ROUTE6D(8) |
System Manager's Manual |
ROUTE6D(8) |
NAME
route6d — RIP6 routing daemon
SYNOPSIS
route6d |
[-adDhlnqsS] [-R routelog] [-A prefix/preflen,if1[,if2...]] [-L prefix/preflen,if1[,if2...]] [-N if1[,if2...]] [-O prefix/preflen,if1[,if2...]] [-T if1[,if2...]] [-t tag] |
DESCRIPTION
The
route6d is a routing daemon which supports RIP over IPv6.
Options are:
-
-a
-
Enables aging of the statically defined routes. With this option, any statically defined routes will be removed unless corresponding updates arrive as if the routes are received at the startup of route6d.
-
-R routelog
-
This option makes route6d log route changes (add/delete) to the file routelog.
-
-A prefix/preflen,if1[,if2...]
-
This option is used for aggregating routes. prefix/preflen specifies the prefix and the prefix length of the aggregated route. When advertising routes, route6d filters specific routes covered by the aggregate and advertises the aggregated route prefix/preflen to the interfaces specified in the comma-separated interface list if1[,if2...]. route6d creates a static route to prefix/preflen, with the RTF_REJECT flag set, into the kernel routing table.
-
-d
-
Enables output of debugging messages. This option also instructs route6d to run in foreground mode (i.e., it does not become a daemon process).
-
-D
-
Enables extensive output of debugging messages. This option also instructs route6d to run in foreground mode (i.e., it does not become a daemon process).
-
-h
-
Disables split horizon processing.
-
-l
-
By default, route6d will not exchange site local routes for safety reasons. This is because the semantics of site local address space are rather vague, as the specification is still being worked on, and there is no good way to define the site local boundary. With -l, route6d will exchange site local routes as well. It must not be used on site boundary routers, since -l assumes that all interfaces are in the same site.
-
-L prefix/preflen,if1[,if2...]
-
Filter incoming routes from interfaces if1,[if2...]. route6d will accept incoming routes that are in prefix/preflen. If multiple -L options are specified, all routes that match any of the options are accepted.
::/0
is treated specially as default route, not “any route that has longer prefix length than, or equal to 0”. If you would like to accept any route, specify no -L option. For example, with “-L 3ffe::/16,if1
-L ::/0,if1
” route6d will accept the default route and routes in the 6bone test address range, but no others.
-
-n
-
Do not update the kernel routing table.
-
-N if1[,if2...]
-
Do not listen to, or advertise, route from/to interfaces specified by if1,[if2...].
-
-O prefix/preflen,if1[,if2...]
-
Restrict route advertisement toward interfaces specified by if1,[if2...]. With this option route6d will only advertise routes that match prefix/preflen.
-
-q
-
Makes route6d use listen-only mode. No advertisement is sent.
-
-s
-
Makes route6d advertise the statically defined routes which exist in the kernel routing table when route6d is invoked. Announcements obey the regular split horizon rule.
-
-S
-
This option is the same as -s, except that the split horizon rule does apply.
-
-T if1[,if2...]
-
Advertise only the default route toward if1,[if2...].
-
-t tag
-
Attach the route tag tag to originated route entries. tag can be decimal, octal prefixed by
0
, or hexadecimal prefixed by 0x
.
Upon receipt of signal SIGINT or SIGUSR1, route6d will dump the current internal state into /var/run/route6d_dump.
FILES
-
/var/run/route6d_dump
-
contains the internal state dumps created if route6d receives a SIGINT or SIGUSR1 signal
SEE ALSO
G. Malkin and R. Minnear, RIPng for IPv6, RFC 2080, January 1997.
NOTES
route6d uses the advanced IPv6 API, defined in RFC 3542, for communicating with peers using link-local addresses.
Internally route6d embeds interface identifiers into bits 32 to 63 of link-local addresses (fe80::xx
and ff02::xx
) so they will be visible in the internal state dump file (/var/run/route6d_dump).
Routing table manipulation differs from IPv6 implementation to implementation. Currently route6d obeys the WIDE Hydrangea/KAME IPv6 kernel, and will not be able to run on other platforms.
Currently, route6d does not reduce the rate of the triggered updates when consecutive updates arrive.