Towards quality assurance of software product lines with adversarial configurations

Paul Temple; Mathieu Acher; Gilles Perrouin; Battista Biggio; Jean Marc Jézéquel; Fabio Roli

doi:10.1145/3336294.3336309

Towards quality assurance of software product lines with adversarial configurations

Paul Temple, Mathieu Acher, Gilles Perrouin, Battista Biggio, Jean Marc Jézéquel, Fabio Roli

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Résumé

Software product line (SPL) engineers put a lot of effort to ensure that, through the setting of a large number of possible configuration options, products are acceptable and well-tailored to customers' needs. Unfortunately, options and their mutual interactions create a huge configuration space which is intractable to exhaustively explore. Instead of testing all products, machine learning is increasingly employed to approximate the set of acceptable products out of a small training sample of configurations. Machine learning (ML) techniques can refine a software product line through learned constraints and a priori prevent non-acceptable products to be derived. In this paper, we use adversarial ML techniques to generate adversarial configurations fooling ML classifiers and pinpoint incorrect classifications of products (videos) derived from an industrial video generator. Our attacks yield (up to) a 100% misclassification rate and a drop in accuracy of 5%. We discuss the implications these results have on SPL quality assurance.

langue originale	Anglais
titre	SPLC 2019 - 23rd International Systems and Software Product Line Conference
rédacteurs en chef	Thorsten Berger, Philippe Collet, Laurence Duchien, Thomas Fogdal, Patrick Heymans, Timo Kehrer, Jabier Martinez, Raul Mazo, Leticia Montalvillo, Camille Salinesi, Xhevahire Ternava, Thomas Thum, Tewfik Ziadi
Editeur	ACM Press
ISBN (Electronique)	9781450371384
Les DOIs	https://doi.org/10.1145/3336294.3336309
Etat de la publication	Publié - 9 sept. 2019
Evénement	23rd International Systems and Software Product Line Conference, SPLC 2019, co-located with the 13th European Conference on Software Architecture, ECSA 2019 - Paris, France Durée: 9 sept. 2019 → 13 sept. 2019

Série de publications

Nom	ACM International Conference Proceeding Series
Volume	A

Une conférence

Une conférence	23rd International Systems and Software Product Line Conference, SPLC 2019, co-located with the 13th European Conference on Software Architecture, ECSA 2019
Pays/Territoire	France
La ville	Paris
période	9/09/19 → 13/09/19

SDG des Nations Unies

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Accès au document

10.1145/3336294.3336309

Adversarial_Constraints_for_Variability_Models_SPLC2019Accepted author manuscript, 22 MB

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Temple, P., Acher, M., Perrouin, G., Biggio, B., Jézéquel, J. M., & Roli, F. (2019). Towards quality assurance of software product lines with adversarial configurations. Dans T. Berger, P. Collet, L. Duchien, T. Fogdal, P. Heymans, T. Kehrer, J. Martinez, R. Mazo, L. Montalvillo, C. Salinesi, X. Ternava, T. Thum, & T. Ziadi (eds.), SPLC 2019 - 23rd International Systems and Software Product Line Conference (ACM International Conference Proceeding Series; Vol A). ACM Press. https://doi.org/10.1145/3336294.3336309

Temple, Paul ; Acher, Mathieu ; Perrouin, Gilles et al. / Towards quality assurance of software product lines with adversarial configurations. SPLC 2019 - 23rd International Systems and Software Product Line Conference. Editeur / Thorsten Berger ; Philippe Collet ; Laurence Duchien ; Thomas Fogdal ; Patrick Heymans ; Timo Kehrer ; Jabier Martinez ; Raul Mazo ; Leticia Montalvillo ; Camille Salinesi ; Xhevahire Ternava ; Thomas Thum ; Tewfik Ziadi. ACM Press, 2019. (ACM International Conference Proceeding Series).

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abstract = "Software product line (SPL) engineers put a lot of effort to ensure that, through the setting of a large number of possible configuration options, products are acceptable and well-tailored to customers' needs. Unfortunately, options and their mutual interactions create a huge configuration space which is intractable to exhaustively explore. Instead of testing all products, machine learning is increasingly employed to approximate the set of acceptable products out of a small training sample of configurations. Machine learning (ML) techniques can refine a software product line through learned constraints and a priori prevent non-acceptable products to be derived. In this paper, we use adversarial ML techniques to generate adversarial configurations fooling ML classifiers and pinpoint incorrect classifications of products (videos) derived from an industrial video generator. Our attacks yield (up to) a 100% misclassification rate and a drop in accuracy of 5%. We discuss the implications these results have on SPL quality assurance.",

keywords = "Machine learning, Quality assurance, Software product line, Software testing, Software variability",

author = "Paul Temple and Mathieu Acher and Gilles Perrouin and Battista Biggio and J{\'e}z{\'e}quel, {Jean Marc} and Fabio Roli",

note = "Funding Information: This work has been partially funded by the Ministry of Science and Technology of Spain through ECLIPSE (RTI2018-094283-B-C33), the Junta de Andaluc?a via the PIRAMIDE and METAMORFOSIS projects, the European Regional Development Fund (ERDF/FEDER), and the MINECO Juan de la Cierva postdoctoral program. The authors would like to thank the C?tedra de Telef?nica {"}Inteligencia en la Red{"} of the Universidad de Sevilla for its support. Funding Information: ∗Gilles Perrouin is an FNRS Research Associate. This research was partly supported by EOS Verilearn project grant no. O05518F-RG03. This research was also funded by the ANR-17-CE25-0010-01 VaryVary project. Publisher Copyright: {\textcopyright} 2019 Association for Computing Machinery. Copyright: Copyright 2019 Elsevier B.V., All rights reserved.; 23rd International Systems and Software Product Line Conference, SPLC 2019, co-located with the 13th European Conference on Software Architecture, ECSA 2019 ; Conference date: 09-09-2019 Through 13-09-2019",

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Temple, P , Acher, M , Perrouin, G, Biggio, B, Jézéquel, JM & Roli, F 2019, Towards quality assurance of software product lines with adversarial configurations. Dans T Berger, P Collet, L Duchien, T Fogdal, P Heymans, T Kehrer, J Martinez, R Mazo, L Montalvillo, C Salinesi, X Ternava, T Thum & T Ziadi (eds), SPLC 2019 - 23rd International Systems and Software Product Line Conference. ACM International Conference Proceeding Series, VOL. A, ACM Press, 23rd International Systems and Software Product Line Conference, SPLC 2019, co-located with the 13th European Conference on Software Architecture, ECSA 2019, Paris, France, 9/09/19. https://doi.org/10.1145/3336294.3336309

Towards quality assurance of software product lines with adversarial configurations. / Temple, Paul ; Acher, Mathieu ; Perrouin, Gilles et al.
SPLC 2019 - 23rd International Systems and Software Product Line Conference. Ed. / Thorsten Berger; Philippe Collet; Laurence Duchien; Thomas Fogdal; Patrick Heymans; Timo Kehrer; Jabier Martinez; Raul Mazo; Leticia Montalvillo; Camille Salinesi; Xhevahire Ternava; Thomas Thum; Tewfik Ziadi. ACM Press, 2019. (ACM International Conference Proceeding Series; Vol A).

Résultats de recherche: Contribution dans un livre/un catalogue/un rapport/dans les actes d'une conférence › Article dans les actes d'une conférence/un colloque

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AU - Acher, Mathieu

AU - Perrouin, Gilles

AU - Biggio, Battista

AU - Jézéquel, Jean Marc

AU - Roli, Fabio

N1 - Funding Information: This work has been partially funded by the Ministry of Science and Technology of Spain through ECLIPSE (RTI2018-094283-B-C33), the Junta de Andaluc?a via the PIRAMIDE and METAMORFOSIS projects, the European Regional Development Fund (ERDF/FEDER), and the MINECO Juan de la Cierva postdoctoral program. The authors would like to thank the C?tedra de Telef?nica "Inteligencia en la Red" of the Universidad de Sevilla for its support. Funding Information: ∗Gilles Perrouin is an FNRS Research Associate. This research was partly supported by EOS Verilearn project grant no. O05518F-RG03. This research was also funded by the ANR-17-CE25-0010-01 VaryVary project. Publisher Copyright: © 2019 Association for Computing Machinery. Copyright: Copyright 2019 Elsevier B.V., All rights reserved.

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N2 - Software product line (SPL) engineers put a lot of effort to ensure that, through the setting of a large number of possible configuration options, products are acceptable and well-tailored to customers' needs. Unfortunately, options and their mutual interactions create a huge configuration space which is intractable to exhaustively explore. Instead of testing all products, machine learning is increasingly employed to approximate the set of acceptable products out of a small training sample of configurations. Machine learning (ML) techniques can refine a software product line through learned constraints and a priori prevent non-acceptable products to be derived. In this paper, we use adversarial ML techniques to generate adversarial configurations fooling ML classifiers and pinpoint incorrect classifications of products (videos) derived from an industrial video generator. Our attacks yield (up to) a 100% misclassification rate and a drop in accuracy of 5%. We discuss the implications these results have on SPL quality assurance.

AB - Software product line (SPL) engineers put a lot of effort to ensure that, through the setting of a large number of possible configuration options, products are acceptable and well-tailored to customers' needs. Unfortunately, options and their mutual interactions create a huge configuration space which is intractable to exhaustively explore. Instead of testing all products, machine learning is increasingly employed to approximate the set of acceptable products out of a small training sample of configurations. Machine learning (ML) techniques can refine a software product line through learned constraints and a priori prevent non-acceptable products to be derived. In this paper, we use adversarial ML techniques to generate adversarial configurations fooling ML classifiers and pinpoint incorrect classifications of products (videos) derived from an industrial video generator. Our attacks yield (up to) a 100% misclassification rate and a drop in accuracy of 5%. We discuss the implications these results have on SPL quality assurance.

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KW - Software product line

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A2 - Fogdal, Thomas

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A2 - Kehrer, Timo

A2 - Martinez, Jabier

A2 - Mazo, Raul

A2 - Montalvillo, Leticia

A2 - Salinesi, Camille

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A2 - Thum, Thomas

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Temple P , Acher M , Perrouin G, Biggio B, Jézéquel JM, Roli F. Towards quality assurance of software product lines with adversarial configurations. Dans Berger T, Collet P, Duchien L, Fogdal T, Heymans P, Kehrer T, Martinez J, Mazo R, Montalvillo L, Salinesi C, Ternava X, Thum T, Ziadi T, rédacteurs en chef, SPLC 2019 - 23rd International Systems and Software Product Line Conference. ACM Press. 2019. (ACM International Conference Proceeding Series). doi: 10.1145/3336294.3336309

Towards quality assurance of software product lines with adversarial configurations

Résumé

Série de publications

Une conférence

SDG des Nations Unies

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