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Jennifer Rexford Princeton University MW 11:00am-12:20pm SDN Software Stack COS 597E: Software Defined Networking.

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Presentation on theme: "Jennifer Rexford Princeton University MW 11:00am-12:20pm SDN Software Stack COS 597E: Software Defined Networking."— Presentation transcript:

1 Jennifer Rexford Princeton University MW 11:00am-12:20pm SDN Software Stack COS 597E: Software Defined Networking

2 Background: Enterprise Networks and VLANs 2

3 Simple Enterprise Design Single layer-two subnet – Hubs and switches – Gateway to the Internet – Single IP address block Local services – DHCP – DNS 3 S S S G S DHCP server DNS server 1.2.3.1 1.2.3.76 1.2.3.5 1.2.3.150 Internet 1.2.3.0/24 0.0.0.0/0

4 Limitations of Simple Design Scalability – Large switch tables – Flooding overhead – Broadcast (ARP, DHCP) Performance – Spanning tree Security – No access control – No isolation 4 S S S G S DHCP server DNS server 1.2.3.1 1.2.3.76 1.2.3.5 1.2.3.150 Internet 1.2.3.0/24 0.0.0.0/0

5 Hybrid of Switches and Routers 5 R R R R Ethernet Bridging - Flat addressing - Self-learning - Flooding - Forwarding along a tree IP Routing - Hierarchical addressing - Subnet configuration - Host configuration - Forwarding along shortest paths R 1.2.3.192/26 1.2.3.128/26 1.2.3.0/26 1.2.3.64/26 Internet

6 Virtual Local Area Networks Group related hosts –Same company –Same role (e.g., faculty vs. students) –All WiFi users Treat them as a single LAN –Single IP address block –Single broadcast domain –No access control Independent of their location 6 Rewire the network in software!

7 Example: Two VLANs 7 Red VLAN and Orange VLAN Switches forward traffic as needed R O RORO R R R OOO RORRR O O O

8 Making VLANs Work Changing the Ethernet header – Adding a field for a VLAN tag – Implemented on the bridges/switches – … but can interoperate with old Ethernet cards Bridges/switches trunk links – Say which VLANs are accessible via which interfaces Approaches to mapping access links to VLANs – Each interface has a VLAN “color” – Each MAC address has a VLAN “color” 8

9 VLANs in SDN Hybrid deployment –VLAN for SDN adopters –Remaining traffic using legacy protocols Switch-controller communication –Separate VLAN –Using legacy protocols Tagging of packets –VLAN header as a virtual “tag” on packets 9

10 Server Virtualization and Virtual Switches 10

11 Virtual Machines (VMs) 11

12 Virtual Machine (VM) Virtual machine –Software implementation of a computer –With interface identical to bare hardware –Devices, interrupts, memory, page tables, etc. Hypervisor (virtual machine monitor) –Creates and runs virtual machines –Manages execution of the guest OSes –Subdivides the hardware resources –Executes privileged instructions 12

13 Motivations for VMs Diverse operating systems –Running software for obsolete platforms –Research, experimentation, and testing Sharing a single host –Server consolidation (lower cost, energy) –Isolation of applications or customers/tenants Fast provisioning of new servers Snapshotting system state –Backup and redeployment –Migrating a VM to a different host machine VM introspection –Track configuration settings –Identify configuration mistakes or compromises 13

14 Virtual Switches 14

15 SDN Software Stack 15

16 SDN Software Stack 16 Network OS Application Switch API

17 SDN Software Stack 17 NOX Application OVS OpenFlow

18 Discussion What is a good “division of labor”? Good design for the protocol? Good abstractions for the NOS? How apt is the “operating system” analogy? What parts of the system need standards? What are interesting SDN applications? 18

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