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* Consolidate the various functions that read and write guest memory.  There is some duplication there.
* Consolidate the various functions that read and write guest memory.  There is some duplication there.
* Consolidate the inb/outb emulation helpers into x86_emulate.c
* Consolidate the inb/outb emulation helpers into x86_emulate.c
* <code><nowiki>struct kvm_vcpu</nowiki></code> has many vmx specific fields.  Move them into a new member <code><nowiki>vmx</nowiki></code>.  Have each arch allocate the vcpu so its arch-specific members can be addressed without indirection ([[AnthonyLiguori]] has started this).
* <code><nowiki>struct kvm_vcpu</nowiki></code> has many vmx specific fields.  Move them into a new member <code><nowiki>vmx</nowiki></code>.  Have each arch allocate the vcpu so its arch-specific members can be addressed without indirection ([[PaulTurner]] has started this).


MMU related:
MMU related:

Revision as of 10:38, 1 July 2007

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).
  • Move the apic/ioapic/pic/pit emulation into the kernel. This will simplify in-kernel paravirtualized devices (as there is no need to exit to userspace to inject an interrupt) and guest SMP (in progress).
  • Drop the preemption counter while doing mmu stuff, and turn kvm->lock into a mutex.
    • Even better, hook the state switch to the scheduler, and do away with disabling preemption completely (in progress).
  • Emulate the architectural performance monitor counters/msrs, for Linux nmi watchdog support.

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

  • Enforce the virtual time stamp counter monotonicity even when a vcpu is migrated to another physical cpu. (done for AMD, in progress for Intel)
  • 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
  • Consolidate the various functions that read and write guest memory. There is some duplication there.
  • Consolidate the inb/outb emulation helpers into x86_emulate.c
  • struct kvm_vcpu has many vmx specific fields. Move them into a new member vmx. Have each arch allocate the vcpu so its arch-specific members can be addressed without indirection (PaulTurner has started this).

MMU related:

  • Attach kvm memory to a Linux address_space so that guest memory can be paged out (patch exists for alternative approach to guest paging).
  • Support large pages (in conjunction with the item above) 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.
  • Implement AM20 for dos and the like.
  • Implement direct page tables on paravirt_ops enabled Linux guests (in progress)

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.
  • Keep this TODO up to date