/* * 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" #include #include #include #include #include #include #include #include #include #include #include #define MD_EFI_FG_HEADS 128 #define MD_EFI_FG_SECTORS 256 #define MD_EFI_FG_RPM 7200 #define MD_EFI_FG_WRI 1 #define MD_EFI_FG_RRI 1 typedef struct ctlr_cache { char *ctlr_nm; int ctlr_ty; struct ctlr_cache *ctlr_nx; } ctlr_cache_t; static ctlr_cache_t *ctlr_cache = NULL; /* * return set for a device */ mdsetname_t * metagetset( mdname_t *np, int bypass_daemon, md_error_t *ep ) { mdsetname_t *sp; /* metadevice */ if (metaismeta(np)) return (metasetnosetname(MD_MIN2SET(meta_getminor(np->dev)), ep)); /* regular device */ if (meta_is_drive_in_anyset(np->drivenamep, &sp, bypass_daemon, ep) != 0) return (NULL); if (sp != NULL) return (sp); return (metasetnosetname(MD_LOCAL_SET, ep)); } /* * convert system to md types */ static void meta_geom_to_md( struct dk_geom *gp, mdgeom_t *mdgp ) { (void) memset(mdgp, '\0', sizeof (*mdgp)); mdgp->ncyl = gp->dkg_ncyl; mdgp->nhead = gp->dkg_nhead; mdgp->nsect = gp->dkg_nsect; mdgp->rpm = gp->dkg_rpm; mdgp->write_reinstruct = gp->dkg_write_reinstruct; mdgp->read_reinstruct = gp->dkg_read_reinstruct; mdgp->blk_sz = DEV_BSIZE; } /* * convert efi to md types */ static void meta_efi_to_mdgeom(struct dk_gpt *gpt, mdgeom_t *mdgp) { (void) memset(mdgp, '\0', sizeof (*mdgp)); mdgp->ncyl = (gpt->efi_last_u_lba - gpt->efi_first_u_lba) / (MD_EFI_FG_HEADS * MD_EFI_FG_SECTORS); mdgp->nhead = MD_EFI_FG_HEADS; mdgp->nsect = MD_EFI_FG_SECTORS; mdgp->rpm = MD_EFI_FG_RPM; mdgp->write_reinstruct = MD_EFI_FG_WRI; mdgp->read_reinstruct = MD_EFI_FG_RRI; mdgp->blk_sz = DEV_BSIZE; } static void meta_efi_to_mdvtoc(struct dk_gpt *gpt, mdvtoc_t *mdvp) { char typename[EFI_PART_NAME_LEN]; uint_t i; (void) memset(mdvp, '\0', sizeof (*mdvp)); mdvp->nparts = gpt->efi_nparts; if (mdvp->nparts > MD_MAX_PARTS) return; mdvp->first_lba = gpt->efi_first_u_lba; mdvp->last_lba = gpt->efi_last_u_lba; mdvp->lbasize = gpt->efi_lbasize; for (i = 0; (i < gpt->efi_nparts); ++i) { mdvp->parts[i].start = gpt->efi_parts[i].p_start; mdvp->parts[i].size = gpt->efi_parts[i].p_size; mdvp->parts[i].tag = gpt->efi_parts[i].p_tag; mdvp->parts[i].flag = gpt->efi_parts[i].p_flag; /* * Due to the lack of a label for the entire partition table, * we use p_name of the reserved partition */ if ((gpt->efi_parts[i].p_tag == V_RESERVED) && (gpt->efi_parts[i].p_name != NULL)) { (void) strlcpy(typename, gpt->efi_parts[i].p_name, EFI_PART_NAME_LEN); /* Stop at first (if any) space or tab */ (void) strtok(typename, " \t"); mdvp->typename = Strdup(typename); } } } static void meta_mdvtoc_to_efi(mdvtoc_t *mdvp, struct dk_gpt **gpt) { char typename[EFI_PART_NAME_LEN]; uint_t i; uint_t lastpart; size_t size; /* first we count how many partitions we have to send */ for (i = 0; i < MD_MAX_PARTS; i++) { if ((mdvp->parts[i].start == 0) && (mdvp->parts[i].size == 0) && (mdvp->parts[i].tag != V_RESERVED)) { continue; } /* if we are here, we know the partition is really used */ lastpart = i; } size = sizeof (struct dk_gpt) + (sizeof (struct dk_part) * lastpart); *gpt = calloc(size, sizeof (char)); (*gpt)->efi_nparts = lastpart + 1; (*gpt)->efi_first_u_lba = mdvp->first_lba; (*gpt)->efi_last_u_lba = mdvp->last_lba; (*gpt)->efi_lbasize = mdvp->lbasize; for (i = 0; (i < (*gpt)->efi_nparts); ++i) { (*gpt)->efi_parts[i].p_start = mdvp->parts[i].start; (*gpt)->efi_parts[i].p_size = mdvp->parts[i].size; (*gpt)->efi_parts[i].p_tag = mdvp->parts[i].tag; (*gpt)->efi_parts[i].p_flag = mdvp->parts[i].flag; /* * Due to the lack of a label for the entire partition table, * we use p_name of the reserved partition */ if (((*gpt)->efi_parts[i].p_tag == V_RESERVED) && (mdvp->typename != NULL)) { (void) strlcpy((*gpt)->efi_parts[i].p_name, typename, EFI_PART_NAME_LEN); } } } void ctlr_cache_add(char *nm, int ty) { ctlr_cache_t **ccpp; for (ccpp = &ctlr_cache; *ccpp != NULL; ccpp = &(*ccpp)->ctlr_nx) if (strcmp((*ccpp)->ctlr_nm, nm) == 0) return; *ccpp = Zalloc(sizeof (ctlr_cache_t)); (*ccpp)->ctlr_nm = Strdup(nm); (*ccpp)->ctlr_ty = ty; } int ctlr_cache_look(char *nm) { ctlr_cache_t *tcp; for (tcp = ctlr_cache; tcp != NULL; tcp = tcp->ctlr_nx) if (strcmp(tcp->ctlr_nm, nm) == 0) return (tcp->ctlr_ty); return (-1); } void metaflushctlrcache(void) { ctlr_cache_t *cp, *np; for (cp = ctlr_cache, np = NULL; cp != NULL; cp = np) { np = cp->ctlr_nx; Free(cp->ctlr_nm); Free(cp); } ctlr_cache = NULL; } /* * getdrvnode -- return the driver name based on mdname_t->bname * Need to free pointer when finished. */ char * getdrvnode(mdname_t *np, md_error_t *ep) { char *devicespath, *drvnode, *cp; if ((devicespath = metagetdevicesname(np, ep)) == NULL) return (NULL); /* * At this point devicespath should be like the following * "/devices//xxxx@vvvv" * * There's a couple of 'if' statements below which could * return an error condition, but I've decide to allow * a more open approach regarding the mapping so as to * not restrict possible future projects. */ if (drvnode = strrchr(devicespath, '/')) /* * drvnode now just "xxxx@vvvv" */ drvnode++; if (cp = strrchr(drvnode, '@')) /* * Now drvnode is just the driver name "xxxx" */ *cp = '\0'; cp = Strdup(drvnode); Free(devicespath); np->devicesname = NULL; return (cp); } /* * meta_load_dl -- open dynamic library using LDLIBRARYPATH, a debug * environment variable METALDPATH, or the default location. */ static void * meta_load_dl(mdname_t *np, md_error_t *ep) { char *drvnode, newpath[MAXPATHLEN], *p; void *cookie; if ((drvnode = getdrvnode(np, ep)) != NULL) { /* * Library seach algorithm: * 1) Use LDLIBRARYPATH which is implied when a non-absolute * path name is passed to dlopen() * 2) Use the value of METALDPATH as the directory. Mainly * used for debugging * 3) Last search the default location of "/usr/lib" */ (void) snprintf(newpath, sizeof (newpath), "lib%s.so.1", drvnode); if ((cookie = dlopen(newpath, RTLD_LAZY)) == NULL) { if ((p = getenv("METALDPATH")) == NULL) p = METALDPATH_DEFAULT; (void) snprintf(newpath, sizeof (newpath), "%s/lib%s.so.1", p, drvnode); Free(drvnode); if ((cookie = dlopen(newpath, RTLD_LAZY)) != NULL) { /* * Common failure here would be failing to * find a libXX.so.1 such as libsd.so.1 * Some controllers will not have a library * because there's no enclosure or name * translation required. */ return (cookie); } } else { Free(drvnode); return (cookie); } } return (NULL); } /* * meta_match_names -- possibly convert the driver names returned by CINFO */ static void meta_match_names(mdname_t *np, struct dk_cinfo *cp, mdcinfo_t *mdcp, md_error_t *ep) { void *cookie; meta_convert_e ((*fptr)(mdname_t *, struct dk_cinfo *, mdcinfo_t *, md_error_t *)); if ((cookie = meta_load_dl(np, ep)) != NULL) { fptr = (meta_convert_e (*)(mdname_t *, struct dk_cinfo *, mdcinfo_t *, md_error_t *))dlsym(cookie, "convert_path"); if (fptr != NULL) (void) (*fptr)(np, cp, mdcp, ep); (void) dlclose(cookie); } } /* * meta_match_enclosure -- return any enclosure info if found */ int meta_match_enclosure(mdname_t *np, mdcinfo_t *mdcp, md_error_t *ep) { meta_enclosure_e e, ((*fptr)(mdname_t *, mdcinfo_t *, md_error_t *)); void *cookie; if ((cookie = meta_load_dl(np, ep)) != NULL) { fptr = (meta_enclosure_e (*)(mdname_t *, mdcinfo_t *, md_error_t *))dlsym(cookie, "get_enclosure"); if (fptr != NULL) { e = (*fptr)(np, mdcp, ep); switch (e) { case Enclosure_Error: /* * Looks like this library wanted to handle * our device and had an internal error. */ return (1); case Enclosure_Okay: /* * Found a library to handle the request so * just return with data provided. */ return (0); case Enclosure_Noop: /* * Need to continue the search */ break; } } (void) dlclose(cookie); } return (0); } static int meta_cinfo_to_md(mdname_t *np, struct dk_cinfo *cp, mdcinfo_t *mdcp, md_error_t *ep) { /* default */ (void) memset(mdcp, '\0', sizeof (*mdcp)); (void) strncpy(mdcp->cname, cp->dki_cname, min((sizeof (mdcp->cname) - 1), sizeof (cp->dki_cname))); mdcp->ctype = MHD_CTLR_GENERIC; mdcp->cnum = cp->dki_cnum; (void) strncpy(mdcp->dname, cp->dki_dname, min((sizeof (mdcp->dname) - 1), sizeof (cp->dki_dname))); mdcp->unit = cp->dki_unit; mdcp->maxtransfer = cp->dki_maxtransfer; /* * See if the driver name returned from DKIOCINFO * is valid or not. In somecases, such as the ap_dmd * driver, we need to modify the name that's return * for everything to work. */ meta_match_names(np, cp, mdcp, ep); if (meta_match_enclosure(np, mdcp, ep)) return (-1); /* return success */ return (0); } static void meta_vtoc_to_md( struct vtoc *vp, mdvtoc_t *mdvp ) { char typename[sizeof (vp->v_asciilabel) + 1]; uint_t i; (void) memset(mdvp, '\0', sizeof (*mdvp)); (void) strncpy(typename, vp->v_asciilabel, sizeof (vp->v_asciilabel)); typename[sizeof (typename) - 1] = '\0'; for (i = 0; ((i < sizeof (typename)) && (typename[i] != '\0')); ++i) { if ((typename[i] == ' ') || (typename[i] == '\t')) { typename[i] = '\0'; break; } } mdvp->typename = Strdup(typename); mdvp->nparts = vp->v_nparts; for (i = 0; (i < vp->v_nparts); ++i) { mdvp->parts[i].start = vp->v_part[i].p_start; mdvp->parts[i].size = vp->v_part[i].p_size; mdvp->parts[i].tag = vp->v_part[i].p_tag; mdvp->parts[i].flag = vp->v_part[i].p_flag; if (vp->v_part[i].p_start == 0 && vp->v_part[i].p_size > 0) mdvp->parts[i].label = btodb(DK_LABEL_SIZE); } } /* * free allocations in vtoc */ void metafreevtoc( mdvtoc_t *vtocp ) { if (vtocp->typename != NULL) Free(vtocp->typename); (void) memset(vtocp, 0, sizeof (*vtocp)); } /* * return md types */ mdvtoc_t * metagetvtoc( mdname_t *np, /* only rname, drivenamep, are setup */ int nocache, uint_t *partnop, md_error_t *ep ) { mddrivename_t *dnp = np->drivenamep; struct dk_geom geom; char *minor_name = NULL; char *rname = np->rname; int fd; int partno; int err = 0; /* saves errno from ioctl */ ddi_devid_t devid; char *p; /* short circuit */ if ((! nocache) && (dnp->vtoc.nparts != 0)) { if (partnop != NULL) { /* * the following assigment works because the * mdname_t structs are always created as part * of the drivenamep struct. When a user * creates an mdname_t struct it either * uses an existing drivenamep struct or creates * a new one and then adds the mdname_t struct * as part of its parts_val array. So what is * being computed below is the slice offset in * the parts_val array. */ *partnop = np - np->drivenamep->parts.parts_val; assert(*partnop < dnp->parts.parts_len); } return (&dnp->vtoc); } /* can't get vtoc */ if (! nocache) { switch (dnp->type) { case MDT_ACCES: case MDT_UNKNOWN: (void) mdsyserror(ep, dnp->errnum, rname); return (NULL); } } /* get all the info */ if ((fd = open(rname, (O_RDONLY|O_NDELAY), 0)) < 0) { (void) mdsyserror(ep, errno, rname); return (NULL); } /* * The disk is open so this is a good point to get the devid * otherwise it will need to be done at another time which * means reopening it. */ if (devid_get(fd, &devid) != 0) { /* there is no devid for the disk */ if (((p = getenv("MD_DEBUG")) != NULL) && (strstr(p, "DEVID") != NULL)) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "%s has no device id\n"), np->rname); } np->minor_name = (char *)NULL; dnp->devid = NULL; } else { (void) devid_get_minor_name(fd, &minor_name); /* * The minor name could be NULL if the underlying * device driver does not support 'minor names'. * This means we do not use devid's for this device. * SunCluster did driver does not support minor names. */ if (minor_name != NULL) { np->minor_name = Strdup(minor_name); devid_str_free(minor_name); dnp->devid = devid_str_encode(devid, NULL); } else { np->minor_name = (char *)NULL; dnp->devid = NULL; if (((p = getenv("MD_DEBUG")) != NULL) && (strstr(p, "DEVID") != NULL)) { (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "%s no minor name (no devid)\n"), np->rname); } } devid_free(devid); } /* * if our drivenamep points to a device not supporting DKIOCGGEOM, * it's likely to have an EFI label. */ (void) memset(&geom, 0, sizeof (geom)); if (ioctl(fd, DKIOCGGEOM, &geom) != 0) { err = errno; if (err == ENOTTY) { (void) mddeverror(ep, MDE_NOT_DISK, NODEV, rname); (void) close(fd); return (NULL); } else if (err != ENOTSUP) { (void) mdsyserror(ep, err, rname); (void) close(fd); return (NULL); } } /* * If we are here, there was either no failure on DKIOCGGEOM or * the failure was ENOTSUP */ if (err == ENOTSUP) { /* DKIOCGGEOM yielded ENOTSUP => try efi_alloc_and_read */ struct dk_gpt *gpt; int save_errno; /* this also sets errno */ partno = efi_alloc_and_read(fd, &gpt); save_errno = errno; (void) close(fd); if (partno < 0) { efi_free(gpt); (void) mdsyserror(ep, save_errno, rname); return (NULL); } if (partno >= gpt->efi_nparts) { efi_free(gpt); (void) mddeverror(ep, MDE_INVALID_PART, NODEV64, rname); return (NULL); } /* convert to our format */ metafreevtoc(&dnp->vtoc); meta_efi_to_mdvtoc(gpt, &dnp->vtoc); if (dnp->vtoc.nparts > MD_MAX_PARTS) { (void) mddeverror(ep, MDE_TOO_MANY_PARTS, NODEV64, rname); return (NULL); } /* * libmeta needs at least V_NUMPAR partitions. * If we have an EFI partition with less than V_NUMPAR slices, * we nevertheless reserve space for V_NUMPAR */ if (dnp->vtoc.nparts < V_NUMPAR) { dnp->vtoc.nparts = V_NUMPAR; } meta_efi_to_mdgeom(gpt, &dnp->geom); efi_free(gpt); } else { /* no error on DKIOCGGEOM, try meta_getvtoc */ struct vtoc vtoc; if (meta_getvtoc(fd, np->cname, &vtoc, &partno, ep) < 0) { (void) close(fd); return (NULL); } (void) close(fd); /* convert to our format */ meta_geom_to_md(&geom, &dnp->geom); metafreevtoc(&dnp->vtoc); meta_vtoc_to_md(&vtoc, &dnp->vtoc); } /* fix up any drives which are now accessible */ if ((nocache) && (dnp->type == MDT_ACCES) && (dnp->vtoc.nparts == dnp->parts.parts_len)) { dnp->type = MDT_COMP; dnp->errnum = 0; } /* save partno */ assert(partno < dnp->vtoc.nparts); if (partnop != NULL) *partnop = partno; /* return info */ return (&dnp->vtoc); } static void meta_mdvtoc_to_vtoc( mdvtoc_t *mdvp, struct vtoc *vp ) { uint_t i; (void) memset(&vp->v_part, '\0', sizeof (vp->v_part)); vp->v_nparts = (ushort_t)mdvp->nparts; for (i = 0; (i < mdvp->nparts); ++i) { vp->v_part[i].p_start = (daddr32_t)mdvp->parts[i].start; vp->v_part[i].p_size = (daddr32_t)mdvp->parts[i].size; vp->v_part[i].p_tag = mdvp->parts[i].tag; vp->v_part[i].p_flag = mdvp->parts[i].flag; } } /* * Set the vtoc, but use the cached copy to get the info from. * We write np->drivenamep->vtoc to disk. * Before we can do this we read the vtoc in. * if we're dealing with a metadevice and this metadevice is a 64 bit device * we can use meta_getmdvtoc/meta_setmdvtoc * else * we use meta_getvtoc/meta_setvtoc but than we first have to convert * dnp->vtoc (actually being a mdvtoc_t) into a vtoc_t */ int metasetvtoc( mdname_t *np, md_error_t *ep ) { char *rname = np->rname; mddrivename_t *dnp = np->drivenamep; int fd; int err; int save_errno; struct dk_geom geom; if ((fd = open(rname, (O_RDONLY | O_NDELAY), 0)) < 0) return (mdsyserror(ep, errno, rname)); err = ioctl(fd, DKIOCGGEOM, &geom); save_errno = errno; if (err == 0) { struct vtoc vtoc; if (meta_getvtoc(fd, np->cname, &vtoc, NULL, ep) < 0) { (void) close(fd); return (-1); } meta_mdvtoc_to_vtoc(&dnp->vtoc, &vtoc); if (meta_setvtoc(fd, np->cname, &vtoc, ep) < 0) { (void) close(fd); return (-1); } } else if (save_errno == ENOTSUP) { struct dk_gpt *gpt; int ret; /* allocation of gpt is done in meta_mdvtoc_to_efi */ meta_mdvtoc_to_efi(&dnp->vtoc, &gpt); ret = efi_write(fd, gpt); save_errno = errno; free(gpt); if (ret != 0) { (void) close(fd); return (mdsyserror(ep, save_errno, rname)); } else { (void) close(fd); return (0); } } else { (void) close(fd); return (mdsyserror(ep, save_errno, rname)); } (void) close(fd); return (0); } mdgeom_t * metagetgeom( mdname_t *np, /* only rname, drivenamep, are setup */ md_error_t *ep ) { if (metagetvtoc(np, FALSE, NULL, ep) == NULL) return (NULL); return (&np->drivenamep->geom); } mdcinfo_t * metagetcinfo( mdname_t *np, /* only rname, drivenamep, are setup */ md_error_t *ep ) { char *rname = np->rname; mddrivename_t *dnp = np->drivenamep; int fd; struct dk_cinfo cinfo; /* short circuit */ if (dnp->cinfo.cname[0] != '\0') return (&dnp->cinfo); /* get controller info */ if ((fd = open(rname, (O_RDONLY|O_NDELAY), 0)) < 0) { (void) mdsyserror(ep, errno, rname); return (NULL); } if (ioctl(fd, DKIOCINFO, &cinfo) != 0) { int save = errno; (void) close(fd); if (save == ENOTTY) { (void) mddeverror(ep, MDE_NOT_DISK, NODEV64, rname); } else { (void) mdsyserror(ep, save, rname); } return (NULL); } (void) close(fd); /* sd/ssd bug */ /* convert to our format */ if (meta_cinfo_to_md(np, &cinfo, &dnp->cinfo, ep) != 0) return (NULL); /* return info */ return (&dnp->cinfo); } /* * get partition number */ int metagetpartno( mdname_t *np, md_error_t *ep ) { mdvtoc_t *vtocp; uint_t partno; if ((vtocp = metagetvtoc(np, FALSE, &partno, ep)) == NULL) return (-1); assert(partno < vtocp->nparts); return (partno); } /* * get size of device */ diskaddr_t metagetsize( mdname_t *np, md_error_t *ep ) { mdvtoc_t *vtocp; uint_t partno; if ((vtocp = metagetvtoc(np, FALSE, &partno, ep)) == NULL) return (MD_DISKADDR_ERROR); assert(partno < vtocp->nparts); return (vtocp->parts[partno].size); } /* * get label of device */ diskaddr_t metagetlabel( mdname_t *np, md_error_t *ep ) { mdvtoc_t *vtocp; uint_t partno; if ((vtocp = metagetvtoc(np, FALSE, &partno, ep)) == NULL) return (MD_DISKADDR_ERROR); assert(partno < vtocp->nparts); return (vtocp->parts[partno].label); } /* * find out where database replicas end */ static int mddb_getendblk( mdsetname_t *sp, mdname_t *np, diskaddr_t *endblkp, md_error_t *ep ) { md_replicalist_t *rlp = NULL; md_replicalist_t *rl; /* make sure we have a component */ *endblkp = 0; if (metaismeta(np)) return (0); /* get replicas, quit if none */ if (metareplicalist(sp, MD_BASICNAME_OK | PRINT_FAST, &rlp, ep) < 0) { if (! mdismddberror(ep, MDE_DB_NODB)) return (-1); mdclrerror(ep); return (0); } else if (rlp == NULL) return (0); /* go through all the replicas */ for (rl = rlp; (rl != NULL); rl = rl->rl_next) { md_replica_t *rp = rl->rl_repp; mdname_t *repnamep = rp->r_namep; diskaddr_t dbend; if (np->dev != repnamep->dev) continue; dbend = rp->r_blkno + rp->r_nblk - 1; if (dbend > *endblkp) *endblkp = dbend; } /* cleanup, return success */ metafreereplicalist(rlp); return (0); } /* * return cached start block */ static diskaddr_t metagetend( mdsetname_t *sp, mdname_t *np, md_error_t *ep ) { diskaddr_t end_blk = MD_DISKADDR_ERROR; /* short circuit */ if (np->end_blk != MD_DISKADDR_ERROR) return (np->end_blk); /* look for database locations */ if (mddb_getendblk(sp, np, &end_blk, ep) != 0) return (MD_DISKADDR_ERROR); /* success */ np->end_blk = end_blk; return (end_blk); } /* * does device have a metadb */ int metahasmddb( mdsetname_t *sp, mdname_t *np, md_error_t *ep ) { if (metagetend(sp, np, ep) == MD_DISKADDR_ERROR) return (-1); else if (np->end_blk > 0) return (1); else return (0); } /* * return cached start block */ diskaddr_t metagetstart( mdsetname_t *sp, mdname_t *np, md_error_t *ep ) { diskaddr_t start_blk = MD_DISKADDR_ERROR; /* short circuit */ if (np->start_blk != MD_DISKADDR_ERROR) return (np->start_blk); /* look for database locations */ if ((start_blk = metagetend(sp, np, ep)) == MD_DISKADDR_ERROR) return (MD_DISKADDR_ERROR); /* check for label */ if (start_blk == 0) { start_blk = metagetlabel(np, ep); if (start_blk == MD_DISKADDR_ERROR) { return (MD_DISKADDR_ERROR); } } /* roundup to next cylinder */ if (start_blk != 0) { mdgeom_t *geomp; if ((geomp = metagetgeom(np, ep)) == NULL) return (MD_DISKADDR_ERROR); start_blk = roundup(start_blk, (geomp->nhead * geomp->nsect)); } /* success */ np->start_blk = start_blk; return (start_blk); } /* * return cached devices name */ char * metagetdevicesname( mdname_t *np, md_error_t *ep ) { char path[MAXPATHLEN + 1]; int len; /* short circuit */ if (np->devicesname != NULL) return (np->devicesname); /* follow symlink */ if ((len = readlink(np->bname, path, (sizeof (path) - 1))) < 0) { (void) mdsyserror(ep, errno, np->bname); return (NULL); } else if (len >= sizeof (path)) { (void) mdsyserror(ep, ENAMETOOLONG, np->bname); return (NULL); } path[len] = '\0'; if ((len = strfind(path, "/devices/")) < 0) { (void) mddeverror(ep, MDE_DEVICES_NAME, np->dev, np->bname); return (NULL); } /* return name */ np->devicesname = Strdup(path + len + strlen("/devices")); return (np->devicesname); } /* * get metadevice misc name */ char * metagetmiscname( mdname_t *np, md_error_t *ep ) { mddrivename_t *dnp = np->drivenamep; md_i_driverinfo_t mid; /* short circuit */ if (dnp->miscname != NULL) return (dnp->miscname); if (metachkmeta(np, ep) != 0) return (NULL); /* get misc module from driver */ (void) memset(&mid, 0, sizeof (mid)); mid.mnum = meta_getminor(np->dev); if (metaioctl(MD_IOCGET_DRVNM, &mid, &mid.mde, np->cname) != 0) { (void) mdstealerror(ep, &mid.mde); return (NULL); } /* return miscname */ dnp->miscname = Strdup(MD_PNTDRIVERNAME(&mid)); return (dnp->miscname); } /* * get unit structure from driver */ md_unit_t * meta_get_mdunit( mdsetname_t *sp, mdname_t *np, md_error_t *ep ) { md_i_get_t mig; char *miscname = NULL; /* should have a set */ assert(sp != NULL); assert(sp->setno == MD_MIN2SET(meta_getminor(np->dev))); /* get size of unit structure */ if (metachkmeta(np, ep) != 0) return (NULL); if ((miscname = metagetmiscname(np, ep)) == NULL) return (NULL); (void) memset(&mig, '\0', sizeof (mig)); MD_SETDRIVERNAME(&mig, miscname, sp->setno); mig.id = meta_getminor(np->dev); if (metaioctl(MD_IOCGET, &mig, &mig.mde, np->cname) != 0) { (void) mdstealerror(ep, &mig.mde); return (NULL); } /* get actual unit structure */ assert(mig.size > 0); mig.mdp = (uintptr_t)Zalloc(mig.size); if (metaioctl(MD_IOCGET, &mig, &mig.mde, np->cname) != 0) { (void) mdstealerror(ep, &mig.mde); Free((void *)(uintptr_t)mig.mdp); return (NULL); } return ((md_unit_t *)(uintptr_t)mig.mdp); } /* * free metadevice unit */ void meta_free_unit( mddrivename_t *dnp ) { if (dnp->unitp != NULL) { switch (dnp->unitp->type) { case MD_DEVICE: meta_free_stripe((md_stripe_t *)dnp->unitp); break; case MD_METAMIRROR: meta_free_mirror((md_mirror_t *)dnp->unitp); break; case MD_METATRANS: meta_free_trans((md_trans_t *)dnp->unitp); break; case MD_METARAID: meta_free_raid((md_raid_t *)dnp->unitp); break; case MD_METASP: meta_free_sp((md_sp_t *)dnp->unitp); break; default: assert(0); break; } dnp->unitp = NULL; } } /* * free metadevice name info */ void meta_invalidate_name( mdname_t *namep ) { mddrivename_t *dnp = namep->drivenamep; /* get rid of cached name info */ if (namep->devicesname != NULL) { Free(namep->devicesname); namep->devicesname = NULL; } namep->key = MD_KEYBAD; namep->start_blk = -1; namep->end_blk = -1; /* get rid of cached drivename info */ (void) memset(&dnp->geom, 0, sizeof (dnp->geom)); (void) memset(&dnp->cinfo, 0, sizeof (dnp->cinfo)); metafreevtoc(&dnp->vtoc); metaflushsidenames(dnp); dnp->side_names_key = MD_KEYBAD; if (dnp->miscname != NULL) { Free(dnp->miscname); dnp->miscname = NULL; } meta_free_unit(dnp); } /* * get metadevice unit */ md_common_t * meta_get_unit( mdsetname_t *sp, mdname_t *np, md_error_t *ep ) { char *miscname; /* short circuit */ if (np->drivenamep->unitp != NULL) return (np->drivenamep->unitp); if (metachkmeta(np, ep) != 0) return (NULL); /* dispatch */ if ((miscname = metagetmiscname(np, ep)) == NULL) return (NULL); else if (strcmp(miscname, MD_STRIPE) == 0) return ((md_common_t *)meta_get_stripe(sp, np, ep)); else if (strcmp(miscname, MD_MIRROR) == 0) return ((md_common_t *)meta_get_mirror(sp, np, ep)); else if (strcmp(miscname, MD_TRANS) == 0) return ((md_common_t *)meta_get_trans(sp, np, ep)); else if (strcmp(miscname, MD_RAID) == 0) return ((md_common_t *)meta_get_raid(sp, np, ep)); else if (strcmp(miscname, MD_SP) == 0) return ((md_common_t *)meta_get_sp(sp, np, ep)); else { (void) mdmderror(ep, MDE_UNKNOWN_TYPE, meta_getminor(np->dev), np->cname); return (NULL); } } int meta_isopen( mdsetname_t *sp, mdname_t *np, md_error_t *ep, mdcmdopts_t options ) { md_isopen_t d; if (metachkmeta(np, ep) != 0) return (-1); (void) memset(&d, '\0', sizeof (d)); d.dev = np->dev; if (metaioctl(MD_IOCISOPEN, &d, &d.mde, np->cname) != 0) return (mdstealerror(ep, &d.mde)); /* * shortcut: if the device is open, no need to check on other nodes, * even in case of a mn metadevice * Also return in case we're told not to check on other nodes. */ if ((d.isopen != 0) || ((options & MDCMD_MN_OPEN_CHECK) == 0)) { return (d.isopen); } /* * If the device is closed locally, but it's a mn device, * check on all other nodes, too */ if (sp->setno != MD_LOCAL_SET) { (void) metaget_setdesc(sp, ep); /* not supposed to fail */ if (sp->setdesc->sd_flags & MD_SR_MN) { int err = 0; md_mn_result_t *resp; /* * This message is never directly issued. * So we launch it with a suspend override flag. * If the commd is suspended, and this message comes * along it must be sent due to replaying a metainit or * similar. In that case we don't want this message to * be blocked. * If the commd is not suspended, the flag does no harm. * Additionally we don't want the result of the message * cached in the MCT, because we want uptodate results, * and the message doesn't need being logged either. * Hence NO_LOG and NO_MCT */ err = mdmn_send_message( sp->setno, MD_MN_MSG_CLU_CHECK, MD_MSGF_NO_MCT | MD_MSGF_STOP_ON_ERROR | MD_MSGF_NO_LOG | MD_MSGF_OVERRIDE_SUSPEND, (char *)&d, sizeof (md_isopen_t), &resp, ep); if (err == 0) { d.isopen = resp->mmr_exitval; } else { /* * in case some error occurred, * we better say the device is open */ d.isopen = 1; } if (resp != (md_mn_result_t *)NULL) { free_result(resp); } } } return (d.isopen); }