Re: [PATCH v6 04/20] x86/split_lock: Align x86_capability to unsigned long to avoid split locked access
From: Sean Christopherson
Date: Thu Apr 04 2019 - 12:35:49 EST
On Thu, Apr 04, 2019 at 04:24:15PM +0000, David Laight wrote:
> From: David Laight
> > Sent: 04 April 2019 15:45
> >
> > From: Fenghua Yu
> > > Sent: 03 April 2019 22:22
> > > set_cpu_cap() calls locked BTS and clear_cpu_cap() calls locked BTR to
> > > operate on bitmap defined in x86_capability.
> > >
> > > Locked BTS/BTR accesses a single unsigned long location. In 64-bit mode,
> > > the location is at:
> > > base address of x86_capability + (bit offset in x86_capability / 64) * 8
> > >
> > > Since base address of x86_capability may not be aligned to unsigned long,
> > > the single unsigned long location may cross two cache lines and
> > > accessing the location by locked BTS/BTR introductions will trigger #AC.
> >
> > That is not true.
> > The BTS/BTR instructions access the memory word that contains the
> > expected bit.
> > The 'operand size' only affects the size of the register use for the
> > bit offset.
> > If the 'operand size' is 16 bits wide (+/- 32k bit offset) the cpu might
> > do an aligned 16bit memory access, otherwise (32 or 64bit bit offset) it
> > might do an aligned 32 bit access.
> > It should never do an 64bit access and never a misaligned one (even if
> > the base address is misaligned).
>
> Hmmm... I may have misread things slightly.
> The accessed address is 'Effective Address + (4 â (BitOffset DIV 32))'.
> However nothing suggests that it ever does 64bit accesses.
>
> If it does do 64bit accesses when the operand size is 64 bits then the
> asm stubs ought to be changed to only specify 32bit operand size.
Heh, we had this discussion before[1], the op size dictates the size of
the memory access and can generate unaligned accesses.
[1] https://lkml.kernel.org/r/20181127195153.GE27075@xxxxxxxxxxxxxxx