IPv4 and IPv6 Addresses
There are two flavors of IP
Addresses that can be used on a network. The first, and the version that the
Internet and most routers are currently configured for, is IPv4 or Internet
Protocol version 4. This version uses 32-bit addresses, which limits the amount
of addresses to 4,294,967,296 possible unique addresses. Some of these
addresses, about 290 million, are also reserved for special purposes. Due to
the popular growth of the Internet there has been concern that the pool of
possible addresses would be exhausted in the near future. With this in mind, a
new version of IP addresses was developed called IPv6, or Internet Protocol
version 6, that would change the address size from 32-bit address to 128-bit addresses.
This change would allow for generous IP address allocations to networks without
any foreseeable problem with the amount of addresses available. In order to use
IPv6 addresses, though, existing routers and hardware would need to be upgraded
or configured to use this new version of IP addresses.
As IPv4 is still the most commonly
used, this tutorial will be focusing on that version of IP addresses.
The Address Itself
An IP address always consists of 4
numbers separated by periods, with the numbers having a possible range of 0
through 255. An example of how an IP address appears is: 192.168.1.10
This representation of an IP address
is called decimal notation and is what is generally used by humans to refer to
an IP address for readability purposes. With the ranges for each number being
between 0 and 255 there are a total 4,294,967,296 possible IP addresses.
Out of these addresses there are 3
special ranged that are reserved for special purposes. The first is the 0.0.0.0
address and refers to the default network and the 255.255.255.255 address which
is called the broadcast address. These addresses are used for routing, which
will not be covered in this tutorial. The third address, 127.0.0.1, is the
loopback address, and refers to your machine. Whenever you see, 127.0.0.1, you
are actually referring to your own machine. That means if you clicked on this
link, http://127.0.0.1, you are actually trying to connect to your own
computer, and unless you have a web server running, you will get a connection
error.
There are some guidelines to to how IP address can appear, though. The four numbers must be between 0 and 255, and the IP address of 0.0.0.0 and 255.255.255.255 are reserved, and are not considered usable IP addresses. IP addresses must be unique for each computer connected to a network. That means that if you have two computers on your network, each must have a different IP address to be able to communicate with each other. If by accident the same IP address is assigned to two computers, then those computers would have what is called an "IP Conflict" and not be able to communicate with each other.
There are some guidelines to to how IP address can appear, though. The four numbers must be between 0 and 255, and the IP address of 0.0.0.0 and 255.255.255.255 are reserved, and are not considered usable IP addresses. IP addresses must be unique for each computer connected to a network. That means that if you have two computers on your network, each must have a different IP address to be able to communicate with each other. If by accident the same IP address is assigned to two computers, then those computers would have what is called an "IP Conflict" and not be able to communicate with each other.
IP address classes
These IP addresses can further be
broken down into classes. These classes are A, B, C, D, E and their possible
ranges can be seen in Figure 2 below.
Class
|
Start
address
|
Finish
address
|
A
|
0.0.0.0
|
126.255.255.255
|
B
|
128.0.0.0
|
191.255.255.255
|
C
|
192.0.0.0
|
223.255.255.255
|
D
|
224.0.0.0
|
239.255.255.255
|
E
|
240.0.0.0
|
255.255.255.255
|
Figure
2. IP address Classes
If you look at the table you may
notice something strange. The range of IP address from Class A to Class B skips
the 127.0.0.0-127.255.255.255 range. That is because this range is reserved for
the special addresses called Loopback addresses that have already been
discussed above.
The rest of classes are allocated to
companies and organizations based upon the amount of IP addresses that they may
need. Listed below are descriptions of the IP classes and the organizations
that will typically receive that type of allocation.
Default Network: The special network
0.0.0.0 is generally used for routing.
Class A: From the table above you
see that there are 126 class A networks. These networks consist of 16,777,214
possible IP addresses that can be assigned to devices and computers. This type
of allocation is generally given to very large networks such as multi-national
companies.
Loopback: This is the special
127.0.0.0 network that is reserved as a loopback to your own computer. These
addresses are used for testing and debugging of your programs or hardware.
Class B: This class consists of
16,384 individual networks, each allocation consisting of 65,534 possible IP
addresses. These blocks are generally allocated to Internet Service Providers
and large networks, like a college or major hospital.
Class C: There is a total of
2,097,152 Class C networks available, with each network consisting of 255
individual IP addresses. This type of class is generally given to small to
mid-sized companies.
Class D: The IP addresses in this
class are reserved for a service called Multicast.
Class E: The IP addresses in this
class are reserved for experimental use.
Broadcast: This is the special
network of 255.255.255.255, and is used for broadcasting messages to the entire
network that your computer resides on.
Private Addresses
There are also blocks of IP
addresses that are set aside for internal private use for computers not
directly connected to the Internet. These IP addresses are not supposed to be
routed through the Internet, and most service providers will block the attempt
to do so. These IP addresses are used for internal use by company or home
networks that need to use TCP/IP but do not want to be directly visible on the
Internet. These IP ranges are:
Class
|
Private
Start Address
|
Private
End Address
|
A
|
10.0.0.0
|
10.255.255.255
|
B
|
172.16.0.0
|
172.31.255.255
|
C
|
192.168.0.0
|
192.168.255.255
|
If you are on a home/office private
network and want to use TCP/IP, you should assign your computers/devices IP
addresses from one of these three ranges. That way your router/firewall would
be the only device with a true IP address which makes your network more secure.
Common Problems and Resolutions
The most common problem people have
is by accident assigning an IP address to a device on your network that is
already assigned to another device. When this happens, the other computers will
not know which device should get the information, and you can experience
erratic behavior. On most operating systems and devices, if there are two
devices on the local network that have the same IP address, it will generally
give you a "IP Conflict" warning. If you see this warning, that means
that the device giving the warning, detected another device on the network
using the same address.
The best solution to avoid a problem
like this is to use a service called DHCP that almost all home routers provide.
DHCP, or Dynamic Host Configuration Protocol, is a service that assigns
addresses to devices and computers. You tell the DHCP server what range of IP
addresses you would like it to assign, and then the DHCP server takes the
responsibility of assigning those IP addresses to the various devices and
keeping track so those IP addresses are assigned only once.
Conclusion
IP addresses and their function on
the Internet is an important concept to understand. Hopefully with this
tutorial you will have a firmer grasp on this concept, which should help you
troubleshoot problems and bring a better understanding of how the Internet
works.
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