/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * 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 /* * Metadevice database interfaces. */ #define MDDB #include #include #include #include #include #include #include struct svm_daemon { char *svmd_name; char *svmd_kill_val; }; struct svm_daemon svmd_kill_list[] = { {"mdmonitord", "HUP"}, {"mddoors", "KILL"}, }; #define DAEMON_COUNT (sizeof (svmd_kill_list)/ sizeof (struct svm_daemon)) #define MDMONITORD "/usr/sbin/mdmonitord" extern int procsigs(int block, sigset_t *oldsigs, md_error_t *ep); /* * meta_get_lb_inittime sends a request for the lb_inittime to the kernel */ md_timeval32_t meta_get_lb_inittime( mdsetname_t *sp, md_error_t *ep ) { mddb_config_t c; (void) memset(&c, 0, sizeof (c)); /* Fill in setno, setname, and sideno */ c.c_setno = sp->setno; if (metaioctl(MD_DB_LBINITTIME, &c, &c.c_mde, NULL) != 0) { (void) mdstealerror(ep, &c.c_mde); } return (c.c_timestamp); } /* * mkmasterblks writes out the master blocks of the mddb to the replica. * * In a MN diskset, this is called by the node that is adding this replica * to the diskset. */ #define MDDB_VERIFY_SIZE 8192 static int mkmasterblks( mdsetname_t *sp, mdname_t *np, int fd, daddr_t firstblk, int dbsize, md_timeval32_t inittime, md_error_t *ep ) { int consecutive; md_timeval32_t tp; struct mddb_mb *mb; char *buffer; int iosize; md_set_desc *sd; int mn_set = 0; daddr_t startblk; int cnt; ddi_devid_t devid; if (! metaislocalset(sp)) { if ((sd = metaget_setdesc(sp, ep)) == NULL) return (-1); if (MD_MNSET_DESC(sd)) { mn_set = 1; /* Used later */ } } /* * Loop to verify the entire mddb region on disk is read/writable. * buffer is used to write/read in at most MDDB_VERIFY_SIZE block * chunks. * * A side-effect of this loop is to zero out the entire mddb region */ if ((buffer = Zalloc(MDDB_VERIFY_SIZE * DEV_BSIZE)) == NULL) return (mdsyserror(ep, ENOMEM, np->rname)); startblk = firstblk; for (cnt = dbsize; cnt > 0; cnt -= consecutive) { if (cnt > MDDB_VERIFY_SIZE) consecutive = MDDB_VERIFY_SIZE; else consecutive = cnt; if (lseek(fd, (off_t)(startblk * DEV_BSIZE), SEEK_SET) < 0) { Free(buffer); return (mdsyserror(ep, errno, np->rname)); } iosize = DEV_BSIZE * consecutive; if (write(fd, buffer, iosize) != iosize) { Free(buffer); return (mdsyserror(ep, errno, np->rname)); } if (lseek(fd, (off_t)(startblk * DEV_BSIZE), SEEK_SET) < 0) { Free(buffer); return (mdsyserror(ep, errno, np->rname)); } if (read(fd, buffer, iosize) != iosize) { Free(buffer); return (mdsyserror(ep, errno, np->rname)); } startblk += consecutive; } Free(buffer); if ((mb = Zalloc(DEV_BSIZE)) == NULL) return (mdsyserror(ep, ENOMEM, np->rname)); if (meta_gettimeofday(&tp) == -1) { Free(mb); return (mdsyserror(ep, errno, np->rname)); } mb->mb_magic = MDDB_MAGIC_MB; /* * If a MN diskset, set master block revision for a MN set. * Even though the master block structure is no different * for a MN set, setting the revision field to a different * number keeps any pre-MN_diskset code from accessing * this diskset. It also allows for an early determination * of a MN diskset when reading in from disk so that the * proper size locator block and locator names structure * can be read in thus saving time on diskset startup. */ if (mn_set) mb->mb_revision = MDDB_REV_MNMB; else mb->mb_revision = MDDB_REV_MB; mb->mb_timestamp = tp; mb->mb_setno = sp->setno; mb->mb_blkcnt = dbsize - 1; mb->mb_blkno = firstblk; mb->mb_nextblk = 0; mb->mb_blkmap.m_firstblk = firstblk + 1; mb->mb_blkmap.m_consecutive = dbsize - 1; if (! metaislocalset(sp)) { mb->mb_setcreatetime = inittime; } /* * We try to save the disks device ID into the remaining bytes in * the master block. The saved devid is used to provide a mapping * between this disk's devid and the devid stored into the master * block. This allows the disk image to be self-identifying * if it gets copied (e.g. SNDR, True Copy, etc.). This is used * when we try to import these disks on the remote copied image. * If we cannot save the disks device ID onto the master block that is * ok. The disk is just not self-identifying and won't be importable * in the remote copy scenario. */ if (devid_get(fd, &devid) == 0) { size_t len; len = devid_sizeof(devid); if (len <= DEV_BSIZE - sizeof (*mb)) { /* there is enough space to store the devid */ mb->mb_devid_magic = MDDB_MAGIC_DE; mb->mb_devid_len = len; (void) memcpy(mb->mb_devid, devid, len); } devid_free(devid); } crcgen((uchar_t *)mb, (uint_t *)&mb->mb_checksum, (uint_t)DEV_BSIZE, (crc_skip_t *)NULL); if (lseek(fd, (off_t)(firstblk * DEV_BSIZE), SEEK_SET) < 0) { Free(mb); return (mdsyserror(ep, errno, np->rname)); } if (write(fd, mb, DEV_BSIZE) != DEV_BSIZE) { Free(mb); return (mdsyserror(ep, errno, np->rname)); } if (lseek(fd, (off_t)(firstblk * DEV_BSIZE), SEEK_SET) < 0) { Free(mb); return (mdsyserror(ep, errno, np->rname)); } if (read(fd, mb, DEV_BSIZE) != DEV_BSIZE) { Free(mb); return (mdsyserror(ep, errno, np->rname)); } if (crcchk((uchar_t *)mb, (uint_t *)&mb->mb_checksum, (uint_t)DEV_BSIZE, (crc_skip_t *)NULL)) { Free(mb); return (mdmddberror(ep, MDE_NOTVERIFIED, meta_getminor(np->dev), sp->setno, 0, np->rname)); } Free(mb); return (0); } void meta_mkdummymaster( mdsetname_t *sp, int fd, daddr_t firstblk ) { md_timeval32_t tp; struct mddb_mb *mb; ddi_devid_t devid; md_set_desc *sd; md_error_t ep = mdnullerror; md_timeval32_t inittime; /* * No dummy master blocks are written for a MN diskset since devids * are not supported in MN disksets. */ if (! metaislocalset(sp)) { if ((sd = metaget_setdesc(sp, &ep)) == NULL) return; if (MD_MNSET_DESC(sd)) return; } if ((mb = Zalloc(DEV_BSIZE)) == NULL) return; mb->mb_magic = MDDB_MAGIC_DU; mb->mb_revision = MDDB_REV_MB; mb->mb_setno = sp->setno; inittime = meta_get_lb_inittime(sp, &ep); mb->mb_setcreatetime = inittime; if (meta_gettimeofday(&tp) != -1) mb->mb_timestamp = tp; /* * We try to save the disks device ID into the remaining bytes in * the master block. This allows the disk image to be self-identifying * if it gets copied (e.g. SNDR, True Copy, etc.). This is used * when we try to import these disks on the remote copied image. * If we cannot save the disks device ID onto the master block that is * ok. The disk is just not self-identifying and won't be importable * in the remote copy scenario. */ if (devid_get(fd, &devid) == 0) { int len; len = devid_sizeof(devid); if (len <= DEV_BSIZE - sizeof (*mb)) { /* there is enough space to store the devid */ mb->mb_devid_magic = MDDB_MAGIC_DE; mb->mb_devid_len = len; (void) memcpy(mb->mb_devid, (char *)devid, len); } devid_free(devid); } crcgen((uchar_t *)mb, (uint_t *)&mb->mb_checksum, (uint_t)DEV_BSIZE, (crc_skip_t *)NULL); /* * If any of these operations fail, we need to inform the * user that the disk won't be self identifying. When support * for importing remotely replicated disksets is added, we * want to add the error messages here. */ if (lseek(fd, (off_t)(firstblk * DEV_BSIZE), SEEK_SET) < 0) goto out; if (write(fd, mb, DEV_BSIZE) != DEV_BSIZE) goto out; if (lseek(fd, (off_t)(firstblk * DEV_BSIZE), SEEK_SET) < 0) goto out; if (read(fd, mb, DEV_BSIZE) != DEV_BSIZE) goto out; if (crcchk((uchar_t *)mb, (uint_t *)&mb->mb_checksum, (uint_t)DEV_BSIZE, (crc_skip_t *)NULL)) goto out; out: Free(mb); } static int buildconf(mdsetname_t *sp, md_error_t *ep) { md_replicalist_t *rlp = NULL; md_replicalist_t *rl; FILE *cfp = NULL; FILE *mfp = NULL; struct stat sbuf; int rval = 0; int in_miniroot = 0; char line[MDDB_BOOTLIST_MAX_LEN]; char *tname = NULL; /* get list of local replicas */ if (! metaislocalset(sp)) return (0); if (metareplicalist(sp, MD_BASICNAME_OK, &rlp, ep) < 0) return (-1); /* open tempfile, copy permissions of original file */ if ((cfp = fopen(META_DBCONFTMP, "w+")) == NULL) { /* * On the miniroot tmp files must be created in /var/tmp. * If we get a EROFS error, we assume that we are in the * miniroot. */ if (errno != EROFS) goto error; in_miniroot = 1; errno = 0; tname = tempnam("/var/tmp", "slvm_"); if (tname == NULL && errno == EROFS) { /* * If we are booted on a read-only root because * of mddb quorum problems we don't want to emit * any scary error messages. */ errno = 0; goto out; } /* open tempfile, copy permissions of original file */ if ((cfp = fopen(tname, "w+")) == NULL) goto error; } if (stat(META_DBCONF, &sbuf) == 0) { if (fchmod(fileno(cfp), (sbuf.st_mode & 0666)) != 0) goto error; if (fchown(fileno(cfp), sbuf.st_uid, sbuf.st_gid) != 0) goto error; } /* print header */ if (fprintf(cfp, "#metadevice database location file ") == EOF) goto error; if (fprintf(cfp, "do not hand edit\n") < 0) goto error; if (fprintf(cfp, "#driver\tminor_t\tdaddr_t\tdevice id\tchecksum\n") < 0) goto error; /* dump replicas */ for (rl = rlp; (rl != NULL); rl = rl->rl_next) { md_replica_t *r = rl->rl_repp; int checksum = 42; int i; char *devidp; minor_t min; devidp = devid_str_encode(r->r_devid, r->r_minor_name); /* If devid code can't encode devidp - skip entry */ if (devidp == NULL) { continue; } /* compute checksum */ for (i = 0; ((r->r_driver_name[i] != '\0') && (i < sizeof (r->r_driver_name))); i++) { checksum -= r->r_driver_name[i]; } min = meta_getminor(r->r_namep->dev); checksum -= min; checksum -= r->r_blkno; for (i = 0; i < strlen(devidp); i++) { checksum -= devidp[i]; } /* print info */ if (fprintf(cfp, "%s\t%lu\t%ld\t%s\t%d\n", r->r_driver_name, min, r->r_blkno, devidp, checksum) < 0) { goto error; } devid_str_free(devidp); } /* close and rename to real file */ if (fflush(cfp) != 0) goto error; if (fsync(fileno(cfp)) != 0) goto error; if (fclose(cfp) != 0) { cfp = NULL; goto error; } cfp = NULL; /* * Renames don't work in the miniroot since tmpfiles are * created in /var/tmp. Hence we copy the data out. */ if (! in_miniroot) { if (rename(META_DBCONFTMP, META_DBCONF) != 0) goto error; } else { if ((cfp = fopen(tname, "r")) == NULL) goto error; if ((mfp = fopen(META_DBCONF, "w+")) == NULL) goto error; while (fgets(line, MDDB_BOOTLIST_MAX_LEN, cfp) != NULL) { if (fputs(line, mfp) == NULL) goto error; } (void) fclose(cfp); cfp = NULL; if (fflush(mfp) != 0) goto error; if (fsync(fileno(mfp)) != 0) goto error; if (fclose(mfp) != 0) { mfp = NULL; goto error; } /* delete the tempfile */ (void) unlink(tname); } /* success */ rval = 0; goto out; /* tempfile error */ error: rval = (in_miniroot) ? mdsyserror(ep, errno, tname): mdsyserror(ep, errno, META_DBCONFTMP); /* cleanup, return success */ out: if (rlp != NULL) metafreereplicalist(rlp); if ((cfp != NULL) && (fclose(cfp) != 0) && (rval == 0)) { rval = (in_miniroot) ? mdsyserror(ep, errno, tname): mdsyserror(ep, errno, META_DBCONFTMP); } free(tname); return (rval); } /* * check replica for dev */ static int in_replica( mdsetname_t *sp, md_replica_t *rp, mdname_t *np, diskaddr_t slblk, diskaddr_t nblks, md_error_t *ep ) { mdname_t *repnp = rp->r_namep; diskaddr_t rep_sblk = rp->r_blkno; diskaddr_t rep_nblks = rp->r_nblk; /* should be in the same set */ assert(sp != NULL); /* if error in master block, assume whole partition */ if ((rep_sblk == MD_DISKADDR_ERROR) || (rep_nblks == MD_DISKADDR_ERROR)) { rep_sblk = 0; rep_nblks = MD_DISKADDR_ERROR; } /* check overlap */ if (meta_check_overlap( MDB_STR, np, slblk, nblks, repnp, rep_sblk, rep_nblks, ep) != 0) { return (-1); } /* return success */ return (0); } /* * check to see if we're in a replica */ int meta_check_inreplica( mdsetname_t *sp, mdname_t *np, diskaddr_t slblk, diskaddr_t nblks, md_error_t *ep ) { md_replicalist_t *rlp = NULL; md_replicalist_t *rl; int rval = 0; /* should have a set */ assert(sp != NULL); /* for each replica */ if (metareplicalist(sp, MD_BASICNAME_OK, &rlp, ep) < 0) return (-1); for (rl = rlp; (rl != NULL); rl = rl->rl_next) { md_replica_t *rp = rl->rl_repp; /* check replica */ if (in_replica(sp, rp, np, slblk, nblks, ep) != 0) { rval = -1; break; } } /* cleanup, return success */ metafreereplicalist(rlp); return (rval); } /* * check replica */ int meta_check_replica( mdsetname_t *sp, /* set to check against */ mdname_t *np, /* component to check against */ mdchkopts_t options, /* option flags */ diskaddr_t slblk, /* start logical block */ diskaddr_t nblks, /* number of blocks (-1,rest of them) */ md_error_t *ep /* error packet */ ) { mdchkopts_t chkoptions = MDCHK_ALLOW_REPSLICE; /* 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); } if (options & MDCHK_ALLOW_NODBS) return (0); if (options & MDCHK_DRVINSET) return (0); /* 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, chkoptions, slblk, nblks, ep) != 0) return (-1); /* return success */ return (0); } static int update_dbinfo_on_drives( mdsetname_t *sp, md_drive_desc *dd, int set_locked, int force, md_error_t *ep ) { md_set_desc *sd; int i; md_setkey_t *cl_sk; int rval = 0; md_mnnode_desc *nd; if ((sd = metaget_setdesc(sp, ep)) == NULL) return (-1); if (! set_locked) { if (MD_MNSET_DESC(sd)) { md_error_t xep = mdnullerror; sigset_t sigs; /* Make sure we are blocking all signals */ if (procsigs(TRUE, &sigs, &xep) < 0) mdclrerror(&xep); nd = sd->sd_nodelist; while (nd) { if (force && strcmp(nd->nd_nodename, mynode()) != 0) { nd = nd->nd_next; continue; } if (!(nd->nd_flags & MD_MN_NODE_ALIVE)) { nd = nd->nd_next; continue; } if (clnt_lock_set(nd->nd_nodename, sp, ep)) return (-1); nd = nd->nd_next; } } else { for (i = 0; i < MD_MAXSIDES; i++) { /* Skip empty slots */ if (sd->sd_nodes[i][0] == '\0') continue; if (force && strcmp(sd->sd_nodes[i], mynode()) != 0) continue; if (clnt_lock_set(sd->sd_nodes[i], sp, ep)) return (-1); } } } if (MD_MNSET_DESC(sd)) { nd = sd->sd_nodelist; while (nd) { if (force && strcmp(nd->nd_nodename, mynode()) != 0) { nd = nd->nd_next; continue; } if (!(nd->nd_flags & MD_MN_NODE_ALIVE)) { nd = nd->nd_next; continue; } if (clnt_upd_dr_dbinfo(nd->nd_nodename, sp, dd, ep) == -1) { rval = -1; break; } nd = nd->nd_next; } } else { for (i = 0; i < MD_MAXSIDES; i++) { /* Skip empty slots */ if (sd->sd_nodes[i][0] == '\0') continue; if (force && strcmp(sd->sd_nodes[i], mynode()) != 0) continue; if (clnt_upd_dr_dbinfo(sd->sd_nodes[i], sp, dd, ep) == -1) { rval = -1; break; } } } if (! set_locked) { cl_sk = cl_get_setkey(sp->setno, sp->setname); if (MD_MNSET_DESC(sd)) { nd = sd->sd_nodelist; while (nd) { if (force && strcmp(nd->nd_nodename, mynode()) != 0) { nd = nd->nd_next; continue; } if (!(nd->nd_flags & MD_MN_NODE_ALIVE)) { nd = nd->nd_next; continue; } if (clnt_unlock_set(nd->nd_nodename, cl_sk, ep)) { rval = -1; break; } nd = nd->nd_next; } } else { for (i = 0; i < MD_MAXSIDES; i++) { /* Skip empty slots */ if (sd->sd_nodes[i][0] == '\0') continue; if (force && strcmp(sd->sd_nodes[i], mynode()) != 0) continue; if (clnt_unlock_set(sd->sd_nodes[i], cl_sk, ep)) { rval = -1; break; } } } cl_set_setkey(NULL); } return (rval); } int meta_db_addsidenms( mdsetname_t *sp, mdname_t *np, daddr_t blkno, int bcast, md_error_t *ep ) { side_t sideno; char *bname = NULL; char *dname = NULL; minor_t mnum; mddb_config_t c; int done; int rval = 0; md_set_desc *sd; sideno = MD_SIDEWILD; /*CONSTCOND*/ while (1) { if (bname != NULL) { Free(bname); bname = NULL; } if (dname != NULL) { Free(dname); dname = NULL; } if ((done = meta_getnextside_devinfo(sp, np->bname, &sideno, &bname, &dname, &mnum, ep)) == -1) { rval = -1; break; } if (done == 0) break; if (! metaislocalset(sp)) { if ((sd = metaget_setdesc(sp, ep)) == NULL) { rval = -1; break; } } /* * Send addsidenms to all nodes using rpc.mdcommd if * sidename is being added to MN diskset. * * It's ok to broadcast this call to other nodes. * * Note: The broadcast to other nodes isn't needed during * the addition of the first mddbs to the set since the * other nodes haven't been joined to the set yet. All * nodes in a MN diskset are (implicitly) joined to the set * on the addition of the first mddb. */ if ((! metaislocalset(sp)) && MD_MNSET_DESC(sd) && (bcast == DB_ADDSIDENMS_BCAST)) { md_mn_result_t *resultp = NULL; md_mn_msg_meta_db_newside_t db_ns; int send_rval; db_ns.msg_l_dev = np->dev; db_ns.msg_sideno = sideno; db_ns.msg_blkno = blkno; (void) strncpy(db_ns.msg_dname, dname, sizeof (db_ns.msg_dname)); (void) splitname(np->bname, &db_ns.msg_splitname); db_ns.msg_mnum = mnum; /* Set devid to NULL until devids are supported */ db_ns.msg_devid[0] = NULL; /* * If reconfig cycle has been started, this node is * stuck in in the return step until this command has * completed. If mdcommd is suspended, ask * send_message to fail (instead of retrying) * so that metaset can finish allowing the reconfig * cycle to proceed. */ send_rval = mdmn_send_message(sp->setno, MD_MN_MSG_META_DB_NEWSIDE, MD_MSGF_FAIL_ON_SUSPEND | MD_MSGF_PANIC_WHEN_INCONSISTENT, (char *)&db_ns, sizeof (md_mn_msg_meta_db_newside_t), &resultp, ep); if (send_rval != 0) { rval = -1; if (resultp == NULL) (void) mddserror(ep, MDE_DS_COMMD_SEND_FAIL, sp->setno, NULL, NULL, sp->setname); else { (void) mdstealerror(ep, &(resultp->mmr_ep)); if (mdisok(ep)) { (void) mddserror(ep, MDE_DS_COMMD_SEND_FAIL, sp->setno, NULL, NULL, sp->setname); } free_result(resultp); } break; } if (resultp) free_result(resultp); } else { /* * Let this side's device name, minor # and driver name * be known to the database replica. */ (void) memset(&c, 0, sizeof (c)); /* Fill in device/replica info */ c.c_locator.l_dev = meta_cmpldev(np->dev); c.c_locator.l_blkno = blkno; (void) strncpy(c.c_locator.l_driver, dname, sizeof (c.c_locator.l_driver)); (void) splitname(bname, &c.c_devname); c.c_locator.l_mnum = mnum; /* Fill in setno, setname, and sideno */ c.c_setno = sp->setno; (void) strncpy(c.c_setname, sp->setname, sizeof (c.c_setname)); c.c_sideno = sideno; /* * Don't need device id information from this ioctl * Kernel determines device id from dev_t, which * is just what this code would do. */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_NEWSIDE, &c, &c.c_mde, NULL) != 0) { rval = mdstealerror(ep, &c.c_mde); break; } } } /* cleanup, return success */ if (bname != NULL) { Free(bname); bname = NULL; } if (dname != NULL) { Free(dname); dname = NULL; } return (rval); } int meta_db_delsidenm( mdsetname_t *sp, side_t sideno, mdname_t *np, daddr_t blkno, md_error_t *ep ) { mddb_config_t c; md_set_desc *sd; if (! metaislocalset(sp)) { if ((sd = metaget_setdesc(sp, ep)) == NULL) return (-1); } /* Use rpc.mdcommd to delete mddb side from all nodes */ if ((! metaislocalset(sp)) && MD_MNSET_DESC(sd) && (sd->sd_mn_mynode->nd_flags & MD_MN_NODE_OWN)) { md_mn_result_t *resultp = NULL; md_mn_msg_meta_db_delside_t db_ds; int send_rval; db_ds.msg_l_dev = np->dev; db_ds.msg_blkno = blkno; db_ds.msg_sideno = sideno; /* Set devid to NULL until devids are supported */ db_ds.msg_devid[0] = NULL; /* * If reconfig cycle has been started, this node is * stuck in in the return step until this command has * completed. If mdcommd is suspended, ask * send_message to fail (instead of retrying) * so that metaset can finish allowing the reconfig * cycle to proceed. */ send_rval = mdmn_send_message(sp->setno, MD_MN_MSG_META_DB_DELSIDE, MD_MSGF_FAIL_ON_SUSPEND | MD_MSGF_PANIC_WHEN_INCONSISTENT, (char *)&db_ds, sizeof (md_mn_msg_meta_db_delside_t), &resultp, ep); if (send_rval != 0) { if (resultp == NULL) (void) mddserror(ep, MDE_DS_COMMD_SEND_FAIL, sp->setno, NULL, NULL, sp->setname); else { (void) mdstealerror(ep, &(resultp->mmr_ep)); if (mdisok(ep)) { (void) mddserror(ep, MDE_DS_COMMD_SEND_FAIL, sp->setno, NULL, NULL, sp->setname); } free_result(resultp); } return (-1); } if (resultp) free_result(resultp); } else { /* * Let this side's device name, minor # and driver name * be known to the database replica. */ (void) memset(&c, 0, sizeof (c)); /* Fill in device/replica info */ c.c_locator.l_dev = meta_cmpldev(np->dev); c.c_locator.l_blkno = blkno; /* Fill in setno, setname, and sideno */ c.c_setno = sp->setno; (void) strcpy(c.c_setname, sp->setname); c.c_sideno = sideno; /* * Don't need device id information from this ioctl * Kernel determines device id from dev_t, which * is just what this code would do. */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_DELSIDE, &c, &c.c_mde, NULL) != 0) return (mdstealerror(ep, &c.c_mde)); } return (0); } static int mdnamesareunique(mdnamelist_t *nlp, md_error_t *ep) { mdnamelist_t *dnp1, *dnp2; for (dnp1 = nlp; dnp1 != NULL; dnp1 = dnp1->next) { for (dnp2 = dnp1->next; dnp2 != NULL; dnp2 = dnp2->next) { if (strcmp(dnp1->namep->cname, dnp2->namep->cname) == 0) return (mderror(ep, MDE_DUPDRIVE, dnp1->namep->cname)); } } return (0); } /* * Return 1 if files are different, else return 0 */ static int filediff(char *tsname, char *sname) { int ret = 1, fd; size_t tsz, sz; struct stat sbuf; char *tbuf, *buf; if (stat(tsname, &sbuf) != 0) return (1); tsz = sbuf.st_size; if (stat(sname, &sbuf) != 0) return (1); sz = sbuf.st_size; if (tsz != sz) return (1); /* allocate memory and read both files into buffer */ tbuf = malloc(tsz); buf = malloc(sz); if (tbuf == NULL || buf == NULL) goto out; fd = open(tsname, O_RDONLY); if (fd == -1) goto out; sz = read(fd, tbuf, tsz); (void) close(fd); if (sz != tsz) goto out; fd = open(sname, O_RDONLY); if (fd == -1) goto out; sz = read(fd, buf, tsz); (void) close(fd); if (sz != tsz) goto out; /* compare content */ ret = bcmp(tbuf, buf, tsz); out: if (tbuf) free(tbuf); if (buf) free(buf); return (ret); } /* * patch md.conf file with mddb locations */ int meta_db_patch( char *sname, /* system file name */ char *cname, /* mddb.cf file name */ int patch, /* patching locally */ md_error_t *ep ) { char *tsname = NULL; char line[MDDB_BOOTLIST_MAX_LEN]; FILE *tsfp = NULL; FILE *mfp = NULL; int rval = -1; /* check names */ if (sname == NULL) { if (patch) sname = "md.conf"; else sname = "/kernel/drv/md.conf"; } if (cname == NULL) cname = META_DBCONF; /* * edit file */ if (meta_systemfile_copy(sname, 0, 1, 1, 0, &tsname, &tsfp, ep) != 0) { if (mdissyserror(ep, EROFS)) { /* * If we are booted on a read-only root because * of mddb quorum problems we don't want to emit * any scary error messages. */ mdclrerror(ep); rval = 0; } goto out; } if (meta_systemfile_append_mddb(cname, sname, tsname, tsfp, 1, 0, ep) != 0) goto out; /* if file content is identical, skip rename */ if (filediff(tsname, sname) == 0) { rval = 0; goto out; } if ((fflush(tsfp) != 0) || (fsync(fileno(tsfp)) != 0) || (fclose(tsfp) != 0)) { (void) mdsyserror(ep, errno, tsname); goto out; } tsfp = NULL; /* * rename file. If we get a Cross Device error then it * is because we are in the miniroot. */ if (rename(tsname, sname) != 0 && errno != EXDEV) { (void) mdsyserror(ep, errno, sname); goto out; } if (errno == EXDEV) { if ((tsfp = fopen(tsname, "r")) == NULL) goto out; if ((mfp = fopen(sname, "w+")) == NULL) goto out; while (fgets(line, sizeof (line), tsfp) != NULL) { if (fputs(line, mfp) == NULL) goto out; } (void) fclose(tsfp); tsfp = NULL; if (fflush(mfp) != 0) goto out; if (fsync(fileno(mfp)) != 0) goto out; if (fclose(mfp) != 0) { mfp = NULL; goto out; } } Free(tsname); tsname = NULL; rval = 0; /* cleanup, return error */ out: if (tsfp != NULL) (void) fclose(tsfp); if (tsname != NULL) { (void) unlink(tsname); Free(tsname); } return (rval); } /* * Add replicas to set. This happens as a result of: * - metadb [-s set_name] -a * - metaset -s set_name -a disk * - metaset -s set_name -d disk (causes a rebalance of mddbs) * - metaset -s set_name -b * * For a local set, this routine is run on the local set host. * * For a traditional diskset, this routine is run on the node that * is running the metaset command. * * For a multinode diskset, this routine is run by the node that is * running the metaset command. If this is the first mddb added to * the MN diskset, then no communication is made to other nodes via commd * since the other nodes will be in-sync with respect to the mddbs when * those other nodes join the set and snarf in the newly created mddb. * If this is not the first mddb added to the MN diskset, then this * attach command is sent to all of the nodes using commd. This keeps * the nodes in-sync. */ int meta_db_attach( mdsetname_t *sp, mdnamelist_t *db_nlp, mdchkopts_t options, md_timeval32_t *timeval, int dbcnt, int dbsize, char *sysfilename, md_error_t *ep ) { struct mddb_config c; mdnamelist_t *nlp; mdname_t *np; md_drive_desc *dd = NULL; md_drive_desc *p; int i; int fd; side_t sideno; daddr_t blkno; int replicacount = 0; int start_mdmonitord = 0; int rval = 0; md_error_t status = mdnullerror; md_set_desc *sd; int stale_bool = FALSE; int flags; int firstmddb = 1; md_timeval32_t inittime = {0, 0}; /* * Error if we don't get some work to do. */ if (db_nlp == NULL) return (mdsyserror(ep, EINVAL, NULL)); if (mdnamesareunique(db_nlp, ep) != 0) return (-1); (void) memset(&c, 0, sizeof (c)); c.c_id = 0; c.c_setno = sp->setno; /* Don't need device id information from this ioctl */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_GETDEV, &c, &c.c_mde, NULL) != 0) { if (metaislocalset(sp)) { if (mdismddberror(&c.c_mde, MDE_DB_INVALID)) mdclrerror(&c.c_mde); else if (! mdismddberror(&c.c_mde, MDE_DB_NODB) || (! (options & MDCHK_ALLOW_NODBS))) return (mdstealerror(ep, &c.c_mde)); } else { if (! mdismddberror(&c.c_mde, MDE_DB_NOTOWNER)) return (mdstealerror(ep, &c.c_mde)); } mdclrerror(&c.c_mde); } /* * Is current set STALE? */ if (c.c_flags & MDDB_C_STALE) { stale_bool = TRUE; } assert(db_nlp != NULL); /* if creating the metadbs for the first time start mdmonitord */ if (c.c_dbcnt == 0) start_mdmonitord = 1; /* * check to see if we will go over the total possible number * of data bases */ nlp = db_nlp; while (nlp) { replicacount += dbcnt; nlp = nlp->next; } if ((replicacount + c.c_dbcnt) > c.c_dbmax) return (mdmddberror(ep, MDE_TOOMANY_REPLICAS, NODEV32, sp->setno, c.c_dbcnt + replicacount, NULL)); /* * go through and check to make sure all locations specified * are legal also pick out driver name; */ for (nlp = db_nlp; nlp != NULL; nlp = nlp->next) { diskaddr_t devsize; np = nlp->namep; if (! metaislocalset(sp)) { uint_t partno; uint_t rep_partno; mddrivename_t *dnp = np->drivenamep; /* * make sure that non-local database replicas * are always on the replica slice. */ if (meta_replicaslice(dnp, &rep_partno, ep) != 0) return (-1); if (metagetvtoc(np, FALSE, &partno, ep) == NULL) return (-1); if (partno != rep_partno) return (mddeverror(ep, MDE_REPCOMP_ONLY, np->dev, sp->setname)); } if (meta_check_replica(sp, np, options, 0, (dbcnt * dbsize), ep)) { return (-1); } if ((devsize = metagetsize(np, ep)) == -1) return (-1); if (devsize < (diskaddr_t)((dbcnt * dbsize) + 16)) return (mdmddberror(ep, MDE_REPLICA_TOOSMALL, meta_getminor(np->dev), sp->setno, devsize, np->cname)); } /* * If first disk in set we don't have lb_inittime yet for use as * mb_setcreatetime so don't go looking for it. WE'll come back * later and update after the locator block has been created. * If this isn't the first disk in the set, we have a locator * block and thus we have lb_inittime. Set mb_setcreatetime to * lb_inittime. */ if (! metaislocalset(sp)) { if (c.c_dbcnt != 0) { firstmddb = 0; inittime = meta_get_lb_inittime(sp, ep); } } /* * go through and write all master blocks */ for (nlp = db_nlp; nlp != NULL; nlp = nlp->next) { np = nlp->namep; if ((fd = open(np->rname, O_RDWR)) < 0) return (mdsyserror(ep, errno, np->rname)); for (i = 0; i < dbcnt; i++) { if (mkmasterblks(sp, np, fd, (i * dbsize + 16), dbsize, inittime, ep)) { (void) close(fd); return (-1); } } (void) close(fd); } if ((sideno = getmyside(sp, ep)) == MD_SIDEWILD) return (-1); if (! metaislocalset(sp)) { dd = metaget_drivedesc_fromnamelist(sp, db_nlp, ep); if (! mdisok(ep)) return (-1); if ((sd = metaget_setdesc(sp, ep)) == NULL) return (-1); } /* * go through and tell kernel to add them */ for (nlp = db_nlp; nlp != NULL; nlp = nlp->next) { mdcinfo_t *cinfo; np = nlp->namep; if ((cinfo = metagetcinfo(np, ep)) == NULL) { rval = -1; goto out; } /* * If mddb is being added to MN diskset and there already * exists a valid mddb in the set (which equates to this * node being an owner of the set) then use rpc.mdcommd * mechanism to add mddb(s) so that all nodes stay in sync. * If set is stale, don't log the message since rpc.mdcommd * can't write the message to the mddb. * * Otherwise, just add mddb to this node. */ if ((! metaislocalset(sp)) && MD_MNSET_DESC(sd) && (sd->sd_mn_mynode->nd_flags & MD_MN_NODE_OWN)) { md_mn_result_t *resultp = NULL; md_mn_msg_meta_db_attach_t attach; int send_rval; /* * In a scenario where new replicas had been added on * the master, and then all of the old replicas failed * before the slaves had knowledge of the new replicas, * the slaves are unable to re-parse in the mddb * from the new replicas since the slaves have no * knowledge of the new replicas. The following * algorithm solves this problem: * - META_DB_ATTACH message generates submsgs * - BLOCK parse (master) * - MDDB_ATTACH new replicas * - UNBLOCK parse (master) causing parse * information to be sent from master * to slaves at a higher class than the * unblock so the parse message will * reach slaves before unblock message. */ attach.msg_l_dev = np->dev; attach.msg_cnt = dbcnt; attach.msg_dbsize = dbsize; (void) strncpy(attach.msg_dname, cinfo->dname, sizeof (attach.msg_dname)); (void) splitname(np->bname, &attach.msg_splitname); attach.msg_options = options; /* Set devid to NULL until devids are supported */ attach.msg_devid[0] = NULL; /* * If reconfig cycle has been started, this node is * stuck in in the return step until this command has * completed. If mdcommd is suspended, ask * send_message to fail (instead of retrying) * so that metaset can finish allowing the reconfig * cycle to proceed. */ flags = MD_MSGF_FAIL_ON_SUSPEND; if (stale_bool == TRUE) flags |= MD_MSGF_NO_LOG; send_rval = mdmn_send_message(sp->setno, MD_MN_MSG_META_DB_ATTACH, flags, (char *)&attach, sizeof (md_mn_msg_meta_db_attach_t), &resultp, ep); if (send_rval != 0) { rval = -1; if (resultp == NULL) (void) mddserror(ep, MDE_DS_COMMD_SEND_FAIL, sp->setno, NULL, NULL, sp->setname); else { (void) mdstealerror(ep, &(resultp->mmr_ep)); if (mdisok(ep)) { (void) mddserror(ep, MDE_DS_COMMD_SEND_FAIL, sp->setno, NULL, NULL, sp->setname); } free_result(resultp); } goto out; } if (resultp) free_result(resultp); } else { /* Adding mddb(s) to just this node */ for (i = 0; i < dbcnt; i++) { (void) memset(&c, 0, sizeof (c)); /* Fill in device/replica info */ c.c_locator.l_dev = meta_cmpldev(np->dev); c.c_locator.l_blkno = i * dbsize + 16; blkno = c.c_locator.l_blkno; (void) strncpy(c.c_locator.l_driver, cinfo->dname, sizeof (c.c_locator.l_driver)); (void) splitname(np->bname, &c.c_devname); c.c_locator.l_mnum = meta_getminor(np->dev); /* Fill in setno, setname, and sideno */ c.c_setno = sp->setno; if (! metaislocalset(sp)) { if (MD_MNSET_DESC(sd)) { c.c_multi_node = 1; } } (void) strcpy(c.c_setname, sp->setname); c.c_sideno = sideno; /* * Don't need device id information from this ioctl * Kernel determines device id from dev_t, which * is just what this code would do. */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (timeval != NULL) c.c_timestamp = *timeval; if (setup_med_cfg(sp, &c, (options & MDCHK_SET_FORCE), ep)) { rval = -1; goto out; } if (metaioctl(MD_DB_NEWDEV, &c, &c.c_mde, NULL) != 0) { rval = mdstealerror(ep, &c.c_mde); goto out; } /* * This is either a traditional diskset OR this * is the first replica added to a MN diskset. * In either case, set broadcast to NO_BCAST so * that message won't go through rpc.mdcommd. * If this is a traditional diskset, the bcast * flag is ignored since traditional disksets * don't use the rpc.mdcommd. */ if (meta_db_addsidenms(sp, np, blkno, DB_ADDSIDENMS_NO_BCAST, ep)) goto out; } } if (! metaislocalset(sp)) { /* update the dbcnt and size in dd */ for (p = dd; p != NULL; p = p->dd_next) if (p->dd_dnp == np->drivenamep) { p->dd_dbcnt = dbcnt; p->dd_dbsize = dbsize; break; } } /* * If this was the first addition of disks to the * diskset you now need to update the mb_setcreatetime * which needed lb_inittime which wasn't there until now. */ if (firstmddb) { if (meta_update_mb(sp, dd, ep) != 0) { return (-1); } } (void) close(fd); } out: if (metaislocalset(sp)) { /* everything looks fine. Start mdmonitord */ /* Note: popen/pclose is the MT-safe replacement for system */ if (rval == 0 && start_mdmonitord == 1) { if (pclose(popen(MDMONITORD, "w")) == -1) md_perror(MDMONITORD); if (meta_smf_enable(META_SMF_CORE, &status) == -1) { mde_perror(&status, ""); mdclrerror(&status); } } if (buildconf(sp, &status)) { /* Don't mask any previous errors */ if (rval == 0) rval = mdstealerror(ep, &status); return (rval); } if (meta_db_patch(sysfilename, NULL, 0, &status)) { /* Don't mask any previous errors */ if (rval == 0) rval = mdstealerror(ep, &status); } } else { if (update_dbinfo_on_drives(sp, dd, (options & MDCHK_SET_LOCKED), (options & MDCHK_SET_FORCE), &status)) { /* Don't mask any previous errors */ if (rval == 0) rval = mdstealerror(ep, &status); else mdclrerror(&status); } metafreedrivedesc(&dd); } /* * For MN disksets that already had already had nodes joined * before the attach of this mddb(s), the name invalidation is * done by the commd handler routine. Otherwise, if this * is the first attach of a MN diskset mddb, the invalidation * must be done here since the first attach cannot be sent * via the commd since there are no nodes joined to the set yet. */ if ((metaislocalset(sp)) || (!MD_MNSET_DESC(sd)) || (MD_MNSET_DESC(sd) && (!(sd->sd_mn_mynode->nd_flags & MD_MN_NODE_OWN)))) { for (nlp = db_nlp; (nlp != NULL); nlp = nlp->next) { meta_invalidate_name(nlp->namep); } } return (rval); } /* * deletelist_length * * return the number of slices that have been specified for deletion * on the metadb command line. This does not calculate the number * of replicas because there may be multiple replicas per slice. */ static int deletelist_length(mdnamelist_t *db_nlp) { mdnamelist_t *nlp; int list_length = 0; for (nlp = db_nlp; nlp != NULL; nlp = nlp->next) { list_length++; } return (list_length); } static int in_deletelist(char *devname, mdnamelist_t *db_nlp) { mdnamelist_t *nlp; mdname_t *np; int index = 0; for (nlp = db_nlp; nlp != NULL; nlp = nlp->next) { np = nlp->namep; if (strcmp(devname, np->bname) == 0) return (index); index++; } return (-1); } /* * Delete replicas from set. This happens as a result of: * - metadb [-s set_name] -d * - metaset -s set_name -a disk (causes a rebalance of mddbs) * - metaset -s set_name -d disk * - metaset -s set_name -b * * For a local set, this routine is run on the local set host. * * For a traditional diskset, this routine is run on the node that * is running the metaset command. * * For a multinode diskset, this routine is run by the node that is * running the metaset command. This detach routine is sent to all * of the joined nodes in the diskset using commd. This keeps * the nodes in-sync. */ int meta_db_detach( mdsetname_t *sp, mdnamelist_t *db_nlp, mdforceopts_t force_option, char *sysfilename, md_error_t *ep ) { struct mddb_config c; mdnamelist_t *nlp; mdname_t *np; md_drive_desc *dd = NULL; md_drive_desc *p; int replicacount; int replica_delete_count; int nr_replica_slices; int i; int stop_svmdaemons = 0; int rval = 0; int index; int valid_replicas_nottodelete = 0; int invalid_replicas_nottodelete = 0; int invalid_replicas_todelete = 0; int errored = 0; int *tag_array; int fd = -1; md_error_t status = mdnullerror; md_set_desc *sd; int stale_bool = FALSE; int flags; /* * Error if we don't get some work to do. */ if (db_nlp == NULL) return (mdsyserror(ep, EINVAL, NULL)); if (mdnamesareunique(db_nlp, ep) != 0) return (-1); (void) memset(&c, 0, sizeof (c)); c.c_id = 0; c.c_setno = sp->setno; /* Don't need device id information from this ioctl */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_GETDEV, &c, &c.c_mde, NULL) != 0) return (mdstealerror(ep, &c.c_mde)); /* * Is current set STALE? */ if (c.c_flags & MDDB_C_STALE) { stale_bool = TRUE; } replicacount = c.c_dbcnt; assert(db_nlp != NULL); /* * go through and gather how many data bases are on each * device specified. */ nr_replica_slices = deletelist_length(db_nlp); tag_array = (int *)calloc(nr_replica_slices, sizeof (int)); replica_delete_count = 0; for (i = 0; i < replicacount; i++) { char *devname; int found = 0; c.c_id = i; /* Don't need device id information from this ioctl */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_GETDEV, &c, &c.c_mde, NULL) != 0) return (mdstealerror(ep, &c.c_mde)); devname = splicename(&c.c_devname); if ((index = in_deletelist(devname, db_nlp)) != -1) { found = 1; tag_array[index] = 1; replica_delete_count++; } errored = c.c_locator.l_flags & (MDDB_F_EREAD | MDDB_F_EWRITE | MDDB_F_TOOSMALL | MDDB_F_EFMT | MDDB_F_EDATA | MDDB_F_EMASTER); /* * There are four combinations of "errored" and "found" * and they are used to find the number of * (a) valid/invalid replicas that are not in the delete * list and are available in the system. * (b) valid/invalid replicas that are to be deleted. */ if (errored && !found) /* errored and !found */ invalid_replicas_nottodelete++; else if (!found) /* !errored and !found */ valid_replicas_nottodelete++; else if (errored) /* errored and found */ invalid_replicas_todelete++; /* * else it is !errored and found. This means * valid_replicas_todelete++; But this variable will not * be used anywhere */ Free(devname); } index = 0; for (nlp = db_nlp; nlp != NULL; nlp = nlp->next) { np = nlp->namep; if (tag_array[index++] != 1) { Free(tag_array); return (mddeverror(ep, MDE_NO_DB, np->dev, np->cname)); } } Free(tag_array); /* if all replicas are deleted stop mdmonitord */ if ((replicacount - replica_delete_count) == 0) stop_svmdaemons = 1; if (((replicacount - replica_delete_count) < MD_MINREPLICAS)) { if (force_option & MDFORCE_NONE) return (mderror(ep, MDE_NOTENOUGH_DB, sp->setname)); if (! metaislocalset(sp) && ! (force_option & MDFORCE_DS)) return (mderror(ep, MDE_DELDB_NOTALLOWED, sp->setname)); } /* * The following algorithms are followed to check for deletion: * (a) If the delete list(db_nlp) has all invalid replicas and no valid * replicas, then deletion should be allowed. * (b) Deletion should be allowed only if valid replicas that are "not" * to be deleted is always greater than the invalid replicas that * are "not" to be deleted. * (c) If the user uses -f option, then deletion should be allowed. */ if ((invalid_replicas_todelete != replica_delete_count) && (invalid_replicas_nottodelete > valid_replicas_nottodelete) && (force_option != MDFORCE_LOCAL)) return (mderror(ep, MDE_DEL_VALIDDB_NOTALLOWED, sp->setname)); /* * go through and tell kernel to delete them */ /* Don't need device id information from this ioctl */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_GETDEV, &c, &c.c_mde, NULL) != 0) return (mdstealerror(ep, &c.c_mde)); if (! metaislocalset(sp)) { dd = metaget_drivedesc_fromnamelist(sp, db_nlp, ep); if (! mdisok(ep)) return (-1); if ((sd = metaget_setdesc(sp, ep)) == NULL) return (-1); } for (nlp = db_nlp; nlp != NULL; nlp = nlp->next) { np = nlp->namep; /* * If mddb is being deleted from MN diskset and node is * an owner of the diskset then use rpc.mdcommd * mechanism to add mddb(s) so that all nodes stay in sync. * If set is stale, don't log the message since rpc.mdcommd * can't write the message to the mddb. * * When mddbs are first being added to set, a detach can * be called before any node has joined the diskset, so * must check to see if node is an owner of the diskset. * * Otherwise, just delete mddb from this node. */ if ((! metaislocalset(sp)) && MD_MNSET_DESC(sd) && (sd->sd_mn_mynode->nd_flags & MD_MN_NODE_OWN)) { md_mn_result_t *resultp; md_mn_msg_meta_db_detach_t detach; int send_rval; /* * The following algorithm is used to detach replicas. * - META_DB_DETACH message generates submsgs * - BLOCK parse (master) * - MDDB_DETACH replicas * - UNBLOCK parse (master) causing parse * information to be sent from master * to slaves at a higher class than the * unblock so the parse message will * reach slaves before unblock message. */ (void) splitname(np->bname, &detach.msg_splitname); /* Set devid to NULL until devids are supported */ detach.msg_devid[0] = NULL; /* * If reconfig cycle has been started, this node is * stuck in in the return step until this command has * completed. If mdcommd is suspended, ask * send_message to fail (instead of retrying) * so that metaset can finish allowing the reconfig * cycle to proceed. */ flags = MD_MSGF_FAIL_ON_SUSPEND; if (stale_bool == TRUE) flags |= MD_MSGF_NO_LOG; send_rval = mdmn_send_message(sp->setno, MD_MN_MSG_META_DB_DETACH, flags, (char *)&detach, sizeof (md_mn_msg_meta_db_detach_t), &resultp, ep); if (send_rval != 0) { rval = -1; if (resultp == NULL) (void) mddserror(ep, MDE_DS_COMMD_SEND_FAIL, sp->setno, NULL, NULL, sp->setname); else { (void) mdstealerror(ep, &(resultp->mmr_ep)); if (mdisok(ep)) { (void) mddserror(ep, MDE_DS_COMMD_SEND_FAIL, sp->setno, NULL, NULL, sp->setname); } free_result(resultp); } goto out; } if (resultp) free_result(resultp); } else { i = 0; while (i < c.c_dbcnt) { char *devname; c.c_id = i; /* Don't need devid info from this ioctl */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_GETDEV, &c, &c.c_mde, NULL)) { rval = mdstealerror(ep, &c.c_mde); goto out; } devname = splicename(&c.c_devname); if (strcmp(devname, np->bname) != 0) { Free(devname); i++; continue; } Free(devname); /* Don't need devid info from this ioctl */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_DELDEV, &c, &c.c_mde, NULL) != 0) { rval = mdstealerror(ep, &c.c_mde); goto out; } /* Not incrementing "i" intentionally */ } } if (! metaislocalset(sp)) { /* update the dbcnt and size in dd */ for (p = dd; p != NULL; p = p->dd_next) { if (p->dd_dnp == np->drivenamep) { p->dd_dbcnt = 0; p->dd_dbsize = 0; break; } } /* * Slam a dummy master block and make it self * identifying */ if ((fd = open(np->rname, O_RDWR)) >= 0) { meta_mkdummymaster(sp, fd, 16); (void) close(fd); } } } out: if (metaislocalset(sp)) { /* * Stop all the daemons if there are * no more replicas so that the module can be * unloaded. */ if (rval == 0 && stop_svmdaemons == 1) { char buf[MAXPATHLEN]; int i; for (i = 0; i < DAEMON_COUNT; i++) { (void) snprintf(buf, MAXPATHLEN, "/usr/bin/pkill -%s -x %s", svmd_kill_list[i].svmd_kill_val, svmd_kill_list[i].svmd_name); if (pclose(popen(buf, "w")) == -1) md_perror(buf); } if (meta_smf_disable(META_SMF_ALL, &status) == -1) { mde_perror(&status, ""); mdclrerror(&status); } } if (buildconf(sp, &status)) { /* Don't mask any previous errors */ if (rval == 0) rval = mdstealerror(ep, &status); else mdclrerror(&status); return (rval); } if (meta_db_patch(sysfilename, NULL, 0, &status)) { /* Don't mask any previous errors */ if (rval == 0) rval = mdstealerror(ep, &status); else mdclrerror(&status); } } else { if (update_dbinfo_on_drives(sp, dd, (force_option & MDFORCE_SET_LOCKED), ((force_option & MDFORCE_LOCAL) | (force_option & MDFORCE_DS)), &status)) { /* Don't mask any previous errors */ if (rval == 0) rval = mdstealerror(ep, &status); else mdclrerror(&status); } metafreedrivedesc(&dd); } if ((metaislocalset(sp)) || (!(MD_MNSET_DESC(sd)))) { for (nlp = db_nlp; (nlp != NULL); nlp = nlp->next) { meta_invalidate_name(nlp->namep); } } return (rval); } static md_replica_t * metareplicaname( mdsetname_t *sp, int flags, struct mddb_config *c, md_error_t *ep ) { md_replica_t *rp; char *devname; size_t sz; /* allocate replicaname */ rp = Zalloc(sizeof (*rp)); /* get device name */ devname = splicename(&c->c_devname); if (flags & PRINT_FAST) { if ((rp->r_namep = metaname_fast(&sp, devname, ep)) == NULL) { Free(devname); Free(rp); return (NULL); } } else { if ((rp->r_namep = metaname(&sp, devname, ep)) == NULL) { Free(devname); Free(rp); return (NULL); } } Free(devname); /* make sure it's OK */ if ((! (flags & MD_BASICNAME_OK)) && (metachkcomp(rp->r_namep, ep) != 0)) { Free(rp); return (NULL); } rp->r_blkno = (daddr_t)MD_DISKADDR_ERROR; rp->r_nblk = (daddr_t)MD_DISKADDR_ERROR; rp->r_flags = c->c_locator.l_flags | MDDB_F_NODEVID; if (c->c_locator.l_devid_flags & MDDB_DEVID_VALID) { sz = devid_sizeof((ddi_devid_t)(uintptr_t) (c->c_locator.l_devid)); if ((rp->r_devid = (ddi_devid_t)malloc(sz)) == (ddi_devid_t)NULL) { Free(rp); return (NULL); } (void) memcpy((void *)rp->r_devid, (void *)(uintptr_t)c->c_locator.l_devid, sz); (void) strcpy(rp->r_minor_name, c->c_locator.l_minor_name); rp->r_flags &= ~MDDB_F_NODEVID; /* Overwrite dev derived from name with dev from devid */ rp->r_namep->dev = meta_expldev(c->c_locator.l_dev); } (void) strcpy(rp->r_driver_name, c->c_locator.l_driver); rp->r_blkno = c->c_locator.l_blkno; if (c->c_dbend != 0) rp->r_nblk = c->c_dbend - c->c_locator.l_blkno + 1; /* return replica */ return (rp); } /* * free replica list */ void metafreereplicalist( md_replicalist_t *rlp ) { md_replicalist_t *rl = NULL; for (/* void */; (rlp != NULL); rlp = rl) { rl = rlp->rl_next; if (rlp->rl_repp->r_devid != (ddi_devid_t)0) { free(rlp->rl_repp->r_devid); } Free(rlp->rl_repp); Free(rlp); } } /* * return list of all replicas in set */ int metareplicalist( mdsetname_t *sp, int flags, md_replicalist_t **rlpp, md_error_t *ep ) { md_replicalist_t **tail = rlpp; int count = 0; struct mddb_config c; int i; char *devid; /* for each replica */ i = 0; do { md_replica_t *rp; /* get next replica */ (void) memset(&c, 0, sizeof (c)); c.c_id = i; c.c_setno = sp->setno; c.c_locator.l_devid_flags = MDDB_DEVID_GETSZ; if (metaioctl(MD_DB_ENDDEV, &c, &c.c_mde, NULL) != 0) { if (mdismddberror(&c.c_mde, MDE_DB_INVALID)) { mdclrerror(&c.c_mde); break; /* handle none at all */ } (void) mdstealerror(ep, &c.c_mde); goto out; } if (c.c_locator.l_devid_flags & MDDB_DEVID_SZ) { if ((devid = malloc(c.c_locator.l_devid_sz)) == NULL) { (void) mdsyserror(ep, ENOMEM, META_DBCONF); goto out; } c.c_locator.l_devid = (uintptr_t)devid; /* * Turn on space and sz flags since 'sz' amount of * space has been alloc'd. */ c.c_locator.l_devid_flags = MDDB_DEVID_SPACE | MDDB_DEVID_SZ; } if (metaioctl(MD_DB_ENDDEV, &c, &c.c_mde, NULL) != 0) { if (mdismddberror(&c.c_mde, MDE_DB_INVALID)) { mdclrerror(&c.c_mde); break; /* handle none at all */ } (void) mdstealerror(ep, &c.c_mde); goto out; } /* * Paranoid check - shouldn't happen, but is left as * a place holder for changes that will be needed after * dynamic reconfiguration changes are added to SVM (to * support movement of disks at any point in time). */ if (c.c_locator.l_devid_flags & MDDB_DEVID_NOSPACE) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "Error: Relocation Information " "(drvnm=%s, mnum=0x%lx) \n" "relocation information size changed - \n" "rerun command\n"), c.c_locator.l_driver, c.c_locator.l_mnum); (void) mderror(ep, MDE_DEVID_TOOBIG, NULL); goto out; } if (c.c_dbcnt == 0) break; /* handle none at all */ /* get info */ if ((rp = metareplicaname(sp, flags, &c, ep)) == NULL) goto out; /* append to list */ *tail = Zalloc(sizeof (**tail)); (*tail)->rl_repp = rp; tail = &(*tail)->rl_next; ++count; if (c.c_locator.l_devid_flags & MDDB_DEVID_SPACE) { free(devid); c.c_locator.l_devid_flags = 0; } } while (++i < c.c_dbcnt); if (c.c_locator.l_devid_flags & MDDB_DEVID_SPACE) { free(devid); } /* return count */ return (count); /* cleanup, return error */ out: if (c.c_locator.l_devid_flags & MDDB_DEVID_SPACE) { free(devid); } metafreereplicalist(*rlpp); *rlpp = NULL; return (-1); } /* * meta_sync_db_locations - get list of replicas from kernel and write * out to mddb.cf and md.conf. 'Syncs up' the replica list in * the kernel with the replica list in the conf files. * */ void meta_sync_db_locations( mdsetname_t *sp, md_error_t *ep ) { char *sname = 0; /* system file name */ char *cname = 0; /* config file name */ if (!metaislocalset(sp)) return; /* Updates backup of configuration file (aka mddb.cf) */ if (buildconf(sp, ep) != 0) return; /* Updates system configuration file (aka md.conf) */ (void) meta_db_patch(sname, cname, 0, ep); } /* * setup_db_locations - parse the mddb.cf file and * tells the driver which db locations to use. */ int meta_setup_db_locations( md_error_t *ep ) { mddb_config_t c; FILE *fp; char inbuff[1024]; char *buff; uint_t i; size_t sz; int rval = 0; char *devidp; uint_t devid_size; char *minor_name = NULL; ddi_devid_t devid_decode; int checksum; /* do mddb.cf file */ (void) memset(&c, '\0', sizeof (c)); if ((fp = fopen(META_DBCONF, "r")) == NULL) { if (errno != ENOENT) return (mdsyserror(ep, errno, META_DBCONF)); } while ((fp != NULL) && ((buff = fgets(inbuff, (sizeof (inbuff) - 1), fp)) != NULL)) { /* ignore comments */ if (*buff == '#') continue; /* parse locator */ (void) memset(&c, 0, sizeof (c)); c.c_setno = MD_LOCAL_SET; i = strcspn(buff, " \t"); if (i > sizeof (c.c_locator.l_driver)) i = sizeof (c.c_locator.l_driver); (void) strncpy(c.c_locator.l_driver, buff, i); buff += i; c.c_locator.l_dev = makedev((major_t)0, (minor_t)strtol(buff, &buff, 10)); c.c_locator.l_blkno = (daddr_t)strtol(buff, &buff, 10); c.c_locator.l_mnum = minor(c.c_locator.l_dev); /* parse out devid */ while (isspace((int)(*buff))) buff += 1; i = strcspn(buff, " \t"); if ((devidp = (char *)malloc(i+1)) == NULL) return (mdsyserror(ep, ENOMEM, META_DBCONF)); (void) strncpy(devidp, buff, i); devidp[i] = '\0'; if (devid_str_decode(devidp, &devid_decode, &minor_name) == -1) { free(devidp); continue; } /* Conf file must have minor name associated with devid */ if (minor_name == NULL) { free(devidp); devid_free(devid_decode); continue; } sz = devid_sizeof(devid_decode); /* Copy to devid size buffer that ioctl expects */ if ((c.c_locator.l_devid = (uintptr_t)malloc(sz)) == NULL) { devid_free(devid_decode); free(minor_name); free(devidp); return (mdsyserror(ep, ENOMEM, META_DBCONF)); } (void) memcpy((void *)(uintptr_t)c.c_locator.l_devid, (void *)devid_decode, sz); devid_free(devid_decode); if (strlen(minor_name) > MDDB_MINOR_NAME_MAX) { free(minor_name); free(devidp); free((void *)(uintptr_t)c.c_locator.l_devid); return (mdsyserror(ep, ENOMEM, META_DBCONF)); } (void) strcpy(c.c_locator.l_minor_name, minor_name); free(minor_name); c.c_locator.l_devid_flags = MDDB_DEVID_VALID | MDDB_DEVID_SPACE | MDDB_DEVID_SZ; c.c_locator.l_devid_sz = sz; devid_size = strlen(devidp); buff += devid_size; checksum = strtol(buff, &buff, 10); for (i = 0; c.c_locator.l_driver[i] != 0; i++) checksum += c.c_locator.l_driver[i]; for (i = 0; i < devid_size; i++) { checksum += devidp[i]; } free(devidp); checksum += minor(c.c_locator.l_dev); checksum += c.c_locator.l_blkno; if (checksum != 42) { /* overwritten later for more serious problems */ rval = mderror(ep, MDE_MDDB_CKSUM, META_DBCONF); free((void *)(uintptr_t)c.c_locator.l_devid); continue; } c.c_locator.l_flags = 0; /* use db location */ if (metaioctl(MD_DB_USEDEV, &c, &c.c_mde, NULL) != 0) { free((void *)(uintptr_t)c.c_locator.l_devid); return (mdstealerror(ep, &c.c_mde)); } /* free up devid if in use */ free((void *)(uintptr_t)c.c_locator.l_devid); c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; } if ((fp) && (fclose(fp) != 0)) return (mdsyserror(ep, errno, META_DBCONF)); /* check for stale database */ (void) memset((char *)&c, 0, sizeof (struct mddb_config)); c.c_id = 0; c.c_setno = MD_LOCAL_SET; /* Don't need device id information from this ioctl */ c.c_locator.l_devid = (uint64_t)0; c.c_locator.l_devid_flags = 0; if (metaioctl(MD_DB_GETDEV, &c, &c.c_mde, NULL) != 0) { if (! mdismddberror(&c.c_mde, MDE_DB_INVALID)) return (mdstealerror(ep, &c.c_mde)); mdclrerror(&c.c_mde); } if (c.c_flags & MDDB_C_STALE) return (mdmddberror(ep, MDE_DB_STALE, NODEV32, MD_LOCAL_SET, 0, NULL)); /* success */ return (rval); } /* * meta_db_minreplica - returns the minimum size replica currently in use. */ daddr_t meta_db_minreplica( mdsetname_t *sp, md_error_t *ep ) { md_replica_t *r; md_replicalist_t *rl, *rlp = NULL; daddr_t nblks = 0; if (metareplicalist(sp, (MD_BASICNAME_OK | PRINT_FAST), &rlp, ep) < 0) return (-1); if (rlp == NULL) return (-1); /* find the smallest existing replica */ for (rl = rlp; rl != NULL; rl = rl->rl_next) { r = rl->rl_repp; nblks = ((nblks == 0) ? r->r_nblk : min(r->r_nblk, nblks)); } metafreereplicalist(rlp); return (nblks); } /* * meta_get_replica_names * returns an mdnamelist_t of replica slices */ /*ARGSUSED*/ int meta_get_replica_names( mdsetname_t *sp, mdnamelist_t **nlpp, int options, md_error_t *ep ) { md_replicalist_t *rlp = NULL; md_replicalist_t *rl; mdnamelist_t **tailpp = nlpp; int cnt = 0; assert(nlpp != NULL); if (!metaislocalset(sp)) goto out; /* get replicas */ if (metareplicalist(sp, MD_BASICNAME_OK, &rlp, ep) < 0) { cnt = -1; goto out; } /* build name list */ for (rl = rlp; (rl != NULL); rl = rl->rl_next) { /* * Add the name struct to the end of the * namelist but keep a pointer to the last * element so that we don't incur the overhead * of traversing the list each time */ tailpp = meta_namelist_append_wrapper( tailpp, rl->rl_repp->r_namep); ++cnt; } /* cleanup, return count or error */ out: metafreereplicalist(rlp); return (cnt); }