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A Formally Verified Model of Web Components

by Achim D. Brucker and Michael Herzberg

The trend towards ever more complex client-side web applications is unstoppable. Compared to traditional software development, client-side web development lacks a well-established component model, i.e., a method for easily and safely reusing already developed functionality. To address this issue, the web community started to adopt shadow trees as part of the Document Object Model (DOM): shadow trees allow developers to "partition" a DOM instance into parts that should be safely separated, e.g., code modifying one part should not, unintentionally, affect other parts of the DOM.

While shadow trees provide the technical basis for defining web components, the DOM standard neither defines the concept of web components nor specifies the safety properties that web components should guarantee. Consequently, the standard also does not discuss how or even if the methods for modifying the DOM respect component boundaries. In this paper, we present a formally verified model of web components and define safety properties which ensure that different web components can only interact with each other using well-defined interfaces. Moreover, our verification of the application programming interface (API) of the DOM revealed numerous invariants that implementations of the DOM API need to preserve to ensure the integrity of components.

Keywords: Web Component, Shadow Tree, DOM, Isabelle/HOL
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QR Code for brucker.ea:web-components:2019.Please cite this article as follows:
Achim D. Brucker and Michael Herzberg. A Formally Verified Model of Web Components. In Formal Aspects of Component Software (FACS). Lecture Notes in Computer Science, Springer-Verlag, 2019.
Keywords: Web Component, Shadow Tree, DOM, Isabelle/HOL
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BibTeX
@InCollection{ brucker.ea:web-components:2019,
abstract = {The trend towards ever more complex client-side web applications is unstoppable. Compared to traditional software development, client-side web development lacks a well-established component model, i.e., a method for easily and safely reusing already developed functionality. To address this issue, the web community started to adopt shadow trees as part of the Document Object Model (DOM): shadow trees allow developers to "partition" a DOM instance into parts that should be safely separated, e.g., code modifying one part should not, unintentionally, affect other parts of the DOM.\\\\While shadow trees provide the technical basis for defining web components, the DOM standard neither defines the concept of web components nor specifies the safety properties that web components should guarantee. Consequently, the standard also does not discuss how or even if the methods for modifying the DOM respect component boundaries. In this paper, we present a formally verified model of web components and define safety properties which ensure that different web components can only interact with each other using well-defined interfaces. Moreover, our verification of the application programming interface (API) of the DOM revealed numerous invariants that implementations of the DOM API need to preserve to ensure the integrity of components.},
address = {Heidelberg},
author = {Achim D. Brucker and Michael Herzberg},
booktitle = {Formal Aspects of Component Software (FACS)},
editor = {Sung-Shik Jongmans and Farhad Arbab},
isbn = {3-540-25109-X},
keywords = {Web Component, Shadow Tree, DOM, Isabelle/HOL},
language = {USenglish},
location = {Amsterdam, The Netherlands},
publisher = {Springer-Verlag},
series = {Lecture Notes in Computer Science},
title = {A Formally Verified Model of Web Components},
url = {https://www.brucker.ch/bibliography/abstract/brucker.ea-web-components-2019},
year = {2019},
}