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Transcript
Computer Networking From LANs to WANs: Hardware, Software, and Security Chapter 7 Low-Level Protocols Objectives • Describe the format of a serial data transmission • List the differences between SLIP and PPP • Explain the operation of the Logical Link Control sublayer • Discuss the role of NetBEUI, NetBIOS, and NetBIOS over TCP/IP in a Windows network Computer Networking From LANs to WANs: Hardware, Software, and Security 2 Serial Data Communication • Communication over single communication line – One bit at a time (least significant bit first) • 11-bit transmission waveform standard – Used for transmitting 7-bit ASCII characters – First bit: start bit (always low) • Identifies beginning of new transmission – Next seven bits: ASCII code – Last data bit: parity bit – Last two transmission frame bits: stop bits (always high) • May be one, one and one-half, two stop bits Computer Networking From LANs to WANs: Hardware, Software, and Security 3 Serial Data Communication (cont’d.) • Parity bits – Determine error in the received character – Odd parity • Occurs if odd number of 1s – Even parity • Occurs if even number of 1s • Transmission error: – Received parity not in line with expected parity Computer Networking From LANs to WANs: Hardware, Software, and Security 4 Serial Data Communication (cont’d.) • Example: ASCII character lower case I – ASCII code is 69 hexadecimal (1101001 binary) Figure 7-1 11-bit transmission code Computer Networking From LANs to WANs: Hardware, Software, and Security 5 Serial Data Communication (cont’d.) • Each waveform bit takes same amount of time – Related to baud rate of the serial transmission – Baud rate • Generally: number of bits per second in a transmission • Actually: number of transitions per second • Advantages – Simple connection requirements • Single transmit wire, single receive wire (plus ground) • Asynchronous communication not possible – Start bit used to synchronize transmitter and receiver Computer Networking From LANs to WANs: Hardware, Software, and Security 6 Serial Data Communication (cont’d.) • UARTs (universal asynchronous receiver transmitter) – Digital devices handling serial data transmission – Parallel input data converted to serial output data – Serial input data converted into parallel output data Figure 7-2 The UART Computer Networking From LANs to WANs: Hardware, Software, and Security 7 SLIP • First protocol to transmit TCP/IP over dial-up lines • Provides basic method to encapsulate TCP/IP data • Not provided – – – – – Error detection Internet Protocol (IP) address assignments Link testing Synchronous communication Transmission protocols other than TCP/IP • Compressed SLIP (CSLIP) available • Replaced Point-to-Point Protocol (PPP) Computer Networking From LANs to WANs: Hardware, Software, and Security 8 PPP • Provides serial connection encapsulation – TCP/IP, IPX, NetBEUI, AppleTalk, other protocols • PPP frame provides: – Error detection • Checksum value tests data validity – Ability to assign IP addresses • As needed during session duration – Link testing • Mechanism to periodically test PPP link operation status Computer Networking From LANs to WANs: Hardware, Software, and Security 9 PPP (cont’d.) • PPP frame provides: (cont’d.) – Synchronous, asynchronous communication modes – Security (user name, password authentication) • Password Authentication Protocol (PAP) • Challenge Handshake Authentication Protocol (CHAP) – Compression • Operates on layers 1 (Physical) and 2 (Data-Link) Figure 7-3 PPP frame format Computer Networking From LANs to WANs: Hardware, Software, and Security 10 PPP (cont’d.) Table 7-1 Comparing SLIP and PPP Computer Networking From LANs to WANs: Hardware, Software, and Security 11 PPPoE • Allows multiple LAN users to share a single Internet connection – Encapsulates PPP within an Ethernet frame • User establishes PPPoE session through the single ISP Internet connection – Each PPPoE user session can be monitored (billing) Computer Networking From LANs to WANs: Hardware, Software, and Security 12 PPPoE (cont’d.) • Code field: PPPoE frame type (discovery, session) • Session ID, Ethernet frame’s source and destination MAC addresses – Uniquely identify PPPoE session • Length field: payload size or user data, sent Figure 7-4 PPPoE frame format Computer Networking From LANs to WANs: Hardware, Software, and Security 13 Logical Link Control • Data-Link layer contains two parts Figure 7-5 Data-Link layer details Computer Networking From LANs to WANs: Hardware, Software, and Security 14 Logical Link Control (cont’d.) • Three types of service: – Type 1: Connectionless communication (unreliable) – Type 2: Connection-oriented communication (reliable) – Type 3: Acknowledged connectionless communication • LLC protocol: – Based on HDLC (High-Level Data-Link Control) • Provides mechanism for sending commands and responses over a communication link Computer Networking From LANs to WANs: Hardware, Software, and Security 15 Logical Link Control (cont’d.) • DSAP and SSAP fields – Indicate how payload interpreted • SNAP (subnetwork access protocol) payload use – When high-level protocol handled by LLC sublayer Figure 7-6 Logical Link Control PDU Computer Networking From LANs to WANs: Hardware, Software, and Security 16 Logical Link Control (cont’d.) • MAC sublayer – Interfaces LLC sublayer with different network technologies • LLC sublayer does not know details – Allows the same LLC sublayer to work with different network technologies – Additional responsibilities • Controlling access to network media • Recovering from errors • Addressing (working with MAC addresses) Computer Networking From LANs to WANs: Hardware, Software, and Security 17 NetBIOS • Provides all functionality to share resources between networked computers • Utilizes three types of services: – Name: Finding and naming machines – Session: Connection-oriented reliable transfer of messages – Datagram: Connectionless non-reliable datagram transfer • NetBIOS message main component – SMB (server message block) • Provide all functionality possible under NetBIOS Computer Networking From LANs to WANs: Hardware, Software, and Security 18 NetBIOS (cont’d.) Table 7-2 Sample NetBIOS commands Computer Networking From LANs to WANs: Hardware, Software, and Security 19 NetBIOS (cont’d.) • Machine names – NetBIOS names that identify each machine • Up to 15 characters (letters, numbers, limited set of symbols) Figure 7-8 Invalid NetBIOS computer name error message Figure 7-7 Windows 9x Network Identification display Computer Networking From LANs to WANs: Hardware, Software, and Security 20 NetBEUI • Transport mechanism to deliver NetBIOS messages over a LAN • Does not conform to OSI model – Uses Transport, Network, LLC part of Data-Link • Not a routable protocol – Uses MAC addresses to specify source, destination computers • Only used on small networks • Windows Internet Name Service (WINS) – Maps NetBIOS names to IP addresses Computer Networking From LANs to WANs: Hardware, Software, and Security 21 NetBEUI (cont’d.) • NetBIOS over TCP/IP – NetBIOS messages transported using TCP – Used to share resources over a WAN • View Network properties window • NETSTAT displays active NetBIOS ports – Some may cause computer vulnerability Table 7-3 NetBIOS over TCP/IP port assignments Computer Networking From LANs to WANs: Hardware, Software, and Security 22 Figure 7-9 Active network connections on a Windows system Computer Networking From LANs to WANs: Hardware, Software, and Security 23 Figure 7-10(a) Network Properties showing protocol bindings on a Windows 9x computer Computer Networking From LANs to WANs: Hardware, Software, and Security 24 NetBEUI (cont’d.) • Communication channel – Formed between protocol and adapter • When protocol bound to network adapter • Protocol cannot use an adapter until it is bound to it • Multiple protocols – May be bound to single adapter or multiple adapters • NetBEUI originally used by IBM LAN Manager network – Now adapted by Microsoft for use in Windows Computer Networking From LANs to WANs: Hardware, Software, and Security 25 Figure 7-10(b) Windows 9x NetBEUI Properties window Computer Networking From LANs to WANs: Hardware, Software, and Security 26 Figure 7-10(c) Windows 9x NetBEUI Properties window Computer Networking From LANs to WANs: Hardware, Software, and Security 27 Figure 7-11 NetBEUI Properties windows on Windows 2003 server Computer Networking From LANs to WANs: Hardware, Software, and Security 28 Troubleshooting Techniques • Protocol information sources – http://www.protocols.com – http://www.whatis.com Computer Networking From LANs to WANs: Hardware, Software, and Security 29 Summary • Low-level protocols – Establish serial communication – Exchange data over different hardware technologies – Provide peer-to-peer communication • Serial data communication – One bit at a time over a single communication line – Parity bits help determine errors in the received waveform • Many protocols available – SLIP, PPP, PPPoE, NetBIOS, NetBEUI Computer Networking From LANs to WANs: Hardware, Software, and Security 30
