Allied Telesis C613-16164-00 REV E manual Configure VRF-lite

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Simple VRF-lite configuration examples

Dynamic inter-VRF communication with BGP routing to external peers

The partial configuration example below shows the key components required to support dynamic inter-VRF communication using BGP, with BGP routing to external peers.

BGP address-families are created. Each BGP address-family is associated with a VRF instance. Routes within the VRF domain are advertised to external BGP peers. Selected BGP routes (including connected routes redistributed into BGP, and BGP routes learned from external BGP neighbors) are copied between VRF instances.

...

!

ip vrf red

rd 100:1

route-target export 100:1 route-target import 100:2

!

ip vrf green rd 100:2

route-target export 100:2 route-target import 100:1

!

router bgp 100

!

address-family ipv4 vrf red redistribute connected neighbor 1.1.1.1 remote-as 100 neighbor 1.1.1.1 activate exit-address-family

!

address-family ipv4 vrf green neighbor 2.2.2.2 remote-as 200 neighbor 2.2.2.2 activate redistribute connected exit-address-family

!

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Contents What is VRF-lite? How To Configure VRF-lite IntroductionCommand summary Software feature licensesWho should read this document? Which products and software version does it apply to?Contents VRF GlossaryUnderstanding VRF-lite Route table and interface management with VRF-lite VRF-lite security domainsInterface management with VRF Vlan5Adding a VRF-aware static ARP Route management with VRFInter-VRF communication Static and dynamic inter-VRF routing For example VRF-lite features in AW+Route limiting per VRF instance VRF aware services includeVRF-aware utilities within AW+  Ping TCP dump  Telnet client SSH client Awplusconfig# access-list standard Configuring VRF-liteAwplusconfig-if#switchportaccess vlanx Family Awplusconfig-route-map#match ip Ip route 192.168.50.0/24 Ip route vrf green 192.168.1.0/24 Static inter-VRF routingForwarding Information Base FIB and routing protocols Dynamic inter-VRF communication explainedBGP Inter-VRF communication via BGP Route-target import ASNVRFinstance For example Using the route-target commandRoute-target both ASNVRFinstance For example Can be replaced withIf VRF red initially includes Also, if VRF shared configuration includesIf VRF shared initially includes Via BGP IVR, VRF shared will end up with the routesThen via BGP IVR, VRF red will end up with the routes If VRF shared configuration includesViewing source VRF and attribute information for a prefix How VRF-lite security is maintainedMultiple VRFs without inter-VRF communication Simple VRF-lite configuration examples26 Configure VRF-lite Vlan 28 Configure VRF-lite Configure VRF-lite 30 Configure VRF-lite Configure VRF-lite 32 Configure VRF-lite Inter-VRF configuration examples with Internet access Configuration Configure VRF-lite Example B Configuration 38 Configure VRF-lite Configure VRF-lite Example C Configuration 42 Configure VRF-lite Configure VRF-lite  Each VLANs is associated with a VRF instance Configuring a complex inter-VRF solutionNetwork description VRF communication plan Configuration breakdown Configure VRF-lite Configure Vrfs Configure the hardware ACLs 192.168.43.0/24 via the shared VRF This example, three access groups are attached to portWithin the same IP subnet that the switch port is a member Configure Vlan Database Configure IP Addresses Configure VRF-lite Configure Dynamic Routing Configure VRF-lite 56 Configure VRF-lite Configure Static Routing Complete show run output from VRF device is below Configure VRF-lite 60 Configure VRF-lite Configure VRF-lite IP route table from VRF device is below VRF blue Hostname Internetrouter Hostname sharedrouter N1 Ospf Nssa Hostname redospfpeerHostname greeniBGPpeer Hostname bluerippeer Hostname orangerouter Hostname orangeospfpeer VCStack and VRF-lite Other features used in this configurationStack provisioning GreyVirtual Chassis ID X610 VCStack configurationX900 configuration 74 Configure VRF-lite Communication plan Sharing VRF routing and double tagging on the same portGreen PortX610 B ConfigurationsX610 a Configure VRF-lite Additional notes BGP configuration tips 80 Configure VRF-lite VRF device Red router vlan database Red router Route Limits Configuring static route limits100 Configuring Dynamic route limitsAllowed number of fib routes excluding Connect and Static Syntax No max-fib-routesVRF-lite usage guidelines Routing general Useful VRF-related diagnostics command listGeneral Routing protocols IP prefix network, e.g TCPdump HW platform table commands

C613-16164-00 REV E specifications

The Allied Telesis C613-16164-00 REV E is a robust networking device designed to enhance connectivity and communication within enterprise environments. Renowned for its reliability and efficiency, this device serves as an ideal choice for organizations seeking to improve their network infrastructure.

At its core, the C613-16164-00 REV E is a part of Allied Telesis' suite of products that adhere to high-performance standards. One of the main features is its support for both Layer 2 and Layer 3 networking, making it versatile enough to handle a variety of network configurations. This capability allows for seamless integration into different network architectures, whether for simple local area networks (LANs) or more advanced setups with routing capabilities.

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In terms of manageability, the device supports SNMP (Simple Network Management Protocol), allowing for easy monitoring and management of network resources. Network administrators can efficiently manage the device and optimize performance with minimal effort, improving overall productivity.

The design of the C613-16164-00 REV E is also noteworthy; it is built for durability, often featuring a compact form factor that makes installation straightforward without compromising on performance. Its compatibility with various Allied Telesis products ensures that organizations can build a cohesive network ecosystem.

In conclusion, the Allied Telesis C613-16164-00 REV E stands out as an excellent networking solution characterized by its support for multiple networking layers, high-speed data transfer, and robust security features. Ideal for both small to medium enterprises and larger organizations, it helps ensure that businesses can maintain efficient and secure operations in a constantly evolving digital landscape.