/* * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License v2 as published by the Free Software Foundation. * * This program 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 this program; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 021110-1307, USA. */ #include "kerncompat.h" #include #include #include #include #include #include #include #include #include #include "crypto/crc32c.h" #include "kernel-shared/disk-io.h" #define BLOCKSIZE (4096) static char buf[BLOCKSIZE]; static int csum_size; static int check_csum_superblock(void *sb) { u8 result[BTRFS_CSUM_SIZE]; u16 csum_type = btrfs_super_csum_type(sb); btrfs_csum_data(csum_type, (unsigned char *)sb + BTRFS_CSUM_SIZE, result, BTRFS_SUPER_INFO_SIZE - BTRFS_CSUM_SIZE); return !memcmp(sb, result, csum_size); } static void update_block_csum(void *block) { u8 result[BTRFS_CSUM_SIZE]; struct btrfs_header *hdr; u16 csum_type = btrfs_super_csum_type(block); btrfs_csum_data(csum_type, (unsigned char *)block + BTRFS_CSUM_SIZE, result, BTRFS_SUPER_INFO_SIZE - BTRFS_CSUM_SIZE); memset(block, 0, BTRFS_CSUM_SIZE); hdr = (struct btrfs_header *)block; memcpy(&hdr->csum, result, csum_size); } static u64 arg_strtou64(const char *str) { u64 value; char *ptr_parse_end = NULL; value = strtoull(str, &ptr_parse_end, 0); if (ptr_parse_end && *ptr_parse_end != '\0') { fprintf(stderr, "ERROR: %s is not a valid numeric value.\n", str); exit(1); } /* * if we pass a negative number to strtoull, it will return an * unexpected number to us, so let's do the check ourselves. */ if (str[0] == '-') { fprintf(stderr, "ERROR: %s: negative value is invalid.\n", str); exit(1); } if (value == ULLONG_MAX) { fprintf(stderr, "ERROR: %s is too large.\n", str); exit(1); } return value; } enum field_op { OP_GET, OP_SET, OP_ADD, OP_SUB, OP_XOR, OP_NAND, /* broken */ OP_BSWAP, }; struct fspec { const char *name; enum field_op fop; u64 value; }; enum field_type { TYPE_UNKNOWN, TYPE_U8, TYPE_U16, TYPE_U32, TYPE_U64, }; struct sb_field { const char *name; enum field_type type; } known_fields[] = { { .name = "bytenr", .type = TYPE_U64 }, { .name = "flags", .type = TYPE_U64 }, { .name = "magic", .type = TYPE_U64 }, { .name = "generation", .type = TYPE_U64 }, { .name = "root", .type = TYPE_U64 }, { .name = "chunk_root", .type = TYPE_U64 }, { .name = "log_root", .type = TYPE_U64 }, { .name = "log_root_transid", .type = TYPE_U64 }, { .name = "total_bytes", .type = TYPE_U64 }, { .name = "bytes_used", .type = TYPE_U64 }, { .name = "root_dir_objectid", .type = TYPE_U64 }, { .name = "num_devices", .type = TYPE_U64 }, { .name = "sectorsize", .type = TYPE_U32 }, { .name = "nodesize", .type = TYPE_U32 }, { .name = "stripesize", .type = TYPE_U32 }, { .name = "sys_chunk_array_size", .type = TYPE_U32 }, { .name = "chunk_root_generation", .type = TYPE_U64 }, { .name = "compat_flags", .type = TYPE_U64 }, { .name = "compat_ro_flags", .type = TYPE_U64 }, { .name = "incompat_flags", .type = TYPE_U64 }, { .name = "csum_type", .type = TYPE_U16 }, { .name = "root_level", .type = TYPE_U8 }, { .name = "chunk_root_level", .type = TYPE_U8 }, { .name = "log_root_level", .type = TYPE_U8 }, { .name = "cache_generation", .type = TYPE_U64 }, { .name = "uuid_tree_generation", .type = TYPE_U64 }, /* Device item members */ { .name = "dev_item.devid", .type = TYPE_U64 }, { .name = "dev_item.total_bytes", .type = TYPE_U64 }, { .name = "dev_item.bytes_used", .type = TYPE_U64 }, { .name = "dev_item.io_align", .type = TYPE_U32 }, { .name = "dev_item.io_width", .type = TYPE_U32 }, { .name = "dev_item.sector_size", .type = TYPE_U32 }, { .name = "dev_item.type", .type = TYPE_U64 }, { .name = "dev_item.generation", .type = TYPE_U64 }, { .name = "dev_item.start_offset", .type = TYPE_U64 }, { .name = "dev_item.dev_group", .type = TYPE_U32 }, { .name = "dev_item.seek_speed", .type = TYPE_U8 }, { .name = "dev_item.bandwidth", .type = TYPE_U8 }, }; #define MOD_FIELD_XX(fname, set, val, bits, f_dec, f_hex, f_type) \ else if (strcmp(name, #fname) == 0) { \ if (set) { \ printf("SET: "#fname" "f_dec" (0x"f_hex")\n", \ (f_type)*val, (f_type)*val); \ sb->fname = cpu_to_le##bits(*val); \ } else { \ *val = le##bits##_to_cpu(sb->fname); \ printf("GET: "#fname" "f_dec" (0x"f_hex")\n", \ (f_type)*val, (f_type)*val); \ } \ } #define MOD_DEV_FIELD_XX(fname, set, val, bits, f_dec, f_hex, f_type) \ else if (strcmp(name, "dev_item." #fname) == 0) { \ if (set) { \ printf("SET: dev_item."#fname" "f_dec" (0x"f_hex")\n", \ (f_type)*val, (f_type)*val); \ sb->dev_item.fname = cpu_to_le##bits(*val); \ } else { \ *val = le##bits##_to_cpu(sb->dev_item.fname); \ printf("GET: dev_item."#fname" "f_dec" (0x"f_hex")\n", \ (f_type)*val, (f_type)*val); \ } \ } #define MOD_FIELD64(fname, set, val) \ MOD_FIELD_XX(fname, set, val, 64, "%llu", "%llx", unsigned long long) #define MOD_DEV_FIELD64(fname, set, val) \ MOD_DEV_FIELD_XX(fname, set, val, 64, "%llu", "%llx", unsigned long long) /* Alias for u64 */ #define MOD_FIELD(fname, set, val) MOD_FIELD64(fname, set, val) #define MOD_DEV_FIELD(fname, set, val) MOD_DEV_FIELD64(fname, set, val) /* * Support only GET and SET properly, ADD and SUB may work */ #define MOD_FIELD32(fname, set, val) \ MOD_FIELD_XX(fname, set, val, 32, "%u", "%x", unsigned int) #define MOD_FIELD16(fname, set, val) \ MOD_FIELD_XX(fname, set, val, 16, "%hu", "%hx", unsigned short int) #define MOD_FIELD8(fname, set, val) \ MOD_FIELD_XX(fname, set, val, 8, "%hhu", "%hhx", unsigned char) #define MOD_DEV_FIELD32(fname, set, val) \ MOD_DEV_FIELD_XX(fname, set, val, 32, "%u", "%x", unsigned int) #define MOD_DEV_FIELD16(fname, set, val) \ MOD_DEV_FIELD_XX(fname, set, val, 16, "%hu", "%hx", unsigned short int) #define MOD_DEV_FIELD8(fname, set, val) \ MOD_DEV_FIELD_XX(fname, set, val, 8, "%hhu", "%hhx", unsigned char) static void mod_field_by_name(struct btrfs_super_block *sb, int set, const char *name, u64 *val) { if (0) { } MOD_FIELD(bytenr, set, val) MOD_FIELD(flags, set, val) MOD_FIELD(magic, set, val) MOD_FIELD(generation, set, val) MOD_FIELD(root, set, val) MOD_FIELD(chunk_root, set, val) MOD_FIELD(log_root, set, val) MOD_FIELD(log_root_transid, set, val) MOD_FIELD(total_bytes, set, val) MOD_FIELD(bytes_used, set, val) MOD_FIELD(root_dir_objectid, set, val) MOD_FIELD(num_devices, set, val) MOD_FIELD32(sectorsize, set, val) MOD_FIELD32(nodesize, set, val) MOD_FIELD32(stripesize, set, val) MOD_FIELD32(sys_chunk_array_size, set, val) MOD_FIELD(chunk_root_generation, set, val) MOD_FIELD(compat_flags, set, val) MOD_FIELD(compat_ro_flags, set, val) MOD_FIELD(incompat_flags, set, val) MOD_FIELD16(csum_type, set, val) MOD_FIELD8(root_level, set, val) MOD_FIELD8(chunk_root_level, set, val) MOD_FIELD8(log_root_level, set, val) MOD_FIELD(cache_generation, set, val) MOD_FIELD(uuid_tree_generation, set, val) MOD_DEV_FIELD(devid, set, val) MOD_DEV_FIELD(total_bytes, set, val) MOD_DEV_FIELD(bytes_used, set, val) MOD_DEV_FIELD32(io_align, set, val) MOD_DEV_FIELD32(io_width, set, val) MOD_DEV_FIELD32(sector_size, set, val) MOD_DEV_FIELD(type, set, val) MOD_DEV_FIELD(generation, set, val) MOD_DEV_FIELD(start_offset, set, val) MOD_DEV_FIELD32(dev_group, set, val) MOD_DEV_FIELD8(seek_speed, set, val) MOD_DEV_FIELD8(bandwidth, set, val) else { printf("ERROR: unhandled field: %s\n", name); exit(1); } } static int sb_edit(struct btrfs_super_block *sb, struct fspec *fsp) { u64 val; u64 newval; mod_field_by_name(sb, 0, fsp->name, &val); switch (fsp->fop) { case OP_GET: newval = val; break; case OP_SET: newval = fsp->value; break; case OP_ADD: newval = val + fsp->value; break; case OP_SUB: newval = val - fsp->value; break; case OP_XOR: newval = val ^ fsp->value; break; case OP_NAND: newval = val & (~fsp->value); break; case OP_BSWAP: newval = bswap_64(val); break; default: printf("ERROR: unhandled operation: %d\n", fsp->fop); exit(1); } mod_field_by_name(sb, 1, fsp->name, &newval); return 0; } static int is_known_field(const char *f) { int i; for (i = 0; i < ARRAY_SIZE(known_fields); i++) if (strcmp(f, known_fields[i].name) == 0) return 1; return 0; } static int arg_to_op_value(const char *arg, enum field_op *op, u64 *val) { switch (arg[0]) { case 0: return -1; case '.': case '?': *op = OP_GET; *val = 0; break; case '=': *op = OP_SET; *val = arg_strtou64(arg + 1); break; case '+': *op = OP_ADD; *val = arg_strtou64(arg + 1); break; case '-': *op = OP_SUB; *val = arg_strtou64(arg + 1); break; case '^': *op = OP_XOR; *val = arg_strtou64(arg + 1); break; case '~': *op = OP_NAND; *val = arg_strtou64(arg + 1); break; case '@': *op = OP_BSWAP; *val = arg_strtou64(arg + 1); break; default: printf("ERROR: unknown op: %c\n", arg[0]); return -1; } return 0; } int main(int argc, char **argv) { int fd; loff_t off; int ret; struct btrfs_header *hdr; struct btrfs_super_block *sb; int i; struct fspec spec[128]; int specidx; int changed; memset(spec, 0, sizeof(spec)); if (argc <= 2) { printf("Usage: %s image [fieldspec...]\n", argv[0]); printf("Where fileldspec is: member op\n"); printf(" member: name of the superblock member\n"); printf(" op: single character optionally followed by a value\n"); printf(" . read the member value (no value)\n"); printf(" ? read the member value (no value)\n"); printf(" = set member to the exact value (value required)\n"); printf(" + add this value to member (value required)\n"); printf(" - subtract this value from member (value required)\n"); printf(" ^ xor member with this value (value required)\n"); printf(" @ byteswap of the member (no value)\n"); exit(1); } fd = open(argv[1], O_RDWR | O_EXCL); if (fd == -1) { perror("open()"); exit(1); } /* verify superblock */ csum_size = btrfs_csum_type_size(BTRFS_CSUM_TYPE_CRC32); off = BTRFS_SUPER_INFO_OFFSET; ret = pread(fd, buf, BLOCKSIZE, off); if (ret <= 0) { printf("pread error %d at offset %llu\n", ret, (unsigned long long)off); exit(1); } if (ret != BLOCKSIZE) { printf("pread error at offset %llu: read only %d bytes\n", (unsigned long long)off, ret); exit(1); } hdr = (struct btrfs_header *)buf; /* verify checksum */ if (!check_csum_superblock(&hdr->csum)) { printf("super block checksum does not match at offset %llu, will be corrected\n", (unsigned long long)off); } else { printf("super block checksum is ok\n"); } sb = (struct btrfs_super_block *)buf; changed = 0; specidx = 0; for (i = 2; i < argc; i++) { struct fspec *f; if (i + 1 >= argc) { printf("ERROR: bad argument count\n"); ret = 1; goto out; } if (!is_known_field(argv[i])) { printf("ERROR: unknown filed: %s\n", argv[i]); ret = 1; goto out; } f = &spec[specidx]; specidx++; f->name = strdup(argv[i]); i++; if (arg_to_op_value(argv[i], &f->fop, &f->value)) { ret = 1; goto out; } } for (i = 0; i < specidx; i++) { sb_edit(sb, &spec[i]); changed = 1; } if (changed) { printf("Update csum\n"); update_block_csum(buf); ret = pwrite(fd, buf, BLOCKSIZE, off); if (ret <= 0) { printf("pwrite error %d at offset %llu\n", ret, (unsigned long long)off); exit(1); } if (ret != BLOCKSIZE) { printf("pwrite error at offset %llu: written only %d bytes\n", (unsigned long long)off, ret); exit(1); } fsync(fd); } else { printf("Nothing changed\n"); } ret = 0; out: close(fd); return ret; }