locks.c revision 1.57
1 1.57 pooka /* $NetBSD: locks.c,v 1.57 2013/04/27 16:32:57 pooka Exp $ */ 2 1.1 pooka 3 1.1 pooka /* 4 1.54 pooka * Copyright (c) 2007-2011 Antti Kantee. All Rights Reserved. 5 1.1 pooka * 6 1.1 pooka * Redistribution and use in source and binary forms, with or without 7 1.1 pooka * modification, are permitted provided that the following conditions 8 1.1 pooka * are met: 9 1.1 pooka * 1. Redistributions of source code must retain the above copyright 10 1.1 pooka * notice, this list of conditions and the following disclaimer. 11 1.1 pooka * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 pooka * notice, this list of conditions and the following disclaimer in the 13 1.1 pooka * documentation and/or other materials provided with the distribution. 14 1.1 pooka * 15 1.1 pooka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 16 1.1 pooka * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 17 1.1 pooka * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 18 1.1 pooka * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19 1.1 pooka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20 1.1 pooka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 21 1.1 pooka * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22 1.1 pooka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23 1.1 pooka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24 1.1 pooka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25 1.1 pooka * SUCH DAMAGE. 26 1.1 pooka */ 27 1.1 pooka 28 1.23 pooka #include <sys/cdefs.h> 29 1.57 pooka __KERNEL_RCSID(0, "$NetBSD: locks.c,v 1.57 2013/04/27 16:32:57 pooka Exp $"); 30 1.23 pooka 31 1.1 pooka #include <sys/param.h> 32 1.26 pooka #include <sys/kmem.h> 33 1.1 pooka #include <sys/mutex.h> 34 1.1 pooka #include <sys/rwlock.h> 35 1.1 pooka 36 1.18 pooka #include <rump/rumpuser.h> 37 1.18 pooka 38 1.2 pooka #include "rump_private.h" 39 1.2 pooka 40 1.22 pooka /* 41 1.45 pooka * Simple lockdebug. If it's compiled in, it's always active. 42 1.45 pooka * Currently available only for mtx/rwlock. 43 1.45 pooka */ 44 1.45 pooka #ifdef LOCKDEBUG 45 1.45 pooka #include <sys/lockdebug.h> 46 1.45 pooka 47 1.45 pooka static lockops_t mutex_lockops = { 48 1.45 pooka "mutex", 49 1.45 pooka LOCKOPS_SLEEP, 50 1.45 pooka NULL 51 1.45 pooka }; 52 1.45 pooka static lockops_t rw_lockops = { 53 1.46 pooka "rwlock", 54 1.45 pooka LOCKOPS_SLEEP, 55 1.45 pooka NULL 56 1.45 pooka }; 57 1.45 pooka 58 1.45 pooka #define ALLOCK(lock, ops) \ 59 1.45 pooka lockdebug_alloc(lock, ops, (uintptr_t)__builtin_return_address(0)) 60 1.45 pooka #define FREELOCK(lock) \ 61 1.45 pooka lockdebug_free(lock) 62 1.45 pooka #define WANTLOCK(lock, shar, try) \ 63 1.45 pooka lockdebug_wantlock(lock, (uintptr_t)__builtin_return_address(0), shar, try) 64 1.45 pooka #define LOCKED(lock, shar) \ 65 1.45 pooka lockdebug_locked(lock, NULL, (uintptr_t)__builtin_return_address(0), shar) 66 1.45 pooka #define UNLOCKED(lock, shar) \ 67 1.45 pooka lockdebug_unlocked(lock, (uintptr_t)__builtin_return_address(0), shar) 68 1.45 pooka #else 69 1.45 pooka #define ALLOCK(a, b) 70 1.45 pooka #define FREELOCK(a) 71 1.45 pooka #define WANTLOCK(a, b, c) 72 1.45 pooka #define LOCKED(a, b) 73 1.45 pooka #define UNLOCKED(a, b) 74 1.45 pooka #endif 75 1.45 pooka 76 1.45 pooka /* 77 1.22 pooka * We map locks to pthread routines. The difference between kernel 78 1.22 pooka * and rumpuser routines is that while the kernel uses static 79 1.22 pooka * storage, rumpuser allocates the object from the heap. This 80 1.22 pooka * indirection is necessary because we don't know the size of 81 1.38 snj * pthread objects here. It is also beneficial, since we can 82 1.22 pooka * be easily compatible with the kernel ABI because all kernel 83 1.22 pooka * objects regardless of machine architecture are always at least 84 1.22 pooka * the size of a pointer. The downside, of course, is a performance 85 1.22 pooka * penalty. 86 1.22 pooka */ 87 1.22 pooka 88 1.22 pooka #define RUMPMTX(mtx) (*(struct rumpuser_mtx **)(mtx)) 89 1.22 pooka 90 1.1 pooka void 91 1.1 pooka mutex_init(kmutex_t *mtx, kmutex_type_t type, int ipl) 92 1.1 pooka { 93 1.57 pooka int ruflags = RUMPUSER_MTX_KMUTEX; 94 1.56 pooka int isspin; 95 1.56 pooka 96 1.57 pooka CTASSERT(sizeof(kmutex_t) >= sizeof(void *)); 97 1.57 pooka 98 1.56 pooka /* 99 1.56 pooka * Try to figure out if the caller wanted a spin mutex or 100 1.56 pooka * not with this easy set of conditionals. The difference 101 1.56 pooka * between a spin mutex and an adaptive mutex for a rump 102 1.56 pooka * kernel is that the hypervisor does not relinquish the 103 1.56 pooka * rump kernel CPU context for a spin mutex. The 104 1.56 pooka * hypervisor itself may block even when "spinning". 105 1.56 pooka */ 106 1.56 pooka if (type == MUTEX_SPIN) { 107 1.56 pooka isspin = 1; 108 1.56 pooka } else if (ipl == IPL_NONE || ipl == IPL_SOFTCLOCK || 109 1.56 pooka ipl == IPL_SOFTBIO || ipl == IPL_SOFTNET || 110 1.56 pooka ipl == IPL_SOFTSERIAL) { 111 1.56 pooka isspin = 0; 112 1.56 pooka } else { 113 1.56 pooka isspin = 1; 114 1.56 pooka } 115 1.1 pooka 116 1.57 pooka if (isspin) 117 1.57 pooka ruflags |= RUMPUSER_MTX_SPIN; 118 1.57 pooka rumpuser_mutex_init((struct rumpuser_mtx **)mtx, ruflags); 119 1.45 pooka ALLOCK(mtx, &mutex_lockops); 120 1.1 pooka } 121 1.1 pooka 122 1.1 pooka void 123 1.1 pooka mutex_destroy(kmutex_t *mtx) 124 1.1 pooka { 125 1.1 pooka 126 1.45 pooka FREELOCK(mtx); 127 1.22 pooka rumpuser_mutex_destroy(RUMPMTX(mtx)); 128 1.1 pooka } 129 1.1 pooka 130 1.1 pooka void 131 1.1 pooka mutex_enter(kmutex_t *mtx) 132 1.1 pooka { 133 1.1 pooka 134 1.45 pooka WANTLOCK(mtx, false, false); 135 1.22 pooka rumpuser_mutex_enter(RUMPMTX(mtx)); 136 1.45 pooka LOCKED(mtx, false); 137 1.1 pooka } 138 1.56 pooka 139 1.56 pooka void 140 1.56 pooka mutex_spin_enter(kmutex_t *mtx) 141 1.56 pooka { 142 1.56 pooka 143 1.56 pooka WANTLOCK(mtx, false, false); 144 1.56 pooka rumpuser_mutex_enter_nowrap(RUMPMTX(mtx)); 145 1.56 pooka LOCKED(mtx, false); 146 1.56 pooka } 147 1.6 pooka 148 1.1 pooka int 149 1.1 pooka mutex_tryenter(kmutex_t *mtx) 150 1.1 pooka { 151 1.45 pooka int rv; 152 1.1 pooka 153 1.45 pooka rv = rumpuser_mutex_tryenter(RUMPMTX(mtx)); 154 1.45 pooka if (rv) { 155 1.45 pooka WANTLOCK(mtx, false, true); 156 1.45 pooka LOCKED(mtx, false); 157 1.45 pooka } 158 1.45 pooka return rv; 159 1.1 pooka } 160 1.1 pooka 161 1.1 pooka void 162 1.1 pooka mutex_exit(kmutex_t *mtx) 163 1.1 pooka { 164 1.1 pooka 165 1.45 pooka UNLOCKED(mtx, false); 166 1.22 pooka rumpuser_mutex_exit(RUMPMTX(mtx)); 167 1.1 pooka } 168 1.45 pooka __strong_alias(mutex_spin_exit,mutex_exit); 169 1.6 pooka 170 1.1 pooka int 171 1.1 pooka mutex_owned(kmutex_t *mtx) 172 1.1 pooka { 173 1.1 pooka 174 1.44 pooka return mutex_owner(mtx) == curlwp; 175 1.44 pooka } 176 1.44 pooka 177 1.44 pooka struct lwp * 178 1.44 pooka mutex_owner(kmutex_t *mtx) 179 1.44 pooka { 180 1.44 pooka 181 1.44 pooka return rumpuser_mutex_owner(RUMPMTX(mtx)); 182 1.1 pooka } 183 1.1 pooka 184 1.22 pooka #define RUMPRW(rw) (*(struct rumpuser_rw **)(rw)) 185 1.22 pooka 186 1.1 pooka /* reader/writer locks */ 187 1.1 pooka 188 1.1 pooka void 189 1.1 pooka rw_init(krwlock_t *rw) 190 1.1 pooka { 191 1.1 pooka 192 1.22 pooka CTASSERT(sizeof(krwlock_t) >= sizeof(void *)); 193 1.22 pooka 194 1.22 pooka rumpuser_rw_init((struct rumpuser_rw **)rw); 195 1.45 pooka ALLOCK(rw, &rw_lockops); 196 1.1 pooka } 197 1.1 pooka 198 1.1 pooka void 199 1.1 pooka rw_destroy(krwlock_t *rw) 200 1.1 pooka { 201 1.1 pooka 202 1.45 pooka FREELOCK(rw); 203 1.22 pooka rumpuser_rw_destroy(RUMPRW(rw)); 204 1.1 pooka } 205 1.1 pooka 206 1.1 pooka void 207 1.1 pooka rw_enter(krwlock_t *rw, const krw_t op) 208 1.1 pooka { 209 1.1 pooka 210 1.45 pooka 211 1.45 pooka WANTLOCK(rw, op == RW_READER, false); 212 1.22 pooka rumpuser_rw_enter(RUMPRW(rw), op == RW_WRITER); 213 1.45 pooka LOCKED(rw, op == RW_READER); 214 1.1 pooka } 215 1.1 pooka 216 1.1 pooka int 217 1.1 pooka rw_tryenter(krwlock_t *rw, const krw_t op) 218 1.1 pooka { 219 1.45 pooka int rv; 220 1.1 pooka 221 1.45 pooka rv = rumpuser_rw_tryenter(RUMPRW(rw), op == RW_WRITER); 222 1.45 pooka if (rv) { 223 1.45 pooka WANTLOCK(rw, op == RW_READER, true); 224 1.45 pooka LOCKED(rw, op == RW_READER); 225 1.45 pooka } 226 1.45 pooka return rv; 227 1.1 pooka } 228 1.1 pooka 229 1.1 pooka void 230 1.1 pooka rw_exit(krwlock_t *rw) 231 1.1 pooka { 232 1.1 pooka 233 1.45 pooka #ifdef LOCKDEBUG 234 1.45 pooka bool shared = !rw_write_held(rw); 235 1.45 pooka 236 1.45 pooka if (shared) 237 1.45 pooka KASSERT(rw_read_held(rw)); 238 1.45 pooka UNLOCKED(rw, shared); 239 1.45 pooka #endif 240 1.22 pooka rumpuser_rw_exit(RUMPRW(rw)); 241 1.1 pooka } 242 1.1 pooka 243 1.1 pooka /* always fails */ 244 1.1 pooka int 245 1.1 pooka rw_tryupgrade(krwlock_t *rw) 246 1.1 pooka { 247 1.1 pooka 248 1.1 pooka return 0; 249 1.1 pooka } 250 1.1 pooka 251 1.48 haad void 252 1.48 haad rw_downgrade(krwlock_t *rw) 253 1.48 haad { 254 1.48 haad 255 1.48 haad /* 256 1.48 haad * XXX HACK: How we can downgrade re lock in rump properly. 257 1.48 haad */ 258 1.48 haad rw_exit(rw); 259 1.48 haad rw_enter(rw, RW_READER); 260 1.48 haad return; 261 1.48 haad } 262 1.48 haad 263 1.6 pooka int 264 1.6 pooka rw_write_held(krwlock_t *rw) 265 1.6 pooka { 266 1.6 pooka 267 1.22 pooka return rumpuser_rw_wrheld(RUMPRW(rw)); 268 1.10 ad } 269 1.10 ad 270 1.10 ad int 271 1.10 ad rw_read_held(krwlock_t *rw) 272 1.10 ad { 273 1.10 ad 274 1.22 pooka return rumpuser_rw_rdheld(RUMPRW(rw)); 275 1.10 ad } 276 1.10 ad 277 1.10 ad int 278 1.10 ad rw_lock_held(krwlock_t *rw) 279 1.10 ad { 280 1.10 ad 281 1.22 pooka return rumpuser_rw_held(RUMPRW(rw)); 282 1.6 pooka } 283 1.6 pooka 284 1.1 pooka /* curriculum vitaes */ 285 1.1 pooka 286 1.24 pooka #define RUMPCV(cv) (*(struct rumpuser_cv **)(cv)) 287 1.1 pooka 288 1.1 pooka void 289 1.1 pooka cv_init(kcondvar_t *cv, const char *msg) 290 1.1 pooka { 291 1.1 pooka 292 1.25 pooka CTASSERT(sizeof(kcondvar_t) >= sizeof(void *)); 293 1.25 pooka 294 1.24 pooka rumpuser_cv_init((struct rumpuser_cv **)cv); 295 1.1 pooka } 296 1.1 pooka 297 1.1 pooka void 298 1.1 pooka cv_destroy(kcondvar_t *cv) 299 1.1 pooka { 300 1.1 pooka 301 1.1 pooka rumpuser_cv_destroy(RUMPCV(cv)); 302 1.1 pooka } 303 1.1 pooka 304 1.47 pooka static int 305 1.47 pooka docvwait(kcondvar_t *cv, kmutex_t *mtx, struct timespec *ts) 306 1.47 pooka { 307 1.47 pooka struct lwp *l = curlwp; 308 1.47 pooka int rv; 309 1.47 pooka 310 1.51 pooka if (__predict_false(l->l_flag & LW_RUMP_QEXIT)) { 311 1.47 pooka /* 312 1.50 pooka * yield() here, someone might want the cpu 313 1.50 pooka * to set a condition. otherwise we'll just 314 1.50 pooka * loop forever. 315 1.47 pooka */ 316 1.50 pooka yield(); 317 1.47 pooka return EINTR; 318 1.47 pooka } 319 1.47 pooka 320 1.47 pooka UNLOCKED(mtx, false); 321 1.47 pooka 322 1.47 pooka l->l_private = cv; 323 1.47 pooka rv = 0; 324 1.47 pooka if (ts) { 325 1.47 pooka if (rumpuser_cv_timedwait(RUMPCV(cv), RUMPMTX(mtx), 326 1.47 pooka ts->tv_sec, ts->tv_nsec)) 327 1.47 pooka rv = EWOULDBLOCK; 328 1.47 pooka } else { 329 1.47 pooka rumpuser_cv_wait(RUMPCV(cv), RUMPMTX(mtx)); 330 1.47 pooka } 331 1.47 pooka 332 1.52 pooka LOCKED(mtx, false); 333 1.52 pooka 334 1.47 pooka /* 335 1.51 pooka * Check for QEXIT. if so, we need to wait here until we 336 1.47 pooka * are allowed to exit. 337 1.47 pooka */ 338 1.51 pooka if (__predict_false(l->l_flag & LW_RUMP_QEXIT)) { 339 1.47 pooka struct proc *p = l->l_proc; 340 1.47 pooka 341 1.53 pooka UNLOCKED(mtx, false); 342 1.47 pooka mutex_exit(mtx); /* drop and retake later */ 343 1.47 pooka 344 1.47 pooka mutex_enter(p->p_lock); 345 1.51 pooka while ((p->p_sflag & PS_RUMP_LWPEXIT) == 0) { 346 1.47 pooka /* avoid recursion */ 347 1.47 pooka rumpuser_cv_wait(RUMPCV(&p->p_waitcv), 348 1.47 pooka RUMPMTX(p->p_lock)); 349 1.47 pooka } 350 1.51 pooka KASSERT(p->p_sflag & PS_RUMP_LWPEXIT); 351 1.47 pooka mutex_exit(p->p_lock); 352 1.47 pooka 353 1.47 pooka /* ok, we can exit and remove "reference" to l->private */ 354 1.47 pooka 355 1.47 pooka mutex_enter(mtx); 356 1.53 pooka LOCKED(mtx, false); 357 1.47 pooka rv = EINTR; 358 1.47 pooka } 359 1.47 pooka l->l_private = NULL; 360 1.47 pooka 361 1.47 pooka return rv; 362 1.47 pooka } 363 1.47 pooka 364 1.1 pooka void 365 1.1 pooka cv_wait(kcondvar_t *cv, kmutex_t *mtx) 366 1.1 pooka { 367 1.1 pooka 368 1.42 pooka if (__predict_false(rump_threads == 0)) 369 1.28 pooka panic("cv_wait without threads"); 370 1.47 pooka (void) docvwait(cv, mtx, NULL); 371 1.1 pooka } 372 1.1 pooka 373 1.3 pooka int 374 1.5 pooka cv_wait_sig(kcondvar_t *cv, kmutex_t *mtx) 375 1.5 pooka { 376 1.5 pooka 377 1.42 pooka if (__predict_false(rump_threads == 0)) 378 1.42 pooka panic("cv_wait without threads"); 379 1.47 pooka return docvwait(cv, mtx, NULL); 380 1.5 pooka } 381 1.5 pooka 382 1.5 pooka int 383 1.3 pooka cv_timedwait(kcondvar_t *cv, kmutex_t *mtx, int ticks) 384 1.3 pooka { 385 1.27 pooka struct timespec ts, tick; 386 1.3 pooka extern int hz; 387 1.45 pooka int rv; 388 1.27 pooka 389 1.9 pooka if (ticks == 0) { 390 1.47 pooka rv = cv_wait_sig(cv, mtx); 391 1.9 pooka } else { 392 1.42 pooka /* 393 1.42 pooka * XXX: this fetches rump kernel time, but 394 1.42 pooka * rumpuser_cv_timedwait uses host time. 395 1.42 pooka */ 396 1.42 pooka nanotime(&ts); 397 1.42 pooka tick.tv_sec = ticks / hz; 398 1.42 pooka tick.tv_nsec = (ticks % hz) * (1000000000/hz); 399 1.42 pooka timespecadd(&ts, &tick, &ts); 400 1.42 pooka 401 1.47 pooka rv = docvwait(cv, mtx, &ts); 402 1.9 pooka } 403 1.5 pooka 404 1.45 pooka return rv; 405 1.5 pooka } 406 1.45 pooka __strong_alias(cv_timedwait_sig,cv_timedwait); 407 1.5 pooka 408 1.1 pooka void 409 1.1 pooka cv_signal(kcondvar_t *cv) 410 1.1 pooka { 411 1.1 pooka 412 1.1 pooka rumpuser_cv_signal(RUMPCV(cv)); 413 1.1 pooka } 414 1.2 pooka 415 1.4 pooka void 416 1.4 pooka cv_broadcast(kcondvar_t *cv) 417 1.4 pooka { 418 1.4 pooka 419 1.4 pooka rumpuser_cv_broadcast(RUMPCV(cv)); 420 1.4 pooka } 421 1.4 pooka 422 1.17 pooka bool 423 1.17 pooka cv_has_waiters(kcondvar_t *cv) 424 1.17 pooka { 425 1.17 pooka 426 1.17 pooka return rumpuser_cv_has_waiters(RUMPCV(cv)); 427 1.17 pooka } 428 1.17 pooka 429 1.35 pooka /* this is not much of an attempt, but ... */ 430 1.35 pooka bool 431 1.35 pooka cv_is_valid(kcondvar_t *cv) 432 1.35 pooka { 433 1.35 pooka 434 1.35 pooka return RUMPCV(cv) != NULL; 435 1.35 pooka } 436
Indexes created Tue Sep 30 11:09:46 GMT 2025