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Transcript
Data and Computer Communications Chapter 18 – Internet Protocols Ninth Edition by William Stallings Data and Computer Communications, Ninth Edition by William Stallings, (c) Pearson Education - Prentice Hall, 2011 Internet internet an interconnected set of networks where each of the constituent networks retains its identity end systems devices attached to a network intermediate systems provide a communications path and perform the necessary relaying and routing functions bridges acts as a relay of frames between similar networks routers routes packets between potentially different networks Internetworking Terms TCP/IP Concepts Differences in Networks addressing schemes maximum packet size network access mechanisms timeouts error recovery status reporting routing techniques user access control connection, connectionless Connectionless Operation Internetworking involves connectionless operation at the level of the Internet Protocol (IP) IP initially developed for the DARPA internet project protocol is needed to access a particular network Connectionless Internetworking Connectionless internet facility is flexible IP provides a connectionless service between end systems. Advantages: is flexible can be made robust does not impose unnecessary overhead IP Operation LAPF : link access protocol for frame (frame relay) IP Design Issues routing datagram lifetime fragmentation and reassembly error control flow control Internet Protocol (IP) v4 defined in RFC 791 www.rfc-editor.org part of TCP/IP suite two parts specification of interface with a higher layer specification of actual protocol format and mechanisms IP Services Primitives specifies functions to be performed form of primitive implementation dependent Send : request transmission of data unit Deliver : notify user of arrival of data unit Parameters used to pass data and control information IP Parameters source & destination addresses protocol type of Service identification “don’t fragment” indicator time to live data length option data user data IPv4 Header IPv4 Header http://www.tcpipguide.com/free/t_IPDatagr amGeneralFormat.htm Important: the « Protocol » field identifies the nature of the next header (in the data portion of the IP packet) Ex: TCP, ICMP http://www.iana.org/assignments/protocolnumbers/protocol-numbers.xml IPv4 Address Formats IP Addresses - Class A start with binary 0 all 0 reserved 01111111 reserved for loopback (localhost 127.0.0.1) range 1.x.x.x to 126.x.x.x IP Addresses - Class B start with binary 10 range 128.x.x.x to 191.x.x.x second octet also included in network address 214 = 16,384 class B addresses IP Addresses - Class C start with binary 110 range 192.x.x.x to 223.x.x.x second and third octet also part of network address 221 = 2,097,152 addresses nearly all allocated see IPv6 IP Addresses Decimal code to simplify address management. 00001010 00000000 00000000 00000000 = 10.0.0.0 (classe A) Class A examples: BBN (4.0.0.0) , General Electric (3.0.0.0), Hewlett-Packard (15.0.0.0), Apple (17.0.0.0), AT&T (12.0.0.0), IBM (9.0.0.0), DEC (16.0.0.0), MIT (18.0.0.0) Class B example : UQAC (132.212.0.0) IP Addresses IP addresses index : http://cqcounter.com/whois/ip/ (http://www.ip2location.com/) IP Addresses Special cases : "loopback address" : 127.0.0.1 Non-routable addresses : 10.0.0.0 à 10.255.255.255 172.16.0.0 à 172.31.255.255 192.168.0.0 à 192.168.255.255 if hostid = 111....1, "broadcast" in the local network Addresses assigned by central organisations IANA (ARIN, RIPR NCC, LACNIC and APNIC) InterNIC: www.internic.net (http://www.internic.ca/) Godaddy Subnets and Subnet Masks allows arbitrary complexity of internetworked LANs within organization insulate overall internet from growth of network numbers and routing complexity site looks to rest of internet like single network each LAN assigned subnet number host portion of address partitioned into subnet number and host number local routers route within subnetted network subnet mask indicates which bits are subnet number and which are host number IP Addresses and Subnet Masks Subnet mask: Allows to define netid and subnetid Subnets and Subnet Masks When the default gateway is actually used Decision based on netmask Subnets and Subnet Masks Obtaining an IP address DHCP : dynamic host configuration protocol belongs to the application layer uses UDP port 68 on the client and port 67 on the server see figure in http://wiki.cas.mcmaster.ca/index.php/Dynamic_ Host_Configuration_Protocol Information sent by DHCP server Default gateway Domain name Name servers … Address Resolution Protocol (ARP) Address Resolution Protocol (ARP) Sequence of events : •See http://www.tcpipguide.com/free/t_ARPAddressSpecificationandGeneralOperation-2.htm To read the arp table on a PC : arp -a
