Uncertainty Problem in High-level Model Based Trace Analysis as Part of Runtime Verification.

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Bibliographic Details
Title: Uncertainty Problem in High-level Model Based Trace Analysis as Part of Runtime Verification.
Authors: Karnov, A.1 (AUTHOR) karnov@ispras.ru
Source: Programming & Computer Software. Dec2025, Vol. 51 Issue 7, p478-485. 8p.
Subjects: Linux operating systems, Security systems, Computer operating systems, System analysis, Mathematical optimization
Abstract: The article discusses the problem of applying runtime verification to large and complex systems such as general-purpose operating systems. When verifying the security mechanisms of operating systems, modern practices and standards require a formal security policy model (SPM). The SPM must be verified using formal model methods, and it must also be used to verify the completeness and consistency of the operating system's security mechanisms by confirming compliance with the formal requirements of the SPM. In this case, it is convenient to have a single model suitable for both formal verification and implementation testing. For practical application, it is necessary, on the one hand, to select a subset of model language constructs suitable for both acts, and on the other hand, to develop special techniques for analyzing execution traces that allow to effectively perform thousands of test cases. The article addresses both of these issues. We present an analysis of language constructs that allow us to use the model for both verification and execution trace analysis. We also offer techniques that have been developed to optimize the runtime verification of Linux-based systems. [ABSTRACT FROM AUTHOR]
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Database: Engineering Source
Description
Abstract:The article discusses the problem of applying runtime verification to large and complex systems such as general-purpose operating systems. When verifying the security mechanisms of operating systems, modern practices and standards require a formal security policy model (SPM). The SPM must be verified using formal model methods, and it must also be used to verify the completeness and consistency of the operating system's security mechanisms by confirming compliance with the formal requirements of the SPM. In this case, it is convenient to have a single model suitable for both formal verification and implementation testing. For practical application, it is necessary, on the one hand, to select a subset of model language constructs suitable for both acts, and on the other hand, to develop special techniques for analyzing execution traces that allow to effectively perform thousands of test cases. The article addresses both of these issues. We present an analysis of language constructs that allow us to use the model for both verification and execution trace analysis. We also offer techniques that have been developed to optimize the runtime verification of Linux-based systems. [ABSTRACT FROM AUTHOR]
ISSN:03617688
DOI:10.1134/S0361768825700355