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Layer One and Two LAN Networking Wires and connections Station to station packet transmission OSI: Open Systems Interconnection Reference Model LAN OSI Reference Model Application Presentation Session Transport Network Data Link Physical ©”A Guide to Networking Essentials”, 1998, Course Technology. Open Systems Interconnection (OSI) International Standard Written to be a manufacturing standard, but never built Used as a vocabulary short hand Applies to all extensions of networks OSI Reference Model 7. 6. 5. 4. 3. 2. 1. Application layer Presentation layer Session layer Transport layer Network layer Data link layer Physical layer User Programs WAN LAN OSI Layer 1 Local Area Network protocols Physical layer: standards for physical connections (e.g. plugs and connectors) Responsible for getting bits from one location to another. Medium Connectors Representation of signals Media Twisted Pair Copper Wire shielded vs unshielded plenum vs PVC Coaxial Copper Cable thinnet and thicknet Fiber single mode and multi-mode Microwave Infrared, Radio Unshielded Twisted Pairs Cheapest alternative for LAN cabling Already exists in most offices Adapts to star wiring and hub systems Trend in modern LAN installations New technologies adapt to it Shielded cable used where electronic interference a problem Cat 5 Twisted Pair Wiring Twisted Pair Signals Reverse phases to cancel noise LINE 1 + LINE 2 - Cable categories Cable Type Level 1 Level 2 Category 3 Category 4 Category 5 Use Voice & low speed data Data to 4 Mbps LAN to 10 Mbps LAN to 20 Mbps LAN to 100 Mbps Twisted Pair Connectors Wiring Pairs blue, white-blue orange, white-orange green, white-green brown, white-brown RJ-11 and RJ-45 D connectors RJ-45 (Registered Jack 45): 8 wires for Ethernet RJ-11 (4 or 6 wire versions) for telephones Unshielded Twisted Pairs Phones use 1 pair 10BaseT uses 2 pairs of Category 5 copper 100BaseT uses 2 pairs of Category 5 copper 100BaseFX uses multimode fiber 10BaseT Ethernet Wiring Fiber Optic Cables Longer distances High data rate requirements High interference situations High security situations Connections more difficult than with UTP Fiber Optic Single Mode Laser 8/125 micron Up to 50 miles LED Multimode 62.5/125 micron Up to 2000 meters Fiber-optic Connectors Wireless Infrared Radio Microwave Radio Frequency Spread Spectrum & Wi-Fi (IEEE 802.11) Wireless security Wireless LAN Access Local Area Networks Layer 2 "Gentlemen! Start — your — laptops!" Copyright 1998 Doug Adams Local Area Networks Networks that move data from station to station using a common set of layer 1 and layer 2 protocols. Common broadcast domain Local ownership Common operating system Machine ID addressing OSI Reference Model Application Presentation Session Transport Network Data Link Physical ©”A Guide to Networking Essentials”, 1998, Course Technology. Data Link - Layer 2 2. Data link layer: protocols for error free transmission from station to station The data link is responsible for node to node validity and integrity of the transmission. The transmitted bits are divided into frames; for example, an Ethernet, Token Ring or FDDI frame in local area networks. Layers 1 and 2 are required for every type of communications. Data Link - Layer 2 functions Media access Data delineation Error control Addressing Transparency Code independence Gain access to the network Start &stop characters, delimiters, frame formats Trailers: e.g. cycle redundancy checks (CRC) MAC addresses (48 bit permanent device ID’s) Special codes in data not interpreted as delineation ASCII, EBCDIC or any other code accepted Data Link Sub-layers Media Access Control (MAC) Standards for addressing and locating nodes Logical Link Control (LLC) Standards for communication with higher layers LAN Operating Protocols Ethernet open standard, cheap, most common Token Ring IBM proprietary, high quality, expensive Others Network Interface Cards Build, send out and accept frames Usually a daughter board on PC Must match LAN and CPU Require drivers to operate Network Interface Cards (NIC) Ethernet Carrier Sense Multiple Access/Collision Detection Trailer Body Listen before transmit Contention access Retransmit on collision Header Ethernet: CSMA/CD (IEEE 802.3) Carrier Sense Multiple Access with Collision Detection Compare channel voltage to reference level Any node can transmit if channel free Collision detection during transmission Jamming Random back off Slot time and minimum packet size Manchester Encoding (self-clocking bit stream) 0 1 0 High-to-Low = 0 Low-to-High = 1 Switch voltage at each time point Ethernet Packets Synchronization Data transparency MAC addresses Minimum length Error check Alternate Ethernet packet formats Ethernet Packet Structure Section Length Contents Preamble 7 bytes 10101010 (7X) Start Frame 1 byte Delimiter Destination 6 bytes Source 6 bytes 10101011 Length 2 bytes Number of bytes in data field Data 46 – 1500 Message bytes 4 bytes Cyclical redundancy check field Check Sequence MAC destination MAC source Administration Acknowledgements Address announcements (identification) Slot time Card streaming Hub access 10BaseT, 100BaseT, Gigabit Ethernet 10BaseT Specifications (Twisted Pair Ethernet) 100 m to hub 1024 stations per network 10 mbps UTP Star/bus LAN Logical/Physical Topologies Bus Ring Star Network Logical Topologies Topologies are determined by the technologies that run the network Bus: Ethernet Ring: Token ring SONET, FDDI Star: Mainframe Switched Ethernet Ethernet: Physical Star, Logical Bus LAN with hubs Hubs or Switches Switches (Layer 2) Route packets to destination nodes based on MAC addresses Limit traffic on unused branches Provide additional security Connect 10Mb and 100Mb branches Operate in firmware Switch (CISCO Catalyst 1928) Ethernet Switching Token Ring (IEEE 802.5) Allocated access via electronic token Priority access reservation Confirmed packet delivery Multiple monitor functions Token Ring Token Ring Message CRC Token access Equal access Collision avoidance Body CRC CRC Header Body Body Header Header Empty Token Structure Block Use Bytes Starting Delimiter Begin Token 1 Access Control 1 Ending Delimiter Priority Token Monitor Reservation End Token 1 Dataframe Token Structure Start delimiter Access control Frame control Destination address Source address Data Frame check sequence Ending delimiter Frame Status Bytes 1 1 Code violations Priority, Token, Monitor, Reservation Logical Link or MAC 1 6 6 To 4,500 4 Error detection 1 Code violations 1 Address recognized, Copied? Topology: Logical or Physical? Bus Ring Star Network Topologies Topologies are determined by the technologies that run the network Bus: Ethernet Ring: Token ring SONET, FDDI Star: Mainframe Switched Ethernet