Service rewrite.
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@ -15,12 +15,13 @@ paginate_by = 5
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# 1. Concise overview
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BaguetteOS status: Work In Progress.
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A beta will be available circa mid-2020 for advanced users.
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End of the year for simple users.
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<red>TODO: explications partie Custom Tools, factorisation, exemples de code et de commandes, liens vers d'autres projets.</red>
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<red>Warning:</red> this documentation is currently oriented toward advanced unix users.
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<red>Warning:</red> this documentation is currently mostly oriented toward advanced unix users.
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We provide insights on system administration, expose our ideas and point of view.
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Documentation for simple users will be split in another page, soon.
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## Objectives, for simple users
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@ -93,14 +94,14 @@ The same program can be installed in several versions without conflicts.
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**Simple to contribute to.** *you can focus on providing recipes for packages, we handle the tooling*<br />
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We want fewer and simpler tools as possible, even for packaging applications and libraries.
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BaguetteOS ships [a simple tool to package applications][packaging] and it only requires you to create a very simple recipe for your package.
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BaguetteOS ships [a simple tool to package applications](#packaging) and it only requires you to create a very simple recipe for your package.
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It handles [slotting](#slotting), compiling, stripping binaries and libraries, splitting the result into different packages (`-man`, `-lib`, `-doc`, etc.) then authenticate them and finally recreate the index.
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All that, just by typing `packaging app`, nothing more.
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<img src="/meanie-makefile.png" alt="meanie meanie dev" class="meanie-img" />
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**No Makefile?** *no problem*<br />
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Your application or your library lacks a build system? Here a [tool to create makefiles][build.zsh].
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Your application or your library lacks a build system? Here a [tool to create makefiles](#build.zsh).
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It works on any language, yes, even that one.
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**Stable and development versions: same thing.** *slotting, again and again*<br />
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@ -108,15 +109,13 @@ One of the coolest aspect of slotting is: you don't need to change your system *
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The development of the newest version of the OS is just slotted in `/usr/baguette-dev` and that's it.
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At any point in time you can execute programs from your stable OS, or if you will, change a few environment variables and be in dev.
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**New OS, open to explore**<br />
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**New OS, open to explore** *we are open to new ideas*<br />
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BaguetteOS do not suffer from cumbersome historical decisions: no overly engineered package format, no stupidly complex patchwork of mismatch tools.
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BaguetteOS is easy enough to understand then even try to surpass it.
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**Easy to write documentation.** *easy to write, hopefully less procrastination*<br />
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Online documentation is written in Markdown (thanks Zola), and man pages too thanks to `scdoc`.
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Every tool is shipped with a man page: no man page, no integration in base.
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## Inspiration
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- [CRUX][crux], [alpine][alpine]: simple to understand Linux systems
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@ -239,6 +238,28 @@ Our software man-pages are written with `scdoc` so anyone can contribute.
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**[Packaging][packaging] for packaging software and libraries.** *dead simple, intuitive*<br />
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[See custom tools.](#custom-tools)
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**Slotting.** *custom file system hierarchy*<br />
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Our FS is not FHS-compliant, partially because of the origin-based slotting.
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There is a strict separation between core system and third party software.<br />
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[More information on slotting.](#slotting)
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- `/usr/baguette` for core system programs
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- `/usr/bad` for non slot-able software
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- `/usr/third-party` for other software
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## Languages
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We are reluctant to add new languages to the base system.
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We will limit the number of languages required for a system bootstrap.
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For now, bootstrapping requires: `C`, `perl`, `m4`, `python` (for stupid reasons).
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However, we think that we can overcome C limitations, explore new possibilities.
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Now, more than ever, we have better alternatives for all non kernel-related tooling.
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That being said: we do not want dynamic languages.
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We need:
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- simple, small and efficient binaries
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- less possible dependencies (not to download half `cpan` or `pypi` for any freaking software)
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**Crystal language for system tools.** *syntax and productivity of Ruby, the speed of C*<br />
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It is as simple to learn as a dynamic (oriented object) language, while at the same time being almost as fast as C.
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Technically, Crystal is strongly typed which catches errors at compile-time, but with type inference so it is not cumbersome to use.
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@ -248,8 +269,9 @@ Technical choices are reasonable and documented.
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Finally, Crystal has a large library with all we need for our system components.
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There is not much of a drawback here.
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Yes, this is a language you have to learn to work with us on a couple of projects (the web interface back-end, the service manager, the package manager and packaging) but it increases our productivity like crazy.
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We heard about `nim` and a ton of other languages, but this is the one which reach the sweet spot between these parameters:
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Yes, this is a language you have to learn to work with us on a couple of projects but you can learn it in about a few days to a week and it increases our productivity like crazy.
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We heard about `nim` and a ton of other languages, lot of them are great candidates, but **choices needed to be made**.
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This is the one reaching the sweet spot between these parameters:
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- productivity (the package manager was mostly done in a few days, [and is just a few hundred lines long][package])
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- easy learning (a developer with basic notions of oriented-object can read our code, no black magic here)
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@ -257,23 +279,38 @@ We heard about `nim` and a ton of other languages, but this is the one which rea
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- reasonably deployable (no host dependencies)
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- execution speed
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We are also looking at [Zig][zig] for low-level stuff. Wait & see.
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**Slotting.** *custom file system hierarchy*<br />
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Our FS is not FHS-compliant, partially because of the origin-based slotting.
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There is a strict separation between core system and third party software.<br />
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[More information on slotting.](#slotting)
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- `/usr/baguette` for core system programs
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- `/usr/bad` for non slot-able software
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- `/usr/third-party` for other software
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## naming convention
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```sh
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name = application name
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version = application version
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release = recipe version
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$name-$version-r$release.pkg
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```
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<a name="custom-tools"></a>
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<a name="top"></a>
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# 3. BaguetteOS: custom tools
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All our tools are designed to be simple to use, to understand, to read.
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<u>Feel free to provide a feedback.</u>
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**Simple ideas, simple implementations.**<br />
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Keep reminding to yourself while reading that our tools are implemented within just a few hundred lines of code (up to 1500 lines for `service` and `libipc`).<br />
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Also, they can easily run on other systems: nothing here is OS specific.
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[Feel free to provide a feedback.](#contact)
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Here a few pointers:
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- [spec format](#spec-format)
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- [package](#package)
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- [packaging](#packaging)
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- [service](#service)
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- [… and a few other tools](#other-tools)
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---
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### Main BaguetteOS tools
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<a name="spec-format"></a>
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**Spec files.** *our declarative format*<br />
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Before presenting our tools, here a file format named `spec` that we tend to use when relevant.
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@ -325,9 +362,9 @@ Sometimes, we want to refer to a file (or directory) and add metadata to it: her
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Next, the usage in practice: [packaging](#packaging), [service](#service).
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---
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[Come back to top](#top)
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<red>TODO: explains why it's different / better than other package managers.</red>
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---
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<a name="package"></a>
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**[Package][package]: our package manager.**<br />
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@ -343,6 +380,8 @@ Package's configuration is a list of repositories, authorized package signing ke
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Finally, `Package` can easily be expanded, as it only relies on a few hundred lines of Crystal code.
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[Come back to top](#top)
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---
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<a name="packaging"></a>
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As BaguetteOS is design to provide quickly usable systems, we choose to provide binaries.
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`Packaging` uses simple, declarative recipe files with the `spec format` [as we saw earlier](#spec-format).
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`Packaging` has a few advantages compared to most used packaging tools:
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- declarative recipes abstact OS specifics<br />
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- **declarative recipes abstract OS specifics**<br />
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The same recipe may work for many **native packaging systems** (many OSs), given that packagers provide the right target running dependencies.
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This only requires to provide a backend for the target package manager.
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- recipe readability is great<br />
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This only requires to provide a back-end for the target package manager.
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- **auto-split in different packages**<br />
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We need to separate binaries, libraries and documentation in different packages, so we can only install what's needed.
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Slow and testing systems only require strict minimum.
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- **auto-strip of binaries and libraries**<br />
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By default, a running system does not require debug symbols in its binaries.
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- **recipe readability is great**<br />
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A few variable declarations are better than a dozen lines of code.
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- trivial shell script patterns become automated<br />
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- **trivial shell script patterns become automated**<br />
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`Autotools` and `cmake` build systems are detected; packagers should only provide specific parameters for each project.
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- tooling may evolve, very few recipes will be require to change<br />
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- **tooling may evolve, very few recipes will be require to change**<br />
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Everybody wants to change its build system?
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*(Besides possibly broken tools and possible workarounds,)* this is not a problem for the recipe, just `packaging`.
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- it creates hash'ed and signed packages by default<br />
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- **it creates hash'ed and signed packages by default**<br />
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You need your own set of cryptographic keys, which is created at first use.
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- it creates repositories (automatic at first compilation), helping people maintaining their own set of tools<br />
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- **it creates repositories (automatic at first compilation), helping people maintaining their own set of tools**<br />
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Change the first `prefix` in your [packaging configuration](#packaging-host-config), compile your first package and you have your repository.
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That is that simple.
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# to provide parameters to the final `make install` command
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- make install:
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# wanna build for another system? not a problem, just add the backend (we currently have `apk` and `package`)
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# wanna build for another system? not a problem, just add the back-end (we currently have `apk` and `package`)
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package-manager: package
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```
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That's it. You know all about `packaging` configuration.
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If you want to investigate a bit more, you can check [our recipe repository][recipes].
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Feel free to improve these recipes with meta-data, `@watch` code blocks… contributions are welcome.
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<a name="packaging-own-repository"></a>
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<red>TODO: talk about creating a repository.</red>
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<a name="packaging-future"></a>
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**Future of `packaging`.** *let's be even more declarative*<br />
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As we saw, `packaging` allows maintainers to create very simple and **readable** recipes.
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- by adding new code blocks *before* the `configuration`, `build` and `install` steps<br />
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This would allow performing a few hacks in the directory (a quick `sed` in a file for instance) and still keeping automatic operations: the best of the two worlds.
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---
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Another possible addition to `packaging` could be to take cross-OS recipes as first-class citizen.
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It was part of the design process of spec files: `named sections` can be used to discriminate information based on the target OS.
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An example:
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<red>Factorisation.</red>
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```YAML
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%OS Ubuntu-20.04
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dependencies: libxxx
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%OS Debian-12
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dependencies: lib-with-specific-naming-standard-for-reasons
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```
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This way, bootstrapping an application and providing it to any system <u>with their own tools</u> could be easy.
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It's actually what we did during the Baguette's bootstrap.
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Providing universal recipes could even become a game for patient system administrators.
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[Come back to top](#top)
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---
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<a name="service"></a>
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**[Service][service]: service management.** *not just `kill` or start/stop/status wrapper*<br />
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Service management often comes with:
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- default configuration files, users should learn how to configure them and do it manually
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- default user and group, so two instances may have security-involved issues
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- a single possible instance, otherwise the configuration has to be heavily changed
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- root-only management, simple users rarely run their own services (except on systemd, kuddos for once)
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- no domain management
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These shortcomings imply manual configuration, scripting to manage databases and users, specific tooling for each database and service: this is heavy machinery.
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To overcome drawbacks of having simplistic tools, sys-admins developed all kind of monstrous architectures.
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- **LXC** *chroot + network + software limits*
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- **Qemu + KVM, Xen** *let's add software mimicking hardware's complexity to the mix, telling everyone it's for security and simplicity*
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- **docker** *I don't know how to do simple applications nor packages, so I ship my whole dev environment*<br />
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Note: we have to admit, packaging on most OS is painful for absolute no good reason.
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- **Chef and Puppet** *the 500 MB running Ruby's code on our virtual machines just to check for new configuration is okay, memory is cheap right?*<br />
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We talk about the importance of security from time to time, but running a software designed by people telling [it's okay not to free memory][ruby-memory-bp] is far from being wise.
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- **Ansible** *templating your applications… from another machine*<br />
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As Chef and Puppet, ansible provides templating for applications, this time configuration propagation is **way** simpler since it uses well-known, trusted and loved ssh.
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Still, templating is done for remote machines, as it is intended for server deployments: this is **a sys-admin tool**.
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The introduction page already talks about `cloud provisionning` and `intra-service orchestration` on the first line, telling that you really need to setup SSH keys, etc.
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As for many tools in IT: this is not for simple users.
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Simple users:
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1. should be only required to provide absolute necessary information for their services
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2. should be able to run as many services they want
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3. shouldn't have to learn configuration syntax for their services
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4. shouldn't be afraid of updates
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5. ... and should have BACKUPS! Where are they? We should have that **by default** on our systems over 20 years ago.
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And advanced users should have an uncomplicated CLI tool to do that.
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**Let's take an example with `service`** *better than a thousand words*
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```sh
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# We want a wordpress service, proxied by a nginx and using postgresql as DBMS
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# 1. we add an nginx
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$ service add nginx
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```
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```sh
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# 2. we add the database
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$ service add postgresql
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```
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```sh
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# 3. we add the wordpress
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# by default, it uses available http proxy and database, but let's be "verbose"
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$ service add wordpress domain=example.com http=nginx database=postgresql
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```
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```sh
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# 4. we start the wordpress
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$ service start wordpress
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```
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A bit of explanation:
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1. first, we add `nginx` to the list of service we want on our system
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2. same thing with `postgresql`
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3. then we add `wordpress` and we pass parameters to the service configuration: `domain`, `http` and `database`<br />
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`domain` for the domain name, `http` for the HTTP proxy and then the `database` back-end.
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Up to this point, nothing even started.
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4. Finally, we start the service.<br />
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Since `service` knows the dependence graph, it starts other services before wordpress (which actually doesn't have any binary to run *per se*).
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The configuration of a service is made when `service` starts it.
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In this case:
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1. `nginx` is started as a proxy for `example.com`
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2. `postgresql` is started, its internal directories and files are created, then an user, a database and a password for `wordpress` are created
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3. a directory is created in `/srv/root/wordpress/` and wordpress files are copied into it, then its configuration is generated
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Stopping a service also stops its dependency, if they aren't required elsewhere (or that we explicitely said to keep them running).
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Here are a few functionalities `service` brings.
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1. **domain-wise service configuration**<br />
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Example: `service add wordpress domain=example.com`
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1. **uncomplicated domain-wise service configuration**
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2. **templates** *configuration files are generated by templates and user data*<br />
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When we want a software, for instance a blog, we want to provide the minimum informations it requires to work and that's it.
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When `service` is invoked to start a service, it verifies if a configuration file is installed or create it.
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When `service` starts a service, it verifies if its configuration file is installed and up-to-date, or create it.
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Users shouldn't need to manually change the configuration.
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<u>Syntax may change at any time without breaking a single service</u>, since the configuration will smoothly be regenerated with useful information at start-up.
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3. **environments**<br />
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Each service can be installed in a specific environment (read: a custom rootfs).
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Example: `service add wordpress example.com testing-env`
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Each service can be installed in a specific environment (read: a custom rootfs, a virtual machine, etc.).
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4. **unified way to configure the system**<br />
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4. **automatic user and group creation**<br />
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Each service needs to be separated from other users on the system, for security reasons.
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Let's make it the default.
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5. **tokens** *service a needs b, b needs c, when a starts, b and c start and are configured*<br />
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`service` knows the relation between services, and use it to configure them through the templates.
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*everything is smoother now*
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6. **automatic backup solution**<br />
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Since we know each running database, service configuration and data directories, we can backup everything once a backup server has been configured.
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Of course, we can add a lot of parameters to have a fine-grained backup solution.
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```sh
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# not currently done, but will look like this
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$ backup add ssh:user@example.com:/srv/backup
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```
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7. **unified way to configure the system** *best user experience possible*<br />
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It alleviates the need for manual configuration.
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For example, adding a Wordpress service will automatically change the `nginx` configuration, create a new database and a new user in `mariadb` for this specific service.
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If several `nginx` are required, ports will be registered and automatically managed for each instance, no need for user input.<br />
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Behind the scene, it's a simple token system with configuration templating!<br />
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No heavy machinery here, and we'll keep it that way.
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<u>No heavy machinery here, and we'll keep it that way.</u>
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8. **... and understandable tooling output** *for god's sake!*<br />
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```sh
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$ sudo service show my-awesome-gitea-instance
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Name: my-awesome-gitea-instance
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Type: gitea
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Environment: root (prefix)
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Consumes:
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- postgresql root/postgresql
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- http root/nginx
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Ports:
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- http: 49155
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```
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**`Service`: a service example.**<br />
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A service configuration has two parts: the service description and its configuration file template(s).
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Let's use `gitea` as example, the `git` web server handling [our repositories][baguette-gitea].
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```YAML
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# `gitea.spec`
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# The actual command to run to start the service
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command: gitea -C . -w . -c gitea.cfg
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# what tokens the service needs, see that http is optional
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consumes: database, http?
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# does the service requires a domain name to be configured?
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# this name may be used in the service configuration, or its (forward|backward) dependencies
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requires-domain: true
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# the service requires a simgle port to be open
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# by default, 80
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ports: http
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# `%configuration` indicates the name of the configuration template
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||||
%configuration gitea.cfg
|
||||
```
|
||||
|
||||
*We **currently** uses a bit more configuration for the database, but we will get there at some point.*
|
||||
|
||||
Now, a quick look at its configuration template. *we'll skip most, don't worry*<br />
|
||||
Templating is done with `Jinja2` templates.
|
||||
|
||||
<red>TODO: explain a bit more this example</red>
|
||||
|
||||
```YAML
|
||||
# This is my template comment
|
||||
|
||||
[database]
|
||||
DB_TYPE = postgres
|
||||
|
||||
HOST = 127.0.0.1:{{ providers.postgresql.ports.postgresql }}
|
||||
|
||||
NAME = {{ service.id | replace("/", "_") }}_db
|
||||
USER = {{ service.id | replace("/", "_") }}
|
||||
PASSWD = {{ random_password( service.id ) }}
|
||||
|
||||
[repository]
|
||||
ROOT = {{ service.root }}/repositories
|
||||
|
||||
[server]
|
||||
SSH_DOMAIN = {{ service.domain }}
|
||||
DOMAIN = {{ service.domain }}
|
||||
HTTP_PORT = {{ service.ports.http }}
|
||||
ROOT_URL = http://{{ service.domain }}:{{ service.ports.http }}/
|
||||
LFS_CONTENT_PATH = {{ service.root }}/data/lfs
|
||||
```
|
||||
|
||||
|
||||
**Current implementation of `service`**<br />
|
||||
It [currently works][working-service-asciinema], and we just need to add more services!
|
||||
Every new corner case will be thoroughly investigated to provide the smoothest experience possible under BaguetteOS.
|
||||
We currently use it for a few services, such as the nginx providing this very website.
|
||||
|
||||
Currently, there are no fancy environments, just plain directories.
|
||||
|
||||
**Future of `service`**<br />
|
||||
First, we want to work on databases, to export data and get a simple backup service.
|
||||
|
||||
Then, we could let users manage their own services, but this is of little interest in practice since services are running under different users already.
|
||||
|
||||
The most useful thing to do right now is to provide new services.
|
||||
|
||||
[Come back to top](#top)
|
||||
|
||||
---
|
||||
|
||||
<red>Better introduction.</red>
|
||||
<a name="other-tools"></a>
|
||||
### Other tools
|
||||
|
||||
<a name="libipc"></a>
|
||||
**[LibIPC][libipc]: an IPC communication library** *nothing new, yet it still feels fresh*<br />
|
||||
We use this communication library between our services.
|
||||
|
||||
|
||||
1. Applications should talk to each other
|
||||
|
@ -584,12 +801,6 @@ Here are a few functionalities `service` brings.
|
|||
LibIPC is currently used for the administration dashboard, the web interface for the services, [for a kanban][todod] and several other tools we use for collaboration.
|
||||
It provides a way to communicate between clients and services using simple unix sockets behind the scene.
|
||||
|
||||
<red>Explain remote communications.</red>
|
||||
Remote remote communications are transparent.
|
||||
- clients and services do not need remote communication
|
||||
- any client can join remote services via any communication protocol
|
||||
- any service is implicitly accessible from anywhere, anyhow
|
||||
|
||||
C library with Crystal bindings (other languages coming soon)
|
||||
|
||||
|
||||
|
@ -602,12 +813,21 @@ server.loop do |message|
|
|||
end
|
||||
```
|
||||
|
||||
<red>TODO: show that's easy to write even in plain C.</red>
|
||||
That's easy to write [even in plain C](https://git.baguette.netlib.re/Baguette/libipc/src/branch/master/examples/pongd.c).
|
||||
|
||||
<red>TODO: performances are crazy, we have to tell the world.</red>
|
||||
|
||||
Its explanation goes beyond the scope of this page… but the tool is awesome and performances are crazy (we have to tell the world!).
|
||||
[Just go and check!][libipc]
|
||||
|
||||
<red>Explain remote communications.</red>
|
||||
Remote remote communications are transparent.
|
||||
- clients and services do not need remote communication
|
||||
- any client can join remote services via any communication protocol
|
||||
- any service is implicitly accessible from anywhere, anyhow
|
||||
|
||||
---
|
||||
|
||||
<a name="build.zsh"></a>
|
||||
<red>TODO.</red>
|
||||
**[Build.zsh][build.zsh]: makefile creation.** *for mere mortals*<br />
|
||||
Build.zsh creates a makefile from a simple declarative configuration file.
|
||||
|
@ -688,16 +908,37 @@ Any package outside the official ones are in another named slot.
|
|||
|
||||
We currently aim at providing a rootfs with our tools, when we will have enough spare time to contribute.
|
||||
|
||||
**Web interface** is for later: we need more time to design its graphical components.
|
||||
On the other hand, back-end should be straightforward.
|
||||
|
||||
<a name="contact"></a>
|
||||
# Contact
|
||||
|
||||
Do not hesitate to come on our [Mattermost][mattermost].
|
||||
We will soon have bridges on XMPP and IRC, stay tuned!
|
||||
|
||||
# Just dropped things
|
||||
|
||||
80211d
|
||||
networkctl
|
||||
firewalld
|
||||
ajouter des outils de gestion (suppression, modification) de préfixes dans l’environnement (PATH, LD_LIBRARY_PATH, PKGCONFIG_PATH, etc.). À faire a minima dans /etc/profile.
|
||||
partitionnement et formatage des partitions
|
||||
Avoir un programme qui permet de retrouver de quel paquet provient un fichier (un reverse apk manifest).
|
||||
|
||||
[mattermost]: https://team.baguette.netlib.re/
|
||||
|
||||
[service]: https://git.baguette.netlib.re/Baguette/service
|
||||
[package]: https://git.baguette.netlib.re/Baguette/package
|
||||
[packaging]: https://git.baguette.netlib.re/Baguette/packaging
|
||||
[build.zsh]: https://git.baguette.netlib.re/Baguette/build.zsh
|
||||
[libipc]: https://git.baguette.netlib.re/Baguette/libipc
|
||||
[todod]: https://git.baguette.netlib.re/Baguette/todod
|
||||
[webhooksd]: https://git.baguette.netlib.re/Baguette/
|
||||
[tap-aggregator]: https://git.baguette.netlib.re/Baguette/tap-aggregator
|
||||
|
||||
[baguette-gitea]: https://git.baguette.netlib.re/
|
||||
|
||||
[baguette-rc]: https://git.baguette.netlib.re/Baguette/recipes/src/branch/master/rc
|
||||
[baguette-profile]: https://git.baguette.netlib.re/Baguette/recipes/src/branch/master/rc/profile
|
||||
|
||||
|
@ -706,6 +947,7 @@ We currently aim at providing a rootfs with our tools, when we will have enough
|
|||
[recipe-dhcpcd]: https://git.baguette.netlib.re/Baguette/recipes/src/branch/master/dhcpcd/recipe.spec
|
||||
[recipe-alsautils]: https://git.baguette.netlib.re/Baguette/recipes/src/branch/master/alsa-utils/recipe.spec
|
||||
|
||||
[autotools]: https://www.gnu.org/software/automake/manual/html_node/Autotools-Introduction.html
|
||||
[toybox]: http://www.landley.net/toybox/
|
||||
|
||||
[cruxinit]: https://crux.nu/gitweb/?p=ports/core.git;a=blob;f=rc/rc;h=26b8ca08d67208ceda4d4004c8333d362bcdc689;hb=HEAD
|
||||
|
@ -719,6 +961,8 @@ We currently aim at providing a rootfs with our tools, when we will have enough
|
|||
|
||||
[proot]: https://man.openbsd.org/proot
|
||||
|
||||
[zig]: https://ziglang.org/
|
||||
|
||||
[openbsd]: https://openbsd.org/
|
||||
[pfsense]: https://www.pfsense.org/
|
||||
[alpine]: https://alpinelinux.org/
|
||||
|
@ -729,3 +973,6 @@ We currently aim at providing a rootfs with our tools, when we will have enough
|
|||
[suckless]: https://suckless.org/
|
||||
[cat-v]: http://cat-v.org/
|
||||
|
||||
[working-service-asciinema]: https://asciinema.org/a/0p2vGNA1TUmvq0s61Lu0r4TN6
|
||||
[ruby-memory-bp]: https://web.archive.org/web/20160329122617/http://blog.rubybestpractices.com/posts/ewong/005-Avoiding-system-calls.html
|
||||
|
||||
|
|
Loading…
Reference in New Issue