xref: /freebsd/share/examples/ppp/ppp.conf.sample (revision 6829dae12bb055451fa467da4589c43bd03b1e64)
1#################################################################
2#
3#              PPP  Sample Configuration File
4#
5#           Originally written by Toshiharu OHNO
6#
7# $FreeBSD$
8#
9#################################################################
10
11# This file is separated into sections.  Each section is named with
12# a label starting in column 0 and followed directly by a ``:''.  The
13# section continues until the next label.  Blank lines and characters
14# after a ``#'' are ignored (a literal ``#'' must be escaped with a ``\''
15# or quoted with "").  All commands inside sections that do not begin
16# with ``!'' (e.g., ``!include'') *must* be indented by at least one
17# space or tab or they will not be recognized!
18#
19# Lines beginning with "!include" will ``include'' another file.  You
20# may want to ``!include ~/.ppp.conf'' for backwards compatibility.
21#
22
23# Default setup. Always executed when PPP is invoked.
24#  This section is *not* pre-loaded by the ``load'' or ``dial'' commands.
25#
26#  This is the best place to specify your modem device, its DTR rate,
27#  your dial script and any logging specification.  Logging specs should
28#  be done first so that the results of subsequent commands are logged.
29#
30default:
31 set log Phase Chat LCP IPCP CCP tun command
32 set device /dev/cuau1
33 set speed 115200
34 set dial "ABORT BUSY ABORT NO\\sCARRIER TIMEOUT 5 \"\" AT \
35           OK-AT-OK ATE1Q0 OK \\dATDT\\T TIMEOUT 40 CONNECT"
36
37# Client side PPP
38#
39#  Although the PPP protocol is a peer to peer protocol, we normally
40#  consider the side that initiates the connection as the client and
41#  the side that receives the connection as the server.  Authentication
42#  is required by the server either using a unix-style login procedure
43#  or by demanding PAP or CHAP authentication from the client.
44#
45
46# An on demand example where we have dynamic IP addresses and wish to
47# use a unix-style login script:
48#
49#  If the peer assigns us an arbitrary IP (most ISPs do this) and we
50#  can't predict what their IP will be either, take a wild guess at
51#  some IPs that you can't currently route to.  Ppp can change this
52#  when the link comes up.
53#
54#  The /0 bit in "set ifaddr" says that we insist on 0 bits of the
55#  specified IP actually being correct, therefore, the other side can assign
56#  any IP number.
57#
58#  The fourth arg to "set ifaddr" makes us send "0.0.0.0" as our requested
59#  IP number, forcing the peer to make the decision.  This is necessary
60#  when negotiating with some (broken) ppp implementations.
61#
62#  This entry also works with static IP numbers or when not in -auto mode.
63#  The ``add'' line adds a `sticky' default route that will be updated if
64#  and when any of the IP numbers are changed in IPCP negotiations.
65#  The "set ifaddr" is required in -auto mode only.
66#  It's better to put the ``add'' line in ppp.linkup when not in -auto mode.
67#
68#  Finally, the ``enable dns'' line tells ppp to ask the peer for the
69#  nameserver addresses that should be used.  This isn't always supported
70#  by the other side, but if it is, ppp will update /etc/resolv.conf with
71#  the correct nameserver values at connection time.
72#
73#  The login script shown says that you're expecting ``ogin:''.  If you
74#  don't receive that, send a ``\n'' and expect ``ogin:'' again.  When
75#  it's received, send ``ppp'', expect ``word:'' then send ``ppp''.
76#  You *MUST* customise this login script according to your local
77#  requirements.
78#
79pmdemand:
80 set phone 1234567
81 set login "ABORT NO\\sCARRIER TIMEOUT 5 ogin:--ogin: ppp word: ppp"
82 set timeout 120
83 set ifaddr 10.0.0.1/0 10.0.0.2/0 255.255.255.0 0.0.0.0
84 add default HISADDR
85 enable dns
86
87# If you want to use PAP or CHAP instead of using a unix-style login
88# procedure, do the following.  Note, the peer suggests whether we
89# should send PAP or CHAP.  By default, we send whatever we're asked for.
90#
91# You *MUST* customise ``MyName'' and ``MyKey'' below.
92#
93PAPorCHAPpmdemand:
94 set phone 1234567
95 set login
96 set authname "MyName"
97 set authkey "MyKey"
98 set timeout 120
99 set ifaddr 10.0.0.1/0 10.0.0.2/0 255.255.255.0 0.0.0.0
100 add default HISADDR
101 enable dns
102
103# On demand dialup example with static IP addresses:
104#  Here, the local side uses 192.244.185.226 and the remote side
105#  uses 192.244.176.44.
106#
107#  # ppp -auto ondemand
108#
109#  With static IP numbers, our setup is similar to dynamic:
110#  Remember, ppp.linkup is searched for a "192.244.176.44" label, then
111#  an "ondemand" label, and finally the "MYADDR" label.
112#
113ondemand:
114 set phone 1234567
115 set login "ABORT NO\\sCARRIER TIMEOUT 5 ogin:--ogin: ppp word: ppp"
116 set timeout 120
117 set ifaddr 192.244.185.226 192.244.176.44
118 add default HISADDR
119 enable dns
120
121# An on-demand dialup example using an external Terminal Adapter (TA)
122# that supports multi-link ppp itself.
123#
124# This may be specific to the AETHRA TA.
125#
126TA:
127 set phone 12345678	# Replace this with your ISPs phone number
128
129 set authname "somename"  # Replace these with your login name & password.
130 set authkey "somepasswd" # This profile assumes you're using PAP or CHAP.
131
132 enable lqr echo
133 set reconnect 3 5
134 set redial 3 10
135 set lqrperiod 45
136 disable pred1 deflate mppe
137 deny pred1 deflate mppe
138
139 set dial "ABORT BUSY ABORT NO\\sCARRIER TIMEOUT 5 \"\" ATB41CL2048 \
140           OK-AT-OK ATB40&J3E1Q0 OK \\dATDT\\T TIMEOUT 40 CONNECT"
141 set login
142 set logout
143 set hangup
144
145 set timeout 60 300	# The minimum charge period is 5 minutes, so don't
146			# hangup before then
147
148 set device /dev/cuau0	# Or whatever
149 set speed 115200	# Use as high a speed as possible
150
151 enable dns		# Ask the peer what to put in resolv.conf
152
153 # Take a wild guess at an IP number and let the other side decide
154 set ifaddr 172.16.0.1/0 212.0.0.0/0 0 0
155 add! default hisaddr
156
157 set mru 1504			# Some extra room for the MP header
158
159 set server /var/run/ppp/ppp-TA "" 0177	# The diagnostic port (-rw-------)
160
161
162#                          Example segments
163#
164# The following lines may be included as part of your configuration
165# section and aren't themselves complete.  They're provided as examples
166# of how to achieve different things.
167
168examples:
169# Multi-phone example.  Numbers separated by a : are used sequentially.
170# Numbers separated by a | are used if the previous dial or login script
171# failed.  Usually, you will prefer to use only one of | or :, but both
172# are allowed.
173#
174    set phone 12345678|12345679:12345670|12345671
175#
176# Some phone numbers may include # characters - don't forget to escape
177# (or quote) them:
178#
179    set phone "12345##678"
180#
181# Ppp can accept control instructions from the ``pppctl'' program.
182# First, you must set up your control socket.  It's safest to use
183# a UNIX domain socket, and watch the permissions:
184#
185    set server /var/run/ppp/internet MySecretPassword 0177
186#
187# Although a TCP port may be used if you want to allow control
188# connections from other machines:
189#
190    set server 6670 MySecretpassword
191#
192# If you don't like ppp's builtin chat, use an external one:
193#
194    set login "\"!chat \\-f /etc/ppp/ppp.dev.chat\""
195#
196# If we have a ``strange'' modem that must be re-initialized when we
197# hangup:
198#
199    set hangup "\"\" AT OK-AT-OK ATZ OK"
200#
201# To adjust logging without blowing away the setting in default:
202#
203    set log -command +tcp/ip
204#
205# To see log messages on the screen in interactive mode:
206#
207    set log local LCP IPCP CCP
208#
209# If you're seeing a lot of magic number problems and failed connections,
210# try this (see the man page):
211#
212    set openmode active 5
213#
214# For noisy lines, we may want to reconnect (up to 20 times) after loss
215# of carrier, with 3 second delays between each attempt:
216#
217    set reconnect 3 20
218#
219# When playing server for M$ clients, tell them who our NetBIOS name
220# servers are:
221#
222    set nbns 10.0.0.1 10.0.0.2
223#
224# Inform the client if they ask for our DNS IP numbers:
225#
226    enable dns
227#
228# If you don't want to tell them what's in your /etc/resolv.conf file
229# with `enable dns', override the values:
230#
231    set dns 10.0.0.1 10.0.0.2
232#
233# Some people like to prioritize DNS packets:
234#
235   set urgent udp +53
236#
237# If we're using the -nat switch, redirect ftp and http to an internal
238# machine:
239#
240    nat port tcp 10.0.0.2:ftp ftp
241    nat port tcp 10.0.0.2:http http
242#
243# or don't trust the outside at all
244#
245    nat deny_incoming yes
246#
247# I trust user brian to run ppp, so this goes in the `default' section:
248#
249    allow user brian
250#
251# But label `internet' contains passwords that even brian can't have, so
252# I empty out the user access list in that section so that only root can
253# have access:
254#
255    allow users
256#
257# I also may wish to set up my ppp login script so that it asks the client
258# for the label they wish to use.  I may only want user ``dodgy'' to access
259# their own label in direct mode:
260#
261dodgy:
262    allow user dodgy
263    allow mode direct
264#
265# We don't want certain packets to keep our connection alive
266#
267    set filter alive 0 deny udp src eq 520         # routed
268    set filter alive 1 deny udp dst eq 520         # routed
269    set filter alive 2 deny udp src eq 513         # rwhod
270    set filter alive 3 deny udp src eq 525         # timed
271    set filter alive 4 deny udp src eq 137         # NetBIOS name service
272    set filter alive 5 deny udp src eq 138         # NetBIOS datagram service
273    set filter alive 6 deny tcp src eq 139         # NetBIOS session service
274    set filter alive 7 deny udp dst eq 137         # NetBIOS name service
275    set filter alive 8 deny udp dst eq 138         # NetBIOS datagram service
276    set filter alive 9 deny tcp dst eq 139         # NetBIOS session service
277    set filter alive 10 deny 0/0 MYADDR icmp       # Ping to us from outside
278    set filter alive 11 permit 0/0 0/0
279#
280# And in auto mode, we don't want certain packets to cause a dialup
281#
282    set filter dial 0 deny udp src eq 513          # rwhod
283    set filter dial 1 deny udp src eq 525          # timed
284    set filter dial 2 deny udp src eq 137          # NetBIOS name service
285    set filter dial 3 deny udp src eq 138          # NetBIOS datagram service
286    set filter dial 4 deny tcp src eq 139          # NetBIOS session service
287    set filter dial 5 deny udp dst eq 137          # NetBIOS name service
288    set filter dial 6 deny udp dst eq 138          # NetBIOS datagram service
289    set filter dial 7 deny tcp dst eq 139          # NetBIOS session service
290    set filter dial 8 deny tcp finrst              # Badly closed TCP channels
291    set filter dial 9 permit 0 0
292#
293# Once the line's up, allow these connections
294#
295    set filter in  0 permit tcp dst eq 113            # ident
296    set filter out 0 permit tcp src eq 113            # ident
297    set filter in  1 permit tcp src eq 23 estab       # telnet
298    set filter out 1 permit tcp dst eq 23             # telnet
299    set filter in  2 permit tcp src eq 21 estab       # ftp
300    set filter out 2 permit tcp dst eq 21             # ftp
301    set filter in  3 permit tcp src eq 20 dst gt 1023 # ftp-data
302    set filter out 3 permit tcp dst eq 20             # ftp-data
303    set filter in  4 permit udp src eq 53             # DNS
304    set filter out 4 permit udp dst eq 53             # DNS
305    set filter in  5 permit 192.244.191.0/24 0/0      # Where I work
306    set filter out 5 permit 0/0 192.244.191.0/24      # Where I work
307    set filter in  6 permit icmp                      # pings
308    set filter out 6 permit icmp                      # pings
309    set filter in  7 permit udp dst gt 33433          # traceroute
310    set filter out 7 permit udp dst gt 33433          # traceroute
311
312#
313# ``dodgynet'' is an example intended for an autodial configuration which
314# is connecting a local network to a host on an untrusted network.
315dodgynet:
316    set log Phase                               # Log link uptime
317    allow mode auto                             # For autoconnect only
318    set device /dev/cuau1                       # Define modem device and speed
319    set speed 115200
320    deny lqr                                    # Don't support LQR
321    set phone 0W1194                            # Remote system phone number,
322    set authname "pppLogin"                     # login
323    set authkey "MyPassword"                    # and password
324    set dial "ABORT BUSY ABORT NO\\sCARRIER \   # Chat script to dial the peer
325              TIMEOUT 5 \"\" ATZ OK-ATZ-OK \
326              ATE1Q0M0 OK \\dATDT\\T \
327              TIMEOUT 40 CONNECT"
328    set login "TIMEOUT 10 \"\" \"\" \           # And to login to remote system
329               gin:--gin: \\U word: \\P"
330
331    # Drop the link after 15 minutes of inactivity
332    # Inactivity is defined by the `set filter alive' line below
333    set timeout 900
334
335    # Hard-code remote system to appear within local subnet and use proxy arp
336    # to make this system the gateway for the rest of the local network
337    set ifaddr 172.17.20.247 172.17.20.248 255.255.240.0
338    enable proxy
339
340    # Allow any TCP packet to keep the link alive
341    set filter alive 0 permit tcp
342
343    # Only allow dialup to be triggered by http, rlogin, rsh, telnet, ftp or
344    # private TCP ports 24 and 4000
345    set filter dial  0 7      0 0 tcp dst eq http
346    set filter dial  1 7      0 0 tcp dst eq login
347    set filter dial  2 7      0 0 tcp dst eq shell
348    set filter dial  3 7      0 0 tcp dst eq telnet
349    set filter dial  4 7      0 0 tcp dst eq ftp
350    set filter dial  5 7      0 0 tcp dst eq 24
351    set filter dial  6 deny ! 0 0 tcp dst eq 4000
352
353    # From hosts on a couple of local subnets to the remote peer
354    # If the remote host allowed IP forwarding and we wanted to use it, the
355    # following rules could be split into two groups to separately validate
356    # the source and destination addresses.
357    set filter dial  7 permit 172.17.16.0/20  172.17.20.248
358    set filter dial  8 permit 172.17.36.0/22  172.17.20.248
359    set filter dial  9 permit 172.17.118.0/26 172.17.20.248
360    set filter dial 10 permit 10.123.5.0/24   172.17.20.248
361
362    # Once the link's up, limit outgoing access to the specified hosts
363    set filter out  0 4      172.17.16.0/20  172.17.20.248
364    set filter out  1 4      172.17.36.0/22  172.17.20.248
365    set filter out  2 4      172.17.118.0/26 172.17.20.248
366    set filter out  3 deny ! 10.123.5.0/24   172.17.20.248
367
368    # Allow established TCP connections
369    set filter out  4 permit 0 0 tcp estab
370
371    # And new connections to http, rlogin, rsh, telnet, ftp and ports
372    # 24 and 4000
373    set filter out  5 permit 0 0 tcp dst eq http
374    set filter out  6 permit 0 0 tcp dst eq login
375    set filter out  7 permit 0 0 tcp dst eq shell
376    set filter out  8 permit 0 0 tcp dst eq telnet
377    set filter out  9 permit 0 0 tcp dst eq ftp
378    set filter out 10 permit 0 0 tcp dst eq 24
379    set filter out 11 permit 0 0 tcp dst eq 4000
380
381    # And outgoing icmp
382    set filter out 12 permit 0 0 icmp
383
384    # Once the link's up, limit incoming access to the specified hosts
385    set filter in   0 4      172.17.20.248  172.17.16.0/20
386    set filter in   1 4      172.17.20.248  172.17.36.0/22
387    set filter in   2 4      172.17.20.248  172.17.118.0/26
388    set filter in   3 deny ! 172.17.20.248  10.123.5.0/24
389
390    # Established TCP connections and non-PASV FTP
391    set filter in   4 permit 0/0  0/0  tcp estab
392    set filter in   5 permit 0/0  0/0  tcp src eq 20
393
394    # Useful ICMP messages
395    set filter in   6 permit 0/0  0/0  icmp src eq 3
396    set filter in   7 permit 0/0  0/0  icmp src eq 4
397    set filter in   8 permit 0/0  0/0  icmp src eq 11
398    set filter in   9 permit 0/0  0/0  icmp src eq 12
399
400    # Echo reply (local systems can ping the remote host)
401    set filter in  10 permit 0/0  0/0  icmp src eq 0
402
403    # And the remote host can ping the local gateway (only)
404    set filter in  11 permit 0/0  172.17.20.247 icmp src eq 8
405
406
407# Server side PPP
408#
409#  If you want the remote system to authenticate itself, you must insist
410#  that the peer uses CHAP or PAP with the "enable" keyword.  Both CHAP and
411#  PAP are disabled by default.  You may enable either or both.  If both
412#  are enabled, CHAP is requested first.  If the client doesn't agree, PAP
413#  will then be requested.
414#
415#  Note:  If you use the getty/login process to authenticate users, you
416#         don't need to enable CHAP or PAP, but the user that has logged
417#         in *MUST* be a member of the ``network'' group (in /etc/group).
418#
419#  Note:  Chap80 and chap81 are Microsoft variations of standard chap (05).
420#
421#  If you wish to allow any user in the passwd database ppp access, you
422#  can ``enable passwdauth'', but this will only work with PAP.
423#
424#  When the peer authenticates itself, we use ppp.secret for verification
425#  (although refer to the ``set radius'' command below for an alternative).
426#
427#  Note:  We may supply a third field in ppp.secret specifying the IP
428#         address for that user, a fourth field to specify the
429#         ppp.link{up,down} label to use and a fifth field to specify
430#         callback characteristics.
431#
432#  The easiest way to allow transparent LAN access to your dialin users
433#  is to assign them a number from your local LAN and tell ppp to make a
434#  ``proxy'' arp entry for them.  In this example, we have a local LAN
435#  with IP numbers 10.0.0.1 - 10.0.0.99, and we assign numbers to our
436#  ppp clients between 10.0.0.100 and 10.0.0.199.  It is possible to
437#  override the dynamic IP number with a static IP number specified in
438#  ppp.secret.
439#
440#  Ppp is launched with:
441#   # ppp -direct server
442#
443server:
444 enable chap chap80 chap81 pap passwdauth
445 enable proxy
446 set ifaddr 10.0.0.1 10.0.0.100-10.0.0.199
447 accept dns
448
449# Example of a RADIUS configuration:
450#  If there are one or more radius servers available, we can use them
451#  instead of the ppp.secret file.  Simply put then in a radius
452#  configuration file (usually /etc/radius.conf) and give ppp the
453#  file name.
454#  Ppp will use the FRAMED characteristics supplied by the radius server
455#  to configure the link.
456
457radius-server:
458 load server			# load in the server config from above
459 set radius /etc/radius.conf
460
461
462# Example to connect using a null-modem cable:
463#  The important thing here is to allow the lqr packets on both sides.
464#  Without them enabled, we can't tell if the line's dropped - there
465#  should always be carrier on a direct connection.
466#  Here, the server sends lqr's every 10 seconds and quits if five in a
467#  row fail.
468#
469#  Make sure you don't have "deny lqr" in your default: on the client !
470#  If the peer denies LQR, we still send ECHO LQR packets at the given
471#  lqrperiod interval (ppp-style-pings).
472#
473direct-client:
474 set dial
475 set device /dev/cuau0
476 set sp 115200
477 set timeout 900
478 set lqrperiod 10
479 set log Phase Chat LQM
480 set login "ABORT NO\\sCARRIER TIMEOUT 5 ogin:--ogin: ppp word: ppp HELLO"
481 set ifaddr 10.0.4.2 10.0.4.1
482 enable lqr echo
483 accept lqr
484
485direct-server:
486 set timeout 0
487 set lqrperiod 10
488 set log Phase LQM
489 set ifaddr 10.0.4.1 10.0.4.2
490 enable lqr echo
491 accept lqr
492
493
494# Example to connect via compuserve
495#  Compuserve insists on 7 bits even parity during the chat phase.  Modem
496#  parity is always reset to ``none'' after the link has been established.
497#
498compuserve:
499 set phone 1234567
500 set parity even
501 set login "TIMEOUT 100 \"\" \"\" Name: CIS ID: 999999,9999/go:pppconnect \
502            word: XXXXXXXX PPP"
503 set timeout 300
504 set ifaddr 10.0.0.1/0 10.0.0.2/0 255.255.255.0 0.0.0.0
505 delete ALL
506 add default HISADDR
507
508
509# Example for PPP over TCP.
510#  We assume that inetd on tcpsrv.mynet has been
511#  configured to run "ppp -direct tcp-server" when it gets a connection on
512#  port 1234 with an entry something like this in /etc/inetd.conf.:
513#
514#    ppp stream tcp nowait root /usr/sbin/ppp ppp -direct tcp-server
515#
516#  with this in /etc/services:
517#
518#    ppp 6671/tcp
519#
520#  Read the man page for further details.
521#
522#  Note, we assume we're using a binary-clean connection.  If something
523#  such as `rlogin' is involved, you may need to ``set escape 0xff''
524#
525tcp-client:
526 set device tcpsrv.mynet:6671
527 set dial
528 set login
529 set ifaddr 10.0.5.1 10.0.4.1 255.255.255.0
530
531tcp-server:
532 set ifaddr 10.0.4.1 10.0.5.1 255.255.255.0
533
534
535# Using UDP is also possible with this in /etc/inetd.conf:
536#
537#   ppp dgram udp wait root /usr/sbin/ppp ppp -direct udp-server
538#
539# and this in /etc/services:
540#
541#    ppp 6671/udp
542#
543udp-client:
544 set device udpsrv.mynet:6671/udp
545 set dial
546 set login
547 set ifaddr 10.0.5.1 10.0.4.1 255.255.255.0
548
549udp-server:
550 set ifaddr 10.0.4.1 10.0.5.1 255.255.255.0
551
552
553# Example for PPP testing.
554#  If you want to test ppp, do it through the loopback interface:
555#
556#  Requires a line in /etc/services:
557#    ppploop 6671/tcp # loopback ppp daemon
558#
559#  and a line in /etc/inetd.conf:
560#    ppploop stream tcp nowait root /usr/sbin/ppp ppp -direct inet-loop-in
561#
562inet-loop:
563 set timeout 0
564 set log phase chat connect lcp ipcp command
565 set device localhost:ppploop
566 set dial
567 set login
568 set ifaddr 127.0.0.2 127.0.0.3
569 set server /var/run/ppp/loop "" 0177
570
571inet-loop-in:
572 set timeout 0
573 set log phase lcp ipcp command
574 allow mode direct
575
576# Example of a VPN.
577#  If you're going to create a tunnel through a public network, your VPN
578#  should be set up something like this:
579#
580#  You should already have set up ssh using ssh-agent & ssh-add.
581#
582sloop:
583 load inet-loop
584 # Passive mode allows ssh plenty of time to establish the connection
585 set openmode passive
586 set device "!ssh whatevermachine /usr/sbin/ppp -direct inet-loop-in"
587
588
589# or a better VPN solution (which doesn't run IP over a reliable
590# protocol like tcp) may be:
591#
592vpn-client:
593 set device udpsrv.mynet:1234/udp               # PPP over UDP
594 set dial
595 set login
596 set ifaddr 10.0.5.1 10.0.4.1 255.255.255.0
597 disable deflate pred1
598 deny deflate pred1
599 enable MPPE                                    # With encryption
600 accept MPPE
601
602vpn-server:
603 set ifaddr 10.0.4.1 10.0.5.1 255.255.255.0
604 disable deflate pred1
605 deny deflate pred1
606 enable MPPE
607 accept MPPE
608 enable chap81                                  # Required for MPPE
609
610# Example of non-PPP callback.
611#  If you wish to connect to a server that will dial back *without* using
612#  the ppp callback facility (rfc1570), take advantage of the fact that
613#  ppp doesn't look for carrier 'till `set login' is complete:
614#
615#  Here, we expect the server to say DIALBACK then disconnect after
616#  we've authenticated ourselves.  When this has happened, we wait
617#  60 seconds for a RING.
618#
619#  Note, it's important that we tell ppp not to expect carrier, otherwise
620#  we'll drop out at the ``NO CARRIER'' stage.
621#
622dialback:
623 set dial "ABORT BUSY ABORT NO\\sCARRIER TIMEOUT 5 \"\" ATZ OK-ATZ-OK \
624           ATDT\\T TIMEOUT 60 CONNECT"
625 set cd off
626 set login "TIMEOUT 5 ogin:--ogin: ppp word: ppp TIMEOUT 15 DIALBACK \
627           \"\" NO\\sCARRIER \"\" TIMEOUT 60 RING ATA CONNECT"
628
629# Example of PPP callback.
630#  Alternatively, if the peer is using the PPP callback protocol, we're
631#  happy either with ``auth'' style callback where the server dials us
632#  back based on what we authenticate ourselves with, ``cbcp'' style
633#  callback (invented by Microsoft but not agreed by the IETF) where
634#  we negotiate callback *after* authentication or E.164 callback where
635#  we specify only a phone number.  I would recommend only ``auth'' and/or
636#  ``cbcp'' callback methods.
637#  For ``cbcp'', we insist that we choose ``1234567'' as the number that
638#  the server must call back.
639#
640callback:
641 load pmdemand                                    # load in the pmdemand config
642 set callback auth cbcp e.164 1234567
643 set cbcp 1234567
644
645# If we're running a ppp server that wants to only call back microsoft
646# clients on numbers configured in /etc/ppp/ppp.secret (the 5th field):
647#
648callback-server:
649 load server
650 set callback cbcp
651 set cbcp
652 set log +cbcp
653 set redial 3 1
654 set device /dev/cuau0
655 set speed 115200
656 set dial "TIMEOUT 10 \"\" AT OK-AT-OK ATDT\\T CONNECT"
657
658# Or if we want to allow authenticated clients to specify their own
659# callback number:
660#
661callback-server-client-decides:
662 load callback-server
663 set cbcp *
664
665# Multilink mode is available (rfc1990).
666#  To enable multi-link capabilities, you must specify a MRRU.  1500 is
667#  a reasonable value.  To create new links, use the ``clone'' command
668#  to duplicate an existing link.  If you already have more than one
669#  link, you must specify which link you wish to run the command on via
670#  the ``link'' command.
671#
672#  It's worth increasing your MTU and MRU slightly in multi-link mode to
673#  prevent full packets from being fragmented.
674#
675#  You can now ``dial'' specific links, or even dial all links at the
676#  same time.  The `dial' command may also be prefixed with a specific
677#  link that should do the dialing.
678#
679mloop:
680 load loop
681 set device /dev/cuau0 /dev/cuau1 /dev/cuau2   # Use any of these devices
682 set mode interactive
683 set mrru 1500
684 set mru 1504                                  # Room for the MP header
685 clone 1 2 3
686 link deflink remove
687 # dial
688 # link 2 dial
689 # link 3 dial
690
691mloop-in:
692 set timeout 0                                 # No idle timer
693 set log tun phase
694 allow mode direct
695 set mrru 1500
696 set mru 1504                                  # Room for the MP header
697
698# User supplied authentication:
699#  It's possible to run ppp in the background while specifying a
700#  program to use to obtain authentication details on demand.
701#  This program would usually be a simple GUI that presents a
702#  prompt to a known user.  The ``chap-auth'' program is supplied
703#  as an example (and requires tcl version 8.0).
704#
705CHAPprompt:
706 load PAPorCHAPpmdemand
707 set authkey !/usr/share/examples/ppp/chap-auth
708
709#  It's possible to do the same sort of thing at the login prompt.
710#  Here, after sending ``brian'' in response to the ``name'' prompt,
711#  we're prompted with ``code:''.  A window is then displayed on the
712#  ``keep:0.0'' display and the typed response is sent to the peer
713#  as the password.  We then expect to see ``MTU'' and ``.'' in the
714#  servers response.
715#
716loginprompt:
717 load pmdemand
718 set authname "brian"
719 set login "ABORT NO\\sCARRIER TIMEOUT 15 \"\" \"\" name:--name: \\U \
720            code: \"!/usr/share/examples/ppp/login-auth -display keep:0.0 \
721                    AUTHNAME\" MTU \\c ."
722
723# ppp supports ppp over ethernet (PPPoE).  Beware, many PPP servers cache
724# the MAC address that connects to them, making it impossible to switch
725# your PPPoE connection between machines.
726#
727# The current implementation requires Netgraph, so it doesn't work with
728# OpenBSD or NetBSD.
729#
730# The client should be something like this:
731#
732pppoe:
733 set device PPPoE:de0:pppoe-in
734 enable lqr echo
735 set cd 5
736 set dial
737 set login
738 set redial 0 0
739
740# And the server should be running
741#
742#   /usr/libexec/pppoed -p pppoe-in fxp0
743#
744# See rc.conf(5)
745#
746pppoe-in:
747 allow mode direct				# Only for use on server-side
748 enable lqr echo proxy				# Enable LQR and proxy-arp
749 enable chap pap passwdauth			# Force client authentication
750 set ifaddr 10.0.0.1 10.0.0.100-10.0.0.199	# Hand out up to 100 IP numbers
751 accept dns					# Allow DNS negotiation
752
753# It's possible to run ppp back-to-back with itself.  This is useful
754# for testing.
755#
756# When testing scalability and concurrency, the following profile might
757# be used.
758#
759# Note, you'll have to make some other machine adjustments:
760#
761#  o Bump maxusers in your kernel configuration to about 256 so that there
762#    are enough process table slots.
763#  o Bump system file descriptors with ``sysctl kern.maxfiles=20480''.  You'll
764#    need 3 descriptors per ppp process (assuming no server socket).
765#
766# You can now create 2000 processes (1000 pairs) with:
767#
768#    n=0
769#    while [ $n -lt 1000 ]; do ppp -b loop; n=$(($n + 1)); done
770#
771# If you want to test concurrency, try using ``ppp -dd loop'' instead.
772#
773loop:
774 set timeout 0
775 set log
776 set device "!ppp -direct loop-in"
777 set dial
778 set login
779 set ifaddr 10.0.1.1/0 10.0.10.1-10.0.19.255
780 disable deflate pred1 mppe
781 deny deflate pred1 mppe
782
783loop-in:
784 set timeout 0
785 set log
786 allow mode direct
787 set ifaddr 10.0.10.1/0 10.0.1.1-10.0.9.255
788 disable deflate pred1 mppe
789 deny deflate pred1 mppe
790