Re: [PATCH v2 0/5] implement lightweight guard pages

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On Sun, Oct 20, 2024 at 07:37:54PM +0200, Florian Weimer wrote:
> * Lorenzo Stoakes:
>
> > Early testing of the prototype version of this code suggests a 5 times
> > speed up in memory mapping invocations (in conjunction with use of
> > process_madvise()) and a 13% reduction in VMAs on an entirely idle android
> > system and unoptimised code.
> >
> > We expect with optimisation and a loaded system with a larger number of
> > guard pages this could significantly increase, but in any case these
> > numbers are encouraging.
> >
> > This way, rather than having separate VMAs specifying which parts of a
> > range are guard pages, instead we have a VMA spanning the entire range of
> > memory a user is permitted to access and including ranges which are to be
> > 'guarded'.
> >
> > After mapping this, a user can specify which parts of the range should
> > result in a fatal signal when accessed.
> >
> > By restricting the ability to specify guard pages to memory mapped by
> > existing VMAs, we can rely on the mappings being torn down when the
> > mappings are ultimately unmapped and everything works simply as if the
> > memory were not faulted in, from the point of view of the containing VMAs.
>
> We have a glibc (so not Android) dynamic linker bug that asks us to
> remove PROT_NONE mappings in mapped shared objects:
>
>   Extra struct vm_area_struct with ---p created when PAGE_SIZE < max-page-size
>   <https://sourceware.org/bugzilla/show_bug.cgi?id=31076>
>
> It's slightly different from a guard page because our main goal is to
> avoid other mappings to end up in those gaps, which has been shown to
> cause odd application behavior in cases where it happens.  If I
> understand the series correctly, the kernel would not automatically
> attribute those PROT_NONE gaps to the previous or subsequent mapping.
> We would have to extend one of the surrounding mapps and apply
> MADV_POISON to that over-mapped part.  That doesn't seem too onerous.
>
> Could the ELF loader in the kernel do the same thing for the main
> executable and the program loader?

Currently this implementation is only available for private anonymous
memory. We may look at extending it to shmem and file-backed memory in the
future but there are a whole host of things to overcome to make that work
so it's one step at a time! :)




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