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127b6d1267
Signed-off-by: Peter Krempa <pkrempa@redhat.com> Reviewed-by: Ján Tomko <jtomko@redhat.com>
106 lines
5.0 KiB
ReStructuredText
106 lines
5.0 KiB
ReStructuredText
================
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Project Strategy
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================
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This document attempts to outline the libvirt project strategy for the near
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future. Think of this as a high level vision or to-do list setting the direction
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for the project and its developers to take.
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Language consolidation
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----------------------
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At time of writing libvirt uses the following languages:
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C
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The core libvirt library, daemons, and helper tools are all written in the C
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language.
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Python
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Various supporting build/test scripts are written in Python, with
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compatibility for Python 3.
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Perl
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Various supporting build/test scripts are written in Perl. It is also used
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for many syntax-check inline rules
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Shell
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Shell is used for some simple build/test scripts. At runtime libvirt avoids
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shell except when using SSH tunnels to a remote host
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XSLT
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The website uses XSLT for its templating system. The API documentation is
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also autogenerated from an XML description using XSLT
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HTML
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The website documentation is all written in plain HTML. Some HTML is also
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auto-generated for API documentation
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Meson
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The core build system uses the new Meson build system
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make
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The syntax-check uses make recipes
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awk/sed
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A number of the syntax-check inline rules involve use of awk/sed scripts
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POD
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The command line manual pages are typically written in Perl's POD format, and
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converted to troff
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The wide range of languages used present a knowledge burden for developers
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involved in libvirt, especially when there are multiple languages all used in
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the same problem spaces. This is most notable in the build system which uses a
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combination of Meson, shell, awk, sed, Perl and Python, with debugging requiring
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understanding of the interactions between many languages. The popularity of Perl
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has declined, while Python has become more popular. This directly influences the
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amount and quality of contributions that can be expected for programs written in
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the respective languages.
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The C language has served libvirt well over the years, but its age shows giving
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rise to limitations which negatively impact the project in terms of code
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quality, reliability, and efficiency of development. Most notably its lack of
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memory safety means that many code bugs become trivially exploitable security
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flaws or denial of service. The lack of a high level portable runtime results in
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a lot of effort being spent to ensure cross platform portability. The modern
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languages Rust and Go provide viable options for low level systems programming,
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in a way that is not practical with other common languages such as Python and
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Java. There is thus a desire to make use of either Rust or Go, or a combination
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of both, to incrementally replace existing use of C, and also for greenfield
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development.
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With this in mind the libvirt project has set a vision for language usage in the
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future:
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C
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Large parts of the core libvirt library, daemons, and helper tools will
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continue to make use in the C language. Integration of other languages will
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be an incremental, targeted process where they can bring the greatest
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benefit.
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Rust / Go
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Parts of the core libvirt library, daemons and helper tools are to leverage
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Rust or Go or both to replace C.
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Meson
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The core build system is to be written in Meson.
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Python
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Various supporting build/test scripts are written in Python 3 compatible mode
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only.
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reStructuredText
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The website and command man pages are to be written in RST, using Sphinx as
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the engine to convert to end user formats like HTML, troff, etc
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Some notable points from the above. Whether the core library / daemons will use
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Rust or Go internally is still to be decided based on more detailed evaluation
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to identify the best fit. The need to link and embed this functionality in other
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processes has complex interactions both at a technical and non-technical level.
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For standalone helper tools, either language is viable, but there are fewer
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concerns around interactions with other in-process code from 3rd parties. Thus a
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different decision may be made for daemons/libraries vs tools. Any rewrite
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proposed for existing functionality will have to weigh up the benefits of the
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new code, against the risk of introducing regressions with respect to the
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previous code.
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Using the RST format for documentation allows for the use of XSLT to be
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eliminated from the build process. RST and the Sphinx toolkit are widely used,
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as seen by the huge repository of content on `Read The
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Docs <https://readthedocs.org/>`__. The ability to embed raw HTML in the RST
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docs will greatly facilitate its adoption, avoiding the need for a big bang
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conversion of existing content. Given the desire to eliminate Perl usage,
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replacing the use of POD documentation for manual pages is an obvious followup
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task. RST is the obvious choice to achieve alignment with the website, allowing
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the man pages to be easily published online with other docs. It is further
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anticipated that the current API docs generator which uses XSLT to convert the
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XML API description would be converted to something which generates RST using
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Python instead of XSLT.
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