Much of this document is quoted directly from the Linux FreeS/WAN mailing list. Thanks very much to the community of testers, patchers and commenters there, especially the ones quoted below but also various contributors we haven't quoted.
In general, do not expect Linux FreeS/WAN to do everything yet. This is a work-in-progress and some parts of the IPsec specification are not yet implemented.
Things we do:
In negotiating a keying connection (ISAKMP SA, Phase 1) we propose both groups when we are the initiator, and accept either when a peer proposes them. Once the keying connection is made, we propose only the alternative agreed there for data connections (IPsec SA's, Phase 2) negotiated over that keying connection.
In negotiations, we propose both of these and accept either.
All combinations of implemented transforms are supported. Note that some form of packet-level authentication is required whenever encryption is used. Without it, the encryption will not be secure.
Things we deliberately omit which are required in the RFCs are:
Since these are the only encryption algorithms and DH group the RFCs require, it is possible in theory to have a standards-conforming implementation which will not interpoperate with FreeS/WAN. Such an implementation would be inherently insecure, so we do not consider this a problem.
Anyway, most implementations sensibly include more secure options as well, so dropping null encryption, single DES and Group 1 does not greatly hinder interoperation in practice.
We also do not implement some optional features allowed by the RFCs:
In theory, this should cause no interoperation problems since all implementations are required to support the more secure main mode, whether or not they also allow aggressive mode.
In practice, it does sometimes produce problems with implementations such as Windows 2000 where aggressive mode is the default. Typically, these are easily solved with a configuration change that overrides that default.
Things we don't yet do:
Currently Triple DES is the only encryption method Pluto will negotiate.
No additional encryption transforms are implemented, though the RFCs allow them and some other IPsec implementations support various of them. We are not eager to add more. See this FAQ question.
AES, the successor to the DES standard, is an excellent candidate for inclusion in FreeS/WAN, see links to user patches.
No optional additional authentication transforms are currently implemented. Likely SHA-256, SHA-384 and SHA-512 will be added when AES is.
To fully comply with the RFCs, it is not enough just to accept only packets which survive any firewall rules in place to limit what IPsec packets get in, and then pass KLIPS authentication. That is what FreeS/WAN currently does.
We should also apply additional tests, for example ensuring that all packets emerging from a particular tunnel have source and destination addresses that fall within the subnets defined for that tunnel, and that packets with those addresses that did not emerge from the appropriate tunnel are disallowed.
We use PF-key Version Two for communication between the KLIPS kernel code and the Pluto Daemon. PF-Key v2 is defined by RFC 2367.
The "PF" stands for Protocol Family. PF-Inet defines a kernel/userspace interface for the TCP/IP Internet protocols (TCP/IP), and other members of the PF series handle Netware, Appletalk, etc. PF-Key is just a PF for key-related matters.
PF-Key came out of Berkeley Unix work and is used in the various BSD IPsec implementations, and in Solaris. This means there is some hope of porting our Pluto(8) to one of the BSD distributions, or of running their photurisd(8) on Linux if you prefer Photuris key management over IKE.
It is, however, more complex than that. The PF-Key RFC deliberately deals only with keying, not policy management. The three PF-Key implementations we have looked at -- ours, OpenBSD and KAME -- all have extensions to deal with security policy, and the extensions are different. There have been discussions aimed at sorting out the differences, perhaps for a version three PF-Key spec. All players are in favour of this, but everyone involved is busy and it is not clear whether or when these discussions might bear fruit.
We develop and test on Redhat Linux using the most recent kernel in the 2.2 and 2.4 series. In general, we recommend you use the latest kernel in one of those series. Complications and caveats are discussed below.
Consider upgrading to the 2.2 kernel series. If you want to stay with the 2.0 series, then we strongly recommend 2.0.39. Some useful security patches were added in 2.0.38.
Various versions of the code have run at various times on most 2.0.xx kernels, but the current version is only lightly tested on 2.0.39, and not at all on older kernels.
Some of our patches for older kernels are shipped in 2.0.37 and later, so they are no longer provided in FreeS/WAN. This means recent versions of FreeS/WAN will probably not compile on anything earlier than 2.0.37.
In general, we suggest the latest 2.4 kernel for production use.
Of course no release can be guaranteed to run on kernels more recent than it is, so quite often there will be no stable FreeS/WAN for the absolute latest kernel. See the FAQ for discussion.
We develop and test on Redhat 6.1 for 2.2 kernels, and on Redhat 7.1+, 8 or 9 for 2.4, so minor changes may be required for other distributions.
There are some problems with FreeS/WAN on Redhat 7.0. They are soluble, but we recommend you upgrade to a later Redhat instead..
Redhat 7 ships with two compilers.
Kernel Makefiles have gcc as a default, and must be adjusted to use kgcc before a kernel will compile on 7.0. This mailing list message gives details:
Subject: Re: AW: Installing IPsec on Redhat 7.0 Date: Thu, 1 Feb 2001 14:32:52 -0200 (BRST) From: Mads Rasmussen <mads@cit.com.br> > From www.redhat.com/support/docs/gotchas/7.0/gotchas-7-6.html#ss6.1 cd to /usr/src/linux and open the Makefile in your favorite editor. You will need to look for a line similar to this: CC = $(CROSS_COMPILE)gcc -D__KERNEL__ -I$(HPATH) This line specifies which C compiler to use to build the kernel. It should be changed to: CC = $(CROSS_COMPILE)kgcc -D__KERNEL__ -I$(HPATH) for Red Hat Linux 7. The kgcc compiler is egcs 2.91.66. From here you can proceed with the typical compiling steps.
Check the mailing list archive for more recent news.
SuSE 6.3 and later versions, at least in Europe, ship with FreeS/WAN included.
FreeS/WAN packages distributed for SuSE 7.0-7.2 were somehow miscompiled. You can find fixed packages on Kurt Garloff's page.
Here are some notes for an earlier SuSE version.
Date: Mon, 30 Nov 1998 From: Peter Onion <ponion@srd.bt.co.uk> ... I got Saturdays snapshot working between my two SUSE5.3 machines at home. The mods to the install process are quite simple. From memory and looking at the files on the SUSE53 machine here at work.... And extra link in each of the /etc/init.d/rc?.d directories called K35ipsec which SUSE use to shut a service down. A few mods in /etc/init.d/ipsec to cope with the different places that SUSE put config info, and remove the inculsion of /etc/rc.d/init.d/functions and . /etc/sysconfig/network as they don't exists and 1st one isn't needed anyway. insert ". /etc/rc.config" to pick up the SUSE config info and use if test -n "$NETCONFIG" -a "$NETCONFIG" != "YAST_ASK" ; then to replace [ ${NETWORKING} = "no" ] && exit 0 Create /etc/sysconfig as SUSE doesn't have one. I think that was all (but I prob forgot something)....
You may also need to fiddle initialisation scripts to ensure that /var/run/pluto.pid is removed when rebooting. If this file is present, Pluto does not come up correctly.
Subject: Re: linux-IPsec: Slackware distribution Date: Thu, 15 Apr 1999 12:07:01 -0700 From: Evan Brewer <dmessiah@silcon.com> > Very shortly, I will be needing to install IPsec on at least gateways that > are running Slackware. . . . The only trick to getting it up is that on the slackware dist there is no init.d directory in /etc/rc.d .. so create one. Then, what I do is take the IPsec startup script which normally gets put into the init.d directory, and put it in /etc/rc.d and name ir rc.ipsec .. then I symlink it to the file in init.d. The only file in the dist you need to really edit is the utils/Makefile, setup4: Everything else should be just fine.
A year or so later:
Subject: Re: HTML Docs- Need some cleanup? Date: Mon, 8 Jan 2001 From: Jody McIntyre <jodym@oeone.com> I have successfully installed FreeS/WAN on several Slackware 7.1 machines. FreeS/WAN installed its rc.ipsec file in /etc/rc.d. I had to manually call this script from rc.inet2. This seems to be an easier method than Evan Brewer's.
A recent (Nov 2001) mailing list points to a web page on setting up several types of tunnel, including IPsec, on Debian.
Some older information:
Subject: FreeS/WAN 1.0 on Debian 2.1 Date: Tue, 20 Apr 1999 From: Tim Miller <cerebus+counterpane@haybaler.sackheads.org> Compiled and installed without error on a Debian 2.1 system with kernel-source-2.0.36 after pointing RCDIR in utils/Makefile to /etc/init.d. /var/lock/subsys/ doesn't exist on Debian boxen, needs to be created; not a fatal error. Finally, IPsec scripts appear to be dependant on GNU awk (gawk); the default Debian awk (mawk-1.3.3-2) had fatal difficulties. With gawk installed and /etc/alternatives/awk linked to /usr/bin/gawk operation appears flawless.
The scripts in question have been modified since this was posted. Awk versions should no longer be a problem.
Subject: Re: HTML Docs- Need some cleanup? Date: Mon, 08 Jan 2001 From: Andy Bradford <andyb@calderasystems.com> On Sun, 07 Jan 2001 22:59:05 EST, Sandy Harris wrote: > Intel Linux distributions other than Redhat 5.x and 6.x > Redhat 7.0 > SuSE Linux > SuSE Linux 5.3 > Slackware > Debian Can you please include Caldera in this list? I have tested it since FreeS/Wan 1.1 and it works great with our systems---provided one follows the FreeS/Wan documentation. :-) Thank you, Andy
FreeS/WAN has been run sucessfully on a number of different CPU architectures. If you have tried it on one not listed here, please post to the mailing list.
Current Sharp Zaurus models have ARM (XScale or StrongARM) CPUs. We know that FreeS/WAN and OpenZaurus run well on the Zaurus 5500 and 5600. See these links for more information:
"How do you do that in
Linux?" HOWTO (FreeS/WAN 2 on Zaurus 5600)
Jens Liebchen's
HOWTO (FreeS/wAN 1.99 for Z 5500) in English or German
Zeeswan ipkgs
(FreeS/WAN 1.99 for Z 5500) provided by Ken Bantoft
Subject: linux-ipsec: Netwinder diffs Date: Wed, 06 Jan 1999 From: rhatfield@plaintree.com I had a mistake in my IPsec-auto, so I got things working this morning. Following are the diffs for my changes. Probably not the best and cleanest way of doing it, but it works. . . .
These diffs are in the 0.92 and later distributions, so these should work out-of-the-box on Netwinder.
Subject: Compiling FreeS/WAN 1.1 on YellowDog Linux (PPC) Date: 11 Dec 1999 From: Darron Froese <darron@fudgehead.com> I'm summarizing here for the record - because it's taken me many hours to do this (multiple times) and because I want to see IPsec on more linuxes than just x86. Also, I can't remember if I actually did summarize it before... ;-) I'm working too many late hours. That said - here goes. 1. Get your linux kernel and unpack into /usr/src/linux/ - I used 2.2.13. <http://www.kernel.org/pub/linux/kernel/v2.2/linux-2.2.13.tar.bz2> 2. Get FreeS/WAN and unpack into /usr/src/freeswan-1.1 <ftp://ftp.xs4all.nl/pub/crypto/freeswan/freeswan-1.1.tar.gz> 3. Get the gmp src rpm from here: <ftp://ftp.yellowdoglinux.com//pub/yellowdog/champion-1.1/SRPMS/SRPMS/gmp-2.0.2-9a.src.rpm> 4. Su to root and do this: rpm --rebuild gmp-2.0.2-9a.src.rpm You will see a lot of text fly by and when you start to see the rpm recompiling like this: Executing: %build + umask 022 + cd /usr/src/redhat/BUILD + cd gmp-2.0.2 + libtoolize --copy --force Remember to add `AM_PROG_LIBTOOL' to `configure.in'. You should add the contents of `/usr/share/aclocal/libtool.m4' to `aclocal.m4'. + CFLAGS=-O2 -fsigned-char + ./configure --prefix=/usr Hit Control-C to stop the rebuild. NOTE: We're doing this because for some reason the gmp source provided with FreeS/WAN 1.1 won't build properly on ydl. cd /usr/src/redhat/BUILD/ cp -ar gmp-2.0.2 /usr/src/freeswan-1.1/ cd /usr/src/freeswan-1.1/ rm -rf gmp mv gmp-2.0.2 gmp 5. Open the freeswan Makefile and change the line that says: KERNEL=$(b)zimage (or something like that) to KERNEL=vmlinux 6. cd ../linux/ 7. make menuconfig Select an option or two and then exit - saving your changes. 8. cd ../freeswan-1.1/ ; make menugo That will start the whole process going - once that's finished compiling, you have to install your new kernel and reboot. That should build FreeS/WAN on ydl (I tried it on 1.1).And a later message on the same topic:
Subject: Re: FreeS/WAN, PGPnet and E-mail Date: Sat, 22 Jan 2000 From: Darron Froese <darron@fudgehead.com> on 1/22/00 6:47 PM, Philip Trauring at philip@trauring.com wrote: > I have a PowerMac G3 ... The PowerMac G3 can run YDL 1.1 just fine. It should also be able to run FreeS/WAN 1.2patch1 with a couple minor modifications: 1. In the Makefile it specifies a bzimage for the kernel compile - you have to change that to vmlinux for the PPC. 2. The gmp source that comes with FreeS/WAN (for whatever reason) fails to compile. I have gotten around this by getting the gmp src rpm from here: ftp://ftp.yellowdoglinux.com//pub/yellowdog/champion-1.1/SRPMS/SRPMS/gmp-2.0.2-9a.src.rpm If you rip the source out of there - and place it where the gmp source resides it will compile just fine.
FreeS/WAN no longer includes GMP source.
One user reports success on the Mach-based microkernel Linux.
Subject: Smiles on sparc and ppc Date: Fri, 10 Mar 2000 From: Jake Hill <jah@alien.bt.co.uk> You may or may not be interested to know that I have successfully built FreeS/WAN on a number of non intel alpha architectures; namely on ppc and sparc and also on osfmach3/ppc (MkLinux). I can report that it just works, mostly, with few changes.
Subject: IT WORKS (again) between intel & alpha :-))))) Date: Fri, 29 Jan 1999 From: Peter Onion <ponion@srd.bt.co.uk> Well I'm happy to report that I've got an IPsec connection between by intel & alpha machines again :-)) If you look back on this list to 7th of December I wrote... -On 07-Dec-98 Peter Onion wrote: -> -> I've about had enuf of wandering around inside the kernel trying to find out -> just what is corrupting outgoing packets... - -Its 7:30 in the evening ..... - -I FIXED IT :-)))))))))))))))))))))))))))))))) - -It was my own fault :-(((((((((((((((((( - -If you ask me very nicly I'll tell you where I was a little too over keen to -change unsigned long int __u32 :-) OPSE ... - -So tomorrow it will full steam ahead to produce a set of diffs/patches against -0.91 - -Peter Onion.
In general (there have been some glitches), FreeS/WAN has been running on Alphas since then.
Several users have reported success with FreeS/WAN on SPARC Linux. Here is one mailing list message:
Subject: Smiles on sparc and ppc Date: Fri, 10 Mar 2000 From: Jake Hill <jah@alien.bt.co.uk> You may or may not be interested to know that I have successfully built FreeS/WAN on a number of non intel alpha architectures; namely on ppc and sparc and also on osfmach3/ppc (MkLinux). I can report that it just works, mostly, with few changes. I have a question, before I make up some patches. I need to hack gmp/mpn/powerpc32/*.s to build them. Is this ok? The changes are trivial, but could I also use a different version of gmp? Is it vanilla here? I guess my only real headache is from ipchains, which appears to stop running when IPsec has been started for a while. This is with 2.2.14 on sparc.
This message, from a different mailing list, may be relevant for anyone working with FreeS/WAN on Suns:
Subject: UltraSPARC DES assembler Date: Thu, 13 Apr 2000 From: svolaf@inet.uni2.dk (Svend Olaf Mikkelsen) To: coderpunks@toad.com An UltraSPARC assembler version of the LibDES/SSLeay/OpenSSL des_enc.c file is available at http://inet.uni2.dk/~svolaf/des.htm. This brings DES on UltraSPARC from slower than Pentium at the same clock speed to significantly faster.
We know FreeS/WAN runs on at least some MIPS processors because Lasat manufacture an IPsec box based on an embedded MIPS running Linux with FreeS/WAN. We have no details.
The Merilus Firecard, a Linux firewall on a PCI card, is based on a Crusoe processor and supports FreeS/WAN.
Subject: Re: Crypto hardware support Date: Mon, 03 Jul 2000 From: Dan DeVault <devault@tampabay.rr.com> .... I have been running uClinux with FreeS/WAN 1.4 on a system built by Moreton Bay ( http://www.moretonbay.com ) and it was using a Coldfire processor and was able to do the Triple DES encryption at just about 1 mbit / sec rate....... they put a Hi/Fn 7901 hardware encryption chip on their board and now their system does over 25 mbit of 3DES encryption........ pretty significant increase if you ask me.
FreeS/WAN is designed to work on SMP (symmetric multi-processing) Linux machines and is regularly tested on dual processor x86 machines.
We do not know of any testing on multi-processor machines with other CPU architectures or with more than two CPUs. Anyone who does test this, please report results to the mailing list.
The current design does not make particularly efficient use of multiprocessor machines; some of the kernel work is single-threaded.
Supporting hardware cryptography accelerators has not been a high priority for the development team because it raises a number of fairly complex issues:
That said, we have a report of FreeS/WAN working with one crypto accelerator and some work is going on to modify KLIPS to create a clean generic interface to such products. See this web page for some of the design discussion.
More recently, a patch to support some hardware accelerators has been posted:
Subject: [Design] [PATCH] H/W acceleration patch Date: Tue, 18 Sep 2001 From: "Martin Gadbois" <martin.gadbois@colubris.com> Finally!! Here's a web site with H/W acceleration patch for FreeS/WAN 1.91, including S/W and Hifn 7901 crypto support. http://sources.colubris.com/ Martin Gadbois
Hardware accelerators could take performance well beyond what FreeS/WAN can do in software (discussed here). Here is some discussion off the IETF IPsec list, October 2001:
... Currently shipping chips deliver, 600 mbps throughput on a single stream of 3DES IPsec traffic. There are also chips that use multiple cores to do 2.4 gbps. We (Cavium) and others have announced even faster chips. ... Mid 2002 versions will handle at line rate (OC48 and OC192) IPsec and SSL/TLS traffic not only 3DES CBC but also AES and arc4.
The patches to date support chips that have been in production for some time, not the state-of-the-art latest-and-greatest devices described in that post. However, they may still outperform software and they almost certainly reduce CPU overhead.
The Internet currently runs on version four of the IP protocols. IPv4 is what is in the standard Linux IP stack, and what FreeS/WAN was built for. In IPv4, IPsec is an optional feature.
The next version of the IP protocol suite is version six, usually abbreviated either as "IPv6" or as "IPng" for "IP: the next generation". For IPv6, IPsec is a required feature. Any machine doing IPv6 is required to support IPsec, much as any machine doing (any version of) IP is required to support ICMP.
There is a Linux implementation of IPv6 in Linux kernels 2.2 and above. For details, see the FAQ. It does not yet support IPsec. The USAGI project are also working on IPv6 for Linux.
FreeS/WAN was originally built for the current standard, IPv4, but we are interested in seeing it work with IPv6. Some progress has been made, and a patched version with IPv6 support is available. For more recent information, check the mailing list.
IPv6 has been specified by an IETF working group. The group's page lists over 30 RFCs to date, and many Internet Drafts as well. The overview is RFC 2460. Major features include:
A number of projects are working on IPv6 implementation. A prominent Open Source effort is KAME, a collaboration among several large Japanese companies to implement IPv6 for Berkeley Unix. Other major players are also working on IPv6. For example, see pages at:
The 6bone (IPv6 backbone) testbed network has been up for some time. There is an active IPv6 user group.
One of the design goals for IPv6 was that it must be possible to convert from v4 to v6 via a gradual transition process. Imagine the mess if there were a "flag day" after which the entire Internet used v6, and all software designed for v4 stopped working. Almost every computer on the planet would need major software changes! There would be huge costs to replace older equipment. Implementers would be worked to death before "the day", systems administrators and technical support would be completely swamped after it. The bugs in every implementation would all bite simultaneously. Large chunks of the net would almost certainly be down for substantial time periods. ...
Fortunately, the design avoids any "flag day". It is therefore a little tricky to tell how quickly IPv6 will take over. The transition has certainly begun. For examples, see announcements from NTT and Nokia. However, it is not yet clear how quickly the process will gain momentum, or when it will be completed. Likely large parts of the Internet will remain with IPv4 for years to come.