/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * 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 /* * RAID operations */ #include #include #include #include #include #include /* * FUNCTION: meta_get_raid_names() * INPUT: sp - the set name to get raid from * options - options from the command line * OUTPUT: nlpp - list of all raid names * ep - return error pointer * RETURNS: int - -1 if error, 0 success * PURPOSE: returns a list of all raid in the metadb * for all devices in the specified set */ int meta_get_raid_names( mdsetname_t *sp, mdnamelist_t **nlpp, int options, md_error_t *ep ) { return (meta_get_names(MD_RAID, sp, nlpp, options, ep)); } /* * free raid unit */ void meta_free_raid( md_raid_t *raidp ) { if (raidp->cols.cols_val != NULL) { assert(raidp->cols.cols_len > 0); Free(raidp->cols.cols_val); } Free(raidp); } /* * get raid (common) */ md_raid_t * meta_get_raid_common( mdsetname_t *sp, mdname_t *raidnp, int fast, md_error_t *ep ) { mddrivename_t *dnp = raidnp->drivenamep; char *miscname; mr_unit_t *mr; md_raid_t *raidp; uint_t ncol; uint_t col; md_resync_ioctl_t ri; /* must have set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev))); /* short circuit */ if (dnp->unitp != NULL) { assert(dnp->unitp->type == MD_METARAID); return ((md_raid_t *)dnp->unitp); } /* get miscname and unit */ if ((miscname = metagetmiscname(raidnp, ep)) == NULL) return (NULL); if (strcmp(miscname, MD_RAID) != 0) { (void) mdmderror(ep, MDE_NOT_RAID, meta_getminor(raidnp->dev), raidnp->cname); return (NULL); } if ((mr = (mr_unit_t *)meta_get_mdunit(sp, raidnp, ep)) == NULL) return (NULL); assert(mr->c.un_type == MD_METARAID); /* allocate raid */ raidp = Zalloc(sizeof (*raidp)); /* allocate columns */ ncol = mr->un_totalcolumncnt; assert(ncol >= MD_RAID_MIN); raidp->cols.cols_len = ncol; raidp->cols.cols_val = Zalloc(raidp->cols.cols_len * sizeof (*raidp->cols.cols_val)); /* get common info */ raidp->common.namep = raidnp; raidp->common.type = mr->c.un_type; raidp->common.state = mr->c.un_status; raidp->common.capabilities = mr->c.un_capabilities; raidp->common.parent = mr->c.un_parent; raidp->common.size = mr->c.un_total_blocks; raidp->common.user_flags = mr->c.un_user_flags; raidp->common.revision = mr->c.un_revision; /* get options */ raidp->state = mr->un_state; raidp->timestamp = mr->un_timestamp; raidp->interlace = mr->un_segsize; raidp->orig_ncol = mr->un_origcolumncnt; raidp->column_size = mr->un_segsize * mr->un_segsincolumn; raidp->pw_count = mr->un_pwcnt; assert(raidp->orig_ncol <= ncol); if ((mr->un_hsp_id != MD_HSP_NONE) && ((raidp->hspnamep = metahsphspname(&sp, mr->un_hsp_id, ep)) == NULL)) { goto out; } /* get columns, update unit state */ for (col = 0; (col < ncol); ++col) { mr_column_t *rcp = &mr->un_column[col]; md_raidcol_t *mdrcp = &raidp->cols.cols_val[col]; /* get column name */ mdrcp->colnamep = metakeyname(&sp, rcp->un_orig_key, fast, ep); if (mdrcp->colnamep == NULL) goto out; /* override any start_blk */ #ifdef DEBUG if (metagetstart(sp, mdrcp->colnamep, ep) != MD_DISKADDR_ERROR) { assert(mdrcp->colnamep->start_blk <= rcp->un_orig_devstart); } else { mdclrerror(ep); } #endif /* DEBUG */ mdrcp->colnamep->start_blk = rcp->un_orig_devstart; /* if hotspared */ if (HOTSPARED(mr, col)) { /* get hotspare name */ mdrcp->hsnamep = metakeyname(&sp, rcp->un_hs_key, fast, ep); if (mdrcp->hsnamep == NULL) goto out; if (getenv("META_DEBUG_START_BLK") != NULL) { if (metagetstart(sp, mdrcp->hsnamep, ep) == MD_DISKADDR_ERROR) mdclrerror(ep); if ((mdrcp->hsnamep->start_blk == 0) && (rcp->un_hs_pwstart != 0)) md_eprintf(dgettext(TEXT_DOMAIN, "%s: suspected bad start block," " seems labelled [raid]\n"), mdrcp->hsnamep->cname); if ((mdrcp->hsnamep->start_blk > 0) && (rcp->un_hs_pwstart == 0)) md_eprintf(dgettext(TEXT_DOMAIN, "%s: suspected bad start block, " " seems unlabelled [raid]\n"), mdrcp->hsnamep->cname); } /* override any start_blk */ mdrcp->hsnamep->start_blk = rcp->un_hs_devstart; } /* get state, flags, and timestamp */ mdrcp->state = rcp->un_devstate; mdrcp->flags = rcp->un_devflags; mdrcp->timestamp = rcp->un_devtimestamp; } /* get resync info */ (void) memset(&ri, 0, sizeof (ri)); ri.ri_mnum = meta_getminor(raidnp->dev); MD_SETDRIVERNAME(&ri, MD_RAID, sp->setno); if (metaioctl(MD_IOCGETSYNC, &ri, &ri.mde, raidnp->cname) != 0) { (void) mdstealerror(ep, &ri.mde); goto out; } raidp->resync_flags = ri.ri_flags; raidp->percent_dirty = ri.ri_percent_dirty; raidp->percent_done = ri.ri_percent_done; /* cleanup, return success */ Free(mr); dnp->unitp = (md_common_t *)raidp; return (raidp); /* cleanup, return error */ out: Free(mr); meta_free_raid(raidp); return (NULL); } /* * get raid */ md_raid_t * meta_get_raid( mdsetname_t *sp, mdname_t *raidnp, md_error_t *ep ) { return (meta_get_raid_common(sp, raidnp, 0, ep)); } /* * check raid for dev */ static int in_raid( mdsetname_t *sp, mdname_t *raidnp, mdname_t *np, diskaddr_t slblk, diskaddr_t nblks, md_error_t *ep ) { md_raid_t *raidp; uint_t col; /* should be in the same set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev))); /* get unit */ if ((raidp = meta_get_raid(sp, raidnp, ep)) == NULL) return (-1); /* look in columns */ for (col = 0; (col < raidp->cols.cols_len); ++col) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; mdname_t *colnp = cp->colnamep; diskaddr_t col_sblk; int err; /* check same drive since metagetstart() can fail */ if ((err = meta_check_samedrive(np, colnp, ep)) < 0) return (-1); else if (err == 0) continue; /* check overlap */ if ((col_sblk = metagetstart(sp, colnp, ep)) == MD_DISKADDR_ERROR) return (-1); if (meta_check_overlap(raidnp->cname, np, slblk, nblks, colnp, col_sblk, -1, ep) != 0) { return (-1); } } /* return success */ return (0); } /* * check to see if we're in a raid */ int meta_check_inraid( mdsetname_t *sp, mdname_t *np, diskaddr_t slblk, diskaddr_t nblks, md_error_t *ep ) { mdnamelist_t *raidnlp = NULL; mdnamelist_t *p; int rval = 0; /* should have a set */ assert(sp != NULL); /* for each raid */ if (meta_get_raid_names(sp, &raidnlp, 0, ep) < 0) return (-1); for (p = raidnlp; (p != NULL); p = p->next) { mdname_t *raidnp = p->namep; /* check raid */ if (in_raid(sp, raidnp, np, slblk, nblks, ep) != 0) { rval = -1; break; } } /* cleanup, return success */ metafreenamelist(raidnlp); return (rval); } /* * check column */ int meta_check_column( mdsetname_t *sp, mdname_t *np, md_error_t *ep ) { mdchkopts_t options = (MDCHK_ALLOW_MDDB); /* check for soft partitions */ if (meta_sp_issp(sp, np, ep) != 0) { /* 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 raid */ static int raid_print( md_raid_t *raidp, char *fname, FILE *fp, mdprtopts_t options, md_error_t *ep ) { uint_t col; int rval = -1; if (options & PRINT_LARGEDEVICES) { if ((raidp->common.revision & MD_64BIT_META_DEV) == 0) { rval = 0; goto out; } } if (options & PRINT_FN) { if ((raidp->common.revision & MD_FN_META_DEV) == 0) { rval = 0; goto out; } } /* print name and -r */ if (fprintf(fp, "%s -r", raidp->common.namep->cname) == EOF) goto out; /* * Print columns. Always print the full path. */ for (col = 0; (col < raidp->cols.cols_len); ++col) { md_raidcol_t *mdrcp = &raidp->cols.cols_val[col]; if (fprintf(fp, " %s", mdrcp->colnamep->rname) == EOF) goto out; } if (fprintf(fp, " -k") == EOF) goto out; /* print options */ if (fprintf(fp, " -i %lldb", raidp->interlace) == EOF) goto out; if (raidp->pw_count != PWCNT_MIN) if (fprintf(fp, " -w %d", raidp->pw_count) == EOF) goto out; if (raidp->hspnamep != NULL) { if (fprintf(fp, " -h %s", raidp->hspnamep->hspname) == EOF) goto out; } if (raidp->orig_ncol != raidp->cols.cols_len) { assert(raidp->orig_ncol < raidp->cols.cols_len); if (fprintf(fp, " -o %u", raidp->orig_ncol) == 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); } static int find_resyncing_column( md_raid_t *raidp ) { int col; for (col = 0; (col < raidp->cols.cols_len); ++col) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; if (cp->state & RCS_RESYNC) return (col); } /* No resyncing columns */ return (-1); } /* * convert raid state to name */ char * raid_state_to_name( md_raid_t *raidp, md_timeval32_t *tvp, uint_t tstate /* Errored tstate flags */ ) { /* grab time */ if (tvp != NULL) *tvp = raidp->timestamp; /* * If the device has a transient error state (due to it being DR'ed or * failed) and there has been no I/O to it (the actual device is still * marked as 'Okay') then we cannot know what the state is or what * action to take on it. Therefore report the device as 'Unavailable'. * A subsequent I/O to the device will cause the 'Okay' status to * disappear if the device is actually gone and then we will print out * the appropriate status. The MD_INACCESSIBLE state is only set * on the raid when we open it or probe it. One the raid is open * then we will just have regular error status on the device. */ if (tstate & MD_INACCESSIBLE) { return (dgettext(TEXT_DOMAIN, "Unavailable")); } /* resyncing */ if (find_resyncing_column(raidp) >= 0) return (dgettext(TEXT_DOMAIN, "Resyncing")); /* everything else */ switch (raidp->state) { case RUS_INIT : return (dgettext(TEXT_DOMAIN, "Initializing")); case RUS_OKAY : return (dgettext(TEXT_DOMAIN, "Okay")); case RUS_ERRED : /*FALLTHROUGH*/ case RUS_LAST_ERRED : return (dgettext(TEXT_DOMAIN, "Needs Maintenance")); case RUS_DOI : return (dgettext(TEXT_DOMAIN, "Initialization Failed")); case RUS_REGEN : return (dgettext(TEXT_DOMAIN, "Regen")); default : return (dgettext(TEXT_DOMAIN, "invalid")); } /* switch */ } static int find_erred_column(md_raid_t *raidp, rcs_state_t state) { int col; for (col = 0; (col < raidp->cols.cols_len); ++col) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; if (cp->state & state) return (col); } /* No erred columns */ return (-1); } /* * convert raid state to repair action */ char * raid_state_to_action(md_raid_t *raidp) { static char emsg[1024]; mdname_t *raidnp = raidp->common.namep; int err_col; /* first check for full init failure */ if (raidp->state & RUS_DOI) { (void) snprintf(emsg, sizeof (emsg), "metaclear -f %s", raidnp->cname); return (emsg); } /* replace errored or init errored raid column */ if ((err_col = find_erred_column(raidp, (RCS_ERRED | RCS_INIT_ERRED))) >= 0) { mdname_t *colnp; /* get column with error */ assert(err_col < raidp->cols.cols_len); colnp = raidp->cols.cols_val[err_col].colnamep; (void) snprintf(emsg, sizeof (emsg), "metareplace %s%s %s <%s>", ((raidp->state == RUS_LAST_ERRED) ? "-f " : ""), raidnp->cname, colnp->cname, dgettext(TEXT_DOMAIN, "new device")); return (emsg); } /* replace last errored raid column */ if ((err_col = find_erred_column(raidp, RCS_LAST_ERRED)) >= 0) { mdname_t *colnp; assert(err_col < raidp->cols.cols_len); colnp = raidp->cols.cols_val[err_col].colnamep; (void) snprintf(emsg, sizeof (emsg), "metareplace %s %s %s <%s>", ((raidp->state == RUS_LAST_ERRED) ? "-f " : ""), raidnp->cname, colnp->cname, dgettext(TEXT_DOMAIN, "new device")); return (emsg); } /* OK */ return (NULL); } /* * get printable raid column state */ char * raid_col_state_to_name( md_raidcol_t *colp, md_timeval32_t *tvp, uint_t tstate ) { /* grab time */ if (tvp != NULL) *tvp = colp->timestamp; if (tstate != 0) { return (dgettext(TEXT_DOMAIN, "Unavailable")); } /* everything else */ switch (colp->state) { case RCS_INIT: return (dgettext(TEXT_DOMAIN, "Initializing")); case RCS_OKAY: return (dgettext(TEXT_DOMAIN, "Okay")); case RCS_INIT_ERRED: /*FALLTHROUGH*/ case RCS_ERRED: return (dgettext(TEXT_DOMAIN, "Maintenance")); case RCS_LAST_ERRED: return (dgettext(TEXT_DOMAIN, "Last Erred")); case RCS_RESYNC: return (dgettext(TEXT_DOMAIN, "Resyncing")); default: return (dgettext(TEXT_DOMAIN, "Unknown")); } } /* * print raid column */ static int display_raid_device_info( mdsetname_t *sp, md_raidcol_t *colp, char *fname, FILE *fp, mdprtopts_t options, int print_len, uint_t top_tstate, /* Errored tstate flags */ md_error_t *ep ) { mdname_t *namep = ((colp->hsnamep != NULL) ? colp->hsnamep : colp->colnamep); char *devid = ""; char *cname = colp->colnamep->cname; diskaddr_t start_blk; int has_mddb; char *has_mddb_str; char *col_state; md_timeval32_t tv; char *hsname = ((colp->hsnamep != NULL) ? colp->hsnamep->cname : ""); int rval = -1; mdname_t *didnp = NULL; ddi_devid_t dtp; uint_t tstate = 0; /* get info */ if ((start_blk = metagetstart(sp, namep, ep)) == MD_DISKADDR_ERROR) return (-1); if ((has_mddb = metahasmddb(sp, namep, ep)) < 0) return (-1); if (has_mddb) has_mddb_str = dgettext(TEXT_DOMAIN, "Yes"); else has_mddb_str = dgettext(TEXT_DOMAIN, "No"); if (metaismeta(namep)) { if (meta_get_tstate(namep->dev, &tstate, ep) != 0) return (-1); col_state = raid_col_state_to_name(colp, &tv, tstate & MD_DEV_ERRORED); } else { /* * if top_tstate is set, that implies that you have * a ctd type device with an unavailable metadevice * on top of it. If so, print a - for it's state */ if (top_tstate != 0) col_state = "-"; else col_state = raid_col_state_to_name(colp, &tv, tstate); } /* populate the key in the name_p structure */ if ((didnp = metadevname(&sp, namep->dev, ep)) == NULL) return (-1); /* 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 column */ /* * Building a format string on the fly that will * be used in (f)printf. This allows the length * of the ctd to vary from small to large without * looking horrible. */ if (! (options & PRINT_TIMES)) { if (fprintf(fp, "\t%-*.*s %8lld %5.5s %12.12s %5.5s %s\n", print_len, print_len, cname, start_blk, has_mddb_str, col_state, devid, hsname) == EOF) { goto out; } } else { char *timep = meta_print_time(&tv); if (fprintf(fp, "\t%-*s %5lld %-5s %-11s %-5s %-9s %s\n", print_len, cname, start_blk, has_mddb_str, col_state, devid, hsname, timep) == EOF) { goto out; } } /* success */ rval = 0; /* cleanup, return error */ out: if (rval != 0) (void) mdsyserror(ep, errno, fname); return (rval); } /* * print raid options */ int meta_print_raid_options( mdhspname_t *hspnamep, char *fname, FILE *fp, md_error_t *ep ) { char *hspname = ((hspnamep != NULL) ? hspnamep->hspname : dgettext(TEXT_DOMAIN, "none")); int rval = -1; /* print options */ if (fprintf(fp, dgettext(TEXT_DOMAIN, " Hot spare pool: %s\n"), hspname) == EOF) { goto out; } /* success */ rval = 0; /* cleanup, return error */ out: if (rval != 0) (void) mdsyserror(ep, errno, fname); return (rval); } /* * report raid */ static int raid_report( mdsetname_t *sp, md_raid_t *raidp, char *fname, FILE *fp, mdprtopts_t options, md_error_t *ep ) { char *p; uint_t ncol = raidp->cols.cols_len; uint_t orig_ncol = raidp->orig_ncol; diskaddr_t column_size = raidp->column_size; char *raid_state; md_timeval32_t tv; char *timep; uint_t col; int rval = -1; int len = 0; uint_t tstate = 0; if (options & PRINT_LARGEDEVICES) { if ((raidp->common.revision & MD_64BIT_META_DEV) == 0) { rval = 0; goto out; } } if (options & PRINT_FN) { if ((raidp->common.revision & MD_FN_META_DEV) == 0) { rval = 0; goto out; } } /* print header */ if (options & PRINT_HEADER) { if (fprintf(fp, dgettext(TEXT_DOMAIN, "%s: RAID\n"), raidp->common.namep->cname) == EOF) { goto out; } } /* print state */ if (metaismeta(raidp->common.namep)) { if (meta_get_tstate(raidp->common.namep->dev, &tstate, ep) != 0) return (-1); } tstate &= MD_DEV_ERRORED; /* extract the errored tstate bits */ raid_state = raid_state_to_name(raidp, &tv, tstate); if (options & PRINT_TIMES) { timep = meta_print_time(&tv); } else { timep = ""; } if (fprintf(fp, dgettext(TEXT_DOMAIN, " State: %-12s %s\n"), raid_state, timep) == EOF) { goto out; } /* * Display recovery action if we're marked in the Unavailable state. */ if ((tstate == 0) || (tstate & MD_INACCESSIBLE)) { /* print what to do */ if (tstate & MD_INACCESSIBLE) { char sname[MD_MAX_SETNAME + 3]; /* 3 = sizeof("-s ") */ if (metaislocalset(sp)) { sname[0] = '\0'; } else { (void) snprintf(sname, MD_MAX_SETNAME + 3, "-s %s", sp->setname); } if (fprintf(fp, dgettext(TEXT_DOMAIN, " Invoke: metastat -i %s\n"), sname) == EOF) { goto out; } } else if ((p = raid_state_to_action(raidp)) != NULL) { if (fprintf(fp, dgettext(TEXT_DOMAIN, " Invoke: %s\n"), p) == EOF) { goto out; } } /* resync status */ if (raidp->resync_flags & MD_RI_INPROGRESS) { if (fprintf(fp, dgettext(TEXT_DOMAIN, " Resync in progress: %2d.%1d%% done\n"), raidp->percent_done/10, raidp->percent_done % 10) == EOF) { goto out; } } else if (raidp->resync_flags & MD_GROW_INPROGRESS) { if (fprintf(fp, dgettext(TEXT_DOMAIN, " Initialization in progress: %2d.%1d%% " "done\n"), raidp->percent_done/10, raidp->percent_done % 10) == EOF) { goto out; } } else if (raidp->state & RUS_REGEN) { if (fprintf(fp, dgettext(TEXT_DOMAIN, " Parity regeneration in progress: %2d.%1d%% " "done\n"), raidp->percent_done/10, raidp->percent_done % 10) == EOF) { goto out; } } } /* print hotspare pool */ if (raidp->hspnamep != NULL) { if (meta_print_raid_options(raidp->hspnamep, fname, fp, ep) != 0) { return (-1); } } /* print interlace */ if (fprintf(fp, dgettext(TEXT_DOMAIN, " Interlace: %lld blocks\n"), raidp->interlace) == EOF) { goto out; } /* print size */ if (fprintf(fp, dgettext(TEXT_DOMAIN, " Size: %lld blocks (%s)\n"), raidp->common.size, meta_number_to_string(raidp->common.size, DEV_BSIZE)) == EOF) { goto out; } /* MD_DEBUG stuff */ if (options & PRINT_DEBUG) { mdname_t *raidnp = raidp->common.namep; mr_unit_t *mr; /* get additional info */ if ((mr = (mr_unit_t *)meta_get_mdunit(sp, raidnp, ep)) == NULL) return (-1); assert(mr->c.un_type == MD_METARAID); /* print prewrite count and size */ if (fprintf(fp, dgettext(TEXT_DOMAIN, " Prewrite Count: %u slots\n"), mr->un_pwcnt) == EOF) { Free(mr); goto out; } if (fprintf(fp, dgettext(TEXT_DOMAIN, " Prewrite Slot Size: %u blocks\n"), (mr->un_pwsize / mr->un_pwcnt)) == EOF) { Free(mr); goto out; } if (fprintf(fp, dgettext(TEXT_DOMAIN, " Prewrite Total Size: %u blocks\n"), mr->un_pwsize) == EOF) { Free(mr); goto out; } Free(mr); } /* print original devices */ if (fprintf(fp, dgettext(TEXT_DOMAIN, "Original device:\n")) == EOF) goto out; if (fprintf(fp, dgettext(TEXT_DOMAIN, " Size: %lld blocks (%s)\n"), column_size * (orig_ncol - 1), meta_number_to_string(column_size * (orig_ncol - 1), DEV_BSIZE)) == EOF) { goto out; } /* * Building a format string on the fly that will * be used in (f)printf. This allows the length * of the ctd to vary from small to large without * looking horrible. */ for (col = 0; (col < orig_ncol); ++col) { len = max(len, strlen(raidp->cols.cols_val[col].colnamep->cname)); } len = max(len, strlen(dgettext(TEXT_DOMAIN, "Device"))); len += 2; if (! (options & PRINT_TIMES)) { if (fprintf(fp, "\t%-*.*s %-12.12s %-5.5s %12.12s %-5.5s %s\n", len, len, dgettext(TEXT_DOMAIN, "Device"), dgettext(TEXT_DOMAIN, "Start Block"), dgettext(TEXT_DOMAIN, "Dbase"), dgettext(TEXT_DOMAIN, "State"), dgettext(TEXT_DOMAIN, "Reloc"), dgettext(TEXT_DOMAIN, "Hot Spare")) == EOF) { goto out; } } else { if (fprintf(fp, "\t%-*s %5s %-5s %-11s %-5s %-9s %s\n", len, dgettext(TEXT_DOMAIN, "Device"), dgettext(TEXT_DOMAIN, "Start"), dgettext(TEXT_DOMAIN, "Dbase"), dgettext(TEXT_DOMAIN, "State"), dgettext(TEXT_DOMAIN, "Reloc"), dgettext(TEXT_DOMAIN, "Hot Spare"), dgettext(TEXT_DOMAIN, "Time")) == EOF) { goto out; } } for (col = 0; (col < orig_ncol); ++col) { md_raidcol_t *mdrcp = &raidp->cols.cols_val[col]; if (display_raid_device_info(sp, mdrcp, fname, fp, options, len, tstate, ep) != 0) { return (-1); } } /* print concatenated devices */ if (col < ncol) { if (fprintf(fp, dgettext(TEXT_DOMAIN, "Concatenated Devices:\n")) == EOF) { goto out; } if (fprintf(fp, dgettext(TEXT_DOMAIN, " Size: %lld blocks (%s)\n"), column_size * (ncol - orig_ncol), meta_number_to_string(column_size * (ncol - orig_ncol), DEV_BSIZE)) == EOF) { goto out; } /* * This allows the length * of the ctd to vary from small to large without * looking horrible. */ if (! (options & PRINT_TIMES)) { if (fprintf(fp, "\t%-*.*s %-12.12s %-5.5s %-12.12s %5.5s %s\n", len, len, dgettext(TEXT_DOMAIN, "Device"), dgettext(TEXT_DOMAIN, "Start Block"), dgettext(TEXT_DOMAIN, "Dbase"), dgettext(TEXT_DOMAIN, "State"), dgettext(TEXT_DOMAIN, "Reloc"), dgettext(TEXT_DOMAIN, "Hot Spare")) == EOF) { goto out; } } else { if (fprintf(fp, "\t%-*s %5s %-5s %-11s %-9s %s\t%s\n", len, dgettext(TEXT_DOMAIN, "Device"), dgettext(TEXT_DOMAIN, "Start"), dgettext(TEXT_DOMAIN, "Dbase"), dgettext(TEXT_DOMAIN, "State"), dgettext(TEXT_DOMAIN, "Reloc"), dgettext(TEXT_DOMAIN, "Hot Spare"), dgettext(TEXT_DOMAIN, "Time")) == EOF) { goto out; } } assert(col == orig_ncol); for (/* void */; (col < ncol); col++) { md_raidcol_t *mdrcp = &raidp->cols.cols_val[col]; if (display_raid_device_info(sp, mdrcp, fname, fp, options, len, tstate, ep) != 0) { return (-1); } } } /* 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 raid */ int meta_raid_print( mdsetname_t *sp, mdname_t *raidnp, mdnamelist_t **nlpp, char *fname, FILE *fp, mdprtopts_t options, md_error_t *ep ) { md_raid_t *raidp; int col; /* should have same set */ assert(sp != NULL); assert((raidnp == NULL) || (sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev)))); /* print all raids */ if (raidnp == NULL) { mdnamelist_t *nlp = NULL; mdnamelist_t *p; int cnt; int rval = 0; /* get list */ if ((cnt = meta_get_raid_names(sp, &nlp, options, ep)) < 0) return (-1); else if (cnt == 0) return (0); /* recurse */ for (p = nlp; (p != NULL); p = p->next) { mdname_t *np = p->namep; if (meta_raid_print(sp, np, nlpp, fname, fp, options, ep) != 0) rval = -1; } /* cleanup, return success */ metafreenamelist(nlp); return (rval); } /* get unit structure */ if ((raidp = meta_get_raid_common(sp, raidnp, ((options & PRINT_FAST) ? 1 : 0), ep)) == NULL) return (-1); /* check for parented */ if ((! (options & PRINT_SUBDEVS)) && (MD_HAS_PARENT(raidp->common.parent))) { return (0); } /* print appropriate detail */ if (options & PRINT_SHORT) { if (raid_print(raidp, fname, fp, options, ep) != 0) return (-1); } else { if (raid_report(sp, raidp, fname, fp, options, ep) != 0) return (-1); } /* Recurse on components that are metadevices */ for (col = 0; col < raidp->cols.cols_len; ++col) { md_raidcol_t *colp = &raidp->cols.cols_val[col]; mdname_t *namep = colp->colnamep; if ((metaismeta(namep)) && (meta_print_name(sp, namep, nlpp, fname, fp, (options | PRINT_HEADER | PRINT_SUBDEVS), NULL, ep) != 0)) { return (-1); } } return (0); } /* * adjust raid geometry */ static int adjust_geom( mdname_t *raidnp, mdname_t *colnp, mr_unit_t *mr, md_error_t *ep ) { uint_t round_cyl = 1; mdgeom_t *geomp; /* get reinstructs */ if ((geomp = metagetgeom(colnp, ep)) == NULL) return (-1); /* adjust geometry */ if (meta_adjust_geom((md_unit_t *)mr, raidnp, geomp->write_reinstruct, geomp->read_reinstruct, round_cyl, ep) != 0) return (-1); /* return success */ return (0); } /* * add another column to the raid unit structure */ static int attach_raid_col( mdsetname_t *sp, mdname_t *raidnp, mr_unit_t *mr, mr_column_t *mdc, mdname_t *colnp, rcs_state_t state, mdnamelist_t **keynlpp, mdcmdopts_t options, md_error_t *ep ) { diskaddr_t column_size = mr->un_segsize * mr->un_segsincolumn; diskaddr_t size; uint_t maxio; mdcinfo_t *cinfop; md_timeval32_t tmp_time; /* setup state and timestamp */ mdc->un_devstate = state; if (meta_gettimeofday(&tmp_time) == -1) return (mdsyserror(ep, errno, NULL)); mdc->un_devtimestamp = tmp_time; /* get start, size, and maxio */ if ((mdc->un_orig_devstart = metagetstart(sp, colnp, ep)) == MD_DISKADDR_ERROR) return (-1); if ((size = metagetsize(colnp, ep)) == MD_DISKADDR_ERROR) return (-1); if ((cinfop = metagetcinfo(colnp, ep)) == NULL) return (-1); maxio = cinfop->maxtransfer; /* adjust start and size by prewrite */ mdc->un_orig_pwstart = mdc->un_orig_devstart; mdc->un_orig_devstart += mr->un_pwsize; /* make sure we still have something left */ if ((mdc->un_orig_devstart >= size) || ((size - mdc->un_orig_devstart) < column_size)) { return (mdsyserror(ep, ENOSPC, colnp->cname)); } size -= mdc->un_orig_devstart; if (maxio < mr->un_maxio) { return (mdcomperror(ep, MDE_MAXIO, meta_getminor(raidnp->dev), colnp->dev, colnp->cname)); } if (options & MDCMD_DOIT) { /* store name in namespace */ if (add_key_name(sp, colnp, keynlpp, ep) != 0) return (-1); } /* setup column */ mdc->un_orig_dev = colnp->dev; mdc->un_orig_key = colnp->key; mdc->un_dev = colnp->dev; mdc->un_pwstart = mdc->un_orig_pwstart; mdc->un_devstart = mdc->un_orig_devstart; mdc->un_alt_dev = NODEV64; mdc->un_alt_pwstart = 0; mdc->un_alt_devstart = 0; mdc->un_hs_id = 0; /* add the size (we use) of the device to the total */ mr->c.un_actual_tb += column_size; /* adjust geometry */ if (adjust_geom(raidnp, colnp, mr, ep) != 0) return (-1); /* count column */ mr->un_totalcolumncnt++; /* return success */ return (0); } /* * invalidate column names */ static int invalidate_columns( mdsetname_t *sp, mdname_t *raidnp, md_error_t *ep ) { md_raid_t *raidp; uint_t col; if ((raidp = meta_get_raid(sp, raidnp, ep)) == NULL) return (-1); for (col = 0; (col < raidp->cols.cols_len); ++col) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; mdname_t *colnp = cp->colnamep; meta_invalidate_name(colnp); } return (0); } /* * attach columns to raid */ int meta_raid_attach( mdsetname_t *sp, mdname_t *raidnp, mdnamelist_t *colnlp, mdcmdopts_t options, md_error_t *ep ) { uint_t concat_cnt = 0; mdnamelist_t *p; mr_unit_t *old_mr; mr_unit_t *new_mr; size_t old_rusize; size_t new_rusize; mdnamelist_t *keynlp = NULL; md_grow_params_t mgp; int rval = -1; int create_flag = MD_CRO_32BIT; /* should have a set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev))); /* check type */ if (metachkmeta(raidnp, ep) != 0) return (-1); /* check and count new columns */ for (p = colnlp; (p != NULL); p = p->next) { mdname_t *np = p->namep; mdnamelist_t *p2; /* check against existing devices */ if (meta_check_column(sp, np, ep) != 0) return (-1); /* check against ourselves */ for (p2 = p->next; (p2 != NULL); p2 = p2->next) { if (meta_check_overlap(np->cname, np, 0, -1, p2->namep, 0, -1, ep) != 0) { return (-1); } } /* count */ ++concat_cnt; } /* get old unit */ if ((old_mr = (mr_unit_t *)meta_get_mdunit(sp, raidnp, ep)) == NULL) return (-1); /* * calculate the size needed for the new raid unit and allocate * the appropriate structure. allocate new unit. */ old_rusize = sizeof (*old_mr) - sizeof (old_mr->un_column[0]); old_rusize += old_mr->un_totalcolumncnt * sizeof (old_mr->un_column[0]); new_rusize = sizeof (*new_mr) - sizeof (new_mr->un_column[0]); new_rusize += (old_mr->un_totalcolumncnt + concat_cnt) * sizeof (new_mr->un_column[0]); new_mr = Zalloc(new_rusize); (void) memcpy(new_mr, old_mr, old_rusize); /* We always want a do-it, this is for attach_raid_col below */ options |= MDCMD_DOIT; /* build new unit structure */ for (p = colnlp; (p != NULL); p = p->next) { mdname_t *colnp = p->namep; mr_column_t *mdc; /* attach column */ mdc = &new_mr->un_column[new_mr->un_totalcolumncnt]; if (attach_raid_col(sp, raidnp, new_mr, mdc, colnp, RCS_INIT, &keynlp, options, ep) != 0) { goto out; } } assert(new_mr->un_totalcolumncnt == (old_mr->un_totalcolumncnt + concat_cnt)); create_flag = meta_check_devicesize(new_mr->c.un_total_blocks); /* grow raid */ (void) memset(&mgp, 0, sizeof (mgp)); mgp.mnum = MD_SID(new_mr); MD_SETDRIVERNAME(&mgp, MD_RAID, sp->setno); mgp.size = new_rusize; mgp.mdp = (uintptr_t)new_mr; if (create_flag == MD_CRO_32BIT) { mgp.options = MD_CRO_32BIT; new_mr->c.un_revision &= ~MD_64BIT_META_DEV; } else { mgp.options = MD_CRO_64BIT; new_mr->c.un_revision |= MD_64BIT_META_DEV; } if (metaioctl(MD_IOCGROW, &mgp, &mgp.mde, NULL) != 0) { (void) mdstealerror(ep, &mgp.mde); goto out; } /* clear cache */ if (invalidate_columns(sp, raidnp, ep) != 0) goto out; meta_invalidate_name(raidnp); /* let em know */ if (options & MDCMD_PRINT) { if (concat_cnt == 1) { (void) printf(dgettext(TEXT_DOMAIN, "%s: component is attached\n"), raidnp->cname); } else { (void) printf(dgettext(TEXT_DOMAIN, "%s: components are attached\n"), raidnp->cname); } (void) fflush(stdout); } /* grow any parents */ if (meta_concat_parent(sp, raidnp, ep) != 0) goto out; rval = 0; /* success */ /* cleanup, return error */ out: Free(old_mr); Free(new_mr); if (rval != 0) (void) del_key_names(sp, keynlp, NULL); metafreenamelist(keynlp); return (rval); } /* * get raid parameters */ int meta_raid_get_params( mdsetname_t *sp, mdname_t *raidnp, mr_params_t *paramsp, md_error_t *ep ) { md_raid_t *raidp; /* should have a set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev))); /* check name */ if (metachkmeta(raidnp, ep) != 0) return (-1); /* get unit */ if ((raidp = meta_get_raid(sp, raidnp, ep)) == NULL) return (-1); /* return parameters */ (void) memset(paramsp, 0, sizeof (*paramsp)); if (raidp->hspnamep == NULL) paramsp->hsp_id = MD_HSP_NONE; else paramsp->hsp_id = raidp->hspnamep->hsp; return (0); } /* * set raid parameters */ int meta_raid_set_params( mdsetname_t *sp, mdname_t *raidnp, mr_params_t *paramsp, md_error_t *ep ) { md_raid_params_t msp; /* should have a set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev))); /* check name */ if (metachkmeta(raidnp, ep) != 0) return (-1); /* set parameters */ (void) memset(&msp, 0, sizeof (msp)); MD_SETDRIVERNAME(&msp, MD_RAID, sp->setno); msp.mnum = meta_getminor(raidnp->dev); msp.params = *paramsp; if (metaioctl(MD_IOCCHANGE, &msp, &msp.mde, raidnp->cname) != 0) return (mdstealerror(ep, &msp.mde)); /* clear cache */ meta_invalidate_name(raidnp); /* return success */ return (0); } /* * validate raid replace column */ static int validate_new_raid( mdsetname_t *sp, mdname_t *raidnp, mdname_t *colnp, replace_params_t *paramsp, int dup_ok, md_error_t *ep ) { mr_unit_t *mr; diskaddr_t column_size; diskaddr_t label; mdcinfo_t *cinfop; int rval = -1; /* get raid unit */ if ((mr = (mr_unit_t *)meta_get_mdunit(sp, raidnp, ep)) == NULL) return (-1); column_size = mr->un_segsize * mr->un_segsincolumn; /* check it out */ if (meta_check_column(sp, colnp, ep) != 0) { if ((! dup_ok) || (! mdisuseerror(ep, MDE_ALREADY))) goto out; mdclrerror(ep); } if ((paramsp->number_blks = metagetsize(colnp, ep)) == MD_DISKADDR_ERROR) goto out; if ((label = metagetlabel(colnp, ep)) == MD_DISKADDR_ERROR) goto out; paramsp->has_label = ((label > 0) ? 1 : 0); if ((paramsp->start_blk = metagetstart(sp, colnp, ep)) == MD_DISKADDR_ERROR) goto out; if ((paramsp->number_blks - paramsp->start_blk) < column_size) { (void) mdsyserror(ep, ENOSPC, colnp->cname); goto out; } if ((cinfop = metagetcinfo(colnp, ep)) == NULL) goto out; if (cinfop->maxtransfer < mr->un_maxio) { (void) mdcomperror(ep, MDE_MAXIO, meta_getminor(raidnp->dev), colnp->dev, colnp->cname); goto out; } /* success */ rval = 0; /* cleanup, return error */ out: Free(mr); return (rval); } /* * replace raid column */ int meta_raid_replace( mdsetname_t *sp, mdname_t *raidnp, mdname_t *oldnp, mdname_t *newnp, mdcmdopts_t options, md_error_t *ep ) { int force = ((options & MDCMD_FORCE) ? 1 : 0); replace_params_t params; md_dev64_t old_dev, new_dev; diskaddr_t new_start_blk, new_end_blk; int rebind; char *new_devidp = NULL; md_error_t xep = mdnullerror; int ret; md_set_desc *sd; uint_t tstate; /* should have same set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev))); /* check name */ if (metachkmeta(raidnp, ep) != 0) return (-1); /* 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 raid (fill in oldnp from metadb) */ meta_invalidate_name(raidnp); if (meta_get_raid(sp, raidnp, ep) == NULL) return (-1); /* can't replace a component if the raid inaccessible */ if (meta_get_tstate(raidnp->dev, &tstate, ep) != 0) { return (-1); } if (tstate & MD_INACCESSIBLE) { return (mdmderror(ep, MDE_IN_UNAVAIL_STATE, meta_getminor(raidnp->dev), raidnp->cname)); } /* the old device binding is now established */ if ((old_dev = oldnp->dev) == NODEV64) return (mdsyserror(ep, ENODEV, oldnp->cname)); /* setup raid info */ (void) memset(¶ms, 0, sizeof (params)); params.mnum = meta_getminor(raidnp->dev); MD_SETDRIVERNAME(¶ms, MD_RAID, sp->setno); params.old_dev = old_dev; params.cmd = force ? FORCE_REPLACE_COMP : REPLACE_COMP; 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 checks for the column (meta_check_column) * via validate_new_raid(), could cause the disk's 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 actual function * that overwrites the devid is dr2drivedesc(). */ /* don't setup new_devid if no devid's or MN diskset */ if (newnp->drivenamep->devid != NULL) new_devidp = Strdup(newnp->drivenamep->devid); if (!metaislocalset(sp)) { if ((sd = metaget_setdesc(sp, ep)) == NULL) return (-1); if (MD_MNSET_DESC(sd)) new_devidp = NULL; } /* check out new (sets up start_blk, has_label, number_blks) */ if (validate_new_raid(sp, raidnp, newnp, ¶ms, rebind, ep) != 0) { Free(new_devidp); return (-1); } /* * Copy back the saved devid. */ Free(newnp->drivenamep->devid); if (new_devidp) { newnp->drivenamep->devid = Strdup(new_devidp); Free(new_devidp); } /* store name in namespace, allocate new key */ 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) { (void) del_key_name(sp, newnp, &xep); return (-1); } } /* replace column */ params.new_dev = new_dev; params.new_key = newnp->key; if (metaioctl(MD_IOCREPLACE, ¶ms, ¶ms.mde, NULL) != 0) { (void) del_key_name(sp, newnp, ep); return (mdstealerror(ep, ¶ms.mde)); } /* clear cache */ meta_invalidate_name(oldnp); meta_invalidate_name(newnp); meta_invalidate_name(raidnp); /* let em know */ if (options & MDCMD_PRINT) { (void) printf(dgettext(TEXT_DOMAIN, "%s: device %s is replaced with %s\n"), raidnp->cname, oldnp->cname, newnp->cname); (void) fflush(stdout); } /* return success */ return (0); } /* * enable raid column */ int meta_raid_enable( mdsetname_t *sp, mdname_t *raidnp, mdname_t *colnp, mdcmdopts_t options, md_error_t *ep ) { int force = ((options & MDCMD_FORCE) ? 1 : 0); replace_params_t params; md_dev64_t fs_dev, del_dev; int err = 0; char *devnm; int ret; uint_t tstate; /* should have same set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev))); /* check name */ if (metachkmeta(raidnp, ep) != 0) return (-1); /* get the file_system dev binding */ if (meta_getdev(sp, colnp, ep) != 0) return (-1); fs_dev = colnp->dev; /* get the raid unit (fill in colnp->dev with metadb version) */ meta_invalidate_name(raidnp); if (meta_get_raid(sp, raidnp, ep) == NULL) return (-1); /* enabling a component can't work if the raid inaccessible */ if (meta_get_tstate(raidnp->dev, &tstate, ep) != 0) { return (-1); } if (tstate & MD_INACCESSIBLE) { return (mdmderror(ep, MDE_IN_UNAVAIL_STATE, meta_getminor(raidnp->dev), raidnp->cname)); } /* the metadb device binding is now established */ if (colnp->dev == NODEV64) return (mdsyserror(ep, ENODEV, colnp->cname)); /* * 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_raid_replace. */ if (fs_dev != colnp->dev) { /* * Save the devt of mddb version */ del_dev = colnp->dev; /* establish file system binding with invalid start/end */ colnp->dev = fs_dev; colnp->start_blk = -1; colnp->end_blk = -1; err = meta_raid_replace(sp, raidnp, colnp, colnp, options, ep); /* * Don't do it if meta_raid_replace returns an error */ if (!err && (devnm = meta_getnmentbydev(sp->setno, MD_SIDEWILD, del_dev, NULL, NULL, &colnp->key, ep)) != NULL) { (void) del_key_name(sp, colnp, ep); Free(devnm); } return (err); } /* setup raid info */ (void) memset(¶ms, 0, sizeof (params)); params.mnum = meta_getminor(raidnp->dev); MD_SETDRIVERNAME(¶ms, MD_RAID, sp->setno); params.old_dev = params.new_dev = colnp->dev; if (force) params.cmd = FORCE_ENABLE_COMP; else params.cmd = ENABLE_COMP; /* check it out */ if (validate_new_raid(sp, raidnp, colnp, ¶ms, 1, ep) != 0) return (-1); /* enable column */ if (metaioctl(MD_IOCREPLACE, ¶ms, ¶ms.mde, NULL) != 0) return (mdstealerror(ep, ¶ms.mde)); /* * 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)) { ret = meta_fixdevid(sp, DEV_UPDATE|DEV_LOCAL_SET, colnp->cname, ep); if (ret != 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(colnp); meta_invalidate_name(raidnp); /* let em know */ if (options & MDCMD_PRINT) { (void) printf(dgettext(TEXT_DOMAIN, "%s: device %s is enabled\n"), raidnp->cname, colnp->cname); (void) fflush(stdout); } /* return success */ return (0); } /* * check for dups in the raid itself */ static int check_twice( md_raid_t *raidp, uint_t col, md_error_t *ep ) { mdname_t *raidnp = raidp->common.namep; mdname_t *thisnp; uint_t c; thisnp = raidp->cols.cols_val[col].colnamep; for (c = 0; (c < col); ++c) { md_raidcol_t *mdcp = &raidp->cols.cols_val[c]; mdname_t *colnp = mdcp->colnamep; if (meta_check_overlap(raidnp->cname, thisnp, 0, -1, colnp, 0, -1, ep) != 0) { return (-1); } } return (0); } /* * default raid interlace */ diskaddr_t meta_default_raid_interlace(void) { diskaddr_t interlace; /* default to 512k, round up if necessary */ interlace = btodb(512 * 1024); if (interlace < lbtodb(MININTERLACE)) interlace = roundup(MININTERLACE, interlace); return (interlace); } /* * convert interlaces */ int meta_raid_check_interlace( diskaddr_t interlace, char *uname, md_error_t *ep ) { if ((interlace < btodb(RAID_MIN_INTERLACE)) || (interlace > btodb(MAXINTERLACE))) { return (mderror(ep, MDE_BAD_INTERLACE, uname)); } return (0); } /* * check raid */ int meta_check_raid( mdsetname_t *sp, md_raid_t *raidp, mdcmdopts_t options, md_error_t *ep ) { mdname_t *raidnp = raidp->common.namep; int doit = ((options & MDCMD_DOIT) ? 1 : 0); int updateit = ((options & MDCMD_UPDATE) ? 1 : 0); uint_t ncol; uint_t col; minor_t mnum = meta_getminor(raidnp->dev); /* check number */ if (((ncol = raidp->cols.cols_len) < MD_RAID_MIN) || (raidp->orig_ncol > ncol)) { return (mdmderror(ep, MDE_BAD_RAID, mnum, raidnp->cname)); } /* compute default interlace */ if (raidp->interlace == 0) { raidp->interlace = meta_default_raid_interlace(); } /* check state */ switch (raidp->state) { case RUS_INIT: case RUS_OKAY: break; default: return (mdmderror(ep, MDE_BAD_RAID, mnum, raidnp->cname)); } /* check interlace */ if (meta_raid_check_interlace(raidp->interlace, raidnp->cname, ep) != 0) return (-1); /* check hotspare pool name */ if (doit) { if ((raidp->hspnamep != NULL) && (metachkhsp(sp, raidp->hspnamep, ep) != 0)) { return (-1); } } /* check columns */ for (col = 0; (col < ncol); ++col) { md_raidcol_t *mdcp = &raidp->cols.cols_val[col]; mdname_t *colnp = mdcp->colnamep; diskaddr_t start_blk, size; /* setup column */ if (raidp->state == RUS_INIT) mdcp->state = RCS_INIT; else mdcp->state = RCS_OKAY; /* check column */ if (!updateit) { if (meta_check_column(sp, colnp, ep) != 0) return (-1); if (((start_blk = metagetstart(sp, colnp, ep)) == MD_DISKADDR_ERROR) || ((size = metagetsize(colnp, ep)) == MD_DISKADDR_ERROR)) { return (-1); } if (start_blk >= size) return (mdsyserror(ep, ENOSPC, colnp->cname)); size -= start_blk; size = rounddown(size, raidp->interlace); if (size == 0) return (mdsyserror(ep, ENOSPC, colnp->cname)); } /* check this raid too */ if (check_twice(raidp, col, ep) != 0) return (-1); } /* return success */ return (0); } /* * setup raid geometry */ static int raid_geom( md_raid_t *raidp, mr_unit_t *mr, md_error_t *ep ) { uint_t write_reinstruct = 0; uint_t read_reinstruct = 0; uint_t round_cyl = 1; uint_t col; mdgeom_t *geomp; /* get worst reinstructs */ for (col = 0; (col < raidp->cols.cols_len); ++col) { md_raidcol_t *mdcp = &raidp->cols.cols_val[col]; mdname_t *colnp = mdcp->colnamep; if ((geomp = metagetgeom(colnp, ep)) == NULL) return (-1); if (geomp->write_reinstruct > write_reinstruct) write_reinstruct = geomp->write_reinstruct; if (geomp->read_reinstruct > read_reinstruct) read_reinstruct = geomp->read_reinstruct; } /* setup geometry from first column */ assert(raidp->cols.cols_len > 0); if ((geomp = metagetgeom(raidp->cols.cols_val[0].colnamep, ep)) == NULL) { return (-1); } if (meta_setup_geom((md_unit_t *)mr, raidp->common.namep, geomp, write_reinstruct, read_reinstruct, round_cyl, ep) != 0) return (-1); /* return success */ return (0); } int meta_raid_state_cnt(mr_unit_t *mr, rcs_state_t state) { int statecnt = 0; int col; for (col = 0; col < mr->un_totalcolumncnt; col++) if (mr->un_column[col].un_devstate & state) statecnt++; return (statecnt); } /* * validate that a raid device being created with the -k flag is a real * raid device */ int meta_raid_valid(md_raid_t *raidp, mr_unit_t *mr) { long long buf[DEV_BSIZE / sizeof (long long)]; raid_pwhdr_t pwhdr; raid_pwhdr_t *rpw = &pwhdr; minor_t mnum; int col; int fd; for (col = 0; col < mr->un_totalcolumncnt; col++) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; mdname_t *colnp = cp->colnamep; if ((fd = open(colnp->rname, O_RDONLY)) < 0) goto error_exit; if (lseek64(fd, (mr->un_column[col].un_pwstart * DEV_BSIZE), SEEK_SET) < 0) goto error_exit; if (read(fd, buf, DEV_BSIZE) < 0) goto error_exit; /* * If our raid device is a 64 bit device, we can accept the * pw header we just read in. * Otherwise it's of type raid_pwhdr32_od_t and has to * be converted. */ if (mr->c.un_revision & MD_64BIT_META_DEV) { rpw = (raid_pwhdr_t *)buf; } else { RAID_CONVERT_RPW((raid_pwhdr32_od_t *)buf, rpw); } if (rpw->rpw_column != col) goto error_exit; if (col == 0) mnum = rpw->rpw_unit; if (rpw->rpw_unit != mnum) goto error_exit; if (rpw->rpw_magic_ext == RAID_PWMAGIC) { /* 4.1 prewrite header */ if ((rpw->rpw_origcolumncnt != mr->un_origcolumncnt) || (rpw->rpw_totalcolumncnt != mr->un_totalcolumncnt) || (rpw->rpw_segsize != mr->un_segsize) || (rpw->rpw_segsincolumn != mr->un_segsincolumn) || (rpw->rpw_pwcnt != mr->un_pwcnt) || (rpw->rpw_pwstart != mr->un_column[col].un_pwstart) || (rpw->rpw_devstart != mr->un_column[col].un_devstart) || (rpw->rpw_pwsize != mr->un_pwsize)) goto error_exit; } /* * this is an old prewrite header (4.0) the unit structure * will have to be trusted. */ (void) close(fd); } return (0); error_exit: (void) close(fd); return (-1); } /* * create raid */ int meta_create_raid( mdsetname_t *sp, md_raid_t *raidp, mdcmdopts_t options, md_error_t *ep ) { mdname_t *raidnp = raidp->common.namep; uint_t ncol = raidp->cols.cols_len; uint_t orig_ncol = raidp->orig_ncol; size_t rdsize; mr_unit_t *mr; uint_t col; diskaddr_t disk_size = 0; uint_t disk_maxio = 0; uint_t pwes; diskaddr_t non_pw_blks, column_size; mdnamelist_t *keynlp = NULL; md_set_params_t set_params; int rval = -1; md_timeval32_t creation_time; int create_flag = MD_CRO_32BIT; /* validate raid */ if (meta_check_raid(sp, raidp, options, ep) != 0) return (-1); /* allocate raid unit */ rdsize = sizeof (*mr) - sizeof (mr->un_column[0]); rdsize += ncol * sizeof (mr->un_column[0]); mr = Zalloc(rdsize); if (meta_gettimeofday(&creation_time) == -1) return (mdsyserror(ep, errno, NULL)); /* * initialize the top level mr_unit_t structure * setup the unit state to indicate whether to retain * any data currently on the metadevice or to clear it */ mr->c.un_type = MD_METARAID; MD_SID(mr) = meta_getminor(raidnp->dev); mr->c.un_size = rdsize; mr->un_magic = RAID_UNMAGIC; mr->un_state = raidp->state; mr->un_timestamp = creation_time; mr->un_origcolumncnt = orig_ncol; mr->un_segsize = (uint_t)raidp->interlace; if (raidp->hspnamep != NULL) { mr->un_hsp_id = raidp->hspnamep->hsp; } else { mr->un_hsp_id = MD_HSP_NONE; } /* * setup original columns, saving start_block and * finding smallest size and maxio */ for (col = 0; (col < orig_ncol); ++col) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; mdname_t *colnp = cp->colnamep; mr_column_t *mdc = &mr->un_column[col]; diskaddr_t size; uint_t maxio; mdcinfo_t *cinfop; /* setup state */ mdc->un_devstate = cp->state; /* setup creation time */ mdc->un_devtimestamp = creation_time; /* get start, size, and maxio */ if ((mdc->un_orig_devstart = metagetstart(sp, colnp, ep)) == MD_DISKADDR_ERROR) goto out; if ((size = metagetsize(colnp, ep)) == MD_DISKADDR_ERROR) goto out; size -= mdc->un_orig_devstart; if ((cinfop = metagetcinfo(colnp, ep)) == NULL) goto out; maxio = cinfop->maxtransfer; if (options & MDCMD_DOIT) { /* store name in namespace */ if (add_key_name(sp, colnp, &keynlp, ep) != 0) goto out; } /* setup column */ mdc->un_orig_key = colnp->key; mdc->un_orig_dev = colnp->dev; mdc->un_dev = mdc->un_orig_dev; mdc->un_pwstart = mdc->un_orig_pwstart; mdc->un_devstart = mdc->un_orig_devstart; mdc->un_alt_dev = NODEV64; mdc->un_alt_pwstart = 0; mdc->un_alt_devstart = 0; mdc->un_hs_id = 0; if (mr->un_state == RUS_INIT) mdc->un_devstate = RCS_INIT; else mdc->un_devstate = RCS_OKAY; /* adjust for smallest disk */ if (disk_size == 0) { disk_size = size; } else if (size < disk_size) { disk_size = size; } if (disk_maxio == 0) { disk_maxio = maxio; } else if (maxio < disk_maxio) { disk_maxio = maxio; } } assert(col == mr->un_origcolumncnt); /* * before processing any of the attached column(s) * set up the composition of the metadevice for column * sizes and pre-write information */ mr->un_maxio = disk_maxio; /* smallest maxio */ mr->un_iosize = min(mr->un_maxio, (mr->un_segsize + 1)); pwes = mr->un_iosize; if (raidp->pw_count) mr->un_pwcnt = raidp->pw_count; else mr->un_pwcnt = PWCNT_MIN; if ((mr->un_pwcnt < PWCNT_MIN) || (mr->un_pwcnt > PWCNT_MAX)) { (void) mderror(ep, MDE_RAID_BAD_PW_CNT, raidnp->cname); goto out; } mr->un_pwsize = roundup((mr->un_pwcnt * pwes), 2); /* now calculate the number of segments per column */ non_pw_blks = disk_size - mr->un_pwsize; /* smallest disk */ if ((mr->un_pwsize > disk_size) || (non_pw_blks < (diskaddr_t)mr->un_segsize)) { (void) mdsyserror(ep, ENOSPC, raidnp->cname); goto out; } mr->un_segsincolumn = non_pw_blks / mr->un_segsize; column_size = mr->un_segsize * mr->un_segsincolumn; /* * adjust the pw_cnt, pw_size, to fit into any fragmentation * left over after column_size has been computed */ mr->un_pwsize = rounddown(((uint_t)(disk_size - column_size)), 2); mr->un_pwcnt = mr->un_pwsize / pwes; assert(mr->un_pwcnt >= PWCNT_MIN); mr->un_pwsize = roundup((mr->un_pwcnt * pwes), 2); assert((mr->un_pwsize + column_size) <= disk_size); /* * calculate the actual block count available based on the * segment size and the number of segments per column ... * ... and adjust for the number of parity segments */ mr->c.un_actual_tb = column_size * (mr->un_origcolumncnt - 1); if (raid_geom(raidp, mr, ep) != 0) goto out; create_flag = meta_check_devicesize(mr->c.un_total_blocks); /* * now calculate the pre-write offset and update the column * structures to include the address of the individual pre-write * areas */ for (col = 0; (col < orig_ncol); ++col) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; mdname_t *colnp = cp->colnamep; mr_column_t *mdc = &mr->un_column[col]; diskaddr_t size; /* get size */ if ((size = metagetsize(colnp, ep)) == MD_DISKADDR_ERROR) goto out; /* adjust start and size by prewrite */ mdc->un_orig_pwstart = mdc->un_orig_devstart; mdc->un_orig_devstart += mr->un_pwsize; mdc->un_pwstart = mdc->un_orig_pwstart; mdc->un_devstart = mdc->un_orig_devstart; assert(size >= mdc->un_orig_devstart); size -= mdc->un_orig_devstart; /* make sure we still have something left */ assert(size >= column_size); } /* do concat cols */ mr->un_totalcolumncnt = mr->un_origcolumncnt; assert(col == mr->un_origcolumncnt); for (col = orig_ncol; (col < ncol); ++col) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; mdname_t *colnp = cp->colnamep; mr_column_t *mdc = &mr->un_column[col]; /* attach column */ if (attach_raid_col(sp, raidnp, mr, mdc, colnp, cp->state, &keynlp, options, ep) != 0) { goto out; } } assert(mr->un_totalcolumncnt == ncol); /* fill in the size of the raid */ if (options & MDCMD_UPDATE) { raidp->common.size = mr->c.un_total_blocks; raidp->column_size = mr->un_segsize * mr->un_segsincolumn; } /* if we're not doing anything, return success */ if (! (options & MDCMD_DOIT)) { rval = 0; /* success */ goto out; } if ((mr->un_state & RUS_OKAY) && (meta_raid_valid(raidp, mr) != 0)) { (void) mderror(ep, MDE_RAID_INVALID, raidnp->cname); goto out; } /* create raid */ (void) memset(&set_params, 0, sizeof (set_params)); /* did the user tell us to generate a large device? */ if (create_flag == MD_CRO_64BIT) { mr->c.un_revision |= MD_64BIT_META_DEV; set_params.options = MD_CRO_64BIT; } else { mr->c.un_revision &= ~MD_64BIT_META_DEV; set_params.options = MD_CRO_32BIT; } set_params.mnum = MD_SID(mr); set_params.size = mr->c.un_size; set_params.mdp = (uintptr_t)mr; MD_SETDRIVERNAME(&set_params, MD_RAID, MD_MIN2SET(set_params.mnum)); if (metaioctl(MD_IOCSET, &set_params, &set_params.mde, raidnp->cname) != 0) { (void) mdstealerror(ep, &set_params.mde); goto out; } rval = 0; /* success */ /* cleanup, return success */ out: Free(mr); if (rval != 0) { (void) del_key_names(sp, keynlp, NULL); } metafreenamelist(keynlp); if ((rval == 0) && (options & MDCMD_DOIT)) { if (invalidate_columns(sp, raidnp, ep) != 0) rval = -1; meta_invalidate_name(raidnp); } return (rval); } /* * initialize raid * NOTE: this functions is metainit(1m)'s command line parser! */ int meta_init_raid( mdsetname_t **spp, int argc, char *argv[], mdcmdopts_t options, md_error_t *ep ) { char *uname = argv[0]; mdname_t *raidnp = NULL; int old_optind; int c; md_raid_t *raidp = NULL; uint_t ncol, col; int rval = -1; md_set_desc *sd; /* get raid name */ assert(argc > 0); if (argc < 1) goto syntax; if ((raidnp = metaname(spp, uname, META_DEVICE, ep)) == NULL) goto out; assert(*spp != NULL); /* * Raid metadevice not allowed on multi-node diskset. */ if (! metaislocalset(*spp)) { if ((sd = metaget_setdesc(*spp, ep)) == NULL) goto out; if (MD_MNSET_DESC(sd)) { rval = meta_cook_syntax(ep, MDE_MNSET_NORAID, uname, argc, argv); goto out; } } uname = raidnp->cname; if (metachkmeta(raidnp, ep) != 0) goto out; if (!(options & MDCMD_NOLOCK)) { /* grab set lock */ if (meta_lock(*spp, TRUE, ep) != 0) goto out; if (meta_check_ownership(*spp, ep) != 0) goto out; } /* see if it exists already */ if (metagetmiscname(raidnp, ep) != NULL) { (void) mdmderror(ep, MDE_UNIT_ALREADY_SETUP, meta_getminor(raidnp->dev), uname); goto out; } else if (! mdismderror(ep, MDE_UNIT_NOT_SETUP)) { goto out; } else { mdclrerror(ep); } --argc, ++argv; /* grab -r */ if ((argc < 1) || (strcmp(argv[0], "-r") != 0)) goto syntax; --argc, ++argv; /* parse general options */ optind = 0; opterr = 0; if (getopt(argc, argv, "") != -1) goto options; /* allocate raid */ raidp = Zalloc(sizeof (*raidp)); /* setup common */ raidp->common.namep = raidnp; raidp->common.type = MD_METARAID; raidp->state = RUS_INIT; /* allocate and parse cols */ for (ncol = 0; ((ncol < argc) && (argv[ncol][0] != '-')); ++ncol) ; raidp->cols.cols_len = ncol; if (ncol != 0) { raidp->cols.cols_val = Zalloc(ncol * sizeof (*raidp->cols.cols_val)); } for (col = 0; ((argc > 0) && (col < ncol)); ++col) { md_raidcol_t *mdc = &raidp->cols.cols_val[col]; mdname_t *colnp; /* parse column name */ if ((colnp = metaname(spp, argv[0], UNKNOWN, ep)) == NULL) goto out; /* check for soft partitions */ if (meta_sp_issp(*spp, colnp, ep) != 0) { /* check disks */ if (metachkcomp(colnp, ep) != 0) goto out; } mdc->colnamep = colnp; --argc, ++argv; } /* parse raid options */ old_optind = optind = 0; opterr = 0; while ((c = getopt(argc, argv, "h:i:ko:w:")) != -1) { switch (c) { case 'h': if ((raidp->hspnamep = metahspname(spp, optarg, ep)) == NULL) { goto out; } /* * Get out if the specified hotspare pool really * doesn't exist. */ if (raidp->hspnamep->hsp == MD_HSP_NONE) { (void) mdhsperror(ep, MDE_INVAL_HSP, raidp->hspnamep->hsp, optarg); goto out; } break; case 'i': if (parse_interlace(uname, optarg, &raidp->interlace, ep) != 0) { goto out; } if (meta_raid_check_interlace(raidp->interlace, uname, ep)) goto out; break; case 'k': raidp->state = RUS_OKAY; break; case 'o': if ((sscanf(optarg, "%u", &raidp->orig_ncol) != 1) || ((int)raidp->orig_ncol < 0)) { goto syntax; } if ((raidp->orig_ncol < MD_RAID_MIN) || (raidp->orig_ncol > ncol)) { rval = mderror(ep, MDE_BAD_ORIG_NCOL, uname); goto out; } break; case 'w': if ((sscanf(optarg, "%d", &raidp->pw_count) != 1) || ((int)raidp->pw_count < 0)) goto syntax; if (((int)raidp->pw_count < PWCNT_MIN) || ((int)raidp->pw_count > PWCNT_MAX)) { rval = mderror(ep, MDE_RAID_BAD_PW_CNT, uname); goto out; } break; default: argc += old_optind; argv -= old_optind; goto options; } old_optind = optind; } argc -= optind; argv += optind; /* we should be at the end */ if (argc != 0) goto syntax; /* default to all original columns */ if (raidp->orig_ncol == 0) raidp->orig_ncol = ncol; /* create raid */ if (meta_create_raid(*spp, raidp, options, ep) != 0) goto out; rval = 0; /* success */ /* let em know */ if (options & MDCMD_PRINT) { (void) printf(dgettext(TEXT_DOMAIN, "%s: RAID is setup\n"), uname); (void) fflush(stdout); } 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 (raidp != NULL) meta_free_raid(raidp); return (rval); } /* * reset RAIDs */ int meta_raid_reset( mdsetname_t *sp, mdname_t *raidnp, mdcmdopts_t options, md_error_t *ep ) { md_raid_t *raidp; int rval = -1; int col; /* should have same set */ assert(sp != NULL); assert((raidnp == NULL) || (sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev)))); /* reset all raids */ if (raidnp == NULL) { mdnamelist_t *raidnlp = NULL; mdnamelist_t *p; /* for each raid */ rval = 0; if (meta_get_raid_names(sp, &raidnlp, 0, ep) < 0) return (-1); for (p = raidnlp; (p != NULL); p = p->next) { /* reset RAID */ raidnp = p->namep; if (meta_raid_reset(sp, raidnp, options, ep) != 0) { rval = -1; break; } } /* cleanup, return success */ metafreenamelist(raidnlp); return (rval); } /* check name */ if (metachkmeta(raidnp, ep) != 0) return (-1); /* get unit structure */ if ((raidp = meta_get_raid(sp, raidnp, ep)) == NULL) return (-1); /* make sure nobody owns us */ if (MD_HAS_PARENT(raidp->common.parent)) { return (mdmderror(ep, MDE_IN_USE, meta_getminor(raidnp->dev), raidnp->cname)); } /* clear subdevices cache */ if (invalidate_columns(sp, raidnp, ep) != 0) return (-1); /* clear metadevice */ if (meta_reset(sp, raidnp, options, ep) != 0) goto out; rval = 0; /* success */ /* let em know */ if (options & MDCMD_PRINT) { (void) printf(dgettext(TEXT_DOMAIN, "%s: RAID is cleared\n"), raidnp->cname); (void) fflush(stdout); } /* clear subdevices */ if (! (options & MDCMD_RECURSE)) goto out; for (col = 0; (col < raidp->cols.cols_len); ++col) { md_raidcol_t *cp = &raidp->cols.cols_val[col]; mdname_t *colnp = cp->colnamep; /* only recurse on metadevices */ if (! metaismeta(colnp)) continue; if (meta_reset_by_name(sp, colnp, options, ep) != 0) rval = -1; } /* cleanup, return success */ out: meta_invalidate_name(raidnp); return (rval); } /* * reports TRUE if any RAID component is in error */ int meta_raid_anycomp_is_err(mdsetname_t *sp, mdnamelist_t *raid_names) { mdnamelist_t *nlp; md_error_t status = mdnullerror; md_error_t *ep = &status; int any_errs = FALSE; for (nlp = raid_names; nlp; nlp = nlp->next) { md_raid_t *raidp; if ((raidp = meta_get_raid(sp, nlp->namep, ep)) == NULL) { any_errs |= TRUE; goto out; } if (raidp->state != RUS_OKAY && raidp->state != RUS_INIT) { any_errs |= TRUE; goto out; } } out: if (!mdisok(ep)) mdclrerror(ep); return (any_errs); } /* * regen parity on a raid */ int meta_raid_regen_byname(mdsetname_t *sp, mdname_t *raidnp, diskaddr_t size, md_error_t *ep) { char *miscname; md_resync_ioctl_t ri; /* should have a set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(raidnp->dev))); /* make sure we have a raid */ if ((miscname = metagetmiscname(raidnp, ep)) == NULL) return (-1); if (strcmp(miscname, MD_RAID) != 0) { return (mdmderror(ep, MDE_NOT_RAID, meta_getminor(raidnp->dev), raidnp->cname)); } /* start resync */ (void) memset(&ri, 0, sizeof (ri)); MD_SETDRIVERNAME(&ri, MD_RAID, sp->setno); ri.ri_mnum = meta_getminor(raidnp->dev); ri.ri_copysize = size; if (metaioctl(MD_IOCSETREGEN, &ri, &ri.mde, raidnp->cname) != 0) return (mdstealerror(ep, &ri.mde)); /* return success */ return (0); } int meta_raid_check_component( mdsetname_t *sp, mdname_t *np, md_dev64_t mydevs, md_error_t *ep ) { md_raid_t *raid; mdnm_params_t nm; md_getdevs_params_t mgd; side_t sideno; char *miscname; md_dev64_t *mydev = NULL; mdkey_t key; char *pname = NULL, *t; char *ctd_name = NULL; char *devname = NULL; int len; int i; int rval = -1; (void) memset(&nm, '\0', sizeof (nm)); if ((raid = meta_get_raid_common(sp, np, 0, ep)) == NULL) return (-1); if ((miscname = metagetmiscname(np, ep)) == NULL) return (-1); sideno = getmyside(sp, ep); /* get count of underlying devices */ (void) memset(&mgd, '\0', sizeof (mgd)); MD_SETDRIVERNAME(&mgd, miscname, sp->setno); mgd.mnum = meta_getminor(np->dev); mgd.cnt = 0; mgd.devs = NULL; if (metaioctl(MD_IOCGET_DEVS, &mgd, &mgd.mde, np->cname) != 0) { (void) mdstealerror(ep, &mgd.mde); rval = 0; goto out; } else if (mgd.cnt <= 0) { assert(mgd.cnt >= 0); rval = 0; goto out; } /* * Now get the data from the unit structure. * The compnamep stuff contains the data from * the namespace and we need the un_dev * from the unit structure. */ mydev = Zalloc(sizeof (*mydev) * mgd.cnt); mgd.devs = (uintptr_t)mydev; if (metaioctl(MD_IOCGET_DEVS, &mgd, &mgd.mde, np->cname) != 0) { (void) mdstealerror(ep, &mgd.mde); rval = 0; goto out; } else if (mgd.cnt <= 0) { assert(mgd.cnt >= 0); rval = 0; goto out; } for (i = 0; i < raid->orig_ncol; i++) { md_raidcol_t *colp = &raid->cols.cols_val[i]; mdname_t *compnp = colp->colnamep; if (mydevs == mydev[i]) { /* Get the devname from the name space. */ if ((devname = meta_getnmentbydev(sp->setno, sideno, compnp->dev, NULL, NULL, &key, ep)) == NULL) { goto out; } if (compnp->dev != meta_getminor(mydev[i])) { /* * The minor numbers are different. Update * the namespace with the information from * the component. */ t = strrchr(devname, '/'); t++; ctd_name = Strdup(t); len = strlen(devname); t = strrchr(devname, '/'); t++; pname = Zalloc((len - strlen(t)) + 1); (void) strncpy(pname, devname, (len - strlen(t))); if (meta_update_namespace(sp->setno, sideno, ctd_name, mydev[i], key, pname, ep) != 0) { goto out; } } rval = 0; break; } /* End of if (mydevs == mydev[i]) */ } /* end of for loop */ out: if (pname != NULL) Free(pname); if (ctd_name != NULL) Free(ctd_name); if (devname != NULL) Free(devname); if (mydev != NULL) Free(mydev); return (rval); }