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authorDaniel Axtens <dja@axtens.net>2015-09-23 16:41:48 +1000
committerMichael Ellerman <mpe@ellerman.id.au>2015-10-09 08:07:19 +1100
commitf2dd80ecca5f06b46134f2bd811f046c503c756c (patch)
tree8723efa12a71458cc76b4d1bc44d439802dab2ff /REPORTING-BUGS
parentfdf880a60835cd1dec2563463ac63ae3084e0ddc (diff)
downloadlinux-f2dd80ecca5f06b46134f2bd811f046c503c756c.tar.bz2
powerpc/powernv: Panic on unhandled Machine Check
All unrecovered machine check errors on PowerNV should cause an immediate panic. There are 2 reasons that this is the right policy: it's not safe to continue, and we're already trying to reboot. Firstly, if we go through the recovery process and do not successfully recover, we can't be sure about the state of the machine, and it is not safe to recover and proceed. Linux knows about the following sources of Machine Check Errors: - Uncorrectable Errors (UE) - Effective - Real Address Translation (ERAT) - Segment Lookaside Buffer (SLB) - Translation Lookaside Buffer (TLB) - Unknown/Unrecognised In the SLB, TLB and ERAT cases, we can further categorise these as parity errors, multihit errors or unknown/unrecognised. We can handle SLB errors by flushing and reloading the SLB. We can handle TLB and ERAT multihit errors by flushing the TLB. (It appears we may not handle TLB and ERAT parity errors: I will investigate further and send a followup patch if appropriate.) This leaves us with uncorrectable errors. Uncorrectable errors are usually the result of ECC memory detecting an error that it cannot correct, but they also crop up in the context of PCI cards failing during DMA writes, and during CAPI error events. There are several types of UE, and there are 3 places a UE can occur: Skiboot, the kernel, and userspace. For Skiboot errors, we have the facility to make some recoverable. For userspace, we can simply kill (SIGBUS) the affected process. We have no meaningful way to deal with UEs in kernel space or in unrecoverable sections of Skiboot. Currently, these unrecovered UEs fall through to machine_check_expection() in traps.c, which calls die(), which OOPSes and sends SIGBUS to the process. This sometimes allows us to stumble onwards. For example we've seen UEs kill the kernel eehd and khugepaged. However, the process killed could have held a lock, or it could have been a more important process, etc: we can no longer make any assertions about the state of the machine. Similarly if we see a UE in skiboot (and again we've seen this happen), we're not in a position where we can make any assertions about the state of the machine. Likewise, for unknown or unrecognised errors, we're not able to say anything about the state of the machine. Therefore, if we have an unrecovered MCE, the most appropriate thing to do is to panic. The second reason is that since e784b6499d9c ("powerpc/powernv: Invoke opal_cec_reboot2() on unrecoverable machine check errors."), we attempt a special OPAL reboot on an unhandled MCE. This is so the hardware can record error data for later debugging. The comments in that commit assert that we are heading down the panic path anyway. At the moment this is not always true. With UEs in kernel space, for instance, they are marked as recoverable by the hardware, so if the attempt to reboot failed (e.g. old Skiboot), we wouldn't panic() but would simply die() and OOPS. It doesn't make sense to be staggering on if we've just tried to reboot: we should panic(). Explicitly panic() on unrecovered MCEs on PowerNV. Update the comments appropriately. This fixes some hangs following EEH events on cxlflash setups. Signed-off-by: Daniel Axtens <dja@axtens.net> Reviewed-by: Andrew Donnellan <andrew.donnellan@au1.ibm.com> Reviewed-by: Ian Munsie <imunsie@au1.ibm.com> Signed-off-by: Michael Ellerman <mpe@ellerman.id.au>
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