/*- * Copyright (c) 2007, 2008 Marcel Moolenaar * 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 AUTHORS 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 AUTHORS 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 __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "core/geom.h" #include "misc/subr.h" #ifdef STATIC_GEOM_CLASSES #define PUBSYM(x) gpart_##x #else #define PUBSYM(x) x #endif uint32_t PUBSYM(lib_version) = G_LIB_VERSION; uint32_t PUBSYM(version) = 0; static char sstart[32]; static char ssize[32]; volatile sig_atomic_t undo_restore; #define GPART_AUTOFILL "*" #define GPART_FLAGS "C" #define GPART_PARAM_BOOTCODE "bootcode" #define GPART_PARAM_INDEX "index" #define GPART_PARAM_PARTCODE "partcode" static struct gclass *find_class(struct gmesh *, const char *); static struct ggeom * find_geom(struct gclass *, const char *); static const char *find_geomcfg(struct ggeom *, const char *); static const char *find_provcfg(struct gprovider *, const char *); static struct gprovider *find_provider(struct ggeom *, off_t); static const char *fmtsize(int64_t); static int gpart_autofill(struct gctl_req *); static int gpart_autofill_resize(struct gctl_req *); static void gpart_bootcode(struct gctl_req *, unsigned int); static void *gpart_bootfile_read(const char *, ssize_t *); static void gpart_issue(struct gctl_req *, unsigned int); static void gpart_show(struct gctl_req *, unsigned int); static void gpart_show_geom(struct ggeom *, const char *, int); static int gpart_show_hasopt(struct gctl_req *, const char *, const char *); static void gpart_write_partcode(struct ggeom *, int, void *, ssize_t); static void gpart_write_partcode_vtoc8(struct ggeom *, int, void *); static void gpart_print_error(const char *); static void gpart_backup(struct gctl_req *, unsigned int); static void gpart_restore(struct gctl_req *, unsigned int); struct g_command PUBSYM(class_commands)[] = { { "add", 0, gpart_issue, { { 'a', "alignment", GPART_AUTOFILL, G_TYPE_STRING }, { 'b', "start", GPART_AUTOFILL, G_TYPE_STRING }, { 's', "size", GPART_AUTOFILL, G_TYPE_STRING }, { 't', "type", NULL, G_TYPE_STRING }, { 'i', GPART_PARAM_INDEX, G_VAL_OPTIONAL, G_TYPE_NUMBER }, { 'l', "label", G_VAL_OPTIONAL, G_TYPE_STRING }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "-t type [-a alignment] [-b start] [-s size] [-i index] " "[-l label] [-f flags] geom" }, { "backup", 0, gpart_backup, G_NULL_OPTS, "geom" }, { "bootcode", 0, gpart_bootcode, { { 'b', GPART_PARAM_BOOTCODE, G_VAL_OPTIONAL, G_TYPE_STRING }, { 'p', GPART_PARAM_PARTCODE, G_VAL_OPTIONAL, G_TYPE_STRING }, { 'i', GPART_PARAM_INDEX, G_VAL_OPTIONAL, G_TYPE_NUMBER }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "[-b bootcode] [-p partcode -i index] [-f flags] geom" }, { "commit", 0, gpart_issue, G_NULL_OPTS, "geom" }, { "create", 0, gpart_issue, { { 's', "scheme", NULL, G_TYPE_STRING }, { 'n', "entries", G_VAL_OPTIONAL, G_TYPE_NUMBER }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "-s scheme [-n entries] [-f flags] provider" }, { "delete", 0, gpart_issue, { { 'i', GPART_PARAM_INDEX, NULL, G_TYPE_NUMBER }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "-i index [-f flags] geom" }, { "destroy", 0, gpart_issue, { { 'F', "force", NULL, G_TYPE_BOOL }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "[-F] [-f flags] geom" }, { "modify", 0, gpart_issue, { { 'i', GPART_PARAM_INDEX, NULL, G_TYPE_NUMBER }, { 'l', "label", G_VAL_OPTIONAL, G_TYPE_STRING }, { 't', "type", G_VAL_OPTIONAL, G_TYPE_STRING }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "-i index [-l label] [-t type] [-f flags] geom" }, { "set", 0, gpart_issue, { { 'a', "attrib", NULL, G_TYPE_STRING }, { 'i', GPART_PARAM_INDEX, G_VAL_OPTIONAL, G_TYPE_NUMBER }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "-a attrib [-i index] [-f flags] geom" }, { "show", 0, gpart_show, { { 'l', "show_label", NULL, G_TYPE_BOOL }, { 'r', "show_rawtype", NULL, G_TYPE_BOOL }, { 'p', "show_providers", NULL, G_TYPE_BOOL }, G_OPT_SENTINEL }, "[-l | -r] [-p] [geom ...]" }, { "undo", 0, gpart_issue, G_NULL_OPTS, "geom" }, { "unset", 0, gpart_issue, { { 'a', "attrib", NULL, G_TYPE_STRING }, { 'i', GPART_PARAM_INDEX, G_VAL_OPTIONAL, G_TYPE_NUMBER }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "-a attrib [-i index] [-f flags] geom" }, { "resize", 0, gpart_issue, { { 'a', "alignment", GPART_AUTOFILL, G_TYPE_STRING }, { 's', "size", GPART_AUTOFILL, G_TYPE_STRING }, { 'i', GPART_PARAM_INDEX, NULL, G_TYPE_NUMBER }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "-i index [-a alignment] [-s size] [-f flags] geom" }, { "restore", 0, gpart_restore, { { 'F', "force", NULL, G_TYPE_BOOL }, { 'l', "restore_labels", NULL, G_TYPE_BOOL }, { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "[-lF] [-f flags] provider [...]" }, { "recover", 0, gpart_issue, { { 'f', "flags", GPART_FLAGS, G_TYPE_STRING }, G_OPT_SENTINEL }, "[-f flags] geom" }, G_CMD_SENTINEL }; static struct gclass * find_class(struct gmesh *mesh, const char *name) { struct gclass *classp; LIST_FOREACH(classp, &mesh->lg_class, lg_class) { if (strcmp(classp->lg_name, name) == 0) return (classp); } return (NULL); } static struct ggeom * find_geom(struct gclass *classp, const char *name) { struct ggeom *gp, *wgp; if (strncmp(name, _PATH_DEV, sizeof(_PATH_DEV) - 1) == 0) name += sizeof(_PATH_DEV) - 1; wgp = NULL; LIST_FOREACH(gp, &classp->lg_geom, lg_geom) { if (strcmp(gp->lg_name, name) != 0) continue; if (find_geomcfg(gp, "wither") == NULL) return (gp); else wgp = gp; } return (wgp); } static const char * find_geomcfg(struct ggeom *gp, const char *cfg) { struct gconfig *gc; LIST_FOREACH(gc, &gp->lg_config, lg_config) { if (!strcmp(gc->lg_name, cfg)) return (gc->lg_val); } return (NULL); } static const char * find_provcfg(struct gprovider *pp, const char *cfg) { struct gconfig *gc; LIST_FOREACH(gc, &pp->lg_config, lg_config) { if (!strcmp(gc->lg_name, cfg)) return (gc->lg_val); } return (NULL); } static struct gprovider * find_provider(struct ggeom *gp, off_t minsector) { struct gprovider *pp, *bestpp; const char *s; off_t sector, bestsector; bestpp = NULL; bestsector = 0; LIST_FOREACH(pp, &gp->lg_provider, lg_provider) { s = find_provcfg(pp, "start"); sector = (off_t)strtoimax(s, NULL, 0); if (sector < minsector) continue; if (bestpp != NULL && sector >= bestsector) continue; bestpp = pp; bestsector = sector; } return (bestpp); } static const char * fmtsize(int64_t rawsz) { static char buf[5]; humanize_number(buf, sizeof(buf), rawsz, "", HN_AUTOSCALE, HN_B | HN_NOSPACE | HN_DECIMAL); return (buf); } static const char * fmtattrib(struct gprovider *pp) { static char buf[128]; struct gconfig *gc; u_int idx; buf[0] = '\0'; idx = 0; LIST_FOREACH(gc, &pp->lg_config, lg_config) { if (strcmp(gc->lg_name, "attrib") != 0) continue; idx += snprintf(buf + idx, sizeof(buf) - idx, "%s%s", (idx == 0) ? " [" : ",", gc->lg_val); } if (idx > 0) snprintf(buf + idx, sizeof(buf) - idx, "] "); return (buf); } #define ALIGNDOWN(d, a) ((d) - (d) % (a)) #define ALIGNUP(d, a) ((d) % (a) ? (d) - (d) % (a) + (a): (d)) static int gpart_autofill_resize(struct gctl_req *req) { struct gmesh mesh; struct gclass *cp; struct ggeom *gp; struct gprovider *pp; off_t last, size, start, new_size; off_t lba, new_lba, alignment, offset; const char *s; int error, idx, has_alignment; idx = (int)gctl_get_intmax(req, GPART_PARAM_INDEX); if (idx < 1) errx(EXIT_FAILURE, "invalid partition index"); error = geom_gettree(&mesh); if (error) return (error); s = gctl_get_ascii(req, "class"); if (s == NULL) abort(); cp = find_class(&mesh, s); if (cp == NULL) errx(EXIT_FAILURE, "Class %s not found.", s); s = gctl_get_ascii(req, "arg0"); if (s == NULL) abort(); gp = find_geom(cp, s); if (gp == NULL) errx(EXIT_FAILURE, "No such geom: %s.", s); pp = LIST_FIRST(&gp->lg_consumer)->lg_provider; if (pp == NULL) errx(EXIT_FAILURE, "Provider for geom %s not found.", s); s = gctl_get_ascii(req, "alignment"); has_alignment = (*s == '*') ? 0 : 1; alignment = 1; if (has_alignment) { error = g_parse_lba(s, pp->lg_sectorsize, &alignment); if (error) errc(EXIT_FAILURE, error, "Invalid alignment param"); if (alignment == 0) errx(EXIT_FAILURE, "Invalid alignment param"); } else { lba = pp->lg_stripesize / pp->lg_sectorsize; if (lba > 0) alignment = lba; } error = gctl_delete_param(req, "alignment"); if (error) errc(EXIT_FAILURE, error, "internal error"); s = gctl_get_ascii(req, "size"); if (*s == '*') new_size = 0; else { error = g_parse_lba(s, pp->lg_sectorsize, &new_size); if (error) errc(EXIT_FAILURE, error, "Invalid size param"); /* no autofill necessary. */ if (has_alignment == 0) goto done; } offset = (pp->lg_stripeoffset / pp->lg_sectorsize) % alignment; s = find_geomcfg(gp, "last"); if (s == NULL) errx(EXIT_FAILURE, "Final block not found for geom %s", gp->lg_name); last = (off_t)strtoimax(s, NULL, 0); LIST_FOREACH(pp, &gp->lg_provider, lg_provider) { s = find_provcfg(pp, "index"); if (s == NULL) continue; if (atoi(s) == idx) break; } if (pp == NULL) errx(EXIT_FAILURE, "invalid partition index"); s = find_provcfg(pp, "start"); start = (off_t)strtoimax(s, NULL, 0); s = find_provcfg(pp, "end"); lba = (off_t)strtoimax(s, NULL, 0); size = lba - start + 1; pp = find_provider(gp, lba + 1); if (new_size > 0 && (new_size <= size || pp == NULL)) { /* The start offset may be not aligned, so we align the end * offset and then calculate the size. */ new_size = ALIGNDOWN(start + offset + new_size, alignment) - start - offset; goto done; } if (pp == NULL) { new_size = ALIGNDOWN(last + offset + 1, alignment) - start - offset; if (new_size < size) return (ENOSPC); } else { s = find_provcfg(pp, "start"); new_lba = (off_t)strtoimax(s, NULL, 0); /* * Is there any free space between current and * next providers? */ new_lba = ALIGNDOWN(new_lba + offset, alignment) - offset; if (new_lba > lba) new_size = new_lba - start; else { geom_deletetree(&mesh); return (ENOSPC); } } done: snprintf(ssize, sizeof(ssize), "%jd", (intmax_t)new_size); gctl_change_param(req, "size", -1, ssize); geom_deletetree(&mesh); return (0); } static int gpart_autofill(struct gctl_req *req) { struct gmesh mesh; struct gclass *cp; struct ggeom *gp; struct gprovider *pp; off_t first, last, a_first; off_t size, start, a_lba; off_t lba, len, alignment, offset; uintmax_t grade; const char *s; int error, has_size, has_start, has_alignment; s = gctl_get_ascii(req, "verb"); if (strcmp(s, "resize") == 0) return gpart_autofill_resize(req); if (strcmp(s, "add") != 0) return (0); error = geom_gettree(&mesh); if (error) return (error); s = gctl_get_ascii(req, "class"); if (s == NULL) abort(); cp = find_class(&mesh, s); if (cp == NULL) errx(EXIT_FAILURE, "Class %s not found.", s); s = gctl_get_ascii(req, "arg0"); if (s == NULL) abort(); gp = find_geom(cp, s); if (gp == NULL) errx(EXIT_FAILURE, "No such geom: %s.", s); pp = LIST_FIRST(&gp->lg_consumer)->lg_provider; if (pp == NULL) errx(EXIT_FAILURE, "Provider for geom %s not found.", s); s = gctl_get_ascii(req, "alignment"); has_alignment = (*s == '*') ? 0 : 1; alignment = 1; if (has_alignment) { error = g_parse_lba(s, pp->lg_sectorsize, &alignment); if (error) errc(EXIT_FAILURE, error, "Invalid alignment param"); if (alignment == 0) errx(EXIT_FAILURE, "Invalid alignment param"); } error = gctl_delete_param(req, "alignment"); if (error) errc(EXIT_FAILURE, error, "internal error"); s = gctl_get_ascii(req, "size"); has_size = (*s == '*') ? 0 : 1; size = 0; if (has_size) { error = g_parse_lba(s, pp->lg_sectorsize, &size); if (error) errc(EXIT_FAILURE, error, "Invalid size param"); } s = gctl_get_ascii(req, "start"); has_start = (*s == '*') ? 0 : 1; start = 0ULL; if (has_start) { error = g_parse_lba(s, pp->lg_sectorsize, &start); if (error) errc(EXIT_FAILURE, error, "Invalid start param"); } /* No autofill necessary. */ if (has_size && has_start && !has_alignment) goto done; len = pp->lg_stripesize / pp->lg_sectorsize; if (len > 0 && !has_alignment) alignment = len; /* Adjust parameters to stripeoffset */ offset = (pp->lg_stripeoffset / pp->lg_sectorsize) % alignment; start = ALIGNUP(start + offset, alignment); if (size > alignment) size = ALIGNDOWN(size, alignment); s = find_geomcfg(gp, "first"); if (s == NULL) errx(EXIT_FAILURE, "Starting block not found for geom %s", gp->lg_name); first = (off_t)strtoimax(s, NULL, 0); s = find_geomcfg(gp, "last"); if (s == NULL) errx(EXIT_FAILURE, "Final block not found for geom %s", gp->lg_name); last = (off_t)strtoimax(s, NULL, 0); grade = ~0ULL; a_first = ALIGNUP(first + offset, alignment); last = ALIGNDOWN(last + offset, alignment); if (a_first < start) a_first = start; while ((pp = find_provider(gp, first)) != NULL) { s = find_provcfg(pp, "start"); lba = (off_t)strtoimax(s, NULL, 0); a_lba = ALIGNDOWN(lba + offset, alignment); if (first < a_lba && a_first < a_lba) { /* Free space [first, lba> */ len = a_lba - a_first; if (has_size) { if (len >= size && (uintmax_t)(len - size) < grade) { start = a_first; grade = len - size; } } else if (has_start) { if (start >= a_first && start < a_lba) { size = a_lba - start; grade = start - a_first; } } else { if (grade == ~0ULL || len > size) { start = a_first; size = len; grade = 0; } } } s = find_provcfg(pp, "end"); first = (off_t)strtoimax(s, NULL, 0) + 1; if (first + offset > a_first) a_first = ALIGNUP(first + offset, alignment); } if (a_first <= last) { /* Free space [first-last] */ len = ALIGNDOWN(last - a_first + 1, alignment); if (has_size) { if (len >= size && (uintmax_t)(len - size) < grade) { start = a_first; grade = len - size; } } else if (has_start) { if (start >= a_first && start <= last) { size = ALIGNDOWN(last - start + 1, alignment); grade = start - a_first; } } else { if (grade == ~0ULL || len > size) { start = a_first; size = len; grade = 0; } } } if (grade == ~0ULL) { geom_deletetree(&mesh); return (ENOSPC); } start -= offset; /* Return back to real offset */ done: snprintf(ssize, sizeof(ssize), "%jd", (intmax_t)size); gctl_change_param(req, "size", -1, ssize); snprintf(sstart, sizeof(sstart), "%jd", (intmax_t)start); gctl_change_param(req, "start", -1, sstart); geom_deletetree(&mesh); return (0); } static void gpart_show_geom(struct ggeom *gp, const char *element, int show_providers) { struct gprovider *pp; const char *s, *scheme; off_t first, last, sector, end; off_t length, secsz; int idx, wblocks, wname, wmax; if (find_geomcfg(gp, "wither")) return; scheme = find_geomcfg(gp, "scheme"); if (scheme == NULL) errx(EXIT_FAILURE, "Scheme not found for geom %s", gp->lg_name); s = find_geomcfg(gp, "first"); if (s == NULL) errx(EXIT_FAILURE, "Starting block not found for geom %s", gp->lg_name); first = (off_t)strtoimax(s, NULL, 0); s = find_geomcfg(gp, "last"); if (s == NULL) errx(EXIT_FAILURE, "Final block not found for geom %s", gp->lg_name); last = (off_t)strtoimax(s, NULL, 0); wblocks = strlen(s); s = find_geomcfg(gp, "state"); if (s == NULL) errx(EXIT_FAILURE, "State not found for geom %s", gp->lg_name); if (s != NULL && *s != 'C') s = NULL; wmax = strlen(gp->lg_name); if (show_providers) { LIST_FOREACH(pp, &gp->lg_provider, lg_provider) { wname = strlen(pp->lg_name); if (wname > wmax) wmax = wname; } } wname = wmax; pp = LIST_FIRST(&gp->lg_consumer)->lg_provider; secsz = pp->lg_sectorsize; printf("=>%*jd %*jd %*s %s (%s)%s\n", wblocks, (intmax_t)first, wblocks, (intmax_t)(last - first + 1), wname, gp->lg_name, scheme, fmtsize(pp->lg_mediasize), s ? " [CORRUPT]": ""); while ((pp = find_provider(gp, first)) != NULL) { s = find_provcfg(pp, "start"); sector = (off_t)strtoimax(s, NULL, 0); s = find_provcfg(pp, "end"); end = (off_t)strtoimax(s, NULL, 0); length = end - sector + 1; s = find_provcfg(pp, "index"); idx = atoi(s); if (first < sector) { printf(" %*jd %*jd %*s - free - (%s)\n", wblocks, (intmax_t)first, wblocks, (intmax_t)(sector - first), wname, "", fmtsize((sector - first) * secsz)); } if (show_providers) { printf(" %*jd %*jd %*s %s %s (%s)\n", wblocks, (intmax_t)sector, wblocks, (intmax_t)length, wname, pp->lg_name, find_provcfg(pp, element), fmtattrib(pp), fmtsize(pp->lg_mediasize)); } else printf(" %*jd %*jd %*d %s %s (%s)\n", wblocks, (intmax_t)sector, wblocks, (intmax_t)length, wname, idx, find_provcfg(pp, element), fmtattrib(pp), fmtsize(pp->lg_mediasize)); first = end + 1; } if (first <= last) { length = last - first + 1; printf(" %*jd %*jd %*s - free - (%s)\n", wblocks, (intmax_t)first, wblocks, (intmax_t)length, wname, "", fmtsize(length * secsz)); } printf("\n"); } static int gpart_show_hasopt(struct gctl_req *req, const char *opt, const char *elt) { if (!gctl_get_int(req, "%s", opt)) return (0); if (elt != NULL) errx(EXIT_FAILURE, "-l and -r are mutually exclusive"); return (1); } static void gpart_show(struct gctl_req *req, unsigned int fl __unused) { struct gmesh mesh; struct gclass *classp; struct ggeom *gp; const char *element, *name; int error, i, nargs, show_providers; element = NULL; if (gpart_show_hasopt(req, "show_label", element)) element = "label"; if (gpart_show_hasopt(req, "show_rawtype", element)) element = "rawtype"; if (element == NULL) element = "type"; name = gctl_get_ascii(req, "class"); if (name == NULL) abort(); error = geom_gettree(&mesh); if (error != 0) errc(EXIT_FAILURE, error, "Cannot get GEOM tree"); classp = find_class(&mesh, name); if (classp == NULL) { geom_deletetree(&mesh); errx(EXIT_FAILURE, "Class %s not found.", name); } show_providers = gctl_get_int(req, "show_providers"); nargs = gctl_get_int(req, "nargs"); if (nargs > 0) { for (i = 0; i < nargs; i++) { name = gctl_get_ascii(req, "arg%d", i); gp = find_geom(classp, name); if (gp != NULL) gpart_show_geom(gp, element, show_providers); else errx(EXIT_FAILURE, "No such geom: %s.", name); } } else { LIST_FOREACH(gp, &classp->lg_geom, lg_geom) { gpart_show_geom(gp, element, show_providers); } } geom_deletetree(&mesh); } static void gpart_backup(struct gctl_req *req, unsigned int fl __unused) { struct gmesh mesh; struct gclass *classp; struct gprovider *pp; struct ggeom *gp; const char *s, *scheme; off_t sector, end; off_t length; int error, i, windex, wblocks, wtype; if (gctl_get_int(req, "nargs") != 1) errx(EXIT_FAILURE, "Invalid number of arguments."); error = geom_gettree(&mesh); if (error != 0) errc(EXIT_FAILURE, error, "Cannot get GEOM tree"); s = gctl_get_ascii(req, "class"); if (s == NULL) abort(); classp = find_class(&mesh, s); if (classp == NULL) { geom_deletetree(&mesh); errx(EXIT_FAILURE, "Class %s not found.", s); } s = gctl_get_ascii(req, "arg0"); if (s == NULL) abort(); gp = find_geom(classp, s); if (gp == NULL) errx(EXIT_FAILURE, "No such geom: %s.", s); scheme = find_geomcfg(gp, "scheme"); if (scheme == NULL) abort(); pp = LIST_FIRST(&gp->lg_consumer)->lg_provider; s = find_geomcfg(gp, "last"); if (s == NULL) abort(); wblocks = strlen(s); wtype = 0; LIST_FOREACH(pp, &gp->lg_provider, lg_provider) { s = find_provcfg(pp, "type"); i = strlen(s); if (i > wtype) wtype = i; } s = find_geomcfg(gp, "entries"); if (s == NULL) abort(); windex = strlen(s); printf("%s %s\n", scheme, s); LIST_FOREACH(pp, &gp->lg_provider, lg_provider) { s = find_provcfg(pp, "start"); sector = (off_t)strtoimax(s, NULL, 0); s = find_provcfg(pp, "end"); end = (off_t)strtoimax(s, NULL, 0); length = end - sector + 1; s = find_provcfg(pp, "label"); printf("%-*s %*s %*jd %*jd %s %s\n", windex, find_provcfg(pp, "index"), wtype, find_provcfg(pp, "type"), wblocks, (intmax_t)sector, wblocks, (intmax_t)length, (s != NULL) ? s: "", fmtattrib(pp)); } geom_deletetree(&mesh); } static int skip_line(const char *p) { while (*p != '\0') { if (*p == '#') return (1); if (isspace(*p) == 0) return (0); p++; } return (1); } static void gpart_sighndl(int sig __unused) { undo_restore = 1; } static void gpart_restore(struct gctl_req *req, unsigned int fl __unused) { struct gmesh mesh; struct gclass *classp; struct gctl_req *r; struct ggeom *gp; struct sigaction si_sa; const char *s, *flags, *errstr, *label; char **ap, *argv[6], line[BUFSIZ], *pline; int error, forced, i, l, nargs, created, rl; intmax_t n; nargs = gctl_get_int(req, "nargs"); if (nargs < 1) errx(EXIT_FAILURE, "Invalid number of arguments."); forced = gctl_get_int(req, "force"); flags = gctl_get_ascii(req, "flags"); rl = gctl_get_int(req, "restore_labels"); s = gctl_get_ascii(req, "class"); if (s == NULL) abort(); error = geom_gettree(&mesh); if (error != 0) errc(EXIT_FAILURE, error, "Cannot get GEOM tree"); classp = find_class(&mesh, s); if (classp == NULL) { geom_deletetree(&mesh); errx(EXIT_FAILURE, "Class %s not found.", s); } sigemptyset(&si_sa.sa_mask); si_sa.sa_flags = 0; si_sa.sa_handler = gpart_sighndl; if (sigaction(SIGINT, &si_sa, 0) == -1) err(EXIT_FAILURE, "sigaction SIGINT"); if (forced) { /* destroy existent partition table before restore */ for (i = 0; i < nargs; i++) { s = gctl_get_ascii(req, "arg%d", i); gp = find_geom(classp, s); if (gp != NULL) { r = gctl_get_handle(); gctl_ro_param(r, "class", -1, classp->lg_name); gctl_ro_param(r, "verb", -1, "destroy"); gctl_ro_param(r, "flags", -1, "restore"); gctl_ro_param(r, "force", sizeof(forced), &forced); gctl_ro_param(r, "arg0", -1, s); errstr = gctl_issue(r); if (errstr != NULL && errstr[0] != '\0') { gpart_print_error(errstr); gctl_free(r); goto backout; } gctl_free(r); } } } created = 0; while (undo_restore == 0 && fgets(line, sizeof(line) - 1, stdin) != NULL) { /* Format of backup entries: * * [label] ['['attrib[,attrib]']'] */ pline = (char *)line; pline[strlen(line) - 1] = 0; if (skip_line(pline)) continue; for (ap = argv; (*ap = strsep(&pline, " \t")) != NULL;) if (**ap != '\0' && ++ap >= &argv[6]) break; l = ap - &argv[0]; label = pline = NULL; if (l == 1 || l == 2) { /* create table */ if (created) errx(EXIT_FAILURE, "Incorrect backup format."); if (l == 2) n = strtoimax(argv[1], NULL, 0); for (i = 0; i < nargs; i++) { s = gctl_get_ascii(req, "arg%d", i); r = gctl_get_handle(); gctl_ro_param(r, "class", -1, classp->lg_name); gctl_ro_param(r, "verb", -1, "create"); gctl_ro_param(r, "scheme", -1, argv[0]); if (l == 2) gctl_ro_param(r, "entries", sizeof(n), &n); gctl_ro_param(r, "flags", -1, "restore"); gctl_ro_param(r, "arg0", -1, s); errstr = gctl_issue(r); if (errstr != NULL && errstr[0] != '\0') { gpart_print_error(errstr); gctl_free(r); goto backout; } gctl_free(r); } created = 1; continue; } else if (l < 4 || created == 0) errx(EXIT_FAILURE, "Incorrect backup format."); else if (l == 5) { if (strchr(argv[4], '[') == NULL) label = argv[4]; else pline = argv[4]; } else if (l == 6) { label = argv[4]; pline = argv[5]; } /* Add partitions to each table */ for (i = 0; i < nargs; i++) { s = gctl_get_ascii(req, "arg%d", i); r = gctl_get_handle(); n = strtoimax(argv[0], NULL, 0); gctl_ro_param(r, "class", -1, classp->lg_name); gctl_ro_param(r, "verb", -1, "add"); gctl_ro_param(r, "flags", -1, "restore"); gctl_ro_param(r, GPART_PARAM_INDEX, sizeof(n), &n); gctl_ro_param(r, "type", -1, argv[1]); gctl_ro_param(r, "start", -1, argv[2]); gctl_ro_param(r, "size", -1, argv[3]); if (rl != 0 && label != NULL) gctl_ro_param(r, "label", -1, argv[4]); gctl_ro_param(r, "alignment", -1, GPART_AUTOFILL); gctl_ro_param(r, "arg0", -1, s); error = gpart_autofill(r); if (error != 0) errc(EXIT_FAILURE, error, "autofill"); errstr = gctl_issue(r); if (errstr != NULL && errstr[0] != '\0') { gpart_print_error(errstr); gctl_free(r); goto backout; } gctl_free(r); } if (pline == NULL || *pline != '[') continue; /* set attributes */ pline++; for (ap = argv; (*ap = strsep(&pline, ",]")) != NULL;) if (**ap != '\0' && ++ap >= &argv[6]) break; for (i = 0; i < nargs; i++) { l = ap - &argv[0]; s = gctl_get_ascii(req, "arg%d", i); while (l > 0) { r = gctl_get_handle(); gctl_ro_param(r, "class", -1, classp->lg_name); gctl_ro_param(r, "verb", -1, "set"); gctl_ro_param(r, "flags", -1, "restore"); gctl_ro_param(r, GPART_PARAM_INDEX, sizeof(n), &n); gctl_ro_param(r, "attrib", -1, argv[--l]); gctl_ro_param(r, "arg0", -1, s); errstr = gctl_issue(r); if (errstr != NULL && errstr[0] != '\0') { gpart_print_error(errstr); gctl_free(r); goto backout; } gctl_free(r); } } } if (undo_restore) goto backout; /* commit changes if needed */ if (strchr(flags, 'C') != NULL) { for (i = 0; i < nargs; i++) { s = gctl_get_ascii(req, "arg%d", i); r = gctl_get_handle(); gctl_ro_param(r, "class", -1, classp->lg_name); gctl_ro_param(r, "verb", -1, "commit"); gctl_ro_param(r, "arg0", -1, s); errstr = gctl_issue(r); if (errstr != NULL && errstr[0] != '\0') { gpart_print_error(errstr); gctl_free(r); goto backout; } gctl_free(r); } } gctl_free(req); geom_deletetree(&mesh); exit(EXIT_SUCCESS); backout: for (i = 0; i < nargs; i++) { s = gctl_get_ascii(req, "arg%d", i); r = gctl_get_handle(); gctl_ro_param(r, "class", -1, classp->lg_name); gctl_ro_param(r, "verb", -1, "undo"); gctl_ro_param(r, "arg0", -1, s); gctl_issue(r); gctl_free(r); } gctl_free(req); geom_deletetree(&mesh); exit(EXIT_FAILURE); } static void * gpart_bootfile_read(const char *bootfile, ssize_t *size) { struct stat sb; void *code; int fd; if (stat(bootfile, &sb) == -1) err(EXIT_FAILURE, "%s", bootfile); if (!S_ISREG(sb.st_mode)) errx(EXIT_FAILURE, "%s: not a regular file", bootfile); if (sb.st_size == 0) errx(EXIT_FAILURE, "%s: empty file", bootfile); if (*size > 0 && sb.st_size > *size) errx(EXIT_FAILURE, "%s: file too big (%zu limit)", bootfile, *size); *size = sb.st_size; fd = open(bootfile, O_RDONLY); if (fd == -1) err(EXIT_FAILURE, "%s", bootfile); code = malloc(*size); if (code == NULL) err(EXIT_FAILURE, NULL); if (read(fd, code, *size) != *size) err(EXIT_FAILURE, "%s", bootfile); close(fd); return (code); } static void gpart_write_partcode(struct ggeom *gp, int idx, void *code, ssize_t size) { char dsf[128]; struct gprovider *pp; const char *s; char *buf; off_t bsize; int fd; LIST_FOREACH(pp, &gp->lg_provider, lg_provider) { s = find_provcfg(pp, "index"); if (s == NULL) continue; if (atoi(s) == idx) break; } if (pp != NULL) { snprintf(dsf, sizeof(dsf), "/dev/%s", pp->lg_name); if (pp->lg_mediasize < size) errx(EXIT_FAILURE, "%s: not enough space", dsf); fd = open(dsf, O_WRONLY); if (fd == -1) err(EXIT_FAILURE, "%s", dsf); /* * When writing to a disk device, the write must be * sector aligned and not write to any partial sectors, * so round up the buffer size to the next sector and zero it. */ bsize = (size + pp->lg_sectorsize - 1) / pp->lg_sectorsize * pp->lg_sectorsize; buf = calloc(1, bsize); if (buf == NULL) err(EXIT_FAILURE, "%s", dsf); bcopy(code, buf, size); if (write(fd, buf, bsize) != bsize) err(EXIT_FAILURE, "%s", dsf); free(buf); close(fd); } else errx(EXIT_FAILURE, "invalid partition index"); } static void gpart_write_partcode_vtoc8(struct ggeom *gp, int idx, void *code) { char dsf[128]; struct gprovider *pp; const char *s; int installed, fd; installed = 0; LIST_FOREACH(pp, &gp->lg_provider, lg_provider) { s = find_provcfg(pp, "index"); if (s == NULL) continue; if (idx != 0 && atoi(s) != idx) continue; snprintf(dsf, sizeof(dsf), "/dev/%s", pp->lg_name); if (pp->lg_sectorsize != sizeof(struct vtoc8)) errx(EXIT_FAILURE, "%s: unexpected sector " "size (%d)\n", dsf, pp->lg_sectorsize); if (pp->lg_mediasize < VTOC_BOOTSIZE) continue; fd = open(dsf, O_WRONLY); if (fd == -1) err(EXIT_FAILURE, "%s", dsf); /* * We ignore the first VTOC_BOOTSIZE bytes of boot code in * order to avoid overwriting the label. */ if (lseek(fd, sizeof(struct vtoc8), SEEK_SET) != sizeof(struct vtoc8)) err(EXIT_FAILURE, "%s", dsf); if (write(fd, (caddr_t)code + sizeof(struct vtoc8), VTOC_BOOTSIZE - sizeof(struct vtoc8)) != VTOC_BOOTSIZE - sizeof(struct vtoc8)) err(EXIT_FAILURE, "%s", dsf); installed++; close(fd); if (idx != 0 && atoi(s) == idx) break; } if (installed == 0) errx(EXIT_FAILURE, "%s: no partitions", gp->lg_name); } static void gpart_bootcode(struct gctl_req *req, unsigned int fl) { struct gmesh mesh; struct gclass *classp; struct ggeom *gp; const char *s; void *bootcode, *partcode; size_t bootsize, partsize; int error, idx, vtoc8; if (gctl_has_param(req, GPART_PARAM_BOOTCODE)) { s = gctl_get_ascii(req, GPART_PARAM_BOOTCODE); bootsize = 800 * 1024; /* Arbitrary limit. */ bootcode = gpart_bootfile_read(s, &bootsize); error = gctl_change_param(req, GPART_PARAM_BOOTCODE, bootsize, bootcode); if (error) errc(EXIT_FAILURE, error, "internal error"); } else { bootcode = NULL; bootsize = 0; } s = gctl_get_ascii(req, "class"); if (s == NULL) abort(); error = geom_gettree(&mesh); if (error != 0) errc(EXIT_FAILURE, error, "Cannot get GEOM tree"); classp = find_class(&mesh, s); if (classp == NULL) { geom_deletetree(&mesh); errx(EXIT_FAILURE, "Class %s not found.", s); } if (gctl_get_int(req, "nargs") != 1) errx(EXIT_FAILURE, "Invalid number of arguments."); s = gctl_get_ascii(req, "arg0"); if (s == NULL) abort(); gp = find_geom(classp, s); if (gp == NULL) errx(EXIT_FAILURE, "No such geom: %s.", s); s = find_geomcfg(gp, "scheme"); if (s == NULL) errx(EXIT_FAILURE, "Scheme not found for geom %s", gp->lg_name); vtoc8 = 0; if (strcmp(s, "VTOC8") == 0) vtoc8 = 1; if (gctl_has_param(req, GPART_PARAM_PARTCODE)) { s = gctl_get_ascii(req, GPART_PARAM_PARTCODE); partsize = vtoc8 != 0 ? VTOC_BOOTSIZE : bootsize * 1024; partcode = gpart_bootfile_read(s, &partsize); error = gctl_delete_param(req, GPART_PARAM_PARTCODE); if (error) errc(EXIT_FAILURE, error, "internal error"); } else { partcode = NULL; partsize = 0; } if (gctl_has_param(req, GPART_PARAM_INDEX)) { if (partcode == NULL) errx(EXIT_FAILURE, "-i is only valid with -p"); idx = (int)gctl_get_intmax(req, GPART_PARAM_INDEX); if (idx < 1) errx(EXIT_FAILURE, "invalid partition index"); error = gctl_delete_param(req, GPART_PARAM_INDEX); if (error) errc(EXIT_FAILURE, error, "internal error"); } else idx = 0; if (partcode != NULL) { if (vtoc8 == 0) { if (idx == 0) errx(EXIT_FAILURE, "missing -i option"); gpart_write_partcode(gp, idx, partcode, partsize); } else { if (partsize != VTOC_BOOTSIZE) errx(EXIT_FAILURE, "invalid bootcode"); gpart_write_partcode_vtoc8(gp, idx, partcode); } } else if (bootcode == NULL) errx(EXIT_FAILURE, "no -b nor -p"); if (bootcode != NULL) gpart_issue(req, fl); geom_deletetree(&mesh); } static void gpart_print_error(const char *errstr) { char *errmsg; int error; error = strtol(errstr, &errmsg, 0); if (errmsg != errstr) { while (errmsg[0] == ' ') errmsg++; if (errmsg[0] != '\0') warnc(error, "%s", errmsg); else warnc(error, NULL); } else warnx("%s", errmsg); } static void gpart_issue(struct gctl_req *req, unsigned int fl __unused) { char buf[4096]; const char *errstr; int error, status; if (gctl_get_int(req, "nargs") != 1) errx(EXIT_FAILURE, "Invalid number of arguments."); (void)gctl_delete_param(req, "nargs"); /* autofill parameters (if applicable). */ error = gpart_autofill(req); if (error) { warnc(error, "autofill"); status = EXIT_FAILURE; goto done; } bzero(buf, sizeof(buf)); gctl_rw_param(req, "output", sizeof(buf), buf); errstr = gctl_issue(req); if (errstr == NULL || errstr[0] == '\0') { if (buf[0] != '\0') printf("%s", buf); status = EXIT_SUCCESS; goto done; } gpart_print_error(errstr); status = EXIT_FAILURE; done: gctl_free(req); exit(status); }