/* $NetBSD: md.c,v 1.35 2022/02/10 16:11:42 martin Exp $ */ /* * Copyright 1997 Piermont Information Systems Inc. * All rights reserved. * * Based on code written by Philip A. Nelson for Piermont Information * Systems Inc. * * 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 Piermont Information Systems Inc. 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. */ /* md.c -- i386 machine specific routines - also used by amd64 */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "defs.h" #include "md.h" #include "endian.h" #include "msg_defs.h" #include "menu_defs.h" #ifdef NO_LBA_READS /* for testing */ #undef BIFLAG_EXTINT13 #define BIFLAG_EXTINT13 0 #endif static struct biosdisk_info *biosdisk = NULL; static bool uefi_boot; /* prototypes */ static bool get_bios_info(const char*, struct disk_partitions*, int*, int*, int*); static int mbr_root_above_chs(daddr_t); static int md_read_bootcode(const char *, struct mbr_sector *); static unsigned int get_bootmodel(void); static int conmib[] = { CTL_MACHDEP, CPU_CONSDEV }; #define BOOT_PART (128*(MEG/512)) #define BOOT_PART_TYPE PT_EFI_SYSTEM static const char * uefi_bootloaders[] = { "/usr/mdec/bootia32.efi", "/usr/mdec/bootx64.efi", }; void md_init(void) { char boot_method[100]; size_t len; len = sizeof(boot_method); if (sysctlbyname("machdep.bootmethod", boot_method, &len, NULL, 0) != -1) { if (strcmp(boot_method, "BIOS") == 0) uefi_boot = false; else if (strcmp(boot_method, "UEFI") == 0) uefi_boot = true; } } void md_init_set_status(int flags) { (void)flags; /* Default to install same type of kernel as we are running */ set_kernel_set(get_bootmodel()); } bool md_get_info(struct install_partition_desc *install) { int bcyl = 0, bhead = 0, bsec = 0, res; if (pm->no_mbr || pm->no_part) return true; again: if (pm->parts == NULL) { const struct disk_partitioning_scheme *ps = select_part_scheme(pm, NULL, true, NULL); if (!ps) return false; struct disk_partitions *parts = (*ps->create_new_for_disk)(pm->diskdev, 0, pm->dlsize, true, NULL); if (!parts) return false; pm->parts = parts; if (ps->size_limit > 0 && pm->dlsize > ps->size_limit) pm->dlsize = ps->size_limit; } if (get_bios_info(pm->diskdev, pm->parts, &bcyl, &bhead, &bsec) && pm->parts->pscheme->change_disk_geom != NULL) pm->parts->pscheme->change_disk_geom(pm->parts, bcyl, bhead, bsec); else set_default_sizemult(pm->diskdev, MEG, pm->sectorsize); /* * If the selected scheme does not need two-stage partitioning * (like GPT), do not bother to edit the outer partitions. */ if (pm->parts->pscheme->secondary_partitions == NULL || pm->parts->pscheme->secondary_scheme == NULL) return true; if (pm->no_mbr || pm->no_part) return true; res = edit_outer_parts(pm->parts); if (res == 0) return false; else if (res == 1) return true; pm->parts->pscheme->destroy_part_scheme(pm->parts); pm->parts = NULL; goto again; } /* * md back-end code for menu-driven BSD disklabel editor. */ int md_make_bsd_partitions(struct install_partition_desc *install) { return make_bsd_partitions(install); } /* * any additional partition validation */ bool md_check_partitions(struct install_partition_desc *install) { int rval; char *bootxx; /* if booting via UEFI no boot blocks are needed */ if (uefi_boot) return true; /* check we have boot code for the root partition type */ bootxx = bootxx_name(install); rval = access(bootxx, R_OK); free(bootxx); if (rval == 0) return true; process_menu(MENU_ok, __UNCONST(MSG_No_Bootcode)); return false; } /* * hook called before writing new disklabel. */ bool md_pre_disklabel(struct install_partition_desc *install, struct disk_partitions *parts) { if (parts->parent == NULL) return true; /* no outer partitions */ parts = parts->parent; msg_display_subst(MSG_dofdisk, 3, parts->disk, msg_string(parts->pscheme->name), msg_string(parts->pscheme->short_name)); /* write edited "MBR" onto disk. */ if (!parts->pscheme->write_to_disk(parts)) { msg_display(MSG_wmbrfail); process_menu(MENU_ok, NULL); return false; } return true; } /* * hook called after writing disklabel to new target disk. */ bool md_post_disklabel(struct install_partition_desc *install, struct disk_partitions *parts) { return true; } /* * Do all legacy bootblock update/setup here */ static int update_bios_boot(struct install_partition_desc *install, bool use_target_files) { int ret; size_t len; char boot_options[1024]; char *bootxx_filename, *p; /* * XXX - this code retains a lot of cruft from when we went * to great pains to exclude installboot from the ramdisk * for size reasons and should be rewritten. */ static const char *consoles[]={ "pc", /* CONSDEV_PC */ "com0", /* CONSDEV_COM0 */ "com1", /* CONSDEV_COM1 */ "com2", /* CONSDEV_COM2 */ "com3", /* CONSDEV_COM3 */ "com0kbd", /* CONSDEV_COM0KBD */ "com1kbd", /* CONSDEV_COM1KBD */ "com2kbd", /* CONSDEV_COM2KBD */ "com3kbd" /* CONSDEV_COM3KBD */ }; static struct x86_boot_params boottype = {sizeof boottype, 0, 5, 0, 9600, { '\0' }, "", 0}; struct termios t; dev_t condev; if (pm == NULL || !pm->no_part) { /* * Get console device, should either be ttyE0 or tty0n. * Too hard to double check, so just 'know' the device numbers. */ len = sizeof condev; if (sysctl(conmib, __arraycount(conmib), &condev, &len, NULL, 0) != -1 && (condev & ~3) == 0x800) { /* Motherboard serial port */ boottype.bp_consdev = (condev & 3) + 1; /* Defaulting the baud rate to that of stdin should suffice */ if (tcgetattr(0, &t) != -1) boottype.bp_conspeed = t.c_ispeed; } process_menu(MENU_getboottype, &boottype); msg_fmt_display(MSG_dobootblks, "%s", pm->diskdev); if (boottype.bp_consdev == ~0u) /* Use existing bootblocks */ return 0; } if (use_target_files) ret = cp_within_target("/usr/mdec/boot", "/", 0); else ret = cp_to_target("/usr/mdec/boot", "/"); if (ret) return ret; if (pm && pm->no_part) return 0; p = bootxx_name(install); if (p && use_target_files) { bootxx_filename = strdup(target_expand(p)); free(p); } else { bootxx_filename = p; } if (bootxx_filename != NULL) { char rdev[PATH_MAX]; install->infos[0].parts->pscheme->get_part_device( install->infos[0].parts, install->infos[0].cur_part_id, rdev, sizeof rdev, NULL, raw_dev_name, true, true); snprintf(boot_options, sizeof boot_options, "console=%s,speed=%u", consoles[boottype.bp_consdev], boottype.bp_conspeed); ret = run_program(RUN_DISPLAY, "/usr/sbin/installboot -f -o %s %s %s", boot_options, rdev, bootxx_filename); free(bootxx_filename); } else { ret = -1; } if (ret != 0) process_menu(MENU_ok, __UNCONST("Warning: disk is probably not bootable")); return ret; } static int md_post_newfs_bios(struct install_partition_desc *install) { return update_bios_boot(install, false); } /* * Make sure our bootloader(s) are in the proper directory in the boot * boot partition (or update them). */ static int copy_uefi_boot(const struct part_usage_info *boot, bool target_is_populated) { char dev[MAXPATHLEN], path[MAXPATHLEN], src[MAXPATHLEN]; const char *s; size_t i; int err; if (!boot->parts->pscheme->get_part_device(boot->parts, boot->cur_part_id, dev, sizeof(dev), NULL, plain_name, true, true)) return -1; /* * We should have a valid file system on that partition. * Try to mount it and check if there is a /EFI in there. */ if (boot->mount[0]) strlcpy(path, boot->mount, sizeof(path)); else strcpy(path, "/mnt"); if (!(boot->instflags & PUIINST_MOUNT)) { make_target_dir(path); err = target_mount("", dev, path); if (err != 0) return err; } strlcat(path, "/EFI/boot", sizeof(path)); make_target_dir(path); for (i = 0; i < __arraycount(uefi_bootloaders); i++) { s = uefi_bootloaders[i]; strcpy(src, target_is_populated ? target_expand(s) : s); if (access(src, R_OK) != 0) continue; err = target_is_populated ? cp_within_target(s, path, 0) : cp_to_target(s, path); if (err) return err; } if (boot->mount[0] == 0) target_unmount("/mnt"); return 0; } /* * Find (U)EFI boot partition and install/update bootloaders */ static int update_uefi_boot_code(struct install_partition_desc *install, bool target_is_populated) { size_t i, boot_part; boot_part = ~0U; for (i = 0; i < install->num; i++) { if (!(install->infos[i].instflags & PUIINST_BOOT)) continue; boot_part = i; break; } if (boot_part == ~0U) { /* * Didn't find an explicitly marked boot partition, * check if we have any EFI System Partitions and * use the first. */ for (i = 0; i < install->num; i++) { if (install->infos[i].type != PT_EFI_SYSTEM) continue; boot_part = i; break; } } if (boot_part < install->num) return copy_uefi_boot(&install->infos[boot_part], target_is_populated); return -1; /* no EFI boot partition found */ } /* * Find bootloader options and update bootloader */ static int update_bios_boot_code(struct install_partition_desc *install) { return update_bios_boot(install, true); } static int update_boot_code(struct install_partition_desc *install, bool target_is_populated) { return uefi_boot ? update_uefi_boot_code(install, target_is_populated) : update_bios_boot_code(install); } static int md_post_newfs_uefi(struct install_partition_desc *install) { return update_uefi_boot_code(install, false); } /* * hook called after upgrade() or install() has finished setting * up the target disk but immediately before the user is given the * ``disks are now set up'' message. */ int md_post_newfs(struct install_partition_desc *install) { return uefi_boot ? md_post_newfs_uefi(install) : md_post_newfs_bios(install); } int md_post_extract(struct install_partition_desc *install, bool upgrade) { if (upgrade) update_boot_code(install, true); #if defined(__amd64__) if (get_kernel_set() == SET_KERNEL_2) { int ret; ret = cp_within_target("/usr/mdec/prekern", "/prekern", 0); if (ret) return ret; } #endif return 0; } void md_cleanup_install(struct install_partition_desc *install) { size_t len; dev_t condev; #ifndef DEBUG enable_rc_conf(); add_rc_conf("wscons=YES\n"); # if defined(__i386__) && defined(SET_KERNEL_TINY) /* * For GENERIC_TINY, do not enable any extra screens or wsmux. * Otherwise, run getty on 4 VTs. */ if (get_kernel_set() == SET_KERNEL_TINY) run_program(RUN_CHROOT, "sed -an -e '/^screen/s/^/#/;/^mux/s/^/#/;" "H;$!d;g;w /etc/wscons.conf' /etc/wscons.conf"); else # endif run_program(RUN_CHROOT, "sed -an -e '/^ttyE[1-9]/s/off/on/;" "H;$!d;g;w /etc/ttys' /etc/ttys"); #endif /* * Get console device, should either be ttyE0 or tty0n. * Too hard to double check, so just 'know' the device numbers. */ len = sizeof condev; if (sysctl(conmib, __arraycount(conmib), &condev, &len, NULL, 0) != -1 && (condev & ~3) != 0x800) { /* * Current console is not com*, assume ttyE*. * Modify /etc/ttys to use wsvt25 for all ports. */ run_program(RUN_CHROOT, "sed -an -e 's/vt100/wsvt25/g;" "H;$!d;g;w /etc/ttys' /etc/ttys"); } } int md_pre_update(struct install_partition_desc *install) { return 1; } /* Upgrade support */ int md_update(struct install_partition_desc *install) { return 1; } int md_check_mbr(struct disk_partitions *parts, mbr_info_t *mbri, bool quiet) { mbr_info_t *ext; struct mbr_partition *p; const char *bootcode; daddr_t inst_start, inst_size; int i, names, fl, ofl; #define ACTIVE_FOUND 0x0100 #define NETBSD_ACTIVE 0x0200 #define NETBSD_NAMED 0x0400 #define ACTIVE_NAMED 0x0800 root_limit = 0; if (parts->pscheme->guess_install_target == NULL || !parts->pscheme->guess_install_target(parts, &inst_start, &inst_size)) { inst_start = parts->disk_start; inst_size = parts->disk_size; } if (biosdisk != NULL && (biosdisk->bi_flags & BIFLAG_EXTINT13) == 0) { if (mbr_root_above_chs(inst_start)) { if (quiet) return 0; msg_display(MSG_partabovechs); if (!ask_noyes(NULL)) return 1; /* The user is shooting themselves in the foot here...*/ } else { if (parts->pscheme->size_limit) root_limit = min(parts->pscheme->size_limit, parts->disk_size); else root_limit = parts->disk_size; } } /* * Ensure the install partition (at sector inst_start) and the active * partition are bootable. * Determine whether the bootselect code is needed. * Note that MBR_BS_NEWMBR is always set, so we ignore it! */ fl = 0; names = 0; for (ext = mbri; ext != NULL; ext = ext->extended) { p = ext->mbr.mbr_parts; for (i = 0; i < MBR_PART_COUNT; p++, i++) { if (p->mbrp_flag == MBR_PFLAG_ACTIVE) { fl |= ACTIVE_FOUND; if (ext->sector + p->mbrp_start == inst_start) fl |= NETBSD_ACTIVE; } if (ext->mbrb.mbrbs_nametab[i][0] == 0) { /* No bootmenu label... */ if (ext->sector == 0) continue; if (ext->sector + p->mbrp_start == inst_start) /* * Have installed into an extended ptn * force name & bootsel... */ names++; continue; } /* Partition has a bootmenu label... */ if (ext->sector != 0) fl |= MBR_BS_EXTLBA; if (ext->sector + p->mbrp_start == inst_start) fl |= NETBSD_NAMED; else if (p->mbrp_flag == MBR_PFLAG_ACTIVE) fl |= ACTIVE_NAMED; else names++; } } if (!(fl & ACTIVE_FOUND)) fl |= NETBSD_ACTIVE; if (fl & NETBSD_NAMED && fl & NETBSD_ACTIVE) fl |= ACTIVE_NAMED; if ((names > 0 || !(fl & NETBSD_ACTIVE)) && (!(fl & NETBSD_NAMED) || !(fl & ACTIVE_NAMED))) { /* * There appear to be multiple bootable partitions, but they * don't all have bootmenu texts. */ if (quiet) return 0; msg_display(MSG_missing_bootmenu_text); if (ask_yesno(NULL)) return 1; } if ((fl & MBR_BS_EXTLBA) && (biosdisk == NULL || !(biosdisk->bi_flags & BIFLAG_EXTINT13))) { /* Need unsupported LBA reads to read boot sectors */ if (quiet) return 0; msg_display(MSG_no_extended_bootmenu); if (!ask_noyes(NULL)) return 1; } /* Sort out the name of the mbr code we need */ if (names > 1 || (parts->num_part > 1 && (fl & (NETBSD_NAMED | ACTIVE_NAMED)))) { /* Need bootselect code */ fl |= MBR_BS_ACTIVE; bootcode = fl & MBR_BS_EXTLBA ? _PATH_BOOTEXT : _PATH_BOOTSEL; } else { bootcode = _PATH_MBR; } fl &= MBR_BS_ACTIVE | MBR_BS_EXTLBA; /* Look at what is installed */ ofl = mbri->mbrb.mbrbs_flags; if (ofl == 0) { /* Check there is some bootcode at all... */ if (mbri->mbr.mbr_magic != htole16(MBR_MAGIC) || mbri->mbr.mbr_jmpboot[0] == 0 || mbr_root_above_chs(inst_start)) /* Existing won't do, force update */ fl |= MBR_BS_NEWMBR; } ofl = mbri->oflags & (MBR_BS_ACTIVE | MBR_BS_EXTLBA); if (!quiet) { if (fl & ~ofl || (fl == 0 && ofl & MBR_BS_ACTIVE)) { /* Existing boot code isn't the right one... */ if (fl & MBR_BS_ACTIVE) msg_display(MSG_installbootsel); else msg_display(MSG_installmbr); } else /* Existing code would (probably) be ok */ msg_display(MSG_updatembr); if (!ask_yesno(NULL)) /* User doesn't want to update mbr code */ return 2; } if (md_read_bootcode(bootcode, &mbri->mbr) == 0) /* update suceeded - to memory copy */ return 2; /* This shouldn't happen since the files are in the floppy fs... */ msg_fmt_display("Can't find %s", "%s", bootcode); return ask_reedit(parts); } bool md_parts_use_wholedisk(struct disk_partitions *parts) { struct disk_part_info boot_part = { .size = BOOT_PART, .fs_type = FS_MSDOS, .fs_sub_type = MBR_PTYPE_FAT32L, }; if (!uefi_boot) return parts_use_wholedisk(parts, 0, NULL); boot_part.nat_type = parts->pscheme->get_generic_part_type( PT_EFI_SYSTEM); return parts_use_wholedisk(parts, 1, &boot_part); } static bool get_bios_info(const char *dev, struct disk_partitions *parts, int *bcyl, int *bhead, int *bsec) { static struct disklist *disklist = NULL; static int mib[2] = {CTL_MACHDEP, CPU_DISKINFO}; int i; size_t len; struct biosdisk_info *bip; struct nativedisk_info *nip = NULL, *nat; int cyl, head, sec; if (disklist == NULL) { if (sysctl(mib, 2, NULL, &len, NULL, 0) < 0) goto nogeom; disklist = malloc(len); if (disklist == NULL) { fprintf(stderr, "Out of memory\n"); return false; } sysctl(mib, 2, disklist, &len, NULL, 0); } for (i = 0; i < disklist->dl_nnativedisks; i++) { nat = &disklist->dl_nativedisks[i]; if (!strcmp(dev, nat->ni_devname)) { nip = nat; break; } } if (nip == NULL || nip->ni_nmatches == 0) { nogeom: if (nip != NULL) msg_fmt_display(MSG_nobiosgeom, "%d%d%d", pm->dlcyl, pm->dlhead, pm->dlsec); if (guess_biosgeom_from_parts(parts, &cyl, &head, &sec) >= 0 && nip != NULL) { msg_fmt_display_add(MSG_biosguess, "%d%d%d", cyl, head, sec); } biosdisk = NULL; } else { guess_biosgeom_from_parts(parts, &cyl, &head, &sec); if (nip->ni_nmatches == 1) { bip = &disklist->dl_biosdisks[nip->ni_biosmatches[0]]; msg_display(MSG_onebiosmatch); msg_table_add(MSG_onebiosmatch_header); msg_fmt_table_add(MSG_onebiosmatch_row, "%d%d%d%d%u%u", bip->bi_dev, bip->bi_cyl, bip->bi_head, bip->bi_sec, (unsigned)bip->bi_lbasecs, (unsigned)(bip->bi_lbasecs / (1000000000 / 512))); msg_display_add(MSG_biosgeom_advise); biosdisk = bip; process_menu(MENU_biosonematch, &biosdisk); } else { msg_display(MSG_biosmultmatch); msg_table_add(MSG_biosmultmatch_header); for (i = 0; i < nip->ni_nmatches; i++) { bip = &disklist->dl_biosdisks[ nip->ni_biosmatches[i]]; msg_fmt_table_add(MSG_biosmultmatch_row, "%d%d%d%d%d%u%u", i, bip->bi_dev, bip->bi_cyl, bip->bi_head, bip->bi_sec, (unsigned)bip->bi_lbasecs, (unsigned)bip->bi_lbasecs/(1000000000/512)); } process_menu(MENU_biosmultmatch, &i); if (i == -1) biosdisk = NULL; else biosdisk = &disklist->dl_biosdisks[ nip->ni_biosmatches[i]]; } } if (biosdisk == NULL) { *bcyl = cyl; *bhead = head; *bsec = sec; if (nip != NULL) set_bios_geom(parts, bcyl, bhead, bsec); } else { *bcyl = biosdisk->bi_cyl; *bhead = biosdisk->bi_head; *bsec = biosdisk->bi_sec; } return true; } static int mbr_root_above_chs(daddr_t ptstart) { return ptstart + (daddr_t)DEFROOTSIZE * (daddr_t)(MEG / 512) >= pm->max_chs; } /* returns false if no write-back of parts is required */ bool md_mbr_update_check(struct disk_partitions *parts, mbr_info_t *mbri) { struct mbr_partition *mbrp; int i, netbsdpart = -1, oldbsdpart = -1, oldbsdcount = 0; if (pm->no_mbr || pm->no_part) return false; mbrp = &mbri->mbr.mbr_parts[0]; for (i = 0; i < MBR_PART_COUNT; i++) { if (mbrp[i].mbrp_type == MBR_PTYPE_386BSD) { oldbsdpart = i; oldbsdcount++; } else if (mbrp[i].mbrp_type == MBR_PTYPE_NETBSD) netbsdpart = i; } if (netbsdpart == -1 && oldbsdcount == 1) { mbrp[oldbsdpart].mbrp_type = MBR_PTYPE_NETBSD; return true; } return false; } /* * Read MBR code from a file. * The existing partition table and bootselect configuration is kept. */ static int md_read_bootcode(const char *path, struct mbr_sector *mbrs) { int fd; struct stat st; size_t len; struct mbr_sector new_mbr; uint32_t dsn; fd = open(path, O_RDONLY); if (fd < 0) return -1; if (fstat(fd, &st) < 0 || st.st_size != sizeof *mbrs) { close(fd); return -1; } if (read(fd, &new_mbr, sizeof new_mbr) != sizeof new_mbr) { close(fd); return -1; } close(fd); if (new_mbr.mbr_bootsel_magic != htole16(MBR_BS_MAGIC)) return -1; if (mbrs->mbr_bootsel_magic == htole16(MBR_BS_MAGIC)) { len = offsetof(struct mbr_sector, mbr_bootsel); } else len = offsetof(struct mbr_sector, mbr_parts); /* Preserve the 'drive serial number' - especially for Vista */ dsn = mbrs->mbr_dsn; memcpy(mbrs, &new_mbr, len); mbrs->mbr_dsn = dsn; /* Keep flags from object file - indicate the properties */ mbrs->mbr_bootsel.mbrbs_flags = new_mbr.mbr_bootsel.mbrbs_flags; mbrs->mbr_magic = htole16(MBR_MAGIC); return 0; } static unsigned int get_bootmodel(void) { #if defined(__i386__) struct utsname ut; #ifdef DEBUG char *envstr; envstr = getenv("BOOTMODEL"); if (envstr != NULL) return atoi(envstr); #endif if (uname(&ut) < 0) ut.version[0] = 0; #if defined(SET_KERNEL_TINY) if (strstr(ut.version, "TINY") != NULL) return SET_KERNEL_TINY; #endif #if defined(SET_KERNEL_PS2) if (strstr(ut.version, "PS2") != NULL) return SET_KERNEL_PS2; #endif #endif return SET_KERNEL_GENERIC; } int md_pre_mount(struct install_partition_desc *install, size_t ndx) { return 0; } #ifdef HAVE_GPT /* * New GPT partitions have been written, update bootloader or remember * data untill needed in md_post_newfs */ bool md_gpt_post_write(struct disk_partitions *parts, part_id root_id, bool root_is_new, part_id efi_id, bool efi_is_new) { struct disk_part_info info; if (root_id != NO_PART) { /* we always update the gpt boot record for now */ if (!parts->pscheme->get_part_info(parts, root_id, &info)) return false; if (run_program(RUN_SILENT, "gpt biosboot -b %" PRIu64 " %s", info.start, parts->disk) != 0) return false; } return true; } #endif /* * When we do an UEFI install, we have completely different default * partitions and need to adjust the description at runtime. */ void x86_md_part_defaults(struct pm_devs *cur_pm, struct part_usage_info **partsp, size_t *num_usage_infos) { static const struct part_usage_info uefi_boot_part = { .size = BOOT_PART, .type = BOOT_PART_TYPE, .instflags = PUIINST_NEWFS|PUIINST_BOOT, .fs_type = FS_MSDOS, .fs_version = MBR_PTYPE_FAT32L, .flags = PUIFLAG_ADD_OUTER, }; struct disk_partitions *parts; struct part_usage_info *new_usage, *boot; struct disk_part_info info; size_t num; part_id pno; if (!uefi_boot) return; /* legacy defaults apply */ /* * Insert a UEFI boot partition at the beginning of the array */ /* create space for new description */ num = *num_usage_infos + 1; new_usage = realloc(*partsp, sizeof(*new_usage)*num); if (new_usage == NULL) return; *partsp = new_usage; *num_usage_infos = num; boot = new_usage; memmove(boot+1, boot, sizeof(*boot)*(num-1)); *boot = uefi_boot_part; /* * Check if the UEFI partition already exists */ parts = pm->parts; if (parts->parent != NULL) parts = parts->parent; for (pno = 0; pno < parts->num_part; pno++) { if (!parts->pscheme->get_part_info(parts, pno, &info)) continue; if (info.nat_type->generic_ptype != boot->type) continue; boot->flags &= ~PUIFLAG_ADD_OUTER; boot->flags |= PUIFLG_IS_OUTER|PUIFLG_ADD_INNER; boot->size = info.size; boot->cur_start = info.start; boot->cur_flags = info.flags; break; } } /* no need to install bootblock if installing for UEFI */ bool x86_md_need_bootblock(struct install_partition_desc *install) { return !uefi_boot; }