Add an amd64 Linux compatibility project
[ikiwiki.git] / docs / developer / gsocprojectspage / index.mdwn
90c0b013 1[[!meta title="Google Summer of Code Project List"]]
4114eeff 2
3[[!toc levels=0]]
f57c228c 5Have a look at our SoC pages from [[2008|/docs/developer/GoogleSoC2008/]], [[2009|/docs/developer/gsoc2009/]], [[2010|/docs/developer/gsoc2010/]] and [[2011|/docs/developer/gsoc2011/]] to get an overview about prior year's projects.
4114eeff 6
7For more details on Google's Summer of Code: [Google's SoC page](
f57c228c 9Alternate project links: [[Projects page|/docs/developer/ProjectsPage/]], [[Research Projects|/docs/developer/researchprojectspage/]]
4114eeff 11Note to prospective students: These project proposals are meant to be a first approximation; we're looking forward to your own suggestions (even for completely new directions) and will try to integrate your ideas to make the GSoC project more interesting to all parties. Even when a proposal is very specific about the goals that must be achieved and the path that should be taken, these are always negotiable. Keep in mind that we have tried to limit the proposals on this page to those that (based on our past experience) are appropriate for the GSoC program. This is by no means a comprehensive list, original ideas or proposals based on project ideas found on other pages are very welcome.
13Note to everyone else: These proposals are by no means Summer of Code specific, anyone is welcome and encouraged to adopt any of these projects at any time (just please let us know, or make a note on this page).
17* Prerequisites: knowledge that the student should have before starting the project. It may be possible to acquire the knowledge in the course of the project, but the estimated difficulty would increase substantially. On the bright side, you can expect to have a much deeper understanding of these fields (and gain some real-world experience) after you successfully complete the respective project.
18* Difficulty: Estimated difficulty of the project, taking into account the complexity of the task and the time constraints of the GSoC program.
19* Contact point: The person you should contact for any further information or clarifications. If the primary contact for a project does not respond in a reasonable amount of time (2-3 days), you should contact the appropriate DragonFly BSD mailing list, usually kernel@.
21#### Project ideas
11f3d975 23---
a6283272 25##### Implement amd64 Linux compatibility for x86_64 64-bit kernel
26* Add a syscall table which translates 64-bit Linux system calls to DragonFly ones
27* Add support for ELF binary detection.
29DragonFly/i386 supports the execution of 32 bit Linux binaries; it
30is only natural to implement the same kind of binary compatibility
31for 64-bit systems.
33Some of the other *BSD systems may already have implemented such a mechanism.
35Meta information:
37* Prerequisites: C, amd64 architecture knowledge
38* Difficulty: Moderate to difficult
39* Contact point:
4114eeff 42##### Implement i386 32-bit ABI for x86_64 64-bit kernel
43* Add a 32-bit syscall table which translates 32-bit
44 system calls to 64-bit.
45* Add support for 32 bit compatibility mode operation
46 and ELF binary detection.
48The idea here is to support the execution of 32 bit DragonFly binaries in 64 bit DragonFly environments, something numerous other operating systems have done. Several things must be done to support this. First, the appropriate control bits must be set to execute in 32-bit compatibility mode while in usermode instead of 64-bit mode. Second, when a system call is made from 32-bit mode a translation layer is needed to translate the system call into the 64-bit requivalent within the kernel. Third, the signal handler and trampoline code needs to operate on the 32-bit signal frame. Fourth, the 32 and 64 bit ELF loaders both have to be in the kernel at the same time, which may require some messing around with procedure names and include files since originally the source was designed to be one or the other.
50There are several hundred system calls which translates to a great deal of 'grunt work' when it comes time to actually do all the translations.
52Meta information:
54* Prerequisites: C
55* Difficulty: Difficult (lots of moving parts, particularly the trapframes)
56* Contact point: dillon
60##### Implement ARC algorithm extension for the vnode free list
61* Vnode recycling is LRU and can't efficiently handle data sets which
62 exceed the maxvnode limit. When the maxvnode limit is reached the kernel
63 starts throwing away cached vnodes along with their VM objects (and thus
64 all related cached file data).
66* What we would like to do is implement an ARC algorithm for the free
67 vnodes to determine which ones to throw away and potentially combine
68 this with further caching of the related VM object even after the vnode
69 is thrown away by associating it with a mount point and inode number,
70 until memory pressure forces all of its pages out.
72* For this project the student can choose to just implement the VM object
73 retention portion and not try to implement an ARC algorithm (which can
74 be considerably more complex).
76Meta information:
78* Prerequisites: C, OS internals
79* Difficulty: Modest without ARC (Very difficult with ARC)
80* Contact point: dillon
4114eeff 84##### Make DragonFly NUMA-aware
86* Parse related ACPI tables
87* NUMA-aware memory allocation
88* References:
89[ACPI SLIT parser](
90[ACPI SRAT parser](
91[NetBSD NUMA diff](
92[NetBSD NUMA x86 diff]( (These patches now in NetBSD tree)
94Meta information:
96* Prerequisites: C, introductory computer architecture
97* Difficulty: Easy
98* Contact point:
103##### Port valgrind to DragonFlyBSD
105Valgrind is a very useful tool on a system like DragonFly that's under heavy development. Since valgrind is very target specific, a student doing the port will have to get acquainted with many low level details of the system libraries and the user<->kernel interface (system calls, signal delivery, threading...). This is a project that should appeal to aspiring systems programmers. Ideally, we would want the port to be usable with vkernel processes, thus enabling complex checking of the core kernel code.
107The goal of this project is to port valgrind to the DragonFlyBSD platform so that at least the memcheck tool runs sufficiently well to be useful. This is in itself a challenging task. If time remains, the student should try to get at least a trivial valgrind tool to work on a vkernel process.
109Meta information:
111* Prerequisites: C, x86 assembly, low-level OS internals
112* Difficulty: Hard
113* Contact point: Aggelos Economopoulos <>
117##### Adapt pkgsrc to create a package system with dependency independence.
118* Create a set of tools that modifies how the pkgsrc packages are installed, allowing for the ability to upgrade individual packages, without stopping applications that depend on said packages from working. One method of achieving this is detailed at but other methods may be possible. PC-BSD have written a tool called PBI Builder which modifies FreeBSD ports for their dependency independence PBI system, this could be used as a starting point for the DragonFly BSD tools.
120Meta information:
122* Prerequisites: C
123* Difficulty: ?
124* Contact point:
1e5fd6e2 128##### Implement virtio drivers on DragonFly to speed up DragonFly as a KVM guest (2011 Project)
4114eeff 129
130As virtualization is coming more and more and KVM will be a strong player in that field,
131we want DragonFly to have top-notch support for this virtualization platform. For this
132purpose, we'd like to have a virtio-based implementation of a paravirtualized disk and
133network driver. [virtio](
134is an abstraction to a ring buffer that is shared between the host and the guest. On top of this
135abstraction, one can build a variety of paravirtualized devices, as specified in
138The goal of this project is to create a virtio-ring implementation and then to implement drivers
139for the network and block devices described in the specification linked to above. This is a great
140project for a student who wants to get experience writing (real-world, high-performance) device
141drivers without having to deal with the quirks of real hardware.
143Meta information:
145* Prerequisites: C, elementary OS internals
2ee12b5f 146* Difficulty: Medium
d745770a 147* Contact point:
4114eeff 148
1e5fd6e2 151##### Make vkernels checkpointable (2011 Project)
4114eeff 152
153* See checkpt(1).
154* Implement save and restore of segment registers so that threaded applications may be checkpointed. The segment registers support TLS. There are potential security concerns here.
155* Teach the checkpt system call how to checkpoint multiple vmspaces.
156* Add code to the vkernel which gets triggered upon reception of a SIGCKPT signal to dump/load e.g. the current state of network drivers.
157* This would allow us to save and restore or even migrate a complete DragonFly operating system running on the vkernel platform.
158This could be especially handy on laptops (if we'd get X11 operating in vkernels).
159* See also:
161Meta information:
163* Prerequisites: C, OS internals
164* Difficulty: Medium
165* Contact point: Michael Neumann <>
166* References: [1]( [2](
170##### HAMMER compression
172* Compress blocks as they get written to disk.
173* Only file data (rec_type == DATA) should be compressed, not meta-data.
174* the CRC should be that of the uncompressed data.
175* ideally you'd need to associate the uncompressed data with the buffer cache buffer somehow, so that decompression is only performed once.
176* compression could be turned on a per-file or per-pfs basis.
177* gzip compression would be just fine at first.
179Doing compression would require flagging the data record as being compressed and also require double-buffering since
180the buffer cache buffer associated with the uncompressed data might have holes in it and otherwise referenced by user
181programs and cannot serve as a buffer for in-place compression or decompression.
183The direct read / direct write mechanic would almost certainly have to be disabled for compressed buffers and the
184small-data zone would probably have to be used (the large-data zone is designed only for use with 16K or 64K buffers).
186Meta information:
188* Prerequisites: C, filesystem internals
189* Difficulty: Difficult
190* Contact point: Michael Neumann <>
4114eeff 194##### Userland System V Shared Memory / Semaphore / Message Queue implementation
195* Implement some or all of these subsystems in their entirety, or as completely as possible in userland using a daemon, mmap and the DragonFly umtx_sleep(2)/umtx_wakeup(2) or other userland facilities.
196* Any security or other major hurdles to this approach that would likely have to be implemented in-kernel should be noted in the students application.
197* Test and benchmark the new facilities with heavy SysV consumers such as PostgreSQL
198* Identify performance tradeoffs made in the userland implementation versus the existing kernel implementation. If time permits identify and apply solutions to these tradeoffs so that the userland implementation performs on par with or better than the kernel implementation.
200Meta information:
202* Prerequisites: C, x86 assembly
203* Difficulty: Moderate
204* Contact point: Samuel J. Greear <>
8e2bdf60 208##### DragonFly history access for Gnome/KDE
5654e978 209* Write a Dolphin (KDE) plugin or Gnome file manager plugin that creates a 'time slider' when working with HAMMER filesystems.
210* If time remains investigate additional features and/or methods of display and possibly a HAMMER configuration utility for managing history retention, etc.
8e2bdf60 211
212Meta information:
5654e978 214* Prerequisites: C, Gnome or KDE familiarity
8e2bdf60 215* Difficulty: Hard
216* Contact point:
217* References: [A similar idea for ZFS](
221##### Create a Samba VFS plugin to expose Hammer history
222* Give access to Hammer snapshots/fine-grained history to anyone able to access the Hammer volume over Samba
5654e978 223* This would involve writing a Samba3 VFS module to expose historical versions of files as "shadow copies". VFS module implementations supporting more traditional snapshot hierarchies do already exist.
8e2bdf60 224
225Meta information:
5654e978 227* Prerequisites: C
228* Difficulty: Moderate
8e2bdf60 229* Contact point:
233##### Port Hyper-V Linux Integration components to DragonFly
234* Microsoft released a dual BSD/GPL version of their para-virtualized drivers (SCSI and Networking) for Linux.
235* This work would require porting the Linux VMBus (Microsoft's equivlalent to XenBus) and the corresponding SCSI (StorVSC) and networking (NetVSC) drivers to DragonFly.
236* References: [Sources]( [Architecture Overview](
8e2bdf60 237
238Meta information:
240* Prerequisites: C, OS internals
241* Difficulty: Hard
242* Contact point:
8e2bdf60 243
8cb8502a 244---
246##### Implement more dm targets
247* Since we now have dm (device mapper) in DragonFly, it would be nice to make better use of it. Currently we have a relatively small number of useful targets (crypt, linear and striped).
248* Other targets should be implemented, in particular the mirror target would be of interest. Other ideas are welcome, too. Before applying for this please discuss the target of interest on the mailing list or with me directly.
c2cfaa23 249* There is a start of a journalled mirror target, if you want to attack soft mirroring; the problem is a lot more difficult than it seems at first, so talking on the mailing list or on IRC would be definitely worthwhile!
8cb8502a 250
251Meta information:
253* Prerequisites: C, OS internals
254* Difficulty: Medium
c2cfaa23 255* Contact point: , Alex Hornung <>, Venkatesh Srinivas <>
8cb8502a 256
3a9e5de8 257---
259##### Implement a new unionfs
260* unionfs is a particularly useful pseudo-fs which allows to have an upper and a lower filesystem on a single mountpoint. The upper mountpoint is mostly transparent, so that the lower mountpoint is accessible.
3a9e5de8 261* A typical use case is mounting a tmpfs filesystem as the upper and a read-only FS as the lower mp. This way files can be edited transparently even on a RO filesystem without actually modifying it.
65d9da85 262* The current unionfs is completely broken as it relies on the whiteout VFS technique which is not supported by HAMMER. A new unionfs implementation should not rely on archaic methods such as whiteout.
3a9e5de8 263
264Meta information:
266* Prerequisites: C, OS internals, ideally some knowledge of the FreeBSD/DragonFly VFS
267* Difficulty: Medium
268* Contact point:
8e2bdf60 269
0c47d1e1 270---
272##### Improve compatibility of libdevattr with Linux' libudev
273* Our libdevattr has an API which is mostly compatible with Linux' libudev, but it is doubtful that any Linux application making use of libudev would run out of the box on DragonFly with libdevattr.
b515bc2d 274* The aim of this project is to identify the shortcomings of libdevattr and fix them so that some common libudev applications work with our libdevattr.
275* This might involve some kernel hacking to improve our kern_udev and definitely includes some grunt work of "tagging" subsystems with the kern_udev API.
276* Most of the work will be in userland, though, working on udevd and libdevattr.
0c47d1e1 277
278Meta information:
280* Prerequisites: C, familiarity with Linux' libudev would be a plus
281* Difficulty: Medium
282* Contact point: , Alex Hornung <>
9792e675 286---
fc1a3138 288##### Implement further dsched disk scheduling policies (2011 Project: BFQ)
9792e675 289* dsched is a highly flexible disk scheduling framework which greatly minimizes the effort of writing disk scheduling policies.
290* Currently only dsched_fq, a fairly simple fair-queuing policy, and noop policies are implemented.
291* The aim of this project would be to implement at least another useful disk scheduling policy, preferably one that improves interactivity.
292* Other ideas are welcome.
1e4090b0 293* This is a great opportunity for CS students interested in scheduling problems to apply their theoretical knowledge.
9792e675 294
295Meta information:
297* Prerequisites: C, OS internals, familiarity with disk scheduling
298* Difficulty: Medium
299* Contact point: , Alex Hornung <>
82d3efd3 301---
692141e4 303##### Implement hardware nested page table support for vkernels
82d3efd3 304* Various modern hardware supports virtualization extensions, including nested pagetables.
305* The DragonFly BSD vmspaces API, used to support vkernels, is effectively a software implementation of nested pagetables.
306* The goal of this project would be to add support for detection of the hardware features on AMD and Intel cpu's and alter the vmspace implementation to use hardware support when available.
308Meta information:
9792e675 309
82d3efd3 310* Prerequisites: C, x86 assembly, OS internals
311* Difficulty: Hard
312* Contact point:
8ff76619 314---
ec874e8b 316##### Access to ktr(4) buffers via shared memory
317Our event tracing system, ktr(4), records interesting events in per-cpu buffers that are printed out with ktrdump(8). Currently, ktrdump uses libkvm to access these buffers, which is suboptimal. One can allow a sufficiently-privileged userspace process to map those buffers read-only and access them directly. For bonus points, design an extensible, discoverable (think reflection) mechanism that provides fast access via shared memory to data structures that the kernel chooses to expose to userland.
319Meta information:
321* Prerequisites: C, OS internals
322* Difficulty: Medium
323* Contact point:, Aggelos Economopoulos <>
82d3efd3 325---
92644e89 326
8b8bd18e 327#####Ability to execute Mach-O (OS X) binaries
328This is a project for a student with something to prove, executing a binary touches a huge number of moving parts of a modern kernel. This project would entail adding or porting support for Mach-O binaries to the DragonFly BSD kernel. It would also involve adding an additional system call vector, like the Linux vector used for linux binary emulation. This is quite a large and complicated task and any proposal will be expected to be well-researched to reflect that. The ability to execute non-GUI binaries that make use of shared libraries should be the minimum to which such a project should aspire. OpenDarwin is available as a reference or to port relevant code from.
330Meta information:
332* Prerequisites: C, OS internals, binary file formats
333* Difficulty: Hard
334* Contact point: Samuel J. Greear <>
9376443d 336---
337##### nmalloc (libc malloc) measurements and performance work
339nmalloc is our libc memory allocator it is a slab-like allocator; it recently had some work done to add per-thread caches, but there is much more work that could be done. A project on this might characterize fragmentation, try out a number of techniques to improve per-thread caching and reduce the number of total syscalls, and see if any are worth applying.
341Possible things to work on:
342(thread caches)
343* The per-thread caches are fixed-size; at larger object sizes (say 4K), this can result in a lot of memory tied up. Perhaps they should scale their max size inversely to the object size.
345* The per-thread caches are filled one-at-a-time from free(). Perhaps the per-thread caches should be burst-filled.
347* Perhaps the per-thread caches should age items out
349(slab zone allocation)
350* zone_alloc() currently burst-allocates slab zones with the zone magazine held across a spinlock.
352* zone_free() holds the zone magazine lock around bzero()ing a slab zone header
354* zone_free() madvise()s one slab at a time; it'd be nice to madvise() runs of contiguous slabs
356* zone_free() madvise()s very readily (for every slab freed). Perhaps it should only madvise slabs that are idle for some time
358* zone_free() burst-frees slabs. Its not clear whether this is a good idea.
361* currently allocations > either 4k or 8k are forced directly to mmap(); this means that idle memory from free slabs cannot be used to service those allocations and that we do no caching for allocations > than that size. this is almost certainly a mistake.
363* we could use a small (embeddable) data structure that allows:
3641. efficient coalescing of adjacent mmap space for madvise
3652. efficient queries for vmem_alloc() (w/ alignment!)
3663. compact and doesn't use any space in the zone header (dirty/cold!)
3674. allows traversal in address order to fight fragmentation
3685. keep two such data structures (one for dirty pages, one for cold pages)
371* These are just ideas; there are many more things possible and many of these things need a lot of measurement to evaluate them. It'd be interesting to see if any of these are appropriate for it.
376A description of the Sun Solaris work on which the DragonFly allocator is based; use this as an overview, but do not take it as gospel for how the DFly allocator works.
378* (Jason Evans tech talk about jemalloc, 1/2011)
380jemalloc is FreeBSD's and Firefox's (and NetBSD and GNASH and ...)'s malloc; in this tech talk, Jason Evans reviews how jemalloc works, how it has changed recently, and how it avoid fragmentation.
382* (Ayelet Wasik's thesis 'Features of a Multi-Threaded Memory Allocator')
384This thesis is an excellent overview of many techniques to reduce contention and the effects these techniques have on fragmentation.
386* Prerequisites: C, a taste of data structures
387* Difficulty: moderate
388* Contact point: Venkatesh Srinivas <>
01b524ba 390---
392##### Create a filesystem indexing service
393Currently to locate an arbitrary file on a dragonfly system you would use the locate(1), which(1) or whereis(1) tools. These are a bit clunky, paint in broad strokes and the accuracy of the database is often suspect. The first part of this project would involve implementing the Linux inotify interface in the DragonFly kernel. The second part would be to write a daemon that can (optionally) operate as an indexing service, if the weekly 310.locate periodic job see's that the locate database is being maintained by the daemon, it can skip running locate.updatedb(8). A third part of this project might involve extending the current database to a binary format with information about file types, what bits are set, etc. This could enable the user to have the locate tool paint in narrower strokes by specifying only files of type "ASCII text" or only files that are suid root or have the execute bit set.
395Meta information:
397* Prerequisites: C, OS internals, binary file formats
398* Difficulty: Easy/Moderate
399* Contact point: Samuel J. Greear <>
4c7e21d4 401---
403##### Make DragonFly multiboot capable
404Adjust the DragonFly kernel to be multiboot (the specification) capable. In addition, add necessary code to grub2 to understand our disklabel64 and anything else we need to be able to use grub2 to multiboot DragonFly without any chainloading involved.
406Meta information:
408* Prerequisites: C, OS internals
409* Difficulty: Easy/Moderate
410* Contact point: Alex Hornung <>
7700f24f 412
2fed452e 413---
415##### Complete installer rewrite
996043c0 416Completely rewrite the installer to be much simpler to maintain. It will still have to be an ncurses-based installer written in C, or in Python (but with C bindings for every single library that will be created - see below). A text interface UI library (e.g. newt [see examples on] - which seems very easy and handy) should be used to make the handling of the graphical part as easy as possible.
2fed452e 417
418As part of rewriting the installer, several functions scattered around in other base utils should be factored out into libraries that both the installer and the util it comes from can use, e.g.:
7c6affa1 419
420* partitioning (both GPT and MBR) should be factored out into two libraries, that the fdisk and the gpt tools use, but the installer can make use of, too.
421* disklabel32/64 functionality
422* adduser (and other user/group management)
2fed452e 423
424The new installer should then make use of all these new libraries and other ones that are already available (libcryptsetup, libluks, liblvm, libtcplay) to offer more advanced features.
c5845662 426NOTE: The new installer should maintain most if not all of the functionality of the old installer in addition to adding features taking advantage of the aforementioned libraries.
2fed452e 428
430Meta information:
432* Prerequisites: C
433* Difficulty: Moderate
434* Contact point:, Alex Hornung <>
103f9a35 437---
438##### Extend dsched framework to support jails
439Extend/modify the dsched framework to take into account jails and etc. instead of always allocating a 'tdio'. This would allow different process groupings (such as all processes in a jail) to be scheduled together. A new jail-specific policy would have to be written to support this, or an existing policy modified.
441Meta information:
443* Prerequisites: C, OS internals
444* Difficulty: Moderate
445* Contact point:, Samuel J. Greear <>, Alex Hornung <>
1a9c0407 447---
448##### Implement NFS version 4
449* NFSv4 is more than a simple version increase; it is an adaptation of NFS to Internet and WAN networks, with an expectation of high latency and firewalled data transfers and a non-naive security framework layer.
450* NFSv4 servers export a single Pseudo File System (which has nothing to do with HAMMER(5) PFSes besides the name) merging all local filesystems in a unique namespace.
451* We already have some kernel code which could be used as a starting point (WebNFS)
d8f691bb 452* FreeBSD possesses a NFSv4 implementation which could be ported or serve as a reference basis
453* Given NFSv4 protocol complexity, it may be best to implement this project in userspace
1a9c0407 454
455Meta information:
457* Prerequisites: C, OS internals, ideally some knowledge of the VFS and namecache layers
458* Difficulty: Medium
459* Contact point:
8b8bd18e 461---
4114eeff 462 (please add)