Formal verification of PLC programs using the B Method / Formal verification of PLC programs using the B method

Barbosa, Haniel Moreira

01 November 2012

Made available in DSpace on 2014-12-17T15:48:03Z (GMT). No. of bitstreams: 1 HanielMB_DISSERT.pdf: 4925062 bytes, checksum: b4c15cc32318b96fa9ccd3be61b6e7e6 (MD5) Previous issue date: 2012-11-01 / PLCs (acronym for Programmable Logic Controllers) perform control operations, receiving information from the environment, processing it and modifying this same environment according to the results produced. They are commonly used in industry in several applications, from mass transport to petroleum industry. As the complexity of these applications increase, and as various are safety critical, a necessity for ensuring that they are reliable arouses. Testing and simulation are the de-facto methods used in the industry to do so, but they can leave flaws undiscovered. Formal methods can provide more confidence in an application s safety, once they permit their mathematical verification. We make use of the B Method, which has been successfully applied in the formal verification of industrial systems, is supported by several tools and can handle decomposition, refinement, and verification of correctness according to the specification. The method we developed and present in this work automatically generates B models from PLC programs and verify them in terms of safety constraints, manually derived from the system requirements. The scope of our method is the PLC programming languages presented in the IEC 61131-3 standard, although we are also able to verify programs not fully compliant with the standard. Our approach aims to ease the integration of formal methods in the industry through the abbreviation of the effort to perform formal verification in PLCs / Controladores L?gico Program?veis (PLCs Programmable Logic Controllers, em ingl?s) desempenham fun??es de controle, recebendo informa??es do ambiente, processando-as e modificando este ambiente de acordo com os resultados obtidos. S?o comumente utilizados na ind?stria nas mais diversas aplica??es, do transporte de massa ? ind?stria do petr?leo, g?s e energias renov?veis. Com o crescente aumento da complexidade dessas aplica??es e do seu uso em sistemas cr?ticos, faz-se necess?ria uma forma de verifica??o que propicie mais confian?a do que testes e simula??o, padr?es mais utilizados na ind?stria, mas que podem deixar falhas n?o tratadas. M?todos formais podem prover maior seguran?a a este tipo de sistema, uma vez que permitem a sua verifica??o matem?tica. Neste trabalho fazemos uso do M?todo B, que ? usado com sucesso na ind?stria para a verifica??o de sistemas cr?ticos, possui amplo apoio ferramental e suporte ? decomposi??o, refinamento e verifica??o de corretude em rela??o ? especifica??o atrav?s de obriga??es de prova. O m?todo desenvolvido e apresentado aqui consiste em gerar automaticamente modelos B a partir de programas para PLCs e verific?-los formalmente em rela??o a propriedades de seguran?a, estas derivadas manualmente a partir dos requisitos do sistema. O escopo do trabalho s?o as linguagens de programa??o para PLCs do padr?o IEC 61131-3, mas sistemas com linguagens que apresentem modifica??es em rela??o ao padr?o tamb?m s?o suportados. Esta abordagem visa facilitar a integra??o de m?todos formais na ind?stria atrav?s da diminui??o do esfor?o para realizar a verifica??o formal de PLCs