CSE 123A Computer Networks
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1 CSE 123A Computer Networks Winter 2005 Lecture 3: Protocols & Layering Alex Snoeren (standing in for Stefan Savage)
2 Yesterday How to send data from point A to point B? January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 2
3 Today: What if you want to do more? What s a protocol? Organizing protocols via layering Encoding layers in packets The OSI & Internet layering models The end-to-end argument January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 3
4 There s s more to networking than sending bits? Like What? Sending bits to a particular destination Sending a long message to a particular destination Detecting if there was an error Fixing the error Deciding how fast to send Making sure the message is kept private January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 4
5 Definitions Service: A particular networking function (e.g. message delivery) Protocol: An implementation of a service (e.g. UDP) Interface: How a protocol is manipulated (e.g. packet format) Layering Technique for organizing protocols into an ordered series of distinct abstractions The services provided by a layer depend only on the services provided by the previous, less abstract, layer January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 5
6 Why Layering? Application SSH FTP NFS HTTP Transmission Media Coaxial cable Fiber optic Packet radio Example: without layering each new application has to be re-implemented for every network technology! Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 6
7 Why Layering? Solution: introduce an intermediate layer that provides a unique abstraction for various network technologies Application SSH FTP NFS HTTP Intermediate layer Transmission Media Coaxial cable Fiber optic Packet radio Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 7
8 Benefits of layering Encapsulation Functionality inside a layer is self-contained; one layer doesn t need to reason about other layers Modularity Can replace a layer without impacting other layers Lower layers can be reused by higher layers (e.g. TCP and UDP both are layered upon IP) One obvious drawback Information hiding can produce inefficient implementations Encryption layer and compression layer independent? January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 8
9 Who decides what goes in the layers? ISO OSI Reference Model ISO International Standard Organization OSI Open System Interconnection Designed by committee in 1978 Goal: open standard to support a market for vendors to compete on protocol implementation and design Internet layering model Backporting of experience from ARPAnet (1969) and TCP/IP protocols (1974) Shares much of OSI design Roughly managed by the Internet Engineering Task Force (IETF) January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 9
10 The OSI layering Model End host Application Presentation Session Top 4 layers are end-to-end Lower 3 layers are hop-by-hop End host Application Presentation Session Transport Network node Network node Transport Network Network Network Network Datalink Datalink Datalink Datalink Physical Physical Physical Physical January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 10
11 Physical Layer (1) Service: move the information between two systems connected by a physical link Interface: specifies how to send a bit Protocol: coding scheme used to represent a bit, voltage levels, duration of a bit (what we talked about last class) Examples: coaxial cable, optical fiber links, transmitters, receivers Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 11
12 Datalink Layer (2) Service: Framing: where piece of data begins and ends Local addressing and delivery: send data frames between peers attached to the same physical media Others (sometimes):» Shared media access» Reliable transmission (resend missing packets) Interface: send a data unit (packet) to a machine connected to the same physical media Protocol: MAC addresses, media access control (MAC) implementation (e.g. Ethernet) Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 12
13 Network Layer (3) Service: Deliver a packet to specified destination Perform segmentation/reassemble (fragmentation/defragmentation) Sometimes:» Packet scheduling: order packets are sent» Buffer management: what if there are too many packets? Interface: send a packet to a given destination Protocol: global unique addresses, construct routing tables, forward packets towards destination Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 13
14 Transport Layer (4) Service: Provide an error-free and flow-controlled end-toend connection Multiplex multiple transport connections to one network connection Interface: send a packet to specify destination Protocol: implement reliability and flow control (e.g. TCP and UDP) Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 14
15 Session Layer (5) Service Session management Synchronization, e.g., between audio/video streams Interface: depends on service Protocols: full duplex connection seutp/teardown, restart and checkpointing, inter-session synchronization (e.g. SMIL) Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 15
16 Presentation Layer (6) Service: data format conversion Interface: depends on service Protocol: define data formats, and rules to convert from one format to another (e.g. NFS s XDR) Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 16
17 Application Layer (7) Service: any service provided to the end user Interface: depends on the application Protocol: depends on the application Examples: FTP, Kazaa, SSHt, HTTP Courtesy Ion Stoica January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 17
18 The Internet layering model Application (Web,FTP,SMTP) Transport (TCP,UDP) Network (IP) Datalink (Ethernet,802.11) So-called hourglass model One network layer protocol Significant diversity at other layers No presentation or session layers Implementations more important than interfaces Physical (100BaseTX,1000BaseSX) January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 18
19 Layer Encapsulation via Packet Headers Typical Web packet Ethernet Hdr IP Hdr TCP Hdr HTTP Hdr Payload (Web object) Start of packet datalink network transport application End of packet Notice that layers add overhead Space (headers), effective bandwidth Time (processing headers, peeling the onion), latency January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 19
20 Layer encapsulation via packet headers Layer N+1 packet becomes End host End host Layer N data Data Application Application Data P Data Presentation Presentation P Data S Data Session Session S Data T Data Transport Transport T Data N Data Network Network N Data D Data Datalink Datalink D Data Ph Data Physical Physical Ph Data January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 20
21 Layering by example ROUGHLY, what happens when I click on a Web page from UCSD? My computer Internet January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 21
22 Application layer (HTTP) Turn click into HTTP request GET HTTP/1.1 Host: Connection:keep-alive January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 22
23 Application layer? Name resolution (DNS) Where is My computer ( ) What s the address for Local DNS server ( ) Oh, you can find it at January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 23
24 Transport layer (TCP) Break message into packets (TCP segments) Should be delivered reliably & in-order GET HTTP/1.1 Host: Connection:keep-alive 3 yahoo.c 2 p://www. 1 GET htt and let me know when they got there January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 24
25 Network layer: IP Addressing Address each packet so it can traverse network and arrive at host My computer ( ) ( ) Destination Source Data GET htt January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 25
26 Network layer: IP Routing Each router forwards packet towards destination UCSD Sprint UUNet ( ) Qwest AT&T January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 26
27 Datalink layer (Ethernet) Break message into frames Media Access Control (MAC) Can I send now? Can I send now? Receiver Send frame January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 27
28 Physical layer 2.4Ghz Radio DS/FH Radio (1-11Mbps) b Wireless Access Point Cat5 Cable (4 wires) 100Base TX Ethernet 100Mbps Ethernet switch/router To campus backbone 62.5/125um 850nm MMF 1000BaseSX Ethernet 1000Mbps January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 28
29 Key Design Decision How do you divide functionality across the layers? End-to-end argument [Saltzer84] Functionality should be implemented at a lower layer iff it can be correctly and completely implemented there Incomplete versions of a function can be used as a performance enhancement, but not for correctness Early, and still relevant, example ARPAnet provided reliable link transfers between switches Packets could still get corrupted on host-switch link, or inside of the switches Hence, still need reliability at higher layers January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 29
30 Example: Reliable File Transfer Host A Host B 2 App 3 App 5 6 Disk 1 OS 4 OS 7 Disk Where can data be corrected? How to tell if data has been corrupted? Is there any value in lower-layer reliability? January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 30
31 Violating the E2E argument for performance optimization Functionality at lower layer can enhance performance Not required for correct operation Can be required for reasonably efficient operation Back of the envelope N hops (average hops on Internet route = 15 hops) Prob (corrupted packet per link) = p Prob(packet lost end to end)» p = % -> Prob(e2e loss) = %» p = 1% -> Prob(e2e loss) = 14%» Reasonable to implement additional reliability in the datalink layer for the 2 nd case January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 31
32 Optimization trade-offs Higher layers have more semantic information about service needs (e.g. video: bits comprising MPEG I frames are much more important that bits in MPEG B frames) Lower layers have more information about true capabilities (e.g. packet size, bandwidth, error rate) This tension is the subject of countless papers January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 32
33 Summary: layering Key technique to implement communication protocols; provides Modularity Abstraction Reuse Key design decision: what functionality to put in each layer? Next time: Framing and Error detection Read 2.3 and 2.4 January 13, 2005 CSE 123A -- Lecture 2 Signaling and Coding 33
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