xref: /freebsd/share/man/man4/tap.4 (revision 6829dae12bb055451fa467da4589c43bd03b1e64)
1.\" $FreeBSD$
2.\" Based on PR#2411
3.\"
4.Dd November 29, 2017
5.Dt TAP 4
6.Os
7.Sh NAME
8.Nm tap
9.Nd Ethernet tunnel software network interface
10.Sh SYNOPSIS
11.Cd device tap
12.Sh DESCRIPTION
13The
14.Nm
15interface is a software loopback mechanism that can be loosely
16described as the network interface analog of the
17.Xr pty 4 ,
18that is,
19.Nm
20does for network interfaces what the
21.Xr pty 4
22driver does for terminals.
23.Pp
24The
25.Nm
26driver, like the
27.Xr pty 4
28driver, provides two interfaces: an interface like the usual facility
29it is simulating
30(an Ethernet network interface in the case of
31.Nm ,
32or a terminal for
33.Xr pty 4 ) ,
34and a character-special device
35.Dq control
36interface.
37A client program transfers Ethernet frames to or from the
38.Nm
39.Dq control
40interface.
41The
42.Xr tun 4
43interface provides similar functionality at the network layer:
44a client will transfer IP (by default) packets to or from a
45.Xr tun 4
46.Dq control
47interface.
48.Pp
49The network interfaces are named
50.Dq Li tap0 ,
51.Dq Li tap1 ,
52etc., one for each control device that has been opened.
53These Ethernet network interfaces persist until
54.Pa if_tap.ko
55module is unloaded, or until removed with "ifconfig destroy" (see below).
56.Pp
57.Nm
58devices are created using interface cloning.
59This is done using the
60.Dq ifconfig tap Ns Sy N No create
61command.
62This is the preferred method of creating
63.Nm
64devices.
65The same method allows removal of interfaces.
66For this, use the
67.Dq ifconfig tap Ns Sy N No destroy
68command.
69.Pp
70If the
71.Xr sysctl 8
72variable
73.Va net.link.tap.devfs_cloning
74is non-zero, the
75.Nm
76interface
77permits opens on the special control device
78.Pa /dev/tap .
79When this device is opened,
80.Nm
81will return a handle for the lowest unused
82.Nm
83device (use
84.Xr devname 3
85to determine which).
86.Pp
87.Bf Em
88Disabling the legacy devfs cloning functionality may break existing
89applications which use
90.Nm ,
91such as
92.Tn VMware
93and
94.Xr ssh 1 .
95It therefore defaults to being enabled until further notice.
96.Ef
97.Pp
98Control devices (once successfully opened) persist until
99.Pa if_tap.ko
100is unloaded or the interface is destroyed.
101.Pp
102Each interface supports the usual Ethernet network interface
103.Xr ioctl 2 Ns s
104and thus can be used with
105.Xr ifconfig 8
106like any other Ethernet interface.
107When the system chooses to transmit
108an Ethernet frame on the network interface, the frame can be read from
109the control device
110(it appears as
111.Dq input
112there);
113writing an Ethernet frame to the control device generates an input frame on
114the network interface, as if the
115(non-existent)
116hardware had just received it.
117.Pp
118The Ethernet tunnel device, normally
119.Pa /dev/tap Ns Sy N ,
120is exclusive-open
121(it cannot be opened if it is already open)
122and is restricted to the super-user, unless the
123.Xr sysctl 8
124variable
125.Va net.link.tap.user_open
126is non-zero.
127If the
128.Xr sysctl 8
129variable
130.Va net.link.tap.up_on_open
131is non-zero, the tunnel device will be marked
132.Dq up
133when the control device is opened.
134A
135.Fn read
136call will return an error
137.Pq Er EHOSTDOWN
138if the interface is not
139.Dq ready .
140Once the interface is ready,
141.Fn read
142will return an Ethernet frame if one is available; if not, it will
143either block until one is or return
144.Er EWOULDBLOCK ,
145depending on whether non-blocking I/O has been enabled.
146If the frame
147is longer than is allowed for in the buffer passed to
148.Fn read ,
149the extra data will be silently dropped.
150.Pp
151A
152.Xr write 2
153call passes an Ethernet frame in to be
154.Dq received
155on the pseudo-interface.
156Each
157.Fn write
158call supplies exactly one frame; the frame length is taken from the
159amount of data provided to
160.Fn write .
161Writes will not block; if the frame cannot be accepted
162for a transient reason
163(e.g., no buffer space available),
164it is silently dropped; if the reason is not transient
165(e.g., frame too large),
166an error is returned.
167The following
168.Xr ioctl 2
169calls are supported
170(defined in
171.In net/if_tap.h ) :
172.Bl -tag -width VMIO_SIOCSETMACADDR
173.It Dv TAPSIFINFO
174Set network interface information (line speed and MTU).
175The type must be the same as returned by
176.Dv TAPGIFINFO
177or set to
178.Dv IFT_ETHER
179else the
180.Xr ioctl 2
181call will fail.
182The argument should be a pointer to a
183.Va struct tapinfo .
184.It Dv TAPGIFINFO
185Retrieve network interface information (line speed, MTU and type).
186The argument should be a pointer to a
187.Va struct tapinfo .
188.It Dv TAPSDEBUG
189The argument should be a pointer to an
190.Va int ;
191this sets the internal debugging variable to that value.
192What, if
193anything, this variable controls is not documented here; see the source
194code.
195.It Dv TAPGDEBUG
196The argument should be a pointer to an
197.Va int ;
198this stores the internal debugging variable's value into it.
199.It Dv TAPGIFNAME
200Retrieve network interface name.
201The argument should be a pointer to a
202.Va struct ifreq .
203The interface name will be returned in the
204.Va ifr_name
205field.
206.It Dv FIONBIO
207Turn non-blocking I/O for reads off or on, according as the argument
208.Va int Ns 's
209value is or is not zero
210(Writes are always nonblocking).
211.It Dv FIOASYNC
212Turn asynchronous I/O for reads
213(i.e., generation of
214.Dv SIGIO
215when data is available to be read)
216off or on, according as the argument
217.Va int Ns 's
218value is or is not zero.
219.It Dv FIONREAD
220If any frames are queued to be read, store the size of the first one into the argument
221.Va int ;
222otherwise, store zero.
223.It Dv TIOCSPGRP
224Set the process group to receive
225.Dv SIGIO
226signals, when asynchronous I/O is enabled, to the argument
227.Va int
228value.
229.It Dv TIOCGPGRP
230Retrieve the process group value for
231.Dv SIGIO
232signals into the argument
233.Va int
234value.
235.It Dv SIOCGIFADDR
236Retrieve the Media Access Control
237.Pq Dv MAC
238address of the
239.Dq remote
240side.
241This command is used by the VMware port and expected to be executed on
242descriptor, associated with control device
243(usually
244.Pa /dev/vmnet Ns Sy N
245or
246.Pa /dev/tap Ns Sy N ) .
247The
248.Va buffer ,
249which is passed as the argument, is expected to have enough space to store
250the
251.Dv MAC
252address.
253At the open time both
254.Dq local
255and
256.Dq remote
257.Dv MAC
258addresses are the same, so this command could be used to retrieve the
259.Dq local
260.Dv MAC
261address.
262.It Dv SIOCSIFADDR
263Set the Media Access Control
264.Pq Dv MAC
265address of the
266.Dq remote
267side.
268This command is used by VMware port and expected to be executed on
269a descriptor, associated with control device
270(usually
271.Pa /dev/vmnet Ns Sy N ) .
272.El
273.Pp
274The control device also supports
275.Xr select 2
276for read; selecting for write is pointless, and always succeeds, since
277writes are always non-blocking.
278.Pp
279On the last close of the data device, the interface is
280brought down
281(as if with
282.Dq ifconfig tap Ns Sy N No down )
283unless the device is a
284.Em VMnet
285device, or has
286.Dv IFF_LINK0
287flag set.
288All queued frames are thrown away.
289If the interface is up when the data
290device is not open, output frames are thrown away rather than
291letting them pile up.
292.Pp
293The
294.Nm
295device can also be used with the VMware port as a replacement
296for the old
297.Em VMnet
298device driver.
299The driver uses the minor number
300to select between
301.Nm
302and
303.Nm vmnet
304devices.
305.Em VMnet
306minor numbers begin at
307.Va 0x800000
308+
309.Va N ;
310where
311.Va N
312is a
313.Em VMnet
314unit number.
315In this case the control device is expected to be
316.Pa /dev/vmnet Ns Sy N ,
317and the network interface will be
318.Sy vmnet Ns Ar N .
319Additionally,
320.Em VMnet
321devices do not
322.Xr ifconfig 8
323themselves down when the
324control device is closed.
325Everything else is the same.
326.Pp
327In addition to the above mentioned
328.Xr ioctl 2
329calls, there is an additional one for the VMware port.
330.Bl -tag -width VMIO_SIOCSETMACADDR
331.It Dv VMIO_SIOCSIFFLAGS
332VMware
333.Dv SIOCSIFFLAGS .
334.El
335.Sh SEE ALSO
336.Xr inet 4 ,
337.Xr intro 4 ,
338.Xr tun 4
339