Net-HOWTO

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Introduction

This is the first release of the GOLEM Network Howto, this document aims to be a sort of unofficial update of the Linux Networking Howto.

General Information about Networking

Sources of non-linux-specific network information

If you are looking for general TCP/IP networking information, here you can find some resources:


Generic Network Configuration Information

Network tools

iproute2: IP Routing Utilities

nftables: Linux kernel packet control tool (firewall)

iputils: arping, clockdiff, ping, tracepath

Legacy tools

net-tools: configuration tools for Linux networking (arp, ifconfig, ipmaddr, iptunnel, mii-tool, nameif, netstat, plipconfig, rarp, route, slattach)

iptables: Linux kernel packet control tool (firewall)

Network Application Programs

Most common network application programs are collected in the inetutils package: dnsdomainname, ftp, ftpd, hostname, ifconfig, ping, rcp, rlogin, rlogind, rsh, rshd, talk, talkd, telnet, telnetd, whois


IPv4 Addresses, an Explanation

Ipv4-1.webp

Internet Protocol v4 Addresses are composed of 4 bytes (32 bit), each byte is converted to a decimal number (0-255) and bytes are separated by a . (dot), for this reason IPv4 addresses are limits to near 4 billions (232). Usually every network interface has its own IP address in a format like this: 192.168.0.5

Subnetting

Addresses in a network have some digits in common, that part is called the network portion of the address, the remaining numbers are called the host portion.

For example:

           -----------------  ---------------
           Host Address       192.168.0.23
           Network Portion    192.168.0.
           Host portion                .23
           -----------------  ---------------
           Network Address    192.168.0.0
           Broadcast Address  192.168.0.255
           -----------------  ---------------

Subnetting is a way to subdivide an TCP/IP network. The Classless Inter-Domain Routing (CIDR) is the current method for defining subnet, the IP address is followed by a prefix number between 0 and 32 that shows how many bits represent the network.

192.168.0.23/24 => network 192.168.0.0 - 192.168.0.255
192.168.0.23/16 => network 192.168.0.0 - 192.168.255.255

This method replace the obsolete classful network addressing architecture.

The maximum number of addresses of a network may be calculated as 232 − prefix number

CIDR Classful network mask Number of Hosts Typical use
/8 255.0.0.0 16777214 = 224 - 2 Largest IANA block allocation
/9 255.128.0.0 8388608 = 223
/10 255.192.0.0 4194304 = 222
/11 255.224.0.0 2097152 = 221
/12 255.240.0.0 1048576 = 220
/13 255.248.0.0 524288 = 219
/14 255.252.0.0 262144 = 218
/15 255.254.0.0 131072 = 217
/16 255.255.0.0 65536 = 216
/17 255.255.128.0 32768 = 215 ISP / large business
/18 255.255.192.0 16384 = 214 ISP / large business
/19 255.255.224.0 8192 = 213 ISP / large business
/20 255.255.240.0 4096 = 212 Small ISP / large business
/21 255.255.248.0 2048 = 211 Small ISP / large business
/22 255.255.252.0 1024 = 210
/23 255.255.254.0 512 = 29
/24 255.255.255.0 256 = 28 Large LAN
/25 255.255.255.128 128 = 27 Large LAN
/26 255.255.255.192 64 = 26 Small LAN
/27 255.255.255.224 32 = 25 Small LAN
/28 255.255.255.240 16 = 24 Small LAN
/29 255.255.255.248 8 = 2³ The smallest multi-host network
/30 255.255.255.252 4 = 2² Point-to-point links (glue network)
/31 255.255.255.254 2 = 21 Point-to-point network (RFC 3021)
/32 255.255.255.255 1 = 20 Single host

Bibliography

Linux Networking HOWTO