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In Internet terminology, a private network is typically a network that uses private IP address space, following the standards set by RFC 1918 and RFC 4193. These addresses are common in home and office local area networks
(LANs), as using globally routable addresses is seen as impractical or
unnecessary. Private IP addresses were originally created due to the
shortage of publicly registered IP addresses created by the IPv4 standard, but are also a feature of the next generation Internet Protocol, IPv6.
These addresses are private because they are not globally assigned,
meaning they aren't allocated to a specific organization--instead, any
organization needing private address space can use these addresses
without needing approval from a regional Internet registry (RIR). Consequently, they are not routable on the public Internet, meaning that if such a private network wishes to connect to the Internet, it must use either a Network Address Translation (NAT) gateway, or a proxy server.
The most common use of these addresses is in home networks, since most Internet Service Providers
(ISPs) only allocate a single IP address to each customer, but many
homes have more than one networking device (for example, several
computers, or a printer). In this situation, a NAT gateway is almost
always used to provide Internet connectivity. They are also commonly
used in corporate networks, which for security reasons, are not
connected directly to the internet, meaning globally routable addresses
are unnecessary. Often a proxy, SOCKS
gateway, or similar is used to provide restricted internet access to
internal users. In both cases, private addresses are seen as adding
security to the internal network, since it's impossible for an Internet
host to connect directly to an internal system.
Because many internal networks use the same private IP addresses, a
common problem when trying to merge two such networks (e.g. during a
company merger or takeover) is that both organizations have allocated
the same IPs in their networks. In this case, either one network must
renumber, often a difficult and time-consuming task, or a NAT router
must be placed between the networks to translate one network's
addresses before they can reach the other side.
It is not uncommon for private address space to "leak" onto the
Internet in various ways. Poorly configured private networks often
attempt reverse DNS lookups for these addresses, putting extra load on the Internet's root nameservers. The AS112 project mitigates this load by providing special "blackhole" anycast
nameservers for private addresses which only return "not found" answers
for these queries. Organizational edge routers are usually configured
to drop ingress IP traffic for these networks, which can occur either
by accident, or from malicious traffic using a spoofed source address.
Less commonly, ISP edge routers will drop such ingress traffic from
customers, which reduces the impact to the Internet of such
misconfigured or malicious hosts on the customer's network.
A common misconception is that these addresses are not routable. While not routable on the public Internet, they are routable within an organization or site.
The Internet Engineering Task Force (IETF) has directed IANA to reserve the following IPv4 address ranges for private networks, as published in RFC 1918:
| RFC1918 name |
IP address range |
number of addresses |
classful description |
largest CIDR block (subnet mask) |
host id size |
| 24-bit block |
10.0.0.0 – 10.255.255.255 |
16,777,216 |
single class A |
10.0.0.0/8 (255.0.0.0) |
24 bits |
| 20-bit block |
172.16.0.0 – 172.31.255.255 |
1,048,576 |
16 contiguous class Bs |
172.16.0.0/12 (255.240.0.0) |
20 bits |
| 16-bit block |
192.168.0.0 – 192.168.255.255 |
65,536 |
256 contiguous class Cs |
192.168.0.0/16 (255.255.0.0) |
16 bits |
Note that classful addressing
is obsolete and no longer used on the Internet. For example, while
10.0.0.0/8 would be a single class A network, it is not uncommon for
organisations to divide it into smaller /16 or /24 networks.
[edit] Link-local addresses
A second set of private networks is the link-local address range codified in RFC 3330 and RFC 3927. The intention behind these RFCs is to provide an IP address (and by implication, network connectivity) without a DHCP
server being available and without having to configure a network
address manually. The network 169.254/16 has been reserved for this
purpose. Within this address range, the networks 169.254.0.0/24 and
169.254.255.0/24 have been set aside for future use.
If a host on an IEEE 802 (ethernet) network cannot obtain a network address via DHCP, an address from 169.254.0.0 to 169.254.255.255 is assigned pseudorandomly. The standard prescribes that address collisions must be handled gracefully.
Link-local addresses have even more restrictive rules than the private network addresses defined in RFC 1918: packets to or from link-local addresses must not be allowed to pass through a router at all (RFC 3927, section 7).
[edit] Private networks and IPv6
The concept of private networks and special addresses for such networks has been carried over to the next generation of the Internet Protocol, IPv6.
The address block fc00::/7 has been reserved by IANA as described in RFC 4193. These addresses are called Unique Local Addresses (ULA). They are defined as being unicast
in character and contain a 40-bit random number in the routing prefix
to prevent collisions when two private networks are interconnected.
Despite being inherently local in usage, the IPv6 address scope of unique local addresses is global (cf. IPv6, section "Address Scopes").
A former standard proposed the use of so-called "site-local"
addresses in the fec0::/10 range, but due to major concerns about
scalability and the poor definition of what constitutes a site, its use has been deprecated since September 2004 by RFC 3879.
[edit] Private use of other reserved addresses
Several other address ranges, in addition to the official private
ranges, are reserved for other or future uses, including 1.0.0.0/8 and
2.0.0.0/8[1].
Though discouraged, some enterprises have begun to use this address
space internally for interconnecting private networks to eliminate the
chance of address conflicts when using standards-based private ranges.[citation needed]
IANA has stated that it will, eventually, allocate these ranges to the Regional Internet Registries and thus significant addressing problem might be encountered in the future due to non-standard use of reserved blocks.
[edit] RFC References
- RFC 1918 – "Address Allocation for Private Internets"
- RFC 2036 – ""Observations on the use of Components of the Class A Address Space within the Internet."
- RFC 2050 – ""Internet Registry IP Allocation Guidelines""
- RFC 2101 – ""IPv4 Address Behaviour Today.""
- RFC 2663 – ""IP Network Address Translator (NAT) Terminology and Considerations."
- RFC 3022 – ""Traditional IP Network Address Translator (Traditional NAT)""
- RFC 3330 – ""Special-Use IPv4 Addresses. IANA. September 2002::
- RFC 3879 – "Deprecating Site Local Addresses"
- RFC 3927 – "Dynamic Configuration of IPv4 Link-Local Addresses"
- RFC 4193 – "Unique Local IPv6 Unicast Addresses"
[edit] References
- ^ Internet Protocol v4 Address Space
[edit] External links
posted on 2009-07-03 11:20
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