int LUKS1_activate(struct crypt_device *cd, const char *name, struct volume_key *vk, uint32_t flags) { int r; char *dm_cipher = NULL; enum devcheck device_check; struct crypt_dm_active_device dmd = { .target = DM_CRYPT, .uuid = crypt_get_uuid(cd), .flags = flags, .size = 0, .data_device = crypt_data_device(cd), .u.crypt = { .cipher = NULL, .vk = vk, .offset = crypt_get_data_offset(cd), .iv_offset = 0, .sector_size = crypt_get_sector_size(cd), } }; if (dmd.flags & CRYPT_ACTIVATE_SHARED) device_check = DEV_SHARED; else device_check = DEV_EXCL; r = device_block_adjust(cd, dmd.data_device, device_check, dmd.u.crypt.offset, &dmd.size, &dmd.flags); if (r) return r; r = asprintf(&dm_cipher, "%s-%s", crypt_get_cipher(cd), crypt_get_cipher_mode(cd)); if (r < 0) return -ENOMEM; dmd.u.crypt.cipher = dm_cipher; r = dm_create_device(cd, name, CRYPT_LUKS1, &dmd, 0); free(dm_cipher); return r; }
int LUKS1_activate(struct crypt_device *cd, const char *name, struct volume_key *vk, uint32_t flags) { int r; struct crypt_dm_active_device dmd = { .flags = flags, .uuid = crypt_get_uuid(cd), }; r = dm_crypt_target_set(&dmd.segment, 0, dmd.size, crypt_data_device(cd), vk, crypt_get_cipher_spec(cd), crypt_get_iv_offset(cd), crypt_get_data_offset(cd), crypt_get_integrity(cd), crypt_get_integrity_tag_size(cd), crypt_get_sector_size(cd)); if (!r) r = create_or_reload_device(cd, name, CRYPT_LUKS1, &dmd); dm_targets_free(cd, &dmd); return r; }
static int action_format(int arg) { struct crypt_device *cd = NULL; struct crypt_params_integrity params = { .journal_size = opt_journal_size, .interleave_sectors = opt_interleave_sectors, /* in bitmap mode we have to overload these values... */ .journal_watermark = opt_integrity_bitmap ? opt_bitmap_sectors_per_bit : opt_journal_watermark, .journal_commit_time = opt_integrity_bitmap ? opt_bitmap_flush_time : opt_journal_commit_time, .buffer_sectors = opt_buffer_sectors, .tag_size = opt_tag_size, .sector_size = opt_sector_size ?: SECTOR_SIZE, }; char integrity[MAX_CIPHER_LEN], journal_integrity[MAX_CIPHER_LEN], journal_crypt[MAX_CIPHER_LEN]; char *integrity_key = NULL, *msg = NULL; int r; size_t signatures; if (opt_integrity) { r = crypt_parse_hash_integrity_mode(opt_integrity, integrity); if (r < 0) { log_err(_("No known integrity specification pattern detected.")); return r; } params.integrity = integrity; } if (opt_journal_integrity) { r = crypt_parse_hash_integrity_mode(opt_journal_integrity, journal_integrity); if (r < 0) { log_err(_("No known integrity specification pattern detected.")); return r; } params.journal_integrity = journal_integrity; } if (opt_journal_crypt) { r = crypt_parse_hash_integrity_mode(opt_journal_crypt, journal_crypt); if (r < 0) { log_err(_("No known integrity specification pattern detected.")); return r; } params.journal_crypt = journal_crypt; } r = _read_keys(&integrity_key, ¶ms); if (r) goto out; r = crypt_init_data_device(&cd, action_argv[0], opt_data_device); if (r < 0) goto out; r = asprintf(&msg, _("This will overwrite data on %s irrevocably."), action_argv[0]); if (r == -1) { r = -ENOMEM; goto out; } r = yesDialog(msg, _("Operation aborted.\n")) ? 0 : -EINVAL; free(msg); if (r < 0) goto out; r = tools_detect_signatures(action_argv[0], 0, &signatures); if (r < 0) goto out; /* Signature candidates found */ if (signatures && ((r = tools_wipe_all_signatures(action_argv[0])) < 0)) goto out; r = crypt_format(cd, CRYPT_INTEGRITY, NULL, NULL, NULL, NULL, 0, ¶ms); if (r < 0) /* FIXME: call wipe signatures again */ goto out; if (!opt_batch_mode) log_std(_("Formatted with tag size %u, internal integrity %s.\n"), opt_tag_size, opt_integrity); if (!opt_no_wipe) r = _wipe_data_device(cd, integrity_key); out: crypt_safe_free(integrity_key); crypt_safe_free(CONST_CAST(void*)params.journal_integrity_key); crypt_safe_free(CONST_CAST(void*)params.journal_crypt_key); crypt_free(cd); return r; } static int action_open(int arg) { struct crypt_device *cd = NULL; struct crypt_params_integrity params = { /* in bitmap mode we have to overload these values... */ .journal_watermark = opt_integrity_bitmap ? opt_bitmap_sectors_per_bit : opt_journal_watermark, .journal_commit_time = opt_integrity_bitmap ? opt_bitmap_flush_time : opt_journal_commit_time, .buffer_sectors = opt_buffer_sectors, }; uint32_t activate_flags = 0; char integrity[MAX_CIPHER_LEN], journal_integrity[MAX_CIPHER_LEN], journal_crypt[MAX_CIPHER_LEN]; char *integrity_key = NULL; int r; if (opt_integrity) { r = crypt_parse_hash_integrity_mode(opt_integrity, integrity); if (r < 0) { log_err(_("No known integrity specification pattern detected.")); return r; } params.integrity = integrity; } if (opt_journal_integrity) { r = crypt_parse_hash_integrity_mode(opt_journal_integrity, journal_integrity); if (r < 0) { log_err(_("No known integrity specification pattern detected.")); return r; } params.journal_integrity = journal_integrity; } if (opt_journal_crypt) { r = crypt_parse_hash_integrity_mode(opt_journal_crypt, journal_crypt); if (r < 0) { log_err(_("No known integrity specification pattern detected.")); return r; } params.journal_crypt = journal_crypt; } if (opt_integrity_nojournal || opt_integrity_bitmap) activate_flags |= CRYPT_ACTIVATE_NO_JOURNAL; if (opt_integrity_recovery) activate_flags |= CRYPT_ACTIVATE_RECOVERY; if (opt_integrity_bitmap) activate_flags |= CRYPT_ACTIVATE_NO_JOURNAL_BITMAP; if (opt_integrity_recalculate) activate_flags |= CRYPT_ACTIVATE_RECALCULATE; r = _read_keys(&integrity_key, ¶ms); if (r) goto out; if ((r = crypt_init_data_device(&cd, action_argv[0], opt_data_device))) goto out; r = crypt_load(cd, CRYPT_INTEGRITY, ¶ms); if (r) goto out; r = crypt_activate_by_volume_key(cd, action_argv[1], integrity_key, opt_integrity_key_size, activate_flags); out: crypt_safe_free(integrity_key); crypt_safe_free(CONST_CAST(void*)params.journal_integrity_key); crypt_safe_free(CONST_CAST(void*)params.journal_crypt_key); crypt_free(cd); return r; } static int action_close(int arg) { struct crypt_device *cd = NULL; int r; r = crypt_init_by_name(&cd, action_argv[0]); if (r == 0) r = crypt_deactivate(cd, action_argv[0]); crypt_free(cd); return r; } static int action_status(int arg) { crypt_status_info ci; struct crypt_active_device cad; struct crypt_params_integrity ip = {}; struct crypt_device *cd = NULL; char *backing_file; const char *device, *metadata_device; int path = 0, r = 0; /* perhaps a path, not a dm device name */ if (strchr(action_argv[0], '/')) path = 1; ci = crypt_status(NULL, action_argv[0]); switch (ci) { case CRYPT_INVALID: r = -EINVAL; break; case CRYPT_INACTIVE: if (path) log_std("%s is inactive.\n", action_argv[0]); else log_std("%s/%s is inactive.\n", crypt_get_dir(), action_argv[0]); r = -ENODEV; break; case CRYPT_ACTIVE: case CRYPT_BUSY: if (path) log_std("%s is active%s.\n", action_argv[0], ci == CRYPT_BUSY ? " and is in use" : ""); else log_std("%s/%s is active%s.\n", crypt_get_dir(), action_argv[0], ci == CRYPT_BUSY ? " and is in use" : ""); r = crypt_init_by_name_and_header(&cd, action_argv[0], NULL); if (r < 0) goto out; log_std(" type: %s\n", crypt_get_type(cd) ?: "n/a"); r = crypt_get_active_device(cd, action_argv[0], &cad); if (r < 0) goto out; r = crypt_get_integrity_info(cd, &ip); if (r < 0) goto out; log_std(" tag size: %u\n", ip.tag_size); log_std(" integrity: %s\n", ip.integrity ?: "(none)"); device = crypt_get_device_name(cd); metadata_device = crypt_get_metadata_device_name(cd); log_std(" device: %s%s\n", device, metadata_device ? " (detached)" : ""); if (crypt_loop_device(device)) { backing_file = crypt_loop_backing_file(device); log_std(" loop: %s\n", backing_file); free(backing_file); } if (metadata_device) { log_std(" metadata device: %s\n", metadata_device); if (crypt_loop_device(metadata_device)) { backing_file = crypt_loop_backing_file(metadata_device); log_std(" loop: %s\n", backing_file); free(backing_file); } } log_std(" sector size: %u bytes\n", crypt_get_sector_size(cd)); log_std(" interleave sectors: %u\n", ip.interleave_sectors); log_std(" size: %" PRIu64 " sectors\n", cad.size); log_std(" mode: %s%s\n", cad.flags & CRYPT_ACTIVATE_READONLY ? "readonly" : "read/write", cad.flags & CRYPT_ACTIVATE_RECOVERY ? " recovery" : ""); log_std(" failures: %" PRIu64 "\n", crypt_get_active_integrity_failures(cd, action_argv[0])); if (cad.flags & CRYPT_ACTIVATE_NO_JOURNAL_BITMAP) { log_std(" bitmap 512-byte sectors per bit: %u\n", ip.journal_watermark); log_std(" bitmap flush interval: %u ms\n", ip.journal_commit_time); } if (cad.flags & CRYPT_ACTIVATE_NO_JOURNAL) { log_std(" journal: not active\n"); } else { log_std(" journal size: %" PRIu64 " bytes\n", ip.journal_size); log_std(" journal watermark: %u%%\n", ip.journal_watermark); log_std(" journal commit time: %u ms\n", ip.journal_commit_time); if (ip.journal_integrity) log_std(" journal integrity MAC: %s\n", ip.journal_integrity); if (ip.journal_crypt) log_std(" journal encryption: %s\n", ip.journal_crypt); } } out: crypt_free(cd); if (r == -ENOTSUP) r = 0; return r; return -EINVAL; } static int action_dump(int arg) { struct crypt_device *cd = NULL; struct crypt_params_integrity params = {}; int r; if ((r = crypt_init(&cd, action_argv[0]))) return r; r = crypt_load(cd, CRYPT_INTEGRITY, ¶ms); if (!r) crypt_dump(cd); crypt_free(cd); return r; } static struct action_type { const char *type; int (*handler)(int); int required_action_argc; const char *arg_desc; const char *desc; } action_types[] = { { "format", action_format, 1, N_("<integrity_device>"),N_("format device") }, { "open", action_open, 2, N_("<integrity_device> <name>"),N_("open device as <name>") }, { "close", action_close, 1, N_("<name>"),N_("close device (deactivate and remove mapping)") }, { "status", action_status, 1, N_("<name>"),N_("show active device status") }, { "dump", action_dump, 1, N_("<integrity_device>"),N_("show on-disk information") }, { NULL, NULL, 0, NULL, NULL } }; static void help(poptContext popt_context, enum poptCallbackReason reason __attribute__((unused)), struct poptOption *key, const char *arg __attribute__((unused)), void *data __attribute__((unused))) { struct action_type *action; if (key->shortName == '?') { log_std("%s %s\n", PACKAGE_INTEGRITY, PACKAGE_VERSION); poptPrintHelp(popt_context, stdout, 0); log_std(_("\n" "<action> is one of:\n")); for(action = action_types; action->type; action++) log_std("\t%s %s - %s\n", action->type, _(action->arg_desc), _(action->desc)); log_std(_("\n" "<name> is the device to create under %s\n" "<integrity_device> is the device containing data with integrity tags\n"), crypt_get_dir()); log_std(_("\nDefault compiled-in dm-integrity parameters:\n" "\tTag size: %u bytes, Checksum algorithm: %s\n"), DEFAULT_TAG_SIZE, DEFAULT_ALG_NAME); exit(EXIT_SUCCESS); } else usage(popt_context, EXIT_SUCCESS, NULL, NULL); } static int run_action(struct action_type *action) { int r; log_dbg("Running command %s.", action->type); r = action->handler(0); show_status(r); return translate_errno(r); }