So there are several sites that will calculate your link-local ipv6 address for you, like this one right here.

Nevertheless, it does not give any useful into as to how this address is calculated nor what the input parameters are. So what is the procedure(or algorithm)to compute a link local ipv6 address if one knows ones ipv4 address, subnet mask, and gateway address? I'm doing a project with SCTP sockets that uses ISATAP network tunneling and the LL ipv6 address is used in constructing the ISATAP address.


Appendix A of RFC 4291 describes the method for computing a modified EUI-64 from a MAC address. Once you have the modified EUI-64, you just put it in the lower 64 bits of the address and put fe80:: in the top 64 bits.

Basically you flip the 7th bit of the MAC address, and pack its first 24 bits (including the flipped bit), then fffe, then the lower 24 bits of the MAC address, resulting in 64 bits total.

That being said, your question is how to derive the link local address from the IPv4 address and subnet mask. That, you can't do. The IPv4 address and subnet mask (if indeed there is one – IPv6 does not require that IPv4 be running at all on the same interface) has nothing to do with the IPv6 address and the two aren't related in any way. The IPv4 gateway address (again, if there is one) is even less relevant.


The link-local address can be based on the MAC address per RFC 4862 or randomly generated as per RFC 4941.

Normally this should be limited to global scope, but some systems extend this privacy extension implementation to link-local scope. Follow this question on serverfault for discussion of the topic.

  • I do not think that the link-local address can be randomly generated. Also, both of the RFCs you cite relate to selecting autoconfigured global addresses, not link-local addresses. – Celada May 27 '13 at 0:32
  • @Celada say hello to Windows 7, added reference above. – Steve-o May 27 '13 at 1:04
  • Wow. Sounds non-compliant since the RFC clearly says privacy addresses are applicable to global scope addresses. – Celada May 27 '13 at 1:42

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