sys/kern/subr_devsw.c

1.12       ad /*	$NetBSD: subr_devsw.c,v 1.12 2007/10/08 16:54:09 ad Exp $	*/
1.11       ad
 1.2  gehenna /*-
1.11       ad  * Copyright (c) 2001, 2002, 2007 The NetBSD Foundation, Inc.
 1.2  gehenna  * All rights reserved.
 1.2  gehenna  *
 1.2  gehenna  * This code is derived from software contributed to The NetBSD Foundation
1.11       ad  * by MAEKAWA Masahide <gehenna (at) NetBSD.org>, and by Andrew Doran.
 1.2  gehenna  *
 1.2  gehenna  * Redistribution and use in source and binary forms, with or without
 1.2  gehenna  * modification, are permitted provided that the following conditions
 1.2  gehenna  * are met:
 1.2  gehenna  * 1. Redistributions of source code must retain the above copyright
 1.2  gehenna  *    notice, this list of conditions and the following disclaimer.
 1.2  gehenna  * 2. Redistributions in binary form must reproduce the above copyright
 1.2  gehenna  *    notice, this list of conditions and the following disclaimer in the
 1.2  gehenna  *    documentation and/or other materials provided with the distribution.
 1.2  gehenna  * 3. All advertising materials mentioning features or use of this software
 1.2  gehenna  *    must display the following acknowledgement:
 1.2  gehenna  *	This product includes software developed by the NetBSD
 1.2  gehenna  *	Foundation, Inc. and its contributors.
 1.2  gehenna  * 4. Neither the name of The NetBSD Foundation nor the names of its
 1.2  gehenna  *    contributors may be used to endorse or promote products derived
 1.2  gehenna  *    from this software without specific prior written permission.
 1.2  gehenna  *
 1.2  gehenna  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.2  gehenna  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.2  gehenna  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.2  gehenna  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.2  gehenna  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.2  gehenna  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.2  gehenna  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.2  gehenna  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.2  gehenna  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.2  gehenna  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.2  gehenna  * POSSIBILITY OF SUCH DAMAGE.
 1.2  gehenna  */
1.11       ad
1.11       ad /*
1.11       ad  * Overview
1.11       ad  *
1.11       ad  *	subr_devsw.c: registers device drivers by name and by major
1.11       ad  *	number, and provides wrapper methods for performing I/O and
1.11       ad  *	other tasks on device drivers, keying on the device number
1.11       ad  *	(dev_t).
1.11       ad  *
1.11       ad  *	When the system is built, the config(8) command generates
1.11       ad  *	static tables of device drivers built into the kernel image
1.11       ad  *	along with their associated methods.  These are recorded in
1.11       ad  *	the cdevsw0 and bdevsw0 tables.  Drivers can also be added to
1.11       ad  *	and removed from the system dynamically.
1.11       ad  *
1.11       ad  * Allocation
1.11       ad  *
1.11       ad  *	When the system initially boots only the statically allocated
1.11       ad  *	indexes (bdevsw0, cdevsw0) are used.  If these overflow due to
1.11       ad  *	allocation, we allocate a fixed block of memory to hold the new,
1.11       ad  *	expanded index.  This "fork" of the table is only ever performed
1.11       ad  *	once in order to guarantee that other threads may safely access
1.11       ad  *	the device tables:
1.11       ad  *
1.11       ad  *	o Once a thread has a "reference" to the table via an earlier
1.11       ad  *	  open() call, we know that the entry in the table must exist
1.11       ad  *	  and so it is safe to access it.
1.11       ad  *
1.11       ad  *	o Regardless of whether other threads see the old or new
1.11       ad  *	  pointers, they will point to a correct device switch
1.11       ad  *	  structure for the operation being performed.
1.11       ad  *
1.11       ad  *	XXX Currently, the wrapper methods such as cdev_read() verify
1.11       ad  *	that a device driver does in fact exist before calling the
1.11       ad  *	associated driver method.  This should be changed so that
1.11       ad  *	once the device is has been referenced by a vnode (opened),
1.11       ad  *	calling	the other methods should be valid until that reference
1.11       ad  *	is dropped.
1.11       ad  */
 1.7    lukem
 1.7    lukem #include <sys/cdefs.h>
1.12       ad __KERNEL_RCSID(0, "$NetBSD: subr_devsw.c,v 1.12 2007/10/08 16:54:09 ad Exp $");
 1.2  gehenna
 1.2  gehenna #include <sys/param.h>
 1.2  gehenna #include <sys/conf.h>
1.11       ad #include <sys/kmem.h>
 1.2  gehenna #include <sys/systm.h>
1.11       ad #include <sys/poll.h>
1.11       ad #include <sys/tty.h>
1.11       ad #include <sys/buf.h>
 1.2  gehenna
 1.2  gehenna #ifdef DEVSW_DEBUG
 1.2  gehenna #define	DPRINTF(x)	printf x
 1.2  gehenna #else /* DEVSW_DEBUG */
 1.2  gehenna #define	DPRINTF(x)
 1.2  gehenna #endif /* DEVSW_DEBUG */
 1.2  gehenna
1.11       ad #define	MAXDEVSW	512	/* the maximum of major device number */
 1.2  gehenna #define	BDEVSW_SIZE	(sizeof(struct bdevsw *))
 1.2  gehenna #define	CDEVSW_SIZE	(sizeof(struct cdevsw *))
 1.2  gehenna #define	DEVSWCONV_SIZE	(sizeof(struct devsw_conv))
 1.2  gehenna
 1.2  gehenna extern const struct bdevsw **bdevsw, *bdevsw0[];
 1.2  gehenna extern const struct cdevsw **cdevsw, *cdevsw0[];
 1.2  gehenna extern struct devsw_conv *devsw_conv, devsw_conv0[];
 1.2  gehenna extern const int sys_bdevsws, sys_cdevsws;
 1.2  gehenna extern int max_bdevsws, max_cdevsws, max_devsw_convs;
 1.2  gehenna
 1.2  gehenna static int bdevsw_attach(const char *, const struct bdevsw *, int *);
 1.2  gehenna static int cdevsw_attach(const char *, const struct cdevsw *, int *);
1.11       ad static void devsw_detach_locked(const struct bdevsw *, const struct cdevsw *);
1.11       ad
1.11       ad static kmutex_t devsw_lock;
1.11       ad
1.11       ad void
1.11       ad devsw_init(void)
1.11       ad {
1.11       ad
1.11       ad 	KASSERT(sys_bdevsws < MAXDEVSW - 1);
1.11       ad 	KASSERT(sys_cdevsws < MAXDEVSW - 1);
1.11       ad
1.11       ad 	mutex_init(&devsw_lock, MUTEX_DEFAULT, IPL_NONE);
1.11       ad }
 1.2  gehenna
 1.2  gehenna int
 1.2  gehenna devsw_attach(const char *devname, const struct bdevsw *bdev, int *bmajor,
 1.2  gehenna 	     const struct cdevsw *cdev, int *cmajor)
 1.2  gehenna {
 1.2  gehenna 	struct devsw_conv *conv;
 1.2  gehenna 	char *name;
 1.2  gehenna 	int error, i;
 1.2  gehenna
 1.2  gehenna 	if (devname == NULL || cdev == NULL)
 1.2  gehenna 		return (EINVAL);
 1.2  gehenna
1.11       ad 	mutex_enter(&devsw_lock);
1.11       ad
 1.2  gehenna 	for (i = 0 ; i < max_devsw_convs ; i++) {
 1.2  gehenna 		conv = &devsw_conv[i];
 1.2  gehenna 		if (conv->d_name == NULL || strcmp(devname, conv->d_name) != 0)
 1.2  gehenna 			continue;
 1.2  gehenna
 1.2  gehenna 		if (*bmajor < 0)
 1.2  gehenna 			*bmajor = conv->d_bmajor;
 1.2  gehenna 		if (*cmajor < 0)
 1.2  gehenna 			*cmajor = conv->d_cmajor;
 1.2  gehenna
1.11       ad 		if (*bmajor != conv->d_bmajor || *cmajor != conv->d_cmajor) {
1.11       ad 			error = EINVAL;
1.11       ad 			goto fail;
1.11       ad 		}
1.11       ad 		if ((*bmajor >= 0 && bdev == NULL) || *cmajor < 0) {
1.11       ad 			error = EINVAL;
1.11       ad 			goto fail;
1.11       ad 		}
 1.2  gehenna
 1.2  gehenna 		if ((*bmajor >= 0 && bdevsw[*bmajor] != NULL) ||
1.11       ad 		    cdevsw[*cmajor] != NULL) {
1.11       ad 			error = EEXIST;
1.11       ad 			goto fail;
1.11       ad 		}
 1.2  gehenna
 1.2  gehenna 		if (bdev != NULL)
 1.2  gehenna 			bdevsw[*bmajor] = bdev;
 1.2  gehenna 		cdevsw[*cmajor] = cdev;
 1.2  gehenna
1.11       ad 		mutex_exit(&devsw_lock);
 1.2  gehenna 		return (0);
 1.2  gehenna 	}
 1.2  gehenna
 1.2  gehenna 	error = bdevsw_attach(devname, bdev, bmajor);
1.11       ad 	if (error != 0)
1.11       ad 		goto fail;
 1.2  gehenna 	error = cdevsw_attach(devname, cdev, cmajor);
 1.2  gehenna 	if (error != 0) {
1.11       ad 		devsw_detach_locked(bdev, NULL);
1.11       ad 		goto fail;
 1.2  gehenna 	}
 1.2  gehenna
 1.2  gehenna 	for (i = 0 ; i < max_devsw_convs ; i++) {
 1.2  gehenna 		if (devsw_conv[i].d_name == NULL)
 1.2  gehenna 			break;
 1.2  gehenna 	}
 1.2  gehenna 	if (i == max_devsw_convs) {
 1.2  gehenna 		struct devsw_conv *newptr;
 1.2  gehenna 		int old, new;
 1.2  gehenna
 1.2  gehenna 		old = max_devsw_convs;
 1.2  gehenna 		new = old + 1;
 1.2  gehenna
1.11       ad 		newptr = kmem_zalloc(new * DEVSWCONV_SIZE, KM_NOSLEEP);
 1.2  gehenna 		if (newptr == NULL) {
1.11       ad 			devsw_detach_locked(bdev, cdev);
1.11       ad 			error = ENOMEM;
1.11       ad 			goto fail;
 1.2  gehenna 		}
 1.2  gehenna 		newptr[old].d_name = NULL;
 1.2  gehenna 		newptr[old].d_bmajor = -1;
 1.2  gehenna 		newptr[old].d_cmajor = -1;
 1.2  gehenna 		memcpy(newptr, devsw_conv, old * DEVSWCONV_SIZE);
 1.2  gehenna 		if (devsw_conv != devsw_conv0)
1.11       ad 			kmem_free(devsw_conv, old * DEVSWCONV_SIZE);
 1.2  gehenna 		devsw_conv = newptr;
 1.2  gehenna 		max_devsw_convs = new;
 1.2  gehenna 	}
 1.2  gehenna
 1.6   itojun 	i = strlen(devname) + 1;
1.11       ad 	name = kmem_alloc(i, KM_NOSLEEP);
 1.2  gehenna 	if (name == NULL) {
1.11       ad 		devsw_detach_locked(bdev, cdev);
1.11       ad 		goto fail;
 1.2  gehenna 	}
 1.6   itojun 	strlcpy(name, devname, i);
 1.2  gehenna
 1.2  gehenna 	devsw_conv[i].d_name = name;
 1.2  gehenna 	devsw_conv[i].d_bmajor = *bmajor;
 1.2  gehenna 	devsw_conv[i].d_cmajor = *cmajor;
 1.2  gehenna
1.11       ad 	mutex_exit(&devsw_lock);
 1.2  gehenna 	return (0);
1.11       ad  fail:
1.11       ad 	mutex_exit(&devsw_lock);
1.11       ad 	return (error);
 1.2  gehenna }
 1.2  gehenna
 1.2  gehenna static int
1.10     yamt bdevsw_attach(const char *devname, const struct bdevsw *devsw, int *devmajor)
 1.2  gehenna {
1.11       ad 	const struct bdevsw **newptr;
 1.2  gehenna 	int bmajor, i;
 1.2  gehenna
1.11       ad 	KASSERT(mutex_owned(&devsw_lock));
1.11       ad
 1.2  gehenna 	if (devsw == NULL)
 1.2  gehenna 		return (0);
 1.2  gehenna
 1.2  gehenna 	if (*devmajor < 0) {
 1.2  gehenna 		for (bmajor = sys_bdevsws ; bmajor < max_bdevsws ; bmajor++) {
 1.2  gehenna 			if (bdevsw[bmajor] != NULL)
 1.2  gehenna 				continue;
 1.2  gehenna 			for (i = 0 ; i < max_devsw_convs ; i++) {
 1.2  gehenna 				if (devsw_conv[i].d_bmajor == bmajor)
 1.2  gehenna 					break;
 1.2  gehenna 			}
 1.2  gehenna 			if (i != max_devsw_convs)
 1.2  gehenna 				continue;
 1.2  gehenna 			break;
 1.2  gehenna 		}
 1.3  gehenna 		*devmajor = bmajor;
 1.2  gehenna 	}
1.11       ad
 1.2  gehenna 	if (*devmajor >= MAXDEVSW) {
1.11       ad 		printf("bdevsw_attach: block majors exhausted");
 1.2  gehenna 		return (ENOMEM);
 1.2  gehenna 	}
 1.2  gehenna
 1.2  gehenna 	if (*devmajor >= max_bdevsws) {
1.11       ad 		KASSERT(bdevsw == bdevsw0);
1.11       ad 		newptr = kmem_zalloc(MAXDEVSW * BDEVSW_SIZE, KM_NOSLEEP);
 1.2  gehenna 		if (newptr == NULL)
 1.2  gehenna 			return (ENOMEM);
1.11       ad 		memcpy(newptr, bdevsw, max_bdevsws * BDEVSW_SIZE);
 1.2  gehenna 		bdevsw = newptr;
1.11       ad 		max_bdevsws = MAXDEVSW;
 1.2  gehenna 	}
 1.2  gehenna
 1.2  gehenna 	if (bdevsw[*devmajor] != NULL)
 1.2  gehenna 		return (EEXIST);
 1.2  gehenna
 1.2  gehenna 	bdevsw[*devmajor] = devsw;
 1.2  gehenna
 1.2  gehenna 	return (0);
 1.2  gehenna }
 1.2  gehenna
 1.2  gehenna static int
1.10     yamt cdevsw_attach(const char *devname, const struct cdevsw *devsw, int *devmajor)
 1.2  gehenna {
1.11       ad 	const struct cdevsw **newptr;
 1.2  gehenna 	int cmajor, i;
 1.2  gehenna
1.11       ad 	KASSERT(mutex_owned(&devsw_lock));
1.11       ad
 1.2  gehenna 	if (*devmajor < 0) {
 1.2  gehenna 		for (cmajor = sys_cdevsws ; cmajor < max_cdevsws ; cmajor++) {
 1.2  gehenna 			if (cdevsw[cmajor] != NULL)
 1.2  gehenna 				continue;
 1.2  gehenna 			for (i = 0 ; i < max_devsw_convs ; i++) {
 1.2  gehenna 				if (devsw_conv[i].d_cmajor == cmajor)
 1.2  gehenna 					break;
 1.2  gehenna 			}
 1.2  gehenna 			if (i != max_devsw_convs)
 1.2  gehenna 				continue;
 1.2  gehenna 			break;
 1.2  gehenna 		}
 1.3  gehenna 		*devmajor = cmajor;
 1.2  gehenna 	}
1.11       ad
 1.2  gehenna 	if (*devmajor >= MAXDEVSW) {
1.11       ad 		printf("cdevsw_attach: character majors exhausted");
 1.2  gehenna 		return (ENOMEM);
 1.2  gehenna 	}
 1.2  gehenna
 1.2  gehenna 	if (*devmajor >= max_cdevsws) {
1.11       ad 		KASSERT(cdevsw == cdevsw0);
1.11       ad 		newptr = kmem_zalloc(MAXDEVSW * CDEVSW_SIZE, KM_NOSLEEP);
 1.2  gehenna 		if (newptr == NULL)
 1.2  gehenna 			return (ENOMEM);
1.11       ad 		memcpy(newptr, cdevsw, max_cdevsws * CDEVSW_SIZE);
 1.2  gehenna 		cdevsw = newptr;
1.11       ad 		max_cdevsws = MAXDEVSW;
 1.2  gehenna 	}
 1.2  gehenna
 1.2  gehenna 	if (cdevsw[*devmajor] != NULL)
 1.2  gehenna 		return (EEXIST);
 1.2  gehenna
 1.2  gehenna 	cdevsw[*devmajor] = devsw;
 1.2  gehenna
 1.2  gehenna 	return (0);
 1.2  gehenna }
 1.2  gehenna
1.11       ad static void
1.11       ad devsw_detach_locked(const struct bdevsw *bdev, const struct cdevsw *cdev)
 1.2  gehenna {
 1.2  gehenna 	int i;
 1.2  gehenna
1.11       ad 	KASSERT(mutex_owned(&devsw_lock));
1.11       ad
 1.2  gehenna 	if (bdev != NULL) {
 1.2  gehenna 		for (i = 0 ; i < max_bdevsws ; i++) {
 1.2  gehenna 			if (bdevsw[i] != bdev)
 1.2  gehenna 				continue;
 1.2  gehenna 			bdevsw[i] = NULL;
 1.2  gehenna 			break;
 1.2  gehenna 		}
 1.2  gehenna 	}
 1.2  gehenna 	if (cdev != NULL) {
 1.2  gehenna 		for (i = 0 ; i < max_cdevsws ; i++) {
 1.2  gehenna 			if (cdevsw[i] != cdev)
 1.2  gehenna 				continue;
 1.2  gehenna 			cdevsw[i] = NULL;
 1.2  gehenna 			break;
 1.2  gehenna 		}
 1.2  gehenna 	}
 1.2  gehenna }
 1.2  gehenna
1.11       ad void
1.11       ad devsw_detach(const struct bdevsw *bdev, const struct cdevsw *cdev)
1.11       ad {
1.11       ad
1.11       ad 	mutex_enter(&devsw_lock);
1.11       ad 	devsw_detach_locked(bdev, cdev);
1.11       ad 	mutex_exit(&devsw_lock);
1.11       ad }
1.11       ad
1.11       ad /*
1.11       ad  * Look up a block device by number.
1.11       ad  *
1.11       ad  * => Caller must ensure that the device is attached.
1.11       ad  */
 1.2  gehenna const struct bdevsw *
 1.2  gehenna bdevsw_lookup(dev_t dev)
 1.2  gehenna {
 1.2  gehenna 	int bmajor;
 1.2  gehenna
 1.2  gehenna 	if (dev == NODEV)
 1.2  gehenna 		return (NULL);
 1.2  gehenna 	bmajor = major(dev);
 1.2  gehenna 	if (bmajor < 0 || bmajor >= max_bdevsws)
 1.2  gehenna 		return (NULL);
 1.2  gehenna
 1.2  gehenna 	return (bdevsw[bmajor]);
 1.2  gehenna }
 1.2  gehenna
1.11       ad /*
1.11       ad  * Look up a character device by number.
1.11       ad  *
1.11       ad  * => Caller must ensure that the device is attached.
1.11       ad  */
 1.2  gehenna const struct cdevsw *
 1.2  gehenna cdevsw_lookup(dev_t dev)
 1.2  gehenna {
 1.2  gehenna 	int cmajor;
 1.2  gehenna
 1.2  gehenna 	if (dev == NODEV)
 1.2  gehenna 		return (NULL);
 1.2  gehenna 	cmajor = major(dev);
 1.2  gehenna 	if (cmajor < 0 || cmajor >= max_cdevsws)
 1.2  gehenna 		return (NULL);
 1.2  gehenna
 1.2  gehenna 	return (cdevsw[cmajor]);
 1.2  gehenna }
 1.2  gehenna
1.11       ad /*
1.11       ad  * Look up a block device by reference to its operations set.
1.11       ad  *
1.11       ad  * => Caller must ensure that the device is not detached, and therefore
1.11       ad  *    that the returned major is still valid when dereferenced.
1.11       ad  */
 1.2  gehenna int
 1.2  gehenna bdevsw_lookup_major(const struct bdevsw *bdev)
 1.2  gehenna {
 1.2  gehenna 	int bmajor;
 1.2  gehenna
 1.2  gehenna 	for (bmajor = 0 ; bmajor < max_bdevsws ; bmajor++) {
 1.2  gehenna 		if (bdevsw[bmajor] == bdev)
 1.2  gehenna 			return (bmajor);
 1.2  gehenna 	}
 1.2  gehenna
 1.2  gehenna 	return (-1);
 1.2  gehenna }
 1.2  gehenna
1.11       ad /*
1.11       ad  * Look up a character device by reference to its operations set.
1.11       ad  *
1.11       ad  * => Caller must ensure that the device is not detached, and therefore
1.11       ad  *    that the returned major is still valid when dereferenced.
1.11       ad  */
 1.2  gehenna int
 1.2  gehenna cdevsw_lookup_major(const struct cdevsw *cdev)
 1.2  gehenna {
 1.2  gehenna 	int cmajor;
 1.2  gehenna
 1.2  gehenna 	for (cmajor = 0 ; cmajor < max_cdevsws ; cmajor++) {
 1.2  gehenna 		if (cdevsw[cmajor] == cdev)
 1.2  gehenna 			return (cmajor);
 1.2  gehenna 	}
 1.2  gehenna
 1.2  gehenna 	return (-1);
 1.2  gehenna }
 1.2  gehenna
 1.2  gehenna /*
 1.2  gehenna  * Convert from block major number to name.
1.11       ad  *
1.11       ad  * => Caller must ensure that the device is not detached, and therefore
1.11       ad  *    that the name pointer is still valid when dereferenced.
 1.2  gehenna  */
 1.2  gehenna const char *
 1.2  gehenna devsw_blk2name(int bmajor)
 1.2  gehenna {
1.11       ad 	const char *name;
 1.2  gehenna 	int cmajor, i;
 1.2  gehenna
1.11       ad 	name = NULL;
1.11       ad 	cmajor = -1;
1.11       ad
1.11       ad 	mutex_enter(&devsw_lock);
1.11       ad 	if (bmajor < 0 || bmajor >= max_bdevsws || bdevsw[bmajor] == NULL) {
1.11       ad 		mutex_exit(&devsw_lock);
 1.2  gehenna 		return (NULL);
 1.2  gehenna 	}
1.11       ad 	for (i = 0 ; i < max_devsw_convs; i++) {
1.11       ad 		if (devsw_conv[i].d_bmajor == bmajor) {
1.11       ad 			cmajor = devsw_conv[i].d_cmajor;
1.11       ad 			break;
1.11       ad 		}
1.11       ad 	}
1.11       ad 	if (cmajor >= 0 && cmajor < max_cdevsws && cdevsw[cmajor] != NULL)
1.11       ad 		name = devsw_conv[i].d_name;
1.11       ad 	mutex_exit(&devsw_lock);
 1.2  gehenna
1.11       ad 	return (name);
 1.2  gehenna }
 1.2  gehenna
 1.2  gehenna /*
 1.2  gehenna  * Convert from device name to block major number.
1.11       ad  *
1.11       ad  * => Caller must ensure that the device is not detached, and therefore
1.11       ad  *    that the major number is still valid when dereferenced.
 1.2  gehenna  */
 1.2  gehenna int
 1.2  gehenna devsw_name2blk(const char *name, char *devname, size_t devnamelen)
 1.2  gehenna {
 1.2  gehenna 	struct devsw_conv *conv;
 1.2  gehenna 	int bmajor, i;
 1.2  gehenna
 1.2  gehenna 	if (name == NULL)
 1.2  gehenna 		return (-1);
 1.2  gehenna
1.11       ad 	mutex_enter(&devsw_lock);
 1.2  gehenna 	for (i = 0 ; i < max_devsw_convs ; i++) {
 1.5      mrg 		size_t len;
 1.5      mrg
 1.2  gehenna 		conv = &devsw_conv[i];
 1.2  gehenna 		if (conv->d_name == NULL)
 1.2  gehenna 			continue;
 1.5      mrg 		len = strlen(conv->d_name);
 1.5      mrg 		if (strncmp(conv->d_name, name, len) != 0)
 1.5      mrg 			continue;
 1.5      mrg 		if (*(name +len) && !isdigit(*(name + len)))
 1.2  gehenna 			continue;
 1.2  gehenna 		bmajor = conv->d_bmajor;
 1.2  gehenna 		if (bmajor < 0 || bmajor >= max_bdevsws ||
 1.2  gehenna 		    bdevsw[bmajor] == NULL)
 1.5      mrg 			break;
 1.2  gehenna 		if (devname != NULL) {
 1.2  gehenna #ifdef DEVSW_DEBUG
 1.2  gehenna 			if (strlen(conv->d_name) >= devnamelen)
 1.2  gehenna 				printf("devsw_name2blk: too short buffer");
 1.2  gehenna #endif /* DEVSW_DEBUG */
 1.4  tsutsui 			strncpy(devname, conv->d_name, devnamelen);
 1.2  gehenna 			devname[devnamelen - 1] = '\0';
 1.2  gehenna 		}
1.11       ad 		mutex_exit(&devsw_lock);
 1.2  gehenna 		return (bmajor);
 1.2  gehenna 	}
 1.2  gehenna
1.11       ad 	mutex_exit(&devsw_lock);
 1.2  gehenna 	return (-1);
 1.2  gehenna }
 1.2  gehenna
 1.2  gehenna /*
 1.2  gehenna  * Convert from character dev_t to block dev_t.
1.11       ad  *
1.11       ad  * => Caller must ensure that the device is not detached, and therefore
1.11       ad  *    that the major number is still valid when dereferenced.
 1.2  gehenna  */
 1.2  gehenna dev_t
 1.2  gehenna devsw_chr2blk(dev_t cdev)
 1.2  gehenna {
 1.2  gehenna 	int bmajor, cmajor, i;
1.11       ad 	dev_t rv;
 1.2  gehenna
 1.2  gehenna 	cmajor = major(cdev);
1.11       ad 	bmajor = -1;
1.11       ad 	rv = NODEV;
 1.2  gehenna
1.11       ad 	mutex_enter(&devsw_lock);
1.11       ad 	if (cmajor < 0 || cmajor >= max_cdevsws || cdevsw[cmajor] == NULL) {
1.11       ad 		mutex_exit(&devsw_lock);
1.11       ad 		return (NODEV);
1.11       ad 	}
 1.2  gehenna 	for (i = 0 ; i < max_devsw_convs ; i++) {
1.11       ad 		if (devsw_conv[i].d_cmajor == cmajor) {
1.11       ad 			bmajor = devsw_conv[i].d_bmajor;
1.11       ad 			break;
1.11       ad 		}
 1.2  gehenna 	}
1.11       ad 	if (bmajor >= 0 && bmajor < max_bdevsws && bdevsw[bmajor] != NULL)
1.11       ad 		rv = makedev(bmajor, minor(cdev));
1.11       ad 	mutex_exit(&devsw_lock);
 1.2  gehenna
1.11       ad 	return (rv);
 1.2  gehenna }
 1.2  gehenna
 1.2  gehenna /*
 1.2  gehenna  * Convert from block dev_t to character dev_t.
1.11       ad  *
1.11       ad  * => Caller must ensure that the device is not detached, and therefore
1.11       ad  *    that the major number is still valid when dereferenced.
 1.2  gehenna  */
 1.2  gehenna dev_t
 1.2  gehenna devsw_blk2chr(dev_t bdev)
 1.2  gehenna {
 1.2  gehenna 	int bmajor, cmajor, i;
1.11       ad 	dev_t rv;
 1.2  gehenna
1.11       ad 	bmajor = major(bdev);
1.11       ad 	cmajor = -1;
1.11       ad 	rv = NODEV;
1.11       ad
1.11       ad 	mutex_enter(&devsw_lock);
1.11       ad 	if (bmajor < 0 || bmajor >= max_bdevsws || bdevsw[bmajor] == NULL) {
1.11       ad 		mutex_exit(&devsw_lock);
 1.2  gehenna 		return (NODEV);
1.11       ad 	}
1.11       ad 	for (i = 0 ; i < max_devsw_convs ; i++) {
1.11       ad 		if (devsw_conv[i].d_bmajor == bmajor) {
1.11       ad 			cmajor = devsw_conv[i].d_cmajor;
1.11       ad 			break;
1.11       ad 		}
1.11       ad 	}
1.11       ad 	if (cmajor >= 0 && cmajor < max_cdevsws && cdevsw[cmajor] != NULL)
1.11       ad 		rv = makedev(cmajor, minor(bdev));
1.11       ad 	mutex_exit(&devsw_lock);
 1.2  gehenna
1.11       ad 	return (rv);
1.11       ad }
1.11       ad
1.11       ad /*
1.11       ad  * Device access methods.
1.11       ad  */
1.11       ad
1.11       ad #define	DEV_LOCK(d)						\
1.11       ad 	if ((d->d_flag & D_MPSAFE) == 0) {			\
1.11       ad 		KERNEL_LOCK(1, curlwp);				\
1.11       ad 	}
 1.2  gehenna
1.11       ad #define	DEV_UNLOCK(d)						\
1.11       ad 	if ((d->d_flag & D_MPSAFE) == 0) {			\
1.11       ad 		KERNEL_UNLOCK_ONE(curlwp);			\
 1.2  gehenna 	}
 1.2  gehenna
1.11       ad int
1.11       ad bdev_open(dev_t dev, int flag, int devtype, lwp_t *l)
1.11       ad {
1.11       ad 	const struct bdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	/*
1.11       ad 	 * For open we need to lock, in order to synchronize
1.11       ad 	 * with attach/detach.
1.11       ad 	 */
1.11       ad 	mutex_enter(&devsw_lock);
1.11       ad 	d = bdevsw_lookup(dev);
1.11       ad 	mutex_exit(&devsw_lock);
1.11       ad 	if (d == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_open)(dev, flag, devtype, l);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad bdev_close(dev_t dev, int flag, int devtype, lwp_t *l)
1.11       ad {
1.11       ad 	const struct bdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	if ((d = bdevsw_lookup(dev)) == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_close)(dev, flag, devtype, l);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad void
1.11       ad bdev_strategy(struct buf *bp)
1.11       ad {
1.11       ad 	const struct bdevsw *d;
1.11       ad
1.11       ad 	if ((d = bdevsw_lookup(bp->b_dev)) == NULL)
1.11       ad 		panic("bdev_strategy");
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	(*d->d_strategy)(bp);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad bdev_ioctl(dev_t dev, u_long cmd, void *data, int flag, lwp_t *l)
1.11       ad {
1.11       ad 	const struct bdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	if ((d = bdevsw_lookup(dev)) == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_ioctl)(dev, cmd, data, flag, l);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad bdev_dump(dev_t dev, daddr_t addr, void *data, size_t sz)
1.11       ad {
1.11       ad 	const struct bdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	/*
1.11       ad 	 * Dump can be called without the device open.  Since it can
1.11       ad 	 * currently only be called with the system paused (and in a
1.11       ad 	 * potentially unstable state), we don't perform any locking.
1.11       ad 	 */
1.11       ad 	if ((d = bdevsw_lookup(dev)) == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	/* DEV_LOCK(d); */
1.11       ad 	rv = (*d->d_dump)(dev, addr, data, sz);
1.11       ad 	/* DEV_UNLOCK(d); */
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad bdev_type(dev_t dev)
1.11       ad {
1.11       ad 	const struct bdevsw *d;
1.11       ad
1.11       ad 	if ((d = bdevsw_lookup(dev)) == NULL)
1.11       ad 		return D_OTHER;
1.11       ad 	return d->d_flag & D_TYPEMASK;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad cdev_open(dev_t dev, int flag, int devtype, lwp_t *l)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	/*
1.11       ad 	 * For open we need to lock, in order to synchronize
1.11       ad 	 * with attach/detach.
1.11       ad 	 */
1.11       ad 	mutex_enter(&devsw_lock);
1.11       ad 	d = cdevsw_lookup(dev);
1.11       ad 	mutex_exit(&devsw_lock);
1.11       ad 	if (d == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_open)(dev, flag, devtype, l);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad cdev_close(dev_t dev, int flag, int devtype, lwp_t *l)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_close)(dev, flag, devtype, l);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad cdev_read(dev_t dev, struct uio *uio, int flag)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_read)(dev, uio, flag);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad cdev_write(dev_t dev, struct uio *uio, int flag)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_write)(dev, uio, flag);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad cdev_ioctl(dev_t dev, u_long cmd, void *data, int flag, lwp_t *l)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_ioctl)(dev, cmd, data, flag, l);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad void
1.11       ad cdev_stop(struct tty *tp, int flag)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(tp->t_dev)) == NULL)
1.11       ad 		return;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	(*d->d_stop)(tp, flag);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad }
1.11       ad
1.11       ad struct tty *
1.11       ad cdev_tty(dev_t dev)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	struct tty * rv;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return NULL;
1.11       ad
1.12       ad 	/* XXX Check if necessary. */
1.12       ad 	if (d->d_tty == NULL)
1.12       ad 		return NULL;
1.12       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_tty)(dev);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad cdev_poll(dev_t dev, int flag, lwp_t *l)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return POLLERR;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_poll)(dev, flag, l);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad paddr_t
1.11       ad cdev_mmap(dev_t dev, off_t off, int flag)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	paddr_t rv;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return (paddr_t)-1LL;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_mmap)(dev, off, flag);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad cdev_kqfilter(dev_t dev, struct knote *kn)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad 	int rv;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return ENXIO;
1.11       ad
1.11       ad 	DEV_LOCK(d);
1.11       ad 	rv = (*d->d_kqfilter)(dev, kn);
1.11       ad 	DEV_UNLOCK(d);
1.11       ad
1.11       ad 	return rv;
1.11       ad }
1.11       ad
1.11       ad int
1.11       ad cdev_type(dev_t dev)
1.11       ad {
1.11       ad 	const struct cdevsw *d;
1.11       ad
1.11       ad 	if ((d = cdevsw_lookup(dev)) == NULL)
1.11       ad 		return D_OTHER;
1.11       ad 	return d->d_flag & D_TYPEMASK;
 1.2  gehenna }