diff options
Diffstat (limited to 'toys')
-rw-r--r-- | toys/pending/fdisk.c | 1554 |
1 files changed, 1554 insertions, 0 deletions
diff --git a/toys/pending/fdisk.c b/toys/pending/fdisk.c new file mode 100644 index 00000000..d34bbda9 --- /dev/null +++ b/toys/pending/fdisk.c @@ -0,0 +1,1554 @@ +/* fdisk.c - fdisk program to modify partitions on disk. + * + * Copyright 2012 Ashwini Kumar <ak.ashwini@gmail.com> + * + * No Standard. + +USE_FDISK(NEWTOY(fdisk, "C#<0H#<0S#<0b#<512ul", TOYFLAG_SBIN)) + +config FDISK + bool "fdisk" + default n + help + usage: fdisk [-lu] [-C CYLINDERS] [-H HEADS] [-S SECTORS] [-b SECTSZ] DISK + + Change partition table + + -u Start and End are in sectors (instead of cylinders) + -l Show partition table for each DISK, then exit + -b size sector size (512, 1024, 2048 or 4096) + -C CYLINDERS Set number of cylinders/heads/sectors + -H HEADS + -S SECTORS +*/ + +#define FOR_fdisk +#include "toys.h" +#include <linux/hdreg.h> + +GLOBALS( + long sect_sz; + long sectors; + long heads; + long cylinders; +) + +#define EXTENDED 0x05 +#define WIN98_EXTENDED 0x0f +#define LINUX_NATIVE 0x83 +#define LINUX_EXTENDED 0x85 + +#define SECTOR_SIZE 512 +#define ONE_K 1024 +#define PARTITION_MAX 60 //partition max is modifiable +#define IS_EXTENDED(i) ((i) == EXTENDED || (i) == WIN98_EXTENDED || (i) == LINUX_EXTENDED) +#define sector(s) ((s) & 0x3f) +#define cylinder(s, c) ((c) | (((s) & 0xc0) << 2)) + +typedef off_t sector_t; + +struct partition { + unsigned char boot_ind, head, sector, cyl, sys_ind, end_head, + end_sector, end_cyl, start4[4], size4[4]; +}; + +struct part_entry { + struct partition *part; + char *sec_buffer; + sector_t start_offset; + int modified; +}; + +struct part_types { + int id; + char type[PATH_MAX]; +} sys_types[] = { + {0x00, "Empty"}, {0x01, "FAT12"}, {0x04, "FAT16 <32M"}, {0x05, "Extended"}, + {0x06, "FAT16"}, {0x07, "HPFS/NTFS"}, {0x0a, "OS/2 Boot Manager"}, + {0x0b, "Win95 FAT32"}, {0x0c, "Win95 FAT32 (LBA)"}, {0x0e, "Win95 FAT16 (LBA)"}, + {0x0f, "Win95 Ext'd (LBA)"}, {0x11, "Hidden FAT12"}, {0x12, "Compaq diagnostics"}, + {0x14, "Hidden FAT16 <32M"}, {0x16, "Hidden FAT16"}, {0x17, "Hidden HPFS/NTFS"}, + {0x1b, "Hidden Win95 FAT32"}, {0x1c, "Hidden W95 FAT32 (LBA)"}, {0x1e, "Hidden W95 FAT16 (LBA)"}, + {0x3c, "Part.Magic recovery"}, {0x41, "PPC PReP Boot"}, {0x42, "SFS"}, + {0x63, "GNU HURD or SysV"}, {0x80, "Old Minix"}, {0x81, "Minix / old Linux"}, + {0x82, "Linux swap"}, {0x83, "Linux"}, {0x84, "OS/2 hidden C: drive"}, + {0x85, "Linux extended"}, {0x86, "NTFS volume set"}, {0x87, "NTFS volume set"}, + {0x8e, "Linux LVM"}, {0x9f, "BSD/OS"}, {0xa0, "Thinkpad hibernation"}, + {0xa5, "FreeBSD"}, {0xa6, "OpenBSD"}, {0xa8, "Darwin UFS"}, {0xa9, "NetBSD"}, + {0xab, "Darwin boot"}, {0xb7, "BSDI fs"}, {0xb8, "BSDI swap"}, + {0xbe, "Solaris boot"}, {0xeb, "BeOS fs"}, {0xee, "EFI GPT"}, + {0xef, "EFI (FAT-12/16/32)"}, {0xf0, "Linux/PA-RISC boot"}, + {0xf2, "DOS secondary"}, {0xfd, "Linux raid autodetect"}, +}; + +static int num_parts, disp_unit_cyl, dos_flag, dev_fd = 3; +static long g_cylinders, g_heads, g_sectors, g_sect_size; +static sector_t total_number_sectors, extended_offset; +static char MBRbuf[2048], *disk_device; +struct part_entry partitions[PARTITION_MAX]; + +static struct partition* part_offset(char *secbuf, int i) +{ + return (struct partition*)(secbuf + 0x1be + i*(sizeof(struct partition))); +} + +static void set_levalue(unsigned char *cp, sector_t value ) +{ + uint32_t val = SWAP_LE32(value); + memcpy(cp, (void*)&val, 4); +} + +static void set_hsc(struct partition *p, sector_t start, sector_t end) +{ + if (dos_flag && (start / (g_sectors * g_heads) > 1023)) + start = g_heads * g_sectors * ONE_K - 1; + p->sector = (start % g_sectors) + 1; + start /= g_sectors; + p->head = start % g_heads; + start /= g_heads; + p->cyl = start & 0xFF; + p->sector |= (start >> 2) & 0xc0; + + if (dos_flag && (end / (g_sectors * g_heads) > 1023)) + end = g_heads * g_sectors * ONE_K - 1; + p->end_sector = (end % g_sectors) + 1; + end /= g_sectors; + p->end_head = end % g_heads; + end /= g_heads; + p->end_cyl = end & 0xFF; + p->end_sector |= (end >> 2) & 0xc0; +} + +static int chs_warn(void) +{ + if (g_heads && g_sectors && g_cylinders) + return 0; + + printf("Unknown value(s) for:"); + if (!g_heads) printf(" heads"); + if (!g_sectors) printf(" sectors"); + if (!g_cylinders) printf(" cylinders"); + printf(". can set in the expert menu.\n"); + return 1; +} + +static void list_types(void) +{ + int i, adjust = 0, size = ARRAY_LEN(sys_types); + + if(size % 2) adjust = 1; + for (i = 0; i < (size - adjust); i+=2) + xprintf("%2x %-22s\t\t%2x %-22.22s\n", sys_types[i].id, sys_types[i].type, + sys_types[i+1].id, sys_types[i+1].type); + if (adjust) xprintf("%2x %-22s\n",sys_types[size-1].id, sys_types[size-1].type); + xputc('\n'); +} + +static int valid(long size) +{ + if (size == 512 || size == 1024 || size == 2048 || size == 4096) return 1; + else { + toys.exithelp = 1; + error_exit(""); + } +} + +static void read_sec_sz() +{ + int arg; + if (ioctl(dev_fd, BLKSSZGET, &arg) == 0) g_sect_size = arg; + if ((toys.optflags & FLAG_b) && valid(TT.sect_sz)) g_sect_size = TT.sect_sz; +} + +static sector_t read_size() +{ + uint64_t sec64 = 0; + unsigned long sectors = 0; + if (ioctl(dev_fd, BLKGETSIZE64, &sec64) == 0) { + sec64 = sec64 >> 9; //convert to 512 block size. + if (sec64 != (uint32_t) sec64) { + perror_msg("device has more than 2^32 sectors, can't use all of them"); + sec64 = (uint32_t) - 1L; + } + return sec64; + } + if (ioctl(dev_fd, BLKGETSIZE, §ors) == 0) + if (sizeof(long) > sizeof(sector_t) && sectors != (sector_t)sectors) + sectors = (uint32_t) - 1L; + return sectors; +} + +static int validate_part_buff(char *buffer) +{ + if ((buffer[510] != 0x55) || (buffer[511] != 0xAA)) return 0; + return 1; +} + +static int is_partition_clear(struct partition* p) +{ + int i = 0; + unsigned char res = 0; + const char *ptr = (const char*)p; + + for (i = 0; i < sizeof(struct partition); i++) res |= (unsigned char)ptr[i]; + return (res == 0x00); +} + +static uint32_t swap_le32toh(unsigned char *cp) +{ + uint32_t val; + memcpy((void*)&val, cp, 4); + return le32toh(val); +} + +static int check_order(void) +{ + sector_t first[num_parts], last_seen_val = 0; + int i; + struct part_entry *pe; + struct partition *px; + + for (i = 0; i < num_parts; i++) { + if (i == 4) last_seen_val = 0; + pe = &partitions[i]; + px = pe->part; + if (px->sys_ind) { + first[i] = swap_le32toh(px->start4) + pe->start_offset; + if (last_seen_val > first[i]) return 1; + last_seen_val = first[i]; + } + } + return 0; +} + +static void read_geometry(struct hd_geometry *disk) +{ + struct hd_geometry geometry; + + if (ioctl(dev_fd, HDIO_GETGEO, &geometry)) return; + disk->heads = geometry.heads; + disk->sectors = geometry.sectors; +} + +/* Read the extended boot record for the + * logical partion details. + */ +static void read_ebr(int idx) +{ + char *sec_buf = NULL; + sector_t offset = 0, local_start_off = 0; + struct partition *p, *q; + + q = p = partitions[idx].part; + local_start_off = swap_le32toh(p->start4); + + if (!extended_offset) extended_offset = local_start_off; + do { + sec_buf = xzalloc(g_sect_size); + partitions[num_parts].part = part_offset(sec_buf, 0); + partitions[num_parts].sec_buffer = sec_buf; + offset = swap_le32toh(q->start4); + + if (num_parts > 4) offset += local_start_off; + partitions[num_parts].start_offset = offset; + xlseek(dev_fd, (off_t)(offset * g_sect_size), SEEK_SET); + + if (g_sect_size != readall(dev_fd, sec_buf, g_sect_size)) { + close(dev_fd); + error_exit("Couldn't read sector zero\n"); + } + num_parts++; //extended partions present. + q = part_offset(sec_buf, 1); + } while (!is_partition_clear(q)); +} + +static void physical_HS(int* h, int *s) +{ + struct partition *p; + int i, end_h, end_s, e_hh = 0, e_ss = 0, ini = 1, dirty = 0; + const unsigned char *bufp = (const unsigned char *)MBRbuf; + + if (!(validate_part_buff((char*)bufp))) return; + + for (i = 0; i < 4; i++) { + p = part_offset((char*)bufp, i); + if (p->sys_ind) { + end_h = p->end_head + 1; + end_s = (p->end_sector & 077); + if (ini) { + e_hh = end_h; + e_ss = end_s; + ini = 0; + } else if (e_hh !=end_h || e_ss != end_s) + dirty = 1; + } + } + if (!dirty && !ini) { + *h = e_hh; + *s = e_ss; + } +} + +//Reset the primary partition table +static void reset_boot(int change) +{ + int i; + for(i = 0; i < 4; i++) { + struct part_entry *pe = &partitions[i]; + pe->part = part_offset(MBRbuf, i); + pe->start_offset = 0; + pe->sec_buffer = MBRbuf; + pe->modified = change; + } +} + +static inline void write_table_flag(char *buf) +{ + buf[510] = 0x55; + buf[511] = 0xaa; +} + +/* free the buffers used for holding details of + * extended logical partions +*/ +static void free_bufs(void) +{ + int i = 4; + for (; i < num_parts; i++) free(partitions[i].sec_buffer); +} + +static void create_empty_doslabel(void) +{ + xprintf("Building a new DOS Disklabel. The changes will\n" + "remain in memory only, until you write it.\n"); + + num_parts = 4; + extended_offset = 0; + memset(&MBRbuf[510 - 4*16], 0, 4*16); + write_table_flag(MBRbuf); + partitions[0].modified = 1; + reset_boot(1); +} + +/* Read the Master Boot sector of the device for the + * partition table entries/details. + * If any extended partition is found then read the EBR + * for logical partition details + */ +static int read_mbr(char *device, int validate) +{ + int fd, sector_fac, i, h = 0, s = 0; + struct hd_geometry disk; + fd = open(device, O_RDWR); + if(fd < 0) { + perror_msg("can't open '%s'",device); + return 1; + } + + disk_device = strdup(device); + if(fd != dev_fd) { + if(dup2(fd, dev_fd) != dev_fd) perror_exit("Can't dup2"); + close(fd); + } + + //read partition table - MBR + if (SECTOR_SIZE != readall(dev_fd, MBRbuf, SECTOR_SIZE)) { + close(dev_fd); + perror_exit("Couldn't read sector zero\n"); + } + if (validate && !validate_part_buff(MBRbuf)) { + xprintf("Device contains neither a valid DOS " + "partition table, nor Sun, SGI, OSF or GPT " + "disklabel\n"); + create_empty_doslabel(); + } + + disk.heads = disk.sectors = 0; + read_geometry(&disk); //CHS values + total_number_sectors = read_size(); //Device size + read_sec_sz(); + sector_fac = g_sect_size/SECTOR_SIZE; //512 is hardware sector size. + physical_HS(&h, &s); //physical dimensions may be diferent from HDIO_GETGEO + g_sectors = (toys.optflags & FLAG_S && TT.sectors)? TT.sectors : s? s : disk.sectors?disk.sectors : 63; + g_heads = (toys.optflags & FLAG_H && TT.heads)? TT.heads : h? h : disk.heads? disk.heads : 255; + g_cylinders = total_number_sectors/(g_heads * g_sectors * sector_fac); + + if (!g_cylinders) g_cylinders = toys.optflags & FLAG_C? TT.cylinders : 0; + if ((g_cylinders > ONE_K) && !(toys.optflags & (FLAG_l | FLAG_S))) + xprintf("\nThe number of cylinders for this disk is set to %lu.\n" + "There is nothing wrong with that, but this is larger than 1024,\n" + "and could in certain setups cause problems.\n", g_cylinders); + for (i = 0; i < num_parts; i++) { + if (IS_EXTENDED(partitions[i].part->sys_ind)) { + read_ebr(i); + break; + } + } + chs_warn(); + + return 0; +} + +static char* get_type(int sys_ind) +{ + int i, size = ARRAY_LEN(sys_types); + for (i = 0; i < size; i++) + if (sys_ind == sys_types[i].id) + return sys_types[i].type; + return "Unknown"; +} + +static void consistency_check(const struct partition *p, int partition) +{ + unsigned physbc, physbh, physbs, physec, physeh, physes; + unsigned lbc, lbh, lbs, lec, leh, les; + sector_t start, end; + + if (!g_heads || !g_sectors || (partition >= 4)) return; + // physical beginning c, h, s + physbc = cylinder(p->sector,p->cyl); + physbh = p->head; + physbs = sector(p->sector); + // physical ending c, h, s + physec = cylinder(p->end_sector, p->end_cyl); + physeh = p->end_head; + physes = sector(p->end_sector); + // logical begin and end CHS values + start = swap_le32toh((unsigned char*)(p->start4)); + end = start + swap_le32toh((unsigned char*)(p->size4)) -1; + + lbc = start/(g_sectors * g_heads); + lbh = (start/g_sectors) % g_heads; + lbs = (start % g_sectors) + 1; + + lec = end/(g_sectors * g_heads); + leh = (end/g_sectors) % g_heads; + les = (end % g_sectors) + 1; + + //Logical and Physical diff + if (g_cylinders <= ONE_K && (physbc != lbc || physbh != lbh || physbs != lbs)) { + xprintf("Partition %u has different physical/logical beginings (Non-Linux?): \n", partition+1); + xprintf("phys = (%u %u %u) ",physbc, physbh, physbs); + xprintf("logical = (%u %u %u)\n", lbc, lbh, lbs); + } + if (g_cylinders <= ONE_K && (physec != lec || physeh != leh || physes != les)) { + xprintf("Partition %u has different physical/logical endings: \n", partition+1); + xprintf("phys = (%u %u %u) ",physec, physeh, physes); + xprintf("logical = (%u %u %u)\n", lec, leh, les); + } + // Ending on cylinder boundary? + if (physeh != (g_heads - 1) || physes != g_sectors) + xprintf("Partition %u does not end on cylinder boundary\n", partition + 1); +} + +// List the partition details +static void list_partitions(int validate) +{ + struct partition *p; + uint32_t start_cyl, end_cyl, start_sec, end_sec, blocks, secs; + char boot, lastchar = '\0', *dev = disk_device; + int i = 0, len = strlen(disk_device), odds = 0; + + if (validate && !validate_part_buff(MBRbuf)) { + close(dev_fd); + toys.exitval = 1; + xprintf("Device %s: doesn't contain a valid partition table\n", disk_device); + return; + } + if (isdigit(dev[len - 1])) lastchar = 'p'; + + xprintf("%*s Boot Start End Blocks Id System\n", len+1, "Device"); + for (i = 0; i < num_parts; i++) { + p = partitions[i].part; + if (is_partition_clear(p)) continue; + + boot = p->boot_ind == 0x80?'*':' '; + start_sec = swap_le32toh(p->start4) + partitions[i].start_offset; + secs = swap_le32toh(p->size4); + + if ((start_sec + secs) == 0) end_sec = 0; + else end_sec = start_sec + secs -1; + start_cyl = start_sec/(g_heads * g_sectors) + 1; + end_cyl = end_sec/(g_heads * g_sectors) + 1; + blocks = secs; + if (g_sect_size < ONE_K) { + blocks /= (ONE_K/g_sect_size); + odds = secs %(ONE_K/g_sect_size); + } else if (g_sect_size > ONE_K) blocks *= (g_sect_size/ONE_K); + + if (lastchar) xprintf("%s%c%d",dev, lastchar, i+1); + else xprintf("%s%d",dev, i+1); + + xprintf(" %c %11u %11u %11u%c %2x %s\n", + boot, + disp_unit_cyl == 0? start_sec: start_cyl, + disp_unit_cyl == 0? end_sec: end_cyl, + blocks,odds?'+':' ', p->sys_ind, get_type(p->sys_ind)); + + consistency_check(p, i); + } + if (check_order()) xprintf("\nPartition table entries are not in disk order"); +} + +//Print device details +static void print_mbr(int validate) +{ + unsigned long long bytes = ((unsigned long long)total_number_sectors << 9); + long mbytes = bytes/1000000; + + if (mbytes < 10000) xprintf("Disk %s: %lu MB, %llu bytes\n", disk_device, mbytes, bytes); + else xprintf("Disk %s: %lu.%lu GB, %llu bytes\n", disk_device, mbytes/1000, (mbytes/100)%10, bytes); + xprintf("%ld heads, %ld sectors/track, %ld cylinders", g_heads, g_sectors, g_cylinders); + if (!disp_unit_cyl) { + xprintf(", total %lld sectors\n", total_number_sectors/(g_sect_size/SECTOR_SIZE)); + xprintf("Units = sectors of 1 * %ld = %ld bytes\n",g_sect_size, g_sect_size); + } else xprintf("\nUnits = cylinders of %ld * %ld = %ld bytes\n\n", + g_heads * g_sectors, g_sect_size, g_heads * g_sectors * g_sect_size); + list_partitions(validate); + xputc('\n'); +} + +static void init_members(void) +{ + int i = 0; + num_parts = 4; //max of primaries in a part table + disp_unit_cyl = dos_flag = 1; + extended_offset = 0; + g_sect_size = SECTOR_SIZE; + for (i = 0; i < num_parts; i++) { + partitions[i].part = part_offset(MBRbuf, i); + partitions[i].sec_buffer = MBRbuf; + partitions[i].modified = 0; + partitions[i].start_offset = 0; + } +} + +static int read_input(char *mesg, char *outp) +{ + char *p; + int size = 0; +redo: + xprintf("%s", mesg); + p = fgets(toybuf, 80, stdin); + + if (!p || !(size = strlen(p))) exit(0); + if (p[size-1] == '\n') p[--size] = '\0'; + if (!size) goto redo; + + while (*p != '\0' && *p <= ' ') p++; + if (outp) memcpy(outp, p, strlen(p) + 1); //1 for nul + return *p; +} + +static int read_hex(char *mesg) +{ + int val; + char input[80], *endp; + while (1) { + read_input(mesg, input); + if ((*input | 0x20) == 'l') { + list_types(); + memset(input, 0, 80); + continue; + } + val = strtoul(input, &endp, 16); + if (endp && *endp) continue; + if (val <= 0xff) return val; + } +} + +/* Delete an exiting partition, + * if its primary, then just clear the partition details + * if extended, then clear the partition details, also for logical + * if only logical, then move the later partitions backwards 1 step + */ +void delete_partition(int i) +{ + int sys_id, looper = 0; + struct partition *p, *q, *ext_p, *ext_q; + sector_t new_start; + struct part_entry *pe = &partitions[i]; + + if (chs_warn()) return; + p = pe->part; + sys_id = p->sys_ind; + if (!sys_id) xprintf("Partition %u is empty\n", i+1); + + if (i < 4 && !IS_EXTENDED(sys_id)) { + memset(p, 0, sizeof(struct partition)); //clear_partition + pe->modified = 1; + } else if (i < 4 && IS_EXTENDED(sys_id)) { + memset(p, 0, sizeof(struct partition)); //clear_partition + pe->modified = 1; + for (looper = 4; looper < num_parts; looper++) { + pe = &partitions[looper]; + p = pe->part; + if (is_partition_clear(p)) break; + else { + memset(p, 0, sizeof(struct partition)); //clear_partition + pe->modified = 1; + free(pe->sec_buffer); + } + } + extended_offset = 0; + num_parts = 4; + } else { + //only logical is delete, need to move the rest of them backwards + if (i == 4) { //move partiton# 6 to 5. + partitions[i].modified = 1; + if (num_parts > i+1) { + q = partitions[i + 1].part; + *p = *q; //copy the part table + ext_p = part_offset(partitions[i].sec_buffer, 1); + ext_q = part_offset(partitions[i + 1].sec_buffer, 1); + *ext_p = *ext_q; //copy the extended info pointer + // change the start of the 4th partiton. + new_start = partitions[i + 1].start_offset + swap_le32toh(q->start4) - extended_offset; + new_start = SWAP_LE32(new_start); + memcpy(p->start4, (void *)&new_start, 4); + } else { + memset(partitions[i].part, 0, sizeof(struct partition)); + return; //only logical + } + } else if (i > 4) { + ext_p = part_offset(partitions[i-1].sec_buffer, 1); + ext_q = part_offset(partitions[i].sec_buffer, 1); + memcpy((void*)ext_p, (void *)ext_q, sizeof(struct partition)); + partitions[i-1].modified = 1; + } + if (i == 4) looper = i+2; + else if (i > 4) looper = i+1; + for (; looper < num_parts; looper++) + partitions[looper-1] = partitions[looper]; + num_parts--; + } +} + +static int ask_partition(int num_parts) +{ + int val; + while (1) { + do { + xprintf("Partition (%u - %u):", 1, num_parts); + fgets(toybuf, 80, stdin); + } while (!isdigit(*toybuf)); + val = atoi(toybuf); + if (val > 0 && val <= num_parts) return val; + else xprintf("Invalid number entered\n"); + } +} + +static void toggle_active_flag(int i) +{ + struct partition *p = partitions[i].part; + if (is_partition_clear(p)) xprintf("Partition %u is empty\n", i+1); + + if (IS_EXTENDED(p->sys_ind) && !p->boot_ind) + xprintf("WARNING: Partition %u is an extended partition\n", i + 1); + p->boot_ind = p->boot_ind == 0x80?0 : 0x80; + partitions[i].modified = 1; +} + +//Write the partition details from Buffer to Disk. +void write_table(void) +{ + int i =0; + struct part_entry *pe; + sector_t offset; + + for (i = 0; i < 4; i++) + if (partitions[i].modified) partitions[3].modified = 1; + + for (i = 3; i < num_parts; i++) { + pe = &partitions[i]; + write_table_flag(pe->sec_buffer); + offset = pe->start_offset; + if (pe->modified == 1) { + xlseek(dev_fd, offset * g_sect_size, SEEK_SET); + xwrite(dev_fd, pe->sec_buffer, g_sect_size); + } + } + xprintf("The partition table has been altered.\n"); + xprintf("Calling ioctl() to re-read partition table\n"); + sync(); + for (i = 4; i < num_parts; i++) free(partitions[i].sec_buffer); + if(ioctl(dev_fd, BLKRRPART, NULL) < 0) + perror_exit("WARNING: rereading partition table failed, kernel still uses old table"); + +} + +/* try to find a partition for deletion, if only + * one, then select the same, else ask from USER + */ +static int get_non_free_partition(int max) +{ + int num = -1, i = 0; + + for (i = 0; i < max; i++) { + if (!is_partition_clear(partitions[i].part)) { + if (num >= 0) goto get_from_user; + num = i; + } + } + (num >= 0) ? xprintf("Selected partition %d\n",num+1): + xprintf("No partition is defined yet!\n"); + return num; +get_from_user: + return ask_partition(num_parts)-1; +} + +/* a try at autodetecting an empty partition table entry, + * if multiple options then get USER's choce. + */ +static int get_free_partition(int max) +{ + int num = -1, i = 0; + + for (i = 0; i < max; i++) { + if (is_partition_clear(partitions[i].part)) { + if (num >= 0) goto get_from_user; + num = i; + } + } + (num >= 0) ? xprintf("Selected partition %d\n",num+1): + xprintf("All primary partitions have been defined already!\n"); + return num; +get_from_user: + return ask_partition(4)-1; +} + +//taking user input for partition start/end sectors/cyinders +static uint32_t ask_value(char *mesg, sector_t left, sector_t right, sector_t defalt) +{ + char *str = toybuf; + uint32_t val; + int use_default = 1; + + while (1) { + use_default = 1; + do { + xprintf("%s",mesg); + fgets(str, 80, stdin); + } while (!isdigit(*str) && (*str != '\n') + && (*str != '-') && (*str != '+') && (!isblank(*str))); + while (isblank(*str)) str++; //remove leading white spaces + if (*str == '+' || *str == '-') { + int minus = (*str == '-'); + int absolute = 0; + + val = atoi(str + 1); + while (isdigit(*++str)) use_default = 0; + + switch (*str) { + case 'c': + case 'C': + if (!disp_unit_cyl) val *= g_heads * g_sectors; + break; + case 'K': + absolute = ONE_K; + break; + case 'k': + absolute = 1000; + break; + case 'm': + case 'M': + absolute = 1000000; + break; + case 'g': + case 'G': + absolute = 1000000000; + break; + default: + break; + } + if (absolute) { + unsigned long long bytes = (unsigned long long) val * absolute; + unsigned long unit = (disp_unit_cyl && (g_heads * g_sectors))? g_heads * g_sectors : 1; + + unit = unit * g_sect_size; + bytes += unit/2; // rounding + bytes /= unit; + val = bytes; + } + if (minus) + val = -val; + val += left; + } else { + val = atoi(str); + while (isdigit(*str)) { + str++; + use_default = 0; + } + } + if(use_default) { + val = defalt; + xprintf("Using default value %lld\n", defalt); + } + if (val >= left && val <= right) return val; + else xprintf("Value out of range\n"); + } +} + +//validating if the start given falls in a limit or not +static int validate(int start_index, sector_t* begin,sector_t* end, sector_t start + , int asked) +{ + int i, valid = 0; + for (i = start_index; i < num_parts; i++) { + if (start >= begin[i] && start <= end[i]) { + if (asked) xprintf("Sector %lld is already allocated\n",start); + valid = 0; + break; + } else valid = 1; + } + return valid; +} + +//get the start sector/cylinder of a new partition +static sector_t ask_start_sector(int idx, sector_t* begin, sector_t* end, int ext_idx) +{ + sector_t start, limit, temp = 0, start_cyl, limit_cyl, offset = 1; + char mesg[256]; + int i, asked = 0, valid = 0, start_index = 0; + + if (dos_flag) offset = g_sectors; + start = offset; + if (disp_unit_cyl) limit = (sector_t)g_sectors * g_heads * g_cylinders - 1; + else limit = total_number_sectors - 1; + + if (disp_unit_cyl) //make the begin of every partition to cylnder boundary + for (i = 0; i < num_parts; i++) + begin[i] = (begin[i]/(g_heads* g_sectors)) * (g_heads* g_sectors); + + if (idx >= 4) { + if (!begin[ext_idx] && extended_offset) begin[ext_idx] = extended_offset; + start = begin[ext_idx] + offset; + limit = end[ext_idx]; + start_index = 4; + } + do { + if (asked) valid = validate(start_index, begin, end, start, asked); + if (valid) break; + +find_start_again: + for (i = start_index; i < num_parts; i++) + if (start >= begin[i] && start <= end[i]) + start = end[i] + 1 + ((idx >= 4)? offset : 0); + + if (!validate(start_index, begin, end, start, 0)) goto find_start_again; + start_cyl = start/(g_sectors * g_heads) + 1; + limit_cyl = limit/(g_sectors * g_heads) + 1; + + if (start > limit) break; + sprintf(mesg, "First %s (%lld - %lld, default %lld): ", disp_unit_cyl? "cylinder" : "sector", + (long long int)(disp_unit_cyl? start_cyl : start), + (long long int)(disp_unit_cyl? limit_cyl : limit), + (long long int)(disp_unit_cyl? start_cyl : start)); + temp = ask_value(mesg, disp_unit_cyl? start_cyl : start, + disp_unit_cyl? limit_cyl : limit, disp_unit_cyl? start_cyl : start); + asked = 1; + + if (disp_unit_cyl) { + // point to the cylinder start sector + temp = (temp-1) * g_heads * g_sectors; + if (temp < start) //the boundary is falling in the already used sectors. + temp = start; + } + start = temp; + } while (asked && !valid); + return start; +} + +//get the end sector/cylinder of a new partition +static sector_t ask_end_sector(int idx, sector_t* begin, sector_t* end, int ext_idx, sector_t start_sec) +{ + sector_t limit, temp = 0, start_cyl, limit_cyl, start = start_sec; + char mesg[256]; + int i; + + if (disp_unit_cyl) limit = (sector_t)g_sectors * g_heads * g_cylinders - 1; + else limit = total_number_sectors - 1; + + if (disp_unit_cyl) //make the begin of every partition to cylnder boundary + for (i = 0; i < num_parts; i++) + begin[i] = (begin[i]/(g_heads* g_sectors)) * (g_heads* g_sectors); + + if (idx >= 4) limit = end[ext_idx]; + + for (i = 0; i < num_parts; i++) + if (start < begin[i] && limit >= begin[i]) limit = begin[i] - 1; + + start_cyl = start/(g_sectors * g_heads) + 1; + limit_cyl = limit/(g_sectors * g_heads) + 1; + if (limit < start) { //the boundary is falling in the already used sectors. + xprintf("No Free sectors available\n"); + return 0; + } + sprintf(mesg, "Last %s or +size or +sizeM or +sizeK (%lld - %lld, default %lld): ", + disp_unit_cyl? "cylinder" : "sector", + (long long int)(disp_unit_cyl? start_cyl : start), + (long long int)(disp_unit_cyl? limit_cyl : limit), + (long long int)(disp_unit_cyl? limit_cyl : limit)); + temp = ask_value(mesg, disp_unit_cyl? start_cyl : start, + disp_unit_cyl? limit_cyl : limit, disp_unit_cyl? limit_cyl : limit); + + if (disp_unit_cyl) { // point to the cylinder start sector + temp = temp * g_heads * g_sectors - 1; + if (temp > limit) temp = limit; + } + if (temp < start) { //the boundary is falling in the already used sectors. + xprintf("No Free sectors available\n"); + return 0; + } + return temp; +} + +// add a new partition to the partition table +static int add_partition(int idx, int sys_id) +{ + int i, ext_idx = -1; + sector_t start, end, begin_sec[num_parts], end_sec[num_parts]; + struct part_entry *pe = &partitions[idx]; + struct partition *p = pe->part; + + if (p && !is_partition_clear(p)) { + xprintf("Partition %u is already defined, delete it to re-add\n", idx+1); + return 0; + } + for (i = 0; i < num_parts; i++) { + pe = &partitions[i]; + p = pe->part; + if (is_partition_clear(p)) { + begin_sec[i] = 0xffffffff; + end_sec[i] = 0; + } else { + begin_sec[i] = swap_le32toh(p->start4) + pe->start_offset; + end_sec[i] = begin_sec[i] + swap_le32toh(p->size4) - 1; + } + if (IS_EXTENDED(p->sys_ind)) ext_idx = i; + } + start = ask_start_sector(idx, begin_sec, end_sec, ext_idx); + end = ask_end_sector(idx, begin_sec, end_sec, ext_idx, start); + if (!end) return 0; + //Populate partition table entry - 16 bytes + pe = &partitions[idx]; + p = pe->part; + + if (idx > 4) { + if (dos_flag) pe->start_offset = start - (sector_t)g_sectors; + else pe->start_offset = start - 1; + if (pe->start_offset == extended_offset) pe->start_offset++; + if (!dos_flag) start++; + } + + set_levalue(p->start4, start - pe->start_offset); + set_levalue(p->size4, end - start + 1); + set_hsc(p, start, end); + p->boot_ind = 0; + p->sys_ind = sys_id; + pe->modified = 1; + + if (idx > 4) { + p = partitions[idx-1].part + 1; //extended pointer for logical partitions + set_levalue(p->start4, pe->start_offset - extended_offset); + set_levalue(p->size4, end - start + 1 + (dos_flag? g_sectors: 1)); + set_hsc(p, start, end); + p->boot_ind = 0; + p->sys_ind = EXTENDED; + partitions[idx-1].modified = 1; + } + if (IS_EXTENDED(sys_id)) { + pe = &partitions[4]; + pe->modified = 1; + pe->sec_buffer = xzalloc(g_sect_size); + pe->part = part_offset(pe->sec_buffer, 0); + pe->start_offset = extended_offset = start; + num_parts = 5; + } + return 1; +} + +static void add_logical_partition(void) +{ + struct part_entry *pe; + if (num_parts > 5 || !is_partition_clear(partitions[4].part)) { + pe = &partitions[num_parts]; + pe->modified = 1; + pe->sec_buffer = xzalloc(g_sect_size); + pe->part = part_offset(pe->sec_buffer, 0); + pe->start_offset = 0; + num_parts++; + if (!add_partition(num_parts - 1, LINUX_NATIVE)) { + num_parts--; + free(pe->sec_buffer); + } + } + else add_partition(num_parts -1, LINUX_NATIVE); +} + +/* Add a new partiton to the partition table. + * MAX partitions limit is taken to be 60, can be changed + */ +static void add_new_partition(void) +{ + int choice, idx, i, free_part = 0; + char *msg = NULL; + + if (chs_warn()) return; + for (i = 0; i < 4; i++) if(is_partition_clear(partitions[i].part)) free_part++; + + if (!free_part && num_parts >= 60) { + xprintf("The maximum number of partitions has been created\n"); + return; + } + if (!free_part) { + if (extended_offset) add_logical_partition(); + else xprintf("You must delete some partition and add " + "an extended partition first\n"); + return; + } + + msg = xmsprintf(" %s\n p primary partition(1-4)\n", + extended_offset? "l logical (5 or over)" : "e extended"); + + choice = 0x20 | read_input(msg, NULL); + free(msg); + if (choice == 'p') { + idx = get_free_partition(4); + if (idx >= 0) add_partition(idx, LINUX_NATIVE); + return; + } + if (choice =='l' && extended_offset) { + add_logical_partition(); + return; + } + if (choice == 'e' && !extended_offset) { + idx = get_free_partition(4); + if (idx >= 0) add_partition(idx, EXTENDED); + return; + } +} + +static void change_systype(void ) +{ + int i, sys_id; + struct partition *p; + struct part_entry *pe; + + i = ask_partition(num_parts); + pe = &partitions[i-1]; + p = pe->part; + if (is_partition_clear(p)) { + xprintf("Partition %d doesn't exist yet!\n", i); + return; + } + sys_id = read_hex("Hex code (L to list codes): "); + if ((IS_EXTENDED(p->sys_ind) && !IS_EXTENDED(sys_id)) || + (!IS_EXTENDED(p->sys_ind) && IS_EXTENDED(sys_id))) { + xprintf("you can't change a partition to an extended or vice-versa\n"); + return; + } + + xprintf("Changed system type of partition %u to %0x (%s)\n",i, sys_id, get_type(sys_id)); + p->sys_ind = sys_id; + pe->modified = 1; +} + +static void check(int n, unsigned h, unsigned s, unsigned c, sector_t start) +{ + sector_t total, real_s, real_c; + + real_s = sector(s) - 1; + real_c = cylinder(s, c); + total = (real_c * g_sectors + real_s) * g_heads + h; + if (!total) xprintf("Partition %u contains sector 0\n", n); + if (h >= g_heads) + xprintf("Partition %u: head %u greater than maximum %lu\n", n, h + 1, g_heads); + if (real_s >= g_sectors) + xprintf("Partition %u: sector %u greater than maximum %lu\n", n, s, g_sectors); + if (real_c >= g_cylinders) + xprintf("Partition %u: cylinder %lld greater than maximum %lu\n", n, real_c + 1, g_cylinders); + if (g_cylinders <= ONE_K && start != total) + xprintf("Partition %u: previous sectors %lld disagrees with total %lld\n", n, start, total); +} + +static void verify_table(void) +{ + int i, j, ext_idx = -1; + sector_t begin_sec[num_parts], end_sec[num_parts], total = 1; + struct part_entry *pe; + struct partition *p; + + for (i = 0; i < num_parts; i++) { + pe = &partitions[i]; + p = pe->part; + if (is_partition_clear(p) || IS_EXTENDED(p->sys_ind)) { + begin_sec[i] = 0xffffffff; + end_sec[i] = 0; + } else { + begin_sec[i] = swap_le32toh(p->start4) + pe->start_offset; + end_sec[i] = begin_sec[i] + swap_le32toh(p->size4) - 1; + } + if (IS_EXTENDED(p->sys_ind)) ext_idx = i; + } + for (i = 0; i < num_parts; i++) { + pe = &partitions[i]; + p = pe->part; + if (p->sys_ind && !IS_EXTENDED(p->sys_ind)) { + consistency_check(p, i); + if ((swap_le32toh(p->start4) + pe->start_offset) < begin_sec[i]) + xprintf("Warning: bad start-of-data in partition %u\n", i + 1); + check(i + 1, p->end_head, p->end_sector, p->end_cyl, end_sec[i]); + total += end_sec[i] + 1 - begin_sec[i]; + for (j = 0; j < i; j++) { + if ((begin_sec[i] >= begin_sec[j] && begin_sec[i] <= end_sec[j]) + || ((end_sec[i] <= end_sec[j] && end_sec[i] >= begin_sec[j]))) { + xprintf("Warning: partition %u overlaps partition %u\n", j + 1, i + 1); + total += begin_sec[i] >= begin_sec[j] ? begin_sec[i] : begin_sec[j]; + total -= end_sec[i] <= end_sec[j] ? end_sec[i] : end_sec[j]; + } + } + } + } + if (extended_offset) { + struct part_entry *pex = &partitions[ext_idx]; + sector_t e_last = swap_le32toh(pex->part->start4) + + swap_le32toh(pex->part->size4) - 1; + + for (i = 4; i < num_parts; i++) { + total++; + p = partitions[i].part; + if (!p->sys_ind) { + if (i != 4 || i + 1 < num_parts) + xprintf("Warning: partition %u is empty\n", i + 1); + } else if (begin_sec[i] < extended_offset || end_sec[i] > e_last) + xprintf("Logical partition %u not entirely in partition %u\n", i + 1, ext_idx + 1); + } + } + if (total > g_heads * g_sectors * g_cylinders) + xprintf("Total allocated sectors %lld greater than the maximum " + "%lu\n", total, g_heads * g_sectors * g_cylinders); + else { + total = g_heads * g_sectors * g_cylinders - total; + if (total) xprintf("%lld unallocated sectors\n", total); + } +} + +static void move_begning(int idx) +{ + sector_t start, num, new_start, end; + char mesg[256]; + struct part_entry *pe = &partitions[idx]; + struct partition *p = pe->part; + + if (chs_warn()) return; + start = swap_le32toh(p->start4) + pe->start_offset; + num = swap_le32toh(p->size4); + end = start + num -1; + + if (!num || IS_EXTENDED(p->sys_ind)) { + xprintf("Partition %u doesn't have data area\n", idx+1); + return; + } + sprintf(mesg, "New begining of data (0 - %lld, default %lld): ", + (long long int)(end), (long long int)(start)); + new_start = ask_value(mesg, 0, end, start); + if (new_start != start) { + set_levalue(p->start4, new_start - pe->start_offset); + set_levalue(p->size4, end - new_start +1); + if ((read_input("Recalculate C/H/S (Y/n): ", NULL) | 0x20) == 'y') + set_hsc(p, new_start, end); + pe->modified = 1; + } +} + +static void print_raw_sectors() +{ + int i, j; + struct part_entry *pe; + + xprintf("Device: %s\n", disk_device); + for (i = 3; i < num_parts; i++) { + pe = &partitions[i]; + for (j = 0; j < g_sect_size; j++) { + if (!(j % 16)) xprintf("\n0x%03X: ",j); + xprintf("%02X ",pe->sec_buffer[j]); + } + xputc('\n'); + } +} + +static void print_partitions_list(int ext) +{ + int i; + struct part_entry *pe; + struct partition *p; + + xprintf("Disk %s: %lu heads, %lu sectors, %lu cylinders\n\n", disk_device, g_heads, g_sectors, g_cylinders); + xprintf("Nr AF Hd Sec Cyl Hd Sec Cyl Start Size ID\n"); + + for (i = 0; i < num_parts; i++) { + pe = &partitions[i]; + p = pe->part; + if (p) { + if (ext && (i >= 4)) p = pe->part + 1; + if(ext && i < 4 && !IS_EXTENDED(p->sys_ind)) continue; + + xprintf("%2u %02x%4u%4u%5u%4u%4u%5u%11u%11u %02x\n", + i+1, p->boot_ind, p->head, + sector(p->sector), cylinder(p->sector, p->cyl), + p->end_head, + sector(p->end_sector), cylinder(p->end_sector, p->end_cyl), + swap_le32toh(p->start4), + swap_le32toh(p->size4), + p->sys_ind); + if (p->sys_ind) consistency_check(p, i); + } + } +} + +//fix the partition table order to ascending +static void fix_order(void) +{ + sector_t first[num_parts], min; + int i, j, oj, ojj, sj, sjj; + struct part_entry *pe; + struct partition *px, *py, temp, *pj, *pjj, tmp; + + for (i = 0; i < num_parts; i++) { + pe = &partitions[i]; + px = pe->part; + if (is_partition_clear(px)) first[i] = 0xffffffff; + else first[i] = swap_le32toh(px->start4) + pe->start_offset; + } + + if (!check_order()) { + xprintf("Ordering is already correct\n\n"); + return; + } + for (i = 0; i < 4; i++) { + for (j = 0; j < 3; j++) { + if (first[j] > first[j+1]) { + py = partitions[j+1].part; + px = partitions[j].part; + memcpy(&temp, py, sizeof(struct partition)); + memcpy(py, px, sizeof(struct partition)); + memcpy(px, &temp, sizeof(struct partition)); + min = first[j+1]; + first[j+1] = first[j]; + first[j] = min; + partitions[j].modified = 1; + } + } + } + for (i = 5; i < num_parts; i++) { + for (j = 5; j < num_parts - 1; j++) { + oj = partitions[j].start_offset; + ojj = partitions[j+1].start_offset; + if (oj > ojj) { + partitions[j].start_offset = ojj; + partitions[j+1].start_offset = oj; + pj = partitions[j].part; + set_levalue(pj->start4, swap_le32toh(pj->start4)+oj-ojj); + pjj = partitions[j+1].part; + set_levalue(pjj->start4, swap_le32toh(pjj->start4)+ojj-oj); + set_levalue((partitions[j-1].part+1)->start4, ojj-extended_offset); + set_levalue((partitions[j].part+1)->start4, oj-extended_offset); + } + } + } + for (i = 4; i < num_parts; i++) { + for (j = 4; j < num_parts - 1; j++) { + pj = partitions[j].part; + pjj = partitions[j+1].part; + sj = swap_le32toh(pj->start4); + sjj = swap_le32toh(pjj->start4); + oj = partitions[j].start_offset; + ojj = partitions[j+1].start_offset; + if (oj+sj > ojj+sjj) { + tmp = *pj; + *pj = *pjj; + *pjj = tmp; + set_levalue(pj->start4, ojj+sjj-oj); + set_levalue(pjj->start4, oj+sj-ojj); + } + } + } + // If anything changed + for (j = 4; j < num_parts; j++) partitions[j].modified = 1; + xprintf("Done!\n"); +} + +static void print_menu(void) +{ + xprintf("a\ttoggle a bootable flag\n"); + xprintf("b\tedit bsd disklabel\n"); + xprintf("c\ttoggle the dos compatibility flag\n"); + xprintf("d\tdelete a partition\n"); + xprintf("l\tlist known partition types\n"); + xprintf("n\tadd a new partition\n"); + xprintf("o\tcreate a new empty DOS partition table\n"); + xprintf("p\tprint the partition table\n"); + xprintf("q\tquit without saving changes\n"); + xprintf("s\tcreate a new empty Sun disklabel\n"); /* sun */ + xprintf("t\tchange a partition's system id\n"); + xprintf("u\tchange display/entry units\n"); + xprintf("v\tverify the partition table\n"); + xprintf("w\twrite table to disk and exit\n"); + xprintf("x\textra functionality (experts only)\n"); +} + +static void print_xmenu(void) +{ + xprintf("b\tmove beginning of data in a partition\n"); + xprintf("c\tchange number of cylinders\n"); + xprintf("d\tprint the raw data in the partition table\n"); + xprintf("e\tlist extended partitions\n"); + xprintf("f\tfix partition order\n"); + xprintf("h\tchange number of heads\n"); + xprintf("p\tprint the partition table\n"); + xprintf("q\tquit without saving changes\n"); + xprintf("r\treturn to main menu\n"); + xprintf("s\tchange number of sectors/track\n"); + xprintf("v\tverify the partition table\n"); + xprintf("w\twrite table to disk and exit\n"); +} + +static void expert_menu(void) +{ + int choice, idx; + sector_t value; + char mesg[256]; + + while (1) { + xputc('\n'); + char *msg = "Expert Command ('m' for help): "; + choice = 0x20 | read_input(msg, NULL); + switch (choice) { + case 'b': //move data begining in partition + idx = ask_partition(num_parts); + move_begning(idx - 1); + break; + case 'c': //change cylinders + sprintf(mesg, "Number of cylinders (1 - 1048576, default %lu): ", g_cylinders); + value = ask_value(mesg, 1, 1048576, g_cylinders); + g_cylinders = TT.cylinders = value; + toys.optflags |= FLAG_C; + if(g_cylinders > ONE_K) + xprintf("\nThe number of cylinders for this disk is set to %lu.\n" + "There is nothing wrong with that, but this is larger than 1024,\n" + "and could in certain setups cause problems.\n", g_cylinders); + break; + case 'd': //print raw data in part tables + print_raw_sectors(); + break; + case 'e': //list extended partitions + print_partitions_list(1); + break; + case 'f': //fix part order + fix_order(); + break; + case 'h': //change number of heads + sprintf(mesg, "Number of heads (1 - 256, default %lu): ", g_heads); + value = ask_value(mesg, 1, 256, g_heads); + g_heads = TT.heads = value; + toys.optflags |= FLAG_H; + break; + case 'p': //print partition table + print_partitions_list(0); + break; + case 'q': + free_bufs(); + close(dev_fd); + xputc('\n'); + exit(0); + break; + case 'r': + return; + break; + case 's': //change sector/track + sprintf(mesg, "Number of sectors (1 - 63, default %lu): ", g_sectors); + value = ask_value(mesg, 1, 63, g_sectors); + g_sectors = TT.sectors = value; + toys.optflags |= FLAG_H; + break; + case 'v': + verify_table(); + break; + case 'w': + write_table(); + toys.exitval = 0; + exit(0); + break; + case 'm': + print_xmenu(); + break; + default: + xprintf("Unknown command '%c'\n",choice); + print_xmenu(); + break; + } + } //while(1) +} + +static int disk_proper(const char *device) +{ + unsigned length; + int fd = open(device, O_RDONLY); + + if (fd != -1) { + struct hd_geometry dev_geo; + dev_geo.heads = 0; + dev_geo.sectors = 0; + int err = ioctl(fd, HDIO_GETGEO, &dev_geo); + close(fd); + if (!err) return (dev_geo.start == 0); + } + length = strlen(device); + if (length != 0 && isdigit(device[length - 1])) return 0; + return 1; +} + +static void reset_entries() +{ + int i; + + memset(MBRbuf, 0, sizeof(MBRbuf)); + for (i = 4; i < num_parts; i++) + memset(&partitions[i], 0, sizeof(struct part_entry)); +} + +//this will keep dev_fd = 3 always alive +static void move_fd() +{ + int fd = xopen("/dev/null", O_RDONLY); + if(fd != dev_fd) { + if(dup2(fd, dev_fd) != dev_fd) perror_exit("Can't dup2"); + close(fd); + } +} + +/* Read proc/partitions and then print the details + * for partitions on each device + */ +static void read_and_print_parts() +{ + unsigned int ma, mi, sz; + char *name = toybuf, *buffer = toybuf + ONE_K, *device = toybuf + 2048; + FILE* fp = xfopen("/proc/partitions", "r"); + + while (fgets(buffer, ONE_K, fp)) { + reset_entries(); + num_parts = 4; + memset(name, 0, sizeof(name)); + if (sscanf(buffer, " %u %u %u %[^\n ]", &ma, &mi, &sz, name) != 4) + continue; + + sprintf(device,"/dev/%s",name); + if (disk_proper(device)) { + if (read_mbr(device, 0)) continue; + print_mbr(1); + move_fd(); + } + } + fclose(fp); +} + +void fdisk_main(void) +{ + int choice, p; + + init_members(); + move_fd(); + if (TT.heads >= 256) TT.heads = 0; + if (TT.sectors >= 64) TT.sectors = 0; + if (toys.optflags & FLAG_u) disp_unit_cyl = 0; + if (toys.optflags & FLAG_l) { + if (!toys.optc) read_and_print_parts(); + else { + while(*toys.optargs){ + if (read_mbr(*toys.optargs, 0)) { + toys.optargs++; + continue; + } + print_mbr(1); + move_fd(); + toys.optargs++; + } + } + toys.exitval = 0; + return; + } else { + if (!toys.optc || toys.optc > 1 ) { + toys.exitval = toys.exithelp = 1; + show_help(); + return; + } + if (read_mbr(toys.optargs[0], 1)) return; + while (1) { + xputc('\n'); + char *msg = "Command ('m' for help): "; + choice = 0x20 | read_input(msg, NULL); + switch (choice) { + case 'a': + p = ask_partition(num_parts); + toggle_active_flag(p - 1); //partition table index start from 0. + break; + case 'b': + break; + case 'c': + dos_flag = !dos_flag; + xprintf("Dos compatible flag is %s\n", dos_flag?"Set" : "Not set"); + break; + case 'd': + p = get_non_free_partition(num_parts); //4 was here + if(p >= 0) delete_partition(p); + break; + case 'l': + list_types(); + break; + case 'n': //add new partition + add_new_partition(); + break; + case 'o': + create_empty_doslabel(); + break; + case 'p': + print_mbr(0); + break; + case 'q': + free_bufs(); + close(dev_fd); + xputc('\n'); + exit(0); + break; + case 's': + break; + case 't': + change_systype(); + break; + case 'u': + disp_unit_cyl = !disp_unit_cyl; + xprintf("Changing Display/Entry units to %s\n",disp_unit_cyl?"cylinders" : "sectors"); + break; + case 'v': + verify_table(); + break; + case 'w': + write_table(); + toys.exitval = 0; + return; + break; + case 'x': + expert_menu(); + break; + case 'm': + print_menu(); + break; + default: + xprintf("%c: Unknown command\n",choice); + break; + } + } //while(1) + } +} |