freebsd-skq/share/man/man4/gre.4
ae 97ddb4fef9 Add GRE-in-UDP encapsulation support as defined in RFC8086.
This GRE-in-UDP encapsulation allows the UDP source port field to be
used as an entropy field for load-balancing of GRE traffic in transit
networks. Also most of multiqueue network cards are able distribute
incoming UDP datagrams to different NIC queues, while very little are
able do this for GRE packets.

When an administrator enables UDP encapsulation with command
`ifconfig gre0 udpencap`, the driver creates kernel socket, that binds
to tunnel source address and after udp_set_kernel_tunneling() starts
receiving of all UDP packets destined to 4754 port. Each kernel socket
maintains list of tunnels with different destination addresses. Thus
when several tunnels use the same source address, they all handled by
single socket.  The IP[V6]_BINDANY socket option is used to be able bind
socket to source address even if it is not yet available in the system.
This may happen on system boot, when gre(4) interface is created before
source address become available. The encapsulation and sending of packets
is done directly from gre(4) into ip[6]_output() without using sockets.

Reviewed by:	eugen
MFC after:	1 month
Relnotes:	yes
Differential Revision:	https://reviews.freebsd.org/D19921
2019-04-24 09:05:45 +00:00

233 lines
7.8 KiB
Groff

.\" $NetBSD: gre.4,v 1.28 2002/06/10 02:49:35 itojun Exp $
.\"
.\" Copyright 1998 (c) The NetBSD Foundation, Inc.
.\" All rights reserved.
.\"
.\" This code is derived from software contributed to The NetBSD Foundation
.\" by Heiko W.Rupp <hwr@pilhuhn.de>
.\"
.\" Redistribution and use in source and binary forms, with or without
.\" modification, are permitted provided that the following conditions
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.\" notice, this list of conditions and the following disclaimer.
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.\" THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
.\" ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
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.\" CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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.\" $FreeBSD$
.\"
.Dd April 24, 2019
.Dt GRE 4
.Os
.Sh NAME
.Nm gre
.Nd encapsulating network device
.Sh SYNOPSIS
To compile the
driver into the kernel, place the following line in the kernel
configuration file:
.Bd -ragged -offset indent
.Cd "device gre"
.Ed
.Pp
Alternatively, to load the
driver as a module at boot time, place the following line in
.Xr loader.conf 5 :
.Bd -literal -offset indent
if_gre_load="YES"
.Ed
.Sh DESCRIPTION
The
.Nm
network interface pseudo device encapsulates datagrams
into IP.
These encapsulated datagrams are routed to a destination host,
where they are decapsulated and further routed to their final destination.
The
.Dq tunnel
appears to the inner datagrams as one hop.
.Pp
.Nm
interfaces are dynamically created and destroyed with the
.Xr ifconfig 8
.Cm create
and
.Cm destroy
subcommands.
.Pp
This driver corresponds to RFC 2784.
Encapsulated datagrams are prepended an outer datagram and a GRE header.
The GRE header specifies
the type of the encapsulated datagram and thus allows for tunneling other
protocols than IP.
GRE mode is also the default tunnel mode on Cisco routers.
.Nm
also supports Cisco WCCP protocol, both version 1 and version 2.
.Pp
The
.Nm
interfaces support a number of additional parameters to the
.Xr ifconfig 8 :
.Bl -tag -width "enable_csum"
.It Ar grekey
Set the GRE key used for outgoing packets.
A value of 0 disables the key option.
.It Ar enable_csum
Enables checksum calculation for outgoing packets.
.It Ar enable_seq
Enables use of sequence number field in the GRE header for outgoing packets.
.It Ar udpencap
Enables UDP-in-GRE encapsulation (see the
.Sx GRE-IN-UDP ENCAPSULATION
Section below for details).
.It Ar udpport
Set the source UDP port for outgoing packets.
A value of 0 disables the persistence of source UDP port for outgoing packets.
See the
.Sx GRE-IN-UDP ENCAPSULATION
Section below for details.
.El
.Sh GRE-IN-UDP ENCAPSULATION
The
.Nm
supports GRE in UDP encapsulation as defined in RFC 8086.
A GRE in UDP tunnel offers the possibility of better performance for
load-balancing GRE traffic in transit networks.
Encapsulating GRE in UDP enables use of the UDP source port to provide
entropy to ECMP hashing.
.Pp
The GRE in UDP tunnel uses single value 4754 as UDP destination port.
The UDP source port contains a 14-bit entropy value that is generated
by the encapsulator to identify a flow for the encapsulated packet.
The
.Ar udpport
option can be used to disable this behaviour and use single source UDP
port value.
The value of
.Ar udpport
should be within the ephemeral port range, i.e., 49152 to 65535 by default.
.Pp
Note that a GRE in UDP tunnel is unidirectional; the tunnel traffic is not
expected to be returned back to the UDP source port values used to generate
entropy.
This may impact NAPT (Network Address Port Translator) middleboxes.
If such tunnels are expected to be used on a path with a middlebox,
the tunnel can be configured either to disable use of the UDP source port
for entropy or to enable middleboxes to pass packets with UDP source port
entropy.
.Sh EXAMPLES
.Bd -literal
192.168.1.* --- Router A -------tunnel-------- Router B --- 192.168.2.*
\\ /
\\ /
+------ the Internet ------+
.Ed
.Pp
Assuming router A has the (external) IP address A and the internal address
192.168.1.1, while router B has external address B and internal address
192.168.2.1, the following commands will configure the tunnel:
.Pp
On router A:
.Bd -literal -offset indent
ifconfig greN create
ifconfig greN inet 192.168.1.1 192.168.2.1
ifconfig greN inet tunnel A B
route add -net 192.168.2 -netmask 255.255.255.0 192.168.2.1
.Ed
.Pp
On router B:
.Bd -literal -offset indent
ifconfig greN create
ifconfig greN inet 192.168.2.1 192.168.1.1
ifconfig greN inet tunnel B A
route add -net 192.168.1 -netmask 255.255.255.0 192.168.1.1
.Ed
.Pp
In case when internal and external IP addresses are the same,
different routing tables (FIB) should be used.
The default FIB will be applied to IP packets before GRE encapsulation.
After encapsulation GRE interface should set different FIB number to
outgoing packet.
Then different FIB will be applied to such encapsulated packets.
According to this FIB packet should be routed to tunnel endpoint.
.Bd -literal
Host X -- Host A (198.51.100.1) ---tunnel--- Cisco D (203.0.113.1) -- Host E
\\ /
\\ /
+----- Host B ----- Host C -----+
(198.51.100.254)
.Ed
.Pp
On Host A (FreeBSD):
.Pp
First of multiple FIBs should be configured via loader.conf:
.Bd -literal -offset indent
net.fibs=2
net.add_addr_allfibs=0
.Ed
.Pp
Then routes to the gateway and remote tunnel endpoint via this gateway
should be added to the second FIB:
.Bd -literal -offset indent
route add -net 198.51.100.0 -netmask 255.255.255.0 -fib 1 -iface em0
route add -host 203.0.113.1 -fib 1 198.51.100.254
.Ed
.Pp
And GRE tunnel should be configured to change FIB for encapsulated packets:
.Bd -literal -offset indent
ifconfig greN create
ifconfig greN inet 198.51.100.1 203.0.113.1
ifconfig greN inet tunnel 198.51.100.1 203.0.113.1 tunnelfib 1
.Ed
.Sh NOTES
The MTU of
.Nm
interfaces is set to 1476 by default, to match the value used by Cisco routers.
This may not be an optimal value, depending on the link between the two tunnel
endpoints.
It can be adjusted via
.Xr ifconfig 8 .
.Pp
For correct operation, the
.Nm
device needs a route to the decapsulating host that does not run over the tunnel,
as this would be a loop.
.Pp
The kernel must be set to forward datagrams by setting the
.Va net.inet.ip.forwarding
.Xr sysctl 8
variable to non-zero.
.Sh SEE ALSO
.Xr gif 4 ,
.Xr inet 4 ,
.Xr ip 4 ,
.Xr me 4 ,
.Xr netintro 4 ,
.Xr protocols 5 ,
.Xr ifconfig 8 ,
.Xr sysctl 8
.Pp
A description of GRE encapsulation can be found in RFC 2784 and RFC 2890.
.Sh AUTHORS
.An Andrey V. Elsukov Aq Mt ae@FreeBSD.org
.An Heiko W.Rupp Aq Mt hwr@pilhuhn.de
.Sh BUGS
The current implementation uses the key only for outgoing packets.
Incoming packets with a different key or without a key will be treated as if they
would belong to this interface.
.Pp
The sequence number field also used only for outgoing packets.