.\" $OpenBSD: tun.4,v 1.11 1999/09/23 04:12:05 alex Exp $ .Dd March 10, 1996 .Dt TUN 4 .Os .Sh NAME .Nm tun .Nd Tunnel Network Interface .Sh SYNOPSIS .Cd "pseudo-device tun 4" .Sh DESCRIPTION The .Nm tun interface is a software loopback mechanism that can be loosely described as the network interface analog of the .Xr pty 4 , that is, .Nm tun does for network interfaces what the .Nm pty driver does for terminals. .Pp The .Nm tun driver, like the .Nm pty driver, provides two interfaces: an interface like the usual facility it is simulating (a network interface in the case of .Nm tun , or a terminal for .Nm pty ) , and a character-special device .Dq control interface. .Pp The network interfaces are named .Sy tun Ns Ar 0 , .Sy tun Ns Ar 1 , etc, as many in all as the .Ar count figure given on the .Sy pseudo-device line. Each one supports the usual network-interface .Xr ioctl 2 Ns s , such as .Dv SIOCSIFADDR and .Dv SIOCSIFNETMASK , and thus can be used with .Xr ifconfig 8 like any other interface. At boot time, they are .Dv POINTOPOINT interfaces, but this can be changed; see the description of the control device, below. When the system chooses to transmit a packet on the network interface, the packet can be read from the control device (it appears as .Dq input there); writing a packet to the control device generates an input packet on the network interface, as if the (nonexistent) hardware had just received it. .Pp There are two control interfaces. The .Em data interface, normally .Pa /dev/tun Ns Sy N , is exclusive-open (it cannot be opened if it is already open), is normally restricted to the super-user, and can .Dq transmit and .Dq receive packets. The .Em control interface, normally .Pa /dev/tunc Ns Sy N , cannot send and receive packets, but can be opened by many processes at once; it is intended for status queries and changes (many of which can also be implemented with .Fn ioctl calls on the data interface). There are a number of status bits that can be set or cleared via the control interfaces; they are mentioned below where applicable, and they are all summarized in the discussions of the control interfaces. .\" Why isn't .Ss documented in mdoc(7) and mdoc.samples(7)? .Ss The data interface The data interface supports .Xr read 2 , .Xr write 2 , and .Xr ioctl 2 calls to, respectively, collect .Dq output packets, generate .Dq input packets, and perform control functions. As mentioned above, this interface is exclusive-open; if the .Dv SUONLY bit is set (which it is by default), it cannot be opened at all except by the super-user. By default, a .Fn read call will return an error .Pf ( Er EHOSTDOWN ) if the interface is not .Dq ready (which means that the control device is open and the interface's address has been set); if preferred, the .Dv RRWAIT bit can be set, in which case a .Fn read call will block (even if non-blocking I/O has been enabled) until the interface is ready. Once the interface is ready, .Fn read will return a packet if one is available; if not, it will either block until one is or return .Er EWOULDBLOCK , depending on whether non-blocking I/O has been enabled. If the packet is longer than is allowed for in the buffer passed to .Fn read , the extra data will be silently dropped. .Pp The first u_int32_t of data will always be the address family (eg, .Dv AF_INET ) of the packet in host byte order. By default, the packet data follows immediately, but if the .Dv PREPADDR bit is set, the address to which the packet is to be sent is placed after the address family u_int32_t and before the packet data. The size and layout of the address depends on the address family; for .Dv AF_INET , for example, it is a .Va struct in_addr . A .Xr write 2 call passes a packet in to be .Dq received on the pseudo-interface. Each .Fn write call supplies exactly one packet; the packet length is taken from the amount of data provided to .Fn write . The first u_int32_t must be the address family of the packet in host byte order, much as in packets returned by .Fn read ; the packet data always follows immediately. A large number of .Xr ioctl 2 calls are also supported. They are defined in .Aq Pa net/if_tun.h Ns . .Bl -tag -width TUN_PREPADDR .It Dv TUNSDEBUG The argument should be a pointer to an .Va int ; this sets the internal debugging variable to that value. What, if anything, this variable controls is not documented here; see the source code. .It Dv TUNGDEBUG The argument should be a pointer to an .Va int ; this stores the internal debugging variable's value into it. .It Dv TUNSMODE The argument should be a pointer to an .Va int ; its value must be .Dv IFF_POINTOPOINT or .Dv IFF_BROADCAST . The type of the corresponding .Em tun Ns Sy n interface is set to the supplied type. If the value is anything else, an .Er EINVAL error occurs. The interface must be down at the time; if it is up, an .Er EBUSY error occurs. .\" X .It Dv TUNSFLAG .\" X The interface's flag bits are set as specified in the .\" X .Va int .\" X argument. Only some of the bits can be modified; the rest are .\" X read-only. The bits are defined in .\" X .Aq Pa net/if_tun.h .\" X with a .\" X .Dv TUN_ .\" X prefix; for example, the bit called .\" X .Dv RRWAIT .\" X in this document would be referred to in source code as .\" X .Dv TUN_RRWAIT . .\" X The bits are: .\" X .\" Why isn't the way to create a table like this documented in mdoc(7) .\" X .\" or mdoc.samples(7)?! .\" X .Bl -column "TUN_PREPADDR" "RO/RW" -compact -indent-two .\" X .It Name Ta RO/RW Ta Meaning .\" X .It Dv TUN_OPEN Ta RO Ta "Data control device is open." .\" X .It Dv TUN_INITED Ta RO Ta "Initialized." .\" X .It Dv TUN_RCOLL Ta RO Ta "Select-for-read collision." .\" X .It Dv TUN_IASET Ta RO Ta "Address has been set." .\" X .It Dv TUN_DSTADDR Ta RO Ta "Destination address has been set." .\" X .It Dv TUN_RWAIT Ta RO Ta "A process is blocked in Fn read Ns ." .\" X .It Dv TUN_ASYNC Ta RO Ta "Generate Dv SIGIO No for readers." .\" X .It Dv TUN_NBIO Ta RO Ta "Non-blocking I/O for reads." .\" X .It Dv TUN_BRDADDR Ta RO Ta "Broadcast address has been set." .\" X .It Dv TUN_PREPADDR Ta RW Ta "Prepend sent-to address for reads." .\" X .It Dv TUN_STAYUP Ta RW Ta "Don't take interface down on close." .\" X .It Dv TUN_SUONLY Ta RW Ta "Data control device is super-user only." .\" X .It Dv TUN_RRWAIT Ta RW Ta "Wait for ready when reading." .\" X .El .\" X .It Dv TUNGFLAG .\" X The interface's flag bits are fetched into the argument .\" X .Va int . .\" X The flags and their meanings are as for .\" X .Dv TUNSFLAG . .\" X .It Dv FIONBIO .\" X Turn non-blocking I/O for reads off or on, according as the argument .\" X .Va int Ns 's .\" X value is or isn't zero. (Writes are always nonblocking.) .\" X .It Dv FIOASYNC .\" X Turn asynchronous I/O for reads (ie, generation of .\" X .Dv SIGIO .\" X when data is available to be read) off or on, according as the argument .\" X .Va int Ns 's .\" X value is or isn't zero. .\" X .It Dv FIONREAD .\" X If any packets are queued to be read, store the size of the first one .\" X into the argument .\" X .Va int ; .\" X otherwise, store zero. .\" X .It Dv TIOCSPGRP .\" X Set the process group to receive .\" X .Dv SIGIO .\" X signals, when asynchronous I/O is enabled, to the argument .\" X .Va int .\" X value. .\" X .It Dv TIOCGPGRP .\" X Retrieve the process group value for .\" X .Dv SIGIO .\" X signals into the argument .\" X .Va int .\" X value. .El The data control device also supports .Xr select 2 for read; selecting for write is pointless, and always succeeds, since writes are always nonblocking (if the packet cannot be accepted for a transient reason (eg, no buffer space available), it is silently dropped; if the reason is not transient (eg, packet too large), an error is returned). .Pp On the last close of the data device, by default, the interface is brought down (as if with .Dq ifconfig tun Ns Sy n down ) ; if the .Dv STAYUP bit is set, this is not done. In either case, all queued packets are thrown away. (If the interface is up when the data device is not open, either because of .Dv STAYUP or because it was explicitly brought up, output packets are always thrown away rather than letting them pile up.) .Ss The control interface The alternative control interface is a text-based interface designed for shell-script or human use; it allows control of many of the things that can be done with .Fn ioctl calls on the data interface, and a few more as well. .Pp .Fn read Ns s on the control interface always return a single line of text (or just the beginning of the line, if the buffer passed to .Xr read 2 was too small to take the whole line). The line contains items in the general format .Do .Li item=value .Dc , where .Li item is a keyword and .Li value is a value appropriate to the keyword. This line is intended for human use; programs should use the .Fn ioctl interface. Here is an actual example (broken because of width restrictions): .Bd -literal unit=0 flags=(open,inited,!rcoll,iaset,!dstaddr,!rwait,!async, !nbio,!brdaddr,prepaddr,stayup,suonly,rrwait) type=broadcast mtu=1500 coll=0 ipkts=0/0 opkts=0/0 pgrp=0 .Ed .Pp Note that the current file offset is ignored for reads, so using a tool like .Xr cat 1 will result in infinite output. Use something more like .Dq head\ \&-1 for command-line use. It is possible to .Xr select 2 for reading on this device, which will indicate that the device is readable whenever the state is changed. .Pp Writes to the control interface are interpreted as modifications to the state. Each .Fn write call is treated separately. The data written is broken at whitespace (blanks, tabs, newlines); each resulting fragment has its first character examined. If this character is a .Ql \&+ or .Ql \&\- , the rest of the fragment is taken as a flag name, and the flag is turned on (for .Ql \&+ ) or off (for .Ql \&\- ) . (Flag names are as generated on reads; they are the same as the .Dv TUN_ Ns Em xxx constants, with the leading .Dv TUN_ removed and the rest lowercased.) If the first character is .Ql t , the second character must be .Ql b or .Ql p , and the interface type is set to .Dv IFF_BROADCAST or .Dv IFF_POINTOPOINT , respectively. If the first character is .Ql g or .Ql m , the rest of the fragment is taken as a number in decimal (possibly with a leading \&\- sign) and the result is taken as a new process group, for .Ql g or MTU, for .Ql m . (The MTU must not be less than 1; attempts to set it so return .Er EIO . ) .Sh SEE ALSO .Xr inet 4 , .Xr netintro 4 .Sh BUGS The .Dv SUONLY bit is a botch, especially since the control interface, which is never restricted by the kernel, can change it. Access control really should be handled by the permission bits on the .Pa /dev entries for the data and control devices; this bit is a historical artifact. .Pp The process-group values for .Dv SIGIO signals should be checked; as it stands, the driver can be used (by anyone who can open the control or data device) to send any desired signal to an arbitrary process or process group. (Until this is fixed, you should be careful to set the permission bits to allow only root to open the control device, and either do the same for the data device or leave the .Dv SUONLY bit set.) .Sh NOTES Very old versions of the tunnel device did not include the address family at the start of the packet. More recent versions passed the address family as a single byte, but this caused problems with bpf, hence the current version passes a u_int32_t of address family.