Download Part I: Introduction

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Recursive InterNetwork Architecture (RINA) wikipedia , lookup

CAN bus wikipedia , lookup

IEEE 802.1aq wikipedia , lookup

Wake-on-LAN wikipedia , lookup

Zero-configuration networking wikipedia , lookup

Cracking of wireless networks wikipedia , lookup

Transcript
MobileIP
:
MobileIP
 Goal: Allow machines to roam around and
maintain IP connectivity
 Problem: IP addresses => location

This is important for efficient routing
 Solutions?
 DHCP?
• ok for relocation but not for ongoing connections

Dynamic DNS (mobile nodes update name to IP
address mapping as they move around)?
• ok for relocation but not for ongoing connections
:
Mobile IP
 Allows computer to roam and be reachable
 Basic architecture
 Home agent (HA) on home network
 Foreign agent (FA) at remote network location
 Home and foreign agents tunnel traffic
 Non-optimal data flow
:
MobileIP
 Mobile nodes have a permanent home
address and a default local router called
the “home agent”
 The router nearest a nodes current
location is called the “foreign agent”
Register with foreign agent when connect to
network
 Located much like the DHCP server

:
Forwarding Packets
 Home agent impersonates the mobile host
by changing the mapping from IP address
to hardware address (“proxy ARP”)
 Sends any packets destined for mobile
host on to the foreign agent with IP
encapsulation
 Foreign agent strips off and does a special
translation of the mobile nodes IP address
to its current hardware address
:
Mobile IP Example
Foreign
Agent
18.86.0.253
Register Mobile Node
169.229.2.98
1. The Mobile Node registers itself with the Foreign
Agent on the Foreign Subnet. The Foreign Agent
opens an IP-IP tunnel to the Home Agent. The Home
Agent begins listening for packets sent to
169.229.2.98.
2. The Fixed Node initiates a connection to the
Mobile Node. It sends packets to the Mobile Node’s
home IP address, 169.229.2.98. The packets are
routed to the Home Subnet.
Foreign Subnet
Fixed Node
Internet
128.95.4.112
3. The Home Agent receives them, encapsulates
them in IP-IP packets, and it sends them to the
Foreign Agent. Encapsulated packets are addressed
to 18.86.0.253.
4. The Foreign Agent decapsulates the IP-IP packets,
and it sends them out on the Foreign Subnet. These
packets will be addressed to 169.229.2.98.
Home Subnet
Home
169.229.2.97
Agent
5. The Mobile Node receives the packets, and it
sends responses directly to the Fixed Node at
128.95.4.112.
:
Avoiding the Foreign Agent
 Mobile host can also obtain a new IP
address on the remote network and inform
the home agent
 The home agent can then resend the
packet to the new IP address
:
Optimizations
 What if two remote hosts are temporarily
close together
 If they want to send traffic to each other,
why should it have to go all the way to
their home agents and back again
 Optimizations exist to allow the sending
node to learn and cache the current
location of a recipient to avoid this
problem
: