/* libs/diskconfig/diskconfig.c * * Copyright 2008, The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "config_mbr" #include <stdint.h> #include <stdlib.h> #include <string.h> #include <stdio.h> #include <cutils/log.h> #include "diskconfig.h" /* start and len are in LBA units */ static void cfg_pentry(struct pc_partition *pentry, uint8_t status, uint8_t type, uint32_t start, uint32_t len) { if (len > 0) { /* seems that somes BIOSens can get wedged on boot while verifying * the mbr if these are 0 */ memset(&pentry->start, 0xff, sizeof(struct chs)); memset(&pentry->end, 0xff, sizeof(struct chs)); } else { /* zero out the c/h/s entries.. they are not used */ memset(&pentry->start, 0, sizeof(struct chs)); memset(&pentry->end, 0, sizeof(struct chs)); } pentry->status = status; pentry->type = type; pentry->start_lba = start; pentry->len_lba = len; LOGI("Configuring pentry. status=0x%x type=0x%x start_lba=%u len_lba=%u", pentry->status, pentry->type, pentry->start_lba, pentry->len_lba); } static inline uint32_t kb_to_lba(uint32_t len_kb, uint32_t sect_size) { uint64_t lba; lba = (uint64_t)len_kb * 1024; /* bump it up to the next LBA boundary just in case */ lba = (lba + (uint64_t)sect_size - 1) & ~((uint64_t)sect_size - 1); lba /= (uint64_t)sect_size; if (lba >= 0xffffffffULL) LOGE("Error converting kb -> lba. 32bit overflow, expect weirdness"); return (uint32_t)(lba & 0xffffffffULL); } static struct write_list * mk_pri_pentry(struct disk_info *dinfo, struct part_info *pinfo, int pnum, uint32_t *lba) { struct write_list *item; struct pc_partition *pentry; if (pnum >= PC_NUM_BOOT_RECORD_PARTS) { LOGE("Maximum number of primary partition exceeded."); return NULL; } if (!(item = alloc_wl(sizeof(struct pc_partition)))) { LOGE("Unable to allocate memory for partition entry."); return NULL; } { /* DO NOT DEREFERENCE */ struct pc_boot_record *mbr = (void *)PC_MBR_DISK_OFFSET; /* grab the offset in mbr where to write this partition entry. */ item->offset = (loff_t)((uint32_t)((uint8_t *)(&mbr->ptable[pnum]))); } pentry = (struct pc_partition *) &item->data; /* need a standard primary partition entry */ if (pinfo) { /* need this to be 64 bit in case len_kb is large */ uint64_t len_lba; if (pinfo->len_kb != (uint32_t)-1) { /* bump it up to the next LBA boundary just in case */ len_lba = ((uint64_t)pinfo->len_kb * 1024); len_lba += ((uint64_t)dinfo->sect_size - 1); len_lba &= ~((uint64_t)dinfo->sect_size - 1); len_lba /= (uint64_t)dinfo->sect_size; } else { /* make it fill the rest of disk */ len_lba = dinfo->num_lba - *lba; } cfg_pentry(pentry, ((pinfo->flags & PART_ACTIVE_FLAG) ? PC_PART_ACTIVE : PC_PART_NORMAL), pinfo->type, *lba, (uint32_t)len_lba); pinfo->start_lba = *lba; *lba += (uint32_t)len_lba; } else { /* this should be made an extended partition, and should take * up the rest of the disk as a primary partition */ cfg_pentry(pentry, PC_PART_NORMAL, PC_PART_TYPE_EXTENDED, *lba, dinfo->num_lba - *lba); /* note that we do not update the *lba because we now have to * create a chain of extended partition tables, and first one is at * *lba */ } return item; } /* This function configures an extended boot record at the beginning of an * extended partition. This creates a logical partition and a pointer to * the next EBR. * * ext_lba == The start of the toplevel extended partition (pointed to by the * entry in the MBR). */ static struct write_list * mk_ext_pentry(struct disk_info *dinfo, struct part_info *pinfo, uint32_t *lba, uint32_t ext_lba, struct part_info *pnext) { struct write_list *item; struct pc_boot_record *ebr; uint32_t len; /* in lba units */ if (!(item = alloc_wl(sizeof(struct pc_boot_record)))) { LOGE("Unable to allocate memory for EBR."); return NULL; } /* we are going to write the ebr at the current LBA, and then bump the * lba counter since that is where the logical data partition will start */ item->offset = (*lba) * dinfo->sect_size; (*lba)++; ebr = (struct pc_boot_record *) &item->data; memset(ebr, 0, sizeof(struct pc_boot_record)); ebr->mbr_sig = PC_BIOS_BOOT_SIG; if (pinfo->len_kb != (uint32_t)-1) len = kb_to_lba(pinfo->len_kb, dinfo->sect_size); else { if (pnext) { LOGE("Only the last partition can be specified to fill the disk " "(name = '%s')", pinfo->name); goto fail; } len = dinfo->num_lba - *lba; /* update the pinfo structure to reflect the new size, for * bookkeeping */ pinfo->len_kb = (uint32_t)(((uint64_t)len * (uint64_t)dinfo->sect_size) / ((uint64_t)1024)); } cfg_pentry(&ebr->ptable[PC_EBR_LOGICAL_PART], PC_PART_NORMAL, pinfo->type, 1, len); pinfo->start_lba = *lba; *lba += len; /* If this is not the last partition, we have to create a link to the * next extended partition. * * Otherwise, there's nothing to do since the "pointer entry" is * already zero-filled. */ if (pnext) { /* The start lba for next partition is an offset from the beginning * of the top-level extended partition */ uint32_t next_start_lba = *lba - ext_lba; uint32_t next_len_lba; if (pnext->len_kb != (uint32_t)-1) next_len_lba = 1 + kb_to_lba(pnext->len_kb, dinfo->sect_size); else next_len_lba = dinfo->num_lba - *lba; cfg_pentry(&ebr->ptable[PC_EBR_NEXT_PTR_PART], PC_PART_NORMAL, PC_PART_TYPE_EXTENDED, next_start_lba, next_len_lba); } return item; fail: free_wl(item); return NULL; } struct write_list * config_mbr(struct disk_info *dinfo) { struct part_info *pinfo; uint32_t cur_lba = dinfo->skip_lba; uint32_t ext_lba = 0; struct write_list *wr_list = NULL; struct write_list *temp_wr = NULL; int cnt = 0; int extended = 0; if (!dinfo->part_lst) return NULL; for (cnt = 0; cnt < dinfo->num_parts; ++cnt) { pinfo = &dinfo->part_lst[cnt]; /* Should we create an extedned partition? */ if (cnt == (PC_NUM_BOOT_RECORD_PARTS - 1)) { if (cnt + 1 < dinfo->num_parts) { extended = 1; ext_lba = cur_lba; if ((temp_wr = mk_pri_pentry(dinfo, NULL, cnt, &cur_lba))) wlist_add(&wr_list, temp_wr); else { LOGE("Cannot create primary extended partition."); goto fail; } } } /* if extended, need 1 lba for ebr */ if ((cur_lba + extended) >= dinfo->num_lba) goto nospace; else if (pinfo->len_kb != (uint32_t)-1) { uint32_t sz_lba = (pinfo->len_kb / dinfo->sect_size) * 1024; if ((cur_lba + sz_lba + extended) > dinfo->num_lba) goto nospace; } if (!extended) temp_wr = mk_pri_pentry(dinfo, pinfo, cnt, &cur_lba); else { struct part_info *pnext; pnext = cnt + 1 < dinfo->num_parts ? &dinfo->part_lst[cnt+1] : NULL; temp_wr = mk_ext_pentry(dinfo, pinfo, &cur_lba, ext_lba, pnext); } if (temp_wr) wlist_add(&wr_list, temp_wr); else { LOGE("Cannot create partition %d (%s).", cnt, pinfo->name); goto fail; } } /* fill in the rest of the MBR with empty parts (if needed). */ for (; cnt < PC_NUM_BOOT_RECORD_PARTS; ++cnt) { struct part_info blank; cur_lba = 0; memset(&blank, 0, sizeof(struct part_info)); if (!(temp_wr = mk_pri_pentry(dinfo, &blank, cnt, &cur_lba))) { LOGE("Cannot create blank partition %d.", cnt); goto fail; } wlist_add(&wr_list, temp_wr); } return wr_list; nospace: LOGE("Not enough space to add parttion '%s'.", pinfo->name); fail: wlist_free(wr_list); return NULL; } /* Returns the device path of the partition referred to by 'name' * Must be freed by the caller. */ char * find_mbr_part(struct disk_info *dinfo, const char *name) { struct part_info *plist = dinfo->part_lst; int num = 0; char *dev_name = NULL; int has_extended = (dinfo->num_parts > PC_NUM_BOOT_RECORD_PARTS); for(num = 1; num <= dinfo->num_parts; ++num) { if (!strcmp(plist[num-1].name, name)) break; } if (num > dinfo->num_parts) return NULL; if (has_extended && (num >= PC_NUM_BOOT_RECORD_PARTS)) num++; if (!(dev_name = malloc(MAX_NAME_LEN))) { LOGE("Cannot allocate memory."); return NULL; } num = snprintf(dev_name, MAX_NAME_LEN, "%s%d", dinfo->device, num); if (num >= MAX_NAME_LEN) { LOGE("Device name is too long?!"); free(dev_name); return NULL; } return dev_name; }