runtime check for omap-aes bus access permission (was: Re: 3.13-rc3 (commit 7ce93f3) breaks Nokia N900 DT boot)

Pali Rohár pali.rohar at gmail.com
Wed Feb 18 13:14:59 PST 2015


On Wednesday 11 February 2015 21:40:33 Nishanth Menon wrote:
> On Wed, Feb 11, 2015 at 2:28 PM, Pali Rohár 
<pali.rohar at gmail.com> wrote:
> > On Wednesday 11 February 2015 16:22:51 Matthijs van Duin 
wrote:
> >> On 11 February 2015 at 13:39, Pali Rohár
> >> <pali.rohar at gmail.com>
> > 
> > wrote:
> >> >> Anyhow, since checking the firewalls/APs to see if you
> >> >> have permission will probably only get you yet another
> >> >> fault if things are walled off, the robust way of
> >> >> dealing with this sort of situation is by probing the
> >> >> device with a read while trapping bus faults. This also
> >> >> handles modules that are unreachable for other reasons,
> >> >> e.g. being disabled by eFuse.
> >> > 
> >> > It is possible to patch kernel code to mask or ignore
> >> > that fault? Can you help me with something like that?
> >> 
> >> As I mentioned, I'm still learning my way around the
> >> kernel, so I don't feel very comfortable suggesting a
> >> concrete patch just yet. I've been browsing arch/arm/mm/
> >> however and my impression is that all that would be
> >> required is editing fault.c by making a copy of do_bad but
> >> containing
> >> 
> >>     return user_mode(regs) || !fixup_exception(regs);
> >> 
> >> and hook it onto the appropriate fault codes.  However,
> >> this really needs the opinion of someone more familiar
> >> with this code.
> >> 
> >> I do have an observation to make on the issue of fault
> >> decoding: the list in fsr-2level.c may be "standard ARMv3
> >> and ARMv4 aborts" but they are quite wrong for ARMv7 which
> >> has:
> >> 
> >> [ 0] -
> >> [ 1] alignment fault
> >> [ 2] debug event
> >> [ 3] section access flag fault
> >> [ 4] instruction cache maintainance fault (reported via
> >> data abort) [ 5] section translation fault
> >> [ 6] page access flag fault
> >> [ 7] page translation fault
> >> [ 8] bus error on access
> >> [ 9] section domain fault
> >> [10] -
> >> [11] page domain fault
> >> [12] bus error on section table walk
> >> [13] section permission fault
> >> [14] bus error on page table walk
> >> [15] page permission fault
> >> [16] (TLB conflict abort)
> >> [17] -
> >> [18] -
> >> [19] -
> >> [20] (lockdown abort)
> >> [21] -
> >> [22] async bus error (reported via data abort)
> >> [23] -
> >> [24] async parity/ECC error (reported via data abort)
> >> [25] parity/ECC error on access
> >> [26] (coprocessor abort)
> >> [27] -
> >> [28] parity/ECC error on section table walk
> >> [29] -
> >> [30] parity/ECC error on page table walk
> >> [31] -
> >> 
> >> Some entries are patched up near the bottom of fault.c but
> >> many bogus messages remain, for example the "on linefetch"
> >> vs "on non-linefetch" is misleading since no such thing
> >> can be inferred from the fault status on v7.  Also, the
> >> i-cache maintenance fault handling looks wrong to me: it
> >> should fetch the actual fault status from IFSR (even
> >> though the address still comes from DFSR) and dispatch
> >> based on that.
> >> 
> >> Async external aborts (async bus error and async parity/ECC
> >> error) give you basically no info. DFAR will contain
> >> garbage hence displaying it will confuse rather than
> >> enlighten, a traceback is pointless since the instruction
> >> that caused the access is long retired, likewise
> >> user_mode() doesn't matter since a transition to kernel
> >> space may have happened after the access that cause the
> >> abort. Basically they should be treated more as an IRQ
> >> than as a fault (note they can also be masked just like
> >> irqs). In case of a bus error, it may be appropriate to
> >> just warn about it, or perhaps send a signal to the
> >> current process, although in the latter case it should
> >> have some means to distinguish it from a synchronous bus
> >> error.
> >> 
> >> At least on the cortex-a8, a parity/ECC error (whether
> >> async or not) is to be regarded as absolutely fatal. 
> >> Quoth the TRM: "No recovery is possible. The abort handler
> >> must disable the caches, communicate the fail directly
> >> with the external system, request a reboot."
> >> 
> >> Bit 10 no longer indicates an asynchronous (let alone
> >> imprecise) fault.  Apart from the debug events and async
> >> aborts (and possibly some implementation-defined aborts),
> >> all aborts listed are synchronous, and DFAR/IFAR is valid.
> >> There's no technical obstruction to make these trappable
> >> via the kernel exception handling mechanism. (Though at
> >> least in case of parity/ECC errors one shouldn't.)
> > 
> > Tony, Nishanth, or somebody else... can you help with memory
> > management? Or do you know some expert for arch/arm/mm/
> > code?
> 
> Folks in linux-arm-kernel are probably the right people, I
> suppose. Looping them in.

Hi folks in linux-arm-kernel!

Can you help us with above problem? How to catch external abort 
on non-linefetch in kernel driver and prevent kernel panic?

Here is that kernel panic log: 
http://thread.gmane.org/gmane.linux.ports.arm.omap/108397/

We want to check for "Unhandled fault: external abort on non-
linefetch" and if it happens disable some functionality in kernel 
driver omap-aes.ko

-- 
Pali Rohár
pali.rohar at gmail.com
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