/* * GRUB -- GRand Unified Bootloader * Copyright (C) 2006,2007,2008 Free Software Foundation, Inc. * * GRUB is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * GRUB is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GRUB. If not, see . */ #include #include #include #include #include #include #include #include #include #include struct grub_efidisk_data { grub_efi_handle_t handle; grub_efi_device_path_t *device_path; grub_efi_device_path_t *last_device_path; grub_efi_block_io_t *block_io; struct grub_efidisk_data *next; }; /* GUID. */ static grub_efi_guid_t block_io_guid = GRUB_EFI_BLOCK_IO_GUID; static struct grub_efidisk_data *fd_devices; static struct grub_efidisk_data *hd_devices; static struct grub_efidisk_data *cd_devices; /* Duplicate a device path. */ static grub_efi_device_path_t * duplicate_device_path (const grub_efi_device_path_t *dp) { grub_efi_device_path_t *p; grub_size_t total_size = 0; for (p = (grub_efi_device_path_t *) dp; ; p = GRUB_EFI_NEXT_DEVICE_PATH (p)) { total_size += GRUB_EFI_DEVICE_PATH_LENGTH (p); if (GRUB_EFI_END_ENTIRE_DEVICE_PATH (p)) break; } p = grub_malloc (total_size); if (! p) return 0; grub_memcpy (p, dp, total_size); return p; } /* Return the device path node right before the end node. */ static grub_efi_device_path_t * find_last_device_path (const grub_efi_device_path_t *dp) { grub_efi_device_path_t *next, *p; if (GRUB_EFI_END_ENTIRE_DEVICE_PATH (dp)) return 0; for (p = (grub_efi_device_path_t *) dp, next = GRUB_EFI_NEXT_DEVICE_PATH (p); ! GRUB_EFI_END_ENTIRE_DEVICE_PATH (next); p = next, next = GRUB_EFI_NEXT_DEVICE_PATH (next)) ; return p; } static struct grub_efidisk_data * make_devices (void) { grub_efi_uintn_t num_handles; grub_efi_handle_t *handles; grub_efi_handle_t *handle; struct grub_efidisk_data *devices = 0; /* Find handles which support the disk io interface. */ handles = grub_efi_locate_handle (GRUB_EFI_BY_PROTOCOL, &block_io_guid, 0, &num_handles); if (! handles) return 0; /* Make a linked list of devices. */ for (handle = handles; num_handles--; handle++) { grub_efi_device_path_t *dp; grub_efi_device_path_t *ldp; struct grub_efidisk_data *d; grub_efi_block_io_t *bio; dp = grub_efi_get_device_path (*handle); if (! dp) continue; ldp = find_last_device_path (dp); if (! ldp) /* This is empty. Why? */ continue; bio = grub_efi_open_protocol (*handle, &block_io_guid, GRUB_EFI_OPEN_PROTOCOL_GET_PROTOCOL); if (! bio) /* This should not happen... Why? */ continue; d = grub_malloc (sizeof (*d)); if (! d) { /* Uggh. */ grub_free (handles); return 0; } d->handle = *handle; d->device_path = dp; d->last_device_path = ldp; d->block_io = bio; d->next = devices; devices = d; } grub_free (handles); return devices; } /* Find the parent device. */ static struct grub_efidisk_data * find_parent_device (struct grub_efidisk_data *devices, struct grub_efidisk_data *d) { grub_efi_device_path_t *dp, *ldp; struct grub_efidisk_data *parent; dp = duplicate_device_path (d->device_path); if (! dp) return 0; ldp = find_last_device_path (dp); ldp->type = GRUB_EFI_END_DEVICE_PATH_TYPE; ldp->subtype = GRUB_EFI_END_ENTIRE_DEVICE_PATH_SUBTYPE; ldp->length[0] = sizeof (*ldp); ldp->length[1] = 0; for (parent = devices; parent; parent = parent->next) { /* Ignore itself. */ if (parent == d) continue; if (grub_efi_compare_device_paths (parent->device_path, dp) == 0) break; } grub_free (dp); return parent; } static int iterate_child_devices (struct grub_efidisk_data *devices, struct grub_efidisk_data *d, int (*hook) (struct grub_efidisk_data *child)) { struct grub_efidisk_data *p; for (p = devices; p; p = p->next) { grub_efi_device_path_t *dp, *ldp; dp = duplicate_device_path (p->device_path); if (! dp) return 0; ldp = find_last_device_path (dp); ldp->type = GRUB_EFI_END_DEVICE_PATH_TYPE; ldp->subtype = GRUB_EFI_END_ENTIRE_DEVICE_PATH_SUBTYPE; ldp->length[0] = sizeof (*ldp); ldp->length[1] = 0; if (grub_efi_compare_device_paths (dp, d->device_path) == 0) if (hook (p)) { grub_free (dp); return 1; } grub_free (dp); } return 0; } /* Add a device into a list of devices in an ascending order. */ static void add_device (struct grub_efidisk_data **devices, struct grub_efidisk_data *d) { struct grub_efidisk_data **p; struct grub_efidisk_data *n; for (p = devices; *p; p = &((*p)->next)) { int ret; ret = grub_efi_compare_device_paths (find_last_device_path ((*p)->device_path), find_last_device_path (d->device_path)); if (ret == 0) ret = grub_efi_compare_device_paths ((*p)->device_path, d->device_path); if (ret == 0) return; else if (ret > 0) break; } n = grub_malloc (sizeof (*n)); if (! n) return; grub_memcpy (n, d, sizeof (*n)); n->next = (*p); (*p) = n; } /* Name the devices. */ static void name_devices (struct grub_efidisk_data *devices) { struct grub_efidisk_data *d; /* First, identify devices by media device paths. */ for (d = devices; d; d = d->next) { grub_efi_device_path_t *dp; dp = d->last_device_path; if (! dp) continue; if (GRUB_EFI_DEVICE_PATH_TYPE (dp) == GRUB_EFI_MEDIA_DEVICE_PATH_TYPE) { int is_hard_drive = 0; switch (GRUB_EFI_DEVICE_PATH_SUBTYPE (dp)) { case GRUB_EFI_HARD_DRIVE_DEVICE_PATH_SUBTYPE: is_hard_drive = 1; /* Fall through by intention. */ case GRUB_EFI_CDROM_DEVICE_PATH_SUBTYPE: { struct grub_efidisk_data *parent, *parent2; parent = find_parent_device (devices, d); if (!parent) { #ifdef DEBUG_NAMES grub_printf ("skipping orphaned partition: "); grub_efi_print_device_path (d->device_path); #endif break; } parent2 = find_parent_device (devices, parent); if (parent2) { #ifdef DEBUG_NAMES grub_printf ("skipping subpartition: "); grub_efi_print_device_path (d->device_path); #endif /* Mark itself as used. */ d->last_device_path = 0; break; } if (!parent->last_device_path) { d->last_device_path = 0; break; } if (is_hard_drive) { #ifdef DEBUG_NAMES grub_printf ("adding a hard drive by a partition: "); grub_efi_print_device_path (parent->device_path); #endif add_device (&hd_devices, parent); } else { #ifdef DEBUG_NAMES grub_printf ("adding a cdrom by a partition: "); grub_efi_print_device_path (parent->device_path); #endif add_device (&cd_devices, parent); } /* Mark the parent as used. */ parent->last_device_path = 0; } /* Mark itself as used. */ d->last_device_path = 0; break; default: #ifdef DEBUG_NAMES grub_printf ("skipping other type: "); grub_efi_print_device_path (d->device_path); #endif /* For now, ignore the others. */ break; } } else { #ifdef DEBUG_NAMES grub_printf ("skipping non-media: "); grub_efi_print_device_path (d->device_path); #endif } } /* Let's see what can be added more. */ for (d = devices; d; d = d->next) { grub_efi_device_path_t *dp; grub_efi_block_io_media_t *m; dp = d->last_device_path; if (! dp) continue; m = d->block_io->media; if (m->logical_partition) { /* Only one partition in a non-media device. Assume that this is a floppy drive. */ #ifdef DEBUG_NAMES grub_printf ("adding a floppy by guessing: "); grub_efi_print_device_path (d->device_path); #endif add_device (&fd_devices, d); } else if (m->read_only && m->block_size > GRUB_DISK_SECTOR_SIZE) { /* This check is too heuristic, but assume that this is a CDROM drive. */ #ifdef DEBUG_NAMES grub_printf ("adding a cdrom by guessing: "); grub_efi_print_device_path (d->device_path); #endif add_device (&cd_devices, d); } else { /* The default is a hard drive. */ #ifdef DEBUG_NAMES grub_printf ("adding a hard drive by guessing: "); grub_efi_print_device_path (d->device_path); #endif add_device (&hd_devices, d); } } } static void free_devices (struct grub_efidisk_data *devices) { struct grub_efidisk_data *p, *q; for (p = devices; p; p = q) { q = p->next; grub_free (p); } } /* Enumerate all disks to name devices. */ static void enumerate_disks (void) { struct grub_efidisk_data *devices; devices = make_devices (); if (! devices) return; name_devices (devices); free_devices (devices); } static int grub_efidisk_iterate (grub_disk_dev_iterate_hook_t hook, void *hook_data, grub_disk_pull_t pull) { struct grub_efidisk_data *d; char buf[16]; int count; switch (pull) { case GRUB_DISK_PULL_NONE: for (d = hd_devices, count = 0; d; d = d->next, count++) { grub_snprintf (buf, sizeof (buf), "hd%d", count); grub_dprintf ("efidisk", "iterating %s\n", buf); if (hook (buf, hook_data)) return 1; } break; case GRUB_DISK_PULL_REMOVABLE: for (d = fd_devices, count = 0; d; d = d->next, count++) { grub_snprintf (buf, sizeof (buf), "fd%d", count); grub_dprintf ("efidisk", "iterating %s\n", buf); if (hook (buf, hook_data)) return 1; } for (d = cd_devices, count = 0; d; d = d->next, count++) { grub_snprintf (buf, sizeof (buf), "cd%d", count); grub_dprintf ("efidisk", "iterating %s\n", buf); if (hook (buf, hook_data)) return 1; } break; default: return 0; } return 0; } static int get_drive_number (const char *name) { unsigned long drive; if ((name[0] != 'f' && name[0] != 'h' && name[0] != 'c') || name[1] != 'd') goto fail; drive = grub_strtoul (name + 2, 0, 10); if (grub_errno != GRUB_ERR_NONE) goto fail; return (int) drive ; fail: grub_error (GRUB_ERR_UNKNOWN_DEVICE, "not a efidisk"); return -1; } static struct grub_efidisk_data * get_device (struct grub_efidisk_data *devices, int num) { struct grub_efidisk_data *d; for (d = devices; d && num; d = d->next, num--) ; if (num == 0) return d; return 0; } static grub_err_t grub_efidisk_open (const char *name, struct grub_disk *disk) { int num; struct grub_efidisk_data *d = 0; grub_efi_block_io_media_t *m; grub_dprintf ("efidisk", "opening %s\n", name); num = get_drive_number (name); if (num < 0) return grub_errno; switch (name[0]) { case 'f': d = get_device (fd_devices, num); break; case 'c': d = get_device (cd_devices, num); break; case 'h': d = get_device (hd_devices, num); break; default: /* Never reach here. */ break; } if (! d) return grub_error (GRUB_ERR_UNKNOWN_DEVICE, "no such device"); disk->id = ((num << 8) | name[0]); m = d->block_io->media; /* FIXME: Probably it is better to store the block size in the disk, and total sectors should be replaced with total blocks. */ grub_dprintf ("efidisk", "m = %p, last block = %llx, block size = %x\n", m, (unsigned long long) m->last_block, m->block_size); disk->total_sectors = m->last_block + 1; if (m->block_size & (m->block_size - 1) || !m->block_size) return grub_error (GRUB_ERR_IO, "invalid sector size %d", m->block_size); for (disk->log_sector_size = 0; (1U << disk->log_sector_size) < m->block_size; disk->log_sector_size++); disk->data = d; grub_dprintf ("efidisk", "opening %s succeeded\n", name); return GRUB_ERR_NONE; } static void grub_efidisk_close (struct grub_disk *disk __attribute__ ((unused))) { /* EFI disks do not allocate extra memory, so nothing to do here. */ grub_dprintf ("efidisk", "closing %s\n", disk->name); } static grub_err_t grub_efidisk_read (struct grub_disk *disk, grub_disk_addr_t sector, grub_size_t size, char *buf) { /* For now, use the disk io interface rather than the block io's. */ struct grub_efidisk_data *d; grub_efi_block_io_t *bio; grub_efi_status_t status; d = disk->data; bio = d->block_io; grub_dprintf ("efidisk", "reading 0x%lx sectors at the sector 0x%llx from %s\n", (unsigned long) size, (unsigned long long) sector, disk->name); status = efi_call_5 (bio->read_blocks, bio, bio->media->media_id, (grub_efi_uint64_t) sector, (grub_efi_uintn_t) size << disk->log_sector_size, buf); if (status != GRUB_EFI_SUCCESS) return grub_error (GRUB_ERR_READ_ERROR, N_("failure reading sector 0x%llx from `%s'"), (unsigned long long) sector, disk->name); return GRUB_ERR_NONE; } static grub_err_t grub_efidisk_write (struct grub_disk *disk, grub_disk_addr_t sector, grub_size_t size, const char *buf) { /* For now, use the disk io interface rather than the block io's. */ struct grub_efidisk_data *d; grub_efi_block_io_t *bio; grub_efi_status_t status; d = disk->data; bio = d->block_io; grub_dprintf ("efidisk", "writing 0x%lx sectors at the sector 0x%llx to %s\n", (unsigned long) size, (unsigned long long) sector, disk->name); status = efi_call_5 (bio->write_blocks, bio, bio->media->media_id, (grub_efi_uint64_t) sector, (grub_efi_uintn_t) size << disk->log_sector_size, (void *) buf); if (status != GRUB_EFI_SUCCESS) return grub_error (GRUB_ERR_WRITE_ERROR, N_("failure writing sector 0x%llx to `%s'"), (unsigned long long) sector, disk->name); return GRUB_ERR_NONE; } static struct grub_disk_dev grub_efidisk_dev = { .name = "efidisk", .id = GRUB_DISK_DEVICE_EFIDISK_ID, .iterate = grub_efidisk_iterate, .open = grub_efidisk_open, .close = grub_efidisk_close, .read = grub_efidisk_read, .write = grub_efidisk_write, .next = 0 }; void grub_efidisk_init (void) { enumerate_disks (); grub_disk_dev_register (&grub_efidisk_dev); } void grub_efidisk_fini (void) { free_devices (fd_devices); free_devices (hd_devices); free_devices (cd_devices); grub_disk_dev_unregister (&grub_efidisk_dev); } /* Some utility functions to map GRUB devices with EFI devices. */ grub_efi_handle_t grub_efidisk_get_device_handle (grub_disk_t disk) { struct grub_efidisk_data *d; char type; if (disk->dev->id != GRUB_DISK_DEVICE_EFIDISK_ID) return 0; d = disk->data; type = disk->name[0]; switch (type) { case 'f': /* This is the simplest case. */ return d->handle; case 'c': /* FIXME: probably this is not correct. */ return d->handle; case 'h': /* If this is the whole disk, just return its own data. */ if (! disk->partition) return d->handle; /* Otherwise, we must query the corresponding device to the firmware. */ { struct grub_efidisk_data *devices; grub_efi_handle_t handle = 0; auto int find_partition (struct grub_efidisk_data *c); int find_partition (struct grub_efidisk_data *c) { grub_efi_hard_drive_device_path_t hd; grub_memcpy (&hd, c->last_device_path, sizeof (hd)); if ((GRUB_EFI_DEVICE_PATH_TYPE (c->last_device_path) == GRUB_EFI_MEDIA_DEVICE_PATH_TYPE) && (GRUB_EFI_DEVICE_PATH_SUBTYPE (c->last_device_path) == GRUB_EFI_HARD_DRIVE_DEVICE_PATH_SUBTYPE) && (grub_partition_get_start (disk->partition) == hd.partition_start) && (grub_partition_get_len (disk->partition) == hd.partition_size)) { handle = c->handle; return 1; } return 0; } devices = make_devices (); iterate_child_devices (devices, d, find_partition); free_devices (devices); if (handle != 0) return handle; } break; default: break; } return 0; } #define NEEDED_BUFLEN sizeof ("XdXXXXXXXXXX") static inline int get_diskname_from_path_real (const grub_efi_device_path_t *path, struct grub_efidisk_data *head, char *buf) { int count = 0; struct grub_efidisk_data *d; for (d = head, count = 0; d; d = d->next, count++) if (grub_efi_compare_device_paths (d->device_path, path) == 0) { grub_snprintf (buf, NEEDED_BUFLEN - 1, "d%d", count); return 1; } return 0; } static inline int get_diskname_from_path (const grub_efi_device_path_t *path, char *buf) { if (get_diskname_from_path_real (path, hd_devices, buf + 1)) { buf[0] = 'h'; return 1; } if (get_diskname_from_path_real (path, fd_devices, buf + 1)) { buf[0] = 'f'; return 1; } if (get_diskname_from_path_real (path, cd_devices, buf + 1)) { buf[0] = 'c'; return 1; } return 0; } /* Context for grub_efidisk_get_device_name. */ struct grub_efidisk_get_device_name_ctx { char *partition_name; grub_efi_hard_drive_device_path_t hd; }; /* Helper for grub_efidisk_get_device_name. Find the identical partition. */ static int grub_efidisk_get_device_name_iter (grub_disk_t disk __attribute__ ((unused)), const grub_partition_t part, void *data) { struct grub_efidisk_get_device_name_ctx *ctx = data; if (grub_partition_get_start (part) == ctx->hd.partition_start && grub_partition_get_len (part) == ctx->hd.partition_size) { ctx->partition_name = grub_partition_get_name (part); return 1; } return 0; } char * grub_efidisk_get_device_name (grub_efi_handle_t *handle) { grub_efi_device_path_t *dp, *ldp; char device_name[NEEDED_BUFLEN]; dp = grub_efi_get_device_path (handle); if (! dp) return 0; ldp = find_last_device_path (dp); if (! ldp) return 0; if (GRUB_EFI_DEVICE_PATH_TYPE (ldp) == GRUB_EFI_MEDIA_DEVICE_PATH_TYPE && (GRUB_EFI_DEVICE_PATH_SUBTYPE (ldp) == GRUB_EFI_HARD_DRIVE_DEVICE_PATH_SUBTYPE)) { struct grub_efidisk_get_device_name_ctx ctx; char *dev_name; grub_efi_device_path_t *dup_dp, *dup_ldp; grub_disk_t parent = 0; /* It is necessary to duplicate the device path so that GRUB can overwrite it. */ dup_dp = duplicate_device_path (dp); if (! dup_dp) return 0; dup_ldp = find_last_device_path (dup_dp); dup_ldp->type = GRUB_EFI_END_DEVICE_PATH_TYPE; dup_ldp->subtype = GRUB_EFI_END_ENTIRE_DEVICE_PATH_SUBTYPE; dup_ldp->length[0] = sizeof (*dup_ldp); dup_ldp->length[1] = 0; if (!get_diskname_from_path (dup_dp, device_name)) return 0; parent = grub_disk_open (device_name); grub_free (dup_dp); if (! parent) return 0; /* Find a partition which matches the hard drive device path. */ ctx.partition_name = NULL; grub_memcpy (&ctx.hd, ldp, sizeof (ctx.hd)); if (ctx.hd.partition_start == 0 && ctx.hd.partition_size == grub_disk_get_size (parent)) { dev_name = grub_strdup (parent->name); } else { grub_partition_iterate (parent, grub_efidisk_get_device_name_iter, &ctx); if (! ctx.partition_name) { grub_disk_close (parent); return 0; } dev_name = grub_xasprintf ("%s,%s", parent->name, ctx.partition_name); grub_free (ctx.partition_name); } grub_disk_close (parent); return dev_name; } else { /* This should be an entire disk. */ if (!get_diskname_from_path (dp, device_name)) return 0; return grub_strdup (device_name); } }