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1. separating L2 tables (ARP, NDP) from the L3 routing tables 2. removing as much locking dependencies among these layers as possible to allow for some parallelism in the search operations 3. simplify the logic in the routing code, The most notable end result is the obsolescent of the route cloning (RTF_CLONING) concept, which translated into code reduction in both IPv4 ARP and IPv6 NDP related modules, and size reduction in struct rtentry{}. The change in design obsoletes the semantics of RTF_CLONING, RTF_WASCLONE and RTF_LLINFO routing flags. The userland applications such as "arp" and "ndp" have been modified to reflect those changes. The output from "netstat -r" shows only the routing entries. Quite a few developers have contributed to this project in the past: Glebius Smirnoff, Luigi Rizzo, Alessandro Cerri, and Andre Oppermann. And most recently: - Kip Macy revised the locking code completely, thus completing the last piece of the puzzle, Kip has also been conducting active functional testing - Sam Leffler has helped me improving/refactoring the code, and provided valuable reviews - Julian Elischer setup the perforce tree for me and has helped me maintaining that branch before the svn conversion |
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.. | ||
BSD | ||
etc | ||
FreeBSD | ||
FreeBSD-2.2 | ||
FreeBSD-3 | ||
FreeBSD-4.0 | ||
FWTK | ||
iplang | ||
ipsd | ||
ipsend | ||
l4check | ||
lib | ||
man | ||
net | ||
perl | ||
rules | ||
samples | ||
test | ||
tools | ||
.cvsignore | ||
BNF | ||
bpf_filter.c | ||
bpf-ipf.h | ||
bsdinstall | ||
BugReport | ||
FAQ.FreeBSD | ||
HISTORY | ||
IMPORTANT | ||
INST.FreeBSD-2.2 | ||
INSTALL.FreeBSD | ||
INSTALL.xBSD | ||
ip_fil.c | ||
ip_msnrpc_pxy.c | ||
ipf.h | ||
IPF.KANJI | ||
ipmon.h | ||
ipt.h | ||
kmem.h | ||
LICENCE | ||
Makefile | ||
md5.c | ||
md5.h | ||
mkfilters | ||
mlf_ipl.c | ||
mlf_rule.c | ||
mlfk_rule.c | ||
mlh_rule.c | ||
NAT.FreeBSD | ||
opt_inet6.h | ||
opts.h | ||
pcap-bpf.h | ||
pcap-ipf.h | ||
radix_ipf.h | ||
radix.c | ||
README | ||
snoop.h | ||
STYLE.TXT | ||
todo | ||
WhatsNew40.txt | ||
Y2K |
IP Filter - What's this about ? ============================ Web site: http://coombs.anu.edu.au/~avalon/ip-filter.html How-to: http://www.obfuscation.org/ipf/ipf-howto.txt The idea behind this package is allow those who use Unix workstations as routers (a common occurance in Universities it appears) to apply packet filtering to packets going in and out of them. This package has been tested on all versions of SunOS 4.1 and Solaris 2.4/2.5, running on Sparcs. It is also quite possible for this small kernel extension to be installed and used effectively on Sun workstations which don't route IP, just for added security. It can also be integrated with the multicast patches. It has also been tested successfully on all of the modern free BSDs as well as BSDI, and SGI's IRIX 6.2. The filter keeps a rule list for both inbound and outbound sides of the IP packet queue and a check is made as early as possible, aiming to stop the packet before it even gets as far as being checked for source route options. In the file "BNF", a set of rules for constructing filter rules understood by this package is given. The files in the directory "rules", "example.1" ... "example.sr" show example rules you might apply. In practise, I've successfully isolated a workstation from all machines except the NFS file servers on its local subnets (yeah, ok, so this doesn't really increase security, because of NFS, but you get the drift on how it can be applied and used). I've also successfully setup and maintained my own firewalls using it with TIS's Firewall Toolkit, including using it on an mbone router. When using it with multicast IP, the calls to fr_check() should be before the packet is unwrapped and after it is encapsulated. So the filter routines will see the packet as a UDP packet, protocol XYZ. Whether this is better or worse than having it filter on class D addresses is debateable, but the idea behind this package is to be able to discriminate between packets as they are on the 'wire', before they get routed anywhere, etc. It is worth noting, that it is possible, using a small MTU and generating tiny fragmented IP packets to generate a TCP packet which doesn't contain enough information to filter on the "flags". Filtering on these types of packets is possible, but under the more general case of the packets being "short". ICMP and UDP packets which are too small (they don't contain a complete header) are dropped and logged, no questions asked. When filtering on fragmented packets, the last fragment will get through for TCP/UDP/ICMP packets. Bugs/Problems ------------- If you have a problem with IP Filter on your operating system, please email a copy of the file "BugReport" with the details of your setup as required and email to darrenr@pobox.com. Some general notes. ------------------- To add/delete a rule from memory, access to the device in /dev is needed, allowing non-root maintenaince. The filter list in kernel memory is built from the kernel's heap. Each packet coming *in* or *out* is checked against the appropriate list, rejects dropped, others passed through. Thus this will work on an individual host, not just gateways. Presently there is only one list for all interfaces, the changes required to make it a per-interface list require more .o replacements for the kernel. When checking a packet, the packet is compared to the entire list from top to bottom, the last matching line being effective. What does what ? ---------------- if_fil.o (Loadable kernel module) - additional kernel routines to check an access list as to whether or not to drop or pass a packet. It currently defaults to pass on all packets. ipfstat - digs through your kernel (need to check #define VMUNIX in fils.c) and /dev/kmem for the access filter list and mini stats table. Obviously needs to be run priviledged if required. ipf - reads the files passed as parameters as input files containing new filter rules to add/delete to the kernel list. The lines are inserted in order; the first line is inserted first, and ends up first on the list. Subsequent invocations append to the list unless specified otherwise. ipftest - test the ruleset given by filename. Reads in the ruleset and then waits for stdin. See the man pages (ipf.1, ipftest.1, ipfstat.8) for more detailed information on what the above do. mkfilters - suggests a set of filter rules to employ and suggests how to add routes to back these up. BNF - BNF rule set for the filter rules Darren Reed darrenr@pobox.com http://coombs.anu.edu.au/~avalon/ip-filter.html