/* * Copyright 2013-2015 Samy Al Bahra. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef CK_ELIDE_H #define CK_ELIDE_H /* * As RTM is currently only supported on TSO x86 architectures, * fences have been omitted. They will be necessary for other * non-TSO architectures with TM support. */ #include #include #include /* * skip_-prefixed counters represent the number of consecutive * elisions to forfeit. retry_-prefixed counters represent the * number of elision retries to attempt before forfeit. * * _busy: Lock was busy * _other: Unknown explicit abort * _conflict: Data conflict in elision section */ struct ck_elide_config { unsigned short skip_busy; short retry_busy; unsigned short skip_other; short retry_other; unsigned short skip_conflict; short retry_conflict; }; #define CK_ELIDE_CONFIG_DEFAULT_INITIALIZER { \ .skip_busy = 5, \ .retry_busy = 256, \ .skip_other = 3, \ .retry_other = 3, \ .skip_conflict = 2, \ .retry_conflict = 5 \ } struct ck_elide_stat { unsigned int n_fallback; unsigned int n_elide; unsigned short skip; }; typedef struct ck_elide_stat ck_elide_stat_t; #define CK_ELIDE_STAT_INITIALIZER { 0, 0, 0 } CK_CC_INLINE static void ck_elide_stat_init(ck_elide_stat_t *st) { memset(st, 0, sizeof(*st)); return; } #ifdef CK_F_PR_RTM enum _ck_elide_hint { CK_ELIDE_HINT_RETRY = 0, CK_ELIDE_HINT_SPIN, CK_ELIDE_HINT_STOP }; #define CK_ELIDE_LOCK_BUSY 0xFF static enum _ck_elide_hint _ck_elide_fallback(int *retry, struct ck_elide_stat *st, struct ck_elide_config *c, unsigned int status) { st->n_fallback++; if (*retry > 0) return CK_ELIDE_HINT_RETRY; if (st->skip != 0) return CK_ELIDE_HINT_STOP; if (status & CK_PR_RTM_EXPLICIT) { if (CK_PR_RTM_CODE(status) == CK_ELIDE_LOCK_BUSY) { st->skip = c->skip_busy; *retry = c->retry_busy; return CK_ELIDE_HINT_SPIN; } st->skip = c->skip_other; return CK_ELIDE_HINT_STOP; } if ((status & CK_PR_RTM_RETRY) && (status & CK_PR_RTM_CONFLICT)) { st->skip = c->skip_conflict; *retry = c->retry_conflict; return CK_ELIDE_HINT_RETRY; } /* * Capacity, debug and nesting abortions are likely to be * invariant conditions for the acquisition, execute regular * path instead. If retry bit is not set, then take the hint. */ st->skip = USHRT_MAX; return CK_ELIDE_HINT_STOP; } /* * Defines an elision implementation according to the following variables: * N - Namespace of elision implementation. * T - Typename of mutex. * L_P - Lock predicate, returns false if resource is available. * L - Function to call if resource is unavailable of transaction aborts. * U_P - Unlock predicate, returns false if elision failed. * U - Function to call if transaction failed. */ #define CK_ELIDE_PROTOTYPE(N, T, L_P, L, U_P, U) \ CK_CC_INLINE static void \ ck_elide_##N##_lock_adaptive(T *lock, \ struct ck_elide_stat *st, \ struct ck_elide_config *c) \ { \ enum _ck_elide_hint hint; \ int retry; \ \ if (CK_CC_UNLIKELY(st->skip != 0)) { \ st->skip--; \ goto acquire; \ } \ \ retry = c->retry_conflict; \ do { \ unsigned int status = ck_pr_rtm_begin(); \ if (status == CK_PR_RTM_STARTED) { \ if (L_P(lock) == true) \ ck_pr_rtm_abort(CK_ELIDE_LOCK_BUSY); \ \ return; \ } \ \ hint = _ck_elide_fallback(&retry, st, c, status); \ if (hint == CK_ELIDE_HINT_RETRY) \ continue; \ \ if (hint == CK_ELIDE_HINT_SPIN) { \ while (--retry != 0) { \ if (L_P(lock) == false) \ break; \ \ ck_pr_stall(); \ } \ \ continue; \ } \ \ if (hint == CK_ELIDE_HINT_STOP) \ break; \ } while (CK_CC_LIKELY(--retry > 0)); \ \ acquire: \ L(lock); \ return; \ } \ CK_CC_INLINE static void \ ck_elide_##N##_unlock_adaptive(struct ck_elide_stat *st, T *lock) \ { \ \ if (U_P(lock) == false) { \ ck_pr_rtm_end(); \ st->skip = 0; \ st->n_elide++; \ } else { \ U(lock); \ } \ \ return; \ } \ CK_CC_INLINE static void \ ck_elide_##N##_lock(T *lock) \ { \ \ if (ck_pr_rtm_begin() != CK_PR_RTM_STARTED) { \ L(lock); \ return; \ } \ \ if (L_P(lock) == true) \ ck_pr_rtm_abort(CK_ELIDE_LOCK_BUSY); \ \ return; \ } \ CK_CC_INLINE static void \ ck_elide_##N##_unlock(T *lock) \ { \ \ if (U_P(lock) == false) { \ ck_pr_rtm_end(); \ } else { \ U(lock); \ } \ \ return; \ } #define CK_ELIDE_TRYLOCK_PROTOTYPE(N, T, TL_P, TL) \ CK_CC_INLINE static bool \ ck_elide_##N##_trylock(T *lock) \ { \ \ if (ck_pr_rtm_begin() != CK_PR_RTM_STARTED) \ return false; \ \ if (TL_P(lock) == true) \ ck_pr_rtm_abort(CK_ELIDE_LOCK_BUSY); \ \ return true; \ } #else /* * If RTM is not enabled on the target platform (CK_F_PR_RTM) then these * elision wrappers directly calls into the user-specified lock operations. * Unfortunately, the storage cost of both ck_elide_config and ck_elide_stat * are paid (typically a storage cost that is a function of lock objects and * thread count). */ #define CK_ELIDE_PROTOTYPE(N, T, L_P, L, U_P, U) \ CK_CC_INLINE static void \ ck_elide_##N##_lock_adaptive(T *lock, \ struct ck_elide_stat *st, \ struct ck_elide_config *c) \ { \ \ (void)st; \ (void)c; \ L(lock); \ return; \ } \ CK_CC_INLINE static void \ ck_elide_##N##_unlock_adaptive(struct ck_elide_stat *st, \ T *lock) \ { \ \ (void)st; \ U(lock); \ return; \ } \ CK_CC_INLINE static void \ ck_elide_##N##_lock(T *lock) \ { \ \ L(lock); \ return; \ } \ CK_CC_INLINE static void \ ck_elide_##N##_unlock(T *lock) \ { \ \ U(lock); \ return; \ } #define CK_ELIDE_TRYLOCK_PROTOTYPE(N, T, TL_P, TL) \ CK_CC_INLINE static bool \ ck_elide_##N##_trylock(T *lock) \ { \ \ return TL_P(lock); \ } #endif /* !CK_F_PR_RTM */ /* * Best-effort elision lock operations. First argument is name (N) * associated with implementation and the second is a pointer to * the type specified above (T). * * Unlike the adaptive variant, this interface does not have any retry * semantics. In environments where jitter is low, this may yield a tighter * fast path. */ #define CK_ELIDE_LOCK(NAME, LOCK) ck_elide_##NAME##_lock(LOCK) #define CK_ELIDE_UNLOCK(NAME, LOCK) ck_elide_##NAME##_unlock(LOCK) #define CK_ELIDE_TRYLOCK(NAME, LOCK) ck_elide_##NAME##_trylock(LOCK) /* * Adaptive elision lock operations. In addition to name and pointer * to the lock, you must pass in a pointer to an initialized * ck_elide_config structure along with a per-thread stat structure. */ #define CK_ELIDE_LOCK_ADAPTIVE(NAME, STAT, CONFIG, LOCK) \ ck_elide_##NAME##_lock_adaptive(LOCK, STAT, CONFIG) #define CK_ELIDE_UNLOCK_ADAPTIVE(NAME, STAT, LOCK) \ ck_elide_##NAME##_unlock_adaptive(STAT, LOCK) #endif /* CK_ELIDE_H */