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1 Credits: Parts of the slides are based on slides created by UNIX textbook authors, Syed M. Sarwar, Robert Koretsky, Syed A. Sarwar, 2005 Addison Wesley Jozef Goetz, 2009 expanded by Jozef Goetz, 2009 Objectives You may ignore slides from 66 to the end. To describe networks, the Internet and internetworks and explain why they are used To discuss briefly the TCP/IP protocol suite, IP addresses, protocol ports, and internet services and applications To explain what the client-server software model is and how it works To discuss various network software tools for electronic communication , 1. 2. 3. 4. Jozef Goetz, 2009 remote login, file transfer, remote command execution , and status reporting To describe briefly the secure shell To cover the commands and primitives 2 Computer Networks and Internet works When two or more computer hardware resources are connected they form a computer network 1. 2. 3. Jozef Goetz, 2009 Local area Networks (LANs) Metropolitan area networks (MANs) Wide area networks (WANs) An internetwork is a network of networks 3 A brief history of the Internet 4 • ARPANET (50s and 60s, some universities) • NSFNET (late 70s, all universities) • TCP/IP (invention ’74) became the official protocol in 1983. When NSFNET and the ARPANET were connected, the growth became exponential Many regional networks (Canada, Europe, the Pacific) joined up In mid-80s people began viewing the collection of networks as the Internet The glue that holds the Internet together is the TCP/IP reference model and TCP/IP protocol stack • ANS (Advanced Networks and Service) by MERIT, MCI, and IBM took over NSFNET in 1990 as ANSNET • ANSNET sold to American Online in 1995. Jozef Goetz, 2009 The ARPANET The original ARPANET design. IMP - Interface Message Processor Jozef Goetz, 2009 5 The ARPANET Growth of the ARPANET (a) December 1969. (b) July 1970. (c) March 1971. (d) April 1972. (e) September 1972. Jozef Goetz, 2009 6 NSFNET The NSFNET backbone in 1988. Jozef Goetz, 2009 7 Internet Usage Machine is on the Internet if 8 it runs the TCP/IP protocol stack, has an IP address, and can send IP packets to all the other machines on the Internet Millions PC can call up an Internet service provider using a modem, be assigned a temporary (dynamic) IP address, and send IP packets to all the other hosts The ch-r of the network was changed from an academic and military playground to a public utility Jozef Goetz, 2009 Internet Usage Traditional applications (1970 – 1990) E-mail News Remote login newsgroups devoted to different topics) Using telnet, WinSCP, rlogin, ssh programs File transfer Jozef Goetz, 2009 Using FTP programs 9 What is the World Wide Web? From the Free Online Dictionary of Computing: "An Internet client-server hypertext distributed information retrieval system." The Web is not a network. The Web is not the Internet itself. The Web is not a proprietary system like AOL. Instead the Web is a system of clients (Web browsers) and servers that uses the Internet for its data exchange. On the WWW everything (documents, menus, indices) is represented to the user as a hypertext object in HTML format. Hypertext links refer to other documents by their URLs. These can refer to local or remote resources accessible via FTP, Gopher, Telnet or news, as well as those available via the http protocol used to transfer hypertext documents. Jozef Goetz, 2009 10 History of the Internet and World Wide Web WWW Allows computer users to locate and view multimedia-based documents Introduced in 1991 by Tim Berners-Lee Developed information system based on hyperlinked text documents 11 HyperText Markup Language (HTML) Developed communication protocols as backbone WWW today Makes info instantly accessible Merges computing and communication technologies 11 Jozef Goetz, 2009 Internet Usage Tim Berners-Lee at CERN (Switzerland) invented the WWW (World Wide Web) In ’91 12 to a hyperlink (HTTP) access to documents brought millions of nonacademic users In ’93 development of Mosaic by Marc Anderson, the first graphics-based web browser at NCSA This created an interface to the Web that was easy to use – just point and click instead of remembering text commands This set the stage for easier information sharing and retrieval 12 Jozef Goetz, 2009 Architecture of the Internet. 13 A NAP (Network Access Point) is a room full of routers, at least one per backbone Overview of the Internet. Signal is transferred to the ISP’s (Internet Service Provider) POP – Point of Present (located in the tel. switching office) and injected into the ISP’s regional network from this point the system is fully digital and Jozef Goetz, 2009 packet switched A LAN in the room connects all the routers, so packets can be forwarded from any backbone to any other backbone Collection of Subnetworks 14 SNA: Systems Network Architecture -IBM's mainframe network standards The Internet is an interconnected collection of many networks. Jozef Goetz, 2009 X.25 Networks • Developed during 70's. 1st public data network interface between public packet-switched networks and customers. Data packet has a 3-byte header a 12 bit connection #, a packet sequence #, an acknowledgment # etc. and up to 126 bytes of data • Operate at 64 Kbps, so are very slow and becoming outdated. However there are still many of them in operation. • Connection oriented: Uses: • Switched Virtual Circuit established when the first packet is sent circuit remains for duration of session providing in-order delivery, and flow control. • Permanent Virtual Circuit established by agreement between the customer and the carrier: Jozef Goetz, 2009 Like a leased line 15 Frame Relay 16 • Takes advantage of modern high-speed reliable digital phone lines. Connection oriented. Property: In-order delivery, no error control, no flow control, akin to LAN • This allows simple protocols with work done by user computers rather than by the network. Runs at 1.5 Mbps with few features. • Customer leases a permanent virtual circuit between two points. Jozef Goetz, 2009 this "virtual leased line" means that the wire is shared with other users at a great price reduction. Broadband ISDN and ATM 17 Connection oriented. • ISDN (Integrated Services Digital Network) offers cable, video on demand, e-mail, etc. • ATM (Asynchronous Transfer Mode) early ’90s is underlying Mechanism inside the tel. system. Transmits in small fixed-size cells. Not synchronous. Jozef Goetz, 2009 Was supposed to merge voice, data, cable TV, telex, telegraph etc. into a single integrated system – it didn’t happen Alive, used by carriers for internal transport 18 (a) Computer Networks and (b) Internetworks R – router H - host Jozef Goetz, 2009 Why Computer Networks and Internetworks? Sharing of computer resources Network as a communication medium inexpensive, fast, reliable Cost efficiency computers, printers, plotters, scanners, files and software large computing power available Less performance degradation if one computer crashes, the remaining ones are still up Jozef Goetz, 2009 19 Network Models International Standards Organization’s Open System Interconnect Reference Model (ISO’s OSI 7-Layer Reference Model) The TCP/IP 5-layer Model Jozef Goetz, 2009 Used in the Internet 20 21 Network Models with approximate mapping between the two •The first 4 layers deal with the communication between hosts. •The 5th layer deals with the Internet services provided by various applications. •Most of the 1st layer is handled by hardware (communication medium used, attachments of hosts to the medium). •The rest of the 1st layer and all the 2nd layer is handled by the (Network Interface Card) NIC card in a host. •Layers 3 and 4 are fully implemented in the operating systems kernel on most existing systems. Jozef Goetz, 2009 •The first 2 layers are network hardware specific, the others are work independently of the physical layer Reference Models Protocols and networks in the TCP/IP model initially. The Application layer contains all of the higherlevel protocols – telnet - virtual terminal protocol – FTP – file transfer – SMTP – e-mail – DNS - Domain Name System – NNTP - Network News Transfer Protocol – HTTP - Hypertext Transfer Protocol Jozef Goetz, 2009 22 The TCP/IP Protocol Suite As a user you can see the application layer from applications and utilities: 1. 2. 3. 4. Jozef Goetz, 2009 Web browsing, file transfer, remote login etc. 23 The TCP/IP Protocol Suite IGMP - Internet Group Management Protocol handles multicasting ICMP - Internet Control Message Protocol Handles errors and control messages. Protocol is used to forward information, primarily error messages. To see if a computer is running, the `ping' program sends an echo request, which is part of ICMP. ARP -Address Resolution Protocol is a protocol for mapping an Internet Protocol IP address to a physical machine address that is recognized in the local network. For example, in IP Version 4, the most common level of IP in use today, an address is 32 bits long. In an Ethernet LAN, however, addresses for attached devices are 48 bits Jozef Goetz, 2009 RARP - Reverse Address Resolution Protocol is a protocol by which a physical machine in a LAN can request to learn its IP address from a gateway server's Address Resolution Protocol (ARP) table or cache. A network administrator creates a table in a LAN’s gateway router that maps the physical machine (addresses) into IP addresses. 24 Transport Layer: The TCP and UDP The purpose of the transport layer is to transport application data from your machine to a remote machine and vice versa User Datagram Protocol (UDP) is a connectionless protocol, offers the effort delivery service best Transmission Control Protocol (TCP) is a connection-oriented protocol that establish a virtual connection with the destination before transmitting data, thus the TCP leads completely reliable, error free in-sequence delivery of data Jozef Goetz, 2009 25 Routing of the Application Data The Internet Protocol (IP) The network layer is responsible for routing application data to the destination host IP is responsible for transporting IP datagrams containing TCP segments or UDP datagrams to the destination host The IP is a connectionless protocol, it simply sends the application data without establishing virtual connection with the destination before transmitting data, Jozef Goetz, 2009 thus the IP routing is best effort and doesn’t guarantee delivery of TCP segments or UDP datagrams 26 Routing of the Application Data The Internet Protocol (IP) In IPv4 the IP address (32 bits) is divided into three fields: 1. address class, 2. network ID and 3. host ID The address class field identifies the class of the address and dictates the number of bits used in the network ID and host ID fields This scheme has 5 address classes : A,B,C,D,E Jozef Goetz, 2009 27 IPv4 Addresses in Dotted Decimal Notation 32-bit binary numbers are difficult to remember IPv4 addresses are given in dotted decimal notation (DDN) In DDN all 4 bytes of an IPv4 address are written in their decimal equivalents and are separated by dots Example: 192.102.10.21 Jozef Goetz, 2009 28 IP Addresses IP address formats. 127.0.0.0 (or 127.x.x.x, where x is between 0-127) is known as localhost is used to send a data packet to itself. for testing purpose. host ID = 1…1 is the broadcast address in order to send a data packet to all hosts on a network Jozef Goetz, 2009 29 IPv4 Address Classes The sum of network IDs for class A, B, C = 2^7 + 2^14 + 2^21 = 1,113,664 networks The sum of hosts IDs for class A, B, C = 2^24 + 2^16 + 2^ 8 = 3,758,096,400 hosts Jozef Goetz, 2009 30 IPv4 Address Classes Prove all ranges!!! Jozef Goetz, 2009 31 IPv4 Address Classes •A: Very large organizations and government agencies •B: Large organizations: AT&T, IBM, MIT, large universities etc. •C: Small to medium sized organizations: ISP, small consulting companies, community colleges, universities Jozef Goetz, 2009 In IPv4 the IP address (32 bits) In IPv6 the IP address is 128 bits and it covers the # of hosts 6 x 2^28 times the present world population 32 33 IPv4 Address Classes Figure 14.5 An internetwork of 4 networks with one class A, one class B, and 2 class C networks connected via 4 routers class C class A class C Jozef Goetz, 2009 class B Symbolic Names 34 Symbolic names are easier to remember remain the same even if the numeric address changes must be unique for a host on the Internet Format: hostname.domain_name e.g. students.up.edu where: domain_name = organization_name.top-level_domain organization_name is assigned by the Network Information Center e.g. ulv.edu Attaching the name of a host to a domain name with a period between them yields the fully qualified domain name (FQDN) for the host e.g. egr.up.edu – egr is a host name at the University of Portland Jozef Goetz, 2009 35 A portion of the Internet domain name hierarchy Jozef Goetz, 2009 Top-Level Internet Domains Jozef Goetz, 2009 36 37 Jozef Goetz, 2009 The Domain Name System Domain Name System (DNS) service translates symbolic names to equivalent IP addresses DNS implements a distributed database of name-to-address mappings A set of dedicated hosts run name servers that take requests from the application software and work together to map domain names to the corresponding IP addresses every organization runs at least 1 domain name server Jozef Goetz, 2009 app uses gethostbyname() to get its IP address 38 39 Inverse domain The servers that handle the inverse domain are also hierarchical. This means the netid part of the address should be at a higher level than the subnetid part, and the subnetid part higher than the hosted part. In this way, a server serving the whole site is at a higher level than the servers serving each subnet. To follow the convention of reading the domain labels from the bottom to the top, an IP address such as 132.34.45.121 (a class 13: address with netid 132.34) is read as 121.45.34.132.in-addr. area. This configuration makes the domain look inverted when compared to a generic or country domain. Jozef Goetz, 2009 DNS lookup utility: host [cs253u@shell cs253u]$ host ecs.fullerton.edu ecs.fullerton.edu has address 137.151.27.1 [cs253u@shell cs253u]$ host 137.151.27.1 1.27.151.137.in-addr.arpa domain name pointer ecs.fullerton.edu. [cs253u@shell cs253u]$ [jgoetz ulv.edu ulv.edu ulv.edu jgoetz]$ host ulv.edu has address 192.231.179.66 mail is handled (pri=5) by mxg1.ulv.edu mail is handled (pri=5) by mxg2.ulv.edu [jgoetz jgoetz]$ host 192.231.179.66 66.179.231.192.IN-ADDR.ARPA domain name pointer www.ulv.edu Jozef Goetz, 2009 40 The Domain Name System #DNS service is to use a static host file /etc/hosts #a static hosts file contains the domain names and their IP addresses configured by the system admin $ cat /etc/hosts [jgoetz jgoetz]$ cat /etc/hosts 127.0.0.1 localhost 192.231.179.91 raq4.ulv.edu # Cobalt automated entry for eth0 192.231.179.81 loki.ulv.edu loki #Veritas Backup Server #to view IP address and other info about host’s interface to the network $ /sbin/ifconfig –a # faculty.ulv.edu has 192.231.179.91 [jgoetz jgoetz]$ /sbin/ifconfig -a eth0 Link encap:Ethernet HWaddr 00:10:E0:05:A8:F4 inet addr:192.231.179.91 Bcast:192.231.179.95 Mask:255.255.255.224 UP BROADCAST RUNNING MULTICAST MTU:1500 Metric:1 RX packets:212947098 errors:0 dropped:0 overruns:0 frame:0 TX packets:318162567 errors:3 dropped:0 overruns:0 carrier:3 collisions:0 txqueuelen:100 Interrupt:5 Base address:0x8000 eth1 Link encap:Ethernet HWaddr 00:10:E0:05:A8:F3 BROADCAST MULTICAST MTU:1500 Metric:1 RX packets:0 errors:0 dropped:0 overruns:0 frame:0 TX packets:0 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:100 Interrupt:9 Base address:0x8100 lo Link encap:Local Loopback inet addr:127.0.0.1 Mask:255.0.0.0 UP LOOPBACK RUNNING MTU:3924 Metric:1 RX packets:1749416 errors:0 dropped:0 overruns:0 frame:0 TX packets:1749416 errors:0 dropped:0 overruns:0 carrier:0 collisions:0 txqueuelen:0 $ Jozef Goetz, 2009 41 The Domain Name System [cs253u@shell cs253u]$ cat /etc/hosts # Do not remove the following line, or various programs # that require network functionality will fail. 127.0.0.1 localhost.localdomain localhost shell 192.168.3.25 ldap.int.ecs.fullerton.edu ldap 192.168.3.29 ecsmysql.ecs.fullerton.edu ecsmysql 192.168.3.30 mail.ecs.fullerton.edu mail 137.151.28.223 lupus.ecs.fullerton.edu lupus 192.168.3.200 lupus2.ecs.fullerton.edu lupus2 Jozef Goetz, 2009 42 The Domain Name System #lookup for the IP address of a host name: [cs253u@shell cs253u]$ nslookup ecs.fullerton.edu Server: 192.168.3.26 # name server Address: 192.168.3.26#53 Name: Address: ecs.fullerton.edu 137.151.27.1 [jgoetz jgoetz]$ nslookup ulv.edu Server: ns.ulv.edu Address: 64.69.149.200 Name: ulv.edu Address: 192.231.179.66 [jgoetz@raq4 Server: Address: Name: Address: ~]$ nslookup faculty.ulv.edu ns.ulv.edu # this a name server 64.69.149.200 faculty.ulv.edu 192.231.179.91 #nslookup uses file /etc/resolv.conf to find the host that runs the name server and passes the request over it. [jgoetz@raq4 ~]$ host 192.231.179.91 91.179.231.192.IN-ADDR.ARPA domain name pointer FACULTY.ULV.EDU Jozef Goetz, 2009 43 The Domain Name System nslookup uses file /etc/resolv.conf to find the host that runs the name server and passes the request over it. [cs253u@shell cs253u]$ cat /etc/resolv.conf nameserver 137.151.1.1 nameserver 192.168.3.26 DNS lookup utility: dig interacts with name servers specified in /etc/resolv.conf and display their responses – gives more info than nslookup Jozef Goetz, 2009 44 The Domain Name System [jgoetz@raq4 ~]$ dig faculty.ulv.edu [jgoetz jgoetz]$ dig ulv.edu ; <<>> DiG 8.3 <<>> faculty.ulv.edu ; <<>> DiG 8.3 <<>> ulv.edu ;; res options: init recurs defnam dnsrch ;; res options: init recurs defnam dnsrch ;; got answer: ;; got answer: ;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: ;; 4 ->>HEADER<<- opcode: QUERY, status: ;; flags: qr aa rd ra; QUERY: 1, ANSWER: 1, AUTHORITY: 2,NOERROR, id: 4 ADDITIONAL: 2 ;; flags: qr aa rd ra; QUERY: 1, ANSWER: 1, ;; QUERY SECTION: AUTHORITY: 2, ADDITIONAL: 2 ;; faculty.ulv.edu, type = A, class = IN ;; QUERY SECTION: ;; ulv.edu, type = A, class = IN ;; ANSWER SECTION: faculty.ulv.edu. 1D IN A 192.231.179.91 ;; ANSWER SECTION: ulv.edu. 12H IN A 192.231.179.66 ;; AUTHORITY SECTION: ulv.edu. 1D IN NS ns.ulv.edu. ;; AUTHORITY SECTION: ulv.edu. 1D IN NS ns2.ulv.edu. ulv.edu. 12H IN NS ns2.ulv.edu. ulv.edu. 12H IN NS ns.ulv.edu. ;; ADDITIONAL SECTION: ns.ulv.edu. 1D IN A 64.69.149.200 ;; ADDITIONAL SECTION: ns2.ulv.edu. 1D IN A 64.69.154.123 ns.ulv.edu. 12H IN A 64.69.149.200 ns2.ulv.edu. 12H IN A 64.69.154.123 ;; Total query time: 25 msec ;; FROM: raq4.ulv.edu to SERVER: default -- 64.69.149.200 ;; Total query time: 11 msec ;; WHEN: Wed Nov 16 22:25:25 2005 ;; FROM: raq4.ulv.edu to SERVER: default -;; MSG SIZE sent: 33 rcvd: 116 64.69.149.200 ;; WHEN: Thu Nov 15 16:21:26 2007 ;; MSG SIZE sent: 25 rcvd: 108 Jozef Goetz, 2009 45 The Domain Name System dig [jgoetz jgoetz]$ dig ulv.edu ecs.fullerton.edu ; <<>> DiG 9.2.4 <<>> ecs.fullerton.edu ;; global options: printcmd ;; Got answer: ;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: 29854 ;; flags: qr aa rd ra; QUERY: 1, ANSWER: 1, AUTHORITY: 1, ADDITIONAL: 0 ;; QUESTION SECTION: ;ecs.fullerton.edu. IN ;; ANSWER SECTION: ecs.fullerton.edu. 137.151.27.1 86400 ;; AUTHORITY SECTION: ecs.fullerton.edu. ecs.fullerton.edu. 86400 ;; ;; ;; ;; IN IN Query time: 22 msec SERVER: 192.168.3.26#53(192.168.3.26) WHEN: Fri Mar 14 23:54:21 2008 MSG SIZE rcvd: 65 Jozef Goetz, 2009 A A NS ; <<>> DiG 8.3 <<>> ulv.edu ;; res options: init recurs defnam dnsrch ;; got answer: ;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: 4 ;; flags: qr aa rd ra; QUERY: 1, ANSWER: 1, AUTHORITY: 2, ADDITIONAL: 2 ;; QUERY SECTION: ;; ulv.edu, type = A, class = IN ;; ANSWER SECTION: ulv.edu. 12H IN A 192.231.179.66 ;; AUTHORITY SECTION: ulv.edu. 12H IN NS ulv.edu. 12H IN NS ns2.ulv.edu. ns.ulv.edu. ;; ADDITIONAL SECTION: ns.ulv.edu. 12H IN A ns2.ulv.edu. 12H IN A 64.69.149.200 64.69.154.123 ;; Total query time: 11 msec ;; FROM: raq4.ulv.edu to SERVER: default -64.69.149.200 ;; WHEN: Thu Nov 15 16:21:26 2007 ;; MSG SIZE sent: 25 rcvd: 108 46 47 Well-known Internet Services Jozef Goetz, 2009 The Client-Server Software Model 48 Internet services are implemented by using a paradigm in which the software for a service is partitioned into 2 parts The part that runs on the host on which the user running the application is logged on to is called the client software The part that’s usually starts running when a host boots is called the server software Connection-oriented client server models: client sends a connection request to the server and the server either rejects or accepts the request. If server accepts the request, the client and server are said to be connected through a virtual connection Jozef Goetz, 2009 49 The Client-Server Software Model http://faculty.ulv.edu/ Jozef Goetz, 2009 Displaying the Names. 50 uname [OPTION]... DESCRIPTION Print certain system information. With no OPTION, same as -s. -a, --all print all information -m, --machine print the machine (hardware) type -n, --nodename print the machine's network node hostname -r, --release print the operating system release -s, --sysname print the operating system name -p, --processor print the host processor type -v print the operating system version --help display this help and exit --version output version information and exit Jozef Goetz, 2009 [jgoetz jgoetz]$ uname Linux [jgoetz jgoetz]$ uname -n raq4.ulv.edu [jgoetz jgoetz]$ uname -a [jgoetz jgoetzLinux raq4.ulv.edu 2.2.16C37_V #1 Sat Apr 12 15:06:43 PDT 2003 i686 unknown Displaying the Host Name $ uname -n yamsrv1.ece.gatech.edu $ uname -a SunOS yamsrv1.ece.gatech.edu 5.8 Generic_108528-22 sun4u sparc SUNW,Ultra-250 [cs253u@shell cs253u]$ whatis hostname hostname (1) - show or set the system's host name $ hostname – name of the host you are logged on to yamsrv1.ece.gatech.edu [jgoetz jgoetz]$ hostname raq4.ulv.edu Jozef Goetz, 2009 -a, --all print all information -m, --machine print the machine (hardware) type -n, --nodename print the machine's network node hostname --help 51 cpu info. [cs253u@shell cs253u]$ less /proc/cpuinfo processor :1 vendor_id : AuthenticAMD cpu family : 15 model : 35 model name : Dual Core AMD Opteron(tm) Processor 175 stepping :2 cpu MHz : 2211.280 cache size : 1024 KB fdiv_bug : no hlt_bug : no f00f_bug : no coma_bug : no fpu : yes fpu_exception : yes cpuid level :1 flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush mmx fxsr sse sse2 ht syscall nx mmxext lm 3dnowext 3dnow lahf_ lm pni /proc/cpuinfo (END) Jozef Goetz, 2009 52 Remote Login. The telnet protocol is designed to allow you to connect to a remote computer over a network telnet [options] [host[port]] Purpose: To connect to a remote system ‘host’ via a network; the ‘host’ can be specified by its name or IP address in dotted decimal notation Commonly used options/features: -a Attempt automatic login -l Specify a user for login usage: telnet [-l user] [-a] host-name [port] e.g. titan/bin > telnet -l jgoetz -a faculty.ulv.edu Trying 192.231.179.91... Connected to FACULTY.ULV.EDU (192.231.179.91). Escape character is '^]'. Password: Last login: Wed Nov 29 13:00:01 from cpe-66-74- … telnet help //or telnet --help // to get available cmds Jozef Goetz, 2009 53 54 Remote Login (contd.) [jgoetz jgoetz]$ telnet -? telnet: invalid option -- ? Usage: telnet [-8] [-E] [-L] [-S tos] [-a] [-c] [-d] [-e char] [-l user][-n tracefile] [-b hostalias ][-r] [host-name [port]] Ctrl + D close the session Jozef Goetz, 2009 Remote Login (contd.) # reverts to the telnet client – place in the foreground Jozef Goetz, 2009 55 Using Telnet to Invoke Other Well-known Services invokes a daytime service running at port 13 Jozef Goetz, 2009 56 Remote Login (contd.) [cs253u@shell cs253u]$ telnet -l cs253u -a ecs.fullerton.edu Trying 127.0.0.1... Connected to ecs.fullerton.edu (127.0.0.1). Escape character is '^]'. Password: Linux CentOS * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *** Welcome To Titan *** *** California State University at Fullerton *** *** Department of Computer Science *** ================================================================== This system follows rules and policy set down by the Computer Science Department. By using this system you expressly consent to all rules and policies which govern this system. Visit http://tech.ecs.fullerton.edu for tutorials, downloads and additional information about the system. ================================================================== You have mail. $ telnet upsun29 Trying 192.102.10.89... Connected to upsun29.egr.up.edu. Escape character is ‘^]’. UNIX(r) System V Release 4.0 (upsun29.egr.up.edu) login: sarwar Password: ********** Last login: Sat Dec 27 05:05:37 from up You have mail. DISPLAY = (‘) TERM = (vt100) $ Jozef Goetz, 2009 57 File Transfer ftp [options] [host] Purpose: To transfer files from or to a remote ‘host’ Commonly used options/features -d Enable debugging -i Disable prompting during transfers of multiple files -v Show all remote responses Jozef Goetz, 2009 58 File Transfer titan/jozefg > ftp -v faculty.ulv.edu // -v Show all remote responses Connected to faculty.ulv.edu. 220 ProFTPD 1.2.9 Server (ProFTPD) [192.231.179.91] 500 AUTH not understood 500 AUTH not understood KERBEROS_V4 rejected as an authentication type Name (faculty.ulv.edu:jozefg): jgoetz 331 Password required for jgoetz. Password: 230 User jgoetz logged in. Remote system type is UNIX. Using binary mode to transfer files. ftp> ls -l 200 PORT command successful 150 Opening ASCII mode data connection for file list -rw-r--r-- 1 jgoetz site7 123392 Nov 28 21:01 Assig.doc -rwxrwxrwx 1 jgoetz site7 13 Oct 31 07:22 m drwxrwsr-x 4 jgoetz site7 4096 Jun 1 2006 web 226 Transfer complete. ftp> Jozef Goetz, 2009 59 File Transfer Jozef Goetz, 2009 60 61 Jozef Goetz, 2009 Testing a Network Connection ping [options] hostname Purpose: Output: Send an IP datagram to ‘hostname’ to test whether it is on the network (or Internet); if the host is alive it simply echoes the received datagram Message(s) indicating whether the machine is alive Commonly used options/features: -c count Send and receive ‘count’ (e.g. 3) packets -f Send 100 packets per second or as many as can be handled by the network; only the superuser can use this option -s packetsize Send ‘packetsize’ packets; the default is 56 bytes (plus an 8 byte header) Jozef Goetz, 2009 62 Testing a Network Connection ping -c count Send and receive ‘count’ packets ping -s packetsize Send ‘packetsize’ packets; the default is 56 bytes (plus an 8 byte header); Test yahoo.com Jozef Goetz, 2009 63 Utility Commands 64 Examining System Setups whereis, whoami $ whoami bobk $ whereis mkdir mkdir: /usr/bin/mkdir $ Printing and General Utility Commands lpr, cal $ lpr -Pprintname file_name $ lpr –Pcs200 file_name // print your file in CS200 at the printer designated // as cs200 - you can find this format by entering // $help => look for “printing” $ cal // display calendar $ cal 11 2004 Communication Commands $ $ $ $ who // check the user name to whom you want to talk mesg [y|n] // permit execution write or talk write username biff [y|n] // notification on/off Copyright © 20 Pearson Addison Wesley. All right reserved. Jozef Goetz, 2009 65 Utility Commands (Contd) Copyright © 2005 Pearson AddisonWesley. All rights reserved. Jozef Goetz, 2009 Displaying Users on a Network $ rwho | more - remote who displays info about the user currently using machines on your network: log name, computer:terminal, date and time the user logged in Bobk upibm7:ttyC4 Dfrakes upibm47:ttyp2 Lulay upsun17:pts/0 Oster upsun17:pts/2 Sarwar upibm7:ttyp2 $ rwho -a | more Bobk upibm7:ttyC4 dfrakes upibm47:ttyp2 kent upibm48:ttyp0 kittyt upibm9:ttyp0 kuhn upsun29:console lulay upsun17:pts/0 oster upsun17:pts/2 pioster upsun20:pts/0 sarwar upibm7:ttyp2 sarwar upsun29:pts/0 $ Jozef Goetz, 2009 Jul Jul Jul Jul Jul 26 26 26 26 26 12:03 11:49 10:17 12:28 11:15 Jul Jul Jul Jul Jul Jul Jul Jul Jul Jul 26 26 26 26 16 26 26 26 26 26 12:03 11:49 03:41 07:36 13:11 10:17 12:28 09:53 11:15 11:24 8:49 1:28 99:59 2:41 1:00 66 Displaying Users on a Network. rusers [options] [host_list] Purpose: Output: to line Display the login names of the remote users logged on to all the machines on our local network Information about the users logged on the hosts on your local network in one per machine format Commonly used options/features: -a Display all host names even if no user is using it -l Display the user information in a long format similar to that displayed by the who command Jozef Goetz, 2009 67 Displaying Users on a Network for particular machine Jozef Goetz, 2009 68 Displaying the Status of Hosts on a Network ruptime [options] – remote uptime Purpose: Output: Show status of all connected machines on the local area network Status of machines including machine name, up/down status, time a machine has been up (or down) for-called machine uptime, and the number of users logged on to the machine Commonly used options/features after sorting : -l Display output after sorting it with load average -t Display output after sorting it by machine uptime -u Display output after sorting it by the number of users Jozef Goetz, 2009 69 Displaying the Status of Hosts on a Network Commonly used options/features after sorting : -l Display output after sorting it with load average -t Display output after sorting it by machine uptime -u Display output after sorting it by the number of users Jozef Goetz, 2009 70 Displaying Information About Users finger [options] [user_list] Purpose: Display information about the users in the ‘user_list’; without a ‘user_list’, the command displays a short status report about all the users currently logged on to the specified hosts Output: User info extracted from the ~/.project and ~/.plan files Commonly used options/features: -m Match ‘user_list’ to login names only -s Display output in a short format [cs253u@shell cs253u]$ finger cs253u2 Login: cs253u2 Name: User Directory: /home/titan0/class/cs253u/cs253u2 Shell: /bin/bash Never logged in. No mail. No Plan. Jozef Goetz, 2009 71 Displaying Information About Users [jgoetz@raq4 ~]$ finger -s Jozef Login Name Tty Idle Login Time Office Office Phone jgoetz Jozef Goetz pts/1 Nov 30 21:05 (64.69.147.181) [jgoetz@raq4 ~]$ [jgoetz@raq4 ~]$ finger -m jgoetz Login: jgoetz Name: Jozef Goetz Directory: /home/sites/site7/users/jgoetz Shell: /bin/bash On since Wed Nov 30 21:05 (PST) on pts/1 from 64.69.147.184 No mail. No Plan. -m -s Jozef Goetz, 2009 Match ‘user_list’ to login names only Display output in a short format 72 Displaying Information About Users -m -s Jozef Goetz, 2009 Match ‘user_list’ to login names only Display output in a short format 73 Displaying Information About Users // if the finger server is running [jgoetz jgoetz]$ finger [email protected] [ulv.edu] finger: connect: No route to host [jgoetz jgoetz]$ [email protected] Jozef Goetz, 2009 74 The rlogin Command The rlogin command allows you to log on to a host on your local network (or remote) rlogin [options] hosts Purpose: To connect to a remote LINUX or UNIX ‘host’ via a network ; the ‘host’ can be specified by its name or IP address in the dotted decimal notation Commonly used options/features: -ec Set the escape character to ‘c’( the default is ‘~’) -l user User ‘user’ as the login name on the remote host e.g. [jgoetz jgoetz]$ rlogin -l jozefg ecs.fullerton.edu ecs.fullerton.edu: Connection refused // it is not a local network slogin [options] hosts - secure version uses strong cryptography for transmitting data Jozef Goetz, 2009 75 The rlogin Command $ rlogin upsun -l perform Password: Last login: Mon Dec 18 12:08:12 from upsun21.up.edu SunOS Release 4.1.3 (UPSUN_SERVER) #5: Mon Nov 14 17:31:44 PST 1994 DISPLAY 5 (upx46:0.0) TERM 5 (vt100) $ whoami perform $ hostname upsun.egr.up.edu $ -ec Set the escape character to ‘c’( the default is ‘~’) -l user User ‘user’ as the login name on the remote host Jozef Goetz, 2009 76 Remote Command Execution rsh – remote shell rsh [options] host [command] Purpose: To execute a command on a remote machine , ‘host’, on the same network; the rlogin command is executed if no ‘command’ is specified Commonly used options/features: -l user Use ‘user’ as the login name on the remote host ssh [options] host [command] -secure version uses strong cryptography for transmitting data Jozef Goetz, 2009 77 78 Figure 14.8 The semantics of the rsh upsun29 ps command Jozef Goetz, 2009 The same network Figure 14.9 The semantics of the rsh upsun29 sort students > sorted_students command students and sorted_students are files Jozef Goetz, 2009 79 Remote Command Execution Jozef Goetz, 2009 80 Remote Command Execution •the sort cmd takes input from the students file on the local machine, (upibm7) and the output is sent to the sorted_students file on the local machine •input from local file students and store the sorted result in a sorted_students file on the remote machine When used without arguments, the rsh reverts to the rlogin command. it is executed if no ‘arguments’ is specified //to log on a different network on the Internet Jozef Goetz, 2009 81 Remote Copy rcp[options] [host:]sfile [host:]dfile rcp[options] [host:]sfile [host:]dir Purpose: To copy ‘sfile’ to ‘dfile’ source file – sfile destination file - dfile Commonly used options/features -p -r Jozef Goetz, 2009 Attempt to preserve file modify and access times; without this option the command uses the current value of unmask to create file permissions Recursively copy files at ‘sfiles’ to ‘dir’ 82 Remote Copy (contd.) $ rcp ~/myweb/*.html upsun29:webmirror $ rcp ~/unixbook/Chapter[1-9].doc upsun29:unixbook.backup $ rcp upsun29:ece446/projects/*.[c,C] ~/swprojects.backup $ rcp -rp www1:* www2: $ -p Attempt to preserve file modify and access times; -r Recursively copy files at ‘sfiles’ to ‘dir’ Secure version of the rcp command $ scp prog4.c upsun29:~/courses/cs213/programs/ $ scp -r upsun21.egr.up.edu:courses. $ scp -rp www1:* www2: $ Jozef Goetz, 2009 83 Interactive Chat talk user [tty] Purpose:to initiate interactive chat with ‘use’ who is logged in on a ‘tty’ terminal $ talk bob [Waiting for your party to respond] Message from [email protected] at 13:36 ... talk: connection requested by [email protected]. talk: respond with: talk [email protected] $ talk sarwar@upibm7 Jozef Goetz, 2009 84 Tracing the Route from One Site to Another Site traceroute www.yahoo.com #some administrators disable this cmd for security Jozef Goetz, 2009 85 86 Important Internet Organizations Jozef Goetz, 2009 87 Web Resources Jozef Goetz, 2009 88 Web Resources Jozef Goetz, 2009 Request For Comments (RFCs) – omit it The TCP/IP standards are described in a series of documents, known as the Request for Comments RFCs are first published as the Internet Drafts and are made available to all Internet users for reviewer and feedback by placing them in known RFC repositories After the review process is complete, a draft can become a standard Some RFCs are for information only others are experimental Jozef Goetz, 2009 89