/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Creates and maintains a cache of slices used by SVM. */ #include #include #include #include #include #include #include #include #include #include #include #include "libdiskmgt.h" #include "disks_private.h" /* * The list of SVM slices in use. */ struct svm_list { struct svm_list *next; char *slice; char *name; char *type; }; static struct svm_list *svm_listp = NULL; static rwlock_t svm_lock = DEFAULTRWLOCK; static int initialized = 0; static mutex_t init_lock = DEFAULTMUTEX; static int add_use_record(char *devname, char *type, char *mname); static int diskset_info(mdsetname_t *sp); static int drive_in_diskset(char *dpath, char *setname); static void event_handler(); static void free_names(mdnamelist_t *nlp); static void free_svm(struct svm_list *listp); static int init_svm(); static int load_svm(); static int new_entry(char *sname, char *type, char *mname, mdsetname_t *sp); /* * Pointers to libmeta functions that we dynamically resolve. */ static set_t (*mdl_get_max_sets)(md_error_t *ep); static void (*mdl_mdclrerror)(md_error_t *ep); static md_error_t *mdl_mdnullerror; static void (*mdl_metaflushnames)(int flush_sr_cache); static void (*mdl_metaflushsetname)(mdsetname_t *sp); static void (*mdl_metafreenamelist)(mdnamelist_t *nlp); static void (*mdl_metafreereplicalist)(md_replicalist_t *rlp); static md_drive_desc *(*mdl_metaget_drivedesc)(mdsetname_t *sp, int flags, md_error_t *ep); static mdname_t *(*mdl_metaname)(mdsetname_t **spp, char *uname, md_error_t *ep); static int (*mdl_metareplicalist)(mdsetname_t *sp, int flags, md_replicalist_t **rlpp, md_error_t *ep); static mdsetname_t *(*mdl_metasetnosetname)(set_t setno, md_error_t *ep); static int (*mdl_meta_get_hotspare_names)(mdsetname_t *sp, mdnamelist_t **nlpp, int options, md_error_t *ep); static md_raid_t *(*mdl_meta_get_raid)(mdsetname_t *sp, mdname_t *raidnp, md_error_t *ep); static int (*mdl_meta_get_raid_names)(mdsetname_t *sp, mdnamelist_t **nlpp, int options, md_error_t *ep); static md_sp_t *(*mdl_meta_get_sp)(mdsetname_t *sp, mdname_t *np, md_error_t *ep); static int (*mdl_meta_get_sp_names)(mdsetname_t *sp, mdnamelist_t **nlpp, int options, md_error_t *ep); static md_stripe_t *(*mdl_meta_get_stripe)(mdsetname_t *sp, mdname_t *stripenp, md_error_t *ep); static int (*mdl_meta_get_stripe_names)(mdsetname_t *sp, mdnamelist_t **nlpp, int options, md_error_t *ep); static int (*mdl_meta_get_trans_names)(mdsetname_t *sp, mdnamelist_t **nlpp, int options, md_error_t *ep); static void (*mdl_meta_invalidate_name)(mdname_t *np); static void (*mdl_sdssc_bind_library)(); /* * Search the list of devices under SVM for the specified device. */ int inuse_svm(char *slice, nvlist_t *attrs, int *errp) { struct svm_list *listp; int found = 0; *errp = 0; if (slice == NULL) { return (found); } (void) mutex_lock(&init_lock); if (!initialized) { /* dynamically load libmeta */ if (init_svm()) { /* * need to initialize the cluster library to * avoid seg faults */ (mdl_sdssc_bind_library)(); /* load the SVM cache */ *errp = load_svm(); if (*errp == 0) { /* start a thread to monitor the svm config */ sysevent_handle_t *shp; const char *subclass_list[1]; /* * Only start the svmevent thread if * we are not doing an install */ if (getenv("_LIBDISKMGT_INSTALL") == NULL) { shp = sysevent_bind_handle( event_handler); if (shp != NULL) { subclass_list[0] = EC_SUB_ALL; if (sysevent_subscribe_event( shp, EC_SVM_CONFIG, subclass_list, 1) != 0) { *errp = errno; } } else { *errp = errno; } } } } if (*errp == 0) { initialized = 1; } } (void) mutex_unlock(&init_lock); (void) rw_rdlock(&svm_lock); listp = svm_listp; while (listp != NULL) { if (strcmp(slice, listp->slice) == 0) { libdiskmgt_add_str(attrs, DM_USED_BY, DM_USE_SVM, errp); if (strcmp(listp->type, "mdb") == 0 || strcmp(listp->type, "hs") == 0) { libdiskmgt_add_str(attrs, DM_USED_NAME, listp->type, errp); } else { char name[MAXPATHLEN]; (void) snprintf(name, MAXPATHLEN, "%s:%s", listp->type, listp->name); libdiskmgt_add_str(attrs, DM_USED_NAME, name, errp); } found = 1; break; } listp = listp->next; } (void) rw_unlock(&svm_lock); return (found); } static int add_use_record(char *devname, char *type, char *mname) { struct svm_list *sp; /* If prev. record is a dup, skip it. */ if (svm_listp != NULL && strcmp(svm_listp->slice, devname) == 0 && strcmp(svm_listp->type, type) == 0) { return (0); } sp = (struct svm_list *)malloc(sizeof (struct svm_list)); if (sp == NULL) { return (ENOMEM); } if ((sp->slice = strdup(devname)) == NULL) { free(sp); return (ENOMEM); } if ((sp->name = strdup(mname)) == NULL) { free(sp->slice); free(sp); return (ENOMEM); } if ((sp->type = strdup(type)) == NULL) { free(sp->slice); free(sp->name); free(sp); return (ENOMEM); } sp->next = svm_listp; svm_listp = sp; return (0); } static int diskset_info(mdsetname_t *sp) { md_error_t error = *mdl_mdnullerror; md_replicalist_t *replica_list = NULL; mdnamelist_t *trans_list = NULL; mdnamelist_t *raid_list = NULL; mdnamelist_t *stripe_list = NULL; mdnamelist_t *sp_list = NULL; mdnamelist_t *spare_list = NULL; if ((mdl_metareplicalist)(sp, MD_BASICNAME_OK, &replica_list, &error) >= 0) { md_replicalist_t *nlp; for (nlp = replica_list; nlp != NULL; nlp = nlp->rl_next) { if (new_entry(nlp->rl_repp->r_namep->bname, "mdb", nlp->rl_repp->r_namep->cname, sp)) { (mdl_metafreereplicalist)(replica_list); return (ENOMEM); } } (mdl_metafreereplicalist)(replica_list); } else { (mdl_mdclrerror)(&error); /* there are no metadb's; that is ok, no need to check the rest */ return (0); } (mdl_mdclrerror)(&error); if ((mdl_meta_get_trans_names)(sp, &trans_list, 0, &error) >= 0) { mdnamelist_t *nlp; for (nlp = trans_list; nlp != NULL; nlp = nlp->next) { if (new_entry(nlp->namep->bname, "trans", nlp->namep->cname, sp)) { free_names(trans_list); return (ENOMEM); } } free_names(trans_list); } (mdl_mdclrerror)(&error); if ((mdl_meta_get_raid_names)(sp, &raid_list, 0, &error) >= 0) { mdnamelist_t *nlp; for (nlp = raid_list; nlp != NULL; nlp = nlp->next) { mdname_t *mdn; md_raid_t *raid; mdn = (mdl_metaname)(&sp, nlp->namep->cname, &error); (mdl_mdclrerror)(&error); if (mdn == NULL) { continue; } raid = (mdl_meta_get_raid)(sp, mdn, &error); (mdl_mdclrerror)(&error); if (raid != NULL) { int i; for (i = 0; i < raid->cols.cols_len; i++) { if (new_entry(raid->cols.cols_val[i].colnamep->bname, "raid", nlp->namep->cname, sp)) { free_names(raid_list); return (ENOMEM); } } } } free_names(raid_list); } (mdl_mdclrerror)(&error); if ((mdl_meta_get_stripe_names)(sp, &stripe_list, 0, &error) >= 0) { mdnamelist_t *nlp; for (nlp = stripe_list; nlp != NULL; nlp = nlp->next) { mdname_t *mdn; md_stripe_t *stripe; mdn = (mdl_metaname)(&sp, nlp->namep->cname, &error); (mdl_mdclrerror)(&error); if (mdn == NULL) { continue; } stripe = (mdl_meta_get_stripe)(sp, mdn, &error); (mdl_mdclrerror)(&error); if (stripe != NULL) { int i; for (i = 0; i < stripe->rows.rows_len; i++) { md_row_t *rowp; int j; rowp = &stripe->rows.rows_val[i]; for (j = 0; j < rowp->comps.comps_len; j++) { md_comp_t *component; component = &rowp->comps.comps_val[j]; if (new_entry(component->compnamep->bname, "stripe", nlp->namep->cname, sp)) { free_names(stripe_list); return (ENOMEM); } } } } } free_names(stripe_list); } (mdl_mdclrerror)(&error); if ((mdl_meta_get_sp_names)(sp, &sp_list, 0, &error) >= 0) { mdnamelist_t *nlp; for (nlp = sp_list; nlp != NULL; nlp = nlp->next) { mdname_t *mdn; md_sp_t *soft_part; mdn = (mdl_metaname)(&sp, nlp->namep->cname, &error); (mdl_mdclrerror)(&error); if (mdn == NULL) { continue; } soft_part = (mdl_meta_get_sp)(sp, mdn, &error); (mdl_mdclrerror)(&error); if (soft_part != NULL) { if (new_entry(soft_part->compnamep->bname, "sp", nlp->namep->cname, sp)) { free_names(sp_list); return (ENOMEM); } } } free_names(sp_list); } (mdl_mdclrerror)(&error); if ((mdl_meta_get_hotspare_names)(sp, &spare_list, 0, &error) >= 0) { mdnamelist_t *nlp; for (nlp = spare_list; nlp != NULL; nlp = nlp->next) { if (new_entry(nlp->namep->bname, "hs", nlp->namep->cname, sp)) { free_names(spare_list); return (ENOMEM); } } free_names(spare_list); } (mdl_mdclrerror)(&error); return (0); } /* * SVM uses "drive names" (ctd name without trailing slice) for drives * in disksets. Since it massages these names there is no direct correspondence * with the slice device names in /dev. So, we need to massage these names * back to something we can match on when a slice comes in. We create an * entry for each possible slice since we don't know what slices actually * exist. Slice 0 & 7 are probably enough, but the user could have * repartitioned the drive after they added it to the diskset and removed the * mdb. */ static int drive_in_diskset(char *dpath, char *setname) { int i; char path[MAXPATHLEN]; (void) strlcpy(path, dpath, sizeof (path)); if (strncmp(path, "/dev/rdsk/", 10) == 0) { /* change rdsk to dsk */ char *p; /* start p pointing to r in rdsk */ for (p = path + 5; *p; p++) { *p = *(p + 1); } } else if (strncmp(path, "/dev/did/rdsk/", 14) == 0) { /* change rdsk to dsk */ char *p; /* start p pointing to r in rdsk */ for (p = path + 9; *p; p++) { *p = *(p + 1); } } for (i = 0; i < 8; i++) { char slice[MAXPATHLEN]; (void) snprintf(slice, sizeof (slice), "%ss%d", path, i); if (add_use_record(slice, "diskset", setname)) { return (ENOMEM); } } return (0); } static void event_handler() { (void) rw_wrlock(&svm_lock); free_svm(svm_listp); svm_listp = NULL; (mdl_metaflushnames)(0); (void) load_svm(); (void) rw_unlock(&svm_lock); } static void free_names(mdnamelist_t *nlp) { mdnamelist_t *p; for (p = nlp; p != NULL; p = p->next) { (mdl_meta_invalidate_name)(p->namep); p->namep = NULL; } (mdl_metafreenamelist)(nlp); } /* * Free the list of SVM entries. */ static void free_svm(struct svm_list *listp) { struct svm_list *nextp; while (listp != NULL) { nextp = listp->next; free((void *)listp->slice); free((void *)listp->name); free((void *)listp->type); free((void *)listp); listp = nextp; } } /* * Try to dynamically link the libmeta functions we need. */ static int init_svm() { void *lh; if ((lh = dlopen("/usr/lib/libmeta.so", RTLD_NOW)) == NULL) { return (0); } mdl_get_max_sets = (set_t (*)(md_error_t *))dlsym(lh, "get_max_sets"); mdl_mdclrerror = (void(*)(md_error_t *))dlsym(lh, "mdclrerror"); mdl_mdnullerror = (md_error_t *)dlsym(lh, "mdnullerror"); mdl_metaflushnames = (void (*)(int))dlsym(lh, "metaflushnames"); mdl_metaflushsetname = (void (*)(mdsetname_t *))dlsym(lh, "metaflushsetname"); mdl_metafreenamelist = (void (*)(mdnamelist_t *))dlsym(lh, "metafreenamelist"); mdl_metafreereplicalist = (void (*)(md_replicalist_t *))dlsym(lh, "metafreereplicalist"); mdl_metaget_drivedesc = (md_drive_desc *(*)(mdsetname_t *, int, md_error_t *))dlsym(lh, "metaget_drivedesc"); mdl_metaname = (mdname_t *(*)(mdsetname_t **, char *, md_error_t *)) dlsym(lh, "metaname"); mdl_metareplicalist = (int (*)(mdsetname_t *, int, md_replicalist_t **, md_error_t *))dlsym(lh, "metareplicalist"); mdl_metasetnosetname = (mdsetname_t *(*)(set_t, md_error_t *))dlsym(lh, "metasetnosetname"); mdl_meta_get_hotspare_names = (int (*)(mdsetname_t *, mdnamelist_t **, int, md_error_t *))dlsym(lh, "meta_get_hotspare_names"); mdl_meta_get_raid = (md_raid_t *(*)(mdsetname_t *, mdname_t *, md_error_t *))dlsym(lh, "meta_get_raid"); mdl_meta_get_raid_names = (int (*)(mdsetname_t *, mdnamelist_t **, int, md_error_t *))dlsym(lh, "meta_get_raid_names"); mdl_meta_get_sp = (md_sp_t *(*)(mdsetname_t *, mdname_t *, md_error_t *))dlsym(lh, "meta_get_sp"); mdl_meta_get_sp_names = (int (*)(mdsetname_t *, mdnamelist_t **, int, md_error_t *))dlsym(lh, "meta_get_sp_names"); mdl_meta_get_stripe = (md_stripe_t *(*)(mdsetname_t *, mdname_t *, md_error_t *))dlsym(lh, "meta_get_stripe"); mdl_meta_get_stripe_names = (int (*)(mdsetname_t *, mdnamelist_t **, int, md_error_t *))dlsym(lh, "meta_get_stripe_names"); mdl_meta_get_trans_names = (int (*)(mdsetname_t *, mdnamelist_t **, int, md_error_t *))dlsym(lh, "meta_get_trans_names"); mdl_meta_invalidate_name = (void (*)(mdname_t *))dlsym(lh, "meta_invalidate_name"); mdl_sdssc_bind_library = (void (*)())dlsym(lh, "sdssc_bind_library"); return (1); } /* * Create a list of SVM devices */ static int load_svm() { int max_sets; md_error_t error = *mdl_mdnullerror; int i; if ((max_sets = (mdl_get_max_sets)(&error)) == 0) { return (0); } if (!mdisok(&error)) { (mdl_mdclrerror)(&error); return (0); } /* for each possible set number, see if we really have a diskset */ for (i = 0; i < max_sets; i++) { mdsetname_t *sp; if ((sp = (mdl_metasetnosetname)(i, &error)) == NULL) { if (!mdisok(&error) && mdisrpcerror(&error, RPC_PROGNOTREGISTERED)) { /* metad rpc program not registered - no metasets */ break; } (mdl_mdclrerror)(&error); continue; } (mdl_mdclrerror)(&error); /* pick up drives in disksets with no mdbs/metadevices */ if (sp->setno != 0) { md_drive_desc *dd; dd = (mdl_metaget_drivedesc)(sp, MD_BASICNAME_OK | PRINT_FAST, &error); (mdl_mdclrerror)(&error); for (; dd != NULL; dd = dd->dd_next) { if (drive_in_diskset(dd->dd_dnp->rname, sp->setname)) { (mdl_metaflushsetname)(sp); return (ENOMEM); } } } if (diskset_info(sp)) { (mdl_metaflushsetname)(sp); return (ENOMEM); } (mdl_metaflushsetname)(sp); } (mdl_mdclrerror)(&error); return (0); } static int new_entry(char *sname, char *type, char *mname, mdsetname_t *sp) { mdname_t *mdn; md_error_t error = *mdl_mdnullerror; mdn = (mdl_metaname)(&sp, sname, &error); if (!mdisok(&error)) { (mdl_mdclrerror)(&error); return (0); } if (mdn != NULL && ( mdn->drivenamep->type == MDT_ACCES || mdn->drivenamep->type == MDT_COMP || mdn->drivenamep->type == MDT_FAST_COMP)) { return (add_use_record(mdn->bname, type, mname)); } return (0); }