/* * keydb_fs.c - Routines to store and fetch keys in a filesystem hierarchy. * * Copyright 2004 Daniel Silverstone * * This program 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; version 2 of the License. * * 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., 51 * Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include "charfuncs.h" #include "decodekey.h" #include "keydb.h" #include "keyid.h" #include "keystructs.h" #include "ll.h" #include "mem.h" #include "onak-conf.h" #include "parsekey.h" #include "log.h" #include "wordlist.h" /* Hack: We should really dynamically allocate our path buffers */ #ifndef PATH_MAX #define PATH_MAX 1024 #endif static int keydb_lockfile_fd = -1; static bool keydb_lockfile_readonly; /*****************************************************************************/ /* Helper functions */ #define FNV_offset_basis 2166136261ul #define FNV_mixing_prime 16777619ul static uint32_t calchash(uint8_t * ptr) { register uint32_t h = FNV_offset_basis; register uint32_t p = FNV_mixing_prime; register uint32_t n = strlen((char *) ptr); register uint8_t *c = ptr; while (n--) { h *= p; h ^= *c++; } return h ? h : 1; /* prevent a hash of zero happening */ } static void keypath(char *buffer, size_t length, uint64_t _keyid) { uint64_t keyid = _keyid << 32; snprintf(buffer, length, "%s/key/%02X/%02X/%08X/%016" PRIX64, config.db_dir, (uint8_t) ((keyid >> 56) & 0xFF), (uint8_t) ((keyid >> 48) & 0xFF), (uint32_t) (keyid >> 32), _keyid); } static void keydir(char *buffer, size_t length, uint64_t _keyid) { uint64_t keyid = _keyid << 32; snprintf(buffer, length, "%s/key/%02X/%02X/%08X", config.db_dir, (uint8_t) ((keyid >> 56) & 0xFF), (uint8_t) ((keyid >> 48) & 0xFF), (uint32_t) (keyid >> 32)); } static void prove_path_to(uint64_t keyid, char *what) { static char buffer[PATH_MAX]; snprintf(buffer, sizeof(buffer), "%s/%s", config.db_dir, what); mkdir(buffer, 0777); snprintf(buffer, sizeof(buffer), "%s/%s/%02X", config.db_dir, what, (uint8_t) ((keyid >> 24) & 0xFF)); mkdir(buffer, 0777); snprintf(buffer, sizeof(buffer), "%s/%s/%02X/%02X", config.db_dir, what, (uint8_t) ((keyid >> 24) & 0xFF), (uint8_t) ((keyid >> 16) & 0xFF)); mkdir(buffer, 0777); snprintf(buffer, sizeof(buffer), "%s/%s/%02X/%02X/%08X", config.db_dir, what, (uint8_t) ((keyid >> 24) & 0xFF), (uint8_t) ((keyid >> 16) & 0xFF), (uint32_t) (keyid)); mkdir(buffer, 0777); } static void wordpath(char *buffer, size_t length, char *word, uint32_t hash, uint64_t keyid) { snprintf(buffer, length, "%s/words/%02X/%02X/%08X/%s/%016" PRIX64, config.db_dir, (uint8_t) ((hash >> 24) & 0xFF), (uint8_t) ((hash >> 16) & 0xFF), hash, word, keyid); } static void worddir(char *buffer, size_t length, char *word, uint32_t hash) { snprintf(buffer, length, "%s/words/%02X/%02X/%08X/%s", config.db_dir, (uint8_t) ((hash >> 24) & 0xFF), (uint8_t) ((hash >> 16) & 0xFF), hash, word); } static void subkeypath(char *buffer, size_t length, uint64_t subkey, uint64_t keyid) { snprintf(buffer, length, "%s/subkeys/%02X/%02X/%08X/%016" PRIX64, config.db_dir, (uint8_t) ((subkey >> 24) & 0xFF), (uint8_t) ((subkey >> 16) & 0xFF), (uint32_t) (subkey & 0xFFFFFFFF), keyid); } static void skshashpath(char *buffer, size_t length, const struct skshash *hash) { snprintf(buffer, length, "%s/skshash/%02X/%02X/%02X%02X%02X%02X/" "%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X%02X", config.db_dir, hash->hash[0], hash->hash[1], hash->hash[0], hash->hash[1], hash->hash[2], hash->hash[3], hash->hash[4], hash->hash[5], hash->hash[6], hash->hash[7], hash->hash[8], hash->hash[9], hash->hash[10], hash->hash[11], hash->hash[12], hash->hash[13], hash->hash[14], hash->hash[15]); } static void subkeydir(char *buffer, size_t length, uint64_t subkey) { snprintf(buffer, length, "%s/subkeys/%02X/%02X/%08X", config.db_dir, (uint8_t) ((subkey >> 24) & 0xFF), (uint8_t) ((subkey >> 16) & 0xFF), (uint32_t) (subkey & 0xFFFFFFFF)); } /*****************************************************************************/ /** * initdb - Initialize the key database. */ static void fs_initdb(bool readonly) { char buffer[PATH_MAX]; keydb_lockfile_readonly = readonly; snprintf(buffer, sizeof(buffer), "%s/.lock", config.db_dir); if (access(config.db_dir, R_OK | W_OK | X_OK) == -1) { if (errno != ENOENT) { logthing(LOGTHING_CRITICAL, "Unable to access keydb_fs root of '%s'. (%s)", config.db_dir, strerror(errno)); exit(1); /* Lacking rwx on the key dir */ } mkdir(config.db_dir, 0777); keydb_lockfile_fd = open(buffer, O_RDWR | O_CREAT, 0600); } chdir(config.db_dir); if (keydb_lockfile_fd == -1) keydb_lockfile_fd = open(buffer, (keydb_lockfile_readonly) ? O_RDONLY : O_RDWR); if (keydb_lockfile_fd == -1) keydb_lockfile_fd = open(buffer, O_RDWR | O_CREAT, 0600); if (keydb_lockfile_fd == -1) { logthing(LOGTHING_CRITICAL, "Unable to open lockfile '%s'. (%s)", buffer, strerror(errno)); exit(1); /* Lacking rwx on the key dir */ } } /** * cleanupdb - De-initialize the key database. */ static void fs_cleanupdb(void) { /* Mmmm nothing to do here? */ close(keydb_lockfile_fd); } /** * starttrans - Start a transaction. */ static bool fs_starttrans(void) { struct flock lockstruct; int remaining = 20; lockstruct.l_type = F_RDLCK | ((keydb_lockfile_readonly) ? 0 : F_WRLCK); lockstruct.l_whence = SEEK_SET; lockstruct.l_start = 0; lockstruct.l_len = 1; while (fcntl(keydb_lockfile_fd, F_SETLK, &lockstruct) == -1) { if (remaining-- == 0) return false; /* Hope to hell that noodles DTRT */ usleep(100); } return true; } /** * endtrans - End a transaction. */ static void fs_endtrans(void) { struct flock lockstruct; lockstruct.l_type = F_UNLCK; lockstruct.l_whence = SEEK_SET; lockstruct.l_start = 0; lockstruct.l_len = 1; fcntl(keydb_lockfile_fd, F_SETLK, &lockstruct); } static uint64_t fs_getfullkeyid(uint64_t keyid) { static char buffer[PATH_MAX]; DIR *d = NULL; struct dirent *de = NULL; uint64_t ret = 0; keydir(buffer, sizeof(buffer), keyid); d = opendir(buffer); if (d) { do { de = readdir(d); if (de && de->d_name[0] != '.') { ret = strtoull(de->d_name, NULL, 16); } } while (de && de->d_name[0] == '.'); closedir(d); } if (ret == 0) { subkeydir(buffer, sizeof(buffer), keyid); d = opendir(buffer); if (d) { do { de = readdir(d); if (de && de->d_name[0] != '.') { ret = strtoull(de->d_name, NULL, 16); } } while (de && de->d_name[0] == '.'); closedir(d); } } return ret; } /** * fetch_key - Given a keyid fetch the key from storage. * @keyid: The keyid to fetch. * @publickey: A pointer to a structure to return the key in. * @intrans: If we're already in a transaction. */ static int fs_fetch_key(uint64_t keyid, struct openpgp_publickey **publickey, bool intrans) { static char buffer[PATH_MAX]; int ret = 0, fd; struct openpgp_packet_list *packets = NULL; if (!intrans) fs_starttrans(); if ((keyid >> 32) == 0) keyid = fs_getfullkeyid(keyid); keypath(buffer, sizeof(buffer), keyid); if ((fd = open(buffer, O_RDONLY)) != -1) { /* File is present, load it in... */ read_openpgp_stream(file_fetchchar, &fd, &packets, 0); parse_keys(packets, publickey); free_packet_list(packets); packets = NULL; close(fd); ret = 1; } if (!intrans) fs_endtrans(); return ret; } /** * store_key - Takes a key and stores it. * @publickey: A pointer to the public key to store. * @intrans: If we're already in a transaction. * @update: If true the key exists and should be updated. */ static int fs_store_key(struct openpgp_publickey *publickey, bool intrans, bool update) { static char buffer[PATH_MAX]; static char wbuffer[PATH_MAX]; int ret = 0, fd; struct openpgp_packet_list *packets = NULL; struct openpgp_packet_list *list_end = NULL; struct openpgp_publickey *next = NULL; uint64_t keyid; struct ll *wordlist = NULL, *wl = NULL; struct skshash hash; uint64_t *subkeyids = NULL; uint32_t hashid; int i = 0; get_keyid(publickey, &keyid); if (!intrans) fs_starttrans(); prove_path_to(keyid, "key"); keypath(buffer, sizeof(buffer), keyid); if ((fd = open(buffer, O_WRONLY | (update ? O_TRUNC : O_CREAT), 0644)) != -1) { next = publickey->next; publickey->next = NULL; flatten_publickey(publickey, &packets, &list_end); publickey->next = next; write_openpgp_stream(file_putchar, &fd, packets); close(fd); free_packet_list(packets); packets = NULL; ret = 1; } if (ret) { wl = wordlist = makewordlistfromkey(wordlist, publickey); while (wl) { uint32_t hash = calchash((uint8_t *) (wl->object)); prove_path_to(hash, "words"); worddir(wbuffer, sizeof(wbuffer), wl->object, hash); mkdir(wbuffer, 0777); wordpath(wbuffer, sizeof(wbuffer), wl->object, hash, keyid); link(buffer, wbuffer); wl = wl->next; } llfree(wordlist, free); subkeyids = keysubkeys(publickey); i = 0; while (subkeyids != NULL && subkeyids[i] != 0) { prove_path_to(subkeyids[i], "subkeys"); subkeydir(wbuffer, sizeof(wbuffer), subkeyids[i]); mkdir(wbuffer, 0777); subkeypath(wbuffer, sizeof(wbuffer), subkeyids[i], keyid); link(buffer, wbuffer); i++; } if (subkeyids != NULL) { free(subkeyids); subkeyids = NULL; } get_skshash(publickey, &hash); hashid = (hash.hash[0] << 24) + (hash.hash[1] << 16) + (hash.hash[2] << 8) + hash.hash[3]; prove_path_to(hashid, "skshash"); skshashpath(wbuffer, sizeof(wbuffer), &hash); link(buffer, wbuffer); } if (!intrans) fs_endtrans(); return ret; } /** * delete_key - Given a keyid delete the key from storage. * @keyid: The keyid to delete. * @intrans: If we're already in a transaction. */ static int fs_delete_key(uint64_t keyid, bool intrans) { static char buffer[PATH_MAX]; int ret; struct openpgp_publickey *pk = NULL; struct skshash hash; struct ll *wordlist = NULL, *wl = NULL; uint64_t *subkeyids = NULL; int i = 0; if ((keyid >> 32) == 0) keyid = fs_getfullkeyid(keyid); if (!intrans) fs_starttrans(); ret = fs_fetch_key(keyid, &pk, true); if (ret) { logthing(LOGTHING_DEBUG, "Wordlist for key %016" PRIX64, keyid); wl = wordlist = makewordlistfromkey(wordlist, pk); logthing(LOGTHING_DEBUG, "Wordlist for key %016" PRIX64 " done", keyid); while (wl) { uint32_t hash = calchash((uint8_t *) (wl->object)); prove_path_to(hash, "words"); wordpath(buffer, sizeof(buffer), wl->object, hash, keyid); unlink(buffer); wl = wl->next; } subkeyids = keysubkeys(pk); i = 0; while (subkeyids != NULL && subkeyids[i] != 0) { prove_path_to(subkeyids[i], "subkeys"); subkeypath(buffer, sizeof(buffer), subkeyids[i], keyid); unlink(buffer); i++; } if (subkeyids != NULL) { free(subkeyids); subkeyids = NULL; } get_skshash(pk, &hash); skshashpath(buffer, sizeof(buffer), &hash); unlink(buffer); } keypath(buffer, sizeof(buffer), keyid); unlink(buffer); if (!intrans) fs_endtrans(); return 1; } static struct ll *internal_get_key_by_word(char *word, struct ll *mct) { struct ll *keys = NULL; DIR *d = NULL; char buffer[PATH_MAX]; uint32_t hash = calchash((uint8_t *) (word)); struct dirent *de; worddir(buffer, sizeof(buffer), word, hash); d = opendir(buffer); logthing(LOGTHING_DEBUG, "Scanning for word %s in dir %s", word, buffer); if (d) do { de = readdir(d); if (de && de->d_name[0] != '.') { if ((!mct) || (llfind(mct, de->d_name, (int (*)(const void *, const void *)) strcmp) != NULL)) { logthing(LOGTHING_DEBUG, "Found %s // %s", word, de->d_name); keys = lladd(keys, strdup(de->d_name)); } } } while (de); closedir(d); return keys; } /* * fetch_key_text - Trys to find the keys that contain the supplied text. * @search: The text to search for. * @publickey: A pointer to a structure to return the key in. */ static int fs_fetch_key_text(const char *search, struct openpgp_publickey **publickey) { struct ll *wordlist = NULL, *wl = NULL; struct ll *keylist = NULL; char *searchtext = NULL; int addedkeys = 0; logthing(LOGTHING_DEBUG, "Search was '%s'", search); searchtext = strdup(search); wl = wordlist = makewordlist(wordlist, searchtext); keylist = internal_get_key_by_word(wordlist->object, NULL); if (!keylist) { llfree(wordlist, NULL); free(searchtext); searchtext = NULL; return 0; } wl = wl->next; while (wl) { struct ll *nkl = internal_get_key_by_word(wl->object, keylist); if (!nkl) { llfree(wordlist, NULL); llfree(keylist, free); free(searchtext); searchtext = NULL; return 0; } llfree(keylist, free); keylist = nkl; wl = wl->next; } llfree(wordlist, NULL); /* Now add the keys... */ wl = keylist; while (wl) { logthing(LOGTHING_DEBUG, "Adding key: %s", wl->object); addedkeys += fs_fetch_key(strtoull(wl->object, NULL, 16), publickey, false); if (addedkeys >= config.maxkeys) break; wl = wl->next; } llfree(keylist, free); free(searchtext); searchtext = NULL; return addedkeys; } /** * fetch_key_skshash - Given an SKS hash fetch the key from storage. * @hash: The hash to fetch. * @publickey: A pointer to a structure to return the key in. * @intrans: If we're already in a transaction. */ static int fs_fetch_key_skshash(const struct skshash *hash, struct openpgp_publickey **publickey) { static char buffer[PATH_MAX]; int ret = 0, fd; struct openpgp_packet_list *packets = NULL; skshashpath(buffer, sizeof(buffer), hash); if ((fd = open(buffer, O_RDONLY)) != -1) { read_openpgp_stream(file_fetchchar, &fd, &packets, 0); parse_keys(packets, publickey); free_packet_list(packets); packets = NULL; close(fd); ret = 1; } return ret; } /** * iterate_keys - call a function once for each key in the db. * @iterfunc: The function to call. * @ctx: A context pointer * * Calls iterfunc once for each key in the database. ctx is passed * unaltered to iterfunc. This function is intended to aid database dumps * and statistic calculations. * * Returns the number of keys we iterated over. */ static int fs_iterate_keys(void (*iterfunc)(void *ctx, struct openpgp_publickey *key), void *ctx) { return 0; } /* * Include the basic keydb routines. */ #define NEED_KEYID2UID 1 #define NEED_GETKEYSIGS 1 #define NEED_UPDATEKEYS 1 #include "keydb.c" struct dbfuncs keydb_fs_funcs = { .initdb = fs_initdb, .cleanupdb = fs_cleanupdb, .starttrans = fs_starttrans, .endtrans = fs_endtrans, .fetch_key = fs_fetch_key, .fetch_key_text = fs_fetch_key_text, .fetch_key_skshash = fs_fetch_key_skshash, .store_key = fs_store_key, .update_keys = generic_update_keys, .delete_key = fs_delete_key, .getkeysigs = generic_getkeysigs, .cached_getkeysigs = generic_cached_getkeysigs, .keyid2uid = generic_keyid2uid, .getfullkeyid = fs_getfullkeyid, .iterate_keys = fs_iterate_keys, };