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Peer-to-peer approaches for SIP

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Henning Schulzrinne Dept. of Computer Science Columbia University Peer-to-peer approaches for SIP – PowerPoint PPT presentation

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Title: Peer-to-peer approaches for SIP


1
Peer-to-peer approaches for SIP
  • Henning Schulzrinne
  • Dept. of Computer Science
  • Columbia University

2
Applications
  • Small stand-alone networks
  • 2-50
  • SOHO, events, emergency coordination
  • may not have access to Internet infrastructure
  • Corporate size networks
  • 50-1000
  • single administrator
  • Global-scale networks
  • 1000-100 million
  • consumer applications
  • serious trust issues

3
Three basic approaches
  • Full distribution and search
  • similar to Bonjour
  • scales to small, local networks
  • DHT built using SIP
  • see Kundan/Schulzrinne and Cao/Bryan/Lowekamp
  • dedicated to VoIP
  • Skype model
  • Using an external DHT (Columbia)
  • using OpenDHT as generic service
  • used by multiple applications
  • can provide mapping or pointer to mapping

SIP-managed DHT
OpenDHT
4
P2P-SIP Implementation in SIPc
  • OpenDHT
  • Trusted nodes
  • Robust
  • Fast enough (lt1s)
  • Identity protection
  • Certificate-based
  • SIP id email
  • P2P for
  • Calls, IM, presence, offline message, STUN
    server discovery and name search

5
P2P-SIP What is OpenDHT?
  • Service model, unlike earlier library model of
    Chord or CAN
  • DHT accessed via SunRPC XML-RPC
  • Easy deployment and maintenance
  • 200-300 Bamboo DHT nodes on PlanetLab
  • Public DHT service running since April 2004
  • Many existing applications i3, CFS, Ostream,
    HIP,
  • DHT API (server side on Bamboo nodes)
  • PUT(key,value,H(secret),ttl) where H() is SHA1
  • GET(key) ? (value,H(secret),remaining-ttl)
  • REMOVE(key,H(value),secret,ttl)
  • ReDiR API (client side for lookup/join/leave)
  • Can build anycast, multicast, range search using
    this
  • Fair resource (disk) allocation among clients (IP
    addr)

6
Hybrid architecture
  • Cross register, or
  • Locate during call setup
  • DNS, or
  • P2P-SIP hierarchy

7
Conclusion
  • Lots of open issues
  • Motivation for P2P?
  • Low operational cost?
  • Ease of use?
  • Reliability?
  • What to use p2p for?
  • identifier lookup (location server) ?
  • locating a NAT traversal server (STUN) ?
  • media file storage (voice mail)
  • presence
  • conferencing
  • Some architectural open issues
  • trust (sybil, byzantine failures)
  • man-in-the-middle
  • identifier ownership
  • prevention? at least, detection
  • reliability
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