Blueprint for Introducing Disruptive Technology into the Internet.ppt

1、1,A Blueprint for Introducing Disruptive Technology into the Internet,Larry Peterson Princeton University / Intel Research,2,Claims,Network/Application distinction is blurring pressure to move intelligence into the network Full integration will result in a new service-oriented network architecture H

2、owever the Internet is increasingly ossified,3,Take 1: Extensible Routers,Local (node-centric) perspective Motivating examples discontinuity at assumption boundaries e.g., trust, performance, address space, Additional factor emerging hardware e.g., network processors Goals extend router with new ser

3、vices achieve robust performance on diverse hardware,4,R,Rest of the Internet,My Network,Untrusted Tethered High Latency High BW High Power DiffServ,Trusted Wireless Low Latency Low BW Low Power IntServ,Assumption Boundary,5,Take 1: Extensible Routers,Local (node-centric) perspective Motivating exam

4、ples discontinuity at assumption boundaries e.g., trust, performance, address space, Additional factor emerging hardware e.g., network processors Goals extend router with new services achieve robust performance on diverse hardware,6,Take 2: PlanetLab,Global (network-wide) perspective Motivating exam

5、ples geographically distributed services (e.g., DHT, CDN) network measurement and anomaly detection Fundamental advantages latency (proximity) multi-lateralization decentralized control,7,Overlay Network,1000 viewpoints on the network,includes both edge sites and network crossroads,8,Dual Roles,Rese

6、arch testbed large set of geographically distributed machines diverse & realistic network conditions Deployment platform services: design evaluation client base nodes: proxy path physical path,9,Design Principles,Slice-ability (distributed virtualization) Distributed Control of Resources Unbundled M

7、anagement Application-Centric Interfaces,10,Slice-ability,Each service runs in a slice of PlanetLab distributed set of resources (network of virtual machines) allows services to run continuously VM monitor on each node enforces slices limits fraction of node resources consumed limits portion of name

8、 spaces consumed Issue: global resource discovery how do applications specify their requirements? how do we map these requirements onto a set of nodes?,11,Distributed Control of Resources,At least two interested parties service producers (researchers) decide how their services are deployed over avai

9、lable nodes service consumers (users) decide what services run on their nodes At least two contributing factors fair slice allocation policy both local and global components (see above) knowledge about node state freshest at the node itself,12,Unbundled Management,Partition management into orthogona

10、l services resource discovery monitoring node health topology management manage user accounts and credentials software distribution Issues management services run in their own slice allow competing alternatives engineer for innovation (define minimal interfaces),13,Application-Centric Interfaces,Inh

11、erent problems stable platform versus research into platforms writing applications for temporary testbeds integrating testbeds with desktop machines Approach adopt popular API (Linux) and evolve implementation eventually separate isolation and application interfaces provide generic “shim” library fo

12、r desktops,14,Growth Strategy,Phase0: Seeding the testbed 100 centrally managed machines pure testbed (no expected client workload) Phase1: Scaling up the testbed grow to 1000 nodes with user-provided hardware continuously running services (researchers as clients) Phase2: Cultivating a user communit

13、y non-researchers as clients PlanetLab spinoffs interpreted as success,15,Dynamic Slice Creation,N3,N4,Nm,N1,N2,. . .,Agent,Broker,. . .,. . .,Service Manager,16,Virtual Machines,Security prevent unauthorized access to state Familiar API forcing users to accept a new API is death Isolation contain r

14、esource consumption Performance dont want to be apologetic,17,VMM: Short-term Plan,Hardware,Linux,Vserver,Service3,Vserver,Service4,Combined Isolation and Application Interface,+ Resource Isolation + Safe Raw Sockets + Instrumentation,18,VMM: Long-term Plan,Hardware,Isolation Kernel,XP,Service3,BSD,

15、Service4,Application Interface,Isolation Interface,DenaliXenoserver,19,VM Experiences,Security the kernel is the least of our worries Programming Interface how many do we really need? Isolation bandwidth today, but memory soon Performance pressure to add capabilities to the kernel,20,SONA Revisited,

16、How does the network architecture evolve? Is the Internet experience applicable? Overlays Internet as Internet Phone System,21,SONA,Internet,Today: Internet offers a single service model,22,SONA,Internet,New Model: Applications subscribe to service overlays,Problem: Overlays perform redundant tasks,

17、23,SONA,Internet,Over Time: Common base services emerge,They expose rich interfaces,24,SONA,Internet,Eventually: Popular behavior subsumed into the Internet,25,Routing/Topology Service,Example of how the process might evolve each service independently discovers a topology shared topology probing mec

18、hanism e.g., Scriptroute share topology information across layers e.g., BGP feed from the Internet a set of common sub-services emerge for a given node, tell me whos nearby for a given node pair, tell me the routes between them and the winner is,26,Performance,Separate the Control and Data Planes Pl

19、anetLab defines a VM for a new control plane extensible router defines a VM for the data plane a new control/data interface emerges,27,Who,Architecture Team Larry Peterson (Princeton), David Culler (Berkeley), Tom Anderson (Washington), Timothy Roscoe (Intel), Frans Kaashoek (MIT) Implementation Tea

20、m 4 Intel and 2+ Princeton Contributing Community VMM: Hand (Cambridge), Gribble (Washington) DHT: Stoica (Berkeley), Druschel (Rice), Morris (MIT) Resource Brokers: Vahdat (Duke), Wroclawski (MIT) Applications: Pai (Princeton), Hellerstein (Berkeley) User Community: dozens of projects 40+ sites,28,More Information,pl-,