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DHCP
Dynamic Host Configuration Protocol
Dynamic Host Configuration Protocol
-- DHCP - Networking protocol
Obtains configuration information for operation in an Internet
Protocol network
Used by network devices
i.e. DHCP clients
Can reduce system administration workload
Allowing network to add devices with little or no manual
intervention
Can reduce the number of IP addresses required for a network
Dynamic Host Configuration Protocol
DHCP
Specifications:
RFC 1531 initially defined DHCP as a standard-track protocol
October 1993
Succeeded the Bootstrap Protocol (BOOTP)
RFC 2131 updated DHCP for Internet Protocol version 4
(IPv4) networks
released in 1997
RFC 3315 defined the extensions of DHCP for IPv6 (DHCPv6)
Technical overview
DHCP automates network-parameter assignment to network
devices
From one or more DHCP servers
DHCP makes it easy to add new machines to the network
Even for small networks
May reduce number of IP addresses required for an organization
E.g. laptops that may be off site don’t need an IP address
Technical overview
When a DHCP-configured client connects to a network:
computer or any other network-aware device
DHCP client sends a broadcast query requesting necessary
information from a DHCP server
DHCP server manages a pool of IP addresses and information about client
configuration parameters such as default gateway, domain name, the DNS
servers, other servers such as time servers, and so forth
DHCP server assigns the requesting computer:
an IP address
a lease (length of time the allocation is valid)
other IP configuration parameters, such as the subnet mask and the default
gateway
Query typically initiated immediately after booting
Must complete before the client can initiate IP-based
communication
Technical overview
Depending on implementation, the DHCP server may have
three methods of allocating IP-addresses:
dynamic allocation
automatic allocation
static allocation
Technical overview
Dynamic Allocation:
Network administrator:
Assigns a range of IP addresses available to DHCP
Client computers on the LAN:
IP software configured:
Request an IP address from the DHCP server
During network initialization
Request-and-grant process uses a lease concept
Has a controllable time period
Allows the DHCP server to reclaim (and later reallocate) IP addresses that are
not renewed
Dynamic re-use of IP addresses
Technical overview
Automatic Allocation:
DHCP server permanently assigns a free IP address to a requesting
client from the range defined by the administrator
Similar to dynamic allocation, except:
DHCP server keeps a table of past IP address assignments
Server can preferentially assign a client the same IP address that the client
previously had
Technical overview
Static Allocation:
DHCP server allocates an IP address based on a table
Contains MAC address/IP address pairs
Manually generated
E.g. by a network administrator
Only requesting clients with a MAC address listed in this table will
be allocated an IP address
This feature is variously called:
Static DHCP Assignment (DD-WRT)
Fixed-address (in the dhcpd documentation)
DHCP reservation or Static DHCP (Cisco/Linksys and Tomato)
IP reservation or MAC/IP binding (various other router manufacturers)
Note: not all routers support static allocation
Technical details
DHCP uses two ports:
67/udp for the server side
68/udp for the client side
same as the ports assigned by IANA for BOOTP
DHCP operations fall into four basic phases:
IP discovery
IP lease offer
IP request
IP lease acknowledgment
DHCP Discovery
Client broadcasts messages on the physical subnet to discover
available DHCP servers
Network administrators can configure a local router to forward
DHCP packets to a DHCP server on a different subnet
This client-implementation creates a User Datagram Protocol
(UDP) packet with the broadcast destination
255.255.255.255
or
Specific subnet broadcast address
DHCP Discovery
A DHCP client can also request its last-known IP address
If the client remains connected to a network for which this IP is
valid, the server might grant the request
Otherwise, it depends whether the server is set up as
authoritative or not
An authoritative server will deny the request
forcing the client ask for a new IP immediately
A non-authoritative server simply ignores the request
Leads to an implementation-dependent timeout for the client to give up
on the request and ask for a new IP address
DHCP offer
When a DHCP server receives an IP lease request from a client, it:
Reserves an IP address for the client
Extends an IP lease offer by sending a DHCPOFFER message to the
client containing:
the client's MAC address
the IP address that the server is offering
the subnet mask
the lease duration
the IP address of the DHCP server making the offer
Server determines the configuration based on the client's hardware
address as specified in the CHADDR (Client Hardware Address) field
Here the server, 192.168.1.1, specifies the IP address in the
YIADDR (Your IP Address) field
DHCP request
A client may receive DHCP offers from multiple servers
Will only accept one DHCP offer
Broadcast a DHCP request message for that offer
Based on the Transaction ID field in the request
Servers are informed whose offer the client has
accepted
When other DHCP servers receive this message
Withdraw any offers that they might have made to the client
Return the offered address to the pool of available addresses
DHCP acknowledgment
When the DHCP server receives the DHCPREQUEST message
from the client
Configuration processes enters its final phase
Acknowledgement phase involves sending a DHCPACK packet to the
client
Packet includes
lease duration
any other configuration information that the client might have requested
At this point, the IP configuration process is complete
After the client obtains an IP address
Client may use the Address Resolution Protocol (ARP) to prevent IP
conflicts caused by overlapping address pools of DHCP servers
DHCP information
A DHCP client may request more information than the
server sent with the original DHCPOFFER
The client may also request repeat data for a particular
application
For example, browsers use DHCP Inform to obtain web proxy settings via
WPAD
Such queries do not cause the DHCP server to refresh the IP
expiry time in its database
DHCP releasing
Client
Sends a request to the DHCP server to release the
DHCP information
Deactivates its IP address
Client devices usually do not know when users may
disconnect from the network
Protocol does not mandate the sending of DHCP
Release
Client configuration parameters
DHCP server can provide optional configuration parameters
to the client
RFC 2132 describes the available DHCP options
defined by Internet Assigned Numbers Authority (IANA)
DHCP and BOOTP PARAMETERS
DHCP client can select, manipulate and overwrite
parameters provided by a DHCP server
Options
Option exists to identify vendor and functionality of a DHCP
client
Variable-length string of characters or octets
Meaning specified by the vendor of the DHCP client
Vendor Class Identifier (VCI) (Option 60).
Method a DHCP client can utilize to communicate to the server that it is
using a certain type of hardware or firmware is to set a value in its DHCP
requests
Allows DHCP server to differentiate between the two kinds of client
machines
e.g. process requests from two types of modems appropriately
Some types of set-top boxes also set the VCI (Option 60) to inform
the DHCP server about the hardware type and functionality of the
device
Gives the DHCP server a hint about any required extra information that this
client needs in a DHCP response
DHCP Relaying
In small networks DHCP typically uses broadcasts
In some circumstances, unicast addresses will be used
For example: when networks have a single DHCP server that provides IP addresses for
multiple subnets
When a router for such a subnet receives a DHCP broadcast
it converts it to unicast
with a destination MAC/IP address of the configured DHCP server, source
MAC/IP of the router itself
GIADDR field of this modified request is populated with the IP address
of the router interface on which it received the original DHCP request
GIAADDR: Gateway address
DHCP server uses the GIADDR field to identify the subnet of the
originating device in order to select an IP address from the correct pool
DHCP server then sends the DHCP OFFER back to the router via
unicast
Router converts the DHCP OFFER back to a broadcast, sent out on the
interface of the original device
Security
DHCP protocol became a standard before network security became
a significant issue:
DHCP includes no security features
Potentially vulnerable to two types of attacks:
Unauthorized DHCP Servers:
Since one cannot specify the server you want:
o an unauthorized server can respond to client requests
o sending client network configuration values that are beneficial to the
attacker
As an example, a hacker can hijack the DHCP process to configure clients to
use a malicious DNS server or router
Unauthorized DHCP Clients:
By masquerading as a legitimate client, an unauthorized client can gain access
to network configuration and an IP address on a network it should otherwise
not be allowed to use
By flooding the DHCP server with requests for IP addresses
o it is possible for an attacker to exhaust the pool of available IP addresses
o disrupting normal network activity (a denial of service attack)
Security
RFC 3118 ("Authentication for DHCP Messages")
introduced authentication information into DHCP messages
Allows clients and servers to reject information from invalid
sources
Although support for this protocol is widespread:
Large numbers of clients and servers still do not fully support
authentication
Forces servers to support clients that do not support this feature
As a result, other security measures are usually implemented
around the DHCP server (such as IPsec)
Ensures that only authenticated clients and servers are granted access to
the network
Security
Addresses should be dynamically linked to a secure DNS server
Allows troubleshooting by name rather than by a potentially unknown
address
Effective DHCP-DNS linkage requires having a file of either MAC
addresses or local names that will be sent to DNS that uniquely
identifies physical hosts, IP addresses, and other parameters such as
the default gateway, subnet mask, and IP addresses of DNS servers
from a DHCP server
DHCP server ensures that all IP addresses are unique
i.e. no IP address are assigned to a second client while the first client's
assignment is valid (its lease has not expired)
IP address pool management is done by the server and not by a
network administrator
DHCP can:
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IP addresses required
in an organization
Ease the installation of
new computers
Assign gateway
addresses on clients
All of the above
None of the above
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