TODO: Difference between revisions

From KVM
(mmio scaling)
(mprotect() for read-only memory)
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* Improve mmu page eviction algorithm (currently FIFO, change to approximate LRU).
* Improve mmu page eviction algorithm (currently FIFO, change to approximate LRU).
* Add a read-only memory type.
* Add a read-only memory type.
** possible using mprotect()?
* Implement AM20 for dos and the like.
* Implement AM20 for dos and the like.
* Implement direct page tables on paravirt_ops enabled Linux guests (in progress)
* Implement direct page tables on paravirt_ops enabled Linux guests (in progress)

Revision as of 10:26, 24 January 2008

TODO


The following items need some love. Please post to the list if you are interested in helping out:

  • Real mode support: VT support for real mode is terrible, so we need to do it in software. This means extending the x86 emulator (x86_emulate.c) to handle more instructions, and changing the execution loop to call the emulator for real mode (in progress).
  • Emulate the architectural performance monitor counters/msrs, for Linux nmi watchdog support.
  • Emulate MSR_IA32_DEBUGCTL for guests which use it
  • Emulate x86 hardware task switching
  • Bring up Windows 95 and Windows 98 guests
  • Batch writes to 4-plane vga memory and other side-effect-free mmio to improve performance
  • Implement MSR_EFER on i386, on processors which support it
  • Add HPET support to qemu and kvm

The following smaller scale tasks can be a nice entry point to someone wishing to get involved:

  • Store command line options in an empty snapshot in a qcow2 format image file. This allows an image file to be self contained: qemu file.img should be enough to launch a fully configured virtual machine.
  • Allow all cpuid features supported by kvm to be passed to the guest; add a command line option to specifiy the cpuid explicitly to allow migration in a heterogeneous server farm.
  • Add a Unix domain socket device. With this, the guest can talk to a pci device which is connected to a Unix domain socket on the host.
  • Add a qemu interface for sharing memory between guests. Using a pci device to expose the shared memory is probably a good starting point.
  • Allow userspace to manage which msrs are emulated as no-ops (read zero, write ignored) to hack support for some guests
  • Reduce qemu memory footprint when using kvm
  • Avoid taking kvm->lock when issuing mmio. Need to check lapic and ioapic accesses for correctness.

MMU related:

  • Support large pages (in conjunction with npt/ept) so that if the guest uses a large page mapping and the guest memory is backed by hugetlbfs, a large-page pte is created.
  • Improve mmu page eviction algorithm (currently FIFO, change to approximate LRU).
  • Add a read-only memory type.
    • possible using mprotect()?
  • Implement AM20 for dos and the like.
  • Implement direct page tables on paravirt_ops enabled Linux guests (in progress)

x86 emulator updates:

  • Trap #UD and emulate sysenter/syscall/sysret/sysexit. These instructions don't exist on all cpus in all modes, so they hinder cross-vendor migration (in progress)
  • Add a NonPT flag (or maybe its inverse, Paging) to instructions that are never used for page table updates (like add, sub, call). Teach the mmu to unshadow page tables if a NonPT instruction is executed on them.
  • Change the emulator initialization sequence not to read all segment registers (this is slow), instead read them on demand. On 64-bit, no segments are usually needed while on 32-bit only cs and ds are commenly required.

Interactivity improvements:

  • If for several frames in a row a large proportion of the framebuffer pages are
changing, then for the next few frames don't bother to get the dirty page log
from kvm, but instead assume that all pages are dirty.  This will reduce page
fault overhead on highly interactive workloads.
  • When detecting keyboard/video/mouse activity, scale up the frame rate; when
activity dies down, scale it back down (applicable to qemu as well).

Bug fixes:

  • Less sexy but ever important, fixing bugs is one of the most important contributions

For the adventurous:

  • Emulate the VT and SVM instructions, so that kvm can run in a virtual machine. Test by running a VM in a VT guest in an SVM guest on VT hardware, as well as running a VM in an SVM guest in a VT guest on SVM hardware.
  • Emulate the VT and SVM instruction sets on qemu. This would be very beneficial to debugging kvm.
  • Keep this TODO up to date
  • Add vmgl support to qemu. Port to virtio. Write a Windows driver.