Current Path : /usr/src/usr.sbin/sysinstall/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/usr.sbin/sysinstall/disks.c |
/* * The new sysinstall program. * * This is probably the last program in the `sysinstall' line - the next * generation being essentially a complete rewrite. * * $FreeBSD: release/9.1.0/usr.sbin/sysinstall/disks.c 209235 2010-06-16 15:40:13Z brucec $ * * Copyright (c) 1995 * Jordan Hubbard. 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, * verbatim and that no modifications are made prior to this * point in the file. * 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 JORDAN HUBBARD ``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 JORDAN HUBBARD OR HIS PETS 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, LIFE 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 "sysinstall.h" #include <ctype.h> #include <fcntl.h> #include <inttypes.h> #include <libdisk.h> #include <sys/stat.h> #include <sys/disklabel.h> #ifdef WITH_SLICES enum size_units_t { UNIT_BLOCKS, UNIT_KILO, UNIT_MEG, UNIT_GIG, UNIT_SIZE }; #ifdef PC98 #define SUBTYPE_FREEBSD 50324 #define SUBTYPE_FAT 37218 #else #define SUBTYPE_FREEBSD 165 #define SUBTYPE_FAT 6 #endif #define SUBTYPE_EFI 239 #ifdef PC98 #define OTHER_SLICE_VALUES \ "Other popular values are 37218 for a\n" \ "DOS FAT partition.\n\n" #else #define OTHER_SLICE_VALUES \ "Other popular values are 6 for a\n" \ "DOS FAT partition, 131 for a Linux ext2fs partition, or\n" \ "130 for a Linux swap partition.\n\n" #endif #define NON_FREEBSD_NOTE \ "Note: If you choose a non-FreeBSD partition type, it will not\n" \ "be formatted or otherwise prepared, it will simply reserve space\n" \ "for you to use another tool, such as DOS format, to later format\n" \ "and actually use the partition." /* Where we start displaying chunk information on the screen */ #define CHUNK_START_ROW 5 /* Where we keep track of MBR chunks */ #define CHUNK_INFO_ENTRIES 16 static struct chunk *chunk_info[CHUNK_INFO_ENTRIES]; static int current_chunk; static void diskPartitionNonInteractive(Device *dev); static void record_chunks(Disk *d) { struct chunk *c1 = NULL; int i = 0; daddr_t last_free = 0; if (!d->chunks) msgFatal("No chunk list found for %s!", d->name); for (c1 = d->chunks->part; c1; c1 = c1->next) { if (c1->type == unused && c1->size > last_free) { last_free = c1->size; current_chunk = i; } chunk_info[i++] = c1; } chunk_info[i] = NULL; if (current_chunk >= i) current_chunk = i - 1; } static daddr_t Total; static void check_geometry(Disk *d) { int sg; #ifdef PC98 if (d->bios_cyl >= 65536 || d->bios_hd > 256 || d->bios_sect >= 256) #else if (d->bios_cyl > 65536 || d->bios_hd > 256 || d->bios_sect >= 64) #endif { dialog_clear_norefresh(); sg = msgYesNo("WARNING: It is safe to use a geometry of %lu/%lu/%lu for %s on\n" "computers with modern BIOS versions. If this disk is to be used\n" "on an old machine it is recommended that it does not have more\n" "than 65535 cylinders, more than 255 heads, or more than\n" #ifdef PC98 "255" #else "63" #endif " sectors per track.\n" "\n" "Would you like to keep using the current geometry?\n", d->bios_cyl, d->bios_hd, d->bios_sect, d->name); if (sg == 1) { Sanitize_Bios_Geom(d); msgConfirm("A geometry of %lu/%lu/%lu was calculated for %s.\n" "\n" "If you are not sure about this, please consult the Hardware Guide\n" "in the Documentation submenu or use the (G)eometry command to\n" "change it. Remember: you need to enter whatever your BIOS thinks\n" "the geometry is! For IDE, it's what you were told in the BIOS\n" "setup. For SCSI, it's the translation mode your controller is\n" "using. Do NOT use a ``physical geometry''.\n", d->bios_cyl, d->bios_hd, d->bios_sect, d->name); } } } static void print_chunks(Disk *d, int u) { int row; int i; daddr_t sz; char *szstr; szstr = (u == UNIT_GIG ? "GB" : (u == UNIT_MEG ? "MB" : (u == UNIT_KILO ? "KB" : "ST"))); Total = 0; for (i = 0; chunk_info[i]; i++) Total += chunk_info[i]->size; attrset(A_NORMAL); mvaddstr(0, 0, "Disk name:\t"); clrtobot(); attrset(A_REVERSE); addstr(d->name); attrset(A_NORMAL); attrset(A_REVERSE); mvaddstr(0, 55, "FDISK Partition Editor"); attrset(A_NORMAL); mvprintw(1, 0, "DISK Geometry:\t%lu cyls/%lu heads/%lu sectors = %jd sectors (%jdMB)", d->bios_cyl, d->bios_hd, d->bios_sect, (intmax_t)d->bios_cyl * d->bios_hd * d->bios_sect, (intmax_t)d->bios_cyl * d->bios_hd * d->bios_sect / (1024/512) / 1024); mvprintw(3, 0, "%6s %10s(%s) %10s %8s %6s %10s %8s %8s", "Offset", "Size", szstr, "End", "Name", "PType", "Desc", "Subtype", "Flags"); for (i = 0, row = CHUNK_START_ROW; chunk_info[i]; i++, row++) { switch(u) { default: /* fall thru */ case UNIT_BLOCKS: sz = chunk_info[i]->size; break; case UNIT_KILO: sz = chunk_info[i]->size / (1024/512); break; case UNIT_MEG: sz = chunk_info[i]->size / (1024/512) / 1024; break; case UNIT_GIG: sz = chunk_info[i]->size / (1024/512) / 1024 / 1024; break; } if (i == current_chunk) attrset(ATTR_SELECTED); mvprintw(row, 0, "%10jd %10jd %10jd %8s %6d %10s %8d\t%-6s", (intmax_t)chunk_info[i]->offset, (intmax_t)sz, (intmax_t)chunk_info[i]->end, chunk_info[i]->name, chunk_info[i]->type, slice_type_name(chunk_info[i]->type, chunk_info[i]->subtype), chunk_info[i]->subtype, ShowChunkFlags(chunk_info[i])); if (i == current_chunk) attrset(A_NORMAL); } } static void print_command_summary(void) { mvprintw(14, 0, "The following commands are supported (in upper or lower case):"); mvprintw(16, 0, "A = Use Entire Disk G = set Drive Geometry C = Create Slice"); mvprintw(17, 0, "D = Delete Slice Z = Toggle Size Units S = Set Bootable | = Expert m."); mvprintw(18, 0, "T = Change Type U = Undo All Changes"); if (!RunningAsInit) mvprintw(18, 47, "W = Write Changes Q = Finish"); else mvprintw(18, 47, "Q = Finish"); mvprintw(21, 0, "Use F1 or ? to get more help, arrow keys to select."); move(0, 0); } #endif /* WITH_SLICES */ #if !defined(__ia64__) static u_char * bootalloc(char *name, size_t *size) { char buf[FILENAME_MAX]; struct stat sb; snprintf(buf, sizeof buf, "/boot/%s", name); if (stat(buf, &sb) != -1) { int fd; fd = open(buf, O_RDONLY); if (fd != -1) { u_char *cp; cp = malloc(sb.st_size); if (read(fd, cp, sb.st_size) != sb.st_size) { free(cp); close(fd); msgDebug("bootalloc: couldn't read %ld bytes from %s\n", (long)sb.st_size, buf); return NULL; } close(fd); if (size != NULL) *size = sb.st_size; return cp; } msgDebug("bootalloc: couldn't open %s\n", buf); } else msgDebug("bootalloc: can't stat %s\n", buf); return NULL; } #endif /* !defined(__ia64__) */ #ifdef WITH_SLICES #ifdef PC98 static void getBootMgr(char *dname, u_char **bootipl, size_t *bootipl_size, u_char **bootmenu, size_t *bootmenu_size) { static u_char *boot0; static size_t boot0_size; static u_char *boot05; static size_t boot05_size; char str[80]; char *cp; int i = 0; cp = variable_get(VAR_BOOTMGR); if (!cp) { /* Figure out what kind of IPL the user wants */ sprintf(str, "Install Boot Manager for drive %s?", dname); MenuIPLType.title = str; i = dmenuOpenSimple(&MenuIPLType, FALSE); } else { if (!strncmp(cp, "boot", 4)) BootMgr = 0; else BootMgr = 1; } if (cp || i) { switch (BootMgr) { case 0: if (!boot0) boot0 = bootalloc("boot0", &boot0_size); *bootipl = boot0; *bootipl_size = boot0_size; if (!boot05) boot05 = bootalloc("boot0.5", &boot05_size); *bootmenu = boot05; *bootmenu_size = boot05_size; return; case 1: default: break; } } *bootipl = NULL; *bootipl_size = 0; *bootmenu = NULL; *bootmenu_size = 0; } #else static void getBootMgr(char *dname, u_char **bootCode, size_t *bootCodeSize) { #if defined(__i386__) || defined(__amd64__) /* only meaningful on x86 */ static u_char *mbr, *boot0; static size_t mbr_size, boot0_size; char str[80]; char *cp; int i = 0; cp = variable_get(VAR_BOOTMGR); if (!cp) { /* Figure out what kind of MBR the user wants */ sprintf(str, "Install Boot Manager for drive %s?", dname); MenuMBRType.title = str; i = dmenuOpenSimple(&MenuMBRType, FALSE); } else { if (!strncmp(cp, "boot", 4)) BootMgr = 0; else if (!strcmp(cp, "standard")) BootMgr = 1; else BootMgr = 2; } if (cp || i) { switch (BootMgr) { case 0: if (!boot0) boot0 = bootalloc("boot0", &boot0_size); *bootCode = boot0; *bootCodeSize = boot0_size; return; case 1: if (!mbr) mbr = bootalloc("mbr", &mbr_size); *bootCode = mbr; *bootCodeSize = mbr_size; return; case 2: default: break; } } #endif *bootCode = NULL; *bootCodeSize = 0; } #endif #endif /* WITH_SLICES */ int diskGetSelectCount(Device ***devs) { int i, cnt, enabled; char *cp; Device **dp; cp = variable_get(VAR_DISK); dp = *devs = deviceFind(cp, DEVICE_TYPE_DISK); cnt = deviceCount(dp); if (!cnt) return -1; for (i = 0, enabled = 0; i < cnt; i++) { if (dp[i]->enabled) ++enabled; } return enabled; } #ifdef WITH_SLICES void diskPartition(Device *dev) { char *p; int rv, key = 0; int i; Boolean chunking; char *msg = NULL; #ifdef PC98 u_char *bootipl; size_t bootipl_size; u_char *bootmenu; size_t bootmenu_size; #else u_char *mbrContents; size_t mbrSize; #endif WINDOW *w = savescr(); Disk *d = (Disk *)dev->private; int size_unit; size_unit = UNIT_BLOCKS; chunking = TRUE; keypad(stdscr, TRUE); /* Flush both the dialog and curses library views of the screen since we don't always know who called us */ dialog_clear_norefresh(), clear(); current_chunk = 0; /* Set up the chunk array */ record_chunks(d); /* Give the user a chance to sanitize the disk geometry, if necessary */ check_geometry(d); while (chunking) { char *val, geometry[80]; /* Now print our overall state */ if (d) print_chunks(d, size_unit); print_command_summary(); if (msg) { attrset(title_attr); mvprintw(23, 0, msg); attrset(A_NORMAL); beep(); msg = NULL; } else { move(23, 0); clrtoeol(); } /* Get command character */ key = getch(); switch (toupper(key)) { case '\014': /* ^L (redraw) */ clear(); msg = NULL; break; case '\020': /* ^P */ case KEY_UP: case '-': if (current_chunk != 0) --current_chunk; break; case '\016': /* ^N */ case KEY_DOWN: case '+': case '\r': case '\n': if (chunk_info[current_chunk + 1]) ++current_chunk; break; case KEY_HOME: current_chunk = 0; break; case KEY_END: while (chunk_info[current_chunk + 1]) ++current_chunk; break; case KEY_F(1): case '?': systemDisplayHelp("slice"); clear(); break; case 'A': #if !defined(__i386__) && !defined(__amd64__) rv = 1; #else /* The rest is only relevant on x86 */ rv = 0; #endif All_FreeBSD(d, rv); variable_set2(DISK_PARTITIONED, "yes", 0); record_chunks(d); clear(); break; case 'C': if (chunk_info[current_chunk]->type != unused) msg = "Slice in use, delete it first or move to an unused one."; else { char *val, tmp[20], name[16], *cp; daddr_t size; long double dsize; int subtype; chunk_e partitiontype; #ifdef PC98 snprintf(name, sizeof (name), "%s", "FreeBSD"); val = msgGetInput(name, "Please specify the name for new FreeBSD slice."); if (val) strncpy(name, val, sizeof (name)); #else name[0] = '\0'; #endif snprintf(tmp, 20, "%jd", (intmax_t)chunk_info[current_chunk]->size); val = msgGetInput(tmp, "Please specify the size for new FreeBSD slice in blocks\n" "or append a trailing `M' for megabytes (e.g. 20M)."); if (val && (dsize = strtold(val, &cp)) > 0 && dsize < UINT32_MAX) { if (*cp && toupper(*cp) == 'M') size = (daddr_t) (dsize * ONE_MEG); else if (*cp && toupper(*cp) == 'G') size = (daddr_t) (dsize * ONE_GIG); else size = (daddr_t) dsize; if (size < ONE_MEG) { msgConfirm("The minimum slice size is 1MB"); break; } sprintf(tmp, "%d", SUBTYPE_FREEBSD); val = msgGetInput(tmp, "Enter type of partition to create:\n\n" "Pressing Enter will choose the default, a native FreeBSD\n" "slice (type %u). " OTHER_SLICE_VALUES NON_FREEBSD_NOTE, SUBTYPE_FREEBSD); if (val && (subtype = strtol(val, NULL, 0)) > 0) { if (subtype == SUBTYPE_FREEBSD) partitiontype = freebsd; else if (subtype == SUBTYPE_FAT) partitiontype = fat; else if (subtype == SUBTYPE_EFI) partitiontype = efi; else #ifdef PC98 partitiontype = pc98; #else partitiontype = mbr; #endif Create_Chunk(d, chunk_info[current_chunk]->offset, size, partitiontype, subtype, (chunk_info[current_chunk]->flags & CHUNK_ALIGN), name); variable_set2(DISK_PARTITIONED, "yes", 0); record_chunks(d); } } clear(); } break; case KEY_DC: case 'D': if (chunk_info[current_chunk]->type == unused) msg = "Slice is already unused!"; else { Delete_Chunk(d, chunk_info[current_chunk]); variable_set2(DISK_PARTITIONED, "yes", 0); record_chunks(d); } break; case 'T': if (chunk_info[current_chunk]->type == unused) msg = "Slice is currently unused (use create instead)"; else { char *val, tmp[20]; int subtype; chunk_e partitiontype; sprintf(tmp, "%d", chunk_info[current_chunk]->subtype); val = msgGetInput(tmp, "New partition type:\n\n" "Pressing Enter will use the current type. To choose a native\n" "FreeBSD slice enter %u. " OTHER_SLICE_VALUES NON_FREEBSD_NOTE, SUBTYPE_FREEBSD); if (val && (subtype = strtol(val, NULL, 0)) > 0) { if (subtype == SUBTYPE_FREEBSD) partitiontype = freebsd; else if (subtype == SUBTYPE_FAT) partitiontype = fat; else if (subtype == SUBTYPE_EFI) partitiontype = efi; else #ifdef PC98 partitiontype = pc98; #else partitiontype = mbr; #endif chunk_info[current_chunk]->type = partitiontype; chunk_info[current_chunk]->subtype = subtype; } } break; case 'G': snprintf(geometry, 80, "%lu/%lu/%lu", d->bios_cyl, d->bios_hd, d->bios_sect); val = msgGetInput(geometry, "Please specify the new geometry in cyl/hd/sect format.\n" "Don't forget to use the two slash (/) separator characters!\n" "It's not possible to parse the field without them."); if (val) { long nc, nh, ns; nc = strtol(val, &val, 0); nh = strtol(val + 1, &val, 0); ns = strtol(val + 1, 0, 0); Set_Bios_Geom(d, nc, nh, ns); } clear(); break; case 'S': /* Clear active states so we won't have two */ for (i = 0; (chunk_info[i] != NULL) && (i < CHUNK_INFO_ENTRIES); i++) chunk_info[i]->flags &= !CHUNK_ACTIVE; /* Set Bootable */ chunk_info[current_chunk]->flags |= CHUNK_ACTIVE; break; case 'U': if (!variable_cmp(DISK_LABELLED, "written")) { msgConfirm("You've already written this information out - you\n" "can't undo it."); } else if (!msgNoYes("Are you SURE you want to Undo everything?")) { char cp[BUFSIZ]; sstrncpy(cp, d->name, sizeof cp); Free_Disk(dev->private); d = Open_Disk(cp); if (!d) msgConfirm("Can't reopen disk %s! Internal state is probably corrupted", cp); dev->private = d; variable_unset(DISK_PARTITIONED); variable_unset(DISK_LABELLED); if (d) record_chunks(d); } clear(); break; case 'W': if (!msgNoYes("WARNING: This should only be used when modifying an EXISTING\n" "installation. If you are installing FreeBSD for the first time\n" "then you should simply type Q when you're finished here and your\n" "changes will be committed in one batch automatically at the end of\n" "these questions. If you're adding a disk, you should NOT write\n" "from this screen, you should do it from the label editor.\n\n" "Are you absolutely sure you want to do this now?")) { variable_set2(DISK_PARTITIONED, "yes", 0); #ifdef PC98 /* * Don't trash the IPL if the first (and therefore only) chunk * is marked for a truly dedicated disk (i.e., the disklabel * starts at sector 0), even in cases where the user has * requested a FreeBSD Boot Manager -- both would be fatal in * this case. */ /* * Don't offer to update the IPL on this disk if the first * "real" chunk looks like a FreeBSD "all disk" partition, * or the disk is entirely FreeBSD. */ if ((d->chunks->part->type != freebsd) || (d->chunks->part->offset > 1)) getBootMgr(d->name, &bootipl, &bootipl_size, &bootmenu, &bootmenu_size); else { bootipl = NULL; bootipl_size = 0; bootmenu = NULL; bootmenu_size = 0; } Set_Boot_Mgr(d, bootipl, bootipl_size, bootmenu, bootmenu_size); #else /* * Don't trash the MBR if the first (and therefore only) chunk * is marked for a truly dedicated disk (i.e., the disklabel * starts at sector 0), even in cases where the user has * requested booteasy or a "standard" MBR -- both would be * fatal in this case. */ /* * Don't offer to update the MBR on this disk if the first * "real" chunk looks like a FreeBSD "all disk" partition, * or the disk is entirely FreeBSD. */ if ((d->chunks->part->type != freebsd) || (d->chunks->part->offset > 1)) getBootMgr(d->name, &mbrContents, &mbrSize); else { mbrContents = NULL; mbrSize = 0; } Set_Boot_Mgr(d, mbrContents, mbrSize); #endif if (DITEM_STATUS(diskPartitionWrite(NULL)) != DITEM_SUCCESS) msgConfirm("Disk partition write returned an error status!"); else msgConfirm("Wrote FDISK partition information out successfully."); } clear(); break; case '|': if (!msgNoYes("Are you SURE you want to go into Expert mode?\n" "No seat belts whatsoever are provided!")) { clear(); refresh(); slice_wizard(d); variable_set2(DISK_PARTITIONED, "yes", 0); record_chunks(d); } else msg = "Wise choice!"; clear(); break; case '\033': /* ESC */ case 'Q': chunking = FALSE; #ifdef PC98 /* * Don't trash the IPL if the first (and therefore only) chunk * is marked for a truly dedicated disk (i.e., the disklabel * starts at sector 0), even in cases where the user has requested * a FreeBSD Boot Manager -- both would be fatal in this case. */ /* * Don't offer to update the IPL on this disk if the first "real" * chunk looks like a FreeBSD "all disk" partition, or the disk is * entirely FreeBSD. */ if ((d->chunks->part->type != freebsd) || (d->chunks->part->offset > 1)) { if (variable_cmp(DISK_PARTITIONED, "written")) { getBootMgr(d->name, &bootipl, &bootipl_size, &bootmenu, &bootmenu_size); if (bootipl != NULL && bootmenu != NULL) Set_Boot_Mgr(d, bootipl, bootipl_size, bootmenu, bootmenu_size); } } #else /* * Don't trash the MBR if the first (and therefore only) chunk * is marked for a truly dedicated disk (i.e., the disklabel * starts at sector 0), even in cases where the user has requested * booteasy or a "standard" MBR -- both would be fatal in this case. */ /* * Don't offer to update the MBR on this disk if the first "real" * chunk looks like a FreeBSD "all disk" partition, or the disk is * entirely FreeBSD. */ if ((d->chunks->part->type != freebsd) || (d->chunks->part->offset > 1)) { if (variable_cmp(DISK_PARTITIONED, "written")) { getBootMgr(d->name, &mbrContents, &mbrSize); if (mbrContents != NULL) Set_Boot_Mgr(d, mbrContents, mbrSize); } } #endif break; case 'Z': size_unit = (size_unit + 1) % UNIT_SIZE; break; default: beep(); msg = "Type F1 or ? for help"; break; } } p = CheckRules(d); if (p) { char buf[FILENAME_MAX]; use_helpline("Press F1 to read more about disk slices."); use_helpfile(systemHelpFile("partition", buf)); if (!variable_get(VAR_NO_WARN)) dialog_mesgbox("Disk slicing warning:", p, -1, -1); free(p); } restorescr(w); } #endif /* WITH_SLICES */ #ifdef WITH_SLICES static int partitionHook(dialogMenuItem *selected) { Device **devs = NULL; devs = deviceFind(selected->prompt, DEVICE_TYPE_DISK); if (!devs) { msgConfirm("Unable to find disk %s!", selected->prompt); return DITEM_FAILURE; } /* Toggle enabled status? */ if (!devs[0]->enabled) { devs[0]->enabled = TRUE; diskPartition(devs[0]); } else devs[0]->enabled = FALSE; return DITEM_SUCCESS; } static int partitionCheck(dialogMenuItem *selected) { Device **devs = NULL; devs = deviceFind(selected->prompt, DEVICE_TYPE_DISK); if (!devs || devs[0]->enabled == FALSE) return FALSE; return TRUE; } int diskPartitionEditor(dialogMenuItem *self) { DMenu *menu; Device **devs; int i, cnt, devcnt; cnt = diskGetSelectCount(&devs); devcnt = deviceCount(devs); if (cnt == -1) { msgConfirm("No disks found! Please verify that your disk controller is being\n" "properly probed at boot time. See the Hardware Guide on the\n" "Documentation menu for clues on diagnosing this type of problem."); return DITEM_FAILURE; } else if (cnt) { /* Some are already selected */ for (i = 0; i < devcnt; i++) { if (devs[i]->enabled) { if (variable_get(VAR_NONINTERACTIVE) && !variable_get(VAR_DISKINTERACTIVE)) diskPartitionNonInteractive(devs[i]); else diskPartition(devs[i]); } } } else { /* No disks are selected, fall-back case now */ if (devcnt == 1) { devs[0]->enabled = TRUE; if (variable_get(VAR_NONINTERACTIVE) && !variable_get(VAR_DISKINTERACTIVE)) diskPartitionNonInteractive(devs[0]); else diskPartition(devs[0]); return DITEM_SUCCESS; } else { menu = deviceCreateMenu(&MenuDiskDevices, DEVICE_TYPE_DISK, partitionHook, partitionCheck); if (!menu) { msgConfirm("No devices suitable for installation found!\n\n" "Please verify that your disk controller (and attached drives)\n" "were detected properly. This can be done by pressing the\n" "[Scroll Lock] key and using the Arrow keys to move back to\n" "the boot messages. Press [Scroll Lock] again to return."); return DITEM_FAILURE; } else { i = dmenuOpenSimple(menu, FALSE) ? DITEM_SUCCESS : DITEM_FAILURE; free(menu); } return i; } } return DITEM_SUCCESS; } #endif /* WITH_SLICES */ int diskPartitionWrite(dialogMenuItem *self) { Device **devs; int i; if (!variable_cmp(DISK_PARTITIONED, "written")) return DITEM_SUCCESS; devs = deviceFind(NULL, DEVICE_TYPE_DISK); if (!devs) { msgConfirm("Unable to find any disks to write to??"); return DITEM_FAILURE; } if (isDebug()) msgDebug("diskPartitionWrite: Examining %d devices\n", deviceCount(devs)); for (i = 0; devs[i]; i++) { Disk *d = (Disk *)devs[i]->private; #if !defined(__ia64__) static u_char *boot1; #endif #if defined(__i386__) || defined(__amd64__) static u_char *boot2; #endif if (!devs[i]->enabled) continue; #if defined(__i386__) || defined(__amd64__) if (!boot1) boot1 = bootalloc("boot1", NULL); if (!boot2) boot2 = bootalloc("boot2", NULL); Set_Boot_Blocks(d, boot1, boot2); #elif !defined(__ia64__) if (!boot1) boot1 = bootalloc("boot1", NULL); Set_Boot_Blocks(d, boot1, NULL); #endif msgNotify("Writing partition information to drive %s", d->name); if (!Fake && Write_Disk(d)) { if (RunningAsInit) { msgConfirm("ERROR: Unable to write data to disk %s!", d->name); } else { msgConfirm("ERROR: Unable to write data to disk %s!\n\n" "To edit the labels on a running system set\n" "sysctl kern.geom.debugflags=16 and try again.", d->name); } return DITEM_FAILURE; } } /* Now it's not "yes", but "written" */ variable_set2(DISK_PARTITIONED, "written", 0); return DITEM_SUCCESS | DITEM_RESTORE; } #ifdef WITH_SLICES /* Partition a disk based wholly on which variables are set */ static void diskPartitionNonInteractive(Device *dev) { char *cp; int i, all_disk = 0; daddr_t size; long double dsize; #ifdef PC98 u_char *bootipl; size_t bootipl_size; u_char *bootmenu; size_t bootmenu_size; #else u_char *mbrContents; size_t mbrSize; #endif Disk *d = (Disk *)dev->private; record_chunks(d); cp = variable_get(VAR_GEOMETRY); if (cp) { if (!strcasecmp(cp, "sane")) { #ifdef PC98 if (d->bios_cyl >= 65536 || d->bios_hd > 256 || d->bios_sect >= 256) #else if (d->bios_cyl > 65536 || d->bios_hd > 256 || d->bios_sect >= 64) #endif { msgDebug("Warning: A geometry of %lu/%lu/%lu for %s is incorrect.\n", d->bios_cyl, d->bios_hd, d->bios_sect, d->name); Sanitize_Bios_Geom(d); msgDebug("Sanitized geometry for %s is %lu/%lu/%lu.\n", d->name, d->bios_cyl, d->bios_hd, d->bios_sect); } } else { msgDebug("Setting geometry from script to: %s\n", cp); d->bios_cyl = strtol(cp, &cp, 0); d->bios_hd = strtol(cp + 1, &cp, 0); d->bios_sect = strtol(cp + 1, 0, 0); } } cp = variable_get(VAR_PARTITION); if (cp) { if (!strcmp(cp, "free")) { /* Do free disk space case */ for (i = 0; chunk_info[i]; i++) { /* If a chunk is at least 10MB in size, use it. */ if (chunk_info[i]->type == unused && chunk_info[i]->size > (10 * ONE_MEG)) { Create_Chunk(d, chunk_info[i]->offset, chunk_info[i]->size, freebsd, SUBTYPE_FREEBSD, (chunk_info[i]->flags & CHUNK_ALIGN), "FreeBSD"); variable_set2(DISK_PARTITIONED, "yes", 0); break; } } if (!chunk_info[i]) { msgConfirm("Unable to find any free space on this disk!"); return; } } else if (!strcmp(cp, "all")) { /* Do all disk space case */ msgDebug("Warning: Devoting all of disk %s to FreeBSD.\n", d->name); All_FreeBSD(d, FALSE); } else if (!strcmp(cp, "exclusive")) { /* Do really-all-the-disk-space case */ msgDebug("Warning: Devoting all of disk %s to FreeBSD.\n", d->name); All_FreeBSD(d, all_disk = TRUE); } else if ((dsize = strtold(cp, &cp))) { if (*cp && toupper(*cp) == 'M') size *= (daddr_t) (dsize * ONE_MEG); else if (*cp && toupper(*cp) == 'G') size = (daddr_t) (dsize * ONE_GIG); else size = (daddr_t) dsize; /* Look for size bytes free */ for (i = 0; chunk_info[i]; i++) { /* If a chunk is at least sz MB, use it. */ if (chunk_info[i]->type == unused && chunk_info[i]->size >= size) { Create_Chunk(d, chunk_info[i]->offset, size, freebsd, SUBTYPE_FREEBSD, (chunk_info[i]->flags & CHUNK_ALIGN), "FreeBSD"); variable_set2(DISK_PARTITIONED, "yes", 0); break; } } if (!chunk_info[i]) { msgConfirm("Unable to find %jd free blocks on this disk!", (intmax_t)size); return; } } else if (!strcmp(cp, "existing")) { /* Do existing FreeBSD case */ for (i = 0; chunk_info[i]; i++) { if (chunk_info[i]->type == freebsd) break; } if (!chunk_info[i]) { msgConfirm("Unable to find any existing FreeBSD partitions on this disk!"); return; } } else { msgConfirm("`%s' is an invalid value for %s - is config file valid?", cp, VAR_PARTITION); return; } if (!all_disk) { #ifdef PC98 getBootMgr(d->name, &bootipl, &bootipl_size, &bootmenu, &bootmenu_size); Set_Boot_Mgr(d, bootipl, bootipl_size, bootmenu, bootmenu_size); #else getBootMgr(d->name, &mbrContents, &mbrSize); Set_Boot_Mgr(d, mbrContents, mbrSize); #endif } variable_set2(DISK_PARTITIONED, "yes", 0); } } #endif /* WITH_SLICES */