sys/kern/kern_event.c

1.23.2.11      yamt /*	$NetBSD: kern_event.c,v 1.23.2.11 2008/03/24 09:39:01 yamt Exp $	*/
1.23.2.11      yamt
1.23.2.11      yamt /*-
1.23.2.11      yamt  * Copyright (c) 2008 The NetBSD Foundation, Inc.
1.23.2.11      yamt  * All rights reserved.
1.23.2.11      yamt  *
1.23.2.11      yamt  * Redistribution and use in source and binary forms, with or without
1.23.2.11      yamt  * modification, are permitted provided that the following conditions
1.23.2.11      yamt  * are met:
1.23.2.11      yamt  * 1. Redistributions of source code must retain the above copyright
1.23.2.11      yamt  *    notice, this list of conditions and the following disclaimer.
1.23.2.11      yamt  * 2. Redistributions in binary form must reproduce the above copyright
1.23.2.11      yamt  *    notice, this list of conditions and the following disclaimer in the
1.23.2.11      yamt  *    documentation and/or other materials provided with the distribution.
1.23.2.11      yamt  * 3. All advertising materials mentioning features or use of this software
1.23.2.11      yamt  *    must display the following acknowledgement:
1.23.2.11      yamt  *	This product includes software developed by the NetBSD
1.23.2.11      yamt  *	Foundation, Inc. and its contributors.
1.23.2.11      yamt  * 4. Neither the name of The NetBSD Foundation nor the names of its
1.23.2.11      yamt  *    contributors may be used to endorse or promote products derived
1.23.2.11      yamt  *    from this software without specific prior written permission.
1.23.2.11      yamt  *
1.23.2.11      yamt  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.23.2.11      yamt  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.23.2.11      yamt  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.23.2.11      yamt  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.23.2.11      yamt  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.23.2.11      yamt  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.23.2.11      yamt  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.23.2.11      yamt  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.23.2.11      yamt  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.23.2.11      yamt  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.23.2.11      yamt  * POSSIBILITY OF SUCH DAMAGE.
1.23.2.11      yamt  */
 1.23.2.1      yamt
      1.1     lukem /*-
      1.1     lukem  * Copyright (c) 1999,2000,2001 Jonathan Lemon <jlemon (at) FreeBSD.org>
      1.1     lukem  * All rights reserved.
      1.1     lukem  *
      1.1     lukem  * Redistribution and use in source and binary forms, with or without
      1.1     lukem  * modification, are permitted provided that the following conditions
      1.1     lukem  * are met:
      1.1     lukem  * 1. Redistributions of source code must retain the above copyright
      1.1     lukem  *    notice, this list of conditions and the following disclaimer.
      1.1     lukem  * 2. Redistributions in binary form must reproduce the above copyright
      1.1     lukem  *    notice, this list of conditions and the following disclaimer in the
      1.1     lukem  *    documentation and/or other materials provided with the distribution.
      1.1     lukem  *
      1.1     lukem  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
      1.1     lukem  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
      1.1     lukem  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
      1.1     lukem  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
      1.1     lukem  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
      1.1     lukem  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
      1.1     lukem  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
      1.1     lukem  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
      1.1     lukem  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
      1.1     lukem  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
      1.1     lukem  * SUCH DAMAGE.
      1.1     lukem  *
1.23.2.11      yamt  * FreeBSD: src/sys/kern/kern_event.c,v 1.27 2001/07/05 17:10:44 rwatson Exp
      1.1     lukem  */
     1.14  jdolecek
     1.14  jdolecek #include <sys/cdefs.h>
1.23.2.11      yamt __KERNEL_RCSID(0, "$NetBSD: kern_event.c,v 1.23.2.11 2008/03/24 09:39:01 yamt Exp $");
      1.1     lukem
      1.1     lukem #include <sys/param.h>
      1.1     lukem #include <sys/systm.h>
      1.1     lukem #include <sys/kernel.h>
      1.1     lukem #include <sys/proc.h>
      1.1     lukem #include <sys/file.h>
      1.3  jdolecek #include <sys/select.h>
      1.1     lukem #include <sys/queue.h>
      1.1     lukem #include <sys/event.h>
      1.1     lukem #include <sys/eventvar.h>
      1.1     lukem #include <sys/poll.h>
1.23.2.11      yamt #include <sys/malloc.h>		/* for hashinit */
1.23.2.11      yamt #include <sys/kmem.h>
      1.1     lukem #include <sys/stat.h>
      1.3  jdolecek #include <sys/filedesc.h>
      1.3  jdolecek #include <sys/syscallargs.h>
 1.23.2.1      yamt #include <sys/kauth.h>
 1.23.2.4      yamt #include <sys/conf.h>
1.23.2.11      yamt #include <sys/atomic.h>
      1.1     lukem
1.23.2.11      yamt static int	kqueue_scan(file_t *, size_t, struct kevent *,
1.23.2.11      yamt 			    const struct timespec *, register_t *,
1.23.2.11      yamt 			    const struct kevent_ops *, struct kevent *,
1.23.2.11      yamt 			    size_t);
1.23.2.11      yamt static int	kqueue_ioctl(file_t *, u_long, void *);
1.23.2.11      yamt static int	kqueue_fcntl(file_t *, u_int, void *);
1.23.2.11      yamt static int	kqueue_poll(file_t *, int);
1.23.2.11      yamt static int	kqueue_kqfilter(file_t *, struct knote *);
1.23.2.11      yamt static int	kqueue_stat(file_t *, struct stat *);
1.23.2.11      yamt static int	kqueue_close(file_t *);
1.23.2.11      yamt static int	kqueue_register(struct kqueue *, struct kevent *);
1.23.2.11      yamt static void	kqueue_doclose(struct kqueue *, struct klist *, int);
1.23.2.11      yamt
1.23.2.11      yamt static void	knote_detach(struct knote *, filedesc_t *fdp, bool);
1.23.2.11      yamt static void	knote_enqueue(struct knote *);
1.23.2.11      yamt static void	knote_dequeue(struct knote *);
1.23.2.11      yamt static void	knote_activate(struct knote *);
1.23.2.11      yamt
1.23.2.11      yamt static void	filt_kqdetach(struct knote *);
1.23.2.11      yamt static int	filt_kqueue(struct knote *, long hint);
1.23.2.11      yamt static int	filt_procattach(struct knote *);
1.23.2.11      yamt static void	filt_procdetach(struct knote *);
1.23.2.11      yamt static int	filt_proc(struct knote *, long hint);
1.23.2.11      yamt static int	filt_fileattach(struct knote *);
1.23.2.11      yamt static void	filt_timerexpire(void *x);
1.23.2.11      yamt static int	filt_timerattach(struct knote *);
1.23.2.11      yamt static void	filt_timerdetach(struct knote *);
1.23.2.11      yamt static int	filt_timer(struct knote *, long hint);
      1.1     lukem
     1.21  christos static const struct fileops kqueueops = {
1.23.2.11      yamt 	(void *)enxio, (void *)enxio, kqueue_ioctl, kqueue_fcntl, kqueue_poll,
      1.3  jdolecek 	kqueue_stat, kqueue_close, kqueue_kqfilter
      1.1     lukem };
      1.1     lukem
      1.3  jdolecek static const struct filterops kqread_filtops =
      1.1     lukem 	{ 1, NULL, filt_kqdetach, filt_kqueue };
      1.3  jdolecek static const struct filterops proc_filtops =
      1.1     lukem 	{ 0, filt_procattach, filt_procdetach, filt_proc };
      1.3  jdolecek static const struct filterops file_filtops =
      1.1     lukem 	{ 1, filt_fileattach, NULL, NULL };
 1.23.2.1      yamt static const struct filterops timer_filtops =
      1.8  jdolecek 	{ 0, filt_timerattach, filt_timerdetach, filt_timer };
      1.1     lukem
1.23.2.11      yamt static u_int	kq_ncallouts = 0;
      1.8  jdolecek static int	kq_calloutmax = (4 * 1024);
      1.7   thorpej
1.23.2.11      yamt MALLOC_DEFINE(M_KEVENT, "kevent", "kevents/knotes");	/* for hashinit */
      1.1     lukem
      1.1     lukem #define	KN_HASHSIZE		64		/* XXX should be tunable */
      1.3  jdolecek #define	KN_HASH(val, mask)	(((val) ^ (val >> 8)) & (mask))
      1.1     lukem
      1.3  jdolecek extern const struct filterops sig_filtops;
      1.1     lukem
      1.1     lukem /*
      1.1     lukem  * Table for for all system-defined filters.
      1.3  jdolecek  * These should be listed in the numeric order of the EVFILT_* defines.
      1.3  jdolecek  * If filtops is NULL, the filter isn't implemented in NetBSD.
      1.3  jdolecek  * End of list is when name is NULL.
1.23.2.11      yamt  *
1.23.2.11      yamt  * Note that 'refcnt' is meaningless for built-in filters.
      1.1     lukem  */
      1.3  jdolecek struct kfilter {
1.23.2.11      yamt 	const char	*name;		/* name of filter */
1.23.2.11      yamt 	uint32_t	filter;		/* id of filter */
1.23.2.11      yamt 	unsigned	refcnt;		/* reference count */
      1.3  jdolecek 	const struct filterops *filtops;/* operations for filter */
1.23.2.11      yamt 	size_t		namelen;	/* length of name string */
      1.3  jdolecek };
      1.3  jdolecek
1.23.2.11      yamt /* System defined filters */
1.23.2.11      yamt static struct kfilter sys_kfilters[] = {
1.23.2.11      yamt 	{ "EVFILT_READ",	EVFILT_READ,	0, &file_filtops, 0 },
1.23.2.11      yamt 	{ "EVFILT_WRITE",	EVFILT_WRITE,	0, &file_filtops, 0, },
1.23.2.11      yamt 	{ "EVFILT_AIO",		EVFILT_AIO,	0, NULL, 0 },
1.23.2.11      yamt 	{ "EVFILT_VNODE",	EVFILT_VNODE,	0, &file_filtops, 0 },
1.23.2.11      yamt 	{ "EVFILT_PROC",	EVFILT_PROC,	0, &proc_filtops, 0 },
1.23.2.11      yamt 	{ "EVFILT_SIGNAL",	EVFILT_SIGNAL,	0, &sig_filtops, 0 },
1.23.2.11      yamt 	{ "EVFILT_TIMER",	EVFILT_TIMER,	0, &timer_filtops, 0 },
1.23.2.11      yamt 	{ NULL,			0,		0, NULL, 0 },
      1.1     lukem };
      1.1     lukem
1.23.2.11      yamt /* User defined kfilters */
      1.3  jdolecek static struct kfilter	*user_kfilters;		/* array */
      1.3  jdolecek static int		user_kfilterc;		/* current offset */
      1.3  jdolecek static int		user_kfiltermaxc;	/* max size so far */
1.23.2.11      yamt static size_t		user_kfiltersz;		/* size of allocated memory */
1.23.2.11      yamt
1.23.2.11      yamt /* Locks */
1.23.2.11      yamt static krwlock_t	kqueue_filter_lock;	/* lock on filter lists */
1.23.2.11      yamt static kmutex_t		kqueue_misc_lock;	/* miscellaneous */
1.23.2.11      yamt
1.23.2.11      yamt /*
1.23.2.11      yamt  * Initialize the kqueue subsystem.
1.23.2.11      yamt  */
1.23.2.11      yamt void
1.23.2.11      yamt kqueue_init(void)
1.23.2.11      yamt {
1.23.2.11      yamt
1.23.2.11      yamt 	rw_init(&kqueue_filter_lock);
1.23.2.11      yamt 	mutex_init(&kqueue_misc_lock, MUTEX_DEFAULT, IPL_NONE);
1.23.2.11      yamt }
      1.3  jdolecek
      1.3  jdolecek /*
      1.3  jdolecek  * Find kfilter entry by name, or NULL if not found.
      1.3  jdolecek  */
1.23.2.11      yamt static struct kfilter *
      1.3  jdolecek kfilter_byname_sys(const char *name)
      1.3  jdolecek {
      1.3  jdolecek 	int i;
      1.3  jdolecek
1.23.2.11      yamt 	KASSERT(rw_lock_held(&kqueue_filter_lock));
1.23.2.11      yamt
      1.3  jdolecek 	for (i = 0; sys_kfilters[i].name != NULL; i++) {
      1.3  jdolecek 		if (strcmp(name, sys_kfilters[i].name) == 0)
1.23.2.11      yamt 			return &sys_kfilters[i];
      1.3  jdolecek 	}
1.23.2.11      yamt 	return NULL;
      1.3  jdolecek }
      1.3  jdolecek
      1.3  jdolecek static struct kfilter *
      1.3  jdolecek kfilter_byname_user(const char *name)
      1.3  jdolecek {
      1.3  jdolecek 	int i;
      1.3  jdolecek
1.23.2.11      yamt 	KASSERT(rw_lock_held(&kqueue_filter_lock));
1.23.2.11      yamt
 1.23.2.2      yamt 	/* user filter slots have a NULL name if previously deregistered */
 1.23.2.2      yamt 	for (i = 0; i < user_kfilterc ; i++) {
 1.23.2.2      yamt 		if (user_kfilters[i].name != NULL &&
      1.3  jdolecek 		    strcmp(name, user_kfilters[i].name) == 0)
1.23.2.11      yamt 			return &user_kfilters[i];
      1.3  jdolecek 	}
1.23.2.11      yamt 	return NULL;
      1.3  jdolecek }
      1.3  jdolecek
1.23.2.11      yamt static struct kfilter *
      1.3  jdolecek kfilter_byname(const char *name)
      1.3  jdolecek {
1.23.2.11      yamt 	struct kfilter *kfilter;
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT(rw_lock_held(&kqueue_filter_lock));
      1.3  jdolecek
      1.3  jdolecek 	if ((kfilter = kfilter_byname_sys(name)) != NULL)
1.23.2.11      yamt 		return kfilter;
      1.3  jdolecek
1.23.2.11      yamt 	return kfilter_byname_user(name);
      1.3  jdolecek }
      1.3  jdolecek
      1.3  jdolecek /*
      1.3  jdolecek  * Find kfilter entry by filter id, or NULL if not found.
      1.3  jdolecek  * Assumes entries are indexed in filter id order, for speed.
      1.3  jdolecek  */
1.23.2.11      yamt static struct kfilter *
      1.3  jdolecek kfilter_byfilter(uint32_t filter)
      1.3  jdolecek {
1.23.2.11      yamt 	struct kfilter *kfilter;
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT(rw_lock_held(&kqueue_filter_lock));
      1.3  jdolecek
      1.3  jdolecek 	if (filter < EVFILT_SYSCOUNT)	/* it's a system filter */
      1.3  jdolecek 		kfilter = &sys_kfilters[filter];
      1.3  jdolecek 	else if (user_kfilters != NULL &&
      1.3  jdolecek 	    filter < EVFILT_SYSCOUNT + user_kfilterc)
      1.3  jdolecek 					/* it's a user filter */
      1.3  jdolecek 		kfilter = &user_kfilters[filter - EVFILT_SYSCOUNT];
      1.3  jdolecek 	else
      1.3  jdolecek 		return (NULL);		/* out of range */
      1.3  jdolecek 	KASSERT(kfilter->filter == filter);	/* sanity check! */
      1.3  jdolecek 	return (kfilter);
      1.3  jdolecek }
      1.3  jdolecek
      1.3  jdolecek /*
      1.3  jdolecek  * Register a new kfilter. Stores the entry in user_kfilters.
      1.3  jdolecek  * Returns 0 if operation succeeded, or an appropriate errno(2) otherwise.
      1.3  jdolecek  * If retfilter != NULL, the new filterid is returned in it.
      1.3  jdolecek  */
      1.3  jdolecek int
      1.3  jdolecek kfilter_register(const char *name, const struct filterops *filtops,
1.23.2.11      yamt 		 int *retfilter)
      1.1     lukem {
      1.3  jdolecek 	struct kfilter *kfilter;
1.23.2.11      yamt 	size_t len;
 1.23.2.2      yamt 	int i;
      1.3  jdolecek
      1.3  jdolecek 	if (name == NULL || name[0] == '\0' || filtops == NULL)
      1.3  jdolecek 		return (EINVAL);	/* invalid args */
1.23.2.11      yamt
1.23.2.11      yamt 	rw_enter(&kqueue_filter_lock, RW_WRITER);
1.23.2.11      yamt 	if (kfilter_byname(name) != NULL) {
1.23.2.11      yamt 		rw_exit(&kqueue_filter_lock);
      1.3  jdolecek 		return (EEXIST);	/* already exists */
1.23.2.11      yamt 	}
1.23.2.11      yamt 	if (user_kfilterc > 0xffffffff - EVFILT_SYSCOUNT) {
1.23.2.11      yamt 		rw_exit(&kqueue_filter_lock);
      1.3  jdolecek 		return (EINVAL);	/* too many */
1.23.2.11      yamt 	}
      1.3  jdolecek
 1.23.2.2      yamt 	for (i = 0; i < user_kfilterc; i++) {
 1.23.2.2      yamt 		kfilter = &user_kfilters[i];
 1.23.2.2      yamt 		if (kfilter->name == NULL) {
 1.23.2.2      yamt 			/* Previously deregistered slot.  Reuse. */
 1.23.2.2      yamt 			goto reuse;
 1.23.2.2      yamt 		}
 1.23.2.2      yamt 	}
 1.23.2.2      yamt
      1.3  jdolecek 	/* check if need to grow user_kfilters */
      1.3  jdolecek 	if (user_kfilterc + 1 > user_kfiltermaxc) {
1.23.2.11      yamt 		/* Grow in KFILTER_EXTENT chunks. */
      1.3  jdolecek 		user_kfiltermaxc += KFILTER_EXTENT;
1.23.2.11      yamt 		len = user_kfiltermaxc * sizeof(struct filter *);
1.23.2.11      yamt 		kfilter = kmem_alloc(len, KM_SLEEP);
1.23.2.11      yamt 		memset((char *)kfilter + user_kfiltersz, 0, len - user_kfiltersz);
1.23.2.11      yamt 		if (user_kfilters != NULL) {
1.23.2.11      yamt 			memcpy(kfilter, user_kfilters, user_kfiltersz);
1.23.2.11      yamt 			kmem_free(user_kfilters, user_kfiltersz);
1.23.2.11      yamt 		}
1.23.2.11      yamt 		user_kfiltersz = len;
      1.3  jdolecek 		user_kfilters = kfilter;
      1.3  jdolecek 	}
 1.23.2.2      yamt 	/* Adding new slot */
 1.23.2.2      yamt 	kfilter = &user_kfilters[user_kfilterc++];
 1.23.2.2      yamt reuse:
1.23.2.11      yamt 	kfilter->namelen = strlen(name) + 1;
1.23.2.11      yamt 	kfilter->name = kmem_alloc(kfilter->namelen, KM_SLEEP);
1.23.2.11      yamt 	memcpy(__UNCONST(kfilter->name), name, kfilter->namelen);
      1.3  jdolecek
 1.23.2.2      yamt 	kfilter->filter = (kfilter - user_kfilters) + EVFILT_SYSCOUNT;
      1.3  jdolecek
1.23.2.11      yamt 	kfilter->filtops = kmem_alloc(sizeof(*filtops), KM_SLEEP);
1.23.2.11      yamt 	memcpy(__UNCONST(kfilter->filtops), filtops, sizeof(*filtops));
      1.3  jdolecek
      1.3  jdolecek 	if (retfilter != NULL)
 1.23.2.2      yamt 		*retfilter = kfilter->filter;
1.23.2.11      yamt 	rw_exit(&kqueue_filter_lock);
1.23.2.11      yamt
      1.3  jdolecek 	return (0);
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * Unregister a kfilter previously registered with kfilter_register.
      1.3  jdolecek  * This retains the filter id, but clears the name and frees filtops (filter
      1.3  jdolecek  * operations), so that the number isn't reused during a boot.
      1.3  jdolecek  * Returns 0 if operation succeeded, or an appropriate errno(2) otherwise.
      1.3  jdolecek  */
      1.3  jdolecek int
      1.3  jdolecek kfilter_unregister(const char *name)
      1.1     lukem {
      1.3  jdolecek 	struct kfilter *kfilter;
      1.3  jdolecek
      1.3  jdolecek 	if (name == NULL || name[0] == '\0')
      1.3  jdolecek 		return (EINVAL);	/* invalid name */
      1.3  jdolecek
1.23.2.11      yamt 	rw_enter(&kqueue_filter_lock, RW_WRITER);
1.23.2.11      yamt 	if (kfilter_byname_sys(name) != NULL) {
1.23.2.11      yamt 		rw_exit(&kqueue_filter_lock);
      1.3  jdolecek 		return (EINVAL);	/* can't detach system filters */
1.23.2.11      yamt 	}
      1.1     lukem
      1.3  jdolecek 	kfilter = kfilter_byname_user(name);
1.23.2.11      yamt 	if (kfilter == NULL) {
1.23.2.11      yamt 		rw_exit(&kqueue_filter_lock);
      1.3  jdolecek 		return (ENOENT);
1.23.2.11      yamt 	}
1.23.2.11      yamt 	if (kfilter->refcnt != 0) {
1.23.2.11      yamt 		rw_exit(&kqueue_filter_lock);
1.23.2.11      yamt 		return (EBUSY);
1.23.2.11      yamt 	}
      1.1     lukem
1.23.2.11      yamt 	/* Cast away const (but we know it's safe. */
1.23.2.11      yamt 	kmem_free(__UNCONST(kfilter->name), kfilter->namelen);
 1.23.2.2      yamt 	kfilter->name = NULL;	/* mark as `not implemented' */
 1.23.2.2      yamt
      1.3  jdolecek 	if (kfilter->filtops != NULL) {
1.23.2.11      yamt 		/* Cast away const (but we know it's safe. */
1.23.2.11      yamt 		kmem_free(__UNCONST(kfilter->filtops),
1.23.2.11      yamt 		    sizeof(*kfilter->filtops));
      1.3  jdolecek 		kfilter->filtops = NULL; /* mark as `not implemented' */
      1.3  jdolecek 	}
1.23.2.11      yamt 	rw_exit(&kqueue_filter_lock);
1.23.2.11      yamt
      1.1     lukem 	return (0);
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek
      1.3  jdolecek /*
      1.3  jdolecek  * Filter attach method for EVFILT_READ and EVFILT_WRITE on normal file
1.23.2.11      yamt  * descriptors. Calls fileops kqfilter method for given file descriptor.
      1.3  jdolecek  */
      1.3  jdolecek static int
      1.3  jdolecek filt_fileattach(struct knote *kn)
      1.3  jdolecek {
1.23.2.11      yamt 	file_t *fp;
1.23.2.11      yamt
1.23.2.11      yamt 	fp = kn->kn_obj;
      1.3  jdolecek
1.23.2.11      yamt 	return (*fp->f_ops->fo_kqfilter)(fp, kn);
      1.3  jdolecek }
      1.3  jdolecek
      1.3  jdolecek /*
      1.3  jdolecek  * Filter detach method for EVFILT_READ on kqueue descriptor.
      1.3  jdolecek  */
      1.1     lukem static void
      1.1     lukem filt_kqdetach(struct knote *kn)
      1.1     lukem {
      1.3  jdolecek 	struct kqueue *kq;
      1.1     lukem
1.23.2.11      yamt 	kq = ((file_t *)kn->kn_obj)->f_data;
1.23.2.11      yamt
1.23.2.11      yamt 	mutex_spin_enter(&kq->kq_lock);
      1.5  christos 	SLIST_REMOVE(&kq->kq_sel.sel_klist, kn, knote, kn_selnext);
1.23.2.11      yamt 	mutex_spin_exit(&kq->kq_lock);
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * Filter event method for EVFILT_READ on kqueue descriptor.
      1.3  jdolecek  */
      1.1     lukem /*ARGSUSED*/
      1.1     lukem static int
      1.1     lukem filt_kqueue(struct knote *kn, long hint)
      1.1     lukem {
      1.3  jdolecek 	struct kqueue *kq;
1.23.2.11      yamt 	int rv;
      1.1     lukem
1.23.2.11      yamt 	kq = ((file_t *)kn->kn_obj)->f_data;
1.23.2.11      yamt
1.23.2.11      yamt 	if (hint != NOTE_SUBMIT)
1.23.2.11      yamt 		mutex_spin_enter(&kq->kq_lock);
      1.1     lukem 	kn->kn_data = kq->kq_count;
1.23.2.11      yamt 	rv = (kn->kn_data > 0);
1.23.2.11      yamt 	if (hint != NOTE_SUBMIT)
1.23.2.11      yamt 		mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt
1.23.2.11      yamt 	return rv;
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * Filter attach method for EVFILT_PROC.
      1.3  jdolecek  */
      1.1     lukem static int
      1.1     lukem filt_procattach(struct knote *kn)
      1.1     lukem {
 1.23.2.2      yamt 	struct proc *p, *curp;
 1.23.2.2      yamt 	struct lwp *curl;
 1.23.2.2      yamt
 1.23.2.2      yamt 	curl = curlwp;
 1.23.2.2      yamt 	curp = curl->l_proc;
      1.1     lukem
1.23.2.11      yamt 	mutex_enter(&proclist_lock);
1.23.2.11      yamt 	p = p_find(kn->kn_id, PFIND_LOCKED);
1.23.2.11      yamt 	if (p == NULL) {
1.23.2.11      yamt 		mutex_exit(&proclist_lock);
1.23.2.11      yamt 		return ESRCH;
1.23.2.11      yamt 	}
      1.3  jdolecek
      1.3  jdolecek 	/*
      1.3  jdolecek 	 * Fail if it's not owned by you, or the last exec gave us
      1.3  jdolecek 	 * setuid/setgid privs (unless you're root).
      1.3  jdolecek 	 */
1.23.2.11      yamt 	mutex_enter(&p->p_mutex);
1.23.2.11      yamt 	mutex_exit(&proclist_lock);
 1.23.2.8      yamt 	if (kauth_authorize_process(curl->l_cred, KAUTH_PROCESS_KEVENT_FILTER,
1.23.2.11      yamt 	    p, NULL, NULL, NULL) != 0) {
1.23.2.11      yamt 	    	mutex_exit(&p->p_mutex);
1.23.2.11      yamt 		return EACCES;
1.23.2.11      yamt 	}
      1.1     lukem
1.23.2.11      yamt 	kn->kn_obj = p;
      1.3  jdolecek 	kn->kn_flags |= EV_CLEAR;	/* automatically set */
      1.1     lukem
      1.1     lukem 	/*
      1.1     lukem 	 * internal flag indicating registration done by kernel
      1.1     lukem 	 */
      1.1     lukem 	if (kn->kn_flags & EV_FLAG1) {
      1.3  jdolecek 		kn->kn_data = kn->kn_sdata;	/* ppid */
      1.1     lukem 		kn->kn_fflags = NOTE_CHILD;
      1.1     lukem 		kn->kn_flags &= ~EV_FLAG1;
      1.1     lukem 	}
      1.1     lukem 	SLIST_INSERT_HEAD(&p->p_klist, kn, kn_selnext);
1.23.2.11      yamt     	mutex_exit(&p->p_mutex);
      1.1     lukem
1.23.2.11      yamt 	return 0;
      1.1     lukem }
      1.1     lukem
      1.1     lukem /*
      1.3  jdolecek  * Filter detach method for EVFILT_PROC.
      1.3  jdolecek  *
      1.1     lukem  * The knote may be attached to a different process, which may exit,
      1.1     lukem  * leaving nothing for the knote to be attached to.  So when the process
      1.1     lukem  * exits, the knote is marked as DETACHED and also flagged as ONESHOT so
      1.1     lukem  * it will be deleted when read out.  However, as part of the knote deletion,
      1.1     lukem  * this routine is called, so a check is needed to avoid actually performing
      1.3  jdolecek  * a detach, because the original process might not exist any more.
      1.1     lukem  */
      1.1     lukem static void
      1.1     lukem filt_procdetach(struct knote *kn)
      1.1     lukem {
      1.3  jdolecek 	struct proc *p;
      1.1     lukem
      1.1     lukem 	if (kn->kn_status & KN_DETACHED)
      1.1     lukem 		return;
      1.1     lukem
1.23.2.11      yamt 	p = kn->kn_obj;
      1.3  jdolecek
1.23.2.11      yamt 	mutex_enter(&p->p_mutex);
      1.1     lukem 	SLIST_REMOVE(&p->p_klist, kn, knote, kn_selnext);
1.23.2.11      yamt 	mutex_exit(&p->p_mutex);
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * Filter event method for EVFILT_PROC.
      1.3  jdolecek  */
      1.1     lukem static int
      1.1     lukem filt_proc(struct knote *kn, long hint)
      1.1     lukem {
1.23.2.11      yamt 	u_int event, fflag;
1.23.2.11      yamt 	struct kevent kev;
1.23.2.11      yamt 	struct kqueue *kq;
1.23.2.11      yamt 	int error;
      1.1     lukem
      1.1     lukem 	event = (u_int)hint & NOTE_PCTRLMASK;
1.23.2.11      yamt 	kq = kn->kn_kq;
1.23.2.11      yamt 	fflag = 0;
      1.1     lukem
1.23.2.11      yamt 	/* If the user is interested in this event, record it. */
      1.1     lukem 	if (kn->kn_sfflags & event)
1.23.2.11      yamt 		fflag |= event;
      1.1     lukem
      1.1     lukem 	if (event == NOTE_EXIT) {
      1.3  jdolecek 		/*
1.23.2.11      yamt 		 * Process is gone, so flag the event as finished.
1.23.2.11      yamt 		 *
      1.3  jdolecek 		 * Detach the knote from watched process and mark
      1.3  jdolecek 		 * it as such. We can't leave this to kqueue_scan(),
      1.3  jdolecek 		 * since the process might not exist by then. And we
      1.3  jdolecek 		 * have to do this now, since psignal KNOTE() is called
      1.3  jdolecek 		 * also for zombies and we might end up reading freed
      1.3  jdolecek 		 * memory if the kevent would already be picked up
     1.22     perry 		 * and knote g/c'ed.
      1.3  jdolecek 		 */
1.23.2.11      yamt 		filt_procdetach(kn);
      1.3  jdolecek
1.23.2.11      yamt 		mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 		kn->kn_status |= KN_DETACHED;
      1.3  jdolecek 		/* Mark as ONESHOT, so that the knote it g/c'ed when read */
     1.22     perry 		kn->kn_flags |= (EV_EOF | EV_ONESHOT);
1.23.2.11      yamt 		kn->kn_fflags |= fflag;
1.23.2.11      yamt 		mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt
1.23.2.11      yamt 		return 1;
      1.1     lukem 	}
      1.1     lukem
1.23.2.11      yamt 	mutex_spin_enter(&kq->kq_lock);
      1.1     lukem 	if ((event == NOTE_FORK) && (kn->kn_sfflags & NOTE_TRACK)) {
      1.1     lukem 		/*
1.23.2.11      yamt 		 * Process forked, and user wants to track the new process,
1.23.2.11      yamt 		 * so attach a new knote to it, and immediately report an
1.23.2.11      yamt 		 * event with the parent's pid.  Register knote with new
1.23.2.11      yamt 		 * process.
      1.1     lukem 		 */
      1.1     lukem 		kev.ident = hint & NOTE_PDATAMASK;	/* pid */
      1.1     lukem 		kev.filter = kn->kn_filter;
      1.1     lukem 		kev.flags = kn->kn_flags | EV_ADD | EV_ENABLE | EV_FLAG1;
      1.1     lukem 		kev.fflags = kn->kn_sfflags;
      1.1     lukem 		kev.data = kn->kn_id;			/* parent */
      1.1     lukem 		kev.udata = kn->kn_kevent.udata;	/* preserve udata */
1.23.2.11      yamt 		mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt 		error = kqueue_register(kq, &kev);
1.23.2.11      yamt 		mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 		if (error != 0)
      1.1     lukem 			kn->kn_fflags |= NOTE_TRACKERR;
      1.1     lukem 	}
1.23.2.11      yamt 	kn->kn_fflags |= fflag;
1.23.2.11      yamt 	fflag = kn->kn_fflags;
1.23.2.11      yamt 	mutex_spin_exit(&kq->kq_lock);
      1.1     lukem
1.23.2.11      yamt 	return fflag != 0;
      1.8  jdolecek }
      1.8  jdolecek
      1.8  jdolecek static void
      1.8  jdolecek filt_timerexpire(void *knx)
      1.8  jdolecek {
      1.8  jdolecek 	struct knote *kn = knx;
      1.8  jdolecek 	int tticks;
      1.8  jdolecek
1.23.2.11      yamt 	mutex_enter(&kqueue_misc_lock);
      1.8  jdolecek 	kn->kn_data++;
1.23.2.11      yamt 	knote_activate(kn);
      1.8  jdolecek 	if ((kn->kn_flags & EV_ONESHOT) == 0) {
      1.8  jdolecek 		tticks = mstohz(kn->kn_sdata);
 1.23.2.4      yamt 		callout_schedule((callout_t *)kn->kn_hook, tticks);
      1.8  jdolecek 	}
1.23.2.11      yamt 	mutex_exit(&kqueue_misc_lock);
      1.8  jdolecek }
      1.8  jdolecek
      1.8  jdolecek /*
      1.8  jdolecek  * data contains amount of time to sleep, in milliseconds
     1.22     perry  */
      1.8  jdolecek static int
      1.8  jdolecek filt_timerattach(struct knote *kn)
      1.8  jdolecek {
 1.23.2.4      yamt 	callout_t *calloutp;
1.23.2.11      yamt 	struct kqueue *kq;
      1.8  jdolecek 	int tticks;
      1.8  jdolecek
      1.8  jdolecek 	tticks = mstohz(kn->kn_sdata);
      1.8  jdolecek
      1.8  jdolecek 	/* if the supplied value is under our resolution, use 1 tick */
      1.8  jdolecek 	if (tticks == 0) {
      1.8  jdolecek 		if (kn->kn_sdata == 0)
1.23.2.11      yamt 			return EINVAL;
      1.8  jdolecek 		tticks = 1;
      1.8  jdolecek 	}
      1.8  jdolecek
1.23.2.11      yamt 	if (atomic_inc_uint_nv(&kq_ncallouts) >= kq_calloutmax ||
1.23.2.11      yamt 	    (calloutp = kmem_alloc(sizeof(*calloutp), KM_NOSLEEP)) == NULL) {
1.23.2.11      yamt 		atomic_dec_uint(&kq_ncallouts);
1.23.2.11      yamt 		return ENOMEM;
1.23.2.11      yamt 	}
 1.23.2.4      yamt 	callout_init(calloutp, 0);
1.23.2.11      yamt
1.23.2.11      yamt 	kq = kn->kn_kq;
1.23.2.11      yamt 	mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 	kn->kn_flags |= EV_CLEAR;		/* automatically set */
      1.8  jdolecek 	kn->kn_hook = calloutp;
1.23.2.11      yamt 	mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt
1.23.2.11      yamt 	callout_reset(calloutp, tticks, filt_timerexpire, kn);
      1.8  jdolecek
      1.8  jdolecek 	return (0);
      1.8  jdolecek }
      1.8  jdolecek
      1.8  jdolecek static void
      1.8  jdolecek filt_timerdetach(struct knote *kn)
      1.8  jdolecek {
 1.23.2.4      yamt 	callout_t *calloutp;
      1.8  jdolecek
 1.23.2.4      yamt 	calloutp = (callout_t *)kn->kn_hook;
      1.8  jdolecek 	callout_stop(calloutp);
 1.23.2.4      yamt 	callout_destroy(calloutp);
1.23.2.11      yamt 	kmem_free(calloutp, sizeof(*calloutp));
1.23.2.11      yamt 	atomic_dec_uint(&kq_ncallouts);
      1.8  jdolecek }
      1.8  jdolecek
      1.8  jdolecek static int
      1.8  jdolecek filt_timer(struct knote *kn, long hint)
      1.8  jdolecek {
1.23.2.11      yamt 	int rv;
1.23.2.11      yamt
1.23.2.11      yamt 	mutex_enter(&kqueue_misc_lock);
1.23.2.11      yamt 	rv = (kn->kn_data != 0);
1.23.2.11      yamt 	mutex_exit(&kqueue_misc_lock);
1.23.2.11      yamt
1.23.2.11      yamt 	return rv;
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * filt_seltrue:
      1.3  jdolecek  *
      1.3  jdolecek  *	This filter "event" routine simulates seltrue().
      1.3  jdolecek  */
      1.1     lukem int
      1.3  jdolecek filt_seltrue(struct knote *kn, long hint)
      1.1     lukem {
      1.1     lukem
      1.3  jdolecek 	/*
      1.3  jdolecek 	 * We don't know how much data can be read/written,
      1.3  jdolecek 	 * but we know that it *can* be.  This is about as
      1.3  jdolecek 	 * good as select/poll does as well.
      1.3  jdolecek 	 */
      1.3  jdolecek 	kn->kn_data = 0;
      1.3  jdolecek 	return (1);
      1.3  jdolecek }
      1.3  jdolecek
      1.3  jdolecek /*
      1.3  jdolecek  * This provides full kqfilter entry for device switch tables, which
      1.3  jdolecek  * has same effect as filter using filt_seltrue() as filter method.
      1.3  jdolecek  */
      1.3  jdolecek static void
      1.3  jdolecek filt_seltruedetach(struct knote *kn)
      1.3  jdolecek {
      1.3  jdolecek 	/* Nothing to do */
      1.3  jdolecek }
      1.3  jdolecek
 1.23.2.6      yamt const struct filterops seltrue_filtops =
      1.3  jdolecek 	{ 1, NULL, filt_seltruedetach, filt_seltrue };
      1.3  jdolecek
      1.3  jdolecek int
      1.3  jdolecek seltrue_kqfilter(dev_t dev, struct knote *kn)
      1.3  jdolecek {
      1.3  jdolecek 	switch (kn->kn_filter) {
      1.3  jdolecek 	case EVFILT_READ:
      1.3  jdolecek 	case EVFILT_WRITE:
      1.3  jdolecek 		kn->kn_fop = &seltrue_filtops;
      1.3  jdolecek 		break;
      1.3  jdolecek 	default:
 1.23.2.6      yamt 		return (EINVAL);
      1.3  jdolecek 	}
      1.3  jdolecek
      1.3  jdolecek 	/* Nothing more to do */
      1.3  jdolecek 	return (0);
      1.3  jdolecek }
      1.3  jdolecek
      1.3  jdolecek /*
      1.3  jdolecek  * kqueue(2) system call.
      1.3  jdolecek  */
      1.3  jdolecek int
 1.23.2.7      yamt sys_kqueue(struct lwp *l, const void *v, register_t *retval)
      1.3  jdolecek {
1.23.2.11      yamt 	struct kqueue *kq;
1.23.2.11      yamt 	file_t *fp;
1.23.2.11      yamt 	int fd, error;
      1.3  jdolecek
1.23.2.11      yamt 	if ((error = fd_allocfile(&fp, &fd)) != 0)
1.23.2.11      yamt 		return error;
      1.1     lukem 	fp->f_flag = FREAD | FWRITE;
      1.1     lukem 	fp->f_type = DTYPE_KQUEUE;
      1.1     lukem 	fp->f_ops = &kqueueops;
1.23.2.11      yamt 	kq = kmem_zalloc(sizeof(*kq), KM_SLEEP);
1.23.2.11      yamt 	mutex_init(&kq->kq_lock, MUTEX_DEFAULT, IPL_SCHED);
1.23.2.11      yamt 	cv_init(&kq->kq_cv, "kqueue");
1.23.2.10      yamt 	selinit(&kq->kq_sel);
1.23.2.11      yamt 	TAILQ_INIT(&kq->kq_head);
1.23.2.11      yamt 	fp->f_data = kq;
      1.3  jdolecek 	*retval = fd;
1.23.2.11      yamt 	kq->kq_fdp = curlwp->l_fd;
1.23.2.11      yamt 	fd_affix(curproc, fp, fd);
1.23.2.11      yamt 	return error;
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * kevent(2) system call.
      1.3  jdolecek  */
 1.23.2.1      yamt static int
 1.23.2.1      yamt kevent_fetch_changes(void *private, const struct kevent *changelist,
1.23.2.11      yamt 		     struct kevent *changes, size_t index, int n)
 1.23.2.1      yamt {
1.23.2.11      yamt
 1.23.2.1      yamt 	return copyin(changelist + index, changes, n * sizeof(*changes));
 1.23.2.1      yamt }
 1.23.2.1      yamt
 1.23.2.1      yamt static int
 1.23.2.1      yamt kevent_put_events(void *private, struct kevent *events,
1.23.2.11      yamt 		  struct kevent *eventlist, size_t index, int n)
 1.23.2.1      yamt {
1.23.2.11      yamt
 1.23.2.1      yamt 	return copyout(events, eventlist + index, n * sizeof(*events));
 1.23.2.1      yamt }
 1.23.2.1      yamt
 1.23.2.1      yamt static const struct kevent_ops kevent_native_ops = {
 1.23.2.1      yamt 	keo_private: NULL,
 1.23.2.1      yamt 	keo_fetch_timeout: copyin,
 1.23.2.1      yamt 	keo_fetch_changes: kevent_fetch_changes,
 1.23.2.1      yamt 	keo_put_events: kevent_put_events,
 1.23.2.1      yamt };
 1.23.2.1      yamt
      1.1     lukem int
 1.23.2.7      yamt sys_kevent(struct lwp *l, const struct sys_kevent_args *uap, register_t *retval)
      1.1     lukem {
 1.23.2.7      yamt 	/* {
      1.3  jdolecek 		syscallarg(int) fd;
      1.3  jdolecek 		syscallarg(const struct kevent *) changelist;
      1.3  jdolecek 		syscallarg(size_t) nchanges;
      1.3  jdolecek 		syscallarg(struct kevent *) eventlist;
      1.3  jdolecek 		syscallarg(size_t) nevents;
      1.3  jdolecek 		syscallarg(const struct timespec *) timeout;
 1.23.2.7      yamt 	} */
 1.23.2.1      yamt
1.23.2.11      yamt 	return kevent1(retval, SCARG(uap, fd), SCARG(uap, changelist),
 1.23.2.1      yamt 	    SCARG(uap, nchanges), SCARG(uap, eventlist), SCARG(uap, nevents),
 1.23.2.1      yamt 	    SCARG(uap, timeout), &kevent_native_ops);
 1.23.2.1      yamt }
 1.23.2.1      yamt
 1.23.2.1      yamt int
1.23.2.11      yamt kevent1(register_t *retval, int fd,
1.23.2.11      yamt 	const struct kevent *changelist, size_t nchanges,
1.23.2.11      yamt 	struct kevent *eventlist, size_t nevents,
1.23.2.11      yamt 	const struct timespec *timeout,
1.23.2.11      yamt 	const struct kevent_ops *keops)
 1.23.2.1      yamt {
1.23.2.11      yamt 	struct kevent *kevp;
1.23.2.11      yamt 	struct kqueue *kq;
      1.3  jdolecek 	struct timespec	ts;
1.23.2.11      yamt 	size_t i, n, ichange;
1.23.2.11      yamt 	int nerrors, error;
1.23.2.11      yamt 	struct kevent kevbuf[8];	/* approx 300 bytes on 64-bit */
1.23.2.11      yamt 	file_t *fp;
      1.3  jdolecek
      1.3  jdolecek 	/* check that we're dealing with a kq */
1.23.2.11      yamt 	fp = fd_getfile(fd);
     1.10        pk 	if (fp == NULL)
      1.1     lukem 		return (EBADF);
     1.10        pk
     1.10        pk 	if (fp->f_type != DTYPE_KQUEUE) {
1.23.2.11      yamt 		fd_putfile(fd);
     1.10        pk 		return (EBADF);
     1.10        pk 	}
      1.1     lukem
 1.23.2.1      yamt 	if (timeout != NULL) {
 1.23.2.1      yamt 		error = (*keops->keo_fetch_timeout)(timeout, &ts, sizeof(ts));
      1.1     lukem 		if (error)
      1.1     lukem 			goto done;
 1.23.2.1      yamt 		timeout = &ts;
      1.1     lukem 	}
      1.1     lukem
      1.1     lukem 	kq = (struct kqueue *)fp->f_data;
      1.1     lukem 	nerrors = 0;
 1.23.2.1      yamt 	ichange = 0;
      1.1     lukem
      1.3  jdolecek 	/* traverse list of events to register */
 1.23.2.1      yamt 	while (nchanges > 0) {
1.23.2.11      yamt 		n = MIN(nchanges, __arraycount(kevbuf));
 1.23.2.1      yamt 		error = (*keops->keo_fetch_changes)(keops->keo_private,
1.23.2.11      yamt 		    changelist, kevbuf, ichange, n);
      1.1     lukem 		if (error)
      1.1     lukem 			goto done;
      1.1     lukem 		for (i = 0; i < n; i++) {
1.23.2.11      yamt 			kevp = &kevbuf[i];
      1.1     lukem 			kevp->flags &= ~EV_SYSFLAGS;
      1.3  jdolecek 			/* register each knote */
1.23.2.11      yamt 			error = kqueue_register(kq, kevp);
      1.1     lukem 			if (error) {
 1.23.2.1      yamt 				if (nevents != 0) {
      1.1     lukem 					kevp->flags = EV_ERROR;
      1.1     lukem 					kevp->data = error;
 1.23.2.1      yamt 					error = (*keops->keo_put_events)
 1.23.2.1      yamt 					    (keops->keo_private, kevp,
 1.23.2.1      yamt 					    eventlist, nerrors, 1);
      1.3  jdolecek 					if (error)
      1.3  jdolecek 						goto done;
 1.23.2.1      yamt 					nevents--;
      1.1     lukem 					nerrors++;
      1.1     lukem 				} else {
      1.1     lukem 					goto done;
      1.1     lukem 				}
      1.1     lukem 			}
      1.1     lukem 		}
 1.23.2.1      yamt 		nchanges -= n;	/* update the results */
 1.23.2.1      yamt 		ichange += n;
      1.1     lukem 	}
      1.1     lukem 	if (nerrors) {
      1.3  jdolecek 		*retval = nerrors;
      1.1     lukem 		error = 0;
      1.1     lukem 		goto done;
      1.1     lukem 	}
      1.1     lukem
      1.3  jdolecek 	/* actually scan through the events */
1.23.2.11      yamt 	error = kqueue_scan(fp, nevents, eventlist, timeout, retval, keops,
1.23.2.11      yamt 	    kevbuf, __arraycount(kevbuf));
      1.3  jdolecek  done:
1.23.2.11      yamt 	fd_putfile(fd);
      1.1     lukem 	return (error);
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * Register a given kevent kev onto the kqueue
      1.3  jdolecek  */
1.23.2.11      yamt static int
1.23.2.11      yamt kqueue_register(struct kqueue *kq, struct kevent *kev)
      1.1     lukem {
1.23.2.11      yamt 	struct kfilter *kfilter;
1.23.2.11      yamt 	filedesc_t *fdp;
1.23.2.11      yamt 	file_t *fp;
1.23.2.11      yamt 	fdfile_t *ff;
1.23.2.11      yamt 	struct knote *kn, *newkn;
1.23.2.11      yamt 	struct klist *list;
1.23.2.11      yamt 	int error, fd, rv;
      1.3  jdolecek
      1.3  jdolecek 	fdp = kq->kq_fdp;
      1.3  jdolecek 	fp = NULL;
      1.3  jdolecek 	kn = NULL;
      1.3  jdolecek 	error = 0;
1.23.2.11      yamt 	fd = 0;
1.23.2.11      yamt
1.23.2.11      yamt 	newkn = kmem_zalloc(sizeof(*newkn), KM_SLEEP);
1.23.2.11      yamt
1.23.2.11      yamt 	rw_enter(&kqueue_filter_lock, RW_READER);
      1.3  jdolecek 	kfilter = kfilter_byfilter(kev->filter);
      1.3  jdolecek 	if (kfilter == NULL || kfilter->filtops == NULL) {
      1.3  jdolecek 		/* filter not found nor implemented */
1.23.2.11      yamt 		rw_exit(&kqueue_filter_lock);
1.23.2.11      yamt 		kmem_free(newkn, sizeof(*newkn));
      1.1     lukem 		return (EINVAL);
      1.1     lukem 	}
      1.1     lukem
1.23.2.11      yamt  	mutex_enter(&fdp->fd_lock);
1.23.2.11      yamt
      1.3  jdolecek 	/* search if knote already exists */
      1.3  jdolecek 	if (kfilter->filtops->f_isfd) {
      1.3  jdolecek 		/* monitoring a file descriptor */
1.23.2.11      yamt 		fd = kev->ident;
1.23.2.11      yamt 		if ((fp = fd_getfile(fd)) == NULL) {
1.23.2.11      yamt 		 	mutex_exit(&fdp->fd_lock);
1.23.2.11      yamt 			rw_exit(&kqueue_filter_lock);
1.23.2.11      yamt 			kmem_free(newkn, sizeof(*newkn));
1.23.2.11      yamt 			return EBADF;
1.23.2.11      yamt 		}
1.23.2.11      yamt 		ff = fdp->fd_ofiles[fd];
1.23.2.11      yamt 		if (fd <= fdp->fd_lastkqfile) {
1.23.2.11      yamt 			SLIST_FOREACH(kn, &ff->ff_knlist, kn_link) {
      1.1     lukem 				if (kq == kn->kn_kq &&
      1.1     lukem 				    kev->filter == kn->kn_filter)
      1.1     lukem 					break;
1.23.2.11      yamt 			}
      1.1     lukem 		}
      1.1     lukem 	} else {
      1.3  jdolecek 		/*
      1.3  jdolecek 		 * not monitoring a file descriptor, so
      1.3  jdolecek 		 * lookup knotes in internal hash table
      1.3  jdolecek 		 */
      1.1     lukem 		if (fdp->fd_knhashmask != 0) {
      1.1     lukem 			list = &fdp->fd_knhash[
      1.1     lukem 			    KN_HASH((u_long)kev->ident, fdp->fd_knhashmask)];
1.23.2.11      yamt 			SLIST_FOREACH(kn, list, kn_link) {
      1.1     lukem 				if (kev->ident == kn->kn_id &&
      1.1     lukem 				    kq == kn->kn_kq &&
      1.1     lukem 				    kev->filter == kn->kn_filter)
      1.1     lukem 					break;
1.23.2.11      yamt 			}
      1.1     lukem 		}
      1.1     lukem 	}
      1.1     lukem
      1.1     lukem 	/*
      1.1     lukem 	 * kn now contains the matching knote, or NULL if no match
      1.1     lukem 	 */
      1.1     lukem 	if (kev->flags & EV_ADD) {
      1.1     lukem 		if (kn == NULL) {
      1.3  jdolecek 			/* create new knote */
1.23.2.11      yamt 			kn = newkn;
1.23.2.11      yamt 			newkn = NULL;
1.23.2.11      yamt 			kn->kn_obj = fp;
      1.1     lukem 			kn->kn_kq = kq;
      1.3  jdolecek 			kn->kn_fop = kfilter->filtops;
1.23.2.11      yamt 			kn->kn_kfilter = kfilter;
1.23.2.11      yamt 			kn->kn_sfflags = kev->fflags;
1.23.2.11      yamt 			kn->kn_sdata = kev->data;
1.23.2.11      yamt 			kev->fflags = 0;
1.23.2.11      yamt 			kev->data = 0;
1.23.2.11      yamt 			kn->kn_kevent = *kev;
      1.1     lukem
      1.1     lukem 			/*
      1.1     lukem 			 * apply reference count to knote structure, and
      1.1     lukem 			 * do not release it at the end of this routine.
      1.1     lukem 			 */
      1.1     lukem 			fp = NULL;
      1.1     lukem
1.23.2.11      yamt 			if (!kn->kn_fop->f_isfd) {
1.23.2.11      yamt 				/*
1.23.2.11      yamt 				 * If knote is not on an fd, store on
1.23.2.11      yamt 				 * internal hash table.
1.23.2.11      yamt 				 */
1.23.2.11      yamt 				if (fdp->fd_knhashmask == 0) {
1.23.2.11      yamt 					/* XXXAD can block with fd_lock held */
1.23.2.11      yamt 					fdp->fd_knhash = hashinit(KN_HASHSIZE,
1.23.2.11      yamt 					    HASH_LIST, M_KEVENT, M_WAITOK,
1.23.2.11      yamt 					    &fdp->fd_knhashmask);
1.23.2.11      yamt 				}
1.23.2.11      yamt 				list = &fdp->fd_knhash[KN_HASH(kn->kn_id,
1.23.2.11      yamt 				    fdp->fd_knhashmask)];
1.23.2.11      yamt 			} else {
1.23.2.11      yamt 				/* Otherwise, knote is on an fd. */
1.23.2.11      yamt 				list = (struct klist *)
1.23.2.11      yamt 				    &fdp->fd_ofiles[kn->kn_id]->ff_knlist;
1.23.2.11      yamt 				if ((int)kn->kn_id > fdp->fd_lastkqfile)
1.23.2.11      yamt 					fdp->fd_lastkqfile = kn->kn_id;
1.23.2.11      yamt 			}
1.23.2.11      yamt 			SLIST_INSERT_HEAD(list, kn, kn_link);
      1.1     lukem
1.23.2.11      yamt 			KERNEL_LOCK(1, NULL);		/* XXXSMP */
1.23.2.11      yamt 			error = (*kfilter->filtops->f_attach)(kn);
1.23.2.11      yamt 			KERNEL_UNLOCK_ONE(NULL);	/* XXXSMP */
1.23.2.11      yamt 			if (error != 0) {
1.23.2.11      yamt 				/* knote_detach() drops fdp->fd_lock */
1.23.2.11      yamt 				knote_detach(kn, fdp, false);
      1.1     lukem 				goto done;
      1.1     lukem 			}
1.23.2.11      yamt 			atomic_inc_uint(&kfilter->refcnt);
      1.1     lukem 		} else {
      1.1     lukem 			/*
      1.1     lukem 			 * The user may change some filter values after the
     1.22     perry 			 * initial EV_ADD, but doing so will not reset any
      1.1     lukem 			 * filter which have already been triggered.
      1.1     lukem 			 */
      1.1     lukem 			kn->kn_sfflags = kev->fflags;
      1.1     lukem 			kn->kn_sdata = kev->data;
      1.1     lukem 			kn->kn_kevent.udata = kev->udata;
      1.1     lukem 		}
1.23.2.11      yamt 		KERNEL_LOCK(1, NULL);			/* XXXSMP */
1.23.2.11      yamt 		rv = (*kn->kn_fop->f_event)(kn, 0);
1.23.2.11      yamt 		KERNEL_UNLOCK_ONE(NULL);		/* XXXSMP */
1.23.2.11      yamt 		if (rv)
1.23.2.11      yamt 			knote_activate(kn);
1.23.2.11      yamt 	} else {
1.23.2.11      yamt 		if (kn == NULL) {
1.23.2.11      yamt 			error = ENOENT;
1.23.2.11      yamt 		 	mutex_exit(&fdp->fd_lock);
1.23.2.11      yamt 			goto done;
1.23.2.11      yamt 		}
1.23.2.11      yamt 		if (kev->flags & EV_DELETE) {
1.23.2.11      yamt 			/* knote_detach() drops fdp->fd_lock */
1.23.2.11      yamt 			knote_detach(kn, fdp, true);
1.23.2.11      yamt 			goto done;
1.23.2.11      yamt 		}
      1.1     lukem 	}
      1.1     lukem
      1.3  jdolecek 	/* disable knote */
1.23.2.11      yamt 	if ((kev->flags & EV_DISABLE)) {
1.23.2.11      yamt 		mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 		if ((kn->kn_status & KN_DISABLED) == 0)
1.23.2.11      yamt 			kn->kn_status |= KN_DISABLED;
1.23.2.11      yamt 		mutex_spin_exit(&kq->kq_lock);
      1.1     lukem 	}
      1.1     lukem
      1.3  jdolecek 	/* enable knote */
1.23.2.11      yamt 	if ((kev->flags & EV_ENABLE)) {
1.23.2.11      yamt 		knote_enqueue(kn);
      1.1     lukem 	}
1.23.2.11      yamt 	mutex_exit(&fdp->fd_lock);
      1.3  jdolecek  done:
1.23.2.11      yamt 	rw_exit(&kqueue_filter_lock);
1.23.2.11      yamt 	if (newkn != NULL)
1.23.2.11      yamt 		kmem_free(newkn, sizeof(*newkn));
      1.1     lukem 	if (fp != NULL)
1.23.2.11      yamt 		fd_putfile(fd);
      1.1     lukem 	return (error);
      1.1     lukem }
      1.1     lukem
1.23.2.11      yamt #if defined(DEBUG)
1.23.2.11      yamt static void
1.23.2.11      yamt kq_check(struct kqueue *kq)
1.23.2.11      yamt {
1.23.2.11      yamt 	const struct knote *kn;
1.23.2.11      yamt 	int count;
1.23.2.11      yamt 	int nmarker;
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT(mutex_owned(&kq->kq_lock));
1.23.2.11      yamt 	KASSERT(kq->kq_count >= 0);
1.23.2.11      yamt
1.23.2.11      yamt 	count = 0;
1.23.2.11      yamt 	nmarker = 0;
1.23.2.11      yamt 	TAILQ_FOREACH(kn, &kq->kq_head, kn_tqe) {
1.23.2.11      yamt 		if ((kn->kn_status & (KN_MARKER | KN_QUEUED)) == 0) {
1.23.2.11      yamt 			panic("%s: kq=%p kn=%p inconsist 1", __func__, kq, kn);
1.23.2.11      yamt 		}
1.23.2.11      yamt 		if ((kn->kn_status & KN_MARKER) == 0) {
1.23.2.11      yamt 			if (kn->kn_kq != kq) {
1.23.2.11      yamt 				panic("%s: kq=%p kn=%p inconsist 2",
1.23.2.11      yamt 				    __func__, kq, kn);
1.23.2.11      yamt 			}
1.23.2.11      yamt 			if ((kn->kn_status & KN_ACTIVE) == 0) {
1.23.2.11      yamt 				panic("%s: kq=%p kn=%p: not active",
1.23.2.11      yamt 				    __func__, kq, kn);
1.23.2.11      yamt 			}
1.23.2.11      yamt 			count++;
1.23.2.11      yamt 			if (count > kq->kq_count) {
1.23.2.11      yamt 				goto bad;
1.23.2.11      yamt 			}
1.23.2.11      yamt 		} else {
1.23.2.11      yamt 			nmarker++;
1.23.2.11      yamt #if 0
1.23.2.11      yamt 			if (nmarker > 10000) {
1.23.2.11      yamt 				panic("%s: kq=%p too many markers: %d != %d, "
1.23.2.11      yamt 				    "nmarker=%d",
1.23.2.11      yamt 				    __func__, kq, kq->kq_count, count, nmarker);
1.23.2.11      yamt 			}
1.23.2.11      yamt #endif
1.23.2.11      yamt 		}
1.23.2.11      yamt 	}
1.23.2.11      yamt 	if (kq->kq_count != count) {
1.23.2.11      yamt bad:
1.23.2.11      yamt 		panic("%s: kq=%p inconsist 3: %d != %d, nmarker=%d",
1.23.2.11      yamt 		    __func__, kq, kq->kq_count, count, nmarker);
1.23.2.11      yamt 	}
1.23.2.11      yamt }
1.23.2.11      yamt #else /* defined(DEBUG) */
1.23.2.11      yamt #define	kq_check(a)	/* nothing */
1.23.2.11      yamt #endif /* defined(DEBUG) */
1.23.2.11      yamt
      1.3  jdolecek /*
      1.3  jdolecek  * Scan through the list of events on fp (for a maximum of maxevents),
      1.3  jdolecek  * returning the results in to ulistp. Timeout is determined by tsp; if
      1.3  jdolecek  * NULL, wait indefinitely, if 0 valued, perform a poll, otherwise wait
      1.3  jdolecek  * as appropriate.
      1.3  jdolecek  */
      1.1     lukem static int
1.23.2.11      yamt kqueue_scan(file_t *fp, size_t maxevents, struct kevent *ulistp,
1.23.2.11      yamt 	    const struct timespec *tsp, register_t *retval,
1.23.2.11      yamt 	    const struct kevent_ops *keops, struct kevent *kevbuf,
1.23.2.11      yamt 	    size_t kevcnt)
      1.1     lukem {
      1.3  jdolecek 	struct kqueue	*kq;
      1.3  jdolecek 	struct kevent	*kevp;
 1.23.2.2      yamt 	struct timeval	atv, sleeptv;
1.23.2.11      yamt 	struct knote	*kn, *marker;
 1.23.2.1      yamt 	size_t		count, nkev, nevents;
1.23.2.11      yamt 	int		timeout, error, rv;
1.23.2.11      yamt 	filedesc_t	*fdp;
      1.1     lukem
1.23.2.11      yamt 	fdp = curlwp->l_fd;
1.23.2.11      yamt 	kq = fp->f_data;
      1.1     lukem 	count = maxevents;
 1.23.2.1      yamt 	nkev = nevents = error = 0;
1.23.2.11      yamt 	if (count == 0) {
1.23.2.11      yamt 		*retval = 0;
1.23.2.11      yamt 		return 0;
1.23.2.11      yamt 	}
      1.1     lukem
      1.9  jdolecek 	if (tsp) {				/* timeout supplied */
      1.1     lukem 		TIMESPEC_TO_TIMEVAL(&atv, tsp);
 1.23.2.2      yamt 		if (inittimeleft(&atv, &sleeptv) == -1) {
1.23.2.11      yamt 			*retval = maxevents;
1.23.2.11      yamt 			return EINVAL;
      1.1     lukem 		}
 1.23.2.1      yamt 		timeout = tvtohz(&atv);
      1.9  jdolecek 		if (timeout <= 0)
 1.23.2.2      yamt 			timeout = -1;           /* do poll */
      1.1     lukem 	} else {
      1.9  jdolecek 		/* no timeout, wait forever */
      1.1     lukem 		timeout = 0;
1.23.2.11      yamt 	}
      1.1     lukem
1.23.2.11      yamt 	marker = kmem_zalloc(sizeof(*marker), KM_SLEEP);
1.23.2.11      yamt 	marker->kn_status = KN_MARKER;
1.23.2.11      yamt 	mutex_spin_enter(&kq->kq_lock);
      1.3  jdolecek  retry:
1.23.2.11      yamt 	kevp = kevbuf;
      1.1     lukem 	if (kq->kq_count == 0) {
1.23.2.11      yamt 		if (timeout >= 0) {
1.23.2.11      yamt 			error = cv_timedwait_sig(&kq->kq_cv,
1.23.2.11      yamt 			    &kq->kq_lock, timeout);
1.23.2.11      yamt 			if (error == 0) {
1.23.2.11      yamt 				 if (tsp == NULL || (timeout =
1.23.2.11      yamt 				     gettimeleft(&atv, &sleeptv)) > 0)
1.23.2.11      yamt 					goto retry;
1.23.2.11      yamt 			} else {
1.23.2.11      yamt 				/* don't restart after signals... */
1.23.2.11      yamt 				if (error == ERESTART)
1.23.2.11      yamt 					error = EINTR;
1.23.2.11      yamt 				if (error == EWOULDBLOCK)
1.23.2.11      yamt 					error = 0;
1.23.2.11      yamt 			}
      1.1     lukem 		}
1.23.2.11      yamt 	} else {
1.23.2.11      yamt 		/* mark end of knote list */
1.23.2.11      yamt 		TAILQ_INSERT_TAIL(&kq->kq_head, marker, kn_tqe);
     1.12        pk
1.23.2.11      yamt 		while (count != 0) {
1.23.2.11      yamt 			kn = TAILQ_FIRST(&kq->kq_head);	/* get next knote */
1.23.2.11      yamt 			while ((kn->kn_status & KN_MARKER) != 0) {
1.23.2.11      yamt 				if (kn == marker) {
1.23.2.11      yamt 					/* it's our marker, stop */
1.23.2.11      yamt 					TAILQ_REMOVE(&kq->kq_head, kn, kn_tqe);
1.23.2.11      yamt 					if (count < maxevents || (tsp != NULL &&
1.23.2.11      yamt 					    (timeout = gettimeleft(&atv,
1.23.2.11      yamt 					    &sleeptv)) <= 0))
1.23.2.11      yamt 						goto done;
1.23.2.11      yamt 					goto retry;
1.23.2.11      yamt 				}
1.23.2.11      yamt 				/* someone else's marker. */
1.23.2.11      yamt 				kn = TAILQ_NEXT(kn, kn_tqe);
1.23.2.11      yamt 			}
1.23.2.11      yamt 			kq_check(kq);
1.23.2.11      yamt 			TAILQ_REMOVE(&kq->kq_head, kn, kn_tqe);
1.23.2.11      yamt 			kq->kq_count--;
      1.1     lukem 			kn->kn_status &= ~KN_QUEUED;
1.23.2.11      yamt 			kq_check(kq);
1.23.2.11      yamt 			if (kn->kn_status & KN_DISABLED) {
1.23.2.11      yamt 				/* don't want disabled events */
1.23.2.11      yamt 				continue;
1.23.2.11      yamt 			}
1.23.2.11      yamt 			if ((kn->kn_flags & EV_ONESHOT) == 0) {
1.23.2.11      yamt 				mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt 				KERNEL_LOCK(1, NULL);		/* XXXSMP */
1.23.2.11      yamt 				rv = (*kn->kn_fop->f_event)(kn, 0);
1.23.2.11      yamt 				KERNEL_UNLOCK_ONE(NULL);	/* XXXSMP */
1.23.2.11      yamt 				if (rv == 0) {
1.23.2.11      yamt 					/*
1.23.2.11      yamt 					 * non-ONESHOT event that hasn't
1.23.2.11      yamt 					 * triggered again, so de-queue.
1.23.2.11      yamt 					 */
1.23.2.11      yamt 					mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 					kn->kn_status &= ~KN_ACTIVE;
1.23.2.11      yamt 					continue;
1.23.2.11      yamt 				}
1.23.2.11      yamt 				mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 			}
1.23.2.11      yamt 			*kevp++ = kn->kn_kevent;
1.23.2.11      yamt 			nkev++;
1.23.2.11      yamt 			if (kn->kn_flags & EV_ONESHOT) {
1.23.2.11      yamt 				/* delete ONESHOT events after retrieval */
1.23.2.11      yamt 				mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt 				mutex_enter(&fdp->fd_lock);
1.23.2.11      yamt 				knote_detach(kn, fdp, true);
1.23.2.11      yamt 				mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 			} else if (kn->kn_flags & EV_CLEAR) {
1.23.2.11      yamt 				/* clear state after retrieval */
1.23.2.11      yamt 				kn->kn_data = 0;
1.23.2.11      yamt 				kn->kn_fflags = 0;
1.23.2.11      yamt 				kn->kn_status &= ~KN_ACTIVE;
1.23.2.11      yamt 			} else {
1.23.2.11      yamt 				/* add event back on list */
1.23.2.11      yamt 				kq_check(kq);
1.23.2.11      yamt 				TAILQ_INSERT_TAIL(&kq->kq_head, kn, kn_tqe);
1.23.2.11      yamt 				kq->kq_count++;
1.23.2.11      yamt 				kn->kn_status |= KN_QUEUED;
1.23.2.11      yamt 				kq_check(kq);
1.23.2.11      yamt 			}
1.23.2.11      yamt 			if (nkev == kevcnt) {
1.23.2.11      yamt 				/* do copyouts in kevcnt chunks */
1.23.2.11      yamt 				mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt 				error = (*keops->keo_put_events)
1.23.2.11      yamt 				    (keops->keo_private,
1.23.2.11      yamt 				    kevbuf, ulistp, nevents, nkev);
1.23.2.11      yamt 				mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 				nevents += nkev;
1.23.2.11      yamt 				nkev = 0;
1.23.2.11      yamt 				kevp = kevbuf;
1.23.2.11      yamt 			}
1.23.2.11      yamt 			count--;
1.23.2.11      yamt 			if (error != 0 || count == 0) {
1.23.2.11      yamt 				/* remove marker */
1.23.2.11      yamt 				TAILQ_REMOVE(&kq->kq_head, marker, kn_tqe);
      1.1     lukem 				break;
1.23.2.11      yamt 			}
      1.1     lukem 		}
      1.1     lukem 	}
      1.3  jdolecek  done:
1.23.2.11      yamt  	mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt 	if (marker != NULL)
1.23.2.11      yamt 		kmem_free(marker, sizeof(*marker));
1.23.2.11      yamt 	if (nkev != 0) {
      1.3  jdolecek 		/* copyout remaining events */
 1.23.2.1      yamt 		error = (*keops->keo_put_events)(keops->keo_private,
1.23.2.11      yamt 		    kevbuf, ulistp, nevents, nkev);
1.23.2.11      yamt 	}
      1.3  jdolecek 	*retval = maxevents - count;
      1.3  jdolecek
1.23.2.11      yamt 	return error;
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
1.23.2.11      yamt  * fileops ioctl method for a kqueue descriptor.
      1.3  jdolecek  *
      1.3  jdolecek  * Two ioctls are currently supported. They both use struct kfilter_mapping:
      1.3  jdolecek  *	KFILTER_BYNAME		find name for filter, and return result in
      1.3  jdolecek  *				name, which is of size len.
      1.3  jdolecek  *	KFILTER_BYFILTER	find filter for name. len is ignored.
      1.3  jdolecek  */
      1.1     lukem /*ARGSUSED*/
      1.1     lukem static int
1.23.2.11      yamt kqueue_ioctl(file_t *fp, u_long com, void *data)
      1.1     lukem {
      1.3  jdolecek 	struct kfilter_mapping	*km;
      1.3  jdolecek 	const struct kfilter	*kfilter;
      1.3  jdolecek 	char			*name;
      1.3  jdolecek 	int			error;
      1.3  jdolecek
1.23.2.11      yamt 	km = data;
      1.3  jdolecek 	error = 0;
1.23.2.11      yamt 	name = kmem_alloc(KFILTER_MAXNAME, KM_SLEEP);
      1.3  jdolecek
      1.3  jdolecek 	switch (com) {
      1.3  jdolecek 	case KFILTER_BYFILTER:	/* convert filter -> name */
1.23.2.11      yamt 		rw_enter(&kqueue_filter_lock, RW_READER);
      1.3  jdolecek 		kfilter = kfilter_byfilter(km->filter);
1.23.2.11      yamt 		if (kfilter != NULL) {
1.23.2.11      yamt 			strlcpy(name, kfilter->name, KFILTER_MAXNAME);
1.23.2.11      yamt 			rw_exit(&kqueue_filter_lock);
1.23.2.11      yamt 			error = copyoutstr(name, km->name, km->len, NULL);
1.23.2.11      yamt 		} else {
1.23.2.11      yamt 			rw_exit(&kqueue_filter_lock);
      1.3  jdolecek 			error = ENOENT;
1.23.2.11      yamt 		}
      1.3  jdolecek 		break;
      1.3  jdolecek
      1.3  jdolecek 	case KFILTER_BYNAME:	/* convert name -> filter */
      1.3  jdolecek 		error = copyinstr(km->name, name, KFILTER_MAXNAME, NULL);
      1.3  jdolecek 		if (error) {
      1.3  jdolecek 			break;
      1.3  jdolecek 		}
1.23.2.11      yamt 		rw_enter(&kqueue_filter_lock, RW_READER);
      1.3  jdolecek 		kfilter = kfilter_byname(name);
      1.3  jdolecek 		if (kfilter != NULL)
      1.3  jdolecek 			km->filter = kfilter->filter;
      1.3  jdolecek 		else
      1.3  jdolecek 			error = ENOENT;
1.23.2.11      yamt 		rw_exit(&kqueue_filter_lock);
      1.3  jdolecek 		break;
      1.3  jdolecek
      1.3  jdolecek 	default:
      1.3  jdolecek 		error = ENOTTY;
1.23.2.11      yamt 		break;
      1.3  jdolecek
      1.3  jdolecek 	}
1.23.2.11      yamt 	kmem_free(name, KFILTER_MAXNAME);
      1.3  jdolecek 	return (error);
      1.3  jdolecek }
      1.3  jdolecek
      1.3  jdolecek /*
1.23.2.11      yamt  * fileops fcntl method for a kqueue descriptor.
      1.3  jdolecek  */
      1.3  jdolecek static int
1.23.2.11      yamt kqueue_fcntl(file_t *fp, u_int com, void *data)
      1.3  jdolecek {
      1.3  jdolecek
      1.1     lukem 	return (ENOTTY);
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
1.23.2.11      yamt  * fileops poll method for a kqueue descriptor.
      1.3  jdolecek  * Determine if kqueue has events pending.
      1.3  jdolecek  */
      1.1     lukem static int
1.23.2.11      yamt kqueue_poll(file_t *fp, int events)
      1.1     lukem {
      1.3  jdolecek 	struct kqueue	*kq;
      1.3  jdolecek 	int		revents;
      1.3  jdolecek
1.23.2.11      yamt 	kq = fp->f_data;
1.23.2.11      yamt
      1.3  jdolecek 	revents = 0;
      1.3  jdolecek 	if (events & (POLLIN | POLLRDNORM)) {
1.23.2.11      yamt 		mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 		if (kq->kq_count != 0) {
      1.3  jdolecek 			revents |= events & (POLLIN | POLLRDNORM);
      1.1     lukem 		} else {
1.23.2.11      yamt 			selrecord(curlwp, &kq->kq_sel);
      1.1     lukem 		}
1.23.2.11      yamt 		kq_check(kq);
1.23.2.11      yamt 		mutex_spin_exit(&kq->kq_lock);
      1.1     lukem 	}
1.23.2.11      yamt
1.23.2.11      yamt 	return revents;
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
1.23.2.11      yamt  * fileops stat method for a kqueue descriptor.
      1.3  jdolecek  * Returns dummy info, with st_size being number of events pending.
      1.3  jdolecek  */
      1.1     lukem static int
1.23.2.11      yamt kqueue_stat(file_t *fp, struct stat *st)
      1.1     lukem {
1.23.2.11      yamt 	struct kqueue *kq;
      1.1     lukem
1.23.2.11      yamt 	kq = fp->f_data;
1.23.2.11      yamt
1.23.2.11      yamt 	memset(st, 0, sizeof(*st));
      1.1     lukem 	st->st_size = kq->kq_count;
      1.1     lukem 	st->st_blksize = sizeof(struct kevent);
      1.1     lukem 	st->st_mode = S_IFIFO;
1.23.2.11      yamt
1.23.2.11      yamt 	return 0;
1.23.2.11      yamt }
1.23.2.11      yamt
1.23.2.11      yamt static void
1.23.2.11      yamt kqueue_doclose(struct kqueue *kq, struct klist *list, int fd)
1.23.2.11      yamt {
1.23.2.11      yamt 	struct knote *kn;
1.23.2.11      yamt 	filedesc_t *fdp;
1.23.2.11      yamt
1.23.2.11      yamt 	fdp = kq->kq_fdp;
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT(mutex_owned(&fdp->fd_lock));
1.23.2.11      yamt
1.23.2.11      yamt 	for (kn = SLIST_FIRST(list); kn != NULL;) {
1.23.2.11      yamt 		if (kq != kn->kn_kq) {
1.23.2.11      yamt 			kn = SLIST_NEXT(kn, kn_link);
1.23.2.11      yamt 			continue;
1.23.2.11      yamt 		}
1.23.2.11      yamt 		knote_detach(kn, fdp, true);
1.23.2.11      yamt 		mutex_enter(&fdp->fd_lock);
1.23.2.11      yamt 		kn = SLIST_FIRST(list);
1.23.2.11      yamt 	}
      1.1     lukem }
      1.1     lukem
1.23.2.11      yamt
      1.3  jdolecek /*
1.23.2.11      yamt  * fileops close method for a kqueue descriptor.
      1.3  jdolecek  */
      1.1     lukem static int
1.23.2.11      yamt kqueue_close(file_t *fp)
      1.1     lukem {
1.23.2.11      yamt 	struct kqueue *kq;
1.23.2.11      yamt 	filedesc_t *fdp;
1.23.2.11      yamt 	fdfile_t *ff;
1.23.2.11      yamt 	int i;
      1.1     lukem
1.23.2.11      yamt 	kq = fp->f_data;
1.23.2.11      yamt 	fdp = curlwp->l_fd;
1.23.2.11      yamt
1.23.2.11      yamt 	mutex_enter(&fdp->fd_lock);
1.23.2.11      yamt 	for (i = 0; i <= fdp->fd_lastkqfile; i++) {
1.23.2.11      yamt 		if ((ff = fdp->fd_ofiles[i]) == NULL)
1.23.2.11      yamt 			continue;
1.23.2.11      yamt 		kqueue_doclose(kq, (struct klist *)&ff->ff_knlist, i);
      1.1     lukem 	}
      1.1     lukem 	if (fdp->fd_knhashmask != 0) {
      1.1     lukem 		for (i = 0; i < fdp->fd_knhashmask + 1; i++) {
1.23.2.11      yamt 			kqueue_doclose(kq, &fdp->fd_knhash[i], -1);
      1.1     lukem 		}
      1.1     lukem 	}
1.23.2.11      yamt 	mutex_exit(&fdp->fd_lock);
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT(kq->kq_count == 0);
1.23.2.11      yamt 	mutex_destroy(&kq->kq_lock);
1.23.2.11      yamt 	cv_destroy(&kq->kq_cv);
1.23.2.10      yamt 	seldestroy(&kq->kq_sel);
1.23.2.11      yamt 	kmem_free(kq, sizeof(*kq));
      1.1     lukem 	fp->f_data = NULL;
      1.1     lukem
      1.1     lukem 	return (0);
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * struct fileops kqfilter method for a kqueue descriptor.
      1.3  jdolecek  * Event triggered when monitored kqueue changes.
      1.3  jdolecek  */
      1.3  jdolecek static int
1.23.2.11      yamt kqueue_kqfilter(file_t *fp, struct knote *kn)
      1.3  jdolecek {
      1.3  jdolecek 	struct kqueue *kq;
1.23.2.11      yamt 	filedesc_t *fdp;
1.23.2.11      yamt
1.23.2.11      yamt 	kq = ((file_t *)kn->kn_obj)->f_data;
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT(fp == kn->kn_obj);
      1.3  jdolecek
      1.3  jdolecek 	if (kn->kn_filter != EVFILT_READ)
1.23.2.11      yamt 		return 1;
1.23.2.11      yamt
      1.3  jdolecek 	kn->kn_fop = &kqread_filtops;
1.23.2.11      yamt 	fdp = curlwp->l_fd;
1.23.2.11      yamt 	mutex_enter(&kq->kq_lock);
      1.5  christos 	SLIST_INSERT_HEAD(&kq->kq_sel.sel_klist, kn, kn_selnext);
1.23.2.11      yamt 	mutex_exit(&kq->kq_lock);
1.23.2.11      yamt
1.23.2.11      yamt 	return 0;
      1.3  jdolecek }
      1.3  jdolecek
      1.3  jdolecek
      1.3  jdolecek /*
1.23.2.11      yamt  * Walk down a list of knotes, activating them if their event has
1.23.2.11      yamt  * triggered.  The caller's object lock (e.g. device driver lock)
1.23.2.11      yamt  * must be held.
      1.1     lukem  */
      1.1     lukem void
      1.1     lukem knote(struct klist *list, long hint)
      1.1     lukem {
      1.1     lukem 	struct knote *kn;
      1.1     lukem
1.23.2.11      yamt 	SLIST_FOREACH(kn, list, kn_selnext) {
1.23.2.11      yamt 		if ((*kn->kn_fop->f_event)(kn, hint))
1.23.2.11      yamt 			knote_activate(kn);
1.23.2.11      yamt 	}
      1.1     lukem }
      1.1     lukem
      1.1     lukem /*
1.23.2.11      yamt  * Remove all knotes referencing a specified fd
      1.1     lukem  */
      1.1     lukem void
1.23.2.11      yamt knote_fdclose(int fd)
      1.1     lukem {
1.23.2.11      yamt 	struct klist *list;
      1.1     lukem 	struct knote *kn;
1.23.2.11      yamt 	filedesc_t *fdp;
      1.1     lukem
1.23.2.11      yamt 	fdp = curlwp->l_fd;
1.23.2.11      yamt 	list = (struct klist *)&fdp->fd_ofiles[fd]->ff_knlist;
1.23.2.11      yamt 	mutex_enter(&fdp->fd_lock);
      1.1     lukem 	while ((kn = SLIST_FIRST(list)) != NULL) {
1.23.2.11      yamt 		knote_detach(kn, fdp, true);
1.23.2.11      yamt 		mutex_enter(&fdp->fd_lock);
      1.1     lukem 	}
1.23.2.11      yamt 	mutex_exit(&fdp->fd_lock);
      1.1     lukem }
      1.1     lukem
      1.1     lukem /*
1.23.2.11      yamt  * Drop knote.  Called with fdp->fd_lock held, and will drop before
1.23.2.11      yamt  * returning.
      1.3  jdolecek  */
      1.1     lukem static void
1.23.2.11      yamt knote_detach(struct knote *kn, filedesc_t *fdp, bool dofop)
      1.1     lukem {
1.23.2.11      yamt 	struct klist *list;
      1.1     lukem
1.23.2.11      yamt 	KASSERT((kn->kn_status & KN_MARKER) == 0);
1.23.2.11      yamt 	KASSERT(mutex_owned(&fdp->fd_lock));
      1.1     lukem
1.23.2.11      yamt 	if (dofop) {
1.23.2.11      yamt 		KERNEL_LOCK(1, NULL);		/* XXXSMP */
1.23.2.11      yamt 		(*kn->kn_fop->f_detach)(kn);
1.23.2.11      yamt 		KERNEL_UNLOCK_ONE(NULL);	/* XXXSMP */
      1.1     lukem 	}
      1.3  jdolecek
      1.1     lukem 	if (kn->kn_fop->f_isfd)
1.23.2.11      yamt 		list = (struct klist *)&fdp->fd_ofiles[kn->kn_id]->ff_knlist;
      1.1     lukem 	else
      1.1     lukem 		list = &fdp->fd_knhash[KN_HASH(kn->kn_id, fdp->fd_knhashmask)];
      1.1     lukem
      1.1     lukem 	SLIST_REMOVE(list, kn, knote, kn_link);
1.23.2.11      yamt 	knote_dequeue(kn);
1.23.2.11      yamt 	mutex_exit(&fdp->fd_lock);
1.23.2.11      yamt 	if (kn->kn_fop->f_isfd)
1.23.2.11      yamt 		fd_putfile(kn->kn_id);
1.23.2.11      yamt 	atomic_dec_uint(&kn->kn_kfilter->refcnt);
1.23.2.11      yamt 	kmem_free(kn, sizeof(*kn));
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * Queue new event for knote.
      1.3  jdolecek  */
      1.1     lukem static void
      1.1     lukem knote_enqueue(struct knote *kn)
      1.1     lukem {
1.23.2.11      yamt 	struct kqueue *kq;
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT((kn->kn_status & KN_MARKER) == 0);
      1.1     lukem
      1.3  jdolecek 	kq = kn->kn_kq;
      1.1     lukem
1.23.2.11      yamt 	mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 	if ((kn->kn_status & KN_DISABLED) != 0) {
1.23.2.11      yamt 		kn->kn_status &= ~KN_DISABLED;
1.23.2.11      yamt 	}
1.23.2.11      yamt 	if ((kn->kn_status & (KN_ACTIVE | KN_QUEUED)) == KN_ACTIVE) {
1.23.2.11      yamt 		kq_check(kq);
1.23.2.11      yamt 		TAILQ_INSERT_TAIL(&kq->kq_head, kn, kn_tqe);
1.23.2.11      yamt 		kn->kn_status |= KN_QUEUED;
1.23.2.11      yamt 		kq->kq_count++;
1.23.2.11      yamt 		kq_check(kq);
1.23.2.11      yamt 		cv_broadcast(&kq->kq_cv);
1.23.2.11      yamt 		selnotify(&kq->kq_sel, 0, NOTE_SUBMIT);
1.23.2.11      yamt 	}
1.23.2.11      yamt 	mutex_spin_exit(&kq->kq_lock);
      1.1     lukem }
      1.1     lukem
      1.3  jdolecek /*
      1.3  jdolecek  * Dequeue event for knote.
      1.3  jdolecek  */
      1.1     lukem static void
      1.1     lukem knote_dequeue(struct knote *kn)
      1.1     lukem {
1.23.2.11      yamt 	struct kqueue *kq;
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT((kn->kn_status & KN_MARKER) == 0);
      1.1     lukem
      1.3  jdolecek 	kq = kn->kn_kq;
     1.12        pk
1.23.2.11      yamt 	mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 	if ((kn->kn_status & KN_QUEUED) != 0) {
1.23.2.11      yamt 		kq_check(kq);
1.23.2.11      yamt 		TAILQ_REMOVE(&kq->kq_head, kn, kn_tqe);
1.23.2.11      yamt 		kn->kn_status &= ~KN_QUEUED;
1.23.2.11      yamt 		kq->kq_count--;
1.23.2.11      yamt 		kq_check(kq);
1.23.2.11      yamt 	}
1.23.2.11      yamt 	mutex_spin_exit(&kq->kq_lock);
1.23.2.11      yamt }
1.23.2.11      yamt
1.23.2.11      yamt /*
1.23.2.11      yamt  * Queue new event for knote.
1.23.2.11      yamt  */
1.23.2.11      yamt static void
1.23.2.11      yamt knote_activate(struct knote *kn)
1.23.2.11      yamt {
1.23.2.11      yamt 	struct kqueue *kq;
1.23.2.11      yamt
1.23.2.11      yamt 	KASSERT((kn->kn_status & KN_MARKER) == 0);
1.23.2.11      yamt
1.23.2.11      yamt 	kq = kn->kn_kq;
1.23.2.11      yamt
1.23.2.11      yamt 	mutex_spin_enter(&kq->kq_lock);
1.23.2.11      yamt 	kn->kn_status |= KN_ACTIVE;
1.23.2.11      yamt 	if ((kn->kn_status & (KN_QUEUED | KN_DISABLED)) == 0) {
1.23.2.11      yamt 		kq_check(kq);
1.23.2.11      yamt 		TAILQ_INSERT_TAIL(&kq->kq_head, kn, kn_tqe);
1.23.2.11      yamt 		kn->kn_status |= KN_QUEUED;
1.23.2.11      yamt 		kq->kq_count++;
1.23.2.11      yamt 		kq_check(kq);
1.23.2.11      yamt 		cv_broadcast(&kq->kq_cv);
1.23.2.11      yamt 		selnotify(&kq->kq_sel, 0, NOTE_SUBMIT);
1.23.2.11      yamt 	}
1.23.2.11      yamt 	mutex_spin_exit(&kq->kq_lock);
      1.1     lukem }