/* * Copyright (C) 2010 Tobias Brunner * Copyright (C) 2008 Martin Willi * Hochschule fuer Technik Rapperswil * * 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; either version 2 of the License, or (at your * option) any later version. See . * * 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. */ #include #include "sql_cred.h" #include typedef struct private_sql_cred_t private_sql_cred_t; /** * Private data of an sql_cred_t object */ struct private_sql_cred_t { /** * Public part */ sql_cred_t public; /** * database connection */ database_t *db; }; /** * enumerator over private keys */ typedef struct { /** implements enumerator */ enumerator_t public; /** inner SQL enumerator */ enumerator_t *inner; /** currently enumerated private key */ private_key_t *current; } private_enumerator_t; METHOD(enumerator_t, private_enumerator_enumerate, bool, private_enumerator_t *this, va_list args) { private_key_t **key; chunk_t blob; int type; VA_ARGS_VGET(args, key); DESTROY_IF(this->current); while (this->inner->enumerate(this->inner, &type, &blob)) { this->current = lib->creds->create(lib->creds, CRED_PRIVATE_KEY, type, BUILD_BLOB_PEM, blob, BUILD_END); if (this->current) { *key = this->current; return TRUE; } } this->current = NULL; return FALSE; } METHOD(enumerator_t, private_enumerator_destroy, void, private_enumerator_t *this) { DESTROY_IF(this->current); this->inner->destroy(this->inner); free(this); } METHOD(credential_set_t, create_private_enumerator, enumerator_t*, private_sql_cred_t *this, key_type_t type, identification_t *id) { private_enumerator_t *e; INIT(e, .public = { .enumerate = enumerator_enumerate_default, .venumerate = _private_enumerator_enumerate, .destroy = _private_enumerator_destroy, }, ); if (id && id->get_type(id) != ID_ANY) { e->inner = this->db->query(this->db, "SELECT p.type, p.data FROM private_keys AS p " "JOIN private_key_identity AS pi ON p.id = pi.private_key " "JOIN identities AS i ON pi.identity = i.id " "WHERE i.type = ? AND i.data = ? AND (? OR p.type = ?)", DB_INT, id->get_type(id), DB_BLOB, id->get_encoding(id), DB_INT, type == KEY_ANY, DB_INT, type, DB_INT, DB_BLOB); } else { e->inner = this->db->query(this->db, "SELECT type, data FROM private_keys WHERE (? OR type = ?)", DB_INT, type == KEY_ANY, DB_INT, type, DB_INT, DB_BLOB); } if (!e->inner) { free(e); return NULL; } return &e->public; } /** * enumerator over certificates */ typedef struct { /** implements enumerator */ enumerator_t public; /** inner SQL enumerator */ enumerator_t *inner; /** currently enumerated cert */ certificate_t *current; } cert_enumerator_t; METHOD(enumerator_t, cert_enumerator_enumerate, bool, cert_enumerator_t *this, va_list args) { certificate_t **cert; chunk_t blob; int type; VA_ARGS_VGET(args, cert); DESTROY_IF(this->current); while (this->inner->enumerate(this->inner, &type, &blob)) { this->current = lib->creds->create(lib->creds, CRED_CERTIFICATE, type, BUILD_BLOB_PEM, blob, BUILD_END); if (this->current) { *cert = this->current; return TRUE; } } this->current = NULL; return FALSE; } METHOD(enumerator_t, cert_enumerator_destroy, void, cert_enumerator_t *this) { DESTROY_IF(this->current); this->inner->destroy(this->inner); free(this); } METHOD(credential_set_t, create_cert_enumerator, enumerator_t*, private_sql_cred_t *this, certificate_type_t cert, key_type_t key, identification_t *id, bool trusted) { cert_enumerator_t *e; INIT(e, .public = { .enumerate = enumerator_enumerate_default, .venumerate = _cert_enumerator_enumerate, .destroy = _cert_enumerator_destroy, }, ); if (id && id->get_type(id) != ID_ANY) { e->inner = this->db->query(this->db, "SELECT c.type, c.data FROM certificates AS c " "JOIN certificate_identity AS ci ON c.id = ci.certificate " "JOIN identities AS i ON ci.identity = i.id " "WHERE i.type = ? AND i.data = ? AND " "(? OR c.type = ?) AND (? OR c.keytype = ?)", DB_INT, id->get_type(id), DB_BLOB, id->get_encoding(id), DB_INT, cert == CERT_ANY, DB_INT, cert, DB_INT, key == KEY_ANY, DB_INT, key, DB_INT, DB_BLOB); } else { e->inner = this->db->query(this->db, "SELECT type, data FROM certificates WHERE " "(? OR type = ?) AND (? OR keytype = ?)", DB_INT, cert == CERT_ANY, DB_INT, cert, DB_INT, key == KEY_ANY, DB_INT, key, DB_INT, DB_BLOB); } if (!e->inner) { free(e); return NULL; } return &e->public; } /** * enumerator over shared keys */ typedef struct { /** implements enumerator */ enumerator_t public; /** inner SQL enumerator */ enumerator_t *inner; /** own identity */ identification_t *me; /** remote identity */ identification_t *other; /** currently enumerated private key */ shared_key_t *current; } shared_enumerator_t; METHOD(enumerator_t, shared_enumerator_enumerate, bool, shared_enumerator_t *this, va_list args) { shared_key_t **shared; id_match_t *me, *other; chunk_t blob; int type; VA_ARGS_VGET(args, shared, me, other); DESTROY_IF(this->current); while (this->inner->enumerate(this->inner, &type, &blob)) { this->current = shared_key_create(type, chunk_clone(blob)); if (this->current) { *shared = this->current; if (me) { *me = this->me ? ID_MATCH_PERFECT : ID_MATCH_ANY; } if (other) { *other = this->other ? ID_MATCH_PERFECT : ID_MATCH_ANY; } return TRUE; } } this->current = NULL; return FALSE; } METHOD(enumerator_t, shared_enumerator_destroy, void, shared_enumerator_t *this) { DESTROY_IF(this->current); this->inner->destroy(this->inner); free(this); } METHOD(credential_set_t, create_shared_enumerator, enumerator_t*, private_sql_cred_t *this, shared_key_type_t type, identification_t *me, identification_t *other) { shared_enumerator_t *e; INIT(e, .public = { .enumerate = enumerator_enumerate_default, .venumerate = _shared_enumerator_enumerate, .destroy = _shared_enumerator_destroy, }, .me = me, .other = other, ); if (!me && !other) { e->inner = this->db->query(this->db, "SELECT type, data FROM shared_secrets WHERE (? OR type = ?)", DB_INT, type == SHARED_ANY, DB_INT, type, DB_INT, DB_BLOB); } else if (me && other) { e->inner = this->db->query(this->db, "SELECT s.type, s.data FROM shared_secrets AS s " "JOIN shared_secret_identity AS sm ON s.id = sm.shared_secret " "JOIN identities AS m ON sm.identity = m.id " "JOIN shared_secret_identity AS so ON s.id = so.shared_secret " "JOIN identities AS o ON so.identity = o.id " "WHERE m.type = ? AND m.data = ? AND o.type = ? AND o.data = ? " "AND (? OR s.type = ?)", DB_INT, me->get_type(me), DB_BLOB, me->get_encoding(me), DB_INT, other->get_type(other), DB_BLOB, other->get_encoding(other), DB_INT, type == SHARED_ANY, DB_INT, type, DB_INT, DB_BLOB); } else { identification_t *id = me ? me : other; e->inner = this->db->query(this->db, "SELECT s.type, s.data FROM shared_secrets AS s " "JOIN shared_secret_identity AS si ON s.id = si.shared_secret " "JOIN identities AS i ON si.identity = i.id " "WHERE i.type = ? AND i.data = ? AND (? OR s.type = ?)", DB_INT, id->get_type(id), DB_BLOB, id->get_encoding(id), DB_INT, type == SHARED_ANY, DB_INT, type, DB_INT, DB_BLOB); } if (!e->inner) { free(e); return NULL; } return &e->public; } /** * enumerator over CDPs */ typedef struct { /** implements enumerator_t */ enumerator_t public; /** inner SQL enumerator */ enumerator_t *inner; /** currently enumerated string */ char *current; } cdp_enumerator_t; /** * types of CDPs */ typedef enum { /** any available CDP */ CDP_TYPE_ANY = 0, /** CRL */ CDP_TYPE_CRL, /** OCSP Responder */ CDP_TYPE_OCSP, } cdp_type_t; METHOD(enumerator_t, cdp_enumerator_enumerate, bool, cdp_enumerator_t *this, va_list args) { char *text, **uri; VA_ARGS_VGET(args, uri); free(this->current); while (this->inner->enumerate(this->inner, &text)) { *uri = this->current = strdup(text); return TRUE; } this->current = NULL; return FALSE; } METHOD(enumerator_t, cdp_enumerator_destroy, void, cdp_enumerator_t *this) { free(this->current); this->inner->destroy(this->inner); free(this); } METHOD(credential_set_t, create_cdp_enumerator, enumerator_t*, private_sql_cred_t *this, certificate_type_t type, identification_t *id) { cdp_enumerator_t *e; cdp_type_t cdp_type; switch (type) { /* we serve CRLs and OCSP responders */ case CERT_X509_CRL: cdp_type = CDP_TYPE_CRL; break; case CERT_X509_OCSP_RESPONSE: cdp_type = CDP_TYPE_OCSP; break; case CERT_ANY: cdp_type = CDP_TYPE_ANY; break; default: return NULL; } INIT(e, .public = { .enumerate = enumerator_enumerate_default, .venumerate = _cdp_enumerator_enumerate, .destroy = _cdp_enumerator_destroy, }, ); if (id && id->get_type(id) != ID_ANY) { e->inner = this->db->query(this->db, "SELECT dp.uri FROM certificate_distribution_points AS dp " "JOIN certificate_authorities AS ca ON ca.id = dp.ca " "JOIN certificates AS c ON c.id = ca.certificate " "JOIN certificate_identity AS ci ON c.id = ci.certificate " "JOIN identities AS i ON ci.identity = i.id " "WHERE i.type = ? AND i.data = ? AND (? OR dp.type = ?)", DB_INT, id->get_type(id), DB_BLOB, id->get_encoding(id), DB_INT, cdp_type == CDP_TYPE_ANY, DB_INT, cdp_type, DB_TEXT); } else { e->inner = this->db->query(this->db, "SELECT dp.uri FROM certificate_distribution_points AS dp " "WHERE (? OR dp.type = ?)", DB_INT, cdp_type == CDP_TYPE_ANY, DB_INT, cdp_type, DB_TEXT); } if (!e->inner) { free(e); return NULL; } return &e->public; } METHOD(credential_set_t, cache_cert, void, private_sql_cred_t *this, certificate_t *cert) { /* TODO: implement CRL caching to database */ } METHOD(sql_cred_t, destroy, void, private_sql_cred_t *this) { free(this); } /** * Described in header. */ sql_cred_t *sql_cred_create(database_t *db) { private_sql_cred_t *this; INIT(this, .public = { .set = { .create_private_enumerator = _create_private_enumerator, .create_cert_enumerator = _create_cert_enumerator, .create_shared_enumerator = _create_shared_enumerator, .create_cdp_enumerator = _create_cdp_enumerator, .cache_cert = _cache_cert, }, .destroy = _destroy, }, .db = db, ); return &this->public; }