CCNP SWITCH/Implementing Inter-VLAN Routing
Contents
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Inter-VLAN Routing
Because VLANs isolate trafficto a defined broadcast domain and subnet, network devices in different VLANs cannot communicate with each other natively.
Adding an external routing with subinterface routing does not scale beyond 50 VLANs. Cisco IOS routers only support trunking in IP Plus Feature set and above.
Catalyst Multilayer Switches support 3 different routed interface types:
- Routed Port
- A pure Layer 3 interface similar to a routed port on a Cisco IOS router.
- Switched Virtual Interface (SVI)
- A virtual VLAN interface for inter-VLAN routing. In other words, SVIs are the virtual routed VLAN interfaces.
- Bridged Virtual Interfaces (BVI)
- A Layer 3 virtual bridging interface.
All Cisco Layer 3 Switches support routing protocols, but several models requires enhanced software for specific routing protocol features.
To change between routed and switchports use no switchport and switchport interface commands respectively. Catalyst 6500 switches use L3 interfaces by default, so depending on the switching model the swithport and no switchport command might be present in the running-config files.
Switch Type | Inter-VLAN Routing Capability | Inter-VLAN Routing Solution |
---|---|---|
Catalyst 2940/2950/2955/2960/2970 | No | N/A |
Catalyst 3560/3750/3760 | Yes | Integrated |
Catalyst 4000/4500/4948 | Yes | Catalyst 4000 running Cisco CatOS with Supervisor I or II, using the Layer 3 module, WS-X4232-L3 Catalyst 4000 with a Supervisor II+, III, IV, or V running Cisco IOS using integrated routing |
Catalyst 6500 | Yes | Catalyst 6500 with an MSFC, MSFC II, or MSFC III daughter card running Cisco CatOS on the supervisors and Cisco IOS on the MSFC Catalyst 6500 with MSFC, MSFC II, or MSFC III running Cisco Native IOS Catalyst 6500 using a legacy MSM module |
Router-on-a-Stick
Router-on-a-Stick Advantages and Disanvantages
- Works on any L2 switch that support Trunking.
- Simpel Implementation. Only one swithc port and one router interface require configuration.
- The Router provides Inter-VLAN Routing i a Layer 2 network.
- The Router is a single point of failure.
- Trunk link may be congested when multible VLANs use it.
- Latency might be higher as frames leave and re-enter the switch chassis multiple times and the router makes software-based routing decisions.
Router(config)# interface FastEthernet0/0
Router(config-if)#no shutdown
Router(config-if)#no ip address
Router(config)# interface FastEthernet 0/0.1
Router(config-subif)# description VLAN 1
Router(config-subif)# encapsulation dot1Q 1 native
Router(config-subif)# ip address 10.1.1.1 255.255.255.0
Router(config-subif)# exit
Router(config)# interface FastEthernet 0/0.2
Router(config-subif)# description VLAN 2
Router(config-subif)# encapsulation dot1Q 2
Router(config-subif)# ip address 10.2.2.1 255.255.255.0
Router(config-subif)# exit
Router(config)# end
!! Switch Configuration **************************
switch(config)# interface FastEthernet 0/24
switch(config-if)# switchport trunk encapsulation dot1q
switch(config-if)# switchport mode trunk
switch(config-if)# end
Inter-VLAN Routing Using SWI
A long time ago high performance network consisted of L2 Switches. Routers routed i software and performed slow whereas switches switched in hardware.
As networks evolved routing became faster and got implemented in ASICs. Routing in hardware performs at wire-speed in most L3 Switches.
The number of Switch Virtual Interfaces a Layer 3 Switch support is not the same at the number of VLAN supported.
SVI is use to:
- Provide gateways for VLAN Clients
- Provide Layer 3 IP connectivity to the switch
- Support Routing Protocols
SVI: Advantages and Disadvantages:
- It is much faster than router-on-a-stick because everything is hardware switched and routed.
- No need for external links from the switch to the router for routing.
- Not limited to one link. Layer 2 EtherChannels can be used between the switches to get more bandwidth.
- Latency is much lower because it doesn’t need to leave the switch.
- It needs a Layer 3 switch to perform Inter-VLAN routing, which is more expensive.
Configure SVI inter-VLAN Routing
Switch# <input>configure terminal</input>
Enter configuration commands, one per line. End with CNTL/Z.
Switch(config)# <input>ip routing</input>
Switch(config)# <input>interface vlan 10</input>
Switch(config-if)# <input>ip address 10.10.1.1 255.0.0.0</input>
Switch(config-if)# <input>no shutdown</input>
Switch(config-if)# <input>exit</input>
Switch(config)# <input>interface vlan20</input>
Switch(config-if)# <input>ip address 10.20.1.1 255.255.255.0</input>
Switch(config-if)# <input>no shutdown</input>
SVI Autostate
SVi interfaces are consideres up if:
- The VLAN exists and is active in the VLAN database on the switch.
- The VLAN interface exists and is not administratively down.
- At least one Layer 2 (access or trunk) port exists on the switch, has a link in the up state on this VLAN, and is in the spanning-tree forwarding state on the VLAN.
Disable autostate
Switch(config)# <input>interface gigabitEthernet0/1</input>
Switch(config-if)# <input>switchport autostate exclude</input>
Routing with Routed Ports
Routed interfaces don’t support subinterfaces as with Cisco IOS routers. But it is possible to configure a routed EtherChannel. Routed ports removes Layer 2 protocols such as STP and VTP.
Configuring a routed port
Switch(config)#<input>interface fastethernet 0/1</input>
Switch(config-if)#<input>no switchport</input>
Switch(config-if)#<input>ip address 192.168.1.1 255.255.255.0</input>
Switch(config-if)#<input>no shutdown</input>
Configure Layer 3 EtherChannel
It is important to match the EtherChannel configuration on both sides on the switches, and the IP addresses on the Portchannel Interfaces should be on the same sub-nets/VLAN to communicate.
switch(config)#<input> interface fastethernet 0/23</input>
switch(config-if)# <input>no switchport</input>
switch(config-if)#<input> channel-group 1 mode on</input>
switch(config)# <input>interface fastethernet 0/24</input>
switch(config-if)# <input>no switchport</input>
switch(config-if)# <input>channel-group 1 mode on</input>
switch(config)# <input>interface port-channel 1</input>
switch(config-if)# <input>no switchport</input>
switch(config-if)# <input>ip address 10.1.20.1 255.255.255.0</input>
Multilayer Switch Routing Protocol configuration
Switch(config)#<input> ip routing</input>
Switch(config)# <input>router eigrp 100</input>
Switch(config-router)#<input> no auto-summary</input>
Switch(config-router)# <input>network 10.0.0.0</input>
Switch(config-router)# <input>passive-interface default</input>
Switch(config-router)# <input>no passive-interface fa0/24</input>
Switch(config)#<input> interface f0/24</input>
Switch(config-if)# <input>description Uplink</input>
Switch(config-if)# <input>ip summary-address eigrp 100 10.1.0.0 255.255.240.0</input>
Implementing Dunamic Host Configuration Protocol in a Multilayer Switched Environment
As defined in RFC 2131, Dynamic Host Configuration Protocol (DHCP) provides configuration parameters to Internet hosts.
Multilayer Switch Configuration Example
Switch(config)# <input>ip dhcp excluded-address 10.1.10.1 10.1.10.20</input>
Switch(config)# <input>ip dhcp pool VLAN10</input>
Switch(config-dhcp)# <input>network 10.1.10.0 255.255.255.0</input>
Switch(config-dhcp)# <input>default-router 10.1.10.1</input>
Switch(config-dhcp)# <input>option 150 10.1.1.50</input>
Switch(config-dhcp)# <input>lease 0 8 0</input>
Switch(config-dhcp)# ! 0 days 8 hours 0 minutes
Switch(config)#<input> interface vlan10</input>
Switch(config-if)#<input> ip address 10.1.10.1 255.255.255.0</input>
Configure DHCP Relay
To relay breadcast DHCP messages from the local subnet to the DHCP server an DHCP relay mechanism is use in Cisco IOS. The DHCP broadcast message is replayed from the switch as a unicast to the DHCP server and back again to the switch. The switch then broadcasts the message on to the local subnet.
Switch(config)# <input>interface vlan10</input>
Switch(config-if)# <input>ip address 10.1.10.1 255.255.255.0</input>
Switch(config-if)# <input>ip helper-address 10.1.100.1</input>
Verify DHCP Operation
switch#<input> show ip dhcp binding</input>
Bindings from all pools not associated with VRF:
IP address Client-ID/ Lease expiration Type
Hardware address/
User name
10.1.10.21 0100.1bd5.132a.d2 Jun 25 2009 06:09 AM Automatic
10.1.10.22 0100.4096.a46a.90 Jun 25 2009 09:40 AM Automatic
10.1.10.23 0100.4096.aa98.95 Jun 25 2009 11:28 AM Automatic
switch#<input> debug ip dhcp server packet</input>
DHCPD: DHCPDISCOVER received from client 0100.1bd5.132a.d2 on interface Vlan6.
DHCPD: Sending DHCPOFFER to client 0100.1bd5.132a.d2 (10.1.10.21).
DHCPD: broadcasting BOOTREPLY to client 001b.d513.2ad2.
DHCPD: DHCPREQUEST received from client 0100.1bd5.132a.d2.
DHCPD: Sending DHCPACK to client 0100.1bd5.132a.d2 (10.1.10.21).
DHCPD: broadcasting BOOTREPLY to client 001b.d513.2ad2.