software-defined networking and openflo mckeo… · software-defined networking and openflow nick...
TRANSCRIPT
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Software-defined Networking
and OpenFlow
Nick [email protected]
Nick [email protected]
POMI Workshop, April 2009
OpenFlow team: Nick McKeown, Guido Appenzeller, Guru Parulkar, Brandon Heller, Glen Gibb, Masayoshi Kobayashi, Tatsuya Yabe, MikioHara, Rob Sherwood, Srini Seetharaman, David Underhill, Dave Erickson.
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Part 1: Software-defined networking• Trend towards defining the network
infrastructure in software• Requires a simple hardware substrate
Part 2: OpenFlow as an example
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Computer
Application
Computer
Application Application
OS
OS abstracts hardware substrateInnovation in applications
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x86(Computer)
Windows(OS)
ApplicationApplication
Linux MacOS
x86(Computer)
Windows(OS) or or
ApplicationApplication
Simple, common, stable, hardware substrate below+ Programmability+ Competition
Innovation in OS and applications
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Linux MacOS
x86(Computer)
Windows(OS) or or
ApplicationApplication Windows(OS)
Windows(OS)
Linux MacOS
x86(Computer)
Windows(OS)
AppApp
LinuxLinuxMacOS
MacOS
Virtualization
App
Simple, common, stable, hardware substrate below+ Programmability + Strong isolation model+ Competition above
Innovation in infrastructure
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A simple stable common substrate
1. Allows applications to flourish Internet: Stable IPv4 lead to the web
2. Allows the infrastructure on top to be defined in softwareInternet: Routing protocols, management, …
3. Rapid innovation of the infrastructure itselfInternet: ...? What’s missing?
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Mid-1990s: “To enable innovation in the
network, we need to program on top of a simple hardware
datapath”
Active networking
Problems: isolation, performance, complexity
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Late-1990s: “To enable innovation in the
network, we need the datapathsubstrate to be programmable”
Network processors
Problem: Accelerated complexity of the datapath substrate
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HardwareDatapath
SoftwareControl
RouterMillion of linesof source code
5389 RFCs Barrier to entry
500M gates10Gbytes RAM
Complex Power Hungry
Many complex functions baked into the infrastructureOSPF, BGP, multicast, differentiated services,Traffic Engineering, NAT, firewalls, MPLS, redundant layers, …
Very hard to changeSubstrate is getting more and more complex
Where we are
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(Statement of the obvious)
In networking, despite several attempts…
We’ve never agreed upon a clean separation between:1. A simple common hardware substrate2. And an open programming environment on top
But there are rumblings in large data centers,and service provider networks.
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Observations
Prior attempts have generally1. Assumed the current IP substrate is fixed,
and tried to program it externallyBut the substrate now consists of Ethernet, TCP, …
2. Defined the programming and control model up-front
But to pick the right x86 instruction set, Intel didn’t define Windows XP, Linux or VMware
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We need…
A simple hardware substrate that generalizes, subsumes and simplifies the current substrateA clean separation between the substrate and an open programming environmentVery few preconceived ideas about how the substrate will be programmedStrong isolation
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Substrate today
PayloadPayloadEthernetDA, SA, etcEthernet
DA, SA, etcIP
DA, SA, etcIP
DA, SA, etcTCP
DP, SP, etcTCP
DP, SP, etc
Collection of bits to plumb flows (of different granularities)
between end points
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What is a flow?
Application flowAll httpPeter’s trafficAll packets to Canada…
Types of action
Allow/deny flowRoute & re-route flowIsolate flowMake flow privateRemove flow
We need flexible definitions of a flow We don’t need many types of action
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1.
Unicast
2.Multicast
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4.
WaypointsMiddlewareIntrusion detection…
3.Multipath
Load-balancingRedundancy
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Substrate: “Flowspace”
PayloadPayloadEthernetDA, SA, etcEthernet
DA, SA, etcIP
DA, SA, etcIP
DA, SA, etcTCP
DP, SP, etcTCP
DP, SP, etc
Collection of bits to plumb flows (of different granularities)
between end points
PayloadPayloadHeaderUser-defined flowspace
HeaderUser-defined flowspace
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Flows: Simple example
IP SA
IP DA
Single flow All flows from A
A
All flows between two
subnets
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Flows: Generalization
Field 2
Field 1
Single flowSet of flows
Field n
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Properties of Flowspace
Backwards compatibleCurrent layers are a special case
Easily implemented in hardwaree.g. TCAM flow-table in each switch
Strong isolation of flowsSimple geometric constructionCan prove which flows can/cannot communicate
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A substrate
Flow-basedSmall number of actions for each flow
Plumbing: Forward to port(s)Control: Forward to controllerRouting between flow-spaces: Rewrite headerBandwidth isolation: Min/max rate
External open API to flow-table
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Part 1: Software-defined networking• Trend towards defining the infrastructure in
software• Requires a simple hardware substrate
Part 2: OpenFlow as an example
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New function!
Operators, users, 3rd party developers, researchers, …
Step 1: Separate intelligence from datapath
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Step 2: Cache decisions in minimal datapath
“If header = x, send to port 4”
FlowTableFlowTable
“If header = ?, send to me”“If header = y, overwrite header with z, send to ports 5,6”
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Our Approach1. Define the substrate
Define the OpenFlow featureFirst version (now): OpenFlow-enabled switchesMake it easy to add to commercial switches, routers, APs and basestationsSecond version (~2yrs): OpenFlow-optimized switches in general “flowspace”
2. Deploy on college campuses3. Deploy in national backbone networks4. Enable researchers to freely innovate on top
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OpenFlow Basics
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Ethernet SwitchEthernet Switch
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Data Path (Hardware)Data Path (Hardware)
Control PathControl PathControl Path (Software)Control Path (Software)
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Data Path (Hardware)Data Path (Hardware)
Control PathControl Path OpenFlowOpenFlow
OpenFlowOpenFlow ControllerController
OpenFlow Protocol (SSL)
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OpenFlow Basics (1)
Rule(exact & wildcard) Action Statistics
Rule(exact & wildcard) Action Statistics
Rule(exact & wildcard) Action Statistics
Rule(exact & wildcard) Default Action Statistics
Exploit the flow table in switches, routers, and chipsets
Flow 1.
Flow 2.
Flow 3.
Flow N.
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Flow Table EntryOpenFlow Protocol
SwitchPort
MACsrc
MACdst
Ethtype
VLANID
IPSrc
IPDst
IPProt
TCPsport
TCPdport
Rule Action Stats
1. Forward packet to port(s)2. Encapsulate and forward to controller3. Drop packet4. Send to normal processing pipeline
+ mask what fields to match
Packet + byte counters
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ExamplesSwitching
*
SwitchPort
MACsrc
MACdst
Ethtype
VLANID
IPSrc
IPDst
IPProt
TCPsport
TCPdport Action
* 00:1f:.. * * * * * * * port6
Flow Switching
port3
SwitchPort
MACsrc
MACdst
Ethtype
VLANID
IPSrc
IPDst
IPProt
TCPsport
TCPdport Action
00:2e.. 00:1f.. 0800 vlan1 1.2.3.4 5.6.7.8 4 17264 80 port6
Firewall
*
SwitchPort
MACsrc
MACdst
Ethtype
VLANID
IPSrc
IPDst
IPProt
TCPsport
TCPdport Forward
* * * * * * * * 22 drop
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ExamplesRouting
*
SwitchPort
MACsrc
MACdst
Ethtype
VLANID
IPSrc
IPDst
IPProt
TCPsport
TCPdport Action
* * * * * 5.6.7.8 * * * port6
VLAN
*
SwitchPort
MACsrc
MACdst
Ethtype
VLANID
IPSrc
IPDst
IPProt
TCPsport
TCPdport Action
* * * vlan1 * * * * *port6, port7,port9
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http://OpenFlowSwitch.orghttp://OpenFlowSwitch.org
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OpenFlowSwitch.org
Controller
OpenFlow Switch
PC
OpenFlow UsageDedicated OpenFlow Network
OpenFlow Switch
OpenFlow Switch
OpenFlowProtocol
Peter’s code
Rule Action Statistics
Rule Action Statistics Rule Action Statistics
Peter
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Usage examplesPeter’s code:
Static “VLANs”His own new routing protocol: unicast, multicast, multipath, load-balancingNetwork access controlHome network managerMobility managerEnergy managerPacket processor (in controller)IPvPeterNetwork measurement and visualization…
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OpenFlowSwitch
OpenFlowSwitch
OpenFlowSwitch
OpenFlowProtocolOpenFlowProtocol
OpenFlow FlowVisor& Policy Control
Craig’sController
Heidi’sControllerAaron’s
Controller
OpenFlowProtocolOpenFlowProtocol
Virtualizing OpenFlow
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OpenFlowSwitch
OpenFlowSwitch
OpenFlowSwitch
OpenFlowProtocol
OpenFlowFlowVisor & Policy Control
Broadcast Multicast
OpenFlowProtocol
httpLoad-balancer
Virtualizing OpenFlow
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Windows(OS)
Windows(OS)
Linux MacOS
x86(Computer)
Windows(OS)
AppApp
LinuxLinuxMacOS
MacOS
Virtualization
App
Simple, common, stable, hardware substrate below+ Programmability + Strong isolation model+ Competition above
Faster innovation
Controller 1
AppApp
Controller2
Virtualization (FlowVisor)
App
OpenFlow
Controller 1
Controller 1
Controller2
Controller2
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OpenFlow Status
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OpenFlow Hardware
Cisco Catalyst 6k
NEC IP8800
HP Procurve5400
Juniper MX
WiMax (NEC)
PC Engines
Quanta LB4
Morecoming soon...
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Stanford Deployment
Phase 3 (2H2009)Phase 2 (1H2009)Phase 1 (ongoing)
• Gates Building, 3A Wing onlyTwoswitches (HP ProCurve 5400)
• ~30 Wireless APs• ~25 users
• Gates Building, All Floors
• 23 Switches(HP ProCurve 5400)
• Wireless TBD• Hundreds of users
• Packard and CIS Buildings
• Switch Count TBD(HP ProCurve 5400)
• Wireless TBD• > 1000 users
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Two Larger OpenFlow DeploymentsCampus Trials
At seven leading campuses with researchers and CIOPotentially 20‐30 campuses to follow
Open up campus networks for innovationsBuild robust OpenFlow infrastructure
Nation‐wide OpenFlow substrate – connect campusesInternet2 backbone and six regional networks Clean slate inter‐domain systemUnified control of packet and circuit networks
Potentially funded by NSF/GENI in partnership with campuses, vendors, Internet2/NLR and regionals
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Thank You!