/* * keydb.c - Routines for DB access that just use store/fetch. * * Copyright 2002-2004 Jonathan McDowell * * 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. */ /** * The routines in this file are meant to be used as an initial step when * adding a new db access module. They provide various functions required * of the db access module using only the store and fetch functions. As * they need to parse the actual OpenPGP data to work they are a lot * slower than custom functions however. */ #include #include "decodekey.h" #include "hash.h" #include "keydb.h" #include "keyid.h" #include "keystructs.h" #include "mem.h" #include "merge.h" #include "openpgp.h" #include "parsekey.h" #include "sendsync.h" #ifdef NEED_KEYID2UID /** * keyid2uid - Takes a keyid and returns the primary UID for it. * @keyid: The keyid to lookup. */ char *generic_keyid2uid(uint64_t keyid) { struct openpgp_publickey *publickey = NULL; struct openpgp_signedpacket_list *curuid = NULL; char buf[1024]; buf[0]=0; if (config.dbbackend->fetch_key(keyid, &publickey, false) && publickey != NULL) { curuid = publickey->uids; while (curuid != NULL && buf[0] == 0) { if (curuid->packet->tag == OPENPGP_PACKET_UID) { snprintf(buf, 1023, "%.*s", (int) curuid->packet->length, curuid->packet->data); } curuid = curuid -> next; } free_publickey(publickey); } if (buf[0] == 0) { return NULL; } else { return strdup(buf); } } #endif #ifdef NEED_GETKEYSIGS /** * getkeysigs - Gets a linked list of the signatures on a key. * @keyid: The keyid to get the sigs for. * @revoked: Is the key revoked? * * This function gets the list of signatures on a key. Used for key * indexing and doing stats bits. If revoked is non-NULL then if the key * is revoked it's set to true. */ struct ll *generic_getkeysigs(uint64_t keyid, bool *revoked) { struct ll *sigs = NULL; struct openpgp_signedpacket_list *uids = NULL; struct openpgp_publickey *publickey = NULL; config.dbbackend->fetch_key(keyid, &publickey, false); if (publickey != NULL) { for (uids = publickey->uids; uids != NULL; uids = uids->next) { sigs = keysigs(sigs, uids->sigs); } if (revoked != NULL) { *revoked = publickey->revoked; } free_publickey(publickey); } return sigs; } #endif /** * cached_getkeysigs - Gets the signatures on a key. * @keyid: The key we want the signatures for. * * This function gets the signatures on a key. It's the same as the * getkeysigs function above except we use the hash module to cache the * data so if we need it again it's already loaded. */ struct ll *generic_cached_getkeysigs(uint64_t keyid) { struct stats_key *key = NULL; struct stats_key *signedkey = NULL; struct ll *cursig = NULL; struct ll *sigs = NULL; bool revoked = false; if (keyid == 0) { return NULL; } key = findinhash(keyid); if (key == NULL || key->gotsigs == false) { sigs = config.dbbackend->getkeysigs(keyid, &revoked); if (sigs == NULL) { return NULL; } if (key == NULL) { key = createandaddtohash(keyid); } key->sigs = sigs; key->revoked = revoked; for (cursig = key->sigs; cursig != NULL; cursig = cursig->next) { signedkey = (struct stats_key *) cursig->object; signedkey->signs = lladd(signedkey->signs, key); } key->gotsigs = true; } return key->sigs; } #ifdef NEED_GETFULLKEYID /** * getfullkeyid - Maps a 32bit key id to a 64bit one. * @keyid: The 32bit keyid. * * This function maps a 32bit key id to the full 64bit one. It returns the * full keyid. If the key isn't found a keyid of 0 is returned. */ uint64_t generic_getfullkeyid(uint64_t keyid) { struct openpgp_publickey *publickey = NULL; if (keyid < 0x100000000LL) { config.dbbackend->fetch_key(keyid, &publickey, false); if (publickey != NULL) { get_keyid(publickey, &keyid); free_publickey(publickey); publickey = NULL; } else { keyid = 0; } } return keyid; } #endif #ifdef NEED_UPDATEKEYS /** * update_keys - Takes a list of public keys and updates them in the DB. * @keys: The keys to update in the DB. * @sendsync: Should we send a sync mail to our peers. * * Takes a list of keys and adds them to the database, merging them with * the key in the database if it's already present there. The key list is * update to contain the minimum set of updates required to get from what * we had before to what we have now (ie the set of data that was added to * the DB). Returns the number of entirely new keys added. */ int generic_update_keys(struct openpgp_publickey **keys, bool sendsync) { struct openpgp_publickey *curkey = NULL; struct openpgp_publickey *oldkey = NULL; struct openpgp_publickey *prev = NULL; int newkeys = 0; bool intrans; uint64_t keyid; for (curkey = *keys; curkey != NULL; curkey = curkey->next) { intrans = config.dbbackend->starttrans(); get_keyid(curkey, &keyid); logthing(LOGTHING_INFO, "Fetching key 0x%" PRIX64 ", result: %d", keyid, config.dbbackend->fetch_key(keyid, &oldkey, intrans)); /* * If we already have the key stored in the DB then merge it * with the new one that's been supplied. Otherwise the key * we've just got is the one that goes in the DB and also the * one that we send out. */ if (oldkey != NULL) { merge_keys(oldkey, curkey); if (curkey->sigs == NULL && curkey->uids == NULL && curkey->subkeys == NULL) { if (prev == NULL) { *keys = curkey->next; } else { prev->next = curkey->next; curkey->next = NULL; free_publickey(curkey); curkey = prev; } } else { prev = curkey; logthing(LOGTHING_INFO, "Merged key; storing updated key."); config.dbbackend->store_key(oldkey, intrans, true); } free_publickey(oldkey); oldkey = NULL; } else { logthing(LOGTHING_INFO, "Storing completely new key."); config.dbbackend->store_key(curkey, intrans, false); newkeys++; } config.dbbackend->endtrans(); intrans = false; } if (sendsync && keys != NULL) { sendkeysync(*keys); } return newkeys; } #endif /* NEED_UPDATEKEYS */