During this IPv6
provided the following tests:
- Irisa RIPng conformance
- Irisa OSPFv3 conformance (beta
NICI IPv6 Standard & Testing Lab
- SNMP (beta release)
1901 Introduction to
3416 Version 2 of the
Protocol Operations for the
Simple Network Management
4001 Textual Conventions for
Internet Network Addresses.
4293 Management Information
Base for the Internet
Protocol & Testing
245 fully validated TTCN3 Test
Cases on "IPv6 Core protocols":
- RFC1981 "Path MTU Discovery"
- RFC2460 "IPv6 Basic
Specification" (27 tests)
- RFC2461 "Neighbor Discovery &
Redirect" (173 tests)
- RFC2462 "Stateless Address
Autoconfiguration" (11 tests)
- RFC2463 "ICMPv6"(30 tests)
- Some IPv6 Mobility prototype
Test Cases (TTCN-3)
164 draft TTCN3 Test Cases on
-RFC3775 "Mobility Support in
-RFC3776 "Using IPsec to Protect
Mobile IPv6 Signalling Between
Mobile Nodes and Home Agents"
-RFC4068 "Fast Handovers for
Logo Phase-1 & Phase-2
applies for hosts, routers and
It also applies for operating systems (e.g.
Linux), protocol stack.
applies for hosts and routers.
More about the IPv6
Ready Logo Phase-1 & Phase-2...
plays a major role to bring together
industrial actors, to develop and deploy the
new generation of IP protocols. Contrary to
IPv4, which started with a small closed
group of implementers, the universality of
IPv6 leads to a huge number of
implementations. Interoperability has always
been considered as a critical feature in the
Due to the large number of IPv6
implementations, it is important to give to
the market a strong signal proving the
interoperability degree of various products.
To avoid confusion in the mind of customers,
a globally unique logo programme has been
defined. The IPv6 logo will give confidence
to users that IPv6 is currently operational.
It will also be a clear indication that the
technology will still be used in the future.
To summarize, this logo programme will
contribute to the feeling that IPv6 is
available and ready to be used.