We are pleased to announce that a total of 7 applicants are participating in OPW and GSoC this year. This page lists the accepted projects and provides a space for students / interns to link to their own pages.
Also see:
Accepted Projects
GSoC Projects
Implement Xen PVUSB support in xl/libxl toolstack
Date of insert: 01/12/2012; Verified: Not updated in 2020; GSoC: Yes |
Technical contact: Mentor: George Dunlap, Student: Bo Cao |
Mailing list/forum for project: xen-devel@ |
IRC channel for project: #xen-devel |
Difficulty: Unknown |
Skills Needed: Unknown |
Description: xl/libxl does not currently support Xen PVUSB functionality. Port the feature from xm/xend to xl/libxl. Necessary operations include:
- Task 1: Implement PVUSB in xl/libxl, make it functionally equivalent to xm/xend.
- Send to xen-devel mailinglist for review, comments.
- Fix any upcoming issues.
- Repeat until merged to xen-unstable.
- See above for PVUSB drivers for dom0/domU.
- Xen PVUSB supports both PV domUs and HVM guests with PV drivers.
- More info: http://wiki.xen.org/xenwiki/XenUSBPassthrough
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Outcomes: Not specified, project outcomes |
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Lazy restore using memory paging
Date of insert: 01/20/2014; Verified: Not updated in 2020; GSoC: Yes |
Technical contact: Mentor: Andres Lagar-Cavilla, Student: Dushyant Behl |
Mailing list/forum for project: xen-devel@ |
IRC channel for project: #xen-devel |
Difficulty: Medium |
Skills Needed: A good understanding of save/restore, and virtualized memory management (e.g. EPT, shadow page tables, etc). In principle the entire project can be implemented in user-space C code, but it may be the case that new hypercalls are needed for performance reasons. |
Description: VM Save/restore results in a boatload of IO and non-trivial downtime as the entire memory footprint of a VM is read from IO.
Xen memory paging support in x86 is now mature enough to allow for lazy restore, whereby the footprint of a VM is backfilled while the VM executes. If the VM hits a page not yet present, it is eagerly paged in.
There has been some concern recently about the lack of docs and/or mature tools that use xen-paging. This is a good way to address the problem. |
Outcomes: Expected outcome:
- Mainline patches for libxc and libxl
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- dushyant Hi, I am working on this project.
HVM per-event-channel interrupts
Date of insert: 01/30/2013; Verified: Not updated in 2020; GSoC: yes |
Technical contact: Mentor: Paul Durrant, Student: Yandong Han |
Mailing list/forum for project: xen-devel@ |
IRC channel for project: #xen-devel |
Difficulty: Unknown |
Skills Needed: C, some prior knowledge of Xen useful |
Description: Windows PV drivers currently have to multiplex all event channel processing onto a single interrupt which is registered with Xen using the HVM_PARAM_CALLBACK_IRQ parameter. This results in a lack of scalability when multiple event channels are heavily used, such as when multiple VIFs in the VM as simultaneously under load.
Goal: Modify Xen to allow each event channel to be bound to a separate interrupt (the association being controlled by the PV drivers in the guest) to allow separate event channel interrupts to be handled by separate vCPUs. There should be no modifications required to the guest OS interrupt logic to support this (as there is with the current Linux PV-on-HVM code) as this will not be possible with a Windows guest. |
Outcomes: Code is submitted to xen-devel@xen.org for inclusion in xen-unstable |
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Mirage OS cloud API support
Date of insert: 28/11/2013; Verified: Not updated in 2020; GSoC: yes |
Technical contact: Mentor: Dave Scott; Student: Jyotsna Prakash |
Mailing list/forum for project: xen-devel@ |
IRC channel for project: #xen-devel |
Difficulty: medium |
Skills Needed: OCaml |
Description: MirageOS (see http://xenproject.org/developers/teams/mirage-os.html, http://www.openmirage.org/) is a type-safe unikernel written in OCaml which generates highly specialised "appliance" VMs that run directly on Xen without requiring an intervening kernel. A MirageOS application typically runs via several communicating kernel instances on the cloud. Today these instances are difficult to manage; we would like to explore strategies for managing these distributed computations using common public cloud APIs such as those exposed by Amazon EC2 and Rackspace.
First we need to create pure OCaml API bindings for (e.g.) EC2 and Rackspace (purity is needed to ensure portability). These API bindings can then be used to provide operating-system-level abstractions to the unikernels. For example, a traditional VM might hotplug a vCPU; while a MirageOS application would request a "VM create" using the cloud API and "connect" the new instance to the existing network. We should be able to spin up 1000s of "CPUs" by using such APIs in a cluster environment.
As well as helping Xen/Mirage, the public cloud API bindings will be very useful to other people in other contexts-- a nice side-effect.
See https://fedoraproject.org/wiki/User:Gholms/EC2_Primer for a primer on how to use EC2 |
Outcomes: 1. one or more public cloud API bindings plus examples, in a standalone repo on github; 2. an example mirage app which uses these APIs to spin up a new VM |
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Parallel xenwatch kthread
Date of insert: 01/08/2012; Verified: Not updated in 2020; GSoC: Yes |
Technical contact: Mentor: Boris Ostrovsky, Student: Tülin İZER |
Mailing list/forum for project: xen-devel@ |
IRC channel for project: #xen-devel |
Difficulty: Low-Medium |
Skills Needed: You need to have understanding of:
- locks - spinlocks and mutexes
- build Linux kernel
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Description: Xenwatch is locked with a coarse lock. For a huge number of guests this represents a scalability issue. The need is to rewrite the xenwatch locking in order to support full scalability.
See https://git.kernel.org/cgit/linux/kernel/git/torvalds/linux.git/tree/drivers/xen/xenbus/xenbus_xs.c#n768
for the code. |
Outcomes: Expected outcome:
- Have upstream patches or a draft of them.
- benchmark report of with and without.
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OPW Round 8
Improvements to the block I/O paravirtualized Xen drivers
Date of insert: 21/04/2014; Verified: Not updated in 2020; GSoC: Unknown |
Technical contact: Mentor: Konrad Rzeszutek Wilk, Intern: Arianna Avanzini |
Mailing list/forum for project: xen-devel@ |
IRC channel for project: #xen-devel |
Difficulty: Unknown |
Skills Needed: Unknown |
Description: See here |
Outcomes: Not specified, project outcomes |
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Mirage OS contributions and improvements
Date of insert: 21/04/2014; Verified: Not updated in 2020; GSoC: Unknown |
Technical contact: Mentor: Richard Mortier, Intern: Mindy Preston |
Mailing list/forum for project: xen-devel@ |
IRC channel for project: #xen-devel |
Difficulty: Unknown |
Skills Needed: Unknown |
Description: 1 booting on the myriad cloud providers remains a total pain, so figuring out how to create one command that takes some credentials and gets a unikernel started on rackspace/amazon/openstack would be very handy. There's also cloud-init to look at.
2 protocol bisimulations against existing implementations: for a number of our libraries, we'd like a way to test our protocol code against standard implementations and verify that they are functionally equivalent. In certain cases, we will of course know that they are not, so we should be able to mark those as TODOs in our code. Good protocol testing choices: the TCP/IP stack vs Linux, the Cohttp web stack vs Nginx/Apache, the emerging SSL stack vs OpenSSL (important!)
3 new functionality: adding IPv6 support into mirage-net would be fairly straightforward and rather useful. Multipath TCP and/or TCPcrypt are more difficult but in scope.
4 If you feel like low-level hackery, porting Xen MiniOS to ARM would be a difficult but exceedinly rewarding project, as Mirage would then run on embedded devices like the Cubieboard2. This is a kernel hacking heavy project.
5 you could also pen test the heck out of the libraries to find and fix denial of services (e.g. unbounded reads in Cohttp for long headers, that sort of thing). We know of quite a few, but a structured set of attacks would help keep them out. |
Outcomes: Not specified, project outcomes |
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Students and Interns
This section allows our students and interns to link to their own areas on this wiki.