xref: /freebsd/share/man/man4/stf.4 (revision 2b8331622f0b212cf3bb4fc4914a501e5321d506)
1.\"     $KAME: stf.4,v 1.35 2001/05/02 06:24:49 itojun Exp $
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30.\" $FreeBSD$
31.\"
32.Dd November 16, 2021
33.Dt STF 4
34.Os
35.Sh NAME
36.Nm stf
37.Nd
38.Tn 6to4
39tunnel interface
40.Sh SYNOPSIS
41.Cd "device stf"
42.Sh DESCRIPTION
43The
44.Nm
45interface supports
46.Dq 6to4
47and
48.Dq 6rd
49IPv6 in IPv4 encapsulation.
50It can tunnel IPv6 traffic over IPv4, as specified in
51.Li RFC3056
52or
53.Li RFC5969 .
54.Pp
55For ordinary nodes in a 6to4 or 6RD site, you do not need
56.Nm
57interface.
58The
59.Nm
60interface is necessary for site border routers
61(called
62.Dq 6to4 routers
63or
64.Dq 6rd Customer Edge (CE)
65in the specification).
66.Pp
67Each
68.Nm
69interface is created at runtime using interface cloning.
70This is
71most easily done with the
72.Xr ifconfig 8
73.Cm create
74command or using the
75.Va cloned_interfaces
76variable in
77.Xr rc.conf 5 .
78.Sh 6to4
79Due to the way 6to4 protocol is specified,
80.Nm
81interface requires certain configuration to work properly.
82Single
83(no more than 1)
84valid 6to4 address needs to be configured to the interface.
85.Dq A valid 6to4 address
86is an address which has the following properties.
87If any of the following properties are not satisfied,
88.Nm
89raises runtime error on packet transmission.
90Read the specification for more details.
91.Bl -bullet
92.It
93matches
94.Li 2002:xxyy:zzuu::/48
95where
96.Li xxyy:zzuu
97is a hexadecimal notation of an IPv4 address for the node.
98IPv4 address can be taken from any of interfaces your node has.
99Since the specification forbids the use of IPv4 private address,
100the address needs to be a global IPv4 address.
101.It
102Subnet identifier portion
103(48th to 63rd bit)
104and interface identifier portion
105(lower 64 bits)
106are properly filled to avoid address collisions.
107.El
108.Pp
109If you would like the node to behave as a relay router,
110the prefix length for the IPv6 interface address needs to be 16 so that
111the node would consider any 6to4 destination as
112.Dq on-link .
113If you would like to restrict 6to4 peers to be inside certain IPv4 prefix,
114you may want to configure IPv6 prefix length as
115.Dq 16 + IPv4 prefix length .
116.Nm
117interface will check the IPv4 source address on packets,
118if the IPv6 prefix length is larger than 16.
119.Pp
120.Nm
121can be configured to be ECN friendly.
122This can be configured by
123.Dv IFF_LINK1 .
124See
125.Xr gif 4
126for details.
127.Pp
128Please note that 6to4 specification is written as
129.Dq accept tunnelled packet from everyone
130tunnelling device.
131By enabling
132.Nm
133device, you are making it much easier for malicious parties to inject
134fabricated IPv6 packet to your node.
135Also, malicious party can inject an IPv6 packet with fabricated source address
136to make your node generate improper tunnelled packet.
137Administrators must take caution when enabling the interface.
138To prevent possible attacks,
139.Nm
140interface filters out the following packets.
141Note that the checks are no way complete:
142.Bl -bullet
143.It
144Packets with IPv4 unspecified address as outer IPv4 source/destination
145.Pq Li 0.0.0.0/8
146.It
147Packets with loopback address as outer IPv4 source/destination
148.Pq Li 127.0.0.0/8
149.It
150Packets with IPv4 multicast address as outer IPv4 source/destination
151.Pq Li 224.0.0.0/4
152.It
153Packets with limited broadcast address as outer IPv4 source/destination
154.Pq Li 255.0.0.0/8
155.It
156Packets with private address as outer IPv4 source/destination
157.Pq Li 10.0.0.0/8 , 172.16.0.0/12 , 192.168.0.0/16
158.It
159Packets with subnet broadcast address as outer IPv4 source/destination.
160The check is made against subnet broadcast addresses for
161all of the directly connected subnets.
162.It
163Packets that does not pass ingress filtering.
164Outer IPv4 source address must meet the IPv4 topology on the routing table.
165Ingress filter can be turned off by
166.Dv IFF_LINK2
167bit.
168.It
169The same set of rules are applied against the IPv4 address embedded into
170inner IPv6 address, if the IPv6 address matches 6to4 prefix.
171.El
172.Pp
173It is recommended to filter/audit
174incoming IPv4 packet with IP protocol number 41, as necessary.
175It is also recommended to filter/audit encapsulated IPv6 packets as well.
176You may also want to run normal ingress filter against inner IPv6 address
177to avoid spoofing.
178.Pp
179By setting the
180.Dv IFF_LINK0
181flag on the
182.Nm
183interface, it is possible to disable the input path,
184making the direct attacks from the outside impossible.
185Note, however, there are other security risks exist.
186If you wish to use the configuration,
187you must not advertise your 6to4 address to others.
188.\"
189.Sh 6rd
190Like
191.Dq 6to4
192.Dq 6rd
193also requires configuration before it can be used.
194The required configuration parameters are:
195.Bl -bullet
196.It
197The IPv6 address and prefix length.
198.It
199The border router IPv4 address.
200.It
201The IPv4 WAN address.
202.It
203The prefix length of the IPv4 WAN address.
204.El
205.Pp
206These can parameters are all configured through
207.Xr ifconfig 8 .
208.Pp
209The IPv6 address and prefix length can be configured like any other IPv6 address.
210Note that the prefix length is the IPv6 prefix length excluding the embedded
211IPv4 address bits.
212The prefix length of the delegated network is the sum of the IPv6 prefix length
213and the IPv4 prefix length.
214.Pp
215The border router IPv4 address is configured with the
216.Xr ifconfig 8
217.Cm stfv4br
218command.
219.Pp
220The IPv4 WAN address and IPv4 prefix length are configured using the
221.Xr ifconfig 8
222.Cm stfv4net
223command.
224.Sh SYSCTL VARIABLES
225The following
226.Xr sysctl 8
227variables can be used to control the behavior of the
228.Nm stf .
229The default value is shown next to each variable.
230.Bl -tag -width indent
231.It Va net.link.stf.permit_rfc1918 : No 0
232The RFC3056 requires the use of globally unique 32-bit IPv4
233addresses.
234This sysctl variable controls the behaviour of this requirement.
235When it set to not 0,
236.Nm stf
237allows the use of private IPv4 addresses described in the RFC1918.
238This may be useful for an Intranet environment or when some mechanisms
239of network address translation (NAT) are used.
240.El
241.Sh EXAMPLES
242Note that
243.Li 8504:0506
244is equal to
245.Li 133.4.5.6 ,
246written in hexadecimals.
247.Bd -literal
248# ifconfig ne0 inet 133.4.5.6 netmask 0xffffff00
249# ifconfig stf0 inet6 2002:8504:0506:0000:a00:5aff:fe38:6f86 \\
250	prefixlen 16 alias
251.Ed
252.Pp
253The following configuration accepts packets from IPv4 source
254.Li 9.1.0.0/16
255only.
256It emits 6to4 packet only for IPv6 destination 2002:0901::/32
257(IPv4 destination will match
258.Li 9.1.0.0/16 ) .
259.Bd -literal
260# ifconfig ne0 inet 9.1.2.3 netmask 0xffff0000
261# ifconfig stf0 inet6 2002:0901:0203:0000:a00:5aff:fe38:6f86 \\
262	prefixlen 32 alias
263.Ed
264.Pp
265The following configuration uses the
266.Nm
267interface as an output-only device.
268You need to have alternative IPv6 connectivity
269(other than 6to4)
270to use this configuration.
271For outbound traffic, you can reach other 6to4 networks efficiently via
272.Nm stf .
273For inbound traffic, you will not receive any 6to4-tunneled packets
274(less security drawbacks).
275Be careful not to advertise your 6to4 prefix to others
276.Pq Li 2002:8504:0506::/48 ,
277and not to use your 6to4 prefix as a source.
278.Bd -literal
279# ifconfig ne0 inet 133.4.5.6 netmask 0xffffff00
280# ifconfig stf0 inet6 2002:8504:0506:0000:a00:5aff:fe38:6f86 \\
281	prefixlen 16 alias deprecated link0
282# route add -inet6 2002:: -prefixlen 16 ::1
283# route change -inet6 2002:: -prefixlen 16 ::1 -ifp stf0
284.Ed
285.Pp
286The following example configures a
287.Dq 6rd
288tunnel on a
289.Dq 6rd CE
290where the ISP's
291.Dq 6rd
292IPv6 prefix is 2001:db8::/32.
293The border router is 192.0.2.1.
294The
295.Dq 6rd CE
296has a WAN address of 192.0.2.2 and the full IPv4 address is embedded in the
297.Dq 6rd IPv6 address:
298.Bd -literal
299# ifconfig stf0 inet6 2001:db8:c000:0202:: prefixlen 32 up
300# ifconfig stf0 stfv4br 192.0.2.1
301# ifconfig stf0 stfv4net 192.0.2.2/32
302.Ed
303.\"
304.Sh SEE ALSO
305.Xr gif 4 ,
306.Xr inet 4 ,
307.Xr inet6 4
308.Rs
309.%A Brian Carpenter
310.%A Keith Moore
311.%T "Connection of IPv6 Domains via IPv4 Clouds"
312.%D February 2001
313.%R RFC
314.%N 3056
315.Re
316.Rs
317.%A Jun-ichiro itojun Hagino
318.%T "Possible abuse against IPv6 transition technologies"
319.%D July 2000
320.%N draft-itojun-ipv6-transition-abuse-01.txt
321.%O work in progress
322.Re
323.\"
324.Sh HISTORY
325The
326.Nm
327device first appeared in WIDE/KAME IPv6 stack.
328.\"
329.Sh BUGS
330No more than one
331.Nm
332interface is allowed for a node,
333and no more than one IPv6 interface address is allowed for an
334.Nm
335interface.
336It is to avoid source address selection conflicts
337between IPv6 layer and IPv4 layer,
338and to cope with ingress filtering rule on the other side.
339This is a feature to make
340.Nm
341work right for all occasions.
342