/* luksrku - Tool to remotely unlock LUKS disks using TLS. Copyright (C) 2016-2019 Johannes Bauer This file is part of luksrku. luksrku 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; this program is ONLY licensed under version 3 of the License, later versions are explicitly excluded. luksrku 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 luksrku; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Johannes Bauer */ #include #include #include #include #include #include #include "keydb.h" #include "util.h" #include "uuid.h" #include "log.h" static unsigned int keydb_getsize_hostcount(unsigned int host_count) { return sizeof(struct keydb_t) + (host_count * sizeof(struct host_entry_t)); } static unsigned int keydb_getsize(const struct keydb_t *keydb) { return keydb_getsize_hostcount(keydb->host_count); } struct keydb_t* keydb_new(void) { struct keydb_t *keydb = calloc(sizeof(struct keydb_t), 1); keydb->keydb_version = KEYDB_VERSION; keydb->server_database = true; return keydb; } void keydb_free(struct keydb_t *keydb) { memset(keydb, 0, keydb_getsize(keydb)); free(keydb); } bool keydb_add_host(struct keydb_t **keydb, const char *host_name) { struct keydb_t *old_keydb = *keydb; if (keydb_get_host_by_name(old_keydb, host_name)) { log_msg(LLVL_ERROR, "Host name \"%s\" already present in key database.", host_name); return false; } struct keydb_t *new_keydb = realloc(old_keydb, keydb_getsize_hostcount(old_keydb->host_count + 1)); if (!new_keydb) { return false; } *keydb = new_keydb; struct host_entry_t *host = &new_keydb->hosts[new_keydb->host_count]; memset(host, 0, sizeof(struct host_entry_t)); if (!uuid_randomize(host->host_uuid)) { /* We keep the reallocation but do not increase the host count */ return false; } strncpy(host->host_name, host_name, sizeof(host->host_name) - 1); if (!buffer_randomize(host->tls_psk, sizeof(host->tls_psk))) { /* We keep the reallocation but do not increase the host count */ return false; } new_keydb->host_count++; return true; } bool keydb_add_volume(struct host_entry_t *host, const char *devmapper_name, const uint8_t volume_uuid[static 16]) { if (host->volume_count == MAX_VOLUMES_PER_HOST) { log_msg(LLVL_ERROR, "Host \"%s\" already has maximum number of volumes (%d).", host->host_name, MAX_VOLUMES_PER_HOST); return false; } if (keydb_get_volume_by_name(host, devmapper_name)) { log_msg(LLVL_ERROR, "Volume name \"%s\" already present for host \"%s\" entry.", devmapper_name, host->host_name); return false; } struct volume_entry_t *volume = &host->volumes[host->volume_count]; memcpy(volume->volume_uuid, volume_uuid, 16); strncpy(volume->devmapper_name, devmapper_name, sizeof(volume->devmapper_name) - 1); if (!buffer_randomize(volume->luks_passphrase, sizeof(volume->luks_passphrase))) { log_msg(LLVL_ERROR, "Failed to produce %d bytes of entropy for LUKS passphrase.", sizeof(volume->luks_passphrase)); return false; } host->volume_count++; return true; } int keydb_get_volume_index_by_name(struct host_entry_t *host, const char *devmapper_name) { for (unsigned int i = 0; i < host->volume_count; i++) { struct volume_entry_t *volume = &host->volumes[i]; if (!strcasecmp(volume->devmapper_name, devmapper_name)) { return i; } } return -1; } struct volume_entry_t *keydb_get_volume_by_name(struct host_entry_t *host, const char *devmapper_name) { const int index = keydb_get_volume_index_by_name(host, devmapper_name); return (index >= 0) ? &host->volumes[index] : NULL; } int keydb_get_host_index_by_name(struct keydb_t *keydb, const char *host_name) { for (unsigned int i = 0; i < keydb->host_count; i++) { struct host_entry_t *host = &keydb->hosts[i]; if (!strcasecmp(host->host_name, host_name)) { return i; } } return -1; } bool keydb_get_volume_luks_passphrase(const struct volume_entry_t *volume, char *dest) { return ascii_encode(dest, volume->luks_passphrase, sizeof(volume->luks_passphrase)); } struct host_entry_t *keydb_get_host_by_name(struct keydb_t *keydb, const char *host_name) { const int index = keydb_get_host_index_by_name(keydb, host_name); return (index >= 0) ? &keydb->hosts[index] : NULL; } bool keydb_write(const struct keydb_t *keydb, const char *filename, const char *passphrase) { enum kdf_t kdf; if ((!passphrase) || (strlen(passphrase) == 0)) { /* For empty password, we can also use garbage KDF */ kdf = KDF_PBKDF2_SHA256_1000; } else { kdf = KDF_SCRYPT_N17_r8_p1; } return write_encrypted_file(filename, keydb, keydb_getsize(keydb), passphrase, kdf); } struct keydb_t* keydb_read(const char *filename) { struct decrypted_file_t decrypted_file = read_encrypted_file(filename); if (!decrypted_file.success) { return NULL; } struct keydb_t *keydb = (struct keydb_t*)decrypted_file.data; if (keydb->keydb_version != KEYDB_VERSION) { log_msg(LLVL_ERROR, "keydb in %s could be read, but is of version %u (we expected %u).", keydb->keydb_version, KEYDB_VERSION); OPENSSL_cleanse(decrypted_file.data, decrypted_file.data_length); free(decrypted_file.data); return NULL; } if (decrypted_file.data_length != keydb_getsize(keydb)) { log_msg(LLVL_ERROR, "keydb in %s could be read, but was %u bytes long (we expected %u).", decrypted_file.data_length, keydb_getsize(keydb)); OPENSSL_cleanse(decrypted_file.data, decrypted_file.data_length); free(decrypted_file.data); return NULL; } return keydb; }