19454b2d8SWarner Losh /*- 24e7f640dSJohn Baldwin * Copyright (c) 2007 Attilio Rao <attilio@freebsd.org> 34e7f640dSJohn Baldwin * Copyright (c) 2001 Jason Evans <jasone@freebsd.org> 44e7f640dSJohn Baldwin * All rights reserved. 56281b30aSJason Evans * 66281b30aSJason Evans * Redistribution and use in source and binary forms, with or without 76281b30aSJason Evans * modification, are permitted provided that the following conditions 86281b30aSJason Evans * are met: 96281b30aSJason Evans * 1. Redistributions of source code must retain the above copyright 106281b30aSJason Evans * notice(s), this list of conditions and the following disclaimer as 116281b30aSJason Evans * the first lines of this file unmodified other than the possible 126281b30aSJason Evans * addition of one or more copyright notices. 136281b30aSJason Evans * 2. Redistributions in binary form must reproduce the above copyright 146281b30aSJason Evans * notice(s), this list of conditions and the following disclaimer in the 156281b30aSJason Evans * documentation and/or other materials provided with the distribution. 166281b30aSJason Evans * 176281b30aSJason Evans * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER(S) ``AS IS'' AND ANY 186281b30aSJason Evans * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 196281b30aSJason Evans * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 206281b30aSJason Evans * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER(S) BE LIABLE FOR ANY 216281b30aSJason Evans * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 226281b30aSJason Evans * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 236281b30aSJason Evans * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER 246281b30aSJason Evans * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 256281b30aSJason Evans * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 266281b30aSJason Evans * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH 276281b30aSJason Evans * DAMAGE. 286281b30aSJason Evans */ 296281b30aSJason Evans 306281b30aSJason Evans /* 314e7f640dSJohn Baldwin * Shared/exclusive locks. This implementation attempts to ensure 324e7f640dSJohn Baldwin * deterministic lock granting behavior, so that slocks and xlocks are 334e7f640dSJohn Baldwin * interleaved. 346281b30aSJason Evans * 356281b30aSJason Evans * Priority propagation will not generally raise the priority of lock holders, 366281b30aSJason Evans * so should not be relied upon in combination with sx locks. 376281b30aSJason Evans */ 386281b30aSJason Evans 394e7f640dSJohn Baldwin #include "opt_adaptive_sx.h" 404e7f640dSJohn Baldwin #include "opt_ddb.h" 414e7f640dSJohn Baldwin 42677b542eSDavid E. O'Brien #include <sys/cdefs.h> 43677b542eSDavid E. O'Brien __FBSDID("$FreeBSD$"); 44677b542eSDavid E. O'Brien 456281b30aSJason Evans #include <sys/param.h> 466281b30aSJason Evans #include <sys/ktr.h> 4719284646SJohn Baldwin #include <sys/lock.h> 484e7f640dSJohn Baldwin #include <sys/lock_profile.h> 496281b30aSJason Evans #include <sys/mutex.h> 50d272fe53SJohn Baldwin #include <sys/proc.h> 514e7f640dSJohn Baldwin #include <sys/sleepqueue.h> 526281b30aSJason Evans #include <sys/sx.h> 534e7f640dSJohn Baldwin #include <sys/systm.h> 544e7f640dSJohn Baldwin 554e7f640dSJohn Baldwin #ifdef ADAPTIVE_SX 564e7f640dSJohn Baldwin #include <machine/cpu.h> 574e7f640dSJohn Baldwin #endif 586281b30aSJason Evans 59462a7addSJohn Baldwin #ifdef DDB 60d272fe53SJohn Baldwin #include <ddb/ddb.h> 614e7f640dSJohn Baldwin #endif 62d272fe53SJohn Baldwin 634e7f640dSJohn Baldwin #if !defined(SMP) && defined(ADAPTIVE_SX) 644e7f640dSJohn Baldwin #error "You must have SMP to enable the ADAPTIVE_SX option" 654e7f640dSJohn Baldwin #endif 664e7f640dSJohn Baldwin 674e7f640dSJohn Baldwin /* Handy macros for sleep queues. */ 684e7f640dSJohn Baldwin #define SQ_EXCLUSIVE_QUEUE 0 694e7f640dSJohn Baldwin #define SQ_SHARED_QUEUE 1 704e7f640dSJohn Baldwin 714e7f640dSJohn Baldwin /* 724e7f640dSJohn Baldwin * Variations on DROP_GIANT()/PICKUP_GIANT() for use in this file. We 734e7f640dSJohn Baldwin * drop Giant anytime we have to sleep or if we adaptively spin. 744e7f640dSJohn Baldwin */ 754e7f640dSJohn Baldwin #define GIANT_DECLARE \ 764e7f640dSJohn Baldwin int _giantcnt = 0; \ 774e7f640dSJohn Baldwin WITNESS_SAVE_DECL(Giant) \ 784e7f640dSJohn Baldwin 794e7f640dSJohn Baldwin #define GIANT_SAVE() do { \ 804e7f640dSJohn Baldwin if (mtx_owned(&Giant)) { \ 814e7f640dSJohn Baldwin WITNESS_SAVE(&Giant.lock_object, Giant); \ 824e7f640dSJohn Baldwin while (mtx_owned(&Giant)) { \ 834e7f640dSJohn Baldwin _giantcnt++; \ 844e7f640dSJohn Baldwin mtx_unlock(&Giant); \ 854e7f640dSJohn Baldwin } \ 864e7f640dSJohn Baldwin } \ 874e7f640dSJohn Baldwin } while (0) 884e7f640dSJohn Baldwin 894e7f640dSJohn Baldwin #define GIANT_RESTORE() do { \ 904e7f640dSJohn Baldwin if (_giantcnt > 0) { \ 914e7f640dSJohn Baldwin mtx_assert(&Giant, MA_NOTOWNED); \ 924e7f640dSJohn Baldwin while (_giantcnt--) \ 934e7f640dSJohn Baldwin mtx_lock(&Giant); \ 944e7f640dSJohn Baldwin WITNESS_RESTORE(&Giant.lock_object, Giant); \ 954e7f640dSJohn Baldwin } \ 964e7f640dSJohn Baldwin } while (0) 974e7f640dSJohn Baldwin 984e7f640dSJohn Baldwin /* 994e7f640dSJohn Baldwin * Returns true if an exclusive lock is recursed. It curthread 1004e7f640dSJohn Baldwin * currently has an exclusive lock. 1014e7f640dSJohn Baldwin */ 1024e7f640dSJohn Baldwin #define sx_recursed(sx) ((sx)->sx_recurse != 0) 1034e7f640dSJohn Baldwin 1044e7f640dSJohn Baldwin /* 1054e7f640dSJohn Baldwin * Return a pointer to the owning thread if the lock is exclusively 1064e7f640dSJohn Baldwin * locked. 1074e7f640dSJohn Baldwin */ 1084e7f640dSJohn Baldwin #define sx_xholder(sx) \ 1094e7f640dSJohn Baldwin ((sx)->sx_lock & SX_LOCK_SHARED ? NULL : \ 1104e7f640dSJohn Baldwin (struct thread *)SX_OWNER((sx)->sx_lock)) 1114e7f640dSJohn Baldwin 1124e7f640dSJohn Baldwin #ifdef DDB 113d272fe53SJohn Baldwin static void db_show_sx(struct lock_object *lock); 114d272fe53SJohn Baldwin #endif 1156e21afd4SJohn Baldwin static void lock_sx(struct lock_object *lock, int how); 1166e21afd4SJohn Baldwin static int unlock_sx(struct lock_object *lock); 117d272fe53SJohn Baldwin 11819284646SJohn Baldwin struct lock_class lock_class_sx = { 119ae8dde30SJohn Baldwin .lc_name = "sx", 120ae8dde30SJohn Baldwin .lc_flags = LC_SLEEPLOCK | LC_SLEEPABLE | LC_RECURSABLE | LC_UPGRADABLE, 121d272fe53SJohn Baldwin #ifdef DDB 122ae8dde30SJohn Baldwin .lc_ddb_show = db_show_sx, 123d272fe53SJohn Baldwin #endif 1246e21afd4SJohn Baldwin .lc_lock = lock_sx, 1256e21afd4SJohn Baldwin .lc_unlock = unlock_sx, 12619284646SJohn Baldwin }; 12719284646SJohn Baldwin 128781a35dfSJohn Baldwin #ifndef INVARIANTS 129781a35dfSJohn Baldwin #define _sx_assert(sx, what, file, line) 130781a35dfSJohn Baldwin #endif 131781a35dfSJohn Baldwin 1326281b30aSJason Evans void 1336e21afd4SJohn Baldwin lock_sx(struct lock_object *lock, int how) 1346e21afd4SJohn Baldwin { 1356e21afd4SJohn Baldwin struct sx *sx; 1366e21afd4SJohn Baldwin 1376e21afd4SJohn Baldwin sx = (struct sx *)lock; 1386e21afd4SJohn Baldwin if (how) 1396e21afd4SJohn Baldwin sx_xlock(sx); 1406e21afd4SJohn Baldwin else 1416e21afd4SJohn Baldwin sx_slock(sx); 1426e21afd4SJohn Baldwin } 1436e21afd4SJohn Baldwin 1446e21afd4SJohn Baldwin int 1456e21afd4SJohn Baldwin unlock_sx(struct lock_object *lock) 1466e21afd4SJohn Baldwin { 1476e21afd4SJohn Baldwin struct sx *sx; 1486e21afd4SJohn Baldwin 1496e21afd4SJohn Baldwin sx = (struct sx *)lock; 1504e7f640dSJohn Baldwin sx_assert(sx, SX_LOCKED | SX_NOTRECURSED); 1516e21afd4SJohn Baldwin if (sx_xlocked(sx)) { 1526e21afd4SJohn Baldwin sx_xunlock(sx); 1536e21afd4SJohn Baldwin return (1); 1546e21afd4SJohn Baldwin } else { 1556e21afd4SJohn Baldwin sx_sunlock(sx); 1566e21afd4SJohn Baldwin return (0); 1576e21afd4SJohn Baldwin } 1586e21afd4SJohn Baldwin } 1596e21afd4SJohn Baldwin 1606e21afd4SJohn Baldwin void 161c27b5699SAndrew R. Reiter sx_sysinit(void *arg) 162c27b5699SAndrew R. Reiter { 163c27b5699SAndrew R. Reiter struct sx_args *sargs = arg; 164c27b5699SAndrew R. Reiter 165c27b5699SAndrew R. Reiter sx_init(sargs->sa_sx, sargs->sa_desc); 166c27b5699SAndrew R. Reiter } 167c27b5699SAndrew R. Reiter 168c27b5699SAndrew R. Reiter void 1694e7f640dSJohn Baldwin sx_init_flags(struct sx *sx, const char *description, int opts) 1706281b30aSJason Evans { 1714e7f640dSJohn Baldwin int flags; 1726281b30aSJason Evans 1734e7f640dSJohn Baldwin flags = LO_RECURSABLE | LO_SLEEPABLE | LO_UPGRADABLE; 1744e7f640dSJohn Baldwin if (opts & SX_DUPOK) 1754e7f640dSJohn Baldwin flags |= LO_DUPOK; 1764e7f640dSJohn Baldwin if (opts & SX_NOPROFILE) 1774e7f640dSJohn Baldwin flags |= LO_NOPROFILE; 1784e7f640dSJohn Baldwin if (!(opts & SX_NOWITNESS)) 1794e7f640dSJohn Baldwin flags |= LO_WITNESS; 1804e7f640dSJohn Baldwin if (opts & SX_QUIET) 1814e7f640dSJohn Baldwin flags |= LO_QUIET; 1824e7f640dSJohn Baldwin 1834e7f640dSJohn Baldwin flags |= opts & SX_ADAPTIVESPIN; 1844e7f640dSJohn Baldwin sx->sx_lock = SX_LOCK_UNLOCKED; 1854e7f640dSJohn Baldwin sx->sx_recurse = 0; 186aa89d8cdSJohn Baldwin lock_profile_object_init(&sx->lock_object, &lock_class_sx, description); 1874e7f640dSJohn Baldwin lock_init(&sx->lock_object, &lock_class_sx, description, NULL, flags); 1886281b30aSJason Evans } 1896281b30aSJason Evans 1906281b30aSJason Evans void 1916281b30aSJason Evans sx_destroy(struct sx *sx) 1926281b30aSJason Evans { 1936281b30aSJason Evans 1944e7f640dSJohn Baldwin KASSERT(sx->sx_lock == SX_LOCK_UNLOCKED, ("sx lock still held")); 1954e7f640dSJohn Baldwin KASSERT(sx->sx_recurse == 0, ("sx lock still recursed")); 196aa89d8cdSJohn Baldwin lock_profile_object_destroy(&sx->lock_object); 197aa89d8cdSJohn Baldwin lock_destroy(&sx->lock_object); 1986281b30aSJason Evans } 1996281b30aSJason Evans 2006281b30aSJason Evans void 20119284646SJohn Baldwin _sx_slock(struct sx *sx, const char *file, int line) 2026281b30aSJason Evans { 2036281b30aSJason Evans 2044e7f640dSJohn Baldwin MPASS(curthread != NULL); 205aa89d8cdSJohn Baldwin WITNESS_CHECKORDER(&sx->lock_object, LOP_NEWORDER, file, line); 2064e7f640dSJohn Baldwin __sx_slock(sx, file, line); 207aa89d8cdSJohn Baldwin LOCK_LOG_LOCK("SLOCK", &sx->lock_object, 0, 0, file, line); 208aa89d8cdSJohn Baldwin WITNESS_LOCK(&sx->lock_object, 0, file, line); 209764e4d54SJohn Baldwin curthread->td_locks++; 2106281b30aSJason Evans } 2116281b30aSJason Evans 2125f36700aSJohn Baldwin int 2135f36700aSJohn Baldwin _sx_try_slock(struct sx *sx, const char *file, int line) 2145f36700aSJohn Baldwin { 2154e7f640dSJohn Baldwin uintptr_t x; 2165f36700aSJohn Baldwin 2174e7f640dSJohn Baldwin x = sx->sx_lock; 2184e7f640dSJohn Baldwin if ((x & SX_LOCK_SHARED) && atomic_cmpset_acq_ptr(&sx->sx_lock, x, 2194e7f640dSJohn Baldwin x + SX_ONE_SHARER)) { 220aa89d8cdSJohn Baldwin LOCK_LOG_TRY("SLOCK", &sx->lock_object, 0, 1, file, line); 221aa89d8cdSJohn Baldwin WITNESS_LOCK(&sx->lock_object, LOP_TRYLOCK, file, line); 222764e4d54SJohn Baldwin curthread->td_locks++; 2235f36700aSJohn Baldwin return (1); 2245f36700aSJohn Baldwin } 2254e7f640dSJohn Baldwin 2264e7f640dSJohn Baldwin LOCK_LOG_TRY("SLOCK", &sx->lock_object, 0, 0, file, line); 2274e7f640dSJohn Baldwin return (0); 2285f36700aSJohn Baldwin } 2295f36700aSJohn Baldwin 2306281b30aSJason Evans void 23119284646SJohn Baldwin _sx_xlock(struct sx *sx, const char *file, int line) 2326281b30aSJason Evans { 2336281b30aSJason Evans 2344e7f640dSJohn Baldwin MPASS(curthread != NULL); 235aa89d8cdSJohn Baldwin WITNESS_CHECKORDER(&sx->lock_object, LOP_NEWORDER | LOP_EXCLUSIVE, file, 2368d768e76SJohn Baldwin line); 2374e7f640dSJohn Baldwin __sx_xlock(sx, curthread, file, line); 2384e7f640dSJohn Baldwin LOCK_LOG_LOCK("XLOCK", &sx->lock_object, 0, sx->sx_recurse, file, line); 239aa89d8cdSJohn Baldwin WITNESS_LOCK(&sx->lock_object, LOP_EXCLUSIVE, file, line); 240764e4d54SJohn Baldwin curthread->td_locks++; 2416281b30aSJason Evans } 2426281b30aSJason Evans 2435f36700aSJohn Baldwin int 2445f36700aSJohn Baldwin _sx_try_xlock(struct sx *sx, const char *file, int line) 2455f36700aSJohn Baldwin { 2464e7f640dSJohn Baldwin int rval; 2475f36700aSJohn Baldwin 2484e7f640dSJohn Baldwin MPASS(curthread != NULL); 2494e7f640dSJohn Baldwin 2504e7f640dSJohn Baldwin if (sx_xlocked(sx)) { 2514e7f640dSJohn Baldwin sx->sx_recurse++; 2524e7f640dSJohn Baldwin atomic_set_ptr(&sx->sx_lock, SX_LOCK_RECURSED); 2534e7f640dSJohn Baldwin rval = 1; 2544e7f640dSJohn Baldwin } else 2554e7f640dSJohn Baldwin rval = atomic_cmpset_acq_ptr(&sx->sx_lock, SX_LOCK_UNLOCKED, 2564e7f640dSJohn Baldwin (uintptr_t)curthread); 2574e7f640dSJohn Baldwin LOCK_LOG_TRY("XLOCK", &sx->lock_object, 0, rval, file, line); 2584e7f640dSJohn Baldwin if (rval) { 2594e7f640dSJohn Baldwin WITNESS_LOCK(&sx->lock_object, LOP_EXCLUSIVE | LOP_TRYLOCK, 2604e7f640dSJohn Baldwin file, line); 261764e4d54SJohn Baldwin curthread->td_locks++; 2625f36700aSJohn Baldwin } 2634e7f640dSJohn Baldwin 2644e7f640dSJohn Baldwin return (rval); 2655f36700aSJohn Baldwin } 2665f36700aSJohn Baldwin 2676281b30aSJason Evans void 26819284646SJohn Baldwin _sx_sunlock(struct sx *sx, const char *file, int line) 2696281b30aSJason Evans { 2706281b30aSJason Evans 2714e7f640dSJohn Baldwin MPASS(curthread != NULL); 2724e7f640dSJohn Baldwin _sx_assert(sx, SX_SLOCKED, file, line); 273764e4d54SJohn Baldwin curthread->td_locks--; 274aa89d8cdSJohn Baldwin WITNESS_UNLOCK(&sx->lock_object, 0, file, line); 275aa89d8cdSJohn Baldwin LOCK_LOG_LOCK("SUNLOCK", &sx->lock_object, 0, 0, file, line); 2764e7f640dSJohn Baldwin lock_profile_release_lock(&sx->lock_object); 2774e7f640dSJohn Baldwin __sx_sunlock(sx, file, line); 2786281b30aSJason Evans } 2796281b30aSJason Evans 2806281b30aSJason Evans void 28119284646SJohn Baldwin _sx_xunlock(struct sx *sx, const char *file, int line) 2826281b30aSJason Evans { 2836281b30aSJason Evans 2844e7f640dSJohn Baldwin MPASS(curthread != NULL); 2854e7f640dSJohn Baldwin _sx_assert(sx, SX_XLOCKED, file, line); 286764e4d54SJohn Baldwin curthread->td_locks--; 287aa89d8cdSJohn Baldwin WITNESS_UNLOCK(&sx->lock_object, LOP_EXCLUSIVE, file, line); 2884e7f640dSJohn Baldwin LOCK_LOG_LOCK("XUNLOCK", &sx->lock_object, 0, sx->sx_recurse, file, 2894e7f640dSJohn Baldwin line); 290aa89d8cdSJohn Baldwin lock_profile_release_lock(&sx->lock_object); 2914e7f640dSJohn Baldwin __sx_xunlock(sx, curthread, file, line); 2926281b30aSJason Evans } 293d55229b7SJason Evans 2944e7f640dSJohn Baldwin /* 2954e7f640dSJohn Baldwin * Try to do a non-blocking upgrade from a shared lock to an exclusive lock. 2964e7f640dSJohn Baldwin * This will only succeed if this thread holds a single shared lock. 2974e7f640dSJohn Baldwin * Return 1 if if the upgrade succeed, 0 otherwise. 2984e7f640dSJohn Baldwin */ 299d55229b7SJason Evans int 300d55229b7SJason Evans _sx_try_upgrade(struct sx *sx, const char *file, int line) 301d55229b7SJason Evans { 3024e7f640dSJohn Baldwin uintptr_t x; 3034e7f640dSJohn Baldwin int success; 304d55229b7SJason Evans 3054e5e677bSJohn Baldwin _sx_assert(sx, SX_SLOCKED, file, line); 306d55229b7SJason Evans 3074e7f640dSJohn Baldwin /* 3084e7f640dSJohn Baldwin * Try to switch from one shared lock to an exclusive lock. We need 3094e7f640dSJohn Baldwin * to maintain the SX_LOCK_EXCLUSIVE_WAITERS flag if set so that 3104e7f640dSJohn Baldwin * we will wake up the exclusive waiters when we drop the lock. 3114e7f640dSJohn Baldwin */ 3124e7f640dSJohn Baldwin x = sx->sx_lock & SX_LOCK_EXCLUSIVE_WAITERS; 3134e7f640dSJohn Baldwin success = atomic_cmpset_ptr(&sx->sx_lock, SX_SHARERS_LOCK(1) | x, 3144e7f640dSJohn Baldwin (uintptr_t)curthread | x); 3154e7f640dSJohn Baldwin LOCK_LOG_TRY("XUPGRADE", &sx->lock_object, 0, success, file, line); 3164e7f640dSJohn Baldwin if (success) 317aa89d8cdSJohn Baldwin WITNESS_UPGRADE(&sx->lock_object, LOP_EXCLUSIVE | LOP_TRYLOCK, 318b0b7cb50SJohn Baldwin file, line); 3194e7f640dSJohn Baldwin return (success); 320d55229b7SJason Evans } 321d55229b7SJason Evans 3224e7f640dSJohn Baldwin /* 3234e7f640dSJohn Baldwin * Downgrade an unrecursed exclusive lock into a single shared lock. 3244e7f640dSJohn Baldwin */ 325d55229b7SJason Evans void 326d55229b7SJason Evans _sx_downgrade(struct sx *sx, const char *file, int line) 327d55229b7SJason Evans { 3284e7f640dSJohn Baldwin uintptr_t x; 329d55229b7SJason Evans 3304e7f640dSJohn Baldwin _sx_assert(sx, SX_XLOCKED | SX_NOTRECURSED, file, line); 3314e7f640dSJohn Baldwin #ifndef INVARIANTS 3324e7f640dSJohn Baldwin if (sx_recursed(sx)) 3334e7f640dSJohn Baldwin panic("downgrade of a recursed lock"); 3344e7f640dSJohn Baldwin #endif 335d55229b7SJason Evans 336aa89d8cdSJohn Baldwin WITNESS_DOWNGRADE(&sx->lock_object, 0, file, line); 337d55229b7SJason Evans 3384e7f640dSJohn Baldwin /* 3394e7f640dSJohn Baldwin * Try to switch from an exclusive lock with no shared waiters 3404e7f640dSJohn Baldwin * to one sharer with no shared waiters. If there are 3414e7f640dSJohn Baldwin * exclusive waiters, we don't need to lock the sleep queue so 3424e7f640dSJohn Baldwin * long as we preserve the flag. We do one quick try and if 3434e7f640dSJohn Baldwin * that fails we grab the sleepq lock to keep the flags from 3444e7f640dSJohn Baldwin * changing and do it the slow way. 3454e7f640dSJohn Baldwin * 3464e7f640dSJohn Baldwin * We have to lock the sleep queue if there are shared waiters 3474e7f640dSJohn Baldwin * so we can wake them up. 3484e7f640dSJohn Baldwin */ 3494e7f640dSJohn Baldwin x = sx->sx_lock; 3504e7f640dSJohn Baldwin if (!(x & SX_LOCK_SHARED_WAITERS) && 3514e7f640dSJohn Baldwin atomic_cmpset_rel_ptr(&sx->sx_lock, x, SX_SHARERS_LOCK(1) | 3524e7f640dSJohn Baldwin (x & SX_LOCK_EXCLUSIVE_WAITERS))) { 3534e7f640dSJohn Baldwin LOCK_LOG_LOCK("XDOWNGRADE", &sx->lock_object, 0, 0, file, line); 3544e7f640dSJohn Baldwin return; 3554e7f640dSJohn Baldwin } 3564e7f640dSJohn Baldwin 3574e7f640dSJohn Baldwin /* 3584e7f640dSJohn Baldwin * Lock the sleep queue so we can read the waiters bits 3594e7f640dSJohn Baldwin * without any races and wakeup any shared waiters. 3604e7f640dSJohn Baldwin */ 3614e7f640dSJohn Baldwin sleepq_lock(&sx->lock_object); 3624e7f640dSJohn Baldwin 3634e7f640dSJohn Baldwin /* 3644e7f640dSJohn Baldwin * Preserve SX_LOCK_EXCLUSIVE_WAITERS while downgraded to a single 3654e7f640dSJohn Baldwin * shared lock. If there are any shared waiters, wake them up. 3664e7f640dSJohn Baldwin */ 3674e7f640dSJohn Baldwin x = sx->sx_lock; 3684e7f640dSJohn Baldwin atomic_store_rel_ptr(&sx->sx_lock, SX_SHARERS_LOCK(1) | 3694e7f640dSJohn Baldwin (x & SX_LOCK_EXCLUSIVE_WAITERS)); 3704e7f640dSJohn Baldwin if (x & SX_LOCK_SHARED_WAITERS) 3714e7f640dSJohn Baldwin sleepq_broadcast(&sx->lock_object, SLEEPQ_SX, -1, 3724e7f640dSJohn Baldwin SQ_SHARED_QUEUE); 3734e7f640dSJohn Baldwin else 3744e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 375d55229b7SJason Evans 376aa89d8cdSJohn Baldwin LOCK_LOG_LOCK("XDOWNGRADE", &sx->lock_object, 0, 0, file, line); 3774e7f640dSJohn Baldwin } 378d55229b7SJason Evans 3794e7f640dSJohn Baldwin /* 3804e7f640dSJohn Baldwin * This function represents the so-called 'hard case' for sx_xlock 3814e7f640dSJohn Baldwin * operation. All 'easy case' failures are redirected to this. Note 3824e7f640dSJohn Baldwin * that ideally this would be a static function, but it needs to be 3834e7f640dSJohn Baldwin * accessible from at least sx.h. 3844e7f640dSJohn Baldwin */ 3854e7f640dSJohn Baldwin void 3864e7f640dSJohn Baldwin _sx_xlock_hard(struct sx *sx, uintptr_t tid, const char *file, int line) 3874e7f640dSJohn Baldwin { 3884e7f640dSJohn Baldwin GIANT_DECLARE; 3894e7f640dSJohn Baldwin #ifdef ADAPTIVE_SX 3904e7f640dSJohn Baldwin volatile struct thread *owner; 3914e7f640dSJohn Baldwin #endif 3924e7f640dSJohn Baldwin uintptr_t x; 3934e7f640dSJohn Baldwin 3944e7f640dSJohn Baldwin /* If we already hold an exclusive lock, then recurse. */ 3954e7f640dSJohn Baldwin if (sx_xlocked(sx)) { 3964e7f640dSJohn Baldwin sx->sx_recurse++; 3974e7f640dSJohn Baldwin atomic_set_ptr(&sx->sx_lock, SX_LOCK_RECURSED); 3984e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 3994e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p recursing", __func__, sx); 4004e7f640dSJohn Baldwin return; 4014e7f640dSJohn Baldwin } 4024e7f640dSJohn Baldwin 4034e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 4044e7f640dSJohn Baldwin CTR5(KTR_LOCK, "%s: %s contested (lock=%p) at %s:%d", __func__, 4054e7f640dSJohn Baldwin sx->lock_object.lo_name, (void *)sx->sx_lock, file, line); 4064e7f640dSJohn Baldwin 4074e7f640dSJohn Baldwin while (!atomic_cmpset_acq_ptr(&sx->sx_lock, SX_LOCK_UNLOCKED, tid)) { 4084e7f640dSJohn Baldwin #ifdef ADAPTIVE_SX 4094e7f640dSJohn Baldwin /* 4104e7f640dSJohn Baldwin * If the lock is write locked and the owner is 4114e7f640dSJohn Baldwin * running on another CPU, spin until the owner stops 4124e7f640dSJohn Baldwin * running or the state of the lock changes. 4134e7f640dSJohn Baldwin */ 4144e7f640dSJohn Baldwin x = sx->sx_lock; 4154e7f640dSJohn Baldwin if (!(x & SX_LOCK_SHARED) && 4164e7f640dSJohn Baldwin (sx->lock_object.lo_flags & SX_ADAPTIVESPIN)) { 4174e7f640dSJohn Baldwin x = SX_OWNER(x); 4184e7f640dSJohn Baldwin owner = (struct thread *)x; 4194e7f640dSJohn Baldwin if (TD_IS_RUNNING(owner)) { 4204e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 4214e7f640dSJohn Baldwin CTR3(KTR_LOCK, 4224e7f640dSJohn Baldwin "%s: spinning on %p held by %p", 4234e7f640dSJohn Baldwin __func__, sx, owner); 4244e7f640dSJohn Baldwin GIANT_SAVE(); 4254e7f640dSJohn Baldwin while (SX_OWNER(sx->sx_lock) == x && 4264e7f640dSJohn Baldwin TD_IS_RUNNING(owner)) 4274e7f640dSJohn Baldwin cpu_spinwait(); 4284e7f640dSJohn Baldwin continue; 4294e7f640dSJohn Baldwin } 4304e7f640dSJohn Baldwin } 4314e7f640dSJohn Baldwin #endif 4324e7f640dSJohn Baldwin 4334e7f640dSJohn Baldwin sleepq_lock(&sx->lock_object); 4344e7f640dSJohn Baldwin x = sx->sx_lock; 4354e7f640dSJohn Baldwin 4364e7f640dSJohn Baldwin /* 4374e7f640dSJohn Baldwin * If the lock was released while spinning on the 4384e7f640dSJohn Baldwin * sleep queue chain lock, try again. 4394e7f640dSJohn Baldwin */ 4404e7f640dSJohn Baldwin if (x == SX_LOCK_UNLOCKED) { 4414e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 4424e7f640dSJohn Baldwin continue; 4434e7f640dSJohn Baldwin } 4444e7f640dSJohn Baldwin 4454e7f640dSJohn Baldwin #ifdef ADAPTIVE_SX 4464e7f640dSJohn Baldwin /* 4474e7f640dSJohn Baldwin * The current lock owner might have started executing 4484e7f640dSJohn Baldwin * on another CPU (or the lock could have changed 4494e7f640dSJohn Baldwin * owners) while we were waiting on the sleep queue 4504e7f640dSJohn Baldwin * chain lock. If so, drop the sleep queue lock and try 4514e7f640dSJohn Baldwin * again. 4524e7f640dSJohn Baldwin */ 4534e7f640dSJohn Baldwin if (!(x & SX_LOCK_SHARED) && 4544e7f640dSJohn Baldwin (sx->lock_object.lo_flags & SX_ADAPTIVESPIN)) { 4554e7f640dSJohn Baldwin owner = (struct thread *)SX_OWNER(x); 4564e7f640dSJohn Baldwin if (TD_IS_RUNNING(owner)) { 4574e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 4584e7f640dSJohn Baldwin continue; 4594e7f640dSJohn Baldwin } 4604e7f640dSJohn Baldwin } 4614e7f640dSJohn Baldwin #endif 4624e7f640dSJohn Baldwin 4634e7f640dSJohn Baldwin /* 4644e7f640dSJohn Baldwin * If an exclusive lock was released with both shared 4654e7f640dSJohn Baldwin * and exclusive waiters and a shared waiter hasn't 4664e7f640dSJohn Baldwin * woken up and acquired the lock yet, sx_lock will be 4674e7f640dSJohn Baldwin * set to SX_LOCK_UNLOCKED | SX_LOCK_EXCLUSIVE_WAITERS. 4684e7f640dSJohn Baldwin * If we see that value, try to acquire it once. Note 4694e7f640dSJohn Baldwin * that we have to preserve SX_LOCK_EXCLUSIVE_WAITERS 4704e7f640dSJohn Baldwin * as there are other exclusive waiters still. If we 4714e7f640dSJohn Baldwin * fail, restart the loop. 4724e7f640dSJohn Baldwin */ 4734e7f640dSJohn Baldwin if (x == (SX_LOCK_UNLOCKED | SX_LOCK_EXCLUSIVE_WAITERS)) { 4744e7f640dSJohn Baldwin if (atomic_cmpset_acq_ptr(&sx->sx_lock, 4754e7f640dSJohn Baldwin SX_LOCK_UNLOCKED | SX_LOCK_EXCLUSIVE_WAITERS, 4764e7f640dSJohn Baldwin tid | SX_LOCK_EXCLUSIVE_WAITERS)) { 4774e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 4784e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p claimed by new writer", 4794e7f640dSJohn Baldwin __func__, sx); 4804e7f640dSJohn Baldwin break; 4814e7f640dSJohn Baldwin } 4824e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 4834e7f640dSJohn Baldwin continue; 4844e7f640dSJohn Baldwin } 4854e7f640dSJohn Baldwin 4864e7f640dSJohn Baldwin /* 4874e7f640dSJohn Baldwin * Try to set the SX_LOCK_EXCLUSIVE_WAITERS. If we fail, 4884e7f640dSJohn Baldwin * than loop back and retry. 4894e7f640dSJohn Baldwin */ 4904e7f640dSJohn Baldwin if (!(x & SX_LOCK_EXCLUSIVE_WAITERS)) { 4914e7f640dSJohn Baldwin if (!atomic_cmpset_ptr(&sx->sx_lock, x, 4924e7f640dSJohn Baldwin x | SX_LOCK_EXCLUSIVE_WAITERS)) { 4934e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 4944e7f640dSJohn Baldwin continue; 4954e7f640dSJohn Baldwin } 4964e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 4974e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p set excl waiters flag", 4984e7f640dSJohn Baldwin __func__, sx); 4994e7f640dSJohn Baldwin } 5004e7f640dSJohn Baldwin 5014e7f640dSJohn Baldwin /* 5024e7f640dSJohn Baldwin * Since we have been unable to acquire the exclusive 5034e7f640dSJohn Baldwin * lock and the exclusive waiters flag is set, we have 5044e7f640dSJohn Baldwin * to sleep. 5054e7f640dSJohn Baldwin */ 5064e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 5074e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p blocking on sleep queue", 5084e7f640dSJohn Baldwin __func__, sx); 5094e7f640dSJohn Baldwin 5104e7f640dSJohn Baldwin GIANT_SAVE(); 5114e7f640dSJohn Baldwin sleepq_add(&sx->lock_object, NULL, sx->lock_object.lo_name, 5124e7f640dSJohn Baldwin SLEEPQ_SX, SQ_EXCLUSIVE_QUEUE); 5134e7f640dSJohn Baldwin sleepq_wait(&sx->lock_object); 5144e7f640dSJohn Baldwin 5154e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 5164e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p resuming from sleep queue", 5174e7f640dSJohn Baldwin __func__, sx); 5184e7f640dSJohn Baldwin } 5194e7f640dSJohn Baldwin 5204e7f640dSJohn Baldwin GIANT_RESTORE(); 5214e7f640dSJohn Baldwin } 5224e7f640dSJohn Baldwin 5234e7f640dSJohn Baldwin /* 5244e7f640dSJohn Baldwin * This function represents the so-called 'hard case' for sx_xunlock 5254e7f640dSJohn Baldwin * operation. All 'easy case' failures are redirected to this. Note 5264e7f640dSJohn Baldwin * that ideally this would be a static function, but it needs to be 5274e7f640dSJohn Baldwin * accessible from at least sx.h. 5284e7f640dSJohn Baldwin */ 5294e7f640dSJohn Baldwin void 5304e7f640dSJohn Baldwin _sx_xunlock_hard(struct sx *sx, uintptr_t tid, const char *file, int line) 5314e7f640dSJohn Baldwin { 5324e7f640dSJohn Baldwin uintptr_t x; 5334e7f640dSJohn Baldwin int queue; 5344e7f640dSJohn Baldwin 5354e7f640dSJohn Baldwin MPASS(!(sx->sx_lock & SX_LOCK_SHARED)); 5364e7f640dSJohn Baldwin 5374e7f640dSJohn Baldwin /* If the lock is recursed, then unrecurse one level. */ 5384e7f640dSJohn Baldwin if (sx_xlocked(sx) && sx_recursed(sx)) { 5394e7f640dSJohn Baldwin if ((--sx->sx_recurse) == 0) 5404e7f640dSJohn Baldwin atomic_clear_ptr(&sx->sx_lock, SX_LOCK_RECURSED); 5414e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 5424e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p unrecursing", __func__, sx); 5434e7f640dSJohn Baldwin return; 5444e7f640dSJohn Baldwin } 5454e7f640dSJohn Baldwin MPASS(sx->sx_lock & (SX_LOCK_SHARED_WAITERS | 5464e7f640dSJohn Baldwin SX_LOCK_EXCLUSIVE_WAITERS)); 5474e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 5484e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p contested", __func__, sx); 5494e7f640dSJohn Baldwin 5504e7f640dSJohn Baldwin sleepq_lock(&sx->lock_object); 5514e7f640dSJohn Baldwin x = SX_LOCK_UNLOCKED; 5524e7f640dSJohn Baldwin 5534e7f640dSJohn Baldwin /* 5544e7f640dSJohn Baldwin * The wake up algorithm here is quite simple and probably not 5554e7f640dSJohn Baldwin * ideal. It gives precedence to shared waiters if they are 5564e7f640dSJohn Baldwin * present. For this condition, we have to preserve the 5574e7f640dSJohn Baldwin * state of the exclusive waiters flag. 5584e7f640dSJohn Baldwin */ 5594e7f640dSJohn Baldwin if (sx->sx_lock & SX_LOCK_SHARED_WAITERS) { 5604e7f640dSJohn Baldwin queue = SQ_SHARED_QUEUE; 5614e7f640dSJohn Baldwin x |= (sx->sx_lock & SX_LOCK_EXCLUSIVE_WAITERS); 5624e7f640dSJohn Baldwin } else 5634e7f640dSJohn Baldwin queue = SQ_EXCLUSIVE_QUEUE; 5644e7f640dSJohn Baldwin 5654e7f640dSJohn Baldwin /* Wake up all the waiters for the specific queue. */ 5664e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 5674e7f640dSJohn Baldwin CTR3(KTR_LOCK, "%s: %p waking up all threads on %s queue", 5684e7f640dSJohn Baldwin __func__, sx, queue == SQ_SHARED_QUEUE ? "shared" : 5694e7f640dSJohn Baldwin "exclusive"); 5704e7f640dSJohn Baldwin atomic_store_rel_ptr(&sx->sx_lock, x); 5714e7f640dSJohn Baldwin sleepq_broadcast(&sx->lock_object, SLEEPQ_SX, -1, queue); 5724e7f640dSJohn Baldwin } 5734e7f640dSJohn Baldwin 5744e7f640dSJohn Baldwin /* 5754e7f640dSJohn Baldwin * This function represents the so-called 'hard case' for sx_slock 5764e7f640dSJohn Baldwin * operation. All 'easy case' failures are redirected to this. Note 5774e7f640dSJohn Baldwin * that ideally this would be a static function, but it needs to be 5784e7f640dSJohn Baldwin * accessible from at least sx.h. 5794e7f640dSJohn Baldwin */ 5804e7f640dSJohn Baldwin void 5814e7f640dSJohn Baldwin _sx_slock_hard(struct sx *sx, const char *file, int line) 5824e7f640dSJohn Baldwin { 5834e7f640dSJohn Baldwin GIANT_DECLARE; 5844e7f640dSJohn Baldwin #ifdef ADAPTIVE_SX 5854e7f640dSJohn Baldwin volatile struct thread *owner; 5864e7f640dSJohn Baldwin #endif 5874e7f640dSJohn Baldwin uintptr_t x; 5884e7f640dSJohn Baldwin 5894e7f640dSJohn Baldwin /* 5904e7f640dSJohn Baldwin * As with rwlocks, we don't make any attempt to try to block 5914e7f640dSJohn Baldwin * shared locks once there is an exclusive waiter. 5924e7f640dSJohn Baldwin */ 5934e7f640dSJohn Baldwin for (;;) { 5944e7f640dSJohn Baldwin x = sx->sx_lock; 5954e7f640dSJohn Baldwin 5964e7f640dSJohn Baldwin /* 5974e7f640dSJohn Baldwin * If no other thread has an exclusive lock then try to bump up 5984e7f640dSJohn Baldwin * the count of sharers. Since we have to preserve the state 5994e7f640dSJohn Baldwin * of SX_LOCK_EXCLUSIVE_WAITERS, if we fail to acquire the 6004e7f640dSJohn Baldwin * shared lock loop back and retry. 6014e7f640dSJohn Baldwin */ 6024e7f640dSJohn Baldwin if (x & SX_LOCK_SHARED) { 6034e7f640dSJohn Baldwin MPASS(!(x & SX_LOCK_SHARED_WAITERS)); 6044e7f640dSJohn Baldwin if (atomic_cmpset_acq_ptr(&sx->sx_lock, x, 6054e7f640dSJohn Baldwin x + SX_ONE_SHARER)) { 6064e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 6074e7f640dSJohn Baldwin CTR4(KTR_LOCK, 6084e7f640dSJohn Baldwin "%s: %p succeed %p -> %p", __func__, 6094e7f640dSJohn Baldwin sx, (void *)x, 6104e7f640dSJohn Baldwin (void *)(x + SX_ONE_SHARER)); 6114e7f640dSJohn Baldwin break; 6124e7f640dSJohn Baldwin } 6134e7f640dSJohn Baldwin continue; 6144e7f640dSJohn Baldwin } 6154e7f640dSJohn Baldwin 6164e7f640dSJohn Baldwin #ifdef ADAPTIVE_SX 6174e7f640dSJohn Baldwin /* 6184e7f640dSJohn Baldwin * If the owner is running on another CPU, spin until 6194e7f640dSJohn Baldwin * the owner stops running or the state of the lock 6204e7f640dSJohn Baldwin * changes. 6214e7f640dSJohn Baldwin */ 6224e7f640dSJohn Baldwin else if (sx->lock_object.lo_flags & SX_ADAPTIVESPIN) { 6234e7f640dSJohn Baldwin x = SX_OWNER(x); 6244e7f640dSJohn Baldwin owner = (struct thread *)x; 6254e7f640dSJohn Baldwin if (TD_IS_RUNNING(owner)) { 6264e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 6274e7f640dSJohn Baldwin CTR3(KTR_LOCK, 6284e7f640dSJohn Baldwin "%s: spinning on %p held by %p", 6294e7f640dSJohn Baldwin __func__, sx, owner); 6304e7f640dSJohn Baldwin GIANT_SAVE(); 6314e7f640dSJohn Baldwin while (SX_OWNER(sx->sx_lock) == x && 6324e7f640dSJohn Baldwin TD_IS_RUNNING(owner)) 6334e7f640dSJohn Baldwin cpu_spinwait(); 6344e7f640dSJohn Baldwin continue; 6354e7f640dSJohn Baldwin } 6364e7f640dSJohn Baldwin } 6374e7f640dSJohn Baldwin #endif 6384e7f640dSJohn Baldwin 6394e7f640dSJohn Baldwin /* 6404e7f640dSJohn Baldwin * Some other thread already has an exclusive lock, so 6414e7f640dSJohn Baldwin * start the process of blocking. 6424e7f640dSJohn Baldwin */ 6434e7f640dSJohn Baldwin sleepq_lock(&sx->lock_object); 6444e7f640dSJohn Baldwin x = sx->sx_lock; 6454e7f640dSJohn Baldwin 6464e7f640dSJohn Baldwin /* 6474e7f640dSJohn Baldwin * The lock could have been released while we spun. 6484e7f640dSJohn Baldwin * In this case loop back and retry. 6494e7f640dSJohn Baldwin */ 6504e7f640dSJohn Baldwin if (x & SX_LOCK_SHARED) { 6514e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 6524e7f640dSJohn Baldwin continue; 6534e7f640dSJohn Baldwin } 6544e7f640dSJohn Baldwin 6554e7f640dSJohn Baldwin #ifdef ADAPTIVE_SX 6564e7f640dSJohn Baldwin /* 6574e7f640dSJohn Baldwin * If the owner is running on another CPU, spin until 6584e7f640dSJohn Baldwin * the owner stops running or the state of the lock 6594e7f640dSJohn Baldwin * changes. 6604e7f640dSJohn Baldwin */ 6614e7f640dSJohn Baldwin if (!(x & SX_LOCK_SHARED) && 6624e7f640dSJohn Baldwin (sx->lock_object.lo_flags & SX_ADAPTIVESPIN)) { 6634e7f640dSJohn Baldwin owner = (struct thread *)SX_OWNER(x); 6644e7f640dSJohn Baldwin if (TD_IS_RUNNING(owner)) { 6654e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 6664e7f640dSJohn Baldwin continue; 6674e7f640dSJohn Baldwin } 6684e7f640dSJohn Baldwin } 6694e7f640dSJohn Baldwin #endif 6704e7f640dSJohn Baldwin 6714e7f640dSJohn Baldwin /* 6724e7f640dSJohn Baldwin * Try to set the SX_LOCK_SHARED_WAITERS flag. If we 6734e7f640dSJohn Baldwin * fail to set it drop the sleep queue lock and loop 6744e7f640dSJohn Baldwin * back. 6754e7f640dSJohn Baldwin */ 6764e7f640dSJohn Baldwin if (!(x & SX_LOCK_SHARED_WAITERS)) { 6774e7f640dSJohn Baldwin if (!atomic_cmpset_ptr(&sx->sx_lock, x, 6784e7f640dSJohn Baldwin x | SX_LOCK_SHARED_WAITERS)) { 6794e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 6804e7f640dSJohn Baldwin continue; 6814e7f640dSJohn Baldwin } 6824e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 6834e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p set shared waiters flag", 6844e7f640dSJohn Baldwin __func__, sx); 6854e7f640dSJohn Baldwin } 6864e7f640dSJohn Baldwin 6874e7f640dSJohn Baldwin /* 6884e7f640dSJohn Baldwin * Since we have been unable to acquire the shared lock, 6894e7f640dSJohn Baldwin * we have to sleep. 6904e7f640dSJohn Baldwin */ 6914e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 6924e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p blocking on sleep queue", 6934e7f640dSJohn Baldwin __func__, sx); 6944e7f640dSJohn Baldwin 6954e7f640dSJohn Baldwin GIANT_SAVE(); 6964e7f640dSJohn Baldwin sleepq_add(&sx->lock_object, NULL, sx->lock_object.lo_name, 6974e7f640dSJohn Baldwin SLEEPQ_SX, SQ_SHARED_QUEUE); 6984e7f640dSJohn Baldwin sleepq_wait(&sx->lock_object); 6994e7f640dSJohn Baldwin 7004e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 7014e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p resuming from sleep queue", 7024e7f640dSJohn Baldwin __func__, sx); 7034e7f640dSJohn Baldwin } 7044e7f640dSJohn Baldwin 7054e7f640dSJohn Baldwin GIANT_RESTORE(); 7064e7f640dSJohn Baldwin } 7074e7f640dSJohn Baldwin 7084e7f640dSJohn Baldwin /* 7094e7f640dSJohn Baldwin * This function represents the so-called 'hard case' for sx_sunlock 7104e7f640dSJohn Baldwin * operation. All 'easy case' failures are redirected to this. Note 7114e7f640dSJohn Baldwin * that ideally this would be a static function, but it needs to be 7124e7f640dSJohn Baldwin * accessible from at least sx.h. 7134e7f640dSJohn Baldwin */ 7144e7f640dSJohn Baldwin void 7154e7f640dSJohn Baldwin _sx_sunlock_hard(struct sx *sx, const char *file, int line) 7164e7f640dSJohn Baldwin { 7174e7f640dSJohn Baldwin uintptr_t x; 7184e7f640dSJohn Baldwin 7194e7f640dSJohn Baldwin for (;;) { 7204e7f640dSJohn Baldwin x = sx->sx_lock; 7214e7f640dSJohn Baldwin 7224e7f640dSJohn Baldwin /* 7234e7f640dSJohn Baldwin * We should never have sharers while at least one thread 7244e7f640dSJohn Baldwin * holds a shared lock. 7254e7f640dSJohn Baldwin */ 7264e7f640dSJohn Baldwin KASSERT(!(x & SX_LOCK_SHARED_WAITERS), 7274e7f640dSJohn Baldwin ("%s: waiting sharers", __func__)); 7284e7f640dSJohn Baldwin 7294e7f640dSJohn Baldwin /* 7304e7f640dSJohn Baldwin * See if there is more than one shared lock held. If 7314e7f640dSJohn Baldwin * so, just drop one and return. 7324e7f640dSJohn Baldwin */ 7334e7f640dSJohn Baldwin if (SX_SHARERS(x) > 1) { 7344e7f640dSJohn Baldwin if (atomic_cmpset_ptr(&sx->sx_lock, x, 7354e7f640dSJohn Baldwin x - SX_ONE_SHARER)) { 7364e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 7374e7f640dSJohn Baldwin CTR4(KTR_LOCK, 7384e7f640dSJohn Baldwin "%s: %p succeeded %p -> %p", 7394e7f640dSJohn Baldwin __func__, sx, (void *)x, 7404e7f640dSJohn Baldwin (void *)(x - SX_ONE_SHARER)); 7414e7f640dSJohn Baldwin break; 7424e7f640dSJohn Baldwin } 7434e7f640dSJohn Baldwin continue; 7444e7f640dSJohn Baldwin } 7454e7f640dSJohn Baldwin 7464e7f640dSJohn Baldwin /* 7474e7f640dSJohn Baldwin * If there aren't any waiters for an exclusive lock, 7484e7f640dSJohn Baldwin * then try to drop it quickly. 7494e7f640dSJohn Baldwin */ 7504e7f640dSJohn Baldwin if (!(x & SX_LOCK_EXCLUSIVE_WAITERS)) { 7514e7f640dSJohn Baldwin MPASS(x == SX_SHARERS_LOCK(1)); 7524e7f640dSJohn Baldwin if (atomic_cmpset_ptr(&sx->sx_lock, SX_SHARERS_LOCK(1), 7534e7f640dSJohn Baldwin SX_LOCK_UNLOCKED)) { 7544e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 7554e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p last succeeded", 7564e7f640dSJohn Baldwin __func__, sx); 7574e7f640dSJohn Baldwin break; 7584e7f640dSJohn Baldwin } 7594e7f640dSJohn Baldwin continue; 7604e7f640dSJohn Baldwin } 7614e7f640dSJohn Baldwin 7624e7f640dSJohn Baldwin /* 7634e7f640dSJohn Baldwin * At this point, there should just be one sharer with 7644e7f640dSJohn Baldwin * exclusive waiters. 7654e7f640dSJohn Baldwin */ 7664e7f640dSJohn Baldwin MPASS(x == (SX_SHARERS_LOCK(1) | SX_LOCK_EXCLUSIVE_WAITERS)); 7674e7f640dSJohn Baldwin 7684e7f640dSJohn Baldwin sleepq_lock(&sx->lock_object); 7694e7f640dSJohn Baldwin 7704e7f640dSJohn Baldwin /* 7714e7f640dSJohn Baldwin * Wake up semantic here is quite simple: 7724e7f640dSJohn Baldwin * Just wake up all the exclusive waiters. 7734e7f640dSJohn Baldwin * Note that the state of the lock could have changed, 7744e7f640dSJohn Baldwin * so if it fails loop back and retry. 7754e7f640dSJohn Baldwin */ 7764e7f640dSJohn Baldwin if (!atomic_cmpset_ptr(&sx->sx_lock, 7774e7f640dSJohn Baldwin SX_SHARERS_LOCK(1) | SX_LOCK_EXCLUSIVE_WAITERS, 7784e7f640dSJohn Baldwin SX_LOCK_UNLOCKED)) { 7794e7f640dSJohn Baldwin sleepq_release(&sx->lock_object); 7804e7f640dSJohn Baldwin continue; 7814e7f640dSJohn Baldwin } 7824e7f640dSJohn Baldwin if (LOCK_LOG_TEST(&sx->lock_object, 0)) 7834e7f640dSJohn Baldwin CTR2(KTR_LOCK, "%s: %p waking up all thread on" 7844e7f640dSJohn Baldwin "exclusive queue", __func__, sx); 7854e7f640dSJohn Baldwin sleepq_broadcast(&sx->lock_object, SLEEPQ_SX, -1, 7864e7f640dSJohn Baldwin SQ_EXCLUSIVE_QUEUE); 7874e7f640dSJohn Baldwin break; 7884e7f640dSJohn Baldwin } 789d55229b7SJason Evans } 7904e5e677bSJohn Baldwin 7914e5e677bSJohn Baldwin #ifdef INVARIANT_SUPPORT 792781a35dfSJohn Baldwin #ifndef INVARIANTS 793781a35dfSJohn Baldwin #undef _sx_assert 794781a35dfSJohn Baldwin #endif 795781a35dfSJohn Baldwin 7964e5e677bSJohn Baldwin /* 7974e5e677bSJohn Baldwin * In the non-WITNESS case, sx_assert() can only detect that at least 7984e5e677bSJohn Baldwin * *some* thread owns an slock, but it cannot guarantee that *this* 7994e5e677bSJohn Baldwin * thread owns an slock. 8004e5e677bSJohn Baldwin */ 8014e5e677bSJohn Baldwin void 8024e5e677bSJohn Baldwin _sx_assert(struct sx *sx, int what, const char *file, int line) 8034e5e677bSJohn Baldwin { 8044e7f640dSJohn Baldwin #ifndef WITNESS 8054e7f640dSJohn Baldwin int slocked = 0; 8064e7f640dSJohn Baldwin #endif 8074e5e677bSJohn Baldwin 80803129ba9SJohn Baldwin if (panicstr != NULL) 80903129ba9SJohn Baldwin return; 8104e5e677bSJohn Baldwin switch (what) { 8114e5e677bSJohn Baldwin case SX_SLOCKED: 8124e7f640dSJohn Baldwin case SX_SLOCKED | SX_NOTRECURSED: 8134e7f640dSJohn Baldwin case SX_SLOCKED | SX_RECURSED: 8144e7f640dSJohn Baldwin #ifndef WITNESS 8154e7f640dSJohn Baldwin slocked = 1; 8164e7f640dSJohn Baldwin /* FALLTHROUGH */ 8174e7f640dSJohn Baldwin #endif 8184e7f640dSJohn Baldwin case SX_LOCKED: 8194e7f640dSJohn Baldwin case SX_LOCKED | SX_NOTRECURSED: 8204e7f640dSJohn Baldwin case SX_LOCKED | SX_RECURSED: 8214e5e677bSJohn Baldwin #ifdef WITNESS 822aa89d8cdSJohn Baldwin witness_assert(&sx->lock_object, what, file, line); 8234e5e677bSJohn Baldwin #else 8244e7f640dSJohn Baldwin /* 8254e7f640dSJohn Baldwin * If some other thread has an exclusive lock or we 8264e7f640dSJohn Baldwin * have one and are asserting a shared lock, fail. 8274e7f640dSJohn Baldwin * Also, if no one has a lock at all, fail. 8284e7f640dSJohn Baldwin */ 8294e7f640dSJohn Baldwin if (sx->sx_lock == SX_LOCK_UNLOCKED || 8304e7f640dSJohn Baldwin (!(sx->sx_lock & SX_LOCK_SHARED) && (slocked || 8314e7f640dSJohn Baldwin sx_xholder(sx) != curthread))) 83203129ba9SJohn Baldwin panic("Lock %s not %slocked @ %s:%d\n", 8334e7f640dSJohn Baldwin sx->lock_object.lo_name, slocked ? "share " : "", 8344e7f640dSJohn Baldwin file, line); 8354e7f640dSJohn Baldwin 8364e7f640dSJohn Baldwin if (!(sx->sx_lock & SX_LOCK_SHARED)) { 8374e7f640dSJohn Baldwin if (sx_recursed(sx)) { 8384e7f640dSJohn Baldwin if (what & SX_NOTRECURSED) 8394e7f640dSJohn Baldwin panic("Lock %s recursed @ %s:%d\n", 8404e7f640dSJohn Baldwin sx->lock_object.lo_name, file, 8414e7f640dSJohn Baldwin line); 8424e7f640dSJohn Baldwin } else if (what & SX_RECURSED) 8434e7f640dSJohn Baldwin panic("Lock %s not recursed @ %s:%d\n", 8444e7f640dSJohn Baldwin sx->lock_object.lo_name, file, line); 8454e7f640dSJohn Baldwin } 8464e5e677bSJohn Baldwin #endif 8474e5e677bSJohn Baldwin break; 8484e5e677bSJohn Baldwin case SX_XLOCKED: 8494e7f640dSJohn Baldwin case SX_XLOCKED | SX_NOTRECURSED: 8504e7f640dSJohn Baldwin case SX_XLOCKED | SX_RECURSED: 8514e7f640dSJohn Baldwin if (sx_xholder(sx) != curthread) 85203129ba9SJohn Baldwin panic("Lock %s not exclusively locked @ %s:%d\n", 853aa89d8cdSJohn Baldwin sx->lock_object.lo_name, file, line); 8544e7f640dSJohn Baldwin if (sx_recursed(sx)) { 8554e7f640dSJohn Baldwin if (what & SX_NOTRECURSED) 8564e7f640dSJohn Baldwin panic("Lock %s recursed @ %s:%d\n", 8574e7f640dSJohn Baldwin sx->lock_object.lo_name, file, line); 8584e7f640dSJohn Baldwin } else if (what & SX_RECURSED) 8594e7f640dSJohn Baldwin panic("Lock %s not recursed @ %s:%d\n", 8604e7f640dSJohn Baldwin sx->lock_object.lo_name, file, line); 8614e5e677bSJohn Baldwin break; 86219b0efd3SPawel Jakub Dawidek case SX_UNLOCKED: 86319b0efd3SPawel Jakub Dawidek #ifdef WITNESS 864aa89d8cdSJohn Baldwin witness_assert(&sx->lock_object, what, file, line); 86519b0efd3SPawel Jakub Dawidek #else 866f6739b1dSPawel Jakub Dawidek /* 8674e7f640dSJohn Baldwin * If we hold an exclusve lock fail. We can't 8684e7f640dSJohn Baldwin * reliably check to see if we hold a shared lock or 8694e7f640dSJohn Baldwin * not. 870f6739b1dSPawel Jakub Dawidek */ 8714e7f640dSJohn Baldwin if (sx_xholder(sx) == curthread) 87203129ba9SJohn Baldwin panic("Lock %s exclusively locked @ %s:%d\n", 873aa89d8cdSJohn Baldwin sx->lock_object.lo_name, file, line); 87419b0efd3SPawel Jakub Dawidek #endif 87519b0efd3SPawel Jakub Dawidek break; 8764e5e677bSJohn Baldwin default: 8774e5e677bSJohn Baldwin panic("Unknown sx lock assertion: %d @ %s:%d", what, file, 8784e5e677bSJohn Baldwin line); 8794e5e677bSJohn Baldwin } 8804e5e677bSJohn Baldwin } 8814e5e677bSJohn Baldwin #endif /* INVARIANT_SUPPORT */ 882d272fe53SJohn Baldwin 883d272fe53SJohn Baldwin #ifdef DDB 8844e7f640dSJohn Baldwin static void 885d272fe53SJohn Baldwin db_show_sx(struct lock_object *lock) 886d272fe53SJohn Baldwin { 887d272fe53SJohn Baldwin struct thread *td; 888d272fe53SJohn Baldwin struct sx *sx; 889d272fe53SJohn Baldwin 890d272fe53SJohn Baldwin sx = (struct sx *)lock; 891d272fe53SJohn Baldwin 892d272fe53SJohn Baldwin db_printf(" state: "); 8934e7f640dSJohn Baldwin if (sx->sx_lock == SX_LOCK_UNLOCKED) 8944e7f640dSJohn Baldwin db_printf("UNLOCKED\n"); 8954e7f640dSJohn Baldwin else if (sx->sx_lock & SX_LOCK_SHARED) 8964e7f640dSJohn Baldwin db_printf("SLOCK: %ju\n", (uintmax_t)SX_SHARERS(sx->sx_lock)); 8974e7f640dSJohn Baldwin else { 8984e7f640dSJohn Baldwin td = sx_xholder(sx); 899d272fe53SJohn Baldwin db_printf("XLOCK: %p (tid %d, pid %d, \"%s\")\n", td, 900d272fe53SJohn Baldwin td->td_tid, td->td_proc->p_pid, td->td_proc->p_comm); 9014e7f640dSJohn Baldwin if (sx_recursed(sx)) 9024e7f640dSJohn Baldwin db_printf(" recursed: %d\n", sx->sx_recurse); 9034e7f640dSJohn Baldwin } 9044e7f640dSJohn Baldwin 9054e7f640dSJohn Baldwin db_printf(" waiters: "); 9064e7f640dSJohn Baldwin switch(sx->sx_lock & 9074e7f640dSJohn Baldwin (SX_LOCK_SHARED_WAITERS | SX_LOCK_EXCLUSIVE_WAITERS)) { 9084e7f640dSJohn Baldwin case SX_LOCK_SHARED_WAITERS: 9094e7f640dSJohn Baldwin db_printf("shared\n"); 9104e7f640dSJohn Baldwin break; 9114e7f640dSJohn Baldwin case SX_LOCK_EXCLUSIVE_WAITERS: 9124e7f640dSJohn Baldwin db_printf("exclusive\n"); 9134e7f640dSJohn Baldwin break; 9144e7f640dSJohn Baldwin case SX_LOCK_SHARED_WAITERS | SX_LOCK_EXCLUSIVE_WAITERS: 9154e7f640dSJohn Baldwin db_printf("exclusive and shared\n"); 9164e7f640dSJohn Baldwin break; 9174e7f640dSJohn Baldwin default: 9184e7f640dSJohn Baldwin db_printf("none\n"); 9194e7f640dSJohn Baldwin } 920d272fe53SJohn Baldwin } 921462a7addSJohn Baldwin 922462a7addSJohn Baldwin /* 923462a7addSJohn Baldwin * Check to see if a thread that is blocked on a sleep queue is actually 924462a7addSJohn Baldwin * blocked on an sx lock. If so, output some details and return true. 925462a7addSJohn Baldwin * If the lock has an exclusive owner, return that in *ownerp. 926462a7addSJohn Baldwin */ 927462a7addSJohn Baldwin int 928462a7addSJohn Baldwin sx_chain(struct thread *td, struct thread **ownerp) 929462a7addSJohn Baldwin { 930462a7addSJohn Baldwin struct sx *sx; 931462a7addSJohn Baldwin 932462a7addSJohn Baldwin /* 9334e7f640dSJohn Baldwin * Check to see if this thread is blocked on an sx lock. 9344e7f640dSJohn Baldwin * First, we check the lock class. If that is ok, then we 9354e7f640dSJohn Baldwin * compare the lock name against the wait message. 936462a7addSJohn Baldwin */ 9374e7f640dSJohn Baldwin sx = td->td_wchan; 9384e7f640dSJohn Baldwin if (LOCK_CLASS(&sx->lock_object) != &lock_class_sx || 9394e7f640dSJohn Baldwin sx->lock_object.lo_name != td->td_wmesg) 940462a7addSJohn Baldwin return (0); 941462a7addSJohn Baldwin 942462a7addSJohn Baldwin /* We think we have an sx lock, so output some details. */ 943462a7addSJohn Baldwin db_printf("blocked on sx \"%s\" ", td->td_wmesg); 9444e7f640dSJohn Baldwin *ownerp = sx_xholder(sx); 9454e7f640dSJohn Baldwin if (sx->sx_lock & SX_LOCK_SHARED) 9464e7f640dSJohn Baldwin db_printf("SLOCK (count %ju)\n", 9474e7f640dSJohn Baldwin (uintmax_t)SX_SHARERS(sx->sx_lock)); 9484e7f640dSJohn Baldwin else 949462a7addSJohn Baldwin db_printf("XLOCK\n"); 950462a7addSJohn Baldwin return (1); 951462a7addSJohn Baldwin } 952d272fe53SJohn Baldwin #endif 953