= Campus Network Design - Network Setup = ---- In this tutorial, we will establish dual-stack network connectivity within all nodes of the network given below. [[Image(wiki:Cnbp2022/Agenda/NetworkSetup:LEARN_NET_v2.png,100%,border=1, center)]] == IP Address Plan == ||= **Device** =||= **Management IP Address** =||= **MGT Network** =||= **MGT VLAN** =|| || FAC1 || 10.1.2.1 || 10.XY.2.0/24 || VLAN 2 || || FAC1-BLD1-FL0 || ~~10.XY.2.2~~ Ignore(LAB only) || 10.XY.2.0/24 || VLAN 2 || || FAC1-BLD1-FL1 || ~~10.XY.2.3~~ Ignore(LAB only) || 10.XY.2.0/24 || VLAN 2 || || FAC1-BLD1-FL2 || 10.XY.2.4 || 10.XY.2.0/24 || VLAN 2 || || FAC1-BLD2-FL0 || ~~10.XY.2.5~~ Ignore(LAB only) || 10.XY.2.0/24 || VLAN 2 || || FAC2 || 10.1.3.1 || 10.XY.3.0/24 || VLAN 3 || || FAC2-BLD1-FL1 || ~~10.XY.3.2~~ Ignore(LAB only) || 10.XY.3.0/24 || VLAN 3 || || FAC2-BLD2-FL1 || ~~10.XY.3.3~~ Ignore(LAB only) || 10.XY.3.0/24 || VLAN 3 || || FAC2-BLD2-FL3 || ~~10.XY.3.4~~ Ignore(LAB only) || 10.XY.3.0/24 || VLAN 3 || || WINXP_INSIDE || 10.XY.30.10 || 10.XY.30.0/24 || VLAN 30 || || WINXP_DMZ || 172.30.1.10 || 172.30.1.0/24 || DMZ_NW || '''Note:'''User can change value for '''XY''' with any valid number. ---- [=#point1] ||= **FAC1** =||= **Type** =||= **VLANS/IP** =||= **Native VLAN** =|| || F0/0 || Routed Link || 10.XY.0.6/30[[br]]2401:DD00:20XY:2::FFFF/64 || - || || F0/1 || Routed Link || 10.XY.0.1/30[[br]]2401:DD00:20XY:1::FFFE/64 || - || || F1/0 || Trunk || 10, 20 || 2 || || F1/1 || Trunk || 20, 30 || 2 || || F1/15 || Access || 5 || - || ---- ||= **FAC2** =||= **Type** =||= **VLANS/IP** =||= **Native VLAN** =|| || F0/1 || Routed Link || 10.XY.0.5/30[[br]]2401:dd00:20XY:2::FFFE/64 || - || || F1/0 || Trunk || 60, 70 || 3 || || F1/1 || Trunk || 70, 80 || 3 || === Log in to the the devices === First double click on the ''' "Dynamips server" ''' short cut from your desktop. It will open the dynamips console.Then run the '''Campus_Nw.net''' file inside '''!LabFiles''' folder. It will open the dynagen console. [[Image(wiki:Cnbp2022/Agenda/NetworkSetup:dynamips.PNG,30%,border=1, center)]] In dynagen console type command '''"list"''' and it will show you the running devices and console port associated with them.Use terminal emulator (putty) to login to device using '''Telnet''' with local host ip with associated port. [[Image(wiki:Cnbp2022/Agenda/NetworkSetup:dynagen.PNG,30%,border=1, center)]] [[Image(wiki:Cnbp2022/Agenda/NetworkSetup:putty.PNG,30%,border=1, center)]] === Initial Configurations === Before configuring the devices for the network setup. Let's configure some initial settings in the Core Network Devices. Once you connect using putty you will see '''Would you like to enter the initial configuration dialog? [yes/no]: ''' Type '''no''' to go to the user mode of the FAC1 switch. Prompt will look as follows. {{{ Router> }}} Type '''enable''' to go to privileged mode. This will change prompt as follows. {{{ Router# }}} In this privileged mode, you can check the router configuration by the following command. The configuration you see will be the default configuration {{{ Router#show run }}} To add configurations you have to go configuration mode. Type '''config terminal'''. Note the prompt change. {{{ Router(config)# }}} > '''note:''' If you get following error, > `%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. - The first thing you have to add is the hostname of the device. The hostname is the device's identification. In this Lab, device name or the hostname need to be configured as shown in the '''dynagen console''' which you saw previously. To change it you may use {{{ hostname }}} - Then let's give a enable secret. Which is a password you set when you go to the privileged mode from the user mode? Make sure to use the '''cisco''' as the enable secret {{{ enable secret }}} - Add the DNS server {{{ ip name-server 10.XY.0.2 }}} > In your production environment you may use your internal DNS resolver if needed. - 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 is 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 '''instXY.ac.lk''' for this lab where XY is your group id. {{{ ip domain name instXY.ac.lk }}} * Create an ssh user with a password. In here we will use the username admin with the class password {{{ 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 exit }}} * Add SNMP community and location details {{{ snmp-server community CNBP2022 ro snmp-server ifindex persist snmp-server contact NOC snmp-server location Faculty_One }}} - Now '''save the configurations'''. you have to Go to privileged mode and give the following command {{{ #copy running-config startup-config }}} - Check the configuration by '''show run''' command. ''' Apply these settings in FAC2 and FAC1-BLD1-FL2 as well''' == Core Network Layer == Let's start Configuring the connectivity between the core network (FAC1 and Fac2). We will start with Fac1. - Remember, the core network runs on routed ports. Get the IP from the [#point1 table] * Link to Firewall {{{ FAC1(config)# interface fastEthernet 0/1 FAC1(config-if)# description Link to Firewall FAC1(config-if)# ip address 10.XY.0.1 255.255.255.252 FAC1(config-if)#ipv6 address 2401:dd00:20XY:1::fffe/64 FAC1(config-if)#no shutdown FAC1(config-if)#exit }}} * Link to FAC2 {{{ FAC1(config)# interface fastEthernet 0/0 FAC1(config-if)# description Link to FAC2 FAC1(config-if)# ip address 10.XY.0.6 255.255.255.252 FAC1(config-if)#ipv6 address 2401:dd00:20XY:2::ffff/64 FAC1(config-if)#no shutdown FAC1(config-if)#exit }}} * On switch FAC2 we have only one routed port. Get the IP from the [#point1 table] * Link to FAC1 {{{ FAC2(config)# interface fastEthernet 0/1 FAC2(config-if)# description Link to FAC1 FAC2(config-if)# ip address 10.XY.0.5 255.255.255.252 FAC2(config-if)#ipv6 address 2401:dd00:20XY:2::fffe/64 FAC2(config-if)#no shutdown FAC2(config-if)#exit }}} - Next, we need to configure routing among Core devices. We will configure dynamic routing / OSPF to distribute routing. * On FAC1, Define OSPF process and Process ID. In this lab use process ID as 1 {{{ FAC1(config)#ip routing FAC1(config)#router ospf 1 }}} * Give the router ID {{{ FAC1(config-router)#router-id 10.XY.2.1 }}} * You are announcing the core network and connected subnets. Use this command for this {{{ FAC1(config-router)#redistribute connected subnets FAC1(config-router)#network 10.XY.0.0 0.0.0.255 area 2 FAC1(config-router)#exit }}} * Now you have enable OSPF on FAC1 Switch. Now lets add the default Route. {{{ FAC1(config)# ip route 0.0.0.0 0.0.0.0 10.XY.0.2 }}} * Now let's enable routing for IPv6. {{{ FAC1(config)# ipv6 unicast-routing }}} * Create a OSPF v3 instance, Define OSPF process and Process ID. In this lab use process ID as 1 {{{ FAC1(config)#ipv6 router ospf 1 }}} * Give the router ID, this will be the same as ipv4 ospf router ID for simplicity {{{ FAC1(config-rtr)#router-id 10.XY.2.1 }}} * You are going to redistribute the connected networks. Use this command for that, {{{ FAC1(config-rtr)#redistribute connected FAC1(config-rtr)#exit }}} * Create the default route {{{ FAC1(config)ipv6 route ::/0 2401:DD00:20XY:1::FFFF }}} * Assign ospf to Ports on FAC1 {{{ FAC1(config)#int fa 0/0 FAC1(config-if)#ip ospf 1 area 2 FAC1(config-if)#ipv6 ospf 1 area 2 FAC1(config-if)#exit }}} * Configure routing on FAC2 {{{ FAC2(config)#ip routing FAC2(config)#router ospf 1 FAC2(config-router)#router-id 10.XY.3.1 FAC2(config-router)#redistribute connected subnets FAC2(config-router)#network 10.XY.0.0 0.0.0.255 area 2 FAC2(config-router)#exit FAC2(config)# ip route 0.0.0.0 0.0.0.0 10.XY.0.6 FAC2(config)# ipv6 unicast-routing FAC2(config)#ipv6 router ospf 1 FAC2(config-rtr)#router-id 10.XY.3.1 FAC2(config-rtr)#exit FAC2(config)#int fa 0/1 FAC2(config-if)#ip ospf 1 area 2 FAC2(config-if)#ipv6 ospf 1 area 2 FAC2(config-if)#exit FAC2(config)ipv6 route ::/0 2401:DD00:20XY:2::FFFF }}} == VLAN Structure == Now we need to create VLANs in each L3 device and configure inter-VLAN routing. We will start with FAC1. === VLANs for FAC1=== ||= **FAC1** =||= **VLAN Name** =||= **IPv4** =||= **IPv6** =|| || VLAN02 || FAC1_MGT || 10.XY.02.1/24 || - || || VLAN05 || Servers || 10.XY.05.254/24 || 2401:DD00:20XY:5::FFFF/64 || || VLAN10 || Dept1 || 10.XY.10.254/24 || 2401:DD00:20XY:1110::FFFF/64 || || VLAN20 || Dept2 || 10.XY.20.254/24 || 2401:DD00:20XY:1120::FFFF/64 || || VLAN30 || Dept3 || 10.XY.30.254/24 || 2401:DD00:20XY:1230::FFFF/64 || * First Create VLANs and provide a suitable description. {{{ Fac1# vlan database Fac1(vlan)# vlan 2 name FAC1_MGT }}} Repeat the same for all other VLAN's in FAC1. * Then we need to create vlan interfaces and assign routing. {{{ Fac1(vlan)# exit Fac1# config t Fac1(config)# interface vlan 2 Fac1(config-if)# ip address 10.XY.2.1 255.255.255.0 Fac1(config-if)# ip ospf 1 area 2 Fac1(config-if)# exit }}} Following illustrates the dual stack connectivity. {{{ Fac1(config)# interface vlan 5 Fac1(config-if)# ip address 10.XY.5.254 255.255.255.0 Fac1(config-if)# ip ospf 1 area 2 Fac1(config-if)# ipv6 address 2401:DD00:20XY:5::FFFF/64 Fac1(config-if)# ipv6 ospf 1 area 2 Fac1(config-if)# exit }}} * Continue same for the VLAN 10, 20 and 30. === VLANs for FAC2=== * Configure above same configurations on FAC2 switch for the following VLAN data ||= **FAC2** =||= **VLAN Name** =||= **IPv4** =||= **IPv6** =|| || VLAN03 || FAC2_MGT || 10.XY.03.1/24 || - || || VLAN60 || Dept4 || 10.XY.60.254/24 || 2401:DD00:20XY:2160::FFFF/64 || || VLAN70 || Dept5 || 10.XY.70.254/24 || 2401:DD00:20XY:2270::FFFF/64 || || VLAN80 || Dept6 || 10.XY.80.254/24 || 2401:DD00:20XY:2280::FFFF/64 || === Assign Interfaces === On L3 devices we can have three types of links, * L3 routed ports * Trunk ports * L2 Access Ports We have already configured routed ports and now we need to assign ports to our VLAN's created above. * Create Trunk Ports, * First make the interface a trunk port. This is for the link between FAC1 and Building 1 {{{ FAC1(config)#interface FastEthernet 1/0 FAC1(config-if)#switchport mode trunk }}} * Define the encapsulation {{{ FAC1(config-if)#switchport trunk encapsulation dot1q }}} * Give the Description of the interface {{{ FAC1(config-if)#description link to Building 1 }}} * Allow the VLAN's that we only need. {{{ FAC1(config-if)#switchport trunk allowed vlan 1,2,10,20,1002-1005 }}} * Change the Native VLAN {{{ FAC1(config-if)#switchport trunk native vlan 2 }}} Do the same for the other trunk link {{{ FAC1(config)#interface FastEthernet 1/1 FAC1(config-if)#switchport mode trunk FAC1(config-if)#switchport trunk encapsulation dot1q FAC1(config-if)#description link to Building 2 FAC1(config-if)#switchport trunk allowed vlan 1,2,20,30,1002-1005 FAC1(config-if)#switchport trunk native vlan 2 FAC1(config-if)#exit }}} * Create Access ports. * Assign the interface to be in Access Mode {{{ FAC1(config)#interface FastEthernet 1/15 FAC1(config-if)#switchport mode access }}} * Assign the VLAN {{{ FAC1(config-if)#switchport access vlan 5 }}} * Assign a suitable description {{{ FAC1(config-if)#description link to Monitoring Server FAC1(config-if)#exit }}} Make sure to save your setting with `FAC1#write` and `FAC2#write` == Distribution Layer == For the lab purposes, we are using an L3 capable switch platform to illustrate a manageable L2 switch. We need to configure following on the '''FAC1-BLD1-FL2''', * Management Network * Trunk Ports * Access Ports Details of the switch as follows, ---- || ||= **FAC1-BLD1-FL2** =||= **Type** =||= **VLANS** =||= **Native VLAN** =|| || Fa1/0 || Access || 20 || - || || Fa1/13 || Trunk || 20 || 2 || || Fa1/14 || Trunk || 10 || 2 || || Fa1/15 || Trunk || 10,20 || 2 || === Configure Management Network === * Create VLAN 2 which is the MGT Network for Faculty 1. Then assign an IP address for the VLAN 2 interface. {{{ FAC1-BLD1-FL2# vlan database FAC1-BLD1-FL2(vlan)# vlan 2 name FAC1_MGT FAC1-BLD1-FL2(vlan)# exit FAC1-BLD1-FL2# config t FAC1-BLD1-FL2(config)# interface vlan 2 FAC1-BLD1-FL2(config-if)# ip address 10.XY.2.4 255.255.255.0 FAC1-BLD1-FL2(config-if)# exit }}} * apply default routing for the subnet. {{{ FAC1-BLD1-FL2(config)#ip route 0.0.0.0 0.0.0.0 10.XY.2.1 }}} === Configure Trunk Ports === * Before configuring trunks we need to define the vlans first. {{{ FAC1-BLD1-FL2# vlan database FAC1-BLD1-FL2(vlan)# vlan 10 name DEPT1 FAC1-BLD1-FL2(vlan)# vlan 20 name DEPT2 FAC1-BLD1-FL2(vlan)#exit }}} * This FAC1-BLD1-FL2 has three trunk ports configure them to allow VLAN 10,20 to fa1/15 and VLAN 10 on fa1/14 and VLAN 20 on fa1/15. We need to configure Native VLAN to VLAN 2 as well. {{{ FAC1-BLD1-FL2(config)#interface FastEthernet 1/15 FAC1-BLD1-FL2(config-if)#switchport mode trunk FAC1-BLD1-FL2(config-if)#switchport trunk encapsulation dot1q FAC1-BLD1-FL2(config-if)#description link to FAC1_L3 FAC1-BLD1-FL2(config-if)#switchport trunk allowed vlan 1,2,10,20,1002-1005 FAC1-BLD1-FL2(config-if)#switchport trunk native vlan 2 FAC1-BLD1-FL2(config-if)#exit FAC1-BLD1-FL2(config)#interface FastEthernet 1/14 FAC1-BLD1-FL2(config-if)#switchport mode trunk FAC1-BLD1-FL2(config-if)#switchport trunk encapsulation dot1q FAC1-BLD1-FL2(config-if)#description link to FAC1-BLD1-FL1A FAC1-BLD1-FL2(config-if)#switchport trunk allowed vlan 1,2,10,1002-1005 FAC1-BLD1-FL2(config-if)#switchport trunk native vlan 2 FAC1-BLD1-FL2(config-if)#exit FAC1-BLD1-FL2(config)#interface FastEthernet 1/13 FAC1-BLD1-FL2(config-if)#switchport mode trunk FAC1-BLD1-FL2(config-if)#switchport trunk encapsulation dot1q FAC1-BLD1-FL2(config-if)#description link to FAC1-BLD1-FL1B FAC1-BLD1-FL2(config-if)#switchport trunk allowed vlan 1,2,20,1002-1005 FAC1-BLD1-FL2(config-if)#switchport trunk native vlan 2 FAC1-BLD1-FL2(config-if)#exit }}} === Configure Access Ports === * We have only one access port {{{ FAC1-BLD1-FL2(config)#interface FastEthernet 1/0 FAC1-BLD1-FL2(config-if)#switchport mode access FAC1-BLD1-FL2(config-if)#switchport access vlan 20 FAC1-BLD1-FL2(config-if)#description link to PC3 FAC1-BLD1-FL2(config-if)#exit }}} Make sure to save your setting with `FAC1-BLD1-FL2#write` == Configuring the rest L2 network == Following configuration are already done in Ethernet switches in the Network file. ||= **FAC1-BLD1-FL1A** =||= **Type** =||= **VLANS** =|| || e0 || Access || 10 || || e7 || dot1q || || ---- ||= **FAC1-BLD1-FL1B** =||= **Type** =||= **VLANS** =|| || e0 || Access || 20 || || e7 || dot1q || 2 || ---- || ||= **FAC1-BLD2-FL0** =||= **Type** =||= **VLANS** =|| || e0 || Access || 20 || || e1 || Access || 30 || || e7 || dot1q || 2 || ---- ||= **FAC2-BLD1-FL1** =||= **Type** =||= **VLANS** =|| || e0 || Access || 60 || || e1 || Access || 70 || || e7 || dot1q || 3 || ---- ||= **FAC2-BLD2-FL1** =||= **Type** =||= **VLANS** =|| || e0 || Access || 70 || || e6 || dot1q || 3 || || e7 || dot1q || 3 || ---- ||= **FAC2-BLD2-FL3** =||= **Type** =||= **VLANS** =|| || e0 || Access || 80 || || e7 || dot1q || 3 || ---- ||= **DMC** =||= **Type** =|| **VLANS** || || e0 || Access || 1 || || e1 || Access || 1 || || e7 || Access || 1 || == Configure End Devices == === Configure PC's === * First you have to run the VPC simulator '''(vpcs_0.6_Win32.exe)''' which is inside the '''VPC Files''' folder inside the '''WKFiles''' folder. [[Image(wiki:Cnbp2022/Agenda/NetworkSetup:vpc.PNG,50%,border=1, center)]] * You will get 9 VPCs with VPC simulator * use '''?''' to get the help * You can navigate form one PC to another by typing the numbers from 1 to 9. [[Image(wiki:Cnbp2022/Agenda/NetworkSetup:vpc4.PNG,50%,border=1, center)]] * Enter following commands under PC-1, {{{ PC-1> ip 10.XY.10.1 24 10.XY.10.254 PC-1> ip dns 10.XY.0.1 PC-1> ip 2401:DD00:20XY:1110::1/64 2401:DD00:20XY:1110::ffff PC-1> save }}} > * For troubleshooting and configuration verification, we can use: {{{ PC-1> show ip PC-1> show ipv6 }}} * Based on the following table configure all other end-user PC's just as above. You may need to change IP addresses. ||= **Host Devices** =||= **IPv4** =||= **IPv6** =|| || PC-1 || 10.XY.10.1 || 2401:DD00:20XY:1110::1/64 || || PC-2 || 10.XY.20.1 || 2401:DD00:20XY:1120::1/64 || || PC-3 || 10.XY.20.2 || 2401:DD00:20XY:1120::2/64 || || PC-4 || 10.XY.20.3 || 2401:DD00:20XY:1120::3/64 || || PC-5 || 10.XY.30.1 || 2401:DD00:20XY:1230::1/64 || || PC-6 || 10.XY.60.1 || 2401:DD00:20XY:2160::1/64 || || PC-7 || 10.XY.70.1 || 2401:DD00:20XY:2270::1/64 || || PC-8 || 10.XY.70.2 || 2401:DD00:20XY:2270::2/64 || || PC-9 || 10.XY.80.1 || 2401:DD00:20XY:2280::1/64 || || Monitoring-Server || 10.XY.5.10 || 2401:DD00:20XY:5::AAAA/64 || || Web-Server || 172.30.1.20 || 2401:DD00:20XY:1::PQRW/64 || || WINXP_DMZ |||| 172.30.1.10 || || WINXP_INSIDE |||| 10.XY.30.10 || * Switch on '''Monitoring-Server (Username : user Password: 1234)''' and '''Web-Server'''. Log-in as user '''wsuser''' with the class password: CNBP2019@LEARN. * Edit the following file to insert ip details according to the above table. {{{ sudo vi /etc/netplan/00-installer-config.yaml }}} * Edit details as follows on Monitoring Server {{{ # This file describes the network interfaces available on your system # For more information, see netplan(5). network: ethernets: enp0s3: addresses: - 10.XY.5.10/24 - 2401:dd00:20XY:5::AAAA/64 dhcp4: false dhcp6: false gateway4: 10.XY.5.254 gateway6: 2401:dd00:20XY:5::FFFF nameservers: addresses: [8.8.8.8,4.4.4.4] - 2401:dd00:20XY:1::FFFF version: 2 }}} * Restart servers. {{{ sudo init 6 }}} >You need to modify the above settings to suit the IP detail when applying to the webserver * Test end-user connectivity using ping command on each. == Some commands to check your setup == * Check VLAN Setup {{{ FAC1#show vlan-switch }}} * Check IP address details {{{ FAC1#show ip interface brief FAC1#show ipv6 interface brief }}} * Check OSPF details {{{ FAC1#show ip ospf FAC1#show ipv6 ospf }}} * Check IP routing details {{{ FAC1#show ip route FAC1#show ipv6 route }}} * Check Interface details {{{ FAC1#show interface switchport }}} * Check all config {{{ FAC1#show run