/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Just in case we're not in a build environment, make sure that * TEXT_DOMAIN gets set to something. */ #if !defined(TEXT_DOMAIN) #define TEXT_DOMAIN "SYS_TEST" #endif /* * hotspares utilities */ #include #include #include /* * FUNCTION: meta_get_hsp_names() * INPUT: sp - the set name to get hotspares from * options - options from the command line * OUTPUT: hspnlpp - list of all hotspare names * ep - return error pointer * RETURNS: int - -1 if error, 0 success * PURPOSE: returns a list of all hotspares in the metadb * for all devices in the specified set */ /*ARGSUSED*/ int meta_get_hsp_names( mdsetname_t *sp, mdhspnamelist_t **hspnlpp, int options, md_error_t *ep ) { md_i_getnum_t gn; /* MD_IOCGET_NUM params */ minor_t *minors = NULL; minor_t *m_ptr; int i; /* we must have a set */ assert(sp != NULL); (void) memset(&gn, 0, sizeof (gn)); MD_SETDRIVERNAME(&gn, MD_HOTSPARES, sp->setno); /* get number of devices */ if (metaioctl(MD_IOCGET_NUM, &gn, &gn.mde, NULL) != 0) { if (mdiserror(&gn.mde, MDE_UNIT_NOT_FOUND)) { mdclrerror(&gn.mde); } else { (void) mdstealerror(ep, &gn.mde); return (-1); } } if (gn.size > 0) { /* malloc minor number buffer to be filled by ioctl */ if ((minors = (minor_t *)malloc( gn.size * sizeof (minor_t))) == 0) { return (ENOMEM); } gn.minors = (uintptr_t)minors; if (metaioctl(MD_IOCGET_NUM, &gn, &gn.mde, NULL) != 0) { (void) mdstealerror(ep, &gn.mde); free(minors); return (-1); } m_ptr = minors; for (i = 0; i < gn.size; i++) { mdhspname_t *hspnp; /* get name */ if ((hspnp = metahsphspname(&sp, *m_ptr, ep)) == NULL) goto out; /* append to list */ (void) metahspnamelist_append(hspnlpp, hspnp); /* next device */ m_ptr++; } free(minors); } return (gn.size); out: if (minors != NULL) free(minors); metafreehspnamelist(*hspnlpp); *hspnlpp = NULL; return (-1); } /* * get information of a specific hotspare pool from driver */ static get_hsp_t * get_hspinfo( mdsetname_t *sp, mdhspname_t *hspnp, md_error_t *ep ) { md_i_get_t mig; /* should have a set */ assert(sp != NULL); assert(hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* get size of unit structure */ (void) memset(&mig, 0, sizeof (mig)); MD_SETDRIVERNAME(&mig, MD_HOTSPARES, sp->setno); mig.id = hspnp->hsp; if (metaioctl(MD_IOCGET, &mig, &mig.mde, hspnp->hspname) != 0) { (void) mdstealerror(ep, &mig.mde); return (NULL); } /* get actual unit structure */ assert(mig.size > 0); mig.mdp = (uintptr_t)Zalloc(mig.size); if (metaioctl(MD_IOCGET, &mig, &mig.mde, hspnp->hspname) != 0) { (void) mdstealerror(ep, &mig.mde); Free((void *)(uintptr_t)mig.mdp); return (NULL); } return ((get_hsp_t *)(uintptr_t)mig.mdp); } /* * free hotspare pool unit */ void meta_free_hsp( md_hsp_t *hspp ) { if (hspp->hotspares.hotspares_val != NULL) { assert(hspp->hotspares.hotspares_len > 0); Free(hspp->hotspares.hotspares_val); } Free(hspp); } /* * get hotspare pool unit (common) */ md_hsp_t * meta_get_hsp_common( mdsetname_t *sp, mdhspname_t *hspnp, int fast, md_error_t *ep ) { get_hsp_t *ghsp; md_hsp_t *hspp; uint_t hsi; /* must have set */ assert(sp != NULL); assert(hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* short circuit */ if (hspnp->unitp != NULL) return (hspnp->unitp); /* get unit */ if ((ghsp = get_hspinfo(sp, hspnp, ep)) == NULL) return (NULL); /* allocate hsp */ hspp = Zalloc(sizeof (*hspp)); /* allocate hotspares */ hspp->hotspares.hotspares_len = ghsp->ghsp_nhotspares; /* if empty hotspare pool, we are done */ if (hspp->hotspares.hotspares_len != 0) hspp->hotspares.hotspares_val = Zalloc(hspp->hotspares.hotspares_len * sizeof (*hspp->hotspares.hotspares_val)); /* get name, refcount */ hspp->hspnamep = hspnp; hspp->refcount = ghsp->ghsp_refcount; /* get hotspares */ for (hsi = 0; (hsi < hspp->hotspares.hotspares_len); ++hsi) { mdkey_t hs_key = ghsp->ghsp_hs_keys[hsi]; md_hs_t *hsp = &hspp->hotspares.hotspares_val[hsi]; get_hs_params_t ghs; /* get hotspare name */ hsp->hsnamep = metakeyname(&sp, hs_key, fast, ep); if (hsp->hsnamep == NULL) goto out; /* get hotspare state */ (void) memset(&ghs, 0, sizeof (ghs)); MD_SETDRIVERNAME(&ghs, MD_HOTSPARES, sp->setno); ghs.ghs_key = hs_key; if (metaioctl(MD_IOCGET_HS, &ghs, &ghs.mde, NULL) != 0) { (void) mdstealerror(ep, &ghs.mde); goto out; } hsp->state = ghs.ghs_state; hsp->size = ghs.ghs_number_blks; hsp->timestamp = ghs.ghs_timestamp; hsp->revision = ghs.ghs_revision; } /* cleanup, return success */ Free(ghsp); hspnp->unitp = hspp; return (hspp); /* cleanup, return error */ out: Free(ghsp); meta_free_hsp(hspp); return (NULL); } /* * get hotspare pool unit */ md_hsp_t * meta_get_hsp( mdsetname_t *sp, mdhspname_t *hspnp, md_error_t *ep ) { return (meta_get_hsp_common(sp, hspnp, 0, ep)); } /* * check hotspare pool for dev */ static int in_hsp( mdsetname_t *sp, mdhspname_t *hspnp, mdname_t *np, diskaddr_t slblk, diskaddr_t nblks, md_error_t *ep ) { md_hsp_t *hspp; uint_t i; /* should be in the same set */ assert(sp != NULL); assert(hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* get unit */ if ((hspp = meta_get_hsp(sp, hspnp, ep)) == NULL) return (-1); /* look in hotspares */ for (i = 0; (i < hspp->hotspares.hotspares_len); ++i) { md_hs_t *hs = &hspp->hotspares.hotspares_val[i]; mdname_t *hsnp = hs->hsnamep; /* check overlap */ if (metaismeta(hsnp)) continue; if (meta_check_overlap(hspnp->hspname, np, slblk, nblks, hsnp, 0, -1, ep) != 0) return (-1); } /* return success */ return (0); } /* * check to see if we're in a hotspare pool */ int meta_check_inhsp( mdsetname_t *sp, mdname_t *np, diskaddr_t slblk, diskaddr_t nblks, md_error_t *ep ) { mdhspnamelist_t *hspnlp = NULL; mdhspnamelist_t *p; int rval = 0; /* should have a set */ assert(sp != NULL); /* for each hotspare pool */ if (meta_get_hsp_names(sp, &hspnlp, 0, ep) < 0) return (-1); for (p = hspnlp; (p != NULL); p = p->next) { mdhspname_t *hspnp = p->hspnamep; /* check hotspare pool */ if (in_hsp(sp, hspnp, np, slblk, nblks, ep) != 0) { rval = -1; break; } } /* cleanup, return success */ metafreehspnamelist(hspnlp); return (rval); } /* * check hotspare */ int meta_check_hotspare( mdsetname_t *sp, mdname_t *np, md_error_t *ep ) { mdchkopts_t options = (MDCHK_ALLOW_HS); /* make sure we have a disk */ if (metachkcomp(np, ep) != 0) return (-1); /* check to ensure that it is not already in use */ if (meta_check_inuse(sp, np, MDCHK_INUSE, ep) != 0) { return (-1); } /* make sure it is in the set */ if (meta_check_inset(sp, np, ep) != 0) return (-1); /* make sure its not in a metadevice */ if (meta_check_inmeta(sp, np, options, 0, -1, ep) != 0) return (-1); /* return success */ return (0); } /* * print hsp */ static int hsp_print( md_hsp_t *hspp, char *fname, FILE *fp, md_error_t *ep ) { uint_t hsi; int rval = -1; /* print name */ if (fprintf(fp, "%s", hspp->hspnamep->hspname) == EOF) goto out; /* print hotspares */ for (hsi = 0; (hsi < hspp->hotspares.hotspares_len); ++hsi) { md_hs_t *hsp = &hspp->hotspares.hotspares_val[hsi]; /* print hotspare */ /* * If the path is our standard /dev/rdsk or /dev/md/rdsk * then just print out the cxtxdxsx or the dx, metainit * will assume the default, otherwise we need the full * pathname to make sure this works as we intend. */ if ((strstr(hsp->hsnamep->rname, "/dev/rdsk") == NULL) && (strstr(hsp->hsnamep->rname, "/dev/md/rdsk") == NULL) && (strstr(hsp->hsnamep->rname, "/dev/td/") == NULL)) { /* not standard path, print full pathname */ if (fprintf(fp, " %s", hsp->hsnamep->rname) == EOF) goto out; } else { /* standard path, just print ctd or d value */ if (fprintf(fp, " %s", hsp->hsnamep->cname) == EOF) goto out; } } /* terminate last line */ if (fprintf(fp, "\n") == EOF) goto out; /* success */ rval = 0; /* cleanup, return error */ out: if (rval != 0) (void) mdsyserror(ep, errno, fname); return (rval); } /* * hotspare state name */ char * hs_state_to_name( md_hs_t *hsp, md_timeval32_t *tvp ) { hotspare_states_t state = hsp->state; /* grab time */ if (tvp != NULL) *tvp = hsp->timestamp; switch (state) { case HSS_AVAILABLE: return (dgettext(TEXT_DOMAIN, "Available")); case HSS_RESERVED: return (dgettext(TEXT_DOMAIN, "In use")); case HSS_BROKEN: return (dgettext(TEXT_DOMAIN, "Broken")); case HSS_UNUSED: default: return (dgettext(TEXT_DOMAIN, "invalid")); } } /* * report hsp */ static int hsp_report( md_hsp_t *hspp, mdnamelist_t **nlpp, char *fname, FILE *fp, mdprtopts_t options, md_error_t *ep, mdsetname_t *sp ) { uint_t hsi; int rval = -1; char *devid = ""; mdname_t *didnp = NULL; uint_t len; int large_hs_dev_cnt = 0; int fn_hs_dev_cnt = 0; if (options & PRINT_LARGEDEVICES) { for (hsi = 0; (hsi < hspp->hotspares.hotspares_len); ++hsi) { md_hs_t *hsp = &hspp->hotspares.hotspares_val[hsi]; if (hsp->revision & MD_64BIT_META_DEV) { large_hs_dev_cnt += 1; if (meta_getdevs(sp, hsp->hsnamep, nlpp, ep) != 0) goto out; } } if (large_hs_dev_cnt == 0) { rval = 0; goto out; } } if (options & PRINT_FN) { if (!HSP_ID_IS_FN(hspp->hspnamep->hsp)) { rval = 0; goto out; } for (hsi = 0; (hsi < hspp->hotspares.hotspares_len); ++hsi) { md_hs_t *hsp = &hspp->hotspares.hotspares_val[hsi]; fn_hs_dev_cnt += 1; if (meta_getdevs(sp, hsp->hsnamep, nlpp, ep) != 0) goto out; } } /* print header */ if (hspp->hotspares.hotspares_len == 0) { if (fprintf(fp, dgettext(TEXT_DOMAIN, "%s: is empty\n"), hspp->hspnamep->hspname) == EOF) { goto out; } } else if (hspp->hotspares.hotspares_len == 1) { /* * This allows the length * of the ctd to vary from small to large without * looking horrible. */ len = strlen(hspp->hotspares.hotspares_val[0].hsnamep->cname); /* * if the length is to short to print out all of the header * force the matter */ len = max(len, strlen(dgettext(TEXT_DOMAIN, "Device"))); len += 2; if (options & PRINT_LARGEDEVICES) { if (fprintf(fp, "%s: 1 hot spare (1 big device)\n\t%-*.*s " "%-12.12s%-8.6s\t\t%s\n", hspp->hspnamep->hspname, len, len, dgettext(TEXT_DOMAIN, "Device"), dgettext(TEXT_DOMAIN, "Status"), dgettext(TEXT_DOMAIN, "Length"), dgettext(TEXT_DOMAIN, "Reloc")) == EOF) { goto out; } } else { if (fprintf(fp, "%s: 1 hot spare\n\t%-*.*s %-12.12s%-8.6s\t\t%s\n", hspp->hspnamep->hspname, len, len, dgettext(TEXT_DOMAIN, "Device"), dgettext(TEXT_DOMAIN, "Status"), dgettext(TEXT_DOMAIN, "Length"), dgettext(TEXT_DOMAIN, "Reloc")) == EOF) { goto out; } } } else { /* * This allows the length * of the ctd to vary from small to large without * looking horrible. */ len = 0; for (hsi = 0; (hsi < hspp->hotspares.hotspares_len); ++hsi) { len = max(len, strlen(hspp-> hotspares.hotspares_val[hsi].hsnamep->cname)); } len = max(len, strlen(dgettext(TEXT_DOMAIN, "Device"))); len += 2; if (options & PRINT_LARGEDEVICES) { if (fprintf(fp, "%s: %u hot spares (%d big device(s))\n\t%-*.*s " "%-12.12s%-8.6s\t\t%s\n", hspp->hspnamep->hspname, hspp->hotspares.hotspares_len, large_hs_dev_cnt, len, len, dgettext(TEXT_DOMAIN, "Device"), dgettext(TEXT_DOMAIN, "Status"), dgettext(TEXT_DOMAIN, "Length"), dgettext(TEXT_DOMAIN, "Reloc")) == EOF) { goto out; } } else { if (fprintf(fp, "%s: %u hot spares\n\t%-*.*s " "%-12.12s%-8.6s\t\t%s\n", hspp->hspnamep->hspname, hspp->hotspares.hotspares_len, len, len, dgettext(TEXT_DOMAIN, "Device"), dgettext(TEXT_DOMAIN, "Status"), dgettext(TEXT_DOMAIN, "Length"), dgettext(TEXT_DOMAIN, "Reloc")) == EOF) { goto out; } } } /* print hotspares */ for (hsi = 0; (hsi < hspp->hotspares.hotspares_len); ++hsi) { md_hs_t *hsp = &hspp->hotspares.hotspares_val[hsi]; char *cname = hsp->hsnamep->cname; char *hs_state; md_timeval32_t tv; char *timep; ddi_devid_t dtp; /* populate the key in the name_p structure */ if ((didnp = metadevname(&sp, hsp->hsnamep->dev, ep)) == NULL) { return (-1); } if (options & PRINT_LARGEDEVICES) { if ((hsp->revision & MD_64BIT_META_DEV) == 0) continue; } /* determine if devid does NOT exist */ if (options & PRINT_DEVID) { if ((dtp = meta_getdidbykey(sp->setno, getmyside(sp, ep), didnp->key, ep)) == NULL) devid = dgettext(TEXT_DOMAIN, "No "); else { devid = dgettext(TEXT_DOMAIN, "Yes"); free(dtp); } } /* print hotspare */ hs_state = hs_state_to_name(hsp, &tv); /* * This allows the length * of the ctd to vary from small to large without * looking horrible. */ if (! (options & PRINT_TIMES)) { if (fprintf(fp, " %-*s %-12s %lld blocks\t%s\n", len, cname, hs_state, hsp->size, devid) == EOF) { goto out; } } else { timep = meta_print_time(&tv); if (fprintf(fp, " %-*s\t %-11s %8lld blocks%s\t%s\n", len, cname, hs_state, hsp->size, devid, timep) == EOF) { goto out; } } } /* add extra line */ if (fprintf(fp, "\n") == EOF) goto out; /* success */ rval = 0; /* cleanup, return error */ out: if (rval != 0) (void) mdsyserror(ep, errno, fname); return (rval); } /* * print/report hsp */ int meta_hsp_print( mdsetname_t *sp, mdhspname_t *hspnp, mdnamelist_t **nlpp, char *fname, FILE *fp, mdprtopts_t options, md_error_t *ep ) { md_hsp_t *hspp; /* should have same set */ assert(sp != NULL); assert(hspnp == NULL || hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* print all hsps */ if (hspnp == NULL) { mdhspnamelist_t *hspnlp = NULL; mdhspnamelist_t *p; int cnt; int rval = 0; if ((cnt = meta_get_hsp_names(sp, &hspnlp, options, ep)) < 0) return (-1); else if (cnt == 0) return (0); /* recurse */ for (p = hspnlp; (p != NULL); p = p->next) { mdhspname_t *hspnp = p->hspnamep; if (meta_hsp_print(sp, hspnp, nlpp, fname, fp, options, ep) != 0) rval = -1; } /* cleanup, return success */ metafreehspnamelist(hspnlp); return (rval); } /* get unit structure */ if ((hspp = meta_get_hsp_common(sp, hspnp, ((options & PRINT_FAST) ? 1 : 0), ep)) == NULL) return (-1); /* print appropriate detail */ if (options & PRINT_SHORT) return (hsp_print(hspp, fname, fp, ep)); else return (hsp_report(hspp, nlpp, fname, fp, options, ep, sp)); } /* * check for valid hotspare pool */ int metachkhsp( mdsetname_t *sp, mdhspname_t *hspnp, md_error_t *ep ) { if (meta_get_hsp(sp, hspnp, ep) == NULL) return (-1); return (0); } /* * invalidate hotspare pool info */ void meta_invalidate_hsp( mdhspname_t *hspnp ) { md_hsp_t *hspp = hspnp->unitp; /* free it up */ if (hspp == NULL) return; meta_free_hsp(hspp); /* clear cache */ hspnp->unitp = NULL; } /* * FUNCTION: del_hsp_name_mn_sides() * INPUT: sp - set name * curside - side of this node * key - key of records to delete * OUTPUT: ep - error information * RETURNS: none. * PURPOSE: There are name records for each side in a set. This * function deletes the records associated with the specified * key for all sides except curside. This function is used * when the set is a multinode set. */ static void del_hsp_name_mn_sides( mdsetname_t *sp, md_set_desc *sd, side_t curside, mdkey_t key, md_error_t *ep ) { md_error_t first_error = MDNULLERROR; int error_seen = FALSE; md_mnnode_desc *nd; for (nd = sd->sd_nodelist; nd; nd = nd->nd_next) { if (nd->nd_nodeid == curside) continue; if (del_name(sp, nd->nd_nodeid, key, &first_error) == -1) { if (error_seen == FALSE) { error_seen = TRUE; (void) mdstealerror(ep, &first_error); } } } } /* * FUNCTION: del_hsp_name_trad_sides() * INPUT: sp - set name * curside - side of this node * key - key of records to delete * OUTPUT: ep - error information * RETURNS: none. * PURPOSE: There are name records for each side in a set. This * function deletes the records associated with the specified * key for all sides except curside. This function is used * when the set is a traditional set. */ static void del_hsp_name_trad_sides( mdsetname_t *sp, md_set_desc *sd, side_t curside, mdkey_t key, md_error_t *ep ) { int error_seen = FALSE; md_error_t first_error = MDNULLERROR; int i; for (i = 0; i < MD_MAXSIDES; i++) { if (i == curside) continue; if (sd->sd_nodes[i][0] != '\0') { if (del_name(sp, i, key, &first_error) == -1) { if (error_seen == FALSE) { error_seen = TRUE; (void) mdstealerror(ep, &first_error); } } } } } /* * FUNCTION: del_hsp_keys() * INPUT: sp - set name * hspid - ID of records to delete * OUTPUT: ep - error information * RETURNS: 0 - success * -1 - error * PURPOSE: Remove the NM records associated with hspid from all sides * of the set. Missing records are not considered to be an * error. The key associated with the current side is removed * last. * * This function is very similar to del_key_name(), except it * does not require any device look up. This is because the * hot spare pool is not a device. */ static int del_hsp_keys(mdsetname_t *sp, hsp_t hspid, md_error_t *ep) { md_error_t first_error = MDNULLERROR; mdkey_t key = HSP_ID_TO_KEY(hspid); md_set_desc *sd; side_t thisside; /* Side # of this node. */ /* * If there is no key, this means that the hot spare was created * before the introduction of friendly names. Thus, the is no NM * record and nothing for us to do in this function. */ if (key == MD_KEYBAD) return (0); /* Find our current side */ mdclrerror(ep); thisside = getmyside(sp, ep); if (! mdisok(ep)) return (-1); /* * If not the local set, we need to process the non-local sides * first. */ if (!metaislocalset(sp)) { if ((sd = metaget_setdesc(sp, ep)) == NULL) return (-1); if (MD_MNSET_DESC(sd)) { /* Multinode set. Sides are in a linked list. */ del_hsp_name_mn_sides(sp, sd, thisside, key, &first_error); } else { /* Sides are in an array. */ del_hsp_name_trad_sides(sp, sd, thisside, key, &first_error); } } /* Now delete the name for the current side. */ (void) del_name(sp, thisside, key, ep); if (! mdisok(&first_error)) (void) mdstealerror(ep, &first_error); return (mdisok(ep) ? 0 : -1); } /* * FUNCTION: add_hsp_name_mn_sides() * INPUT: sp - set name * curside - side number for this node * key - key to use for the name record * hsp_name - name of the hot spare * OUTPUT: ep - error information * RETURNS: 0 indicates success, and -1 indicates failure. * PURPOSE: Once the name record has been added for the current side, * this function adds the record to the remaining sides. This * function is to be used when the set is a multinode set. * The side designated by curside will be ignored when adding * records. */ static int add_hsp_name_mn_sides( mdsetname_t *sp, md_set_desc *sd, side_t curside, mdkey_t key, char *hsp_name, md_error_t *ep ) { md_mnnode_desc *nd; for (nd = sd->sd_nodelist; nd; nd = nd->nd_next) { if (nd->nd_nodeid == curside) continue; if (add_name(sp, nd->nd_nodeid, key, MD_HOTSPARES, minor(NODEV), hsp_name, ep) == -1) { return (-1); } } return (0); } /* * FUNCTION: add_hsp_name_trad_sides() * INPUT: sp - set name * curside - side number for this node * key - key to use for the name record * hsp_name - name of the hot spare * OUTPUT: ep - error information * RETURNS: 0 indicates success, and -1 indicates failure. * PURPOSE: Once the name record has been added for the current side, * this function adds the record to the remaining sides. This * function is to be used when the set is a traditional set. * The side designated by curside will be ignored when adding * records. */ static int add_hsp_name_trad_sides( mdsetname_t *sp, md_set_desc *sd, side_t curside, mdkey_t key, char *hsp_name, md_error_t *ep ) { int i; for (i = 0; i < MD_MAXSIDES; i++) { if (i == curside) continue; if (sd->sd_nodes[i][0] != '\0') { if (add_name(sp, i, key, MD_HOTSPARES, minor(NODEV), hsp_name, ep) == -1) { return (-1); } } } return (0); } /* * FUNCTION: add_hsp_name() * INPUT: sp - Name of the set containing the hsp * hsp_name - Hot spare pool name to be added * OUTPUT: ep - Error information * RETURNS: If successful the key of the newly added record is * returned. MD_KEYBAD is returned to indicate a failure. * PURPOSE: This function creates a new NM record containing the name * of the hotspare pool. A record containing the name is * added to each active side, but the record is added first to * the current side. This function is modeled on * add_key_name() in meta_namespace. The difference is that * there is no device associated with a hot spare pool */ static hsp_t add_hsp_name( mdsetname_t *sp, char *hsp_name, md_error_t *ep ) { md_error_t ignore_error = MDNULLERROR; mdkey_t key; md_set_desc *sd; side_t thisside; /* Side # of this node. */ if (sp == NULL) { (void) mderror(ep, MDE_NO_SET, NULL); return (MD_KEYBAD); } if (hsp_name == NULL) { (void) mderror(ep, MDE_INVAL_HSOP, NULL); return (MD_KEYBAD); } mdclrerror(ep); thisside = getmyside(sp, ep); if (! mdisok(ep)) return (MD_HSPID_WILD); /* First add the record for the side of the current node. */ key = add_name(sp, thisside, MD_KEYWILD, MD_HOTSPARES, minor(NODEV), hsp_name, ep); if (key == -1) { goto cleanup; } /* Make sure that we can use the key */ if (!HSP_KEY_OK(key)) { (void) mdhsperror(ep, MDE_HSP_CREATE_FAILURE, MD_HSPID_WILD, hsp_name); goto cleanup; } /* * Now that we have a key, we will use it to add a record to the * rest of the sides in the set. For multinode sets, the sides are * in a linked list that is anchored on the set descriptor. For * traditional sets the side information is in an array in the set * descriptor. */ if (!metaislocalset(sp)) { if ((sd = metaget_setdesc(sp, ep)) == NULL) { goto cleanup; } if (MD_MNSET_DESC(sd)) { /* Multinode set. Sides are in linked list. */ if (add_hsp_name_mn_sides(sp, sd, thisside, key, hsp_name, ep) == -1) { goto cleanup; } } else { /* Traditional set. Sides are in an array. */ if (add_hsp_name_trad_sides(sp, sd, thisside, key, hsp_name, ep) == -1) { goto cleanup; } } } return (KEY_TO_HSP_ID(sp->setno, key)); cleanup: /* Get rid records that we added. */ (void) del_hsp_keys(sp, KEY_TO_HSP_ID(sp->setno, key), &ignore_error); return (MD_HSPID_WILD); } /* * add hotspares and/or hotspare pool */ int meta_hs_add( mdsetname_t *sp, mdhspname_t *hspnp, mdnamelist_t *hsnlp, mdcmdopts_t options, md_error_t *ep ) { md_error_t ignore_error = MDNULLERROR; mdnamelist_t *p; set_hs_params_t shs; side_t thisside; /* should have a set */ assert(sp != NULL); assert(hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* clear cache */ meta_invalidate_hsp(hspnp); /* setup hotspare pool info */ (void) memset(&shs, 0, sizeof (shs)); shs.shs_cmd = ADD_HOT_SPARE; MD_SETDRIVERNAME(&shs, MD_HOTSPARES, sp->setno); /* Get key for hot spare pool name record. */ if (options & MDCMD_DOIT) { /* First see if the name record already exists. */ mdclrerror(ep); thisside = getmyside(sp, ep); if (! mdisok(ep)) return (-1); shs.shs_hot_spare_pool = meta_gethspnmentbyname(sp->setno, thisside, hspnp->hspname, ep); if (! mdisok(ep)) { /* * If the error is ENOENT, then we will create a * hot spare pool name records. For other types of * errors, however, we'll bail out. */ if (! mdissyserror(ep, ENOENT)) return (-1); mdclrerror(ep); /* make sure that the name isn't already in use */ if (is_existing_metadevice(sp, hspnp->hspname)) return (mderror(ep, MDE_NAME_IN_USE, hspnp->hspname)); if ((shs.shs_hot_spare_pool = add_hsp_name(sp, hspnp->hspname, ep)) == MD_HSPID_WILD) { return (-1); } } } /* add empty hotspare pool */ if (hsnlp == NULL) { shs.shs_options = HS_OPT_POOL; /* If DOIT is not set, it's a dryrun */ if ((options & MDCMD_DOIT) == 0) { shs.shs_options |= HS_OPT_DRYRUN; } if (metaioctl(MD_IOCSET_HS, &shs, &shs.mde, hspnp->hspname) != 0) { if (options & MDCMD_DOIT) { (void) del_hsp_keys(sp, shs.shs_hot_spare_pool, &ignore_error); } return (mdstealerror(ep, &shs.mde)); } goto success; } /* add hotspares */ shs.shs_options = HS_OPT_NONE; /* If DOIT is not set, it's a dryrun */ if ((options & MDCMD_DOIT) == 0) { shs.shs_options |= HS_OPT_DRYRUN; } for (p = hsnlp; (p != NULL); p = p->next) { mdname_t *hsnp = p->namep; diskaddr_t size, label, start_blk; /* should be in same set */ assert(hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* check it out */ if (meta_check_hotspare(sp, hsnp, ep) != 0) return (-1); if ((size = metagetsize(hsnp, ep)) == MD_DISKADDR_ERROR) return (-1); else if (size == 0) return (mdsyserror(ep, ENOSPC, hsnp->cname)); if ((label = metagetlabel(hsnp, ep)) == MD_DISKADDR_ERROR) return (-1); if ((start_blk = metagetstart(sp, hsnp, ep)) == MD_DISKADDR_ERROR) return (-1); shs.shs_size_option = meta_check_devicesize(size); /* In dryrun mode (DOIT not set) we must not alter the mddb */ if (options & MDCMD_DOIT) { /* store name in namespace */ if (add_key_name(sp, hsnp, NULL, ep) != 0) return (-1); } /* add hotspare and/or hotspare pool */ shs.shs_component_old = hsnp->dev; shs.shs_start_blk = start_blk; shs.shs_has_label = ((label > 0) ? 1 : 0); shs.shs_number_blks = size; shs.shs_key_old = hsnp->key; if (metaioctl(MD_IOCSET_HS, &shs, &shs.mde, NULL) != 0) { if ((options & MDCMD_DOIT) && (shs.shs_options != HS_OPT_POOL)) { (void) del_key_name(sp, hsnp, ep); } return (mdstealerror(ep, &shs.mde)); } } /* print success message */ success: if (options & MDCMD_PRINT) { if ((options & MDCMD_INIT) || (hsnlp == NULL)) { (void) printf(dgettext(TEXT_DOMAIN, "%s: Hotspare pool is setup\n"), hspnp->hspname); } else if (hsnlp->next == NULL) { (void) printf(dgettext(TEXT_DOMAIN, "%s: Hotspare is added\n"), hspnp->hspname); } else { (void) printf(dgettext(TEXT_DOMAIN, "%s: Hotspares are added\n"), hspnp->hspname); } (void) fflush(stdout); } /* return success */ return (0); } /* * FUNCTION: meta_hsp_delete() * INPUT: sp - Name of the set containing the hsp * hspnp - Hot spare pool name information * options - Options from command line * OUTPUT: ep - Error information * RETURNS: 0 on success and -1 on failure. * PURPOSE: Common code to delete an empty hot spare pool. */ static int meta_hsp_delete( mdsetname_t *sp, mdhspname_t *hspnp, mdcmdopts_t options, md_error_t *ep ) { set_hs_params_t shs; /* setup hotspare pool info */ (void) memset(&shs, 0, sizeof (shs)); shs.shs_hot_spare_pool = hspnp->hsp; MD_SETDRIVERNAME(&shs, MD_HOTSPARES, sp->setno); shs.shs_cmd = DELETE_HOT_SPARE; shs.shs_options = HS_OPT_POOL; /* If DOIT is not set, it's a dryrun */ if ((options & MDCMD_DOIT) == 0) { shs.shs_options |= HS_OPT_DRYRUN; } /* Remove hsp record. */ if (metaioctl(MD_IOCSET_HS, &shs, &shs.mde, hspnp->hspname) != 0) return (mdstealerror(ep, &shs.mde)); /* Get rid of hsp NM records */ if ((options & MDCMD_DOIT) && (del_hsp_keys(sp, hspnp->hsp, ep) == -1)) { return (-1); } return (0); } /* * delete hotspares from pool */ int meta_hs_delete( mdsetname_t *sp, mdhspname_t *hspnp, mdnamelist_t *hsnlp, mdcmdopts_t options, md_error_t *ep ) { mdnamelist_t *p; set_hs_params_t shs; /* should have a set */ assert(sp != NULL); assert(hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* clear cache */ meta_invalidate_hsp(hspnp); /* setup hotspare pool info */ (void) memset(&shs, 0, sizeof (shs)); shs.shs_hot_spare_pool = hspnp->hsp; MD_SETDRIVERNAME(&shs, MD_HOTSPARES, sp->setno); shs.shs_cmd = DELETE_HOT_SPARE; /* delete empty hotspare pool */ if (hsnlp == NULL) { if (meta_hsp_delete(sp, hspnp, options, ep) != 0) return (-1); goto success; } /* delete hotspares */ shs.shs_options = HS_OPT_NONE; /* If DOIT is not set, it's a dryrun */ if ((options & MDCMD_DOIT) == 0) { shs.shs_options |= HS_OPT_DRYRUN; } for (p = hsnlp; (p != NULL); p = p->next) { mdname_t *hsnp = p->namep; /* should be in same set */ assert(hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* delete hotspare */ shs.shs_component_old = hsnp->dev; meta_invalidate_name(hsnp); if (metaioctl(MD_IOCSET_HS, &shs, &shs.mde, hsnp->cname) != 0) return (mdstealerror(ep, &shs.mde)); } /* print success message */ success: if (options & MDCMD_PRINT) { if (hsnlp == NULL) { (void) printf(dgettext(TEXT_DOMAIN, "%s: Hotspare pool is cleared\n"), hspnp->hspname); } else if (hsnlp->next == NULL) { (void) printf(dgettext(TEXT_DOMAIN, "%s: Hotspare is deleted\n"), hspnp->hspname); } else { (void) printf(dgettext(TEXT_DOMAIN, "%s: Hotspares are deleted\n"), hspnp->hspname); } (void) fflush(stdout); } /* return success */ return (0); } /* * replace hotspare in pool */ int meta_hs_replace( mdsetname_t *sp, mdhspname_t *hspnp, mdname_t *oldnp, mdname_t *newnp, mdcmdopts_t options, md_error_t *ep ) { set_hs_params_t shs; diskaddr_t size, label, start_blk; md_dev64_t old_dev, new_dev; diskaddr_t new_start_blk, new_end_blk; int rebind; char *new_devidp = NULL; int ret; md_set_desc *sd; /* should be in same set */ assert(sp != NULL); assert(hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* save new binding incase this is a rebind where oldnp==newnp */ new_dev = newnp->dev; new_start_blk = newnp->start_blk; new_end_blk = newnp->end_blk; /* invalidate, then get the hotspare (fill in oldnp from metadb) */ meta_invalidate_hsp(hspnp); if (meta_get_hsp(sp, hspnp, ep) == NULL) return (-1); /* the old device binding is now established */ if ((old_dev = oldnp->dev) == NODEV64) return (mdsyserror(ep, ENODEV, oldnp->cname)); /* * check for the case where oldnp and newnp indicate the same * device, but the dev_t of the device has changed between old * and new. This is called a rebind. On entry the dev_t * represents the new device binding determined from the * filesystem (meta_getdev). After calling meta_get_hsp * oldnp (and maybe newnp if this is a rebind) is updated based * to the old binding from the metadb (done by metakeyname). */ if ((strcmp(oldnp->rname, newnp->rname) == 0) && (old_dev != new_dev)) { rebind = 1; } else { rebind = 0; } if (rebind) { newnp->dev = new_dev; newnp->start_blk = new_start_blk; newnp->end_blk = new_end_blk; } /* * Save a copy of the devid associated with the new disk, the reason * is that the meta_check_hotspare() call could cause the devid to * be changed to that of the devid that is currently stored in the * replica namespace for the disk in question. This devid could be * stale if we are replacing the disk. The function that overwrites * the devid is dr2drivedesc(). */ if (newnp->drivenamep->devid != NULL) new_devidp = Strdup(newnp->drivenamep->devid); /* if it's a multi-node diskset clear new_devidp */ if (!metaislocalset(sp)) { if ((sd = metaget_setdesc(sp, ep)) == NULL) { Free(new_devidp); return (-1); } if (MD_MNSET_DESC(sd)) { Free(new_devidp); new_devidp = NULL; } } /* check it out */ if (meta_check_hotspare(sp, newnp, ep) != 0) { if ((! rebind) || (! mdisuseerror(ep, MDE_ALREADY))) { Free(new_devidp); return (-1); } mdclrerror(ep); } if ((size = metagetsize(newnp, ep)) == MD_DISKADDR_ERROR) { Free(new_devidp); return (-1); } if ((label = metagetlabel(newnp, ep)) == MD_DISKADDR_ERROR) { Free(new_devidp); return (-1); } if ((start_blk = metagetstart(sp, newnp, ep)) == MD_DISKADDR_ERROR) { Free(new_devidp); return (-1); } if (start_blk >= size) { (void) mdsyserror(ep, ENOSPC, newnp->cname); Free(new_devidp); return (-1); } /* * Copy back the saved devid. */ Free(newnp->drivenamep->devid); if (new_devidp != NULL) { newnp->drivenamep->devid = new_devidp; new_devidp = NULL; } /* In dryrun mode (DOIT not set) we must not alter the mddb */ if (options & MDCMD_DOIT) { /* store name in namespace */ if (add_key_name(sp, newnp, NULL, ep) != 0) return (-1); } if (rebind && !metaislocalset(sp)) { /* * We are 'rebind'ing a disk that is in a diskset so as well * as updating the diskset's namespace the local set needs * to be updated because it also contains a reference to the * disk in question. */ ret = meta_fixdevid(sp, DEV_UPDATE|DEV_LOCAL_SET, newnp->cname, ep); if (ret != METADEVADM_SUCCESS) { md_error_t xep = mdnullerror; /* * In dryrun mode (DOIT not set) we must not alter * the mddb */ if (options & MDCMD_DOIT) { (void) del_key_name(sp, newnp, &xep); mdclrerror(&xep); return (-1); } } } /* replace hotspare */ (void) memset(&shs, 0, sizeof (shs)); shs.shs_size_option = meta_check_devicesize(size); shs.shs_cmd = REPLACE_HOT_SPARE; shs.shs_hot_spare_pool = hspnp->hsp; MD_SETDRIVERNAME(&shs, MD_HOTSPARES, sp->setno); shs.shs_component_old = old_dev; shs.shs_options = HS_OPT_NONE; /* If DOIT is not set, it's a dryrun */ if ((options & MDCMD_DOIT) == 0) { shs.shs_options |= HS_OPT_DRYRUN; } shs.shs_component_new = new_dev; shs.shs_start_blk = start_blk; shs.shs_has_label = ((label > 0) ? 1 : 0); shs.shs_number_blks = size; shs.shs_key_new = newnp->key; if (metaioctl(MD_IOCSET_HS, &shs, &shs.mde, NULL) != 0) { if (options & MDCMD_DOIT) { (void) del_key_name(sp, newnp, ep); } return (mdstealerror(ep, &shs.mde)); } /* clear cache */ meta_invalidate_name(oldnp); meta_invalidate_name(newnp); meta_invalidate_hsp(hspnp); /* let em know */ if (options & MDCMD_PRINT) { (void) printf(dgettext(TEXT_DOMAIN, "%s: Hotspare %s is replaced with %s\n"), hspnp->hspname, oldnp->cname, newnp->cname); (void) fflush(stdout); } /* return success */ return (0); } /* * enable hotspares */ int meta_hs_enable( mdsetname_t *sp, mdnamelist_t *hsnlp, mdcmdopts_t options, md_error_t *ep ) { mdhspnamelist_t *hspnlp = NULL; mdhspnamelist_t *hspnp; set_hs_params_t shs; int rval = -1; /* should have a set */ assert(sp != NULL); /* setup device info */ (void) memset(&shs, 0, sizeof (shs)); MD_SETDRIVERNAME(&shs, MD_HOTSPARES, sp->setno); shs.shs_cmd = FIX_HOT_SPARE; shs.shs_options = HS_OPT_NONE; /* If DOIT is not set, it's a dryrun */ if ((options & MDCMD_DOIT) == 0) { shs.shs_options |= HS_OPT_DRYRUN; } /* get the list of hotspare names */ if (meta_get_hsp_names(sp, &hspnlp, 0, ep) < 0) goto out; /* enable hotspares for each components */ for (; (hsnlp != NULL); hsnlp = hsnlp->next) { mdname_t *hsnp = hsnlp->namep; md_dev64_t fs_dev; int rebind = 0; diskaddr_t size, label, start_blk; /* get the file_system dev binding */ if (meta_getdev(sp, hsnp, ep) != 0) return (-1); fs_dev = hsnp->dev; /* * search for the component in each hotspare pool * and replace it (instead of enable) if the binding * has changed. */ for (hspnp = hspnlp; (hspnp != NULL); hspnp = hspnp->next) { /* * in_hsp will call meta_get_hsp which will fill * in hspnp with metadb version of component */ meta_invalidate_hsp(hspnp->hspnamep); if (in_hsp(sp, hspnp->hspnamep, hsnp, 0, -1, ep) != 0) { /* * check for the case where the dev_t has * changed between the filesystem and the * metadb. This is called a rebind, and * is handled by meta_hs_replace. */ if (fs_dev != hsnp->dev) { /* * establish file system binding * with invalid start/end */ rebind++; hsnp->dev = fs_dev; hsnp->start_blk = -1; hsnp->end_blk = -1; rval = meta_hs_replace(sp, hspnp->hspnamep, hsnp, hsnp, options, ep); if (rval != 0) goto out; } } } if (rebind) continue; /* enable the component in all hotspares that use it */ if (meta_check_hotspare(sp, hsnp, ep) != 0) goto out; if ((size = metagetsize(hsnp, ep)) == MD_DISKADDR_ERROR) goto out; if ((label = metagetlabel(hsnp, ep)) == MD_DISKADDR_ERROR) goto out; if ((start_blk = metagetstart(sp, hsnp, ep)) == MD_DISKADDR_ERROR) goto out; if (start_blk >= size) { (void) mdsyserror(ep, ENOSPC, hsnp->cname); goto out; } /* enable hotspare */ shs.shs_component_old = hsnp->dev; shs.shs_component_new = hsnp->dev; shs.shs_start_blk = start_blk; shs.shs_has_label = ((label > 0) ? 1 : 0); shs.shs_number_blks = size; if (metaioctl(MD_IOCSET_HS, &shs, &shs.mde, hsnp->cname) != 0) { rval = mdstealerror(ep, &shs.mde); goto out; } /* * Are we dealing with a non-local set? If so need to update * the local namespace so that the disk record has the correct * devid. */ if (!metaislocalset(sp)) { rval = meta_fixdevid(sp, DEV_UPDATE|DEV_LOCAL_SET, hsnp->cname, ep); if (rval != METADEVADM_SUCCESS) { /* * Failed to update the local set. Nothing to * do here apart from report the error. The * namespace is most likely broken and some * form of remedial recovery is going to * be required. */ mde_perror(ep, ""); mdclrerror(ep); } } /* clear cache */ meta_invalidate_name(hsnp); /* let em know */ if (options & MDCMD_PRINT) { (void) printf(dgettext(TEXT_DOMAIN, "hotspare %s is enabled\n"), hsnp->cname); (void) fflush(stdout); } } /* clear whole cache */ for (hspnp = hspnlp; (hspnp != NULL); hspnp = hspnp->next) { meta_invalidate_hsp(hspnp->hspnamep); } /* return success */ rval = 0; out: if (hspnlp) metafreehspnamelist(hspnlp); return (rval); } /* * check for dups in the hsp itself */ static int check_twice( md_hsp_t *hspp, uint_t hsi, md_error_t *ep ) { mdhspname_t *hspnp = hspp->hspnamep; mdname_t *thisnp; uint_t h; thisnp = hspp->hotspares.hotspares_val[hsi].hsnamep; for (h = 0; (h < hsi); ++h) { md_hs_t *hsp = &hspp->hotspares.hotspares_val[h]; mdname_t *hsnp = hsp->hsnamep; if (meta_check_overlap(hspnp->hspname, thisnp, 0, -1, hsnp, 0, -1, ep) != 0) return (-1); } return (0); } /* * check hsp */ /*ARGSUSED2*/ int meta_check_hsp( mdsetname_t *sp, md_hsp_t *hspp, mdcmdopts_t options, md_error_t *ep ) { mdhspname_t *hspnp = hspp->hspnamep; uint_t hsi; /* check hotspares */ for (hsi = 0; (hsi < hspp->hotspares.hotspares_len); ++hsi) { md_hs_t *hsp = &hspp->hotspares.hotspares_val[hsi]; mdname_t *hsnp = hsp->hsnamep; diskaddr_t size; /* check hotspare */ if (meta_check_hotspare(sp, hsnp, ep) != 0) return (-1); if ((size = metagetsize(hsnp, ep)) == MD_DISKADDR_ERROR) { return (-1); } else if (size == 0) { return (mdsyserror(ep, ENOSPC, hspnp->hspname)); } /* check this hsp too */ if (check_twice(hspp, hsi, ep) != 0) return (-1); } /* return success */ return (0); } /* * create hsp */ int meta_create_hsp( mdsetname_t *sp, md_hsp_t *hspp, mdcmdopts_t options, md_error_t *ep ) { mdhspname_t *hspnp = hspp->hspnamep; mdnamelist_t *hsnlp = NULL; uint_t hsi; int rval = -1; /* validate hsp */ if (meta_check_hsp(sp, hspp, options, ep) != 0) return (-1); /* if we're not doing anything, return success */ if (! (options & MDCMD_DOIT)) return (0); /* create hsp */ for (hsi = 0; (hsi < hspp->hotspares.hotspares_len); ++hsi) { md_hs_t *hsp = &hspp->hotspares.hotspares_val[hsi]; mdname_t *hsnp = hsp->hsnamep; (void) metanamelist_append(&hsnlp, hsnp); } options |= MDCMD_INIT; rval = meta_hs_add(sp, hspnp, hsnlp, options, ep); /* cleanup, return success */ metafreenamelist(hsnlp); return (rval); } /* * initialize hsp * NOTE: this functions is metainit(1m)'s command line parser! */ int meta_init_hsp( mdsetname_t **spp, int argc, char *argv[], mdcmdopts_t options, md_error_t *ep ) { char *uname = argv[0]; mdhspname_t *hspnp = NULL; md_hsp_t *hspp = NULL; uint_t hsi; int rval = -1; /* get hsp name */ assert(argc > 0); if (argc < 1) goto syntax; if ((hspnp = metahspname(spp, uname, ep)) == NULL) goto out; assert(*spp != NULL); uname = hspnp->hspname; if (!(options & MDCMD_NOLOCK)) { /* grab set lock */ if (meta_lock(*spp, TRUE, ep)) goto out; if (meta_check_ownership(*spp, ep) != 0) goto out; } /* see if it exists already */ if (meta_get_hsp(*spp, hspnp, ep) != NULL) { (void) mdhsperror(ep, MDE_HSP_ALREADY_SETUP, hspnp->hsp, uname); goto out; } else if (! mdishsperror(ep, MDE_INVAL_HSP)) { goto out; } else { mdclrerror(ep); } --argc, ++argv; /* parse general options */ optind = 0; opterr = 0; if (getopt(argc, argv, "") != -1) goto options; /* allocate hsp */ hspp = Zalloc(sizeof (*hspp)); hspp->hotspares.hotspares_len = argc; if (argc > 0) { hspp->hotspares.hotspares_val = Zalloc(argc * sizeof (*hspp->hotspares.hotspares_val)); } /* setup pool */ hspp->hspnamep = hspnp; /* parse hotspares */ for (hsi = 0; ((argc > 0) && (hsi < hspp->hotspares.hotspares_len)); ++hsi) { md_hs_t *hsp = &hspp->hotspares.hotspares_val[hsi]; mdname_t *hsnamep; /* parse hotspare name */ if ((hsnamep = metaname(spp, argv[0], LOGICAL_DEVICE, ep)) == NULL) goto out; hsp->hsnamep = hsnamep; --argc, ++argv; } /* we should be at the end */ if (argc != 0) goto syntax; /* create hotspare pool */ if (meta_create_hsp(*spp, hspp, options, ep) != 0) goto out; rval = 0; /* success */ goto out; /* syntax error */ syntax: rval = meta_cook_syntax(ep, MDE_SYNTAX, uname, argc, argv); goto out; /* options error */ options: rval = meta_cook_syntax(ep, MDE_OPTION, uname, argc, argv); goto out; /* cleanup, return error */ out: if (hspp != NULL) meta_free_hsp(hspp); return (rval); } /* * reset hotspare pool */ int meta_hsp_reset( mdsetname_t *sp, mdhspname_t *hspnp, mdcmdopts_t options, md_error_t *ep ) { md_hsp_t *hspp; set_hs_params_t shs; uint_t i; int rval = -1; /* should have the same set */ assert(sp != NULL); assert(hspnp == NULL || hspnp->hsp == MD_HSP_NONE || sp->setno == HSP_SET(hspnp->hsp)); /* reset all hotspares */ if (hspnp == NULL) { mdhspnamelist_t *hspnlp = NULL; mdhspnamelist_t *p; /* for each hotspare pool */ rval = 0; if (meta_get_hsp_names(sp, &hspnlp, 0, ep) < 0) return (-1); for (p = hspnlp; (p != NULL); p = p->next) { /* reset hotspare pool */ hspnp = p->hspnamep; /* * If this is a multi-node set, we send a series * of individual metaclear commands. */ if (meta_is_mn_set(sp, ep)) { if (meta_mn_send_metaclear_command(sp, hspnp->hspname, options, 0, ep) != 0) { rval = -1; break; } } else { if (meta_hsp_reset(sp, hspnp, options, ep) != 0) { rval = -1; break; } } } /* cleanup, return success */ metafreehspnamelist(hspnlp); return (rval); } /* get unit structure */ if ((hspp = meta_get_hsp(sp, hspnp, ep)) == NULL) return (-1); /* make sure nobody owns us */ if (hspp->refcount > 0) { return (mdhsperror(ep, MDE_HSP_IN_USE, hspnp->hsp, hspnp->hspname)); } /* clear hotspare pool members */ (void) memset(&shs, 0, sizeof (shs)); MD_SETDRIVERNAME(&shs, MD_HOTSPARES, sp->setno); shs.shs_cmd = DELETE_HOT_SPARE; shs.shs_hot_spare_pool = hspnp->hsp; for (i = 0; (i < hspp->hotspares.hotspares_len); ++i) { md_hs_t *hs = &hspp->hotspares.hotspares_val[i]; mdname_t *hsnamep = hs->hsnamep; /* clear cache */ meta_invalidate_name(hsnamep); /* clear hotspare */ shs.shs_component_old = hsnamep->dev; shs.shs_options = HS_OPT_FORCE; /* If DOIT is not set, it's a dryrun */ if ((options & MDCMD_DOIT) == 0) { shs.shs_options |= HS_OPT_DRYRUN; } if (metaioctl(MD_IOCSET_HS, &shs, &shs.mde, NULL) != 0) { (void) mdstealerror(ep, &shs.mde); goto out; } } /* clear hotspare pool */ if (meta_hsp_delete(sp, hspnp, options, ep) != 0) goto out; rval = 0; /* success */ /* let em know */ if (options & MDCMD_PRINT) { (void) printf(dgettext(TEXT_DOMAIN, "%s: Hotspare pool is cleared\n"), hspnp->hspname); (void) fflush(stdout); } /* clear subdevices (nothing to do) */ /* cleanup, return success */ out: meta_invalidate_hsp(hspnp); return (rval); }