INTRODUCTION COURSE OUTLINE TRAINING SCHEDULE                                    
2
CNE6 LEVEL 2
INTRODUCTION


TRANSITION MECHANISM REVISITED - PART 2 OF CNE6 LEVEL 1 TRANSItion

- Mechanisms
- Understanding Addess Family Translator (AFT)
- CGN (large-scale NA 44)
- NAT 444 (CGN + CPE NAT 44)
- DS-Lite (NAT44 + 4over6 Tunnel)
- A+P (DS-Lite with preconfigured port ranges)
- NAT64 & DNS64 Explained
- Hw NAT64 works

ROUTING IN IPv6

- Static Routing
- RIPng (RFC 2080)
- IS-IS for IPv6
- OSPFv3 (RFC 2740)
- MP-BGP (RFC 2545/2858)
- EIFRP for IPv6

ADDRESS AUTOCONFIGURATION REVISITED - UNDERSTANDING DHCPv6

- DHCP for IPv6
- DHCPv6 Operational Model
- DHCPv6 Message Types
- DHCPv6 Message Exchange
- DHCPv6 Authentication
- DHCPv6 Implementation

MOBILITY - AT A GLANCE

- What's Mobility?
- Components of MIPv6
- How it works
- How CN and MN communicated
- Route optimization mode
- Bidirectional tunneling mode
- Implementations

CAMPUS IPv6 DEPLOYMENT - CAMPUS ADDRESS ALLOCATION & TOPOLOGY ISSUES

- Campus deployment strategy
- Campus IPv6 address allocation
- Campus deployment topology - options Campus services
- Service provider deployment considerations

IPv6 SECURITY CONSIDERATION - INTRODUCTION TO CNP6

- Concerns regarding security in IPv6
- Common Misunderstaning
- Attack vectors
- Attack Types
  - Reconnaisance
  - Denial of service
  - Covert channels
HANDS-ON LAB

- Configuring static route
- Configuring RIPng
- Configuring OSPFv3
- Configuring BGP4+

PREREQUISITES:

A good knowledge of general networking concepts is assumed. Certified IPv6 Network Engineer (CNE6) Level 1.




Disclaimer: course content is subject to change