IPv6 1. Network layers and IP 2. Routing and subnets 3. Problems with IPv4 4. Solutions of IPv6 5. SLAAC 6. IPv4 in IPv6 Under: Link-layer, MAC (Ethernet, Wi-Fi) Intra-network communication Upper: Transport-layer, TCP / UDP Data communication Middle: Internet layer, IPv4/6 Inter-network communication 2. Routing and subnets CIDR notation: 192.168.0.0/24 - 192.168.0.XX 2a0d:d9c0:1234:abcd:5678:cdef:1234:4567/64 2a0d:d9c0:1234:abcd:xxxx:xxxx:xxxx:xxxx 192.168.0.0/24 to 192.168.1.0/24 2a0d:d9c0::/64 to 2a0d:d9c1::/64 3. Problems with IPv4 Not enough (public) addresses! Private subnets allow extension through NAT 192.168.0.0/16 behind 45.134.135.1 Problems: state, complexity... And *still* not enough addresses! 4. Solutions of IPv6 Many, many, *many* more addresses Every device has an address, no NAT Enough for everyone. (security: NAT does not provide security. Proper firewalling does.) Otherwise, nothing basic really changes Devices have an IPv6, talk to others over link-layer Same difference! 5. SLAAC StateLess Address AutoConfiguration Usually, in IPv4, DHCP Requires manual configuration In IPv6, equivalent is SLAAC * MAC addresses to autoconfigure address in a subnet * Device Address Duplication built-in checks * More work for the routers Router Advertisements, Router Solicitation Neighbor Advertisements, Neighbor Solicitation 2a0d:d9c0:1234:5678::/64 + MAC address => 2a0d:d9c0:1234:5678:224:81ff:fe7d:da46 6. IPv4 in IPv6 Same technique as SLAAC: encode IPv4 in IPv6 /64 2a0d:d9c0:1234:5678:192.168.42.42 We can use a translation service to provide IPv4 connectivity to IPv6 hosts. NAT-like: IPv6 can initiate to IPv4, not the other way around.