Specialization Software-defined Networking (Winter 2015/2016)
Note:
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Details
Workload/ECTS Credits: | 150h, 5 ECTS |
Module: | AI: M.Inf.1230: Specialization Software-defined Networks (SDN)); ITIS: 3.32 |
Lecturer: | Dr. Mayutan Arumaithurai |
Teaching assistant: | Sameer Kulkarni |
Time: | March 21-25; 09.00-17.00 |
Place: | IfI 2.101 |
UniVZ | tba |
Course Overview
Software-defined networking (SDN) has recently attracted both researchers in academia and big players in communication technologies, and is currently probably the 'hottest' topic in computer networking. This course is a continuation of the "Introduction to SDN" course and we will focus on gaining an advanced knowledge of SDN. The course is organized as a block course. Please see the following "Schedule" table for a detailed structure. The course will focus on reading and understanding recent papers in the SDN field to gain an in depth understanding of the current state of the art and potential research topics. We will also do a lot of exercises to familiarize ourselves with SDN tools.
For all parts of the course, exercises will be provided, in which students must obtain at least 50% of the total points and active participation in the group discussions to be admitted to the examination of this course. The exam is taken by submitting a report of 10-15 pages summarizing the lessons learned during the lectures and exercises as well as the research papers investigated (a LaTeX template will be provided). Depending on the number of attendees, several parts will be conducted in teams of students.
Schedule
Date | Morning Session I | Morning Session II | Afternoon Session I | Afternoon Session II |
Time | 9:15 - 10:45 | 11:00 - 12:30 | 14:00 - 15:30 | 15:30 - |
21`.03.2016 | Lecture I: Enhancing Data Plane | Exercise I: Data Center topology | Group Discussion I | Exercise II: Simple load balancer |
22.03.2016 | Lecture II: Northbound API | Exercise III: Pox Firewall | Group Discussion II | Exercise IV: Pyretic Firewall |
23.03.2016 | Lecture III: Enhancing Data Plane - II | Exercise V: Kinetic Firewall | Group Discussion III | Exercise VI: Kinetic-pox loadbalancer |
24.03.2016 | Exercise VII: kinetic, pyretic debugging | Exercise VIII: Service Chaining I | Group Discussion IV | Exercise IX: Service Chaining II |
xx.xx.2016 (Since 25th March is Easter Friday, see note above) | "Preparation for final presentation" | "Preparation for final presentation" | Final presentations I | Final presentation II |
Requirements
- Basic knowledge in computer networking (e.g., successful completion of the course "Computer Networks") and object oriented programming is required.
- Completion of the course "Introduction to SDN", exceptions can be obtained on a case by case basis.
- Each participant is required to actively attend the course and earn 50% of the points of the exercise.
- Written report at the end of the course. The report should include the following:
- Exercises results + code
- Short report on the group discussion papers
- Report on the paper presented by team-X for the final presentation
Exercises
- Pox/Openflow Tutorial
- What to Submit: source code along with screenshots for those who are not exempted
General Hints
- Use the following option to get more debug info while using pox
- $ ./pox/pox.py log.level --DEBUG misc.of_tutorial
- NOTE: There are two "-" (i.e. --) used for options in mininet/pox. In the wiki, sometimes the two lines join up and show as one line.
21 March
- Get the Image from Mayutan/Sameer/peers
Exercise I: Data Centers
- (30P) Warmup (simple Tree) ($ => commands on VM, > => commands on mininet/pox, Q => Question)
- $ sudo mn --topo tree,3 --mac --arp --switch ovsk --controller remote
- $ h1 ping h8 (Q: What do you observe?)
- $ ./pox/pox.py
- $ h1 ping h8 (Q: What do you observe?)
- $ ./pox/pox.py samples.spanning_tree
- $ h1 ping h8 (Q: What do you observe?)
- (40P) Create your own simple tree
- copy dcsimple.py ([1]) to mininet/custom/
- modify dcsimple.py to create hosts, switches and connections for a three level tree
- $ sudo mn –-custom dcsimple.py -–topo simple
- Check with ping
- (30P) Create your own Fattree
- copy dcfat.py ([2]) to mininet/custom/
- modify dcfat.py to create a fat tree (level 0: so & s1, level 1: s2 & s3, level 2: s3, s4, s5, s6, Level 3: Hosts)
- $ sudo mn –-custom dcfat.py -–topo fat
- check with ping
- $ sudo mn –-custom dcfat.py -–topo fat --controller remote
- $ ./pox/pox.py samples.spanning_tree
- check with ping
Exercise II: Load balancers
- (40P) Pre-defined servers
- AIM: Http requests from different clients will be directed to different pre-defined servers
- $ sudo mn --topo single,6 --mac --arp --controller remote
- $ ./pox.py log.level –-DEBUG misc.ip_loadbalancer –-ip=10.0.1.1 –-servers=10.0.0.1,10.0.0.2
- Start HTTP servers on h1, h2
- > xterm h1,h2
- h1$ Python –m SimpleHTTPServer 80
- h2$ Python –m SimpleHTTPServer 80
- Get webpage from clients (h3)
- > xterm h3
- h3$ Curl 10.0.1.1
- Observe in Pox controller, which server is it connecting to. Continue to obtain webpage from other clients and observe the results
- (60P) Modified Load_balancer
- Now modify ip_loadbalancer.py to select server in a round robin fashio
- Exercise III: Load balancers (contd. exercise II) [3] (Exempt: )
22 March
- Exercise IV: Firewall [4] (Exempt: )
23 March
24 March
- Exercise VII: Kinetic Firewall Instructions, Starting_Code
(Exempt: )
- Exercise VIII: Kinetic like firewall using pox instructions Starting_CodeTutorial
(Exempt: )
25 March
- Exercise IX: Pyretic Debugging (Exempt: Omar, Martin, Thomas, Sameer, Eeran)
HINT: You might have to use the "$ dpctl dump-flows tcp:127.0.0.1:6634" or "mininet> dpctl dump-flows" command frequently.
- In this debugging exercise, we take solutions available in the Internet for the gardenwall problem and try to fix bugs in it.
- We have done kinetic firewall in exercise VII and imitated the same firewall using pox in exercise VIII. Now, we will imitate the same firewall using pyretic.
- The basic solution is taken from the Internet [7], test if it is able to block h1 when "infected". Note that we will only use the "infected == True" for this exercise.
- Copy the above code into /home/mininet/pyretic/pyretic/examples as gardenwall_internetsolution.py
- start controller (in /home/mininet/pyretic folder): pyretic.py pyretic.examples.gardenwall_internetsolution
- start mininet: sudo mn --controller=remote --topo=single,3 --mac --arp
- check h1 ping h2
- Now infect h1 (in /home/mininet/pyretic/pyretic/kinetic folder): python json_sender.py -n infected -l True --flow="{srcmac=00:00:00:00:00:01}" -a 127.0.0.1 -p 50001
- check h1 ping h2. We should be able to observe that this traffic is blocked.
- Now, we move on to the debugging part
- check h2 ping h3, what happens?
- Now, modify the given code to allow h2 traffic to pass through to h3, when h1 is "infected".
- Now, check if the "exempt" case is working fine too
- if time permits, check and improve code to allow h1 to ping h2
- If time permits, try fixing this code for the "infected" case.