== Device Configuration == Now you have six inter connected devices. All those devices have no configurations in them and you have to configure them. === Remote Access === When you are working in the Virtualbox interface you can't copy and paste commands in to that interface. You might have experienced this already. What you can do is you can remote log in to your CampusLAN VM. '''Windows''' - Download and run ​Putty - type your CampusLAN VM's IP address in the hostname text box. set the port as 22 - Click open and You will ask the username and Password of your vm. Provide them and You will be able to remote login to your linux machine '''Mac''' - Open a terminal - Type ssh learn@ - Give password and you will have a remote login to your linux machine === Log in to the the devices === In dynagen topology script you have to give a name to each device and there is a feature to assign a port to the console port of a particular device. Following are the device name and the console port number of your network setup. ||= Device Name =||= Console Port Number =|| ||!BorderRt||2100|| ||!CampusCore||2200|| ||FacACore||2300|| ||FacBCore||2400|| ||Dept1PC||2500|| ||Dept2PC||2600|| You can use this port to log in to the device's console port. Use the following code {{{ telnet localhost }}} Now you have log in to your device. You can start configuring the device. After the configuration when you want to go back to host press '''cntl + }''' and you will get the following prompt. {{{ telnet> }}} Type '''Quit''' to exit from telnet. === Initial Configurations === Before configure the devices for the network setup. Let's configure some initial settings in the router. If your router is boot up when you logged in you will be prompted to the following line. {{{ Would you like to enter the initial configuration dialog? [yes/no]: }}} Type '''no''' (Might have to press the '''Enter''' key again) to go to the user mode of the router. Prompt will look as following. {{{ Router> }}} In the user mode of the router give the command '''enable''' to go the privileged mode. Prompt will change to following {{{ Router# }}} To add configurations you have to go configuration mode. Type '''config terminal'''. Note the prompt change. {{{ Router(config)# }}} '''note:''' If you get following error on !BorderRt, {{{ %Error opening tftp://255.255.255.255/AccessRt-confg (Timed out) }}} Give the following command in the config mode {{{ no service config }}} You can now start making configurations. - First thing you have to add is the hostname of the device. Hostname is the device's identification. In this Lab device name is the same as host name. (Eg. !CampusCore switch's hostname is !CampusCore). Use the following command {{{ hostname }}} You will see your prompt change from Router to the hostname you add. - Then let's give a enable secret. Which is a password you set when you go to the privileged mode from the user mode. We will use the '''class password''' as the enable secret {{{ enable secret }}} - Add the DNS server {{{ ip name-server 192.248.1.161 }}} - Next you can add a banner to your device. This will display every time you log in to the device {{{ banner motd @ Unauthorized Access is Prohibited! @ }}} - Add more security by encrypting passwords in your config file {{{ service password-encryption }}} - Then lets's configure the line console which are the console port settings * Go to line console config mode {{{ line console 0 }}} * Enable login authentication. Make sure not to save or exit the router after this command without executing the next command. {{{ login }}} * Set the password {{{ password }}} - Finally let's enable ssh (version 2) in the device. Type '''exit''' to go back to previous mode (config mode) from line console config mode * Configure a domain name. Use '''learn.ac.lk''' for this lab. {{{ ip domain name learn.ac.lk }}} * Create a ssh user with a password. In here we will use the username admin with the class pasword {{{ username admin secret }}} * Create a certificate which will use for encryption {{{ crypto key generate rsa }}} * Give the size of key as 768 (minimum size needed to activate ssh version 2) * Then Configure the line vty {{{ line vty 0 4 login local transport input ssh }}} - Now '''save the configurations'''. you have to Go to privileged mode and give the following command {{{ #copy running-config startup-config }}} ''' Apply these settings in all six devices''' '''Note''' : Hostname is different in each device === Network Configurations === See the following diagram to find the IPv4 address in devices [[Image(https://ws.learn.ac.lk/raw-attachment/wiki/ipv6v4config/IPv4.jpg)]] You can refer the following [=#point1 table] for assign Interface IP's. {{{#!th VLAN }}} {{{#!th VLAN Name }}} {{{#!th Device Name }}} {{{#!th VLAN Interface IP }}} |---------------- {{{#!td rowspan=3 align=justify 2 }}} {{{#!td rowspan=3 align=justify Core }}} {{{#!td !CampusCore }}} {{{#!td 10.0.2.1/24 }}} |--------------- {{{#!td FacACore }}} {{{#!td 10.0.2.2/24 }}} |---------------- {{{#!td FacBCore }}} {{{#!td 10.0.2.3/24 }}} |---------------- {{{#!td rowspan=2 align=justify 10 }}} {{{#!td rowspan=2 align=justify FacA }}} {{{#!td FacACore }}} {{{#!td 10.0.10.254/24 }}} |--------------- {{{#!td Dept1PC }}} {{{#!td no interface IP }}} |---------------- {{{#!td rowspan=2 align=justify 20 }}} {{{#!td rowspan=2 align=justify FacB }}} {{{#!td FacBCore }}} {{{#!td 10.0.20.254/24 }}} |--------------- {{{#!td Dept2PC }}} {{{#!td no interface IP }}} |---------------- {{{#!td align=justify 255 }}} {{{#!td align=justify Router !Connection/Public IP }}} {{{#!td !CampusCore }}} {{{#!td 10.0.255.253/24 }}} |--------------- Refer the following [=#point2 table] for the interface's switchport mode configuration {{{#!th Device Name }}} {{{#!th Interface }}} {{{#!th Mode }}} |---------------- {{{#!td rowspan=3 align=justify !CampusCore }}} {{{#!td fast ethernet 1/15 }}} {{{#!td Access VLAN 255 }}} |--------------- {{{#!td fast ethernet 1/0 }}} {{{#!td Trunk }}} |---------------- {{{#!td fast ethernet 1/1 }}} {{{#!td Trunk }}} |---------------- {{{#!td rowspan=2 align=justify FacACore }}} {{{#!td fast ethernet 1/15 }}} {{{#!td Trunk }}} |--------------- {{{#!td fast ethernet 1/0 }}} {{{#!td Trunk }}} |---------------- {{{#!td rowspan=2 align=justify FacBCore }}} {{{#!td fast ethernet 1/15 }}} {{{#!td Trunk }}} |--------------- {{{#!td fast ethernet 1/0 }}} {{{#!td Trunk }}} |---------------- {{{#!td rowspan=2 align=justify Dept1PC }}} {{{#!td fast ethernet 1/15 }}} {{{#!td Trunk }}} |--------------- {{{#!td fast ethernet 1/0 }}} {{{#!td Access VLAN 10 }}} |---------------- {{{#!td rowspan=2 align=justify Dept2PC }}} {{{#!td fast ethernet 1/15 }}} {{{#!td Trunk }}} |--------------- {{{#!td fast ethernet 1/0 }}} {{{#!td Access VLAN 20 }}} |---------------- ==== Core Network Layer==== Let's start Configuring the connectivity between core network (!CampusCore, FacACore and FacBCore). We will start from !CampusCore. - Login to !CampusCore device. Give your console port password (class password) - Go to config mode from user mode. Give your enable password (class password) - Core network runs on VLAN 2. Create VLAN 2 and name it '''Core''' {{{ CampusCore(config)# vlan 2 CampusCore(config-vlan)# name Core CampusCore(config-vlan)# exit }}} - Then assign the IP Address to the VLAN interface. Get the IP from the [#point1 table] {{{ CampusCore(config)#interface vlan 2 CampusCore(config-if)# ip address 10.0.2.1 255.255.255.0 CampusCore(config-if)# exit }}} - Finally configure fast ethernet interfaces switchport modes. You can find then from the [#point2 table] * Fisrt make the interface a trunk port. This is for the FacACore link {{{ CampusCore(config)#interface FastEthernet 1/0 CampusCore(config-if)#switchport mode trunk }}} * Define the encapsulation {{{ CampusCore(config-if)#switchport trunk encapsulation dot1q }}} * Give the Description of the interface {{{ CampusCore(config-if)#description Core link to FacACore CampusCore(config-if)#exit }}} * Follow the same procedure for FacBCore link {{{ CampusCore(config)#interface FastEthernet 1/1 CampusCore(config-if)#switchport mode trunk CampusCore(config-if)#switchport trunk encapsulation dot1q CampusCore(config-if)#description Core link to FacBCore CampusCore(config-if)#exit }}} - You have successfully configured the !CampusCore device for you core networks connectivity. Let's move on to FacACore device. {{{ FacACore(config)# vlan 2 FacACore(config-vlan)# name Core FacACore(config-vlan)# exit FacACore(config)#interface vlan 2 FacACore(config-if)# ip address 10.0.2.2 255.255.255.0 FacACore(config-if)# exit FacACore(config)#interface FastEthernet 1/15 FacACore(config-if)#switchport mode trunk FacACore(config-if)#switchport trunk encapsulation dot1q FacACore(config-if)#description Core link to CampusCore FacACore(config-if)#exit }}} - Now let's configure FacBCore {{{ FacBCore(config)# vlan 2 FacBCore(config-vlan)# name Core FacBCore(config-vlan)# exit FacBCore(config)#interface vlan 2 FacBCore(config-if)# ip address 10.0.2.3 255.255.255.0 FacBCore(config-if)# exit FacBCore(config)#interface FastEthernet 1/15 FacBCore(config-if)#switchport mode trunk FacBCore(config-if)#switchport trunk encapsulation dot1q FacBCore(config-if)#description Core link to CampusCore FacBCore(config-if)#exit }}} - Finally Verify the connectivity * Go to FacACore device * Go to privileged mode and ping !CampusCore and FacBCore {{{ ping 10.0.2.1 ping 10.0.2.3 }}} * You should get a positive reply with '''"!!"''' ==== Distribution Network Layer ==== Let's Start Configuring the distribution layer of your campus LAN. Here you will have to configure both Layer 3 switches (FacACore and FacBCore) and Layer 2 Switches (Dept1PC and Dept2PC). Let's start from Layer 3 devices. - Login to FacACore device - Go to config mode from privileged mode - FacACore is the Core device in Faculty A and It can have different departments. In this scenario department 1 is in faculty A and It's VLAN is VLAN10. Create VLAN 10 and Name it '''Dept1''' {{{ FacACore(config)# vlan 10 FacACore(config-vlan)# name Dept1 FacACore(config-vlan)# exit }}} - Then assign the IP Address to the VLAN interface. Get the IP from the [#point1 table] {{{ FacACore(config)#interface vlan 10 FacACore(config-if)# ip address 10.0.10.254 255.255.255.0 FacACore(config-if)# exit }}} - Next configure fast ethernet interfaces switchport modes. You can find then from the [#point2 table] * Fisrt make the interface a trunk port. {{{ FacACore(config)#interface FastEthernet 1/0 FacACore(config-if)#switchport mode trunk }}} * Define the encapsulation {{{ FacACore(config-if)#switchport trunk encapsulation dot1q }}} * Give the Description of the interface {{{ FacACore(config-if)#description link to Dept1PC FacACore(config-if)#exit }}} - Follow the same procedure for FacBCore device. VLAN 20 name is dept 2. {{{ FacBCore(config)# vlan 20 FacBCore(config-vlan)# name Dept2 FacBCore(config-vlan)# exit FacBCore(config)#interface vlan 20 FacBCore(config-if)# ip address 10.0.20.254 255.255.255.0 FacBCore(config-if)# exit FacBCore(config)#interface FastEthernet 1/0 FacBCore(config-if)#switchport mode trunk FacBCore(config-if)#switchport trunk encapsulation dot1q FacBCore(config-if)#description link to Dept2PC FacBCore(config-if)#exit }}} - Now the Core devices are done, Let's Configure Layer 2 devices. Login to Dept1PC - Go to config mode - Create Vlan 10 and Give a Name {{{ Dept1PC(config)# vlan 10 Dept1PC(config-vlan)# name Dept1 Dept1PC(config-vlan)# exit }}} - Next configure fast ethernet interface which connects to the Core device and give a description {{{ Dept1PC(config)#interface FastEthernet 1/15 Dept1PC(config-if)#switchport mode trunk Dept1PC(config-if)#switchport trunk encapsulation dot1q Dept1PC(config-if)#description link to FacACore Dept1PC(config-if)#exit }}} - Configure fast ethernet interface, which connects to the User PC to an access port of VLAN 10 and give a description {{{ Dept1PC(config)#interface FastEthernet 1/0 Dept1PC(config-if)#switchport mode access Dept1PC(config-if)#switchport access vlan 10 Dept1PC(config-if)#description link to Dept1PC Dept1PC(config-if)#exit }}} - Follow the same steps for Dept2PC {{{ Dept2PC(config)# vlan 20 Dept2PC(config-vlan)# name Dept2 Dept2PC(config-vlan)# exit Dept2PC(config)#interface FastEthernet 1/15 Dept2PC(config-if)#switchport mode trunk Dept2PC(config-if)#switchport trunk encapsulation dot1q Dept2PC(config-if)#description link to FacBCore Dept2PC(config-if)#exit Dept2PC(config)#interface FastEthernet 1/0 Dept2PC(config-if)#switchport mode access Dept2PC(config-if)#switchport access vlan 20 Dept2PC(config-if)#description link to Dept2PC Dept2PC(config-if)#exit }}} - You have configured your distribution layer. Check and verify the connectivity * Go to Dept1PC and try ping the gateway (VLAN 10 Interface IP of FacACore) {{{ ping 10.0.10.254 }}} * You should get a reply * Try the same in Dept2PC ==== Connecting LAN to the Router ==== Your Campus LAN is connecting to the outside through a border router. Your !CampusCore switch connects to this border router. In this link router's fast ethernet interface IP connects with the Core switch's vlan interface IP. Let's start configuring this link starting from the !CampusCore. - Login to !CampusCore switch and switch to config mode - Create VLAN 255 and name it Public {{{ CampusCore(config)# vlan 255 CampusCore(config-vlan)# name Public CampusCore(config-vlan)# exit }}} - Then assign the IP Address to the VLAN interface. Get the IP from the [#point1 table]. In the real situation this VLAN could be a public IP range which is assign to your Institute. In this Lab we are using a private IP block. {{{ CampusCore(config)#interface vlan 255 CampusCore(config-if)# ip address 10.0.255.253 255.255.255.0 CampusCore(config-if)# exit }}} - Next configure fast ethernet interface which connects to the Core device and give a description.You can find then from the [#point2 table] {{{ CampusCore(config)#interface FastEthernet 1/15 CampusCore(config-if)#switchport mode access CampusCore(config-if)#switchport access vlan 255 CampusCore(config-if)#description link to Border Router CampusCore(config-if)#speed 100 CampusCore(config-if)#duplex full CampusCore(config-if)#exit }}} - Now you have done !CampusCore configuration. Let's start routers Configuration. - Login to !BorderRt Router and switch to config mode - Router's IP allocation is as follows. You can get your Router's IP address from here ||= Interface Name =||= IP Address =|| ||Fast Ethernet 0/0 ||10.0.255.254/24|| ||Fast Ethernet 0/1 |||| - Let's configure the LAN port (fa 0/0) {{{ BorderRt(config)#interface fastEthernet 0/0 BorderRt(config-if)#ip address 10.0.255.254 255.255.255.0 BorderRt(config-if)#description LAN Port connects to CampusCore BorderRt(config-if)#no shutdown BorderRt(config-if)#speed 100 BorderRt(config-if)#duplex full BorderRt(config-if)#exit }}} - Configure the WAN port (fa 0/1) {{{ BorderRt(config)#interface fastEthernet 0/1 BorderRt(config-if)#ip address x.x.x.x 255.255.255.0 BorderRt(config-if)#description WAN Port Bridged with CampusLAN host BorderRt(config-if)#no shutdown BorderRt(config-if)#exit }}} - You have successfully finished connecting !CampusCore to the !BorderRt router. Let's verify the connectivity using the ping command. - Go to !BorderRt and ping to !CampusCore switch's VLAN 255 Interface IP {{{ ping 10.0.255.253 }}} - Now Check the routers connectivity in WAN port. Ping to the WAN Gateway {{{ ping 192.248.6.254 }}} - Both these ping commands should give you a reply ==== Routing ==== If You go to the Dept1PC and try a Ping to Dept2PC (10.0.20.1) and !BorderRt router LAN port(10.0.255.254), you will not get a reply. That is because your LAN has no routing in it. In this Lab we will enable OSPF in all the core switches and we will add default routes in all core devices and the router. - Following are the default routes of the devices ||= Device =||= Default Route IP =||= Description =|| || !BorderRt || 192.248.6.254 || This is Configured in the router in the Lab || || !CampusCore || 10.0.255.254 || !BorderRt routers LAN interface IP || || FacACore || 10.0.2.1 || !CampusCore Switches VLAN2 Interface IP || || FacBCore || 10.0.2.1 || !CampusCore Switches VLAN2 Interface IP || || Dept1PC || none || This is a L2 device || || Dept2PC || none || This is a L2 device || || Dept1PC || 10.0.10.254 || FacACore Switches VLAN10 Interface IP || || Dept2PC || 10.0.20.254 || FacBCore Switches VLAN20 Interface IP || - Now let's enable OSPF on Core devices. Starting from !CampusCore * Login to !CampusCore switch and switch to config mode * Define OSPF process and Process ID. In this lab use process ID as 1 {{{ CampusCore(config)#router ospf 1 }}} * Give the router ID {{{ CampusCore(config-router)#router-id 10.0.2.1 }}} * You are going to announce the subnets which are directly connects to you. Use this command for that {{{ CampusCore(config-router)#redistribute connected subnets }}} * You are announcing to the core network (10.0.2.0/24) in area 2. Use this command for this {{{ CampusCore(config-router)#network 10.0.2.0 0.0.0.255 area 2 CampusCore(config-router)#exit }}} * You are enabling OSPF on VLAN 2. Use this command for that. {{{ CampusCore(config)#interface vlan 2 CampusCore(config-if)# ip ospf 1 area 2 CampusCore(config-if)# exit }}} * Now you have enable OSPF on !CampusCore Switch. Now lets add the default Route. {{{ CampusCore(config)# ip route 0.0.0.0 0.0.0.0 10.0.255.254 }}} - Follow the same steps in FacACore and FacBCore * FacACore {{{ FacACore(config)#router ospf 1 FacACore(config-router)#router-id 10.0.2.2 FacACore(config-router)#redistribute connected subnets FacACore(config-router)#network 10.0.2.0 0.0.0.255 area 2 FacACore(config-router)#exit FacACore(config)#interface vlan 2 FacACore(config-if)# ip ospf 1 area 2 FacACore(config-if)# exit FacACore(config)# ip route 0.0.0.0 0.0.0.0 10.0.2.1 }}} * FacBCore {{{ FacBCore(config)#router ospf 1 FacBCore(config-router)#router-id 10.0.2.3 FacBCore(config-router)#redistribute connected subnets FacBCore(config-router)#network 10.0.2.0 0.0.0.255 area 2 FacBCore(config-router)#exit FacBCore(config)#interface vlan 2 FacBCore(config-if)# ip ospf 1 area 2 FacBCore(config-if)# exit FacBCore(config)# ip route 0.0.0.0 0.0.0.0 10.0.2.1 }}} - Now you have enable Routing in your Core network. Let's verify whether it is working. * Go to Dept1PC and try a Ping to Dept2PC {{{ ping 10.0.20.1 }}} * Try a ping to Router's LAN port {{{ ping 10.0.255.254 }}} * Both should give you a reply - add the !BorderRt Routers default gateway * Go to !BorderRt and switch to config mode * Add the default route {{{ CampusCore(config)# ip route 0.0.0.0 0.0.0.0 192.248.6.254 }}} * Verify the route by ping a known host from the !BorderRt router {{{ ping 192.248.1.161 ping www.google.com }}} * Both should give you a reply ==== Router Configuration ==== Now you have complete most of the IPv4 Configurations. Go to DeptPC1 and try a ping to the DNS server (192.248.1.161). You will not get a reply. That is because your PC have a private IP. There must be a method to connect to the outside using a private IP. What we use here is adding a NAT in !BorderRt router. There are different NAT types what we use here is the method called NAT overload. In this method we can assign set of local(private) IP's and overload it to a interface with a global(public) IP. So the outside the network will see the traffic coming from local IP's as traffic coming from the global IP. Let's add this configuration to your router. - Login to !BorderRt Router and switch to config mode - Let's define the local IP set in a ACL. {{{ BorderRt(config)#access-list 1 permit 10.0.0.0 0.0.255.255 }}} - Then dd the NAT entry. In your router public IP is assign to !FastEthernet 0/1 interface {{{ BorderRt(config)#ip nat inside source list 1 interface FastEthernet0/1 overload }}} - Then define NAT inside & NAT outside. NAT inside is your router's LAN port and Nat outside is your router's WAN port. {{{ BorderRt(config)#interface FastEthernet 0/0 BorderRt(config-if)#ip nat inside BorderRt(config-if)#exit BorderRt(config)#interface FastEthernet 0/1 BorderRt(config-if)#ip nat outside BorderRt(config-if)#exit }}} - Finally add a static route in the router so that the traffic coming to our defined network will redirect to !CampusCore switch {{{ BorderRt(config)#ip route 10.0.0.0 255.255.0.0 10.0.255.253 }}} - Now try a ping from DeptPC1 to the DNS server. It should give reply '''You have successfully complete the IPv4 configurations. save all the configurations in all the routers'''