dev/dm/dm_dev.c

1.1.2.8  haad /*        $NetBSD: dm_dev.c,v 1.1.2.8 2008/09/08 11:08:02 haad Exp $      */
1.1.2.4  haad
1.1.2.1  haad /*
1.1.2.1  haad  * Copyright (c) 1996, 1997, 1998, 1999, 2002 The NetBSD Foundation, Inc.
1.1.2.1  haad  * All rights reserved.
1.1.2.1  haad  *
1.1.2.1  haad  * This code is derived from software contributed to The NetBSD Foundation
1.1.2.1  haad  * by Adam Hamsik.
1.1.2.1  haad  *
1.1.2.1  haad  * Redistribution and use in source and binary forms, with or without
1.1.2.1  haad  * modification, are permitted provided that the following conditions
1.1.2.1  haad  * are met:
1.1.2.1  haad  * 1. Redistributions of source code must retain the above copyright
1.1.2.1  haad  *    notice, this list of conditions and the following disclaimer.
1.1.2.1  haad  * 2. Redistributions in binary form must reproduce the above copyright
1.1.2.1  haad  *    notice, this list of conditions and the following disclaimer in the
1.1.2.1  haad  *    documentation and/or other materials provided with the distribution.
1.1.2.1  haad  *
1.1.2.1  haad  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1.2.1  haad  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1.2.1  haad  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1.2.1  haad  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1.2.1  haad  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1.2.1  haad  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1.2.1  haad  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1.2.1  haad  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1.2.1  haad  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1.2.1  haad  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1.2.1  haad  * POSSIBILITY OF SUCH DAMAGE.
1.1.2.1  haad  */
1.1.2.1  haad
1.1.2.1  haad
1.1.2.1  haad #include <sys/types.h>
1.1.2.1  haad #include <sys/param.h>
1.1.2.1  haad
1.1.2.3  haad #include <sys/disklabel.h>
1.1.2.1  haad #include <sys/errno.h>
1.1.2.1  haad #include <sys/ioctl.h>
1.1.2.1  haad #include <sys/ioccom.h>
1.1.2.1  haad #include <sys/kmem.h>
1.1.2.1  haad #include <sys/lkm.h>
1.1.2.1  haad #include <sys/queue.h>
1.1.2.1  haad
1.1.2.1  haad #include "netbsd-dm.h"
1.1.2.1  haad #include "dm.h"
1.1.2.1  haad
1.1.2.1  haad static struct dm_dev_head dm_dev_list =
1.1.2.1  haad TAILQ_HEAD_INITIALIZER(dm_dev_list);
1.1.2.1  haad
1.1.2.1  haad kmutex_t dm_dev_mutex;
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.1  haad  * Locking architecture, for now I use mutexes later we can convert them to
1.1.2.2  haad  * rw_locks. I use IPL_NONE for specifing IPL type for mutex.
1.1.2.2  haad  * I will enter into mutex everytime I'm working with dm_dev_list.
1.1.2.1  haad  */
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.1  haad  * Lookup device with its minor number.
1.1.2.1  haad  */
1.1.2.1  haad struct dm_dev*
1.1.2.1  haad dm_dev_lookup_minor(int dm_dev_minor)
1.1.2.1  haad {
1.1.2.1  haad 	struct dm_dev *dm_dev;
1.1.2.1  haad
1.1.2.1  haad 	mutex_enter(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.2  haad 	TAILQ_FOREACH(dm_dev, &dm_dev_list, next_devlist){
1.1.2.1  haad 		if (dm_dev_minor == dm_dev->minor){
1.1.2.1  haad 			mutex_exit(&dm_dev_mutex);
1.1.2.1  haad 			return dm_dev;
1.1.2.1  haad 		}
1.1.2.1  haad 	}
1.1.2.1  haad
1.1.2.1  haad 	mutex_exit(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.1  haad 	return NULL;
1.1.2.1  haad }
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.1  haad  * Lookup device with it's device name.
1.1.2.1  haad  */
1.1.2.1  haad struct dm_dev*
1.1.2.1  haad dm_dev_lookup_name(const char *dm_dev_name)
1.1.2.1  haad {
1.1.2.1  haad 	struct dm_dev *dm_dev;
1.1.2.1  haad 	int dlen; int slen;
1.1.2.1  haad
1.1.2.8  haad 	if ((dm_dev_name == NULL) || (slen = strlen(dm_dev_name) == 0))
1.1.2.1  haad 		return NULL;
1.1.2.1  haad
1.1.2.1  haad 	mutex_enter(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.2  haad 	TAILQ_FOREACH(dm_dev, &dm_dev_list, next_devlist){
1.1.2.1  haad
1.1.2.1  haad 		dlen = strlen(dm_dev->name);
1.1.2.1  haad
1.1.2.1  haad 		if(slen != dlen)
1.1.2.1  haad 			continue;
1.1.2.1  haad
1.1.2.2  haad 		if (strncmp(dm_dev_name, dm_dev->name, slen) == 0) {
1.1.2.1  haad 			mutex_exit(&dm_dev_mutex);
1.1.2.1  haad 			return dm_dev;
1.1.2.1  haad 		}
1.1.2.1  haad 	}
1.1.2.1  haad
1.1.2.1  haad 	mutex_exit(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.1  haad 	return NULL;
1.1.2.1  haad }
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.1  haad  * Lookup device with it's device uuid. Used mostly by LVM2tools.
1.1.2.1  haad  */
1.1.2.1  haad struct dm_dev*
1.1.2.1  haad dm_dev_lookup_uuid(const char *dm_dev_uuid)
1.1.2.1  haad {
1.1.2.1  haad 	struct dm_dev *dm_dev;
1.1.2.6  haad 	size_t len;
1.1.2.6  haad
1.1.2.6  haad 	len = 0;
1.1.2.6  haad
1.1.2.8  haad 	if ((dm_dev_uuid == NULL) || (strlen(dm_dev_uuid) == 0))
1.1.2.1  haad 		return NULL;
1.1.2.1  haad
1.1.2.1  haad 	mutex_enter(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.6  haad 	TAILQ_FOREACH(dm_dev, &dm_dev_list, next_devlist){
1.1.2.6  haad
1.1.2.6  haad 		if (strlen(dm_dev->uuid) != len)
1.1.2.6  haad 				continue;
1.1.2.6  haad
1.1.2.2  haad 	    if (strncmp(dm_dev_uuid, dm_dev->uuid, strlen(dm_dev->uuid)) == 0){
1.1.2.1  haad 		    mutex_exit(&dm_dev_mutex);
1.1.2.1  haad 		    return dm_dev;
1.1.2.1  haad 	    }
1.1.2.6  haad 	}
1.1.2.6  haad 		mutex_exit(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.1  haad 	return NULL;
1.1.2.1  haad }
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.1  haad  * Insert new device to the global list of devices.
1.1.2.1  haad  */
1.1.2.1  haad int
1.1.2.1  haad dm_dev_insert(struct dm_dev *dev)
1.1.2.1  haad {
1.1.2.1  haad 	struct dm_dev *dmt;
1.1.2.1  haad 	int r;
1.1.2.1  haad
1.1.2.1  haad 	dmt = NULL;
1.1.2.1  haad 	r = 0;
1.1.2.1  haad
1.1.2.6  haad 	if (((dmt = dm_dev_lookup_uuid(dev->uuid)) == NULL) &&
1.1.2.6  haad 	    ((dmt = dm_dev_lookup_name(dev->name)) == NULL) &&
1.1.2.6  haad 	    ((dmt = dm_dev_lookup_minor(dev->minor)) == NULL)){
1.1.2.1  haad
1.1.2.1  haad 		mutex_enter(&dm_dev_mutex);
1.1.2.1  haad 		TAILQ_INSERT_TAIL(&dm_dev_list, dev, next_devlist);
1.1.2.1  haad 		mutex_exit(&dm_dev_mutex);
1.1.2.1  haad 	} else
1.1.2.1  haad 		r = EEXIST;
1.1.2.1  haad
1.1.2.1  haad 	return r;
1.1.2.1  haad }
1.1.2.1  haad
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.6  haad  * Remove device selected with dm_dev from global list of devices.
1.1.2.1  haad  */
1.1.2.1  haad int
1.1.2.6  haad dm_dev_rem(struct dm_dev *dm_dev)
1.1.2.6  haad {
1.1.2.1  haad 	mutex_enter(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.2  haad 	TAILQ_REMOVE(&dm_dev_list, dm_dev, next_devlist);
1.1.2.1  haad
1.1.2.1  haad 	mutex_exit(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.6  haad 	return 0;
1.1.2.1  haad }
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.5  haad  * Destroy all devices created in device-mapper. Remove all tables
1.1.2.5  haad  * free all allocated memmory.
1.1.2.5  haad  */
1.1.2.5  haad
1.1.2.5  haad int
1.1.2.5  haad dm_dev_destroy(void)
1.1.2.5  haad {
1.1.2.5  haad 	struct dm_dev *dm_dev;
1.1.2.5  haad
1.1.2.8  haad 	/* XXX should I get rw_lock here ? */
1.1.2.5  haad 	mutex_enter(&dm_dev_mutex);
1.1.2.5  haad
1.1.2.5  haad 	while (TAILQ_FIRST(&dm_dev_list) != NULL){
1.1.2.5  haad
1.1.2.5  haad 		dm_dev = TAILQ_FIRST(&dm_dev_list);
1.1.2.5  haad
1.1.2.5  haad 		TAILQ_REMOVE(&dm_dev_list, TAILQ_FIRST(&dm_dev_list),
1.1.2.5  haad 		next_devlist);
1.1.2.5  haad
1.1.2.5  haad 		/* Destroy active table first.  */
1.1.2.8  haad 		if (!SLIST_EMPTY(&dm_dev->tables[dm_dev->cur_active_table]))
1.1.2.8  haad 			dm_table_destroy(&dm_dev->tables[dm_dev->cur_active_table]);
1.1.2.5  haad
1.1.2.5  haad 		/* Destroy unactive table if exits, too. */
1.1.2.5  haad 		if (!SLIST_EMPTY(&dm_dev->tables[1 - dm_dev->cur_active_table]))
1.1.2.5  haad 			dm_table_destroy(&dm_dev->tables[1 - dm_dev->cur_active_table]);
1.1.2.5  haad
1.1.2.5  haad 		(void)kmem_free(dm_dev, sizeof(struct dm_dev));
1.1.2.5  haad 	}
1.1.2.5  haad
1.1.2.5  haad 	mutex_exit(&dm_dev_mutex);
1.1.2.5  haad
1.1.2.5  haad 	return 0;
1.1.2.5  haad }
1.1.2.5  haad
1.1.2.5  haad /*
1.1.2.1  haad  * Allocate new device entry.
1.1.2.1  haad  */
1.1.2.1  haad struct dm_dev*
1.1.2.1  haad dm_dev_alloc()
1.1.2.8  haad {
1.1.2.8  haad 	return kmem_zalloc(sizeof(struct dm_dev), KM_NOSLEEP);
1.1.2.1  haad }
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.1  haad  * Freed device entry.
1.1.2.1  haad  */
1.1.2.1  haad int
1.1.2.1  haad dm_dev_free(struct dm_dev *dmv)
1.1.2.1  haad {
1.1.2.7  haad 	if (dmv != NULL)
1.1.2.6  haad 		(void)kmem_free(dmv, sizeof(struct dm_dev));
1.1.2.1  haad
1.1.2.1  haad 	return 0;
1.1.2.1  haad }
1.1.2.1  haad
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.1  haad  * Return prop_array of dm_targer_list dictionaries.
1.1.2.1  haad  */
1.1.2.1  haad prop_array_t
1.1.2.1  haad dm_dev_prop_list(void)
1.1.2.1  haad {
1.1.2.1  haad 	struct dm_dev *dmd;
1.1.2.1  haad
1.1.2.1  haad 	int j;
1.1.2.1  haad
1.1.2.1  haad 	prop_array_t dev_array;
1.1.2.1  haad 	prop_dictionary_t dev_dict;
1.1.2.1  haad
1.1.2.1  haad 	j =0;
1.1.2.1  haad
1.1.2.1  haad 	dev_array = prop_array_create();
1.1.2.1  haad
1.1.2.1  haad 	mutex_enter(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.2  haad 	TAILQ_FOREACH(dmd, &dm_dev_list,next_devlist) {
1.1.2.1  haad 		dev_dict  = prop_dictionary_create();
1.1.2.1  haad
1.1.2.2  haad 		prop_dictionary_set_cstring(dev_dict, DM_DEV_NAME, dmd->name);
1.1.2.1  haad
1.1.2.2  haad 		prop_dictionary_set_uint32(dev_dict, DM_DEV_DEV, dmd->minor);
1.1.2.1  haad
1.1.2.2  haad 		prop_array_set(dev_array, j, dev_dict);
1.1.2.1  haad
1.1.2.1  haad 		prop_object_release(dev_dict);
1.1.2.1  haad
1.1.2.1  haad 		j++;
1.1.2.1  haad 	}
1.1.2.1  haad
1.1.2.1  haad 	mutex_exit(&dm_dev_mutex);
1.1.2.1  haad
1.1.2.1  haad 	return dev_array;
1.1.2.1  haad }
1.1.2.1  haad
1.1.2.1  haad /*
1.1.2.7  haad  * Initialize global device mutex.
1.1.2.1  haad  */
1.1.2.1  haad int
1.1.2.1  haad dm_dev_init()
1.1.2.1  haad {
1.1.2.7  haad 	TAILQ_INIT(&dm_dev_list); /* initialize global dev list */
1.1.2.7  haad
1.1.2.2  haad 	mutex_init(&dm_dev_mutex, MUTEX_DEFAULT, IPL_NONE);
1.1.2.1  haad
1.1.2.1  haad 	return 0;
1.1.2.1  haad }