Answers: IPv6 Extended ACLs 1
This latest lab breaks the config lab mold just a tad, but for a good reason. It looks like a straightforward config lab, requiring just 10 minutes or so to do on paper. But it sets you up for one
This latest lab breaks the config lab mold just a tad, but for a good reason. It looks like a straightforward config lab, requiring just 10 minutes or so to do on paper. But it sets you up for one
Are you comfortable matching packets with extended IPv6 ACLs? How about with TCP and UDP ports in those ACLs? Here’s a 10-minute lab exercise to practice; all you need is the time and a piece of paper or a place
The previous lab exercise requires you to configure a standard IPv6 ACL. The address range matching should be pretty straightforward. You also need to choose where to put the ACL, and for which direction of flow for the packets. As
IPv6 ACLs – new to #CCNA with the 2016 exam revisions – include both standard and extended ACLs. However, IPv6 standard and extended ACLs have only subtle configuration differences. This lab helps you notice those differences with a lab that
Like EIGRP for IPv4, EIGRP for IPv6 can be configured to influence the routers’ choices of best routes based on the delay and bandwidth of the links. This lab lets you practice those options, while reviewing base EIGRP for IPv6
Of all the CLI features in CCNA, the routing protocols seem to get the most attention. This post helps you prepare for those Sim and Simlet questions with more practice on EIGRP for IPv6, with the usual 5-10 minute paper
This lab has some repetitive configuration elements for EIGRPv6. Check out the original lab first, and then come here to check out your answers. The main task in this case: Get EIGRP working for IPv6 in a three router
EIGRP for IPv6 – often called EIGRPv6 – has a nice clean configuration process. This lab asks you to follow that process, with a few small wrinkles. If you have the basics down, you should be able to work this
This lab gives you a small 3-router topology, with a basic IPv6 global unicast address design, and sends you forth to configure the basics: IPv6 addressing, routing, and OSPFv3. It’s a bit long for these CLI labs, but not too
This latest lab asks you to configure OSPFv3 to exchange routes in an IPv6 network. Amazingly, you can almost ignore the IPv6 addresses, at least once you believe that the addresses have been pre-configured, as is the case in this