Philip Smith's Internet Development Site

User Tools

Site Tools

Trace: agenda
training:apnic-ipv6-nc:0-setup

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision		Previous revision
training:apnic-ipv6-nc:0-setup [2018/03/19 17:52] – [IPv6 Security Lab] philiptraining:apnic-ipv6-nc:0-setup [2018/04/07 17:40] (current) – [Introducing the lab] philip
Line 4: Line 4:
 ===== Objective ===== ===== Objective =====
  
 +This lab sets up the dual stack infrastructure which will be used for the rest of the topics explored in this workshop.
  
- 
-Using a dual stack topology, this lab investigates securing the router and the routing infrastructure for the network. 
  
 ===== Lab Topology ===== ===== Lab Topology =====
Line 16: Line 15:
 The lab will start simply by configuring each autonomous system, and making sure that transit works via their transit provider. The address plan for the entire network is described in the [Address Plan](address-plan) document. The initial set up is shown below. The lab will start simply by configuring each autonomous system, and making sure that transit works via their transit provider. The address plan for the entire network is described in the [Address Plan](address-plan) document. The initial set up is shown below.
  
-{{ :apnic-ipv6-nc:peering-0.png?500 |}}+{{:training:apnic-ipv6-nc:peering-0.png?500 |}}
  
 ===== Preliminary ===== ===== Preliminary =====
Line 22: Line 21:
  
 ==== Introducing the lab ==== ==== Introducing the lab ====
-This workshop uses Cisco IOS routers running IOS, but on the Dynamips systems – Dynamips translates the Cisco 7200 router processor instructions in IOS to those of the Intel based host system, allowing Cisco IOS images, and therefore network configurations, to be run on a host PC system (usual Linux or MacOS based).+This workshop uses Cisco routers running IOS, but on the Dynamips system – Dynamips translates the Cisco 7200 router processor instructions in IOS to those of the Intel based host system, allowing Cisco IOS images, and therefore network configurations, to be run on a host PC system (usual Linux or MacOS based).
  
 The lab will have been preconfigured by the instructors, allowing participants to enter the following exercises directly. Please read the following steps carefully. The lab will have been preconfigured by the instructors, allowing participants to enter the following exercises directly. Please read the following steps carefully.
Line 145: Line 144:
 ==== Loopback ==== ==== Loopback ====
  
-First we will configure the Loopback interface of each of the routers.+First we will create the Loopback interface and apply the IPv4 and IPv6 addresses to it - consult the address plan for the addresses used. Here is an example for the Core router in the autonomous system. Remember that the IPv4 address on the Loopback is a /32 and the IPv6 address on the Loopback is /128.
  
 **On CX:** **On CX:**
Line 155: Line 154:
  
  
-You will need a similar configuration for the Peering, Access and Border router as well.+You will need a similar configuration to create the Loopbacks on the Peering, Access and Border router as well. 
  
 ==== Links to other Routers ==== ==== Links to other Routers ====
Line 227: Line 227:
  
 This prevents the router from sending any prefixes as part of router advertisements, so the client will not auto-configure itself with a global IPv6 address. This is helpful for IOS versions where you cannot suppress solicited RA messages. This prevents the router from sending any prefixes as part of router advertisements, so the client will not auto-configure itself with a global IPv6 address. This is helpful for IOS versions where you cannot suppress solicited RA messages.
 +
  
 ===== Connectivity Testing ===== ===== Connectivity Testing =====
Line 260: Line 261:
  
  
 +[[:training:apnic-ipv6-nc:agenda| Back to Agenda page]]
training/apnic-ipv6-nc/0-setup.1521442335.txt.gz · Last modified: 2018/03/19 17:52 by philip