xref: /freebsd/share/man/man4/tun.4 (revision e0c4386e7e71d93b0edc0c8fa156263fc4a8b0b6)
1.\" $NetBSD: tun.4,v 1.1 1996/06/25 22:17:37 pk Exp $
2.\" Based on PR#2411
3.\"
4.Dd March 17, 2020
5.Dt TUN 4
6.Os
7.Sh NAME
8.Nm tun
9.Nd tunnel software network interface
10.Sh SYNOPSIS
11To compile this driver into the kernel,
12place the following line in your
13kernel configuration file:
14.Bd -ragged -offset indent
15.Cd "device tuntap"
16.Ed
17.Pp
18Alternatively, to load the driver as a
19module at boot time, place the following lines in
20.Xr loader.conf 5 :
21.Bd -literal -offset indent
22if_tuntap_load="YES"
23.Ed
24.Sh DESCRIPTION
25The
26.Nm
27interface is a software loopback mechanism that can be loosely
28described as the network interface analog of the
29.Xr pty 4 ,
30that is,
31.Nm
32does for network interfaces what the
33.Xr pty 4
34driver does for terminals.
35.Pp
36The
37.Nm
38driver, like the
39.Xr pty 4
40driver, provides two interfaces: an interface like the usual facility
41it is simulating
42(a network interface in the case of
43.Nm ,
44or a terminal for
45.Xr pty 4 ) ,
46and a character-special device
47.Dq control
48interface.
49A client program transfers IP (by default) packets to or from the
50.Nm
51.Dq control
52interface.
53The
54.Xr tap 4
55interface provides similar functionality at the Ethernet layer:
56a client will transfer Ethernet frames to or from a
57.Xr tap 4
58.Dq control
59interface.
60.Pp
61The network interfaces are named
62.Dq Li tun0 ,
63.Dq Li tun1 ,
64etc., one for each control device that has been opened.
65These network interfaces persist until the
66.Pa if_tuntap.ko
67module is unloaded, or until removed with the
68.Xr ifconfig 8
69command.
70.Pp
71.Nm
72devices are created using interface cloning.
73This is done using the
74.Dq ifconfig tun Ns Sy N No create
75command.
76This is the preferred method of creating
77.Nm
78devices.
79The same method allows removal of interfaces.
80For this, use the
81.Dq ifconfig tun Ns Sy N No destroy
82command.
83.Pp
84If the
85.Xr sysctl 8
86variable
87.Va net.link.tun.devfs_cloning
88is non-zero, the
89.Nm
90interface
91permits opens on the special control device
92.Pa /dev/tun .
93When this device is opened,
94.Nm
95will return a handle for the lowest unused
96.Nm
97device (use
98.Xr devname 3
99to determine which).
100.Pp
101.Bf Em
102Disabling the legacy devfs cloning functionality may break existing
103applications which use
104.Nm ,
105such as
106.Xr ppp 8
107and
108.Xr ssh 1 .
109It therefore defaults to being enabled until further notice.
110.Ef
111.Pp
112Control devices (once successfully opened) persist until
113.Pa if_tuntap.ko
114is unloaded in the same way that network interfaces persist (see above).
115.Pp
116Each interface supports the usual network-interface
117.Xr ioctl 2 Ns s ,
118such as
119.Dv SIOCAIFADDR
120and thus can be used with
121.Xr ifconfig 8
122like any other interface.
123At boot time, they are
124.Dv POINTOPOINT
125interfaces, but this can be changed; see the description of the control
126device, below.
127When the system chooses to transmit a packet on the
128network interface, the packet can be read from the control device
129(it appears as
130.Dq input
131there);
132writing a packet to the control device generates an input
133packet on the network interface, as if the (non-existent)
134hardware had just received it.
135.Pp
136The tunnel device
137.Pq Pa /dev/tun Ns Ar N
138is exclusive-open
139(it cannot be opened if it is already open).
140A
141.Xr read 2
142call will return an error
143.Pq Er EHOSTDOWN
144if the interface is not
145.Dq ready
146(which means that the control device is open and the interface's
147address has been set).
148.Pp
149Once the interface is ready,
150.Xr read 2
151will return a packet if one is available; if not, it will either block
152until one is or return
153.Er EWOULDBLOCK ,
154depending on whether non-blocking I/O has been enabled.
155If the packet is longer than is allowed for in the buffer passed to
156.Xr read 2 ,
157the extra data will be silently dropped.
158.Pp
159If the
160.Dv TUNSLMODE
161ioctl has been set, packets read from the control device will be prepended
162with the destination address as presented to the network interface output
163routine,
164.Fn tunoutput .
165The destination address is in
166.Vt struct sockaddr
167format.
168The actual length of the prepended address is in the member
169.Va sa_len .
170If the
171.Dv TUNSIFHEAD
172ioctl has been set, packets will be prepended with a four byte address
173family in network byte order.
174.Dv TUNSLMODE
175and
176.Dv TUNSIFHEAD
177are mutually exclusive.
178In any case, the packet data follows immediately.
179.Pp
180A
181.Xr write 2
182call passes a packet in to be
183.Dq received
184on the pseudo-interface.
185If the
186.Dv TUNSIFHEAD
187ioctl has been set, the address family must be prepended, otherwise the
188packet is assumed to be of type
189.Dv AF_INET .
190Each
191.Xr write 2
192call supplies exactly one packet; the packet length is taken from the
193amount of data provided to
194.Xr write 2
195(minus any supplied address family).
196Writes will not block; if the packet cannot be accepted for a
197transient reason
198(e.g., no buffer space available),
199it is silently dropped; if the reason is not transient
200(e.g., packet too large),
201an error is returned.
202.Pp
203The following
204.Xr ioctl 2
205calls are supported
206(defined in
207.In net/if_tun.h ) :
208.Bl -tag -width ".Dv TUNSIFMODE"
209.It Dv TUNSDEBUG
210The argument should be a pointer to an
211.Vt int ;
212this sets the internal debugging variable to that value.
213What, if anything, this variable controls is not documented here; see
214the source code.
215.It Dv TUNGDEBUG
216The argument should be a pointer to an
217.Vt int ;
218this stores the internal debugging variable's value into it.
219.It Dv TUNSIFINFO
220The argument should be a pointer to an
221.Vt struct tuninfo
222and allows setting the MTU and the baudrate of the tunnel
223device.
224The type must be the same as returned by
225.Dv TUNGIFINFO
226or set to
227.Dv IFT_PPP
228else the
229.Xr ioctl 2
230call will fail.
231The
232.Vt struct tuninfo
233is declared in
234.In net/if_tun.h .
235.Pp
236The use of this ioctl is restricted to the super-user.
237.It Dv TUNGIFINFO
238The argument should be a pointer to an
239.Vt struct tuninfo ,
240where the current MTU, type, and baudrate will be stored.
241.It Dv TUNSIFMODE
242The argument should be a pointer to an
243.Vt int ;
244its value must be either
245.Dv IFF_POINTOPOINT
246or
247.Dv IFF_BROADCAST
248and should have
249.Dv IFF_MULTICAST
250OR'd into the value if multicast support is required.
251The type of the corresponding
252.Dq Li tun Ns Ar N
253interface is set to the supplied type.
254If the value is outside the above range, an
255.Er EINVAL
256error is returned.
257The interface must be down at the time; if it is up, an
258.Er EBUSY
259error is returned.
260.It Dv TUNSLMODE
261The argument should be a pointer to an
262.Vt int ;
263a non-zero value turns off
264.Dq multi-af
265mode and turns on
266.Dq link-layer
267mode, causing packets read from the tunnel device to be prepended with
268the network destination address (see above).
269.It Dv TUNSIFPID
270Will set the pid owning the tunnel device to the current process's pid.
271.It Dv TUNSIFHEAD
272The argument should be a pointer to an
273.Vt int ;
274a non-zero value turns off
275.Dq link-layer
276mode, and enables
277.Dq multi-af
278mode, where every packet is preceded with a four byte address family.
279.It Dv TUNGIFHEAD
280The argument should be a pointer to an
281.Vt int ;
282the ioctl sets the value to one if the device is in
283.Dq multi-af
284mode, and zero otherwise.
285.It Dv FIONBIO
286Turn non-blocking I/O for reads off or on, according as the argument
287.Vt int Ns 's
288value is or is not zero.
289(Writes are always non-blocking.)
290.It Dv FIOASYNC
291Turn asynchronous I/O for reads
292(i.e., generation of
293.Dv SIGIO
294when data is available to be read)
295off or on, according as the argument
296.Vt int Ns 's
297value is or is not zero.
298.It Dv FIONREAD
299If any packets are queued to be read, store the size of the first one
300into the argument
301.Vt int ;
302otherwise, store zero.
303.It Dv TIOCSPGRP
304Set the process group to receive
305.Dv SIGIO
306signals, when asynchronous I/O is enabled, to the argument
307.Vt int
308value.
309.It Dv TIOCGPGRP
310Retrieve the process group value for
311.Dv SIGIO
312signals into the argument
313.Vt int
314value.
315.El
316.Pp
317The control device also supports
318.Xr select 2
319for read; selecting for write is pointless, and always succeeds, since
320writes are always non-blocking.
321.Pp
322On the last close of the data device, by default, the interface is
323brought down
324(as if with
325.Nm ifconfig Ar tunN Cm down ) .
326All queued packets are thrown away.
327If the interface is up when the data device is not open
328output packets are always thrown away rather than letting
329them pile up.
330.Sh SEE ALSO
331.Xr ioctl 2 ,
332.Xr read 2 ,
333.Xr select 2 ,
334.Xr write 2 ,
335.Xr devname 3 ,
336.Xr inet 4 ,
337.Xr intro 4 ,
338.Xr pty 4 ,
339.Xr tap 4 ,
340.Xr ifconfig 8
341.Sh AUTHORS
342This manual page was originally obtained from
343.Nx .
344