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Lab 3 Transport Layer

Lab 3 Transport Layer. T.A. Youngjoo Han. Transport Layer. Providing logical communication b/w application processes running on different hosts Transport Layer Protocol TCP UDP. Objectives. Understanding role of transport layer

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Lab 3 Transport Layer

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  1. Lab 3Transport Layer T.A. Youngjoo Han

  2. Transport Layer • Providing logical communication b/w application processes running on different hosts • Transport Layer Protocol • TCP • UDP

  3. Objectives • Understanding role of transport layer • How to utilize toolkits to identify the TCP operation and performance measurement of underlying networks

  4. Preparation for LAB 3 • Wireshark is a network protocol analyzer for UNIX and Windows. We use this tool in this LAB 3 • Before installing Wireshark, we must install WinPcap. WinPcap is a library for capturing packets and loock network status. WinPcap can be downloaded from the following site. http://www.winpcap.org/install/default.htm • We also can download Wireshark from http://sourceforge.net/projects/wireshark/files/win32/all-versions/wireshark-win32-1.6.2.exe/download • We also can download Wireshark User’s guide on • http://www.wireshark.org/download/docs/user-guide-a4.pdf

  5. Starting Wireshark (1)

  6. Starting Wireshark (2) • Identifying TCP operation with Wireshark • After starting Wireshark, you can find a button which is in above red box. Click the button.

  7. Starting Wireshark (3) Wireshark Capture Options You don’t need to select Interface here. You can select Interface when running packet capture. See p10 of this ppt “Promiscuous” means that receiving all the packet in all network related on this computer Pcap-ng format is “PCAP Next Generation Dump File Format”. But we don’t deal with dump file in this lab.

  8. Starting Wireshark (4) Wireshark Capture Options (Cont.) • Update list of packets in real time • This option allows you to specify that Wireshark should update the packet list in real time. If you do not specify this, Wireshark does not display any packets until you stop the capture • Automatic scrolling in live capture • This option allows you to specify that Wireshare should scroll the packet list as new packets come in, so you are always looking at the last packet • Hide capture info dialog • If this option is checked, the capture info dialog will be hidden • Enable MAC name resolution • This option allows you to control whether or not Wireshark translates MAC address into names • Enable network name resolution • This option allows you to control whether or not Wireshark translates network address into names • Enable transport name resolution • This option allows you to control whether or not Wireshark translates transport address into names

  9. Starting Wireshark (5) • Complete the following configuration as shown for this lab. Check “Enable MAC name resolution” and “Enable transport name resolution”

  10. Starting Wireshark (6) Click the button to run Click the start button where finding packets increasing

  11. Starting Wireshark (7) • No. • The number of the packet in the capture file. • Time • The timestamp of the packet. • Source • The address where this packet is coming from. • Destination • The address where this packet is going to. • Protocol • The protocol name in a short version. • Info • Additional information about the packet content • After configuration, we can see the results. You can see the current packet in a more detailed form You can see the data of the current packet in a hexdump style

  12. TCP MEASURE USING APPLICATION

  13. Lab 3 – Prerequisite (1) • Let’s measure packets between 143.248.6.69 and your computer • Prerequisite step for Lab 3 • Start Wireshark • Run to capture packets in Wireshark • Visit http://ancl.kaist.ac.kr/?page_id=402 • Download installer_r16-windows.exe • After finishing download, stop running • You can see the result • Then, enter “tcp” on Filter box in Wireshark like • Finally, you can see the result with only tcp like the figure in next page

  14. Lab 3 – Prerequisite (2)

  15. *figures in following pages are based on the figure in previous page, Lab 3 – Prerequisite (2) *143.248.6.69 is our homepage server * 143.248.6.7 is TA’s computer HOW TO TCP WORKS

  16. Lab 3-1 Understanding TCP Three-way Handshaking (1) How to check TCP Three-way Handshaking? • TCP connections are established with a set of three messages called the three-way handshaking. This is for reliable and connection-oriented communication between server and client. Three-way handshaking follows these steps • First, client sends SYN packet to server. This segment requests the establishment of the connection. • Second, server sends SYN packet and ACK packet to client. ACK packet is for notifying well-receiving of packet that client sends. • Third, client sends ACK packet to server. Then, three-way handshaking ends

  17. Operation of TCP Three-way Handshaking A : 210. 107. 139. 224 B : 143. 248. 4. 223 SYN SEQ:0, ACK:- SYN+ACK SEQ:0, ACK:1 ACK SEQ:1, ACK:1

  18. Lab 3-2 TCP Data Transmission (2) Data Transmission • PDU is Protocol Data Unit. • [TCP segment of a reassembled PDU] means that divided data of one unit is transferred. This is because original one unit is too big to transfer with one packet. • We can also see 143.248.6.7 sends acknowledge to notify well-receiving

  19. Lab 3-3 TCP Closing the connection (1) (3) Closing the connection • Steps for closing TCP connection are like following. • First, client sends FIN packets to server to notifying close of connection. Then, server sends ACK packets. • Second, server sends FIN packets to client to notifying close of connection. Then, client sends ACK packets.

  20. Operation of TCP Closing the connection A : 210. 107. 139. 224 B : 143. 248. 4. 223 FIN SEQ:222, ACK:- ACK SEQ:244, ACK:223 FIN SEQ:244, ACK:223 ACK SEQ:223, ACK:245

  21. LAB 3 ASSIGNMENT

  22. Lab Assignment) IP address, server identification (1) • Let’s obtain an IP address for our machine. Our machine is running Windows and we will open up command prompt. We will start a Wireshark trace and then issued the following commands to command prompt. • DHCP: DHCP (Dynamic Host Configuration Protocol) is a network configuration protocol for hosts on IP networks. Computers that are connected to IP networks must be configured before they can communicate with other hosts. The most essential information needed is an IP address, and a default route and routing prefix. DHCP eliminates the manual task by a network administrator. It also provides a central database of devices that are connected to the network and eliminates duplicate resource assignments. •  Operations of DHCP: DHCP discovery  DHCP offer  DHCP request  DHCP ACK

  23. Lab Assignment) IP address, server identification(2) • Ipconfig /release  ipconfig /renew  ipconfig /renew  ipconfig /release • Ipconfig /release is used to cut the connection with devices currently connected. • IPconfig /renew is used to renew the address.

  24. Lab Assignment) IP address, server identification (3) • Packet 1817 is used to release the machine’s current IP address, 192.168.0.5. Notice that packet 1817 lists 192.168.0.5 as the source IP address. After it is released, the machine has no valid IP address and uses the address 0.0.0.0 as the source address in packet 1852.

  25. Lab Assignment) IP address, server identification(4) • we input ipconfig /renew twice. • DHCP Discovery: Especially, let’s look at packet 1852. Packet 1852 is a DHCP Discovery message, and it is used by machines without an IP address to request one. It is sent to the special broadcast address, 255.255.255.255. This address will reach all connected hosts within a limited broadcast range. Logically, 255.255.255.255 means broadcast the entire Internet, but this is never literally the case because routers will not forward such a broadcast beyond the local network to avoid swamping the Internet with such requests. • DHCP Offer: DHCP server received DHCP Discovery message sends DHCP Offer message to client. Here, also DHCP uses broadcast. • DHCP request: Client selects the first arrived message from server’s DHCP offer message, then, broadcasts all DHCP servers. • DHCP ACK: DHCP server received DHCP Request sends ACK to client. If client receives this ACK well, TCP/IP becomes initiated and client is recognized as binding DHCP client.

  26. Lab Assignment) IP address, server identification(5) • We commanded ipconfig /release finally. So, we can see like following picture.

  27. Lab 3 Assignment • Please follow things from p22 to p26 in this ppt • Submit the result as report form • Report must contain all contents in slides from p22 to p26 and related screen shot • Also, you should write necessary explanation in your report • Due is up to 00:00, Sep. 22, 2012

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