One document matched: draft-ietf-dhc-ipv4-autoconfig-01.txt
Differences from draft-ietf-dhc-ipv4-autoconfig-00.txt
Internet Draft: DHC-IPV4-AUTOCONFIG R. Troll
Document: draft-ietf-dhc-ipv4-autoconfig-01.txt October 1998
Expires: April 1999
Automaticly Choosing an IP Address in an Ad-Hoc IPv4 Network
<draft-ietf-dhc-ipv4-autoconfig-01.txt>
Status of this memo
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Abstract
With operating systems appearing in more and more devices, as well
as computers appearing in more and more aspects of everyday life,
communication between networked devices is increasingly important.
The communication mechanism between these devices must be able to
not only support the office LAN environment, but must also scale to
larger WANS and the internet.
This draft describes a method by which a host may automaticly give
itself a link-local IPv4 address, so that it will be able to use IP
applications in the absence of an IP address management mechanism,
such as DHCP. This mechanism is in use today by a few operating
systems, and additional information on those implementations is
also provided.
1. Introduction
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Now that networked applications are becoming more prevalent,
operating systems are migrating towards more scalable network
protocols such as IP, allowing them to work in all sizes of
environments. However, there is a price to pay for this migration
-- IP requires configuration that other protocols (IPX, Appletalk)
do not require.
Dynamic creation of usable ad-hoc networks is very useful when
there are only a few machines on the entire network. (For example,
a dentist's office may only have a couple of machines.) In order
to allow a site such as this to use IP, the machines must each be
configured with an IP address. OS's wish to retain the minimal
configuration that was necessary under their non-IP network stacks.
Dynamic configuration protocols such as DHCP [DHCP] allow a site
administrator to take care of the network configuration for a
machine remotely. By requesting network parameters via DHCP, the
site administrator may provide all information necessary without
the host's owner having to do anything. However, not all sites
have a central administrator to take care of this.
To accommodate unmanaged networks, the OS may decide to
intelligently choose an IP address for itself. These addresses are
only valid for the local network.
This document describes a method by which an OS may determine
whether or not to autoconfigure itself an IP address, as well as
how to inter-operate cleanly with an existing managed
infrastructure, allowing a host to easily move between managed and
unmanaged network segments.
1.1 Conventions Used in the Document
The key words "MUST", "MUST NOT", "SHOULD", "SHOULD NOT", and "MAY"
in this document are to be interpreted as defined in "Key Words for
Use in RFCs to Indicate Requirement Levels" [KEYWORDS]
1.2 Terminology
Site Administrator
A Site Administrator is the person or
organization responsible for handing out IP
addresses to client machines.
DHCP Client A DHCP Client is an Internet host using DHCP to
obtain configuration parameters such as a
network address.
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DHCP Server A DHCP Server is an Internet host that returns
configuration parameters to DHCP Clients.
1.3 Usage Clarification
This document describes a method by which a host may automaticly
choose an IPv4 address in the absence of a central service to
maintain and hand out addresses. This is not designed to replace
this functionality, but to basicly provide it in small networks.
This SHOULD not be used for large-scale networks. As more and more
machines begin to use this mechanism on a network, startup times
for these machines will begin to decrease, as the chance of
collisions will rise.
Addresses allocated by this mechanism MUST NOT be routed by any
network device. The addresses are designed to be link local
addresses. Link local address are to be, by definition, restricted
to the local network segment. Allocation of link-local addresses
in an IPv6 network is described in [IPv6SAC].
2. To Choose or Not To Choose
The first thing an Internet host should do is request an IP address
via DHCP [DHCP]. This is done by sending out a DHCPDISCOVER
message, with various tags set indicating what options the DHCP
Client would like to receive information for [DHCPOPT]. The DHCP
Client SHOULD also send the DHCP AutoConfigure option described in
[DHCPAC].
According to [DHCP], Section 4.4.1, the amount of time over which a
DHCP Client should listen for DHCPOFFERS is implementation
dependant. During this time, if a DHCPOFFER is received, network
configuration MUST occur as described in [DHCP] and [DHCPAC].
If, during this time, no valid DHCPOFFERS are received, the DHCP
Client is free to autoconfigure an IP address according to section
3 of this document.
2.1 Rebinding an Existing IP Address
If the DHCP Client already has an existing IP address, it MUST
follow the instructions outlined in [DHCP]. If the client winds up
back in the INIT state, refer to section 2 of this document.
3. Choosing an IP Address
Once a DHCP Client has determined it must auto-configure an IP
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address, it chooses an address. The algorithm for choosing an
address is implementation dependant. The address range to use MUST
be "169.254/16", which is registered with the IANA as the LINKLOCAL
net.
If choosing an address in this range, the DHCP Client MUST not use
the first 256 or the last 256, as these are reserved for future
use.
When an address is chosen, the DHCP Client MUST test to see if the
address is already in use. If the network address appears to be in
use, the client MUST choose another address, and try again. The
client MUST keep choosing addresses until it either finds one, or
it has tried more then the autoconfig-retry count. The
autoconfig-retry count is implementation specific, and should be
based on the algorithm used for choosing an IP address. This retry
count is present to make sure that DHCP Clients auto-configuring on
busy auto-configured network segments do not loop infinitely
looking for an IP address.
3.1 Determining Whether or Not an Address is in Use
If the client is on a network that supports ARP, the client may
issue an ARP request for the suggested address. When broadcasting
an ARP request for the suggested address, the client MUST fill in
its own hardware address as the sender's hardware address, and all
0s as the sender's IP address, to avoid confusing ARP caches in
other hosts on the same subnet. This ARP request with a sender IP
address of all 0s is referred to as an "ARP probe".
While waiting for a possible response to this request, the client
MUST also listen for other ARP probes for the same address (but not
from its own hardware address). This will occur if two (or more)
hosts are attempting to autoconfigure the exact same address. If
the client receives a response to the ARP request, or sees another
ARP probe for the same address, it MUST consider the address as
being in use, and move on.
4. Ongoing Checks for a DHCP Server
When the client originally sent out it's request, there may have
been a network problem stopping the DHCP Server from responding.
To make sure this is not the case, a DHCP Client with an auto-
configured IP address MUST keep checking for an active DHCP Server.
To do this, the DHCP Client MUST attempt to fetch an IP address as
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described in section 1 of this document.
When rechecking, when the DHCP Client has determined no DHCP Server
is responding, it MUST wait a period of time and try again. For
Ethernet implementations, the DHCP Client SHOULD check every 5
minutes.
If the DHCP Client receives a response from a DHCP Server, it MUST
respond and attempt to obtain a lease from the server (per the DHCP
specification). If the client is successful in obtaining a new
lease, and the internet host does not support multiple addresses on
the interface being configured, it MUST drop any existing auto-
configured IP address, and all active connections, while moving to
the new address. If the internet host does support multiple
addresses on the interface, it MAY keep the auto-configured address
active.
If the DHCP response is an AutoConfigure [DHCPAC] response set to
"DoNOTAutoConfigure", the host MUST drop all connections, give up
any existing auto-configured IP address, and continue checking for
a DHCP server.
5. Current Vendor Implementations
As of this writing, Microsoft and Apple have operating systems that
contain this functionality. Descriptions of the implementation
dependant parts are listed below.
5.1. Microsoft Windows 98
With the initial release of Windows 98, Microsoft introduced auto-
configuration functionality. When developed, the AutoConfig
[DHCPAC] specification did not exist, so the initial release does
not contain this functionality.
The Win98 DHCP Client sends out a total of 4 DHCPDISCOVERs, with an
inter-packet interval of 6 seconds. When no response is received
after all 4 packets (24 seconds), it will auto-configure an
address.
The auto-configure retry count for Windows 98 is 10. After trying
10 auto-configured IP addresses, and finding all are taken, the
host will boot without an IP address.
5.2. Apple MacOS 8.5
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MacOS 8.5 sends three DHCPDISCOVER packets, with timeouts of 4, 8,
and then 16 seconds. When no response is received from all of
these requests (28 seconds), it will auto-configure.
The auto-configure retry count for MacOS 8.5 is 10. After trying
10 auto-configured IP addresses, and finding all are taken, the
host will boot without an IP address.
6. Security Considerations
The use of this functionality may open a network host to new Denial
Of Service (DOS) attacks. In particular, a host that previously
did not have an IP address, and no IP stack running, was not
succeptable to IP based DOS attacks, as there was no IP stack
configured to interpret these packets.
However, the addition of this functionality to an OS may cause IP
stacks to be capable of receiving and interpreting information that
the host was not previously configured to receive. As this how is
now interpreting IP communications, it is now open to IP based DOS
attacks.
Another security concern is the DOS attack that may be made on the
local subnet which stops all machines from being able to allocate
an IP address. A malicious host on the local wire may listen for
ARP probes, and respond with it's own ARP probe. This will stop
the auto-configuring machine from using that address, and it will
move on to the next one. Eventually, it will run out of addresses
to attempt, and will give up. The use of DHCP removes this attack,
leaving only the concerns described in [DHCP].
Finally, machines that rely on this for communication over a large
network may allocate the same address if the network itself is
segmented when the machines boot. If the link between two machines
is down when they boot, they may both auto-configure the same
address. However, when the network link returns, there will be
numerous problems (ARP caches, etc.) There is currently no way to
solve this auto-configuration problem without causing all hosts
involved to re-autoconfigure IP addresses. The use of DHCP to
configure hosts on a subnet will solve this, and hosts that
implement this configuration mechanism will behave appropriately on
a DHCP managed network in which the DHCP server is not initially
available.
7. Acknowledgments
I'd like to thank Microsoft and Apple for their help in writing
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this document.
8. Copyright
Copyright (C) The Internet Society 1998. All Rights Reserved.
This document and translations of it may be copied and furnished to
others, and derivative works that comment on or otherwise explain
it or assist in its implementation may be prepared, copied,
published and distributed, in whole or in part, without restriction
of any kind, provided that the above copyright notice and this
paragraph are included on all such copies and derivative works.
However, this document itself may not be modified in any way, such
as by removing the copyright notice or references to the Internet
Society or other Internet organizations, except as needed for the
purpose of developing Internet standards in which case the
procedures for copyrights defined in the Internet Standards process
must be followed, or as required to translate it into languages
other than English.
The limited permissions granted above are perpetual and will not be
revoked by the Internet Society or its successors or assigns.
This document and the information contained herein is provided on
an "AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET
ENGINEERING TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF
THE INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED
WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
9. References
[DHCP] Droms, R. "Dynamic Host Configuration Protocol", RFC 2131,
Bucknell University, March 1997.
<ftp://ds.internic.net/rfc/rfc2131.txt>
[DHCPOPT] Alexander, S. and Droms, R., "DHCP Options and BOOTP
Vendor Extension", RFC 2132, March 1997.
<ftp://ds.internic.net/rfc/rfc2132.txt>
[KEYWORDS] Bradner, "Key words for use in RFCs to Indicate
Requirement Levels", RFC 2119, Harvard University, March 1997.
<ftp://ds.internic.net/rfc/rfc2119.txt>
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[IPv6SAC] Thomson, S. and Narten, T. "IPv6 Stateless Address
Autoconfiguration", RFC 1971, August 1996
<ftp://ds.internic.net/rfc/rfc1971.txt>
[DHCPAC] Troll, R. "DHCP Option to Disable Stateless Auto-
Configuration in IPv4 Clients", RFC XXXXX, November 1998
<ftp://ds.internic.net/rfc/rfcXXXXX.txt>
10. Author's Address
Ryan Troll
Network Development
Carnegie Mellon
5000 Forbes Avenue
Pittsburgh, PA 15213
Phone: (412) 268-8691
EMail: ryan@andrew.cmu.edu
This document will expire April 1999
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