a waypoint service approach to connect heterogeneous ...eugeneng/presentations/usenix01.pdft. s....
TRANSCRIPT
![Page 1: A Waypoint Service Approach to Connect Heterogeneous ...eugeneng/presentations/usenix01.pdfT. S. Eugene Ng eugeneng@cs.cmu.edu Carnegie Mellon University 10 Using IPv6 Addresses •](https://reader033.vdocuments.us/reader033/viewer/2022052017/603010879cb5a0237247130c/html5/thumbnails/1.jpg)
T. S. Eugene Ng [email protected] Carnegie Mellon University 1
A Waypoint Service Approach to ConnectHeterogeneous Internet Address Spaces
T. S. Eugene Ng Hui ZhangCarnegie Mellon University
Ion StoicaUC Berkeley
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T. S. Eugene Ng [email protected] Carnegie Mellon University 2
The Problem in a Nutshell
32-bit IP (IPv4) address space is too small
Bi-directional connectivity between hosts is lost
Internet becomes a heterogeneous network
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T. S. Eugene Ng [email protected] Carnegie Mellon University 3
Outline
• Formulate the problem• Solution design goals• Proposed solution: AVES• Implementation and performance
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T. S. Eugene Ng [email protected] Carnegie Mellon University 4
The Original IP (IPv4) Internet
Bob Alice
• Every host has a globally unique IP address• Bi-directional connectivity is a fundamental property
IP Internet
InitiatorResponder
ResponderInitiator
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T. S. Eugene Ng [email protected] Carnegie Mellon University 5
32-Bit IP Address Space Is Too Small
• Upper bound: 31% of IP address space is covered byaggregated routing table
• Poor utilization• Increasing demand
– Always-on access (e.g., DSL, cable modem)
– Internet enabled devices (e.g., mobile phones, PDAs)
• Fear of exhaustion leads to aggressive conservation• IP addresses are increasingly difficult to obtain
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T. S. Eugene Ng [email protected] Carnegie Mellon University 6
Two Trends
• Deploy networks using reusable-IP addresses– a.k.a. private-IP addresses
– IP network prefixes 10/8, 172.16/12, 192.168/16– not globally unique, not routable
– hosts and routers remain running IP
• Deploy networks using IPv6 addresses– enormous 128-bit address space
– globally unique– hosts and routers run IPv6
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T. S. Eugene Ng [email protected] Carnegie Mellon University 7
Using Reusable-IP Addresses
• NAT (Network Address Translation) gateway mayhave only one IP address– shared by reusable-IP network hosts
• NAT provides reusable-IP to IP connectivity
IP InternetReusable-IP Network
NAT Gateway AliceBob
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T. S. Eugene Ng [email protected] Carnegie Mellon University 8
The Problem with NAT
• Bob has no globally unique IP address and so Alicecannot directly address Bob
IP InternetReusable-IP Network
NAT Gateway AliceBob[IPAlice → IPNAT]
NAT cannot provide bi-directional connectivity
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T. S. Eugene Ng [email protected] Carnegie Mellon University 9
Even Worse
• No connectivity between Alice and Bob at all!
IP InternetReusable-IP Network
NAT Gateway AliceBob
NAT Gateway
Reusable-IP Network
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T. S. Eugene Ng [email protected] Carnegie Mellon University 10
Using IPv6 Addresses
• IPv6 can be fully compatible with IP• Key: every IPv6 host must consume a globally unique
IPv4 address!• In reality, many IPv6 networks will be IPv6-only
– connect to IP Internet via NAT-Protocol Translation (PT)gateway
– NAT-PT has the same problem as NAT
IP InternetIPv6 Network
NAT-PT Gateway AliceBob[IPAlice → IPNAT-PT]
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T. S. Eugene Ng [email protected] Carnegie Mellon University 11
Heterogeneous Internet Address Spaces
Hosts withglobally uniqueIP addresses
Hosts withIPv6 addresses
Hosts withreusable-IPaddresses
Instance 1
Hosts withreusable-IPaddresses
Instance 2
Hosts withreusable-IPaddresses
Instance n
• NAT and NAT-PT cannotprovide bi-directionalconnectivity
• Key problems:IP to reusable-IP andIP to IPv6 connectivity– all other cases reduce to these
• For simplicity, only considerIP to reusable-IP connectivity
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T. S. Eugene Ng [email protected] Carnegie Mellon University 12
Solution Design Goals
• Should provide general connectivity
Reusable-IP Network
NAT AliceBob[IPAlice → IPNAT port 23]
IP Internet
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T. S. Eugene Ng [email protected] Carnegie Mellon University 13
Solution Design Goals
• Should provide general connectivity• Should be application independent
Reusable-IP Network
NAT AliceBobhttp://Bob/document.html
IP Internet
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T. S. Eugene Ng [email protected] Carnegie Mellon University 14
Solution Design Goals
• Should provide general connectivity• Should be application independent• Should not require changes to existing IP hosts and
IP network routers– there is no incentive for them to make changes
IP Internet
Reusable-IP Network
NAT AliceBob
[ IPAlice → IPNAT [ IPAlice → IP’Bob ] ]
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T. S. Eugene Ng [email protected] Carnegie Mellon University 15
Key Constraints
• Without IP addresses, reusable-IP hosts cannot beaddressed by IP hosts
• IP addresses are a scarce resource• Existing IP hosts and routers will not change
Key Insight:Design a 3rd-party service provider-based solution
Must efficiently share IP addresses among many reusable-IP hosts simultaneously
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T. S. Eugene Ng [email protected] Carnegie Mellon University 16
Proposed Solution:AVES: Address Virtualization Enabling Service
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T. S. Eugene Ng [email protected] Carnegie Mellon University 17
AVES Overview
• Service provider deploys IP agents called waypoints• Virtualize reusable-IP hosts by the waypoints• Update customer NAT gateways
F
G
A
B
Waypoints
W2
W1
W4
W3
C
D
A
B
D
E
IP InternetReusable-IP Networks
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T. S. Eugene Ng [email protected] Carnegie Mellon University 18
AVES Overview (Continued)
• Each initiator has its own unique virtual map– Each initiator can connect to 4 reusable-IP hosts
simultaneously
F
G
A
B
Waypoints
W2
W1
W4
W3
C
D
B
E
C
E
IP InternetReusable-IP Networks
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T. S. Eugene Ng [email protected] Carnegie Mellon University 19
Data Path Operations
AB
R
W
Step Packet sent1 [ IPA → IPW ]2 [ IPW → IPR [ IPA → IP’B ] ]3 [ IPA → IP’B ]4 [ IP’B → IPA ]5 [ IPW → IPA ]
12
3
54
B
IP InternetReusable-IP Network
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T. S. Eugene Ng [email protected] Carnegie Mellon University 20
Control Path Operations
• How to dynamically create the reusable-IP host towaypoint virtual mapping for each initiator?
• Fundamentally a reusable-IP host still needs to beidentified somehow before communications
• Use a name to uniquely identify a reusable-IP host• Create waypoint mapping during name resolution
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T. S. Eugene Ng [email protected] Carnegie Mellon University 21
DNS Is Not the Perfect Answer
• Want the identity of the initiator during DNS nameresolution
• Recursive DNS name lookup hides this identity
AVES-awareDNS server Alice’s local DNS server
AliceBob
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T. S. Eugene Ng [email protected] Carnegie Mellon University 22
Idealistic Solutions
• Modify the DNS protocol to carry the initiator’s IPaddress in a DNS query– also useful for DNS based load balancing
• Run local caching-only name servers on end hosts– has performance benefit
• Use an alternative naming system
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T. S. Eugene Ng [email protected] Carnegie Mellon University 23
What Can We Do Today?
• In some specific deployment scenarios like Intranetdeployment the right incentives exist to overcome theinitiator identity problem
• When the incentives do not exist, trade performancefor deployability
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T. S. Eugene Ng [email protected] Carnegie Mellon University 24
Scenario 1 -- Intranet Deployment
• CMU can deploy AVES so that people working atschool can initiate connections back to their homecomputers behind NAT gateways
• Solution: CMU will upgrade local DNS servers tobecome AVES-aware
• Since local DNS servers interact directly withinitiators, their identities can be known
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T. S. Eugene Ng [email protected] Carnegie Mellon University 25
Scenario 1 -- Intranet Deployment
AB
R
W
CMU IP Intranet
Reusable-IP Networkbob-home.aves.cmu.edu
1
2
Step Action1 DNS query for B2 SETUP message (IPA, IPR, IP’B)3 ACCEPT message4 DNS reply for B (IPW)
D1
Dn
3
4
AVES-awareDNS serversfor cmu.edu
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T. S. Eugene Ng [email protected] Carnegie Mellon University 26
Scenario 2 -- General Deployment
• Cannot upgrade the local DNS servers used byinitiators
• Solution: Delayed binding– serialize requests at waypoint
– trades performance for deployability
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T. S. Eugene Ng [email protected] Carnegie Mellon University 27
Delayed Binding
AB
R
W
IP Internet
Reusable-IP Networkbob-home.avesnet.net D1
Dn
AVES-awareDNS serversfor avesnet.net
[ IPA → IPW ]
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T. S. Eugene Ng [email protected] Carnegie Mellon University 28
Delayed Binding Is Imperfect
• Significantly lowers the maximum rate at whichnames can be resolved– e.g. with 50 waypoint IP addresses and a wait period of 2
seconds, 25 host-to-host sessions can be created persecond
• This is what we have implemented and deployed– quite usable so far
– see our paper for full details
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T. S. Eugene Ng [email protected] Carnegie Mellon University 29
Connectivity Properties
• Using N IP addresses, every IP initiator cansimultaneously reach up to N reusable-IP hosts
• Every reusable-IP host can be reached by anunlimited number of IP hosts
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T. S. Eugene Ng [email protected] Carnegie Mellon University 30
Deployability Properties
• Waypoints can be easily deployed• NAT gateways need to be extended to process
packets– necessary and the right incentive exists
• No change to existing IP hosts or IP network routers• Intranet deployment
– upgrading existing local DNS servers provide bestperformance
• General deployment– with delayed binding, no existing DNS server upgrade
necessary, but performance is reduced significantly
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T. S. Eugene Ng [email protected] Carnegie Mellon University 31
Implementation
• Modified named running on Linux
• Linux user-level daemon (with delayed binding)
• Linux user-level daemonAVES NAT
AVES DNS Server
AVES Waypoint
IPInput firewall filter
AVES daemon
User
Kernel
NETLINK_FIREWALLSocket Raw socket
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T. S. Eugene Ng [email protected] Carnegie Mellon University 32
Performance Measurement Testbed
Initiator400 MHz Pentium II128 MB SDRAM(AVES DNS runs here)
Responder266 MHz Pentium II64 MB SDRAM
NAT Gateway866 MHz Pentium III Xeon512 MB Rambus memory
Waypoint866 MHz Pentium III Xeon512 MB Rambus memory
100baseTXEthernet Hub
All links are 100baseTX Ethernet
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T. S. Eugene Ng [email protected] Carnegie Mellon University 33
Data Path Performance
05000
1000015000200002500030000350004000045000
Way
point
NAT in-
boun
dNAT
out-b
ound
Way
point
NAT in-
boun
dNAT
out-b
ound
CP
U C
ycle
s
AVES MD5
AVES protocol
Overhead
36 Bytes
1464 Bytes
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T. S. Eugene Ng [email protected] Carnegie Mellon University 34
Data Path Performance
• Theoretical maximum throughput 233Mbps with 1464byte UDP packets– probably higher when overhead is amortized over a train of
packets
• End-to-end throughput experiments– 96 Mbps with 1464 byte UDP packets
– 80 Mbps with 1464 byte TCP packets
– 41 Mbps with 48 byte TCP packets
– could not get result for 48 byte UDP due to problem withIntel EtherExpress Pro driver
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T. S. Eugene Ng [email protected] Carnegie Mellon University 35
Prototype System
• Registered domain name avesnet.net• 50 waypoint IP addresses assigned to two PCs• One AVES-aware DNS server• 10 trial customers• Applications tested: telnet, ssh, ftp, scp, NFS, httpd,
X windows, VNC, ping, traceroute
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T. S. Eugene Ng [email protected] Carnegie Mellon University 36
Summary
• AVES can provide high connectivity from IP hosts toreusable-IP or IPv6 hosts without– consuming many IP addresses– changing existing IP hosts or IP network routers
• Can provide connectivity even when both initiator andresponder are behind NAT or NAT-PT– more sophisticated proposed solutions (IPNL, TRIAD) exist
• Optimized for deployability
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T. S. Eugene Ng [email protected] Carnegie Mellon University 37
Summary (Continued)
• Explore different ways of using 3rd-party agents toadd functionality to the difficult to change Internetinfrastructure– many previous application level services: web caches, CDN
– AVES provides a fundamental addressing service
• http://www.avesnet.net– online demo– source code (really really soon)