CSS 432: Network Design

CSS 432: Network Design
Spring 2007
MW 330-535pm
Prof. Munehiro Fukuda

Professor:

Munehiro Fukuda <mfukuda@u.washington.edu>, room UW1-331, phone 352-3459, office hours: MW 230-330pm

Course Description:

This course examines methods for designing and managing LANs and WANs theoretically and practically. The topics covered include the OSI architecture, data link networks, packet switching, routing, TCP/UDP, flow control, congestion control, network security, and application protocols such as DNS, SMTP, FTP, and HTTP. The course is largely oriented to network programming and experiments. You are given four programming assignments, some followed by performance evaluation: basic TCP communication, the sliding window algorithm, TCP tools (ttcp, tcpdump, and netstat), and DNS access (gethostbyname and hostent). In addition, you will work on the final project that implements an ftp client program.

Prerequisites:

The formal prerequisites include CSS301 and CSS422.
(I suggest informally that CSS343 and CSS430 could facilitate your achievement of programming assignments.)

Work Load and Grading:

Course Work Percentage Achievements Approximately Corresponding Numeric Grade

Assignment 1 9% 90s 3.5 - 4.0

Assignment 2 9% 80s 2.5 - 3.4

Assignment 3 9% 70s 1.5 - 2.4

Assignment 4 9% 60s 0.7 - 1.4

Final Project 15%

Class Discussion 9%

Midterm Exam 20%

Final Exam 20%

Textbooks:

Computer Networks

References:

Computer Networks, 4th Edition, Andrew S. Tanenbaum, Prentice Hall, 2002
Internetworking with TCP/IP Principles, Protocols, and Architectures, Volume 1, 5th Edition, Douglas E. Comer, Prentice Hall, 2006
TCP/IP Illustrated, Volume 1 The Protocols, W. Richard Stevens, Addison-Wesley, 1994
Managing IP Networks with Cisco Routers, Scott M. Ballew, O'Reilly, 1997
DNS and BIND, 4th Edition Raul Albitz & Cricket Liu, O'Reilly, 2001
HTTP: The Definitive Guide, David Gourley & Brain Totty, O'Reilly, 2002
SSH, The Secure Shell: The Definitive Guide, Daniel J. Barret and Richard Silverman, O'Reilly, 2001

Some Programming Textbooks:

The following books are useful for system and network programming.

Effective TCP/IP Programming -- 44 Tips to Improve Your Network Programs, Jon C. Snader Addison-Wesley, 2000.
Advanced Programming in the UNIX Environment, W. Richard Stevens, Addison-Wesley, 1992.
Unix Network Programming, Volume 1, , 3rd Version W. Richard Stevens, Addison-Wesley, 2003.

Policies:

All programs are to be done independently. Any collaboration of work will result in severe penalty. You may discuss the problem statement and any clarification with each other, but any actual work to be turned in, must be done without collaboration.

Any homework is due at the beginning of class on the due date. The submission may be postponed only in emergencies such as accidents, sickness, sudden business trips, and family emergencies, in which case you may turn in yor homework late with a written proof. No make-up exams will be given except under exceptional circumstances. Barring emergencies, I must be informed before the exam.

To request academic accommodations due to a disability, please contact Disability Support Services (DSS) in Bothell Library Annex Building, Room 106, (email: dss@uwb.edu, TDD: 425-352-5303, and FAX: 425-352-5444). If you have a documented disability on file with the DSS office, please have your DSS counselor contact me and we can discuss accommodations.

Course Goals:

The overall goal of CSS 432, "Network Design" includes:

To learn theoretical and practical methods that are used to design and manage LANs and WANs,
To experimentally and mathematically understand the effectiveness of the networking techniques through your programming assignments and exercises.
To build ftp as a network application based on an RFC protocol.

To strengthen your understanding of fundamental concepts, you are strongly recommended to solve the problems that are given on the final page of each lecture slide. Note that you are supposed to present your solution to one of these exercises in the class. You need to work in the Linux laboratory, (UW1-320) for testing and evaluating the performance of your assignment programs. Your report must include a large amount of discussions and considerations about results you obtained. Therefore, as with most technical courses, besides ability and motivation, it takes time to learn and master the subject. Expect to spend an additional 10 to 15 hours a week outside of class time on the average.

Assignments:

The following four programming assignments and one in-class problem-solving assignment are given:

Program 1: exercises basic TCP communication and evaluates its performance over 100Mbps and 1Gbps networks.
Program 2: implements the sliding window algorithm and evaluates its performance improvement over 100Mbps and 1Gbps networks.
Program 3: analyzes several TCP aspects such as state transition, Nagle'salgorithm, additive increment, and slow start, using tcpdump, ttcp, netstat, and strace.
Program 4: analyzes the hostent data structure that maintains DNS information.
Final project: builds ftp client and server programs.

Please read assignment.html to understand the environment you use for programming assignments and the submission/grading procedures.

Class Discussions:

Each chapter has its own lecture slides in a ppt file that includes suggested textbook questions on its last page. The class is divided into groups of 3 or 4 students, each solving a different question for 15 minutes and presenting their solution in the class for 5 minutes. We are planning to have nine class discussions through the quarter. Your participation in each discussion counts 1% of your entire grade, which ends up with 9% in total.

A discussion group will be dynamically formed in the class. For instance, students sitting closer or on the same desk can form a group. I will give each group a piece of scratch paper or transparency. You should summarize your discussions, write down the names of all group members, and turn it in to me. Each group should elect a group representative who will give a short presentation in the class. A representative will be rewarded with 0.1 extra credits for his/her presentation.

Topics covered and tentative 432 schedule:

Note that this is an approximate ordering of topics. Chapters will take about the allotted time and not all sections in all chapters are covered.

Week Date (MW) Topics Chapters Reading Textbook Exercises (Class Discussions) Assignment

1 Mar 26 Foundation 1.1 - 1.3 pp4-30

Mar 28 1.4 - 1.6 pp30-51 Ex 5
Ex 12,31
Ex 18
Ex 32
Program 1 assigned

2 Apr 2 Point-to-Point Networks 2.1.2 - 2.3 pp71-91

Apr 4 2.4 - 2.5 pp92-115 Ex 2,5
Ex 16
Ex 18
Ex 24

3 Apr 9 Shared Access Networks 2.6, 2.7, and 2.1.1 pp116-133, pp66-70 Ex 43
Ex 47
Ex 57
Ex 59

Apr 11 Switching and Forwarding 3.1 - 3.3 pp168-199 Program 1 due
Program 2 assigned

4 Apr 16 3.4 pp208-219 Ex 1
Ex 4
Ex 13
Ex 32,39

Apr 18 End-to-End Protocols 5.1 - 5.2.3 pp380-394

5 Apr 23 5.2.4 - 5.2.9 pp394-411 Ex 4,5
Ex 9
Ex 20
Ex 22,39

Apr 25 Congestion Control 6.1-6.4 pp456-499 Ex 2,6
Ex 25
Ex 27
Ex 34
Program 2 due
Program 3 assigned

6 Apr 30 Midterm exam in class 1 - 3, 5, and 6 pp4-133, 147-199, 208-231, 380-411, and 456-499

May 2 Applications 9.1.1 and 9.1.3 pp640-650 and 657-666

7 May 7 9.1.2 pp650-656

May 9 Internetworking 4.1 pp232-266 Ex 4
Ex 13
Ex 14
Q 1,2
Program 3 due
Program 4 assigned

8 May 14 Routing 4.2.1 - 4.2.2 pp266-277

May 16 4.2.3 - 4.2.5 pp277-297 Ex 15
Ex 18
Ex 28
Ex 30

9 May 21 Global Internet 4.3.1 - 4.3.2 pp297-306 Program 4 due
Final project assigned

May 23 4.3.3 - 4.3.4 pp306-318 Ex 21
Ex 45
Ex 47
Ex 52

10 May 28 Holiday - no school

May 30 Network Security 8.1 - 8.4.3 and 8.5 pp586-622 and 626-630

11 June 4 Final exam in class 4, 8, and 9 pp232-318, 360-379, 586-622, 626-638

June 6 Final Project due (3:30pm)

Course Work	Percentage	Achievements	Approximately Corresponding Numeric Grade
Assignment 1	9%	90s	3.5 - 4.0
Assignment 2	9%	80s	2.5 - 3.4
Assignment 3	9%	70s	1.5 - 2.4
Assignment 4	9%	60s	0.7 - 1.4
Final Project	15%
Class Discussion	9%
Midterm Exam	20%
Final Exam	20%

Week	Date (MW)	Topics	Chapters	Reading	Textbook Exercises (Class Discussions)	Assignment
1	Mar 26	Foundation	1.1 - 1.3	pp4-30
	Mar 28		1.4 - 1.6	pp30-51	Ex 5 Ex 12,31 Ex 18 Ex 32	Program 1 assigned
2	Apr 2	Point-to-Point Networks	2.1.2 - 2.3	pp71-91
	Apr 4		2.4 - 2.5	pp92-115	Ex 2,5 Ex 16 Ex 18 Ex 24
3	Apr 9	Shared Access Networks	2.6, 2.7, and 2.1.1	pp116-133, pp66-70	Ex 43 Ex 47 Ex 57 Ex 59
	Apr 11	Switching and Forwarding	3.1 - 3.3	pp168-199		Program 1 due Program 2 assigned
4	Apr 16		3.4	pp208-219	Ex 1 Ex 4 Ex 13 Ex 32,39
	Apr 18	End-to-End Protocols	5.1 - 5.2.3	pp380-394
5	Apr 23		5.2.4 - 5.2.9	pp394-411	Ex 4,5 Ex 9 Ex 20 Ex 22,39
	Apr 25	Congestion Control	6.1-6.4	pp456-499	Ex 2,6 Ex 25 Ex 27 Ex 34	Program 2 due Program 3 assigned
6	Apr 30	Midterm exam in class	1 - 3, 5, and 6	pp4-133, 147-199, 208-231, 380-411, and 456-499
	May 2	Applications	9.1.1 and 9.1.3	pp640-650 and 657-666
7	May 7		9.1.2	pp650-656
	May 9	Internetworking	4.1	pp232-266	Ex 4 Ex 13 Ex 14 Q 1,2	Program 3 due Program 4 assigned
8	May 14	Routing	4.2.1 - 4.2.2	pp266-277
	May 16		4.2.3 - 4.2.5	pp277-297	Ex 15 Ex 18 Ex 28 Ex 30
9	May 21	Global Internet	4.3.1 - 4.3.2	pp297-306		Program 4 due Final project assigned
	May 23		4.3.3 - 4.3.4	pp306-318	Ex 21 Ex 45 Ex 47 Ex 52
10	May 28	Holiday - no school
	May 30	Network Security	8.1 - 8.4.3 and 8.5	pp586-622 and 626-630
11	June 4	Final exam in class	4, 8, and 9	pp232-318, 360-379, 586-622, 626-638
	June 6					Final Project due (3:30pm)