Cybersecurity with Vehicle Spy & neoVI - ICS HQ
Date and time
Location
Intrepid Control Systems World HQ
31601 Research Park Drive Madison Heights, MI 48071Refund Policy
Description
No WebEx or remote attendance is available at this time.
Materials Needed: None.
Cybersecurity:
Please come and spend a day learning about Cybersecurity. While most events are focused on the problem - this event is about solutions. This class features hands-on, modern cryptography experiments with real CAN, CAN FD, and Ethernet networks. The experiments will be fun and interesting while demonstrating actual algorithms and potential security holes.
Agenda*:
- 8:00am - Continental breakfast
- 8:30am - Introduction, Agenda, Overview of Cybersecurity Solutions (presented by Dave Robins)
- 8:45am - Introduction to Modern Cryptography Tools: SHA/HMAC ,ECC/RSA, AES,TRNG, Key Storage, MBed TLS Library (presented by Jeff Quesnelle)
- 9:45am - SHA/HMAC Theory and Usage (presented by Tony Shaska)
- 10:30am - SHA/HMAC Lab in Vehicle Spy: Hands-On with Creating HMAC using CAN Bus and the MBed/TLS Library Using the C Code Interface in Visual Studio (presented by Jeff Quesnelle)
- 11:00am - AES Theory and Usage (presented by Tony Shaska)
- 11:30am - AES Lab in Vehicle Spy (presented by Jeff Quesnelle)
- 12:00pm - Working LUNCH:
DEFCON Report Exploring the UConnect Zero Day (presented by Jeff Quesnelle)
RSA/ECC Theory and Usage (presented by Tony Shaska) - 12:30pm - RSA/ECC Lab in Vehicle Spy (presented by Jeff Quesnelle)
- 1:00pm - Hacker Reverse Engineering Techniques (presented by Dave Robins)
- 1:30pm - Hacker Reverse Engineering Lab (presented by Dave Robins & Jeff Quesnelle)
- 2:00pm - Smart Card Theory (presented by Marc Jacquinot)
- 2:30pm - Smart Card Hands-On Using Reader (presented by Marc Jacquinot)
- 3:00pm - Smart Card in neoVI FIRE 2: Discussion of the Smart Card Support in the Intrepid ISM and How It Works (presented by Dave Robins)
- 3:30pm - Smart Card Lab (presented by Jeff Quesnelle & Matt Kowalczyk)
- 4:00pm - Real-Time Hardware Engine: Discussion of the Real-Time Encryption Processor Present in the FIRE2 Security Module. (presented by Dave Robins)
- 4:30pm - Real-Time Hardware Lab (presented by Matt Kowalczyk)
- 5:00pm - ECU Hardware Solution: The Aurix HSM (presented by Jeff Kelly)
- 6:00pm - Evening Networking Event: Dinner (location close to Intrepid HQ)
*The times and actual topics are subject to change.
Note: Breakfast, lunch, and dinner provided by Intrepid.
Location:
Intrepid Control Systems - World HQ
31601 Research Park Drive
Madison Heights, MI 48071 USA
http://www.intrepidcs.com/location.html
Contact: +1 586 731-7950
About the Presentors:
Dr. Tony Shaska - Mathematician, Oakland University
Expert on theoretical cryptography with focus on Elliptic Curve Cryptography (ECC) and Hyperelliptic Curve Cryptography (HCC).
Jeff Quesnelle - Senior Software Engineer, Intrepid Control Systems, Inc.
Lead software developer for Vehicle Spy. Leading the cryptography integration for OEMs cyber security efforts. Expert in C++ and other areas in Computer science including mathematics and cryptographic algorithims. Co-author of the Automotive Ethernet: The Definitive Guide
Marc Jacquinot - Smart Card Expert, CardWerk Technologies
Expert in smart card consulting and host/card software development - since 1999. Embraces any chip card - from simple storage cards to sophisticated multi-application cards. Covering anything from secure key/data storage to cryptographic protocols and card emulation. Past projects include card issuance tool, key injector, value card, physical/logical access control card integration.
Dave Robins - President, Intrepid Control Systems, Inc.
Founder of Intrepid Control Systems and original architect of neoVI, ValueCAN and Vehicle Spy.
Matt Kowalczyk - Embedded Systems Engineer, Intrepid Control Systems, Inc.
Embedded systems engineer on the neoVI FIRE 2 team. Matt will be supporting the real time message authentication laboratory using the FIRE2.
Jeff Kelly - Director of Microcontroller Marketing, Infineon
Jeff will present the capabilities of a hardware security solution present in the Aurix microcontroller.