Difference between revisions of "IP"
(Anycast is not IPv6-specific (but easier in IPv6), IPv4 may use it via BGP) |
(I don't think we need a page on IPsec if we can sum it up as "encryption for packets". For more information, see wikipedia:IPsec or rfc:4301 and errata) |
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<blockquote>The set of rules that govern how devices communicate over the Internet. The Internet Protocol specifies the format of the packets that devices use to transmit messages through the network. It also specifies the addressing scheme that routers use to transmit messages to their destinations.</blockquote> Source: [https://www.icann.org/icann-acronyms-and-terms/en/G0256 ICANN]. | <blockquote>The set of rules that govern how devices communicate over the Internet. The Internet Protocol specifies the format of the packets that devices use to transmit messages through the network. It also specifies the addressing scheme that routers use to transmit messages to their destinations.</blockquote> Source: [https://www.icann.org/icann-acronyms-and-terms/en/G0256 ICANN]. | ||
| − | IPv4 is the original implementation. Gradually everyone is trying to go to IPv6 which has way more potential addresses. With this new version every electronic device in the world is supposed to be able to get an IP address assigned. IPv6 supports techniques like [[multicast]], [[anycast]], <abbr title="Dynamic Host Configuration Protocol">DHCP</abbr> and | + | IPv4 is the original implementation. Gradually everyone is trying to go to IPv6 which has way more potential addresses. With this new version every electronic device in the world is supposed to be able to get an IP address assigned. IPv6 supports techniques like [[multicast]], [[anycast]], <abbr title="Dynamic Host Configuration Protocol">DHCP</abbr> and IPsec (encryption for packets) natively. |
IPv4 addresses look like: | IPv4 addresses look like: | ||
| − | 192.0.34.163 | + | 192.0.34.163 |
| − | |||
IPv6 addresses look like: | IPv6 addresses look like: | ||
| − | fe80::230:65ff:fe6c:fa88 | + | fe80::230:65ff:fe6c:fa88 |
| − | |||
| − | Higher level protocols like | + | Higher level protocols like [[TCP]], [[UDP]], [[RTP]], [[RTSP]], etc., all use IP. 5 standard routing schemes are available: |
| − | |||
* [[anycast]] | * [[anycast]] | ||
* [[broadcast]] | * [[broadcast]] | ||
| Line 23: | Line 20: | ||
* [[unicast]] | * [[unicast]] | ||
<pre> | <pre> | ||
| − | There are several more sending paradigms (not implemented in the IP standards?). These include manycast | + | There are several more sending paradigms (not implemented in the IP standards?). |
| − | (multicast/anycast mix), groupcast, somecast (realtime adaptive reliable multicasting). | + | These include manycast (multicast/anycast mix), groupcast, somecast (realtime adaptive reliable multicasting). |
The freaks can google them. | The freaks can google them. | ||
</pre> | </pre> | ||
Latest revision as of 04:50, 2 March 2019
IP stands for Internet Protocol. It's the protocol the Internet was built on.
The set of rules that govern how devices communicate over the Internet. The Internet Protocol specifies the format of the packets that devices use to transmit messages through the network. It also specifies the addressing scheme that routers use to transmit messages to their destinations.
Source: ICANN.
IPv4 is the original implementation. Gradually everyone is trying to go to IPv6 which has way more potential addresses. With this new version every electronic device in the world is supposed to be able to get an IP address assigned. IPv6 supports techniques like multicast, anycast, DHCP and IPsec (encryption for packets) natively.
IPv4 addresses look like:
192.0.34.163
IPv6 addresses look like:
fe80::230:65ff:fe6c:fa88
Higher level protocols like TCP, UDP, RTP, RTSP, etc., all use IP. 5 standard routing schemes are available:
There are several more sending paradigms (not implemented in the IP standards?). These include manycast (multicast/anycast mix), groupcast, somecast (realtime adaptive reliable multicasting). The freaks can google them.
