/* $NetBSD: partman.c,v 1.40 2019/07/23 18:13:40 martin Exp $ */ /* * Copyright 2012 Eugene Lozovoy * 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. * 3. The name of Eugene Lozovoy may not be used to endorse * or promote products derived from this software without specific prior * written permission. * * THIS SOFTWARE IS PROVIDED BY PIERMONT INFORMATION SYSTEMS INC. ``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 PIERMONT INFORMATION SYSTEMS INC. 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. * */ /* * Copyright 2010 The NetBSD Foundation, Inc. * 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 PIERMONT INFORMATION SYSTEMS INC. ``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 PIERMONT INFORMATION SYSTEMS INC. 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. * */ /* partman.c - extended partitioning */ #include #include #include #include #include #include #include #include #include "defs.h" #include "msg_defs.h" #include "menu_defs.h" /* XXX: replace all MAX_* defines with vars that depend on kernel settings */ #define MAX_ENTRIES 96 #define MAX_RAID 8 #define MAX_IN_RAID 48 struct raid_comp { char name[SSTRSIZE]; /* display name for this component */ struct disk_partitions *parts; /* where is this on? */ part_id id; /* which partition in parts */ bool is_spare; /* is this a spare component? */ }; struct raid_desc { int enabled; int blocked; int node; /* the N in raid${N} */ int numRow, numCol, numSpare; int sectPerSU, SUsPerParityUnit, SUsPerReconUnit, raid_level; daddr_t total_size; struct raid_comp comp[MAX_IN_RAID]; }; struct raid_desc *raids; #define MAX_VND 4 struct vnd_desc { int enabled; int blocked; int node; /* the N in vnd${N} */ char filepath[STRSIZE]; daddr_t size; int readonly; int is_exist; int manual_geom; int secsize, nsectors, ntracks, ncylinders; struct pm_devs *pm; /* device this is on */ part_id pm_part; /* which partition (in pm->parts) */ }; struct vnd_desc *vnds; #define MAX_CGD 4 struct cgd_desc { int enabled; int blocked; int node; /* the N in cgd${N} */ char pm_name[SSTRSIZE]; const char *keygen_type; const char *verify_type; const char *enc_type; const char *iv_type; int key_size; struct pm_devs *pm; /* device this is on */ part_id pm_part; /* which partition (in pm->parts) */ }; struct cgd_desc *cgds; #define MAX_LVM_VG 16 #define MAX_LVM_PV 255 #define MAX_LVM_LV 255 typedef struct pv_t { struct pm_devs *pm; char pm_name[SSTRSIZE]; part_id pm_part; int metadatasize; int metadatacopies; int labelsector; int setphysicalvolumesize; } pv_t; typedef struct lv_t { int blocked; daddr_t size; char name[SSTRSIZE]; int readonly; int contiguous; char extents[SSTRSIZE]; int minor; int mirrors; int regionsize; int persistent; int readahead; int stripes; int stripesize; int zero; } lv_t; typedef struct lvms_t { int enabled; int blocked; char name[SSTRSIZE]; int maxlogicalvolumes; int maxphysicalvolumes; int physicalextentsize; daddr_t total_size; pv_t pv[MAX_LVM_PV]; lv_t lv[MAX_LVM_LV]; } lvms_t; lvms_t *lvms; typedef struct structinfo_t { int max; uint entry_size; uint parent_size; void *entry_first; void *entry_enabled; void *entry_blocked; void *entry_node; } structinfo_t; structinfo_t raids_t_info, vnds_t_info, cgds_t_info, lvms_t_info, lv_t_info; typedef struct pm_upddevlist_adv_t { const char *create_msg; int pe_type; structinfo_t *s; int sub_num; struct pm_upddevlist_adv_t *sub; } pm_upddevlist_adv_t; #define MAX_MNTS 48 struct { char dev[STRSIZE]; const char *mnt_opts, *on; } *mnts; int cursel; /* Number of selected entry in main menu */ int changed; /* flag indicating that we have unsaved changes */ int raid_curspare; /* XXX: replace by true way */ enum { /* RAIDframe menu enum */ PMR_MENU_DEVS, PMR_MENU_DEVSSPARE, PMR_MENU_RAIDLEVEL, PMR_MENU_NUMROW, PMR_MENU_NUMCOL, PMR_MENU_NUMSPARE, PMR_MENU_SECTPERSU, PMR_MENU_SUSPERPARITYUNIT, PMR_MENU_SUSPERRECONUNIT, PMR_MENU_REMOVE, PMR_MENU_END }; enum { /* VND menu enum */ PMV_MENU_FILEPATH, PMV_MENU_EXIST, PMV_MENU_SIZE, PMV_MENU_RO, PMV_MENU_MGEOM, PMV_MENU_SECSIZE, PMV_MENU_NSECTORS, PMV_MENU_NTRACKS, PMV_MENU_NCYLINDERS, PMV_MENU_REMOVE, PMV_MENU_END }; enum { /* CGD menu enum */ PMC_MENU_DEV, PMC_MENU_ENCTYPE, PMC_MENU_KEYSIZE, PMC_MENU_IVTYPE, PMC_MENU_KEYGENTYPE, PMC_MENU_VERIFYTYPE, PMC_MENU_REMOVE, PMC_MENU_END }; enum { /* LVM menu enum */ PML_MENU_PV, PML_MENU_NAME, PML_MENU_MAXLOGICALVOLUMES, PML_MENU_MAXPHYSICALVOLUMES, PML_MENU_PHYSICALEXTENTSIZE, PML_MENU_REMOVE, PML_MENU_END }; enum { /* LVM submenu (logical volumes) enum */ PMLV_MENU_NAME, PMLV_MENU_SIZE, PMLV_MENU_READONLY, PMLV_MENU_CONTIGUOUS, PMLV_MENU_EXTENTS, PMLV_MENU_MINOR, PMLV_MENU_PERSISTENT, PMLV_MENU_MIRRORS, PMLV_MENU_REGIONSIZE, PMLV_MENU_READAHEAD, PMLV_MENU_STRIPES, PMLV_MENU_STRIPESIZE, PMLV_MENU_ZERO, PMLV_MENU_REMOVE, PMLV_MENU_END }; struct part_entry pm_dev_list(int); static int pm_raid_disk_add(menudesc *, void *); static int pm_raid_disk_del(menudesc *, void *); static int pm_cgd_disk_set(struct cgd_desc *, struct part_entry *); static int pm_mount(struct pm_devs *, int); static int pm_upddevlist(menudesc *, void *); static void pm_select(struct pm_devs *); static void pm_edit_size_value(msg prompt_msg, daddr_t cylsec, daddr_t *size) { char answer[16], dflt[16]; daddr_t new_size_val, mult; snprintf(dflt, sizeof dflt, "%" PRIu64 "%s", *size / sizemult, multname); msg_prompt_win(prompt_msg, -1, 18, 0, 0, dflt, answer, sizeof answer); mult = sizemult; new_size_val = parse_disk_pos(answer, &mult, cylsec, NULL); if (new_size_val > 0) *size = new_size_val; } static const char * pm_get_mount(struct pm_devs *p, part_id id) { if (p->mounted == NULL) return NULL; if (id >= p->parts->num_part) return NULL; return p->mounted[id]; } bool pm_set_mount(struct pm_devs *p, part_id id, const char *path); bool pm_set_mount(struct pm_devs *p, part_id id, const char *path) { if (p->parts == NULL || id >= p->parts->num_part) return false; if (p->mounted == NULL) { p->mounted = calloc(p->parts->num_part, sizeof(char*)); if (p->mounted == NULL) return false; } free(p->mounted[id]); p->mounted[id] = strdup(path); return p->mounted[id] != NULL; } /* Universal menu for RAID/VND/CGD/LVM entry edit */ static int pm_edit(int menu_entries_count, void (*menu_fmt)(menudesc *, int, void *), int (*action)(menudesc *, void *), int (*check_fun)(void *), void (*entry_init)(void *, void *), void *entry_init_arg, void *dev_ptr, int dev_ptr_delta, structinfo_t *s) { int i, ok = 0; menu_ent *menu_entries; if (dev_ptr == NULL) { /* We should create new device */ for (i = 0; i < s->max && !ok; i++) if (*(int*)((char*)s->entry_enabled + dev_ptr_delta + s->entry_size * i) == 0) { dev_ptr = (char*)s->entry_first + dev_ptr_delta + s->entry_size * i; entry_init(dev_ptr, entry_init_arg); ok = 1; } if (!ok) { /* We do not have free device slots */ hit_enter_to_continue(NULL, MSG_limitcount); return -1; } } menu_entries = calloc(menu_entries_count, sizeof *menu_entries); for (i = 0; i < menu_entries_count - 1; i++) menu_entries[i] = (menu_ent) { .opt_action=action }; menu_entries[i] = (menu_ent) { .opt_name=MSG_fremove, .opt_flags=OPT_EXIT, .opt_action=action }; int menu_no = -1; menu_no = new_menu(NULL, menu_entries, menu_entries_count, -1, -1, 0, 40, MC_NOCLEAR | MC_SCROLL, NULL, menu_fmt, NULL, NULL, MSG_DONE); process_menu(menu_no, dev_ptr); free_menu(menu_no); free(menu_entries); return check_fun(dev_ptr); } /* Show filtered partitions menu */ struct part_entry pm_dev_list(int type) { int dev_num = -1, num_devs = 0; bool ok; part_id i; int menu_no; struct disk_part_info info; menu_ent menu_entries[MAX_DISKS*MAXPARTITIONS]; struct part_entry disk_entries[MAX_DISKS*MAXPARTITIONS]; struct pm_devs *pm_i; SLIST_FOREACH(pm_i, &pm_head, l) for (i = 0; i < pm_i->parts->num_part; i++) { ok = false; if (!pm_i->parts->pscheme->get_part_info(pm_i->parts, i, &info)) continue; if (info.flags & (PTI_WHOLE_DISK|PTI_PSCHEME_INTERNAL|PTI_RAW_PART)) continue; switch (type) { case PM_RAID: if (info.fs_type == FS_RAID) ok = 1; break; case PM_CGD: if (info.fs_type == FS_CGD) ok = 1; break; case PM_LVM: // XXX if (pm_i->bsdlabel[i].lvmpv) // ok = 1; break; } if (!ok) continue; if (pm_partusage(pm_i, i, 0) != 0) continue; disk_entries[num_devs].dev_ptr = pm_i; disk_entries[num_devs].id = i; disk_entries[num_devs].parts = pm_i->parts; pm_i->parts->pscheme->get_part_device( pm_i->parts, i, disk_entries[num_devs].fullname, sizeof disk_entries[num_devs].fullname, NULL, plain_name, false); menu_entries[num_devs] = (struct menu_ent) { .opt_name = disk_entries[num_devs].fullname, .opt_action = set_menu_select, .opt_flags = OPT_EXIT, }; num_devs++; } menu_no = new_menu(MSG_avdisks, menu_entries, num_devs, -1, -1, (num_devs+1<3)?3:num_devs+1, 13, MC_SCROLL | MC_NOCLEAR, NULL, NULL, NULL, NULL, NULL); if (menu_no == -1) return (struct part_entry) { .retvalue = -1, }; process_menu(menu_no, &dev_num); free_menu(menu_no); if (dev_num < 0 || dev_num >= num_devs) return (struct part_entry) { .retvalue = -1, }; disk_entries[dev_num].retvalue = dev_num; return disk_entries[dev_num]; } /* Get unused raid*, cgd* or vnd* device */ static int pm_manage_getfreenode(void *node, const char *d, structinfo_t *s) { int i, ii, ok; char buf[SSTRSIZE]; struct pm_devs *pm_i; *(int*)node = -1; for (i = 0; i < s->max; i++) { ok = 1; /* Check that node is not already reserved */ for (ii = 0; ii < s->max; ii++) if (*(int*)((char*)s->entry_node + s->entry_size * ii) == i) { ok = 0; break; } if (! ok) continue; /* Check that node is not in the device list */ snprintf(buf, SSTRSIZE, "%s%d", d, i); SLIST_FOREACH(pm_i, &pm_head, l) if (! strcmp(pm_i->diskdev, buf)) { ok = 0; break; } if (ok) { *(int*)node = i; return i; } } hit_enter_to_continue(NULL, MSG_nofreedev); return -1; } /* * Show a line for a device, usually with full size in the right * column, alternatively (if != NULL) with no_size_display * instead in paranthesis (used for error displays or to note * a action that can be done to this device. */ static void pm_fmt_disk_line(WINDOW *w, const char *line, const char *on, daddr_t total, const char *no_size_display) { char out[STRSIZE], human[6]; if (on != NULL) { snprintf(out, sizeof out, "%s %s %s", line, msg_string(MSG_pm_menu_on), on); line = out; } if (no_size_display != NULL) { wprintw(w, " %-56s (%s)", line, no_size_display); } else { humanize_number(human, sizeof(human), total * 512, "", HN_AUTOSCALE, HN_B | HN_NOSPACE | HN_DECIMAL); wprintw(w, " %-56s %s", line, human); } } /*** RAIDs ***/ static void pm_raid_menufmt(menudesc *m, int opt, void *arg) { int i, ok = 0; char buf[STRSIZE], rdev[STRSIZE], level[STRSIZE], *line; struct raid_desc *dev_ptr = ((struct part_entry *)arg)[opt].dev_ptr; if (dev_ptr->enabled == 0) return; buf[0] = '\0'; sprintf(rdev, "raid%d", dev_ptr->node); for (i = 0; i < MAX_IN_RAID; i++) { if (dev_ptr->comp[i].parts != NULL) { strlcat(buf, dev_ptr->comp[i].name, sizeof buf); strlcat(buf, " ", sizeof buf); ok = 1; } } if (ok) { sprintf(level, "%u", dev_ptr->raid_level); const char *args[] = { rdev, level }; line = str_arg_subst(msg_string(MSG_raid_menufmt), __arraycount(args), args); pm_fmt_disk_line(m->mw, line, buf, dev_ptr->total_size, NULL); free(line); } else { pm_fmt_disk_line(m->mw, buf, NULL, 0, msg_string(MSG_raid_err_menufmt)); } } static void pm_raid_edit_menufmt(menudesc *m, int opt, void *arg) { int i; char buf[STRSIZE]; struct raid_desc *dev_ptr = arg; buf[0] = '\0'; switch (opt) { case PMR_MENU_DEVS: strlcpy(buf, msg_string(MSG_raid_disks_fmt), sizeof buf); strlcpy(buf, ": ", sizeof buf); for (i = 0; i < MAX_IN_RAID; i++) { if (dev_ptr->comp[i].parts == NULL || dev_ptr->comp[i].is_spare) continue; strlcat(buf, " ", sizeof buf); strlcat(buf, dev_ptr->comp[i].name, sizeof buf); } wprintw(m->mw, "%s", buf); break; case PMR_MENU_DEVSSPARE: strlcpy(buf, msg_string(MSG_raid_spares_fmt), sizeof buf); strlcpy(buf, ": ", sizeof buf); for (i = 0; i < MAX_IN_RAID; i++) { if (dev_ptr->comp[i].parts == NULL || !dev_ptr->comp[i].is_spare) continue; strlcat(buf, " ", sizeof buf); strlcat(buf, dev_ptr->comp[i].name, sizeof buf); } wprintw(m->mw, "%s", buf); break; case PMR_MENU_RAIDLEVEL: wprintw(m->mw, "%s: %u", msg_string(MSG_raid_level_fmt), dev_ptr->raid_level); break; case PMR_MENU_NUMROW: wprintw(m->mw, "%s: %u", msg_string(MSG_raid_numrow_fmt), dev_ptr->numRow); break; case PMR_MENU_NUMCOL: wprintw(m->mw, "%s: %u", msg_string(MSG_raid_numcol_fmt), dev_ptr->numCol); break; case PMR_MENU_NUMSPARE: wprintw(m->mw, "%s: %u", msg_string(MSG_raid_numspare_fmt), dev_ptr->numSpare); break; case PMR_MENU_SECTPERSU: wprintw(m->mw, "%s: %u", msg_string(MSG_raid_sectpersu_fmt), dev_ptr->sectPerSU); break; case PMR_MENU_SUSPERPARITYUNIT: wprintw(m->mw, "%s: %u", msg_string(MSG_raid_superpar_fmt), dev_ptr->SUsPerParityUnit); break; case PMR_MENU_SUSPERRECONUNIT: wprintw(m->mw, "%s: %u", msg_string(MSG_raid_superrec_fmt), dev_ptr->SUsPerReconUnit); break; } } static int pm_raid_set_value(menudesc *m, void *arg) { int retvalue = -1; int *out_var = NULL; char buf[SSTRSIZE]; const char *msg_to_show = NULL; struct raid_desc *dev_ptr = arg; static menu_ent menuent_disk_adddel[] = { { .opt_name=MSG_add, .opt_flags=OPT_EXIT, .opt_action=pm_raid_disk_add }, { .opt_name=MSG_remove, .opt_flags=OPT_EXIT, .opt_action=pm_raid_disk_del } }; static int menu_disk_adddel = -1; if (menu_disk_adddel == -1) { menu_disk_adddel = new_menu(NULL, menuent_disk_adddel, __arraycount(menuent_disk_adddel), -1, -1, 0, 10, MC_NOCLEAR, NULL, NULL, NULL, NULL, NULL); } switch (m->cursel) { case PMR_MENU_DEVS: raid_curspare = 0; process_menu(menu_disk_adddel, dev_ptr); return 0; case PMR_MENU_DEVSSPARE: raid_curspare = 1; process_menu(menu_disk_adddel, dev_ptr); return 0; case PMR_MENU_RAIDLEVEL: process_menu(MENU_raidlevel, &retvalue); if (retvalue >= 0) dev_ptr->raid_level = retvalue; return 0; case PMR_MENU_NUMROW: hit_enter_to_continue(NULL, MSG_raid_nomultidim); return 0; #if 0 /* notyet */ msg_to_show = MSG_raid_numrow_ask; out_var = &(dev_ptr->numRow); break; #endif case PMR_MENU_NUMCOL: msg_to_show = MSG_raid_numcol_ask; out_var = &(dev_ptr->numCol); break; case PMR_MENU_NUMSPARE: msg_to_show = MSG_raid_numspare_ask; out_var = &(dev_ptr->numSpare); break; case PMR_MENU_SECTPERSU: msg_to_show = MSG_raid_sectpersu_ask; out_var = &(dev_ptr->sectPerSU); break; case PMR_MENU_SUSPERPARITYUNIT: msg_to_show = MSG_raid_superpar_ask; out_var = &(dev_ptr->SUsPerParityUnit); break; case PMR_MENU_SUSPERRECONUNIT: msg_to_show = MSG_raid_superrec_ask; out_var = &(dev_ptr->SUsPerReconUnit); break; case PMR_MENU_REMOVE: dev_ptr->enabled = 0; return 0; } if (out_var == NULL || msg_to_show == NULL) return -1; snprintf(buf, SSTRSIZE, "%d", *out_var); msg_prompt_win(msg_to_show, -1, 18, 0, 0, buf, buf, SSTRSIZE); if (atoi(buf) >= 0) *out_var = atoi(buf); return 0; } static void pm_raid_init(void *arg, void *none) { struct raid_desc *dev_ptr = arg; memset(dev_ptr, 0, sizeof(*dev_ptr)); *dev_ptr = (struct raid_desc) { .enabled = 1, .blocked = 0, .sectPerSU = 32, .SUsPerParityUnit = 1, .SUsPerReconUnit = 1, }; } static int pm_raid_check(void *arg) { size_t i, dev_num = 0; daddr_t min_size = 0, cur_size = 0; struct raid_desc *dev_ptr = arg; struct disk_part_info info; struct disk_partitions *parts; if (dev_ptr->blocked) return 0; for (i = 0; i < MAX_IN_RAID; i++) { if (dev_ptr->comp[i].parts != NULL) { parts = dev_ptr->comp[i].parts; if (!parts->pscheme->get_part_info(parts, dev_ptr->comp[i].id, &info)) continue; cur_size = info.size; if (cur_size < min_size || dev_num == 0) min_size = cur_size; if (dev_ptr->comp[i].is_spare) continue; dev_num++; } } /* Calculate sum of available space */ if (dev_num > 0) { switch (dev_ptr->raid_level) { case 0: dev_ptr->total_size = min_size * dev_num; break; case 1: dev_ptr->total_size = min_size; break; case 4: case 5: dev_ptr->total_size = min_size * (dev_num - 1); break; } pm_manage_getfreenode(&(dev_ptr->node), "raid", &raids_t_info); if (dev_ptr->node < 0) dev_ptr->enabled = 0; } else dev_ptr->enabled = 0; return dev_ptr->enabled; } static int pm_raid_disk_add(menudesc *m, void *arg) { int i; struct raid_desc *dev_ptr = arg; struct part_entry disk_entrie = pm_dev_list(PM_RAID); if (disk_entrie.retvalue < 0) return disk_entrie.retvalue; for (i = 0; i < MAX_IN_RAID; i++) if (dev_ptr->comp[i].parts == NULL) { dev_ptr->comp[i].parts = disk_entrie.parts; dev_ptr->comp[i].id = disk_entrie.id; dev_ptr->comp[i].is_spare = raid_curspare; strlcpy(dev_ptr->comp[i].name, disk_entrie.fullname, sizeof dev_ptr->comp[i].name); if (raid_curspare) dev_ptr->numSpare++; else dev_ptr->numCol++; dev_ptr->numRow = 1; break; } return 0; } static int pm_raid_disk_del(menudesc *m, void *arg) { int retvalue = -1, num_devs = 0; int i, pm_cur; int menu_no; struct raid_desc *dev_ptr = arg; menu_ent menu_entries[MAX_IN_RAID]; struct part_entry submenu_args[MAX_IN_RAID]; for (i = 0; i < MAX_IN_RAID; i++) { if (dev_ptr->comp[i].parts == NULL || dev_ptr->comp[i].is_spare != raid_curspare) continue; menu_entries[num_devs] = (struct menu_ent) { .opt_name = dev_ptr->comp[i].name, .opt_action = set_menu_select, .opt_flags = OPT_EXIT, }; submenu_args[num_devs].dev_ptr = dev_ptr; submenu_args[num_devs].index = i; num_devs++; } menu_no = new_menu(MSG_raid_disks, menu_entries, num_devs, -1, -1, (num_devs+1<3)?3:num_devs+1, 13, MC_SCROLL | MC_NOCLEAR, NULL, NULL, NULL, NULL, NULL); if (menu_no == -1) return -1; process_menu(menu_no, &retvalue); free_menu(menu_no); if (retvalue < 0 || retvalue >= num_devs) return -1; pm_cur = submenu_args[retvalue].index; if (dev_ptr->comp[pm_cur].is_spare) dev_ptr->numSpare--; else dev_ptr->numCol--; dev_ptr->numRow = (dev_ptr->numCol)?1:0; dev_ptr->comp[pm_cur].parts = NULL; return 0; } static int pm_raid_commit(void) { int i, ii; FILE *f; char f_name[STRSIZE]; for (i = 0; i < MAX_RAID; i++) { if (! pm_raid_check(&raids[i])) continue; /* Generating configure file for our raid */ snprintf(f_name, SSTRSIZE, "/tmp/raid.%d.conf", raids[i].node); f = fopen(f_name, "w"); if (f == NULL) { endwin(); (void)fprintf(stderr, "Could not open %s for writing\n", f_name); if (logfp) (void)fprintf(logfp, "Could not open %s for writing\n", f_name); return 1; } scripting_fprintf(NULL, "cat <%s\n", f_name); scripting_fprintf(f, "START array\n%d %d %d\n", raids[i].numRow, raids[i].numCol, raids[i].numSpare); scripting_fprintf(f, "\nSTART disks\n"); for (ii = 0; ii < MAX_IN_RAID; ii++) if (raids[i].comp[ii].parts != NULL && !raids[i].comp[ii].is_spare) { scripting_fprintf(f, "/dev/%s\n", raids[i].comp[ii].name); } scripting_fprintf(f, "\nSTART spare\n"); for (ii = 0; ii < MAX_IN_RAID; ii++) if (raids[i].comp[ii].parts != NULL && raids[i].comp[ii].is_spare) { scripting_fprintf(f, "/dev/%s\n", raids[i].comp[ii].name); } scripting_fprintf(f, "\nSTART layout\n%d %d %d %d\n", raids[i].sectPerSU, raids[i].SUsPerParityUnit, raids[i].SUsPerReconUnit, raids[i].raid_level); scripting_fprintf(f, "\nSTART queue\nfifo 100\n\n"); scripting_fprintf(NULL, "EOF\n"); fclose (f); fflush(NULL); /* Raid initialization */ if (run_program(RUN_DISPLAY | RUN_PROGRESS, "raidctl -C %s raid%d", f_name, raids[i].node) == 0 && run_program(RUN_DISPLAY | RUN_PROGRESS, "raidctl -I %d raid%d", rand(), raids[i].node) == 0 && run_program(RUN_DISPLAY | RUN_PROGRESS, "raidctl -vi raid%d", raids[i].node) == 0 && run_program(RUN_DISPLAY | RUN_PROGRESS, "raidctl -v -A yes raid%d", raids[i].node) == 0) { /* * RAID creation done, remove it from list to * prevent its repeated reinitialization */ raids[i].blocked = 1; } } return 0; } /*** VND ***/ static void pm_vnd_menufmt(menudesc *m, int opt, void *arg) { struct vnd_desc *dev_ptr = ((struct part_entry *)arg)[opt].dev_ptr; char dev[STRSIZE]; if (dev_ptr->enabled == 0) return; sprintf(dev, "vnd%d", dev_ptr->node); if (strlen(dev_ptr->filepath) < 1) pm_fmt_disk_line(m->mw, dev, NULL, 0, msg_string(MSG_vnd_err_menufmt)); else if (dev_ptr->is_exist) pm_fmt_disk_line(m->mw, dev, dev_ptr->filepath, 0, msg_string(MSG_vnd_assign)); else pm_fmt_disk_line(m->mw, dev, dev_ptr->filepath, dev_ptr->size, NULL); } static int max_msg_length(const msg *p, size_t cnt) { int len, m = 0; while (cnt > 0) { len = strlen(msg_string(*p)); if (len > m) m = len; cnt--; p++; } return m; } static void pm_vnd_edit_menufmt(menudesc *m, int opt, void *arg) { struct vnd_desc *dev_ptr = arg; char buf[SSTRSIZE]; strcpy(buf, "-"); static int lcol_width; if (lcol_width == 0) { static const msg labels[] = { MSG_vnd_path_fmt, MSG_vnd_assign_fmt, MSG_vnd_size_fmt, MSG_vnd_ro_fmt, MSG_vnd_geom_fmt, MSG_vnd_bps_fmt, MSG_vnd_spt_fmt, MSG_vnd_tpc_fmt, MSG_vnd_cyl_fmt }; lcol_width = max_msg_length(labels, __arraycount(labels)) + 3; } switch (opt) { case PMV_MENU_FILEPATH: wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_path_fmt), dev_ptr->filepath); break; case PMV_MENU_EXIST: wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_assign_fmt), dev_ptr->is_exist? msg_string(MSG_No) : msg_string(MSG_Yes)); break; case PMV_MENU_SIZE: if (!dev_ptr->is_exist) snprintf(buf, SSTRSIZE, "%" PRIu64, dev_ptr->size); wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_size_fmt), buf); break; case PMV_MENU_RO: wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_ro_fmt), dev_ptr->readonly? msg_string(MSG_Yes) : msg_string(MSG_No)); break; case PMV_MENU_MGEOM: if (!dev_ptr->is_exist) snprintf(buf, SSTRSIZE, "%s", dev_ptr->manual_geom? msg_string(MSG_Yes) : msg_string(MSG_No)); wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_geom_fmt), buf); break; case PMV_MENU_SECSIZE: if (dev_ptr->manual_geom && !dev_ptr->is_exist) snprintf(buf, SSTRSIZE, "%d", dev_ptr->secsize); wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_bps_fmt), buf); break; case PMV_MENU_NSECTORS: if (dev_ptr->manual_geom && !dev_ptr->is_exist) snprintf(buf, SSTRSIZE, "%d", dev_ptr->nsectors); wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_spt_fmt), buf); break; case PMV_MENU_NTRACKS: if (dev_ptr->manual_geom && !dev_ptr->is_exist) snprintf(buf, SSTRSIZE, "%d", dev_ptr->ntracks); wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_tpc_fmt), buf); break; case PMV_MENU_NCYLINDERS: if (dev_ptr->manual_geom && !dev_ptr->is_exist) snprintf(buf, SSTRSIZE, "%d", dev_ptr->ncylinders); wprintw(m->mw, "%*s %s", -lcol_width, msg_string(MSG_vnd_cyl_fmt), buf); break; } } static int pm_vnd_set_value(menudesc *m, void *arg) { struct vnd_desc *dev_ptr = arg; char buf[STRSIZE]; const char *msg_to_show = NULL; int *out_var = NULL; switch (m->cursel) { case PMV_MENU_FILEPATH: msg_prompt_win(MSG_vnd_path_ask, -1, 18, 0, 0, dev_ptr->filepath, dev_ptr->filepath, STRSIZE); if (dev_ptr->filepath[0] != '/') { strlcpy(buf, dev_ptr->filepath, MOUNTLEN); snprintf(dev_ptr->filepath, MOUNTLEN, "/%s", buf); } if (dev_ptr->filepath[strlen(dev_ptr->filepath) - 1] == '/') dev_ptr->filepath[strlen(dev_ptr->filepath) - 1] = '\0'; return 0; case PMV_MENU_EXIST: dev_ptr->is_exist = !dev_ptr->is_exist; return 0; case PMV_MENU_SIZE: if (dev_ptr->is_exist) return 0; pm_edit_size_value(MSG_vnd_size_ask, pm->dlcylsize, &dev_ptr->size); break; case PMV_MENU_RO: dev_ptr->readonly = !dev_ptr->readonly; return 0; case PMV_MENU_MGEOM: if (dev_ptr->is_exist) return 0; dev_ptr->manual_geom = !dev_ptr->manual_geom; return 0; case PMV_MENU_SECSIZE: if (!dev_ptr->manual_geom || dev_ptr->is_exist) return 0; msg_to_show = MSG_vnd_bps_ask; out_var = &(dev_ptr->secsize); break; case PMV_MENU_NSECTORS: if (!dev_ptr->manual_geom || dev_ptr->is_exist) return 0; msg_to_show = MSG_vnd_spt_ask; out_var = &(dev_ptr->nsectors); break; case PMV_MENU_NTRACKS: if (!dev_ptr->manual_geom || dev_ptr->is_exist) return 0; msg_to_show = MSG_vnd_tpc_ask; out_var = &(dev_ptr->ntracks); break; case PMV_MENU_NCYLINDERS: if (!dev_ptr->manual_geom || dev_ptr->is_exist) return 0; msg_to_show = MSG_vnd_cyl_ask; out_var = &(dev_ptr->ncylinders); break; case PMV_MENU_REMOVE: dev_ptr->enabled = 0; return 0; } if (out_var == NULL || msg_to_show == NULL) return -1; snprintf(buf, SSTRSIZE, "%d", *out_var); msg_prompt_win(msg_to_show, -1, 18, 0, 0, buf, buf, SSTRSIZE); if (atoi(buf) >= 0) *out_var = atoi(buf); return 0; } static void pm_vnd_init(void *arg, void *none) { struct vnd_desc *dev_ptr = arg; memset(dev_ptr, 0, sizeof(*dev_ptr)); *dev_ptr = (struct vnd_desc) { .enabled = 1, .blocked = 0, .filepath[0] = '\0', .is_exist = 0, .size = 1024, .readonly = 0, .manual_geom = 0, .secsize = 512, .nsectors = 18, .ntracks = 2, .ncylinders = 80 }; } static int pm_vnd_check(void *arg) { struct vnd_desc *dev_ptr = arg; if (dev_ptr->blocked) return 0; if (strlen(dev_ptr->filepath) < 1 || dev_ptr->size < 1) dev_ptr->enabled = 0; else { pm_manage_getfreenode(&(dev_ptr->node), "vnd", &vnds_t_info); if (dev_ptr->node < 0) dev_ptr->enabled = 0; } return dev_ptr->enabled; } /* XXX: vndconfig always return 0? */ static int pm_vnd_commit(void) { int i, error; char r_o[3], buf[MOUNTLEN+3], resultpath[STRSIZE]; const char *mpath, *mp_suit = NULL, *rp; struct pm_devs *pm_i, *pm_suit = NULL; part_id id, part_suit = NO_PART; struct disk_part_info info; for (i = 0; i < MAX_VND; i++) { error = 0; if (! pm_vnd_check(&vnds[i])) continue; /* Trying to assign target device */ SLIST_FOREACH(pm_i, &pm_head, l) { for (id = 0; id < pm_i->parts->num_part; id++) { if (!pm_i->parts->pscheme->get_part_info( pm_i->parts, id, &info)) continue; if (info.flags & (PTI_SEC_CONTAINER| PTI_WHOLE_DISK|PTI_PSCHEME_INTERNAL| PTI_RAW_PART)) continue; if (info.last_mounted == NULL || info.last_mounted[0] == 0) continue; mpath = info.last_mounted; strcpy(buf, mpath); if (buf[strlen(buf)-1] != '/') strcat(buf, "/"); if (strstr(vnds[i].filepath, buf) != vnds[i].filepath) continue; if (part_suit == NO_PART || pm_suit == NULL || strlen(buf) > strlen(mp_suit)) { part_suit = id; pm_suit = pm_i; mp_suit = mpath; } } } if (part_suit == NO_PART || pm_suit == NULL || mp_suit == NULL) continue; /* Mounting assigned partition and try to get real file path*/ if (pm_mount(pm_suit, part_suit) != 0) continue; rp = pm_get_mount(pm_suit, part_suit); snprintf(resultpath, STRSIZE, "%s/%s", rp, &(vnds[i].filepath[strlen(rp)])); strcpy(r_o, vnds[i].readonly?"-r":""); /* If this is a new image */ if (!vnds[i].is_exist) { run_program(RUN_DISPLAY | RUN_PROGRESS, "mkdir -p %s ", dirname(resultpath)); if (error == 0) error = run_program(RUN_DISPLAY | RUN_PROGRESS, "dd if=/dev/zero of=%s bs=1m " "count=% " PRIi64 " progress=100 " "msgfmt=human", resultpath, vnds[i].size*(MEG/512)); } if (error) continue; /* If this is a new image with manual geometry */ if (!vnds[i].is_exist && vnds[i].manual_geom) error = run_program(RUN_DISPLAY | RUN_PROGRESS, "vndconfig %s vnd%d %s %d %d %d %d", r_o, vnds[i].node, resultpath, vnds[i].secsize, vnds[i].nsectors, vnds[i].ntracks, vnds[i].ncylinders); else /* If this is a existing image or image without manual * geometry */ error = run_program(RUN_DISPLAY | RUN_PROGRESS, "vndconfig %s vnd%d %s", r_o, vnds[i].node, resultpath); if (error == 0) { vnds[i].blocked = 1; vnds[i].pm_part = part_suit; vnds[i].pm = pm_suit; vnds[i].pm->blocked++; } } return 0; } /*** CGD ***/ static void pm_cgd_menufmt(menudesc *m, int opt, void *arg) { struct cgd_desc *dev_ptr = ((struct part_entry *)arg)[opt].dev_ptr; char desc[STRSIZE]; struct disk_part_info info; if (dev_ptr->enabled == 0) return; if (dev_ptr->pm == NULL) wprintw(m->mw, "%s", msg_string(MSG_cgd_err_menufmt)); else { snprintf(desc, sizeof desc, "cgd%d (%s-%d)", dev_ptr->node, dev_ptr->enc_type, dev_ptr->key_size); dev_ptr->pm->parts->pscheme->get_part_info(dev_ptr->pm->parts, dev_ptr->pm_part, &info); pm_fmt_disk_line(m->mw, desc, dev_ptr->pm_name, info.size, NULL); } } static void pm_cgd_edit_menufmt(menudesc *m, int opt, void *arg) { struct cgd_desc *dev_ptr = arg; switch (opt) { case PMC_MENU_DEV: wprintw(m->mw, "%-15s: %s", msg_string(MSG_cgd_dev_fmt), dev_ptr->pm_name); break; case PMC_MENU_ENCTYPE: wprintw(m->mw, "%-15s: %s", msg_string(MSG_cgd_enc_fmt), dev_ptr->enc_type); break; case PMC_MENU_KEYSIZE: wprintw(m->mw, "%-15s: %d", msg_string(MSG_cgd_key_fmt), dev_ptr->key_size); break; case PMC_MENU_IVTYPE: wprintw(m->mw, "%-15s: %s", msg_string(MSG_cgd_iv_fmt), dev_ptr->iv_type); break; case PMC_MENU_KEYGENTYPE: wprintw(m->mw, "%-15s: %s", msg_string(MSG_cgd_keygen_fmt), dev_ptr->keygen_type); break; case PMC_MENU_VERIFYTYPE: wprintw(m->mw, "%-15s: %s", msg_string(MSG_cgd_verif_fmt), dev_ptr->verify_type); break; } } static int pm_cgd_set_value(menudesc *m, void *arg) { char *retstring; struct cgd_desc *dev_ptr = arg; switch (m->cursel) { case PMC_MENU_DEV: pm_cgd_disk_set(dev_ptr, NULL); return 0; case PMC_MENU_ENCTYPE: process_menu(MENU_cgd_enctype, &retstring); dev_ptr->enc_type = retstring; if (! strcmp(retstring, "aes-xts")) dev_ptr->key_size = 256; if (! strcmp(retstring, "aes-cbc")) dev_ptr->key_size = 192; if (! strcmp(retstring, "blowfish-cbc")) dev_ptr->key_size = 128; if (! strcmp(retstring, "3des-cbc")) dev_ptr->key_size = 192; return 0; case PMC_MENU_KEYSIZE: if (! strcmp(dev_ptr->enc_type, "aes-xts")) dev_ptr->key_size += (dev_ptr->key_size < 512)? 256 : -256; if (! strcmp(dev_ptr->enc_type, "aes-cbc")) dev_ptr->key_size += (dev_ptr->key_size < 256)? 64 : -128; if (! strcmp(dev_ptr->enc_type, "blowfish-cbc")) dev_ptr->key_size = 128; if (! strcmp(dev_ptr->enc_type, "3des-cbc")) dev_ptr->key_size = 192; return 0; case PMC_MENU_IVTYPE: process_menu(MENU_cgd_ivtype, &retstring); dev_ptr->iv_type = retstring; return 0; case PMC_MENU_KEYGENTYPE: process_menu(MENU_cgd_keygentype, &retstring); dev_ptr->keygen_type = retstring; return 0; case PMC_MENU_VERIFYTYPE: process_menu(MENU_cgd_verifytype, &retstring); dev_ptr->verify_type = retstring; return 0; case PMC_MENU_REMOVE: dev_ptr->enabled = 0; return 0; } return -1; } static void pm_cgd_init(void *arg1, void *arg2) { struct cgd_desc *dev_ptr = arg1; struct part_entry *disk_entrie = arg2; memset(dev_ptr, 0, sizeof(*dev_ptr)); *dev_ptr = (struct cgd_desc) { .enabled = 1, .blocked = 0, .pm = NULL, .pm_name[0] = '\0', .pm_part = 0, .keygen_type = "pkcs5_pbkdf2/sha1", .verify_type = "disklabel", .enc_type = "aes-xts", .iv_type = "encblkno1", .key_size = 256, }; if (disk_entrie != NULL) { disk_entrie->parts->pscheme->get_part_device( disk_entrie->parts, disk_entrie->id, disk_entrie->fullname, sizeof(disk_entrie->fullname), NULL, logical_name, false); pm_cgd_disk_set(dev_ptr, disk_entrie); } } static int pm_cgd_check(void *arg) { struct cgd_desc *dev_ptr = arg; if (dev_ptr->blocked) return 0; if (dev_ptr->pm == NULL) dev_ptr->enabled = 0; else { pm_manage_getfreenode(&(dev_ptr->node), "cgd", &cgds_t_info); if (dev_ptr->node < 0) dev_ptr->enabled = 0; } return dev_ptr->enabled; } static int pm_cgd_disk_set(struct cgd_desc *dev_ptr, struct part_entry *disk_entrie) { int alloc_disk_entrie = 0; if (disk_entrie == NULL) { alloc_disk_entrie = 1; disk_entrie = malloc (sizeof(struct part_entry)); if (disk_entrie == NULL) return -2; *disk_entrie = pm_dev_list(PM_CGD); if (disk_entrie->retvalue < 0) { free(disk_entrie); return -1; } } dev_ptr->pm = disk_entrie->dev_ptr; dev_ptr->pm_part = disk_entrie->id; strlcpy(dev_ptr->pm_name, disk_entrie->fullname, SSTRSIZE); if (alloc_disk_entrie) free(disk_entrie); return 0; } int pm_cgd_edit(void *dev_ptr, struct part_entry *disk_entrie) { if (disk_entrie != NULL) dev_ptr = NULL; return pm_edit(PMC_MENU_END, pm_cgd_edit_menufmt, pm_cgd_set_value, pm_cgd_check, pm_cgd_init, disk_entrie, dev_ptr, 0, &cgds_t_info); } static int pm_cgd_commit(void) { int i, error = 0; for (i = 0; i < MAX_CGD; i++) { if (! pm_cgd_check(&cgds[i])) continue; if (run_program(RUN_DISPLAY | RUN_PROGRESS, "cgdconfig -g -i %s -k %s -o /tmp/cgd.%d.conf %s %d", cgds[i].iv_type, cgds[i].keygen_type, cgds[i].node, cgds[i].enc_type, cgds[i].key_size) != 0) { error++; continue; } if (run_program(RUN_DISPLAY | RUN_PROGRESS, "cgdconfig -V re-enter cgd%d /dev/%s /tmp/cgd.%d.conf", cgds[i].node, cgds[i].pm_name, cgds[i].node) != 0) { error++; continue; } cgds[i].pm->blocked++; cgds[i].blocked = 1; } return error; } /*** LVM ***/ /* Add lvm logical volumes to pm list */ /* XXX: rewrite */ static void pm_lvm_find(void) { int i, ii, already_found; char dev[STRSIZE]; struct pm_devs *pm_i; for (i = 0; i < MAX_LVM_VG; i++) { if (! lvms[i].blocked) continue; for (ii = 0; ii < MAX_LVM_LV; ii++) { if (! lvms[i].lv[ii].blocked || lvms[i].lv[ii].size < 1) continue; snprintf(dev, STRSIZE, "%s/%s", lvms[i].name, lvms[i].lv[ii].name); already_found = 0; SLIST_FOREACH(pm_i, &pm_head, l) if (!already_found && strcmp(pm_i->diskdev, dev) == 0) { pm_i->found = 1; already_found = 1; } if (already_found) /* We already added this device, skipping */ continue; pm_new->found = 1; pm_new->ptstart = 0; pm_new->ptsize = 0; pm_new->no_part = true; pm_new->refdev = &lvms[i].lv[ii]; pm_new->sectorsize = 1; pm_new->dlcylsize = MEG; strlcpy(pm_new->diskdev, dev, SSTRSIZE); strlcpy(pm_new->diskdev_descr, dev, STRSIZE); if (SLIST_EMPTY(&pm_head)) SLIST_INSERT_HEAD(&pm_head, pm_new, l); else SLIST_INSERT_AFTER(pm_i, pm_new, l); pm_new = malloc(sizeof (struct pm_devs)); memset(pm_new, 0, sizeof *pm_new); } } } static int pm_lvm_disk_add(menudesc *m, void *arg) { int i; lvms_t *dev_ptr = arg; struct part_entry disk_entrie = pm_dev_list(PM_LVM); if (disk_entrie.retvalue < 0) return disk_entrie.retvalue; for (i = 0; i < MAX_LVM_PV; i++) if (dev_ptr->pv[i].pm == NULL) { dev_ptr->pv[i].pm = disk_entrie.dev_ptr; dev_ptr->pv[i].pm_part = disk_entrie.id; strlcpy(dev_ptr->pv[i].pm_name, disk_entrie.fullname, sizeof(dev_ptr->pv[i].pm_name)); break; } return 0; } static int pm_lvm_disk_del(menudesc *m, void *arg) { int retvalue = -1, num_devs = 0; size_t i; int menu_no; lvms_t *dev_ptr = arg; menu_ent menu_entries[MAX_LVM_PV]; struct part_entry submenu_args[MAX_LVM_PV]; for (i = 0; i < MAX_LVM_PV; i++) { if (dev_ptr->pv[i].pm == NULL) continue; menu_entries[num_devs] = (struct menu_ent) { .opt_name = dev_ptr->pv[i].pm_name, .opt_action = set_menu_select, .opt_flags = OPT_EXIT, }; submenu_args[num_devs].index = i; num_devs++; } menu_no = new_menu(MSG_lvm_disks, menu_entries, num_devs, -1, -1, (num_devs+1<3)?3:num_devs+1, 13, MC_SCROLL | MC_NOCLEAR, NULL, NULL, NULL, NULL, NULL); if (menu_no == -1) return -1; process_menu(menu_no, &retvalue); free_menu(menu_no); if (retvalue < 0 || retvalue >= num_devs) return -1; dev_ptr->pv[submenu_args[retvalue].index].pm = NULL; return 0; } static void pm_lvm_menufmt(menudesc *m, int opt, void *arg) { int i, ok = 0; daddr_t used_size = 0; char buf1[STRSIZE]; buf1[0] = 0; char buf2[STRSIZE]; buf2[0] = 0; char devs[STRSIZE]; devs[0] = 0; lvms_t *dev_ptr = ((struct part_entry *)arg)[opt].dev_ptr; if (dev_ptr->enabled == 0) return; snprintf(buf1, STRSIZE, "VG '%s'", dev_ptr->name); for (i = 0; i < MAX_LVM_PV; i++) if (dev_ptr->pv[i].pm != NULL) { strlcat(devs, dev_ptr->pv[i].pm_name, STRSIZE); strlcat(devs, " ", STRSIZE); ok = 1; } for (i = 0; i < MAX_LVM_LV; i++) used_size += dev_ptr->lv[i].size; if (ok) { snprintf(buf2, STRSIZE, "%" PRIi64 "/%" PRIi64, dev_ptr->total_size - used_size, dev_ptr->total_size); pm_fmt_disk_line(m->mw, buf1, devs, 0, buf2); } else { pm_fmt_disk_line(m->mw, buf1, NULL, 0, msg_string(MSG_lvm_err_menufmt)); } } static void pm_lvm_edit_menufmt(menudesc *m, int opt, void *arg) { int i; char buf[STRSIZE]; lvms_t *dev_ptr = arg; strlcpy(buf, msg_string(MSG_auto), STRSIZE); switch (opt) { case PML_MENU_PV: buf[0] = '\0'; for (i = 0; i < MAX_LVM_PV; i++) if (dev_ptr->pv[i].pm != NULL) snprintf(buf, STRSIZE, "%s %s", buf, dev_ptr->pv[i].pm_name); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvm_disks_fmt), buf); break; case PML_MENU_NAME: wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvm_name_fmt), dev_ptr->name); break; case PML_MENU_MAXLOGICALVOLUMES: if (dev_ptr->maxlogicalvolumes > 0) snprintf(buf, STRSIZE, "%d", dev_ptr->maxlogicalvolumes); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvm_maxlv_fmt), buf); break; case PML_MENU_MAXPHYSICALVOLUMES: if (dev_ptr->maxphysicalvolumes > 0) snprintf(buf, STRSIZE, "%d", dev_ptr->maxphysicalvolumes); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvm_maxpv_fmt), buf); break; case PML_MENU_PHYSICALEXTENTSIZE: if (dev_ptr->physicalextentsize > 0) snprintf(buf, STRSIZE, "%dM", dev_ptr->physicalextentsize); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvm_extsiz_fmt), buf); break; } } static int pm_lvm_set_value(menudesc *m, void *arg) { char buf[STRSIZE]; const char *msg_to_show = NULL; int *out_var = NULL; lvms_t *dev_ptr = arg; static menu_ent menuent_disk_adddel[] = { { .opt_name=MSG_add, .opt_flags=OPT_EXIT, .opt_action=pm_lvm_disk_add }, { .opt_name=MSG_remove, .opt_flags=OPT_EXIT, .opt_action=pm_lvm_disk_del } }; static int menu_disk_adddel = -1; if (menu_disk_adddel == -1) { menu_disk_adddel = new_menu(NULL, menuent_disk_adddel, __arraycount(menuent_disk_adddel), -1, -1, 0, 10, MC_NOCLEAR, NULL, NULL, NULL, NULL, NULL); } switch (m->cursel) { case PML_MENU_PV: process_menu(menu_disk_adddel, arg); return 0; case PML_MENU_NAME: msg_prompt_win(MSG_lvm_name_ask, -1, 18, 0, 0, dev_ptr->name, dev_ptr->name, SSTRSIZE); return 0; case PML_MENU_MAXLOGICALVOLUMES: msg_to_show = MSG_lvm_maxlv_ask; out_var = &(dev_ptr->maxlogicalvolumes); break; case PML_MENU_MAXPHYSICALVOLUMES: msg_to_show = MSG_lvm_maxpv_ask; out_var = &(dev_ptr->maxphysicalvolumes); break; case PML_MENU_PHYSICALEXTENTSIZE: msg_to_show = MSG_lvm_extsiz_ask; out_var = &(dev_ptr->physicalextentsize); break; case PML_MENU_REMOVE: dev_ptr->enabled = 0; return 0; } if (out_var == NULL || msg_to_show == NULL) return -1; snprintf(buf, SSTRSIZE, "%d", *out_var); msg_prompt_win(msg_to_show, -1, 18, 0, 0, buf, buf, SSTRSIZE); if (atoi(buf) >= 0) *out_var = atoi(buf); return 0; } static void pm_lvm_init(void *arg, void* none) { lvms_t *dev_ptr = arg; memset(dev_ptr, 0, sizeof *dev_ptr); *dev_ptr = (struct lvms_t) { .enabled = 1, .blocked = 0, .maxlogicalvolumes = MAX_LVM_PV, .maxphysicalvolumes = MAX_LVM_LV, .physicalextentsize = -1, }; sprintf(dev_ptr->name, "vg%.2d", rand()%100); } static int pm_lvm_check(void *arg) { size_t i; bool ok = false; lvms_t *dev_ptr = arg; dev_ptr->total_size = 0; struct disk_part_info info; for (i = 0; i < MAX_LVM_PV; i++) { if (dev_ptr->pv[i].pm != NULL) { if (!dev_ptr->pv[i].pm->parts->pscheme->get_part_info( dev_ptr->pv[i].pm->parts, dev_ptr->pv[i].pm_part, &info)) continue; ok = 1; dev_ptr->total_size += info.size; } } if (!ok) dev_ptr->enabled = 0; return dev_ptr->enabled; } static void pm_lvmlv_menufmt(menudesc *m, int opt, void *arg) { char buf[STRSIZE]; lv_t *dev_ptr = ((struct part_entry *)arg)[opt].dev_ptr; if (dev_ptr->size > 0) { snprintf(buf, STRSIZE, "'%s'", dev_ptr->name); pm_fmt_disk_line(m->mw, buf, NULL, dev_ptr->size, NULL); } } static void pm_lvmlv_edit_menufmt(menudesc *m, int opt, void *arg) { lv_t *dev_ptr = arg; char buf[STRSIZE]; strlcpy(buf, msg_string(MSG_auto), STRSIZE); switch (opt) { case PMLV_MENU_NAME: wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_name_fmt), dev_ptr->name); break; case PMLV_MENU_SIZE: wprintw(m->mw, "%-20s: %" PRIi64, msg_string(MSG_lvmlv_size_fmt), dev_ptr->size); break; case PMLV_MENU_READONLY: wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_ro_fmt), dev_ptr->readonly? msg_string(MSG_Yes) : msg_string(MSG_No)); break; case PMLV_MENU_CONTIGUOUS: wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_cont_fmt), dev_ptr->contiguous? msg_string(MSG_Yes) : msg_string(MSG_No)); break; case PMLV_MENU_EXTENTS: wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_extnum_fmt), (strlen(dev_ptr->extents) > 0) ? dev_ptr->extents : msg_string(MSG_auto)); break; case PMLV_MENU_MINOR: if (dev_ptr->minor > 0) snprintf(buf, STRSIZE, "%dK", dev_ptr->minor); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_minor_fmt), buf); break; case PMLV_MENU_MIRRORS: wprintw(m->mw, "%-20s: %d", msg_string(MSG_lvmlv_mirrors_fmt), dev_ptr->mirrors); break; case PMLV_MENU_REGIONSIZE: if (dev_ptr->regionsize > 0) snprintf(buf, STRSIZE, "%dM", dev_ptr->regionsize); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_regsiz_fmt), buf); break; case PMLV_MENU_PERSISTENT: wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_pers_fmt), dev_ptr->persistent ? msg_string(MSG_Yes) : msg_string(MSG_No)); break; case PMLV_MENU_READAHEAD: if (dev_ptr->readahead > 0) snprintf(buf, STRSIZE, "%d", dev_ptr->readahead); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_readahsect_fmt), buf); break; case PMLV_MENU_STRIPES: if (dev_ptr->stripes > 0) snprintf(buf, STRSIZE, "%d", dev_ptr->stripes); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_stripes_fmt), buf); break; case PMLV_MENU_STRIPESIZE: if (dev_ptr->stripesize > 0) snprintf(buf, STRSIZE, "%dK", dev_ptr->stripesize); wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_stripesiz_fmt), buf); break; case PMLV_MENU_ZERO: wprintw(m->mw, "%-20s: %s", msg_string(MSG_lvmlv_zero_fmt), dev_ptr->zero ? msg_string(MSG_Yes) : msg_string(MSG_No)); break; } } static int pm_lvmlv_set_value(menudesc *m, void *arg) { char buf[STRSIZE]; const char *msg_to_show = NULL; int *out_var = NULL; lv_t *dev_ptr = arg; switch (m->cursel) { case PMLV_MENU_NAME: msg_prompt_win(MSG_lvmlv_name_ask, -1, 18, 0, 0, dev_ptr->name, dev_ptr->name, SSTRSIZE); return 0; case PMLV_MENU_SIZE: pm_edit_size_value(MSG_lvmlv_size_ask, pm->dlcylsize, &dev_ptr->size); /* XXX cylsize? */ break; case PMLV_MENU_READONLY: dev_ptr->readonly = !dev_ptr->readonly; return 0; case PMLV_MENU_CONTIGUOUS: dev_ptr->contiguous = !dev_ptr->contiguous; return 0; case PMLV_MENU_EXTENTS: msg_prompt_win(MSG_lvmlv_extnum_ask, -1, 18, 0, 0, dev_ptr->extents, dev_ptr->extents, SSTRSIZE); return 0; case PMLV_MENU_MINOR: msg_to_show = MSG_lvmlv_minor_ask; out_var = &(dev_ptr->minor); break; case PMLV_MENU_MIRRORS: msg_to_show = MSG_lvmlv_mirrors_ask; out_var = &(dev_ptr->mirrors); break; case PMLV_MENU_REGIONSIZE: msg_to_show = MSG_lvmlv_regsiz_ask; out_var = &(dev_ptr->regionsize); break; case PMLV_MENU_PERSISTENT: dev_ptr->persistent = !dev_ptr->persistent; return 0; case PMLV_MENU_READAHEAD: msg_to_show = MSG_lvmlv_readahsect_ask; out_var = &(dev_ptr->readahead); break; case PMLV_MENU_STRIPES: msg_to_show = MSG_lvmlv_stripes_ask; out_var = &(dev_ptr->stripes); break; case PMLV_MENU_STRIPESIZE: if (dev_ptr->stripesize << 1 > 512) dev_ptr->stripesize = 4; else dev_ptr->stripesize <<= 1; return 0; case PMLV_MENU_ZERO: dev_ptr->zero = !dev_ptr->zero; return 0; case PMLV_MENU_REMOVE: dev_ptr->size = 0; return 0; } if (out_var == NULL || msg_to_show == NULL) return -1; snprintf(buf, SSTRSIZE, "%d", *out_var); msg_prompt_win(msg_to_show, -1, 18, 0, 0, buf, buf, SSTRSIZE); if (atoi(buf) >= 0) *out_var = atoi(buf); return 0; } static void pm_lvmlv_init(void *arg, void *none) { lv_t *dev_ptr = arg; memset(dev_ptr, 0, sizeof *(dev_ptr)); *dev_ptr = (struct lv_t) { .blocked = 0, .size = 1024, .stripesize = 64, }; sprintf (dev_ptr->name, "lvol%.2d", rand()%100); } static int pm_lvmlv_check(void *arg) { lv_t *dev_ptr = arg; if (dev_ptr->size > 0 && strlen(dev_ptr->name) > 0) return 1; else { dev_ptr->size = 0; return 0; } } static int pm_lvm_commit(void) { int i, ii, error; uint used_size = 0; char params[STRSIZE*3]; char devs[STRSIZE*3]; for (i = 0; i < MAX_LVM_VG; i++) { /* Stage 0: checks */ if (! pm_lvm_check(&lvms[i])) continue; for (ii = 0; ii < MAX_LVM_LV; ii++) used_size += lvms[i].lv[ii].size; if (used_size > lvms[i].total_size) continue; params[0] = '\0'; devs[0] = '\0'; error = 0; /* Stage 1: creating Physical Volumes (PV's) */ for (ii = 0; ii < MAX_LVM_PV && ! error; ii++) if (lvms[i].pv[ii].pm != NULL) { run_program(RUN_SILENT | RUN_ERROR_OK, "lvm pvremove -ffy /dev/r%s", (char*)lvms[i].pv[ii].pm_name); error += run_program(RUN_DISPLAY | RUN_PROGRESS, "lvm pvcreate -ffy /dev/r%s", (char*)lvms[i].pv[ii].pm_name); if (error) break; snprintf(devs, STRSIZE*3, "%s /dev/r%s", devs, (char*)lvms[i].pv[ii].pm_name); } if (error) continue; /* Stage 2: creating Volume Groups (VG's) */ if (lvms[i].maxlogicalvolumes > 0) snprintf(params, STRSIZE*3, "%s -l %d", params, lvms[i].maxlogicalvolumes); if (lvms[i].maxphysicalvolumes > 0) snprintf(params, STRSIZE*3, "%s -p %d", params, lvms[i].maxphysicalvolumes); if (lvms[i].physicalextentsize > 0) snprintf(params, STRSIZE*3, "%s -s %d", params, lvms[i].physicalextentsize); error += run_program(RUN_DISPLAY | RUN_PROGRESS, "lvm vgcreate %s %s %s", params, lvms[i].name, devs); if (error) continue; /* Stage 3: creating Logical Volumes (LV's) */ for (ii = 0; ii < MAX_LVM_LV; ii++) { if (lvms[i].lv[ii].size <= 0) continue; params[0] = '\0'; snprintf(params, STRSIZE*3, "%s -C %c", params, lvms[i].lv[ii].contiguous?'y':'n'); snprintf(params, STRSIZE*3, "%s -M %c", params, lvms[i].lv[ii].persistent?'y':'n'); snprintf(params, STRSIZE*3, "%s -p %s", params, lvms[i].lv[ii].readonly?"r":"rw"); snprintf(params, STRSIZE*3, "%s -Z %c", params, lvms[i].lv[ii].zero?'y':'n'); if (strlen(lvms[i].lv[ii].name) > 0) snprintf(params, STRSIZE*3, "%s -n %s", params, lvms[i].lv[ii].name); if (strlen(lvms[i].lv[ii].extents) > 0) snprintf(params, STRSIZE*3, "%s -l %s", params, lvms[i].lv[ii].extents); if (lvms[i].lv[ii].minor > 0) snprintf(params, STRSIZE*3, "%s --minor %d", params, lvms[i].lv[ii].minor); if (lvms[i].lv[ii].mirrors > 0) { snprintf(params, STRSIZE*3, "%s -m %d", params, lvms[i].lv[ii].mirrors); if (lvms[i].lv[ii].regionsize > 0) snprintf(params, STRSIZE*3, "%s -R %d", params, lvms[i].lv[ii].regionsize); } if (lvms[i].lv[ii].readahead > 0) snprintf(params, STRSIZE*3, "%s -r %d", params, lvms[i].lv[ii].readahead); if (lvms[i].lv[ii].stripes > 0) { snprintf(params, STRSIZE*3, "%s -i %d", params, lvms[i].lv[ii].stripes); if (lvms[i].lv[ii].stripesize > 0) snprintf(params, STRSIZE*3, "%s -I %d", params, lvms[i].lv[ii].stripesize); } snprintf(params, STRSIZE*3, "%s -L %" PRIi64 "M", params, lvms[i].lv[ii].size); error += run_program(RUN_DISPLAY | RUN_PROGRESS, "lvm lvcreate %s %s", params, lvms[i].name); } if (! error) { lvms[i].blocked = 1; for (ii = 0; ii < MAX_LVM_PV; ii++) if (lvms[i].pv[ii].pm != NULL) lvms[i].pv[ii].pm->blocked++; for (ii = 0; ii < MAX_LVM_LV; ii++) if (lvms[i].lv[ii].size > 0) lvms[i].lv[ii].blocked = 1; } } return 0; } /*** Partman generic functions ***/ int pm_getrefdev(struct pm_devs *pm_cur) { int i, ii, dev_num, num_devs, num_devs_s; char dev[SSTRSIZE]; dev[0] = '\0'; pm_cur->refdev = NULL; if (! strncmp(pm_cur->diskdev, "cgd", 3)) { dev_num = pm_cur->diskdev[3] - '0'; for (i = 0; i < MAX_CGD; i++) if (cgds[i].blocked && cgds[i].node == dev_num) { pm_cur->refdev = &cgds[i]; snprintf(pm_cur->diskdev_descr, sizeof(pm_cur->diskdev_descr), "%s (%s, %s-%d)", pm_cur->diskdev_descr, cgds[i].pm_name, cgds[i].enc_type, cgds[i].key_size); break; } } else if (! strncmp(pm_cur->diskdev, "vnd", 3)) { dev_num = pm_cur->diskdev[3] - '0'; for (i = 0; i < MAX_VND; i++) if (vnds[i].blocked && vnds[i].node == dev_num) { pm_cur->refdev = &vnds[i]; vnds[i].pm->parts->pscheme->get_part_device( vnds[i].pm->parts, vnds[i].pm_part, dev, sizeof dev, NULL, plain_name, false); snprintf(pm_cur->diskdev_descr, sizeof(pm_cur->diskdev_descr), "%s (%s, %s)", pm_cur->diskdev_descr, dev, vnds[i].filepath); break; } } else if (! strncmp(pm_cur->diskdev, "raid", 4)) { dev_num = pm_cur->diskdev[4] - '0'; for (i = 0; i < MAX_RAID; i++) if (raids[i].blocked && raids[i].node == dev_num) { pm_cur->refdev = &raids[i]; num_devs = 0; num_devs_s = 0; for (ii = 0; ii < MAX_IN_RAID; ii++) if (raids[i].comp[ii].parts != NULL) { if(raids[i].comp[ii].is_spare) num_devs_s++; else num_devs++; } snprintf(pm_cur->diskdev_descr, sizeof(pm_cur->diskdev_descr), "%s (lvl %d, %d disks, %d spare)", pm_cur->diskdev_descr, raids[i].raid_level, num_devs, num_devs_s); break; } } else return -1; return 0; } /* Detect that partition is in use */ int pm_partusage(struct pm_devs *pm_cur, int part_num, int do_del) { int i, ii, retvalue = 0; struct disk_part_info info; part_id id; if (part_num < 0) { /* Check all partitions on device */ for (id = 0; id < pm_cur->parts->num_part; id++) { if (!pm_cur->parts->pscheme->get_part_info( pm_cur->parts, id, &info)) continue; if (info.flags & (PTI_SEC_CONTAINER| PTI_WHOLE_DISK|PTI_PSCHEME_INTERNAL| PTI_RAW_PART)) continue; retvalue += pm_partusage(pm_cur, id, do_del); } return retvalue; } id = (part_id)part_num; if (id >= pm_cur->parts->num_part) return 0; for (i = 0; i < MAX_CGD; i++) if (cgds[i].enabled && cgds[i].pm == pm_cur && cgds[i].pm_part == id) { if (do_del) { cgds[i].pm = NULL; cgds[i].pm_name[0] = '\0'; } return 1; } for (i = 0; i < MAX_RAID; i++) for (ii = 0; ii < MAX_IN_RAID; ii++) if (raids[i].enabled && raids[i].comp[ii].parts == pm_cur->parts && raids[i].comp[ii].id == id) { if (do_del) raids[i].comp[ii].parts = NULL; return 1; } for (i = 0; i < MAX_LVM_VG; i++) for (ii = 0; ii < MAX_LVM_PV; ii++) if (lvms[i].enabled && lvms[i].pv[ii].pm == pm_cur && lvms[i].pv[ii].pm_part == id) { if (do_del) lvms[i].pv[ii].pm = NULL; return 1; } return 0; } static void pm_destroy_one(struct pm_devs *pm_i) { part_id i; if (pm_i->parts != NULL) { if (pm_i->mounted != NULL) { for (i = 0; i < pm_i->parts->num_part; i++) free(pm_i->mounted[i]); } pm_i->parts->pscheme->free(pm_i->parts); } free(pm_i); } /* Clean up removed devices */ static int pm_clean(void) { int count = 0; struct pm_devs *pm_i, *tmp; SLIST_FOREACH_SAFE(pm_i, &pm_head, l, tmp) if (! pm_i->found) { count++; SLIST_REMOVE(&pm_head, pm_i, pm_devs, l); pm_destroy_one(pm_i); } return count; } /* Free all pm storage */ void pm_destroy_all(void) { struct pm_devs *pm_i, *tmp; if (pm_new != pm) pm_destroy_one(pm_new); SLIST_FOREACH_SAFE(pm_i, &pm_head, l, tmp) { SLIST_REMOVE(&pm_head, pm_i, pm_devs, l); pm_destroy_one(pm_i); } } void pm_setfstype(struct pm_devs *pm_cur, part_id id, int fstype, int fs_subtype) { struct disk_part_info info; if (!pm_cur->parts->pscheme->get_part_info(pm_cur->parts, id, &info)) return; info.nat_type = pm_cur->parts->pscheme->get_fs_part_type(fstype, fs_subtype); if (info.nat_type == NULL) return; info.fs_type = fstype; info.fs_sub_type = fs_subtype; pm_cur->parts->pscheme->set_part_info(pm_cur->parts, id, &info, NULL); } static void pm_select(struct pm_devs *pm_devs_in) { pm = pm_devs_in; if (logfp) (void)fprintf(logfp, "Partman device: %s\n", pm->diskdev); } void pm_rename(struct pm_devs *pm_cur) { #if 0 // XXX - convert to custom attribute or handle similar pm_select(pm_cur); msg_prompt_win(MSG_packname, -1, 18, 0, 0, pm_cur->bsddiskname, pm_cur->bsddiskname, sizeof pm_cur->bsddiskname); #ifndef NO_DISKLABEL (void) savenewlabel(pm_cur->bsdlabel, MAXPARTITIONS); #endif #endif } int pm_editpart(int part_num) { //XXX partinfo backup = pm->bsdlabel[part_num]; edit_ptn(&(struct menudesc){.cursel = part_num}, NULL); if (checkoverlap(pm->parts)) { hit_enter_to_continue(MSG_cantsave, NULL); //XXX pm->bsdlabel[part_num] = backup; return -1; } pm->unsaved = 1; return 0; } /* Safe erase of disk */ int pm_shred(struct pm_devs *pm_cur, int part, int shredtype) { int error = -1; char dev[SSTRSIZE]; part_id id; if (part < 0) return -1; id = part; pm_cur->parts->pscheme->get_part_device(pm_cur->parts, id, dev, sizeof dev, NULL, plain_name, false); switch(shredtype) { case SHRED_ZEROS: error += run_program(RUN_DISPLAY | RUN_PROGRESS, "dd of=/dev/%s if=/dev/zero bs=1m progress=100 msgfmt=human", dev); break; case SHRED_RANDOM: error += run_program(RUN_DISPLAY | RUN_PROGRESS, "dd of=/dev/%s if=/dev/urandom bs=1m progress=100 msgfmt=human", dev); break; case SHRED_CRYPTO: error += run_program(RUN_DISPLAY | RUN_PROGRESS, "sh -c 'cgdconfig -s cgd0 /dev/%s aes-cbc 128 < /dev/urandom'", dev); /* XXX: cgd0?! */ if (! error) { error += run_program(RUN_DISPLAY | RUN_PROGRESS, "dd of=/dev/rcgd0d if=/dev/urandom bs=1m progress=100 msgfmt=human"); error += run_program(RUN_DISPLAY | RUN_PROGRESS, "cgdconfig -u cgd0"); } break; default: return -1; } pm_partusage(pm_cur, -1, 1); //XXX memset(&pm_cur->oldlabel, 0, sizeof pm_cur->oldlabel); //XXX memset(&pm_cur->bsdlabel, 0, sizeof pm_cur->bsdlabel); return error; } #if 0 // XXX static int pm_mountall_sort(const void *a, const void *b) { return strcmp(mnts[*(const int *)a].on, mnts[*(const int *)b].on); } #endif /* Mount all available partitions */ static int pm_mountall(void) { #if 0 // XXX int num_devs = 0; int mnts_order[MAX_MNTS]; int i, ii, error, ok; char dev[SSTRSIZE]; dev[0] = '\0'; struct pm_devs *pm_i; localfs_dev[0] = '\0'; if (mnts == NULL) mnts = calloc(MAX_MNTS, sizeof(*mnts)); SLIST_FOREACH(pm_i, &pm_head, l) { ok = 0; for (i = 0; i < MAXPARTITIONS; i++) { if (!(pm_i->bsdlabel[i].pi_flags & PIF_MOUNT && pm_i->bsdlabel[i].mnt_opts != NULL)) continue; mnts[num_devs].mnt_opts = pm_i->bsdlabel[i].mnt_opts; if (strlen(pm_i->bsdlabel[i].mounted) > 0) { /* Device is already mounted. So, doing mount_null */ strlcpy(mnts[num_devs].dev, pm_i->bsdlabel[i].mounted, MOUNTLEN); mnts[num_devs].mnt_opts = "-t null"; } else { pm_getdevstring(dev, SSTRSIZE, pm_i, i); snprintf(mnts[num_devs].dev, STRSIZE, "/dev/%s", dev); } mnts[num_devs].on = pm_i->bsdlabel[i].pi_mount; if (strcmp(pm_i->bsdlabel[i].pi_mount, "/") == 0) { if (pm_i->no_part) pm_i->bootable = 1; /* Use disk with / as a default if the user has the sets on a local disk */ strlcpy(localfs_dev, pm_i->diskdev, SSTRSIZE); } num_devs++; ok = 1; } if (ok) md_pre_mount(NULL, 0); } if (strlen(localfs_dev) < 1) { hit_enter_to_continue(MSG_noroot, NULL); return -1; } for (i = 0; i < num_devs; i++) mnts_order[i] = i; qsort(mnts_order, num_devs, sizeof mnts_order[0], pm_mountall_sort); for (i = 0; i < num_devs; i++) { ii = mnts_order[i]; make_target_dir(mnts[ii].on); error = target_mount_do(mnts[ii].mnt_opts, mnts[ii].dev, mnts[ii].on); if (error) return error; } #endif return 0; } /* Mount partition bypassing ordinary order */ static int pm_mount(struct pm_devs *pm_cur, int part_num) { int error = 0; #if 0 // XXX char buf[MOUNTLEN]; if (strlen(pm_cur->bsdlabel[part_num].mounted) > 0) return 0; snprintf(buf, sizeof(buf), "/tmp/%s%c", pm_cur->diskdev, part_num + 'a'); if (! dir_exists_p(buf)) run_program(RUN_DISPLAY | RUN_PROGRESS, "/bin/mkdir -p %s", buf); if (pm_cur->bsdlabel[part_num].pi_flags & PIF_MOUNT && pm_cur->bsdlabel[part_num].mnt_opts != NULL && strlen(pm_cur->bsdlabel[part_num].mounted) < 1) error += run_program(RUN_DISPLAY | RUN_PROGRESS, "/sbin/mount %s /dev/%s%c %s", pm_cur->bsdlabel[part_num].mnt_opts, pm_cur->diskdev, part_num + 'a', buf); if (error) pm_cur->bsdlabel[part_num].mounted[0] = '\0'; else { strlcpy(pm_cur->bsdlabel[part_num].mounted, buf, MOUNTLEN); pm_cur->blocked++; } #endif return error; } void pm_umount(struct pm_devs *pm_cur, int part_num) { char buf[SSTRSIZE]; buf[0] = '\0'; part_id id; if (part_num < 0) return; id = (part_id)part_num; pm_cur->parts->pscheme->get_part_device(pm_cur->parts, id, buf, sizeof buf, NULL, plain_name, false); if (run_program(RUN_DISPLAY | RUN_PROGRESS, "umount -f /dev/%s", buf) == 0) { free(pm_cur->mounted[id]); pm_cur->mounted[id] = NULL; if (pm_cur->blocked > 0) pm_cur->blocked--; } } int pm_unconfigure(struct pm_devs *pm_cur) { int error = 0; if (! strncmp(pm_cur->diskdev, "cgd", 3)) { error = run_program(RUN_DISPLAY | RUN_PROGRESS, "cgdconfig -u %s", pm_cur->diskdev); if (! error && pm_cur->refdev != NULL) { ((struct cgd_desc*)pm_cur->refdev)->pm->blocked--; ((struct cgd_desc*)pm_cur->refdev)->blocked = 0; } } else if (! strncmp(pm_cur->diskdev, "vnd", 3)) { error = run_program(RUN_DISPLAY | RUN_PROGRESS, "vndconfig -u %s", pm_cur->diskdev); if (! error && pm_cur->refdev != NULL) { ((struct vnd_desc*)pm_cur->refdev)->pm->blocked--; ((struct vnd_desc*)pm_cur->refdev)->blocked = 0; } } else if (! strncmp(pm_cur->diskdev, "raid", 4)) { error = run_program(RUN_DISPLAY | RUN_PROGRESS, "raidctl -u %s", pm_cur->diskdev); if (! error && pm_cur->refdev != NULL) { ((struct raid_desc*)pm_cur->refdev)->blocked = 0; #if 0 // XXX for (i = 0; i < MAX_IN_RAID; i++) if (((struct raid_desc*)pm_cur->refdev)->comp[i].parts != NULL) ((raids_t*)pm_cur->refdev)->pm[i]->blocked--; #endif } } else if (! strncmp(pm_cur->diskdev, "dk", 2)) { if (pm_cur->refdev == NULL) return -2; /* error = */ run_program(RUN_DISPLAY | RUN_PROGRESS, "dkctl %s delwedge %s", ((struct pm_devs*)pm_cur->refdev)->diskdev, pm_cur->diskdev); #if 0 // XXX if (! error) { if (pm_cur->refdev != NULL && ((struct pm_devs*)pm_cur->refdev)->blocked > 0) ((struct pm_devs*)pm_cur->refdev)->blocked--; sscanf(pm_cur->diskdev, "dk%d", &num); if (num >= 0 && num < MAX_WEDGES) wedges[num].allocated = 0; } #endif } /* XXX: lvm */ else error = run_program(RUN_DISPLAY | RUN_PROGRESS, "eject -t disk /dev/%sd", pm_cur->diskdev); if (!error) pm_cur->found = 0; return error; } /* Last checks before leaving partition manager */ static int pm_lastcheck(void) { FILE *file_tmp = fopen(concat_paths(targetroot_mnt, "/etc/fstab"), "r"); if (file_tmp == NULL) return 1; fclose(file_tmp); return 0; } /* Are there unsaved changes? */ static int pm_needsave(void) { struct pm_devs *pm_i; SLIST_FOREACH(pm_i, &pm_head, l) if (pm_i->unsaved) { /* Oops, we have unsaved changes */ changed = 1; msg_display(MSG_saveprompt); return ask_yesno(NULL); } return 0; } /* Write all changes to disk */ static int pm_commit(menudesc *m, void *arg) { int retcode; struct pm_devs *pm_i; struct install_partition_desc install; if (m != NULL && arg != NULL) ((struct part_entry *)arg)[0].retvalue = m->cursel + 1; SLIST_FOREACH(pm_i, &pm_head, l) { if (! pm_i->unsaved) continue; pm_select(pm_i); install_desc_from_parts(&install, pm_i->parts); if (pm_i->no_part) { if (make_filesystems(&install) != 0) { if (logfp) fprintf(logfp, "Special disk %s preparing error\n", pm_i->diskdev); goto next; } pm_i->unsaved = 0; } else if (pm_i->parts != NULL) { if (!pm_i->parts->pscheme->write_to_disk(pm_i->parts) || set_swap_if_low_ram(NULL) != 0 || md_post_disklabel(&install, pm_i->parts) != 0 || /* Enable swap and check badblock */ make_filesystems(&install) != 0 /* Create filesystems with newfs */ ) { /* Oops, something failed... */ if (logfp) fprintf(logfp, "Disk %s preparing error\n", pm_i->diskdev); goto next; } pm_i->unsaved = 0; } next: free_install_desc(&install); } /* Call all functions that may create new devices */ if ((retcode = pm_raid_commit()) != 0) { if (logfp) fprintf(logfp, "RAIDframe configuring error #%d\n", retcode); return -1; } if ((retcode = pm_cgd_commit()) != 0) { if (logfp) fprintf(logfp, "CGD configuring error #%d\n", retcode); return -1; } if ((retcode = pm_lvm_commit()) != 0) { if (logfp) fprintf(logfp, "LVM configuring error #%d\n", retcode); return -1; } if ((retcode = pm_vnd_commit()) != 0) { if (logfp) fprintf(logfp, "VND configuring error #%d\n", retcode); return -1; } if (m != NULL && arg != NULL) pm_upddevlist(m, arg); if (logfp) fflush (logfp); return 0; } static int pm_savebootsector(void) { #if 0 // XXX struct pm_devs *pm_i; SLIST_FOREACH(pm_i, &pm_head, l) if (pm_i->bootable) { if (! strncmp("raid", pm_i->diskdev, 4)) if (run_program(RUN_DISPLAY | RUN_PROGRESS, "raidctl -v -A root %s", pm_i->diskdev) != 0) { if (logfp) fprintf(logfp, "Error writting RAID bootsector to %s\n", pm_i->diskdev); continue; } if (pm_i->no_part) { if (pm_i->rootpart < 0 || run_program(RUN_DISPLAY | RUN_PROGRESS, "gpt biosboot -i %d %s", pm_i->rootpart + 1, pm_i->diskdev) != 0) { if (logfp) fprintf(logfp, "Error writting GPT bootsector to %s\n", pm_i->diskdev); continue; } } else { pm_select(pm_i); if ( #ifndef NO_DISKLABEL !check_partitions(pm_i, pm_i->parts) || #endif md_post_newfs() != 0) { if (logfp) fprintf(logfp, "Error writting bootsector to %s\n", pm_i->diskdev); continue; } } } #endif return 0; } /* Function for 'Enter'-menu */ static int pm_submenu(menudesc *m, void *arg) { int part_num = -1; struct pm_devs *pm_cur = NULL; ((struct part_entry *)arg)[0].retvalue = m->cursel + 1; switch (((struct part_entry *)arg)[m->cursel].type) { case PM_DISK: case PM_PART: case PM_SPEC: if (((struct part_entry *)arg)[m->cursel].dev_ptr != NULL) { pm_cur = ((struct part_entry *)arg)[m->cursel].dev_ptr; if (pm_cur == NULL) return -1; if (pm_cur->blocked) { msg_display(MSG_wannaunblock); if (!ask_noyes(NULL)) return -2; pm_cur->blocked = 0; } pm_select(pm_cur); } default: break; } switch (((struct part_entry *)arg)[m->cursel].type) { case PM_DISK: if (pm_cur != NULL && pm_cur->parts == NULL) { #ifndef NO_DISKLABEL struct install_partition_desc install = { 0 }; #endif const struct disk_partitioning_scheme *ps = select_part_scheme(pm_cur, NULL, false, NULL); if (!ps) return 0; struct disk_partitions *parts = (*ps->create_new_for_disk)(pm_cur->diskdev, 0, pm_cur->dlsize, pm_cur->dlsize, false); if (!parts) return 0; pm_cur->parts = parts; if (pm->dlsize > ps->size_limit) pm->dlsize = ps->size_limit; if (pm_cur->parts == NULL) break; wclear(stdscr); wrefresh(stdscr); #ifndef NO_DISKLABEL install_desc_from_parts(&install, pm->parts); make_bsd_partitions(&install); free_install_desc(&install); #endif } // XXX // if (pm_cur != NULL // && pm_cur->label_type == PM_LABEL_GPT) { // process_menu(MENU_pmgptentry, &part_num); // pm_wedges_fill(pm_cur); // } else { process_menu(MENU_pmdiskentry, &part_num); // } break; case PM_PART: part_num = ((struct part_entry *)arg)[m->cursel].id; process_menu(MENU_pmpartentry, &part_num); // if (pm_cur != NULL && pm_cur->label_type == PM_LABEL_GPT) // pm_wedges_fill(pm_cur); break; case PM_SPEC: part_num = 0; process_menu(MENU_pmpartentry, &part_num); break; case PM_RAID: return pm_edit(PMR_MENU_END, pm_raid_edit_menufmt, pm_raid_set_value, pm_raid_check, pm_raid_init, NULL, ((struct part_entry *)arg)[m->cursel].dev_ptr, 0, &raids_t_info); case PM_VND: return pm_edit(PMV_MENU_END, pm_vnd_edit_menufmt, pm_vnd_set_value, pm_vnd_check, pm_vnd_init, NULL, ((struct part_entry *)arg)[m->cursel].dev_ptr, 0, &vnds_t_info); case PM_CGD: return pm_cgd_edit(((struct part_entry *)arg)[m->cursel].dev_ptr, NULL); case PM_LVM: return pm_edit(PML_MENU_END, pm_lvm_edit_menufmt, pm_lvm_set_value, pm_lvm_check, pm_lvm_init, NULL, ((struct part_entry *)arg)[m->cursel].dev_ptr, 0, &lvms_t_info); case PM_LVMLV: return pm_edit(PMLV_MENU_END, pm_lvmlv_edit_menufmt, pm_lvmlv_set_value, pm_lvmlv_check, pm_lvmlv_init, NULL, ((struct part_entry *)arg)[m->cursel].dev_ptr, ((struct part_entry *)arg)[m->cursel].dev_ptr_delta, &lv_t_info); } return 0; } /* Functions that generate menu entries text */ static void pm_menufmt(menudesc *m, int opt, void *arg) { const char *dev_status = ""; char buf[STRSIZE], dev[STRSIZE]; part_id part_num = ((struct part_entry *)arg)[opt].id; struct pm_devs *pm_cur = ((struct part_entry *)arg)[opt].dev_ptr; struct disk_partitions *parts = ((struct part_entry *)arg)[opt].parts; struct disk_part_info info; const char *mount_point, *fstype; switch (((struct part_entry *)arg)[opt].type) { case PM_DISK: if (pm_cur->blocked) dev_status = msg_string(MSG_pmblocked); else if (! pm_cur->unsaved) dev_status = msg_string(MSG_pmunchanged); else if (pm_cur->bootable) dev_status = msg_string(MSG_pmsetboot); else dev_status = msg_string(MSG_pmused); wprintw(m->mw, "%-33.32s %33.32s", pm_cur->diskdev_descr, dev_status); break; case PM_PART: if (parts->pscheme->get_part_device != NULL) parts->pscheme->get_part_device( parts, part_num, dev, sizeof dev, NULL, plain_name, false); else strcpy(dev, "-"); parts->pscheme->get_part_info(parts, part_num, &info); if (pm_cur->mounted != NULL && pm_cur->mounted[part_num] != NULL && pm_cur->mounted[part_num][0] != 0) mount_point = msg_string(MSG_pmmounted); else mount_point = msg_string(MSG_pmunused); fstype = getfslabelname(info.fs_type, info.fs_sub_type); if (info.last_mounted != NULL) { snprintf(buf, STRSIZE, "%s (%s) %s", info.last_mounted, fstype, mount_point); pm_fmt_disk_line(m->mw, dev, buf, info.size, NULL); } else { if (fstype != NULL) { strlcat(dev, " (", sizeof(dev)); strlcat(dev, fstype, sizeof(dev)); strlcat(dev, ")", sizeof(dev)); } pm_fmt_disk_line(m->mw, dev, NULL, info.size, NULL); } break; case PM_SPEC: /* XXX ? */ pm_fmt_disk_line(m->mw, pm_cur->diskdev_descr, NULL, pm_cur->dlsize, NULL); break; case PM_RAID: pm_raid_menufmt(m, opt, arg); break; case PM_VND: pm_vnd_menufmt(m, opt, arg); break; case PM_CGD: pm_cgd_menufmt(m, opt, arg); break; case PM_LVM: pm_lvm_menufmt(m, opt, arg); break; case PM_LVMLV: pm_lvmlv_menufmt(m, opt, arg); break; } } /* Submenu for RAID/LVM/CGD/VND */ static void pm_upddevlist_adv(menudesc *m, void *arg, int *i, pm_upddevlist_adv_t *d) { int ii; if (d->create_msg != NULL) { /* We want to have menu entry that creates a new device */ ((struct part_entry *)arg)[*i].type = d->pe_type; ((struct part_entry *)arg)[*i].dev_ptr = NULL; ((struct part_entry *)arg)[*i].dev_ptr_delta = d->s->parent_size * d->sub_num; m->opts[(*i)++] = (struct menu_ent) { .opt_name = d->create_msg, .opt_action = pm_submenu, }; } for (ii = 0; ii < d->s->max; ii++) { if (d->s->entry_enabled == NULL || d->s->entry_blocked == NULL || *(int*)((char*)d->s->entry_enabled + d->s->entry_size * ii + d->s->parent_size * d->sub_num) == 0 || *(int*)((char*)d->s->entry_blocked + d->s->entry_size * ii + d->s->parent_size * d->sub_num) != 0) continue; /* We have a entry for displaying */ changed = 1; m->opts[*i] = (struct menu_ent) { .opt_name = NULL, .opt_action = pm_submenu, }; ((struct part_entry *)arg)[*i].type = d->pe_type; ((struct part_entry *)arg)[*i].dev_ptr = (char*)d->s->entry_first + d->s->entry_size * ii + d->s->parent_size * d->sub_num; (*i)++; /* We should show submenu for current entry */ if (d->sub != NULL) { d->sub->sub_num = ii; pm_upddevlist_adv(m, arg, i, d->sub); } } } /* Update partman main menu with devices list */ static int pm_upddevlist(menudesc *m, void *arg) { int i = 0; size_t ii; struct pm_devs *pm_i; struct disk_partitions *secondary; const struct disk_partitioning_scheme *ps; struct disk_part_info info; if (arg != NULL) ((struct part_entry *)arg)[0].retvalue = m->cursel + 1; changed = 0; /* Mark all devices as not found */ SLIST_FOREACH(pm_i, &pm_head, l) { if (pm_i->parts != NULL) { pm_i->parts->pscheme->free(pm_i->parts); pm_i->parts = NULL; } if (pm_i->found > 0) pm_i->found = 0; } /* Detect all present devices */ (void)find_disks("partman", false); if (have_lvm) pm_lvm_find(); pm_clean(); if (m == NULL || arg == NULL) return -1; SLIST_FOREACH(pm_i, &pm_head, l) { m->opts[i].opt_name = NULL; m->opts[i].opt_exp_name = NULL; m->opts[i].opt_action = pm_submenu; ((struct part_entry *)arg)[i].dev_ptr = pm_i; ((struct part_entry *)arg)[i].id = NO_PART; if (pm_i->no_part) ((struct part_entry *)arg)[i].type = PM_SPEC; else { ps = pm_i->parts != NULL ? pm_i->parts->pscheme : NULL; secondary = NULL; ((struct part_entry *)arg)[i].type = PM_DISK; for (ii = 0; pm_i->parts != NULL && ii < pm_i->parts->num_part; ii++) { if (!ps->get_part_info( pm_i->parts, ii, &info)) continue; if (info.flags & PTI_SEC_CONTAINER) { if (secondary == NULL && ps->secondary_scheme != NULL) secondary = ps-> secondary_partitions( pm_i->parts, info.start, false); continue; } if (info.flags & (PTI_WHOLE_DISK| PTI_PSCHEME_INTERNAL|PTI_RAW_PART)) continue; if (info.fs_type == FS_UNUSED) continue; if (i >= MAX_ENTRIES) break; i++; m->opts[i].opt_name = NULL; m->opts[i].opt_exp_name = NULL; m->opts[i].opt_action = pm_submenu; ((struct part_entry *)arg)[i].parts = pm_i->parts; ((struct part_entry *)arg)[i].dev_ptr = pm_i; ((struct part_entry *)arg)[i].id = ii; ((struct part_entry *)arg)[i].type = PM_PART; } for (ii = 0; secondary != NULL && ii < secondary->num_part; ii++) { if (!secondary->pscheme->get_part_info( secondary, ii, &info)) continue; if (info.flags & (PTI_WHOLE_DISK| PTI_PSCHEME_INTERNAL|PTI_RAW_PART)) continue; if (info.fs_type == FS_UNUSED) continue; if (i >= MAX_ENTRIES) break; i++; m->opts[i].opt_name = NULL; m->opts[i].opt_exp_name = NULL; m->opts[i].opt_action = pm_submenu; ((struct part_entry *)arg)[i].parts = secondary; ((struct part_entry *)arg)[i].dev_ptr = pm_i; ((struct part_entry *)arg)[i].id = ii; ((struct part_entry *)arg)[i].type = PM_PART; } } i++; } if (have_cgd) { pm_upddevlist_adv(m, arg, &i, &(pm_upddevlist_adv_t) {MSG_create_cgd, PM_CGD, &cgds_t_info, 0, NULL}); } if (have_lvm) { pm_upddevlist_adv(m, arg, &i, &(pm_upddevlist_adv_t) {MSG_create_cnd, PM_VND, &vnds_t_info, 0, NULL}); pm_upddevlist_adv(m, arg, &i, &(pm_upddevlist_adv_t) {MSG_create_vg, PM_LVM, &lvms_t_info, 0, &(pm_upddevlist_adv_t) {MSG_create_lv, PM_LVMLV, &lv_t_info, 0, NULL}}); } if (have_raid) { pm_upddevlist_adv(m, arg, &i, &(pm_upddevlist_adv_t) {MSG_create_raid, PM_RAID, &raids_t_info, 0, NULL}); } m->opts[i++] = (struct menu_ent) { .opt_name = MSG_updpmlist, .opt_action = pm_upddevlist, }; m->opts[i ] = (struct menu_ent) { .opt_name = MSG_savepm, .opt_action = pm_commit, }; for (ii = 0; ii <= (size_t)i; ii++) { m->opts[ii].opt_flags = OPT_EXIT; } if (((struct part_entry *)arg)[0].retvalue >= 0) m->cursel = ((struct part_entry *)arg)[0].retvalue - 1; return i; } static void pm_menuin(menudesc *m, void *arg) { if (cursel > m->numopts) m->cursel = m->numopts; else if (cursel < 0) m->cursel = 0; else m->cursel = cursel; } static void pm_menuout(menudesc *m, void *arg) { cursel = m->cursel; } /* Main partman function */ int partman(void) { int menu_no, menu_num_entries; static int firstrun = 1; menu_ent menu_entries[MAX_ENTRIES+6]; struct part_entry args[MAX_ENTRIES]; if (firstrun) { check_available_binaries(); if (!have_raid) remove_raid_options(); else if (!(raids = calloc(MAX_RAID, sizeof(*raids)))) have_raid = 0; #define remove_vnd_options() (void)0 if (!have_vnd) remove_vnd_options(); else if (!(vnds = calloc(MAX_VND, sizeof(*vnds)))) have_vnd = 0; if (!have_cgd) remove_cgd_options(); else if (!(cgds = calloc(MAX_CGD, sizeof(*cgds)))) have_cgd = 0; if (!have_lvm) remove_lvm_options(); else if (!(lvms = calloc(MAX_LVM_VG, sizeof(*lvms)))) have_lvm = 0; if (!have_gpt) remove_gpt_options(); raids_t_info = (structinfo_t) { .max = MAX_RAID, .entry_size = sizeof raids[0], .entry_first = &raids[0], .entry_enabled = &(raids[0].enabled), .entry_blocked = &(raids[0].blocked), .entry_node = &(raids[0].node), }; vnds_t_info = (structinfo_t) { .max = MAX_VND, .entry_size = sizeof vnds[0], .entry_first = &vnds[0], .entry_enabled = &(vnds[0].enabled), .entry_blocked = &(vnds[0].blocked), .entry_node = &(vnds[0].node), }; cgds_t_info = (structinfo_t) { .max = MAX_CGD, .entry_size = sizeof cgds[0], .entry_first = &cgds[0], .entry_enabled = &(cgds[0].enabled), .entry_blocked = &(cgds[0].blocked), .entry_node = &(cgds[0].node), }; lvms_t_info = (structinfo_t) { .max = MAX_LVM_VG, .entry_size = sizeof lvms[0], .entry_first = &lvms[0], .entry_enabled = &(lvms[0].enabled), .entry_blocked = &(lvms[0].blocked), .entry_node = NULL, }; lv_t_info = (structinfo_t) { .max = MAX_LVM_LV, .entry_size = sizeof lvms[0].lv[0], .entry_first = &lvms[0].lv[0], .entry_enabled = &(lvms[0].lv[0].size), .entry_blocked = &(lvms[0].lv[0].blocked), .parent_size = sizeof lvms[0], }; cursel = 0; changed = 0; firstrun = 0; } do { menu_num_entries = pm_upddevlist(&(menudesc){.opts = menu_entries}, args); menu_no = new_menu(MSG_partman_header, menu_entries, menu_num_entries+1, 1, 1, 0, 75, /* Fixed width */ MC_ALWAYS_SCROLL | MC_NOBOX | MC_NOCLEAR, pm_menuin, pm_menufmt, pm_menuout, NULL, MSG_finishpm); if (menu_no == -1) args[0].retvalue = -1; else { args[0].retvalue = 0; clear(); refresh(); process_menu(menu_no, &args); free_menu(menu_no); } if (args[0].retvalue == 0) { struct install_partition_desc install; install_desc_from_parts(&install, pm->parts); if (pm_needsave()) pm_commit(NULL, NULL); if (pm_mountall() != 0 || make_fstab(&install) != 0 || pm_lastcheck() != 0 || pm_savebootsector() != 0) { msg_display(MSG_wannatry); args[0].retvalue = (ask_yesno(NULL)) ? 1:-1; } free_install_desc(&install); } } while (args[0].retvalue > 0); /* retvalue <0 - error, retvalue ==0 - user quits, retvalue >0 - all ok */ return (args[0].retvalue >= 0)?0:-1; } void update_wedges(const char *disk) { check_available_binaries(); if (!have_dk) return; run_program(RUN_SILENT | RUN_ERROR_OK, "dkctl %s makewedges", disk); }