The local host name for a system should be unique on your network. It can consist of lowercase letters and numbers, must begin with a letter, and should be no longer than 63 characters. mail and other programs use the host name to identify the correct data destination. Example valid machine names are scosysv, tcpdev, and account1.
Each network interface can be configured with a different host name. The host name and associated IPv4 address for the interface are added to the /etc/hosts file.
You cannot change the system name using the Network Configuration Manager. You must use the uname(1) command to do this.
Configuring a system as a DHCP client allows it to obtain its other basic TCP/IP configuration parameters (domain name, IPv4 address, netmask, broadcast address, and default router) from a DHCP server at boot time.
Select Yes to enable DHCP server discovery on this interface. This interface will be configured with the configuration parameters that it receives.
Select No if you want to configure the interface using a static set of TCP/IP parameters.
The Internet domain name allows your network to fit into a hierarchical network structure composed of commercial organizations (.com), educational institutions (.edu), the government (.gov), the military (.mil) or miscellaneous organizations (.org). The domain name is also used when routing messages, such as mail, from machine to machine. Example domain names are sco.com (the domain name used by SCO) and berkeley.edu (the domain name used by the University of California at Berkeley).
Base your domain name choice on the following:
The IPv4 address identifies and differentiates your machine from all others on the network. It consists of a 32-bit binary number that is usually displayed as four octets expressed in decimal and separated by periods. An example IP address would be 172.16.2.2. You must have a unique IPv4 address for each machine on your IPv4-based network. In addition, if your machine serves as a router to another network, it contains two or more network adapters and belongs to two or more networks. In this case, you must assign each adapter a unique IPv4 address on the appropriate network.
The IPv4 address consists of two parts: a network address that identifies the network and a host address that identifies the particular host, or node.
Several classes of TCP/IP networks are available, each based on the number of hosts a network needs. Use the smallest network class that can accommodate all of your network's hosts. Many TCP/IP installations use one or more Class C networks, but some larger installations might need to use Class B.
Internet address classes
Maximum number of
hosts per network
|Valid address ranges|
18.104.22.168 through 22.214.171.124
126.96.36.199 through 188.8.131.52
184.108.40.206 through 220.127.116.11
18.104.22.168 through 22.214.171.124
192.0.0.1 through 126.96.36.199
188.8.131.52 through 184.108.40.206
|Private internets only||
10.0.0.1 through 10.255.255.254 (10/8)
172.16.0.1 through 172.31.255.254 (172.16/12)
192.168.0.1 through 192.168.255.254 (192.168/16)
0.0.0.0 through 0.255.255.255 (used if host will be assigned a
valid address dynamically)
127.0.0.0 through 127.255.255.255 (loopback addresses)
220.127.116.11 through 18.104.22.168 (multicast addresses)
240.0.0.0 through 247.255.255.255 (future use)
248.0.0.0 through 255.255.255.254 (experimental)
255.255.255.255 (limited broadcast)
If you are creating an entirely new network and you want to connect to the Internet, you must register its network address or addresses as described in ``Obtaining a domain name and an IP network number''.
If you do not want to connect to an outside network, you can choose any network address as long as it conforms to the syntax shown previously. In either case, once you determine the network address, you can then create the unique host address.
When you determine the IPv4 address, remember the following:
The IPv4 network mask strips the network ID from the IPv4 address, leaving only the host ID. Each netmask consists of binary ones (decimal 255) to mask the network and subnet IDs and binary zeroes (decimal 0) to retain the host ID of the IPv4 address. For example, the default netmask for a Class B address is 255.255.0.0. The first two octets have the value 255 as a result of setting all their bits to 1.
Always use the default netmask that the installation program prompts you for unless your network uses subnetting. If a subnet uses part of the IPv4 address, you must also mask this portion of the address. For example, for machines on a Class B network which uses the third octet for subnetting, the netmask would be 255.255.255.0.
As another example, consider several subnetted class C networks which use the first three bits of the fourth octet for the subnet address and the last five bits for the host address. In this case, the netmask for all machines on the subnets would be 255.255.255.224 which is obtained by setting all the network and subnet address bits to 1 (255.255.255.128+64+32).
All datagrams sent by TCP/IP may be received by all machines on a subnetwork. However, normally each host's network adapter ignores any packet that does not specify that computer as its destination. Occasionally, you might want to send a message to all machines on a particular network. To do so, select a broadcast address for your machine. A broadcast address is one in which all bits in the host portion of the IPv4 address have been set to 1 as recommended by RFC 919.
For example, the broadcast address for the class C network address n1.n2.n3.0 would be n1.n2.n3.255. The broadcast address will be different if your network is a subnetted class C network with network and subnet address n1.n2.n3.n4. For example, if the last five bits of the fourth octet are used for the host address, the broadcast address would be n1.n2.n3.n4+(16+8+4+2+1). Thus the network and subnet address 22.214.171.124 with netmask 255.255.255.224 would have a broadcast address of 126.96.36.199.
The IPv4 address of the default router on your local subnet. The address is used to configure an entry for the router in the routing table. If your machine does not run a routing daemon, this entry allows it to send IPv4 packets via the router out of the local subnet.