1*1eaf0ac3Slogwang /*- 2*1eaf0ac3Slogwang * Copyright (c) 1999,2000,2001 Jonathan Lemon <[email protected]> 3*1eaf0ac3Slogwang * All rights reserved. 4*1eaf0ac3Slogwang * 5*1eaf0ac3Slogwang * Redistribution and use in source and binary forms, with or without 6*1eaf0ac3Slogwang * modification, are permitted provided that the following conditions 7*1eaf0ac3Slogwang * are met: 8*1eaf0ac3Slogwang * 1. Redistributions of source code must retain the above copyright 9*1eaf0ac3Slogwang * notice, this list of conditions and the following disclaimer. 10*1eaf0ac3Slogwang * 2. Redistributions in binary form must reproduce the above copyright 11*1eaf0ac3Slogwang * notice, this list of conditions and the following disclaimer in the 12*1eaf0ac3Slogwang * documentation and/or other materials provided with the distribution. 13*1eaf0ac3Slogwang * 14*1eaf0ac3Slogwang * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15*1eaf0ac3Slogwang * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16*1eaf0ac3Slogwang * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17*1eaf0ac3Slogwang * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18*1eaf0ac3Slogwang * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19*1eaf0ac3Slogwang * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20*1eaf0ac3Slogwang * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21*1eaf0ac3Slogwang * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22*1eaf0ac3Slogwang * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23*1eaf0ac3Slogwang * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24*1eaf0ac3Slogwang * SUCH DAMAGE. 25*1eaf0ac3Slogwang * 26*1eaf0ac3Slogwang * $FreeBSD$ 27*1eaf0ac3Slogwang */ 28*1eaf0ac3Slogwang 29*1eaf0ac3Slogwang #ifndef _SYS_EVENT_H_ 30*1eaf0ac3Slogwang #define _SYS_EVENT_H_ 31*1eaf0ac3Slogwang 32*1eaf0ac3Slogwang #include <sys/queue.h> 33*1eaf0ac3Slogwang 34*1eaf0ac3Slogwang #define EVFILT_READ (-1) 35*1eaf0ac3Slogwang #define EVFILT_WRITE (-2) 36*1eaf0ac3Slogwang #define EVFILT_AIO (-3) /* attached to aio requests */ 37*1eaf0ac3Slogwang #define EVFILT_VNODE (-4) /* attached to vnodes */ 38*1eaf0ac3Slogwang #define EVFILT_PROC (-5) /* attached to struct proc */ 39*1eaf0ac3Slogwang #define EVFILT_SIGNAL (-6) /* attached to struct proc */ 40*1eaf0ac3Slogwang #define EVFILT_TIMER (-7) /* timers */ 41*1eaf0ac3Slogwang #define EVFILT_PROCDESC (-8) /* attached to process descriptors */ 42*1eaf0ac3Slogwang #define EVFILT_FS (-9) /* filesystem events */ 43*1eaf0ac3Slogwang #define EVFILT_LIO (-10) /* attached to lio requests */ 44*1eaf0ac3Slogwang #define EVFILT_USER (-11) /* User events */ 45*1eaf0ac3Slogwang #define EVFILT_SENDFILE (-12) /* attached to sendfile requests */ 46*1eaf0ac3Slogwang #define EVFILT_SYSCOUNT 12 47*1eaf0ac3Slogwang 48*1eaf0ac3Slogwang #define EV_SET(kevp_, a, b, c, d, e, f) do { \ 49*1eaf0ac3Slogwang struct kevent *kevp = (kevp_); \ 50*1eaf0ac3Slogwang (kevp)->ident = (a); \ 51*1eaf0ac3Slogwang (kevp)->filter = (b); \ 52*1eaf0ac3Slogwang (kevp)->flags = (c); \ 53*1eaf0ac3Slogwang (kevp)->fflags = (d); \ 54*1eaf0ac3Slogwang (kevp)->data = (e); \ 55*1eaf0ac3Slogwang (kevp)->udata = (f); \ 56*1eaf0ac3Slogwang } while(0) 57*1eaf0ac3Slogwang 58*1eaf0ac3Slogwang struct kevent { 59*1eaf0ac3Slogwang uintptr_t ident; /* identifier for this event */ 60*1eaf0ac3Slogwang short filter; /* filter for event */ 61*1eaf0ac3Slogwang u_short flags; 62*1eaf0ac3Slogwang u_int fflags; 63*1eaf0ac3Slogwang intptr_t data; 64*1eaf0ac3Slogwang void *udata; /* opaque user data identifier */ 65*1eaf0ac3Slogwang }; 66*1eaf0ac3Slogwang 67*1eaf0ac3Slogwang /* actions */ 68*1eaf0ac3Slogwang #define EV_ADD 0x0001 /* add event to kq (implies enable) */ 69*1eaf0ac3Slogwang #define EV_DELETE 0x0002 /* delete event from kq */ 70*1eaf0ac3Slogwang #define EV_ENABLE 0x0004 /* enable event */ 71*1eaf0ac3Slogwang #define EV_DISABLE 0x0008 /* disable event (not reported) */ 72*1eaf0ac3Slogwang #define EV_FORCEONESHOT 0x0100 /* enable _ONESHOT and force trigger */ 73*1eaf0ac3Slogwang 74*1eaf0ac3Slogwang /* flags */ 75*1eaf0ac3Slogwang #define EV_ONESHOT 0x0010 /* only report one occurrence */ 76*1eaf0ac3Slogwang #define EV_CLEAR 0x0020 /* clear event state after reporting */ 77*1eaf0ac3Slogwang #define EV_RECEIPT 0x0040 /* force EV_ERROR on success, data=0 */ 78*1eaf0ac3Slogwang #define EV_DISPATCH 0x0080 /* disable event after reporting */ 79*1eaf0ac3Slogwang 80*1eaf0ac3Slogwang #define EV_SYSFLAGS 0xF000 /* reserved by system */ 81*1eaf0ac3Slogwang #define EV_DROP 0x1000 /* note should be dropped */ 82*1eaf0ac3Slogwang #define EV_FLAG1 0x2000 /* filter-specific flag */ 83*1eaf0ac3Slogwang #define EV_FLAG2 0x4000 /* filter-specific flag */ 84*1eaf0ac3Slogwang 85*1eaf0ac3Slogwang /* returned values */ 86*1eaf0ac3Slogwang #define EV_EOF 0x8000 /* EOF detected */ 87*1eaf0ac3Slogwang #define EV_ERROR 0x4000 /* error, data contains errno */ 88*1eaf0ac3Slogwang 89*1eaf0ac3Slogwang /* 90*1eaf0ac3Slogwang * data/hint flags/masks for EVFILT_USER, shared with userspace 91*1eaf0ac3Slogwang * 92*1eaf0ac3Slogwang * On input, the top two bits of fflags specifies how the lower twenty four 93*1eaf0ac3Slogwang * bits should be applied to the stored value of fflags. 94*1eaf0ac3Slogwang * 95*1eaf0ac3Slogwang * On output, the top two bits will always be set to NOTE_FFNOP and the 96*1eaf0ac3Slogwang * remaining twenty four bits will contain the stored fflags value. 97*1eaf0ac3Slogwang */ 98*1eaf0ac3Slogwang #define NOTE_FFNOP 0x00000000 /* ignore input fflags */ 99*1eaf0ac3Slogwang #define NOTE_FFAND 0x40000000 /* AND fflags */ 100*1eaf0ac3Slogwang #define NOTE_FFOR 0x80000000 /* OR fflags */ 101*1eaf0ac3Slogwang #define NOTE_FFCOPY 0xc0000000 /* copy fflags */ 102*1eaf0ac3Slogwang #define NOTE_FFCTRLMASK 0xc0000000 /* masks for operations */ 103*1eaf0ac3Slogwang #define NOTE_FFLAGSMASK 0x00ffffff 104*1eaf0ac3Slogwang 105*1eaf0ac3Slogwang #define NOTE_TRIGGER 0x01000000 /* Cause the event to be 106*1eaf0ac3Slogwang triggered for output. */ 107*1eaf0ac3Slogwang 108*1eaf0ac3Slogwang /* 109*1eaf0ac3Slogwang * data/hint flags for EVFILT_{READ|WRITE}, shared with userspace 110*1eaf0ac3Slogwang */ 111*1eaf0ac3Slogwang #define NOTE_LOWAT 0x0001 /* low water mark */ 112*1eaf0ac3Slogwang #define NOTE_FILE_POLL 0x0002 /* behave like poll() */ 113*1eaf0ac3Slogwang 114*1eaf0ac3Slogwang /* 115*1eaf0ac3Slogwang * data/hint flags for EVFILT_VNODE, shared with userspace 116*1eaf0ac3Slogwang */ 117*1eaf0ac3Slogwang #define NOTE_DELETE 0x0001 /* vnode was removed */ 118*1eaf0ac3Slogwang #define NOTE_WRITE 0x0002 /* data contents changed */ 119*1eaf0ac3Slogwang #define NOTE_EXTEND 0x0004 /* size increased */ 120*1eaf0ac3Slogwang #define NOTE_ATTRIB 0x0008 /* attributes changed */ 121*1eaf0ac3Slogwang #define NOTE_LINK 0x0010 /* link count changed */ 122*1eaf0ac3Slogwang #define NOTE_RENAME 0x0020 /* vnode was renamed */ 123*1eaf0ac3Slogwang #define NOTE_REVOKE 0x0040 /* vnode access was revoked */ 124*1eaf0ac3Slogwang #define NOTE_OPEN 0x0080 /* vnode was opened */ 125*1eaf0ac3Slogwang #define NOTE_CLOSE 0x0100 /* file closed, fd did not 126*1eaf0ac3Slogwang allowed write */ 127*1eaf0ac3Slogwang #define NOTE_CLOSE_WRITE 0x0200 /* file closed, fd did allowed 128*1eaf0ac3Slogwang write */ 129*1eaf0ac3Slogwang #define NOTE_READ 0x0400 /* file was read */ 130*1eaf0ac3Slogwang 131*1eaf0ac3Slogwang /* 132*1eaf0ac3Slogwang * data/hint flags for EVFILT_PROC and EVFILT_PROCDESC, shared with userspace 133*1eaf0ac3Slogwang */ 134*1eaf0ac3Slogwang #define NOTE_EXIT 0x80000000 /* process exited */ 135*1eaf0ac3Slogwang #define NOTE_FORK 0x40000000 /* process forked */ 136*1eaf0ac3Slogwang #define NOTE_EXEC 0x20000000 /* process exec'd */ 137*1eaf0ac3Slogwang #define NOTE_PCTRLMASK 0xf0000000 /* mask for hint bits */ 138*1eaf0ac3Slogwang #define NOTE_PDATAMASK 0x000fffff /* mask for pid */ 139*1eaf0ac3Slogwang 140*1eaf0ac3Slogwang /* additional flags for EVFILT_PROC */ 141*1eaf0ac3Slogwang #define NOTE_TRACK 0x00000001 /* follow across forks */ 142*1eaf0ac3Slogwang #define NOTE_TRACKERR 0x00000002 /* could not track child */ 143*1eaf0ac3Slogwang #define NOTE_CHILD 0x00000004 /* am a child process */ 144*1eaf0ac3Slogwang 145*1eaf0ac3Slogwang /* additional flags for EVFILT_TIMER */ 146*1eaf0ac3Slogwang #define NOTE_SECONDS 0x00000001 /* data is seconds */ 147*1eaf0ac3Slogwang #define NOTE_MSECONDS 0x00000002 /* data is milliseconds */ 148*1eaf0ac3Slogwang #define NOTE_USECONDS 0x00000004 /* data is microseconds */ 149*1eaf0ac3Slogwang #define NOTE_NSECONDS 0x00000008 /* data is nanoseconds */ 150*1eaf0ac3Slogwang 151*1eaf0ac3Slogwang struct knote; 152*1eaf0ac3Slogwang SLIST_HEAD(klist, knote); 153*1eaf0ac3Slogwang struct kqueue; 154*1eaf0ac3Slogwang TAILQ_HEAD(kqlist, kqueue); 155*1eaf0ac3Slogwang struct knlist { 156*1eaf0ac3Slogwang struct klist kl_list; 157*1eaf0ac3Slogwang void (*kl_lock)(void *); /* lock function */ 158*1eaf0ac3Slogwang void (*kl_unlock)(void *); 159*1eaf0ac3Slogwang void (*kl_assert_locked)(void *); 160*1eaf0ac3Slogwang void (*kl_assert_unlocked)(void *); 161*1eaf0ac3Slogwang void *kl_lockarg; /* argument passed to lock functions */ 162*1eaf0ac3Slogwang int kl_autodestroy; 163*1eaf0ac3Slogwang }; 164*1eaf0ac3Slogwang 165*1eaf0ac3Slogwang 166*1eaf0ac3Slogwang #ifdef _KERNEL 167*1eaf0ac3Slogwang 168*1eaf0ac3Slogwang /* 169*1eaf0ac3Slogwang * Flags for knote call 170*1eaf0ac3Slogwang */ 171*1eaf0ac3Slogwang #define KNF_LISTLOCKED 0x0001 /* knlist is locked */ 172*1eaf0ac3Slogwang #define KNF_NOKQLOCK 0x0002 /* do not keep KQ_LOCK */ 173*1eaf0ac3Slogwang 174*1eaf0ac3Slogwang #define KNOTE(list, hist, flags) knote(list, hist, flags) 175*1eaf0ac3Slogwang #define KNOTE_LOCKED(list, hint) knote(list, hint, KNF_LISTLOCKED) 176*1eaf0ac3Slogwang #define KNOTE_UNLOCKED(list, hint) knote(list, hint, 0) 177*1eaf0ac3Slogwang 178*1eaf0ac3Slogwang #define KNLIST_EMPTY(list) SLIST_EMPTY(&(list)->kl_list) 179*1eaf0ac3Slogwang 180*1eaf0ac3Slogwang /* 181*1eaf0ac3Slogwang * Flag indicating hint is a signal. Used by EVFILT_SIGNAL, and also 182*1eaf0ac3Slogwang * shared by EVFILT_PROC (all knotes attached to p->p_klist) 183*1eaf0ac3Slogwang */ 184*1eaf0ac3Slogwang #define NOTE_SIGNAL 0x08000000 185*1eaf0ac3Slogwang 186*1eaf0ac3Slogwang /* 187*1eaf0ac3Slogwang * Hint values for the optional f_touch event filter. If f_touch is not set 188*1eaf0ac3Slogwang * to NULL and f_isfd is zero the f_touch filter will be called with the type 189*1eaf0ac3Slogwang * argument set to EVENT_REGISTER during a kevent() system call. It is also 190*1eaf0ac3Slogwang * called under the same conditions with the type argument set to EVENT_PROCESS 191*1eaf0ac3Slogwang * when the event has been triggered. 192*1eaf0ac3Slogwang */ 193*1eaf0ac3Slogwang #define EVENT_REGISTER 1 194*1eaf0ac3Slogwang #define EVENT_PROCESS 2 195*1eaf0ac3Slogwang 196*1eaf0ac3Slogwang struct filterops { 197*1eaf0ac3Slogwang int f_isfd; /* true if ident == filedescriptor */ 198*1eaf0ac3Slogwang int (*f_attach)(struct knote *kn); 199*1eaf0ac3Slogwang void (*f_detach)(struct knote *kn); 200*1eaf0ac3Slogwang int (*f_event)(struct knote *kn, long hint); 201*1eaf0ac3Slogwang void (*f_touch)(struct knote *kn, struct kevent *kev, u_long type); 202*1eaf0ac3Slogwang }; 203*1eaf0ac3Slogwang 204*1eaf0ac3Slogwang /* 205*1eaf0ac3Slogwang * Setting the KN_INFLUX flag enables you to unlock the kq that this knote 206*1eaf0ac3Slogwang * is on, and modify kn_status as if you had the KQ lock. 207*1eaf0ac3Slogwang * 208*1eaf0ac3Slogwang * kn_sfflags, kn_sdata, and kn_kevent are protected by the knlist lock. 209*1eaf0ac3Slogwang */ 210*1eaf0ac3Slogwang struct knote { 211*1eaf0ac3Slogwang SLIST_ENTRY(knote) kn_link; /* for kq */ 212*1eaf0ac3Slogwang SLIST_ENTRY(knote) kn_selnext; /* for struct selinfo */ 213*1eaf0ac3Slogwang struct knlist *kn_knlist; /* f_attach populated */ 214*1eaf0ac3Slogwang TAILQ_ENTRY(knote) kn_tqe; 215*1eaf0ac3Slogwang struct kqueue *kn_kq; /* which queue we are on */ 216*1eaf0ac3Slogwang struct kevent kn_kevent; 217*1eaf0ac3Slogwang int kn_status; /* protected by kq lock */ 218*1eaf0ac3Slogwang #define KN_ACTIVE 0x01 /* event has been triggered */ 219*1eaf0ac3Slogwang #define KN_QUEUED 0x02 /* event is on queue */ 220*1eaf0ac3Slogwang #define KN_DISABLED 0x04 /* event is disabled */ 221*1eaf0ac3Slogwang #define KN_DETACHED 0x08 /* knote is detached */ 222*1eaf0ac3Slogwang #define KN_INFLUX 0x10 /* knote is in flux */ 223*1eaf0ac3Slogwang #define KN_MARKER 0x20 /* ignore this knote */ 224*1eaf0ac3Slogwang #define KN_KQUEUE 0x40 /* this knote belongs to a kq */ 225*1eaf0ac3Slogwang #define KN_HASKQLOCK 0x80 /* for _inevent */ 226*1eaf0ac3Slogwang #define KN_SCAN 0x100 /* flux set in kqueue_scan() */ 227*1eaf0ac3Slogwang int kn_sfflags; /* saved filter flags */ 228*1eaf0ac3Slogwang intptr_t kn_sdata; /* saved data field */ 229*1eaf0ac3Slogwang union { 230*1eaf0ac3Slogwang struct file *p_fp; /* file data pointer */ 231*1eaf0ac3Slogwang struct proc *p_proc; /* proc pointer */ 232*1eaf0ac3Slogwang struct kaiocb *p_aio; /* AIO job pointer */ 233*1eaf0ac3Slogwang struct aioliojob *p_lio; /* LIO job pointer */ 234*1eaf0ac3Slogwang sbintime_t *p_nexttime; /* next timer event fires at */ 235*1eaf0ac3Slogwang void *p_v; /* generic other pointer */ 236*1eaf0ac3Slogwang } kn_ptr; 237*1eaf0ac3Slogwang struct filterops *kn_fop; 238*1eaf0ac3Slogwang void *kn_hook; 239*1eaf0ac3Slogwang int kn_hookid; 240*1eaf0ac3Slogwang 241*1eaf0ac3Slogwang #define kn_id kn_kevent.ident 242*1eaf0ac3Slogwang #define kn_filter kn_kevent.filter 243*1eaf0ac3Slogwang #define kn_flags kn_kevent.flags 244*1eaf0ac3Slogwang #define kn_fflags kn_kevent.fflags 245*1eaf0ac3Slogwang #define kn_data kn_kevent.data 246*1eaf0ac3Slogwang #define kn_fp kn_ptr.p_fp 247*1eaf0ac3Slogwang }; 248*1eaf0ac3Slogwang struct kevent_copyops { 249*1eaf0ac3Slogwang void *arg; 250*1eaf0ac3Slogwang int (*k_copyout)(void *arg, struct kevent *kevp, int count); 251*1eaf0ac3Slogwang int (*k_copyin)(void *arg, struct kevent *kevp, int count); 252*1eaf0ac3Slogwang }; 253*1eaf0ac3Slogwang 254*1eaf0ac3Slogwang struct thread; 255*1eaf0ac3Slogwang struct proc; 256*1eaf0ac3Slogwang struct knlist; 257*1eaf0ac3Slogwang struct mtx; 258*1eaf0ac3Slogwang struct rwlock; 259*1eaf0ac3Slogwang 260*1eaf0ac3Slogwang extern void knote(struct knlist *list, long hint, int lockflags); 261*1eaf0ac3Slogwang extern void knote_fork(struct knlist *list, int pid); 262*1eaf0ac3Slogwang extern struct knlist *knlist_alloc(struct mtx *lock); 263*1eaf0ac3Slogwang extern void knlist_detach(struct knlist *knl); 264*1eaf0ac3Slogwang extern void knlist_add(struct knlist *knl, struct knote *kn, int islocked); 265*1eaf0ac3Slogwang extern void knlist_remove(struct knlist *knl, struct knote *kn, int islocked); 266*1eaf0ac3Slogwang extern int knlist_empty(struct knlist *knl); 267*1eaf0ac3Slogwang extern void knlist_init(struct knlist *knl, void *lock, 268*1eaf0ac3Slogwang void (*kl_lock)(void *), void (*kl_unlock)(void *), 269*1eaf0ac3Slogwang void (*kl_assert_locked)(void *), void (*kl_assert_unlocked)(void *)); 270*1eaf0ac3Slogwang extern void knlist_init_mtx(struct knlist *knl, struct mtx *lock); 271*1eaf0ac3Slogwang extern void knlist_init_rw_reader(struct knlist *knl, struct rwlock *lock); 272*1eaf0ac3Slogwang extern void knlist_destroy(struct knlist *knl); 273*1eaf0ac3Slogwang extern void knlist_cleardel(struct knlist *knl, struct thread *td, 274*1eaf0ac3Slogwang int islocked, int killkn); 275*1eaf0ac3Slogwang #define knlist_clear(knl, islocked) \ 276*1eaf0ac3Slogwang knlist_cleardel((knl), NULL, (islocked), 0) 277*1eaf0ac3Slogwang #define knlist_delete(knl, td, islocked) \ 278*1eaf0ac3Slogwang knlist_cleardel((knl), (td), (islocked), 1) 279*1eaf0ac3Slogwang extern void knote_fdclose(struct thread *p, int fd); 280*1eaf0ac3Slogwang extern int kqfd_register(int fd, struct kevent *kev, struct thread *p, 281*1eaf0ac3Slogwang int waitok); 282*1eaf0ac3Slogwang extern int kqueue_add_filteropts(int filt, struct filterops *filtops); 283*1eaf0ac3Slogwang extern int kqueue_del_filteropts(int filt); 284*1eaf0ac3Slogwang 285*1eaf0ac3Slogwang #else /* !_KERNEL */ 286*1eaf0ac3Slogwang 287*1eaf0ac3Slogwang #include <sys/cdefs.h> 288*1eaf0ac3Slogwang struct timespec; 289*1eaf0ac3Slogwang 290*1eaf0ac3Slogwang __BEGIN_DECLS 291*1eaf0ac3Slogwang int kqueue(void); 292*1eaf0ac3Slogwang int kevent(int kq, const struct kevent *changelist, int nchanges, 293*1eaf0ac3Slogwang struct kevent *eventlist, int nevents, 294*1eaf0ac3Slogwang const struct timespec *timeout); 295*1eaf0ac3Slogwang __END_DECLS 296*1eaf0ac3Slogwang 297*1eaf0ac3Slogwang #endif /* !_KERNEL */ 298*1eaf0ac3Slogwang 299*1eaf0ac3Slogwang #endif /* !_SYS_EVENT_H_ */ 300