/*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2011 Nathan Whitehorn * 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. * * $FreeBSD$ */ #include #include #include #include #include #include #include #include #include #include #include #include #include "diskmenu.h" #include "partedit.h" struct pmetadata_head part_metadata; static int sade_mode = 0; static int apply_changes(struct gmesh *mesh); static void apply_workaround(struct gmesh *mesh); static struct partedit_item *read_geom_mesh(struct gmesh *mesh, int *nitems); static void add_geom_children(struct ggeom *gp, int recurse, struct partedit_item **items, int *nitems); static void init_fstab_metadata(void); static void get_mount_points(struct partedit_item *items, int nitems); static int validate_setup(void); static void sigint_handler(int sig) { struct gmesh mesh; /* Revert all changes and exit dialog-mode cleanly on SIGINT */ geom_gettree(&mesh); gpart_revert_all(&mesh); geom_deletetree(&mesh); bsddialog_end(); exit(1); } int main(int argc, const char **argv) { struct partition_metadata *md; const char *progname, *prompt; struct partedit_item *items = NULL; struct gmesh mesh; int i, op, nitems; int error; struct bsddialog_conf conf; progname = getprogname(); if (strcmp(progname, "sade") == 0) sade_mode = 1; TAILQ_INIT(&part_metadata); init_fstab_metadata(); if (bsddialog_init() == BSDDIALOG_ERROR) err(1, "%s", bsddialog_geterror()); bsddialog_initconf(&conf); if (!sade_mode) bsddialog_backtitle(&conf, OSNAME " Installer"); i = 0; /* Revert changes on SIGINT */ signal(SIGINT, sigint_handler); if (strcmp(progname, "autopart") == 0) { /* Guided */ prompt = "Please review the disk setup. When complete, press " "the Finish button."; /* Experimental ZFS autopartition support */ if (argc > 1 && strcmp(argv[1], "zfs") == 0) { part_wizard("zfs"); } else { part_wizard("ufs"); } } else if (strcmp(progname, "scriptedpart") == 0) { error = scripted_editor(argc, argv); prompt = NULL; if (error != 0) { bsddialog_end(); return (error); } } else { prompt = "Create partitions for " OSNAME ", F1 for help.\n" "No changes will be made until you select Finish."; } /* Show the part editor either immediately, or to confirm wizard */ while (prompt != NULL) { bsddialog_clearterminal(); if (!sade_mode) bsddialog_backtitle(&conf, "FreeBSD Installer"); error = geom_gettree(&mesh); if (error == 0) items = read_geom_mesh(&mesh, &nitems); if (error || items == NULL) { conf.title = "Error"; bsddialog_msgbox(&conf, "No disks found. If you need " "to install a kernel driver, choose Shell at the " "installation menu.", 0, 0); break; } get_mount_points(items, nitems); if (i >= nitems) i = nitems - 1; op = diskmenu_show("Partition Editor", prompt, items, nitems, &i); switch (op) { case BUTTON_CREATE: gpart_create((struct gprovider *)(items[i].cookie), NULL, NULL, NULL, NULL, 1); break; case BUTTON_DELETE: gpart_delete((struct gprovider *)(items[i].cookie)); break; case BUTTON_MODIFY: gpart_edit((struct gprovider *)(items[i].cookie)); break; case BUTTON_REVERT: gpart_revert_all(&mesh); while ((md = TAILQ_FIRST(&part_metadata)) != NULL) { if (md->fstab != NULL) { free(md->fstab->fs_spec); free(md->fstab->fs_file); free(md->fstab->fs_vfstype); free(md->fstab->fs_mntops); free(md->fstab->fs_type); free(md->fstab); } if (md->newfs != NULL) free(md->newfs); free(md->name); TAILQ_REMOVE(&part_metadata, md, metadata); free(md); } init_fstab_metadata(); break; case BUTTON_AUTO: part_wizard("ufs"); break; } error = 0; if (op == BUTTON_FINISH) { conf.button.ok_label = "Commit"; conf.button.with_extra = true; conf.button.extra_label = "Revert & Exit"; conf.button.cancel_label = "Back"; conf.title = "Confirmation"; op = bsddialog_yesno(&conf, "Your changes will now be " "written to disk. If you have chosen to overwrite " "existing data, it will be PERMANENTLY ERASED. Are " "you sure you want to commit your changes?", 0, 0); conf.button.ok_label = NULL; conf.button.with_extra = false; conf.button.extra_label = NULL; conf.button.cancel_label = NULL; if (op == BSDDIALOG_OK && validate_setup()) { /* Save */ error = apply_changes(&mesh); if (!error) apply_workaround(&mesh); break; } else if (op == BSDDIALOG_EXTRA) { /* Quit */ gpart_revert_all(&mesh); error = -1; break; } } geom_deletetree(&mesh); free(items); } if (prompt == NULL) { error = geom_gettree(&mesh); if (validate_setup()) { error = apply_changes(&mesh); } else { gpart_revert_all(&mesh); error = -1; } } geom_deletetree(&mesh); free(items); bsddialog_end(); return (error); } struct partition_metadata * get_part_metadata(const char *name, int create) { struct partition_metadata *md; TAILQ_FOREACH(md, &part_metadata, metadata) if (md->name != NULL && strcmp(md->name, name) == 0) break; if (md == NULL && create) { md = calloc(1, sizeof(*md)); md->name = strdup(name); TAILQ_INSERT_TAIL(&part_metadata, md, metadata); } return (md); } void delete_part_metadata(const char *name) { struct partition_metadata *md; TAILQ_FOREACH(md, &part_metadata, metadata) { if (md->name != NULL && strcmp(md->name, name) == 0) { if (md->fstab != NULL) { free(md->fstab->fs_spec); free(md->fstab->fs_file); free(md->fstab->fs_vfstype); free(md->fstab->fs_mntops); free(md->fstab->fs_type); free(md->fstab); } if (md->newfs != NULL) free(md->newfs); free(md->name); TAILQ_REMOVE(&part_metadata, md, metadata); free(md); break; } } } static int validate_setup(void) { struct partition_metadata *md, *root = NULL; int button; struct bsddialog_conf conf; TAILQ_FOREACH(md, &part_metadata, metadata) { if (md->fstab != NULL && strcmp(md->fstab->fs_file, "/") == 0) root = md; /* XXX: Check for duplicate mountpoints */ } bsddialog_initconf(&conf); if (root == NULL) { conf.title = "Error"; bsddialog_msgbox(&conf, "No root partition was found. " "The root " OSNAME " partition must have a mountpoint " "of '/'.", 0, 0); return (false); } /* * Check for root partitions that we aren't formatting, which is * usually a mistake */ if (root->newfs == NULL && !sade_mode) { conf.button.default_cancel = true; conf.title = "Warning"; button = bsddialog_yesno(&conf, "The chosen root partition " "has a preexisting filesystem. If it contains an existing " OSNAME " system, please update it with freebsd-update " "instead of installing a new system on it. The partition " "can also be erased by pressing \"No\" and then deleting " "and recreating it. Are you sure you want to proceed?", 0, 0); if (button == BSDDIALOG_CANCEL) return (false); } return (true); } static int mountpoint_sorter(const void *xa, const void *xb) { struct partition_metadata *a = *(struct partition_metadata **)xa; struct partition_metadata *b = *(struct partition_metadata **)xb; if (a->fstab == NULL && b->fstab == NULL) return 0; if (a->fstab == NULL) return 1; if (b->fstab == NULL) return -1; return strcmp(a->fstab->fs_file, b->fstab->fs_file); } static int apply_changes(struct gmesh *mesh) { struct partition_metadata *md; char message[512]; int i, nitems, error, *miniperc; const char **minilabel; const char *fstab_path; FILE *fstab; struct bsddialog_conf conf; nitems = 1; /* Partition table changes */ TAILQ_FOREACH(md, &part_metadata, metadata) { if (md->newfs != NULL) nitems++; } minilabel = calloc(nitems, sizeof(const char *)); miniperc = calloc(nitems, sizeof(int)); minilabel[0] = "Writing partition tables"; miniperc[0] = BSDDIALOG_MG_INPROGRESS; i = 1; TAILQ_FOREACH(md, &part_metadata, metadata) { if (md->newfs != NULL) { char *item; item = malloc(255); sprintf(item, "Initializing %s", md->name); minilabel[i] = item; miniperc[i] = BSDDIALOG_MG_PENDING; i++; } } i = 0; bsddialog_initconf(&conf); conf.title = "Initializing"; bsddialog_mixedgauge(&conf, "Initializing file systems. Please wait.", 0, 0, i * 100 / nitems, nitems, minilabel, miniperc); gpart_commit(mesh); miniperc[i] = BSDDIALOG_MG_COMPLETED; i++; if (getenv("BSDINSTALL_LOG") == NULL) setenv("BSDINSTALL_LOG", "/dev/null", 1); TAILQ_FOREACH(md, &part_metadata, metadata) { if (md->newfs != NULL) { miniperc[i] = BSDDIALOG_MG_INPROGRESS; bsddialog_mixedgauge(&conf, "Initializing file systems. Please wait.", 0, 0, i * 100 / nitems, nitems, minilabel, miniperc); sprintf(message, "(echo %s; %s) >>%s 2>>%s", md->newfs, md->newfs, getenv("BSDINSTALL_LOG"), getenv("BSDINSTALL_LOG")); error = system(message); miniperc[i] = (error == 0) ? BSDDIALOG_MG_COMPLETED : BSDDIALOG_MG_FAILED; i++; } } bsddialog_mixedgauge(&conf, "Initializing file systems. Please wait.", 0, 0, i * 100 / nitems, nitems, minilabel, miniperc); for (i = 1; i < nitems; i++) free(__DECONST(char *, minilabel[i])); free(minilabel); free(miniperc); /* Sort filesystems for fstab so that mountpoints are ordered */ { struct partition_metadata **tobesorted; struct partition_metadata *tmp; int nparts = 0; TAILQ_FOREACH(md, &part_metadata, metadata) nparts++; tobesorted = malloc(sizeof(struct partition_metadata *)*nparts); nparts = 0; TAILQ_FOREACH_SAFE(md, &part_metadata, metadata, tmp) { tobesorted[nparts++] = md; TAILQ_REMOVE(&part_metadata, md, metadata); } qsort(tobesorted, nparts, sizeof(tobesorted[0]), mountpoint_sorter); /* Now re-add everything */ while (nparts-- > 0) TAILQ_INSERT_HEAD(&part_metadata, tobesorted[nparts], metadata); free(tobesorted); } if (getenv("PATH_FSTAB") != NULL) fstab_path = getenv("PATH_FSTAB"); else fstab_path = "/etc/fstab"; fstab = fopen(fstab_path, "w+"); if (fstab == NULL) { sprintf(message, "Cannot open fstab file %s for writing (%s)\n", getenv("PATH_FSTAB"), strerror(errno)); conf.title = "Error"; bsddialog_msgbox(&conf, message, 0, 0); return (-1); } fprintf(fstab, "# Device\tMountpoint\tFStype\tOptions\tDump\tPass#\n"); TAILQ_FOREACH(md, &part_metadata, metadata) { if (md->fstab != NULL) fprintf(fstab, "%s\t%s\t\t%s\t%s\t%d\t%d\n", md->fstab->fs_spec, md->fstab->fs_file, md->fstab->fs_vfstype, md->fstab->fs_mntops, md->fstab->fs_freq, md->fstab->fs_passno); } fclose(fstab); return (0); } static void apply_workaround(struct gmesh *mesh) { struct gclass *classp; struct ggeom *gp; struct gconfig *gc; const char *scheme = NULL, *modified = NULL; struct bsddialog_conf conf; LIST_FOREACH(classp, &mesh->lg_class, lg_class) { if (strcmp(classp->lg_name, "PART") == 0) break; } if (strcmp(classp->lg_name, "PART") != 0) { bsddialog_initconf(&conf); conf.title = "Error"; bsddialog_msgbox(&conf, "gpart not found!", 0, 0); return; } LIST_FOREACH(gp, &classp->lg_geom, lg_geom) { LIST_FOREACH(gc, &gp->lg_config, lg_config) { if (strcmp(gc->lg_name, "scheme") == 0) { scheme = gc->lg_val; } else if (strcmp(gc->lg_name, "modified") == 0) { modified = gc->lg_val; } } if (scheme && strcmp(scheme, "GPT") == 0 && modified && strcmp(modified, "true") == 0) { if (getenv("WORKAROUND_LENOVO")) gpart_set_root(gp->lg_name, "lenovofix"); if (getenv("WORKAROUND_GPTACTIVE")) gpart_set_root(gp->lg_name, "active"); } } } static struct partedit_item * read_geom_mesh(struct gmesh *mesh, int *nitems) { struct gclass *classp; struct ggeom *gp; struct partedit_item *items; *nitems = 0; items = NULL; /* * Build the device table. First add all disks (and CDs). */ LIST_FOREACH(classp, &mesh->lg_class, lg_class) { if (strcmp(classp->lg_name, "DISK") != 0 && strcmp(classp->lg_name, "MD") != 0) continue; /* Now recurse into all children */ LIST_FOREACH(gp, &classp->lg_geom, lg_geom) add_geom_children(gp, 0, &items, nitems); } return (items); } static void add_geom_children(struct ggeom *gp, int recurse, struct partedit_item **items, int *nitems) { struct gconsumer *cp; struct gprovider *pp; struct gconfig *gc; if (strcmp(gp->lg_class->lg_name, "PART") == 0 && !LIST_EMPTY(&gp->lg_config)) { LIST_FOREACH(gc, &gp->lg_config, lg_config) { if (strcmp(gc->lg_name, "scheme") == 0) (*items)[*nitems-1].type = gc->lg_val; } } if (LIST_EMPTY(&gp->lg_provider)) return; LIST_FOREACH(pp, &gp->lg_provider, lg_provider) { if (strcmp(gp->lg_class->lg_name, "LABEL") == 0) continue; /* Skip WORM media */ if (strncmp(pp->lg_name, "cd", 2) == 0) continue; *items = realloc(*items, (*nitems+1)*sizeof(struct partedit_item)); (*items)[*nitems].indentation = recurse; (*items)[*nitems].name = pp->lg_name; (*items)[*nitems].size = pp->lg_mediasize; (*items)[*nitems].mountpoint = NULL; (*items)[*nitems].type = ""; (*items)[*nitems].cookie = pp; LIST_FOREACH(gc, &pp->lg_config, lg_config) { if (strcmp(gc->lg_name, "type") == 0) (*items)[*nitems].type = gc->lg_val; } /* Skip swap-backed MD devices */ if (strcmp(gp->lg_class->lg_name, "MD") == 0 && strcmp((*items)[*nitems].type, "swap") == 0) continue; (*nitems)++; LIST_FOREACH(cp, &pp->lg_consumers, lg_consumers) add_geom_children(cp->lg_geom, recurse+1, items, nitems); /* Only use first provider for acd */ if (strcmp(gp->lg_class->lg_name, "ACD") == 0) break; } } static void init_fstab_metadata(void) { struct fstab *fstab; struct partition_metadata *md; setfsent(); while ((fstab = getfsent()) != NULL) { md = calloc(1, sizeof(struct partition_metadata)); md->name = NULL; if (strncmp(fstab->fs_spec, "/dev/", 5) == 0) md->name = strdup(&fstab->fs_spec[5]); md->fstab = malloc(sizeof(struct fstab)); md->fstab->fs_spec = strdup(fstab->fs_spec); md->fstab->fs_file = strdup(fstab->fs_file); md->fstab->fs_vfstype = strdup(fstab->fs_vfstype); md->fstab->fs_mntops = strdup(fstab->fs_mntops); md->fstab->fs_type = strdup(fstab->fs_type); md->fstab->fs_freq = fstab->fs_freq; md->fstab->fs_passno = fstab->fs_passno; md->newfs = NULL; TAILQ_INSERT_TAIL(&part_metadata, md, metadata); } } static void get_mount_points(struct partedit_item *items, int nitems) { struct partition_metadata *md; int i; for (i = 0; i < nitems; i++) { TAILQ_FOREACH(md, &part_metadata, metadata) { if (md->name != NULL && md->fstab != NULL && strcmp(md->name, items[i].name) == 0) { items[i].mountpoint = md->fstab->fs_file; break; } } } }