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/*- * Copyright (c) 2004, 2007 Lukas Ertl * Copyright (c) 2007, 2009 Ulf Lilleengen * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/geom/vinum/geom_vinum_init.c 197767 2009-10-05 08:44:31Z lulf $"); #include <sys/param.h> #include <sys/bio.h> #include <sys/libkern.h> #include <sys/malloc.h> #include <geom/geom.h> #include <geom/vinum/geom_vinum_var.h> #include <geom/vinum/geom_vinum.h> static int gv_sync(struct gv_volume *); static int gv_rebuild_plex(struct gv_plex *); static int gv_init_plex(struct gv_plex *); static int gv_grow_plex(struct gv_plex *); static int gv_sync_plex(struct gv_plex *, struct gv_plex *); static struct gv_plex *gv_find_good_plex(struct gv_volume *); void gv_start_obj(struct g_geom *gp, struct gctl_req *req) { struct gv_softc *sc; struct gv_volume *v; struct gv_plex *p; int *argc, *initsize; char *argv, buf[20]; int i, type; argc = gctl_get_paraml(req, "argc", sizeof(*argc)); initsize = gctl_get_paraml(req, "initsize", sizeof(*initsize)); if (argc == NULL || *argc == 0) { gctl_error(req, "no arguments given"); return; } sc = gp->softc; for (i = 0; i < *argc; i++) { snprintf(buf, sizeof(buf), "argv%d", i); argv = gctl_get_param(req, buf, NULL); if (argv == NULL) continue; type = gv_object_type(sc, argv); switch (type) { case GV_TYPE_VOL: v = gv_find_vol(sc, argv); if (v != NULL) gv_post_event(sc, GV_EVENT_START_VOLUME, v, NULL, *initsize, 0); break; case GV_TYPE_PLEX: p = gv_find_plex(sc, argv); if (p != NULL) gv_post_event(sc, GV_EVENT_START_PLEX, p, NULL, *initsize, 0); break; case GV_TYPE_SD: case GV_TYPE_DRIVE: /* XXX Not implemented, but what is the use? */ gctl_error(req, "unable to start '%s' - not yet supported", argv); return; default: gctl_error(req, "unknown object '%s'", argv); return; } } } int gv_start_plex(struct gv_plex *p) { struct gv_volume *v; struct gv_plex *up; struct gv_sd *s; int error; KASSERT(p != NULL, ("gv_start_plex: NULL p")); error = 0; v = p->vol_sc; /* RAID5 plexes can either be init, rebuilt or grown. */ if (p->org == GV_PLEX_RAID5) { if (p->state > GV_PLEX_DEGRADED) { LIST_FOREACH(s, &p->subdisks, in_plex) { if (s->flags & GV_SD_GROW) { error = gv_grow_plex(p); return (error); } } } else if (p->state == GV_PLEX_DEGRADED) { error = gv_rebuild_plex(p); } else error = gv_init_plex(p); } else { /* We want to sync from the other plex if we're down. */ if (p->state == GV_PLEX_DOWN && v->plexcount > 1) { up = gv_find_good_plex(v); if (up == NULL) { G_VINUM_DEBUG(1, "unable to find a good plex"); return (ENXIO); } g_topology_lock(); error = gv_access(v->provider, 1, 1, 0); if (error) { g_topology_unlock(); G_VINUM_DEBUG(0, "sync from '%s' failed to " "access volume: %d", up->name, error); return (error); } g_topology_unlock(); error = gv_sync_plex(p, up); if (error) return (error); /* * In case we have a stripe that is up, check whether it can be * grown. */ } else if (p->org == GV_PLEX_STRIPED && p->state != GV_PLEX_DOWN) { LIST_FOREACH(s, &p->subdisks, in_plex) { if (s->flags & GV_SD_GROW) { error = gv_grow_plex(p); break; } } } } return (error); } int gv_start_vol(struct gv_volume *v) { struct gv_plex *p; int error; KASSERT(v != NULL, ("gv_start_vol: NULL v")); error = 0; if (v->plexcount == 0) return (ENXIO); else if (v->plexcount == 1) { p = LIST_FIRST(&v->plexes); KASSERT(p != NULL, ("gv_start_vol: NULL p on %s", v->name)); error = gv_start_plex(p); } else error = gv_sync(v); return (error); } /* Sync a plex p from the plex up. */ static int gv_sync_plex(struct gv_plex *p, struct gv_plex *up) { int error; KASSERT(p != NULL, ("%s: NULL p", __func__)); KASSERT(up != NULL, ("%s: NULL up", __func__)); if ((p == up) || (p->state == GV_PLEX_UP)) return (0); if (p->flags & GV_PLEX_SYNCING || p->flags & GV_PLEX_REBUILDING || p->flags & GV_PLEX_GROWING) { return (EINPROGRESS); } p->synced = 0; p->flags |= GV_PLEX_SYNCING; G_VINUM_DEBUG(1, "starting sync of plex %s", p->name); error = gv_sync_request(up, p, p->synced, MIN(GV_DFLT_SYNCSIZE, up->size - p->synced), BIO_READ, NULL); if (error) { G_VINUM_DEBUG(0, "error syncing plex %s", p->name); return (error); } return (0); } /* Return a good plex from volume v. */ static struct gv_plex * gv_find_good_plex(struct gv_volume *v) { struct gv_plex *up; /* Find the plex that's up. */ up = NULL; LIST_FOREACH(up, &v->plexes, in_volume) { if (up->state == GV_PLEX_UP) break; } /* Didn't find a good plex. */ return (up); } static int gv_sync(struct gv_volume *v) { struct gv_softc *sc; struct gv_plex *p, *up; int error; KASSERT(v != NULL, ("gv_sync: NULL v")); sc = v->vinumconf; KASSERT(sc != NULL, ("gv_sync: NULL sc on %s", v->name)); up = gv_find_good_plex(v); if (up == NULL) return (ENXIO); g_topology_lock(); error = gv_access(v->provider, 1, 1, 0); if (error) { g_topology_unlock(); G_VINUM_DEBUG(0, "sync from '%s' failed to access volume: %d", up->name, error); return (error); } g_topology_unlock(); /* Go through the good plex, and issue BIO's to all other plexes. */ LIST_FOREACH(p, &v->plexes, in_volume) { error = gv_sync_plex(p, up); if (error) break; } return (0); } static int gv_rebuild_plex(struct gv_plex *p) { struct gv_drive *d; struct gv_sd *s; int error; if (p->flags & GV_PLEX_SYNCING || p->flags & GV_PLEX_REBUILDING || p->flags & GV_PLEX_GROWING) return (EINPROGRESS); /* * Make sure that all subdisks have consumers. We won't allow a rebuild * unless every subdisk have one. */ LIST_FOREACH(s, &p->subdisks, in_plex) { d = s->drive_sc; if (d == NULL || (d->flags & GV_DRIVE_REFERENCED)) { G_VINUM_DEBUG(0, "unable to rebuild %s, subdisk(s) have" " no drives", p->name); return (ENXIO); } } p->flags |= GV_PLEX_REBUILDING; p->synced = 0; g_topology_assert_not(); g_topology_lock(); error = gv_access(p->vol_sc->provider, 1, 1, 0); if (error) { G_VINUM_DEBUG(0, "unable to access provider"); return (0); } g_topology_unlock(); gv_parity_request(p, GV_BIO_REBUILD, 0); return (0); } static int gv_grow_plex(struct gv_plex *p) { struct gv_volume *v; struct gv_sd *s; off_t origsize, origlength; int error, sdcount; KASSERT(p != NULL, ("gv_grow_plex: NULL p")); v = p->vol_sc; KASSERT(v != NULL, ("gv_grow_plex: NULL v")); if (p->flags & GV_PLEX_GROWING || p->flags & GV_PLEX_SYNCING || p->flags & GV_PLEX_REBUILDING) return (EINPROGRESS); g_topology_lock(); error = gv_access(v->provider, 1, 1, 0); g_topology_unlock(); if (error) { G_VINUM_DEBUG(0, "unable to access provider"); return (error); } /* XXX: This routine with finding origsize is used two other places as * well, so we should create a function for it. */ sdcount = p->sdcount; LIST_FOREACH(s, &p->subdisks, in_plex) { if (s->flags & GV_SD_GROW) sdcount--; } s = LIST_FIRST(&p->subdisks); if (s == NULL) { G_VINUM_DEBUG(0, "error growing plex without subdisks"); return (GV_ERR_NOTFOUND); } p->flags |= GV_PLEX_GROWING; origsize = (sdcount - 1) * s->size; origlength = (sdcount - 1) * p->stripesize; p->synced = 0; G_VINUM_DEBUG(1, "starting growing of plex %s", p->name); gv_grow_request(p, 0, MIN(origlength, origsize), BIO_READ, NULL); return (0); } static int gv_init_plex(struct gv_plex *p) { struct gv_drive *d; struct gv_sd *s; int error; off_t start; caddr_t data; KASSERT(p != NULL, ("gv_init_plex: NULL p")); LIST_FOREACH(s, &p->subdisks, in_plex) { if (s->state == GV_SD_INITIALIZING) return (EINPROGRESS); gv_set_sd_state(s, GV_SD_INITIALIZING, GV_SETSTATE_FORCE); s->init_size = GV_DFLT_SYNCSIZE; start = s->drive_offset + s->initialized; d = s->drive_sc; if (d == NULL) { G_VINUM_DEBUG(0, "subdisk %s has no drive yet", s->name); break; } /* * Take the lock here since we need to avoid a race in * gv_init_request if the BIO is completed before the lock is * released. */ g_topology_lock(); error = g_access(d->consumer, 0, 1, 0); g_topology_unlock(); if (error) { G_VINUM_DEBUG(0, "error accessing consumer when " "initializing %s", s->name); break; } data = g_malloc(s->init_size, M_WAITOK | M_ZERO); gv_init_request(s, start, data, s->init_size); } return (0); }