ip-rule - routing policy database management
ip [ OPTIONS ] rule { COMMAND |
help }
ip rule [ list [ SELECTOR ]]
ip rule { add | del } SELECTOR
ACTION
ip rule { flush | save | restore }
SELECTOR := [ not ] [ from PREFIX ] [
to PREFIX ] [ tos TOS ] [ fwmark
FWMARK[/MASK] ] [ iif STRING ] [
oif STRING ] [ pref NUMBER ] [ l3mdev ] [
uidrange NUMBER-NUMBER ] [ ipproto
PROTOCOL ] [ sport [ NUMBER |
NUMBER-NUMBER ] ] [ dport [ NUMBER |
NUMBER-NUMBER ] ] [ tun_id TUN_ID ]
ACTION := [ table TABLE_ID ] [
protocol PROTO ] [ nat ADDRESS ] [ realms
[SRCREALM/]DSTREALM ] [ goto NUMBER ]
SUPPRESSOR
SUPPRESSOR := [ suppress_prefixlength NUMBER
] [ suppress_ifgroup GROUP ]
TABLE_ID := [ local | main | default |
NUMBER ]
ip rule manipulates rules in the routing policy database
control the route selection algorithm.
Classic routing algorithms used in the Internet make routing
decisions based only on the destination address of packets (and in theory,
but not in practice, on the TOS field).
In some circumstances we want to route packets differently
depending not only on destination addresses, but also on other packet
fields: source address, IP protocol, transport protocol ports or even packet
payload. This task is called 'policy routing'.
To solve this task, the conventional destination based routing
table, ordered according to the longest match rule, is replaced with a
'routing policy database' (or RPDB), which selects routes by executing some
set of rules.
Each policy routing rule consists of a selector and an
action predicate. The RPDB is scanned in order of decreasing priority
(note that lower number means higher priority, see the description of
PREFERENCE below). The selector of each rule is applied to {source
address, destination address, incoming interface, tos, fwmark} and, if the
selector matches the packet, the action is performed. The action predicate
may return with success. In this case, it will either give a route or
failure indication and the RPDB lookup is terminated. Otherwise, the RPDB
program continues with the next rule.
Semantically, the natural action is to select the nexthop and the
output device.
At startup time the kernel configures the default RPDB consisting
of three rules:
- 1.
- Priority: 0, Selector: match anything, Action: lookup routing table
local (ID 255). The local table is a special routing table
containing high priority control routes for local and broadcast addresses.
- 2.
- Priority: 32766, Selector: match anything, Action: lookup routing table
main (ID 254). The main table is the normal routing table
containing all non-policy routes. This rule may be deleted and/or
overridden with other ones by the administrator.
- 3.
- Priority: 32767, Selector: match anything, Action: lookup routing table
default (ID 253). The default table is empty. It is reserved
for some post-processing if no previous default rules selected the packet.
This rule may also be deleted.
Each RPDB entry has additional attributes. F.e. each rule has a
pointer to some routing table. NAT and masquerading rules have an attribute
to select new IP address to translate/masquerade. Besides that, rules have
some optional attributes, which routes have, namely realms. These
values do not override those contained in the routing tables. They are only
used if the route did not select any attributes.
The RPDB may contain rules of the following types:
unicast - the rule prescribes to return the route
found in the routing table referenced by the rule.
blackhole - the rule prescribes to silently drop the
packet.
unreachable - the rule prescribes to generate a 'Network is
unreachable' error.
prohibit - the rule prescribes to generate 'Communication
is administratively prohibited' error.
nat - the rule prescribes to translate the source address
of the IP packet into some other value.
- ip rule add - insert a new
rule
- ip rule delete - delete a
rule
- type TYPE
(default)
- the type of this rule. The list of valid types was given in the previous
subsection.
- from
PREFIX
- select the source prefix to match.
- to PREFIX
- select the destination prefix to match.
- iif NAME
- select the incoming device to match. If the interface is loopback, the
rule only matches packets originating from this host. This means that you
may create separate routing tables for forwarded and local packets and,
hence, completely segregate them.
- oif NAME
- select the outgoing device to match. The outgoing interface is only
available for packets originating from local sockets that are bound to a
device.
- tos TOS
- dsfield
TOS
- select the TOS value to match.
- fwmark
MARK
- select the fwmark value to match.
- uidrange
NUMBER-NUMBER
- select the uid value to match.
- ipproto
PROTOCOL
- select the ip protocol value to match.
- sport NUMBER |
NUMBER-NUMBER
- select the source port value to match. supports port range.
- dport NUMBER |
NUMBER-NUMBER
- select the destination port value to match. supports port range.
- priority
PREFERENCE
- the priority of this rule. PREFERENCE is an unsigned integer value,
higher number means lower priority, and rules get processed in order of
increasing number. Each rule should have an explicitly set unique
priority value. The options preference and order are synonyms with
priority.
- table
TABLEID
- the routing table identifier to lookup if the rule selector matches. It is
also possible to use lookup instead of table.
- protocol
PROTO
- the routing protocol who installed the rule in question. As an example
when zebra installs a rule it would get RTPROT_ZEBRA as the installing
protocol.
- suppress_prefixlength
NUMBER
- reject routing decisions that have a prefix length of NUMBER or less.
- suppress_ifgroup
GROUP
- reject routing decisions that use a device belonging to the interface
group GROUP.
- realms
FROM/TO
- Realms to select if the rule matched and the routing table lookup
succeeded. Realm TO is only used if the route did not select any
realm.
- nat
ADDRESS
- The base of the IP address block to translate (for source addresses). The
ADDRESS may be either the start of the block of NAT addresses
(selected by NAT routes) or a local host address (or even zero). In the
last case the router does not translate the packets, but masquerades them
to this address. Using map-to instead of nat means the same thing.
Warning: Changes to the RPDB made with these commands
do not become active immediately. It is assumed that after a script
finishes a batch of updates, it flushes the routing cache with ip
route flush cache.
- ip rule flush - also dumps
all the deleted rules.
- ip rule show - list
rules
- This command has no arguments. The options list or lst are synonyms with
show.
- ip rule save
- save rules table information
to stdout
This command behaves like ip rule show except that
the output is raw data suitable for passing to ip rule restore.
- ip rule
restore
- restore rules table information from stdin
This command expects to read a data stream as returned
from ip rule save. It will attempt to restore the rules table
information exactly as it was at the time of the save. Any rules already in
the table are left unchanged, and duplicates are not ignored.
Original Manpage by Michail Litvak
<mci@owl.openwall.com>