Variable
Value
TransitDelay
The estimated number of seconds required to transmit a link-state
update packet over this interface. The range is 1–1800 and the
default is 1 second.
RetransInterval
The number of seconds between link-state advertisement, and
retransmissions, for adjacencies belonging to this interface. This
value is also used when retransmitting the database description and
the link-state request packets. This value must exceed the expected
round- trip time. The range is 1–1800 and the default is 5 seconds.
HelloInterval
The length of time, in seconds, between the hello packets that the
router sends on the interface. This value must be the same for the
virtual neighbor. The default value is 10 seconds.
RtrDeadInterval
The number of seconds during which router hello packets are not
received before neighbors declare the router down. Use a multiple
of the hello interval. You must configure this same value on the virtual
neighbor. The default value is 60 seconds.
State
OSPF virtual interface states.
Events
The number of state changes or error events on this virtual link
LinkScopeLsaCount
The total number of Link-Scope link-state advertisements in this
virtual link's link-state database.
LinkLsaCksumSum
The 32-bit unsigned sum of the Link-Scope link-state
advertisements' LS checksums contained in this virtual link's link-
state database. The sum can be used to determine if there has been
a change in a router's link state database, and to compare the link-
state database of two routers.
Specifying ASBRs
Autonomous system boundary routers (ASBR) advertise non-OSPF routes into OSPF
domains, communicating routes throughout the OSPF routing domain. A router can function
as an ASBR if you connect one or more interfaces to a non-OSPF network (for example, RIP or
BGP).
To conserve resources, or to specifically control which routers perform as ASBRs, you can limit
the number of ASBRs on your network.
Procedure steps
1. In the navigation tree, open the following folders: Configuration, IPv6.
2. Double-click
OSPF
.
3. Select the
ASBdrRtrStatus
box to designate the router as an ASBR.
OR
IPv6 routing configuration using Enterprise Device Manager
150 Configuration — IPv6 Routing
November 2010
Содержание ERS 8600 series
Страница 1: ...Configuration IPv6 Routing Avaya Ethernet Routing Switch 8800 8600 7 0 NN46205 504 03 03 November 2010...
Страница 14: ...New in this release 14 Configuration IPv6 Routing November 2010...
Страница 78: ...IPv6 routing configuration 78 Configuration IPv6 Routing November 2010...
Страница 132: ...Basic IPv6 configuration using the ACLI 132 Configuration IPv6 Routing November 2010...
Страница 176: ...IPv6 routing configuration using the CLI 176 Configuration IPv6 Routing November 2010...
Страница 194: ...IPv6 routing configuration using the ACLI 194 Configuration IPv6 Routing November 2010...
Страница 198: ...IPv6 DHCP Relay configuration using Enterprise Device Manager 198 Configuration IPv6 Routing November 2010...
Страница 206: ...IPv6 DHCP Relay configuration using the CLI 206 Configuration IPv6 Routing November 2010...
Страница 224: ...IPv6 VRRP configuration using Enterprise Device Manager 224 Configuration IPv6 Routing November 2010...
Страница 238: ...IPv6 VRRP configuration using the CLI 238 Configuration IPv6 Routing November 2010...
Страница 250: ...IPv6 VRRP configuration using the ACLI 250 Configuration IPv6 Routing November 2010...
Страница 262: ...IPv6 RSMLT configuration using the CLI 262 Configuration IPv6 Routing November 2010...
Страница 268: ...IPv6 RSMLT configuration using the ACLI 268 Configuration IPv6 Routing November 2010...
Страница 292: ...Multicast protocol configuration using Enterprise Device Manager 292 Configuration IPv6 Routing November 2010...
Страница 306: ...Multicast protocol configuration using the ACLI 306 Configuration IPv6 Routing November 2010...
Страница 344: ...IPv6 traffic filter configuration using the ACLI 344 Configuration IPv6 Routing November 2010...
Страница 398: ...CLI show commands 398 Configuration IPv6 Routing November 2010...