How to Best Protect from IPv6 Threats
- Why you might already have IPv6 on your network
- How an integrated and portable analyzer can passively and actively discover IPv6 devices and services
- Key tips to gain vision and control of your network.and more!
RFC4620 - IPv6 Node Information Queries (張文萍) [ (147KB) ]
1. Q: DNS wire format \0
2. Q: DNS name compression 4.1.4
3. Q: Is this approach only applicable to local neighbors?
RFC 4835 - Cryptographic Algorithm Implementation Requirements for Encapsulating Security Payload (ESP) and Authentication Header (AH) (11 pages) (王鐘逸) [ (89KB) ]
An Integrated Handover Scheme for Fast Mobile IPv6 over IEEE 802.16e Systems, IEEE 64th Vehicular Technology Conference, pp. 1-5. Sep. 2006. (林忠儒)
RFC 4692 - Considerations on the IPv6 Host Density Metric (劉衍江)
- RFC 1715: H = log(number of objects) / available bits.
  best: 0.14-0.26; max: log(2)=0.3010.
- RFC 3194 HD = log(# of allocated objects) / log (max # of allocatable objects).
  range: 0-1; best:0.6-0.8.
- Q: Why is "renumbering" repeated mentioned in RFC 4692?
- In FIgure 4, explain why /24 must be allocated for 80% efficiency?
  A: (0.75)^4 * 32M = 9M
  16M * 0.8 = 14.4M.
RFC4607 - Source-Specific Multicast for IP [ (70KB) ] (吳直育)
1. IANA allocates IPv4 addresses in the range 232.0.0.1 through 232.0.0.255 (among 224.0.0.0/4), and IPv6 addresses in the range FF3x:4000:0001 to FF3x::7FFF:FFFF (among FF00::/8).
2. A network can concurrently support SSM in the SSM address range and any-source multicast in the rest of the multicast address space, and it is expected that this will be commonplace.
3. PIM-SM; IGMPv3 for IPv4; MLDv2 for IPv6.
RFC4584 - Extension to Sockets API for Mobile IPv6 (陳柏州)
1. RFC 3542 - Advanced Sockets API for IPv6
2. Mobile IPv6 Advanced Socket API Extensions, Internet Draft, Sun, 2003.
3. Mobility for IPv6 (MIP6), WG Chair, 2006.
RFC4554 - Use of VLANs for IPv4-IPv6 Coexistence in Enterprise Networks (李思宏) [ (1.7MB) ]
- RFC 4214 - Intra-Site Automatic Tunnel Addressing Protocol (ISATAP)
RFC4477 - Dynamic Host Configuration Protocol (DHCP): IPv4 and IPv6 Dual-Stack Issues (張兢真) [ (57KB) ]
RFC 4192 - Renumbering an IPv6 Network (張文萍) [ (241KB) ]
RFC 4193 - Unique Local IPv6 Unicast Addresses (吳直育) [ (101KB) ]
RFC 4191 Default Router Preferences (張兢真) [ (62KB) ]
RFC 3964 - Security Considerations for 6to4 (王鐘逸) [ (184KB) ]
RFC 4029 - Introducing IPv6 into ISP Networks (陳柏州)
RFC4487 - Mobile IPv6 and Firewalls: Problem Statement (林忠儒) [ (190KB) ]
RFC4818 RADIUS Delegated-IPv6-Prefix Attribute
RFC4798 Connecting IPv6 Islands over IPv4 MPLS Using IPv6 Provider Edge Routers (6PE)
RFC4779 ISP IPv6 Deployment Scenarios in Broadband Access Networks
RFC4773 Administration of the IANA Special Purpose IPv6 Address Block
RFC4651 - A Taxonomy and Analysis of Enhancements to Mobile IPv6 Route Optimization
Internet Draft - Address Autoconfiguration for Hybrid Mobile Ad Hoc Networks (draft-ikpark-autoconf-haa-02.txt)
RFC 4007 - IPv6 Scoped Address Architecture
RFC 4311 - Host-to-Router Load Sharing
RFC 4038 - Application Aspects of IPv6 Transition
RFC 4057 - IPv6 Enterprise Network Scenarios
RFC 4215 - IPv6 Transition in 3GPP Networks
RFC 4116 - IPv4 Multihoming Practices and Limitations
RFC 4177 - Architectural Approaches to Multi-Homing for IPv6
RFC 4218 - Threats relating to IPv6 Multihoming Solutions
RFC 4219 - Things MULTI6 Developers Should Think About
RFC 3484 - Default Address Selection for IPv6
RFC 3041 - Privacy Extensions for Stateless Address Autoconfiguration in IPv6
RFC 3879 - Deprecating Site Local Addresses
RFC 4291 - IP Version 6 Addressing Architecture (Obsoletes: RFC 3513)
1. The "IPv4-Compatible IPv6 address" is now deprecated because the current IPv6 transition mechanisms no longer use these addresses. New or updated implementations are not required to support this address type.