Multipath TCP: Goals and Background. Mark Handley, UCL
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1 Multipath TCP: Goals and Background Mark Handley, UCL
2 Not your grandfather s Internet Once upon a time the Internet did , ftp, and telnet. And it fell over due to congestion. TCP congestion control has kept the Internet running every since. Matches load to available capacity on short timescales. On long timescales, needs an external feedback loop to reduce the arrival rate of new connections.
3 Today Very high demands for reliability. Higher than the reliability rate of the network components themselves. Demanding applications becoming prevalent. VoIP, IPTV, Games.
4 Unpredictability Can t predict failures. Can t predict flash crowds. Can t predict DDoS attacks. Still need to provide very high reliability service for demanding applications.
5 Robustness General solution to providing robustness: Redundancy In the Internet: Routing around failures (rather slow). Multihoming (rather crude). Traffic engineering via routing to cope with the above. DPI and traffic shaping when TE can t cope.
6 Unpredictability of Wireless Wireless links becoming ubiquitous at the network edge. Fading, interference, etc make provision of reliable service much harder. Many wireless devices do have multiple radios. Can t currently use these effectively to provide redundancy.
7 Mobility Imagine a phone with 3G and WiFi, moving around a campus. Would like to use 3G as semi-reliable baseline service, supplimented by WiFi when available, and switching between WiFi APs as they come and go. Current Internet protocols not designed around such agile network connectivity.
8 Multipath Transport: The Basic Idea Stop hiding multi-homing! Make the different network downlinks available to the transport protocol (eg, give them different addresses). Establish more than one path between the same pair of endpoints for the same connection. Use congestion control to determine which traffic goes down each of the paths.
9 Scenarios: Multi-homed server Client One TCP connection, two paths Server Load balances between access links
10 Scenarios: Multi-homed server Client Flow continues on alternate path 30-second outage while BGP reconverges Server
11 Scenarios: Multi-homed server Client Legacy Client Server Traffic moves away from congested path
12 Resource Pooling Network's resources behave like a single pooled resource. Aim is to increase reliability, flexibility and efficiency. Method is to build mechanisms for shifting load between the various parts of the network. Src a Src b Src c Mb/s 10 Mb/s 10 Mb/s 10 Mb/s Dst a Dst b Dst c
13 Resource Pooling is not new Computer communication is bursty, so a virtual circuit-based model with rate allocations gives poor utilization. A packet-switched network pools the capacity of a single link. Goal: high utilization Router queues pool capacity from one time interval to the next Goal: high utilization, robustness to arrival patterns
14 Multipath transport ARPAnet resource pooling: Multipath transport allows multiple links to be treated as a single pooled resource. Multipath resource pooling: Traffic moves away from congested links. Larger bursts can be accommodated.
15 Resource pooling allows a wider range of traffic matrices Src a 100Mb/s 100Mb/s Dst b 100Mb/s Src b 100Mb/s Dst a Flow a (Mb/s) Possible traffic flows Flow a Possible traffic flows Flow a Possible traffic flows Flow b (Mb/s) 100 Flow b (Mb/s) 100 Flow b (Mb/s) No multi-path flows Only flow a is multi-path. Both flows are multi-path
16 Scenario: Mobile Client 3G celltower Mobile client Server
17 Scenario: Mobile Client Mobile client Server Wifi Wifi
18 Scenario: Mobile Client Mobile client Wifi Server Wifi
19 Scenario: Mobile Client Server Wifi Mobile client Wifi
20 Multipath Transport Multipath transport protocols seem to be key to making the Internet more robust and more responsive to congestion. Inherent redundancy. Move congestion, not just spread it out over more time. React on timescales not possible in routing. May offload work from routing?
21 Multipath TCP TCP is ubiquitous. Assertion: Can add multipath capability to TCP fairly easily. Improve behavior of existing applications.
22 Why in TCP, not over it? Can t we just do this over TCP? BitTorrent gets many of the benefits while running over TCP. Multi-server HTTP would do the same for multihomed servers.
23 Why in TCP? Only get the full congestion benefits when you link the congestion response of the subflows to move traffic away from congestion. Leverage TCP handshake to bootstrap subflows quickly. Want it to work for all existing TCP applications.
24 Other transport protocols? SCTP Already has the protocol mechanism, just needs to implement the new congestion control mechanisms. DCCP Would be easy to add, if there was demand. UDP No single approach. No handshake; maybe an application library?
25 Multipath TCP Has been proposed several times over the years (originally by Huitema?). We now understand that multipath TCP, if done appropriately, can go a long way towards solving network-wide traffic engineering problems. We re starting to understand the consequences of not solving the issue in a general way.
26 Next Presentations Alan Ford Multipath TCP Protocol Design Costin Raiciu Multipath Congestion Control
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