/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996,2007 Oracle. All rights reserved. * * Some parts of this code originally written by Adam Stubblefield * -- astubble@rice.edu * * $Id: crypto.c,v 12.20 2007/05/17 15:14:55 bostic Exp $ */ #include "db_config.h" #include "db_int.h" #include "dbinc/db_page.h" #include "dbinc/crypto.h" /* * __crypto_region_init -- * Initialize crypto. */ int __crypto_region_init(dbenv) DB_ENV *dbenv; { REGENV *renv; REGINFO *infop; CIPHER *cipher; DB_CIPHER *db_cipher; char *sh_passwd; int ret; db_cipher = dbenv->crypto_handle; ret = 0; infop = dbenv->reginfo; renv = infop->primary; if (renv->cipher_off == INVALID_ROFF) { if (!CRYPTO_ON(dbenv)) return (0); if (!F_ISSET(infop, REGION_CREATE)) { __db_errx(dbenv, "Joining non-encrypted environment with encryption key"); return (EINVAL); } if (F_ISSET(db_cipher, CIPHER_ANY)) { __db_errx(dbenv, "Encryption algorithm not supplied"); return (EINVAL); } /* * Must create the shared information. We need: Shared cipher * information that contains the passwd. After we copy the * passwd, we smash and free the one in the dbenv. */ if ((ret = __env_alloc(infop, sizeof(CIPHER), &cipher)) != 0) return (ret); memset(cipher, 0, sizeof(*cipher)); if ((ret = __env_alloc(infop, dbenv->passwd_len, &sh_passwd)) != 0) { __env_alloc_free(infop, cipher); return (ret); } memset(sh_passwd, 0, dbenv->passwd_len); cipher->passwd = R_OFFSET(infop, sh_passwd); cipher->passwd_len = dbenv->passwd_len; cipher->flags = db_cipher->alg; memcpy(sh_passwd, dbenv->passwd, cipher->passwd_len); renv->cipher_off = R_OFFSET(infop, cipher); } else { if (!CRYPTO_ON(dbenv)) { __db_errx(dbenv, "Encrypted environment: no encryption key supplied"); return (EINVAL); } cipher = R_ADDR(infop, renv->cipher_off); sh_passwd = R_ADDR(infop, cipher->passwd); if ((cipher->passwd_len != dbenv->passwd_len) || memcmp(dbenv->passwd, sh_passwd, cipher->passwd_len) != 0) { __db_errx(dbenv, "Invalid password"); return (EPERM); } if (!F_ISSET(db_cipher, CIPHER_ANY) && db_cipher->alg != cipher->flags) { __db_errx(dbenv, "Environment encrypted using a different algorithm"); return (EINVAL); } if (F_ISSET(db_cipher, CIPHER_ANY)) /* * We have CIPHER_ANY and we are joining the existing * env. Setup our cipher structure for whatever * algorithm this env has. */ if ((ret = __crypto_algsetup(dbenv, db_cipher, cipher->flags, 0)) != 0) return (ret); } ret = db_cipher->init(dbenv, db_cipher); /* * On success, no matter if we allocated it or are using the already * existing one, we are done with the passwd in the dbenv. We smash * N-1 bytes so that we don't overwrite the nul. */ memset(dbenv->passwd, 0xff, dbenv->passwd_len-1); __os_free(dbenv, dbenv->passwd); dbenv->passwd = NULL; dbenv->passwd_len = 0; return (ret); } /* * __crypto_env_close -- * Crypto-specific destruction of DB_ENV structure. * * PUBLIC: int __crypto_env_close __P((DB_ENV *)); */ int __crypto_env_close(dbenv) DB_ENV *dbenv; { DB_CIPHER *db_cipher; int ret; if (dbenv->passwd != NULL) { memset(dbenv->passwd, 0xff, dbenv->passwd_len-1); __os_free(dbenv, dbenv->passwd); dbenv->passwd = NULL; } if (!CRYPTO_ON(dbenv)) return (0); ret = 0; db_cipher = dbenv->crypto_handle; if (!F_ISSET(db_cipher, CIPHER_ANY)) ret = db_cipher->close(dbenv, db_cipher->data); __os_free(dbenv, db_cipher); dbenv->crypto_handle = NULL; return (ret); } /* * __crypto_env_refresh -- * Clean up after the crpto system on a close or failed open. * * PUBLIC: int __crypto_env_refresh __P((DB_ENV *)); */ int __crypto_env_refresh(dbenv) DB_ENV *dbenv; { CIPHER *cipher; REGENV *renv; REGINFO *infop; /* * If a private region, return the memory to the heap. Not needed for * filesystem-backed or system shared memory regions, that memory isn't * owned by any particular process. */ if (F_ISSET(dbenv, DB_ENV_PRIVATE)) { infop = dbenv->reginfo; renv = infop->primary; if (renv->cipher_off != INVALID_ROFF) { cipher = R_ADDR(infop, renv->cipher_off); __env_alloc_free(infop, R_ADDR(infop, cipher->passwd)); __env_alloc_free(infop, cipher); } } return (0); } /* * __crypto_algsetup -- * Given a db_cipher structure and a valid algorithm flag, call * the specific algorithm setup function. * * PUBLIC: int __crypto_algsetup __P((DB_ENV *, DB_CIPHER *, u_int32_t, int)); */ int __crypto_algsetup(dbenv, db_cipher, alg, do_init) DB_ENV *dbenv; DB_CIPHER *db_cipher; u_int32_t alg; int do_init; { int ret; ret = 0; if (!CRYPTO_ON(dbenv)) { __db_errx(dbenv, "No cipher structure given"); return (EINVAL); } F_CLR(db_cipher, CIPHER_ANY); switch (alg) { case CIPHER_AES: db_cipher->alg = CIPHER_AES; ret = __aes_setup(dbenv, db_cipher); break; default: ret = __db_panic(dbenv, EINVAL); break; } if (ret == 0 && do_init) ret = db_cipher->init(dbenv, db_cipher); return (ret); } /* * __crypto_decrypt_meta -- * Perform decryption on a metapage if needed. * * PUBLIC: int __crypto_decrypt_meta __P((DB_ENV *, DB *, u_int8_t *, int)); */ int __crypto_decrypt_meta(dbenv, dbp, mbuf, do_metachk) DB_ENV *dbenv; DB *dbp; u_int8_t *mbuf; int do_metachk; { DB_CIPHER *db_cipher; DB dummydb; DBMETA *meta; size_t pg_off; int ret; u_int8_t *iv; /* * If we weren't given a dbp, we just want to decrypt the page on * behalf of some internal subsystem, not on behalf of a user with * a dbp. Therefore, set up a dummy dbp so that the call to * P_OVERHEAD below works. */ if (dbp == NULL) { memset(&dummydb, 0, sizeof(DB)); dbp = &dummydb; } ret = 0; meta = (DBMETA *)mbuf; /* * !!! * We used an "unused" field in the meta-data page to flag whether or * not the database is encrypted. Unfortunately, that unused field * was used in Berkeley DB releases before 3.0 (for example, 2.7.7). * It would have been OK, except encryption doesn't follow the usual * rules of "upgrade before doing anything else", we check encryption * before checking for old versions of the database. * * We don't have to check Btree databases -- before 3.0, the field of * interest was the bt_maxkey field (which was never supported and has * since been removed). * * Ugly check to jump out if this format is older than what we support. * This works because we do not encrypt the page header. */ if (meta->magic == DB_HASHMAGIC && meta->version <= 5) return (0); /* * Meta-pages may be encrypted for DBMETASIZE bytes. If we have a * non-zero IV (that is written after encryption) then we decrypt (or * error if the user isn't set up for security). We guarantee that * the IV space on non-encrypted pages will be zero and a zero-IV is * illegal for encryption. Therefore any non-zero IV means an * encrypted database. This basically checks the passwd on the file * if we cannot find a good magic number. We walk through all the * algorithms we know about attempting to decrypt (and possibly * byteswap). * * !!! * All method meta pages have the IV and checksum at the exact same * location, but not in DBMETA, use BTMETA. */ if (meta->encrypt_alg != 0) { db_cipher = (DB_CIPHER *)dbenv->crypto_handle; if (!F_ISSET(dbp, DB_AM_ENCRYPT)) { if (!CRYPTO_ON(dbenv)) { __db_errx(dbenv, "Encrypted database: no encryption flag specified"); return (EINVAL); } /* * User has a correct, secure env, but has encountered * a database in that env that is secure, but user * didn't dbp->set_flags. Since it is existing, use * encryption if it is that way already. */ F_SET(dbp, DB_AM_ENCRYPT|DB_AM_CHKSUM); } /* * This was checked in set_flags when DB_AM_ENCRYPT was set. * So it better still be true here. */ DB_ASSERT(dbenv, CRYPTO_ON(dbenv)); if (!F_ISSET(db_cipher, CIPHER_ANY) && meta->encrypt_alg != db_cipher->alg) { __db_errx(dbenv, "Database encrypted using a different algorithm"); return (EINVAL); } DB_ASSERT(dbenv, F_ISSET(dbp, DB_AM_CHKSUM)); iv = ((BTMETA *)mbuf)->iv; /* * For ALL pages, we do not encrypt the beginning of the page * that contains overhead information. This is true of meta * and all other pages. */ pg_off = P_OVERHEAD(dbp); alg_retry: /* * If they asked for a specific algorithm, then * use it. Otherwise walk through those we know. */ if (!F_ISSET(db_cipher, CIPHER_ANY)) { if (do_metachk && (ret = db_cipher->decrypt(dbenv, db_cipher->data, iv, mbuf + pg_off, DBMETASIZE - pg_off))) return (ret); if (((BTMETA *)meta)->crypto_magic != meta->magic) { __db_errx(dbenv, "Invalid password"); return (EINVAL); } /* * Success here. The algorithm asked for and the one * on the file match. We've just decrypted the meta * page and checked the magic numbers. They match, * indicating the password is right. All is right * with the world. */ return (0); } /* * If we get here, CIPHER_ANY must be set. */ ret = __crypto_algsetup(dbenv, db_cipher, meta->encrypt_alg, 1); goto alg_retry; } else if (F_ISSET(dbp, DB_AM_ENCRYPT)) { /* * They gave us a passwd, but the database is not encrypted. * This is an error. We do NOT want to silently allow them * to write data in the clear when the user set up and expects * encrypted data. * * This covers at least the following scenario. * 1. User creates and sets up an encrypted database. * 2. Attacker cannot read the actual data in the database * because it is encrypted, but can remove/replace the file * with an empty, unencrypted database file. * 3. User sets encryption and we get to this code now. * If we allowed the file to be used in the clear since * it is that way on disk, the user would unsuspectingly * write sensitive data in the clear. * 4. Attacker reads data that user thought was encrypted. * * Therefore, asking for encryption with a database that * was not encrypted is an error. */ __db_errx(dbenv, "Unencrypted database with a supplied encryption key"); return (EINVAL); } return (ret); } /* * __crypto_set_passwd -- * Get the password from the shared region; and set it in a new * environment handle. Use this to duplicate environment handles. * * PUBLIC: int __crypto_set_passwd __P((DB_ENV *, DB_ENV *)); */ int __crypto_set_passwd(dbenv_src, dbenv_dest) DB_ENV *dbenv_src, *dbenv_dest; { CIPHER *cipher; REGENV *renv; REGINFO *infop; char *sh_passwd; infop = dbenv_src->reginfo; renv = infop->primary; DB_ASSERT(dbenv_src, CRYPTO_ON(dbenv_src)); cipher = R_ADDR(infop, renv->cipher_off); sh_passwd = R_ADDR(infop, cipher->passwd); return (__env_set_encrypt(dbenv_dest, sh_passwd, DB_ENCRYPT_AES)); }