Hannah Gommerstadt

Thesis Title: Session-Typed Concurrent Contracts
Degree Type: Ph.D. in Computer Science
Advisor(s): Frank Pfenning, Limin Jia
Graduated: December 2019

Abstract:

Multi-process systems control the behavior of everything from datacenters storing our information to banking systems managing money. Each one of these processes has a prescribed role, their contract, that governs their behavior during the joint computation. When a single process violates their communication contract, the impact of this misbehavior can rapidly propagate through the system. This thesis develops techniques for dynamically monitoring expressive classes of concurrent contracts. We provide multiple mechanisms to monitor contracts of increasing complexity. In order to model message-passing concurrent computation, we use a session type system. First, we present a method for dynamic monitoring and blame assignment where communication contracts are expressed using session types. Second, we describe contract-checking processes that handle stateful contracts that cannot be expressed with a session type. These contract-checking processes are also able to encode type refinements. Third, we encode dependent types in our system which allow us to monitor complex invariants. Finally, we survey a number of other monitoring extensions including a mechanism to monitor deadlock

Thesis Committee:
Frank Pfenning (Co-Chair)
Limin Jia (Co-Chair)
Jan Hoffman
Bernardo Toninho (Universidade Nova de Lisboa)
Arian Francalanza (University of Malta)

Srinivasan Seshan, Head, Computer Science Department
Martial Hebert, Dean, School of Computer Science

Keywords:
Contracts, session types, monitors, blame assignment