kern_event.c revision 1.16.2.9
1 1.16.2.9 skrll /* $NetBSD: kern_event.c,v 1.16.2.9 2005/11/10 14:09:44 skrll Exp $ */ 2 1.1 lukem /*- 3 1.1 lukem * Copyright (c) 1999,2000,2001 Jonathan Lemon <jlemon (at) FreeBSD.org> 4 1.1 lukem * All rights reserved. 5 1.1 lukem * 6 1.1 lukem * Redistribution and use in source and binary forms, with or without 7 1.1 lukem * modification, are permitted provided that the following conditions 8 1.1 lukem * are met: 9 1.1 lukem * 1. Redistributions of source code must retain the above copyright 10 1.1 lukem * notice, this list of conditions and the following disclaimer. 11 1.1 lukem * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 lukem * notice, this list of conditions and the following disclaimer in the 13 1.1 lukem * documentation and/or other materials provided with the distribution. 14 1.1 lukem * 15 1.1 lukem * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16 1.1 lukem * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17 1.1 lukem * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18 1.1 lukem * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19 1.1 lukem * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20 1.1 lukem * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21 1.1 lukem * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22 1.1 lukem * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23 1.1 lukem * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24 1.1 lukem * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25 1.1 lukem * SUCH DAMAGE. 26 1.1 lukem * 27 1.1 lukem * $FreeBSD: src/sys/kern/kern_event.c,v 1.27 2001/07/05 17:10:44 rwatson Exp $ 28 1.1 lukem */ 29 1.14 jdolecek 30 1.14 jdolecek #include <sys/cdefs.h> 31 1.16.2.9 skrll __KERNEL_RCSID(0, "$NetBSD: kern_event.c,v 1.16.2.9 2005/11/10 14:09:44 skrll Exp $"); 32 1.1 lukem 33 1.1 lukem #include <sys/param.h> 34 1.1 lukem #include <sys/systm.h> 35 1.1 lukem #include <sys/kernel.h> 36 1.1 lukem #include <sys/proc.h> 37 1.16.2.8 skrll #include <sys/malloc.h> 38 1.1 lukem #include <sys/unistd.h> 39 1.1 lukem #include <sys/file.h> 40 1.1 lukem #include <sys/fcntl.h> 41 1.3 jdolecek #include <sys/select.h> 42 1.1 lukem #include <sys/queue.h> 43 1.1 lukem #include <sys/event.h> 44 1.1 lukem #include <sys/eventvar.h> 45 1.1 lukem #include <sys/poll.h> 46 1.3 jdolecek #include <sys/pool.h> 47 1.1 lukem #include <sys/protosw.h> 48 1.1 lukem #include <sys/socket.h> 49 1.1 lukem #include <sys/socketvar.h> 50 1.1 lukem #include <sys/stat.h> 51 1.1 lukem #include <sys/uio.h> 52 1.3 jdolecek #include <sys/mount.h> 53 1.3 jdolecek #include <sys/filedesc.h> 54 1.6 thorpej #include <sys/sa.h> 55 1.3 jdolecek #include <sys/syscallargs.h> 56 1.1 lukem 57 1.3 jdolecek static void kqueue_wakeup(struct kqueue *kq); 58 1.1 lukem 59 1.16.2.9 skrll static int kqueue_scan(struct file *, size_t, struct kevent *, 60 1.16.2.9 skrll const struct timespec *, struct lwp *, register_t *, 61 1.16.2.9 skrll const struct kevent_ops *); 62 1.3 jdolecek static int kqueue_read(struct file *fp, off_t *offset, struct uio *uio, 63 1.3 jdolecek struct ucred *cred, int flags); 64 1.3 jdolecek static int kqueue_write(struct file *fp, off_t *offset, struct uio *uio, 65 1.3 jdolecek struct ucred *cred, int flags); 66 1.13 dsl static int kqueue_ioctl(struct file *fp, u_long com, void *data, 67 1.16.2.5 skrll struct lwp *l); 68 1.13 dsl static int kqueue_fcntl(struct file *fp, u_int com, void *data, 69 1.16.2.5 skrll struct lwp *l); 70 1.16.2.5 skrll static int kqueue_poll(struct file *fp, int events, struct lwp *l); 71 1.3 jdolecek static int kqueue_kqfilter(struct file *fp, struct knote *kn); 72 1.16.2.5 skrll static int kqueue_stat(struct file *fp, struct stat *sp, struct lwp *l); 73 1.16.2.5 skrll static int kqueue_close(struct file *fp, struct lwp *l); 74 1.1 lukem 75 1.16.2.6 skrll static const struct fileops kqueueops = { 76 1.3 jdolecek kqueue_read, kqueue_write, kqueue_ioctl, kqueue_fcntl, kqueue_poll, 77 1.3 jdolecek kqueue_stat, kqueue_close, kqueue_kqfilter 78 1.1 lukem }; 79 1.1 lukem 80 1.3 jdolecek static void knote_attach(struct knote *kn, struct filedesc *fdp); 81 1.16.2.5 skrll static void knote_drop(struct knote *kn, struct lwp *l, 82 1.3 jdolecek struct filedesc *fdp); 83 1.3 jdolecek static void knote_enqueue(struct knote *kn); 84 1.3 jdolecek static void knote_dequeue(struct knote *kn); 85 1.1 lukem 86 1.1 lukem static void filt_kqdetach(struct knote *kn); 87 1.1 lukem static int filt_kqueue(struct knote *kn, long hint); 88 1.1 lukem static int filt_procattach(struct knote *kn); 89 1.1 lukem static void filt_procdetach(struct knote *kn); 90 1.1 lukem static int filt_proc(struct knote *kn, long hint); 91 1.1 lukem static int filt_fileattach(struct knote *kn); 92 1.8 jdolecek static void filt_timerexpire(void *knx); 93 1.8 jdolecek static int filt_timerattach(struct knote *kn); 94 1.8 jdolecek static void filt_timerdetach(struct knote *kn); 95 1.8 jdolecek static int filt_timer(struct knote *kn, long hint); 96 1.1 lukem 97 1.3 jdolecek static const struct filterops kqread_filtops = 98 1.1 lukem { 1, NULL, filt_kqdetach, filt_kqueue }; 99 1.3 jdolecek static const struct filterops proc_filtops = 100 1.1 lukem { 0, filt_procattach, filt_procdetach, filt_proc }; 101 1.3 jdolecek static const struct filterops file_filtops = 102 1.1 lukem { 1, filt_fileattach, NULL, NULL }; 103 1.8 jdolecek static struct filterops timer_filtops = 104 1.8 jdolecek { 0, filt_timerattach, filt_timerdetach, filt_timer }; 105 1.1 lukem 106 1.16.2.2 skrll POOL_INIT(kqueue_pool, sizeof(struct kqueue), 0, 0, 0, "kqueuepl", NULL); 107 1.16.2.2 skrll POOL_INIT(knote_pool, sizeof(struct knote), 0, 0, 0, "knotepl", NULL); 108 1.8 jdolecek static int kq_ncallouts = 0; 109 1.8 jdolecek static int kq_calloutmax = (4 * 1024); 110 1.7 thorpej 111 1.7 thorpej MALLOC_DEFINE(M_KEVENT, "kevent", "kevents/knotes"); 112 1.1 lukem 113 1.3 jdolecek #define KNOTE_ACTIVATE(kn) \ 114 1.3 jdolecek do { \ 115 1.1 lukem kn->kn_status |= KN_ACTIVE; \ 116 1.1 lukem if ((kn->kn_status & (KN_QUEUED | KN_DISABLED)) == 0) \ 117 1.1 lukem knote_enqueue(kn); \ 118 1.1 lukem } while(0) 119 1.1 lukem 120 1.1 lukem #define KN_HASHSIZE 64 /* XXX should be tunable */ 121 1.3 jdolecek #define KN_HASH(val, mask) (((val) ^ (val >> 8)) & (mask)) 122 1.1 lukem 123 1.3 jdolecek extern const struct filterops sig_filtops; 124 1.1 lukem 125 1.1 lukem /* 126 1.1 lukem * Table for for all system-defined filters. 127 1.3 jdolecek * These should be listed in the numeric order of the EVFILT_* defines. 128 1.3 jdolecek * If filtops is NULL, the filter isn't implemented in NetBSD. 129 1.3 jdolecek * End of list is when name is NULL. 130 1.1 lukem */ 131 1.3 jdolecek struct kfilter { 132 1.3 jdolecek const char *name; /* name of filter */ 133 1.3 jdolecek uint32_t filter; /* id of filter */ 134 1.3 jdolecek const struct filterops *filtops;/* operations for filter */ 135 1.3 jdolecek }; 136 1.3 jdolecek 137 1.3 jdolecek /* System defined filters */ 138 1.3 jdolecek static const struct kfilter sys_kfilters[] = { 139 1.3 jdolecek { "EVFILT_READ", EVFILT_READ, &file_filtops }, 140 1.3 jdolecek { "EVFILT_WRITE", EVFILT_WRITE, &file_filtops }, 141 1.3 jdolecek { "EVFILT_AIO", EVFILT_AIO, NULL }, 142 1.3 jdolecek { "EVFILT_VNODE", EVFILT_VNODE, &file_filtops }, 143 1.3 jdolecek { "EVFILT_PROC", EVFILT_PROC, &proc_filtops }, 144 1.3 jdolecek { "EVFILT_SIGNAL", EVFILT_SIGNAL, &sig_filtops }, 145 1.8 jdolecek { "EVFILT_TIMER", EVFILT_TIMER, &timer_filtops }, 146 1.16.2.8 skrll { NULL, 0, NULL }, /* end of list */ 147 1.1 lukem }; 148 1.1 lukem 149 1.3 jdolecek /* User defined kfilters */ 150 1.3 jdolecek static struct kfilter *user_kfilters; /* array */ 151 1.3 jdolecek static int user_kfilterc; /* current offset */ 152 1.3 jdolecek static int user_kfiltermaxc; /* max size so far */ 153 1.3 jdolecek 154 1.3 jdolecek /* 155 1.3 jdolecek * Find kfilter entry by name, or NULL if not found. 156 1.3 jdolecek */ 157 1.3 jdolecek static const struct kfilter * 158 1.3 jdolecek kfilter_byname_sys(const char *name) 159 1.3 jdolecek { 160 1.3 jdolecek int i; 161 1.3 jdolecek 162 1.3 jdolecek for (i = 0; sys_kfilters[i].name != NULL; i++) { 163 1.3 jdolecek if (strcmp(name, sys_kfilters[i].name) == 0) 164 1.3 jdolecek return (&sys_kfilters[i]); 165 1.3 jdolecek } 166 1.3 jdolecek return (NULL); 167 1.3 jdolecek } 168 1.3 jdolecek 169 1.3 jdolecek static struct kfilter * 170 1.3 jdolecek kfilter_byname_user(const char *name) 171 1.3 jdolecek { 172 1.3 jdolecek int i; 173 1.3 jdolecek 174 1.3 jdolecek /* user_kfilters[] could be NULL if no filters were registered */ 175 1.3 jdolecek if (!user_kfilters) 176 1.3 jdolecek return (NULL); 177 1.3 jdolecek 178 1.3 jdolecek for (i = 0; user_kfilters[i].name != NULL; i++) { 179 1.3 jdolecek if (user_kfilters[i].name != '\0' && 180 1.3 jdolecek strcmp(name, user_kfilters[i].name) == 0) 181 1.3 jdolecek return (&user_kfilters[i]); 182 1.3 jdolecek } 183 1.3 jdolecek return (NULL); 184 1.3 jdolecek } 185 1.3 jdolecek 186 1.3 jdolecek static const struct kfilter * 187 1.3 jdolecek kfilter_byname(const char *name) 188 1.3 jdolecek { 189 1.3 jdolecek const struct kfilter *kfilter; 190 1.3 jdolecek 191 1.3 jdolecek if ((kfilter = kfilter_byname_sys(name)) != NULL) 192 1.3 jdolecek return (kfilter); 193 1.3 jdolecek 194 1.3 jdolecek return (kfilter_byname_user(name)); 195 1.3 jdolecek } 196 1.3 jdolecek 197 1.3 jdolecek /* 198 1.3 jdolecek * Find kfilter entry by filter id, or NULL if not found. 199 1.3 jdolecek * Assumes entries are indexed in filter id order, for speed. 200 1.3 jdolecek */ 201 1.3 jdolecek static const struct kfilter * 202 1.3 jdolecek kfilter_byfilter(uint32_t filter) 203 1.3 jdolecek { 204 1.3 jdolecek const struct kfilter *kfilter; 205 1.3 jdolecek 206 1.3 jdolecek if (filter < EVFILT_SYSCOUNT) /* it's a system filter */ 207 1.3 jdolecek kfilter = &sys_kfilters[filter]; 208 1.3 jdolecek else if (user_kfilters != NULL && 209 1.3 jdolecek filter < EVFILT_SYSCOUNT + user_kfilterc) 210 1.3 jdolecek /* it's a user filter */ 211 1.3 jdolecek kfilter = &user_kfilters[filter - EVFILT_SYSCOUNT]; 212 1.3 jdolecek else 213 1.3 jdolecek return (NULL); /* out of range */ 214 1.3 jdolecek KASSERT(kfilter->filter == filter); /* sanity check! */ 215 1.3 jdolecek return (kfilter); 216 1.3 jdolecek } 217 1.3 jdolecek 218 1.3 jdolecek /* 219 1.3 jdolecek * Register a new kfilter. Stores the entry in user_kfilters. 220 1.3 jdolecek * Returns 0 if operation succeeded, or an appropriate errno(2) otherwise. 221 1.3 jdolecek * If retfilter != NULL, the new filterid is returned in it. 222 1.3 jdolecek */ 223 1.3 jdolecek int 224 1.3 jdolecek kfilter_register(const char *name, const struct filterops *filtops, 225 1.3 jdolecek int *retfilter) 226 1.1 lukem { 227 1.3 jdolecek struct kfilter *kfilter; 228 1.3 jdolecek void *space; 229 1.3 jdolecek int len; 230 1.3 jdolecek 231 1.3 jdolecek if (name == NULL || name[0] == '\0' || filtops == NULL) 232 1.3 jdolecek return (EINVAL); /* invalid args */ 233 1.3 jdolecek if (kfilter_byname(name) != NULL) 234 1.3 jdolecek return (EEXIST); /* already exists */ 235 1.3 jdolecek if (user_kfilterc > 0xffffffff - EVFILT_SYSCOUNT) 236 1.3 jdolecek return (EINVAL); /* too many */ 237 1.3 jdolecek 238 1.3 jdolecek /* check if need to grow user_kfilters */ 239 1.3 jdolecek if (user_kfilterc + 1 > user_kfiltermaxc) { 240 1.3 jdolecek /* 241 1.3 jdolecek * Grow in KFILTER_EXTENT chunks. Use malloc(9), because we 242 1.3 jdolecek * want to traverse user_kfilters as an array. 243 1.3 jdolecek */ 244 1.3 jdolecek user_kfiltermaxc += KFILTER_EXTENT; 245 1.3 jdolecek kfilter = malloc(user_kfiltermaxc * sizeof(struct filter *), 246 1.3 jdolecek M_KEVENT, M_WAITOK); 247 1.3 jdolecek 248 1.3 jdolecek /* copy existing user_kfilters */ 249 1.3 jdolecek if (user_kfilters != NULL) 250 1.3 jdolecek memcpy((caddr_t)kfilter, (caddr_t)user_kfilters, 251 1.3 jdolecek user_kfilterc * sizeof(struct kfilter *)); 252 1.3 jdolecek /* zero new sections */ 253 1.3 jdolecek memset((caddr_t)kfilter + 254 1.3 jdolecek user_kfilterc * sizeof(struct kfilter *), 0, 255 1.3 jdolecek (user_kfiltermaxc - user_kfilterc) * 256 1.3 jdolecek sizeof(struct kfilter *)); 257 1.3 jdolecek /* switch to new kfilter */ 258 1.3 jdolecek if (user_kfilters != NULL) 259 1.3 jdolecek free(user_kfilters, M_KEVENT); 260 1.3 jdolecek user_kfilters = kfilter; 261 1.3 jdolecek } 262 1.3 jdolecek len = strlen(name) + 1; /* copy name */ 263 1.3 jdolecek space = malloc(len, M_KEVENT, M_WAITOK); 264 1.3 jdolecek memcpy(space, name, len); 265 1.3 jdolecek user_kfilters[user_kfilterc].name = space; 266 1.3 jdolecek 267 1.3 jdolecek user_kfilters[user_kfilterc].filter = user_kfilterc + EVFILT_SYSCOUNT; 268 1.3 jdolecek 269 1.3 jdolecek len = sizeof(struct filterops); /* copy filtops */ 270 1.3 jdolecek space = malloc(len, M_KEVENT, M_WAITOK); 271 1.3 jdolecek memcpy(space, filtops, len); 272 1.3 jdolecek user_kfilters[user_kfilterc].filtops = space; 273 1.3 jdolecek 274 1.3 jdolecek if (retfilter != NULL) 275 1.3 jdolecek *retfilter = user_kfilters[user_kfilterc].filter; 276 1.3 jdolecek user_kfilterc++; /* finally, increment count */ 277 1.3 jdolecek return (0); 278 1.1 lukem } 279 1.1 lukem 280 1.3 jdolecek /* 281 1.3 jdolecek * Unregister a kfilter previously registered with kfilter_register. 282 1.3 jdolecek * This retains the filter id, but clears the name and frees filtops (filter 283 1.3 jdolecek * operations), so that the number isn't reused during a boot. 284 1.3 jdolecek * Returns 0 if operation succeeded, or an appropriate errno(2) otherwise. 285 1.3 jdolecek */ 286 1.3 jdolecek int 287 1.3 jdolecek kfilter_unregister(const char *name) 288 1.1 lukem { 289 1.3 jdolecek struct kfilter *kfilter; 290 1.3 jdolecek 291 1.3 jdolecek if (name == NULL || name[0] == '\0') 292 1.3 jdolecek return (EINVAL); /* invalid name */ 293 1.3 jdolecek 294 1.3 jdolecek if (kfilter_byname_sys(name) != NULL) 295 1.3 jdolecek return (EINVAL); /* can't detach system filters */ 296 1.1 lukem 297 1.3 jdolecek kfilter = kfilter_byname_user(name); 298 1.3 jdolecek if (kfilter == NULL) /* not found */ 299 1.3 jdolecek return (ENOENT); 300 1.1 lukem 301 1.3 jdolecek if (kfilter->name[0] != '\0') { 302 1.16.2.9 skrll /* XXXUNCONST Cast away const (but we know it's safe. */ 303 1.16.2.9 skrll free(__UNCONST(kfilter->name), M_KEVENT); 304 1.3 jdolecek kfilter->name = ""; /* mark as `not implemented' */ 305 1.3 jdolecek } 306 1.3 jdolecek if (kfilter->filtops != NULL) { 307 1.16.2.9 skrll /* XXXUNCONST Cast away const (but we know it's safe. */ 308 1.16.2.9 skrll free(__UNCONST(kfilter->filtops), M_KEVENT); 309 1.3 jdolecek kfilter->filtops = NULL; /* mark as `not implemented' */ 310 1.3 jdolecek } 311 1.1 lukem return (0); 312 1.1 lukem } 313 1.1 lukem 314 1.3 jdolecek 315 1.3 jdolecek /* 316 1.3 jdolecek * Filter attach method for EVFILT_READ and EVFILT_WRITE on normal file 317 1.3 jdolecek * descriptors. Calls struct fileops kqfilter method for given file descriptor. 318 1.3 jdolecek */ 319 1.3 jdolecek static int 320 1.3 jdolecek filt_fileattach(struct knote *kn) 321 1.3 jdolecek { 322 1.3 jdolecek struct file *fp; 323 1.3 jdolecek 324 1.3 jdolecek fp = kn->kn_fp; 325 1.3 jdolecek return ((*fp->f_ops->fo_kqfilter)(fp, kn)); 326 1.3 jdolecek } 327 1.3 jdolecek 328 1.3 jdolecek /* 329 1.3 jdolecek * Filter detach method for EVFILT_READ on kqueue descriptor. 330 1.3 jdolecek */ 331 1.1 lukem static void 332 1.1 lukem filt_kqdetach(struct knote *kn) 333 1.1 lukem { 334 1.3 jdolecek struct kqueue *kq; 335 1.1 lukem 336 1.3 jdolecek kq = (struct kqueue *)kn->kn_fp->f_data; 337 1.5 christos SLIST_REMOVE(&kq->kq_sel.sel_klist, kn, knote, kn_selnext); 338 1.1 lukem } 339 1.1 lukem 340 1.3 jdolecek /* 341 1.3 jdolecek * Filter event method for EVFILT_READ on kqueue descriptor. 342 1.3 jdolecek */ 343 1.1 lukem /*ARGSUSED*/ 344 1.1 lukem static int 345 1.1 lukem filt_kqueue(struct knote *kn, long hint) 346 1.1 lukem { 347 1.3 jdolecek struct kqueue *kq; 348 1.1 lukem 349 1.3 jdolecek kq = (struct kqueue *)kn->kn_fp->f_data; 350 1.1 lukem kn->kn_data = kq->kq_count; 351 1.1 lukem return (kn->kn_data > 0); 352 1.1 lukem } 353 1.1 lukem 354 1.3 jdolecek /* 355 1.3 jdolecek * Filter attach method for EVFILT_PROC. 356 1.3 jdolecek */ 357 1.1 lukem static int 358 1.1 lukem filt_procattach(struct knote *kn) 359 1.1 lukem { 360 1.1 lukem struct proc *p; 361 1.1 lukem 362 1.1 lukem p = pfind(kn->kn_id); 363 1.1 lukem if (p == NULL) 364 1.1 lukem return (ESRCH); 365 1.3 jdolecek 366 1.3 jdolecek /* 367 1.3 jdolecek * Fail if it's not owned by you, or the last exec gave us 368 1.3 jdolecek * setuid/setgid privs (unless you're root). 369 1.3 jdolecek */ 370 1.3 jdolecek if ((p->p_cred->p_ruid != curproc->p_cred->p_ruid || 371 1.3 jdolecek (p->p_flag & P_SUGID)) 372 1.3 jdolecek && suser(curproc->p_ucred, &curproc->p_acflag) != 0) 373 1.3 jdolecek return (EACCES); 374 1.1 lukem 375 1.1 lukem kn->kn_ptr.p_proc = p; 376 1.3 jdolecek kn->kn_flags |= EV_CLEAR; /* automatically set */ 377 1.1 lukem 378 1.1 lukem /* 379 1.1 lukem * internal flag indicating registration done by kernel 380 1.1 lukem */ 381 1.1 lukem if (kn->kn_flags & EV_FLAG1) { 382 1.3 jdolecek kn->kn_data = kn->kn_sdata; /* ppid */ 383 1.1 lukem kn->kn_fflags = NOTE_CHILD; 384 1.1 lukem kn->kn_flags &= ~EV_FLAG1; 385 1.1 lukem } 386 1.1 lukem 387 1.3 jdolecek /* XXXSMP lock the process? */ 388 1.1 lukem SLIST_INSERT_HEAD(&p->p_klist, kn, kn_selnext); 389 1.1 lukem 390 1.1 lukem return (0); 391 1.1 lukem } 392 1.1 lukem 393 1.1 lukem /* 394 1.3 jdolecek * Filter detach method for EVFILT_PROC. 395 1.3 jdolecek * 396 1.1 lukem * The knote may be attached to a different process, which may exit, 397 1.1 lukem * leaving nothing for the knote to be attached to. So when the process 398 1.1 lukem * exits, the knote is marked as DETACHED and also flagged as ONESHOT so 399 1.1 lukem * it will be deleted when read out. However, as part of the knote deletion, 400 1.1 lukem * this routine is called, so a check is needed to avoid actually performing 401 1.3 jdolecek * a detach, because the original process might not exist any more. 402 1.1 lukem */ 403 1.1 lukem static void 404 1.1 lukem filt_procdetach(struct knote *kn) 405 1.1 lukem { 406 1.3 jdolecek struct proc *p; 407 1.1 lukem 408 1.1 lukem if (kn->kn_status & KN_DETACHED) 409 1.1 lukem return; 410 1.1 lukem 411 1.3 jdolecek p = kn->kn_ptr.p_proc; 412 1.16.2.2 skrll KASSERT(p->p_stat == SZOMB || pfind(kn->kn_id) == p); 413 1.3 jdolecek 414 1.3 jdolecek /* XXXSMP lock the process? */ 415 1.1 lukem SLIST_REMOVE(&p->p_klist, kn, knote, kn_selnext); 416 1.1 lukem } 417 1.1 lukem 418 1.3 jdolecek /* 419 1.3 jdolecek * Filter event method for EVFILT_PROC. 420 1.3 jdolecek */ 421 1.1 lukem static int 422 1.1 lukem filt_proc(struct knote *kn, long hint) 423 1.1 lukem { 424 1.1 lukem u_int event; 425 1.1 lukem 426 1.1 lukem /* 427 1.1 lukem * mask off extra data 428 1.1 lukem */ 429 1.1 lukem event = (u_int)hint & NOTE_PCTRLMASK; 430 1.1 lukem 431 1.1 lukem /* 432 1.1 lukem * if the user is interested in this event, record it. 433 1.1 lukem */ 434 1.1 lukem if (kn->kn_sfflags & event) 435 1.1 lukem kn->kn_fflags |= event; 436 1.1 lukem 437 1.1 lukem /* 438 1.1 lukem * process is gone, so flag the event as finished. 439 1.1 lukem */ 440 1.1 lukem if (event == NOTE_EXIT) { 441 1.3 jdolecek /* 442 1.3 jdolecek * Detach the knote from watched process and mark 443 1.3 jdolecek * it as such. We can't leave this to kqueue_scan(), 444 1.3 jdolecek * since the process might not exist by then. And we 445 1.3 jdolecek * have to do this now, since psignal KNOTE() is called 446 1.3 jdolecek * also for zombies and we might end up reading freed 447 1.3 jdolecek * memory if the kevent would already be picked up 448 1.16.2.8 skrll * and knote g/c'ed. 449 1.3 jdolecek */ 450 1.3 jdolecek kn->kn_fop->f_detach(kn); 451 1.1 lukem kn->kn_status |= KN_DETACHED; 452 1.3 jdolecek 453 1.3 jdolecek /* Mark as ONESHOT, so that the knote it g/c'ed when read */ 454 1.16.2.8 skrll kn->kn_flags |= (EV_EOF | EV_ONESHOT); 455 1.1 lukem return (1); 456 1.1 lukem } 457 1.1 lukem 458 1.1 lukem /* 459 1.1 lukem * process forked, and user wants to track the new process, 460 1.1 lukem * so attach a new knote to it, and immediately report an 461 1.1 lukem * event with the parent's pid. 462 1.1 lukem */ 463 1.1 lukem if ((event == NOTE_FORK) && (kn->kn_sfflags & NOTE_TRACK)) { 464 1.1 lukem struct kevent kev; 465 1.1 lukem int error; 466 1.1 lukem 467 1.1 lukem /* 468 1.1 lukem * register knote with new process. 469 1.1 lukem */ 470 1.1 lukem kev.ident = hint & NOTE_PDATAMASK; /* pid */ 471 1.1 lukem kev.filter = kn->kn_filter; 472 1.1 lukem kev.flags = kn->kn_flags | EV_ADD | EV_ENABLE | EV_FLAG1; 473 1.1 lukem kev.fflags = kn->kn_sfflags; 474 1.1 lukem kev.data = kn->kn_id; /* parent */ 475 1.1 lukem kev.udata = kn->kn_kevent.udata; /* preserve udata */ 476 1.1 lukem error = kqueue_register(kn->kn_kq, &kev, NULL); 477 1.1 lukem if (error) 478 1.1 lukem kn->kn_fflags |= NOTE_TRACKERR; 479 1.1 lukem } 480 1.1 lukem 481 1.1 lukem return (kn->kn_fflags != 0); 482 1.8 jdolecek } 483 1.8 jdolecek 484 1.8 jdolecek static void 485 1.8 jdolecek filt_timerexpire(void *knx) 486 1.8 jdolecek { 487 1.8 jdolecek struct knote *kn = knx; 488 1.8 jdolecek int tticks; 489 1.8 jdolecek 490 1.8 jdolecek kn->kn_data++; 491 1.8 jdolecek KNOTE_ACTIVATE(kn); 492 1.8 jdolecek 493 1.8 jdolecek if ((kn->kn_flags & EV_ONESHOT) == 0) { 494 1.8 jdolecek tticks = mstohz(kn->kn_sdata); 495 1.8 jdolecek callout_schedule((struct callout *)kn->kn_hook, tticks); 496 1.8 jdolecek } 497 1.8 jdolecek } 498 1.8 jdolecek 499 1.8 jdolecek /* 500 1.8 jdolecek * data contains amount of time to sleep, in milliseconds 501 1.16.2.8 skrll */ 502 1.8 jdolecek static int 503 1.8 jdolecek filt_timerattach(struct knote *kn) 504 1.8 jdolecek { 505 1.8 jdolecek struct callout *calloutp; 506 1.8 jdolecek int tticks; 507 1.8 jdolecek 508 1.8 jdolecek if (kq_ncallouts >= kq_calloutmax) 509 1.8 jdolecek return (ENOMEM); 510 1.8 jdolecek kq_ncallouts++; 511 1.8 jdolecek 512 1.8 jdolecek tticks = mstohz(kn->kn_sdata); 513 1.8 jdolecek 514 1.8 jdolecek /* if the supplied value is under our resolution, use 1 tick */ 515 1.8 jdolecek if (tticks == 0) { 516 1.8 jdolecek if (kn->kn_sdata == 0) 517 1.8 jdolecek return (EINVAL); 518 1.8 jdolecek tticks = 1; 519 1.8 jdolecek } 520 1.8 jdolecek 521 1.8 jdolecek kn->kn_flags |= EV_CLEAR; /* automatically set */ 522 1.8 jdolecek MALLOC(calloutp, struct callout *, sizeof(*calloutp), 523 1.8 jdolecek M_KEVENT, 0); 524 1.8 jdolecek callout_init(calloutp); 525 1.8 jdolecek callout_reset(calloutp, tticks, filt_timerexpire, kn); 526 1.8 jdolecek kn->kn_hook = calloutp; 527 1.8 jdolecek 528 1.8 jdolecek return (0); 529 1.8 jdolecek } 530 1.8 jdolecek 531 1.8 jdolecek static void 532 1.8 jdolecek filt_timerdetach(struct knote *kn) 533 1.8 jdolecek { 534 1.8 jdolecek struct callout *calloutp; 535 1.8 jdolecek 536 1.8 jdolecek calloutp = (struct callout *)kn->kn_hook; 537 1.8 jdolecek callout_stop(calloutp); 538 1.8 jdolecek FREE(calloutp, M_KEVENT); 539 1.8 jdolecek kq_ncallouts--; 540 1.8 jdolecek } 541 1.8 jdolecek 542 1.8 jdolecek static int 543 1.8 jdolecek filt_timer(struct knote *kn, long hint) 544 1.8 jdolecek { 545 1.8 jdolecek return (kn->kn_data != 0); 546 1.1 lukem } 547 1.1 lukem 548 1.3 jdolecek /* 549 1.3 jdolecek * filt_seltrue: 550 1.3 jdolecek * 551 1.3 jdolecek * This filter "event" routine simulates seltrue(). 552 1.3 jdolecek */ 553 1.1 lukem int 554 1.3 jdolecek filt_seltrue(struct knote *kn, long hint) 555 1.1 lukem { 556 1.1 lukem 557 1.3 jdolecek /* 558 1.3 jdolecek * We don't know how much data can be read/written, 559 1.3 jdolecek * but we know that it *can* be. This is about as 560 1.3 jdolecek * good as select/poll does as well. 561 1.3 jdolecek */ 562 1.3 jdolecek kn->kn_data = 0; 563 1.3 jdolecek return (1); 564 1.3 jdolecek } 565 1.3 jdolecek 566 1.3 jdolecek /* 567 1.3 jdolecek * This provides full kqfilter entry for device switch tables, which 568 1.3 jdolecek * has same effect as filter using filt_seltrue() as filter method. 569 1.3 jdolecek */ 570 1.3 jdolecek static void 571 1.3 jdolecek filt_seltruedetach(struct knote *kn) 572 1.3 jdolecek { 573 1.3 jdolecek /* Nothing to do */ 574 1.3 jdolecek } 575 1.3 jdolecek 576 1.3 jdolecek static const struct filterops seltrue_filtops = 577 1.3 jdolecek { 1, NULL, filt_seltruedetach, filt_seltrue }; 578 1.3 jdolecek 579 1.3 jdolecek int 580 1.3 jdolecek seltrue_kqfilter(dev_t dev, struct knote *kn) 581 1.3 jdolecek { 582 1.3 jdolecek switch (kn->kn_filter) { 583 1.3 jdolecek case EVFILT_READ: 584 1.3 jdolecek case EVFILT_WRITE: 585 1.3 jdolecek kn->kn_fop = &seltrue_filtops; 586 1.3 jdolecek break; 587 1.3 jdolecek default: 588 1.3 jdolecek return (1); 589 1.3 jdolecek } 590 1.3 jdolecek 591 1.3 jdolecek /* Nothing more to do */ 592 1.3 jdolecek return (0); 593 1.3 jdolecek } 594 1.3 jdolecek 595 1.3 jdolecek /* 596 1.3 jdolecek * kqueue(2) system call. 597 1.3 jdolecek */ 598 1.3 jdolecek int 599 1.6 thorpej sys_kqueue(struct lwp *l, void *v, register_t *retval) 600 1.3 jdolecek { 601 1.3 jdolecek struct filedesc *fdp; 602 1.3 jdolecek struct kqueue *kq; 603 1.3 jdolecek struct file *fp; 604 1.6 thorpej struct proc *p; 605 1.3 jdolecek int fd, error; 606 1.3 jdolecek 607 1.6 thorpej p = l->l_proc; 608 1.3 jdolecek fdp = p->p_fd; 609 1.3 jdolecek error = falloc(p, &fp, &fd); /* setup a new file descriptor */ 610 1.1 lukem if (error) 611 1.1 lukem return (error); 612 1.1 lukem fp->f_flag = FREAD | FWRITE; 613 1.1 lukem fp->f_type = DTYPE_KQUEUE; 614 1.1 lukem fp->f_ops = &kqueueops; 615 1.3 jdolecek kq = pool_get(&kqueue_pool, PR_WAITOK); 616 1.3 jdolecek memset((char *)kq, 0, sizeof(struct kqueue)); 617 1.12 pk simple_lock_init(&kq->kq_lock); 618 1.1 lukem TAILQ_INIT(&kq->kq_head); 619 1.3 jdolecek fp->f_data = (caddr_t)kq; /* store the kqueue with the fp */ 620 1.3 jdolecek *retval = fd; 621 1.1 lukem if (fdp->fd_knlistsize < 0) 622 1.3 jdolecek fdp->fd_knlistsize = 0; /* this process has a kq */ 623 1.1 lukem kq->kq_fdp = fdp; 624 1.3 jdolecek FILE_SET_MATURE(fp); 625 1.16.2.5 skrll FILE_UNUSE(fp, l); /* falloc() does FILE_USE() */ 626 1.1 lukem return (error); 627 1.1 lukem } 628 1.1 lukem 629 1.3 jdolecek /* 630 1.3 jdolecek * kevent(2) system call. 631 1.3 jdolecek */ 632 1.16.2.9 skrll static int 633 1.16.2.9 skrll kevent_fetch_changes(void *private, const struct kevent *changelist, 634 1.16.2.9 skrll struct kevent *changes, size_t index, int n) 635 1.16.2.9 skrll { 636 1.16.2.9 skrll return copyin(changelist + index, changes, n * sizeof(*changes)); 637 1.16.2.9 skrll } 638 1.16.2.9 skrll 639 1.16.2.9 skrll static int 640 1.16.2.9 skrll kevent_put_events(void *private, struct kevent *events, 641 1.16.2.9 skrll struct kevent *eventlist, size_t index, int n) 642 1.16.2.9 skrll { 643 1.16.2.9 skrll return copyout(events, eventlist + index, n * sizeof(*events)); 644 1.16.2.9 skrll } 645 1.16.2.9 skrll 646 1.16.2.9 skrll static const struct kevent_ops kevent_native_ops = { 647 1.16.2.9 skrll keo_private: NULL, 648 1.16.2.9 skrll keo_fetch_timeout: copyin, 649 1.16.2.9 skrll keo_fetch_changes: kevent_fetch_changes, 650 1.16.2.9 skrll keo_put_events: kevent_put_events, 651 1.16.2.9 skrll }; 652 1.16.2.9 skrll 653 1.1 lukem int 654 1.6 thorpej sys_kevent(struct lwp *l, void *v, register_t *retval) 655 1.1 lukem { 656 1.3 jdolecek struct sys_kevent_args /* { 657 1.3 jdolecek syscallarg(int) fd; 658 1.3 jdolecek syscallarg(const struct kevent *) changelist; 659 1.3 jdolecek syscallarg(size_t) nchanges; 660 1.3 jdolecek syscallarg(struct kevent *) eventlist; 661 1.3 jdolecek syscallarg(size_t) nevents; 662 1.3 jdolecek syscallarg(const struct timespec *) timeout; 663 1.3 jdolecek } */ *uap = v; 664 1.16.2.9 skrll 665 1.16.2.9 skrll return kevent1(l, retval, SCARG(uap, fd), SCARG(uap, changelist), 666 1.16.2.9 skrll SCARG(uap, nchanges), SCARG(uap, eventlist), SCARG(uap, nevents), 667 1.16.2.9 skrll SCARG(uap, timeout), &kevent_native_ops); 668 1.16.2.9 skrll } 669 1.16.2.9 skrll 670 1.16.2.9 skrll int 671 1.16.2.9 skrll kevent1(struct lwp *l, register_t *retval, int fd, 672 1.16.2.9 skrll const struct kevent *changelist, size_t nchanges, struct kevent *eventlist, 673 1.16.2.9 skrll size_t nevents, const struct timespec *timeout, 674 1.16.2.9 skrll const struct kevent_ops *keops) 675 1.16.2.9 skrll { 676 1.3 jdolecek struct kevent *kevp; 677 1.3 jdolecek struct kqueue *kq; 678 1.3 jdolecek struct file *fp; 679 1.3 jdolecek struct timespec ts; 680 1.6 thorpej struct proc *p; 681 1.16.2.9 skrll size_t i, n, ichange; 682 1.3 jdolecek int nerrors, error; 683 1.3 jdolecek 684 1.6 thorpej p = l->l_proc; 685 1.3 jdolecek /* check that we're dealing with a kq */ 686 1.16.2.9 skrll fp = fd_getfile(p->p_fd, fd); 687 1.10 pk if (fp == NULL) 688 1.1 lukem return (EBADF); 689 1.10 pk 690 1.10 pk if (fp->f_type != DTYPE_KQUEUE) { 691 1.10 pk simple_unlock(&fp->f_slock); 692 1.10 pk return (EBADF); 693 1.10 pk } 694 1.1 lukem 695 1.3 jdolecek FILE_USE(fp); 696 1.1 lukem 697 1.16.2.9 skrll if (timeout != NULL) { 698 1.16.2.9 skrll error = (*keops->keo_fetch_timeout)(timeout, &ts, sizeof(ts)); 699 1.1 lukem if (error) 700 1.1 lukem goto done; 701 1.16.2.9 skrll timeout = &ts; 702 1.1 lukem } 703 1.1 lukem 704 1.1 lukem kq = (struct kqueue *)fp->f_data; 705 1.1 lukem nerrors = 0; 706 1.16.2.9 skrll ichange = 0; 707 1.1 lukem 708 1.3 jdolecek /* traverse list of events to register */ 709 1.16.2.9 skrll while (nchanges > 0) { 710 1.3 jdolecek /* copyin a maximum of KQ_EVENTS at each pass */ 711 1.16.2.9 skrll n = MIN(nchanges, KQ_NEVENTS); 712 1.16.2.9 skrll error = (*keops->keo_fetch_changes)(keops->keo_private, 713 1.16.2.9 skrll changelist, kq->kq_kev, ichange, n); 714 1.1 lukem if (error) 715 1.1 lukem goto done; 716 1.1 lukem for (i = 0; i < n; i++) { 717 1.1 lukem kevp = &kq->kq_kev[i]; 718 1.1 lukem kevp->flags &= ~EV_SYSFLAGS; 719 1.3 jdolecek /* register each knote */ 720 1.16.2.5 skrll error = kqueue_register(kq, kevp, l); 721 1.1 lukem if (error) { 722 1.16.2.9 skrll if (nevents != 0) { 723 1.1 lukem kevp->flags = EV_ERROR; 724 1.1 lukem kevp->data = error; 725 1.16.2.9 skrll error = (*keops->keo_put_events) 726 1.16.2.9 skrll (keops->keo_private, kevp, 727 1.16.2.9 skrll eventlist, nerrors, 1); 728 1.3 jdolecek if (error) 729 1.3 jdolecek goto done; 730 1.16.2.9 skrll nevents--; 731 1.1 lukem nerrors++; 732 1.1 lukem } else { 733 1.1 lukem goto done; 734 1.1 lukem } 735 1.1 lukem } 736 1.1 lukem } 737 1.16.2.9 skrll nchanges -= n; /* update the results */ 738 1.16.2.9 skrll ichange += n; 739 1.1 lukem } 740 1.1 lukem if (nerrors) { 741 1.3 jdolecek *retval = nerrors; 742 1.1 lukem error = 0; 743 1.1 lukem goto done; 744 1.1 lukem } 745 1.1 lukem 746 1.3 jdolecek /* actually scan through the events */ 747 1.16.2.9 skrll error = kqueue_scan(fp, nevents, eventlist, timeout, l, retval, keops); 748 1.3 jdolecek done: 749 1.16.2.5 skrll FILE_UNUSE(fp, l); 750 1.1 lukem return (error); 751 1.1 lukem } 752 1.1 lukem 753 1.3 jdolecek /* 754 1.3 jdolecek * Register a given kevent kev onto the kqueue 755 1.3 jdolecek */ 756 1.1 lukem int 757 1.16.2.5 skrll kqueue_register(struct kqueue *kq, struct kevent *kev, struct lwp *l) 758 1.1 lukem { 759 1.3 jdolecek const struct kfilter *kfilter; 760 1.3 jdolecek struct filedesc *fdp; 761 1.16.2.5 skrll struct file *fp; 762 1.16.2.7 skrll struct knote *kn; 763 1.3 jdolecek int s, error; 764 1.3 jdolecek 765 1.3 jdolecek fdp = kq->kq_fdp; 766 1.3 jdolecek fp = NULL; 767 1.3 jdolecek kn = NULL; 768 1.3 jdolecek error = 0; 769 1.3 jdolecek kfilter = kfilter_byfilter(kev->filter); 770 1.3 jdolecek if (kfilter == NULL || kfilter->filtops == NULL) { 771 1.3 jdolecek /* filter not found nor implemented */ 772 1.1 lukem return (EINVAL); 773 1.1 lukem } 774 1.1 lukem 775 1.3 jdolecek /* search if knote already exists */ 776 1.3 jdolecek if (kfilter->filtops->f_isfd) { 777 1.3 jdolecek /* monitoring a file descriptor */ 778 1.3 jdolecek if ((fp = fd_getfile(fdp, kev->ident)) == NULL) 779 1.3 jdolecek return (EBADF); /* validate descriptor */ 780 1.3 jdolecek FILE_USE(fp); 781 1.1 lukem 782 1.1 lukem if (kev->ident < fdp->fd_knlistsize) { 783 1.1 lukem SLIST_FOREACH(kn, &fdp->fd_knlist[kev->ident], kn_link) 784 1.1 lukem if (kq == kn->kn_kq && 785 1.1 lukem kev->filter == kn->kn_filter) 786 1.1 lukem break; 787 1.1 lukem } 788 1.1 lukem } else { 789 1.3 jdolecek /* 790 1.3 jdolecek * not monitoring a file descriptor, so 791 1.3 jdolecek * lookup knotes in internal hash table 792 1.3 jdolecek */ 793 1.1 lukem if (fdp->fd_knhashmask != 0) { 794 1.1 lukem struct klist *list; 795 1.16.2.8 skrll 796 1.1 lukem list = &fdp->fd_knhash[ 797 1.1 lukem KN_HASH((u_long)kev->ident, fdp->fd_knhashmask)]; 798 1.1 lukem SLIST_FOREACH(kn, list, kn_link) 799 1.1 lukem if (kev->ident == kn->kn_id && 800 1.1 lukem kq == kn->kn_kq && 801 1.1 lukem kev->filter == kn->kn_filter) 802 1.1 lukem break; 803 1.1 lukem } 804 1.1 lukem } 805 1.1 lukem 806 1.1 lukem if (kn == NULL && ((kev->flags & EV_ADD) == 0)) { 807 1.3 jdolecek error = ENOENT; /* filter not found */ 808 1.1 lukem goto done; 809 1.1 lukem } 810 1.1 lukem 811 1.1 lukem /* 812 1.1 lukem * kn now contains the matching knote, or NULL if no match 813 1.1 lukem */ 814 1.1 lukem if (kev->flags & EV_ADD) { 815 1.3 jdolecek /* add knote */ 816 1.1 lukem 817 1.1 lukem if (kn == NULL) { 818 1.3 jdolecek /* create new knote */ 819 1.3 jdolecek kn = pool_get(&knote_pool, PR_WAITOK); 820 1.1 lukem if (kn == NULL) { 821 1.1 lukem error = ENOMEM; 822 1.1 lukem goto done; 823 1.1 lukem } 824 1.1 lukem kn->kn_fp = fp; 825 1.1 lukem kn->kn_kq = kq; 826 1.3 jdolecek kn->kn_fop = kfilter->filtops; 827 1.1 lukem 828 1.1 lukem /* 829 1.1 lukem * apply reference count to knote structure, and 830 1.1 lukem * do not release it at the end of this routine. 831 1.1 lukem */ 832 1.1 lukem fp = NULL; 833 1.1 lukem 834 1.1 lukem kn->kn_sfflags = kev->fflags; 835 1.1 lukem kn->kn_sdata = kev->data; 836 1.1 lukem kev->fflags = 0; 837 1.1 lukem kev->data = 0; 838 1.1 lukem kn->kn_kevent = *kev; 839 1.1 lukem 840 1.1 lukem knote_attach(kn, fdp); 841 1.3 jdolecek if ((error = kfilter->filtops->f_attach(kn)) != 0) { 842 1.16.2.5 skrll knote_drop(kn, l, fdp); 843 1.1 lukem goto done; 844 1.1 lukem } 845 1.1 lukem } else { 846 1.3 jdolecek /* modify existing knote */ 847 1.3 jdolecek 848 1.1 lukem /* 849 1.1 lukem * The user may change some filter values after the 850 1.16.2.8 skrll * initial EV_ADD, but doing so will not reset any 851 1.1 lukem * filter which have already been triggered. 852 1.1 lukem */ 853 1.1 lukem kn->kn_sfflags = kev->fflags; 854 1.1 lukem kn->kn_sdata = kev->data; 855 1.1 lukem kn->kn_kevent.udata = kev->udata; 856 1.1 lukem } 857 1.1 lukem 858 1.11 pk s = splsched(); 859 1.1 lukem if (kn->kn_fop->f_event(kn, 0)) 860 1.1 lukem KNOTE_ACTIVATE(kn); 861 1.1 lukem splx(s); 862 1.1 lukem 863 1.3 jdolecek } else if (kev->flags & EV_DELETE) { /* delete knote */ 864 1.1 lukem kn->kn_fop->f_detach(kn); 865 1.16.2.5 skrll knote_drop(kn, l, fdp); 866 1.1 lukem goto done; 867 1.1 lukem } 868 1.1 lukem 869 1.3 jdolecek /* disable knote */ 870 1.1 lukem if ((kev->flags & EV_DISABLE) && 871 1.1 lukem ((kn->kn_status & KN_DISABLED) == 0)) { 872 1.11 pk s = splsched(); 873 1.1 lukem kn->kn_status |= KN_DISABLED; 874 1.1 lukem splx(s); 875 1.1 lukem } 876 1.1 lukem 877 1.3 jdolecek /* enable knote */ 878 1.1 lukem if ((kev->flags & EV_ENABLE) && (kn->kn_status & KN_DISABLED)) { 879 1.11 pk s = splsched(); 880 1.1 lukem kn->kn_status &= ~KN_DISABLED; 881 1.1 lukem if ((kn->kn_status & KN_ACTIVE) && 882 1.1 lukem ((kn->kn_status & KN_QUEUED) == 0)) 883 1.1 lukem knote_enqueue(kn); 884 1.1 lukem splx(s); 885 1.1 lukem } 886 1.1 lukem 887 1.3 jdolecek done: 888 1.1 lukem if (fp != NULL) 889 1.16.2.5 skrll FILE_UNUSE(fp, l); 890 1.1 lukem return (error); 891 1.1 lukem } 892 1.1 lukem 893 1.3 jdolecek /* 894 1.3 jdolecek * Scan through the list of events on fp (for a maximum of maxevents), 895 1.3 jdolecek * returning the results in to ulistp. Timeout is determined by tsp; if 896 1.3 jdolecek * NULL, wait indefinitely, if 0 valued, perform a poll, otherwise wait 897 1.3 jdolecek * as appropriate. 898 1.3 jdolecek */ 899 1.1 lukem static int 900 1.3 jdolecek kqueue_scan(struct file *fp, size_t maxevents, struct kevent *ulistp, 901 1.16.2.9 skrll const struct timespec *tsp, struct lwp *l, register_t *retval, 902 1.16.2.9 skrll const struct kevent_ops *keops) 903 1.1 lukem { 904 1.16.2.5 skrll struct proc *p = l->l_proc; 905 1.3 jdolecek struct kqueue *kq; 906 1.3 jdolecek struct kevent *kevp; 907 1.3 jdolecek struct timeval atv; 908 1.16.2.2 skrll struct knote *kn, *marker=NULL; 909 1.16.2.9 skrll size_t count, nkev, nevents; 910 1.3 jdolecek int s, timeout, error; 911 1.1 lukem 912 1.3 jdolecek kq = (struct kqueue *)fp->f_data; 913 1.1 lukem count = maxevents; 914 1.16.2.9 skrll nkev = nevents = error = 0; 915 1.1 lukem if (count == 0) 916 1.1 lukem goto done; 917 1.1 lukem 918 1.9 jdolecek if (tsp) { /* timeout supplied */ 919 1.1 lukem TIMESPEC_TO_TIMEVAL(&atv, tsp); 920 1.1 lukem if (itimerfix(&atv)) { 921 1.1 lukem error = EINVAL; 922 1.1 lukem goto done; 923 1.1 lukem } 924 1.3 jdolecek s = splclock(); 925 1.3 jdolecek timeradd(&atv, &time, &atv); /* calc. time to wait until */ 926 1.3 jdolecek splx(s); 927 1.9 jdolecek timeout = hzto(&atv); 928 1.9 jdolecek if (timeout <= 0) 929 1.9 jdolecek timeout = -1; /* do poll */ 930 1.1 lukem } else { 931 1.9 jdolecek /* no timeout, wait forever */ 932 1.1 lukem timeout = 0; 933 1.1 lukem } 934 1.16.2.2 skrll 935 1.16.2.2 skrll MALLOC(marker, struct knote *, sizeof(*marker), M_KEVENT, M_WAITOK); 936 1.16.2.2 skrll memset(marker, 0, sizeof(*marker)); 937 1.16.2.2 skrll 938 1.1 lukem goto start; 939 1.1 lukem 940 1.3 jdolecek retry: 941 1.9 jdolecek if (tsp) { 942 1.9 jdolecek /* 943 1.9 jdolecek * We have to recalculate the timeout on every retry. 944 1.9 jdolecek */ 945 1.9 jdolecek timeout = hzto(&atv); 946 1.9 jdolecek if (timeout <= 0) 947 1.9 jdolecek goto done; 948 1.1 lukem } 949 1.1 lukem 950 1.3 jdolecek start: 951 1.1 lukem kevp = kq->kq_kev; 952 1.11 pk s = splsched(); 953 1.12 pk simple_lock(&kq->kq_lock); 954 1.1 lukem if (kq->kq_count == 0) { 955 1.16.2.8 skrll if (timeout < 0) { 956 1.1 lukem error = EWOULDBLOCK; 957 1.16.2.2 skrll simple_unlock(&kq->kq_lock); 958 1.1 lukem } else { 959 1.1 lukem kq->kq_state |= KQ_SLEEP; 960 1.12 pk error = ltsleep(kq, PSOCK | PCATCH | PNORELOCK, 961 1.12 pk "kqread", timeout, &kq->kq_lock); 962 1.1 lukem } 963 1.1 lukem splx(s); 964 1.1 lukem if (error == 0) 965 1.1 lukem goto retry; 966 1.1 lukem /* don't restart after signals... */ 967 1.1 lukem if (error == ERESTART) 968 1.1 lukem error = EINTR; 969 1.1 lukem else if (error == EWOULDBLOCK) 970 1.1 lukem error = 0; 971 1.1 lukem goto done; 972 1.1 lukem } 973 1.1 lukem 974 1.3 jdolecek /* mark end of knote list */ 975 1.16.2.8 skrll TAILQ_INSERT_TAIL(&kq->kq_head, marker, kn_tqe); 976 1.12 pk simple_unlock(&kq->kq_lock); 977 1.3 jdolecek 978 1.3 jdolecek while (count) { /* while user wants data ... */ 979 1.12 pk simple_lock(&kq->kq_lock); 980 1.3 jdolecek kn = TAILQ_FIRST(&kq->kq_head); /* get next knote */ 981 1.16.2.8 skrll TAILQ_REMOVE(&kq->kq_head, kn, kn_tqe); 982 1.16.2.2 skrll if (kn == marker) { /* if it's our marker, stop */ 983 1.12 pk /* What if it's some else's marker? */ 984 1.12 pk simple_unlock(&kq->kq_lock); 985 1.1 lukem splx(s); 986 1.1 lukem if (count == maxevents) 987 1.1 lukem goto retry; 988 1.1 lukem goto done; 989 1.1 lukem } 990 1.12 pk kq->kq_count--; 991 1.12 pk simple_unlock(&kq->kq_lock); 992 1.12 pk 993 1.1 lukem if (kn->kn_status & KN_DISABLED) { 994 1.3 jdolecek /* don't want disabled events */ 995 1.1 lukem kn->kn_status &= ~KN_QUEUED; 996 1.1 lukem continue; 997 1.1 lukem } 998 1.1 lukem if ((kn->kn_flags & EV_ONESHOT) == 0 && 999 1.1 lukem kn->kn_fop->f_event(kn, 0) == 0) { 1000 1.3 jdolecek /* 1001 1.3 jdolecek * non-ONESHOT event that hasn't 1002 1.3 jdolecek * triggered again, so de-queue. 1003 1.3 jdolecek */ 1004 1.1 lukem kn->kn_status &= ~(KN_QUEUED | KN_ACTIVE); 1005 1.1 lukem continue; 1006 1.1 lukem } 1007 1.1 lukem *kevp = kn->kn_kevent; 1008 1.1 lukem kevp++; 1009 1.1 lukem nkev++; 1010 1.1 lukem if (kn->kn_flags & EV_ONESHOT) { 1011 1.3 jdolecek /* delete ONESHOT events after retrieval */ 1012 1.1 lukem kn->kn_status &= ~KN_QUEUED; 1013 1.1 lukem splx(s); 1014 1.1 lukem kn->kn_fop->f_detach(kn); 1015 1.16.2.5 skrll knote_drop(kn, l, p->p_fd); 1016 1.11 pk s = splsched(); 1017 1.1 lukem } else if (kn->kn_flags & EV_CLEAR) { 1018 1.3 jdolecek /* clear state after retrieval */ 1019 1.1 lukem kn->kn_data = 0; 1020 1.1 lukem kn->kn_fflags = 0; 1021 1.1 lukem kn->kn_status &= ~(KN_QUEUED | KN_ACTIVE); 1022 1.1 lukem } else { 1023 1.3 jdolecek /* add event back on list */ 1024 1.12 pk simple_lock(&kq->kq_lock); 1025 1.16.2.8 skrll TAILQ_INSERT_TAIL(&kq->kq_head, kn, kn_tqe); 1026 1.12 pk kq->kq_count++; 1027 1.12 pk simple_unlock(&kq->kq_lock); 1028 1.1 lukem } 1029 1.1 lukem count--; 1030 1.1 lukem if (nkev == KQ_NEVENTS) { 1031 1.3 jdolecek /* do copyouts in KQ_NEVENTS chunks */ 1032 1.1 lukem splx(s); 1033 1.16.2.9 skrll error = (*keops->keo_put_events)(keops->keo_private, 1034 1.16.2.9 skrll &kq->kq_kev[0], ulistp, nevents, nkev); 1035 1.16.2.9 skrll nevents += nkev; 1036 1.1 lukem nkev = 0; 1037 1.1 lukem kevp = kq->kq_kev; 1038 1.11 pk s = splsched(); 1039 1.1 lukem if (error) 1040 1.1 lukem break; 1041 1.1 lukem } 1042 1.1 lukem } 1043 1.3 jdolecek 1044 1.3 jdolecek /* remove marker */ 1045 1.12 pk simple_lock(&kq->kq_lock); 1046 1.16.2.8 skrll TAILQ_REMOVE(&kq->kq_head, marker, kn_tqe); 1047 1.12 pk simple_unlock(&kq->kq_lock); 1048 1.1 lukem splx(s); 1049 1.3 jdolecek done: 1050 1.16.2.2 skrll if (marker) 1051 1.16.2.2 skrll FREE(marker, M_KEVENT); 1052 1.16.2.2 skrll 1053 1.16.2.9 skrll if (nkev != 0) 1054 1.3 jdolecek /* copyout remaining events */ 1055 1.16.2.9 skrll error = (*keops->keo_put_events)(keops->keo_private, 1056 1.16.2.9 skrll &kq->kq_kev[0], ulistp, nevents, nkev); 1057 1.3 jdolecek *retval = maxevents - count; 1058 1.3 jdolecek 1059 1.1 lukem return (error); 1060 1.1 lukem } 1061 1.1 lukem 1062 1.1 lukem /* 1063 1.3 jdolecek * struct fileops read method for a kqueue descriptor. 1064 1.3 jdolecek * Not implemented. 1065 1.3 jdolecek * XXX: This could be expanded to call kqueue_scan, if desired. 1066 1.1 lukem */ 1067 1.1 lukem /*ARGSUSED*/ 1068 1.1 lukem static int 1069 1.3 jdolecek kqueue_read(struct file *fp, off_t *offset, struct uio *uio, 1070 1.3 jdolecek struct ucred *cred, int flags) 1071 1.1 lukem { 1072 1.3 jdolecek 1073 1.1 lukem return (ENXIO); 1074 1.1 lukem } 1075 1.1 lukem 1076 1.3 jdolecek /* 1077 1.3 jdolecek * struct fileops write method for a kqueue descriptor. 1078 1.3 jdolecek * Not implemented. 1079 1.3 jdolecek */ 1080 1.1 lukem /*ARGSUSED*/ 1081 1.1 lukem static int 1082 1.3 jdolecek kqueue_write(struct file *fp, off_t *offset, struct uio *uio, 1083 1.3 jdolecek struct ucred *cred, int flags) 1084 1.1 lukem { 1085 1.3 jdolecek 1086 1.1 lukem return (ENXIO); 1087 1.1 lukem } 1088 1.1 lukem 1089 1.3 jdolecek /* 1090 1.3 jdolecek * struct fileops ioctl method for a kqueue descriptor. 1091 1.3 jdolecek * 1092 1.3 jdolecek * Two ioctls are currently supported. They both use struct kfilter_mapping: 1093 1.3 jdolecek * KFILTER_BYNAME find name for filter, and return result in 1094 1.3 jdolecek * name, which is of size len. 1095 1.3 jdolecek * KFILTER_BYFILTER find filter for name. len is ignored. 1096 1.3 jdolecek */ 1097 1.1 lukem /*ARGSUSED*/ 1098 1.1 lukem static int 1099 1.16.2.5 skrll kqueue_ioctl(struct file *fp, u_long com, void *data, struct lwp *l) 1100 1.1 lukem { 1101 1.3 jdolecek struct kfilter_mapping *km; 1102 1.3 jdolecek const struct kfilter *kfilter; 1103 1.3 jdolecek char *name; 1104 1.3 jdolecek int error; 1105 1.3 jdolecek 1106 1.16.2.8 skrll km = (struct kfilter_mapping *)data; 1107 1.3 jdolecek error = 0; 1108 1.3 jdolecek 1109 1.3 jdolecek switch (com) { 1110 1.3 jdolecek case KFILTER_BYFILTER: /* convert filter -> name */ 1111 1.3 jdolecek kfilter = kfilter_byfilter(km->filter); 1112 1.3 jdolecek if (kfilter != NULL) 1113 1.3 jdolecek error = copyoutstr(kfilter->name, km->name, km->len, 1114 1.3 jdolecek NULL); 1115 1.3 jdolecek else 1116 1.3 jdolecek error = ENOENT; 1117 1.3 jdolecek break; 1118 1.3 jdolecek 1119 1.3 jdolecek case KFILTER_BYNAME: /* convert name -> filter */ 1120 1.3 jdolecek MALLOC(name, char *, KFILTER_MAXNAME, M_KEVENT, M_WAITOK); 1121 1.3 jdolecek error = copyinstr(km->name, name, KFILTER_MAXNAME, NULL); 1122 1.3 jdolecek if (error) { 1123 1.3 jdolecek FREE(name, M_KEVENT); 1124 1.3 jdolecek break; 1125 1.3 jdolecek } 1126 1.3 jdolecek kfilter = kfilter_byname(name); 1127 1.3 jdolecek if (kfilter != NULL) 1128 1.3 jdolecek km->filter = kfilter->filter; 1129 1.3 jdolecek else 1130 1.3 jdolecek error = ENOENT; 1131 1.3 jdolecek FREE(name, M_KEVENT); 1132 1.3 jdolecek break; 1133 1.3 jdolecek 1134 1.3 jdolecek default: 1135 1.3 jdolecek error = ENOTTY; 1136 1.3 jdolecek 1137 1.3 jdolecek } 1138 1.3 jdolecek return (error); 1139 1.3 jdolecek } 1140 1.3 jdolecek 1141 1.3 jdolecek /* 1142 1.3 jdolecek * struct fileops fcntl method for a kqueue descriptor. 1143 1.3 jdolecek * Not implemented. 1144 1.3 jdolecek */ 1145 1.3 jdolecek /*ARGSUSED*/ 1146 1.3 jdolecek static int 1147 1.16.2.5 skrll kqueue_fcntl(struct file *fp, u_int com, void *data, struct lwp *l) 1148 1.3 jdolecek { 1149 1.3 jdolecek 1150 1.1 lukem return (ENOTTY); 1151 1.1 lukem } 1152 1.1 lukem 1153 1.3 jdolecek /* 1154 1.3 jdolecek * struct fileops poll method for a kqueue descriptor. 1155 1.3 jdolecek * Determine if kqueue has events pending. 1156 1.3 jdolecek */ 1157 1.1 lukem static int 1158 1.16.2.5 skrll kqueue_poll(struct file *fp, int events, struct lwp *l) 1159 1.1 lukem { 1160 1.3 jdolecek struct kqueue *kq; 1161 1.3 jdolecek int revents; 1162 1.3 jdolecek 1163 1.3 jdolecek kq = (struct kqueue *)fp->f_data; 1164 1.3 jdolecek revents = 0; 1165 1.3 jdolecek if (events & (POLLIN | POLLRDNORM)) { 1166 1.3 jdolecek if (kq->kq_count) { 1167 1.3 jdolecek revents |= events & (POLLIN | POLLRDNORM); 1168 1.1 lukem } else { 1169 1.16.2.5 skrll selrecord(l, &kq->kq_sel); 1170 1.1 lukem } 1171 1.1 lukem } 1172 1.1 lukem return (revents); 1173 1.1 lukem } 1174 1.1 lukem 1175 1.3 jdolecek /* 1176 1.3 jdolecek * struct fileops stat method for a kqueue descriptor. 1177 1.3 jdolecek * Returns dummy info, with st_size being number of events pending. 1178 1.3 jdolecek */ 1179 1.1 lukem static int 1180 1.16.2.5 skrll kqueue_stat(struct file *fp, struct stat *st, struct lwp *l) 1181 1.1 lukem { 1182 1.3 jdolecek struct kqueue *kq; 1183 1.1 lukem 1184 1.3 jdolecek kq = (struct kqueue *)fp->f_data; 1185 1.3 jdolecek memset((void *)st, 0, sizeof(*st)); 1186 1.1 lukem st->st_size = kq->kq_count; 1187 1.1 lukem st->st_blksize = sizeof(struct kevent); 1188 1.1 lukem st->st_mode = S_IFIFO; 1189 1.1 lukem return (0); 1190 1.1 lukem } 1191 1.1 lukem 1192 1.3 jdolecek /* 1193 1.3 jdolecek * struct fileops close method for a kqueue descriptor. 1194 1.3 jdolecek * Cleans up kqueue. 1195 1.3 jdolecek */ 1196 1.1 lukem static int 1197 1.16.2.5 skrll kqueue_close(struct file *fp, struct lwp *l) 1198 1.1 lukem { 1199 1.16.2.5 skrll struct proc *p = l->l_proc; 1200 1.3 jdolecek struct kqueue *kq; 1201 1.16.2.1 darrenr struct filedesc *fdp; 1202 1.16.2.3 skrll struct knote **knp, *kn, *kn0; 1203 1.3 jdolecek int i; 1204 1.1 lukem 1205 1.3 jdolecek kq = (struct kqueue *)fp->f_data; 1206 1.3 jdolecek fdp = p->p_fd; 1207 1.1 lukem for (i = 0; i < fdp->fd_knlistsize; i++) { 1208 1.1 lukem knp = &SLIST_FIRST(&fdp->fd_knlist[i]); 1209 1.1 lukem kn = *knp; 1210 1.1 lukem while (kn != NULL) { 1211 1.1 lukem kn0 = SLIST_NEXT(kn, kn_link); 1212 1.1 lukem if (kq == kn->kn_kq) { 1213 1.1 lukem kn->kn_fop->f_detach(kn); 1214 1.16.2.5 skrll FILE_UNUSE(kn->kn_fp, l); 1215 1.3 jdolecek pool_put(&knote_pool, kn); 1216 1.1 lukem *knp = kn0; 1217 1.1 lukem } else { 1218 1.1 lukem knp = &SLIST_NEXT(kn, kn_link); 1219 1.1 lukem } 1220 1.1 lukem kn = kn0; 1221 1.1 lukem } 1222 1.1 lukem } 1223 1.1 lukem if (fdp->fd_knhashmask != 0) { 1224 1.1 lukem for (i = 0; i < fdp->fd_knhashmask + 1; i++) { 1225 1.1 lukem knp = &SLIST_FIRST(&fdp->fd_knhash[i]); 1226 1.1 lukem kn = *knp; 1227 1.1 lukem while (kn != NULL) { 1228 1.1 lukem kn0 = SLIST_NEXT(kn, kn_link); 1229 1.1 lukem if (kq == kn->kn_kq) { 1230 1.1 lukem kn->kn_fop->f_detach(kn); 1231 1.3 jdolecek /* XXX non-fd release of kn->kn_ptr */ 1232 1.3 jdolecek pool_put(&knote_pool, kn); 1233 1.1 lukem *knp = kn0; 1234 1.1 lukem } else { 1235 1.1 lukem knp = &SLIST_NEXT(kn, kn_link); 1236 1.1 lukem } 1237 1.1 lukem kn = kn0; 1238 1.1 lukem } 1239 1.1 lukem } 1240 1.1 lukem } 1241 1.3 jdolecek pool_put(&kqueue_pool, kq); 1242 1.1 lukem fp->f_data = NULL; 1243 1.1 lukem 1244 1.1 lukem return (0); 1245 1.1 lukem } 1246 1.1 lukem 1247 1.3 jdolecek /* 1248 1.3 jdolecek * wakeup a kqueue 1249 1.3 jdolecek */ 1250 1.1 lukem static void 1251 1.1 lukem kqueue_wakeup(struct kqueue *kq) 1252 1.1 lukem { 1253 1.12 pk int s; 1254 1.1 lukem 1255 1.12 pk s = splsched(); 1256 1.12 pk simple_lock(&kq->kq_lock); 1257 1.3 jdolecek if (kq->kq_state & KQ_SLEEP) { /* if currently sleeping ... */ 1258 1.1 lukem kq->kq_state &= ~KQ_SLEEP; 1259 1.3 jdolecek wakeup(kq); /* ... wakeup */ 1260 1.1 lukem } 1261 1.3 jdolecek 1262 1.3 jdolecek /* Notify select/poll and kevent. */ 1263 1.3 jdolecek selnotify(&kq->kq_sel, 0); 1264 1.12 pk simple_unlock(&kq->kq_lock); 1265 1.12 pk splx(s); 1266 1.1 lukem } 1267 1.1 lukem 1268 1.1 lukem /* 1269 1.3 jdolecek * struct fileops kqfilter method for a kqueue descriptor. 1270 1.3 jdolecek * Event triggered when monitored kqueue changes. 1271 1.3 jdolecek */ 1272 1.3 jdolecek /*ARGSUSED*/ 1273 1.3 jdolecek static int 1274 1.3 jdolecek kqueue_kqfilter(struct file *fp, struct knote *kn) 1275 1.3 jdolecek { 1276 1.3 jdolecek struct kqueue *kq; 1277 1.3 jdolecek 1278 1.3 jdolecek KASSERT(fp == kn->kn_fp); 1279 1.3 jdolecek kq = (struct kqueue *)kn->kn_fp->f_data; 1280 1.3 jdolecek if (kn->kn_filter != EVFILT_READ) 1281 1.3 jdolecek return (1); 1282 1.3 jdolecek kn->kn_fop = &kqread_filtops; 1283 1.5 christos SLIST_INSERT_HEAD(&kq->kq_sel.sel_klist, kn, kn_selnext); 1284 1.3 jdolecek return (0); 1285 1.3 jdolecek } 1286 1.3 jdolecek 1287 1.3 jdolecek 1288 1.3 jdolecek /* 1289 1.3 jdolecek * Walk down a list of knotes, activating them if their event has triggered. 1290 1.1 lukem */ 1291 1.1 lukem void 1292 1.1 lukem knote(struct klist *list, long hint) 1293 1.1 lukem { 1294 1.1 lukem struct knote *kn; 1295 1.1 lukem 1296 1.1 lukem SLIST_FOREACH(kn, list, kn_selnext) 1297 1.1 lukem if (kn->kn_fop->f_event(kn, hint)) 1298 1.1 lukem KNOTE_ACTIVATE(kn); 1299 1.1 lukem } 1300 1.1 lukem 1301 1.1 lukem /* 1302 1.3 jdolecek * Remove all knotes from a specified klist 1303 1.1 lukem */ 1304 1.1 lukem void 1305 1.16.2.5 skrll knote_remove(struct lwp *l, struct klist *list) 1306 1.1 lukem { 1307 1.1 lukem struct knote *kn; 1308 1.1 lukem 1309 1.1 lukem while ((kn = SLIST_FIRST(list)) != NULL) { 1310 1.1 lukem kn->kn_fop->f_detach(kn); 1311 1.16.2.5 skrll knote_drop(kn, l, l->l_proc->p_fd); 1312 1.1 lukem } 1313 1.1 lukem } 1314 1.1 lukem 1315 1.1 lukem /* 1316 1.3 jdolecek * Remove all knotes referencing a specified fd 1317 1.1 lukem */ 1318 1.1 lukem void 1319 1.16.2.5 skrll knote_fdclose(struct lwp *l, int fd) 1320 1.1 lukem { 1321 1.3 jdolecek struct filedesc *fdp; 1322 1.3 jdolecek struct klist *list; 1323 1.1 lukem 1324 1.16.2.5 skrll fdp = l->l_proc->p_fd; 1325 1.3 jdolecek list = &fdp->fd_knlist[fd]; 1326 1.16.2.5 skrll knote_remove(l, list); 1327 1.1 lukem } 1328 1.1 lukem 1329 1.3 jdolecek /* 1330 1.3 jdolecek * Attach a new knote to a file descriptor 1331 1.3 jdolecek */ 1332 1.1 lukem static void 1333 1.1 lukem knote_attach(struct knote *kn, struct filedesc *fdp) 1334 1.1 lukem { 1335 1.3 jdolecek struct klist *list; 1336 1.3 jdolecek int size; 1337 1.1 lukem 1338 1.1 lukem if (! kn->kn_fop->f_isfd) { 1339 1.3 jdolecek /* if knote is not on an fd, store on internal hash table */ 1340 1.1 lukem if (fdp->fd_knhashmask == 0) 1341 1.3 jdolecek fdp->fd_knhash = hashinit(KN_HASHSIZE, HASH_LIST, 1342 1.3 jdolecek M_KEVENT, M_WAITOK, &fdp->fd_knhashmask); 1343 1.1 lukem list = &fdp->fd_knhash[KN_HASH(kn->kn_id, fdp->fd_knhashmask)]; 1344 1.1 lukem goto done; 1345 1.1 lukem } 1346 1.1 lukem 1347 1.3 jdolecek /* 1348 1.3 jdolecek * otherwise, knote is on an fd. 1349 1.3 jdolecek * knotes are stored in fd_knlist indexed by kn->kn_id. 1350 1.3 jdolecek */ 1351 1.1 lukem if (fdp->fd_knlistsize <= kn->kn_id) { 1352 1.3 jdolecek /* expand list, it's too small */ 1353 1.1 lukem size = fdp->fd_knlistsize; 1354 1.3 jdolecek while (size <= kn->kn_id) { 1355 1.3 jdolecek /* grow in KQ_EXTENT chunks */ 1356 1.3 jdolecek size += KQ_EXTENT; 1357 1.3 jdolecek } 1358 1.3 jdolecek list = malloc(size * sizeof(struct klist *), M_KEVENT,M_WAITOK); 1359 1.3 jdolecek if (fdp->fd_knlist) { 1360 1.3 jdolecek /* copy existing knlist */ 1361 1.3 jdolecek memcpy((caddr_t)list, (caddr_t)fdp->fd_knlist, 1362 1.3 jdolecek fdp->fd_knlistsize * sizeof(struct klist *)); 1363 1.3 jdolecek } 1364 1.3 jdolecek /* 1365 1.3 jdolecek * Zero new memory. Stylistically, SLIST_INIT() should be 1366 1.3 jdolecek * used here, but that does same thing as the memset() anyway. 1367 1.3 jdolecek */ 1368 1.3 jdolecek memset(&list[fdp->fd_knlistsize], 0, 1369 1.1 lukem (size - fdp->fd_knlistsize) * sizeof(struct klist *)); 1370 1.3 jdolecek 1371 1.3 jdolecek /* switch to new knlist */ 1372 1.1 lukem if (fdp->fd_knlist != NULL) 1373 1.3 jdolecek free(fdp->fd_knlist, M_KEVENT); 1374 1.1 lukem fdp->fd_knlistsize = size; 1375 1.1 lukem fdp->fd_knlist = list; 1376 1.1 lukem } 1377 1.3 jdolecek 1378 1.3 jdolecek /* get list head for this fd */ 1379 1.1 lukem list = &fdp->fd_knlist[kn->kn_id]; 1380 1.3 jdolecek done: 1381 1.3 jdolecek /* add new knote */ 1382 1.1 lukem SLIST_INSERT_HEAD(list, kn, kn_link); 1383 1.1 lukem kn->kn_status = 0; 1384 1.1 lukem } 1385 1.1 lukem 1386 1.1 lukem /* 1387 1.3 jdolecek * Drop knote. 1388 1.3 jdolecek * Should be called at spl == 0, since we don't want to hold spl 1389 1.3 jdolecek * while calling FILE_UNUSE and free. 1390 1.1 lukem */ 1391 1.1 lukem static void 1392 1.16.2.5 skrll knote_drop(struct knote *kn, struct lwp *l, struct filedesc *fdp) 1393 1.1 lukem { 1394 1.3 jdolecek struct klist *list; 1395 1.1 lukem 1396 1.1 lukem if (kn->kn_fop->f_isfd) 1397 1.1 lukem list = &fdp->fd_knlist[kn->kn_id]; 1398 1.1 lukem else 1399 1.1 lukem list = &fdp->fd_knhash[KN_HASH(kn->kn_id, fdp->fd_knhashmask)]; 1400 1.1 lukem 1401 1.1 lukem SLIST_REMOVE(list, kn, knote, kn_link); 1402 1.1 lukem if (kn->kn_status & KN_QUEUED) 1403 1.1 lukem knote_dequeue(kn); 1404 1.1 lukem if (kn->kn_fop->f_isfd) 1405 1.16.2.5 skrll FILE_UNUSE(kn->kn_fp, l); 1406 1.3 jdolecek pool_put(&knote_pool, kn); 1407 1.1 lukem } 1408 1.1 lukem 1409 1.1 lukem 1410 1.3 jdolecek /* 1411 1.3 jdolecek * Queue new event for knote. 1412 1.3 jdolecek */ 1413 1.1 lukem static void 1414 1.1 lukem knote_enqueue(struct knote *kn) 1415 1.1 lukem { 1416 1.3 jdolecek struct kqueue *kq; 1417 1.3 jdolecek int s; 1418 1.1 lukem 1419 1.3 jdolecek kq = kn->kn_kq; 1420 1.3 jdolecek KASSERT((kn->kn_status & KN_QUEUED) == 0); 1421 1.1 lukem 1422 1.12 pk s = splsched(); 1423 1.12 pk simple_lock(&kq->kq_lock); 1424 1.16.2.8 skrll TAILQ_INSERT_TAIL(&kq->kq_head, kn, kn_tqe); 1425 1.1 lukem kn->kn_status |= KN_QUEUED; 1426 1.1 lukem kq->kq_count++; 1427 1.12 pk simple_unlock(&kq->kq_lock); 1428 1.1 lukem splx(s); 1429 1.1 lukem kqueue_wakeup(kq); 1430 1.1 lukem } 1431 1.1 lukem 1432 1.3 jdolecek /* 1433 1.3 jdolecek * Dequeue event for knote. 1434 1.3 jdolecek */ 1435 1.1 lukem static void 1436 1.1 lukem knote_dequeue(struct knote *kn) 1437 1.1 lukem { 1438 1.3 jdolecek struct kqueue *kq; 1439 1.3 jdolecek int s; 1440 1.1 lukem 1441 1.12 pk KASSERT(kn->kn_status & KN_QUEUED); 1442 1.3 jdolecek kq = kn->kn_kq; 1443 1.12 pk 1444 1.11 pk s = splsched(); 1445 1.12 pk simple_lock(&kq->kq_lock); 1446 1.16.2.8 skrll TAILQ_REMOVE(&kq->kq_head, kn, kn_tqe); 1447 1.1 lukem kn->kn_status &= ~KN_QUEUED; 1448 1.1 lukem kq->kq_count--; 1449 1.12 pk simple_unlock(&kq->kq_lock); 1450 1.1 lukem splx(s); 1451 1.1 lukem } 1452
Indexes created Mon Sep 29 21:09:56 GMT 2025