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985 lines
38 KiB
Plaintext
PPP for Linux Version 2.3.11
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============= based on
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ppp-2.3.11
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December 1999
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Paul Mackerras Paul.Mackerras@cs.anu.edu.au
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Al Longyear longyear@netcom.com
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Michael Callahan callahan@maths.ox.ac.uk
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Contents:
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INTRODUCTION
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CREDITS
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INSTALLATION
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PROBLEMS WHICH MAY OCCUR WHILE BUILDING THE KERNEL
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A REFERENCE TO UNDEFINED _mod_use_count_
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BLOCK ON FREELIST AT nnnnnn ISN'T FREE
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GENERAL NETWORK CONFIGURATION
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CONNECTING TO A PPP SERVER
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IF IT WORKS
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IF IT DOESN'T WORK
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IF IT STILL DOESN'T WORK (OR, BUG REPORTS)
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DYNAMIC ADDRESS ASSIGNMENT
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SETTING UP A MACHINE FOR INCOMING PPP CONNECTIONS
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SETTING UP A MACHINE FOR INCOMING PPP CONNECTIONS WITH DYNAMIC IP
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ADDITIONAL INFORMATION
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DIP SUPPORT
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CONCLUSION
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INTRODUCTION
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This file is substantially derived from the previous version for the
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pppd process 2.2.0, which itself was derived from earlier works by
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Michael Callahan. This particular version was written, modified,
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hacked, changed, whatever, by Al Longyear and Paul Mackerras. If you
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find errors in this document, they are probably ours and not
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Michael's.
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This is a PPP driver for Linux. It has been used by many people and
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seems to be quite stable. It is capable of being used either as a
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'client'--for connecting a Linux machine to a local Internet provider,
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for example--or as a 'server'--allowing a Linux machine with a modem
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and an Ethernet connection to the Internet to provide dial-in PPP
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links. (In fact, the PPP protocol does not make the distinction
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between client and server, but this is the way people often think
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about it.)
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The PPP protocol consists of two parts. One is a scheme for framing
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and encoding packets, the other is a series of protocols called LCP,
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IPCP, PAP and CHAP, for negotiating link options and for
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authentication. This package similarly consists of two parts: a
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kernel module which handles PPP's low-level framing protocol, and a
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user-level program called pppd which implements PPP's negotiation
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protocols.
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The kernel module assembles/disassembles PPP frames, handles error
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detection, and forwards packets between the serial port and either the
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kernel network code or the user-level program pppd. IP packets go
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directly to the kernel network code. So once pppd has negotiated the
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link, it in practice lies completely dormant until you want to take
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the link down, when it negotiates a graceful disconnect.
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CREDITS
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Michael Callahan wrote the original kernel driver from scratch.
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Laurence Culhane and Fred van Kempen's slip.c was priceless as a model
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(a perusal of the files will reveal that he often mimicked what slip.c
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did). Otherwise he just implemented what pppd needs, using RFC1331 as
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a guide. For the most part, the Linux driver provides the same
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interface as the free 386BSD and SunOS drivers. The exception is that
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Linux had no support for asynchronous I/O, so he hacked an ioctl into
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the PPP kernel module that provides a signal when packets appear and
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made pppd use this instead.
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Al Longyear ported version 2.0 of pppd (from the free package
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ppp-2.0.0) to Linux. He also provided several enhancements to both
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the kernel driver and the OS-independent part of pppd. His
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contributions to Linux PPP have been immense, and so this release
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is being distributed over both our names.
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Paul Mackerras rewrote and restructured the code for improved
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performance and to make a cleaner separation between the
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network-interface and async TTY parts of the ppp driver.
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Nick Walker added the code to pppd to query the peer for DNS server
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addresses.
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USING THE NEW PPP KERNEL DRIVER
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As of kernel version 2.3.13, the development series of kernels contain
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a new kernel PPP driver, rewritten from scratch by Paul Mackerras.
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This package supports the new driver, although it doesn't include the
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source for the new driver.
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The new driver is divided into two files: ppp_generic.c and
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ppp_async.c. The old ppp.c is still present in the kernel sources but
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is not used. If you compile PPP as a module, you will get two
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separate modules, called ppp_generic and ppp_async.
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Another module ppp_synctty is used for synchronous tty devices
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such as high-speed WAN adapters for leased T1/E1 lines.
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To talk to the new driver, pppd needs to be able to open /dev/ppp,
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character device (108,0). If the special file node /dev/ppp is not
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present, pppd will create it. However, if you are running with /dev
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on a read-only filesystem, pppd will not be able to create /dev/ppp.
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In that instance you should manually create /dev/ppp using the command
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`mknod /dev/ppp c 108 0'.
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If you use module autoloading and have PPP as a module, you will need
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to add the following to your /etc/modules.conf or /etc/conf.modules:
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alias tty-ldisc-3 ppp_async
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alias tty-ldisc-14 ppp_synctty
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alias char-major-108 ppp_generic
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INSTALLATION
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This version of PPP has been tested on various Linux kernel versions
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(most recently 2.2.10). It will not work on kernels before 2.0.0. If
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you have an earlier kernel, please upgrade to the latest 2.2-series
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kernel.
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joining the PPP channel of linux-activists:
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This isn't really part of installation, but if you DO use
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Linux PPP you should do this. Send a message with the line
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subscribe linux-ppp
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contained in the body to majordomo@vger.rutgers.edu
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You may use
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subscribe linux-ppp myname@mail.address
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if you wish the linux-ppp information sent to a different mail
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address.
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To leave the mail list, send 'unsubscribe linux-ppp' to the same
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mail address.
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You can send to the list by mailing to
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linux-ppp@vger.rutgers.edu. This is a majordomo mailing list and
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is unlike the earlier version on hut.fi. There is no magic header
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required for this list. In addition, it is gated to the usenet
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group linux.dev.ppp. You may choose to read the few messages posted
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there.
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Usenet News Groups
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There are three applicable usenet news groups for the PPP code. Please
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choose the group which applies the closest to the type of problem
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which you are experiencing.
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comp.os.linux.networking
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- Trouble setting routes, running name services, using telnet, ftp,
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news, etc.
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- It will not compile.
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comp.os.linux.setup
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- Trouble installing the package from BINARIES only. This does *NOT*
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include problems with compiling the package.
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comp.protocols.ppp
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- How do I use the package?
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- How do I connect to .... services?
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- Why does this not work?
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- All other types of questions on how to use just the PPP code.
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PLEASE don't assume that just because you are using PPP as your
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network device driver that all problems with your networking are a
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problem of PPP. PPP is *NOT* responsible for your modem disconnecting,
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routing to other servers, running telnet, etc. Calling the problem
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'ppp' on usenet may cause it to be ignored by the people who
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actually work on the networking code.
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Installation procedure:
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The installation procedure has been totally revised for this
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version. Due to feedback from other users, it was felt that a more
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automated installation procedure be performed.
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1. Issue the command:
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./configure
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from the top level directory of pppd. This is the directory which
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contains this README.linux file. The result of this will be to build a
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set of symbolic links to the makefiles. They should link 'Makefile' to
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'Makefile.linux' in each of the directories.
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2. Update the kernel sources.
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The 2.2.8 and later kernels contains the same PPP kernel driver as is
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in this release. In fact the driver in the kernel sources is slightly
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different from the one in this package as it doesn't include the stuff
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which enables the driver in this package to compile in either the 2.0
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or 2.2 kernel environment, but the two are functionally equivalent.
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If you are using a 2.2.8 or later kernel and your kernel is already
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configured for PPP, then you only need to do steps 5 and 6.
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Otherwise, continue at step 3.
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If you are using a 2.3 series kernel, use the kernel driver that is in
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the kernel sources. For 2.3.13 and later, this is the new driver (see
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above).
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If you are using a kernel earlier than 2.2.8, you can either use the
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driver in this package or upgrade your kernel to the current 2.2.x
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series kernel (2.2.13, as of the release of ppp-2.3.11). If you choose
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to use the driver in this package, you will need a copy of the kernel
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source tree to compile the driver. Issue the command:
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make kernel
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from the top level directory. This will install the various include
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files and source files into the proper directories in the linux kernel
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source tree. If you don't have the kernel installed in the default
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/usr/src/kernel directory then it will not work. Instead it will print
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a message to the effect that you need to specify the kernel location
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on the kinstall command.
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The actual message will say:
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There appears to be no kernel source distribution in /usr/src/linux.
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Give the top-level kernel source directory as the argument to
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this script.
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usage: kinstall.sh [linux-source-directory]
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If, and only if, you receive this message, do the following:
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a. Change to the 'linux' directory with the command:
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cd linux
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b. Issue the command:
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./kinstall.sh /usr/src/linux
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or use the proper location for the kernel rather than
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/usr/src/linux. For example, if you have the kernel installed in
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/usr1/kernel then the command would be:
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./kinstall.sh /usr1/kernel
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The script will validate that the kernel is properly installed into
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that directory and check the level of the kernel. The installation
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will not be accepted if your kernel is too early.
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The installation procedure will copy only the files which are
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needed. It will not replace any file which should not be
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replaced. Please don't second-guess the installation script and
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attempt to do the procedure on your own. There are some very subtle
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dependencies and if you are not careful, the installation will not
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work.
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You are free to run the installation script as many times as you
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wish. The additional executions will only change the files which have
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not been changed.
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3. Build the kernel.
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You should rebuild the kernel with this package. If you use the
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driver that comes with the current 2.0 kernels, it will not support
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Deflate compression or demand-dialling, but apart from that the pppd
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daemon should work.
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If you don't know how to build a kernel, then you should read the
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README file in the kernel source directory.
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If you want module support then you need to have the 'modules-2.0.0'
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package installed as the minimum version. Earlier versions of the
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module support will not work properly. All of the later ones will.
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Instructions on building the kernel with modules are given in the
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README.modules in the kernel source directory.
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4. Install the kernel
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If you are using the Yggdrasil distribution then you need to 'install'
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the kernel at this point. Refer to their documentation on the procedures
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to install the kernel.
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Distributions other than the Yggdrasil will normally install the
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kernel when you build it.
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5. Build the programs.
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The programs are built next. The command to build the programs is fairly
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simple. Just issue the command:
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make
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from the top level directory where this README.linux file is located.
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6. Install the programs.
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You may use the command
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make install
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(as root) to install the various programs. They will be installed
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into the /usr/sbin directory. If you prefer to install the programs
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elsewhere, you can change the definition of BINDIR in the file
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linux/Makefile.top.
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Earlier versions of the pppd package used /usr/lib/ppp as the
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directory. This has been changed. If you still have code in
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/usr/lib/ppp then you should remove it as it is probably the 2.1
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version of the code. That version will not work with the current ppp.c
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drivers in the kernel.
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7. Reboot to the new kernel.
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After building the new kernel, you will need to actually use it. Reboot
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the Linux system and you may then use the new pppd program.
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8. Load optional modules.
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If you are using loadable modules for the ppp then you must load them
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after the kernel has been started. The following relative order must
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be maintained.
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Sequence Module Description
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1 slhc.o VJ header compression
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2 ppp.o PPP driver
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3 bsd_comp.o BSD compression for PPP's compression protocol.
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If you only have the bsd comprssor as a module then you may load it without
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regard to any order. Likewise you may load the deflate compressor without
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regard to any order with the BSD one. The idea is that the ppp.o code must
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be loaded to use the compressor and the VJ header compression code must be
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loaded to use ppp.o.
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You may elect not to load the BSD compression module if you desire.
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The LZW compression algorithm (as used by BSD-Compress and the
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`compress' command) is claimed to be covered by a patent held by
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Unisys in the USA and other countries.
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In addition, if memory is a premium, do not run the compressors. It
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may take large amounts of memory (up to 2.6 meg) for high compression
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lengths to hold the compression dictionaries.
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Without the compression modules, the PPP driver will not accept PPP's
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compression control protocol for that type. If you have no compressors
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loaded then no compression will be performed. If you don't have the BSD
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compressor loaded then the BSD compression will not be performed, even
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if the peer system supports it. Likewise with the deflate compressor.
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Compressors are unique to their type. If you have the deflate compressor
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loaded and the peer system has the BSD version, still no compression must
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be loaded. BOTH systems must support the same compression protocols.
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PROBLEMS WHICH MAY OCCUR WHILE BUILDING THE KERNEL
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At this time there should not be a problem with the compilation of the
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drivers.
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GENERAL NETWORK CONFIGURATION
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Since many people don't use the Linux networking code at all until
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they get a PPP link, this section describes generally what's needed to
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get things running. In principle none of this is special to PPP. For
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more details, you should consult the relevant Linux HOWTOs. If you
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already understand network setup, you can skip this section.
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The first file that requires attention is the rc script that does
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network configuration at boot time, called /etc/rc.net or
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/etc/rc.d/rc.net.{1,2} or something similar, depending on your Linux
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distribution. This file should 'ifconfig' the loopback interface lo,
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and should add an interface route for it. These lines might look
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something like this:
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$CONFIG lo 127.0.0.1
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$ROUTE add loopback
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or
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/sbin/ifconfig lo 127.0.0.1
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/sbin/route add 127.0.0.1
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However, it should *not* config an ethernet card or install any other
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routes (unless you actually have an ethernet card, in which case I'll
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assume you know what to do). Many distributions will provide scripts
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that expect you to have an ethernet card.
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You also need to decide whether you want to allow incoming
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telnet/ftp/finger, etc. If so, you should have the rc startup script
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run the 'inetd' daemon.
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Next, you should set up /etc/hosts to have two lines. The first
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should just give the loopback or localhost address and the second
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should give your own host name and the IP address your PPP connection
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will use. For example:
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127.0.0.1 loopback localhost # useful aliases
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192.1.1.17 billpc.president.whitehouse.gov bill # my hostname
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192.1.1.23 chelseapc.president.whitehouse.gov chelseapc
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where my IP address is 192.1.1.17 and my hostname is
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billpc.president.whitehouse.gov. (Not really, but you should
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understand my meaning.) If your PPP server does dynamic IP address
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assignment, give a guess as to an address you might get (see also
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"Dynamic Address Assignment" below).
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Finally, you need to configure the domain name system by putting
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appropriate lines in /etc/resolv.conf . It should look something like
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this:
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domain president.whitehouse.gov
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search president.whitehouse.gov whitehouse.gov
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nameserver 192.1.2.1
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nameserver 192.1.2.10
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Assuming there are nameservers at 192.1.2.1 and 192.1.2.10, then when
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you get connected with PPP, you can reach hosts whose full names are
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'hillarypc.president.whitehouse.gov' and 'chelseapc.whitehouse.gov' by
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the names 'hillarypc' and 'chelseapc'. You can probably find out the
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right domain name to use and the IP numbers of nameservers from
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whoever's providing your PPP link.
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Alternatively you may wish to use the option `usepeerdns' and then
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modify your `ip-up' and `ip-down' scripts to automate the process. Or
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check your messages file to see if pppd recorded the DNS addresses
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supplied by the peer ppp server.
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CONNECTING TO A PPP SERVER
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To use PPP, you invoke the pppd program with appropriate options.
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Everything you need to know is contained in the pppd(8) manual page.
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However, it's useful to see some examples:
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Example 1: A simple dial-up connection.
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Here's a command for connecting to a PPP server by modem.
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pppd connect 'chat -v "" ATDT5551212 CONNECT "" ogin: ppp word: whitewater' \
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/dev/cua1 38400 debug crtscts modem defaultroute 192.1.1.17
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Going through pppd's options in order:
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connect 'chat etc...' This gives a command to run to contact the
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PPP server. Here the supplied 'chat' program is used to dial a
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remote computer. The whole command is enclosed in single quotes
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because pppd expects a one-word argument for the 'connect' option.
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The options to 'chat' itself are:
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-v verbose mode; log what we do to syslog
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"" don't wait for any prompt, but instead...
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ATDT5551212 dial the modem, then
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CONNECT wait for answer
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"" send a return (null text followed by usual return)
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ogin: ppp word: whitewater log in.
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Please refer to the chat man page, chat.8, for more information
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on the chat utility.
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/dev/cua1 specify the callout serial port cua1
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38400 specify baud rate
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debug log status in syslog
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crtscts use hardware flow control between computer and modem
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(at 38400 this is a must)
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modem indicate that this is a modem device; pppd will hang up the
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phone before and after making the call
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defaultroute once the PPP link is established, make it the default
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route; if you have a PPP link to the Internet this
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is probably what you want
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192.1.1.17 this is a degenerate case of a general option
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of the form x.x.x.x:y.y.y.y . Here x.x.x.x is the local IP
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address and y.y.y.y is the IP address of the remote end of the
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PPP connection. If this option is not specified, or if just
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one side is specified, then x.x.x.x defaults to the IP address
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associated with the local machine's hostname (in /etc/hosts),
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and y.y.y.y is determined by the remote machine. So if this
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example had been taken from the fictional machine 'billpc',
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this option would actually be redundant.
|
|
|
|
pppd will write error messages and debugging logs to the syslogd
|
|
daemon using the facility name "daemon". These messages may already be
|
|
logged to the console or to a file like /usr/adm/messages; consult
|
|
your /etc/syslog.conf file to see. If you want to make all pppd
|
|
messages go to the console, add the line
|
|
|
|
daemon.* /dev/console
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
This is one or more tabs. Do not use spaces.
|
|
|
|
to syslog.conf; make sure to put one or more TAB characters between
|
|
the two fields.
|
|
|
|
Example 2: Connecting to PPP server over hard-wired link.
|
|
|
|
This is a slightly more complicated example. This is the script I run
|
|
to make my own PPP link, which is over a hard-wired Gandalf link to an
|
|
Ultrix machine running Morningstar PPP.
|
|
|
|
pppd connect /etc/ppp/ppp-connect defaultroute noipdefault debug \
|
|
kdebug 0 /dev/cua0 9600
|
|
|
|
Here /etc/ppp/ppp-connect is the following script:
|
|
#!/bin/sh
|
|
/etc/ppp/sendbreak
|
|
chat -v -t60 "" \; "service :" blackice ogin: callahan word: PASSWORD \
|
|
black% "stty -echo; ppp" "Starting PPP now" && sleep 5
|
|
|
|
This sends a break to wake up my terminal server, sends a semicolon
|
|
(which lets my terminal server do autobaud detection), then says we
|
|
want the service "blackice". It logs in, waits for a shell prompt
|
|
("black%"), then starts PPP. The -t60 argument sets the timeout to a
|
|
minute, since things here are sometimes very slow.
|
|
|
|
(The sendbreak program is not included in this package.)
|
|
|
|
The "&& sleep 5" causes the script to pause for 5 seconds, unless chat
|
|
fails in which case it exits immediately. This is just to give the
|
|
PPP server time to start (it's very slow). Also, the "stty -echo"
|
|
turned out to be very important for me; without it, my pppd would
|
|
sometimes start to send negotiation packets before the remote PPP
|
|
server had time to turn off echoing. The negotiation packets would
|
|
then get sent back to my local machine, be rejected (PPP is able to
|
|
detect loopback) and pppd would fail before the remote PPP server even
|
|
got going. The "stty -echo" command prevents this confusion. This
|
|
kind of problem should only ever affect a *very* few people who
|
|
connect to a PPP server that runs as a command on a slow Unix machine,
|
|
but I wanted to mention it because it took me several frustrating
|
|
hours to figure out.
|
|
|
|
The pppd options are mostly familiar. Two that are new are
|
|
"noipdefault" and "kdebug 1". "noipdefault" tells pppd to ask the
|
|
remote end for the IP address to use; this is necessary if the PPP
|
|
server implements dynamic IP address assignment as mine does (i.e., I
|
|
don't know what address I'll get ahead of time). "kdebug 1" sets the
|
|
kernel debugging level to 1, enabling slightly chattier messages from
|
|
the ppp kernel code.
|
|
|
|
Anyway, assuming your connection is working, you should see chat dial
|
|
the modem, then perhaps some messages from pppd (depending on your
|
|
syslog.conf setup), then some kernel messages like this:
|
|
|
|
ppp: channel ppp0 mtu changed to 1500
|
|
ppp: channel ppp0 open
|
|
ppp: channel ppp0 going up for IP packets!
|
|
|
|
(These messages will only appear if you gave the option "kdebug 1" and
|
|
have kern.info messages directed to the screen.) Simultaneously, pppd
|
|
is also writing interesting things to /usr/adm/messages (or other log
|
|
file, depending on syslog.conf).
|
|
|
|
|
|
IF IT WORKS
|
|
|
|
If you think you've got a connection, there are a number of things you
|
|
can do to test it.
|
|
|
|
First, type
|
|
|
|
/sbin/ifconfig
|
|
|
|
(ifconfig may live elsewhere, depending on your distribution.)
|
|
This should show you all the network interfaces that are 'UP'. ppp0
|
|
should be one of them, and you should recognize the first IP address
|
|
as your own and the "P-t-P address" (or point-to-point address) the
|
|
address of your server. Here's what it looks like on my machine:
|
|
|
|
lo Link encap Local Loopback
|
|
inet addr 127.0.0.1 Bcast 127.255.255.255 Mask 255.0.0.0
|
|
UP LOOPBACK RUNNING MTU 2000 Metric 1
|
|
RX packets 0 errors 0 dropped 0 overrun 0
|
|
TX packets 0 errors 0 dropped 0 overrun 0
|
|
|
|
ppp0 Link encap Point-to-Point Protocol
|
|
inet addr 192.76.32.3 P-t-P 129.67.1.165 Mask 255.255.255.0
|
|
UP POINTOPOINT RUNNING MTU 1500 Metric 1
|
|
RX packets 33 errors 0 dropped 0 overrun 0
|
|
TX packets 42 errors 0 dropped 0 overrun 0
|
|
|
|
Now, type
|
|
|
|
ping z.z.z.z
|
|
|
|
where z.z.z.z is the address of your name server. This should work.
|
|
Here's what it looks like for me:
|
|
|
|
waddington:~$ ping 129.67.1.165
|
|
PING 129.67.1.165 (129.67.1.165): 56 data bytes
|
|
64 bytes from 129.67.1.165: icmp_seq=0 ttl=255 time=268 ms
|
|
64 bytes from 129.67.1.165: icmp_seq=1 ttl=255 time=247 ms
|
|
64 bytes from 129.67.1.165: icmp_seq=2 ttl=255 time=266 ms
|
|
^C
|
|
--- 129.67.1.165 ping statistics ---
|
|
3 packets transmitted, 3 packets received, 0% packet loss
|
|
round-trip min/avg/max = 247/260/268 ms
|
|
waddington:~$
|
|
|
|
Try typing:
|
|
|
|
netstat -nr
|
|
|
|
This should show three routes, something like this:
|
|
|
|
Kernel routing table
|
|
Destination Gateway Genmask Flags Metric Ref Use Iface
|
|
129.67.1.165 0.0.0.0 255.255.255.255 UH 0 0 6 ppp0
|
|
127.0.0.0 0.0.0.0 255.0.0.0 U 0 0 0 lo
|
|
0.0.0.0 129.67.1.165 0.0.0.0 UG 0 0 6298 ppp0
|
|
|
|
If your output looks similar but doesn't have the destination 0.0.0.0
|
|
line (which refers to the default route used for connections), you may
|
|
have run pppd without the 'defaultroute' option.
|
|
|
|
At this point you can try telnetting/ftping/fingering whereever you
|
|
want, bearing in mind that you'll have to use numeric IP addresses
|
|
unless you've set up your /etc/resolv.conf correctly.
|
|
|
|
|
|
IF IT DOESN'T WORK
|
|
|
|
If you don't seem to get a connection, the thing to do is to collect
|
|
'debug' output from pppd. To do this, make sure you run pppd with the
|
|
'debug' option, and put the following two lines in your
|
|
/etc/syslog.conf file:
|
|
|
|
daemon.* /dev/console
|
|
daemon.* /usr/adm/ppplog
|
|
|
|
This will cause pppd's messages to be written to the current virtual
|
|
console and to the file /usr/adm/ppplog. Note that the left-hand
|
|
field and the right-hand field must be separated by at least one TAB
|
|
character. After modifying /etc/syslog.conf, you must execute the
|
|
command 'kill -HUP <pid>' where <pid> is the process ID of the
|
|
currently running syslogd process to cause it to re-read the
|
|
configuration file.
|
|
|
|
Some messages to look for:
|
|
- "pppd[NNN]: Connected..." means that the "connect" script has
|
|
completed successfully.
|
|
- "pppd[NNN]: sent [LCP ConfReq"... means that pppd has attempted to
|
|
begin negotiation with the remote end.
|
|
- "pppd[NNN]: recv [LCP ConfReq"... means that pppd has received a
|
|
negotiation frame from the remote end.
|
|
- "pppd[NNN]: ipcp up" means that pppd has reached the point where
|
|
it believes the link is ready for IP traffic to travel across it.
|
|
|
|
If you never see a "recv" message then there may be serious problems
|
|
with your link. (For example, the link may not be passing all 8
|
|
bits.) If that's the case, it would be useful to collect a debug log
|
|
which contains all the bytes being passed between your computer and
|
|
the remote PPP server. To do this, alter your syslog.conf lines to
|
|
look like this
|
|
|
|
daemon.*,kern.* /dev/console
|
|
daemon.*,kern.* /usr/adm/ppplog
|
|
|
|
and HUP the syslog daemon as before. Then, run pppd with the option
|
|
"kdebug 25". Whatever characters arrive over the PPP terminal line
|
|
will appear in the debugging output.
|
|
|
|
Occasionally you may see a message like
|
|
|
|
ppp_toss: tossing frame, reason = 4
|
|
|
|
The PPP code is throwing away a packet ("frame") from the remote
|
|
server because of a serial overrun. This means your CPU isn't able to
|
|
read characters from the serial port as quickly as they arrive; the
|
|
best solution is to get a 16550A serial chip, which gives the CPU some
|
|
grace period. Reasons other than 4 indicate other kinds of serial
|
|
errors, which should not occur.
|
|
|
|
During the initial connection sequence, you may see one or more
|
|
messages which indicate "bad fcs". This refers to a checksum error in
|
|
a received PPP frame, and usually occurs at the start of a session
|
|
when the peer system is sending some "text" messages, such as "hello
|
|
this is the XYZ company". Messages of "bad fcs" once the link is
|
|
established and the routes have been added are not normal and indicate
|
|
transmission errors or noise on the telephone line.
|
|
|
|
|
|
IF IT STILL DOESN'T WORK (OR, BUG REPORTS)
|
|
|
|
If you're still having difficulty, send the linux-ppp list a bug
|
|
report. It is extremely important to include as much information as
|
|
possible; for example:
|
|
|
|
- the version number of the kernel you are using
|
|
- the version number of Linux PPP you are using
|
|
- the exact command you use to start the PPP session
|
|
- log output from a session run with the 'debug' option, captured
|
|
using daemon.*,kern.* in your syslog.conf file
|
|
- the type of PPP peer that you are connecting to (eg, Xyzzy Corp
|
|
terminal server, Morningstar PPP software, etc)
|
|
- the kind of connection you use (modem, hardwired, etc...)
|
|
|
|
|
|
DYNAMIC ADDRESS ASSIGNMENT
|
|
|
|
You can use Linux PPP with a PPP server which assigns a different IP
|
|
address every time you connect. This action is automatically performed
|
|
when you don't have a local IP address.
|
|
|
|
pppd connect 'chat -v "" ATDT5551212 CONNECT "" ogin: ppp word: whitewater' \
|
|
/dev/cua1 38400 noipdefault debug crtscts modem defaultroute
|
|
|
|
The noipdefault, added to the above example, suppresses the attempts
|
|
of pppd to deduce its own IP address by looking it up in the
|
|
/etc/hosts file. Since the process does not have an IP address, one
|
|
will be assigned to it from the configuration file on the remote
|
|
system.
|
|
|
|
Sometimes you may get an error message like "Cannot assign requested
|
|
address" when you use a Linux client (for example, "talk"). This
|
|
happens when the IP address given in /etc/hosts for our hostname
|
|
differs from the IP address used by the PPP interface. The solution
|
|
is to use ifconfig ppp0 to get the interface address and then edit
|
|
/etc/hosts appropriately.
|
|
|
|
|
|
|
|
SETTING UP A MACHINE FOR INCOMING PPP CONNECTIONS
|
|
|
|
Suppose you want to permit another machine to call yours up and start
|
|
a PPP session. This is possible using Linux PPP.
|
|
|
|
One way is to create an account named, say, 'ppp', with the login
|
|
shell being a short script that starts pppd. For example, the passwd
|
|
entry might look like this:
|
|
|
|
ppp:(encrypted password):102:50:PPP client login:/home/ppp:/usr/sbin/pppd
|
|
|
|
In addition, you would edit the file ~ppp/.ppprc to have the following
|
|
pieces of information:
|
|
|
|
-detach
|
|
modem
|
|
crtscts
|
|
lock
|
|
:192.1.2.33
|
|
|
|
Here we will insist that the remote machine use IP address 192.1.2.33,
|
|
while the local PPP interface will use the IP address associated with
|
|
this machine's hostname in /etc/hosts. The '-detach' option is required
|
|
for a server. It tells the pppd process not to terminate until the modem
|
|
is disconnected. Should it fork, the init process would restart the getty
|
|
process and the this would cause a severe conflict over the port.
|
|
|
|
The 'modem' option indicates that the connection is via a switched circuit
|
|
(using a modem) and that the pppd process should monitor the DCD signal
|
|
from the modem.
|
|
|
|
The 'crtscts' option tells the pppd process to use hardware RTS/CTS flow
|
|
control for the modem.
|
|
|
|
The 'lock' option tells pppd to lock the tty device. This will use the UUCP
|
|
style locking file in the lock directory.
|
|
|
|
This setup is sufficient if you just want to connect two machines so
|
|
that they can talk to one another. If you want to use Linux PPP to
|
|
connect a single machine to an entire network, or to connect two
|
|
networks together, then you need to arrange for packets to be routed
|
|
from the networks to the PPP link. Setting up a link between networks
|
|
is beyond the scope of this document; you should examine the routing
|
|
options in the manual page for pppd carefully and find out about
|
|
routed, etc.
|
|
|
|
Let's consider just the first case. Suppose you have a Linux machine
|
|
attached to an Ethernet, and you want to allow its PPP peer to be able
|
|
to communicate with hosts on that Ethernet. To do this, you should
|
|
have the remote machine use an IP address that would normally appear
|
|
to be on the local Ethernet segment and you should give the 'proxyarp'
|
|
option to pppd on the server. Suppose, for example, we have this
|
|
setup:
|
|
|
|
192.1.2.33 192.1.2.17
|
|
+-----------+ PPP link +----------+
|
|
| chelseapc | ------------------- | billpc |
|
|
+-----------+ +----------+
|
|
| Ethernet
|
|
----------------------------------- 192.1.2.x
|
|
|
|
Here the PPP and Ethernet interfaces of billpc will have IP address
|
|
192.1.2.17. (It's OK for one or more PPP interfaces on a machine to
|
|
share an IP address with an Ethernet interface.) There is an
|
|
appropriate entry in /etc/passwd on billpc to allow chelseapc to call
|
|
in. It will run pppd when the user signs on to the system and pppd will
|
|
take the options from the user option file.
|
|
|
|
In addition, you would edit the file ~ppp/.ppprc to have the following
|
|
piece of information:
|
|
|
|
-detach
|
|
modem
|
|
crtscts
|
|
lock
|
|
192.1.2.17:192.1.2.33
|
|
proxyarp
|
|
|
|
When the link comes up, pppd will enter a "proxy arp" entry for
|
|
chelseapc into the arp table on billpc. What this means effectively
|
|
is that billpc will pretend to the other machines on the 192.1.2.x
|
|
Ethernet that its Ethernet interface is ALSO the interface for
|
|
chelseapc (192.1.2.33) as well as billpc (192.1.2.17). In practice
|
|
this means that chelseapc can communicate just as if it was directly
|
|
connected to the Ethernet.
|
|
|
|
|
|
|
|
SETTING UP A MACHINE FOR INCOMING PPP CONNECTIONS WITH DYNAMIC IP
|
|
|
|
The use of dynamic IP assignments is not much different from that
|
|
using static IP addresses. Rather than putting the IP address into the
|
|
single file ~ppp/.ppprc, you would put the IP address for each of the
|
|
incoming terminals into the /etc/ppp/options.tty files. ('tty' is the
|
|
name of the tty device. For example /etc/ppp/options.ttyS0 is used for
|
|
the /dev/ttyS0 device.)
|
|
|
|
To each of the serial devices, you would attach a modem. To the
|
|
modems, attach the telephone lines. Place all of the telephone lines
|
|
into a hunt group so that the telephone system will select the
|
|
non-busy telephone and subsequently, the modem. By selecting the
|
|
modem, the user will select a tty device and the tty device will
|
|
select the IP address. Run a getty process against the tty device such
|
|
as /dev/ttyS0.
|
|
|
|
(The general consensus among the users is that you should *not* use
|
|
the agetty process to monitor a modem. Use either getty_ps' uugetty
|
|
process or mgetty from the mgetty+sendfax package.)
|
|
|
|
|
|
SECURITY CONCERNS ABOUT INCOMING PPP CONNECTIONS
|
|
|
|
The following security should be considered with the ppp connections.
|
|
|
|
1. Never put the pppd program file into the /etc/shells file. It is not
|
|
a legal shell for the general user. In addition, if the shell is missing
|
|
from the shells file, the ftpd process will not allow the user to access
|
|
the system via ftp. You would not want Joe Hacker using the ppp account
|
|
via ftp.
|
|
|
|
2. Ensure that the directory /etc/ppp is owned by 'root' and permits
|
|
write access only to the root user.
|
|
|
|
3. The files /etc/ppp/options must be owned by root and writable only
|
|
by root.
|
|
|
|
4. The files /etc/ppp/ip-up and /etc/ppp/ip-down will be executed by the
|
|
pppd process while it is root. Ensure that these files are writable only
|
|
from the root user.
|
|
|
|
5. If you use an incoming PPP connection, you should do the following as
|
|
the root user:
|
|
|
|
a) Invalidate the files for rhosts and forward
|
|
rm -f ~ppp/.rhosts ~ppp/.forward
|
|
touch ~ppp/.rhosts ~ppp/.forward
|
|
chmod 444 ~ppp/.rhosts ~ppp/.forward
|
|
|
|
b) Prevent users from sending mail to the user 'ppp'.
|
|
|
|
This is best performed by creating a system alias 'ppp' and have it
|
|
point to the name "THIS_USER_CANNOT_RECEIVE_MAIL". It has no special
|
|
meaning other than the obvious one.
|
|
|
|
For sendmail, the sequence is fairly easy. Edit the /etc/aliases file
|
|
and add the line:
|
|
|
|
ppp:THIS_USER_CANNOT_RECEIVE_MAIL
|
|
|
|
Then run the sendmail program with the option '-bi' to rebuild the
|
|
alias database.
|
|
|
|
c) Secure the ppp file properly.
|
|
chown root ~ppp/.ppprc
|
|
chmod 444 ~ppp/.ppprc
|
|
|
|
You may wish to extend the security by creating a group 'ppp' and putting
|
|
the ppp user into that group, along with the binaries for pppd and pppstats.
|
|
Then you may secure the binaries so that they are executable from the owner
|
|
(which should be root) and the group only. All other users would be denied
|
|
all access to the files and executables.
|
|
|
|
d) Prevent the motd file from being sent to the ppp user.
|
|
touch ~ppp/.hushlogin
|
|
chown root ~ppp/.hushlogin
|
|
chmod 444 ~ppp/.hushlogin
|
|
|
|
|
|
ADDITIONAL INFORMATION
|
|
|
|
Besides this document, additional information may be found in:
|
|
|
|
- The file README in the source package
|
|
- The PPP-HOWTO on sunsite.unc.edu
|
|
- The Net-2-HOWTO on sunsite.unc.edu
|
|
- The Network Administration Guide published by O'Rielly and Associates
|
|
|
|
Please consult these sources of information should you have questions
|
|
about the program. If you still can not find your answer then ask either
|
|
the usenet news groups or the mail list.
|
|
|
|
|
|
|
|
DIP SUPPORT
|
|
|
|
The dip program used by Linux is not directly supported by the PPP
|
|
package as such. Please don't ask the PPP porting group questions
|
|
about dip. It does work in two areas.
|
|
|
|
1. If you use it as a parameter to 'connect' then you can use the scripting
|
|
language and establish the connection. You would use the standard set of
|
|
PPP options.
|
|
|
|
2. dip-3.3.7m-uri and later versions support a 'mode ppp' function
|
|
which will invoke the pppd program. That is all that it does. It will
|
|
not pass any parameters to pppd other than its required '-detach' to
|
|
allow dip to detect the normal termination of pppd.
|
|
|
|
The following information comes from John Phillips in an article which he
|
|
posted to comp.os.linux.setup.
|
|
|
|
Assuming that you already know how dip supports SLIP, these points
|
|
are relative to a working SLIP set-up.
|
|
|
|
1. You need dip-3.3.7m-uri, and, of course, PPP compiled into the
|
|
kernel.
|
|
|
|
2. Make sure pppd is where dip thinks it is: /usr/lib/ppp/pppd, or
|
|
make a link from there to where pppd really is. (Or re-compile dip
|
|
to tell it where pppd is on your system - see pathnames.h).
|
|
|
|
3. The key differences between the dip script for PPP, compared to one
|
|
for SLIP are:
|
|
|
|
a. Use "mode PPP" instead of "mode SLIP"
|
|
|
|
b. Don't set certain options such as mtu and default - these are set
|
|
by pppd from the file /etc/ppp/options. Mine looks like this:
|
|
|
|
crtscts
|
|
modem
|
|
defaultroute
|
|
asyncmap 0x00000000
|
|
mru 576
|
|
mtu 576
|
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The actual parameters and values may depend on your IP supplier
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and his set-up.
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c. Tell your IP supplier's start-up code to use ppp, not slip: I
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use "send nolqm,idle=240\n" instead of "send slip,idle=240,mru=576\n"
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at the "protocol: " prompt. ("nolqm" asks for ppp without the line
|
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quality monitoring protocol, which is not - I think - supported in
|
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Linux PPP.) This prompt may be different (or absent) with another
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|
IP supplier.
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d. You don't need "get $local <name>", since the ppp protocol
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|
negotiates this at start-up. You still need "get $remote <name>".
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(This may also vary with IP supplier - you may need to set some
|
|
more parameters in /etc/ppp/options to work with yours - see "man
|
|
pppd" for details of the options supported by pppd.)
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|
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4. The dip script will exit after dialling and starting up pppd. When
|
|
ppp negotiation is completed and IP comes up, pppd runs /etc/ppp/ip-up.
|
|
This file can contain things you want to run when the network comes up
|
|
(e.g. running the mail queue).
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|
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5. When IP goes down (e.g. after you close down the link with "dip -k"),
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|
pppd runs /etc/ppp/ip-down, which can contain things you want to do on
|
|
close-down.
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CONCLUSION
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Good luck!
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Al and Michael
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