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diff --git a/share/examples/IPv6/USAGE b/share/examples/IPv6/USAGE new file mode 100644 index 0000000..f9122c2 --- /dev/null +++ b/share/examples/IPv6/USAGE @@ -0,0 +1,629 @@ + USAGE + + KAME Project + http://www.kame.net/newsletter/ + $FreeBSD$ + +This is a introduction of how to use the commands provided in the KAME +kit. For more information, please refer to each man page. + +<<<ifconfig>>> + +A link-local address is automatically assigned to each interface, when +the interface becomes up for the first time. Even if you find an interface +without a link-local address, do not panic. The link-local address will be +assigned when it becomes up (with "ifconfig IF up"). + +Some network drivers allow an interface to become up even without a +hardware address (for example, PCMCIA network cards). In such cases, it is +possible that an interface has no link-local address even if the +interface is up. If you see such situation, please disable the +interface once and then re-enable it (i.e. do `ifconfig IF down; +ifconfig IF up'). + +Pseudo interfaces (like "gif" tunnel device) will borrow IPv6 interface +identifier (lowermost 64bit of the address) from EUI64/IEEE802 sources, +like ethernet cards. Pseudo interfaces will be able to get IPv6 link-local +address, if you have other "real" interface configured beforehand. +If you have no EUI64/IEEE802 sources on the node, you may need to configure +link-local address manually. Though we have last-resort code in the kernel, +which generates interface identifier from MD5(hostname), it may not suitable +for your usage (for example, if you configure same hostname on both sides +of gif tunnel, you will be doomed). + +If you have a router announcing Router Advertisement, +global addresses will be assigned automatically. So, "ifconfig" is not +necessary for your *host*. (Please refer to "sysctl" section for configuring +a host to accept Router Advertisement.) + +If you want to set up a router, you need to assign global addresses +for two or more interfaces by "ifconfig" or "prefix". (prefix command +is described at next section) +If you want to assign a global address by "ifconfig", don't forget to +specify the "alias" argument to keep the link-local address. + +# ifconfig de0 inet6 fec0:0:0:1000:200:f8ff:fe01:6317 alias +# ifconfig de0 +de0: flags=8843<UP,BROADCAST,RUNNING,SIMPLEX,MULTICAST> mtu 1500 + inet 172.16.202.12 netmask 0xffffff00 broadcast 172.16.202.255 + inet6 fe80::200:f8ff:fe01:6317%de0 prefixlen 64 + inet6 fec0:0:0:1000:200:f8ff:fe01:6317 prefixlen 64 + inet6 fec0:0:0:1000:: prefixlen 64 anycast + ether 00:00:f8:01:63:17 + media: autoselect (10baseT/UTP) status: active + supported media: autoselect 100baseTX <full-duplex> 100baseTX 10baseT/UTP <full-duplex> 10baseT/UTP + +See also "/etc/rc.network6" for actual examples. + +<<prefix>> + +In IPv6 architecture, an IPv6 address of an interface can be generated +from a prefix assigned to it, and a link-dependent identifier for the +interface. Assigning a full IPv6 address by ifconfig is not +necessary anymore, because, user can only take care of prefix, by letting +system take care of interface identifier. + +The newly added "prefix" command enables user to just assign prefixes +for interfaces, and let your system automatically generate IPv6 +addresses. Prefixes added by the "prefix" command is maintained in +the kernel consistently with prefixes assigned by Router +Renumbering(in case of routers). + +But "prefix" command can only be used on router, because host should be +able to configure its addr automatically. Prefixes added by the "prefix" +command are maintained independently from prefixes assigned by +Router Advertisement. Those two type of prefixes should not coexist on +a machine at the same time, and when it happens, it is considered to be +miss configuration. + +Manual assignment of prefixes or change of prefix properties take +precedence over ones assigned by Router Renumbering. + +If you want to assign a prefix(and consequently an address) manually, do +as follows: + +# prefix de0 fec0:0:0:1000:: +# ifconfig de0 +de0: flags=8843<UP,BROADCAST,RUNNING,SIMPLEX,MULTICAST> mtu 1500 + inet 172.16.202.12 netmask 0xffffff00 broadcast 172.16.202.255 + inet6 fe80:1::200:f8ff:fe01:6317 prefixlen 64 + inet6 fec0:0:0:1000:200:f8ff:fe01:6317 prefixlen 64 + inet6 fec0:0:0:1000:: prefixlen 64 anycast + ether 00:00:f8:01:63:17 + media: autoselect (10baseT/UTP) status: active + supported media: autoselect 100baseTX <full-duplex> 100baseTX 10baseT/UTP <full-duplex> 10baseT/UTP + +To check assigned prefix, use the "ndp" command. (See description of +ndp command about its usage) + +# ndp -p +fec0:0:0:1000::/64 if=de0 + flags=LA, vltime=2592000, pltime=604800, expire=Never + No advertising router + +The "prefix" command also has node internal prefix renumbering +ability. + +If you have multiple prefixes which have fec0:0:0:1000:/56 at the top, +and would like to renumber them to fec0:0:0:2000:/56, then use the +"prefix" command with the "matchpr" argument and the "usepr" argument. + +Suppose that current state of before renumbering as follows: + +# ifconfig de0 +de0: flags=8843<UP,BROADCAST,RUNNING,SIMPLEX,MULTICAST> mtu 1500 + inet 172.16.202.12 netmask 0xffffff00 broadcast 172.16.202.255 + inet6 fe80:1::200:f8ff:fe01:6317 prefixlen 64 + inet6 fec0:0:0:1000:200:f8ff:fe01:6317 prefixlen 64 + inet6 fec0:0:0:1000:: prefixlen 64 anycast + ether 00:00:f8:01:63:17 + media: autoselect (10baseT/UTP) status: active + supported media: autoselect 100baseTX <full-duplex> 100baseTX 10baseT/UTP <full-duplex> 10baseT/UTP + +# ifconfig de1 +de1: flags=8843<UP,BROADCAST,RUNNING,SIMPLEX,MULTICAST> mtu 1500 + inet 172.16.203.12 netmask 0xffffff00 broadcast 172.16.203.255 + inet6 fe80:1::200:f8ff:fe55:7011 prefixlen 64 + inet6 fec0:0:0:1001:200:f8ff:fe55:7011 prefixlen 64 + inet6 fec0:0:0:1001:: prefixlen 64 anycast + ether 00:00:f8:55:70:11 + media: autoselect (10baseT/UTP) status: active + supported media: autoselect 100baseTX <full-duplex> 100baseTX 10baseT/UTP <full-duplex> 10baseT/UTP + +# ndp -p +fec0:0:0:1000::/64 if=de0 + flags=LA, vltime=2592000, pltime=604800, expire=Never + No advertising router +fec0:0:0:1001::/64 if=de1 + flags=LA, vltime=2592000, pltime=604800, expire=Never + No advertising router + +Then do as follows: + +# prefix -a matchpr fec0:0:0:1000:: mp_len 56 usepr fec0:0:0:2000:: up_uselen 56 change + +If command is successful, prefixes and addresses will be renumbered as +follows. + +# ifconfig de0 +de0: flags=8843<UP,BROADCAST,RUNNING,SIMPLEX,MULTICAST> mtu 1500 + inet 172.16.202.12 netmask 0xffffff00 broadcast 172.16.202.255 + inet6 fe80:1::200:f8ff:fe01:6317 prefixlen 64 + inet6 fec0:0:0:2000:200:f8ff:fe01:6317 prefixlen 64 + inet6 fec0:0:0:2000:: prefixlen 64 anycast + ether 00:00:f8:01:63:17 + media: autoselect (10baseT/UTP) status: active + supported media: autoselect 100baseTX <full-duplex> 100baseTX 10baseT/UTP <full-duplex> 10baseT/UTP +# ifconfig de1 +de1: flags=8843<UP,BROADCAST,RUNNING,SIMPLEX,MULTICAST> mtu 1500 + inet 172.16.203.12 netmask 0xffffff00 broadcast 172.16.203.255 + inet6 fe80:1::200:f8ff:fe55:7011 prefixlen 64 + inet6 fec0:0:0:2001:200:f8ff:fe55:7011 prefixlen 64 + inet6 fec0:0:0:2001:: prefixlen 64 anycast + ether 00:00:f8:55:70:11 + media: autoselect (10baseT/UTP) status: active + supported media: autoselect 100baseTX <full-duplex> 100baseTX 10baseT/UTP <full-duplex> 10baseT/UTP +# ndp -p +fec0:0:0:2000::/64 if=de0 + flags=LA, vltime=2592000, pltime=604800, expire=Never + No advertising router +fec0:0:0:2001::/64 if=de1 + flags=LA, vltime=2592000, pltime=604800, expire=Never + No advertising router + +See also "/etc/rc.network6" for actual examples. + +<<<route>>> + +If there is a router announcing Router Advertisement on the subnet, +you don't need to add a default route for your host by yourself. +(Please refer to "sysctl" section to accept Router Advertisement.) + +If you want to add a default route manually, do as follows: + +# route add -inet6 default fe80::200:a2ff:fe0e:7543%de0 + +"default" means ::/0. + +Note that, in IPv6, link-local address should be used as gateway +("fe80::200:a2ff:fe0e:7543%de1" in the above). If you use global addresses, +icmp6 redirect may not work properly. For ease of configuration we recommend +you to avoid static routes and run a routing daemon (route6d for example) +instead. + +<<<ping6>>> (This might be integrated into "ping" as "ping -6" in the future.) + +Reachability can be checked by "ping6". This "ping6" allows multicast +for its argument. + +% ping6 -I xl0 ff02::1 +or +% ping6 ff02::1%xl0 + +PING6(56=40+8+8 bytes) fe80::5254:ff:feda:cb7d --> ff02::1 +56 bytes from fe80::5254:ff:feda:cb7d, icmp_seq=0 hlim=64 time=0.25 ms +56 bytes from fe80::2a0:c9ff:fe84:ed6c, icmp_seq=0 hlim=64 time=1.333 ms(DUP!) +56 bytes from fe80::5254:ff:feda:d161, icmp_seq=0 hlim=64 time=1.459 ms(DUP!) +56 bytes from fe80::260:97ff:fec2:80bf, icmp_seq=0 hlim=64 time=1.538 ms(DUP!) + +<<<ping6 -w>>> + +Name resolution is possible by ICMPv6 node information query message. +This is very convenient for link-local addresses whose host name cannot be +resolved by DNS. Specify the "-w" option to "ping6". + +% ping6 -I xl0 -w ff02::1 + +64 bytes from fe80::5254:ff:feda:cb7d: fto.kame.net +67 bytes from fe80::5254:ff:feda:d161: banana.kame.net +69 bytes from fe80::2a0:c9ff:fe84:ebd9: paradise.kame.net +66 bytes from fe80::260:8ff:fe8b:447f: taroh.kame.net +66 bytes from fe80::2a0:c9ff:fe84:ed6c: ayame.kame.net + +<<<traceroute6>>> + +The route for a target host can be checked by "traceroute6". + +% traceroute6 tokyo.v6.wide.ad.jp + +traceroute to tokyo.v6.wide.ad.jp (3ffe:501:0:401:200:e8ff:fed5:8923), 30 hops max, 12 byte packets + 1 nr60.v6.kame.net 1.239 ms 0.924 ms 0.908 ms + 2 otemachi.v6.wide.ad.jp 28.953 ms 31.451 ms 26.567 ms + 3 tokyo.v6.wide.ad.jp 26.549 ms 26.58 ms 26.186 ms + +If the -l option is specified, both address and name are shown in each line. +% traceroute6 -l tokyo.v6.wide.ad.jp + +traceroute to tokyo.v6.wide.ad.jp (3ffe:501:0:401:200:e8ff:fed5:8923), 30 hops max, 12 byte packets + 1 nr60.v6.kame.net (3ffe:501:4819:2000:260:97ff:fec2:80bf) 1.23 ms 0.952 ms 0.92 ms + 2 otemachi.v6.wide.ad.jp (3ffe:501:0:1802:260:97ff:feb6:7ff0) 27.345 ms 26.706 ms 26.563 ms + 3 tokyo.v6.wide.ad.jp (3ffe:501:0:401:200:e8ff:fed5:8923) 26.329 ms 26.36 ms 28.63 ms + +<<<ndp>>> + +To display the current Neighbor cache, use "ndp": + +% ndp -a +Neighbor Linklayer Address Netif Expire St Flgs Prbs +nr60.v6.kame.net 0:60:97:c2:80:bf xl0 expired S R +fec0:0:0:1000:2c0:cff:fe10 0:c0:c:10:3a:53 xl0 permanent R +paradise.v6.kame.net 52:54:0:dc:52:17 xl0 expired S R +fe80:1::200:eff:fe49:f929 0:0:e:49:f9:29 xl0 expired S R +fe80:1::200:86ff:fe05:80da 0:0:86:5:80:da xl0 expired S +fe80:1::200:86ff:fe05:c2d8 0:0:86:5:c2:d8 xl0 9s R + +To flush the all NDP cache, execute the following by root. + +# ndp -c + +To display the prefix list. + +% ndp -p +fec0:0:0::1000::/64 if=xl0 + flags=LA, vltime=2592000, pltime=604800, expire=29d23h59m58s + advertised by + fe80::5254:ff:fedc:5217 + fe80::260:97ff:fec2:80bf + fe80::200:eff:fe49:f929 + +To display the default router list. + +% ndp -r +fe80::260:97ff:fec2:80bf if=xl0, flags=, expire=29m55s +fe80::5254:ff:fedc:5217 if=xl0, flags=, expire=29m7s +fe80::200:eff:fe49:f929 if=xl0, flags=, expire=28m47s + +<<<rtsol>>> + +To generate a Router Solicitation message right now to get global +addresses, use "rtsol". + +# ifconfig xl0 +xl0: flags=8a43<UP,BROADCAST,RUNNING,ALLMULTI,SIMPLEX,MULTICAST> mtu 1500 + inet6 fe80:2::2a0:24ff:feab:839b%xl0 prefixlen 64 + ether 0:a0:24:ab:83:9b + media: autoselect (10baseT/UTP) status: active + supported media: autoselect 100baseTX <full-duplex> 100baseTX 10baseT/UTP <full-duplex> 10baseT/UTP 100baseTX <hw-loopback> + +# rtsol xl0 +# ifconfig xl0 +xl0: flags=8a43<UP,BROADCAST,RUNNING,ALLMULTI,SIMPLEX,MULTICAST> mtu 1500 + inet6 fe80:2::2a0:24ff:feab:839b%xl0 prefixlen 64 + inet6 fec0:0:0:1000:2a0:24ff:feab:839b prefixlen 64 + ether 0:a0:24:ab:83:9b + media: autoselect (10baseT/UTP) status: active + supported media: autoselect 100baseTX <full-duplex> 100baseTX 10baseT/UTP <full-duplex> 10baseT/UTP 100baseTX <hw-loopback> + + +<<<rtsold>>> + +rtsold is a daemon version of rtsol. If you run KAME IPv6 on a laptop +computer and frequently move with it, the daemon is useful since it watches +the interface and sends router solicitations when the status of the interface +changes. Note, however, that the feature is disabled by default. Please +add -m option at invocation of rtsold. + +rtsold also supports multiple interfaces. For example, you can +invoke the daemon as follows: +# rtsold -m ep0 cnw0 + +<<<netstat>>> + +To see routing table: + +# netstat -nr +# netstat -nrl (long format with Ref and Use) + +<<<sysctl>>> + +If "net.inet6.ip6.accept_rtadv" is 1, Router Advertisement is +accepted. This means that global addresses and default route are +automatically set up. Otherwise, the announcement is rejected. The +default value is 0. To set "net.inet6.ip6.accept_rtadv" to 1, execute +as follows: + +# sysctl -w net.inet6.ip6.accept_rtadv=1 + +<<<gifconfig>>> + +"gif" interface enables you to perform IPv{4,6} over IPv{4,6} +protocol tunneling. To use this interface, you must specify the +outer IPv{4,6} address by using gifconfig, like: + +# gifconfig gif0 172.16.198.61 172.16.11.21 + +"ifconfig gif0" will configure the address pair used for inner +IPv{4,6} header. + +It is not required to configure inner IPv{4,6} address pair. If +you do not configure inner IPv{4,6} address pair, tunnel link is +considered as un-numbered link and the source address of inner +IPv{4,6} address pair will be borrowed from other interfaces. + +The following example configures un-numbered IPv6-over-IPv4 tunnel: +# gifconfig gif0 10.0.0.1 10.0.0.1 netmask 255.255.255.0 + +The following example configures numbered IPv6-over-IPv4 tunnel: +# gifconfig gif0 10.0.0.1 10.0.0.1 netmask 255.255.255.0 +# ifconfig gif0 inet6 fec0:0:0:3000::1 fec0:0:0:3000::2 prefixlen 64 alias + +IPv6 spec allows you to use point-to-point link without global IPv6 +address assigned to the interface. Routing protocol (such as RIPng) +uses link-local addresses only. If you are to configure IPv6-over-IPv4 +tunnel, you need not to configure an address pair for inner IPv6 +header. We suggest you to use the former example (un-numbered +IPv6-over-IPv4 tunnel) to connect to 6bone for simplicity, +for router to router connection. + +Note that it is so easy to make an infinite routing loop using gif +interface, if you configure a tunnel using the same protocol family +for inner and outer header (i.e. IPv4-over-IPv4). + +Refer to gifconfig(8) for more details. + +<<<inetd>>> + +Inetd supports AF_INET and AF_INET6 sockets, with IPsec policy +configuration support. + +Refer to inetd(8) for more details. + +<<<IPsec>>> + +The current KAME supports both transport mode and tunnel mode. +However, tunnel mode comes with some restrictions. +http://www.kame.net/newsletter/ has more comprehensive examples. + +Let's setup security association to deploy a secure channel between +HOST A (10.2.3.4) and HOST B (10.6.7.8). Here we show a little +complicated example. From HOST A to HOST B, only old AH is used. +From HOST B to HOST A, new AH and new ESP are combined. + +Now we should choose algorithm to be used corresponding to "AH"/"new +AH"/"ESP"/"new ESP". Please refer to the "setkey" man page to know +algorithm names. Our choice is MD5 for AH, new-HMAC-SHA1 for new AH, +and new-DES-expIV with 8 byte IV for new ESP. + +Key length highly depends on each algorithm. For example, key +length must be equal to 16 bytes for MD5, 20 for new-HMAC-SHA1, +and 8 for new-DES-expIV. Now we choose "MYSECRETMYSECRET", +"KAMEKAMEKAMEKAMEKAME", "PASSWORD", respectively. + +OK, let's assign SPI (Security Parameter Index) for each protocol. +Please note that we need 3 SPIs for this secure channel since three +security headers are produced (one for from HOST A to HOST B, two for +from HOST B to HOST A). Please also note that SPI MUST be greater +than or equal to 256. We choose, 1000, 2000, and 3000, respectively. + + + (1) + HOST A ------> HOST B + + (1)PROTO=AH + ALG=MD5(RFC1826) + KEY=MYSECRETMYSECRET + SPI=1000 + + (2.1) + HOST A <------ HOST B + <------ + (2.2) + + (2.1) + PROTO=AH + ALG=new-HMAC-SHA1(new AH) + KEY=KAMEKAMEKAMEKAMEKAME + SPI=2000 + + (2.2) + PROTO=ESP + ALG=new-DES-expIV(new ESP) + IV length = 8 + KEY=PASSWORD + SPI=3000 + +Now, let's setup security association. Execute "setkey" on both HOST +A and B: + +# setkey -c +add 10.2.3.4 10.6.7.8 ah 1000 -m transport -A keyed-md5 "MYSECRETMYSECRET" ; +add 10.6.7.8 10.2.3.4 ah 2000 -m transport -A hmac-sha1 "KAMEKAMEKAMEKAMEKAME" ; +add 10.6.7.8 10.2.3.4 esp 3000 -m transport -E des-cbc "PASSWORD" ; +^D + +Actually, IPsec communication doesn't process until security policy +entries will be defined. In this case, you must setup each host. + +At A: +# setkey -c +spdadd 10.2.3.4 10.6.7.8 any -P out ipsec + ah/transport/10.2.3.4-10.6.7.8/require ; +^D + +At B: +spdadd 10.6.7.8 10.2.3.4 any -P out ipsec + esp/transport/10.6.7.8-10.2.3.4/require ; +spdadd 10.6.7.8 10.2.3.4 any -P out ipsec + ah/transport/10.6.7.8-10.2.3.4/require ; +^D + +To utilize the security associations installed into the kernel, you +must set the socket security level by using setsockopt(). +This is per-application (or per-socket) security. For example, +the "ping" command has the -P option with parameter to enable AH and/or ESP. + +For example: +% ping -P "out ipsec \ + ah/transport/10.0.1.1-10.0.2.2/use \ + esp/tunnel/10.0.1.1-10.0.1.2/require" 10.0.2.2 + +If there are proper SAs, this policy specification causes ICMP packet +to be AH transport mode inner ESP tunnel mode like below. + + HOST C -----------> GATEWAY D ----------> HOST E + 10.0.1.1 10.0.1.2 10.0.2.1 10.0.2.2 + | | | | + | ======= ESP ======= | + ==================== AH ================== + + + +Another example using IPv6. + +ESP transport mode is recommended for TCP port number 110 between Host-A and +Host-B. + + ============ ESP ============ + | | + Host-A Host-B + fec0::10 -------------------- fec0::11 + +Encryption algorithm is blowfish-cbc whose key is "kamekame", and +authentication algorithm is hmac-sha1 whose key is "this is the test key". +Configuration at Host-A: + + # setkey -c <<EOF + spdadd fec0::10[any] fec0::11[110] tcp -P out ipsec + esp/transport/fec0::10-fec0::11/use ; + spdadd fec0::11[110] fec0::10[any] tcp -P in ipsec + esp/transport/fec0::11-fec0::10/use ; + add fec0::10 fec0::11 esp 0x10001 + -m transport + -E blowfish-cbc "kamekame" + -A hmac-sha1 "this is the test key" ; + add fec0::11 fec0::10 esp 0x10002 + -m transport + -E blowfish-cbc "kamekame" + -A hmac-sha1 "this is the test key" ; + EOF + +and at Host-B: + + # setkey -c <<EOF + spdadd fec0::11[110] fec0::10[any] tcp -P out ipsec + esp/transport/fec0::11-fec0::10/use ; + spdadd fec0::10[any] fec0::11[110] tcp -P in ipsec + esp/transport/fec0::10-fec0::11/use ; + add fec0::10 fec0::11 esp 0x10001 -m transport + -E blowfish-cbc "kamekame" + -A hmac-sha1 "this is the test key" ; + add fec0::11 fec0::10 esp 0x10002 -m transport + -E blowfish-cbc "kamekame" + -A hmac-sha1 "this is the test key" ; + EOF + +Note the direction of SP. + + +Tunnel mode between two security gateways + +Security protocol is old AH tunnel mode, i.e. specified by RFC1826, with +keyed-md5 whose key is "this is the test" as authentication algorithm. + + ======= AH ======= + | | + Network-A Gateway-A Gateway-B Network-B + 10.0.1.0/24 ---- 172.16.0.1 ----- 172.16.0.2 ---- 10.0.2.0/24 + +Configuration at Gateway-A: + + # setkey -c <<EOF + spdadd 10.0.1.0/24 10.0.2.0/24 any -P out ipsec + ah/tunnel/172.16.0.1-172.16.0.2/require ; + spdadd 10.0.2.0/24 10.0.1.0/24 any -P in ipsec + ah/tunnel/172.16.0.2-172.16.0.1/require ; + add 172.16.0.1 172.16.0.2 ah-old 0x10003 -m any + -A keyed-md5 "this is the test" ; + add 172.16.0.2 172.16.0.1 ah-old 0x10004 -m any + -A keyed-md5 "this is the test" ; + +If port number field is omitted such above then "[any]" is employed. `-m' +specifies the mode of SA to be used. "-m any" means wild-card of mode of +security protocol. You can use this SA for both tunnel and transport mode. + +and at Gateway-B: + + # setkey -c <<EOF + spdadd 10.0.2.0/24 10.0.1.0/24 any -P out ipsec + ah/tunnel/172.16.0.2-172.16.0.1/require ; + spdadd 10.0.1.0/24 10.0.2.0/24 any -P in ipsec + ah/tunnel/172.16.0.1-172.16.0.2/require ; + add 172.16.0.1 172.16.0.2 ah-old 0x10003 -m any + -A keyed-md5 "this is the test" ; + add 172.16.0.2 172.16.0.1 ah-old 0x10004 -m any + -A keyed-md5 "this is the test" ; + + +Making SA bundle between two security gateways + +AH transport mode and ESP tunnel mode is required between Gateway-A and +Gateway-B. In this case, ESP tunnel mode is applied first, and AH transport +mode is next. + + ========== AH ========= + | ======= ESP ===== | + | | | | + Network-A Gateway-A Gateway-B Network-B + fec0:0:0:1::/64 --- fec0:0:0:1::1 ---- fec0:0:0:2::1 --- fec0:0:0:2::/64 + +Encryption algorithm is 3des-cbc, and authentication algorithm for ESP is +hmac-sha1. Authentication algorithm for AH is hmac-md5. +Configuration at Gateway-A: + + # setkey -c <<EOF + spdadd fec0:0:0:1::/64 fec0:0:0:2::/64 any -P out ipsec + esp/tunnel/fec0:0:0:1::1-fec0:0:0:2::1/require + ah/transport/fec0:0:0:1::1-fec0:0:0:2::1/require ; + spdadd fec0:0:0:2::/64 fec0:0:0:1::/64 any -P in ipsec + esp/tunnel/fec0:0:0:2::1-fec0:0:0:1::1/require + ah/transport/fec0:0:0:2::1-fec0:0:0:1::1/require ; + add fec0:0:0:1::1 fec0:0:0:2::1 esp 0x10001 -m tunnel + -E 3des-cbc "kamekame12341234kame1234" + -A hmac-sha1 "this is the test key" ; + add fec0:0:0:1::1 fec0:0:0:2::1 ah 0x10001 -m transport + -A hmac-md5 "this is the test" ; + add fec0:0:0:2::1 fec0:0:0:1::1 esp 0x10001 -m tunnel + -E 3des-cbc "kamekame12341234kame1234" + -A hmac-sha1 "this is the test key" ; + add fec0:0:0:2::1 fec0:0:0:1::1 ah 0x10001 -m transport + -A hmac-md5 "this is the test" ; + + +Making SAs with the different end + +ESP tunnel mode is required between Host-A and Gateway-A. Encryption +algorithm is cast128-cbc, and authentication algorithm for ESP is hmac-sha1. +ESP transport mode is recommended between Host-A and Host-B. Encryption +algorithm is rc5-cbc, and authentication algorithm for ESP is hmac-md5. + + ================== ESP ================= + | ======= ESP ======= | + | | | | + Host-A Gateway-A Host-B + fec0:0:0:1::1 ---- fec0:0:0:2::1 ---- fec0:0:0:2::2 + +Configuration at Host-A: + + # setkey -c <<EOF + spdadd fec0:0:0:1::1[any] fec0:0:0:2::2[80] tcp -P out ipsec + esp/transport/fec0:0:0:1::1-fec0:0:0:2::2/use + esp/tunnel/fec0:0:0:1::1-fec0:0:0:2::1/require ; + spdadd fec0:0:0:2::1[80] fec0:0:0:1::1[any] tcp -P in ipsec + esp/transport/fec0:0:0:2::2-fec0:0:0:l::1/use + esp/tunnel/fec0:0:0:2::1-fec0:0:0:1::1/require ; + add fec0:0:0:1::1 fec0:0:0:2::2 esp 0x10001 + -m transport + -E cast128-cbc "12341234" + -A hmac-sha1 "this is the test key" ; + add fec0:0:0:1::1 fec0:0:0:2::1 esp 0x10002 + -E rc5-cbc "kamekame" + -A hmac-md5 "this is the test" ; + add fec0:0:0:2::2 fec0:0:0:1::1 esp 0x10003 + -m transport + -E cast128-cbc "12341234" + -A hmac-sha1 "this is the test key" ; + add fec0:0:0:2::1 fec0:0:0:1::1 esp 0x10004 + -E rc5-cbc "kamekame" + -A hmac-md5 "this is the test" ; + + <end of USAGE> |
