entry: Prepare for deferred hrtimer rearming

entry: Prepare for deferred hrtimer rearming

The hrtimer interrupt expires timers and at the end of the interrupt it
rearms the clockevent device for the next expiring timer.

That's obviously correct, but in the case that a expired timer sets
NEED_RESCHED the return from interrupt ends up in schedule(). If HRTICK is
enabled then schedule() will modify the hrtick timer, which causes another
reprogramming of the hardware.

That can be avoided by deferring the rearming to the return from interrupt
path and if the return results in a immediate schedule() invocation then it
can be deferred until the end of schedule(), which avoids multiple rearms
and re-evaluation of the timer wheel.

As this is only relevant for interrupt to user return split the work masks
up and hand them in as arguments from the relevant exit to user functions,
which allows the compiler to optimize the deferred handling out for the
syscall exit to user case.

Add the rearm checks to the approritate places in the exit to user loop and
the interrupt return to kernel path, so that the rearming is always
guaranteed.

In the return to user space path this is handled in the same way as
TIF_RSEQ to avoid extra instructions in the fast path, which are truly
hurtful for device interrupt heavy work loads as the extra instructions and
conditionals while benign at first sight accumulate quickly into measurable
regressions. The return from syscall path is completely unaffected due to
the above mentioned split so syscall heavy workloads wont have any extra
burden.

For now this is just placing empty stubs at the right places which are all
optimized out by the compiler until the actual functionality is in place.

Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org>
Signed-off-by: Thomas Gleixner <tglx@kernel.org>
Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org>
Link: https://patch.msgid.link/20260224163431.066469985@kernel.org