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authoralc <alc@FreeBSD.org>2012-03-22 04:52:51 +0000
committeralc <alc@FreeBSD.org>2012-03-22 04:52:51 +0000
commite02fd6b8423e63f1fdbfc1f984d7c7291a1bacd1 (patch)
tree6628d621fc3b1f91d03b83dcd89b48528e3132fe /crypto/openssl/certs
parent1c754fb497b9c43672483c1ed5abe4f9176325cd (diff)
downloadFreeBSD-src-e02fd6b8423e63f1fdbfc1f984d7c7291a1bacd1.zip
FreeBSD-src-e02fd6b8423e63f1fdbfc1f984d7c7291a1bacd1.tar.gz
Handle spurious page faults that may occur in no-fault sections of the
kernel. When access restrictions are added to a page table entry, we flush the corresponding virtual address mapping from the TLB. In contrast, when access restrictions are removed from a page table entry, we do not flush the virtual address mapping from the TLB. This is exactly as recommended in AMD's documentation. In effect, when access restrictions are removed from a page table entry, AMD's MMUs will transparently refresh a stale TLB entry. In short, this saves us from having to perform potentially costly TLB flushes. In contrast, Intel's MMUs are allowed to generate a spurious page fault based upon the stale TLB entry. Usually, such spurious page faults are handled by vm_fault() without incident. However, when we are executing no-fault sections of the kernel, we are not allowed to execute vm_fault(). This change introduces special-case handling for spurious page faults that occur in no-fault sections of the kernel. In collaboration with: kib Tested by: gibbs (an earlier version) I would also like to acknowledge Hiroki Sato's assistance in diagnosing this problem. MFC after: 1 week
Diffstat (limited to 'crypto/openssl/certs')
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