Open Access
A DESIGN SCIENCE APPROACH TO MITIGATING INTER-SERVICE INTEGRATION FAILURES IN MICROSERVICE ARCHITECTURES: THE CONSUMER-DRIVEN CONTRACT TESTING FRAMEWORK AND PILOT IMPLEMENTATION
4
Faculty of Computer Science, Universitas Indonesia, Jakarta, Indonesia
4
Faculty of Computer Science, Universitas Indonesia, Jakarta, Indonesia
Abstract
Purpose: Microservice Architectures (MSA) enhance agility but introduce significant complexity in managing inter-service communication and mitigating integration failures, often rendering traditional End-to-End (E2E) testing impractical. This study aims to propose, implement, and evaluate a formal Consumer-Driven Contract Testing (CDCT) framework as a superior quality assurance strategy for distributed systems.
Design/Methodology/Approach: A Design Science Research (DSR) approach was employed to develop the CDCT framework artifact, which supports both REST and gRPC protocols. A pilot implementation was deployed within a Continuous Integration/Continuous Delivery (CI/CD) pipeline on a representative microservice topology. The framework’s efficacy was quantitatively evaluated by measuring key quality assurance metrics: Time to Feedback (TTF) on induced breaking changes, Integration Fault Isolation (IFI), and the impact on a Deployment Confidence Index (DCI), comparing results against an E2E testing baseline.
Findings: The CDCT framework demonstrated a substantial reduction in TTF, allowing developers to detect integration faults orders of magnitude faster and at an earlier stage in the development lifecycle. The IFI metric confirmed that CDCT precisely isolates breaking changes to the consumer-provider contract, significantly reducing debugging effort. The unified approach to REST and gRPC validation confirmed the framework’s technological versatility. The framework effectively facilitates independent deployment, a core tenet of MSA, by providing a high DCI.
Originality/Value: This research delivers a validated, formal CDCT framework that extends coverage to heterogeneous communication protocols (REST/gRPC) and provides quantitative empirical evidence for its superiority over conventional integration testing in an MSA context.
Keywords
Consumer-Driven Contract Testing,
Microservice Architecture,
Distributed Systems,
Quality Assurance
References
G. actions. About billing for GitHub Actions. https://docs.github.com/en/billing/managing-billing- for-github-actions/about-billing-for-github-actions, 2021. [Online; accessed 30-oct-2021].
Balalaie, A. Heydarnoori, and P. Jamshidi. Microservices architecture enables devops: Migration to a cloud-native architecture. Ieee Software, 33(3):42–52, 2016.
Berg. Component contract testing is insufficient. https://www.linkedin.com/pulse/component- contract-testing-insufficient-cliff-berg/, 2020.
[Online; accessed 22-Nov-2021].
W. Boehm and P. N. Papaccio. Understanding and controlling software costs. IEEE transactions on software engineering, 14(10):1462–1477, 1988.
F. P. Brooks. The mythical man-month – Essays on Software-Engineering. Addison-Wesley, 1975.
M. Cohen. Succeeding with Agile. Addison-Wesley, 2010.
S. Daya, N. Van Duy, K. Eati, C. M. Ferreira, D. Glozic, V. Gucer, M. Gupta, S. Joshi, V. Lampkin,
M. Martins, et al. Microservices from theory to practice: creating applications in IBM Bluemix using the microservices approach. IBM Redbooks, 2016.
N. Dragoni, S. Giallorenzo, A. L. Lafuente, M. Mazzara, F. Montesi, R. Mustafin, and L. Safina. Microservices: yesterday, today, and tomorrow. Present and ulterior software engineering, pages 195–216, 2017.
M. Droettboom. Understanding JSON Schema. https://json-schema.org/understanding-json- schema/reference/generic.html, 2021. [Online; accessed 27-Sep-2021].
M. Fellows. Support grpc. https://pact.canny.io/feature-requests/p/support- grpc, 2020. [Online; accessed 12-Jun-2022].
M. Fowler. Testing Strategies in a Microservice Architecture. https://martinfowler.com/articles/microservice- testing/, 2014. [Online; accessed 21-Sep-2021].
M. Fowler. Microservices Guide. https://martinfowler.com/microservices/, 2016.
[Online; accessed 11-Aug-2021].
Google. Rethinking external APIs. https://googleapis.dev/python/protobuf/latest/google
/protobuf/json_format.html, 2021. [Online; accessed 4-nov-2021].
gRPC authors. What is gRPC. https://grpc.io/docs/what-is-grpc/, 2020. [Online; accessed 11-Aug-2021].
L. Gupta. What is REST. https://restfulapi.net/, 2020. [Online; accessed 11-Aug-2021].
F. Henderson. Software engineering at google. arXiv preprint arXiv:1702.01715, 2017.
R. Hevner, S. T. March, J. Park, and S. Ram. Design science in information systems research. MIS quarterly, pages 75–105, 2004.
J. Humble and D. Farley. Continuous delivery: reliable software releases through build, test, and deployment automation. Pearson Education, 2010.
P. Jamshidi, C. Pahl, N. C. Mendonça, J. Lewis, and
S. Tilkov. Microservices: The journey so far and challenges ahead. IEEE Software, 35(3):24–35, 2018.
G. Jansen. Verify your microservice integrations with contract testing. https://developer.ibm.com/articles/verify-your- microservice-integrations-with-contract-testing/, 2021. [Online; accessed 4-Nov-2021].
J. Lehvä, N. Mäkitalo, and T. Mikkonen. Consumer- driven contract tests for microservices: A case study. In International Conference on Product-Focused Software Process Improvement, pages 497–512. Springer, 2019.
S. Newman. Building microservices. " O’Reilly
Media, Inc.", 2021.
K. Ostrovsky. Rethinking external APIs. https://daily.dev/blog/api-gateway-for-grpc- microservices, 2021. [Online; accessed 31-oct- 2021].
M. Rahman and J. Gao. A reusable automated acceptance testing architecture for microservices in behavior-driven development. In 2015 IEEE Symposium on service-oriented system engineering, pages 321–325. IEEE, 2015.
C. Richardson. Microservics Patterns. Manning books, 2018.
Schaffer. Testing of Microservices. https://engineering.atspotify.com/2018/01/11/testing
-of-microservices/, 2018. [Online; accessed 11-Aug- 2021].
Sai Nikhil Donthi. (2025). A Scrumban Integrated Approach to Improve Software Development Process and Product Delivery. The American Journal of Interdisciplinary Innovations and Research, 7(09), 70–82.
S. SonarSource S.A. Metric definitions. https://medium.com/@qawerk/how-much-does-it- cost-to-outsource-qa-ad345bf9e05, 2018. [Online; accessed 18-Nov-2021].
S. SonarSource S.A. Metric definitions. https://docs.sonarqube.org/latest/user-guide/metric- definitions/, 2021. [Online; accessed 9-Nov-2021]
D. Stenberg. Http2 explained, 2014.
L. M. A. S. T. Berners-Lee W3C/MIT, R. Fielding Day Software. Uniform resource identifier (uri): Generic syntax.
https://datatracker.ietf.org/doc/html/rfc3986, 2005. [Online; accessed 19-Nov-2021].
C. Tankersley. Wsl2 slowing down over time. https://github.com/microsoft/WSL/issues/4498, 2019. [Online; accessed 22-Nov-2021].
E. Tom, A. Aurum, and R. Vidgen. An exploration of technical debt. Journal of Systems and Software, 86(6):1498–1516, 2013.
Sagar Kesarpu. (2025). Contract Testing with PACT: Ensuring Reliable API Interactions in Distributed Systems. The American Journal of Engineering and Technology, 7(06), 14–23. https://doi.org/10.37547/tajet/Volume07Issue06-03
J. Vihanen. Testing a Greenfield Microservice. https://www.smartly.io/blog/testing-a-greenfield- microservice, 2019. [Online; accessed 4-Nov-2021].
M. Villamizar, O. Garcés, H. Castro, M. Verano, L. Salamanca, R. Casallas, and S. Gil. Evaluating the monolithic and the microservice architecture pattern to deploy web applications in the cloud. In 2015 10th Computing Colombian Conference (10CCC), pages 583–590. IEEE, 2015.
P. Vincent. Why you should use consumer-driven contracts for microservice integration tests. https://engineering.poppulo.com/why-should-you- use-consumer-driven-contracts-for-microservices- integration-tests/, 2015. [Online; accessed 22-Nov- 2021]
Jain, R., Sai Santosh Goud Bandari, & Naga Sai Mrunal Vuppala. (2025). Polynomial Regression Techniques in Insurance Claims Forecasting. International Journal of Computational and Experimental Science and Engineering, 11(3). https://doi.org/10.22399/ijcesen.3519
Sujeet Kumar Tiwari. (2024). The Future of Digital Retirement Solutions: A Study of Sustainability and Scalability in Financial Planning Tools. Journal of Computer Science and Technology Studies, 6(5), 229-245. https://doi.org/10.32996/jcsts.2024.6.5.19
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