Network Router User Manual
Table Of Contents
- Notices
- Contents
- About This Manual
- Introduction
- Hot Swapping Line Cards and Control Modules
- Bridging Configuration Guide
- Bridging Overview
- VLAN Overview
- Configuring SSR Bridging Functions
- Monitoring Bridging
- Configuration Examples
- SmartTRUNK Configuration Guide
- ATM Configuration Guide
- Packet-over-SONET Configuration Guide
- DHCP Configuration Guide
- IP Routing Configuration Guide
- IP Routing Protocols
- Configuring IP Interfaces and Parameters
- Configuring IP Interfaces to Ports
- Configuring IP Interfaces for a VLAN
- Specifying Ethernet Encapsulation Method
- Configuring Jumbo Frames
- Configuring Address Resolution Protocol (ARP)
- Configuring Reverse Address Resolution Protocol (RARP)
- Configuring DNS Parameters
- Configuring IP Services (ICMP)
- Configuring IP Helper
- Configuring Direct Broadcast
- Configuring Denial of Service (DOS)
- Monitoring IP Parameters
- Configuring Router Discovery
- Configuration Examples
- VRRP Configuration Guide
- RIP Configuration Guide
- OSPF Configuration Guide
- BGP Configuration Guide
- Routing Policy Configuration Guide
- Route Import and Export Policy Overview
- Configuring Simple Routing Policies
- Configuring Advanced Routing Policies
- Multicast Routing Configuration Guide
- IP Policy-Based Forwarding Configuration Guide
- Network Address Translation Configuration Guide
- Web Hosting Configuration Guide
- Overview
- Load Balancing
- Web Caching
- IPX Routing Configuration Guide
- Access Control List Configuration Guide
- Security Configuration Guide
- QoS Configuration Guide
- Performance Monitoring Guide
- RMON Configuration Guide
- LFAP Configuration Guide
- WAN Configuration Guide
- WAN Overview
- Frame Relay Overview
- Configuring Frame Relay Interfaces for the SSR
- Monitoring Frame Relay WAN Ports
- Frame Relay Port Configuration
- Point-to-Point Protocol (PPP) Overview
- Configuring PPP Interfaces
- Monitoring PPP WAN Ports
- PPP Port Configuration
- WAN Configuration Examples
- New Features Supported on Line Cards
SmartSwitch Router User Reference Manual 167
Chapter 13: Routing Policy Configuration Guide
Route aggregation is also used by regional and national networks to reduce the amount of
routing information passed around. With careful allocation of network addresses to
clients, regional networks can just announce one route to regional networks instead of
hundreds.
Aggregate routes are not actually used for packet forwarding by the originator of the
aggregate route, but only by the receiver (if it wishes). Instead of requiring a route-peer to
know about individual subnets which would increase the size of its routing table, the peer
is only informed about an aggregate-route which contains all the subnets.
Like export policies, aggregate-routes can have up to three components:
• Aggregate-Destination
• Aggregate-Source
• Route-Filter
Aggregate-Destination
This component specifies the aggregate/summarized route. It also specifies the attributes
associated with the aggregate route. The preference to be associated with an aggregate
route can be specified using this component.
Aggregate-Source
This component specifies the source of the routes contributing to an
aggregate/summarized route. It can also specify the preference to be associated with the
contributing routes from this source. This preference can be overridden by explicitly
specifying a preference with the route-filter.
The routes contributing to an aggregate can be identified by their associated attributes:
• Protocol type (RIP, OSPF, BGP, Static, Direct, Aggregate).
• Autonomous system from which the route was learned.
• AS path associated with a route. When BGP is configured, all routes are assigned an AS
path when they are added to the routing table. For interior routes, this AS path
specifies IGP as the origin and no ASs in the AS path (the current AS is added when
the route is exported). For BGP routes, the AS path is stored as learned from BGP.
• Tag associated with a route. Both OSPF and RIP version 2 currently support tags. All
other protocols have a tag of zero.
In some cases, a combination of the associated attributes can be specified to identify the
routes contributing to an aggregate.