Which Cisco IOS command can be used to display the ROAS configuration on a router
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We wrote an article which covers Virtual Local Area Networks (VLANs) as a concept, and another article on configuring VLANs on Cisco switches. The remaining subjects to cover are the different options that exist for routing between VLANs. This will let us illustrate the concepts of inter-vlan routing, Router on a Stick (RoaS), and Layer 3 Switches (occasionally called MultiLayer Switches). Show
Why do we need Routing Between VLANs?As we learned in a prior article, VLANs create a logical separation between Switch ports. Essentially, each VLAN behaves like a separate physical switch. To illustrate this, below are two topology pictures of the same environment – one Physical and one Logical. The Physical topology depicts a switch and four hosts in two different VLANs – Host A and Host B are in VLAN 20 and Host C and Host D are in VLAN 30. The logical topology reflects how the physical topology operates – the two VLANs essentially create two separate physical switches. Despite all four hosts being connected to the same physical switch, the logical topology makes it clear that the hosts in VLAN 20 are unable to speak with the hosts in VLAN 30. Notice since there is nothing connecting the two “virtual” switches, there is no way for Host A to speak to Host C. Since Host A and Host C are in different VLANs, it is also implied that they are in different Networks. Each VLAN will typically correspond to its own
IP Network. In this diagram, VLAN 20 contains the The purpose of a Switch is to facilitate communication within networks. This works great for Host A trying to speak to Host B. However, if Host A is trying to speak to Host C, we will need to use another device – one whose purpose is to facilitate communication between networks. If you’ve read the Packet Traveling series, then you know that the device which facilitates communication between networks is a Router. A router will perform the routing function necessary for two hosts on different networks to speak to one another. In the same way, a Router is what we will need in order for hosts in different VLANs to communicate with one another. There are three options available in order to enable routing between the VLANs:
The remainder of this article will explore these three options and their configuration. Router with Separate Physical InterfacesThe simplest way to enable routing between the two VLANs to simply connect an additional port from each VLAN into a Router.  The Router doesn’t know that it has two connections to the same switch — nor does it need to. The Router operates like normal when routing packets between two networks. In fact, the process of a packet moving from Host A to Host D in this topology will work exactly as it does in this video. The only difference is since there is only one physical switch, there will only be one MAC address table – each entry includes the mapping of switchport to MAC address, as well as the VLAN ID number that port belongs to. Each switch port in this diagram is configured as an Access port, we can use the range command to configure multiple ports as once: Switch(config)# interface range eth2/0 - 2 Switch(config-if-range)# switchport mode access Switch(config-if-range)# switchport access vlan 20 Switch(config)# interface range eth3/0 - 2 Switch(config-if-range)# switchport mode access Switch(config-if-range)# switchport access vlan 30 Of course, before assigning the switchport to a VLAN, it is a good idea to create the VLAN in the VLAN Database. The Router interfaces also use a standard configuration — configuring an IP address and enabling the interface: Router(config)# interface eth0/2 Router(config-if)# ip address 10.0.20.1 255.255.255.0 Router(config-if)# no shutdown Router(config)# interface eth0/3 Router(config-if)# ip address 10.0.30.1 255.255.255.0 Router(config-if)# no shutdown Below you will find various show commands for the Router and the Switch, these can be used to understand and validate how the environment is functioning. Router Show Commandsshow runip int briefip routearpcdp neighbor Router# show running-config ... interface Ethernet0/2 ip address 10.0.20.1 255.255.255.0 ! interface Ethernet0/3 ip address 10.0.30.1 255.255.255.0 Router# show ip interface brief Interface IP-Address OK? Method Status Protocol ... Ethernet0/2 10.0.20.1 YES manual up up Ethernet0/3 10.0.30.1 YES manual up up ... Router# show ip route
Codes: L - local, C - connected, ...
Gateway of last resort is not set
10.0.0.0/8 is variably subnetted, 4 subnets, 2 masks
C 10.0.20.0/24 is directly connected, Ethernet0/2
L 10.0.20.1/32 is directly connected, Ethernet0/2
C 10.0.30.0/24 is directly connected, Ethernet0/3
L 10.0.30.1/32 is directly connected, Ethernet0/3
Router# show arp Protocol Address Age (min) Hardware Addr Type Interface Internet 10.0.20.1 - aabb.cc00.0220 ARPA Ethernet0/2 Internet 10.0.20.11 2 0050.7966.6800 ARPA Ethernet0/2 Internet 10.0.20.22 5 0050.7966.6801 ARPA Ethernet0/2 Internet 10.0.30.1 - aabb.cc00.0230 ARPA Ethernet0/3 Internet 10.0.30.33 4 0050.7966.6802 ARPA Ethernet0/3 Internet 10.0.30.44 4 0050.7966.6803 ARPA Ethernet0/3 Router# show cdp neighbors Capability Codes: R - Router, S - Switch, I - IGMP, B - Source Route Bridge ... Device ID Local Intrfce Holdtme Capability Platform Port ID Switch Eth 0/3 126 R S I Linux Uni Eth 3/0 Switch Eth 0/2 126 R S I Linux Uni Eth 2/0 Switch Show Commandsshow runmac tablevlan briefcdp neighbor Switch# show running-config ... vlan 20 name RED ! vlan 30 name BLUE ... interface Ethernet2/0 switchport access vlan 20 switchport mode access ! interface Ethernet2/1 switchport access vlan 20 switchport mode access ! interface Ethernet2/2 switchport access vlan 20 switchport mode access ! interface Ethernet3/0 switchport access vlan 30 switchport mode access ! interface Ethernet3/1 switchport access vlan 30 switchport mode access ! interface Ethernet3/2 switchport access vlan 30 switchport mode access Switch# show mac address-table
Mac Address Table
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Vlan Mac Address Type Ports
---- ----------- -------- -----
20 0050.7966.6800 DYNAMIC Et2/1
20 0050.7966.6801 DYNAMIC Et2/2
20 aabb.cc00.0220 DYNAMIC Et2/0
30 0050.7966.6802 DYNAMIC Et3/1
30 0050.7966.6803 DYNAMIC Et3/2
30 aabb.cc00.0230 DYNAMIC Et3/0
Total Mac Addresses for this criterion: 6
Switch# show vlan brief VLAN Name Status Ports ---- --------------------------- --------- -------------------- ... 20 RED active Et2/0, Et2/1, Et2/2 30 BLUE active Et3/0, Et3/1, Et3/2 ... Switch# show cdp neighbors Capability Codes: R - Router, S - Switch, I - IGMP, B - Source Route Bridge ... Device ID Local Intrfce Holdtme Capability Platform Port ID Router Eth 3/0 152 R B Linux Uni Eth 0/3 Router Eth 2/0 166 R B Linux Uni Eth 0/2 Router with Sub-InterfacesThe previously described method is functional, but scales poorly. If there were five VLANs on the switch, then we would need five switchports and five router ports to enable routing between all five VLANs Instead, there exists a way for multiple VLANs to terminate on a single router interface. That method is to create a Sub-Interface. Sub-interfaces to a Router are similar to what Trunk ports are to a Switch – one link carrying traffic for multiple VLANs. Hence, each router Sub-interface must also add a VLAN tag to all traffic leaving said interface. The logical operation of the Sub-interface topology works exactly as the separate physical interface topology in the section before it. The only difference is with Sub-interfaces, only one Router interface is required to terminate all VLANs. Keep in mind, however, that the drawback with all VLANs terminating on a single Router interface is an increased risk of congestion on the link. The Sub-interface feature is sometimes referred to as Router on a Stick or One-armed Router. This is in reference to the single router terminating the traffic from each VLAN. The Switch’s port facing the router is configured as a standard Trunk: Switch(config)# interface eth2/1 Switch(config-if)# switchport trunk encapsulation dot1q Switch(config-if)# switchport mode trunk The Router’s configuration of Sub-interfaces is fairly straight forward. First, we enable the physical interface: Router(config)# interface eth2/1 Router(config-if)# no shutdown Next, we create and configure the first Sub-interface: Router(config)# interface eth2/1.20 Router(config-subif)# encapsulation dot1Q 20 Router(config-subif)# ip address 10.0.20.1 255.255.255.0 Apart from using the Sub-interface distinguisher (eth2/1.20) and using the encapsulation dot1q Similarly, we will also configure the Sub-interface for VLAN 30: Router(config)# interface eth2/1.30 Router(config-subif)# encapsulation dot1Q 30 Router(config-subif)# ip address 10.0.30.1 255.255.255.0 A point of clarity regarding the Sub-interface syntax. The number after the physical interface (fa0/3.20 and fa0/3.30) simply serves the purpose of splitting up the physical interfaces into Sub-interfaces. The number specified in the encapsulation dot1q vlan ## command is what actually specifies what VLAN ID# the traffic belongs to. These two values do not have to match, but often they do for the purpose of technician sanity. Below you will find various show commands for the Router and the Switch. These can be used to understand and validate how the environment is functioning. Router Sub-Interface Show Commandsshow runip int briefip routearpcdp neighbor Router# show running-config ... interface Ethernet1/1 no ip address ! interface Ethernet1/1.20 encapsulation dot1Q 20 ip address 10.0.20.1 255.255.255.0 ! interface Ethernet1/1.30 encapsulation dot1Q 30 ip address 10.0.30.1 255.255.255.0 Router# show ip interface brief Interface IP-Address OK? Method Status Protocol ... Ethernet1/1 unassigned YES NVRAM up up Ethernet1/1.20 10.0.20.1 YES manual up up Ethernet1/1.30 10.0.30.1 YES manual up up ... Router# show ip route
Codes: L - local, C - connected, ...
Gateway of last resort is not set
10.0.0.0/8 is variably subnetted, 4 subnets, 2 masks
C 10.0.20.0/24 is directly connected, Ethernet1/1.20
L 10.0.20.1/32 is directly connected, Ethernet1/1.20
C 10.0.30.0/24 is directly connected, Ethernet1/1.30
L 10.0.30.1/32 is directly connected, Ethernet1/1.30
Router# show arp Protocol Address Age (min) Hardware Addr Type Interface Internet 10.0.20.1 - aabb.cc00.0211 ARPA Ethernet1/1.20 Internet 10.0.20.11 0 0050.7966.6800 ARPA Ethernet1/1.20 Internet 10.0.20.22 0 0050.7966.6801 ARPA Ethernet1/1.20 Internet 10.0.30.1 - aabb.cc00.0211 ARPA Ethernet1/1.30 Internet 10.0.30.33 0 0050.7966.6802 ARPA Ethernet1/1.30 Internet 10.0.30.44 0 0050.7966.6803 ARPA Ethernet1/1.30 Router# show cdp neighbors Capability Codes: R - Router, S - Switch, I - IGMP, B - Source Route Bridge ... Device ID Local Intrfce Holdtme Capability Platform Port ID Switch Eth 1/1 150 R S I Linux Uni Eth 1/1 Switch Trunk Show Commandsshow runmac tablevlan briefint trunkcdp Switch# show running-config ... vlan 20 name RED ! vlan 30 name BLUE ... interface Ethernet1/1 switchport trunk encapsulation dot1q switchport mode trunk ! interface Ethernet2/1 switchport access vlan 20 switchport mode access ! interface Ethernet2/2 switchport access vlan 20 switchport mode access ! interface Ethernet3/1 switchport access vlan 30 switchport mode access ! interface Ethernet3/2 switchport access vlan 30 switchport mode access Switch# show mac address-table
Mac Address Table
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Vlan Mac Address Type Ports
---- ----------- -------- -----
1 aabb.cc00.0211 DYNAMIC Et1/1
20 aabb.cc00.0211 DYNAMIC Et1/1
30 aabb.cc00.0211 DYNAMIC Et1/1
20 0050.7966.6800 DYNAMIC Et2/1
20 0050.7966.6801 DYNAMIC Et2/2
30 0050.7966.6802 DYNAMIC Et3/1
30 0050.7966.6803 DYNAMIC Et3/2
Total Mac Addresses for this criterion: 7
Switch# show vlan brief VLAN Name Status Ports ---- --------------------------- --------- ------------------- ... 20 RED active Et2/1, Et2/2 30 BLUE active Et3/1, Et3/2 ... Switch# show interfaces trunk Port Mode Encapsulation Status Native vlan Et1/1 on 802.1q trunking 1 Port Vlans allowed on trunk Et1/1 1-4094 Port Vlans allowed and active in management domain Et1/1 1,20,30 Port Vlans in spanning tree forwarding state and not pruned Et1/1 1,20,30 Switch# show cdp neighbors Capability Codes: R - Router, S - Switch, I - IGMP, B - Source Route Bridge ... Device ID Local Intrfce Holdtme Capability Platform Port ID Router Eth 1/1 136 R B Linux Uni Eth 1/1 Layer 3 SwitchThe last option for routing between VLANs does not involve a router at all. Nor does it involve using a traditional switch. Instead, a different device entirely can be used. This device is known as a Layer 3 Switch (or sometimes also as a Multilayer switch). But exactly what is a Layer 3 switch? With regard to VLANs the Multilayer switch is configured mostly the same way as a regular L2 switch: MultilayerSwitch(config)# vlan 20 MultilayerSwitch(config-vlan)# name RED MultilayerSwitch(config)# vlan 30 MultilayerSwitch(config-vlan)# name BLUE MultilayerSwitch(config)# interface range eth2/0 - 2 MultilayerSwitch(config-if-range)# switchport mode access MultilayerSwitch(config-if-range)# switchport access vlan 20 MultilayerSwitch(config)# interface range eth3/0 - 2 MultilayerSwitch(config-if-range)# switchport mode access MultilayerSwitch(config-if-range)# switchport access vlan 30 Then, for each VLAN that you want the Multilayer switch to route for, you have the option of configuring an IP address within what is known as an SVI, or a Switched Virtual Interface. An SVI serves as the L3 termination point for each VLAN – aka, the way in or out of each VLAN. Another way of looking at it is that the SVI serves as the interface on the built-in Router of the Multilayer switch, allowing traffic from one VLAN to reach the built-in Router and be routed to another VLAN as necessary. The configuration for an SVI involves two parts. First, enabling IP Routing; and Second, applying an IP address to the VLAN. To enable IP Routing, use the following command: MultilayerSwitch(config)# ip routing IP Routing only needs to be enabled once. Some L3 switches come with it enabled by default. Applying the command while it is already enabled will not cause any harm, so if in doubt as to whether it is already enabled or not, simply applying it again is safe. To apply an IP address to the VLANs, configure the SVI as follows: MultilayerSwitch(config)# interface vlan 20 MultilayerSwitch(config-if)# ip address 10.0.20.1 255.255.255.0 MultilayerSwitch(config-if)# no shutdown MultilayerSwitch(config)# interface vlan 30 MultilayerSwitch(config-if)# ip address 10.0.30.1 255.255.255.0 MultilayerSwitch(config-if)# no shutdown The two configurations above will enable routing between VLAN 20 and VLAN 30. The hosts in each VLAN can use the IP addresses When Host A sends a packet to Host B, the packet will be switched within the same VLAN – no L3 processing will occur. When Host A sends a packet to Host C, the packet will be sent to the SVI to be routed to the other VLAN – all regular L3 processing will occur: the TTL will be decremented and the L2 header will be rewritten. Multilayer Switch Configurationshow runmac address-tablevlan brief MultilayerSwitch# show running-config ... ip routing ... interface Vlan20 ip address 10.0.20.1 255.255.255.0 ! interface Vlan30 ip address 10.0.30.1 255.255.255.0 MultilayerSwitch# show mac address-table
Mac Address Table
-------------------------------------------
Vlan Mac Address Type Ports
---- ----------- -------- -----
20 0050.7966.6800 DYNAMIC Et2/1
20 0050.7966.6801 DYNAMIC Et2/2
30 0050.7966.6802 DYNAMIC Et3/2
30 0050.7966.6803 DYNAMIC Et3/1
Total Mac Addresses for this criterion: 4
MultilayerSwitch# show vlan brief VLAN Name Status Ports ---- --------------------------- --------- ------------------- ... 20 RED active Et2/1, Et2/2 30 BLUE active Et3/1, Et3/2 ip routearpip int brief MultilayerSwitch# show ip route
Codes: L - local, C – connected, ...
Gateway of last resort is not set
10.0.0.0/8 is variably subnetted, 4 subnets, 2 masks
C 10.0.20.0/24 is directly connected, Vlan20
L 10.0.20.1/32 is directly connected, Vlan20
C 10.0.30.0/24 is directly connected, Vlan30
L 10.0.30.1/32 is directly connected, Vlan30
MultilayerSwitch# show arp Protocol Address Age (min) Hardware Addr Type Interface Internet 10.0.20.1 - aabb.cc80.0200 ARPA Vlan20 Internet 10.0.20.11 0 0050.7966.6800 ARPA Vlan20 Internet 10.0.20.22 0 0050.7966.6801 ARPA Vlan20 Internet 10.0.30.1 - aabb.cc80.0200 ARPA Vlan30 Internet 10.0.30.33 0 0050.7966.6803 ARPA Vlan30 Internet 10.0.30.44 0 0050.7966.6802 ARPA Vlan30 MultilayerSwitch# show ip interface brief Interface IP-Address OK? Method Status Protocol ... Ethernet2/1 unassigned YES unset up up Ethernet2/2 unassigned YES unset up up ... Ethernet3/1 unassigned YES unset up up Ethernet3/2 unassigned YES unset up up ... Vlan20 10.0.20.1 YES manual up up Vlan30 10.0.30.1 YES manual up up Note: both sets of tabs and configuration above are from the same device. For the sake of organization, one set of tabs refer to the L3 functions and the other refers to the L2 functions. SummaryThis article discussed the three different options for Routing between VLANs. In each case, the hosts in communication behave exactly the same. In fact, the hosts have no visibility into how and what they are connected to. Each strategy above has its own benefits and limitations. Hopefully at this point you have a good idea of the options available to enable communication between hosts on different VLANs. How can I see the configuration of my Cisco router?On a Cisco Wireless LAN Controller:
Type "config paging disable" in priviledged mode to set your terminal to display without any breaks. 2. Type "show run-config" to display the config.
What is the command used to display the router's current running configuration?Explanation. Use the command show running-config to look at the current configuration. This command will display the active configuration file in memory including saved configuration changes. The working memory and running configuration are stored in RAM.
Which Cisco IOS command can be used to display a list of basic IP information?Cisco Command #2: Show IP interface brief
The show IP interface brief command gives you the answers to these questions and is the best summary of the status, protocol and IP addresses of your interfaces. This command can be used in both User EXEC and Privileged EXEC mode.
Which command can be used on a Cisco router to display all interfaces?Use the show interfaces EXEC command to display statistics for all interfaces configured on the router or access server.
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