five fields:
1357.Pp
1358.Ar name Ar key Oo
1359.Ar hisaddr Op Ar label Op Ar callback-number
1360.Oc
1361.Pp
1362The
1363.Ar name
1364and
1365.Ar key
1366specify the client username and password.
1367If
1368.Ar key
1369is
1370.Dq \&*
1371and PAP is being used,
1372.Nm
1373will look up the password database
1374.Pq Xr passwd 5
1375when authenticating.
1376If the client does not offer a suitable response based on any
1377.Ar name Ns No / Ns Ar key
1378combination in
1379.Pa ppp.secret ,
1380authentication fails.
1381.Pp
1382If authentication is successful,
1383.Ar hisaddr
1384(if specified)
1385is used when negotiating IP numbers.
1386See the
1387.Dq set ifaddr
1388command for details.
1389.Pp
1390If authentication is successful and
1391.Ar label
1392is specified, the current system label is changed to match the given
1393.Ar label .
1394This will change the subsequent parsing of the
1395.Pa ppp.linkup
1396and
1397.Pa ppp.linkdown
1398files.
1399.Pp
1400If authentication is successful and
1401.Ar callback-number
1402is specified and
1403.Dq set callback
1404has been used in
1405.Pa ppp.conf ,
1406the client will be called back on the given number.
1407If CBCP is being used,
1408.Ar callback-number
1409may also contain a list of numbers or a
1410.Dq \&* ,
1411as if passed to the
1412.Dq set cbcp
1413command.
1414The value will be used in
1415.Nm Ns No 's
1416subsequent CBCP phase.
1417.Sh PPP OVER TCP and UDP (a.k.a Tunnelling)
1418Instead of running
1419.Nm
1420over a serial link, it is possible to
1421use a TCP connection instead by specifying the host, port and protocol as the
1422device:
1423.Pp
1424.Dl set device ui-gate:6669/tcp
1425.Pp
1426Instead of opening a serial device,
1427.Nm
1428will open a TCP connection to the given machine on the given
1429socket.
1430It should be noted however that
1431.Nm
1432does not use the telnet protocol and will be unable to negotiate
1433with a telnet server.
1434You should set up a port for receiving this
1435.Em PPP
1436connection on the receiving machine (ui-gate).
1437This is done by first updating
1438.Pa /etc/services
1439to name the service:
1440.Pp
1441.Dl ppp-in 6669/tcp # Incoming PPP connections over TCP
1442.Pp
1443and updating
1444.Pa /etc/inetd.conf
1445to tell
1446.Xr inetd 8
1447how to deal with incoming connections on that port:
1448.Pp
1449.Dl ppp-in stream tcp nowait root /usr/sbin/ppp ppp -direct ppp-in
1450.Pp
1451Do not forget to send a
1452.Dv HUP
1453signal to
1454.Xr inetd 8
1455after you have updated
1456.Pa /etc/inetd.conf .
1457Here, we use a label named
1458.Dq ppp-in .
1459The entry in
1460.Pa /etc/ppp/ppp.conf
1461on ui-gate (the receiver) should contain the following:
1462.Bd -literal -offset indent
1463ppp-in:
1464 set timeout 0
1465 set ifaddr 10.0.4.1 10.0.4.2
1466.Ed
1467.Pp
1468and the entry in
1469.Pa /etc/ppp/ppp.linkup
1470should contain:
1471.Bd -literal -offset indent
1472ppp-in:
1473 add 10.0.1.0/24 HISADDR
1474.Ed
1475.Pp
1476It is necessary to put the
1477.Dq add
1478command in
1479.Pa ppp.linkup
1480to ensure that the route is only added after
1481.Nm
1482has negotiated and assigned addresses to its interface.
1483.Pp
1484You may also want to enable PAP or CHAP for security.
1485To enable PAP, add the following line:
1486.Bd -literal -offset indent
1487 enable PAP
1488.Ed
1489.Pp
1490You will also need to create the following entry in
1491.Pa /etc/ppp/ppp.secret :
1492.Bd -literal -offset indent
1493MyAuthName MyAuthPasswd
1494.Ed
1495.Pp
1496If
1497.Ar MyAuthPasswd
1498is a
1499.Dq * ,
1500the password is looked up in the
1501.Xr passwd 5
1502database.
1503.Pp
1504The entry in
1505.Pa /etc/ppp/ppp.conf
1506on awfulhak (the initiator) should contain the following:
1507.Bd -literal -offset indent
1508ui-gate:
1509 set escape 0xff
1510 set device ui-gate:ppp-in/tcp
1511 set dial
1512 set timeout 30
1513 set log Phase Chat Connect hdlc LCP IPCP IPV6CP CCP tun
1514 set ifaddr 10.0.4.2 10.0.4.1
1515.Ed
1516.Pp
1517with the route setup in
1518.Pa /etc/ppp/ppp.linkup :
1519.Bd -literal -offset indent
1520ui-gate:
1521 add 10.0.2.0/24 HISADDR
1522.Ed
1523.Pp
1524Again, if you are enabling PAP, you will also need this in the
1525.Pa /etc/ppp/ppp.conf
1526profile:
1527.Bd -literal -offset indent
1528 set authname MyAuthName
1529 set authkey MyAuthKey
1530.Ed
1531.Pp
1532We are assigning the address of 10.0.4.1 to ui-gate, and the address
153310.0.4.2 to awfulhak.
1534To open the connection, just type
1535.Pp
1536.Dl awfulhak # ppp -background ui-gate
1537.Pp
1538The result will be an additional "route" on awfulhak to the
153910.0.2.0/24 network via the TCP connection, and an additional
1540"route" on ui-gate to the 10.0.1.0/24 network.
1541The networks are effectively bridged - the underlying TCP
1542connection may be across a public network (such as the
1543Internet), and the
1544.Em PPP
1545traffic is conceptually encapsulated
1546(although not packet by packet) inside the TCP stream between
1547the two gateways.
1548.Pp
1549The major disadvantage of this mechanism is that there are two
1550"guaranteed delivery" mechanisms in place - the underlying TCP
1551stream and whatever protocol is used over the
1552.Em PPP
1553link - probably TCP again.
1554If packets are lost, both levels will
1555get in each others way trying to negotiate sending of the missing
1556packet.
1557.Pp
1558To avoid this overhead, it is also possible to do all this using
1559UDP instead of TCP as the transport by simply changing the protocol
1560from "tcp" to "udp".
1561When using UDP as a transport,
1562.Nm
1563will operate in synchronous mode.
1564This is another gain as the incoming
1565data does not have to be rearranged into packets.
1566.Pp
1567Care should be taken when adding a default route through a tunneled
1568setup like this.
1569It is quite common for the default route
1570(added in
1571.Pa /etc/ppp/ppp.linkup )
1572to end up routing the link's TCP connection through the tunnel,
1573effectively garrotting the connection.
1574To avoid this, make sure you add a static route for the benefit of
1575the link:
1576.Bd -literal -offset indent
1577ui-gate:
1578 set escape 0xff
1579 set device ui-gate:ppp-in/tcp
1580 add ui-gate x.x.x.x
1581 .....
1582.Ed
1583.Pp
1584where
1585.Dq x.x.x.x
1586is the IP number that your route to
1587.Dq ui-gate
1588would normally use.
1589.Pp
1590When routing your connection across a public network such as the Internet,
1591it is preferable to encrypt the data.
1592This can be done with the help of the MPPE protocol, although currently this
1593means that you will not be able to also compress the traffic as MPPE is
1594implemented as a compression layer (thank Microsoft for this).
1595To enable MPPE encryption, add the following lines to
1596.Pa /etc/ppp/ppp.conf
1597on the server:
1598.Bd -literal -offset indent
1599  enable MSCHAPv2
1600  disable deflate pred1
1601  deny deflate pred1
1602.Ed
1603.Pp
1604ensuring that you have put the requisite entry in
1605.Pa /etc/ppp/ppp.secret
1606(MSCHAPv2 is challenge based, so
1607.Xr passwd 5
1608cannot be used)
1609.Pp
1610MSCHAPv2 and MPPE are accepted by default, so the client end should work
1611without any additional changes (although ensure you have
1612.Dq set authname
1613and
1614.Dq set authkey
1615in your profile).
1616.Sh NETWORK ADDRESS TRANSLATION (PACKET ALIASING)
1617The
1618.Fl nat
1619command line option enables network address translation (a.k.a.\& packet
1620aliasing).
1621This allows the
1622.Nm
1623host to act as a masquerading gateway for other computers over
1624a local area network.
1625Outgoing IP packets are NAT'd so that they appear to come from the
1626.Nm
1627host, and incoming packets are de-NAT'd so that they are routed
1628to the correct machine on the local area network.
1629NAT allows computers on private, unregistered subnets to have Internet
1630access, although they are invisible from the outside world.
1631In general, correct
1632.Nm
1633operation should first be verified with network address translation disabled.
1634Then, the
1635.Fl nat
1636option should be switched on, and network applications (web browser,
1637.Xr telnet 1 ,
1638.Xr ftp 1 ,
1639.Xr ping 8 ,
1640.Xr traceroute 8 )
1641should be checked on the
1642.Nm
1643host.
1644Finally, the same or similar applications should be checked on other
1645computers in the LAN.
1646If network applications work correctly on the
1647.Nm
1648host, but not on other machines in the LAN, then the masquerading
1649software is working properly, but the host is either not forwarding
1650or possibly receiving IP packets.
1651Check that IP forwarding is enabled in
1652.Pa /etc/rc.conf
1653and that other machines have designated the
1654.Nm
1655host as the gateway for the LAN.
1656When starting
1657.Nm
1658with the provided rc script, the default is to
1659enable NAT; see
1660.Va ppp_nat
1661in
1662.Xr rc.conf 5
1663and
1664.Pa /etc/defaults/rc.conf .
1665.Sh PACKET FILTERING
1666This implementation supports packet filtering.
1667There are four kinds of
1668filters: the
1669.Em in
1670filter, the
1671.Em out
1672filter, the
1673.Em dial
1674filter and the
1675.Em alive
1676filter.
1677Here are the basics:
1678.Bl -bullet
1679.It
1680A filter definition has the following syntax:
1681.Pp
1682set filter
1683.Ar name
1684.Ar rule-no
1685.Ar action
1686.Op !\&
1687.Oo
1688.Op host
1689.Ar src_addr Ns Op / Ns Ar width
1690.Op Ar dst_addr Ns Op / Ns Ar width
1691.Oc
1692.Ar [ proto Op src Ar cmp port
1693.Op dst Ar cmp port
1694.Op estab
1695.Op syn
1696.Op finrst
1697.Op timeout Ar secs ]
1698.Bl -enum
1699.It
1700.Ar Name
1701should be one of
1702.Sq in ,
1703.Sq out ,
1704.Sq dial
1705or
1706.Sq alive .
1707.It
1708.Ar Rule-no
1709is a numeric value between
1710.Sq 0
1711and
1712.Sq 39
1713specifying the rule number.
1714Rules are specified in numeric order according to
1715.Ar rule-no ,
1716but only if rule
1717.Sq 0
1718is defined.
1719.It
1720.Ar Action
1721may be specified as
1722.Sq permit
1723or
1724.Sq deny ,
1725in which case, if a given packet matches the rule, the associated action
1726is taken immediately.
1727.Ar Action
1728can also be specified as
1729.Sq clear
1730to clear the action associated with that particular rule, or as a new
1731rule number greater than the current rule.
1732In this case, if a given
1733packet matches the current rule, the packet will next be matched against
1734the new rule number (rather than the next rule number).
1735.Pp
1736The
1737.Ar action
1738may optionally be followed with an exclamation mark
1739.Pq Dq !\& ,
1740telling
1741.Nm
1742to reverse the sense of the following match.
1743.It
1744.Op Ar src_addr Ns Op / Ns Ar width
1745and
1746.Op Ar dst_addr Ns Op / Ns Ar width
1747are the source and destination IP number specifications.
1748If
1749.Op / Ns Ar width
1750is specified, it gives the number of relevant netmask bits,
1751allowing the specification of an address range.
1752.Pp
1753Either
1754.Ar src_addr
1755or
1756.Ar dst_addr
1757may be given the values
1758.Dv MYADDR ,
1759.Dv HISADDR ,
1760.Dv MYADDR6
1761or
1762.Dv HISADDR6
1763(refer to the description of the
1764.Dq bg
1765command for a description of these values).
1766When these values are used,
1767the filters will be updated any time the values change.
1768This is similar to the behaviour of the
1769.Dq add
1770command below.
1771.It
1772.Ar Proto
1773may be any protocol from
1774.Xr protocols 5 .
1775.It
1776.Ar Cmp
1777is one of
1778.Sq \&lt ,
1779.Sq \&eq
1780or
1781.Sq \&gt ,
1782meaning less-than, equal and greater-than respectively.
1783.Ar Port
1784can be specified as a numeric port or by service name from
1785.Pa /etc/services .
1786.It
1787The
1788.Sq estab ,
1789.Sq syn ,
1790and
1791.Sq finrst
1792flags are only allowed when
1793.Ar proto
1794is set to
1795.Sq tcp ,
1796and represent the TH_ACK, TH_SYN and TH_FIN or TH_RST TCP flags respectively.
1797.It
1798The timeout value adjusts the current idle timeout to at least
1799.Ar secs
1800seconds.
1801If a timeout is given in the alive filter as well as in the in/out
1802filter, the in/out value is used.
1803If no timeout is given, the default timeout (set using
1804.Ic set timeout
1805and defaulting to 180 seconds) is used.
1806.El
1807.It
1808Each filter can hold up to 40 rules, starting from rule 0.
1809The entire rule set is not effective until rule 0 is defined,
1810i.e., the default is to allow everything through.
1811.It
1812If no rule in a defined set of rules matches a packet, that packet will
1813be discarded (blocked).
1814If there are no rules in a given filter, the packet will be permitted.
1815.It
1816It is possible to filter based on the payload of UDP frames where those
1817frames contain a
1818.Em PROTO_IP
1819.Em PPP
1820frame header.
1821See the
1822.Ar filter-decapsulation
1823option below for further details.
1824.It
1825Use
1826.Dq set filter Ar name No -1
1827to flush all rules.
1828.El
1829.Pp
1830See
1831.Pa /usr/share/examples/ppp/ppp.conf.sample .
1832.Sh SETTING THE IDLE TIMER
1833To check/set the idle timer, use the
1834.Dq show bundle
1835and
1836.Dq set timeout
1837commands:
1838.Bd -literal -offset indent
1839ppp ON awfulhak> set timeout 600
1840.Ed
1841.Pp
1842The timeout period is measured in seconds, the default value for which
1843is 180 seconds
1844(or 3 min).
1845To disable the idle timer function, use the command
1846.Bd -literal -offset indent
1847ppp ON awfulhak> set timeout 0
1848.Ed
1849.Pp
1850In
1851.Fl ddial
1852and
1853.Fl dedicated
1854modes, the idle timeout is ignored.
1855In
1856.Fl auto
1857mode, when the idle timeout causes the
1858.Em PPP
1859session to be
1860closed, the
1861.Nm
1862program itself remains running.
1863Another trigger packet will cause it to attempt to re-establish the link.
1864.Sh PREDICTOR-1 and DEFLATE COMPRESSION
1865.Nm
1866supports both Predictor type 1 and deflate compression.
1867By default,
1868.Nm
1869will attempt to use (or be willing to accept) both compression protocols
1870when the peer agrees
1871(or requests them).
1872The deflate protocol is preferred by
1873.Nm .
1874Refer to the
1875.Dq disable
1876and
1877.Dq deny
1878commands if you wish to disable this functionality.
1879.Pp
1880It is possible to use a different compression algorithm in each direction
1881by using only one of
1882.Dq disable deflate
1883and
1884.Dq deny deflate
1885(assuming that the peer supports both algorithms).
1886.Pp
1887By default, when negotiating DEFLATE,
1888.Nm
1889will use a window size of 15.
1890Refer to the
1891.Dq set deflate
1892command if you wish to change this behaviour.
1893.Pp
1894A special algorithm called DEFLATE24 is also available, and is disabled
1895and denied by default.
1896This is exactly the same as DEFLATE except that
1897it uses CCP ID 24 to negotiate.
1898This allows
1899.Nm
1900to successfully negotiate DEFLATE with
1901.Nm pppd
1902version 2.3.*.
1903.Sh CONTROLLING IP ADDRESS
1904For IPv4,
1905.Nm
1906uses IPCP to negotiate IP addresses.
1907Each side of the connection
1908specifies the IP address that it is willing to use, and if the requested
1909IP address is acceptable then
1910.Nm
1911returns an ACK to the requester.
1912Otherwise,
1913.Nm
1914returns NAK to suggest that the peer use a different IP address.
1915When
1916both sides of the connection agree to accept the received request (and
1917send an ACK), IPCP is set to the open state and a network level connection
1918is established.
1919To control this IPCP behaviour, this implementation has the
1920.Dq set ifaddr
1921command for defining the local and remote IP address:
1922.Bd -ragged -offset indent
1923.No set ifaddr Oo Ar src_addr Ns
1924.Op / Ns Ar \&nn
1925.Oo Ar dst_addr Ns Op / Ns Ar \&nn
1926.Oo Ar netmask
1927.Op Ar trigger_addr
1928.Oc
1929.Oc
1930.Oc
1931.Ed
1932.Pp
1933where,
1934.Sq src_addr
1935is the IP address that the local side is willing to use,
1936.Sq dst_addr
1937is the IP address which the remote side should use and
1938.Sq netmask
1939is the netmask that should be used.
1940.Sq Src_addr
1941defaults to the current
1942.Xr hostname 1 ,
1943.Sq dst_addr
1944defaults to 0.0.0.0, and
1945.Sq netmask
1946defaults to whatever mask is appropriate for
1947.Sq src_addr .
1948It is only possible to make
1949.Sq netmask
1950smaller than the default.
1951The usual value is 255.255.255.255, as
1952most kernels ignore the netmask of a POINTOPOINT interface.
1953.Pp
1954Some incorrect
1955.Em PPP
1956implementations require that the peer negotiates a specific IP
1957address instead of
1958.Sq src_addr .
1959If this is the case,
1960.Sq trigger_addr
1961may be used to specify this IP number.
1962This will not affect the
1963routing table unless the other side agrees with this proposed number.
1964.Bd -literal -offset indent
1965set ifaddr 192.244.177.38 192.244.177.2 255.255.255.255 0.0.0.0
1966.Ed
1967.Pp
1968The above specification means:
1969.Pp
1970.Bl -bullet -compact
1971.It
1972I will first suggest that my IP address should be 0.0.0.0, but I
1973will only accept an address of 192.244.177.38.
1974.It
1975I strongly insist that the peer uses 192.244.177.2 as his own
1976address and will not permit the use of any IP address but 192.244.177.2.
1977When the peer requests another IP address, I will always suggest that
1978it uses 192.244.177.2.
1979.It
1980The routing table entry will have a netmask of 0xffffffff.
1981.El
1982.Pp
1983This is all fine when each side has a pre-determined IP address, however
1984it is often the case that one side is acting as a server which controls
1985all IP addresses and the other side should go along with it.
1986In order to allow more flexible behaviour, the
1987.Dq set ifaddr
1988command allows the user to specify IP addresses more loosely:
1989.Pp
1990.Dl set ifaddr 192.244.177.38/24 192.244.177.2/20
1991.Pp
1992A number followed by a slash
1993.Pq Dq /
1994represents the number of bits significant in the IP address.
1995The above example means:
1996.Pp
1997.Bl -bullet -compact
1998.It
1999I would like to use 192.244.177.38 as my address if it is possible, but I will
2000also accept any IP address between 192.244.177.0 and 192.244.177.255.
2001.It
2002I would like to make him use 192.244.177.2 as his own address, but I will also
2003permit him to use any IP address between 192.244.176.0 and
2004192.244.191.255.
2005.It
2006As you may have already noticed, 192.244.177.2 is equivalent to saying
2007192.244.177.2/32.
2008.It
2009As an exception, 0 is equivalent to 0.0.0.0/0, meaning that I have no
2010preferred IP address and will obey the remote peers selection.
2011When using zero, no routing table entries will be made until a connection
2012is established.
2013.It
2014192.244.177.2/0 means that I will accept/permit any IP address but I will
2015suggest that 192.244.177.2 be used first.
2016.El
2017.Pp
2018When negotiating IPv6 addresses, no control is given to the user.
2019IPV6CP negotiation is fully automatic.
2020.Sh CONNECTING WITH YOUR INTERNET SERVICE PROVIDER
2021The following steps should be taken when connecting to your ISP:
2022.Bl -enum
2023.It
2024Describe your providers phone number(s) in the dial script using the
2025.Dq set phone
2026command.
2027This command allows you to set multiple phone numbers for
2028dialing and redialing separated by either a pipe
2029.Pq Dq \&|
2030or a colon
2031.Pq Dq \&: :
2032.Bd -ragged -offset indent
2033.No set phone Ar telno Ns
2034.Oo \&| Ns Ar backupnumber Oc Ns ... Ns Oo : Ns Ar nextnumber Oc Ns ...
2035.Ed
2036.Pp
2037Numbers after the first in a pipe-separated list are only used if the
2038previous number was used in a failed dial or login script.
2039Numbers
2040separated by a colon are used sequentially, irrespective of what happened
2041as a result of using the previous number.
2042For example:
2043.Bd -literal -offset indent
2044set phone "1234567|2345678:3456789|4567890"
2045.Ed
2046.Pp
2047Here, the 1234567 number is attempted.
2048If the dial or login script fails,
2049the 2345678 number is used next time, but *only* if the dial or login script
2050fails.
2051On the dial after this, the 3456789 number is used.
2052The 4567890
2053number is only used if the dial or login script using the 3456789 fails.
2054If the login script of the 2345678 number fails, the next number is still the
20553456789 number.
2056As many pipes and colons can be used as are necessary
2057(although a given site would usually prefer to use either the pipe or the
2058colon, but not both).
2059The next number redial timeout is used between all numbers.
2060When the end of the list is reached, the normal redial period is
2061used before starting at the beginning again.
2062The selected phone number is substituted for the \\\\T string in the
2063.Dq set dial
2064command (see below).
2065.It
2066Set up your redial requirements using
2067.Dq set redial .
2068For example, if you have a bad telephone line or your provider is
2069usually engaged (not so common these days), you may want to specify
2070the following:
2071.Bd -literal -offset indent
2072set redial 10 4
2073.Ed
2074.Pp
2075This says that up to 4 phone calls should be attempted with a pause of 10
2076seconds before dialing the first number again.
2077.It
2078Describe your login procedure using the
2079.Dq set dial
2080and
2081.Dq set login
2082commands.
2083The
2084.Dq set dial
2085command is used to talk to your modem and establish a link with your
2086ISP, for example:
2087.Bd -literal -offset indent
2088set dial "ABORT BUSY ABORT NO\\\\sCARRIER TIMEOUT 4 \\"\\" \e
2089  ATZ OK-ATZ-OK ATDT\\\\T TIMEOUT 60 CONNECT"
2090.Ed
2091.Pp
2092This modem "chat" string means:
2093.Bl -bullet
2094.It
2095Abort if the string "BUSY" or "NO CARRIER" are received.
2096.It
2097Set the timeout to 4 seconds.
2098.It
2099Expect nothing.
2100.It
2101Send ATZ.
2102.It
2103Expect OK.
2104If that is not received within the 4 second timeout, send ATZ
2105and expect OK.
2106.It
2107Send ATDTxxxxxxx where xxxxxxx is the next number in the phone list from
2108above.
2109.It
2110Set the timeout to 60.
2111.It
2112Wait for the CONNECT string.
2113.El
2114.Pp
2115Once the connection is established, the login script is executed.
2116This script is written in the same style as the dial script, but care should
2117be taken to avoid having your password logged:
2118.Bd -literal -offset indent
2119set authkey MySecret
2120set login "TIMEOUT 15 login:-\\\\r-login: awfulhak \e
2121  word: \\\\P ocol: PPP HELLO"
2122.Ed
2123.Pp
2124This login "chat" string means:
2125.Bl -bullet
2126.It
2127Set the timeout to 15 seconds.
2128.It
2129Expect "login:".
2130If it is not received, send a carriage return and expect
2131"login:" again.
2132.It
2133Send "awfulhak"
2134.It
2135Expect "word:" (the tail end of a "Password:" prompt).
2136.It
2137Send whatever our current
2138.Ar authkey
2139value is set to.
2140.It
2141Expect "ocol:" (the tail end of a "Protocol:" prompt).
2142.It
2143Send "PPP".
2144.It
2145Expect "HELLO".
2146.El
2147.Pp
2148The
2149.Dq set authkey
2150command is logged specially.
2151When
2152.Ar command
2153or
2154.Ar chat
2155logging is enabled, the actual password is not logged;
2156.Sq ********
2157is logged instead.
2158.Pp
2159Login scripts vary greatly between ISPs.
2160If you are setting one up for the first time,
2161.Em ENABLE CHAT LOGGING
2162so that you can see if your script is behaving as you expect.
2163.It
2164Use
2165.Dq set device
2166and
2167.Dq set speed
2168to specify your serial line and speed, for example:
2169.Bd -literal -offset indent
2170set device /dev/cuau0
2171set speed 115200
2172.Ed
2173.Pp
2174Cuad0 is the first serial port on
2175.Fx .
2176If you are running
2177.Nm
2178on
2179.Ox ,
2180cua00 is the first.
2181A speed of 115200 should be specified
2182if you have a modem capable of bit rates of 28800 or more.
2183In general, the serial speed should be about four times the modem speed.
2184.It
2185Use the
2186.Dq set ifaddr
2187command to {define} the IP address.
2188.Bl -bullet
2189.It
2190If you know what IP address your provider uses, then use it as the remote
2191address (dst_addr), otherwise choose something like 10.0.0.2/0 (see below).
2192.It
2193If your provider has assigned a particular IP address to you, then use
2194it as your address (src_addr).
2195.It
2196If your provider assigns your address dynamically, choose a suitably
2197unobtrusive and unspecific IP number as your address.
219810.0.0.1/0 would be appropriate.
2199The bit after the / specifies how many bits of the
2200address you consider to be important, so if you wanted to insist on
2201something in the class C network 1.2.3.0, you could specify 1.2.3.1/24.
2202.It
2203If you find that your ISP accepts the first IP number that you suggest,
2204specify third and forth arguments of
2205.Dq 0.0.0.0 .
2206This will force your ISP to assign a number.
2207(The third argument will
2208be ignored as it is less restrictive than the default mask for your
2209.Sq src_addr ) .
2210.El
2211.Pp
2212An example for a connection where you do not know your IP number or your
2213ISPs IP number would be:
2214.Bd -literal -offset indent
2215set ifaddr 10.0.0.1/0 10.0.0.2/0 0.0.0.0 0.0.0.0
2216.Ed
2217.It
2218In most cases, your ISP will also be your default router.
2219If this is the case, add the line
2220.Bd -literal -offset indent
2221add default HISADDR
2222.Ed
2223.Pp
2224to
2225.Pa /etc/ppp/ppp.conf
2226(or to
2227.Pa /etc/ppp/ppp.linkup
2228for setups that do not use
2229.Fl auto
2230mode).
2231.Pp
2232This tells
2233.Nm
2234to add a default route to whatever the peer address is
2235(10.0.0.2 in this example).
2236This route is
2237.Sq sticky ,
2238meaning that should the value of
2239.Dv HISADDR
2240change, the route will be updated accordingly.
2241.It
2242If your provider requests that you use PAP/CHAP authentication methods, add
2243the next lines to your
2244.Pa /etc/ppp/ppp.conf
2245file:
2246.Bd -literal -offset indent
2247set authname MyName
2248set authkey MyPassword
2249.Ed
2250.Pp
2251Both are accepted by default, so
2252.Nm
2253will provide whatever your ISP requires.
2254.Pp
2255It should be noted that a login script is rarely (if ever) required
2256when PAP or CHAP are in use.
2257.It
2258Ask your ISP to authenticate your nameserver address(es) with the line
2259.Bd -literal -offset indent
2260enable dns
2261.Ed
2262.Pp
2263Do
2264.Em NOT
2265do this if you are running a local DNS unless you also either use
2266.Dq resolv readonly
2267or have
2268.Dq resolv restore
2269in
2270.Pa /etc/ppp/ppp.linkdown ,
2271as
2272.Nm
2273will simply circumvent its use by entering some nameserver lines in
2274.Pa /etc/resolv.conf .
2275.El
2276.Pp
2277Please refer to
2278.Pa /usr/share/examples/ppp/ppp.conf.sample
2279and
2280.Pa /usr/share/examples/ppp/ppp.linkup.sample
2281for some real examples.
2282The pmdemand label should be appropriate for most ISPs.
2283.Sh LOGGING FACILITY
2284.Nm
2285is able to generate the following log info either via
2286.Xr syslog 3
2287or directly to the screen:
2288.Pp
2289.Bl -tag -width XXXXXXXXX -offset XXX -compact
2290.It Li All
2291Enable all logging facilities.
2292This generates a lot of log.
2293The most common use of 'all' is as a basis, where you remove some facilities
2294after enabling 'all' ('debug' and 'timer' are usually best disabled.)
2295.It Li Async
2296Dump async level packet in hex.
2297.It Li CBCP
2298Generate CBCP (CallBack Control Protocol) logs.
2299.It Li CCP
2300Generate a CCP packet trace.
2301.It Li Chat
2302Generate
2303.Sq dial ,
2304.Sq login ,
2305.Sq logout
2306and
2307.Sq hangup
2308chat script trace logs.
2309.It Li Command
2310Log commands executed either from the command line or any of the configuration
2311files.
2312.It Li Connect
2313Log Chat lines containing the string "CONNECT".
2314.It Li Debug
2315Log debug information.
2316.It Li DNS
2317Log DNS QUERY packets.
2318.It Li Filter
2319Log packets permitted by the dial filter and denied by any filter.
2320.It Li HDLC
2321Dump HDLC packet in hex.
2322.It Li ID0
2323Log all function calls specifically made as user id 0.
2324.It Li IPCP
2325Generate an IPCP packet trace.
2326.It Li LCP
2327Generate an LCP packet trace.
2328.It Li LQM
2329Generate LQR reports.
2330.It Li Phase
2331Phase transition log output.
2332.It Li Physical
2333Dump physical level packet in hex.
2334.It Li Radius
2335Dump RADIUS information.
2336RADIUS information resulting from the link coming up or down is logged at
2337.Dq Phase
2338level unless
2339.Dq Radius
2340logging is enabled.
2341This log level is most useful for monitoring RADIUS alive information.
2342.It Li Sync
2343Dump sync level packet in hex.
2344.It Li TCP/IP
2345Dump all TCP/IP packets.
2346.It Li Timer
2347Log timer manipulation.
2348.It Li TUN
2349Include the tun device on each log line.
2350.It Li Warning
2351Output to the terminal device.
2352If there is currently no terminal,
2353output is sent to the log file using syslogs
2354.Dv LOG_WARNING .
2355.It Li Error
2356Output to both the terminal device
2357and the log file using syslogs
2358.Dv LOG_ERROR .
2359.It Li Alert
2360Output to the log file using
2361.Dv LOG_ALERT .
2362.El
2363.Pp
2364The
2365.Dq set log
2366command allows you to set the logging output level.
2367Multiple levels can be specified on a single command line.
2368The default is equivalent to
2369.Dq set log Phase .
2370.Pp
2371It is also possible to log directly to the screen.
2372The syntax is the same except that the word
2373.Dq local
2374should immediately follow
2375.Dq set log .
2376The default is
2377.Dq set log local
2378(i.e., only the un-maskable warning, error and alert output).
2379.Pp
2380If The first argument to
2381.Dq set log Op local
2382begins with a
2383.Sq +
2384or a
2385.Sq -
2386character, the current log levels are
2387not cleared, for example:
2388.Bd -literal -offset indent
2389PPP ON awfulhak> set log phase
2390PPP ON awfulhak> show log
2391Log:   Phase Warning Error Alert
2392Local: Warning Error Alert
2393PPP ON awfulhak> set log +tcp/ip -warning
2394PPP ON awfulhak> set log local +command
2395PPP ON awfulhak> show log
2396Log:   Phase TCP/IP Warning Error Alert
2397Local: Command Warning Error Alert
2398.Ed
2399.Pp
2400Log messages of level Warning, Error and Alert are not controllable
2401using
2402.Dq set log Op local .
2403.Pp
2404The
2405.Ar Warning
2406level is special in that it will not be logged if it can be displayed
2407locally.
2408.Sh SIGNAL HANDLING
2409.Nm
2410deals with the following signals:
2411.Bl -tag -width "USR2"
2412.It INT
2413Receipt of this signal causes the termination of the current connection
2414(if any).
2415This will cause
2416.Nm
2417to exit unless it is in
2418.Fl auto
2419or
2420.Fl ddial
2421mode.
2422.It HUP, TERM & QUIT
2423These signals tell
2424.Nm
2425to exit.
2426.It USR1
2427This signal, tells
2428.Nm
2429to re-open any existing server socket, dropping all existing diagnostic
2430connections.
2431Sockets that could not previously be opened will be retried.
2432.It USR2
2433This signal, tells
2434.Nm
2435to close any existing server socket, dropping all existing diagnostic
2436connections.
2437.Dv SIGUSR1
2438can still be used to re-open the socket.
2439.El
2440.Sh MULTI-LINK PPP
2441If you wish to use more than one physical link to connect to a
2442.Em PPP
2443peer, that peer must also understand the
2444.Em MULTI-LINK PPP
2445protocol.
2446Refer to RFC 1990 for specification details.
2447.Pp
2448The peer is identified using a combination of his
2449.Dq endpoint discriminator
2450and his
2451.Dq authentication id .
2452Either or both of these may be specified.
2453It is recommended that
2454at least one is specified, otherwise there is no way of ensuring that
2455all links are actually connected to the same peer program, and some
2456confusing lock-ups may result.
2457Locally, these identification variables are specified using the
2458.Dq set enddisc
2459and
2460.Dq set authname
2461commands.
2462The
2463.Sq authname
2464(and
2465.Sq authkey )
2466must be agreed in advance with the peer.
2467.Pp
2468Multi-link capabilities are enabled using the
2469.Dq set mrru
2470command (set maximum reconstructed receive unit).
2471Once multi-link is enabled,
2472.Nm
2473will attempt to negotiate a multi-link connection with the peer.
2474.Pp
2475By default, only one
2476.Sq link
2477is available
2478(called
2479.Sq deflink ) .
2480To create more links, the
2481.Dq clone
2482command is used.
2483This command will clone existing links, where all
2484characteristics are the same except:
2485.Bl -enum
2486.It
2487The new link has its own name as specified on the
2488.Dq clone
2489command line.
2490.It
2491The new link is an
2492.Sq interactive
2493link.
2494Its mode may subsequently be changed using the
2495.Dq set mode
2496command.
2497.It
2498The new link is in a
2499.Sq closed
2500state.
2501.El
2502.Pp
2503A summary of all available links can be seen using the
2504.Dq show links
2505command.
2506.Pp
2507Once a new link has been created, command usage varies.
2508All link specific commands must be prefixed with the
2509.Dq link Ar name
2510command, specifying on which link the command is to be applied.
2511When only a single link is available,
2512.Nm
2513is smart enough not to require the
2514.Dq link Ar name
2515prefix.
2516.Pp
2517Some commands can still be used without specifying a link - resulting
2518in an operation at the
2519.Sq bundle
2520level.
2521For example, once two or more links are available, the command
2522.Dq show ccp
2523will show CCP configuration and statistics at the multi-link level, and
2524.Dq link deflink show ccp
2525will show the same information at the
2526.Dq deflink
2527link level.
2528.Pp
2529Armed with this information, the following configuration might be used:
2530.Bd -literal -offset indent
2531mp:
2532 set timeout 0
2533 set log phase chat
2534 set device /dev/cuau0 /dev/cuau1 /dev/cuau2
2535 set phone "123456789"
2536 set dial "ABORT BUSY ABORT NO\\sCARRIER TIMEOUT 5 \\"\\" ATZ \e
2537           OK-AT-OK \\\\dATDT\\\\T TIMEOUT 45 CONNECT"
2538 set login
2539 set ifaddr 10.0.0.1/0 10.0.0.2/0 0.0.0.0 0.0.0.0
2540 set authname ppp
2541 set authkey ppppassword
2542
2543 set mrru 1500
2544 clone 1,2,3		# Create 3 new links - duplicates of the default
2545 link deflink remove	# Delete the default link (called ``deflink'')
2546.Ed
2547.Pp
2548Note how all cloning is done at the end of the configuration.
2549Usually, the link will be configured first, then cloned.
2550If you wish all links
2551to be up all the time, you can add the following line to the end of your
2552configuration.
2553.Bd -literal -offset indent
2554  link 1,2,3 set mode ddial
2555.Ed
2556.Pp
2557If you want the links to dial on demand, this command could be used:
2558.Bd -literal -offset indent
2559  link * set mode auto
2560.Ed
2561.Pp
2562Links may be tied to specific names by removing the
2563.Dq set device
2564line above, and specifying the following after the
2565.Dq clone
2566command:
2567.Bd -literal -offset indent
2568 link 1 set device /dev/cuau0
2569 link 2 set device /dev/cuau1
2570 link 3 set device /dev/cuau2
2571.Ed
2572.Pp
2573Use the
2574.Dq help
2575command to see which commands require context (using the
2576.Dq link
2577command), which have optional
2578context and which should not have any context.
2579.Pp
2580When
2581.Nm
2582has negotiated
2583.Em MULTI-LINK
2584mode with the peer, it creates a local domain socket in the
2585.Pa /var/run
2586directory.
2587This socket is used to pass link information (including
2588the actual link file descriptor) between different
2589.Nm
2590invocations.
2591This facilitates
2592.Nm Ns No 's
2593ability to be run from a
2594.Xr getty 8
2595or directly from
2596.Pa /etc/gettydefs
2597(using the
2598.Sq pp=
2599capability), without needing to have initial control of the serial
2600line.
2601Once
2602.Nm
2603negotiates multi-link mode, it will pass its open link to any
2604already running process.
2605If there is no already running process,
2606.Nm
2607will act as the master, creating the socket and listening for new
2608connections.
2609.Sh PPP COMMAND LIST
2610This section lists the available commands and their effect.
2611They are usable either from an interactive
2612.Nm
2613session, from a configuration file or from a
2614.Xr pppctl 8
2615or
2616.Xr telnet 1
2617session.
2618.Bl -tag -width 2n
2619.It accept|deny|enable|disable Ar option....
2620These directives tell
2621.Nm
2622how to negotiate the initial connection with the peer.
2623Each
2624.Dq option
2625has a default of either accept or deny and enable or disable.
2626.Dq Accept
2627means that the option will be ACK'd if the peer asks for it.
2628.Dq Deny
2629means that the option will be NAK'd if the peer asks for it.
2630.Dq Enable
2631means that the option will be requested by us.
2632.Dq Disable
2633means that the option will not be requested by us.
2634.Pp
2635.Dq Option
2636may be one of the following:
2637.Bl -tag -width 2n
2638.It acfcomp
2639Default: Enabled and Accepted.
2640ACFComp stands for Address and Control Field Compression.
2641Non LCP packets will usually have an address
2642field of 0xff (the All-Stations address) and a control field of
26430x03 (the Unnumbered Information command).
2644If this option is
2645negotiated, these two bytes are simply not sent, thus minimising
2646traffic.
2647.Pp
2648See
2649.Pa rfc1662
2650for details.
2651.It chap Ns Op \&05
2652Default: Disabled and Accepted.
2653CHAP stands for Challenge Handshake Authentication Protocol.
2654Only one of CHAP and PAP (below) may be negotiated.
2655With CHAP, the authenticator sends a "challenge" message to its peer.
2656The peer uses a one-way hash function to encrypt the
2657challenge and sends the result back.
2658The authenticator does the same, and compares the results.
2659The advantage of this mechanism is that no
2660passwords are sent across the connection.
2661A challenge is made when the connection is first made.
2662Subsequent challenges may occur.
2663If you want to have your peer authenticate itself, you must
2664.Dq enable chap .
2665in
2666.Pa /etc/ppp/ppp.conf ,
2667and have an entry in
2668.Pa /etc/ppp/ppp.secret
2669for the peer.
2670.Pp
2671When using CHAP as the client, you need only specify
2672.Dq AuthName
2673and
2674.Dq AuthKey
2675in
2676.Pa /etc/ppp/ppp.conf .
2677CHAP is accepted by default.
2678Some
2679.Em PPP
2680implementations use "MS-CHAP" rather than MD5 when encrypting the
2681challenge.
2682MS-CHAP is a combination of MD4 and DES.
2683If
2684.Nm
2685was built on a machine with DES libraries available, it will respond
2686to MS-CHAP authentication requests, but will never request them.
2687.It deflate
2688Default: Enabled and Accepted.
2689This option decides if deflate
2690compression will be used by the Compression Control Protocol (CCP).
2691This is the same algorithm as used by the
2692.Xr gzip 1
2693program.
2694Note: There is a problem negotiating
2695.Ar deflate
2696capabilities with
2697.Nm pppd
2698- a
2699.Em PPP
2700implementation available under many operating systems.
2701.Nm pppd
2702(version 2.3.1) incorrectly attempts to negotiate
2703.Ar deflate
2704compression using type
2705.Em 24
2706as the CCP configuration type rather than type
2707.Em 26
2708as specified in
2709.Pa rfc1979 .
2710Type
2711.Ar 24
2712is actually specified as
2713.Dq PPP Magna-link Variable Resource Compression
2714in
2715.Pa rfc1975 !
2716.Nm
2717is capable of negotiating with
2718.Nm pppd ,
2719but only if
2720.Dq deflate24
2721is
2722.Ar enable Ns No d
2723and
2724.Ar accept Ns No ed .
2725.It deflate24
2726Default: Disabled and Denied.
2727This is a variance of the
2728.Ar deflate
2729option, allowing negotiation with the
2730.Nm pppd
2731program.
2732Refer to the
2733.Ar deflate
2734section above for details.
2735It is disabled by default as it violates
2736.Pa rfc1975 .
2737.It dns
2738Default: Disabled and Denied.
2739This option allows DNS negotiation.
2740.Pp
2741If
2742.Dq enable Ns No d,
2743.Nm
2744will request that the peer confirms the entries in
2745.Pa /etc/resolv.conf .
2746If the peer NAKs our request (suggesting new IP numbers),
2747.Pa /etc/resolv.conf
2748is updated and another request is sent to confirm the new entries.
2749.Pp
2750If
2751.Dq accept Ns No ed,
2752.Nm
2753will answer any DNS queries requested by the peer rather than rejecting
2754them.
2755The answer is taken from
2756.Pa /etc/resolv.conf
2757unless the
2758.Dq set dns
2759command is used as an override.
2760.It enddisc
2761Default: Enabled and Accepted.
2762This option allows control over whether we
2763negotiate an endpoint discriminator.
2764We only send our discriminator if
2765.Dq set enddisc
2766is used and
2767.Ar enddisc
2768is enabled.
2769We reject the peers discriminator if
2770.Ar enddisc
2771is denied.
2772.It LANMan|chap80lm
2773Default: Disabled and Accepted.
2774The use of this authentication protocol
2775is discouraged as it partially violates the authentication protocol by
2776implementing two different mechanisms (LANMan & NT) under the guise of
2777a single CHAP type (0x80).
2778.Dq LANMan
2779uses a simple DES encryption mechanism and is the least secure of the
2780CHAP alternatives (although is still more secure than PAP).
2781.Pp
2782Refer to the
2783.Dq MSChap
2784description below for more details.
2785.It lqr
2786Default: Disabled and Accepted.
2787This option decides if Link Quality Requests will be sent or accepted.
2788LQR is a protocol that allows
2789.Nm
2790to determine that the link is down without relying on the modems
2791carrier detect.
2792When LQR is enabled,
2793.Nm
2794sends the
2795.Em QUALPROTO
2796option (see
2797.Dq set lqrperiod
2798below) as part of the LCP request.
2799If the peer agrees, both sides will
2800exchange LQR packets at the agreed frequency, allowing detailed link
2801quality monitoring by enabling LQM logging.
2802If the peer does not agree, and if the
2803.Dq echo
2804option is enabled,
2805.Nm
2806will send
2807.Em LCP ECHO
2808requests instead.
2809These packets pass no information of interest, but they
2810.Em MUST
2811be replied to by the peer.
2812.Pp
2813Whether using
2814.Em LQR
2815or
2816.Em LCP ECHO ,
2817.Nm
2818will abruptly drop the connection if 5 unacknowledged packets have been
2819sent rather than sending a 6th.
2820A message is logged at the
2821.Em PHASE
2822level, and any appropriate
2823.Dq reconnect
2824values are honoured as if the peer were responsible for dropping the
2825connection.
2826.Pp
2827Refer to the
2828.Dq enable echo
2829command description for differences in behaviour prior to
2830.Nm
2831version 3.4.2.
2832.It mppe
2833Default: Enabled and Accepted.
2834This is Microsoft Point to Point Encryption scheme.
2835MPPE key size can be
283640-, 56- and 128-bits.
2837Refer to
2838.Dq set mppe
2839command.
2840.It MSChapV2|chap81
2841Default: Disabled and Accepted.
2842It is very similar to standard CHAP (type 0x05)
2843except that it issues challenges of a fixed 16 bytes in length and uses a
2844combination of MD4, SHA-1 and DES to encrypt the challenge rather than using the
2845standard MD5 mechanism.
2846.It MSChap|chap80nt
2847Default: Disabled and Accepted.
2848The use of this authentication protocol
2849is discouraged as it partially violates the authentication protocol by
2850implementing two different mechanisms (LANMan & NT) under the guise of
2851a single CHAP type (0x80).
2852It is very similar to standard CHAP (type 0x05)
2853except that it issues challenges of a fixed 8 bytes in length and uses a
2854combination of MD4 and DES to encrypt the challenge rather than using the
2855standard MD5 mechanism.
2856CHAP type 0x80 for LANMan is also supported - see
2857.Dq enable LANMan
2858for details.
2859.Pp
2860Because both
2861.Dq LANMan
2862and
2863.Dq NT
2864use CHAP type 0x80, when acting as authenticator with both
2865.Dq enable Ns No d ,
2866.Nm
2867will rechallenge the peer up to three times if it responds using the wrong
2868one of the two protocols.
2869This gives the peer a chance to attempt using both protocols.
2870.Pp
2871Conversely, when
2872.Nm
2873acts as the authenticatee with both protocols
2874.Dq accept Ns No ed ,
2875the protocols are used alternately in response to challenges.
2876.Pp
2877Note: If only LANMan is enabled,
2878.Nm pppd
2879(version 2.3.5) misbehaves when acting as authenticatee.
2880It provides both
2881the NT and the LANMan answers, but also suggests that only the NT answer
2882should be used.
2883.It pap
2884Default: Disabled and Accepted.
2885PAP stands for Password Authentication Protocol.
2886Only one of PAP and CHAP (above) may be negotiated.
2887With PAP, the ID and Password are sent repeatedly to the peer until
2888authentication is acknowledged or the connection is terminated.
2889This is a rather poor security mechanism.
2890It is only performed when the connection is first established.
2891If you want to have your peer authenticate itself, you must
2892.Dq enable pap .
2893in
2894.Pa /etc/ppp/ppp.conf ,
2895and have an entry in
2896.Pa /etc/ppp/ppp.secret
2897for the peer (although see the
2898.Dq passwdauth
2899and
2900.Dq set radius
2901options below).
2902.Pp
2903When using PAP as the client, you need only specify
2904.Dq AuthName
2905and
2906.Dq AuthKey
2907in
2908.Pa /etc/ppp/ppp.conf .
2909PAP is accepted by default.
2910.It pred1
2911Default: Enabled and Accepted.
2912This option decides if Predictor 1
2913compression will be used by the Compression Control Protocol (CCP).
2914.It protocomp
2915Default: Enabled and Accepted.
2916This option is used to negotiate
2917PFC (Protocol Field Compression), a mechanism where the protocol
2918field number is reduced to one octet rather than two.
2919.It shortseq
2920Default: Enabled and Accepted.
2921This option determines if
2922.Nm
2923will request and accept requests for short
2924(12 bit)
2925sequence numbers when negotiating multi-link mode.
2926This is only applicable if our MRRU is set (thus enabling multi-link).
2927.It vjcomp
2928Default: Enabled and Accepted.
2929This option determines if Van Jacobson header compression will be used.
2930.El
2931.Pp
2932The following options are not actually negotiated with the peer.
2933Therefore, accepting or denying them makes no sense.
2934.Bl -tag -width 2n
2935.It echo
2936Default: Disabled.
2937When this option is enabled,
2938.Nm
2939will send
2940.Em LCP ECHO
2941requests to the peer at the frequency defined by
2942.Dq echoperiod .
2943Note,
2944.Em LQR
2945requests will supersede
2946.Em LCP ECHO
2947requests if enabled and negotiated.
2948See
2949.Dq set lqrperiod
2950below for details.
2951.Pp
2952Prior to
2953.Nm
2954version 3.4.2,
2955.Dq echo
2956was considered enabled if lqr was enabled and negotiated, otherwise it was
2957considered disabled.
2958For the same behaviour, it is now necessary to
2959.Dq enable lqr echo
2960rather than just
2961.Dq enable lqr .
2962.It filter-decapsulation
2963Default: Disabled.
2964When this option is enabled,
2965.Nm
2966will examine UDP frames to see if they actually contain a
2967.Em PPP
2968frame as their payload.
2969If this is the case, all filters will operate on the payload rather
2970than the actual packet.
2971.Pp
2972This is useful if you want to send PPPoUDP traffic over a
2973.Em PPP
2974link, but want that link to do smart things with the real data rather than
2975the UDP wrapper.
2976.Pp
2977The UDP frame payload must not be compressed in any way, otherwise
2978.Nm
2979will not be able to interpret it.
2980It is therefore recommended that you
2981.Ic disable vj pred1 deflate
2982and
2983.Ic deny vj pred1 deflate
2984in the configuration for the
2985.Nm
2986invocation with the udp link.
2987.It force-scripts
2988Default: Disabled.
2989Forces execution of the configured chat scripts in
2990.Dv direct
2991and
2992.Dv dedicated
2993modes.
2994.It idcheck
2995Default: Enabled.
2996When
2997.Nm
2998exchanges low-level LCP, CCP and IPCP configuration traffic, the
2999.Em Identifier
3000field of any replies is expected to be the same as that of the request.
3001By default,
3002.Nm
3003drops any reply packets that do not contain the expected identifier
3004field, reporting the fact at the respective log level.
3005If
3006.Ar idcheck
3007is disabled,
3008.Nm
3009will ignore the identifier field.
3010.It iface-alias
3011Default: Enabled if
3012.Fl nat
3013is specified.
3014This option simply tells
3015.Nm
3016to add new interface addresses to the interface rather than replacing them.
3017The option can only be enabled if network address translation is enabled
3018.Pq Dq nat enable yes .
3019.Pp
3020With this option enabled,
3021.Nm
3022will pass traffic for old interface addresses through the NAT
3023engine
3024(see
3025.Xr libalias 3 ) ,
3026resulting in the ability (in
3027.Fl auto
3028mode) to properly connect the process that caused the PPP link to
3029come up in the first place.
3030.Pp
3031Disabling NAT with
3032.Dq nat enable no
3033will also disable
3034.Sq iface-alias .
3035.It ipcp
3036Default: Enabled.
3037This option allows
3038.Nm
3039to attempt to negotiate IP control protocol capabilities and if
3040successful to exchange IP datagrams with the peer.
3041.It ipv6cp
3042Default: Enabled.
3043This option allows
3044.Nm
3045to attempt to negotiate IPv6 control protocol capabilities and if
3046successful to exchange IPv6 datagrams with the peer.
3047.It keep-session
3048Default: Disabled.
3049When
3050.Nm
3051runs as a Multi-link server, a different
3052.Nm
3053instance initially receives each connection.
3054After determining that
3055the link belongs to an already existing bundle (controlled by another
3056.Nm
3057invocation),
3058.Nm
3059will transfer the link to that process.
3060.Pp
3061If the link is a tty device or if this option is enabled,
3062.Nm
3063will not exit, but will change its process name to
3064.Dq session owner
3065and wait for the controlling
3066.Nm
3067to finish with the link and deliver a signal back to the idle process.
3068This prevents the confusion that results from
3069.Nm Ns No 's
3070parent considering the link resource available again.
3071.Pp
3072For tty devices that have entries in
3073.Pa /etc/ttys ,
3074this is necessary to prevent another
3075.Xr getty 8
3076from being started, and for program links such as
3077.Xr sshd 8 ,
3078it prevents
3079.Xr sshd 8
3080from exiting due to the death of its child.
3081As
3082.Nm
3083cannot determine its parents requirements (except for the tty case), this
3084option must be enabled manually depending on the circumstances.
3085.It loopback
3086Default: Enabled.
3087When
3088.Ar loopback
3089is enabled,
3090.Nm
3091will automatically loop back packets being sent
3092out with a destination address equal to that of the
3093.Em PPP
3094interface.
3095If disabled,
3096.Nm
3097will send the packet, probably resulting in an ICMP redirect from
3098the other end.
3099It is convenient to have this option enabled when
3100the interface is also the default route as it avoids the necessity
3101of a loopback route.
3102.It NAS-IP-Address
3103Default: Enabled.
3104This option controls whether
3105.Nm
3106sends the
3107.Dq NAS-IP-Address
3108attribute to the RADIUS server when RADIUS is in use
3109.Pq see Dq set radius .
3110.Pp
3111Note, at least one of
3112.Dq NAS-IP-Address
3113and
3114.Dq NAS-Identifier
3115must be enabled.
3116.Pp
3117Versions of
3118.Nm
3119prior to version 3.4.1 did not send the
3120.Dq NAS-IP-Address
3121attribute as it was reported to break the Radiator RADIUS server.
3122As the latest rfc (2865) no longer hints that only one of
3123.Dq NAS-IP-Address
3124and
3125.Dq NAS-Identifier
3126should be sent (as rfc 2138 did),
3127.Nm
3128now sends both and leaves it up to the administrator that chooses to use
3129bad RADIUS implementations to
3130.Dq disable NAS-IP-Address .
3131.It NAS-Identifier
3132Default: Enabled.
3133This option controls whether
3134.Nm
3135sends the
3136.Dq NAS-Identifier
3137attribute to the RADIUS server when RADIUS is in use
3138.Pq see Dq set radius .
3139.Pp
3140Note, at least one of
3141.Dq NAS-IP-Address
3142and
3143.Dq NAS-Identifier
3144must be enabled.
3145.It passwdauth
3146Default: Disabled.
3147Enabling this option will tell the PAP authentication
3148code to use the password database (see
3149.Xr passwd 5 )
3150to authenticate the caller if they cannot be found in the
3151.Pa /etc/ppp/ppp.secret
3152file.
3153.Pa /etc/ppp/ppp.secret
3154is always checked first.
3155If you wish to use passwords from
3156.Xr passwd 5 ,
3157but also to specify an IP number or label for a given client, use
3158.Dq \&*
3159as the client password in
3160.Pa /etc/ppp/ppp.secret .
3161.It proxy
3162Default: Disabled.
3163Enabling this option will tell
3164.Nm
3165to proxy ARP for the peer.
3166This means that
3167.Nm
3168will make an entry in the ARP table using
3169.Dv HISADDR
3170and the
3171.Dv MAC
3172address of the local network in which
3173.Dv HISADDR
3174appears.
3175This allows other machines connecteed to the LAN to talk to
3176the peer as if the peer itself was connected to the LAN.
3177The proxy entry cannot be made unless
3178.Dv HISADDR
3179is an address from a LAN.
3180.It proxyall
3181Default: Disabled.
3182Enabling this will tell
3183.Nm
3184to add proxy arp entries for every IP address in all class C or
3185smaller subnets routed via the tun interface.
3186.Pp
3187Proxy arp entries are only made for sticky routes that are added
3188using the
3189.Dq add
3190command.
3191No proxy arp entries are made for the interface address itself
3192(as created by the
3193.Dq set ifaddr
3194command).
3195.It sroutes
3196Default: Enabled.
3197When the
3198.Dq add
3199command is used with the
3200.Dv HISADDR ,
3201.Dv MYADDR ,
3202.Dv HISADDR6
3203or
3204.Dv MYADDR6
3205values, entries are stored in the
3206.Sq sticky route
3207list.
3208Each time these variables change, this list is re-applied to the routing table.
3209.Pp
3210Disabling this option will prevent the re-application of sticky routes,
3211although the
3212.Sq stick route
3213list will still be maintained.
3214.It Oo tcp Oc Ns No mssfixup
3215Default: Enabled.
3216This option tells
3217.Nm
3218to adjust TCP SYN packets so that the maximum receive segment
3219size is not greater than the amount allowed by the interface MTU.
3220.It throughput
3221Default: Enabled.
3222This option tells
3223.Nm
3224to gather throughput statistics.
3225Input and output is sampled over
3226a rolling 5 second window, and current, best and total figures are retained.
3227This data is output when the relevant
3228.Em PPP
3229layer shuts down, and is also available using the
3230.Dq show
3231command.
3232Throughput statistics are available at the
3233.Dq IPCP
3234and
3235.Dq physical
3236levels.
3237.It utmp
3238Default: Enabled.
3239Normally, when a user is authenticated using PAP or CHAP, and when
3240.Nm
3241is running in
3242.Fl direct
3243mode, an entry is made in the utmp and wtmp files for that user.
3244Disabling this option will tell
3245.Nm
3246not to make any utmp or wtmp entries.
3247This is usually only necessary if
3248you require the user to both login and authenticate themselves.
3249.El
3250.It add Ns Xo
3251.Op !\&
3252.Ar dest Ns Op / Ns Ar nn
3253.Op Ar mask
3254.Op Ar gateway
3255.Xc
3256.Ar Dest
3257is the destination IP address.
3258The netmask is specified either as a number of bits with
3259.Ar /nn
3260or as an IP number using
3261.Ar mask .
3262.Ar 0 0
3263or simply
3264.Ar 0
3265with no mask refers to the default route.
3266It is also possible to use the literal name
3267.Sq default
3268instead of
3269.Ar 0 .
3270.Ar Gateway
3271is the next hop gateway to get to the given
3272.Ar dest
3273machine/network.
3274Refer to the
3275.Xr route 8
3276command for further details.
3277.Pp
3278It is possible to use the symbolic names
3279.Sq MYADDR ,
3280.Sq HISADDR ,
3281.Sq MYADDR6
3282or
3283.Sq HISADDR6
3284as the destination, and
3285.Sq HISADDR
3286or
3287.Sq HISADDR6
3288as the
3289.Ar gateway .
3290.Sq MYADDR
3291is replaced with the interface IP address,
3292.Sq HISADDR
3293is replaced with the interface IP destination (peer) address,
3294.Sq MYADDR6
3295is replaced with the interface IPv6 address, and
3296.Sq HISADDR6
3297is replaced with the interface IPv6 destination address,
3298.Pp
3299If the
3300.Ar add!\&
3301command is used
3302(note the trailing
3303.Dq !\& ) ,
3304then if the route already exists, it will be updated as with the
3305.Sq route change
3306command (see
3307.Xr route 8
3308for further details).
3309.Pp
3310Routes that contain the
3311.Dq HISADDR ,
3312.Dq MYADDR ,
3313.Dq HISADDR6 ,
3314.Dq MYADDR6 ,
3315.Dq DNS0 ,
3316or
3317.Dq DNS1
3318constants are considered
3319.Sq sticky .
3320They are stored in a list (use
3321.Dq show ncp
3322to see the list), and each time the value of one of these variables
3323changes, the appropriate routing table entries are updated.
3324This facility may be disabled using
3325.Dq disable sroutes .
3326.It allow Ar command Op Ar args
3327This command controls access to
3328.Nm
3329and its configuration files.
3330It is possible to allow user-level access,
3331depending on the configuration file label and on the mode that
3332.Nm
3333is being run in.
3334For example, you may wish to configure
3335.Nm
3336so that only user
3337.Sq fred
3338may access label
3339.Sq fredlabel
3340in
3341.Fl background
3342mode.
3343.Pp
3344User id 0 is immune to these commands.
3345.Bl -tag -width 2n
3346.It allow user Ns Xo
3347.Op s
3348.Ar logname Ns No ...
3349.Xc
3350By default, only user id 0 is allowed access to
3351.Nm .
3352If this command is used, all of the listed users are allowed access to
3353the section in which the
3354.Dq allow users
3355command is found.
3356The
3357.Sq default
3358section is always checked first (even though it is only ever automatically
3359loaded at startup).
3360.Dq allow users
3361commands are cumulative in a given section, but users allowed in any given
3362section override users allowed in the default section, so it is possible to
3363allow users access to everything except a given label by specifying default
3364users in the
3365.Sq default
3366section, and then specifying a new user list for that label.
3367.Pp
3368If user
3369.Sq *
3370is specified, access is allowed to all users.
3371.It allow mode Ns Xo
3372.Op s
3373.Ar mode Ns No ...
3374.Xc
3375By default, access using any
3376.Nm
3377mode is possible.
3378If this command is used, it restricts the access
3379.Ar modes
3380allowed to load the label under which this command is specified.
3381Again, as with the
3382.Dq allow users
3383command, each
3384.Dq allow modes
3385command overrides any previous settings, and the
3386.Sq default
3387section is always checked first.
3388.Pp
3389Possible modes are:
3390.Sq interactive ,
3391.Sq auto ,
3392.Sq direct ,
3393.Sq dedicated ,
3394.Sq ddial ,
3395.Sq background
3396and
3397.Sq * .
3398.Pp
3399When running in multi-link mode, a section can be loaded if it allows
3400.Em any
3401of the currently existing line modes.
3402.El
3403.It nat Ar command Op Ar args
3404This command allows the control of the network address translation (also
3405known as masquerading or IP aliasing) facilities that are built into
3406.Nm .
3407NAT is done on the external interface only, and is unlikely to make sense
3408if used with the
3409.Fl direct
3410flag.
3411.Pp
3412If nat is enabled on your system (it may be omitted at compile time),
3413the following commands are possible:
3414.Bl -tag -width 2n
3415.It nat enable yes|no
3416This command either switches network address translation on or turns it off.
3417The
3418.Fl nat
3419command line flag is synonymous with
3420.Dq nat enable yes .
3421.It nat addr Op Ar addr_local addr_alias
3422This command allows data for
3423.Ar addr_alias
3424to be redirected to
3425.Ar addr_local .
3426It is useful if you own a small number of real IP numbers that
3427you wish to map to specific machines behind your gateway.
3428.It nat deny_incoming yes|no
3429If set to yes, this command will refuse all incoming packets where an
3430aliasing link does not already exist.
3431Refer to the
3432.Sx CONCEPTUAL BACKGROUND
3433section of
3434.Xr libalias 3
3435for a description of what an
3436.Dq aliasing link
3437is.
3438.Pp
3439It should be noted under what circumstances an aliasing link is
3440created by
3441.Xr libalias 3 .
3442It may be necessary to further protect your network from outside
3443connections using the
3444.Dq set filter
3445or
3446.Dq nat target
3447commands.
3448.It nat help|?
3449This command gives a summary of available nat commands.
3450.It nat log yes|no
3451This option causes various NAT statistics and information to
3452be logged to the file
3453.Pa /var/log/alias.log .
3454.It nat port Ar proto Ar targetIP Ns Xo
3455.No : Ns Ar targetPort Ns
3456.Oo
3457.No - Ns Ar targetPort
3458.Oc Ar aliasPort Ns
3459.Oo
3460.No - Ns Ar aliasPort
3461.Oc Oo Ar remoteIP : Ns
3462.Ar remotePort Ns
3463.Oo
3464.No - Ns Ar remotePort
3465.Oc
3466.Oc
3467.Xc
3468This command causes incoming
3469.Ar proto
3470connections to
3471.Ar aliasPort
3472to be redirected to
3473.Ar targetPort
3474on
3475.Ar targetIP .
3476.Ar proto
3477is either
3478.Dq tcp
3479or
3480.Dq udp .
3481.Pp
3482A range of port numbers may be specified as shown above.
3483The ranges must be of the same size.
3484.Pp
3485If
3486.Ar remoteIP
3487is specified, only data coming from that IP number is redirected.
3488.Ar remotePort
3489must either be
3490.Dq 0
3491(indicating any source port)
3492or a range of ports the same size as the other ranges.
3493.Pp
3494This option is useful if you wish to run things like Internet phone on
3495machines behind your gateway, but is limited in that connections to only
3496one interior machine per source machine and target port are possible.
3497.It nat proto Ar proto localIP Oo
3498.Ar publicIP Op Ar remoteIP
3499.Oc
3500This command tells
3501.Nm
3502to redirect packets of protocol type
3503.Ar proto
3504(see
3505.Xr protocols 5 )
3506to the internal address
3507.Ar localIP .
3508.Pp
3509If
3510.Ar publicIP
3511is specified, only packets destined for that address are matched,
3512otherwise the default alias address is used.
3513.Pp
3514If
3515.Ar remoteIP
3516is specified, only packets matching that source address are matched,
3517.Pp
3518This command is useful for redirecting tunnel endpoints to an internal machine,
3519for example:
3520.Pp
3521.Dl nat proto ipencap 10.0.0.1
3522.It "nat proxy cmd" Ar arg Ns No ...
3523This command tells
3524.Nm
3525to proxy certain connections, redirecting them to a given server.
3526Refer to the description of
3527.Fn PacketAliasProxyRule
3528in
3529.Xr libalias 3
3530for details of the available commands.
3531.It nat punch_fw Op Ar base count
3532This command tells
3533.Nm
3534to punch holes in the firewall for FTP or IRC DCC connections.
3535This is done dynamically by installing temporary firewall rules which
3536allow a particular connection (and only that connection) to go through
3537the firewall.
3538The rules are removed once the corresponding connection terminates.
3539.Pp
3540A maximum of
3541.Ar count
3542rules starting from rule number
3543.Ar base
3544will be used for punching firewall holes.
3545The range will be cleared when the
3546.Dq nat punch_fw
3547command is run.
3548.Pp
3549If no arguments are given, firewall punching is disabled.
3550.It nat skinny_port Op Ar port
3551This command tells
3552.Nm
3553which TCP port is used by the Skinny Station protocol.
3554Skinny is used by
3555Cisco IP phones to communicate with Cisco Call Managers to setup voice
3556over IP calls.
3557The typical port used by Skinny is 2000.
3558.Pp
3559If no argument is given, skinny aliasing is disabled.
3560.It nat same_ports yes|no
3561When enabled, this command will tell the network address translation engine to
3562attempt to avoid changing the port number on outgoing packets.
3563This is useful
3564if you want to support protocols such as RPC and LPD which require
3565connections to come from a well known port.
3566.It nat target Op Ar address
3567Set the given target address or clear it if no address is given.
3568The target address is used by libalias to specify how to NAT incoming packets
3569by default.
3570If a target address is not set or if
3571.Dq default
3572is given, packets are not altered and are allowed to route to the internal
3573network.
3574.Pp
3575The target address may be set to
3576.Dq MYADDR ,
3577in which case libalias will redirect all packets to the interface address.
3578.It nat use_sockets yes|no
3579When enabled, this option tells the network address translation engine to
3580create a socket so that it can guarantee a correct incoming ftp data or
3581IRC connection.
3582.It nat unregistered_only yes|no
3583Only alter outgoing packets with an unregistered source address.
3584According to RFC 1918, unregistered source addresses
3585are 10.0.0.0/8, 172.16.0.0/12 and 192.168.0.0/16.
3586.El
3587.Pp
3588These commands are also discussed in the file
3589.Pa README.nat
3590which comes with the source distribution.
3591.It Oo !\& Oc Ns Xo
3592.No bg Ar command
3593.Xc
3594The given
3595.Ar command
3596is executed in the background with the following words replaced:
3597.Bl -tag -width COMPILATIONDATE
3598.It Li AUTHNAME
3599This is replaced with the local
3600.Ar authname
3601value.
3602See the
3603.Dq set authname
3604command below.
3605.It Li COMPILATIONDATE
3606In previous software revisions, this was replaced with the date on which
3607.Nm
3608was compiled.
3609This is no longer supported as it breaks the ability to recompile the same
3610code to produce an exact duplicate of a previous compilation.
3611.It Li DNS0 & DNS1
3612These are replaced with the primary and secondary nameserver IP numbers.
3613If nameservers are negotiated by IPCP, the values of these macros will change.
3614.It Li ENDDISC
3615This is replaced with the local endpoint discriminator value.
3616See the
3617.Dq set enddisc
3618command below.
3619.It Li HISADDR
3620This is replaced with the peers IP number.
3621.It Li HISADDR6
3622This is replaced with the peers IPv6 number.
3623.It Li INTERFACE
3624This is replaced with the name of the interface that is in use.
3625.It Li IPOCTETSIN
3626This is replaced with the number of IP bytes received since the connection
3627was established.
3628.It Li IPOCTETSOUT
3629This is replaced with the number of IP bytes sent since the connection
3630was established.
3631.It Li IPPACKETSIN
3632This is replaced with the number of IP packets received since the connection
3633was established.
3634.It Li IPPACKETSOUT
3635This is replaced with the number of IP packets sent since the connection
3636was established.
3637.It Li IPV6OCTETSIN
3638This is replaced with the number of IPv6 bytes received since the connection
3639was established.
3640.It Li IPV6OCTETSOUT
3641This is replaced with the number of IPv6 bytes sent since the connection
3642was established.
3643.It Li IPV6PACKETSIN
3644This is replaced with the number of IPv6 packets received since the connection
3645was established.
3646.It Li IPV6PACKETSOUT
3647This is replaced with the number of IPv6 packets sent since the connection
3648was established.
3649.It Li LABEL
3650This is replaced with the last label name used.
3651A label may be specified on the
3652.Nm
3653command line, via the
3654.Dq load
3655or
3656.Dq dial
3657commands and in the
3658.Pa ppp.secret
3659file.
3660.It Li MYADDR
3661This is replaced with the IP number assigned to the local interface.
3662.It Li MYADDR6
3663This is replaced with the IPv6 number assigned to the local interface.
3664.It Li OCTETSIN
3665This is replaced with the number of bytes received since the connection
3666was established.
3667.It Li OCTETSOUT
3668This is replaced with the number of bytes sent since the connection
3669was established.
3670.It Li PACKETSIN
3671This is replaced with the number of packets received since the connection
3672was established.
3673.It Li PACKETSOUT
3674This is replaced with the number of packets sent since the connection
3675was established.
3676.It Li PEER_ENDDISC
3677This is replaced with the value of the peers endpoint discriminator.
3678.It Li PROCESSID
3679This is replaced with the current process id.
3680.It Li SOCKNAME
3681This is replaced with the name of the diagnostic socket.
3682.It Li UPTIME
3683This is replaced with the bundle uptime in HH:MM:SS format.
3684.It Li USER
3685This is replaced with the username that has been authenticated with PAP or
3686CHAP.
3687Normally, this variable is assigned only in -direct mode.
3688This value is available irrespective of whether utmp logging is enabled.
3689.It Li VERSION
3690This is replaced with the current version number of
3691.Nm .
3692.El
3693.Pp
3694These substitutions are also done by the
3695.Dq set proctitle ,
3696.Dq ident
3697and
3698.Dq log
3699commands.
3700.Pp
3701If you wish to pause
3702.Nm
3703while the command executes, use the
3704.Dq shell
3705command instead.
3706.It clear physical|ipcp|ipv6 Op current|overall|peak...
3707Clear the specified throughput values at either the
3708.Dq physical ,
3709.Dq ipcp
3710or
3711.Dq ipv6cp
3712level.
3713If
3714.Dq physical
3715is specified, context must be given (see the
3716.Dq link
3717command below).
3718If no second argument is given, all values are cleared.
3719.It clone Ar name Ns Xo
3720.Op \&, Ns Ar name Ns
3721.No ...
3722.Xc
3723Clone the specified link, creating one or more new links according to the
3724.Ar name
3725argument(s).
3726This command must be used from the
3727.Dq link
3728command below unless you have only got a single link (in which case that
3729link becomes the default).
3730Links may be removed using the
3731.Dq remove
3732command below.
3733.Pp
3734The default link name is
3735.Dq deflink .
3736.It close Op lcp|ccp Ns Op !\&
3737If no arguments are given, the relevant protocol layers will be brought
3738down and the link will be closed.
3739If
3740.Dq lcp
3741is specified, the LCP layer is brought down, but
3742.Nm
3743will not bring the link offline.
3744It is subsequently possible to use
3745.Dq term
3746(see below)
3747to talk to the peer machine if, for example, something like
3748.Dq slirp
3749is being used.
3750If
3751.Dq ccp
3752is specified, only the relevant compression layer is closed.
3753If the
3754.Dq !\&
3755is used, the compression layer will remain in the closed state, otherwise
3756it will re-enter the STOPPED state, waiting for the peer to initiate
3757further CCP negotiation.
3758In any event, this command does not disconnect the user from
3759.Nm
3760or exit
3761.Nm .
3762See the
3763.Dq quit
3764command below.
3765.It delete Ns Xo
3766.Op !\&
3767.Ar dest
3768.Xc
3769This command deletes the route with the given
3770.Ar dest
3771IP address.
3772If
3773.Ar dest
3774is specified as
3775.Sq ALL ,
3776all non-direct entries in the routing table for the current interface,
3777and all
3778.Sq sticky route
3779entries are deleted.
3780If
3781.Ar dest
3782is specified as
3783.Sq default ,
3784the default route is deleted.
3785.Pp
3786If the
3787.Ar delete!\&
3788command is used
3789(note the trailing
3790.Dq !\& ) ,
3791.Nm
3792will not complain if the route does not already exist.
3793.It dial|call Oo Ar label Oc Ns Xo
3794.No ...
3795.Xc
3796This command is the equivalent of
3797.Dq load label
3798followed by
3799.Dq open ,
3800and is provided for backwards compatibility.
3801.It down Op Ar lcp|ccp
3802Bring the relevant layer down ungracefully, as if the underlying layer
3803had become unavailable.
3804It is not considered polite to use this command on
3805a Finite State Machine that is in the OPEN state.
3806If no arguments are
3807supplied, the entire link is closed (or if no context is given, all links
3808are terminated).
3809If
3810.Sq lcp
3811is specified, the
3812.Em LCP
3813layer is terminated but the device is not brought offline and the link
3814is not closed.
3815If
3816.Sq ccp
3817is specified, only the relevant compression layer(s) are terminated.
3818.It help|? Op Ar command
3819Show a list of available commands.
3820If
3821.Ar command
3822is specified, show the usage string for that command.
3823.It ident Op Ar text Ns No ...
3824Identify the link to the peer using
3825.Ar text .
3826If
3827.Ar text
3828is empty, link identification is disabled.
3829It is possible to use any of the words described for the
3830.Ic bg
3831command above.
3832Refer to the
3833.Ic sendident
3834command for details of when
3835.Nm
3836identifies itself to the peer.
3837.It iface Ar command Op args
3838This command is used to control the interface used by
3839.Nm .
3840.Ar Command
3841may be one of the following:
3842.Bl -tag -width 2n
3843.It iface add Ns Xo
3844.Op !\&
3845.Ar addr Ns Op / Ns Ar bits
3846.Op Ar peer
3847.Xc
3848.It iface add Ns Xo
3849.Op !\&
3850.Ar addr
3851.Ar mask
3852.Ar peer
3853.Xc
3854Add the given
3855.Ar addr mask peer
3856combination to the interface.
3857Instead of specifying
3858.Ar mask ,
3859.Ar /bits
3860can be used
3861(with no space between it and
3862.Ar addr ) .
3863If the given address already exists, the command fails unless the
3864.Dq !\&
3865is used - in which case the previous interface address entry is overwritten
3866with the new one, allowing a change of netmask or peer address.
3867.Pp
3868If only
3869.Ar addr
3870is specified,
3871.Ar bits
3872defaults to
3873.Dq 32
3874and
3875.Ar peer
3876defaults to
3877.Dq 255.255.255.255 .
3878This address (the broadcast address) is the only duplicate peer address that
3879.Nm
3880allows.
3881.It iface clear Op INET | INET6
3882If this command is used while
3883.Nm
3884is in the OPENED state or while in
3885.Fl auto
3886mode, all addresses except for the NCP negotiated address are deleted
3887from the interface.
3888If
3889.Nm
3890is not in the OPENED state and is not in
3891.Fl auto
3892mode, all interface addresses are deleted.
3893.Pp
3894If the INET or INET6 arguments are used, only addresses for that address
3895family are cleared.
3896.It iface delete Ns Xo
3897.Op !\& Ns
3898.No |rm Ns Op !\&
3899.Ar addr
3900.Xc
3901This command deletes the given
3902.Ar addr
3903from the interface.
3904If the
3905.Dq !\&
3906is used, no error is given if the address is not currently assigned to
3907the interface (and no deletion takes place).
3908.It iface name Ar name
3909Renames the interface to
3910.Ar name .
3911.It iface description Ar description
3912Sets the interface description to
3913.Ar description .
3914Useful if you have many interfaces on your system.
3915.It iface show
3916Shows the current state and current addresses for the interface.
3917It is much the same as running
3918.Dq ifconfig INTERFACE .
3919.It iface help Op Ar sub-command
3920This command, when invoked without
3921.Ar sub-command ,
3922will show a list of possible
3923.Dq iface
3924sub-commands and a brief synopsis for each.
3925When invoked with
3926.Ar sub-command ,
3927only the synopsis for the given sub-command is shown.
3928.El
3929.It Oo data Oc Ns Xo
3930.No link
3931.Ar name Ns Oo , Ns Ar name Oc Ns ... Ar command Op Ar args
3932.Xc
3933This command may prefix any other command if the user wishes to
3934specify which link the command should affect.
3935This is only applicable after multiple links have been created in Multi-link
3936mode using the
3937.Dq clone
3938command.
3939.Pp
3940.Ar Name
3941specifies the name of an existing link.
3942If
3943.Ar name
3944is a comma separated list,
3945.Ar command
3946is executed on each link.
3947If
3948.Ar name
3949is
3950.Dq * ,
3951.Ar command
3952is executed on all links.
3953.It load Oo Ar label Oc Ns Xo
3954.No ...
3955.Xc
3956Load the given
3957.Ar label Ns No (s)
3958from the
3959.Pa ppp.conf
3960file.
3961If
3962.Ar label
3963is not given, the
3964.Ar default
3965label is used.
3966.Pp
3967Unless the
3968.Ar label
3969section uses the
3970.Dq set mode ,
3971.Dq open
3972or
3973.Dq dial
3974commands,
3975.Nm
3976will not attempt to make an immediate connection.
3977.It log Ar word Ns No ...
3978Send the given word(s) to the log file with the prefix
3979.Dq LOG: .
3980Word substitutions are done as explained under the
3981.Dq !bg
3982command above.
3983.It open Op lcp|ccp|ipcp
3984This is the opposite of the
3985.Dq close
3986command.
3987All closed links are immediately brought up apart from second and subsequent
3988.Ar demand-dial
3989links - these will come up based on the
3990.Dq set autoload
3991command that has been used.
3992.Pp
3993If the
3994.Dq lcp
3995argument is used while the LCP layer is already open, LCP will be
3996renegotiated.
3997This allows various LCP options to be changed, after which
3998.Dq open lcp
3999can be used to put them into effect.
4000After renegotiating LCP,
4001any agreed authentication will also take place.
4002.Pp
4003If the
4004.Dq ccp
4005argument is used, the relevant compression layer is opened.
4006Again, if it is already open, it will be renegotiated.
4007.Pp
4008If the
4009.Dq ipcp
4010argument is used, the link will be brought up as normal, but if
4011IPCP is already open, it will be renegotiated and the network
4012interface will be reconfigured.
4013.Pp
4014It is probably not good practice to re-open the PPP state machines
4015like this as it is possible that the peer will not behave correctly.
4016It
4017.Em is
4018however useful as a way of forcing the CCP or VJ dictionaries to be reset.
4019.It passwd Ar pass
4020Specify the password required for access to the full
4021.Nm
4022command set.
4023This password is required when connecting to the diagnostic port (see the
4024.Dq set server
4025command).
4026.Ar Pass
4027is specified on the
4028.Dq set server
4029command line.
4030The value of
4031.Ar pass
4032is not logged when
4033.Ar command
4034logging is active, instead, the literal string
4035.Sq ********
4036is logged.
4037.It quit|bye Op all
4038If
4039.Dq quit
4040is executed from the controlling connection or from a command file,
4041ppp will exit after closing all connections.
4042Otherwise, if the user
4043is connected to a diagnostic socket, the connection is simply dropped.
4044.Pp
4045If the
4046.Ar all
4047argument is given,
4048.Nm
4049will exit despite the source of the command after closing all existing
4050connections.
4051.It remove|rm
4052This command removes the given link.
4053It is only really useful in multi-link mode.
4054A link must be in the
4055.Dv CLOSED
4056state before it is removed.
4057.It rename|mv Ar name
4058This command renames the given link to
4059.Ar name .
4060It will fail if
4061.Ar name
4062is already used by another link.
4063.Pp
4064The default link name is
4065.Sq deflink .
4066Renaming it to
4067.Sq modem ,
4068.Sq cuau0
4069or
4070.Sq USR
4071may make the log file more readable.
4072.It resolv Ar command
4073This command controls
4074.Nm Ns No 's
4075manipulation of the
4076.Xr resolv.conf 5
4077file.
4078When
4079.Nm
4080starts up, it loads the contents of this file into memory and retains this
4081image for future use.
4082.Ar command
4083is one of the following:
4084.Bl -tag -width readonly
4085.It Em readonly
4086Treat
4087.Pa /etc/resolv.conf
4088as read only.
4089If
4090.Dq dns
4091is enabled,
4092.Nm
4093will still attempt to negotiate nameservers with the peer, making the results
4094available via the
4095.Dv DNS0
4096and
4097.Dv DNS1
4098macros.
4099This is the opposite of the
4100.Dq resolv writable
4101command.
4102.It Em reload
4103Reload
4104.Pa /etc/resolv.conf
4105into memory.
4106This may be necessary if for example a DHCP client overwrote
4107.Pa /etc/resolv.conf .
4108.It Em restore
4109Replace
4110.Pa /etc/resolv.conf
4111with the version originally read at startup or with the last
4112.Dq resolv reload
4113command.
4114This is sometimes a useful command to put in the
4115.Pa /etc/ppp/ppp.linkdown
4116file.
4117.It Em rewrite
4118Rewrite the
4119.Pa /etc/resolv.conf
4120file.
4121This command will work even if the
4122.Dq resolv readonly
4123command has been used.
4124It may be useful as a command in the
4125.Pa /etc/ppp/ppp.linkup
4126file if you wish to defer updating
4127.Pa /etc/resolv.conf
4128until after other commands have finished.
4129.It Em writable
4130Allow
4131.Nm
4132to update
4133.Pa /etc/resolv.conf
4134if
4135.Dq dns
4136is enabled and
4137.Nm
4138successfully negotiates a DNS.
4139This is the opposite of the
4140.Dq resolv readonly
4141command.
4142.El
4143.It save
4144This option is not (yet) implemented.
4145.It sendident
4146This command tells
4147.Nm
4148to identify itself to the peer.
4149The link must be in LCP state or higher.
4150If no identity has been set (via the
4151.Ic ident
4152command),
4153.Ic sendident
4154will fail.
4155.Pp
4156When an identity has been set,
4157.Nm
4158will automatically identify itself when it sends or receives a configure
4159reject, when negotiation fails or when LCP reaches the opened state.
4160.Pp
4161Received identification packets are logged to the LCP log (see
4162.Ic set log
4163for details) and are never responded to.
4164.It set Ns Xo
4165.Op up
4166.Ar var value
4167.Xc
4168This option allows the setting of any of the following variables:
4169.Bl -tag -width 2n
4170.It set accmap Ar hex-value
4171ACCMap stands for Asynchronous Control Character Map.
4172This is always
4173negotiated with the peer, and defaults to a value of 00000000 in hex.
4174This protocol is required to defeat hardware that depends on passing
4175certain characters from end to end (such as XON/XOFF etc).
4176.Pp
4177For the XON/XOFF scenario, use
4178.Dq set accmap 000a0000 .
4179.It set Oo auth Oc Ns Xo
4180.No key Ar value
4181.Xc
4182This sets the authentication key (or password) used in client mode
4183PAP or CHAP negotiation to the given value.
4184It also specifies the
4185password to be used in the dial or login scripts in place of the
4186.Sq \eP
4187sequence, preventing the actual password from being logged.
4188If
4189.Ar command
4190or
4191.Ar chat
4192logging is in effect,
4193.Ar value
4194is logged as
4195.Sq ********
4196for security reasons.
4197.Pp
4198If the first character of
4199.Ar value
4200is an exclamation mark
4201.Pq Dq !\& ,
4202.Nm
4203treats the remainder of the string as a program that must be executed
4204to determine the
4205.Dq authname
4206and
4207.Dq authkey
4208values.
4209.Pp
4210If the
4211.Dq !\&
4212is doubled up
4213(to
4214.Dq !! ) ,
4215it is treated as a single literal
4216.Dq !\& ,
4217otherwise, ignoring the
4218.Dq !\& ,
4219.Ar value
4220is parsed as a program to execute in the same was as the
4221.Dq !bg
4222command above, substituting special names in the same manner.
4223Once executed,
4224.Nm
4225will feed the program three lines of input, each terminated by a newline
4226character:
4227.Bl -bullet
4228.It
4229The host name as sent in the CHAP challenge.
4230.It
4231The challenge string as sent in the CHAP challenge.
4232.It
4233The locally defined
4234.Dq authname .
4235.El
4236.Pp
4237Two lines of output are expected:
4238.Bl -bullet
4239.It
4240The
4241.Dq authname
4242to be sent with the CHAP response.
4243.It
4244The
4245.Dq authkey ,
4246which is encrypted with the challenge and request id, the answer being sent
4247in the CHAP response packet.
4248.El
4249.Pp
4250When configuring
4251.Nm
4252in this manner, it is expected that the host challenge is a series of ASCII
4253digits or characters.
4254An encryption device or Secure ID card is usually
4255required to calculate the secret appropriate for the given challenge.
4256.It set authname Ar id
4257This sets the authentication id used in client mode PAP or CHAP negotiation.
4258.Pp
4259If used in
4260.Fl direct
4261mode with CHAP enabled,
4262.Ar id
4263is used in the initial authentication challenge and should normally be set to
4264the local machine name.
4265.It set autoload Xo
4266.Ar min-percent max-percent period
4267.Xc
4268These settings apply only in multi-link mode and default to zero, zero and
4269five respectively.
4270When more than one
4271.Ar demand-dial
4272(also known as
4273.Fl auto )
4274mode link is available, only the first link is made active when
4275.Nm
4276first reads data from the tun device.
4277The next
4278.Ar demand-dial
4279link will be opened only when the current bundle throughput is at least
4280.Ar max-percent
4281percent of the total bundle bandwidth for
4282.Ar period
4283seconds.
4284When the current bundle throughput decreases to
4285.Ar min-percent
4286percent or less of the total bundle bandwidth for
4287.Ar period
4288seconds, a
4289.Ar demand-dial
4290link will be brought down as long as it is not the last active link.
4291.Pp
4292Bundle throughput is measured as the maximum of inbound and outbound
4293traffic.
4294.Pp
4295The default values cause
4296.Ar demand-dial
4297links to simply come up one at a time.
4298.Pp
4299Certain devices cannot determine their physical bandwidth, so it
4300is sometimes necessary to use the
4301.Dq set bandwidth
4302command (described below) to make
4303.Dq set autoload
4304work correctly.
4305.It set bandwidth Ar value
4306This command sets the connection bandwidth in bits per second.
4307.Ar value
4308must be greater than zero.
4309It is currently only used by the
4310.Dq set autoload
4311command above.
4312.It set callback Ar option Ns No ...
4313If no arguments are given, callback is disabled, otherwise,
4314.Nm
4315will request (or in
4316.Fl direct
4317mode, will accept) one of the given
4318.Ar option Ns No s .
4319In client mode, if an
4320.Ar option
4321is NAK'd
4322.Nm
4323will request a different
4324.Ar option ,
4325until no options remain at which point
4326.Nm
4327will terminate negotiations (unless
4328.Dq none
4329is one of the specified
4330.Ar option ) .
4331In server mode,
4332.Nm
4333will accept any of the given protocols - but the client
4334.Em must
4335request one of them.
4336If you wish callback to be optional, you must {include}
4337.Ar none
4338as an option.
4339.Pp
4340The
4341.Ar option Ns No s
4342are as follows (in this order of preference):
4343.Bl -tag -width Ds
4344.It auth
4345The callee is expected to decide the callback number based on
4346authentication.
4347If
4348.Nm
4349is the callee, the number should be specified as the fifth field of
4350the peers entry in
4351.Pa /etc/ppp/ppp.secret .
4352.It cbcp
4353Microsoft's callback control protocol is used.
4354See
4355.Dq set cbcp
4356below.
4357.Pp
4358If you wish to negotiate
4359.Ar cbcp
4360in client mode but also wish to allow the server to request no callback at
4361CBCP negotiation time, you must specify both
4362.Ar cbcp
4363and
4364.Ar none
4365as callback options.
4366.It E.164 *| Ns Xo
4367.Ar number Ns Op , Ns Ar number Ns
4368.No ...
4369.Xc
4370The caller specifies the
4371.Ar number .
4372If
4373.Nm
4374is the callee,
4375.Ar number
4376should be either a comma separated list of allowable numbers or a
4377.Dq \&* ,
4378meaning any number is permitted.
4379If
4380.Nm
4381is the caller, only a single number should be specified.
4382.Pp
4383Note, this option is very unsafe when used with a
4384.Dq \&*
4385as a malicious caller can tell
4386.Nm
4387to call any (possibly international) number without first authenticating
4388themselves.
4389.It none
4390If the peer does not wish to do callback at all,
4391.Nm
4392will accept the fact and continue without callback rather than terminating
4393the connection.
4394This is required (in addition to one or more other callback
4395options) if you wish callback to be optional.
4396.El
4397.It set cbcp Oo
4398.No *| Ns Ar number Ns Oo
4399.No , Ns Ar number Ns ...\& Oc
4400.Op Ar delay Op Ar retry
4401.Oc
4402If no arguments are given, CBCP (Microsoft's CallBack Control Protocol)
4403is disabled - ie, configuring CBCP in the
4404.Dq set callback
4405command will result in
4406.Nm
4407requesting no callback in the CBCP phase.
4408Otherwise,
4409.Nm
4410attempts to use the given phone
4411.Ar number Ns No (s).
4412.Pp
4413In server mode
4414.Pq Fl direct ,
4415.Nm
4416will insist that the client uses one of these numbers, unless
4417.Dq \&*
4418is used in which case the client is expected to specify the number.
4419.Pp
4420In client mode,
4421.Nm
4422will attempt to use one of the given numbers (whichever it finds to
4423be agreeable with the peer), or if
4424.Dq \&*
4425is specified,
4426.Nm
4427will expect the peer to specify the number.
4428.It set cd Oo
4429.No off| Ns Ar seconds Ns Op !\&
4430.Oc
4431Normally,
4432.Nm
4433checks for the existence of carrier depending on the type of device
4434that has been opened:
4435.Bl -tag -width XXX -offset XXX
4436.It Terminal Devices
4437Carrier is checked one second after the login script is complete.
4438If it is not set,
4439.Nm
4440assumes that this is because the device does not support carrier (which
4441is true for most
4442.Dq laplink
4443NULL-modem cables), logs the fact and stops checking
4444for carrier.
4445.Pp
4446As ptys do not support the TIOCMGET ioctl, the tty device will switch all
4447carrier detection off when it detects that the device is a pty.
4448.It PPPoE (netgraph) Devices
4449Carrier is checked once per second for 5 seconds.
4450If it is not set after
4451the fifth second, the connection attempt is considered to have failed and
4452the device is closed.
4453Carrier is always required for PPPoE devices.
4454.El
4455.Pp
4456All other device types do not support carrier.
4457Setting a carrier value will
4458result in a warning when the device is opened.
4459.Pp
4460Some modems take more than one second after connecting to assert the carrier
4461signal.
4462If this delay is not increased, this will result in
4463.Nm Ns No 's
4464inability to detect when the link is dropped, as
4465.Nm
4466assumes that the device is not asserting carrier.
4467.Pp
4468The
4469.Dq set cd
4470command overrides the default carrier behaviour.
4471.Ar seconds
4472specifies the maximum number of seconds that
4473.Nm
4474should wait after the dial script has finished before deciding if
4475carrier is available or not.
4476.Pp
4477If
4478.Dq off
4479is specified,
4480.Nm
4481will not check for carrier on the device, otherwise
4482.Nm
4483will not proceed to the login script until either carrier is detected
4484or until
4485.Ar seconds
4486has elapsed, at which point
4487.Nm
4488assumes that the device will not set carrier.
4489.Pp
4490If no arguments are given, carrier settings will go back to their default
4491values.
4492.Pp
4493If
4494.Ar seconds
4495is followed immediately by an exclamation mark
4496.Pq Dq !\& ,
4497.Nm
4498will
4499.Em require
4500carrier.
4501If carrier is not detected after
4502.Ar seconds
4503seconds, the link will be disconnected.
4504.It set choked Op Ar timeout
4505This sets the number of seconds that
4506.Nm
4507will keep a choked output queue before dropping all pending output packets.
4508If
4509.Ar timeout
4510is less than or equal to zero or if
4511.Ar timeout
4512is not specified, it is set to the default value of
4513.Em 120 seconds .
4514.Pp
4515A choked output queue occurs when
4516.Nm
4517has read a certain number of packets from the local network for transmission,
4518but cannot send the data due to link failure (the peer is busy etc.).
4519.Nm
4520will not read packets indefinitely.
4521Instead, it reads up to
4522.Em 30
4523packets (or
4524.Em 30 No +
4525.Em nlinks No *
4526.Em 2
4527packets in multi-link mode), then stops reading the network interface
4528until either
4529.Ar timeout
4530seconds have passed or at least one packet has been sent.
4531.Pp
4532If
4533.Ar timeout
4534seconds pass, all pending output packets are dropped.
4535.It set ctsrts|crtscts on|off
4536This sets hardware flow control.
4537Hardware flow control is
4538.Ar on
4539by default.
4540.It set deflate Ar out-winsize Op Ar in-winsize
4541This sets the DEFLATE algorithms default outgoing and incoming window
4542sizes.
4543Both
4544.Ar out-winsize
4545and
4546.Ar in-winsize
4547must be values between
4548.Em 8
4549and
4550.Em 15 .
4551If
4552.Ar in-winsize
4553is specified,
4554.Nm
4555will insist that this window size is used and will not accept any other
4556values from the peer.
4557.It set dns Op Ar primary Op Ar secondary
4558This command specifies DNS overrides for the
4559.Dq accept dns
4560command.
4561Refer to the
4562.Dq accept
4563command description above for details.
4564This command does not affect the IP numbers requested using
4565.Dq enable dns .
4566.It set device|line Xo
4567.Ar value Ns No ...
4568.Xc
4569This sets the device(s) to which
4570.Nm
4571will talk to the given
4572.Dq value .
4573.Pp
4574All serial device names are expected to begin with
4575.Pa /dev/ .
4576Serial devices are usually called
4577.Pa cuaXX .
4578.Pp
4579If
4580.Dq value
4581does not begin with
4582.Pa /dev/ ,
4583it must either begin with an exclamation mark
4584.Pq Dq !\& ,
4585be of the format
4586.No PPPoE: Ns Ar iface Ns Xo
4587.Op \&: Ns Ar provider Ns
4588.Xc
4589(on
4590.Xr netgraph 4
4591enabled systems), or be of the format
4592.Sm off
4593.Ar host : port Op /tcp|udp .
4594.Sm on
4595.Pp
4596If it begins with an exclamation mark, the rest of the device name is
4597treated as a program name, and that program is executed when the device
4598is opened.
4599Standard input, output and error are fed back to
4600.Nm
4601and are read and written as if they were a regular device.
4602.Pp
4603If a
4604.No PPPoE: Ns Ar iface Ns Xo
4605.Op \&: Ns Ar provider Ns
4606.Xc
4607specification is given,
4608.Nm
4609will attempt to create a
4610.Em PPP
4611over Ethernet connection using the given
4612.Ar iface
4613interface by using
4614.Xr netgraph 4 .
4615If
4616.Xr netgraph 4
4617is not available,
4618.Nm
4619will attempt to load it using
4620.Xr kldload 2 .
4621If this fails, an external program must be used such as the
4622.Xr pppoed 8
4623program available under
4624.Ox .
4625The given
4626.Ar provider
4627is passed as the service name in the PPPoE Discovery Initiation (PADI)
4628packet.
4629If no provider is given, an empty value will be used.
4630.Pp
4631When a PPPoE connection is established,
4632.Nm
4633will place the name of the Access Concentrator in the environment variable
4634.Ev ACNAME .
4635.Pp
4636Refer to
4637.Xr netgraph 4
4638and
4639.Xr ng_pppoe 4
4640for further details.
4641.Pp
4642If a
4643.Ar host Ns No : Ns Ar port Ns Oo
4644.No /tcp|udp
4645.Oc
4646specification is given,
4647.Nm
4648will attempt to connect to the given
4649.Ar host
4650on the given
4651.Ar port .
4652If a
4653.Dq /tcp
4654or
4655.Dq /udp
4656suffix is not provided, the default is
4657.Dq /tcp .
4658Refer to the section on
4659.Em PPP OVER TCP and UDP
4660above for further details.
4661.Pp
4662If multiple
4663.Dq values
4664are specified,
4665.Nm
4666will attempt to open each one in turn until it succeeds or runs out of
4667devices.
4668.It set dial Ar chat-script
4669This specifies the chat script that will be used to dial the other
4670side.
4671See also the
4672.Dq set login
4673command below.
4674Refer to
4675.Xr chat 8
4676and to the example configuration files for details of the chat script
4677format.
4678It is possible to specify some special
4679.Sq values
4680in your chat script as follows:
4681.Bl -tag -width 2n
4682.It Li \ec
4683When used as the last character in a
4684.Sq send
4685string, this indicates that a newline should not be appended.
4686.It Li \ed
4687When the chat script encounters this sequence, it delays two seconds.
4688.It Li \ep
4689When the chat script encounters this sequence, it delays for one quarter of
4690a second.
4691.It Li \en
4692This is replaced with a newline character.
4693.It Li \er
4694This is replaced with a carriage return character.
4695.It Li \es
4696This is replaced with a space character.
4697.It Li \et
4698This is replaced with a tab character.
4699.It Li \eT
4700This is replaced by the current phone number (see
4701.Dq set phone
4702below).
4703.It Li \eP
4704This is replaced by the current
4705.Ar authkey
4706value (see
4707.Dq set authkey
4708above).
4709.It Li \eU
4710This is replaced by the current
4711.Ar authname
4712value (see
4713.Dq set authname
4714above).
4715.El
4716.Pp
4717Note that two parsers will examine these escape sequences, so in order to
4718have the
4719.Sq chat parser
4720see the escape character, it is necessary to escape it from the
4721.Sq command parser .
4722This means that in practice you should use two escapes, for example:
4723.Bd -literal -offset indent
4724set dial "... ATDT\\\\T CONNECT"
4725.Ed
4726.Pp
4727It is also possible to execute external commands from the chat script.
4728To do this, the first character of the expect or send string is an
4729exclamation mark
4730.Pq Dq !\& .
4731If a literal exclamation mark is required, double it up to
4732.Dq !!\&
4733and it will be treated as a single literal
4734.Dq !\& .
4735When the command is executed, standard input and standard output are
4736directed to the open device (see the
4737.Dq set device
4738command), and standard error is read by
4739.Nm
4740and substituted as the expect or send string.
4741If
4742.Nm
4743is running in interactive mode, file descriptor 3 is attached to
4744.Pa /dev/tty .
4745.Pp
4746For example (wrapped for readability):
4747.Bd -literal -offset indent
4748set login "TIMEOUT 5 \\"\\" \\"\\" login:--login: ppp \e
4749word: ppp \\"!sh \\\\-c \\\\\\"echo \\\\-n label: >&2\\\\\\"\\" \e
4750\\"!/bin/echo in\\" HELLO"
4751.Ed
4752.Pp
4753would result in the following chat sequence (output using the
4754.Sq set log local chat
4755command before dialing):
4756.Bd -literal -offset indent
4757Dial attempt 1 of 1
4758dial OK!
4759Chat: Expecting:
4760Chat: Sending:
4761Chat: Expecting: login:--login:
4762Chat: Wait for (5): login:
4763Chat: Sending: ppp
4764Chat: Expecting: word:
4765Chat: Wait for (5): word:
4766Chat: Sending: ppp
4767Chat: Expecting: !sh \\-c "echo \\-n label: >&2"
4768Chat: Exec: sh -c "echo -n label: >&2"
4769Chat: Wait for (5): !sh \\-c "echo \\-n label: >&2" --> label:
4770Chat: Exec: /bin/echo in
4771Chat: Sending:
4772Chat: Expecting: HELLO
4773Chat: Wait for (5): HELLO
4774login OK!
4775.Ed
4776.Pp
4777Note (again) the use of the escape character, allowing many levels of
4778nesting.
4779Here, there are four parsers at work.
4780The first parses the original line, reading it as three arguments.
4781The second parses the third argument, reading it as 11 arguments.
4782At this point, it is
4783important that the
4784.Dq \&-
4785signs are escaped, otherwise this parser will see them as constituting
4786an expect-send-expect sequence.
4787When the
4788.Dq !\&
4789character is seen, the execution parser reads the first command as three
4790arguments, and then
4791.Xr sh 1
4792itself expands the argument after the
4793.Fl c .
4794As we wish to send the output back to the modem, in the first example
4795we redirect our output to file descriptor 2 (stderr) so that
4796.Nm
4797itself sends and logs it, and in the second example, we just output to stdout,
4798which is attached directly to the modem.
4799.Pp
4800This, of course means that it is possible to execute an entirely external
4801.Dq chat
4802command rather than using the internal one.
4803See
4804.Xr chat 8
4805for a good alternative.
4806.Pp
4807The external command that is executed is subjected to the same special
4808word expansions as the
4809.Dq !bg
4810command.
4811.It set enddisc Op label|IP|MAC|magic|psn value
4812This command sets our local endpoint discriminator.
4813If set prior to LCP negotiation, and if no
4814.Dq disable enddisc
4815command has been used,
4816.Nm
4817will send the information to the peer using the LCP endpoint discriminator
4818option.
4819The following discriminators may be set:
4820.Bl -tag -width indent
4821.It Li label
4822The current label is used.
4823.It Li IP
4824Our local IP number is used.
4825As LCP is negotiated prior to IPCP, it is
4826possible that the IPCP layer will subsequently change this value.
4827If
4828it does, the endpoint discriminator stays at the old value unless manually
4829reset.
4830.It Li MAC
4831This is similar to the
4832.Ar IP
4833option above, except that the MAC address associated with the local IP
4834number is used.
4835If the local IP number is not resident on any Ethernet
4836interface, the command will fail.
4837.Pp
4838As the local IP number defaults to whatever the machine host name is,
4839.Dq set enddisc mac
4840is usually done prior to any
4841.Dq set ifaddr
4842commands.
4843.It Li magic
4844A 20 digit random number is used.
4845Care should be taken when using magic numbers as restarting
4846.Nm
4847or creating a link using a different
4848.Nm
4849invocation will also use a different magic number and will therefore not
4850be recognised by the peer as belonging to the same bundle.
4851This makes it unsuitable for
4852.Fl direct
4853connections.
4854.It Li psn Ar value
4855The given
4856.Ar value
4857is used.
4858.Ar Value
4859should be set to an absolute public switched network number with the
4860country code first.
4861.El
4862.Pp
4863If no arguments are given, the endpoint discriminator is reset.
4864.It set escape Ar value...
4865This option is similar to the
4866.Dq set accmap
4867option above.
4868It allows the user to specify a set of characters that will be
4869.Sq escaped
4870as they travel across the link.
4871.It set filter dial|alive|in|out Ar rule-no Xo
4872.No permit|deny|clear| Ns Ar rule-no
4873.Op !\&
4874.Oo Op host
4875.Ar src_addr Ns Op / Ns Ar width
4876.Op Ar dst_addr Ns Op / Ns Ar width
4877.Oc [ Ns Ar proto
4878.Op src lt|eq|gt Ar port
4879.Op dst lt|eq|gt Ar port
4880.Op estab
4881.Op syn
4882.Op finrst
4883.Op timeout Ar secs ]
4884.Xc
4885.Nm
4886supports four filter sets.
4887The
4888.Em alive
4889filter specifies packets that keep the connection alive - resetting the
4890idle timer.
4891The
4892.Em dial
4893filter specifies packets that cause
4894.Nm
4895to dial when in
4896.Fl auto
4897mode.
4898The
4899.Em in
4900filter specifies packets that are allowed to travel
4901into the machine and the
4902.Em out
4903filter specifies packets that are allowed out of the machine.
4904.Pp
4905Filtering is done prior to any IP alterations that might be done by the
4906NAT engine on outgoing packets and after any IP alterations that might
4907be done by the NAT engine on incoming packets.
4908By default all empty filter sets allow all packets to pass.
4909Rules are processed in order according to
4910.Ar rule-no
4911(unless skipped by specifying a rule number as the
4912.Ar action ) .
4913Up to 40 rules may be given for each set.
4914If a packet does not match
4915any of the rules in a given set, it is discarded.
4916In the case of
4917.Em in
4918and
4919.Em out
4920filters, this means that the packet is dropped.
4921In the case of
4922.Em alive
4923filters it means that the packet will not reset the idle timer (even if
4924the
4925.Ar in Ns No / Ns Ar out
4926filter has a
4927.Dq timeout
4928value) and in the case of
4929.Em dial
4930filters it means that the packet will not trigger a dial.
4931A packet failing to trigger a dial will be dropped rather than queued.
4932Refer to the
4933section on
4934.Sx PACKET FILTERING
4935above for further details.
4936.It set hangup Ar chat-script
4937This specifies the chat script that will be used to reset the device
4938before it is closed.
4939It should not normally be necessary, but can
4940be used for devices that fail to reset themselves properly on close.
4941.It set help|? Op Ar command
4942This command gives a summary of available set commands, or if
4943.Ar command
4944is specified, the command usage is shown.
4945.It set ifaddr Oo Ar myaddr Ns
4946.Op / Ns Ar \&nn
4947.Oo Ar hisaddr Ns Op / Ns Ar \&nn
4948.Oo Ar netmask
4949.Op Ar triggeraddr
4950.Oc Oc
4951.Oc
4952This command specifies the IP addresses that will be used during
4953IPCP negotiation.
4954Addresses are specified using the format
4955.Pp
4956.Dl a.b.c.d/nn
4957.Pp
4958Where
4959.Dq a.b.c.d
4960is the preferred IP, but
4961.Ar nn
4962specifies how many bits of the address we will insist on.
4963If
4964.No / Ns Ar nn
4965is omitted, it defaults to
4966.Dq /32
4967unless the IP address is 0.0.0.0 in which case it defaults to
4968.Dq /0 .
4969.Pp
4970If you wish to assign a dynamic IP number to the peer,
4971.Ar hisaddr
4972may also be specified as a range of IP numbers in the format
4973.Bd -ragged -offset indent
4974.Ar \&IP Ns Oo \&- Ns Ar \&IP Ns Oc Ns Oo , Ns Ar \&IP Ns
4975.Oo \&- Ns Ar \&IP Ns Oc Oc Ns ...
4976.Ed
4977.Pp
4978for example:
4979.Pp
4980.Dl set ifaddr 10.0.0.1 10.0.1.2-10.0.1.10,10.0.1.20
4981.Pp
4982will only negotiate
4983.Dq 10.0.0.1
4984as the local IP number, but may assign any of the given 10 IP
4985numbers to the peer.
4986If the peer requests one of these numbers,
4987and that number is not already in use,
4988.Nm
4989will grant the peers request.
4990This is useful if the peer wants
4991to re-establish a link using the same IP number as was previously
4992allocated (thus maintaining any existing tcp or udp connections).
4993.Pp
4994If the peer requests an IP number that is either outside
4995of this range or is already in use,
4996.Nm
4997will suggest a random unused IP number from the range.
4998.Pp
4999If
5000.Ar triggeraddr
5001is specified, it is used in place of
5002.Ar myaddr
5003in the initial IPCP negotiation.
5004However, only an address in the
5005.Ar myaddr
5006range will be accepted.
5007This is useful when negotiating with some
5008.Dv PPP
5009implementations that will not assign an IP number unless their peer
5010requests
5011.Dq 0.0.0.0 .
5012.Pp
5013It should be noted that in
5014.Fl auto
5015mode,
5016.Nm
5017will configure the interface immediately upon reading the
5018.Dq set ifaddr
5019line in the config file.
5020In any other mode, these values are just
5021used for IPCP negotiations, and the interface is not configured
5022until the IPCP layer is up.
5023.Pp
5024Note that the
5025.Ar HISADDR
5026argument may be overridden by the third field in the
5027.Pa ppp.secret
5028file once the client has authenticated itself
5029(if PAP or CHAP are
5030.Dq enabled ) .
5031Refer to the
5032.Sx AUTHENTICATING INCOMING CONNECTIONS
5033section for details.
5034.Pp
5035In all cases, if the interface is already configured,
5036.Nm
5037will try to maintain the interface IP numbers so that any existing
5038bound sockets will remain valid.
5039.It set ifqueue Ar packets
5040Set the maximum number of packets that
5041.Nm
5042will read from the tunnel interface while data cannot be sent to any of
5043the available links.
5044This queue limit is necessary to flow control outgoing data as the tunnel
5045interface is likely to be far faster than the combined links available to
5046.Nm .
5047.Pp
5048If
5049.Ar packets
5050is set to a value less than the number of links,
5051.Nm
5052will read up to that value regardless.
5053This prevents any possible latency problems.
5054.Pp
5055The default value for
5056.Ar packets
5057is
5058.Dq 30 .
5059.It set ccpretry|ccpretries Oo Ar timeout
5060.Op Ar reqtries Op Ar trmtries
5061.Oc
5062.It set chapretry|chapretries Oo Ar timeout
5063.Op Ar reqtries
5064.Oc
5065.It set ipcpretry|ipcpretries Oo Ar timeout
5066.Op Ar reqtries Op Ar trmtries
5067.Oc
5068.It set ipv6cpretry|ipv6cpretries Oo Ar timeout
5069.Op Ar reqtries Op Ar trmtries
5070.Oc
5071.It set lcpretry|lcpretries Oo Ar timeout
5072.Op Ar reqtries Op Ar trmtries
5073.Oc
5074.It set papretry|papretries Oo Ar timeout
5075.Op Ar reqtries
5076.Oc
5077These commands set the number of seconds that
5078.Nm
5079will wait before resending Finite State Machine (FSM) Request packets.
5080The default
5081.Ar timeout
5082for all FSMs is 3 seconds (which should suffice in most cases).
5083.Pp
5084If
5085.Ar reqtries
5086is specified, it tells
5087.Nm
5088how many configuration request attempts it should make while receiving
5089no reply from the peer before giving up.
5090The default is 5 attempts for
5091CCP, LCP and IPCP and 3 attempts for PAP and CHAP.
5092.Pp
5093If
5094.Ar trmtries
5095is specified, it tells
5096.Nm
5097how many terminate requests should be sent before giving up waiting for the
5098peers response.
5099The default is 3 attempts.
5100Authentication protocols are
5101not terminated and it is therefore invalid to specify
5102.Ar trmtries
5103for PAP or CHAP.
5104.Pp
5105In order to avoid negotiations with the peer that will never converge,
5106.Nm
5107will only send at most 3 times the configured number of
5108.Ar reqtries
5109in any given negotiation session before giving up and closing that layer.
5110.It set log Xo
5111.Op local
5112.Op +|- Ns
5113.Ar value Ns No ...
5114.Xc
5115This command allows the adjustment of the current log level.
5116Refer to the Logging Facility section for further details.
5117.It set login Ar chat-script
5118This
5119.Ar chat-script
5120compliments the dial-script.
5121If both are specified, the login
5122script will be executed after the dial script.
5123Escape sequences available in the dial script are also available here.
5124.It set logout Ar chat-script
5125This specifies the chat script that will be used to logout
5126before the hangup script is called.
5127It should not normally be necessary.
5128.It set lqrperiod|echoperiod Ar frequency
5129This command sets the
5130.Ar frequency
5131in seconds at which
5132.Em LQR
5133or
5134.Em LCP ECHO
5135packets are sent.
5136The default is 30 seconds.
5137You must also use the
5138.Dq enable lqr
5139and/or
5140.Dq enable echo
5141commands if you wish to send
5142.Em LQR
5143or
5144.Em LCP ECHO
5145requests to the peer.
5146.It set mode Ar interactive|auto|ddial|background
5147This command allows you to change the
5148.Sq mode
5149of the specified link.
5150This is normally only useful in multi-link mode,
5151but may also be used in uni-link mode.
5152.Pp
5153It is not possible to change a link that is
5154.Sq direct
5155or
5156.Sq dedicated .
5157.Pp
5158Note: If you issue the command
5159.Dq set mode auto ,
5160and have network address translation enabled, it may be useful to
5161.Dq enable iface-alias
5162afterwards.
5163This will allow
5164.Nm
5165to do the necessary address translations to enable the process that
5166triggers the connection to connect once the link is up despite the
5167peer assigning us a new (dynamic) IP address.
5168.It set mppe Op 40|56|128|* Op stateless|stateful|*
5169This option selects the encryption parameters used when negotiation
5170MPPE.
5171MPPE can be disabled entirely with the
5172.Dq disable mppe
5173command.
5174If no arguments are given,
5175.Nm
5176will attempt to negotiate a stateful link with a 128 bit key, but
5177will agree to whatever the peer requests (including no encryption
5178at all).
5179.Pp
5180If any arguments are given,
5181.Nm
5182will
5183.Em insist
5184on using MPPE and will close the link if it is rejected by the peer (Note;
5185this behaviour can be overridden by a configured RADIUS server).
5186.Pp
5187The first argument specifies the number of bits that
5188.Nm
5189should insist on during negotiations and the second specifies whether
5190.Nm
5191should insist on stateful or stateless mode.
5192In stateless mode, the
5193encryption dictionary is re-initialised with every packet according to
5194an encryption key that is changed with every packet.
5195In stateful mode,
5196the encryption dictionary is re-initialised every 256 packets or after
5197the loss of any data and the key is changed every 256 packets.
5198Stateless mode is less efficient but is better for unreliable transport
5199layers.
5200.It set mrru Op Ar value
5201Setting this option enables Multi-link PPP negotiations, also known as
5202Multi-link Protocol or MP.
5203There is no default MRRU (Maximum Reconstructed Receive Unit) value.
5204If no argument is given, multi-link mode is disabled.
5205.It set mru Xo
5206.Op max Ns Op imum
5207.Op Ar value
5208.Xc
5209The default MRU (Maximum Receive Unit) is 1500.
5210If it is increased, the other side *may* increase its MTU.
5211In theory there is no point in decreasing the MRU to below the default as the
5212.Em PPP
5213protocol says implementations *must* be able to accept packets of at
5214least 1500 octets.
5215.Pp
5216If the
5217.Dq maximum
5218keyword is used,
5219.Nm
5220will refuse to negotiate a higher value.
5221The maximum MRU can be set to 2048 at most.
5222Setting a maximum of less than 1500 violates the
5223.Em PPP
5224rfc, but may sometimes be necessary.
5225For example,
5226.Em PPPoE
5227imposes a maximum of 1492 due to hardware limitations.
5228.Pp
5229If no argument is given, 1500 is assumed.
5230A value must be given when
5231.Dq maximum
5232is specified.
5233.It set mtu Xo
5234.Op max Ns Op imum
5235.Op Ar value
5236.Xc
5237The default MTU is 1500.
5238At negotiation time,
5239.Nm
5240will accept whatever MRU the peer requests (assuming it is
5241not less than 296 bytes or greater than the assigned maximum).
5242If the MTU is set,
5243.Nm
5244will not accept MRU values less than
5245.Ar value .
5246When negotiations are complete, the MTU is used when writing to the
5247interface, even if the peer requested a higher value MRU.
5248This can be useful for
5249limiting your packet size (giving better bandwidth sharing at the expense
5250of more header data).
5251.Pp
5252If the
5253.Dq maximum
5254keyword is used,
5255.Nm
5256will refuse to negotiate a higher value.
5257The maximum MTU can be set to 2048 at most.
5258Note, it is necessary to use the
5259.Dq maximum
5260keyword to limit the MTU when using PPPoE.
5261.Pp
5262If no
5263.Ar value
5264is given, 1500, or whatever the peer asks for is used.
5265A value must be given when
5266.Dq maximum
5267is specified.
5268.It set nbns Op Ar x.x.x.x Op Ar y.y.y.y
5269This option allows the setting of the Microsoft NetBIOS name server
5270values to be returned at the peers request.
5271If no values are given,
5272.Nm
5273will reject any such requests.
5274.It set openmode active|passive Op Ar delay
5275By default,
5276.Ar openmode
5277is always
5278.Ar active
5279with a one second
5280.Ar delay .
5281That is,
5282.Nm
5283will always initiate LCP/IPCP/CCP negotiation one second after the line
5284comes up.
5285If you want to wait for the peer to initiate negotiations, you
5286can use the value
5287.Ar passive .
5288If you want to initiate negotiations immediately or after more than one
5289second, the appropriate
5290.Ar delay
5291may be specified here in seconds.
5292.It set parity odd|even|none|mark
5293This allows the line parity to be set.
5294The default value is
5295.Ar none .
5296.It set phone Ar telno Ns Xo
5297.Oo \&| Ns Ar backupnumber Oc Ns ... Ns Oo : Ns Ar nextnumber Oc Ns ... Xc
5298This allows the specification of the phone number to be used in
5299place of the \\\\T string in the dial and login chat scripts.
5300Multiple phone numbers may be given separated either by a pipe
5301.Pq Dq \&|
5302or a colon
5303.Pq Dq \&: .
5304.Pp
5305Numbers after the pipe are only dialed if the dial or login
5306script for the previous number failed.
5307.Pp
5308Numbers after the colon are tried sequentially, irrespective of
5309the reason the line was dropped.
5310.Pp
5311If multiple numbers are given,
5312.Nm
5313will dial them according to these rules until a connection is made, retrying
5314the maximum number of times specified by
5315.Dq set redial
5316below.
5317In
5318.Fl background
5319mode, each number is attempted at most once.
5320.It set pppoe Op standard|3Com
5321This option configures the underlying
5322.Xr ng_pppoe 4
5323node to either standard RFC2516 PPPoE or proprietary 3Com mode.
5324If not set the system default will be used.
5325.It set Oo proc Oc Ns Xo
5326.No title Op Ar value
5327.Xc
5328The current process title as displayed by
5329.Xr ps 1
5330is changed according to
5331.Ar value .
5332If
5333.Ar value
5334is not specified, the original process title is restored.
5335All the
5336word replacements done by the shell commands (see the
5337.Dq bg
5338command above) are done here too.
5339.Pp
5340Note, if USER is required in the process title, the
5341.Dq set proctitle
5342command must appear in
5343.Pa ppp.linkup ,
5344as it is not known when the commands in
5345.Pa ppp.conf
5346are executed.
5347.It set radius Op Ar config-file
5348This command enables RADIUS support (if it is compiled in).
5349.Ar config-file
5350refers to the radius client configuration file as described in
5351.Xr radius.conf 5 .
5352If PAP, CHAP, MSCHAP or MSCHAPv2 are
5353.Dq enable Ns No d ,
5354.Nm
5355behaves as a
5356.Em \&N Ns No etwork
5357.Em \&A Ns No ccess
5358.Em \&S Ns No erver
5359and uses the configured RADIUS server to authenticate rather than
5360authenticating from the
5361.Pa ppp.secret
5362file or from the passwd database.
5363.Pp
5364If none of PAP, CHAP, MSCHAP or MSCHAPv2 are enabled,
5365.Dq set radius
5366will do nothing.
5367.Pp
5368.Nm
5369uses the following attributes from the RADIUS reply:
5370.Bl -tag -width XXX -offset XXX
5371.It RAD_FRAMED_IP_ADDRESS
5372The peer IP address is set to the given value.
5373.It RAD_FRAMED_IP_NETMASK
5374The tun interface netmask is set to the given value.
5375.It RAD_FRAMED_MTU
5376If the given MTU is less than the peers MRU as agreed during LCP
5377negotiation, *and* it is less that any configured MTU (see the
5378.Dq set mru
5379command), the tun interface MTU is set to the given value.
5380.It RAD_FRAMED_COMPRESSION
5381If the received compression type is
5382.Dq 1 ,
5383.Nm
5384will request VJ compression during IPCP negotiations despite any
5385.Dq disable vj
5386configuration command.
5387.It RAD_FILTER_ID
5388If this attribute is supplied,
5389.Nm
5390will attempt to use it as an additional label to load from the
5391.Pa ppp.linkup
5392and
5393.Pa ppp.linkdown
5394files.
5395The load will be attempted before (and in addition to) the normal
5396label search.
5397If the label does not exist, no action is taken and
5398.Nm
5399proceeds to the normal load using the current label.
5400.It RAD_FRAMED_ROUTE
5401The received string is expected to be in the format
5402.Ar dest Ns Op / Ns Ar bits
5403.Ar gw
5404.Op Ar metrics .
5405Any specified metrics are ignored.
5406.Dv MYADDR
5407and
5408.Dv HISADDR
5409are understood as valid values for
5410.Ar dest
5411and
5412.Ar gw ,
5413.Dq default
5414can be used for
5415.Ar dest
5416to specify the default route, and
5417.Dq 0.0.0.0
5418is understood to be the same as
5419.Dq default
5420for
5421.Ar dest
5422and
5423.Dv HISADDR
5424for
5425.Ar gw .
5426.Pp
5427For example, a returned value of
5428.Dq 1.2.3.4/24 0.0.0.0 1 2 -1 3 400
5429would result in a routing table entry to the 1.2.3.0/24 network via
5430.Dv HISADDR
5431and a returned value of
5432.Dq 0.0.0.0 0.0.0.0
5433or
5434.Dq default HISADDR
5435would result in a default route to
5436.Dv HISADDR .
5437.Pp
5438All RADIUS routes are applied after any sticky routes are applied, making
5439RADIUS routes override configured routes.
5440This also applies for RADIUS routes that do not {include} the
5441.Dv MYADDR
5442or
5443.Dv HISADDR
5444keywords.
5445.It RAD_FRAMED_IPV6_PREFIX
5446If this attribute is supplied, the value is substituted for IPV6PREFIX
5447in a command.
5448You may pass it to an upper layer protocol such as DHCPv6 for delegating an
5449IPv6 prefix to a peer.
5450.It RAD_FRAMED_IPV6_ROUTE
5451The received string is expected to be in the format
5452.Ar dest Ns Op / Ns Ar bits
5453.Ar gw
5454.Op Ar metrics .
5455Any specified metrics are ignored.
5456.Dv MYADDR6
5457and
5458.Dv HISADDR6
5459are understood as valid values for
5460.Ar dest
5461and
5462.Ar gw ,
5463.Dq default
5464can be used for
5465.Ar dest
5466to specify the default route, and
5467.Dq ::
5468is understood to be the same as
5469.Dq default
5470for
5471.Ar dest
5472and
5473.Dv HISADDR6
5474for
5475.Ar gw .
5476.Pp
5477For example, a returned value of
5478.Dq 3ffe:505:abcd::/48 ::
5479would result in a routing table entry to the 3ffe:505:abcd::/48 network via
5480.Dv HISADDR6
5481and a returned value of
5482.Dq :: ::
5483or
5484.Dq default HISADDR6
5485would result in a default route to
5486.Dv HISADDR6 .
5487.Pp
5488All RADIUS IPv6 routes are applied after any sticky routes are
5489applied, making RADIUS IPv6 routes override configured routes.
5490This
5491also applies for RADIUS IPv6 routes that do not {include} the
5492.Dv MYADDR6
5493or
5494.Dv HISADDR6
5495keywords.
5496.It RAD_SESSION_TIMEOUT
5497If supplied, the client connection is closed after the given number of
5498seconds.
5499.It RAD_REPLY_MESSAGE
5500If supplied, this message is passed back to the peer as the authentication
5501SUCCESS text.
5502.It RAD_MICROSOFT_MS_CHAP_ERROR
5503If this
5504.Dv RAD_VENDOR_MICROSOFT
5505vendor specific attribute is supplied, it is passed back to the peer as the
5506authentication FAILURE text.
5507.It RAD_MICROSOFT_MS_CHAP2_SUCCESS
5508If this
5509.Dv RAD_VENDOR_MICROSOFT
5510vendor specific attribute is supplied and if MS-CHAPv2 authentication is
5511being used, it is passed back to the peer as the authentication SUCCESS text.
5512.It RAD_MICROSOFT_MS_MPPE_ENCRYPTION_POLICY
5513If this
5514.Dv RAD_VENDOR_MICROSOFT
5515vendor specific attribute is supplied and has a value of 2 (Required),
5516.Nm
5517will insist that MPPE encryption is used (even if no
5518.Dq set mppe
5519configuration command has been given with arguments).
5520If it is supplied with a value of 1 (Allowed), encryption is made optional
5521(despite any
5522.Dq set mppe
5523configuration commands with arguments).
5524.It RAD_MICROSOFT_MS_MPPE_ENCRYPTION_TYPES
5525If this
5526.Dv RAD_VENDOR_MICROSOFT
5527vendor specific attribute is supplied, bits 1 and 2 are examined.
5528If either or both are set, 40 bit and/or 128 bit (respectively) encryption
5529options are set, overriding any given first argument to the
5530.Dq set mppe
5531command.
5532Note, it is not currently possible for the RADIUS server to specify 56 bit
5533encryption.
5534.It RAD_MICROSOFT_MS_MPPE_RECV_KEY
5535If this
5536.Dv RAD_VENDOR_MICROSOFT
5537vendor specific attribute is supplied, it is value is used as the master
5538key for decryption of incoming data.
5539When clients are authenticated using
5540MSCHAPv2, the RADIUS server MUST provide this attribute if inbound MPPE is
5541to function.
5542.It RAD_MICROSOFT_MS_MPPE_SEND_KEY
5543If this
5544.Dv RAD_VENDOR_MICROSOFT
5545vendor specific attribute is supplied, it is value is used as the master
5546key for encryption of outgoing data.
5547When clients are authenticated using
5548MSCHAPv2, the RADIUS server MUST provide this attribute if outbound MPPE is
5549to function.
5550.El
5551.Pp
5552Values received from the RADIUS server may be viewed using
5553.Dq show bundle .
5554.It set rad_alive Ar timeout
5555When RADIUS is configured, setting
5556.Dq rad_alive
5557to a non-zero
5558.Ar timeout
5559value will tell
5560.Nm
5561to sent RADIUS accounting information to the RADIUS server every
5562.Ar timeout
5563seconds.
5564.It set rad_port_id Ar option
5565When RADIUS is configured, setting the
5566.Dq rad_port_id
5567value specifies what should be sent to the RADIUS server as
5568NAS-Port-Id.
5569The
5570.Ar option Ns No s
5571are as follows:
5572.Bl -tag -width Ds
5573.It pid
5574PID of the corresponding tunnel.
5575.It tunnum
5576.Xr tun 4
5577interface number.
5578.It ifnum
5579index of the interface as returned by
5580.Xr if_nametoindex 3 .
5581.It default
5582keeps the default behavior.
5583.El
5584.It set reconnect Ar timeout ntries
5585Should the line drop unexpectedly (due to loss of CD or LQR
5586failure), a connection will be re-established after the given
5587.Ar timeout .
5588The line will be re-connected at most
5589.Ar ntries
5590times.
5591.Ar Ntries
5592defaults to zero.
5593A value of
5594.Ar random
5595for
5596.Ar timeout
5597will result in a variable pause, somewhere between 1 and 30 seconds.
5598.It set recvpipe Op Ar value
5599This sets the routing table RECVPIPE value.
5600The optimum value is just over twice the MTU value.
5601If
5602.Ar value
5603is unspecified or zero, the default kernel controlled value is used.
5604.It set redial Ar secs Ns Xo
5605.Oo + Ns Ar inc Ns
5606.Oo - Ns Ar max Ns Oc Oc Ns
5607.Op . Ns Ar next
5608.Op Ar attempts
5609.Xc
5610.Nm
5611can be instructed to attempt to redial
5612.Ar attempts
5613times.
5614If more than one phone number is specified (see
5615.Dq set phone
5616above), a pause of
5617.Ar next
5618is taken before dialing each number.
5619A pause of
5620.Ar secs
5621is taken before starting at the first number again.
5622A literal value of
5623.Dq Li random
5624may be used here in place of
5625.Ar secs
5626and
5627.Ar next ,
5628causing a random delay of between 1 and 30 seconds.
5629.Pp
5630If
5631.Ar inc
5632is specified, its value is added onto
5633.Ar secs
5634each time
5635.Nm
5636tries a new number.
5637.Ar secs
5638will only be incremented at most
5639.Ar max
5640times.
5641.Ar max
5642defaults to 10.
5643.Pp
5644Note, the
5645.Ar secs
5646delay will be effective, even after
5647.Ar attempts
5648has been exceeded, so an immediate manual dial may appear to have
5649done nothing.
5650If an immediate dial is required, a
5651.Dq !\&
5652should immediately follow the
5653.Dq open
5654keyword.
5655See the
5656.Dq open
5657description above for further details.
5658.It set sendpipe Op Ar value
5659This sets the routing table SENDPIPE value.
5660The optimum value is just over twice the MTU value.
5661If
5662.Ar value
5663is unspecified or zero, the default kernel controlled value is used.
5664.It "set server|socket" Ar TcpPort Ns No \&| Ns Xo
5665.Ar LocalName Ns No |none|open|closed
5666.Op password Op Ar mask
5667.Xc
5668This command tells
5669.Nm
5670to listen on the given socket or
5671.Sq diagnostic port
5672for incoming command connections.
5673.Pp
5674The word
5675.Dq none
5676instructs
5677.Nm
5678to close any existing socket and clear the socket configuration.
5679The word
5680.Dq open
5681instructs
5682.Nm
5683to attempt to re-open the port.
5684The word
5685.Dq closed
5686instructs
5687.Nm
5688to close the open port.
5689.Pp
5690If you wish to specify a local domain socket,
5691.Ar LocalName
5692must be specified as an absolute file name, otherwise it is assumed
5693to be the name or number of a TCP port.
5694You may specify the octal umask to be used with a local domain socket.
5695Refer to
5696.Xr umask 2
5697for umask details.
5698Refer to
5699.Xr services 5
5700for details of how to translate TCP port names.
5701.Pp
5702You must also specify the password that must be entered by the client
5703(using the
5704.Dq passwd
5705variable above) when connecting to this socket.
5706If the password is
5707specified as an empty string, no password is required for connecting clients.
5708.Pp
5709When specifying a local domain socket, the first
5710.Dq %d
5711sequence found in the socket name will be replaced with the current
5712interface unit number.
5713This is useful when you wish to use the same
5714profile for more than one connection.
5715.Pp
5716In a similar manner TCP sockets may be prefixed with the
5717.Dq +
5718character, in which case the current interface unit number is added to
5719the port number.
5720.Pp
5721When using
5722.Nm
5723with a server socket, the
5724.Xr pppctl 8
5725command is the preferred mechanism of communications.
5726Currently,
5727.Xr telnet 1
5728can also be used, but link encryption may be implemented in the future, so
5729.Xr telnet 1
5730should be avoided.
5731.Pp
5732Note;
5733.Dv SIGUSR1
5734and
5735.Dv SIGUSR2
5736interact with the diagnostic socket.
5737.It set speed Ar value
5738This sets the speed of the serial device.
5739If speed is specified as
5740.Dq sync ,
5741.Nm
5742treats the device as a synchronous device.
5743.Pp
5744Certain device types will know whether they should be specified as
5745synchronous or asynchronous.
5746These devices will override incorrect
5747settings and log a warning to this effect.
5748.It set stopped Op Ar LCPseconds Op Ar CCPseconds
5749If this option is set,
5750.Nm
5751will time out after the given FSM (Finite State Machine) has been in
5752the stopped state for the given number of
5753.Dq seconds .
5754This option may be useful if the peer sends a terminate request,
5755but never actually closes the connection despite our sending a terminate
5756acknowledgement.
5757This is also useful if you wish to
5758.Dq set openmode passive
5759and time out if the peer does not send a Configure Request within the
5760given time.
5761Use
5762.Dq set log +lcp +ccp
5763to make
5764.Nm
5765log the appropriate state transitions.
5766.Pp
5767The default value is zero, where
5768.Nm
5769does not time out in the stopped state.
5770.Pp
5771This value should not be set to less than the openmode delay (see
5772.Dq set openmode
5773above).
5774.It set timeout Ar idleseconds Op Ar mintimeout
5775This command allows the setting of the idle timer.
5776Refer to the section titled
5777.Sx SETTING THE IDLE TIMER
5778for further details.
5779.Pp
5780If
5781.Ar mintimeout
5782is specified,
5783.Nm
5784will never idle out before the link has been up for at least that number
5785of seconds.
5786.It set urgent Xo
5787.Op tcp|udp|none
5788.Oo Op +|- Ns
5789.Ar port
5790.Oc No ...
5791.Xc
5792This command controls the ports that
5793.Nm
5794prioritizes when transmitting data.
5795The default priority TCP ports
5796are ports 21 (ftp control), 22 (ssh), 23 (telnet), 513 (login), 514 (shell),
5797543 (klogin) and 544 (kshell).
5798There are no priority UDP ports by default.
5799See
5800.Xr services 5
5801for details.
5802.Pp
5803If neither
5804.Dq tcp
5805or
5806.Dq udp
5807are specified,
5808.Dq tcp
5809is assumed.
5810.Pp
5811If no
5812.Ar port Ns No s
5813are given, the priority port lists are cleared (although if
5814.Dq tcp
5815or
5816.Dq udp
5817is specified, only that list is cleared).
5818If the first
5819.Ar port
5820argument is prefixed with a plus
5821.Pq Dq \&+
5822or a minus
5823.Pq Dq \&- ,
5824the current list is adjusted, otherwise the list is reassigned.
5825.Ar port Ns No s
5826prefixed with a plus or not prefixed at all are added to the list and
5827.Ar port Ns No s
5828prefixed with a minus are removed from the list.
5829.Pp
5830If
5831.Dq none
5832is specified, all priority port lists are disabled and even
5833.Dv IPTOS_LOWDELAY
5834packets are not prioritised.
5835.It set urgent length Ar length
5836This command tells ppp to prioritize small packets up to
5837.Ar length
5838bytes.
5839If
5840.Ar length
5841is not specified, or 0, this feature is disabled.
5842.It set vj slotcomp on|off
5843This command tells
5844.Nm
5845whether it should attempt to negotiate VJ slot compression.
5846By default, slot compression is turned
5847.Ar on .
5848.It set vj slots Ar nslots
5849This command sets the initial number of slots that
5850.Nm
5851will try to negotiate with the peer when VJ compression is enabled (see the
5852.Sq enable
5853command above).
5854It defaults to a value of 16.
5855.Ar Nslots
5856must be between
5857.Ar 4
5858and
5859.Ar 16
5860inclusive.
5861.El
5862.It shell|! Op Ar command
5863If
5864.Ar command
5865is not specified a shell is invoked according to the
5866.Dv SHELL
5867environment variable.
5868Otherwise, the given
5869.Ar command
5870is executed.
5871Word replacement is done in the same way as for the
5872.Dq !bg
5873command as described above.
5874.Pp
5875Use of the !\& character
5876requires a following space as with any of the other commands.
5877You should note that this command is executed in the foreground;
5878.Nm
5879will not continue running until this process has exited.
5880Use the
5881.Dv bg
5882command if you wish processing to happen in the background.
5883.It show Ar var
5884This command allows the user to examine the following:
5885.Bl -tag -width 2n
5886.It show bundle
5887Show the current bundle settings.
5888.It show ccp
5889Show the current CCP compression statistics.
5890.It show compress
5891Show the current VJ compression statistics.
5892.It show escape
5893Show the current escape characters.
5894.It show filter Op Ar name
5895List the current rules for the given filter.
5896If
5897.Ar name
5898is not specified, all filters are shown.
5899.It show hdlc
5900Show the current HDLC statistics.
5901.It show help|?
5902Give a summary of available show commands.
5903.It show iface
5904Show the current interface information
5905(the same as
5906.Dq iface show ) .
5907.It show ipcp
5908Show the current IPCP statistics.
5909.It show layers
5910Show the protocol layers currently in use.
5911.It show lcp
5912Show the current LCP statistics.
5913.It show Oo data Oc Ns Xo
5914.No link
5915.Xc
5916Show high level link information.
5917.It show links
5918Show a list of available logical links.
5919.It show log
5920Show the current log values.
5921.It show mem
5922Show current memory statistics.
5923.It show ncp
5924Show the current NCP statistics.
5925.It show physical
5926Show low level link information.
5927.It show mp
5928Show Multi-link information.
5929.It show proto
5930Show current protocol totals.
5931.It show route
5932Show the current routing tables.
5933.It show stopped
5934Show the current stopped timeouts.
5935.It show timer
5936Show the active alarm timers.
5937.It show version
5938Show the current version number of
5939.Nm .
5940.El
5941.It term
5942Go into terminal mode.
5943Characters typed at the keyboard are sent to the device.
5944Characters read from the device are displayed on the screen.
5945When a remote
5946.Em PPP
5947peer is detected,
5948.Nm
5949automatically enables Packet Mode and goes back into command mode.
5950.El
5951.Sh MORE DETAILS
5952.Bl -bullet
5953.It
5954Read the example configuration files.
5955They are a good source of information.
5956.It
5957Use
5958.Dq help ,
5959.Dq nat \&? ,
5960.Dq enable \&? ,
5961.Dq set ?\&
5962and
5963.Dq show ?\&
5964to get online information about what is available.
5965.It
5966The following URL contains useful information:
5967.Bl -bullet -compact
5968.It
5969https://docs.freebsd.org/en/books/handbook/ppp-and-slip/
5970.El
5971.El
5972.Sh FILES
5973.Nm
5974refers to four files:
5975.Pa ppp.conf ,
5976.Pa ppp.linkup ,
5977.Pa ppp.linkdown
5978and
5979.Pa ppp.secret .
5980These files are placed in the
5981.Pa /etc/ppp
5982directory.
5983.Bl -tag -width 2n
5984.It Pa /etc/ppp/ppp.conf
5985System default configuration file.
5986.It Pa /etc/ppp/ppp.secret
5987An authorisation file for each system.
5988.It Pa /etc/ppp/ppp.linkup
5989A file to check when
5990.Nm
5991establishes a network level connection.
5992.It Pa /etc/ppp/ppp.linkdown
5993A file to check when
5994.Nm
5995closes a network level connection.
5996.It Pa /var/log/ppp.log
5997Logging and debugging information file.
5998Note, this name is specified in
5999.Pa /etc/syslog.conf .
6000See
6001.Xr syslog.conf 5
6002for further details.
6003.It Pa /var/spool/lock/LCK..*
6004tty port locking file.
6005Refer to
6006.Xr uucplock 3
6007for further details.
6008.It Pa /var/run/tunN.pid
6009The process id (pid) of the
6010.Nm
6011program connected to the tunN device, where
6012.Sq N
6013is the number of the device.
6014.It Pa /var/run/ttyXX.if
6015The tun interface used by this port.
6016Again, this file is only created in
6017.Fl background ,
6018.Fl auto
6019and
6020.Fl ddial
6021modes.
6022.It Pa /etc/services
6023Get port number if port number is using service name.
6024.It Pa /var/run/ppp-authname-class-value
6025In multi-link mode, local domain sockets are created using the peer
6026authentication name
6027.Pq Sq authname ,
6028the peer endpoint discriminator class
6029.Pq Sq class
6030and the peer endpoint discriminator value
6031.Pq Sq value .
6032As the endpoint discriminator value may be a binary value, it is turned
6033to HEX to determine the actual file name.
6034.Pp
6035This socket is used to pass links between different instances of
6036.Nm .
6037.El
6038.Sh SEE ALSO
6039.Xr at 1 ,
6040.Xr ftp 1 ,
6041.Xr gzip 1 ,
6042.Xr hostname 1 ,
6043.Xr login 1 ,
6044.Xr tcpdump 1 ,
6045.Xr telnet 1 ,
6046.Xr kldload 2 ,
6047.Xr pipe 2 ,
6048.Xr socketpair 2 ,
6049.Xr libalias 3 ,
6050.Xr libradius 3 ,
6051.Xr syslog 3 ,
6052.Xr uucplock 3 ,
6053.Xr netgraph 4 ,
6054.Xr ng_pppoe 4 ,
6055.Xr crontab 5 ,
6056.Xr group 5 ,
6057.Xr passwd 5 ,
6058.Xr protocols 5 ,
6059.Xr radius.conf 5 ,
6060.Xr resolv.conf 5 ,
6061.Xr syslog.conf 5 ,
6062.Xr adduser 8 ,
6063.Xr chat 8 ,
6064.Xr getty 8 ,
6065.Xr inetd 8 ,
6066.Xr init 8 ,
6067.Xr named 8 ,
6068.Xr ping 8 ,
6069.Xr pppctl 8 ,
6070.Xr pppoed 8 ,
6071.Xr route 8 ,
6072.Xr sshd 8 ,
6073.Xr syslogd 8 ,
6074.Xr traceroute 8 ,
6075.Xr vipw 8
6076.Sh HISTORY
6077This program was originally written by
6078.An Toshiharu OHNO Aq Mt tony-o@iij.ad.jp ,
6079and was submitted to
6080.Fx 2.0.5
6081by
6082.An Atsushi Murai Aq Mt amurai@spec.co.jp .
6083.Pp
6084It was substantially modified during 1997 by
6085.An Brian Somers Aq Mt brian@Awfulhak.org ,
6086and was ported to
6087.Ox
6088in November that year
6089(just after the 2.2 release).
6090.Pp
6091Most of the code was rewritten by
6092.An Brian Somers
6093in early 1998 when multi-link ppp support was added.
6094