Title: Assured Exploitation Training
Post by: sil on May 05, 2011, 03:28:35 PM
Sadly I will not likely be able to make it however, this is literally the ONE class I had been waiting for. It is taught by Dino Dai Zovi and Alex Sotirov which are the forefront of the exploitation game. For those who have taken the time for view the content on Cryptocity (http://pentest.cryptocity.net/), and are serious about taking things to the next level, this is where you would want to be.
From the site:
Many security professionals have mastered stack overflows and heap spraying, but these techniques are rarely sufficient when developing modern real-world exploits. Reliable exploitation on Vista and Windows 7 systems requires advanced techniques such as heap layout manipulation, return oriented programming and ASLR information leaks. This course focuses on teaching the principles behind these advanced techniques and will give the students hands-on experience developing real-world exploits. Each student will finish the class with their own personally-developed exploit for the “Aurora” use-after-free vulnerability in Internet Explorer that evades ASLR and DEP and reliably exploits Windows 7.
The class curriculum also includes:
* In-depth review of GS, ASLR, DEP, SafeSEH and SEHOP exploitation mitigations
* Heap implementation details and manipulation of the heap state (including Windows 7 heap)
* Building primitives for heap layout control in new applications
* Bypassing DEP and ASLR
* Return oriented programming and shellcode development
* Implementing a universal bypass of DEP and ASLR in Internet Explorer 8
* Multistage stack pivots
Students are expected to be familiar with the basic exploitation techniques for stack and heap overflows on Windows, as described in the Shellcoder’s Handbook and similar books. They should be comfortable using assembly level debuggers and have basic familiarity with reverse engineering. The material in this course is designed to be challenging, but we believe that with the help of our expert instructors any dedicated student will be able to master it.
All hands-on exercises in the course will be performed in virtual machines provided by the trainers. You will need a laptop with VMware Workstation 6 or later, or VMware Fusion 2 or later if using a Mac. The minimum hardware requirements for the laptop are 2GB of memory (3GB or more recommended) and a processor equivalent to a 2.4GHz Core2 Duo.