# 2012-01-28 Verification day

## Contents

- 1 Program
- 1.1 Julien Henry: Big steps for static analysis
- 1.2 David Monniaux: Path-focusing and policy iteration
- 1.3 David Monniaux: Quick presentation of the VERASCO and STATOR projects
- 1.4 Goran Frehse: Calcul "lazy" avec des ensembles convexes représentés par des fonctions de support
- 1.5 Lunch Break
- 1.6 Thao Dang: Reachability analysis for polynomial dynamical systems using the Bernstein expansion
- 1.7 Marie-Laure Potet: Les besoins pour l'analyse de vulnérabilités
- 1.8 Laurent Mounier: Analyse de teinte sur du code binaire
- 1.9 Radu Iosif: Acceleration Techniques for Program Verification
- 1.10 Mnacho Echenim: On an abductive approach to error detection

## Program

### Julien Henry: Big steps for static analysis

9h15-10h

Static analysis by abstract interpretation traditionally follows the control-flow graph of the programs, with one inductive invariant being computed for every control node, computed by forward (or backward) propagation along control edges. One weakness of such an approach is that it enforces that the invariants at all nodes belong to the set of abstractions chosen; for instance, if one uses convex polyhedra, it enforces that all invariants are convex, thus conditions such as |x|≥1 cannot be represented, which may lead to imprecision and spurious warnings.
We instead take big steps in the control graph, using SMT-solving to enumerate paths as needed (an explicit enumeration would lead to exponential blowup).
We propose, in addition to the basic *path-focused* analysis some variant iteration scheme based on *guided static analysis*, and another for disjunctive invariants.

Joint work with Laure Gonnord, David Monniaux and Matthieu Moy.

### David Monniaux: Path-focusing and policy iteration

10h15-10h50h

Policy iteration is a method for computing strongest invariants for certain transition relations (e.g. disjunctions/conjunctions/projections in linear real algebra) in certain abstract domains (e.g. products of intervals, more generally template polyhedra). Policy iteration was initially formulated with one invariant per control point, but we adapted it to path-focusing, and even to a combination of predicate abstraction with polyhedral analysis.

Joint work with Thomas Gawlitza and Peter Schrammel.

### David Monniaux: Quick presentation of the VERASCO and STATOR projects

10h50-11h

### Goran Frehse: Calcul "lazy" avec des ensembles convexes représentés par des fonctions de support

11h05-11h50

### Lunch Break

11h50-13h

### Thao Dang: Reachability analysis for polynomial dynamical systems using the Bernstein expansion

13h-13h45

This paper is concerned with the reachability computation problem for polynomial discrete-time dynamical systems. Such computations constitute a crucial component in algorithmic verification tools for hybrid systems and embedded software with polynomial dynamics, which have found applications in many engineering domains. We describe two methods for over-approximating the reachable sets of such systems; these methods are based on a combination of the Bernstein expansion of polynomial functions and a representation of reachable sets by template polyhedra. Using a prototype implementation, the performance of the methods was demonstrated on a number of examples of control systems and biological systems.

### Marie-Laure Potet: Les besoins pour l'analyse de vulnérabilités

13h50-14h15

Nous présentons nos travaux en cours dans le cadre de l'analyse de code vulnérable, en insistant notamment sur :

- les particularités de ce type d'analyse : code binaire, modèle mémoire ad hoc
- les conséquences sur les techniques d'analyse à utiliser ou développer

### Laurent Mounier: Analyse de teinte sur du code binaire

14h15-14h45

Nous présentons un exemple concret d'analyse développée pour la recherche de vulnérabilités : l'analyse de teinte.

### Radu Iosif: Acceleration Techniques for Program Verification

15h00-15h45

By acceleration we understand the class of techniques based on a precise computation of the transitive closure of (a part of) the transition relation of the program. In the first part of this talk we show how acceleration can be combined with interpolation to generate inductive interpolants which are crucial in abstraction refinement. This combined method applies to sequential non-recursive programs. In the second part of this talk, we show how acceleration can be applied, in a modular fashion, to recursive program schemes. The result is a Newtonian underapproximation sequence that converges to the tuple of summary relations of all procedures in the program. We also define a class of programs for which our method is shown to be complete i.e. terminate with the precise result.

Joint work with EPFL (Lausanne), IMDEA (Madrid), FIT BUT (Brno)

### Mnacho Echenim: On an abductive approach to error detection

16h-16h45

Joint work: Thierry Boy de la Tour, Mnacho Echenim, Nicolas Peltier et Sophie Tourret

The development of efficient decision procedures for (combinations of) theories that are used in hardware and software verification has made it easier to guarantee the correctness of the systems under scrutiny. In addition to being as efficient as possible, many state-of-the-art SMT solvers now enjoy automated model building features that can be used to construct counter-examples of faulty systems, with the aim of helping the system designers detect and correct the erros it contains. However, analyzing these counter-examples can be a long and difficult task, and pinpointing the errors in the system can still require a lot of work. We propose to investigate what is, to the best of our knowledge, a new approach to the detection of bugs in a system. The idea behind this approach is that, rather than analyzing one or all the counter-examples of a formula, more valuable information can be inferred from the properties that hold in all the counter-examples of the formula. These properties can be generated using techniques from automated abductive reasoning, and we present here a few directions of research that are currently under investigation.