libdm/ioctl/libdm_netbsd.c

1.3  haad /*      $NetBSD: libdm_netbsd.c,v 1.3 2009/06/09 18:29:09 haad Exp $        */
1.1  haad
1.1  haad /*
1.1  haad  * Copyright (c) 1996, 1997, 1998, 1999, 2002 The NetBSD Foundation, Inc.
1.1  haad  * All rights reserved.
1.1  haad  *
1.1  haad  * This code is derived from software contributed to The NetBSD Foundation
1.1  haad  * by Adam Hamsik.
1.1  haad  *
1.1  haad  * Redistribution and use in source and binary forms, with or without
1.1  haad  * modification, are permitted provided that the following conditions
1.1  haad  * are met:
1.1  haad  * 1. Redistributions of source code must retain the above copyright
1.1  haad  *    notice, this list of conditions and the following disclaimer.
1.1  haad  * 2. Redistributions in binary form must reproduce the above copyright
1.1  haad  *    notice, this list of conditions and the following disclaimer in the
1.1  haad  *    documentation and/or other materials provided with the distribution.
1.1  haad  *
1.1  haad  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1  haad  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  haad  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  haad  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1  haad  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  haad  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  haad  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  haad  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  haad  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  haad  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  haad  * POSSIBILITY OF SUCH DAMAGE.
1.1  haad  */
1.1  haad
1.1  haad
1.1  haad #include <sys/ioctl.h>
1.1  haad #include <sys/types.h>
1.1  haad #include <sys/sysctl.h>
1.1  haad
1.1  haad #include <err.h>
1.1  haad #include <errno.h>
1.1  haad
1.1  haad #include <stdio.h>
1.1  haad #include <stdlib.h>
1.2  haad #include <string.h>
1.1  haad #include <unistd.h>
1.1  haad
1.1  haad #include <netbsd-dm.h>
1.1  haad
1.1  haad #include <dm-ioctl.h>
1.1  haad
1.1  haad #include "lib.h"
1.1  haad
1.2  haad struct nbsd_dm_target_param {
1.2  haad 	char *name;
1.2  haad 	prop_dictionary_t (*parse)(char *);
1.2  haad };
1.2  haad
1.1  haad #define DMI_SIZE 16 * 1024
1.1  haad
1.1  haad static int dm_list_versions(prop_dictionary_t, struct dm_ioctl *);
1.1  haad static int dm_list_devices(prop_dictionary_t, struct dm_ioctl *);
1.1  haad static int dm_dev_deps(prop_dictionary_t, struct dm_ioctl *);
1.1  haad static int dm_table_status(prop_dictionary_t, struct dm_ioctl *);
1.1  haad
1.2  haad static prop_dictionary_t dm_parse_linear(char *);
1.2  haad static prop_dictionary_t dm_parse_stripe(char *);
1.2  haad static prop_dictionary_t dm_parse_mirror(char *);
1.2  haad static prop_dictionary_t dm_parse_snapshot(char *);
1.2  haad static prop_dictionary_t dm_parse_snapshot_origin(char *);
1.3  haad static prop_dictionary_t dm_parse_default(char *);
1.2  haad
1.2  haad static struct nbsd_dm_target_param dmt_parse[] = {
1.2  haad 	{"linear", dm_parse_linear},
1.2  haad 	{"striped", dm_parse_stripe},
1.2  haad 	{"mirror", dm_parse_mirror},
1.2  haad 	{"snapshot", dm_parse_snapshot},
1.2  haad 	{"snapshot-origin", dm_parse_snapshot_origin},
1.2  haad 	{NULL, NULL},
1.2  haad };
1.2  haad
1.2  haad /*
1.2  haad  * Parse params string to target specific proplib dictionary.
1.2  haad  *
1.2  haad  * <key>params</key>
1.2  haad  * <dict>
1.2  haad  *     <key>device</key>
1.2  haad  *     <array>
1.2  haad  *          <dict>
1.2  haad  *              <key>device</key>
1.2  haad  *              <string>/dev/wd1a</string>
1.2  haad  *              <key>offset</key>
1.2  haad  *              <integer>0x384</integer>
1.2  haad  *          </dict>
1.2  haad  *     </array>
1.2  haad  * <!-- Other target config stuff -->
1.2  haad  * </dict>
1.2  haad  *
1.2  haad  */
1.2  haad prop_dictionary_t
1.2  haad nbsd_dm_parse_param(const char *target, const char *params)
1.2  haad {
1.2  haad 	int i;
1.2  haad 	size_t slen, dlen;
1.2  haad 	prop_dictionary_t dict;
1.2  haad 	char *param;
1.2  haad
1.2  haad 	dict = NULL;
1.2  haad 	slen = strlen(target);
1.2  haad
1.2  haad 	/* copy parameter string to new buffer */
1.2  haad 	param = dm_malloc(strlen(params) * sizeof(char));
1.2  haad 	strlcpy(param, params, strlen(params)+1);
1.2  haad
1.2  haad         for(i = 0; dmt_parse[i].name != NULL; i++) {
1.2  haad 		dlen = strlen(dmt_parse[i].name);
1.2  haad
1.2  haad 		if (slen != dlen)
1.2  haad 			continue;
1.2  haad
1.2  haad 		if (strncmp(target, dmt_parse[i].name, slen) == 0)
1.2  haad 			break;
1.2  haad 	}
1.3  haad
1.3  haad 	/* Create default dictionary with key params and with string as a value */
1.2  haad         if (dmt_parse[i].name == NULL)
1.3  haad 		dm_parse_default(param);
1.2  haad
1.2  haad 	dict = dmt_parse[i].parse(param);
1.2  haad
1.2  haad 	dm_free(param);
1.2  haad
1.2  haad 	return dict;
1.2  haad }
1.2  haad
1.2  haad /*
1.2  haad  * Example line sent to dm from lvm tools when using linear target.
1.2  haad  * start length linear device1 offset1
1.2  haad  * 0 65536 linear /dev/hda 0
1.2  haad  */
1.2  haad static prop_dictionary_t
1.2  haad dm_parse_linear(char *params)
1.2  haad {
1.2  haad 	prop_dictionary_t dict;
1.2  haad 	char **ap, *argv[3];
1.2  haad
1.2  haad 	dict = prop_dictionary_create();
1.2  haad
1.2  haad 	if (params == NULL)
1.2  haad 		return dict;
1.2  haad
1.2  haad        	/*
1.2  haad 	 * Parse a string, containing tokens delimited by white space,
1.2  haad 	 * into an argument vector
1.2  haad 	 */
1.2  haad 	for (ap = argv; ap < &argv[2] &&
1.2  haad 	    (*ap = strsep(&params, " \t")) != NULL;) {
1.2  haad 		if (**ap != '\0')
1.2  haad 	        	ap++;
1.2  haad 	}
1.3  haad
1.2  haad 	prop_dictionary_set_cstring(dict, DM_TARGET_LINEAR_DEVICE, argv[0]);
1.2  haad 	prop_dictionary_set_uint64(dict, DM_TARGET_LINEAR_OFFSET, strtoll(argv[1], (char **)NULL, 10));
1.2  haad
1.2  haad 	return dict;
1.2  haad }
1.2  haad
1.2  haad /*
1.2  haad  * Example line sent to dm from lvm tools when using striped target.
1.2  haad  * start length striped #stripes chunk_size device1 offset1 ... deviceN offsetN
1.2  haad  * 0 65536 striped 2 512 /dev/hda 0 /dev/hdb 0
1.2  haad  */
1.2  haad static prop_dictionary_t
1.2  haad dm_parse_stripe(char *params)
1.2  haad {
1.2  haad 	prop_dictionary_t dict, dev_dict;
1.2  haad 	prop_array_t dev_array;
1.2  haad 	char **ap, *argv[10]; /* Limit number of disk stripes to 10 */
1.2  haad
1.2  haad 	dict = prop_dictionary_create();
1.2  haad
1.2  haad 	if (params == NULL)
1.2  haad 		return dict;
1.2  haad
1.2  haad        	/*
1.2  haad 	 * Parse a string, containing tokens delimited by white space,
1.2  haad 	 * into an argument vector
1.2  haad 	 */
1.2  haad 	for (ap = argv; ap < &argv[9] &&
1.2  haad 	    (*ap = strsep(&params, " \t")) != NULL;) {
1.2  haad 		if (**ap != '\0')
1.2  haad 	        	ap++;
1.2  haad 	}
1.2  haad
1.2  haad 	prop_dictionary_set_uint64(dict, DM_TARGET_STRIPE_STRIPES,
1.2  haad 		strtol(argv[0], (char **)NULL, 10));
1.2  haad 	prop_dictionary_set_uint64(dict, DM_TARGET_STRIPE_CHUNKSIZE,
1.2  haad 	 	strtol(argv[1], (char **)NULL, 10));
1.2  haad
1.2  haad 	dev_array = prop_array_create();
1.2  haad
1.2  haad 	dev_dict = prop_dictionary_create();
1.2  haad 	prop_dictionary_set_cstring(dev_dict, DM_TARGET_STRIPE_DEVICE, argv[2]);
1.2  haad 	prop_dictionary_set_uint64(dev_dict, DM_TARGET_STRIPE_OFFSET,
1.2  haad 		strtol(argv[3], (char **)NULL, 10));
1.2  haad
1.2  haad 	prop_array_add(dev_array, dev_dict);
1.2  haad 	prop_object_release(dev_dict);
1.2  haad
1.2  haad 	dev_dict = prop_dictionary_create();
1.2  haad 	prop_dictionary_set_cstring(dev_dict, DM_TARGET_STRIPE_DEVICE, argv[4]);
1.2  haad 	prop_dictionary_set_uint64(dev_dict, DM_TARGET_STRIPE_OFFSET,
1.2  haad 		strtol(argv[5], (char **)NULL, 10));
1.2  haad
1.2  haad 	prop_array_add(dev_array, dev_dict);
1.2  haad 	prop_object_release(dev_dict);
1.2  haad
1.2  haad 	prop_dictionary_set(dict, DM_TARGET_STRIPE_DEVARRAY, dev_array);
1.2  haad 	prop_object_release(dev_array);
1.2  haad
1.2  haad 	return dict;
1.2  haad }
1.2  haad
1.2  haad static prop_dictionary_t
1.2  haad dm_parse_mirror(char *params)
1.2  haad {
1.2  haad 	prop_dictionary_t dict;
1.2  haad
1.2  haad 	dict = prop_dictionary_create();
1.2  haad
1.2  haad 	return dict;
1.2  haad }
1.2  haad
1.2  haad static prop_dictionary_t
1.2  haad dm_parse_snapshot(char *params)
1.2  haad {
1.2  haad 	prop_dictionary_t dict;
1.2  haad
1.2  haad 	dict = prop_dictionary_create();
1.2  haad
1.2  haad 	return dict;
1.2  haad }
1.2  haad
1.2  haad static prop_dictionary_t
1.2  haad dm_parse_snapshot_origin(char *params)
1.2  haad {
1.2  haad 	prop_dictionary_t dict;
1.2  haad
1.2  haad 	dict = prop_dictionary_create();
1.2  haad
1.2  haad 	return dict;
1.2  haad }
1.2  haad
1.3  haad static prop_dictionary_t
1.3  haad dm_parse_default(char *params)
1.3  haad {
1.3  haad 	prop_dictionary_t dict;
1.3  haad
1.3  haad 	dict = prop_dictionary_create();
1.3  haad
1.3  haad 	prop_dictionary_set_cstring(dict, DM_TABLE_PARAMS, params);
1.3  haad
1.3  haad 	return dict;
1.3  haad }
1.3  haad
1.1  haad int
1.1  haad nbsd_get_dm_major(uint32_t *major,  int type)
1.1  haad {
1.1  haad 	size_t val_len,i;
1.1  haad 	struct kinfo_drivers *kd;
1.1  haad
1.1  haad 	if (sysctlbyname("kern.drivers",NULL,&val_len,NULL,0) < 0) {
1.1  haad 		printf("sysctlbyname failed");
1.1  haad 		return 0;
1.1  haad 	}
1.1  haad
1.1  haad 	if ((kd = malloc (val_len)) == NULL){
1.1  haad 		printf("malloc kd info error\n");
1.1  haad 		return 0;
1.1  haad 	}
1.1  haad
1.1  haad 	if (sysctlbyname("kern.drivers", kd, &val_len, NULL, 0) < 0) {
1.1  haad 		printf("sysctlbyname failed kd");
1.1  haad 		return 0;
1.1  haad 	}
1.1  haad
1.1  haad 	for (i = 0, val_len /= sizeof(*kd); i < val_len; i++) {
1.1  haad
1.1  haad 		if (strncmp(kd[i].d_name,DM_NAME,strlen(kd[i].d_name)) == 0){
1.1  haad
1.1  haad 			if (type == DM_CHAR_MAJOR)
1.1  haad 				/* Set major to dm-driver char major number. */
1.1  haad 				*major = kd[i].d_cmajor;
1.1  haad 			else
1.1  haad 				if (type == DM_BLOCK_MAJOR)
1.1  haad 					*major = kd[i].d_bmajor;
1.1  haad
1.1  haad 			free(kd);
1.1  haad
1.1  haad 			return 1;
1.1  haad 		}
1.1  haad 	}
1.1  haad
1.1  haad 	free(kd);
1.1  haad
1.1  haad 	return 0;
1.1  haad }
1.1  haad
1.1  haad int
1.1  haad nbsd_dmi_add_version(const int *version, prop_dictionary_t dm_dict)
1.1  haad {
1.1  haad 	prop_array_t ver;
1.1  haad 	size_t i;
1.1  haad
1.1  haad 	if ((ver = prop_array_create()) == NULL)
1.1  haad 		return -1;
1.1  haad
1.1  haad        	for (i=0;i<3;i++)
1.1  haad 		prop_array_set_uint32(ver,i,version[i]);
1.1  haad
1.1  haad 	if ((prop_dictionary_set(dm_dict,"version",ver)) == false)
1.1  haad 		return -1;
1.1  haad
1.1  haad 	prop_object_release(ver);
1.1  haad
1.1  haad 	return 0;
1.1  haad }
1.1  haad
1.1  haad struct dm_ioctl*
1.1  haad nbsd_dm_dict_to_dmi(prop_dictionary_t dm_dict,const int cmd)
1.1  haad {
1.1  haad 	struct dm_ioctl *dmi;
1.1  haad 	prop_array_t ver;
1.1  haad
1.1  haad 	size_t i;
1.1  haad 	int r;
1.1  haad 	char *name, *uuid;
1.1  haad 	uint32_t major,minor;
1.1  haad
1.1  haad 	name = NULL;
1.1  haad 	uuid = NULL;
1.1  haad 	minor = 0;
1.1  haad
1.1  haad 	nbsd_get_dm_major(&major, DM_BLOCK_MAJOR);
1.1  haad
1.1  haad 	if (!(dmi = dm_malloc(DMI_SIZE)))
1.1  haad 		return NULL;
1.1  haad
1.1  haad 	memset(dmi,0,DMI_SIZE);
1.1  haad
1.1  haad 	prop_dictionary_get_int32(dm_dict, DM_IOCTL_OPEN, &dmi->open_count);
1.1  haad 	prop_dictionary_get_uint32(dm_dict, DM_IOCTL_EVENT, &dmi->event_nr);
1.1  haad 	prop_dictionary_get_uint32(dm_dict, DM_IOCTL_FLAGS, &dmi->flags);
1.1  haad 	prop_dictionary_get_uint32(dm_dict, DM_IOCTL_TARGET_COUNT,
1.1  haad 		&dmi->target_count);
1.1  haad
1.1  haad 	if (prop_dictionary_get_uint32(dm_dict, DM_IOCTL_MINOR, &minor))
1.1  haad 		dmi->dev = MKDEV(major, minor);
1.1  haad 	else
1.1  haad 		dmi->dev = 0;
1.1  haad
1.1  haad 	/* Copy name and uuid to dm_ioctl. */
1.1  haad 	if (prop_dictionary_get_cstring_nocopy(dm_dict, DM_IOCTL_NAME,
1.1  haad 		(const char **)&name)){
1.1  haad 		strlcpy(dmi->name, name, DM_NAME_LEN);
1.1  haad 	} else
1.1  haad 		dmi->name[0] = '\0';
1.1  haad
1.1  haad 	if (prop_dictionary_get_cstring_nocopy(dm_dict, DM_IOCTL_UUID,
1.1  haad 		(const char **)&uuid)){
1.1  haad 		strlcpy(dmi->uuid, uuid, DM_UUID_LEN);
1.1  haad 	}  else
1.1  haad 		dmi->uuid[0] = '\0';
1.1  haad
1.1  haad 	/* dmi parsing values, size of dmi block and offset to data. */
1.1  haad 	dmi->data_size  = DMI_SIZE;
1.1  haad 	dmi->data_start = sizeof(struct dm_ioctl);
1.1  haad
1.1  haad 	/* Get kernel version from dm_dict. */
1.1  haad 	ver = prop_dictionary_get(dm_dict,DM_IOCTL_VERSION);
1.1  haad
1.1  haad 	for(i=0; i<3; i++)
1.1  haad 		prop_array_get_uint32(ver,i,&dmi->version[i]);
1.1  haad
1.1  haad 	switch (cmd){
1.1  haad
1.1  haad 	case DM_LIST_VERSIONS:
1.1  haad 		r = dm_list_versions(dm_dict,dmi);
1.1  haad 		if (r >= 0)
1.1  haad 			dmi->target_count = r;
1.1  haad 		break;
1.1  haad
1.1  haad 	case DM_LIST_DEVICES:
1.1  haad 		r = dm_list_devices(dm_dict,dmi);
1.1  haad 		if (r >= 0)
1.1  haad 			dmi->target_count = r;
1.1  haad 		break;
1.1  haad
1.1  haad 	case DM_TABLE_STATUS:
1.1  haad 		r = dm_table_status(dm_dict,dmi);
1.1  haad 		if (r >= 0)
1.1  haad 			dmi->target_count = r;
1.1  haad 		break;
1.1  haad
1.1  haad 	case DM_TABLE_DEPS:
1.1  haad 		r = dm_dev_deps(dm_dict,dmi);
1.1  haad 		if (r >= 0)
1.1  haad 			dmi->target_count = r;
1.1  haad 		break;
1.1  haad 	}
1.1  haad
1.1  haad 	return dmi;
1.1  haad }
1.1  haad
1.1  haad /*
1.1  haad  * Parse dm_dict when targets command was called and fill dm_ioctl buffer with it.
1.1  haad  *
1.1  haad  * Return number of targets or if failed <0 error.
1.1  haad  */
1.1  haad
1.1  haad static int
1.1  haad dm_list_versions(prop_dictionary_t dm_dict, struct dm_ioctl *dmi)
1.1  haad {
1.1  haad 	struct dm_target_versions *dmtv,*odmtv;
1.1  haad
1.1  haad 	prop_array_t targets,ver;
1.1  haad 	prop_dictionary_t target_dict;
1.1  haad 	prop_object_iterator_t iter;
1.1  haad
1.1  haad 	char *name;
1.1  haad 	size_t j,i,slen,rec_size;
1.1  haad
1.1  haad 	odmtv = NULL;
1.1  haad 	name = NULL;
1.1  haad 	j = 0;
1.1  haad
1.1  haad 	dmtv = (struct dm_target_versions *)((uint8_t *)dmi + dmi->data_start);
1.1  haad
1.1  haad /*	printf("dmi: vers: %d.%d.%d data_size: %d data_start: %d name: %s t_count: %d\n",
1.1  haad 	    dmi->version[0],dmi->version[1],dmi->version[2],dmi->data_size,dmi->data_start,
1.1  haad 	    dmi->name,dmi->target_count);
1.1  haad
1.1  haad 	printf("dmi: size: %d -- %p --- %p \n",sizeof(struct dm_ioctl),dmi,dmi+dmi->data_start);
1.1  haad 	printf("dmtv: size: %p --- %p\n",dmtv,(struct dm_target_versions *)(dmi+312));*/
1.1  haad
1.1  haad 	/* get prop_array of target_version dictionaries */
1.1  haad 	if ((targets = prop_dictionary_get(dm_dict,DM_IOCTL_CMD_DATA))){
1.1  haad
1.1  haad 		iter = prop_array_iterator(targets);
1.1  haad 		if (!iter)
1.1  haad 			err(EXIT_FAILURE,"dm_list_versions %s",__func__);
1.1  haad
1.1  haad 		while((target_dict = prop_object_iterator_next(iter)) != NULL){
1.1  haad 			j++;
1.1  haad
1.1  haad 			prop_dictionary_get_cstring_nocopy(target_dict,
1.1  haad 			    DM_TARGETS_NAME,(const char **)&name);
1.1  haad
1.1  haad 			slen = strlen(name) + 1;
1.1  haad 			rec_size = sizeof(struct dm_target_versions) + slen + 1;
1.1  haad
1.1  haad 			if (rec_size > dmi->data_size)
1.1  haad 				return -ENOMEM;
1.1  haad
1.1  haad 			ver = prop_dictionary_get(target_dict,DM_TARGETS_VERSION);
1.1  haad
1.1  haad 			for (i=0; i<3; i++)
1.1  haad 				prop_array_get_uint32(ver,i,&dmtv->version[i]);
1.1  haad
1.1  haad 			dmtv->next = rec_size;
1.1  haad
1.1  haad 			strlcpy(dmtv->name,name,slen);
1.1  haad
1.1  haad 			odmtv = dmtv;
1.1  haad
1.1  haad 			dmtv =(struct dm_target_versions *)((uint8_t *)dmtv + rec_size);
1.1  haad 		}
1.1  haad
1.1  haad 		if (odmtv != NULL)
1.1  haad 			odmtv->next = 0;
1.1  haad 	}
1.1  haad
1.1  haad 	prop_object_iterator_release(iter);
1.1  haad 	return j;
1.1  haad }
1.1  haad
1.1  haad /*
1.1  haad  * List all available dm devices in system.
1.1  haad  */
1.1  haad static int
1.1  haad dm_list_devices(prop_dictionary_t dm_dict, struct dm_ioctl *dmi)
1.1  haad {
1.1  haad 	struct dm_name_list *dml,*odml;
1.1  haad
1.1  haad 	prop_array_t targets;
1.1  haad 	prop_dictionary_t target_dict;
1.1  haad 	prop_object_iterator_t iter;
1.1  haad
1.1  haad 	uint32_t minor;
1.1  haad 	uint32_t major;
1.1  haad
1.1  haad 	char *name;
1.1  haad 	size_t j,slen,rec_size;
1.1  haad
1.1  haad 	odml = NULL;
1.1  haad 	name = NULL;
1.1  haad 	minor = 0;
1.1  haad 	j = 0;
1.1  haad
1.1  haad 	nbsd_get_dm_major(&major,DM_BLOCK_MAJOR);
1.1  haad
1.1  haad 	dml = (struct dm_name_list *)((uint8_t *)dmi + dmi->data_start);
1.1  haad
1.1  haad 	if ((targets = prop_dictionary_get(dm_dict,DM_IOCTL_CMD_DATA))){
1.1  haad
1.1  haad 		iter = prop_array_iterator(targets);
1.1  haad 		if (!iter)
1.1  haad 			err(EXIT_FAILURE,"dm_list_devices %s",__func__);
1.1  haad
1.1  haad 		while((target_dict = prop_object_iterator_next(iter)) != NULL){
1.1  haad
1.1  haad 			prop_dictionary_get_cstring_nocopy(target_dict,
1.1  haad 			    DM_DEV_NAME,(const char **)&name);
1.1  haad
1.1  haad 			prop_dictionary_get_uint32(target_dict,DM_DEV_DEV,&minor);
1.1  haad
1.1  haad 			dml->dev = MKDEV(major,minor);
1.1  haad
1.1  haad 			slen = strlen(name) + 1;
1.1  haad 			rec_size = sizeof(struct dm_name_list) + slen + 1;
1.1  haad
1.1  haad 			if (rec_size > dmi->data_size)
1.1  haad 				return -ENOMEM;
1.1  haad
1.1  haad 			dml->next = rec_size;
1.1  haad
1.1  haad 			strlcpy(dml->name,name,slen);
1.1  haad
1.1  haad 			odml = dml;
1.1  haad
1.1  haad 			dml =(struct dm_name_list *)((uint8_t *)dml + rec_size);
1.1  haad
1.1  haad 			j++;
1.1  haad 		}
1.1  haad
1.1  haad 		if (odml != NULL)
1.1  haad 			odml->next = 0;
1.1  haad 	}
1.1  haad 	prop_object_iterator_release(iter);
1.1  haad 	return j;
1.1  haad }
1.1  haad
1.1  haad /*
1.1  haad  * Print status of each table, target arguments, start sector,
1.1  haad  * size and target name.
1.1  haad  */
1.1  haad static int
1.1  haad dm_table_status(prop_dictionary_t dm_dict,struct dm_ioctl *dmi)
1.1  haad {
1.1  haad 	struct dm_target_spec *dmts, *odmts;
1.1  haad
1.1  haad 	prop_array_t targets;
1.1  haad 	prop_dictionary_t target_dict;
1.1  haad 	prop_object_iterator_t iter;
1.1  haad
1.1  haad 	char *type,*params,*params_start;
1.1  haad
1.1  haad 	bool prm;
1.1  haad 	size_t j,plen,rec_size,next;
1.1  haad
1.1  haad 	j = 0;
1.1  haad 	next = 0;
1.1  haad 	params = NULL;
1.1  haad 	odmts = NULL;
1.1  haad 	rec_size = 0;
1.1  haad 	plen = -1;
1.1  haad 	prm = false;
1.1  haad
1.1  haad 	dmts = (struct dm_target_spec *)((uint8_t *)dmi + dmi->data_start);
1.1  haad
1.1  haad 	if ((targets = prop_dictionary_get(dm_dict,DM_IOCTL_CMD_DATA))){
1.1  haad
1.1  haad 		iter = prop_array_iterator(targets);
1.1  haad 		if (!iter)
1.1  haad 			err(EXIT_FAILURE,"dm_table_status %s",__func__);
1.1  haad
1.1  haad 		while((target_dict = prop_object_iterator_next(iter)) != NULL){
1.1  haad
1.1  haad 			prop_dictionary_get_cstring_nocopy(target_dict,
1.1  haad 			    DM_TABLE_TYPE,(const char **)&type);
1.1  haad
1.1  haad 			prm = prop_dictionary_get_cstring_nocopy(target_dict,
1.1  haad 			    DM_TABLE_PARAMS,(const char **)&params);
1.1  haad
1.1  haad 			prop_dictionary_get_uint64(target_dict,DM_TABLE_START,&dmts->sector_start);
1.1  haad 			prop_dictionary_get_uint64(target_dict,DM_TABLE_LENGTH,&dmts->length);
1.1  haad 			prop_dictionary_get_int32(target_dict,DM_TABLE_STAT,&dmts->status);
1.1  haad
1.1  haad 			if (prm)
1.1  haad 				plen = strlen(params) + 1;
1.1  haad
1.1  haad 			rec_size = sizeof(struct dm_target_spec) + plen;
1.1  haad
1.1  haad 			/*
1.1  haad 			 * In linux when copying table status from kernel next is
1.1  haad 			 * number of bytes from the start of the first dm_target_spec
1.1  haad 			 * structure. I don't know why but, it has to be done this way.
1.1  haad 			 */
1.1  haad 			next += rec_size;
1.1  haad
1.1  haad 			if (rec_size > dmi->data_size)
1.1  haad 				return -ENOMEM;
1.1  haad
1.1  haad 			dmts->next = next;
1.1  haad
1.1  haad 			strlcpy(dmts->target_type, type, DM_MAX_TYPE_NAME);
1.1  haad
1.1  haad 			params_start = (char *)dmts + sizeof(struct dm_target_spec);
1.1  haad
1.1  haad 			if (prm)
1.1  haad 				strlcpy(params_start, params, plen);
1.1  haad 			else
1.1  haad 				params_start = "\0";
1.1  haad
1.1  haad
1.1  haad 			odmts = dmts;
1.1  haad
1.1  haad 			dmts = (struct dm_target_spec *)((uint8_t *)dmts + rec_size);
1.1  haad
1.1  haad 			j++;
1.1  haad
1.1  haad 		}
1.1  haad
1.1  haad 		if (odmts != NULL)
1.1  haad 			odmts->next = 0;
1.1  haad 	}
1.1  haad 	prop_object_iterator_release(iter);
1.1  haad
1.1  haad 	return j;
1.1  haad }
1.1  haad
1.1  haad /*
1.1  haad  * Print dm device dependiences, get minor/major number for
1.1  haad  * devices. From kernel I will receive major:minor number of
1.1  haad  * block device used with target. I have to translate it to
1.1  haad  * raw device numbers and use them, because all other parts of lvm2
1.1  haad  * uses raw devices internaly.
1.1  haad  */
1.1  haad static int
1.1  haad dm_dev_deps(prop_dictionary_t dm_dict, struct dm_ioctl *dmi)
1.1  haad {
1.1  haad 	struct dm_target_deps *dmtd;
1.1  haad 	struct kinfo_drivers *kd;
1.1  haad
1.1  haad 	prop_array_t targets;
1.1  haad 	prop_object_iterator_t iter;
1.1  haad
1.1  haad 	uint32_t major;
1.1  haad
1.1  haad 	size_t val_len, i, j;
1.1  haad
1.1  haad 	uint64_t dev_tmp;
1.1  haad
1.1  haad 	dev_tmp = 0;
1.1  haad 	j = 0;
1.1  haad 	i = 0;
1.1  haad
1.1  haad 	if (sysctlbyname("kern.drivers",NULL,&val_len,NULL,0) < 0) {
1.1  haad 		printf("sysctlbyname failed");
1.1  haad 		return 0;
1.1  haad 	}
1.1  haad
1.1  haad 	if ((kd = malloc (val_len)) == NULL){
1.1  haad 		printf("malloc kd info error\n");
1.1  haad 		return 0;
1.1  haad 	}
1.1  haad
1.1  haad 	if (sysctlbyname("kern.drivers", kd, &val_len, NULL, 0) < 0) {
1.1  haad 		printf("sysctlbyname failed kd");
1.1  haad 		return 0;
1.1  haad 	}
1.1  haad
1.1  haad 	dmtd = (struct dm_target_deps *)((uint8_t *)dmi + dmi->data_start);
1.1  haad
1.1  haad 	if ((targets = prop_dictionary_get(dm_dict, DM_IOCTL_CMD_DATA))){
1.1  haad
1.1  haad 		iter = prop_array_iterator(targets);
1.1  haad 		if (!iter)
1.1  haad 			err(EXIT_FAILURE,"dm_target_deps %s", __func__);
1.1  haad
1.1  haad 		while((prop_object_iterator_next(iter)) != NULL){
1.1  haad
1.1  haad 			prop_array_get_uint64(targets, j, &dev_tmp);
1.1  haad
1.1  haad 			for (i = 0, val_len /= sizeof(*kd); i < val_len; i++){
1.1  haad 				if (kd[i].d_bmajor == MAJOR(dev_tmp)) {
1.1  haad 					major = kd[i].d_cmajor;
1.1  haad 					break;
1.1  haad 				}
1.1  haad 			}
1.1  haad
1.1  haad 			dmtd->dev[j] = MKDEV(major,MINOR(dev_tmp));
1.1  haad
1.1  haad 			j++;
1.1  haad 		}
1.1  haad 	}
1.1  haad
1.1  haad 	dmtd->count = j;
1.1  haad
1.1  haad 	prop_object_iterator_release(iter);
1.1  haad
1.1  haad 	return j;
1.1  haad }