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Currently memory error handler handles action optional errors in the deferred manner by default. And if a recovery aware application wants to handle it immediately, it can do it by setting PF_MCE_EARLY flag. However, such signal can be sent only to the main thread, so it's problematic if the application wants to have a dedicated thread to handler such signals. So this patch adds dedicated thread support to memory error handler. We have PF_MCE_EARLY flags for each thread separately, so with this patch AO signal is sent to the thread with PF_MCE_EARLY flag set, not the main thread. If you want to implement a dedicated thread, you call prctl() to set PF_MCE_EARLY on the thread. Memory error handler collects processes to be killed, so this patch lets it check PF_MCE_EARLY flag on each thread in the collecting routines. No behavioral change for all non-early kill cases. Tony said: : The old behavior was crazy - someone with a multithreaded process might : well expect that if they call prctl(PF_MCE_EARLY) in just one thread, then : that thread would see the SIGBUS with si_code = BUS_MCEERR_A0 - even if : that thread wasn't the main thread for the process. [akpm@linux-foundation.org: coding-style fixes] Signed-off-by: Naoya Horiguchi <n-horiguchi@ah.jp.nec.com> Reviewed-by: Tony Luck <tony.luck@intel.com> Cc: Kamil Iskra <iskra@mcs.anl.gov> Cc: Andi Kleen <andi@firstfloor.org> Cc: Borislav Petkov <bp@suse.de> Cc: Chen Gong <gong.chen@linux.jf.intel.com> Cc: <stable@vger.kernel.org> [3.2+] Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
188 lines
5.8 KiB
Plaintext
188 lines
5.8 KiB
Plaintext
What is hwpoison?
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Upcoming Intel CPUs have support for recovering from some memory errors
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(``MCA recovery''). This requires the OS to declare a page "poisoned",
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kill the processes associated with it and avoid using it in the future.
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This patchkit implements the necessary infrastructure in the VM.
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To quote the overview comment:
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* High level machine check handler. Handles pages reported by the
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* hardware as being corrupted usually due to a 2bit ECC memory or cache
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* failure.
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*
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* This focusses on pages detected as corrupted in the background.
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* When the current CPU tries to consume corruption the currently
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* running process can just be killed directly instead. This implies
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* that if the error cannot be handled for some reason it's safe to
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* just ignore it because no corruption has been consumed yet. Instead
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* when that happens another machine check will happen.
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*
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* Handles page cache pages in various states. The tricky part
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* here is that we can access any page asynchronous to other VM
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* users, because memory failures could happen anytime and anywhere,
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* possibly violating some of their assumptions. This is why this code
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* has to be extremely careful. Generally it tries to use normal locking
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* rules, as in get the standard locks, even if that means the
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* error handling takes potentially a long time.
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*
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* Some of the operations here are somewhat inefficient and have non
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* linear algorithmic complexity, because the data structures have not
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* been optimized for this case. This is in particular the case
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* for the mapping from a vma to a process. Since this case is expected
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* to be rare we hope we can get away with this.
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The code consists of a the high level handler in mm/memory-failure.c,
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a new page poison bit and various checks in the VM to handle poisoned
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pages.
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The main target right now is KVM guests, but it works for all kinds
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of applications. KVM support requires a recent qemu-kvm release.
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For the KVM use there was need for a new signal type so that
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KVM can inject the machine check into the guest with the proper
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address. This in theory allows other applications to handle
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memory failures too. The expection is that near all applications
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won't do that, but some very specialized ones might.
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---
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There are two (actually three) modi memory failure recovery can be in:
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vm.memory_failure_recovery sysctl set to zero:
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All memory failures cause a panic. Do not attempt recovery.
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(on x86 this can be also affected by the tolerant level of the
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MCE subsystem)
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early kill
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(can be controlled globally and per process)
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Send SIGBUS to the application as soon as the error is detected
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This allows applications who can process memory errors in a gentle
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way (e.g. drop affected object)
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This is the mode used by KVM qemu.
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late kill
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Send SIGBUS when the application runs into the corrupted page.
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This is best for memory error unaware applications and default
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Note some pages are always handled as late kill.
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---
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User control:
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vm.memory_failure_recovery
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See sysctl.txt
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vm.memory_failure_early_kill
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Enable early kill mode globally
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PR_MCE_KILL
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Set early/late kill mode/revert to system default
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arg1: PR_MCE_KILL_CLEAR: Revert to system default
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arg1: PR_MCE_KILL_SET: arg2 defines thread specific mode
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PR_MCE_KILL_EARLY: Early kill
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PR_MCE_KILL_LATE: Late kill
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PR_MCE_KILL_DEFAULT: Use system global default
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Note that if you want to have a dedicated thread which handles
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the SIGBUS(BUS_MCEERR_AO) on behalf of the process, you should
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call prctl(PR_MCE_KILL_EARLY) on the designated thread. Otherwise,
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the SIGBUS is sent to the main thread.
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PR_MCE_KILL_GET
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return current mode
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---
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Testing:
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madvise(MADV_HWPOISON, ....)
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(as root)
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Poison a page in the process for testing
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hwpoison-inject module through debugfs
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/sys/debug/hwpoison/
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corrupt-pfn
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Inject hwpoison fault at PFN echoed into this file. This does
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some early filtering to avoid corrupted unintended pages in test suites.
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unpoison-pfn
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Software-unpoison page at PFN echoed into this file. This
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way a page can be reused again.
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This only works for Linux injected failures, not for real
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memory failures.
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Note these injection interfaces are not stable and might change between
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kernel versions
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corrupt-filter-dev-major
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corrupt-filter-dev-minor
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Only handle memory failures to pages associated with the file system defined
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by block device major/minor. -1U is the wildcard value.
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This should be only used for testing with artificial injection.
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corrupt-filter-memcg
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Limit injection to pages owned by memgroup. Specified by inode number
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of the memcg.
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Example:
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mkdir /sys/fs/cgroup/mem/hwpoison
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usemem -m 100 -s 1000 &
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echo `jobs -p` > /sys/fs/cgroup/mem/hwpoison/tasks
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memcg_ino=$(ls -id /sys/fs/cgroup/mem/hwpoison | cut -f1 -d' ')
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echo $memcg_ino > /debug/hwpoison/corrupt-filter-memcg
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page-types -p `pidof init` --hwpoison # shall do nothing
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page-types -p `pidof usemem` --hwpoison # poison its pages
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corrupt-filter-flags-mask
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corrupt-filter-flags-value
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When specified, only poison pages if ((page_flags & mask) == value).
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This allows stress testing of many kinds of pages. The page_flags
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are the same as in /proc/kpageflags. The flag bits are defined in
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include/linux/kernel-page-flags.h and documented in
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Documentation/vm/pagemap.txt
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Architecture specific MCE injector
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x86 has mce-inject, mce-test
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Some portable hwpoison test programs in mce-test, see blow.
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---
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References:
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http://halobates.de/mce-lc09-2.pdf
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Overview presentation from LinuxCon 09
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git://git.kernel.org/pub/scm/utils/cpu/mce/mce-test.git
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Test suite (hwpoison specific portable tests in tsrc)
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git://git.kernel.org/pub/scm/utils/cpu/mce/mce-inject.git
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x86 specific injector
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---
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Limitations:
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- Not all page types are supported and never will. Most kernel internal
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objects cannot be recovered, only LRU pages for now.
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- Right now hugepage support is missing.
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---
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Andi Kleen, Oct 2009
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