CS 6250 COMPUTER NETWORKS STUDY QUESTIONS - EXAM 2 lesson 7 -
12 LATEST 2024 WITH EXPERT CERTIFIED QUESTIONS AND ANSWERS I
ALREADY GRADED A+ NEW!
Lesson 7: SDN (Part 1)
• What spurred the development of Software Defined Networking (SDN)?
SDN: Aims and Necessity
● Making computer networks more programmable
○ Customising services, e.g. providing processing in the network (cf. the Active Networks vision)
○ Customising flows
● Necessary in the age of cloud computing to isolate flows for colocated tenants (potentially rivals) sharing
the same physical infrastructure
○ (In other words) Necessary for virtualizing the network for utility computing
● Necessary for independent evolution of the data plane and the control plane
● Necessary because the complexity of the network due to proprietary technologies and diversity of
equipment
l
• What are the three phases in the history of SDN?
A Briefer History of SDNs
● Prehistory (pre-SDN phase - early 1990s)
● Active Networks (mid 1990s - early 2000s)
● Control and data plane separation (2001 - 2007)
● OpenFlow API and network operating systems (2007 - 2010)
• Summarize each phase in the history of SDN.
A Briefer History of SDNs
● Prehistory (pre-SDN phase - early 1990s):
○ Networking via IP or ATM (asynchronous transfer mode)
● Active Networks (mid 1990s - early 2000s):
○ New ideas for improving network services
○ Aim: Opening up the network control
○ Vision: A programming interface (a network API) exposing resources/network nodes and
customising functionalities for subsets of packets flowing through the nodes
○ Programming models:
■ In-band (in data packets): Capsules
■ Out-of-band: Programmable router/switch models (think: 'smart' routers)
● Control and data plane separation (2001 - 2007):
○ Issues: Increasing traffic volumes => Concerns about network reliability, predictability, and
performance
○ Aim: Traffic engineering for network management
○ Challenge: Routers and switches tightly integrated the control and data planes
○ Solution: Separate the two
● OpenFlow API and network operating systems (2007 - 2010):
○ Tech push:
Before OpenFlow, switch chipsets vendors already started allow programmers to control forwarding behaviours
, ■ This allowed more companies to build switches without having to design and fabricate data
planes
■ Early OpenFlow versions built on tech that switches already supported
○ Use Pulls
■ OpenFlow came up to meet needs of conducting large scale experimentation
■ Useful in data-center networks
■ Companies invested more in writing control programs
○ Key Effects
■ Generalising network devices and functions
■ Vision of network operating system
■ Distributed state management
. What is the function of the control and data planes?
Data Plane
● Performs the actual forwarding as dictated by the control plane
○ e.g. IP forwarding, Layer 2 switching
Control Plane
● Logic for forwarding behaviour of routers
○ e.g. routing protocols, network middlebox configurations
• Why separate the control from the data plane?
Need to Separate the Data Plane and Control Plane
● Independent evolution and development
○ Traditionally, routers are responsible for both routing and forwarding
■ => Changing either would require upgrading the hardware
○ Goal: Improvement in routing algorithms should not affect existing routers
● Control from high-level software
○ Routing tables are computed in software
■ => Higher-order programs can control routers' behaviour
○ Decoupling = easier debugging
• Why did the SDN lead to opportunities in various areas such as data centers, routing, enterprise
networks, and research networks?
SDN and the Abundance of Opportunities
● Datacentres: SDN makes managing thousands of VMs easier. Flows for colocated tenants (who may be
competitors) sharing physical resources can be isolated by virtualizing the network
● Routing: SDN offers more control over path selection; routers' state is easier to update (cf. BGP: too
restrictive at times)
● Enterprise Networks: Improved security, e.g. SDN makes it easier to protect from volumetric attacks (e.g.
DDoS) by dropping the attack traffic at strategic locations
● Research Networks: Can now coexist with production networks
• What is the relationship between forwarding and routing?
Forwarding and Routing
● Forwarding: A router inspects the header of an incoming packet and consults the forwarding table to
determine which outgoing link to send the packet to
, ● Routing: Determining the path from the sender to the receiver across the network using routing
algorithms
• What is the difference between a traditional and SDN approach in terms of coupling of control and
data plane?
Forwarding and Routing: Traditional Networks
● The routing algorithms (control plane) and forwarding function (data plane) are tightly coupled
● The router runs and participates in the routing algorithms, constructing the forwarding table for the
forwarding function
Forwarding and Routing: SDN
● A remote controller computes and distributes the forwarding tables to be used by every router
● The controller is physically separate from the router (it could be located in a remote datacenter,
managed by the ISP, or a third party)
● Routers are solely responsible for forwarding
● Remote controllers are solely responsible for computing and distributing the forwarding tables
● The controller is implemented in software (hence the name, software-defined networking)
• What are the main components of an SDN network and their responsibilities?
SDN: Main Components and Responsibilities
● Network-control applications
○ Programs that manage the underlying network by collecting information about the network
elements with the help of the SDN controller
● SDN controller
○ Logically centralised interface between the network elements and the network-control
applications
● SDN-controlled network elements (the infrastructure layer)
○ Responsible for forwarding traffic in a network based on the rules computed by the SDN control
plane
, • What are the four defining features of an SDN architecture?
SDN: Architectural Features
● Flow-based forwarding
○ Rules for forwarding packets by SDN-controlled switches can be computed based on any number of
header field values in various layers, such as the transport layer, network layer, and link layer
■ OpenFlow allows up to 11 header field values to be considered
○ cf. traditional networks: Only the destination IP address determines the forwarding of a packet
● Separation of data plane and control plane
○ The SDN-controlled switches in the data plane only execute the forwarding rules present in their
flow tables
○ These rules are computed and installed in the flow table of switches by the control plane
● Network control functions
○ The SDN control plane consists of:
■ The controller: Maintains up-to-date network state information about the network
devices and elements (hosts, switches, links, etc.) and provides it to the
network-control applications
■ Network applications: Monitor and control the network devices
● A programmable network
○ The network-control applications act as the 'brain' of the SDN control plane
○ Network-control applications manage the network
■ e.g. network management, network automation, analytics, etc.
○ A routing network-control application can determine the end-to-end path between the source and
the destination using Dijkstra's algorithm
• What are the three layers of SDN controllers?
SDN Controllers
Voordelen van het kopen van samenvattingen bij Stuvia op een rij:
√ Verzekerd van kwaliteit door reviews
Stuvia-klanten hebben meer dan 700.000 samenvattingen beoordeeld. Zo weet je zeker dat je de beste documenten koopt!
Snel en makkelijk kopen
Je betaalt supersnel en eenmalig met iDeal, Bancontact of creditcard voor de samenvatting. Zonder lidmaatschap.
Focus op de essentie
Samenvattingen worden geschreven voor en door anderen. Daarom zijn de samenvattingen altijd betrouwbaar en actueel. Zo kom je snel tot de kern!
Veelgestelde vragen
Wat krijg ik als ik dit document koop?
Je krijgt een PDF, die direct beschikbaar is na je aankoop. Het gekochte document is altijd, overal en oneindig toegankelijk via je profiel.
Tevredenheidsgarantie: hoe werkt dat?
Onze tevredenheidsgarantie zorgt ervoor dat je altijd een studiedocument vindt dat goed bij je past. Je vult een formulier in en onze klantenservice regelt de rest.
Van wie koop ik deze samenvatting?
Stuvia is een marktplaats, je koop dit document dus niet van ons, maar van verkoper Teacher101. Stuvia faciliteert de betaling aan de verkoper.
Zit ik meteen vast aan een abonnement?
Nee, je koopt alleen deze samenvatting voor €17,79. Je zit daarna nergens aan vast.