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Explore the features and operations of Mobile IPv6, including basic operations, security, and a comparison with Mobile IPv4.
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Mobility Support in IPv6(MIPv6) Chun-Chuan Yang Dept. Computer Science & Info. Eng. National Chi Nan University Jan. 29, 2008
Outline • Introduction to Mobile Networking • Background: MIPv4 • MIPv6 Features • MIPv6 Basic Operations • MIPv6 Security • MIPv6 vs. MIPv4
Mobile Networking • Wireless devices offering IP connectivity • PDA, handhelds, digital cellular phones, etc. • Mobile networking • Computing activities are not disrupted when the user changes the computer’s point of attachment to the Internet • All the needed reconnection occurs automatically and non-interactively • Technical obstacles • Internet Protocol (IP) routing scheme • Security concerns
Nomadicity (1) • How mobility affects the protocol stack
Nomadicity (2) • Layer 2 (data link layer) • Collision detection collision avoidance • Dynamic range of the signals is very large, so that a transmitting station cannot effectively distinguish incoming weak signals from noise and the effects of its own transmissions • Cell size (frequency reuse) • Layer 3 (network layer) • Changing the routing of datagrams destined for the mobile nodes
Nomadicity (3) • Layer 4 (transport layer) • Congestion control is based on packet loss • However, packet loss congestion? • Other reasons for packet loss • Noisy wireless channel, During handoff process • Top layer (application layer) • Automatic configuration • Service discovery • Link awareness adaptability • Environment awareness
Mobile IPv4 (1) • Basic idea • New IP address associated with the new point of attachment is required • Two IP addresses for mobile node • Home address: static • Care-of address: topologically significant address • Home network, home agent • Foreign network, foreign agent
Mobile IPv4 (2) • Three Mobile IP mechanisms • 1. Discovering the care-of address • 2. Registering the care-of address • 3. Tunneling to the care-of address
Mobile IPv4 (3) • 1. Discovery • Extension of ICMP Router Advertisement • Home agents and foreign agents broadcast agent advertisements at regular intervals • Agent advertisement • Allows for the detection of mobility agents • Lists one or more available care-of addresses • Informs the mobile node about special features • Mobile node selects its care-of address • Mobile node checks whether the agent is a home agent or foreign agent • Mobile node issues an ICMP router solicitation message
Mobile IPv4 (4) • 2. Registration • Once a mobile node has a care-of address, its home agent must find out about it
Mobile IPv4 (5) • 3. Tunneling Tunneling
Mobile IPv4 (6) Registration request Message Registration reply Message
Mobile IPv6 Features (1) • IPv6 Mobility is based on core features of IPv6 • The base IPv6 was designed to support Mobility • Mobility is not an “Add-on” features • All IPv6 Networks are IPv6-Mobile Ready • All IPv6 nodes are IPv6-Mobile Ready • All IPv6 LANs/Subnets are IPv6 Mobile Ready • IPv6 Neighbor Discovery and Address Autoconfiguration allow hosts to operate in any location without any special support
Mobile IPv6 Features (2) • No Foreign Agent • In a Mobile IP, an MN registers to a foreign node and borrows its’ address to build an IP tunnel so that the HA can deliver the packets to the MN. But in Mobile IPv6, the MN can get a new IPv6 address, which can be only used by the MN and thus the FA no longer exists • IPv6 Address auto-configuration: MN can obtain a CoA in foreign network without any help of foreign agent • More Scalable : Better Performance • Less traffic through Home Link • Less redirection/re-routing (Traffic Optimization)
Mobile IPv6 Features (3) • Bi-directional tunneling mode • Does not require for the CN to support Mobile IPv6 • Use of Reverse tunneling • Route Optimization (RO) mode • Requires to register the MN’s current binding at the CN • Uses a new type of IPv6 routing header • Type-2 routing header = home address (Dest Addr = MN’s CoA) • Shortest communications path • Eliminates congestion at the MN’s HA and home link • Impact of any possible failure of the HA or networks on the path to or from it is reduced
Mobile IPv6 Features (4) • Dynamic Home Agent Address Discovery • Allows a MN to dynamically discover the IP address of a home agent on its home link • ICMP Home Agent Address Discovery Request Message • Destination address: Home Agent anycast address for its own home subnet prefix • Reply message • HA list (with preferences) in the home link • Each HA maintains the home agent lists
New IPv6 Protocol (1) • Mobility Header • Home Test Init, Home Test, Care-of Test Init, Care-of Test • Perform the return routability procedure from MN to CN for ensuring authorization of subsequent Binding Updates • Binding Update • Binding Acknowledgement • Binding Refresh Request • Binding Error
New IPv6 Protocol (2) • New IPv6 Destination Option • Home Address destination option • Type-2 Routing header: route optimization • New ICMPv6 Messages • Home Agent Address Discovery Request • Home Agent Address Discovery Reply • Mobile Prefix Solicitation • Mobile Prefix Advertisement
Mobility Header Payload Proto: Same as IPv6 Next Header MH Type: Identifies the particular mobility message Message Data: the data specific to the indicated MH type
Binding Update Message • MH Type=5 • Message Data: A: Acknowledge H: Home Registration L: Link-Local Address Compatibility K: Key Management Mobility Capability
Binding Acknowledgement Message • MH Type=6 • Message Data: K:Key Management Mobility Capability
IP Header IP Header PayLoad PayLoad MIPv6 Basic Operation (1) CN S: MN’s Home Address D: CN’s IP Address Home Network Internet HA Foreign Network S: CN’s IP Address D: MN’s Home Address Mobile Node
IP Header IP Header Mobility Header Mobility Header PayLoad PayLoad MH=5 Binding Update MH=6 Binding Ack Mobile Node MIPv6 Basic Operation (2) CN Home Network Internet Foreign Network HA
IP Header PayLoad New IP Header Old IP Header PayLoad MIPv6 Basic Operation (3) S: CN’s IP Address D: MN’s Home Address CN Internet Home Network HA Tunneled packets S: HA’s Address D: MN’s COA Mobile Node
IP Header IP Header Mobility Header Mobility Header PayLoad PayLoad MH=5 Binding Ack Binding Update MH=6 MIPv6 Basic Operation (4) CN Home Network Internet HA Mobile Node
IP Header IP Header Routing Header HA Dest Opt Payload Payload S: CN’s Address D: MN’s COA (Type 2, MN’s Home Address) S: MN’s COA D: CN’s Address (includes MN’s Home Address) MIPv6 Basic Operation (5) CN Home Network Internet HA Mobile Node
Movement • Movement Detection: Detect L3 handovers • Neighbor Unreachability Detection (NUD) • Default router is no longer bi-directionally reachable • Router Discovery: select a new default router • Prefix Discovery: form new care-of address • Home registration • Correspondent registration
Home Registration (1) • Set H-bit & A-bit in the Binding Updates sent to the HA • MN’s home address in Home Address destination option • Source address = Care-of address • Set L-bit if the MN’s link-local address (for the new care-of-address) has the same interface ID as the home address • Set K-bit if the IPsec SAs between the MN and the HA have been established dynamically, and the mobile node has the capability to update its endpoint in the used key management protocol to the new care-of address every time it moves
Home Registration (2) • Sequence # • Used by the receiving node to sequence BUs and by the sending node to match a returned BACK with this BU • Lifetime • The number of time units remaining before the binding must be considered expired • One time unit is 4 seconds
Correspondent Registration (1) • Allowing the CN to cache the MN’s current care-of address • Return Routability procedure + registration • After home registration, the MN should initiate a correspondent registration for each node that already appears in the MN’s Binding Update List • The initiated procedures can be used to either update or delete binding information in the CN • In addition, MN initiate the registration in response to receiving a packet tunneled using IPv6 encapsulation
Correspondent Registration (2) • A Binding Update is created as follows • 1. Source address of the IPv6 header = the current care-of address • 2. Destination address = the address of the CN • 3. Mobility header with MH type = 5, including the Binding Authorization Data and the Nonce Indices mobility options • 4. Home Address destination option = MN’s home address
Conceptual Data Structures • CN: Binding Cache • When sending a packet, the Binding Cache is searched before the Neighbor Discovery conceptual Destination Cache • HA: Binding Cache and Home Agents List • The Home Agents List is used by the dynamic home agent address discovery mechanism • MN: Binding Update List • It records information for each BU sent by this MN, in which the lifetime of the binding has not yet expired • The Binding Update List includes all bindings sent by the MN either to its HA or CNs
MIPv6 Security • Binding Updates to HA • IPsec and ESP between MN and HA • Key Distribution (IKE, Internet Key Exchange) • Binding Updates to CN • Return Routability Procedure to assure that the right MN is sending the message • Binding management key (Kbm) for integrity and authenticity of the BU messages
IPsec Security Association • An SA is a cryptographically protected connection • There MUST be a SA between the MN and HA • Provides integrity and autentication of BU and BACK • An SA is defined by: <SPI, destination adress, flag> • One SA per home-address IPsec Authentication Header (authentication only service)
Encapsulating Security Payload • ESP: authentication + encryption
Binding Updates to CN • Return Routability Procedure • It enables CN to obtain some reasonable assurance that MN is in fact addressable at its claimed care-of address as well as at its home address • Done by testing whether packets addressed to the two claimed addresses are routed to MN • MN can pass the test only if it is able to supply proof that it received certain data (the “keygen tokens”) which CN sends to those addresses. These data are combined by MN into Kbm
RR Procedure Terminology (1) • Node Key: a secret key (20 octets), Kcn, at CN • Nonce: CN also generates nonces at regular intervals • Cookie: Random number used by MN • To prevent spoofing by a bogus CN in the RR procedure • Home init cookie • A cookie sent to the CN in the Home Test Init message, to be returned in the Home Test message • Care-of init cookie • A cookie sent to the CN in the Care-of Test Init message, to be returned in the Care-of Test message
RR Procedure Terminology (2) • Keygen Token • Number supplied by CN to enable MN to compute the necessary binding management key for authorizing a BU • Care-of keygen token: Care-of Test message • Home keygen token: Home Test message • Cryptographic Functions • SHA: Secure Hash Standard • HMAC_SHA1: Keyed-Hashing for Message Authentication • MAC: Message Authentication Codes
Home Agent Home Test:src=<correspondent address>dst=<home address> <home init cookie> <home keygen token> home nonce index: 1 Home Test Init:src=<home address> dst=<correspondent address><home init cookie> <Care-Of Address> Mobile Node Return Routability Test:step 1 Secret Key: <Kcn> Temporary Nonces: 1 - <nonce1>2 - <nonce2> ... Correspondent Node <home keygen token> = HMAC_SHA1Kcn(<home-address> | <nonce1> | 0) [1:64]<home init cookie> <Correspondent Address> Cookies: <home init cookie> <home keygen token> home nonce index: 1
Home Agent Care-of Test Init:src=<care-of address> dst=<correspondent address><care-of init cookie> Care-of Test:src=<correspondent address>dst=<care-of address> <care-of init cookie> <care-of keygen token> care-of nonce index: 1 <Care-Of Address> Mobile Node Return Routability Test:step 2 Secret Key: <Kcn> Temporary Nonces: 1 - <nonce1>2 - <nonce2> ... Correspondent Node <care-of keygen token> = HMAC_SHA1Kcn(<care-of-address> | <nonce1> | 1) [1:64]<care-of init cookie> <Correspondent Address> Cookies:<care-of init cookie> <care-of keygen token> care-of nonce index: 1
Binding Update src=<care-of address> dst=<correspondent address> option: Home Address = <home address> <sequence number> <home nonce index = 1> <care-of nonce index = 1> <MAC> <Care-Of Address> Mobile Node Secure Binding Update to CN Secret Key: <Kcn> Temporary Nonces: 1 - <nonce1>2 - <nonce2> ... Correspondent Node <home keygen token> = HMAC_SHA1Kcn(<home-address> | <nonce1> | 0) [1:64]<care-of keygen token> = HMAC_SHA1Kcn (<care-of-address> | <nonce1> | 1) [1:64] <Correspondent Address> Once the correspondent node has verified the MAC, it can create a Binding Cache entry for the mobile. Kbm = SHA1(<home-keygen-token> | <care-of keygen token>) MAC = HMAC_SHA1Kbm(<care-of-address>|<correspondent address>|BU) [1:96] Cookies:<care-of init cookie><care-of keygen token> care-of nonce index: 1<home init cookie> <home keygen token> home nonce index: 1
MIPv6 References • RFC 3775: Mobility Support in IPv6 • RFC 4443: ICMPv6 • RFC 3776: Using IPsec for MIPv6 • RFC 2408: The Internet Key Exchange