linux_dsm_epyc7002/include/linux/processor.h
Nicholas Piggin fd851a3cdc spin loop primitives for busy waiting
Current busy-wait loops are implemented by repeatedly calling cpu_relax()
to give an arch option for a low-latency option to improve power and/or
SMT resource contention.

This poses some difficulties for powerpc, which has SMT priority setting
instructions (priorities determine how ifetch cycles are apportioned).
powerpc's cpu_relax() is implemented by setting a low priority then
setting normal priority. This has several problems:

 - Changing thread priority can have some execution cost and potential
   impact to other threads in the core. It's inefficient to execute them
   every time around a busy-wait loop.

 - Depending on implementation details, a `low ; medium` sequence may
   not have much if any affect. Some software with similar pattern
   actually inserts a lot of nops between, in order to cause a few fetch
   cycles with the low priority.

 - The busy-wait loop runs with regular priority. This might only be a few
   fetch cycles, but if there are several threads running such loops, they
   could cause a noticable impact on a non-idle thread.

Implement spin_begin, spin_end primitives that can be used around busy
wait loops, which default to no-ops. And spin_cpu_relax which defaults to
cpu_relax.

This will allow architectures to hook the entry and exit of busy-wait
loops, and will allow powerpc to set low SMT priority at entry, and
normal priority at exit.

Suggested-by: Linus Torvalds <torvalds@linux-foundation.org>
Signed-off-by: Nicholas Piggin <npiggin@gmail.com>
Signed-off-by: Michael Ellerman <mpe@ellerman.id.au>
2017-06-28 22:49:11 +10:00

71 lines
2.1 KiB
C

/* Misc low level processor primitives */
#ifndef _LINUX_PROCESSOR_H
#define _LINUX_PROCESSOR_H
#include <asm/processor.h>
/*
* spin_begin is used before beginning a busy-wait loop, and must be paired
* with spin_end when the loop is exited. spin_cpu_relax must be called
* within the loop.
*
* The loop body should be as small and fast as possible, on the order of
* tens of instructions/cycles as a guide. It should and avoid calling
* cpu_relax, or any "spin" or sleep type of primitive including nested uses
* of these primitives. It should not lock or take any other resource.
* Violations of these guidelies will not cause a bug, but may cause sub
* optimal performance.
*
* These loops are optimized to be used where wait times are expected to be
* less than the cost of a context switch (and associated overhead).
*
* Detection of resource owner and decision to spin or sleep or guest-yield
* (e.g., spin lock holder vcpu preempted, or mutex owner not on CPU) can be
* tested within the loop body.
*/
#ifndef spin_begin
#define spin_begin()
#endif
#ifndef spin_cpu_relax
#define spin_cpu_relax() cpu_relax()
#endif
/*
* spin_cpu_yield may be called to yield (undirected) to the hypervisor if
* necessary. This should be used if the wait is expected to take longer
* than context switch overhead, but we can't sleep or do a directed yield.
*/
#ifndef spin_cpu_yield
#define spin_cpu_yield() cpu_relax_yield()
#endif
#ifndef spin_end
#define spin_end()
#endif
/*
* spin_until_cond can be used to wait for a condition to become true. It
* may be expected that the first iteration will true in the common case
* (no spinning), so that callers should not require a first "likely" test
* for the uncontended case before using this primitive.
*
* Usage and implementation guidelines are the same as for the spin_begin
* primitives, above.
*/
#ifndef spin_until_cond
#define spin_until_cond(cond) \
do { \
if (unlikely(!(cond))) { \
spin_begin(); \
do { \
spin_cpu_relax(); \
} while (!(cond)); \
spin_end(); \
} \
} while (0)
#endif
#endif /* _LINUX_PROCESSOR_H */