Table 2.9 internet protocol – Xblue Networks X-50 User Manual

XBLUE Networks

27

System Specifications

2

TABLE 2.9 Internet Protocol

Protocol

Documentation

Description

IP Address

RFC 950

Defines the standards used to divide Class A, B and C using Subnets.

ARP

RFC 826, 3315

Address Resolution Protocol - allows devices to find a “host” device using
the network layer (MAC Address).

RARP

RFC 903

Reverse Address Resolution Protocol - allows devices to find a “host”
device using the network layer (MAC Address).

CHAP

RFC 1994

Challenge-Handshake Authentication Protocol - Negotiating protocol used
with PPPoE. Also see MSCHAP and PAP

MSCHAP

RFC 2433, 2759

Microsoft’s version of CHAP that allows mutual authentication between
peers, by piggybacking challenge and response packets on a successful
packet.

PAP

RFC 1334

Simple method for the peer to establish its identity using a 2-way un-
encrypted handshake. Passwords are sent in ASCII format with no
encryption. Also see CHAP, and MSCHAP.

DHCP
Client

RFC 2131 - 2132

Dynamic Host Configuration Protocol is used by client devices, to obtain
the correct settings, when joining a network.

DHCP
Server

RFC 2132

Dynamic Host Configuration Protocol is used by server devices, to obtain
or assign the correct settings, when joining a network.

DNS

RFC 1912

A Domain Name System is the “Phone Book” for the Internet. It translates
“Human Relatable” names such as

www.xbluenetworks.com

into the

numeric IP Address. The DNS can be a local or remote server, and it is a
essential part of today’s Internet.

HTTP

RFC 2616

Hypertext Transfer Protocol - is one of the communications protocols used
to transfer information over a packet-switched network, such as an
Intranet or the Internet. Typically, HTTP (at default using port 80) initiates
or receives a request/response from a client to/from a server.

ICMP

RFC 792

Internet Control Message Protocol is one of the core protocols within
Internet Protocol (IP). This protocol is a reactionary protocol only
responding to error messages that are received.

IP

RFC 791

Internet Protocol allows devices to communicate over a package-switched
network. This protocol provides an unreliable network, and makes no
guarantees about sending or receiving a data package; it is a “best Effort”
protocol. Therefore, other protocols such as “TCP” were created to make
data transfer more reliable.

NAT

RFC 3022

Network Address Translation allows multiple hosts, on one private
network, to access the Internet using one public IP Address.

NAPT

RFC 2663

Network Address Port Translation increases the efficiency of NAT by
translating the “transport identifier”, allowing a private host to multiplex
into the transport identifiers to appear as a single Public IP Address.

PPPoE

RFC 2516

Point to Point over Ethernet allows users to “Virtually” create a direct
connection between two devices over an Ethernet network.

SNTP

RFC 1305

Simple Network Time Protocol allows devices packet-switched networks to
synchronize their time from a specific location.

NPT

RFC 867, 868

Network Time Protocol ensures that the time is synchronized all along the
Packet Switching Network.

TCP

RFC 793

Transmission Control Protocol provides the reliability that Internet Protocol
(IP) does not, making it suitable for applications such as File Transfer and
E-mail.