TACL Seminar Fall '02
Fall '02 Schedule
|Dec 3||Sudhakar Govindavajhala||Using Memory Errors to Attack a Virtual Machine||Abstract|
|Dec 10||Manish Vachharajani||A Component Composition and Customization Language for the Liberty Simulation Environment||Abstract|
|Jan 9||Amal Ahmed||The Logical Approach to Stack Typing||Abstract|
Using Memory Errors to Attack a Virtual Machine
We present an experimental study showing that soft memory errors can lead to serious security vulnerabilities in Java and .NET virtual machines, or in any system that relies on type-checking of untrusted programs as a protection mechanism. Our attack works by sending to the JVM for execution a Java program that is designed so that almost any memory error in its address space will allow it to take control of the JVM. All conventional Java and .NET virtual machines are vulnerable to this attack. The technique of the attack is broadly applicable against other language-based security schemes such as proof-carrying code.
We measured the attack on two commercial Java Virtual Machines: Sun's and IBM's. We show that a single-bit error in the Java program's data space can be exploited to execute arbitrary code with a probability of about 70%, and multiple-bit errors with a lower probability.
Our attack is particularly relevant against smart cards or tamper-resistant computers, where the user has physical access (to the outside of the computer) and can use various means to induce faults; we have successfully used heat. Fortunately, there are some straightforward defenses against this attack.
This is joint work with Andrew Appel.
A Component Composition and Customization Language for the Liberty Simulation Environment
During hardware design, system architects use simulation extensively to validate and guide design decisions. To facilitate construction of these simulators we developed the Liberty Simulation Environment (LSE). LSE consists of a library of components, the Liberty Simulator Specification (LSS) language, and a tool that constructs a simulator based on the library and an LSS provided by the user.
In this talk, we will discuss the design considerations and tradeoffs made while developing the Liberty Simulator Specification language. The LSS language is unique in that it is designed not to specify the execution of a simulator, but rather to specify how components should be composed and customized to build a simulator. The LSS language combines several programming language techniques, including type inference and aspects, and non-standard evaluation semantics for object instantiation to ease the construction of simulators.
The Logical Approach to Stack Typing
We develop a logic for reasoning about adjacency and separation of memory blocks, as well as aliasing of pointers. We provide a memory model for our logic and present a sound set of natural deduction-style inference rules. We deploy the logic in a simple type system for a stack-based assembly language. The connectives for the logic provide a flexible yet concise mechanism for controlling allocation, deallocation and access to both heap-allocated and stack-allocated data.
This is joint work with David Walker.