| 31. | The Teredo Client and native IPv6 host then use the relay for communication as long as they need to.
|
| 32. | This was designed to protect the piles from the attacks of a marine insect called teredo navalis or cobra.
|
| 33. | Most Unix systems implement only 6to4, but Teredo can be provided by third-party software such as Miredo.
|
| 34. | It is, however, possible to spoof Teredo packets with the Teredo server IPv4 address set to a martian.
|
| 35. | It is, however, possible to spoof Teredo packets with the Teredo server IPv4 address set to a martian.
|
| 36. | Teredo alleviates this problem by encapsulating IPv6 packets within UDP / IPv4 datagrams, which most NATs can forward properly.
|
| 37. | In effect, a host that implements Teredo can gain IPv6 connectivity with no cooperation from the local network environment.
|
| 38. | Teredo clients are assigned an IPv6 address that starts with the Teredo prefix ( 2001 : : / 32 ).
|
| 39. | Teredo clients are assigned an IPv6 address that starts with the Teredo prefix ( 2001 : : / 32 ).
|
| 40. | This design means that neither the Teredo server nor client needs to know the IPv4 address of any Teredo relays.
|