Course
IPv6 Hands-on («IPH»)
During three days you will learn about the innovations and opportunities of IPv6 and receive the necessary basis to be able to strategically use and integrate the new technology.
Duration
3 days
Price
2'850.–
Course facts
- Know which future services will be enabled by IPv6.
- Describe the important and new functions of IPv6 from a technical point of view.
- Compare the functions of IPv6 with those of IPv4
- Describe the existing transition and coexistence mechanisms of IPv6 with IPv4
- Configure IPv6 on Windows and Linux systems and on Cisco routers.
- Brief historical overview
- Why IPv6?
- General IPv6 header structure
- Comparison with IPv4 headers
- The individual fields in the IPv6 header
- Extension header architecture and its meaning
- The Extension Headers defined today and their use
- Brief overview of the meaning of this specification
- Comparison with Mobile IPv4
- Route Optimisation: Example for the use of Extension Headers
- The current status of the IPv4 address space
- Decrease of the IANA pool, Internet growth rate
- The current status of the IPv6 address pool; how manyE addresses are there really?
- IPv6 allocations globally (who already has prefixes and which ones are already active?)
- The address architecture
- Address types (unicast, anycast, multicast)
- Format and notation of IPv6 addresses
- EUI-64 address generation (Interface Identifier)
- Officially defined prefixes
- Special address types
- Overview of ICMPv6 and comparison with ICMPv4
- ICMPv6-based functions in IPv6
- IMCPv6 - new message types
- Neighbour Discovery (ND)
- Duplicate Address Detection (DAD)
- Stateless Autoconfiguration (SLAAC)
- Neighbor Unreachability Detection (NUD)
- Path MTU Discovery (PMTDU)
- Multicast Listener Discovery (MLD)
- Overview of the techniques (Dual-stack, Tunneling, Translation)
- Dual Stack
- Tunneling overview, general mechanisms
- 6to4
- Isatap
- Teredo
- Tunnel Broker
- Softwire Mesh Framework
- MPLS (6PE, 6VPE)
- 6RD
- Carrier Grade NAT (CGN, LSN)
- DS-Lite
- NAT-PT
- NAT64/DNS64
- XLAT
- New DNS Record Types
- DNS - Dual-stack Issues
- Default Address Selection
- DNS Communication
- General Overview of the Specification
- New Message Types and Functions
- Overview of implementations
- Stateless DHCPv6
- Multicast addresses and port numbers
- Headers and options
- Relaying
- Overview of message types
- Header format
- Relay message format
- Client communication
- Relay Communication
- DHCPv6 Security Issues
- Overview
- Configuration RIP, OSPF
- Configuration SLAAC (Router Advertisement)
- IPSec
- IPv6 Security Elements
- Most important changes in security (enhancements)
- Enterprise security strategies
- Quality of Service
- IPv6 QoS elements
- General Security Issues in IPv6 Networks
- Local Network Protection
- Defining an integration strategy
- Network Assessment
- Possible approaches, best practices
- Opportunities for integration with forward planning
- IPv6 address concepts
- Cost-saving opportunities
- Possible factors that trigger time pressure
- The golden rules
Each student has their own virtualised lab environment at their disposal. Using Wireshark trace files, you can retrace the communication.