diff options
author | GNU Hurd wiki engine <web-hurd@gnu.org> | 2008-03-08 21:32:42 +0000 |
---|---|---|
committer | GNU Hurd wiki engine <web-hurd@gnu.org> | 2008-03-08 21:32:42 +0000 |
commit | 2715b5dca3b13c9d6d0261c85ac1369d34edc3a0 (patch) | |
tree | c32f2766d67daf0d5f91be7480eae9844d392876 /community/gsoc/project_ideas.mdwn | |
parent | b81d5d6f8985dc3fea93ec553ec206fb64af114b (diff) |
web commit by antrik: More tasks fleshed out
Diffstat (limited to 'community/gsoc/project_ideas.mdwn')
-rw-r--r-- | community/gsoc/project_ideas.mdwn | 132 |
1 files changed, 131 insertions, 1 deletions
diff --git a/community/gsoc/project_ideas.mdwn b/community/gsoc/project_ideas.mdwn index a2dc13ba..afe0906b 100644 --- a/community/gsoc/project_ideas.mdwn +++ b/community/gsoc/project_ideas.mdwn @@ -552,6 +552,136 @@ gathering the data. It requires getting a good understanding of the translator mechanism and Hurd interfaces in general. * xmlfs + +Hurd translators allow presenting underlying data in a different format. This +is a very powerful ability: It allows using standard tools on all kinds of +data, and combining existing components in new ways, once you have the +necessary translators. + +A typical example for such a translator would be xmlfs: A translator that +presents the contents of an underlying XML file in the form of a directory +tree, so it can be studied and edited with standard filesystem tools, or using +a graphical file manager, or to easily extract data from an XML file in a +script etc. + +The exported directory tree should represent the DOM structure of the document, +or implement XPath, or both, or some combination thereof (perhaps XPath could +be implemented as a second translator working on top of the DOM one) -- +whatever works well, while sticking to XML standards as much as possible. + +Ideally, the translation should be reversible, so that another, complementary +translator applied on the expanded directory tree would yield the original XML +file again; and also the other way round, applying the complementary translator +on top of some directory tree and xmlfs on top of that would yield the original +directory again. However, with the different semantics of directory trees and +XML files, it might not be possible to create such a universal mapping. Thus it +is a desirable goal, but not a strict requirement. + +The goal of this project is to create a fully usable XML translator, that +allows both reading and writing any XML file. Implementing the complementary +translator also would be nice if time permits, but is not mandatory part of the +task. + +The existing partial (read-only) xmlfs implementation from the hurdextras +repository (link) can serve as a starting point. + +This task requires pretty good designing skills. Good knowledge of XML is also +necessary. Learning translator programming will obviously be necessary to +complete the task. + * fix tmpfs + +In some situations it is desirable to have a file system that is not backed by +actual disk storage, but only by anonymous memory, i.e. lives in the RAM (and +possibly swap space). + +A simplistic way to implement such a memory filesystem is literally creating a +ramdisk, i.e. simply allocating a big chunck of RAM (called a memory store in +Hurd terminology), and create a normal filesystem like ext2 on that. However, +this is not very efficient, and not very convenient either (the filesystem +needs to be recreated each time the ramdisk is invoked). A nicer solution is +having a real tmpfs, which creates all filesystem structures directly in RAM, +allocating memory on demand. + +The Hurd has had such a tmpfs for a long time. However, the existing +implementation doesn't work anymore -- it got broken by changes in other parts +of the Hurd design. + +There are several issues. (links) The most serious known problem seems to be +that for technical reasons it receives RPCs from two different sources on one +port, and gets mixed up with them. Fixing this is non-trivial, and requires a +good understanding of the involved mechanisms. + +The goal of this project to get a fully working, full featured tmpfs +implementation. It requires digging into some parts of the Hurd, incuding the +pager interface and translator programming. This task probably doesn't require +any design work, only good debugging skills. + * allow using unionfs early at boot -* hurdish package manager + +In UNIX systems, traditionally most software is installed in a common directory +hierachy, where files from various packages live beside each other, grouped by +function: User-invokable executables in /bin, configuration files in /etc, +architecture specific static files in /lib, variable data in /var and so on. To +allow clean installation, deinstallation, and upgrade of software packages, +GNU/Linux distributions usually come with a package manager, which keeps track +of all files upon installation/removal in some kind of central database. + +An alternative approach is the one implemented by GNU Stow: Each package is +actually installed in a private directory tree. The actual standard directory +structure is then created by collecting the individual files from all the +packages, and presenting them in the common /bin, /lib etc. locations. + +While the normal Stow package (for traditional UNIX systems) uses symlinks to +the actual files, updated on installation/deinstallation events, the Hurd +translator mechanism allows a much more elegant solution: Stowfs (which is +actually a special mode of unionfs) creates virtual directories on the fly, +composed of all the files from the individual package directories. + +The problem with this approach is that unionfs presently can be launched only +once the system is booted up, meaning the virtual directories are not available +at boot time. But the boot process itself already needs access to files from +various packages. So to make this design actually usable, it is necessary to +come up with a way to launch unionfs very early at boot time, along with the +root filesystem. + +Completing this task will require gaining a very good understanding of the Hurd +boot process and other parts of the design. It requires some design skills also +to come up with a working mechanism. + +* hurdish package manager for the GNU system + +Most GNU/Linux systems use pretty sophisticated package managers, to ease the +management of installed software. These keep track of all installed files, and +various kinds of other necessary information, in special databases. On package +installation, deinstallation, and upgrade, scripts are used that make all kinds +of modifications to other parts of the system, making sure the packages get +properly integrated. + +This approach creates various problems. For one, *all* management has to be +done with the distribution package management tools, or otherwise they would +loose track of the system state. This is reinforced by the fact that the state +information is stored in special databases, that only the special package +management tools can work with. + +Also, as changes to various parts of the system are made on certain events +(installation/deinstallation/update), managing the various possible state +transitions becomes very complex and bug-prone. + +For the official (Hurd-based) GNU system, a different approach is intended: +Making use of Hurd translators -- more specifically their ability to present +existing data in a different form -- the whole system state will be created on +the fly, directly from the information provided by the individual packages. The +visible system state is always a reflection of the sum of packages installed at +a certain moment; it doesn't matter how this state came about. There are no +global databases of any kind. (Some things might require caching for better +performance, but this must happen transparently.) + +The core of this approach is formed by stowfs, which creates a traditional unix +directory structure from all the files in the individual package directories. +But this only handles the lowest level of package management. Additional +mechanisms are necessary to handle stuff like dependencies on other packages. + +The goal of this task is to create these mechanisms. + +* Lisp, Python, ... bindings |