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free_software_for_formal_verification [Le 28/01/2012 à 11:28]
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-====== Free software tools for formal verification of computer programs ====== 
-\\ 
-by  [[david_mentre|David Mentré]] <dmentre @ linux-france.org>\\ 
  
-//Version 1.23- 2011-12-11//\\ 
- 
-We are now living in the XXIst century. We should no longer make software as in the sixties or seventies, with a few tests. We are now able to make software without **any** bugs (well, without most of them, see below). This is possible using specialised tools called //formal tools//. Such tools are able to match a computer program against a specification, i.e. a formal description of the expected behaviour of the program. If the  specification is correct and the formal verification can be done, then the program is guaranteed to be bug free. Of course, this is the ideal case and we are far from guaranteed bug free programs in the real world. But, as developer of free software, we should try to be as close as possible of this goal. As a first step, I list here free software tools that can help verification of computer programs.\\ 
- 
-Note: David A. Wheeler as made a lengthy paper on [[http://www.dwheeler.com/essays/high-assurance-floss.html|High Assurance (for Security or Safety) and [[free_-_libre|Free-Libre]] / Open Source Software (FLOSS)... with Lots on Formal Methods]]. You should read it if you are interested in the subject!\\ 
- 
-[[sub_-pages|Sub-pages]] :\\ 
-    *  [[smtsolvers|SMT Solvers]]\\ 
-    *  [[proof_assistants|Proof assistants]]\\ 
-    *  [[model_checkers|Model checkers]]\\ 
- 
-\\ 
-==== Maude ==== 
-\\ 
-Maude is a high-performance reflective language and system supporting both equational and rewriting logic specification and programming for a wide range of applications. Maude has been influenced in important ways by the OBJ3 language, which can be regarded as an equational logic sublanguage. Besides supporting equational specification and programming, Maude also supports rewriting logic computation.\\ 
- 
-Rewriting logic is a logic of concurrent change that can naturally deal with state and with concurrent computations. It has good properties as a general semantic framework for giving executable semantics to a wide range of languages and models of concurrency. In particular, it supports very well concurrent object-oriented computation. The same reasons making rewriting logic a good semantic framework make it also a good logical framework, that is, a metalogic in which many other logics can be naturally represented and executed.\\ 
- 
-    * License: GNU GPL\\ 
-    * Web site: http://maude.cs.uiuc.edu/\\ 
- 
-\\ 
-==== Sparkle ==== 
-\\ 
-Sparkle is a proof tool specially constructed for [[http://clean.cs.ru.nl/|Clean]] (a state-of-the-art pure and lazy functional programming language). The tool knows the Clean 2.0 syntax and semantics. It comes with a rich set of proof tactics and a powerful hint mechanism to aid the user in proving properties of Clean programs.\\ 
- 
-    * License: GNU LGPL (same as Clean language)\\ 
-    * Web site: http://clean.cs.ru.nl/\\ 
- 
-\\ 
-==== [[proof_power|ProofPower]] ==== 
-\\ 
-%%ProofPower%%is a suite of tools supporting specification and proof in Higher Order Logic (HOL) and in the Z notation. The suite comprises the following packages:\\ 
- 
-        * %%PPDev%%  * The %%ProofPower%%developer kit, mainly comprising SLRP, a parser generator for Standard ML.\\ 
-        * %%PPTex%%  * The %%ProofPower%%interface to %%TeX%%and %%LaTeX%%.\\ 
-        * PPXpp - The X Windows/Motif front-end for %%ProofPower%%.\\ 
-        * PPHol - The HOL specification and proof development system.\\ 
-        * PPZed - The Z specification and proof development system.\\ 
-        * PPDaz - The Compliance Tool for specifying and verifying Ada programs.\\ 
- 
-All the %%ProofPower%%packages except PPDaz are free, open-source, software made available under the terms of the GNU General Public License.\\ 
- 
-%%ProofPower%%has been under ongoing development since 1989. It was originally designed and implemented by International Computers Ltd. to support proofs of specification-to-model correspondence for high-assurance secure systems. It has since played an important role in approaches to specifying and verifying safety-critical systems in work by the Defence and Evaluation Research Agency, now %%QinetiQ%%, and others. Since 1997, on-going developments to the product have been undertaken by Lemma 1 Ltd. In Spring 2000, International Computers Ltd. transferred its rights in %%ProofPower%%to Lemma 1 Ltd who now maintain this web site and support and distribute the software.\\ 
- 
-  * License: GPL (except PPDaz)\\ 
-  * Web site: http://www.lemma-one.com/ProofPower/index/index.html\\ 
- 
-==== K ==== 
-\\ 
-K is a rewrite-based executable semantic framework in which programming languages, type systems and formal analysis tools can be defined using configurations, computations and rules. Configurations organize the state in units called cells, which are labeled and can be nested. Computations carry computational meaning as special nested list structures sequentializing computational tasks, such as fragments of program. Computations extend the original language abstract syntax. K (rewrite) rules make it explicit which parts of the term they read-only, write-only, read-write, or do not care about. This makes K suitable for defining truly concurrent languages even in the presence of sharing. Computations are like any other terms in a rewriting environment: they can be matched, moved from one place to another, modified, or deleted. This makes K suitable for defining control-intensive features such as abrupt termination, exceptions or call/cc.\\ 
- 
-  * License: GPLv2\\ 
-  * Web site: http://k-framework.org\\ 
- 
-\\ 
- 
-===== Tools to help verification of real programs ===== 
-\\ 
-I have put under this category software that can be applied to real world programs (in language like C for example) to prove properties on them.\\ 
- 
-==== Brillant ==== 
-\\ 
-Set of free software tools aiming at implementing the B method, for both software and hardware.\\ 
- 
-    * License: GNU LGPL\\ 
-    * Web site: https://gna.org/projects/brillant\\ 
- 
-==== [[im_prove|ImProve]] ==== 
-\\ 
-[[im_prove|ImProve]] is an imperative programming language for high assurance applications. ImProve uses infinite state, unbounded model checking to verify programs adhere to specifications. Yices (required) is the backend SMT solver. [[im_prove|ImProve]] compiles to C, Ada, Simulink, and Modelica.\\ 
- 
-    * License: BSD3\\ 
-    * Web site: https://github.com/tomahawkins/improve/wiki/ImProve\\ 
- 
-==== Boogie ==== 
-\\ 
-Boogie is a program verification system that produces verification conditions for programs written in an intermediate language (also named Boogie). The intermediate language is easy to target from source languages such as Spec#, C#, or even C.\\ 
- 
-    * License: Microsoft Public License (Ms-PL)\\ 
-    * Web site: http://boogie.codeplex.com/\\ 
- 
-==== Saturn ==== 
-\\ 
-The goal of the Saturn project is to statically and automatically verify properties of large (meaning multi-million line) software systems. The focus of much of our work is simultaneously achieving scalability, precision, and a straightforward way of expressing analyses that is easy to reason about. We plan to use these techniques to verify properties of a full operating system.\\ 
- 
-        * License: BSD like\\ 
-        * Web site: http://saturn.stanford.edu/\\ 
- 
-\\ 
-==== [[frama_-c|Frama-C]] ==== 
-\\ 
-[[frama_-c|Frama-C]] is a suite of tools dedicated to the analysis of the source code of software written in C.\\ 
- 
-If you have a C program and need to\\ 
- 
-        * validate it formally\\ 
-        * look for potential runtime errors\\ 
-        * audit or review it\\ 
-        * reverse engineer it to understand its structure\\ 
-        * generate formal documentation\\ 
- 
-One or more of the following [[frama_-c|Frama-C]] tools may be of assistance to you:\\ 
- 
-        * A parser, a type checker and source level linker for C code optionally annotated with ACSL formulas.\\ 
-        * A set of builtin static analysis plugins:\\ 
-                    * A runtime error detection plug-in based on abstract interpretation techniques\\ 
-                    * A dependencies computation plug-in\\ 
-                    * An interactive value analysis plug-in\\ 
-                    * A Use/Defs computation plug-in\\ 
-                    * A slicing plug-in\\ 
-                    * A weakest precondition calculus plug-in based on [[floyd_-_hoare|Floyd-Hoare]] logic\\ 
- 
-          * List of alarms detected by the value analysis is "uninitialized access, use of a dangling pointer, overflows in signed integer arithmetics, invalid memory access, invalid comparison of pointers, division by zero, undefined logical shift, overflows in conversions from floating-point to integer, infinite or [[nan|NaN]] resulting from a floating-point operation, undefined side-effects in expressions"\\ 
- 
-        * License: GNU LGPL v2\\ 
-        * Web site: http://frama-c.cea.fr/\\ 
- 
-==== Why ==== 
-\\ 
-Why is a verification conditions generator (VCG) back-end for other verification tools. It understands ML, C and Java languages (with the help of other programs).\\ 
- 
-    * License: GNU GPL\\ 
-    * Web site: http://why.lri.fr/\\ 
- 
-\\ 
-==== CIL ==== 
-\\ 
-CIL is a framework to analyse and manipulate C programs.\\ 
- 
-    * License: BSD like\\ 
-    * Web site: http://manju.cs.berkeley.edu/cil/\\ 
- 
-\\ 
-==== Splint ==== 
-\\ 
-Splint is a tool for statically checking C programs for security vulnerabilities and coding mistakes. With minimal effort, Splint can be used as a better lint. If additional effort is invested adding annotations to programs, Splint can perform stronger checking than can be done by any standard lint.\\ 
- 
-    * License: GNU GPL\\ 
-    * Web site: http://www.splint.org/\\ 
-    * Debian packages: splint splint-doc\\ 
- 
-\\ 
-==== Cqual ==== 
-\\ 
-Cqual is a type-based analysis tool that provides a lightweight, practical mechanism for specifying and checking properties of C programs. Cqual extends the type system of C with extra user-defined type qualifiers. The programmer adds type qualifier annotations to their program in a few key places, and Cqual performs qualifier inference to check whether the annotations are correct. The analysis results are presented with a user interface that lets the programmer browse the inferred qualifiers and their flow paths.\\ 
- 
-    * License: GNU GPL\\ 
-    * Web site: http://www.cs.umd.edu/~jfoster/cqual/\\ 
- 
-\\ 
-==== CCured ==== 
-\\ 
-CCured is a source-to-source translator for C. It analyzes the C program to determine the smallest number of run-time checks that must be inserted in the program to prevent all memory safety violations. The resulting program is memory safe, meaning that it will stop rather than overrun a buffer or scribble over memory that it shouldn't touch. Many programs can be made memory-safe this way while losing only 10$-160% run-time performance (the performance cost is smaller for cleaner programs, and can be improved further by holding CCured's hand on the parts of the program that it does not understand by itself). Using CCured we have found bugs that Purify misses with an order of magnitude smaller run-time cost.\\ 
- 
-    * License: BSD like\\ 
-    * Web site: http://manju.cs.berkeley.edu/ccured/\\ 
- 
-\\ 
-==== CHIC ==== 
-\\ 
-CHIC is a modular verifier for behavioral compatibility checking of software and hardware components. The goal of CHIC is to be able to check that the interfaces for software or hardware components provide guarantees that satisfy the assumptions they make about each other. CHIC supports a variety of interface property specification formalisms.\\ 
- 
-    * License: BSD like\\ 
-    * Web site: http://www-cad.eecs.berkeley.edu/~arindam/Chic/\\ 
- 
-\\ 
-==== Smatch!!! ==== 
-\\ 
-Smatch is C source checker but mainly focused checking the Linux kernel code. It is based on the papers about the Stanford Checker.\\ 
- 
-Basically, Smatch uses a modified gcc to generate .c.sm files. The .c.sm files are piped through individual Smatch scripts that print out error messages.\\ 
- 
-For example, someone might want to write a Smatch script that looked for code that called copy_to_user() while the kernel was locked. If the script saw a place that called lock_kernel() then it would record the state as locked. If the script saw a place that called unlock_kernel() it would set the state to unlocked. If the state was locked and the script saw a place that called copy_to_user() the script would print out an error message.\\ 
- 
-    * License: GNU GPL\\ 
-    * Web site: http://smatch.sourceforge.net/\\ 
- 
-\\ 
-==== Sparse ==== 
-\\ 
-Sparse, the semantic parser, provides a compiler frontend capable of parsing most of ANSI C as well as many GCC extensions, and a collection of sample compiler backends, including a static analyzer also called "sparse". Sparse provides a set of annotations designed to convey semantic information about types, such as what address space pointers point to, or what locks a function acquires or releases.\\ 
- 
-        * License: OSL v1.1 ("Open Software License")\\ 
-        * Web site: http://www.kernel.org/pub/software/devel/sparse/\\ 
- 
-==== Stance ==== 
-\\ 
-Features:\\ 
-        * [[error_-finding|Error-finding]] tool based on static analysis.\\ 
-        * Target language is C (ANSI C99), but extensible to C#/C++/Java.\\ 
-        * Full ANSI C99 support, including most GNU C extensions.\\ 
-        * Modular structure, easy extensibility, fast development.\\ 
-        * Easy to use interface and error path inspection.\\ 
-        * Makefile support and batch execution.\\ 
- 
-Errors detected:\\ 
-        * Memory allocation errors (null pointers, memory leaks, dangling pointers)\\ 
-        * Bad locking discipline (double locks/unlocks, locks not released etc.)\\ 
-        * Interrupt handling (cli/sti-style).\\ 
-        * And all the errors which can be described by state automata.\\ 
- 
-        * License: GNU GPLv2\\ 
-        * Web site: http://stanse.fi.muni.cz/\\ 
- 
-==== Focal ==== 
-\\ 
-Focal (formerly known as %%FoC%%) is a language for software-proof codesign. In Focal, code, specifications, and proofs are developped together in the same source files, using a novel object-oriented module system. The compiler analyses the dependencies in order to ensure the consistency of the source, then translates the code to Objective Caml, and the proofs to Coq.\\ 
- 
-    * License: BSD like\\ 
-    * Web site: http://modulogic.inria.fr/focal/download/\\ 
- 
-==== [[fo_ca_lize|FoCaLize]] ==== 
-\\ 
-The %%FoCaLize%%development effort started in 2006: it was clearly a continuation of the %%Foc%%and Focal efforts. The new system was rewritten from scratch. A new language and syntax was designed and carefully implemented, with in mind ease of use, expressivity, and programmer friendyness. The addition of powerful data structure definitions together with the corresponding pattern matching facility, lead to new expressing power.\\ 
- 
-The Zenon automatic theorem prover was also integrated in the compiler and natively interfaced within the %%FoCaLize%%language. New developments for recursive functions support is on the way (in particular for termination proofs).\\ 
- 
-A formal specification can be built by declaring names of functions and values and introducing properties. Then, design and implementation can incrementally be done by adding definitions of functions and proving that the implementation meets the specification or design requirements. Thus, developing in %%FoCaLize%%is a kind of refinement process from formal model to design and code, completely done within %%FoCaLize%%. Taking the global development in consideration within the same environment brings some conciseness, helps documentation and reviewing. Thus a %%FoCaLize%%development is organised as a hierarchy that may have several roots. The upper levels of the hierarchy are built along the specification stage while the lower ones correspond to implementation and each node of the hierarchy corresponds to a progress toward a complete implementation.\\ 
- 
-The %%FoCaLize%%system provides means for the developers to formally express their specifications and to go step by step (in an incremental approach) to design and implementation while proving that such an implementation meets its specification or design requirements. The %%FoCaLize%%language offers high level mechanisms such as inheritance, late binding, redefinition, parametrization, etc. Confidence in proofs submitted by developers or automatically done relies on formal proof verification. %%FoCaLize%%also provides some automation of documentation production and  management.\\ 
- 
-    * License: BSD like\\ 
-    * Web site: http://focalize.inria.fr\\ 
- 
-\\ 
-===== Tools to make formal models ===== 
-\\ 
- 
-==== Alloy ==== 
-\\ 
-The Alloy Analyzer is a tool developed by the Software Design Group for analyzing models written in Alloy, a simple structural modeling language based on first-order logic. The tool can generate instances of invariants, simulate the execution of operations (even those defined implicitly), and check user-specified properties of a model. Alloy and its analyzer have been used primarily to explore abstract software designs. Its use in analyzing code for conformance to a specification and as an automatic test case generator are being investigated in ongoing research projects.\\ 
- 
-    * License: GNU GPL\\ 
-    * Web site: http://alloy.mit.edu/\\ 
- 
-==== mCRL2 ==== 
-\\ 
-mCRL2 is a formal specification language with an associated toolset. The toolset can be used for modelling, validation and verification of concurrent systems and protocols.\\ 
- 
-The toolset supports a collection of tools for linearisation, simulation, state-space exploration and generation and tools to optimise and analyse specifications. Moreover, state spaces can be manipulated, visualised and analysed.\\ 
- 
-    * License: BSD like\\ 
-    * Web site: http://www.mcrl2.org\\ 
- 
-==== TLA+ Proof System ==== 
-\\ 
-The TLA+ Proof System (TLAPS) is a platform for computerized verification of TLA+  proofs using formal reasoning systems such as automated theorem provers, proof-assistants, SMT/SAT solvers, and decision procedures. TLA+ is a specification language designed for concurrent, distributed, reactive and real-time systems, but it can also be used to formalize any discrete algorithm. The TLA+ proof language is declarative, hierarchical, and scalable to large system specifications. It provides a consistent abstraction over the various “backend” verifiers. The current release of TLAPS handles just enough temporal reasoning to check safety properties; an extension to the full TLA+ language is under active development.\\ 
- 
-    * License: BSD\\ 
-    * Web site: http://msr-inria.inria.fr/~doligez/tlaps/\\ 
- 
-===== Conclusion ===== 
-\\ 
-It remains to test all those programs. A hard task that is not yet done. 
 
free_software_for_formal_verification.1327746503.txt.gz · Dernière modification: Le 13/02/2012 à 21:07 (modification externe)     Haut de page
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