fs/puffs/puffs_msgif.c

1.7  pooka /*	$NetBSD: puffs_msgif.c,v 1.7 2006/11/21 01:51:42 pooka Exp $	*/
1.1  pooka
1.1  pooka /*
1.1  pooka  * Copyright (c) 2005, 2006  Antti Kantee.  All Rights Reserved.
1.1  pooka  *
1.1  pooka  * Development of this software was supported by the
1.1  pooka  * Google Summer of Code program and the Ulla Tuominen Foundation.
1.1  pooka  * The Google SoC project was mentored by Bill Studenmund.
1.1  pooka  *
1.1  pooka  * Redistribution and use in source and binary forms, with or without
1.1  pooka  * modification, are permitted provided that the following conditions
1.1  pooka  * are met:
1.1  pooka  * 1. Redistributions of source code must retain the above copyright
1.1  pooka  *    notice, this list of conditions and the following disclaimer.
1.1  pooka  * 2. Redistributions in binary form must reproduce the above copyright
1.1  pooka  *    notice, this list of conditions and the following disclaimer in the
1.1  pooka  *    documentation and/or other materials provided with the distribution.
1.1  pooka  * 3. The name of the company nor the name of the author may be used to
1.1  pooka  *    endorse or promote products derived from this software without specific
1.1  pooka  *    prior written permission.
1.1  pooka  *
1.1  pooka  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
1.1  pooka  * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
1.1  pooka  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
1.1  pooka  * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
1.1  pooka  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  pooka  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
1.1  pooka  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  pooka  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  pooka  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  pooka  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  pooka  * SUCH DAMAGE.
1.1  pooka  */
1.1  pooka
1.1  pooka #include <sys/cdefs.h>
1.7  pooka __KERNEL_RCSID(0, "$NetBSD: puffs_msgif.c,v 1.7 2006/11/21 01:51:42 pooka Exp $");
1.1  pooka
1.1  pooka #include <sys/param.h>
1.1  pooka #include <sys/conf.h>
1.1  pooka #include <sys/malloc.h>
1.1  pooka #include <sys/mount.h>
1.1  pooka #include <sys/socketvar.h>
1.1  pooka #include <sys/vnode.h>
1.1  pooka #include <sys/file.h>
1.1  pooka #include <sys/filedesc.h>
1.1  pooka #include <sys/lock.h>
1.1  pooka #include <sys/poll.h>
1.1  pooka
1.1  pooka #include <fs/puffs/puffs_msgif.h>
1.1  pooka #include <fs/puffs/puffs_sys.h>
1.1  pooka
1.1  pooka #include <miscfs/syncfs/syncfs.h> /* XXX: for syncer_lock reference */
1.1  pooka
1.1  pooka
1.1  pooka /*
1.1  pooka  * kernel-user-kernel waitqueues
1.1  pooka  */
1.1  pooka
1.4  pooka static int touser(struct puffs_mount *, struct puffs_park *, uint64_t,
1.1  pooka 		  struct vnode *, struct vnode *);
1.1  pooka
1.4  pooka uint64_t
1.1  pooka puffs_getreqid(struct puffs_mount *pmp)
1.1  pooka {
1.1  pooka 	unsigned int rv;
1.1  pooka
1.1  pooka 	simple_lock(&pmp->pmp_lock);
1.1  pooka 	rv = pmp->pmp_nextreq++;
1.1  pooka 	simple_unlock(&pmp->pmp_lock);
1.1  pooka
1.1  pooka 	return rv;
1.1  pooka }
1.1  pooka
1.1  pooka /* vfs request */
1.1  pooka int
1.1  pooka puffs_vfstouser(struct puffs_mount *pmp, int optype, void *kbuf, size_t buflen)
1.1  pooka {
1.1  pooka 	struct puffs_park park;
1.1  pooka
1.3  pooka 	memset(&park.park_preq, 0, sizeof(struct puffs_req));
1.1  pooka
1.3  pooka 	park.park_opclass = PUFFSOP_VFS;
1.3  pooka 	park.park_optype = optype;
1.1  pooka
1.1  pooka 	park.park_kernbuf = kbuf;
1.1  pooka 	park.park_buflen = buflen;
1.1  pooka 	park.park_copylen = buflen;
1.1  pooka 	park.park_flags = 0;
1.1  pooka
1.1  pooka 	return touser(pmp, &park, puffs_getreqid(pmp), NULL, NULL);
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * vnode level request
1.1  pooka  */
1.1  pooka int
1.1  pooka puffs_vntouser(struct puffs_mount *pmp, int optype,
1.1  pooka 	void *kbuf, size_t buflen, void *cookie,
1.1  pooka 	struct vnode *vp1, struct vnode *vp2)
1.1  pooka {
1.1  pooka 	struct puffs_park park;
1.1  pooka
1.3  pooka 	memset(&park.park_preq, 0, sizeof(struct puffs_req));
1.1  pooka
1.3  pooka 	park.park_opclass = PUFFSOP_VN;
1.3  pooka 	park.park_optype = optype;
1.3  pooka 	park.park_cookie = cookie;
1.1  pooka
1.1  pooka 	park.park_kernbuf = kbuf;
1.1  pooka 	park.park_buflen = buflen;
1.1  pooka 	park.park_copylen = buflen;
1.1  pooka 	park.park_flags = 0;
1.1  pooka
1.1  pooka 	return touser(pmp, &park, puffs_getreqid(pmp), vp1, vp2);
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * vnode level request, caller-controller req id
1.1  pooka  */
1.1  pooka int
1.1  pooka puffs_vntouser_req(struct puffs_mount *pmp, int optype,
1.4  pooka 	void *kbuf, size_t buflen, void *cookie, uint64_t reqid,
1.1  pooka 	struct vnode *vp1, struct vnode *vp2)
1.1  pooka {
1.1  pooka 	struct puffs_park park;
1.1  pooka
1.3  pooka 	memset(&park.park_preq, 0, sizeof(struct puffs_req));
1.1  pooka
1.3  pooka 	park.park_opclass = PUFFSOP_VN;
1.3  pooka 	park.park_optype = optype;
1.3  pooka 	park.park_cookie = cookie;
1.1  pooka
1.1  pooka 	park.park_kernbuf = kbuf;
1.1  pooka 	park.park_buflen = buflen;
1.1  pooka 	park.park_copylen = buflen;
1.1  pooka 	park.park_flags = 0;
1.1  pooka
1.1  pooka 	return touser(pmp, &park, reqid, vp1, vp2);
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * vnode level request, copy routines can adjust "kernbuf"
1.1  pooka  */
1.1  pooka int
1.1  pooka puffs_vntouser_adjbuf(struct puffs_mount *pmp, int optype,
1.1  pooka 	void **kbuf, size_t *buflen, size_t copylen, void *cookie,
1.1  pooka 	struct vnode *vp1, struct vnode *vp2)
1.1  pooka {
1.1  pooka 	struct puffs_park park;
1.1  pooka 	int error;
1.1  pooka
1.3  pooka 	memset(&park.park_preq, 0, sizeof(struct puffs_req));
1.1  pooka
1.3  pooka 	park.park_opclass = PUFFSOP_VN;
1.3  pooka 	park.park_optype = optype;
1.3  pooka 	park.park_cookie = cookie;
1.1  pooka
1.1  pooka 	park.park_kernbuf = *kbuf;
1.1  pooka 	park.park_buflen = *buflen;
1.1  pooka 	park.park_copylen = copylen;
1.1  pooka 	park.park_flags = PUFFS_REQFLAG_ADJBUF;
1.1  pooka
1.1  pooka 	error = touser(pmp, &park, puffs_getreqid(pmp), vp1, vp2);
1.1  pooka 	*kbuf = park.park_kernbuf;
1.1  pooka 	*buflen = park.park_buflen;
1.1  pooka
1.1  pooka 	return error;
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.4  pooka  * Notice: kbuf will be free'd later.  I must be allocated from the
1.4  pooka  * kernel heap and it's ownership is shifted to this function from
1.4  pooka  * now on, i.e. the caller is not allowed to use it anymore!
1.4  pooka  */
1.4  pooka void
1.4  pooka puffs_vntouser_faf(struct puffs_mount *pmp, int optype,
1.4  pooka 	void *kbuf, size_t buflen, void *cookie)
1.4  pooka {
1.4  pooka 	struct puffs_park *ppark;
1.4  pooka
1.4  pooka 	/* XXX: is it allowable to sleep here? */
1.4  pooka 	ppark = malloc(sizeof(struct puffs_park), M_PUFFS, M_NOWAIT | M_ZERO);
1.4  pooka 	if (ppark == NULL)
1.4  pooka 		return; /* 2bad */
1.4  pooka
1.4  pooka 	ppark->park_opclass = PUFFSOP_VN | PUFFSOPFLAG_FAF;
1.4  pooka 	ppark->park_optype = optype;
1.4  pooka 	ppark->park_cookie = cookie;
1.4  pooka
1.4  pooka 	ppark->park_kernbuf = kbuf;
1.4  pooka 	ppark->park_buflen = buflen;
1.4  pooka 	ppark->park_copylen = buflen;
1.4  pooka
1.4  pooka 	(void)touser(pmp, ppark, 0, NULL, NULL);
1.4  pooka }
1.4  pooka
1.4  pooka /*
1.1  pooka  * Wait for the userspace ping-pong game in calling process context.
1.1  pooka  *
1.1  pooka  * This unlocks vnodes if they are supplied.  vp1 is the vnode
1.1  pooka  * before in the locking order, i.e. the one which must be locked
1.1  pooka  * before accessing vp2.  This is done here so that operations are
1.1  pooka  * already ordered in the queue when vnodes are unlocked (I'm not
1.1  pooka  * sure if that's really necessary, but it can't hurt).  Okok, maybe
1.1  pooka  * there's a slight ugly-factor also, but let's not worry about that.
1.1  pooka  */
1.1  pooka static int
1.4  pooka touser(struct puffs_mount *pmp, struct puffs_park *ppark, uint64_t reqid,
1.1  pooka 	struct vnode *vp1, struct vnode *vp2)
1.1  pooka {
1.1  pooka
1.1  pooka 	simple_lock(&pmp->pmp_lock);
1.1  pooka 	if (pmp->pmp_status != PUFFSTAT_RUNNING
1.1  pooka 	    && pmp->pmp_status != PUFFSTAT_MOUNTING) {
1.1  pooka 		simple_unlock(&pmp->pmp_lock);
1.1  pooka 		return ENXIO;
1.1  pooka 	}
1.1  pooka
1.4  pooka 	ppark->park_id = reqid;
1.1  pooka
1.4  pooka 	TAILQ_INSERT_TAIL(&pmp->pmp_req_touser, ppark, park_entries);
1.1  pooka 	pmp->pmp_req_touser_waiters++;
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * Don't do unlock-relock dance yet.  There are a couple of
1.1  pooka 	 * unsolved issues with it.  If we don't unlock, we can have
1.1  pooka 	 * processes wanting vn_lock in case userspace hangs.  But
1.1  pooka 	 * that can be "solved" by killing the userspace process.  It
1.1  pooka 	 * would of course be nicer to have antilocking in the userspace
1.1  pooka 	 * interface protocol itself.. your patience will be rewarded.
1.1  pooka 	 */
1.1  pooka #if 0
1.1  pooka 	/* unlock */
1.1  pooka 	if (vp2)
1.1  pooka 		VOP_UNLOCK(vp2, 0);
1.1  pooka 	if (vp1)
1.1  pooka 		VOP_UNLOCK(vp1, 0);
1.1  pooka #endif
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * XXX: does releasing the lock here cause trouble?  Can't hold
1.1  pooka 	 * it, because otherwise the below would cause locking against
1.4  pooka 	 * oneself-problems in the kqueue stuff.  yes, it is a
1.4  pooka 	 * theoretical race, so it must be solved
1.1  pooka 	 */
1.1  pooka 	simple_unlock(&pmp->pmp_lock);
1.1  pooka
1.1  pooka 	wakeup(&pmp->pmp_req_touser);
1.1  pooka 	selnotify(pmp->pmp_sel, 0);
1.1  pooka
1.4  pooka 	if (PUFFSOP_WANTREPLY(ppark->park_opclass))
1.4  pooka 		ltsleep(ppark, PUSER, "puffs1", 0, NULL);
1.1  pooka
1.1  pooka #if 0
1.1  pooka 	/* relock */
1.1  pooka 	if (vp1)
1.1  pooka 		KASSERT(vn_lock(vp1, LK_EXCLUSIVE | LK_RETRY) == 0);
1.1  pooka 	if (vp2)
1.1  pooka 		KASSERT(vn_lock(vp2, LK_EXCLUSIVE | LK_RETRY) == 0);
1.1  pooka #endif
1.1  pooka
1.4  pooka 	return ppark->park_rv;
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * We're dead, kaput, RIP, slightly more than merely pining for the
1.1  pooka  * fjords, belly-up, fallen, lifeless, finished, expired, gone to meet
1.1  pooka  * our maker, ceased to be, etcetc.  YASD.  It's a dead FS!
1.1  pooka  */
1.1  pooka void
1.1  pooka puffs_userdead(struct puffs_mount *pmp)
1.1  pooka {
1.1  pooka 	struct puffs_park *park;
1.1  pooka
1.1  pooka 	simple_lock(&pmp->pmp_lock);
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * Mark filesystem status as dying so that operations don't
1.1  pooka 	 * attempt to march to userspace any longer.
1.1  pooka 	 */
1.1  pooka 	pmp->pmp_status = PUFFSTAT_DYING;
1.1  pooka
1.1  pooka 	/* and wakeup processes waiting for a reply from userspace */
1.1  pooka 	TAILQ_FOREACH(park, &pmp->pmp_req_replywait, park_entries) {
1.3  pooka 		park->park_rv = ENXIO;
1.1  pooka 		TAILQ_REMOVE(&pmp->pmp_req_replywait, park, park_entries);
1.1  pooka 		wakeup(park);
1.1  pooka 	}
1.1  pooka
1.1  pooka 	/* wakeup waiters for completion of vfs/vnode requests */
1.1  pooka 	TAILQ_FOREACH(park, &pmp->pmp_req_touser, park_entries) {
1.3  pooka 		park->park_rv = ENXIO;
1.1  pooka 		TAILQ_REMOVE(&pmp->pmp_req_touser, park, park_entries);
1.1  pooka 		wakeup(park);
1.1  pooka 	}
1.1  pooka
1.1  pooka 	simple_unlock(&pmp->pmp_lock);
1.1  pooka }
1.1  pooka
1.1  pooka
1.1  pooka /*
1.1  pooka  * Device routines
1.1  pooka  */
1.1  pooka
1.1  pooka dev_type_open(puffscdopen);
1.1  pooka dev_type_close(puffscdclose);
1.1  pooka dev_type_ioctl(puffscdioctl);
1.1  pooka
1.1  pooka /* dev */
1.1  pooka const struct cdevsw puffs_cdevsw = {
1.1  pooka 	puffscdopen,	puffscdclose,	noread,		nowrite,
1.1  pooka 	noioctl,	nostop,		notty,		nopoll,
1.1  pooka 	nommap,		nokqfilter,	D_OTHER
1.1  pooka };
1.1  pooka
1.1  pooka static int puffs_fop_read(struct file *, off_t *, struct uio *,
1.1  pooka 			  kauth_cred_t, int);
1.1  pooka static int puffs_fop_write(struct file *, off_t *, struct uio *,
1.1  pooka 			   kauth_cred_t, int);
1.1  pooka static int puffs_fop_ioctl(struct file*, u_long, void *, struct lwp *);
1.1  pooka static int puffs_fop_poll(struct file *, int, struct lwp *);
1.1  pooka static int puffs_fop_close(struct file *, struct lwp *);
1.1  pooka static int puffs_fop_kqfilter(struct file *, struct knote *);
1.1  pooka
1.1  pooka
1.1  pooka /* fd routines, for cloner */
1.1  pooka static const struct fileops puffs_fileops = {
1.1  pooka 	puffs_fop_read,
1.1  pooka 	puffs_fop_write,
1.1  pooka 	puffs_fop_ioctl,
1.1  pooka 	fnullop_fcntl,
1.1  pooka 	puffs_fop_poll,
1.1  pooka 	fbadop_stat,
1.1  pooka 	puffs_fop_close,
1.1  pooka 	puffs_fop_kqfilter
1.1  pooka };
1.1  pooka
1.1  pooka /*
1.1  pooka  * puffs instance structures.  these are always allocated and freed
1.1  pooka  * from the context of the device node / fileop code.
1.1  pooka  */
1.1  pooka struct puffs_instance {
1.1  pooka 	pid_t pi_pid;
1.1  pooka 	int pi_idx;
1.1  pooka 	int pi_fd;
1.1  pooka 	struct puffs_mount *pi_pmp;
1.1  pooka 	struct selinfo pi_sel;
1.1  pooka
1.1  pooka 	TAILQ_ENTRY(puffs_instance) pi_entries;
1.1  pooka };
1.1  pooka #define PMP_EMBRYO ((struct puffs_mount *)-1)	/* before mount	*/
1.1  pooka #define PMP_DEAD ((struct puffs_mount *)-2)	/* goner	*/
1.1  pooka
1.1  pooka static TAILQ_HEAD(, puffs_instance) puffs_ilist
1.1  pooka     = TAILQ_HEAD_INITIALIZER(puffs_ilist);
1.1  pooka
1.1  pooka /* protects both the list and the contents of the list elements */
1.1  pooka static struct simplelock pi_lock = SIMPLELOCK_INITIALIZER;
1.1  pooka
1.1  pooka static int get_pi_idx(struct puffs_instance *);
1.1  pooka
1.1  pooka /* search sorted list of instances for free minor, sorted insert arg */
1.1  pooka static int
1.1  pooka get_pi_idx(struct puffs_instance *pi_i)
1.1  pooka {
1.1  pooka 	struct puffs_instance *pi;
1.1  pooka 	int i;
1.1  pooka
1.1  pooka 	i = 0;
1.1  pooka 	TAILQ_FOREACH(pi, &puffs_ilist, pi_entries) {
1.1  pooka 		if (i == PUFFS_CLONER)
1.1  pooka 			return PUFFS_CLONER;
1.1  pooka 		if (i != pi->pi_idx)
1.1  pooka 			break;
1.1  pooka 		i++;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	pi_i->pi_pmp = PMP_EMBRYO;
1.1  pooka
1.1  pooka 	if (pi == NULL)
1.1  pooka 		TAILQ_INSERT_TAIL(&puffs_ilist, pi_i, pi_entries);
1.1  pooka 	else
1.1  pooka 		TAILQ_INSERT_BEFORE(pi, pi_i, pi_entries);
1.1  pooka
1.1  pooka 	return i;
1.1  pooka }
1.1  pooka
1.1  pooka int
1.1  pooka puffscdopen(dev_t dev, int flags, int fmt, struct lwp *l)
1.1  pooka {
1.1  pooka 	struct puffs_instance *pi;
1.1  pooka 	struct file *fp;
1.1  pooka 	int error, fd, idx;
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * XXX: decide on some security model and check permissions
1.1  pooka 	 */
1.1  pooka
1.1  pooka 	if (minor(dev) != PUFFS_CLONER)
1.1  pooka 		return ENXIO;
1.1  pooka
1.1  pooka 	if ((error = falloc(l, &fp, &fd)) != 0)
1.1  pooka 		return error;
1.1  pooka
1.1  pooka 	MALLOC(pi, struct puffs_instance *, sizeof(struct puffs_instance),
1.1  pooka 	    M_PUFFS, M_WAITOK | M_ZERO);
1.1  pooka
1.1  pooka 	simple_lock(&pi_lock);
1.1  pooka 	idx = get_pi_idx(pi);
1.1  pooka 	if (idx == PUFFS_CLONER) {
1.1  pooka 		simple_unlock(&pi_lock);
1.1  pooka 		FREE(pi, M_PUFFS);
1.1  pooka 		FILE_UNUSE(fp, l);
1.1  pooka 		ffree(fp);
1.1  pooka 		return EBUSY;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	pi->pi_pid = l->l_proc->p_pid;
1.1  pooka 	pi->pi_idx = idx;
1.1  pooka 	simple_unlock(&pi_lock);
1.1  pooka
1.1  pooka 	DPRINTF(("puffscdopen: registered embryonic pmp for pid: %d\n",
1.1  pooka 	    pi->pi_pid));
1.1  pooka
1.1  pooka 	return fdclone(l, fp, fd, FREAD|FWRITE, &puffs_fileops, pi);
1.1  pooka }
1.1  pooka
1.1  pooka int
1.1  pooka puffscdclose(dev_t dev, int flags, int fmt, struct lwp *l)
1.1  pooka {
1.1  pooka
1.1  pooka 	panic("puffscdclose\n");
1.1  pooka
1.1  pooka 	return 0;
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * Set puffs_mount -pointer.  Called from puffs_mount(), which is the
1.1  pooka  * earliest place that knows about this.
1.1  pooka  *
1.1  pooka  * We only want to make sure that the caller had the right to open the
1.1  pooka  * device, we don't so much care about which context it gets in case
1.1  pooka  * the same process opened multiple (since they are equal at this point).
1.1  pooka  */
1.1  pooka int
1.1  pooka puffs_setpmp(pid_t pid, int fd, struct puffs_mount *pmp)
1.1  pooka {
1.1  pooka 	struct puffs_instance *pi;
1.1  pooka 	int rv = 1;
1.1  pooka
1.1  pooka 	simple_lock(&pi_lock);
1.1  pooka 	TAILQ_FOREACH(pi, &puffs_ilist, pi_entries) {
1.1  pooka 		if (pi->pi_pid == pid && pi->pi_pmp == PMP_EMBRYO) {
1.1  pooka 			pi->pi_pmp = pmp;
1.1  pooka 			pi->pi_fd = fd;
1.1  pooka 			pmp->pmp_sel = &pi->pi_sel;
1.1  pooka 			rv = 0;
1.1  pooka 			break;
1.1  pooka 		    }
1.1  pooka 	}
1.1  pooka 	simple_unlock(&pi_lock);
1.1  pooka
1.1  pooka 	return rv;
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * Remove mount point from list of instances.  Called from unmount.
1.1  pooka  */
1.1  pooka void
1.1  pooka puffs_nukebypmp(struct puffs_mount *pmp)
1.1  pooka {
1.1  pooka 	struct puffs_instance *pi;
1.1  pooka
1.1  pooka 	simple_lock(&pi_lock);
1.1  pooka 	TAILQ_FOREACH(pi, &puffs_ilist, pi_entries) {
1.1  pooka 		if (pi->pi_pmp == pmp) {
1.1  pooka 			TAILQ_REMOVE(&puffs_ilist, pi, pi_entries);
1.1  pooka 			break;
1.1  pooka 		}
1.1  pooka 	}
1.1  pooka 	if (pi)
1.1  pooka 		pi->pi_pmp = PMP_DEAD;
1.1  pooka
1.1  pooka #ifdef DIAGNOSTIC
1.1  pooka 	else
1.1  pooka 		panic("puffs_nukebypmp: invalid puffs_mount\n");
1.1  pooka #endif /* DIAGNOSTIC */
1.1  pooka
1.1  pooka 	simple_unlock(&pi_lock);
1.1  pooka
1.1  pooka 	DPRINTF(("puffs_nukebypmp: nuked %p\n", pi));
1.1  pooka }
1.1  pooka
1.1  pooka
1.1  pooka static int
1.1  pooka puffs_fop_read(struct file *fp, off_t *off, struct uio *uio,
1.1  pooka 	kauth_cred_t cred, int flags)
1.1  pooka {
1.1  pooka
1.1  pooka 	printf("READ\n");
1.1  pooka 	return ENODEV;
1.1  pooka }
1.1  pooka
1.1  pooka static int
1.1  pooka puffs_fop_write(struct file *fp, off_t *off, struct uio *uio,
1.1  pooka 	kauth_cred_t cred, int flags)
1.1  pooka {
1.1  pooka
1.1  pooka 	printf("WRITE\n");
1.1  pooka 	return ENODEV;
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * Poll query interface.  The question is only if an event
1.1  pooka  * can be read from us (and by read I mean ioctl... ugh).
1.1  pooka  */
1.1  pooka #define PUFFPOLL_EVSET (POLLIN | POLLRDNORM | POLLRDBAND | POLLPRI)
1.1  pooka static int
1.1  pooka puffs_fop_poll(struct file *fp, int events, struct lwp *l)
1.1  pooka {
1.1  pooka 	struct puffs_mount *pmp = FPTOPMP(fp);
1.1  pooka 	int revents;
1.1  pooka
1.1  pooka 	if (pmp == PMP_EMBRYO || pmp == PMP_DEAD) {
1.1  pooka 		printf("puffs_fop_ioctl: puffs %p, not mounted\n", pmp);
1.1  pooka 		return ENOENT;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	revents = events & (POLLOUT | POLLWRNORM | POLLWRBAND);
1.1  pooka 	if ((events & PUFFPOLL_EVSET) == 0)
1.1  pooka 		return revents;
1.1  pooka
1.1  pooka 	/* check queue */
1.1  pooka 	simple_lock(&pmp->pmp_lock);
1.1  pooka 	if (!TAILQ_EMPTY(&pmp->pmp_req_touser))
1.1  pooka 		revents |= PUFFPOLL_EVSET;
1.1  pooka 	else
1.1  pooka 		selrecord(l, pmp->pmp_sel);
1.1  pooka 	simple_unlock(&pmp->pmp_lock);
1.1  pooka
1.1  pooka 	return revents;
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * device close = forced unmount.
1.1  pooka  *
1.1  pooka  * unmounting is a frightfully complex operation to avoid races
1.1  pooka  *
1.1  pooka  * XXX: if userspace is terminated by a signal, this will be
1.1  pooka  * called only after the signal is delivered (i.e. after someone tries
1.1  pooka  * to access the file system).  Also, the first one for a delivery
1.1  pooka  * will get a free bounce-bounce ride before it can be notified
1.1  pooka  * that the fs is dead.  I'm not terribly concerned about optimizing
1.1  pooka  * this for speed ...
1.1  pooka  */
1.1  pooka static int
1.1  pooka puffs_fop_close(struct file *fp, struct lwp *l)
1.1  pooka {
1.1  pooka 	struct puffs_instance *pi;
1.1  pooka 	struct puffs_mount *pmp;
1.1  pooka 	struct mount *mp;
1.6  pooka 	int gone;
1.1  pooka
1.1  pooka 	DPRINTF(("puffs_fop_close: device closed, force filesystem unmount\n"));
1.1  pooka
1.1  pooka 	simple_lock(&pi_lock);
1.1  pooka 	pmp = FPTOPMP(fp);
1.1  pooka 	/*
1.1  pooka 	 * First check if the fs was never mounted.  In that case
1.1  pooka 	 * remove the instance from the list.  If mount is attempted later,
1.1  pooka 	 * it will simply fail.
1.1  pooka 	 */
1.1  pooka 	if (pmp == PMP_EMBRYO) {
1.1  pooka 		pi = FPTOPI(fp);
1.1  pooka 		TAILQ_REMOVE(&puffs_ilist, pi, pi_entries);
1.1  pooka 		simple_unlock(&pi_lock);
1.1  pooka 		FREE(pi, M_PUFFS);
1.1  pooka 		return 0;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * Next, analyze unmount was called and the instance is dead.
1.1  pooka 	 * In this case we can just free the structure and go home, it
1.1  pooka 	 * was removed from the list by puffs_nukebypmp().
1.1  pooka 	 */
1.1  pooka 	if (pmp == PMP_DEAD) {
1.1  pooka 		/* would be nice, but don't have a reference to it ... */
1.1  pooka 		/* KASSERT(pmp_status == PUFFSTAT_DYING); */
1.1  pooka 		simple_unlock(&pi_lock);
1.1  pooka 		pi = FPTOPI(fp);
1.1  pooka 		FREE(pi, M_PUFFS);
1.1  pooka 		return 0;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * So we have a reference.  Proceed to unwrap the file system.
1.1  pooka 	 */
1.1  pooka 	mp = PMPTOMP(pmp);
1.1  pooka 	simple_unlock(&pi_lock);
1.1  pooka
1.1  pooka 	/*
1.2  pooka 	 * Free the waiting callers before proceeding any further.
1.2  pooka 	 * The syncer might be jogging around in this file system
1.2  pooka 	 * currently.  If we allow it to go to the userspace of no
1.2  pooka 	 * return while trying to get the syncer lock, well ...
1.2  pooka 	 * synclk: I feel happy, I feel fine.
1.2  pooka 	 * lockmgr: You're not fooling anyone, you know.
1.2  pooka 	 */
1.2  pooka 	puffs_userdead(pmp);
1.2  pooka
1.2  pooka 	/*
1.1  pooka 	 * Detach from VFS.  First do necessary XXX-dance (from
1.1  pooka 	 * sys_unmount() & other callers of dounmount()
1.1  pooka 	 *
1.1  pooka 	 * XXX Freeze syncer.  Must do this before locking the
1.1  pooka 	 * mount point.  See dounmount() for details.
1.6  pooka 	 *
1.6  pooka 	 * XXX2: take a reference to the mountpoint before starting to
1.6  pooka 	 * wait for syncer_lock.  Otherwise the mointpoint can be
1.6  pooka 	 * wiped out while we wait.
1.6  pooka 	 */
1.6  pooka 	simple_lock(&mp->mnt_slock);
1.6  pooka 	mp->mnt_wcnt++;
1.6  pooka 	simple_unlock(&mp->mnt_slock);
1.6  pooka
1.6  pooka 	lockmgr(&syncer_lock, LK_EXCLUSIVE, NULL);
1.6  pooka
1.6  pooka 	simple_lock(&mp->mnt_slock);
1.6  pooka 	mp->mnt_wcnt--;
1.6  pooka 	if (mp->mnt_wcnt == 0)
1.6  pooka 		wakeup(&mp->mnt_wcnt);
1.6  pooka 	gone = mp->mnt_iflag & IMNT_GONE;
1.6  pooka 	simple_unlock(&mp->mnt_slock);
1.6  pooka 	if (gone)
1.6  pooka 		return 0;
1.6  pooka
1.6  pooka 	/*
1.6  pooka 	 * microscopic race condition here (although not with the current
1.6  pooka 	 * kernel), but can't really fix it without starting a crusade
1.6  pooka 	 * against vfs_busy(), so let it be, let it be, let it be
1.1  pooka 	 */
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * The only way vfs_busy() will fail for us is if the filesystem
1.1  pooka 	 * is already a goner.
1.1  pooka 	 * XXX: skating on the thin ice of modern calling conventions ...
1.1  pooka 	 */
1.1  pooka 	if (vfs_busy(mp, 0, 0)) {
1.1  pooka 		lockmgr(&syncer_lock, LK_RELEASE, NULL);
1.1  pooka 		return 0;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	/* Once we have the mount point, unmount() can't interfere */
1.1  pooka 	dounmount(mp, MNT_FORCE, l);
1.1  pooka
1.1  pooka 	return 0;
1.1  pooka }
1.1  pooka
1.1  pooka static int puffsgetop(struct puffs_mount *, struct puffs_req *, int);
1.1  pooka static int puffsputop(struct puffs_mount *, struct puffs_req *);
1.1  pooka static int puffssizeop(struct puffs_mount *, struct puffs_sizeop *);
1.1  pooka
1.1  pooka static int
1.1  pooka puffs_fop_ioctl(struct file *fp, u_long cmd, void *data, struct lwp *l)
1.1  pooka {
1.1  pooka 	struct puffs_mount *pmp = FPTOPMP(fp);
1.7  pooka 	int rv;
1.1  pooka
1.1  pooka 	if (pmp == PMP_EMBRYO || pmp == PMP_DEAD) {
1.1  pooka 		printf("puffs_fop_ioctl: puffs %p, not mounted\n", pmp);
1.1  pooka 		return ENOENT;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	switch (cmd) {
1.1  pooka 	case PUFFSGETOP:
1.7  pooka 		rv = puffsgetop(pmp, data, fp->f_flag & FNONBLOCK);
1.1  pooka 		break;
1.1  pooka
1.1  pooka 	case PUFFSPUTOP:
1.7  pooka 		rv =  puffsputop(pmp, data);
1.1  pooka 		break;
1.1  pooka
1.1  pooka 	case PUFFSSIZEOP:
1.7  pooka 		rv = puffssizeop(pmp, data);
1.1  pooka 		break;
1.1  pooka
1.5  pooka 	case PUFFSSTARTOP:
1.7  pooka 		rv = puffs_start2(pmp, data);
1.7  pooka 		break;
1.1  pooka
1.1  pooka 	/* already done in sys_ioctl() */
1.1  pooka 	case FIONBIO:
1.7  pooka 		rv = 0;
1.7  pooka 		break;
1.1  pooka
1.1  pooka 	default:
1.7  pooka 		rv = EINVAL;
1.7  pooka 		break;
1.7  pooka 	}
1.1  pooka
1.7  pooka 	return rv;
1.1  pooka }
1.1  pooka
1.1  pooka static void
1.1  pooka filt_puffsdetach(struct knote *kn)
1.1  pooka {
1.1  pooka 	struct puffs_instance *pi = kn->kn_hook;
1.1  pooka
1.1  pooka 	simple_lock(&pi_lock);
1.1  pooka 	SLIST_REMOVE(&pi->pi_sel.sel_klist, kn, knote, kn_selnext);
1.1  pooka 	simple_unlock(&pi_lock);
1.1  pooka }
1.1  pooka
1.1  pooka static int
1.1  pooka filt_puffsioctl(struct knote *kn, long hint)
1.1  pooka {
1.1  pooka 	struct puffs_instance *pi = kn->kn_hook;
1.1  pooka 	struct puffs_mount *pmp;
1.1  pooka 	int error;
1.1  pooka
1.1  pooka 	error = 0;
1.1  pooka 	simple_lock(&pi_lock);
1.1  pooka 	pmp = pi->pi_pmp;
1.1  pooka 	if (pmp == PMP_EMBRYO || pmp == PMP_DEAD)
1.1  pooka 		error = 1;
1.1  pooka 	simple_unlock(&pi_lock);
1.1  pooka 	if (error)
1.1  pooka 		return 0;
1.1  pooka
1.1  pooka 	simple_lock(&pmp->pmp_lock);
1.1  pooka 	kn->kn_data = pmp->pmp_req_touser_waiters;
1.1  pooka 	simple_unlock(&pmp->pmp_lock);
1.1  pooka
1.1  pooka 	return kn->kn_data != 0;
1.1  pooka }
1.1  pooka
1.1  pooka static const struct filterops puffsioctl_filtops =
1.1  pooka 	{ 1, NULL, filt_puffsdetach, filt_puffsioctl };
1.1  pooka
1.1  pooka static int
1.1  pooka puffs_fop_kqfilter(struct file *fp, struct knote *kn)
1.1  pooka {
1.1  pooka 	struct puffs_instance *pi = fp->f_data;
1.1  pooka 	struct klist *klist;
1.1  pooka
1.1  pooka 	if (kn->kn_filter != EVFILT_READ)
1.1  pooka 		return 1;
1.1  pooka
1.1  pooka 	klist = &pi->pi_sel.sel_klist;
1.1  pooka 	kn->kn_fop = &puffsioctl_filtops;
1.1  pooka 	kn->kn_hook = pi;
1.1  pooka
1.1  pooka 	simple_lock(&pi_lock);
1.1  pooka 	SLIST_INSERT_HEAD(klist, kn, kn_selnext);
1.1  pooka 	simple_unlock(&pi_lock);
1.1  pooka
1.1  pooka 	return 0;
1.1  pooka }
1.1  pooka
1.1  pooka /*
1.1  pooka  * ioctl handlers
1.1  pooka  */
1.1  pooka
1.1  pooka static int
1.1  pooka puffsgetop(struct puffs_mount *pmp, struct puffs_req *preq, int nonblock)
1.1  pooka {
1.1  pooka 	struct puffs_park *park;
1.1  pooka 	int error;
1.1  pooka
1.1  pooka 	simple_lock(&pmp->pmp_lock);
1.1  pooka  again:
1.1  pooka 	if (pmp->pmp_status != PUFFSTAT_RUNNING) {
1.1  pooka 		simple_unlock(&pmp->pmp_lock);
1.1  pooka 		return ENXIO;
1.1  pooka 	}
1.1  pooka 	if (TAILQ_EMPTY(&pmp->pmp_req_touser)) {
1.1  pooka 		if (nonblock) {
1.1  pooka 			simple_unlock(&pmp->pmp_lock);
1.1  pooka 			return EWOULDBLOCK;
1.1  pooka 		}
1.1  pooka 		ltsleep(&pmp->pmp_req_touser, PUSER, "puffs2", 0,
1.1  pooka 		    &pmp->pmp_lock);
1.1  pooka 		goto again;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	park = TAILQ_FIRST(&pmp->pmp_req_touser);
1.1  pooka 	if (preq->preq_auxlen < park->park_copylen) {
1.1  pooka 		simple_unlock(&pmp->pmp_lock);
1.1  pooka 		return E2BIG;
1.1  pooka 	}
1.1  pooka 	TAILQ_REMOVE(&pmp->pmp_req_touser, park, park_entries);
1.1  pooka 	pmp->pmp_req_touser_waiters--;
1.1  pooka 	simple_unlock(&pmp->pmp_lock);
1.1  pooka
1.3  pooka 	preq->preq_id = park->park_id;
1.3  pooka 	preq->preq_opclass = park->park_opclass;
1.3  pooka 	preq->preq_optype = park->park_optype;
1.3  pooka 	preq->preq_cookie = park->park_cookie;
1.1  pooka 	preq->preq_auxlen = park->park_copylen;
1.1  pooka
1.1  pooka 	if ((error = copyout(park->park_kernbuf, preq->preq_aux,
1.1  pooka 	    park->park_copylen)) != 0) {
1.1  pooka 		/*
1.1  pooka 		 * ok, user server is probably trying to cheat.
1.1  pooka 		 * stuff op back & return error to user
1.1  pooka 		 */
1.1  pooka 		 simple_lock(&pmp->pmp_lock);
1.1  pooka 		 TAILQ_INSERT_HEAD(&pmp->pmp_req_touser, park, park_entries);
1.1  pooka 		 simple_unlock(&pmp->pmp_lock);
1.1  pooka 		 return error;
1.1  pooka 	}
1.4  pooka
1.4  pooka 	if (PUFFSOP_WANTREPLY(park->park_opclass)) {
1.4  pooka 		simple_lock(&pmp->pmp_lock);
1.4  pooka 		TAILQ_INSERT_TAIL(&pmp->pmp_req_replywait, park, park_entries);
1.4  pooka 		simple_unlock(&pmp->pmp_lock);
1.4  pooka 	} else {
1.4  pooka 		free(park->park_kernbuf, M_PUFFS);
1.4  pooka 		free(park, M_PUFFS);
1.4  pooka 	}
1.1  pooka
1.1  pooka 	return 0;
1.1  pooka }
1.1  pooka
1.1  pooka static int
1.1  pooka puffsputop(struct puffs_mount *pmp, struct puffs_req *preq)
1.1  pooka {
1.1  pooka 	struct puffs_park *park;
1.1  pooka 	size_t copylen;
1.1  pooka 	int error;
1.1  pooka
1.1  pooka 	simple_lock(&pmp->pmp_lock);
1.1  pooka 	TAILQ_FOREACH(park, &pmp->pmp_req_replywait, park_entries) {
1.3  pooka 		if (park->park_id == preq->preq_id) {
1.1  pooka 			TAILQ_REMOVE(&pmp->pmp_req_replywait, park,
1.1  pooka 			    park_entries);
1.1  pooka 			break;
1.1  pooka 		}
1.1  pooka 	}
1.1  pooka 	simple_unlock(&pmp->pmp_lock);
1.1  pooka
1.1  pooka 	if (park == NULL)
1.1  pooka 		return EINVAL;
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * check size of incoming transmission.  allow to allocate a
1.1  pooka 	 * larger kernel buffer only if it was specified by the caller
1.1  pooka 	 * by setting preq->preq_auxadj.  Else, just copy whatever the
1.1  pooka 	 * kernel buffer size is unless.
1.1  pooka 	 *
1.1  pooka 	 * However, don't allow ludicrously large buffers
1.1  pooka 	 */
1.1  pooka 	copylen = preq->preq_auxlen;
1.1  pooka 	if (copylen > pmp->pmp_req_maxsize) {
1.1  pooka #ifdef DIAGNOSTIC
1.1  pooka 		printf("puffsputop: outrageous user buf size: %zu\n", copylen);
1.1  pooka #endif
1.1  pooka 		error = EFAULT;
1.1  pooka 		goto out;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	if (park->park_buflen < copylen &&
1.1  pooka 	    park->park_flags & PUFFS_REQFLAG_ADJBUF) {
1.1  pooka 		free(park->park_kernbuf, M_PUFFS);
1.1  pooka 		park->park_kernbuf = malloc(copylen, M_PUFFS, M_WAITOK);
1.1  pooka 		park->park_buflen = copylen;
1.1  pooka 	}
1.1  pooka
1.1  pooka 	error = copyin(preq->preq_aux, park->park_kernbuf, copylen);
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * if copyin botched, inform both userspace and the vnodeop
1.1  pooka 	 * desperately waiting for information
1.1  pooka 	 */
1.1  pooka  out:
1.1  pooka 	if (error)
1.3  pooka 		park->park_rv = error;
1.1  pooka 	else
1.3  pooka 		park->park_rv = preq->preq_rv;
1.1  pooka 	wakeup(park);
1.1  pooka
1.1  pooka 	return error;
1.1  pooka }
1.1  pooka
1.1  pooka /* this is probably going to die away at some point? */
1.1  pooka static int
1.1  pooka puffssizeop(struct puffs_mount *pmp, struct puffs_sizeop *psop_user)
1.1  pooka {
1.1  pooka 	struct puffs_sizepark *pspark;
1.1  pooka 	void *kernbuf;
1.1  pooka 	size_t copylen;
1.1  pooka 	int error;
1.1  pooka
1.1  pooka 	/* locate correct op */
1.1  pooka 	simple_lock(&pmp->pmp_lock);
1.1  pooka 	TAILQ_FOREACH(pspark, &pmp->pmp_req_sizepark, pkso_entries) {
1.1  pooka 		if (pspark->pkso_reqid == psop_user->pso_reqid) {
1.1  pooka 			TAILQ_REMOVE(&pmp->pmp_req_sizepark, pspark,
1.1  pooka 			    pkso_entries);
1.1  pooka 			break;
1.1  pooka 		}
1.1  pooka 	}
1.1  pooka 	simple_unlock(&pmp->pmp_lock);
1.1  pooka
1.1  pooka 	if (pspark == NULL)
1.1  pooka 		return EINVAL;
1.1  pooka
1.1  pooka 	error = 0;
1.1  pooka 	copylen = MIN(pspark->pkso_bufsize, psop_user->pso_bufsize);
1.1  pooka
1.1  pooka 	/*
1.1  pooka 	 * XXX: uvm stuff to avoid bouncy-bouncy copying?
1.1  pooka 	 */
1.1  pooka 	if (PUFFS_SIZEOP_UIO(pspark->pkso_reqtype)) {
1.1  pooka 		kernbuf = malloc(copylen, M_PUFFS, M_WAITOK | M_ZERO);
1.1  pooka 		if (pspark->pkso_reqtype == PUFFS_SIZEOPREQ_UIO_IN) {
1.1  pooka 			error = copyin(psop_user->pso_userbuf,
1.1  pooka 			    kernbuf, copylen);
1.1  pooka 			if (error) {
1.1  pooka 				printf("psop ERROR1 %d\n", error);
1.1  pooka 				goto escape;
1.1  pooka 			}
1.1  pooka 		}
1.1  pooka 		error = uiomove(kernbuf, copylen, pspark->pkso_uio);
1.1  pooka 		if (error) {
1.1  pooka 			printf("uiomove from kernel %p, len %d failed: %d\n",
1.1  pooka 			    kernbuf, (int)copylen, error);
1.1  pooka 			goto escape;
1.1  pooka 		}
1.1  pooka
1.1  pooka 		if (pspark->pkso_reqtype == PUFFS_SIZEOPREQ_UIO_OUT) {
1.1  pooka 			error = copyout(kernbuf,
1.1  pooka 			    psop_user->pso_userbuf, copylen);
1.1  pooka 			if (error) {
1.1  pooka 				printf("psop ERROR2 %d\n", error);
1.1  pooka 				goto escape;
1.1  pooka 			}
1.1  pooka 		}
1.1  pooka  escape:
1.1  pooka 		free(kernbuf, M_PUFFS);
1.1  pooka 	} else if (PUFFS_SIZEOP_BUF(pspark->pkso_reqtype)) {
1.1  pooka 		copylen = MAX(pspark->pkso_bufsize, psop_user->pso_bufsize);
1.1  pooka 		if (pspark->pkso_reqtype == PUFFS_SIZEOPREQ_BUF_IN) {
1.1  pooka 			error = copyin(psop_user->pso_userbuf,
1.1  pooka 			pspark->pkso_copybuf, copylen);
1.1  pooka 		} else {
1.1  pooka 			error = copyout(pspark->pkso_copybuf,
1.1  pooka 			    psop_user->pso_userbuf, copylen);
1.1  pooka 		}
1.1  pooka 	}
1.1  pooka #ifdef DIAGNOSTIC
1.1  pooka 	else
1.1  pooka 		panic("puffssizeop: invalid reqtype %d\n",
1.1  pooka 		    pspark->pkso_reqtype);
1.1  pooka #endif /* DIAGNOSTIC */
1.1  pooka
1.1  pooka 	return error;
1.1  pooka }