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    SubjectRe: [PATCH v3 0/6] Static calls
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    > On Jan 10, 2019, at 8:44 AM, Josh Poimboeuf <jpoimboe@redhat.com> wrote:
    >
    > On Thu, Jan 10, 2019 at 01:21:00AM +0000, Nadav Amit wrote:
    >>> On Jan 9, 2019, at 2:59 PM, Josh Poimboeuf <jpoimboe@redhat.com> wrote:
    >>>
    >>> With this version, I stopped trying to use text_poke_bp(), and instead
    >>> went with a different approach: if the call site destination doesn't
    >>> cross a cacheline boundary, just do an atomic write. Otherwise, keep
    >>> using the trampoline indefinitely.
    >>>
    >>> NOTE: At least experimentally, the call destination writes seem to be
    >>> atomic with respect to instruction fetching. On Nehalem I can easily
    >>> trigger crashes when writing a call destination across cachelines while
    >>> reading the instruction on other CPU; but I get no such crashes when
    >>> respecting cacheline boundaries.
    >>>
    >>> BUT, the SDM doesn't document this approach, so it would be great if any
    >>> CPU people can confirm that it's safe!
    >>
    >> I (still) think that having a compiler plugin can make things much cleaner
    >> (as done in [1]). The callers would not need to be changed, and the key can
    >> be provided through an attribute.
    >>
    >> Using a plugin should also allow to use Steven’s proposal for doing
    >> text_poke() safely: by changing 'func()' into 'asm (“call func”)', as done
    >> by the plugin, you can be guaranteed that registers are clobbered. Then, you
    >> can store in the assembly block the return address in one of these
    >> registers.
    >
    > I'm no GCC expert (why do I find myself saying this a lot lately?), but
    > this sounds to me like it could be tricky to get right.
    >
    > I suppose you'd have to do it in an early pass, to allow GCC to clobber
    > the registers in a later pass. So it would necessarily have side
    > effects, but I don't know what the risks are.

    I’m not GCC expert either and writing this code was not making me full of
    joy, etc.. I’ll be happy that my code would be reviewed, but it does work. I
    don’t think an early pass is needed, as long as hardware registers were not
    allocated.

    > Would it work with more than 5 arguments, where args get passed on the
    > stack?

    It does.

    >
    > At the very least, it would (at least partially) defeat the point of the
    > callee-saved paravirt ops.

    Actually, I think you can even deal with callee-saved functions and remove
    all the (terrible) macros. You would need to tell the extension not to
    clobber the registers through a new attribute.

    > What if we just used a plugin in a simpler fashion -- to do call site
    > alignment, if necessary, to ensure the instruction doesn't cross
    > cacheline boundaries. This could be done in a later pass, with no side
    > effects other than code layout. And it would allow us to avoid
    > breakpoints altogether -- again, assuming somebody can verify that
    > intra-cacheline call destination writes are atomic with respect to
    > instruction decoder reads.

    The plugin should not be able to do so. Layout of the bytecode is done by
    the assembler, so I don’t think a plugin would help you with this one.
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