Fixed BibTeX entry.
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CITATION
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CITATION
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@ -7,36 +7,35 @@ To cite the use of this formal theory, please use
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A BibTeX entry for LaTeX users is
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@InProceedings{ brucker.ea:core-dom:2018,
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abstract = {At its core, the Document Object Model (DOM) defines a tree-like
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data structure for representing documents in general and HTML
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documents in particular. It forms the heart of any rendering engine
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of modern web browsers. Formalizing the key concepts of the DOM is
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a pre-requisite for the formal reasoning over client-side JavaScript
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programs as well as for the analysis of security concepts in modern
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web browsers. In this paper, we present a formalization of the core DOM,
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with focus on the node-tree and the operations defined on node-trees,
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in Isabelle/HOL. We use the formalization to verify the functional
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correctness of the most important functions defined in the DOM standard.
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Moreover, our formalization is (1) extensible, i.e., can be extended without
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the need of re-proving already proven properties and (2) executable, i.e.,
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we can generate executable code from our specification.},
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address = {New York, NY, USA},
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author = {Achim D. Brucker and Michael Herzberg},
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booktitle= {The 2018 Web Conference Companion (WWW)},
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conf_date= {April 23-27, 2018},
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doi = {10.1145/3184558.3185980},
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editor = {Pierre{-}Antoine Champin and Fabien L. Gandon and Mounia Lalmas and Panagiotis G. Ipeirotis},
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isbn = {978-1-4503-5640-4/18/04},
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keywords = {Document Object Model, DOM, Formal Semantics, Isabelle/HOL},
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location = {Lyon, France},
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pages = {741--749},
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pdf = {https://www.brucker.ch/bibliography/download/2018/brucker.ea-core-dom-2018.pdf},
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publisher= {ACM Press},
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title = {A Formal Semantics of the Core {DOM} in {Isabelle/HOL}},
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url = {https://www.brucker.ch/bibliography/abstract/brucker.ea-core-dom-2018},
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year = {2018},
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}
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@Article{ brucker.ea:afp-dom-components:2020,
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author = {Achim D. Brucker and Michael Herzberg},
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title = {A Formalization of Web Components},
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journal = {Archive of Formal Proofs},
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month = sep,
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year = 2020,
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date = {2020-09-28},
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note = {\url{http://www.isa-afp.org/entries/DOM_Components.html}, Formal proof development},
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issn = {2150-914x},
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public = {yes},
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classification= {formal},
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categories = {websecurity},
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pdf = {http://www.brucker.ch/bibliography/download/2020/brucker.ea-afp-dom-components-2020.pdf},
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filelabel = {Outline},
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file = {http://www.brucker.ch/bibliography/download/2020/brucker.ea-afp-dom-components-outline-2020.pdf},
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areas = {formal methods, security, software engineering},
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abstract = { While the DOM with shadow trees provide the technical basis for defining web components, the DOM
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standard neither defines the concept of web components nor specifies the safety properties that web
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components should guarantee. Consequently, the standard also does not discuss how or even if the
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methods for modifying the DOM respect component boundaries.
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In AFP entry, we present a formally verified model of web components and define safety properties
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which ensure that different web components can only interact with each other using well-defined
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interfaces. Moreover, our verification of the application programming interface (API) of the DOM
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revealed numerous invariants that implementations of the DOM API need to preserve to ensure the
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integrity of components. },
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url = {http://www.brucker.ch/bibliography/abstract/brucker.ea-afp-dom-components-2020}
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}
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An overview of the formalization is given in:
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