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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-devel] Ping: Re: [PATCH 2/2] x86/HVM: re-order operations in hvm_ud_intercept()
>>> On 09.06.16 at 17:05, <JBeulich@xxxxxxxx> wrote: >>>> On 09.06.16 at 16:27, <andrew.cooper3@xxxxxxxxxx> wrote: >> On 09/06/16 15:13, Jan Beulich wrote: >>>>>> On 09.06.16 at 16:06, <andrew.cooper3@xxxxxxxxxx> wrote: >>>> On 09/06/16 13:31, Jan Beulich wrote: >>>>>>>> On 09.06.16 at 13:34, <andrew.cooper3@xxxxxxxxxx> wrote: >>>>>> On 08/06/16 14:43, Jan Beulich wrote: >>>>>>> Don't fetch CS explicitly, leverage the fact that hvm_emulate_prepare() >>>>>>> already does (and that hvm_virtual_to_linear_addr() doesn't alter it). >>>>>>> >>>>>>> At once increase the length passed to hvm_virtual_to_linear_addr() by >>>>>>> one: There definitely needs to be at least one more opcode byte, and we >>>>>>> can avoid missing a wraparound case this way. >>>>>>> >>>>>>> Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx> >>>>>> I looked into this when you suggested it, but it latches the wrong eip >>>>>> in the emulation state, and you will end up re-emulating the ud2a >>>>>> instruction, rather than the following instruction. >>>>> Where is there any latching of eip? All hvm_emulate_prepare() does >>>>> is storing the regs pointer. >>>> Oh - so it does. I clearly looked over it too quickly. >>>> >>>> What wraparound issue are you referring to? Adding 1 will cause >>>> incorrect behaviour when the emulation prefix ends at the segment limit. >>> I don't think so: The prefix together with the actual instruction >>> encoding should be viewed as a single instruction, and it crossing >>> the segment limit should #GP. It wrapping at the prefix/encoding >>> boundary is the case that I'm specifically referring to (this case >>> should also #GP, but wouldn't without this adjustment). >> >> But the force emulation prefix specifically doesn't behave like other >> prefixes. >> >> It doesn't count towards the 15 byte instruction limit, and if the >> emulated instruction does fault, we want the fault pointing at the >> emulated instruction, not the force prefix. We should avoid making any >> link. > > Well, are you saying placing such a prefix right below the boundary > of a flat segment is _expected_ to get the instruction at address 0 > emulated? I don't think I could buy that. The patch makes no other > connection between prefix and actual insn. And #GP because of > such a boundary condition should imo point at the prefix; only all > faults associated with the actual insn should point there. Ping? Jan _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxx http://lists.xen.org/xen-devel
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