[PATCH] ARM: Fix errata 751472 handling on Cortex-A9 r1p*

Catalin Marinas catalin.marinas at arm.com
Thu Nov 15 09:37:14 EST 2012


On Thu, Nov 15, 2012 at 02:31:33PM +0000, Rob Herring wrote:
> On 11/15/2012 05:01 AM, Catalin Marinas wrote:
> > On Thu, Nov 15, 2012 at 12:54:48AM +0000, Rob Herring wrote:
> >> On 11/14/2012 04:21 PM, Tony Lindgren wrote:
> >>> * Rob Herring <robherring2 at gmail.com> [121114 13:59]:
> >>>> On 11/14/2012 02:32 PM, Tony Lindgren wrote:
> >>>>>
> >>>>> Checking for the bit already set should work in this case, I'll post
> >>>>> a patch for that shortly.
> >>>>
> >>>> Can you actually read the state of the diagnostic register in non-secure
> >>>> mode? If you can on the A9, is the same true on A8 or others?
> >>>
> >>> Looks like it can be read on at least TI omap 4430 which is A9.
> >>> But it reads as zero, so the below patch is what I came up with.
> >>>
> >>> No idea if assuming that zero value for the diagnostic register
> >>> is safe.. What's the default value of the diagnostic register supposed
> >>> to be?
> >>
> >> RTFM. Oh, wait it's a super secret, undocumented register. We shouldn't
> >> even be talking about it.
> >>
> >> It could vary by rev, but I see 0 for the reset value, so this would not
> >> work if the bootloader did not do any setup of the diagnostic register.
> >>
> >> One way to determine secure mode on the A9 would be seeing if you can
> >> change the auxcr register. Something like this (untested):
> >>
> >> mrc	p15, 0, r0, c1, c0, 1; Read ACTLR
> >> eor	r1, r0, #0x100		; Modify alloc in 1 way
> >> mcr	p15, 0, r1, c1, c0, 1
> >> mrc	p15, 0, r2, c1, c0, 1; Read ACTLR
> >> mcr	p15, 0, r0, c1, c0, 1	; Restore original value
> >> cmp	r1, r2
> >> bne	skip_errata
> > 
> > This would fail on platforms where Linux runs in non-secure mode. What
> > we do for some errata workarounds is to test whether the bit was already
> > set and avoid writing the register. But this assumes that, for a given
> > workaround in the kernel, there is a corresponding workaround in the
> > code running before the kernel (boot-loader, firmware) which sets that
> > bit.
> > 
> > Since the kernel will run more often in non-secure mode (on Cortex-A15
> > you need this for the virtualisation extensions) I strongly suggest that
> > the workaround (usually undocumented bit setting) is done before the
> > kernel is started and we simply remove it from Linux (or add a clear
> > comment that it only works if running in secure mode; if unsure say
> > 'N').
> > 
> > I don't think it's worth the hassle detecting whether the kernel runs in
> > secure or non-secure mode, just assume the latter and get SoC vendors to
> > update the boot loaders or firmware (if possible) with any errata
> > workarounds.
> 
> There's other places we need to know secure vs. non-secure mode like
> whether we can do smc calls or not.
> 
> So we should make all these work-arounds depend on !MULTI_PLATFORM then.

Only the workarounds that set bits in secure-only registers.

> Does that work for Versatile Express CA9? It needs ARM_ERRATA_751472.

On VE Linux runs in secure mode, so it's fine.

-- 
Catalin




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