DETER Experiment Support Facilities ("Workbench")

1. DETER Experiment Support Facilities("Workbench") DETER & EMIST Project Staff DETER Workshop 28 September 2005 Braden DETER

2. What is Special About DETER? • DETER testbed uses Utah's Emulab software. • DETER is specialized to support security research. • Variableisolation for running risky experiments. • DETER experiments often push limitson # of nodes, link speeds, … • Narrow user community • DETER/EMIST goal: form a cooperative research community that builds on each other's work. Braden DETER

3. Experiment Support Facilitiesin DETER • To support the DETER user community, DETER and EMIST projects are building security-specificexperiment support facilities. Braden DETER

4. Support Facilities • Library of security experiment building blocks • Code: tools • Data: standard topologies & other static info that is experiment-neutral. • Repository of complete experiments • Integrated experimenter environment and interface: Security Experimenters’ Workbench (SEW) Braden DETER

5. 1. Tools Library • First step: assemble an initial tools library • Topology Generators • Configuration generators • Attack generators • Background traffic generators • Measurement tools • Data analysis tools • Visualization tools Braden DETER

6. Tools Library -- Examples • Topology Generators • GT-ITM – Georgia Tech • INET – Umich • BRITE – Boston U • Purdue Topology generator tool • (RouteViews + Rocketfuel + policy => config files for Emulab/DETER) • Configuration generators • Purdue tool • ESVT – Penn State (prototype SEW: discussed later) Braden DETER

7. Tools Library – Examples • Attack generators • TCPopera (UCDavis) • Minos-honeypot (UC Davis) • BGPplay (UCDavis) • SPINES (UCDavis) • Flood – Purdue • Event-based agents (Sparta) • Wormgen (UCDavis) Braden DETER

8. Tools Library – examples (More complete list in Peng Liu's talk, to follow) Braden DETER

9. 2. Experiment Repository • "Hello World": Simple complete experiments for new users and students • Generally simple • Plan initial use in USC security classes • Complete complex experiments, for serious users • Purpose 1: Advance science by supporting replication. • Purpose 2: Help experimenters: morph an existing experiment to meet new objectives. Braden DETER

10. Experiment Scaling • Scaling the size of an experiment to 200 physicaL nodes, or to 1000 virtual nodes, raises practical problems for testbed users. • Need tools for generating configurations and for data analysis/display. • SEW will include a convenient toolkit for this purpose. Braden DETER

11. 3. Security Experimenters’ Workbench (SEW) • An environment for experiment definition/control/analysis, aimed at security experiments. • A uniform user interface for selecting and configuring a diversity of tools, topologies, instrumentation, and traffic traces. • A work in progress Braden DETER

12. SEW Functions Envisioned • “Stitch” together existing tools and facilities behind common interface, "on top" of Emulab/DETER, "behind" a GUI. • Generate configuration and event files by "compiling" abstract configuration descriptions with customization rules. • • Active window for controlling experiment execution while capturing the event sequence for later background replay. • • Support variety of post-execution data analysis tools, which “know” the experiment configuration. Braden DETER

13. Initial Prototype of SEW • ESVT – Experiment Specific’n and Visualiz’nTool • Under development at Penn State • Used in 3 of today's demos. • Peng Liu will describe it. Braden DETER