On Wed, Feb 12, 2020 at 11:41 AM Andrea Arcangeli <aarcange@xxxxxxxxxx> wrote: > > Hello everyone, > > On Wed, Feb 12, 2020 at 12:14:16PM -0500, Peter Xu wrote: > > Right. AFAICT QEMU uses it far more than disk IOs. A guest page can > > be accessed by any kernel component on the destination host during a > > postcopy procedure. It can be as simple as when a vcpu writes to a > > missing guest page which still resides on the source host, then KVM > > will get a page fault and trap into userfaultfd asking for that page. > > The same thing happens to other modules like vhost, etc., as long as a > > missing guest page is touched by a kernel module. > > Correct. > > How does the android garbage collection work to make sure there cannot > be kernel faults on the missing memory? We don't pass pointers to the heap into system calls. (Big primitive arrays, ByteBuffer, etc. are allocated off the regular heap.) > If I understood correctly (I didn't have much time to review sorry) > what's proposed with regard to limiting uffd events from kernel > faults, I don't understand what you mean. The purpose of preventing UFFD from handling kernel faults is exploit mitigation. > the only use case I know that could deal with it is the > UFFD_FEATURE_SIGBUS but that's not normal userfaultfd: that's also the > only feature required from uffd to implement a pure malloc library in > userland that never takes the mmap sem for writing to implement > userland mremap/mmap/munmap lib calls (as those will convert to > UFFDIO_ZEROPAGE and MADV_DONTNEED internally to the lib and there will > be always a single vma). We just need to extend UFFDIO_ZEROPAGE to map > the THP zeropage to make this future pure-uffd malloc lib perform > better. The key requirement here is the ability to prevent unprivileged processes from using UFFD to widen kernel exploit windows by preventing UFFD from taking kernel faults. Forcing unprivileged processes to use UFFD only with UFFD_FEATURE_SIGBUS would satisfy this requirement, but it's much less flexible and unnecessarily couples two features. > On the other end I'm also planning a mremap_vma_merge userland syscall > that will merge fragmented vmas. This is probably a separate discussion, but does that operation really need to be a system call? Historically, userspace has operated mostly on page ranges and not VMAs per se, and the kernel has been free to merge and split VMAs as needed for its internal purposes. This approach has serious negative side effects (like making munmap fallible: see [1]), but it is what it is. [1] https://lore.kernel.org/linux-mm/CAKOZuetOD6MkGPVvYFLj5RXh200FaDyu3sQqZviVRhTFFS3fjA@xxxxxxxxxxxxxx/ > Currently once you have a nice heap all contiguous but with small > objects and you free the fragments you can't build THP anymore even if > you make the memory virtually contiguous again by calling mremap. That > just build up a ton of vmas slowing down the app forever and also > preventing THP collapsing ever again. Shouldn't the THP background kthread take care of merging VMAs? > mremap_vma_merge will require no new kernel feature, but it > fundamentally must be able to handle kernel faults. If databases > starts to use that, how can you enable this feature without breaking > random apps then? Presumably, those apps wouldn't issue the system call on address ranges managed with a non-kernel-fault UFFD. > So it'd be a feature usable only by one user (Android) perhaps? And > only until you start defragging the vmas of small objects? We shouldn't be fragmenting at all, either at the memory level or the VMA level. The GC is a moving collector, and we don't punch holes in the heap.