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Guide to TCP/IP Fourth Edition

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1 Guide to TCP/IP Fourth Edition
Chapter 7: IP Address Autoconfiguration

2 Objectives Explain the basic services that DHCP/DHCPv6 offers to its clients and explain its background Explain the specifics of IP/IPv6 address management using DHCP/DHCPv6 Explain the DHCP Discovery, renewal, and release processes Explain the basic DHCP/DHCPv6 packet structure and types of DHCP/DHCPv6 messages in use © 2013 Course Technology/Cengage Learning. All Rights Reserved.

3 Objective (cont'd.) Describe broadcast and unicast addressing for IPv4 as well as multicast addressing for IPv6 Describe relay agent communications for both IPv4 and IPv6 Discuss Microsoft DHCP scopes and classes IPv4 and differences in IPv6 scope configuration Use DHCP/DHCPv6 troubleshooting utilities © 2013 Course Technology/Cengage Learning. All Rights Reserved.

4 Understanding Autoaddressing
DHCP Considered the most common form of address autoconfiguration Automatic Private IP Addressing (APIPA) Introduced by Microsoft a few years after DHCP Requires no addressing servers DHCPv6 A more robust and controllable system for address autoconfiguration © 2013 Course Technology/Cengage Learning. All Rights Reserved.

5 Introducing Dynamic Host Configuration Protocol
DHCP Service that provides a way for client computer to request IP address assignment Delivers necessary configuration information to clients Traces its origins back to an earlier protocol named BOOTP Servers can manage one or more ranges of IP addresses © 2013 Course Technology/Cengage Learning. All Rights Reserved.

6 How DHCP Works When TCP/IP is configured on client computer
The Obtain an IP address automatically option is the only necessary set-up element Next time workstation attempts to access network It broadcasts a DHCP address request to the network because it has no IP address All DHCP servers present on same broadcast domain Receive request and send back message that indicates a willingness to grant an address lease © 2013 Course Technology/Cengage Learning. All Rights Reserved.

7 How DHCP Works (cont'd.) Client In reply
Accepts address lease offer and sends packet to server that extended offer In reply Server proffers an IP address for a specific period of time that the client uses thereafter When half the lease period expires Client attempts to renew the lease © 2013 Course Technology/Cengage Learning. All Rights Reserved.

8 © 2013 Course Technology/Cengage Learning. All Rights Reserved.

9 Role of Leases Leases Leases that range from one to three weeks
“Loans” of an address for a specific amount of time Leases that range from one to three weeks Typical on networks in which machines seldom move and the workforce is stable Lease periods Average between one and three days for networks on which roving workers come and go regularly Lease periods of four to eight hours Common on ISP networks © 2013 Course Technology/Cengage Learning. All Rights Reserved.

10 DHCP Software Elements
DHCP client Enabled at client machine when you select the Obtain an IP address automatically option DHCP server Manages address pools and configuration data DHCP relay agent Intercepts address requests on local cable segment Repackages requests as a unicast to one or more DHCP servers © 2013 Course Technology/Cengage Learning. All Rights Reserved.

11 DHCP Lease Types Manual address lease Dynamic address lease
Administrator assigns an IP address manually Dynamic address lease DHCP server assigns addresses for specific periods of time © 2013 Course Technology/Cengage Learning. All Rights Reserved.

12 More About DHCP Leases How DHCP integrates with DNS
Server addresses are advertised using DNS All address updates must be entered manually Client addresses usually come into play only when: addresses of the form must be resolved © 2013 Course Technology/Cengage Learning. All Rights Reserved.

13 IPv4 Autoconfiguration
Two types of IPv4 address autoconfiguration mechanisms DHCP Automatic Private IP Addressing (APIPA) © 2013 Course Technology/Cengage Learning. All Rights Reserved.

14 Automatic Private IP Addressing (APIPA)
Dynamic configuration of IPv4 link-local addresses Address block /16 Reserved for this use Used by interfaces as a failover mechanism to self-assign an IPv4 address APIPA address will not allow routed communications to hosts on other networks © 2013 Course Technology/Cengage Learning. All Rights Reserved.

15 Understanding IP Address Management with DHCP
DHCP Discovery Occurs when DHCP client broadcasts a request for an IP address Relies on an initial DHCP broadcast DHCP servers PING an address before offering it to the client Windows clustering Allows two or more servers to be managed as a single system © 2013 Course Technology/Cengage Learning. All Rights Reserved.

16 DHCP Address Discovery
Uses four packets DHCP Discover packet DHCP Offer packet DHCP Request packet DHCP Acknowledgment packet © 2013 Course Technology/Cengage Learning. All Rights Reserved.

17 DHCP Address Discovery (cont’d.)
© 2013 Course Technology/Cengage Learning. All Rights Reserved.

18 Discover Packet During DHCP Discovery process Preferred address
Client broadcasts Discover packet that identifies client’s hardware address Header contains Source IP address Preferred address Typically the last address the client used © 2013 Course Technology/Cengage Learning. All Rights Reserved.

19 Offer Packet Send by DHCP server to offer IP address to DHCP client
Includes IP address that is offered to the client Sometimes, answers to the requested options in the DHCP Discover packet © 2013 Course Technology/Cengage Learning. All Rights Reserved.

20 © 2013 Course Technology/Cengage Learning. All Rights Reserved.

21 Request Packet Once Offer packet is received Typically
Client can either accept offer by issuing a DHCP Request packet, or Reject offer by sending a DHCP Decline packet Typically Client sends a Decline only if it receives more than one Offer © 2013 Course Technology/Cengage Learning. All Rights Reserved.

22 Acknowledgment Packet
Sent from server to client to indicate the completion of the four-packet DHCP Discovery process Response Contains answers to any configuration options requested by client in the previous Request packet © 2013 Course Technology/Cengage Learning. All Rights Reserved.

23 Address Renewal Process
When DHCP client receives an address from a DHCP server Client also receives a lease time and notes the time that the address was received Lease time Defines how long the client can keep the address In middle of the lease period Client starts a renewal process © 2013 Course Technology/Cengage Learning. All Rights Reserved.

24 Renewal Time (T1) T1 The Renewal packet Default value for T1
Defined as the time that the client tries to renew its network address The Renewal packet Is unicast directly to the DHCP server Default value for T1 0.5 * duration_of_lease (i.e., lease time) © 2013 Course Technology/Cengage Learning. All Rights Reserved.

25 Rebinding Time (T2) Time that client begins to:
Broadcast a renewal request for an extended lease time from another DHCP server DHCP specification, RFC 2131, defines default value for T2 as 0.875 * duration_of_lease © 2013 Course Technology/Cengage Learning. All Rights Reserved.

26 Rebinding Time (T2) (cont’d.)
© 2013 Course Technology/Cengage Learning. All Rights Reserved.

27 Rebinding Time (T2) (cont’d.)
© 2013 Course Technology/Cengage Learning. All Rights Reserved.

28 DHCP Address Release Process
Client should release its address by Sending a DHCP Release packet to the server DHCP Release packet Sent over UDP DHCP server does not send any acknowledgment If client does not send the DHCP Release packet: DHCP server automatically releases the address at the lease expiration time © 2013 Course Technology/Cengage Learning. All Rights Reserved.

29 DHCP Packet Structures
Fields Operation Code (OPCODE) or Message Type Field Hardware Type Field Hardware Length Field Hops Field Transaction ID Number Field Seconds Since Boot or Seconds Elapsed Field Flags Field © 2013 Course Technology/Cengage Learning. All Rights Reserved.

30 DHCP Packet Structures (cont'd.)
Fields Client IP Address Field Your IP Address Field Server IP Address Field Gateway or Relay Agent IP Address Field Client Hardware Address Field Server Host Name Field Boot File Field DHCP Option field © 2013 Course Technology/Cengage Learning. All Rights Reserved.

31 © 2013 Course Technology/Cengage Learning. All Rights Reserved.

32 DHCP Option 53: Message Type
Only DHCP option required in all DHCP packets Indicates general purpose of any DHCP message DHCP boot sequence uses these message types: DHCP Message Type 1: Discover (client to server) DHCP Message Type 2: Offer (server to client) DHCP Message Type 3: Request (client to server) DHCP Message Type 5: ACK (server to client) © 2013 Course Technology/Cengage Learning. All Rights Reserved.

33 DHCP Option 53: Message Type (cont’d.)
© 2013 Course Technology/Cengage Learning. All Rights Reserved.

34 Broadcast and Unicast in DHCP
DHCP clients Must broadcast service requests until they obtain IP addresses Use unicast addressing after they obtain an address for a local DHCP server or relay agent DHCP servers Examine DHCP packets coming from clients © 2013 Course Technology/Cengage Learning. All Rights Reserved.

35 Broadcast and Unicast in DHCP (cont’d.)
© 2013 Course Technology/Cengage Learning. All Rights Reserved.

36 Communications with a DHCP Relay Agent
DHCP boot up process Relies heavily on broadcasts, but most routers do not forward broadcasts Relay agent function Typically loaded on a router connected to the segment containing DHCP clients Relay agent device Configured with the address of the DHCP server Can communicate using unicast packets directly with that server © 2013 Course Technology/Cengage Learning. All Rights Reserved.

37 Communications with a DHCP Relay Agent (cont’d.)
© 2013 Course Technology/Cengage Learning. All Rights Reserved.

38 © 2013 Course Technology/Cengage Learning. All Rights Reserved.

39 IPv6 Autoconfiguration
Two basic approaches to IPv6 autoconfiguration Stateless autoconfiguration Simply presents required router configuration information to all comers Stateful autoconfiguration DHCPv6 server must maintain awareness of the status or state of its pool of available addresses © 2013 Course Technology/Cengage Learning. All Rights Reserved.

40 Types of IPv6 Autoconfiguration
Stateless address autoconfiguration ND protocol allows routers to be configured to present the minimum information a host needs when joining a network link Stateful address autoconfiguration DHCPv6 is much like DHCPv4 under IPv4 Both rely on dedicated servers to hold databases of information about hosts and their IP and other configuration parameters © 2013 Course Technology/Cengage Learning. All Rights Reserved.

41 Types of IPv6 Autoconfiguration (cont’d.)
Combination of stateful and stateless address autoconfiguration Referenced as DHCPv6 stateless Routers on the local link can be configured to provide pointers to DHCPv6 servers Router provides the network prefix, and DHCPv6 server provides the DNS server information © 2013 Course Technology/Cengage Learning. All Rights Reserved.

42 Functional States of an IPv6 Autoconfigured Address
Tentative addresses Occur as a node initializes an interface on an IPv6 network segment or link Valid addresses Usable based on the Valid Lifetime field in the Prefix Information option of an RA or the Valid Lifetime field in the DHCPv6 IA Address option Preferred addresses Usable based on the Preferred Lifetime field in the Prefix Information option of an RA or the Preferred Lifetime field in the DHCPv6 IA Address option © 2013 Course Technology/Cengage Learning. All Rights Reserved.

43 Functional States of an IPv6 Autoconfigured Address (cont’d.)
Deprecated addresses Allow nodes to continue to function while they renew the lease on their addresses Invalid addresses Cannot be used as either the source or destination address when the valid lifetime expires © 2013 Course Technology/Cengage Learning. All Rights Reserved.

44 Node Interface Identifiers
Node interface identifiers (IDs) Used to ensure that the IPv6 address is unique among all other IPv6 addresses Generally 64 bits long Three most common sources Modified EUI-64 format Random number generator to create a 64-bit number Cryptographically Generated Addresses (CGA) process © 2013 Course Technology/Cengage Learning. All Rights Reserved.

45 Node Interface Identifiers (cont’d.)
© 2013 Course Technology/Cengage Learning. All Rights Reserved.

46 Node Interface Identifiers (cont’d.)
RFC 4941 Node using SLAAC will compute an additional IPv6 address known as the “temporary” address Temporary address Assigned “preferred” status Used for all outbound communications from the node © 2013 Course Technology/Cengage Learning. All Rights Reserved.

47 DHCPv6 DHCPv6 DHCPv6 uses two specific multicast addresses:
Defined in RFC 3315 Uses UDP ports 546 and 547 DHCPv6 uses two specific multicast addresses: FF02::1:2 FF05::1:3 DHCP Unique Identifier (DUID) methods DUID-LLT DUID-EN DUID-LL © 2013 Course Technology/Cengage Learning. All Rights Reserved.

48 DHCPv6 (cont’d.) Numerous DHCPv6 message types
Occur between nodes, servers, and relay agents DHCPv6 Stateful Message Exchange Host sends a Router Solicitation Router replies with a Router Advertisement Host sends a Solicit message DHCPv6 server replies with an Advertise message Host sends a Request message DHCPv6 server sends the host a Reply message with an IPv6 address © 2013 Course Technology/Cengage Learning. All Rights Reserved.

49 DHCPv6 (cont’d.) DHCPv6 Stateless Message Exchange
Host sends a Router Solicitation Router replies with a Router Advertisement Host sends an Information-Request message DHCPv6 server sends the host a Reply message with the other available configuration options DHCPv6 Relay Message Exchange Host sends a Solicit message © 2013 Course Technology/Cengage Learning. All Rights Reserved.

50 DHCPv6 (cont’d.) DHCPv6 Relay Message Exchange (cont’d.)
Router relay-forwards Solicit message to server DHCPv6 server relay-replies router with an Advertise message Router replies with Advertise message to the host Host sends a Request message Router relay-forwards Request message to server DHCPv6 server relay-replies router with a Reply message with IPv6 address and other options Router replies with the Reply message to the host © 2013 Course Technology/Cengage Learning. All Rights Reserved.

51 IPv6 Autoconfiguration Process
Basic steps Node creates an interface ID FE80:: is prepended to the interface ID Node sends NS message with its link-local address as the destination If an NA is not received, then the address is considered unique Host sends an RS to the all-routers multicast address FF02::2 If an RA is not received, the host starts the stateful autoconfiguration process © 2013 Course Technology/Cengage Learning. All Rights Reserved.

52 IPv6 Autoconfiguration Process (cont’d.)
Basic steps (cont’d.) If an RA is received, host examines the RA message looking for variables and flags If L flag is set to “on,” host adds the network prefix to its prefix cache If A flag is set to “on,” then two IPv6 addresses are created Host sends an NS message with its global unicast address as the destination If an NA is not received, the address is considered unique © 2013 Course Technology/Cengage Learning. All Rights Reserved.

53 IPv6 Autoconfiguration Process (cont’d.)
Basic steps (cont’d.) If M flag is set to “on,” start the stateful autoconfiguration process If O flag is set to “on,” start the stateful autoconfiguration process © 2013 Course Technology/Cengage Learning. All Rights Reserved.

54 Autoconfiguration in Microsoft Windows Operating Systems
Basic guidelines: Link-local address will be generated using a RNG If A flag is set to “on” in an RA, the global unicast address will be generated If A flag is set to “on” in an RA, a temporary global unicast address will be generated OS sends the RS to find any on-link routers If no RAs are received, OS starts stateful address process Manually configuring an IPv6 address does not disable IPv6 address autoconfiguration © 2013 Course Technology/Cengage Learning. All Rights Reserved.

55 Microsoft Windows Server 2008 DHCP Scopes
Address scopes Define a set of addresses that a DHCP server can assign to clients Superscopes A collection of scopes that contain sets of non-consecutive IP addresses © 2013 Course Technology/Cengage Learning. All Rights Reserved.

56 Setting Up A Simple DHCP Server
Source of information D-Link Xtreme N Gigabit Router (model number DIR-655) © 2013 Course Technology/Cengage Learning. All Rights Reserved.

57 © 2013 Course Technology/Cengage Learning. All Rights Reserved.

58 © 2013 Course Technology/Cengage Learning. All Rights Reserved.

59 Troubleshooting DHCP One good way to troubleshoot DHCP/DHCPv6 Analyzer
Use a protocol analyzer, such as Wireshark Analyzer Can display the sequence of messages that occurs on a network Commands to release and/or renew an IP address ipconfig /release ipconfig /renew ipconfig /release6 ipconfig /renew6 © 2013 Course Technology/Cengage Learning. All Rights Reserved.

60 © 2013 Course Technology/Cengage Learning. All Rights Reserved.

61 Summary DHCP From the administrative side DHCP’s origins
Provides a way for computers to obtain usable, unique IP addresses and necessary TCP/IP configurations From the administrative side DHCP makes it easy to define and manage pools of IP addresses DHCP’s origins Lie in an earlier TCP/IP Application layer protocol, called BOOTP © 2013 Course Technology/Cengage Learning. All Rights Reserved.

62 Summary (cont'd.) DHCP When a DHCP client starts
Supports manual or dynamic address allocation When a DHCP client starts It begins the process of DHCP Discovery, during which the client receives an IP address and lease Supports a variety of message types and options Only MessageType 53 (DHCP Message) is mandatory for any given DHCP message © 2013 Course Technology/Cengage Learning. All Rights Reserved.

63 Summary (cont'd.) Because DHCP can ferry a surprisingly large range of configuration information The protocol makes use of several message options A protocol analyzer is especially effective when diagnosing DHCP/DHCPv6 difficulties Clients supporting IPv6 have new operations for address autoconfiguration DHCPv6 operates much like DHCP for IPv4 DHCPv6 is a completely new service, compared to DHCP’s origins © 2013 Course Technology/Cengage Learning. All Rights Reserved.


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