void k5_free_secure_cookie(krb5_context context, krb5_secure_cookie *val) { if (val == NULL) return; krb5_free_pa_data(context, val->data); free(val); }
void KRB5_CALLCONV krb5_free_fast_response(krb5_context context, krb5_fast_response *val) { if (!val) return; krb5_free_pa_data(context, val->padata); krb5_free_fast_finished(context, val->finished); krb5_free_keyblock(context, val->strengthen_key); free(val); }
krb5_error_code krb5int_fast_process_response(krb5_context context, struct krb5int_fast_request_state *state, krb5_kdc_rep *resp, krb5_keyblock **strengthen_key) { krb5_error_code retval = 0; krb5_fast_response *fast_response = NULL; krb5_data *encoded_ticket = NULL; krb5_boolean cksum_valid; krb5_clear_error_message(context); *strengthen_key = NULL; if (state->armor_key == 0) return 0; retval = decrypt_fast_reply(context, state, resp->padata, &fast_response); if (retval == 0) { if (fast_response->finished == 0) { retval = KRB5_KDCREP_MODIFIED; krb5_set_error_message(context, retval, _("FAST response missing finish message " "in KDC reply")); } } if (retval == 0) retval = encode_krb5_ticket(resp->ticket, &encoded_ticket); if (retval == 0) retval = krb5_c_verify_checksum(context, state->armor_key, KRB5_KEYUSAGE_FAST_FINISHED, encoded_ticket, &fast_response->finished->ticket_checksum, &cksum_valid); if (retval == 0 && cksum_valid == 0) { retval = KRB5_KDCREP_MODIFIED; krb5_set_error_message(context, retval, _("Ticket modified in KDC reply")); } if (retval == 0) { krb5_free_principal(context, resp->client); resp->client = fast_response->finished->client; fast_response->finished->client = NULL; *strengthen_key = fast_response->strengthen_key; fast_response->strengthen_key = NULL; krb5_free_pa_data(context, resp->padata); resp->padata = fast_response->padata; fast_response->padata = NULL; } if (fast_response) krb5_free_fast_response(context, fast_response); if (encoded_ticket) krb5_free_data(context, encoded_ticket); return retval; }
void KRB5_CALLCONV krb5_free_enc_kdc_rep_part(krb5_context context, register krb5_enc_kdc_rep_part *val) { if (val == NULL) return; krb5_free_keyblock(context, val->session); krb5_free_last_req(context, val->last_req); krb5_free_principal(context, val->server); krb5_free_addresses(context, val->caddrs); krb5_free_pa_data(context, val->enc_padata); free(val); }
void KRB5_CALLCONV krb5_free_kdc_rep(krb5_context context, krb5_kdc_rep *val) { if (val == NULL) return; krb5_free_pa_data(context, val->padata); krb5_free_principal(context, val->client); krb5_free_ticket(context, val->ticket); free(val->enc_part.ciphertext.data); krb5_free_enc_kdc_rep_part(context, val->enc_part2); free(val); }
void KRB5_CALLCONV krb5_free_kdc_req(krb5_context context, krb5_kdc_req *val) { if (val == NULL) return; krb5_free_pa_data(context, val->padata); krb5_free_principal(context, val->client); krb5_free_principal(context, val->server); free(val->ktype); krb5_free_addresses(context, val->addresses); free(val->authorization_data.ciphertext.data); krb5_free_authdata(context, val->unenc_authdata); krb5_free_tickets(context, val->second_ticket); free(val); }
void KRB5_CALLCONV krb5_free_ad_signedpath(krb5_context context, krb5_ad_signedpath *val) { int i; if (val == NULL) return; krb5_free_checksum_contents(context, &val->checksum); if (val->delegated != NULL) { for (i = 0; val->delegated[i] != NULL; i++) krb5_free_principal(context, val->delegated[i]); free(val->delegated); } krb5_free_pa_data(context, val->method_data); free(val); }
/*ARGSUSED*/ krb5_error_code process_tgs_req(struct server_handle *handle, krb5_data *pkt, const krb5_fulladdr *from, krb5_data **response) { krb5_keyblock * subkey = 0; krb5_keyblock *header_key = NULL; krb5_kdc_req *request = 0; krb5_db_entry *server = NULL; krb5_db_entry *stkt_server = NULL; krb5_kdc_rep reply; krb5_enc_kdc_rep_part reply_encpart; krb5_ticket ticket_reply, *header_ticket = 0; int st_idx = 0; krb5_enc_tkt_part enc_tkt_reply; int newtransited = 0; krb5_error_code retval = 0; krb5_keyblock encrypting_key; krb5_timestamp kdc_time, authtime = 0; krb5_keyblock session_key; krb5_keyblock *reply_key = NULL; krb5_key_data *server_key; krb5_principal cprinc = NULL, sprinc = NULL, altcprinc = NULL; krb5_last_req_entry *nolrarray[2], nolrentry; int errcode; const char *status = 0; krb5_enc_tkt_part *header_enc_tkt = NULL; /* TGT */ krb5_enc_tkt_part *subject_tkt = NULL; /* TGT or evidence ticket */ krb5_db_entry *client = NULL, *header_server = NULL; krb5_db_entry *local_tgt, *local_tgt_storage = NULL; krb5_pa_s4u_x509_user *s4u_x509_user = NULL; /* protocol transition request */ krb5_authdata **kdc_issued_auth_data = NULL; /* auth data issued by KDC */ unsigned int c_flags = 0, s_flags = 0; /* client/server KDB flags */ krb5_boolean is_referral; const char *emsg = NULL; krb5_kvno ticket_kvno = 0; struct kdc_request_state *state = NULL; krb5_pa_data *pa_tgs_req; /*points into request*/ krb5_data scratch; krb5_pa_data **e_data = NULL; kdc_realm_t *kdc_active_realm = NULL; krb5_audit_state *au_state = NULL; krb5_data **auth_indicators = NULL; memset(&reply, 0, sizeof(reply)); memset(&reply_encpart, 0, sizeof(reply_encpart)); memset(&ticket_reply, 0, sizeof(ticket_reply)); memset(&enc_tkt_reply, 0, sizeof(enc_tkt_reply)); session_key.contents = NULL; retval = decode_krb5_tgs_req(pkt, &request); if (retval) return retval; /* Save pointer to client-requested service principal, in case of * errors before a successful call to search_sprinc(). */ sprinc = request->server; if (request->msg_type != KRB5_TGS_REQ) { krb5_free_kdc_req(handle->kdc_err_context, request); return KRB5_BADMSGTYPE; } /* * setup_server_realm() sets up the global realm-specific data pointer. */ kdc_active_realm = setup_server_realm(handle, request->server); if (kdc_active_realm == NULL) { krb5_free_kdc_req(handle->kdc_err_context, request); return KRB5KDC_ERR_WRONG_REALM; } errcode = kdc_make_rstate(kdc_active_realm, &state); if (errcode !=0) { krb5_free_kdc_req(handle->kdc_err_context, request); return errcode; } /* Initialize audit state. */ errcode = kau_init_kdc_req(kdc_context, request, from, &au_state); if (errcode) { krb5_free_kdc_req(handle->kdc_err_context, request); return errcode; } /* Seed the audit trail with the request ID and basic information. */ kau_tgs_req(kdc_context, TRUE, au_state); errcode = kdc_process_tgs_req(kdc_active_realm, request, from, pkt, &header_ticket, &header_server, &header_key, &subkey, &pa_tgs_req); if (header_ticket && header_ticket->enc_part2) cprinc = header_ticket->enc_part2->client; if (errcode) { status = "PROCESS_TGS"; goto cleanup; } if (!header_ticket) { errcode = KRB5_NO_TKT_SUPPLIED; /* XXX? */ status="UNEXPECTED NULL in header_ticket"; goto cleanup; } errcode = kau_make_tkt_id(kdc_context, header_ticket, &au_state->tkt_in_id); if (errcode) { status = "GENERATE_TICKET_ID"; goto cleanup; } scratch.length = pa_tgs_req->length; scratch.data = (char *) pa_tgs_req->contents; errcode = kdc_find_fast(&request, &scratch, subkey, header_ticket->enc_part2->session, state, NULL); /* Reset sprinc because kdc_find_fast() can replace request. */ sprinc = request->server; if (errcode !=0) { status = "FIND_FAST"; goto cleanup; } errcode = get_local_tgt(kdc_context, &sprinc->realm, header_server, &local_tgt, &local_tgt_storage); if (errcode) { status = "GET_LOCAL_TGT"; goto cleanup; } /* Ignore (for now) the request modification due to FAST processing. */ au_state->request = request; /* * Pointer to the encrypted part of the header ticket, which may be * replaced to point to the encrypted part of the evidence ticket * if constrained delegation is used. This simplifies the number of * special cases for constrained delegation. */ header_enc_tkt = header_ticket->enc_part2; /* * We've already dealt with the AP_REQ authentication, so we can * use header_ticket freely. The encrypted part (if any) has been * decrypted with the session key. */ au_state->stage = SRVC_PRINC; /* XXX make sure server here has the proper realm...taken from AP_REQ header? */ setflag(s_flags, KRB5_KDB_FLAG_ALIAS_OK); if (isflagset(request->kdc_options, KDC_OPT_CANONICALIZE)) { setflag(c_flags, KRB5_KDB_FLAG_CANONICALIZE); setflag(s_flags, KRB5_KDB_FLAG_CANONICALIZE); } errcode = search_sprinc(kdc_active_realm, request, s_flags, &server, &status); if (errcode != 0) goto cleanup; sprinc = server->princ; /* If we got a cross-realm TGS which is not the requested server, we are * issuing a referral (or alternate TGT, which we treat similarly). */ is_referral = is_cross_tgs_principal(server->princ) && !krb5_principal_compare(kdc_context, request->server, server->princ); au_state->stage = VALIDATE_POL; if ((errcode = krb5_timeofday(kdc_context, &kdc_time))) { status = "TIME_OF_DAY"; goto cleanup; } if ((retval = validate_tgs_request(kdc_active_realm, request, *server, header_ticket, kdc_time, &status, &e_data))) { if (!status) status = "UNKNOWN_REASON"; if (retval == KDC_ERR_POLICY || retval == KDC_ERR_BADOPTION) au_state->violation = PROT_CONSTRAINT; errcode = retval + ERROR_TABLE_BASE_krb5; goto cleanup; } if (!is_local_principal(kdc_active_realm, header_enc_tkt->client)) setflag(c_flags, KRB5_KDB_FLAG_CROSS_REALM); /* Check for protocol transition */ errcode = kdc_process_s4u2self_req(kdc_active_realm, request, header_enc_tkt->client, server, subkey, header_enc_tkt->session, kdc_time, &s4u_x509_user, &client, &status); if (s4u_x509_user != NULL || errcode != 0) { if (s4u_x509_user != NULL) au_state->s4u2self_user = s4u_x509_user->user_id.user; if (errcode == KDC_ERR_POLICY || errcode == KDC_ERR_BADOPTION) au_state->violation = PROT_CONSTRAINT; au_state->status = status; kau_s4u2self(kdc_context, errcode ? FALSE : TRUE, au_state); au_state->s4u2self_user = NULL; } if (errcode) goto cleanup; if (s4u_x509_user != NULL) { setflag(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION); if (is_referral) { /* The requesting server appears to no longer exist, and we found * a referral instead. Treat this as a server lookup failure. */ errcode = KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN; status = "LOOKING_UP_SERVER"; goto cleanup; } } /* Deal with user-to-user and constrained delegation */ errcode = decrypt_2ndtkt(kdc_active_realm, request, c_flags, &stkt_server, &status); if (errcode) goto cleanup; if (isflagset(request->kdc_options, KDC_OPT_CNAME_IN_ADDL_TKT)) { /* Do constrained delegation protocol and authorization checks */ errcode = kdc_process_s4u2proxy_req(kdc_active_realm, request, request->second_ticket[st_idx]->enc_part2, stkt_server, header_ticket->enc_part2->client, request->server, &status); if (errcode == KDC_ERR_POLICY || errcode == KDC_ERR_BADOPTION) au_state->violation = PROT_CONSTRAINT; else if (errcode) au_state->violation = LOCAL_POLICY; au_state->status = status; retval = kau_make_tkt_id(kdc_context, request->second_ticket[st_idx], &au_state->evid_tkt_id); if (retval) { status = "GENERATE_TICKET_ID"; errcode = retval; goto cleanup; } kau_s4u2proxy(kdc_context, errcode ? FALSE : TRUE, au_state); if (errcode) goto cleanup; setflag(c_flags, KRB5_KDB_FLAG_CONSTRAINED_DELEGATION); assert(krb5_is_tgs_principal(header_ticket->server)); assert(client == NULL); /* assured by kdc_process_s4u2self_req() */ client = stkt_server; stkt_server = NULL; } else if (request->kdc_options & KDC_OPT_ENC_TKT_IN_SKEY) { krb5_db_free_principal(kdc_context, stkt_server); stkt_server = NULL; } else assert(stkt_server == NULL); au_state->stage = ISSUE_TKT; errcode = gen_session_key(kdc_active_realm, request, server, &session_key, &status); if (errcode) goto cleanup; /* * subject_tkt will refer to the evidence ticket (for constrained * delegation) or the TGT. The distinction from header_enc_tkt is * necessary because the TGS signature only protects some fields: * the others could be forged by a malicious server. */ if (isflagset(c_flags, KRB5_KDB_FLAG_CONSTRAINED_DELEGATION)) subject_tkt = request->second_ticket[st_idx]->enc_part2; else subject_tkt = header_enc_tkt; authtime = subject_tkt->times.authtime; /* Extract auth indicators from the subject ticket, except for S4U2Proxy * requests (where the client didn't authenticate). */ if (s4u_x509_user == NULL) { errcode = get_auth_indicators(kdc_context, subject_tkt, local_tgt, &auth_indicators); if (errcode) { status = "GET_AUTH_INDICATORS"; goto cleanup; } } errcode = check_indicators(kdc_context, server, auth_indicators); if (errcode) { status = "HIGHER_AUTHENTICATION_REQUIRED"; goto cleanup; } if (is_referral) ticket_reply.server = server->princ; else ticket_reply.server = request->server; /* XXX careful for realm... */ enc_tkt_reply.flags = OPTS2FLAGS(request->kdc_options); enc_tkt_reply.flags |= COPY_TKT_FLAGS(header_enc_tkt->flags); enc_tkt_reply.times.starttime = 0; if (isflagset(server->attributes, KRB5_KDB_OK_AS_DELEGATE)) setflag(enc_tkt_reply.flags, TKT_FLG_OK_AS_DELEGATE); /* Indicate support for encrypted padata (RFC 6806). */ setflag(enc_tkt_reply.flags, TKT_FLG_ENC_PA_REP); /* don't use new addresses unless forwarded, see below */ enc_tkt_reply.caddrs = header_enc_tkt->caddrs; /* noaddrarray[0] = 0; */ reply_encpart.caddrs = 0;/* optional...don't put it in */ reply_encpart.enc_padata = NULL; /* * It should be noted that local policy may affect the * processing of any of these flags. For example, some * realms may refuse to issue renewable tickets */ if (isflagset(request->kdc_options, KDC_OPT_FORWARDABLE)) { if (isflagset(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION)) { /* * If S4U2Self principal is not forwardable, then mark ticket as * unforwardable. This behaviour matches Windows, but it is * different to the MIT AS-REQ path, which returns an error * (KDC_ERR_POLICY) if forwardable tickets cannot be issued. * * Consider this block the S4U2Self equivalent to * validate_forwardable(). */ if (client != NULL && isflagset(client->attributes, KRB5_KDB_DISALLOW_FORWARDABLE)) clear(enc_tkt_reply.flags, TKT_FLG_FORWARDABLE); /* * Forwardable flag is propagated along referral path. */ else if (!isflagset(header_enc_tkt->flags, TKT_FLG_FORWARDABLE)) clear(enc_tkt_reply.flags, TKT_FLG_FORWARDABLE); /* * OK_TO_AUTH_AS_DELEGATE must be set on the service requesting * S4U2Self in order for forwardable tickets to be returned. */ else if (!is_referral && !isflagset(server->attributes, KRB5_KDB_OK_TO_AUTH_AS_DELEGATE)) clear(enc_tkt_reply.flags, TKT_FLG_FORWARDABLE); } } if (isflagset(request->kdc_options, KDC_OPT_FORWARDED) || isflagset(request->kdc_options, KDC_OPT_PROXY)) { /* include new addresses in ticket & reply */ enc_tkt_reply.caddrs = request->addresses; reply_encpart.caddrs = request->addresses; } /* We don't currently handle issuing anonymous tickets based on * non-anonymous ones, so just ignore the option. */ if (isflagset(request->kdc_options, KDC_OPT_REQUEST_ANONYMOUS) && !isflagset(header_enc_tkt->flags, TKT_FLG_ANONYMOUS)) clear(enc_tkt_reply.flags, TKT_FLG_ANONYMOUS); if (isflagset(request->kdc_options, KDC_OPT_POSTDATED)) { setflag(enc_tkt_reply.flags, TKT_FLG_INVALID); enc_tkt_reply.times.starttime = request->from; } else enc_tkt_reply.times.starttime = kdc_time; if (isflagset(request->kdc_options, KDC_OPT_VALIDATE)) { assert(isflagset(c_flags, KRB5_KDB_FLAGS_S4U) == 0); /* BEWARE of allocation hanging off of ticket & enc_part2, it belongs to the caller */ ticket_reply = *(header_ticket); enc_tkt_reply = *(header_ticket->enc_part2); enc_tkt_reply.authorization_data = NULL; clear(enc_tkt_reply.flags, TKT_FLG_INVALID); } if (isflagset(request->kdc_options, KDC_OPT_RENEW)) { krb5_timestamp old_starttime; krb5_deltat old_life; assert(isflagset(c_flags, KRB5_KDB_FLAGS_S4U) == 0); /* BEWARE of allocation hanging off of ticket & enc_part2, it belongs to the caller */ ticket_reply = *(header_ticket); enc_tkt_reply = *(header_ticket->enc_part2); enc_tkt_reply.authorization_data = NULL; old_starttime = enc_tkt_reply.times.starttime ? enc_tkt_reply.times.starttime : enc_tkt_reply.times.authtime; old_life = enc_tkt_reply.times.endtime - old_starttime; enc_tkt_reply.times.starttime = kdc_time; enc_tkt_reply.times.endtime = min(header_ticket->enc_part2->times.renew_till, kdc_time + old_life); } else { /* not a renew request */ enc_tkt_reply.times.starttime = kdc_time; kdc_get_ticket_endtime(kdc_active_realm, enc_tkt_reply.times.starttime, header_enc_tkt->times.endtime, request->till, client, server, &enc_tkt_reply.times.endtime); } kdc_get_ticket_renewtime(kdc_active_realm, request, header_enc_tkt, client, server, &enc_tkt_reply); /* * Set authtime to be the same as header or evidence ticket's */ enc_tkt_reply.times.authtime = authtime; /* starttime is optional, and treated as authtime if not present. so we can nuke it if it matches */ if (enc_tkt_reply.times.starttime == enc_tkt_reply.times.authtime) enc_tkt_reply.times.starttime = 0; if (isflagset(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION)) { altcprinc = s4u_x509_user->user_id.user; } else if (isflagset(c_flags, KRB5_KDB_FLAG_CONSTRAINED_DELEGATION)) { altcprinc = subject_tkt->client; } else { altcprinc = NULL; } if (isflagset(request->kdc_options, KDC_OPT_ENC_TKT_IN_SKEY)) { krb5_enc_tkt_part *t2enc = request->second_ticket[st_idx]->enc_part2; encrypting_key = *(t2enc->session); } else { /* * Find the server key */ if ((errcode = krb5_dbe_find_enctype(kdc_context, server, -1, /* ignore keytype */ -1, /* Ignore salttype */ 0, /* Get highest kvno */ &server_key))) { status = "FINDING_SERVER_KEY"; goto cleanup; } /* * Convert server.key into a real key * (it may be encrypted in the database) */ if ((errcode = krb5_dbe_decrypt_key_data(kdc_context, NULL, server_key, &encrypting_key, NULL))) { status = "DECRYPT_SERVER_KEY"; goto cleanup; } } if (isflagset(c_flags, KRB5_KDB_FLAG_CONSTRAINED_DELEGATION)) { /* * Don't allow authorization data to be disabled if constrained * delegation is requested. We don't want to deny the server * the ability to validate that delegation was used. */ clear(server->attributes, KRB5_KDB_NO_AUTH_DATA_REQUIRED); } if (isflagset(server->attributes, KRB5_KDB_NO_AUTH_DATA_REQUIRED) == 0) { /* * If we are not doing protocol transition/constrained delegation * try to lookup the client principal so plugins can add additional * authorization information. * * Always validate authorization data for constrained delegation * because we must validate the KDC signatures. */ if (!isflagset(c_flags, KRB5_KDB_FLAGS_S4U)) { /* Generate authorization data so we can include it in ticket */ setflag(c_flags, KRB5_KDB_FLAG_INCLUDE_PAC); /* Map principals from foreign (possibly non-AD) realms */ setflag(c_flags, KRB5_KDB_FLAG_MAP_PRINCIPALS); assert(client == NULL); /* should not have been set already */ errcode = krb5_db_get_principal(kdc_context, subject_tkt->client, c_flags, &client); } } if (isflagset(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION) && !isflagset(c_flags, KRB5_KDB_FLAG_CROSS_REALM)) enc_tkt_reply.client = s4u_x509_user->user_id.user; else enc_tkt_reply.client = subject_tkt->client; enc_tkt_reply.session = &session_key; enc_tkt_reply.transited.tr_type = KRB5_DOMAIN_X500_COMPRESS; enc_tkt_reply.transited.tr_contents = empty_string; /* equivalent of "" */ /* * Only add the realm of the presented tgt to the transited list if * it is different than the local realm (cross-realm) and it is different * than the realm of the client (since the realm of the client is already * implicitly part of the transited list and should not be explicitly * listed). */ /* realm compare is like strcmp, but knows how to deal with these args */ if (krb5_realm_compare(kdc_context, header_ticket->server, tgs_server) || krb5_realm_compare(kdc_context, header_ticket->server, enc_tkt_reply.client)) { /* tgt issued by local realm or issued by realm of client */ enc_tkt_reply.transited = header_enc_tkt->transited; } else { /* tgt issued by some other realm and not the realm of the client */ /* assemble new transited field into allocated storage */ if (header_enc_tkt->transited.tr_type != KRB5_DOMAIN_X500_COMPRESS) { status = "VALIDATE_TRANSIT_TYPE"; errcode = KRB5KDC_ERR_TRTYPE_NOSUPP; goto cleanup; } memset(&enc_tkt_reply.transited, 0, sizeof(enc_tkt_reply.transited)); enc_tkt_reply.transited.tr_type = KRB5_DOMAIN_X500_COMPRESS; if ((errcode = add_to_transited(&header_enc_tkt->transited.tr_contents, &enc_tkt_reply.transited.tr_contents, header_ticket->server, enc_tkt_reply.client, request->server))) { status = "ADD_TO_TRANSITED_LIST"; goto cleanup; } newtransited = 1; } if (isflagset(c_flags, KRB5_KDB_FLAG_CROSS_REALM)) { errcode = validate_transit_path(kdc_context, header_enc_tkt->client, server, header_server); if (errcode) { status = "NON_TRANSITIVE"; goto cleanup; } } if (!isflagset (request->kdc_options, KDC_OPT_DISABLE_TRANSITED_CHECK)) { errcode = kdc_check_transited_list (kdc_active_realm, &enc_tkt_reply.transited.tr_contents, krb5_princ_realm (kdc_context, header_enc_tkt->client), krb5_princ_realm (kdc_context, request->server)); if (errcode == 0) { setflag (enc_tkt_reply.flags, TKT_FLG_TRANSIT_POLICY_CHECKED); } else { log_tgs_badtrans(kdc_context, cprinc, sprinc, &enc_tkt_reply.transited.tr_contents, errcode); } } else krb5_klog_syslog(LOG_INFO, _("not checking transit path")); if (kdc_active_realm->realm_reject_bad_transit && !isflagset(enc_tkt_reply.flags, TKT_FLG_TRANSIT_POLICY_CHECKED)) { errcode = KRB5KDC_ERR_POLICY; status = "BAD_TRANSIT"; au_state->violation = LOCAL_POLICY; goto cleanup; } errcode = handle_authdata(kdc_context, c_flags, client, server, header_server, local_tgt, subkey != NULL ? subkey : header_ticket->enc_part2->session, &encrypting_key, /* U2U or server key */ header_key, pkt, request, s4u_x509_user ? s4u_x509_user->user_id.user : NULL, subject_tkt, auth_indicators, &enc_tkt_reply); if (errcode) { krb5_klog_syslog(LOG_INFO, _("TGS_REQ : handle_authdata (%d)"), errcode); status = "HANDLE_AUTHDATA"; goto cleanup; } ticket_reply.enc_part2 = &enc_tkt_reply; /* * If we are doing user-to-user authentication, then make sure * that the client for the second ticket matches the request * server, and then encrypt the ticket using the session key of * the second ticket. */ if (isflagset(request->kdc_options, KDC_OPT_ENC_TKT_IN_SKEY)) { /* * Make sure the client for the second ticket matches * requested server. */ krb5_enc_tkt_part *t2enc = request->second_ticket[st_idx]->enc_part2; krb5_principal client2 = t2enc->client; if (!krb5_principal_compare(kdc_context, request->server, client2)) { altcprinc = client2; errcode = KRB5KDC_ERR_SERVER_NOMATCH; status = "2ND_TKT_MISMATCH"; au_state->status = status; kau_u2u(kdc_context, FALSE, au_state); goto cleanup; } ticket_kvno = 0; ticket_reply.enc_part.enctype = t2enc->session->enctype; kau_u2u(kdc_context, TRUE, au_state); st_idx++; } else { ticket_kvno = server_key->key_data_kvno; } errcode = krb5_encrypt_tkt_part(kdc_context, &encrypting_key, &ticket_reply); if (!isflagset(request->kdc_options, KDC_OPT_ENC_TKT_IN_SKEY)) krb5_free_keyblock_contents(kdc_context, &encrypting_key); if (errcode) { status = "ENCRYPT_TICKET"; goto cleanup; } ticket_reply.enc_part.kvno = ticket_kvno; /* Start assembling the response */ au_state->stage = ENCR_REP; reply.msg_type = KRB5_TGS_REP; if (isflagset(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION) && krb5int_find_pa_data(kdc_context, request->padata, KRB5_PADATA_S4U_X509_USER) != NULL) { errcode = kdc_make_s4u2self_rep(kdc_context, subkey, header_ticket->enc_part2->session, s4u_x509_user, &reply, &reply_encpart); if (errcode) { status = "MAKE_S4U2SELF_PADATA"; au_state->status = status; } kau_s4u2self(kdc_context, errcode ? FALSE : TRUE, au_state); if (errcode) goto cleanup; } reply.client = enc_tkt_reply.client; reply.enc_part.kvno = 0;/* We are using the session key */ reply.ticket = &ticket_reply; reply_encpart.session = &session_key; reply_encpart.nonce = request->nonce; /* copy the time fields */ reply_encpart.times = enc_tkt_reply.times; nolrentry.lr_type = KRB5_LRQ_NONE; nolrentry.value = 0; nolrentry.magic = 0; nolrarray[0] = &nolrentry; nolrarray[1] = 0; reply_encpart.last_req = nolrarray; /* not available for TGS reqs */ reply_encpart.key_exp = 0;/* ditto */ reply_encpart.flags = enc_tkt_reply.flags; reply_encpart.server = ticket_reply.server; /* use the session key in the ticket, unless there's a subsession key in the AP_REQ */ reply.enc_part.enctype = subkey ? subkey->enctype : header_ticket->enc_part2->session->enctype; errcode = kdc_fast_response_handle_padata(state, request, &reply, subkey ? subkey->enctype : header_ticket->enc_part2->session->enctype); if (errcode !=0 ) { status = "MAKE_FAST_RESPONSE"; goto cleanup; } errcode =kdc_fast_handle_reply_key(state, subkey?subkey:header_ticket->enc_part2->session, &reply_key); if (errcode) { status = "MAKE_FAST_REPLY_KEY"; goto cleanup; } errcode = return_enc_padata(kdc_context, pkt, request, reply_key, server, &reply_encpart, is_referral && isflagset(s_flags, KRB5_KDB_FLAG_CANONICALIZE)); if (errcode) { status = "KDC_RETURN_ENC_PADATA"; goto cleanup; } errcode = kau_make_tkt_id(kdc_context, &ticket_reply, &au_state->tkt_out_id); if (errcode) { status = "GENERATE_TICKET_ID"; goto cleanup; } if (kdc_fast_hide_client(state)) reply.client = (krb5_principal)krb5_anonymous_principal(); errcode = krb5_encode_kdc_rep(kdc_context, KRB5_TGS_REP, &reply_encpart, subkey ? 1 : 0, reply_key, &reply, response); if (errcode) { status = "ENCODE_KDC_REP"; } else { status = "ISSUE"; } memset(ticket_reply.enc_part.ciphertext.data, 0, ticket_reply.enc_part.ciphertext.length); free(ticket_reply.enc_part.ciphertext.data); /* these parts are left on as a courtesy from krb5_encode_kdc_rep so we can use them in raw form if needed. But, we don't... */ memset(reply.enc_part.ciphertext.data, 0, reply.enc_part.ciphertext.length); free(reply.enc_part.ciphertext.data); cleanup: assert(status != NULL); if (reply_key) krb5_free_keyblock(kdc_context, reply_key); if (errcode) emsg = krb5_get_error_message (kdc_context, errcode); au_state->status = status; if (!errcode) au_state->reply = &reply; kau_tgs_req(kdc_context, errcode ? FALSE : TRUE, au_state); kau_free_kdc_req(au_state); log_tgs_req(kdc_context, from, request, &reply, cprinc, sprinc, altcprinc, authtime, c_flags, status, errcode, emsg); if (errcode) { krb5_free_error_message (kdc_context, emsg); emsg = NULL; } if (errcode) { int got_err = 0; if (status == 0) { status = krb5_get_error_message (kdc_context, errcode); got_err = 1; } errcode -= ERROR_TABLE_BASE_krb5; if (errcode < 0 || errcode > KRB_ERR_MAX) errcode = KRB_ERR_GENERIC; retval = prepare_error_tgs(state, request, header_ticket, errcode, (server != NULL) ? server->princ : NULL, response, status, e_data); if (got_err) { krb5_free_error_message (kdc_context, status); status = 0; } } if (header_ticket != NULL) krb5_free_ticket(kdc_context, header_ticket); if (request != NULL) krb5_free_kdc_req(kdc_context, request); if (state) kdc_free_rstate(state); krb5_db_free_principal(kdc_context, server); krb5_db_free_principal(kdc_context, header_server); krb5_db_free_principal(kdc_context, client); krb5_db_free_principal(kdc_context, local_tgt_storage); if (session_key.contents != NULL) krb5_free_keyblock_contents(kdc_context, &session_key); if (newtransited) free(enc_tkt_reply.transited.tr_contents.data); if (s4u_x509_user != NULL) krb5_free_pa_s4u_x509_user(kdc_context, s4u_x509_user); if (kdc_issued_auth_data != NULL) krb5_free_authdata(kdc_context, kdc_issued_auth_data); if (subkey != NULL) krb5_free_keyblock(kdc_context, subkey); if (header_key != NULL) krb5_free_keyblock(kdc_context, header_key); if (reply.padata) krb5_free_pa_data(kdc_context, reply.padata); if (reply_encpart.enc_padata) krb5_free_pa_data(kdc_context, reply_encpart.enc_padata); if (enc_tkt_reply.authorization_data != NULL) krb5_free_authdata(kdc_context, enc_tkt_reply.authorization_data); krb5_free_pa_data(kdc_context, e_data); k5_free_data_ptr_list(auth_indicators); return retval; }
static void finish_process_as_req(struct as_req_state *state, krb5_error_code errcode) { krb5_key_data *server_key; krb5_key_data *client_key; krb5_keyblock *as_encrypting_key = NULL; krb5_data *response = NULL; const char *emsg = 0; int did_log = 0; register int i; krb5_enctype useenctype; loop_respond_fn oldrespond; void *oldarg; kdc_realm_t *kdc_active_realm = state->active_realm; assert(state); oldrespond = state->respond; oldarg = state->arg; if (errcode) goto egress; if ((errcode = validate_forwardable(state->request, *state->client, *state->server, state->kdc_time, &state->status))) { errcode += ERROR_TABLE_BASE_krb5; goto egress; } state->ticket_reply.enc_part2 = &state->enc_tkt_reply; /* * Find the server key */ if ((errcode = krb5_dbe_find_enctype(kdc_context, state->server, -1, /* ignore keytype */ -1, /* Ignore salttype */ 0, /* Get highest kvno */ &server_key))) { state->status = "FINDING_SERVER_KEY"; goto egress; } /* * Convert server->key into a real key * (it may be encrypted in the database) * * server_keyblock is later used to generate auth data signatures */ if ((errcode = krb5_dbe_decrypt_key_data(kdc_context, NULL, server_key, &state->server_keyblock, NULL))) { state->status = "DECRYPT_SERVER_KEY"; goto egress; } /* * Find the appropriate client key. We search in the order specified * by request keytype list. */ client_key = NULL; useenctype = 0; for (i = 0; i < state->request->nktypes; i++) { useenctype = state->request->ktype[i]; if (!krb5_c_valid_enctype(useenctype)) continue; if (!krb5_dbe_find_enctype(kdc_context, state->client, useenctype, -1, 0, &client_key)) break; } if (!(client_key)) { /* Cannot find an appropriate key */ state->status = "CANT_FIND_CLIENT_KEY"; errcode = KRB5KDC_ERR_ETYPE_NOSUPP; goto egress; } state->rock.client_key = client_key; /* convert client.key_data into a real key */ if ((errcode = krb5_dbe_decrypt_key_data(kdc_context, NULL, client_key, &state->client_keyblock, NULL))) { state->status = "DECRYPT_CLIENT_KEY"; goto egress; } state->client_keyblock.enctype = useenctype; /* Start assembling the response */ state->reply.msg_type = KRB5_AS_REP; state->reply.client = state->enc_tkt_reply.client; /* post canonization */ state->reply.ticket = &state->ticket_reply; state->reply_encpart.session = &state->session_key; if ((errcode = fetch_last_req_info(state->client, &state->reply_encpart.last_req))) { state->status = "FETCH_LAST_REQ"; goto egress; } state->reply_encpart.nonce = state->request->nonce; state->reply_encpart.key_exp = get_key_exp(state->client); state->reply_encpart.flags = state->enc_tkt_reply.flags; state->reply_encpart.server = state->ticket_reply.server; /* copy the time fields EXCEPT for authtime; it's location * is used for ktime */ state->reply_encpart.times = state->enc_tkt_reply.times; state->reply_encpart.times.authtime = state->authtime = state->kdc_time; state->reply_encpart.caddrs = state->enc_tkt_reply.caddrs; state->reply_encpart.enc_padata = NULL; /* Fetch the padata info to be returned (do this before * authdata to handle possible replacement of reply key */ errcode = return_padata(kdc_context, &state->rock, state->req_pkt, state->request, &state->reply, &state->client_keyblock, &state->pa_context); if (errcode) { state->status = "KDC_RETURN_PADATA"; goto egress; } errcode = handle_authdata(kdc_context, state->c_flags, state->client, state->server, state->server, &state->client_keyblock, &state->server_keyblock, &state->server_keyblock, state->req_pkt, state->request, NULL, /* for_user_princ */ NULL, /* enc_tkt_request */ &state->enc_tkt_reply); if (errcode) { krb5_klog_syslog(LOG_INFO, _("AS_REQ : handle_authdata (%d)"), errcode); state->status = "HANDLE_AUTHDATA"; goto egress; } errcode = krb5_encrypt_tkt_part(kdc_context, &state->server_keyblock, &state->ticket_reply); if (errcode) { state->status = "ENCRYPTING_TICKET"; goto egress; } state->ticket_reply.enc_part.kvno = server_key->key_data_kvno; errcode = kdc_fast_response_handle_padata(state->rstate, state->request, &state->reply, state->client_keyblock.enctype); if (errcode) { state->status = "fast response handling"; goto egress; } /* now encode/encrypt the response */ state->reply.enc_part.enctype = state->client_keyblock.enctype; errcode = kdc_fast_handle_reply_key(state->rstate, &state->client_keyblock, &as_encrypting_key); if (errcode) { state->status = "generating reply key"; goto egress; } errcode = return_enc_padata(kdc_context, state->req_pkt, state->request, as_encrypting_key, state->server, &state->reply_encpart, FALSE); if (errcode) { state->status = "KDC_RETURN_ENC_PADATA"; goto egress; } errcode = krb5_encode_kdc_rep(kdc_context, KRB5_AS_REP, &state->reply_encpart, 0, as_encrypting_key, &state->reply, &response); state->reply.enc_part.kvno = client_key->key_data_kvno; if (errcode) { state->status = "ENCODE_KDC_REP"; goto egress; } /* these parts are left on as a courtesy from krb5_encode_kdc_rep so we can use them in raw form if needed. But, we don't... */ memset(state->reply.enc_part.ciphertext.data, 0, state->reply.enc_part.ciphertext.length); free(state->reply.enc_part.ciphertext.data); log_as_req(kdc_context, state->from, state->request, &state->reply, state->client, state->cname, state->server, state->sname, state->authtime, 0, 0, 0); did_log = 1; egress: if (errcode != 0) assert (state->status != 0); free_padata_context(kdc_context, state->pa_context); if (as_encrypting_key) krb5_free_keyblock(kdc_context, as_encrypting_key); if (errcode) emsg = krb5_get_error_message(kdc_context, errcode); if (state->status) { log_as_req(kdc_context, state->from, state->request, &state->reply, state->client, state->cname, state->server, state->sname, state->authtime, state->status, errcode, emsg); did_log = 1; } if (errcode) { if (state->status == 0) { state->status = emsg; } if (errcode != KRB5KDC_ERR_DISCARD) { errcode -= ERROR_TABLE_BASE_krb5; if (errcode < 0 || errcode > 128) errcode = KRB_ERR_GENERIC; errcode = prepare_error_as(state->rstate, state->request, errcode, state->e_data, state->typed_e_data, ((state->client != NULL) ? state->client->princ : NULL), &response, state->status); state->status = 0; } } if (emsg) krb5_free_error_message(kdc_context, emsg); if (state->enc_tkt_reply.authorization_data != NULL) krb5_free_authdata(kdc_context, state->enc_tkt_reply.authorization_data); if (state->server_keyblock.contents != NULL) krb5_free_keyblock_contents(kdc_context, &state->server_keyblock); if (state->client_keyblock.contents != NULL) krb5_free_keyblock_contents(kdc_context, &state->client_keyblock); if (state->reply.padata != NULL) krb5_free_pa_data(kdc_context, state->reply.padata); if (state->reply_encpart.enc_padata) krb5_free_pa_data(kdc_context, state->reply_encpart.enc_padata); if (state->cname != NULL) free(state->cname); if (state->sname != NULL) free(state->sname); krb5_db_free_principal(kdc_context, state->client); krb5_db_free_principal(kdc_context, state->server); if (state->session_key.contents != NULL) krb5_free_keyblock_contents(kdc_context, &state->session_key); if (state->ticket_reply.enc_part.ciphertext.data != NULL) { memset(state->ticket_reply.enc_part.ciphertext.data , 0, state->ticket_reply.enc_part.ciphertext.length); free(state->ticket_reply.enc_part.ciphertext.data); } krb5_free_pa_data(kdc_context, state->e_data); krb5_free_data(kdc_context, state->inner_body); kdc_free_rstate(state->rstate); krb5_free_kdc_req(kdc_context, state->request); assert(did_log != 0); free(state); (*oldrespond)(oldarg, errcode, response); }
/* * Construct a TGS request and return its ASN.1 encoding as well as the * timestamp, nonce, and subkey used. The pacb_fn callback allows the caller * to amend the request padata after the nonce and subkey are determined. */ krb5_error_code k5_make_tgs_req(krb5_context context, struct krb5int_fast_request_state *fast_state, krb5_creds *tgt, krb5_flags kdcoptions, krb5_address *const *addrs, krb5_pa_data **in_padata, krb5_creds *desired, k5_pacb_fn pacb_fn, void *pacb_data, krb5_data *req_asn1_out, krb5_timestamp *timestamp_out, krb5_int32 *nonce_out, krb5_keyblock **subkey_out) { krb5_error_code ret; krb5_kdc_req req; krb5_data *authdata_asn1 = NULL, *req_body_asn1 = NULL; krb5_data *ap_req_asn1 = NULL, *tgs_req_asn1 = NULL; krb5_ticket *sec_ticket = NULL; krb5_ticket *sec_ticket_arr[2]; krb5_timestamp time_now; krb5_pa_data **padata = NULL, *pa; krb5_keyblock *subkey = NULL; krb5_enc_data authdata_enc; krb5_enctype enctypes[2], *defenctypes = NULL; size_t count, i; *req_asn1_out = empty_data(); *timestamp_out = 0; *nonce_out = 0; *subkey_out = NULL; memset(&req, 0, sizeof(req)); memset(&authdata_enc, 0, sizeof(authdata_enc)); /* tgt's client principal must match the desired client principal. */ if (!krb5_principal_compare(context, tgt->client, desired->client)) return KRB5_PRINC_NOMATCH; /* tgt must be an actual credential, not a template. */ if (!tgt->ticket.length) return KRB5_NO_TKT_SUPPLIED; req.kdc_options = kdcoptions; req.server = desired->server; req.from = desired->times.starttime; req.till = desired->times.endtime ? desired->times.endtime : tgt->times.endtime; req.rtime = desired->times.renew_till; ret = krb5_timeofday(context, &time_now); if (ret) return ret; *nonce_out = req.nonce = (krb5_int32)time_now; *timestamp_out = time_now; req.addresses = (krb5_address **)addrs; /* Generate subkey. */ ret = krb5_generate_subkey(context, &tgt->keyblock, &subkey); if (ret) return ret; TRACE_SEND_TGS_SUBKEY(context, subkey); ret = krb5int_fast_tgs_armor(context, fast_state, subkey, &tgt->keyblock, NULL, NULL); if (ret) goto cleanup; if (desired->authdata != NULL) { ret = encode_krb5_authdata(desired->authdata, &authdata_asn1); if (ret) goto cleanup; ret = krb5_encrypt_helper(context, subkey, KRB5_KEYUSAGE_TGS_REQ_AD_SUBKEY, authdata_asn1, &authdata_enc); if (ret) goto cleanup; req.authorization_data = authdata_enc; } if (desired->keyblock.enctype != ENCTYPE_NULL) { if (!krb5_c_valid_enctype(desired->keyblock.enctype)) { ret = KRB5_PROG_ETYPE_NOSUPP; goto cleanup; } enctypes[0] = desired->keyblock.enctype; enctypes[1] = ENCTYPE_NULL; req.ktype = enctypes; req.nktypes = 1; } else { /* Get the default TGS enctypes. */ ret = krb5_get_tgs_ktypes(context, desired->server, &defenctypes); if (ret) goto cleanup; for (count = 0; defenctypes[count]; count++); req.ktype = defenctypes; req.nktypes = count; } TRACE_SEND_TGS_ETYPES(context, req.ktype); if (kdcoptions & (KDC_OPT_ENC_TKT_IN_SKEY | KDC_OPT_CNAME_IN_ADDL_TKT)) { if (desired->second_ticket.length == 0) { ret = KRB5_NO_2ND_TKT; goto cleanup; } ret = decode_krb5_ticket(&desired->second_ticket, &sec_ticket); if (ret) goto cleanup; sec_ticket_arr[0] = sec_ticket; sec_ticket_arr[1] = NULL; req.second_ticket = sec_ticket_arr; } /* Encode the request body. */ ret = krb5int_fast_prep_req_body(context, fast_state, &req, &req_body_asn1); if (ret) goto cleanup; ret = tgs_construct_ap_req(context, req_body_asn1, tgt, subkey, &ap_req_asn1); if (ret) goto cleanup; for (count = 0; in_padata != NULL && in_padata[count] != NULL; count++); /* Construct a padata array for the request, beginning with the ap-req. */ padata = k5calloc(count + 2, sizeof(krb5_pa_data *), &ret); if (padata == NULL) goto cleanup; padata[0] = k5alloc(sizeof(krb5_pa_data), &ret); if (padata[0] == NULL) goto cleanup; padata[0]->pa_type = KRB5_PADATA_AP_REQ; padata[0]->contents = k5memdup(ap_req_asn1->data, ap_req_asn1->length, &ret); if (padata[0] == NULL) goto cleanup; padata[0]->length = ap_req_asn1->length; /* Append copies of any other supplied padata. */ for (i = 0; in_padata != NULL && in_padata[i] != NULL; i++) { pa = k5alloc(sizeof(krb5_pa_data), &ret); if (pa == NULL) goto cleanup; pa->pa_type = in_padata[i]->pa_type; pa->length = in_padata[i]->length; pa->contents = k5memdup(in_padata[i]->contents, in_padata[i]->length, &ret); if (pa->contents == NULL) goto cleanup; padata[i + 1] = pa; } req.padata = padata; if (pacb_fn != NULL) { ret = (*pacb_fn)(context, subkey, &req, pacb_data); if (ret) goto cleanup; } /* Encode the TGS-REQ. Discard the krb5_data container. */ ret = krb5int_fast_prep_req(context, fast_state, &req, ap_req_asn1, encode_krb5_tgs_req, &tgs_req_asn1); if (ret) goto cleanup; *req_asn1_out = *tgs_req_asn1; free(tgs_req_asn1); tgs_req_asn1 = NULL; *subkey_out = subkey; subkey = NULL; cleanup: krb5_free_data(context, authdata_asn1); krb5_free_data(context, req_body_asn1); krb5_free_data(context, ap_req_asn1); krb5_free_pa_data(context, req.padata); krb5_free_ticket(context, sec_ticket); krb5_free_data_contents(context, &authdata_enc.ciphertext); krb5_free_keyblock(context, subkey); free(defenctypes); return ret; }
krb5_error_code krb5_obtain_padata(krb5_context context, krb5_pa_data **preauth_to_use, git_key_proc key_proc, krb5_const_pointer key_seed, krb5_creds *creds, krb5_kdc_req *request) { krb5_error_code retval; krb5_etype_info etype_info = 0; krb5_pa_data ** pa; krb5_pa_data ** send_pa_list; krb5_pa_data ** send_pa; const krb5_preauth_ops *ops; krb5_keyblock * def_enc_key = 0; krb5_enctype enctype; krb5_data salt; krb5_data scratch; int size; int f_salt = 0; if (preauth_to_use == NULL) return 0; for (pa = preauth_to_use, size=0; *pa; pa++, size++) { if ((*pa)->pa_type == KRB5_PADATA_ETYPE_INFO) { /* XXX use the first one. Is there another way to disambiguate? */ if (etype_info) continue; scratch.length = (*pa)->length; scratch.data = (char *) (*pa)->contents; retval = decode_krb5_etype_info(&scratch, &etype_info); if (retval) return retval; if (etype_info[0] == NULL) { krb5_free_etype_info(context, etype_info); etype_info = NULL; } } } if ((send_pa_list = malloc((size+1) * sizeof(krb5_pa_data *))) == NULL) return ENOMEM; send_pa = send_pa_list; *send_pa = 0; enctype = request->ktype[0]; salt.data = 0; salt.length = SALT_TYPE_NO_LENGTH; if (etype_info) { enctype = etype_info[0]->etype; salt.data = (char *) etype_info[0]->salt; if(etype_info[0]->length == KRB5_ETYPE_NO_SALT) salt.length = SALT_TYPE_NO_LENGTH; /* XXX */ else salt.length = etype_info[0]->length; } if (salt.length == SALT_TYPE_NO_LENGTH) { /* * This will set the salt length */ if ((retval = krb5_principal2salt(context, request->client, &salt))) return(retval); f_salt = 1; } if ((retval = (*key_proc)(context, enctype, &salt, key_seed, &def_enc_key))) goto cleanup; for (pa = preauth_to_use; *pa; pa++) { if (find_pa_system((*pa)->pa_type, &ops)) continue; if (ops->obtain == 0) continue; retval = ((ops)->obtain)(context, *pa, etype_info, def_enc_key, key_proc, key_seed, creds, request, send_pa); if (retval) goto cleanup; if (*send_pa) send_pa++; *send_pa = 0; } retval = 0; if (send_pa_list[0]) { request->padata = send_pa_list; send_pa_list = 0; } cleanup: if (etype_info) krb5_free_etype_info(context, etype_info); if (f_salt) free(salt.data); if (send_pa_list) krb5_free_pa_data(context, send_pa_list); if (def_enc_key) krb5_free_keyblock(context, def_enc_key); return retval; }
static void finish_process_as_req(struct as_req_state *state, krb5_error_code errcode) { krb5_key_data *server_key; krb5_keyblock *as_encrypting_key = NULL; krb5_data *response = NULL; const char *emsg = 0; int did_log = 0; loop_respond_fn oldrespond; void *oldarg; kdc_realm_t *kdc_active_realm = state->active_realm; krb5_audit_state *au_state = state->au_state; assert(state); oldrespond = state->respond; oldarg = state->arg; if (errcode) goto egress; au_state->stage = ENCR_REP; if ((errcode = validate_forwardable(state->request, *state->client, *state->server, state->kdc_time, &state->status))) { errcode += ERROR_TABLE_BASE_krb5; goto egress; } errcode = check_indicators(kdc_context, state->server, state->auth_indicators); if (errcode) { state->status = "HIGHER_AUTHENTICATION_REQUIRED"; goto egress; } state->ticket_reply.enc_part2 = &state->enc_tkt_reply; /* * Find the server key */ if ((errcode = krb5_dbe_find_enctype(kdc_context, state->server, -1, /* ignore keytype */ -1, /* Ignore salttype */ 0, /* Get highest kvno */ &server_key))) { state->status = "FINDING_SERVER_KEY"; goto egress; } /* * Convert server->key into a real key * (it may be encrypted in the database) * * server_keyblock is later used to generate auth data signatures */ if ((errcode = krb5_dbe_decrypt_key_data(kdc_context, NULL, server_key, &state->server_keyblock, NULL))) { state->status = "DECRYPT_SERVER_KEY"; goto egress; } /* Start assembling the response */ state->reply.msg_type = KRB5_AS_REP; state->reply.client = state->enc_tkt_reply.client; /* post canonization */ state->reply.ticket = &state->ticket_reply; state->reply_encpart.session = &state->session_key; if ((errcode = fetch_last_req_info(state->client, &state->reply_encpart.last_req))) { state->status = "FETCH_LAST_REQ"; goto egress; } state->reply_encpart.nonce = state->request->nonce; state->reply_encpart.key_exp = get_key_exp(state->client); state->reply_encpart.flags = state->enc_tkt_reply.flags; state->reply_encpart.server = state->ticket_reply.server; /* copy the time fields EXCEPT for authtime; it's location * is used for ktime */ state->reply_encpart.times = state->enc_tkt_reply.times; state->reply_encpart.times.authtime = state->authtime = state->kdc_time; state->reply_encpart.caddrs = state->enc_tkt_reply.caddrs; state->reply_encpart.enc_padata = NULL; /* Fetch the padata info to be returned (do this before * authdata to handle possible replacement of reply key */ errcode = return_padata(kdc_context, &state->rock, state->req_pkt, state->request, &state->reply, &state->client_keyblock, &state->pa_context); if (errcode) { state->status = "KDC_RETURN_PADATA"; goto egress; } /* If we didn't find a client long-term key and no preauth mechanism * replaced the reply key, error out now. */ if (state->client_keyblock.enctype == ENCTYPE_NULL) { state->status = "CANT_FIND_CLIENT_KEY"; errcode = KRB5KDC_ERR_ETYPE_NOSUPP; goto egress; } errcode = handle_authdata(kdc_context, state->c_flags, state->client, state->server, NULL, state->local_tgt, &state->client_keyblock, &state->server_keyblock, NULL, state->req_pkt, state->request, NULL, /* for_user_princ */ NULL, /* enc_tkt_request */ state->auth_indicators, &state->enc_tkt_reply); if (errcode) { krb5_klog_syslog(LOG_INFO, _("AS_REQ : handle_authdata (%d)"), errcode); state->status = "HANDLE_AUTHDATA"; goto egress; } errcode = krb5_encrypt_tkt_part(kdc_context, &state->server_keyblock, &state->ticket_reply); if (errcode) { state->status = "ENCRYPT_TICKET"; goto egress; } errcode = kau_make_tkt_id(kdc_context, &state->ticket_reply, &au_state->tkt_out_id); if (errcode) { state->status = "GENERATE_TICKET_ID"; goto egress; } state->ticket_reply.enc_part.kvno = server_key->key_data_kvno; errcode = kdc_fast_response_handle_padata(state->rstate, state->request, &state->reply, state->client_keyblock.enctype); if (errcode) { state->status = "MAKE_FAST_RESPONSE"; goto egress; } /* now encode/encrypt the response */ state->reply.enc_part.enctype = state->client_keyblock.enctype; errcode = kdc_fast_handle_reply_key(state->rstate, &state->client_keyblock, &as_encrypting_key); if (errcode) { state->status = "MAKE_FAST_REPLY_KEY"; goto egress; } errcode = return_enc_padata(kdc_context, state->req_pkt, state->request, as_encrypting_key, state->server, &state->reply_encpart, FALSE); if (errcode) { state->status = "KDC_RETURN_ENC_PADATA"; goto egress; } if (kdc_fast_hide_client(state->rstate)) state->reply.client = (krb5_principal)krb5_anonymous_principal(); errcode = krb5_encode_kdc_rep(kdc_context, KRB5_AS_REP, &state->reply_encpart, 0, as_encrypting_key, &state->reply, &response); if (state->client_key != NULL) state->reply.enc_part.kvno = state->client_key->key_data_kvno; if (errcode) { state->status = "ENCODE_KDC_REP"; goto egress; } /* these parts are left on as a courtesy from krb5_encode_kdc_rep so we can use them in raw form if needed. But, we don't... */ memset(state->reply.enc_part.ciphertext.data, 0, state->reply.enc_part.ciphertext.length); free(state->reply.enc_part.ciphertext.data); log_as_req(kdc_context, state->from, state->request, &state->reply, state->client, state->cname, state->server, state->sname, state->authtime, 0, 0, 0); did_log = 1; egress: if (errcode != 0) assert (state->status != 0); au_state->status = state->status; au_state->reply = &state->reply; kau_as_req(kdc_context, (errcode || state->preauth_err) ? FALSE : TRUE, au_state); kau_free_kdc_req(au_state); free_padata_context(kdc_context, state->pa_context); if (as_encrypting_key) krb5_free_keyblock(kdc_context, as_encrypting_key); if (errcode) emsg = krb5_get_error_message(kdc_context, errcode); if (state->status) { log_as_req(kdc_context, state->from, state->request, &state->reply, state->client, state->cname, state->server, state->sname, state->authtime, state->status, errcode, emsg); did_log = 1; } if (errcode) { if (state->status == 0) { state->status = emsg; } if (errcode != KRB5KDC_ERR_DISCARD) { errcode -= ERROR_TABLE_BASE_krb5; if (errcode < 0 || errcode > KRB_ERR_MAX) errcode = KRB_ERR_GENERIC; errcode = prepare_error_as(state->rstate, state->request, state->local_tgt, errcode, state->e_data, state->typed_e_data, ((state->client != NULL) ? state->client->princ : NULL), &response, state->status); state->status = 0; } } if (emsg) krb5_free_error_message(kdc_context, emsg); if (state->enc_tkt_reply.authorization_data != NULL) krb5_free_authdata(kdc_context, state->enc_tkt_reply.authorization_data); if (state->server_keyblock.contents != NULL) krb5_free_keyblock_contents(kdc_context, &state->server_keyblock); if (state->client_keyblock.contents != NULL) krb5_free_keyblock_contents(kdc_context, &state->client_keyblock); if (state->reply.padata != NULL) krb5_free_pa_data(kdc_context, state->reply.padata); if (state->reply_encpart.enc_padata) krb5_free_pa_data(kdc_context, state->reply_encpart.enc_padata); if (state->cname != NULL) free(state->cname); if (state->sname != NULL) free(state->sname); krb5_db_free_principal(kdc_context, state->client); krb5_db_free_principal(kdc_context, state->server); krb5_db_free_principal(kdc_context, state->local_tgt_storage); if (state->session_key.contents != NULL) krb5_free_keyblock_contents(kdc_context, &state->session_key); if (state->ticket_reply.enc_part.ciphertext.data != NULL) { memset(state->ticket_reply.enc_part.ciphertext.data , 0, state->ticket_reply.enc_part.ciphertext.length); free(state->ticket_reply.enc_part.ciphertext.data); } krb5_free_pa_data(kdc_context, state->e_data); krb5_free_data(kdc_context, state->inner_body); kdc_free_rstate(state->rstate); krb5_free_kdc_req(kdc_context, state->request); k5_free_data_ptr_list(state->auth_indicators); assert(did_log != 0); free(state); (*oldrespond)(oldarg, errcode, response); }
static krb5_error_code make_ad_signedpath(krb5_context context, krb5_const_principal for_user_princ, krb5_principal server, const krb5_db_entry *krbtgt, krb5_keyblock *krbtgt_key, krb5_principal *deleg_path, krb5_enc_tkt_part *enc_tkt_reply) { krb5_error_code code; krb5_ad_signedpath sp; int i; krb5_data *data = NULL; krb5_authdata ad_datum, *ad_data[2]; krb5_authdata **if_relevant = NULL; memset(&sp, 0, sizeof(sp)); sp.enctype = krbtgt_key->enctype; if (deleg_path != NULL) { for (i = 0; deleg_path[i] != NULL; i++) ; } else i = 0; sp.delegated = k5calloc(i + (server ? 1 : 0) + 1, sizeof(krb5_principal), &code); if (code != 0) goto cleanup; /* Combine existing and new transited services, if any */ if (deleg_path != NULL) memcpy(sp.delegated, deleg_path, i * sizeof(krb5_principal)); if (server != NULL) sp.delegated[i++] = server; sp.delegated[i] = NULL; sp.method_data = NULL; code = make_ad_signedpath_checksum(context, for_user_princ, krbtgt, krbtgt_key, enc_tkt_reply, sp.delegated, sp.method_data, &sp.checksum); if (code != 0) { if (code == KRB5KRB_AP_ERR_INAPP_CKSUM) { /* * In the hopefully unlikely case the TGS key enctype * has an unkeyed mandatory checksum type, do not fail * so we do not prevent the KDC from servicing requests. */ code = 0; } goto cleanup; } code = encode_krb5_ad_signedpath(&sp, &data); if (code != 0) goto cleanup; ad_datum.ad_type = KRB5_AUTHDATA_SIGNTICKET; ad_datum.contents = (krb5_octet *)data->data; ad_datum.length = data->length; ad_data[0] = &ad_datum; ad_data[1] = NULL; code = krb5_encode_authdata_container(context, KRB5_AUTHDATA_IF_RELEVANT, ad_data, &if_relevant); if (code != 0) goto cleanup; code = merge_authdata(context, if_relevant, &enc_tkt_reply->authorization_data, FALSE, /* !copy */ FALSE); /* !ignore_kdc_issued */ if (code != 0) goto cleanup; if_relevant = NULL; /* merge_authdata() freed */ cleanup: if (sp.delegated != NULL) free(sp.delegated); krb5_free_authdata(context, if_relevant); krb5_free_data(context, data); krb5_free_checksum_contents(context, &sp.checksum); krb5_free_pa_data(context, sp.method_data); return code; }
/* * If state contains an armor key and *err_replyptr contains a FAST error, * decode it and set *err_replyptr to the inner error and *out_padata to the * padata in the FAST response. Otherwise, leave *err_replyptr alone and set * *out_padata to the error e_data decoded as pa-data or typed-data, or to NULL * if it doesn't decode as either. In either case, set *retry to indicate * whether the client should try to make a follow-up request. */ krb5_error_code krb5int_fast_process_error(krb5_context context, struct krb5int_fast_request_state *state, krb5_error **err_replyptr, krb5_pa_data ***out_padata, krb5_boolean *retry) { krb5_error_code retval = 0; krb5_error *err_reply = *err_replyptr; krb5_pa_data *fx_error_pa; krb5_pa_data **result = NULL; krb5_data scratch = empty_data(); krb5_error *fx_error = NULL; krb5_fast_response *fast_response = NULL; if (out_padata) *out_padata = NULL; if (retry) *retry = 0; if (state->armor_key) { retval = decode_krb5_padata_sequence(&err_reply->e_data, &result); if (retval == 0) retval = decrypt_fast_reply(context, state, result, &fast_response); if (retval) { /* * This can happen if the KDC does not understand FAST. We don't * expect that, but treating it as the fatal error indicated by the * KDC seems reasonable. */ if (retry != NULL) *retry = 0; krb5_free_pa_data(context, result); return 0; } if (retval == 0) { fx_error_pa = krb5int_find_pa_data(context, fast_response->padata, KRB5_PADATA_FX_ERROR); if (fx_error_pa == NULL) { k5_setmsg(context, KRB5KDC_ERR_PREAUTH_FAILED, _("Expecting FX_ERROR pa-data inside FAST " "container")); retval = KRB5KDC_ERR_PREAUTH_FAILED; } } if (retval == 0) { scratch = make_data(fx_error_pa->contents, fx_error_pa->length); retval = decode_krb5_error(&scratch, &fx_error); } if (retval == 0) { krb5_free_error(context, err_reply); *err_replyptr = fx_error; fx_error = NULL; if (out_padata) { *out_padata = fast_response->padata; fast_response->padata = NULL; } /* * If there is more than the fx_error padata, then we want * to retry the error if a cookie is present */ if (retry != NULL) { *retry = (*out_padata)[1] != NULL; if (krb5int_find_pa_data(context, *out_padata, KRB5_PADATA_FX_COOKIE) == NULL) *retry = 0; } } } else { /*not FAST*/ /* Possibly retry if there's any e_data to process. */ if (retry) *retry = (err_reply->e_data.length > 0); /* Try to decode e_data as pa-data or typed-data for out_padata. */ if (out_padata) { retval = decode_krb5_padata_sequence(&err_reply->e_data, out_padata); if (retval != 0) { (void)decode_krb5_typed_data(&err_reply->e_data, out_padata); retval = 0; } } } krb5_free_pa_data(context, result); krb5_free_fast_response(context, fast_response); if (fx_error) krb5_free_error(context, fx_error); return retval; }
/* * FAST separates two concepts: the set of padata we're using to * decide what pre-auth mechanisms to use and the set of padata we're * making available to mechanisms in order for them to respond to an * error. The plugin interface in March 2009 does not permit * separating these concepts for the plugins. This function makes * both available for future revisions to the plugin interface. It * also re-encodes the padata from the current error as a encoded * typed-data and puts that in the e_data field. That will allow * existing plugins with the old interface to find the error data. * The output parameter out_padata contains the padata from the error * whenever padata is available (all the time with fast). */ krb5_error_code krb5int_fast_process_error(krb5_context context, struct krb5int_fast_request_state *state, krb5_error **err_replyptr, krb5_pa_data ***out_padata, krb5_boolean *retry) { krb5_error_code retval = 0; krb5_error *err_reply = *err_replyptr; *out_padata = NULL; *retry = 0; if (state->armor_key) { krb5_pa_data *fx_error_pa; krb5_pa_data **result = NULL; krb5_data scratch, *encoded_td = NULL; krb5_error *fx_error = NULL; krb5_fast_response *fast_response = NULL; retval = decode_krb5_padata_sequence(&err_reply->e_data, &result); if (retval == 0) retval = decrypt_fast_reply(context, state, result, &fast_response); if (retval) { /* * This can happen if the KDC does not understand FAST. We don't * expect that, but treating it as the fatal error indicated by the * KDC seems reasonable. */ *retry = 0; krb5_free_pa_data(context, result); return 0; } krb5_free_pa_data(context, result); result = NULL; if (retval == 0) { fx_error_pa = krb5int_find_pa_data(context, fast_response->padata, KRB5_PADATA_FX_ERROR); if (fx_error_pa == NULL) { krb5_set_error_message(context, KRB5KDC_ERR_PREAUTH_FAILED, "Expecting FX_ERROR pa-data inside " "FAST container"); retval = KRB5KDC_ERR_PREAUTH_FAILED; } } if (retval == 0) { scratch.data = (char *) fx_error_pa->contents; scratch.length = fx_error_pa->length; retval = decode_krb5_error(&scratch, &fx_error); } /* * krb5_pa_data and krb5_typed_data are safe to cast between: * they have the same type fields in the same order. * (krb5_preauthtype is a krb5_int32). If krb5_typed_data is * ever changed then this will need to be a copy not a cast. */ if (retval == 0) retval = encode_krb5_typed_data((const krb5_typed_data **) fast_response->padata, &encoded_td); if (retval == 0) { fx_error->e_data = *encoded_td; free(encoded_td); /*contents owned by fx_error*/ encoded_td = NULL; krb5_free_error(context, err_reply); *err_replyptr = fx_error; fx_error = NULL; *out_padata = fast_response->padata; fast_response->padata = NULL; /* * If there is more than the fx_error padata, then we want * to retry the error if a cookie is present */ *retry = (*out_padata)[1] != NULL; if (krb5int_find_pa_data(context, *out_padata, KRB5_PADATA_FX_COOKIE) == NULL) *retry = 0; } if (fx_error) krb5_free_error(context, fx_error); krb5_free_fast_response(context, fast_response); } else { /*not FAST*/ *retry = (err_reply->e_data.length > 0); if ((err_reply->error == KDC_ERR_PREAUTH_REQUIRED || err_reply->error == KDC_ERR_PREAUTH_FAILED) && err_reply->e_data.length) { krb5_pa_data **result = NULL; retval = decode_krb5_padata_sequence(&err_reply->e_data, &result); if (retval == 0) { *out_padata = result; return 0; } krb5_free_pa_data(context, result); krb5_set_error_message(context, retval, "Error decoding padata in error reply"); return retval; } } return retval; }
krb5_error_code KRB5_CALLCONV krb5_do_preauth(krb5_context context, krb5_kdc_req *request, krb5_data *encoded_request_body, krb5_data *encoded_previous_request, krb5_pa_data **in_padata, krb5_pa_data ***out_padata, krb5_prompter_fct prompter, void *prompter_data, krb5_clpreauth_rock rock, krb5_gic_opt_ext *opte, krb5_boolean *got_real_out) { size_t i, h; int out_pa_list_size = 0; krb5_pa_data **out_pa_list = NULL; krb5_error_code ret, module_ret; krb5_responder_fn responder = opte->opt_private->responder; static const int paorder[] = { PA_INFO, PA_REAL }; *out_padata = NULL; *got_real_out = FALSE; if (in_padata == NULL) return 0; TRACE_PREAUTH_INPUT(context, in_padata); /* Scan the padata list and process etype-info or salt elements. */ ret = get_etype_info(context, in_padata, request, rock); if (ret) return ret; /* Copy the cookie if there is one. */ ret = copy_cookie(context, in_padata, &out_pa_list, &out_pa_list_size); if (ret) goto error; if (krb5int_find_pa_data(context, in_padata, KRB5_PADATA_S4U_X509_USER) != NULL) { /* Fulfill a private contract with krb5_get_credentials_for_user. */ ret = add_s4u_x509_user_padata(context, *rock->gak_data, request->client, &out_pa_list, &out_pa_list_size); if (ret) goto error; } /* If we can't initialize the preauth context, stop with what we have. */ krb5_init_preauth_context(context); if (context->preauth_context == NULL) { *out_padata = out_pa_list; goto error; } /* Get a list of response items for in_padata from the preauth modules. */ ret = fill_response_items(context, request, encoded_request_body, encoded_previous_request, in_padata, rock, opte); if (ret) goto error; /* Call the responder to answer response items. */ if (responder != NULL && !k5_response_items_empty(rock->rctx.items)) { ret = (*responder)(context, opte->opt_private->responder_data, &rock->rctx); if (ret) goto error; } /* Produce output padata, first from all the informational preauths, then * the from first real one. */ for (h = 0; h < sizeof(paorder) / sizeof(paorder[0]); h++) { for (i = 0; in_padata[i] != NULL; i++) { #ifdef DEBUG fprintf (stderr, "trying modules for pa_type %d, flag %d\n", in_padata[i]->pa_type, paorder[h]); #endif ret = run_preauth_plugins(context, paorder[h], request, encoded_request_body, encoded_previous_request, in_padata[i], prompter, prompter_data, rock, &out_pa_list, &out_pa_list_size, &module_ret, opte); if (ret == 0 && module_ret == 0 && paorder[h] == PA_REAL) { *got_real_out = TRUE; break; } } } TRACE_PREAUTH_OUTPUT(context, out_pa_list); *out_padata = out_pa_list; return 0; error: krb5_free_pa_data(context, out_pa_list); return ret; }
krb5_error_code kdc_fast_response_handle_padata(struct kdc_request_state *state, krb5_kdc_req *request, krb5_kdc_rep *rep, krb5_enctype enctype) { krb5_error_code retval = 0; krb5_fast_finished finish; krb5_fast_response fast_response; krb5_data *encoded_ticket = NULL; krb5_data *encrypted_reply = NULL; krb5_pa_data *pa = NULL, **pa_array = NULL; krb5_cksumtype cksumtype = CKSUMTYPE_RSA_MD5; krb5_pa_data *empty_padata[] = {NULL}; krb5_keyblock *strengthen_key = NULL; kdc_realm_t *kdc_active_realm = state->realm_data; if (!state->armor_key) return 0; memset(&finish, 0, sizeof(finish)); retval = krb5_init_keyblock(kdc_context, enctype, 0, &strengthen_key); if (retval == 0) retval = krb5_c_make_random_key(kdc_context, enctype, strengthen_key); if (retval == 0) { state->strengthen_key = strengthen_key; strengthen_key = NULL; } fast_response.padata = rep->padata; if (fast_response.padata == NULL) fast_response.padata = &empty_padata[0]; fast_response.strengthen_key = state->strengthen_key; fast_response.nonce = request->nonce; fast_response.finished = &finish; finish.client = rep->client; pa_array = calloc(3, sizeof(*pa_array)); if (pa_array == NULL) retval = ENOMEM; pa = calloc(1, sizeof(krb5_pa_data)); if (retval == 0 && pa == NULL) retval = ENOMEM; if (retval == 0) retval = krb5_us_timeofday(kdc_context, &finish.timestamp, &finish.usec); if (retval == 0) retval = encode_krb5_ticket(rep->ticket, &encoded_ticket); if (retval == 0) retval = krb5int_c_mandatory_cksumtype(kdc_context, state->armor_key->enctype, &cksumtype); if (retval == 0) retval = krb5_c_make_checksum(kdc_context, cksumtype, state->armor_key, KRB5_KEYUSAGE_FAST_FINISHED, encoded_ticket, &finish.ticket_checksum); if (retval == 0) retval = encrypt_fast_reply(state, &fast_response, &encrypted_reply); if (retval == 0) { pa[0].pa_type = KRB5_PADATA_FX_FAST; pa[0].length = encrypted_reply->length; pa[0].contents = (unsigned char *) encrypted_reply->data; pa_array[0] = &pa[0]; krb5_free_pa_data(kdc_context, rep->padata); rep->padata = pa_array; pa_array = NULL; free(encrypted_reply); encrypted_reply = NULL; pa = NULL; } if (pa) free(pa); if (pa_array) free(pa_array); if (encrypted_reply) krb5_free_data(kdc_context, encrypted_reply); if (encoded_ticket) krb5_free_data(kdc_context, encoded_ticket); if (strengthen_key != NULL) krb5_free_keyblock(kdc_context, strengthen_key); if (finish.ticket_checksum.contents) krb5_free_checksum_contents(kdc_context, &finish.ticket_checksum); return retval; }
/*ARGSUSED*/ krb5_error_code process_tgs_req(krb5_data *pkt, const krb5_fulladdr *from, krb5_data **response) { krb5_keyblock * subkey = 0; krb5_kdc_req *request = 0; krb5_db_entry server; krb5_kdc_rep reply; krb5_enc_kdc_rep_part reply_encpart; krb5_ticket ticket_reply, *header_ticket = 0; int st_idx = 0; krb5_enc_tkt_part enc_tkt_reply; krb5_transited enc_tkt_transited; int newtransited = 0; krb5_error_code retval = 0; krb5_keyblock encrypting_key; int nprincs = 0; krb5_boolean more; krb5_timestamp kdc_time, authtime=0; krb5_keyblock session_key; krb5_timestamp until, rtime; krb5_keyblock *reply_key = NULL; krb5_keyblock *mkey_ptr; krb5_key_data *server_key; char *cname = 0, *sname = 0, *altcname = 0; krb5_last_req_entry *nolrarray[2], nolrentry; krb5_enctype useenctype; int errcode, errcode2; register int i; int firstpass = 1; const char *status = 0; krb5_enc_tkt_part *header_enc_tkt = NULL; /* ticket granting or evidence ticket */ krb5_db_entry client, krbtgt; int c_nprincs = 0, k_nprincs = 0; krb5_pa_s4u_x509_user *s4u_x509_user = NULL; /* protocol transition request */ krb5_authdata **kdc_issued_auth_data = NULL; /* auth data issued by KDC */ unsigned int c_flags = 0, s_flags = 0; /* client/server KDB flags */ char *s4u_name = NULL; krb5_boolean is_referral, db_ref_done = FALSE; const char *emsg = NULL; krb5_data *tgs_1 =NULL, *server_1 = NULL; krb5_principal krbtgt_princ; krb5_kvno ticket_kvno = 0; struct kdc_request_state *state = NULL; krb5_pa_data *pa_tgs_req; /*points into request*/ krb5_data scratch; session_key.contents = NULL; retval = decode_krb5_tgs_req(pkt, &request); if (retval) return retval; /* * setup_server_realm() sets up the global realm-specific data pointer. */ if ((retval = setup_server_realm(request->server))) { krb5_free_kdc_req(kdc_context, request); return retval; } errcode = kdc_process_tgs_req(request, from, pkt, &header_ticket, &krbtgt, &k_nprincs, &subkey, &pa_tgs_req); if (header_ticket && header_ticket->enc_part2 && (errcode2 = krb5_unparse_name(kdc_context, header_ticket->enc_part2->client, &cname))) { status = "UNPARSING CLIENT"; errcode = errcode2; goto cleanup; } limit_string(cname); if (errcode) { status = "PROCESS_TGS"; goto cleanup; } if (!header_ticket) { errcode = KRB5_NO_TKT_SUPPLIED; /* XXX? */ status="UNEXPECTED NULL in header_ticket"; goto cleanup; } errcode = kdc_make_rstate(&state); if (errcode !=0) { status = "making state"; goto cleanup; } scratch.length = pa_tgs_req->length; scratch.data = (char *) pa_tgs_req->contents; errcode = kdc_find_fast(&request, &scratch, subkey, header_ticket->enc_part2->session, state); if (errcode !=0) { status = "kdc_find_fast"; goto cleanup; } /* * Pointer to the encrypted part of the header ticket, which may be * replaced to point to the encrypted part of the evidence ticket * if constrained delegation is used. This simplifies the number of * special cases for constrained delegation. */ header_enc_tkt = header_ticket->enc_part2; /* * We've already dealt with the AP_REQ authentication, so we can * use header_ticket freely. The encrypted part (if any) has been * decrypted with the session key. */ /* XXX make sure server here has the proper realm...taken from AP_REQ header? */ if (isflagset(request->kdc_options, KDC_OPT_CANONICALIZE)) { setflag(c_flags, KRB5_KDB_FLAG_CANONICALIZE); setflag(s_flags, KRB5_KDB_FLAG_CANONICALIZE); } db_ref_done = FALSE; ref_tgt_again: nprincs = 1; if ((errcode = krb5_unparse_name(kdc_context, request->server, &sname))) { status = "UNPARSING SERVER"; goto cleanup; } limit_string(sname); errcode = krb5_db_get_principal_ext(kdc_context, request->server, s_flags, &server, &nprincs, &more); if (errcode) { status = "LOOKING_UP_SERVER"; nprincs = 0; goto cleanup; } tgt_again: if (more) { status = "NON_UNIQUE_PRINCIPAL"; errcode = KRB5KDC_ERR_PRINCIPAL_NOT_UNIQUE; goto cleanup; } else if (nprincs != 1) { /* * might be a request for a TGT for some other realm; we * should do our best to find such a TGS in this db */ if (firstpass ) { if ( krb5_is_tgs_principal(request->server) == TRUE) { /* Principal is a name of krb ticket service */ if (krb5_princ_size(kdc_context, request->server) == 2) { server_1 = krb5_princ_component(kdc_context, request->server, 1); tgs_1 = krb5_princ_component(kdc_context, tgs_server, 1); if (!tgs_1 || !data_eq(*server_1, *tgs_1)) { krb5_db_free_principal(kdc_context, &server, nprincs); find_alternate_tgs(request, &server, &more, &nprincs); firstpass = 0; goto tgt_again; } } krb5_db_free_principal(kdc_context, &server, nprincs); status = "UNKNOWN_SERVER"; errcode = KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN; goto cleanup; } else if ( db_ref_done == FALSE) { retval = prep_reprocess_req(request, &krbtgt_princ); if (!retval) { krb5_free_principal(kdc_context, request->server); retval = krb5_copy_principal(kdc_context, krbtgt_princ, &(request->server)); if (!retval) { db_ref_done = TRUE; if (sname != NULL) free(sname); goto ref_tgt_again; } } } } krb5_db_free_principal(kdc_context, &server, nprincs); status = "UNKNOWN_SERVER"; errcode = KRB5KDC_ERR_S_PRINCIPAL_UNKNOWN; goto cleanup; } if ((errcode = krb5_timeofday(kdc_context, &kdc_time))) { status = "TIME_OF_DAY"; goto cleanup; } if ((retval = validate_tgs_request(request, server, header_ticket, kdc_time, &status))) { if (!status) status = "UNKNOWN_REASON"; errcode = retval + ERROR_TABLE_BASE_krb5; goto cleanup; } if (!is_local_principal(header_enc_tkt->client)) setflag(c_flags, KRB5_KDB_FLAG_CROSS_REALM); is_referral = krb5_is_tgs_principal(server.princ) && !krb5_principal_compare(kdc_context, tgs_server, server.princ); /* Check for protocol transition */ errcode = kdc_process_s4u2self_req(kdc_context, request, header_enc_tkt->client, &server, subkey, header_enc_tkt->session, kdc_time, &s4u_x509_user, &client, &c_nprincs, &status); if (errcode) goto cleanup; if (s4u_x509_user != NULL) setflag(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION); /* * We pick the session keytype here.... * * Some special care needs to be taken in the user-to-user * case, since we don't know what keytypes the application server * which is doing user-to-user authentication can support. We * know that it at least must be able to support the encryption * type of the session key in the TGT, since otherwise it won't be * able to decrypt the U2U ticket! So we use that in preference * to anything else. */ useenctype = 0; if (isflagset(request->kdc_options, KDC_OPT_ENC_TKT_IN_SKEY | KDC_OPT_CNAME_IN_ADDL_TKT)) { krb5_keyblock * st_sealing_key; krb5_kvno st_srv_kvno; krb5_enctype etype; krb5_db_entry st_client; int st_nprincs = 0; /* * Get the key for the second ticket, and decrypt it. */ if ((errcode = kdc_get_server_key(request->second_ticket[st_idx], c_flags, TRUE, /* match_enctype */ &st_client, &st_nprincs, &st_sealing_key, &st_srv_kvno))) { status = "2ND_TKT_SERVER"; goto cleanup; } errcode = krb5_decrypt_tkt_part(kdc_context, st_sealing_key, request->second_ticket[st_idx]); krb5_free_keyblock(kdc_context, st_sealing_key); if (errcode) { status = "2ND_TKT_DECRYPT"; krb5_db_free_principal(kdc_context, &st_client, st_nprincs); goto cleanup; } etype = request->second_ticket[st_idx]->enc_part2->session->enctype; if (!krb5_c_valid_enctype(etype)) { status = "BAD_ETYPE_IN_2ND_TKT"; errcode = KRB5KDC_ERR_ETYPE_NOSUPP; krb5_db_free_principal(kdc_context, &st_client, st_nprincs); goto cleanup; } for (i = 0; i < request->nktypes; i++) { if (request->ktype[i] == etype) { useenctype = etype; break; } } if (isflagset(request->kdc_options, KDC_OPT_CNAME_IN_ADDL_TKT)) { /* Do constrained delegation protocol and authorization checks */ errcode = kdc_process_s4u2proxy_req(kdc_context, request, request->second_ticket[st_idx]->enc_part2, &st_client, header_ticket->enc_part2->client, request->server, &status); if (errcode) goto cleanup; setflag(c_flags, KRB5_KDB_FLAG_CONSTRAINED_DELEGATION); assert(krb5_is_tgs_principal(header_ticket->server)); /* From now on, use evidence ticket as header ticket */ header_enc_tkt = request->second_ticket[st_idx]->enc_part2; assert(c_nprincs == 0); /* assured by kdc_process_s4u2self_req() */ client = st_client; c_nprincs = st_nprincs; } else { /* "client" is not used for user2user */ krb5_db_free_principal(kdc_context, &st_client, st_nprincs); } } /* * Select the keytype for the ticket session key. */ if ((useenctype == 0) && (useenctype = select_session_keytype(kdc_context, &server, request->nktypes, request->ktype)) == 0) { /* unsupported ktype */ status = "BAD_ENCRYPTION_TYPE"; errcode = KRB5KDC_ERR_ETYPE_NOSUPP; goto cleanup; } errcode = krb5_c_make_random_key(kdc_context, useenctype, &session_key); if (errcode) { /* random key failed */ status = "RANDOM_KEY_FAILED"; goto cleanup; } authtime = header_enc_tkt->times.authtime; if (is_referral) ticket_reply.server = server.princ; else ticket_reply.server = request->server; /* XXX careful for realm... */ enc_tkt_reply.flags = 0; enc_tkt_reply.times.starttime = 0; if (isflagset(server.attributes, KRB5_KDB_OK_AS_DELEGATE)) setflag(enc_tkt_reply.flags, TKT_FLG_OK_AS_DELEGATE); /* * Fix header_ticket's starttime; if it's zero, fill in the * authtime's value. */ if (!(header_enc_tkt->times.starttime)) header_enc_tkt->times.starttime = header_enc_tkt->times.authtime; /* don't use new addresses unless forwarded, see below */ enc_tkt_reply.caddrs = header_enc_tkt->caddrs; /* noaddrarray[0] = 0; */ reply_encpart.caddrs = 0;/* optional...don't put it in */ reply_encpart.enc_padata = NULL; /* It should be noted that local policy may affect the */ /* processing of any of these flags. For example, some */ /* realms may refuse to issue renewable tickets */ if (isflagset(request->kdc_options, KDC_OPT_FORWARDABLE)) { setflag(enc_tkt_reply.flags, TKT_FLG_FORWARDABLE); if (isflagset(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION)) { /* * If S4U2Self principal is not forwardable, then mark ticket as * unforwardable. This behaviour matches Windows, but it is * different to the MIT AS-REQ path, which returns an error * (KDC_ERR_POLICY) if forwardable tickets cannot be issued. * * Consider this block the S4U2Self equivalent to * validate_forwardable(). */ if (c_nprincs && isflagset(client.attributes, KRB5_KDB_DISALLOW_FORWARDABLE)) clear(enc_tkt_reply.flags, TKT_FLG_FORWARDABLE); /* * OK_TO_AUTH_AS_DELEGATE must be set on the service requesting * S4U2Self in order for forwardable tickets to be returned. */ else if (!is_referral && !isflagset(server.attributes, KRB5_KDB_OK_TO_AUTH_AS_DELEGATE)) clear(enc_tkt_reply.flags, TKT_FLG_FORWARDABLE); } } if (isflagset(request->kdc_options, KDC_OPT_FORWARDED)) { setflag(enc_tkt_reply.flags, TKT_FLG_FORWARDED); /* include new addresses in ticket & reply */ enc_tkt_reply.caddrs = request->addresses; reply_encpart.caddrs = request->addresses; } if (isflagset(header_enc_tkt->flags, TKT_FLG_FORWARDED)) setflag(enc_tkt_reply.flags, TKT_FLG_FORWARDED); if (isflagset(request->kdc_options, KDC_OPT_PROXIABLE)) setflag(enc_tkt_reply.flags, TKT_FLG_PROXIABLE); if (isflagset(request->kdc_options, KDC_OPT_PROXY)) { setflag(enc_tkt_reply.flags, TKT_FLG_PROXY); /* include new addresses in ticket & reply */ enc_tkt_reply.caddrs = request->addresses; reply_encpart.caddrs = request->addresses; } if (isflagset(request->kdc_options, KDC_OPT_ALLOW_POSTDATE)) setflag(enc_tkt_reply.flags, TKT_FLG_MAY_POSTDATE); if (isflagset(request->kdc_options, KDC_OPT_POSTDATED)) { setflag(enc_tkt_reply.flags, TKT_FLG_POSTDATED); setflag(enc_tkt_reply.flags, TKT_FLG_INVALID); enc_tkt_reply.times.starttime = request->from; } else enc_tkt_reply.times.starttime = kdc_time; if (isflagset(request->kdc_options, KDC_OPT_VALIDATE)) { assert(isflagset(c_flags, KRB5_KDB_FLAGS_S4U) == 0); /* BEWARE of allocation hanging off of ticket & enc_part2, it belongs to the caller */ ticket_reply = *(header_ticket); enc_tkt_reply = *(header_ticket->enc_part2); clear(enc_tkt_reply.flags, TKT_FLG_INVALID); } if (isflagset(request->kdc_options, KDC_OPT_RENEW)) { krb5_deltat old_life; assert(isflagset(c_flags, KRB5_KDB_FLAGS_S4U) == 0); /* BEWARE of allocation hanging off of ticket & enc_part2, it belongs to the caller */ ticket_reply = *(header_ticket); enc_tkt_reply = *(header_ticket->enc_part2); old_life = enc_tkt_reply.times.endtime - enc_tkt_reply.times.starttime; enc_tkt_reply.times.starttime = kdc_time; enc_tkt_reply.times.endtime = min(header_ticket->enc_part2->times.renew_till, kdc_time + old_life); } else { /* not a renew request */ enc_tkt_reply.times.starttime = kdc_time; until = (request->till == 0) ? kdc_infinity : request->till; enc_tkt_reply.times.endtime = min(until, min(enc_tkt_reply.times.starttime + server.max_life, min(enc_tkt_reply.times.starttime + max_life_for_realm, header_enc_tkt->times.endtime))); if (isflagset(request->kdc_options, KDC_OPT_RENEWABLE_OK) && (enc_tkt_reply.times.endtime < request->till) && isflagset(header_enc_tkt->flags, TKT_FLG_RENEWABLE)) { setflag(request->kdc_options, KDC_OPT_RENEWABLE); request->rtime = min(request->till, header_enc_tkt->times.renew_till); } } rtime = (request->rtime == 0) ? kdc_infinity : request->rtime; if (isflagset(request->kdc_options, KDC_OPT_RENEWABLE)) { /* already checked above in policy check to reject request for a renewable ticket using a non-renewable ticket */ setflag(enc_tkt_reply.flags, TKT_FLG_RENEWABLE); enc_tkt_reply.times.renew_till = min(rtime, min(header_enc_tkt->times.renew_till, enc_tkt_reply.times.starttime + min(server.max_renewable_life, max_renewable_life_for_realm))); } else { enc_tkt_reply.times.renew_till = 0; } /* * Set authtime to be the same as header_ticket's */ enc_tkt_reply.times.authtime = header_enc_tkt->times.authtime; /* * Propagate the preauthentication flags through to the returned ticket. */ if (isflagset(header_enc_tkt->flags, TKT_FLG_PRE_AUTH)) setflag(enc_tkt_reply.flags, TKT_FLG_PRE_AUTH); if (isflagset(header_enc_tkt->flags, TKT_FLG_HW_AUTH)) setflag(enc_tkt_reply.flags, TKT_FLG_HW_AUTH); /* starttime is optional, and treated as authtime if not present. so we can nuke it if it matches */ if (enc_tkt_reply.times.starttime == enc_tkt_reply.times.authtime) enc_tkt_reply.times.starttime = 0; if (isflagset(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION)) { errcode = krb5_unparse_name(kdc_context, s4u_x509_user->user_id.user, &s4u_name); } else if (isflagset(c_flags, KRB5_KDB_FLAG_CONSTRAINED_DELEGATION)) { errcode = krb5_unparse_name(kdc_context, header_enc_tkt->client, &s4u_name); } else { errcode = 0; } if (errcode) { status = "UNPARSING S4U CLIENT"; goto cleanup; } if (isflagset(request->kdc_options, KDC_OPT_ENC_TKT_IN_SKEY)) { krb5_enc_tkt_part *t2enc = request->second_ticket[st_idx]->enc_part2; encrypting_key = *(t2enc->session); } else { /* * Find the server key */ if ((errcode = krb5_dbe_find_enctype(kdc_context, &server, -1, /* ignore keytype */ -1, /* Ignore salttype */ 0,/* Get highest kvno */ &server_key))) { status = "FINDING_SERVER_KEY"; goto cleanup; } if ((errcode = krb5_dbe_find_mkey(kdc_context, master_keylist, &server, &mkey_ptr))) { krb5_keylist_node *tmp_mkey_list; /* try refreshing master key list */ /* XXX it would nice if we had the mkvno here for optimization */ if (krb5_db_fetch_mkey_list(kdc_context, master_princ, &master_keyblock, 0, &tmp_mkey_list) == 0) { krb5_dbe_free_key_list(kdc_context, master_keylist); master_keylist = tmp_mkey_list; if ((errcode = krb5_dbe_find_mkey(kdc_context, master_keylist, &server, &mkey_ptr))) { status = "FINDING_MASTER_KEY"; goto cleanup; } } else { status = "FINDING_MASTER_KEY"; goto cleanup; } } /* convert server.key into a real key (it may be encrypted * in the database) */ if ((errcode = krb5_dbekd_decrypt_key_data(kdc_context, mkey_ptr, server_key, &encrypting_key, NULL))) { status = "DECRYPT_SERVER_KEY"; goto cleanup; } } if (isflagset(c_flags, KRB5_KDB_FLAG_CONSTRAINED_DELEGATION)) { /* * Don't allow authorization data to be disabled if constrained * delegation is requested. We don't want to deny the server * the ability to validate that delegation was used. */ clear(server.attributes, KRB5_KDB_NO_AUTH_DATA_REQUIRED); } if (isflagset(server.attributes, KRB5_KDB_NO_AUTH_DATA_REQUIRED) == 0) { /* * If we are not doing protocol transition/constrained delegation * and there was no authorization data included, try to lookup * the client principal as it may be mapped to a local account. * * Always validate authorization data for constrained delegation * because we must validate the KDC signatures. */ if (!isflagset(c_flags, KRB5_KDB_FLAGS_S4U) && header_enc_tkt->authorization_data == NULL) { /* Generate authorization data so we can include it in ticket */ setflag(c_flags, KRB5_KDB_FLAG_INCLUDE_PAC); /* Map principals from foreign (possibly non-AD) realms */ setflag(c_flags, KRB5_KDB_FLAG_MAP_PRINCIPALS); assert(c_nprincs == 0); /* should not have been looked up already */ c_nprincs = 1; errcode = krb5_db_get_principal_ext(kdc_context, header_enc_tkt->client, c_flags, &client, &c_nprincs, &more); /* * We can ignore errors because the principal may be a * valid cross-realm principal for which we have no local * mapping. But we do want to check that at most one entry * was returned. */ if (errcode == 0 && (more || c_nprincs > 1)) { errcode = KRB5KDC_ERR_PRINCIPAL_NOT_UNIQUE; goto cleanup; } else if (errcode) { c_nprincs = 0; } } } enc_tkt_reply.authorization_data = NULL; if (isflagset(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION) && !isflagset(c_flags, KRB5_KDB_FLAG_CROSS_REALM)) enc_tkt_reply.client = s4u_x509_user->user_id.user; else enc_tkt_reply.client = header_enc_tkt->client; enc_tkt_reply.session = &session_key; enc_tkt_reply.transited.tr_type = KRB5_DOMAIN_X500_COMPRESS; enc_tkt_reply.transited.tr_contents = empty_string; /* equivalent of "" */ errcode = handle_authdata(kdc_context, c_flags, (c_nprincs != 0) ? &client : NULL, &server, (k_nprincs != 0) ? &krbtgt : NULL, subkey != NULL ? subkey : header_ticket->enc_part2->session, &encrypting_key, /* U2U or server key */ pkt, request, s4u_x509_user ? s4u_x509_user->user_id.user : NULL, header_enc_tkt, &enc_tkt_reply); if (errcode) { krb5_klog_syslog(LOG_INFO, "TGS_REQ : handle_authdata (%d)", errcode); status = "HANDLE_AUTHDATA"; goto cleanup; } if (is_referral && isflagset(s_flags, KRB5_KDB_FLAG_CANONICALIZE)) { errcode = return_svr_referral_data(kdc_context, &server, &reply_encpart); if (errcode) { status = "KDC_RETURN_ENC_PADATA"; goto cleanup; } } /* * Only add the realm of the presented tgt to the transited list if * it is different than the local realm (cross-realm) and it is different * than the realm of the client (since the realm of the client is already * implicitly part of the transited list and should not be explicitly * listed). */ /* realm compare is like strcmp, but knows how to deal with these args */ if (realm_compare(header_ticket->server, tgs_server) || realm_compare(header_ticket->server, enc_tkt_reply.client)) { /* tgt issued by local realm or issued by realm of client */ enc_tkt_reply.transited = header_enc_tkt->transited; } else { /* tgt issued by some other realm and not the realm of the client */ /* assemble new transited field into allocated storage */ if (header_enc_tkt->transited.tr_type != KRB5_DOMAIN_X500_COMPRESS) { status = "BAD_TRTYPE"; errcode = KRB5KDC_ERR_TRTYPE_NOSUPP; goto cleanup; } enc_tkt_transited.tr_type = KRB5_DOMAIN_X500_COMPRESS; enc_tkt_transited.magic = 0; enc_tkt_transited.tr_contents.magic = 0; enc_tkt_transited.tr_contents.data = 0; enc_tkt_transited.tr_contents.length = 0; enc_tkt_reply.transited = enc_tkt_transited; if ((errcode = add_to_transited(&header_enc_tkt->transited.tr_contents, &enc_tkt_reply.transited.tr_contents, header_ticket->server, enc_tkt_reply.client, request->server))) { status = "ADD_TR_FAIL"; goto cleanup; } newtransited = 1; } if (isflagset(c_flags, KRB5_KDB_FLAG_CROSS_REALM)) { errcode = validate_transit_path(kdc_context, header_enc_tkt->client, &server, (k_nprincs != 0) ? &krbtgt : NULL); if (errcode) { status = "NON_TRANSITIVE"; goto cleanup; } } if (!isflagset (request->kdc_options, KDC_OPT_DISABLE_TRANSITED_CHECK)) { unsigned int tlen; char *tdots; errcode = kdc_check_transited_list (kdc_context, &enc_tkt_reply.transited.tr_contents, krb5_princ_realm (kdc_context, header_enc_tkt->client), krb5_princ_realm (kdc_context, request->server)); tlen = enc_tkt_reply.transited.tr_contents.length; tdots = tlen > 125 ? "..." : ""; tlen = tlen > 125 ? 125 : tlen; if (errcode == 0) { setflag (enc_tkt_reply.flags, TKT_FLG_TRANSIT_POLICY_CHECKED); } else if (errcode == KRB5KRB_AP_ERR_ILL_CR_TKT) krb5_klog_syslog (LOG_INFO, "bad realm transit path from '%s' to '%s' " "via '%.*s%s'", cname ? cname : "<unknown client>", sname ? sname : "<unknown server>", tlen, enc_tkt_reply.transited.tr_contents.data, tdots); else { emsg = krb5_get_error_message(kdc_context, errcode); krb5_klog_syslog (LOG_ERR, "unexpected error checking transit from " "'%s' to '%s' via '%.*s%s': %s", cname ? cname : "<unknown client>", sname ? sname : "<unknown server>", tlen, enc_tkt_reply.transited.tr_contents.data, tdots, emsg); krb5_free_error_message(kdc_context, emsg); emsg = NULL; } } else krb5_klog_syslog (LOG_INFO, "not checking transit path"); if (reject_bad_transit && !isflagset (enc_tkt_reply.flags, TKT_FLG_TRANSIT_POLICY_CHECKED)) { errcode = KRB5KDC_ERR_POLICY; status = "BAD_TRANSIT"; goto cleanup; } ticket_reply.enc_part2 = &enc_tkt_reply; /* * If we are doing user-to-user authentication, then make sure * that the client for the second ticket matches the request * server, and then encrypt the ticket using the session key of * the second ticket. */ if (isflagset(request->kdc_options, KDC_OPT_ENC_TKT_IN_SKEY)) { /* * Make sure the client for the second ticket matches * requested server. */ krb5_enc_tkt_part *t2enc = request->second_ticket[st_idx]->enc_part2; krb5_principal client2 = t2enc->client; if (!krb5_principal_compare(kdc_context, request->server, client2)) { if ((errcode = krb5_unparse_name(kdc_context, client2, &altcname))) altcname = 0; if (altcname != NULL) limit_string(altcname); errcode = KRB5KDC_ERR_SERVER_NOMATCH; status = "2ND_TKT_MISMATCH"; goto cleanup; } ticket_kvno = 0; ticket_reply.enc_part.enctype = t2enc->session->enctype; st_idx++; } else { ticket_kvno = server_key->key_data_kvno; } errcode = krb5_encrypt_tkt_part(kdc_context, &encrypting_key, &ticket_reply); if (!isflagset(request->kdc_options, KDC_OPT_ENC_TKT_IN_SKEY)) krb5_free_keyblock_contents(kdc_context, &encrypting_key); if (errcode) { status = "TKT_ENCRYPT"; goto cleanup; } ticket_reply.enc_part.kvno = ticket_kvno; /* Start assembling the response */ reply.msg_type = KRB5_TGS_REP; reply.padata = 0;/* always */ if (isflagset(c_flags, KRB5_KDB_FLAG_PROTOCOL_TRANSITION) && find_pa_data(request->padata, KRB5_PADATA_S4U_X509_USER) != NULL) { errcode = kdc_make_s4u2self_rep(kdc_context, subkey, header_ticket->enc_part2->session, s4u_x509_user, &reply, &reply_encpart); if (errcode) { status = "KDC_RETURN_S4U2SELF_PADATA"; goto cleanup; } } reply.client = enc_tkt_reply.client; reply.enc_part.kvno = 0;/* We are using the session key */ reply.ticket = &ticket_reply; reply_encpart.session = &session_key; reply_encpart.nonce = request->nonce; /* copy the time fields EXCEPT for authtime; its location is used for ktime */ reply_encpart.times = enc_tkt_reply.times; reply_encpart.times.authtime = header_enc_tkt->times.authtime; /* starttime is optional, and treated as authtime if not present. so we can nuke it if it matches */ if (enc_tkt_reply.times.starttime == enc_tkt_reply.times.authtime) enc_tkt_reply.times.starttime = 0; nolrentry.lr_type = KRB5_LRQ_NONE; nolrentry.value = 0; nolrarray[0] = &nolrentry; nolrarray[1] = 0; reply_encpart.last_req = nolrarray; /* not available for TGS reqs */ reply_encpart.key_exp = 0;/* ditto */ reply_encpart.flags = enc_tkt_reply.flags; reply_encpart.server = ticket_reply.server; /* use the session key in the ticket, unless there's a subsession key in the AP_REQ */ reply.enc_part.enctype = subkey ? subkey->enctype : header_ticket->enc_part2->session->enctype; errcode = kdc_fast_response_handle_padata(state, request, &reply, subkey?subkey->enctype:header_ticket->enc_part2->session->enctype); if (errcode !=0 ) { status = "Preparing FAST padata"; goto cleanup; } errcode =kdc_fast_handle_reply_key(state, subkey?subkey:header_ticket->enc_part2->session, &reply_key); if (errcode) { status = "generating reply key"; goto cleanup; } errcode = krb5_encode_kdc_rep(kdc_context, KRB5_TGS_REP, &reply_encpart, subkey ? 1 : 0, reply_key, &reply, response); if (errcode) { status = "ENCODE_KDC_REP"; } else { status = "ISSUE"; } memset(ticket_reply.enc_part.ciphertext.data, 0, ticket_reply.enc_part.ciphertext.length); free(ticket_reply.enc_part.ciphertext.data); /* these parts are left on as a courtesy from krb5_encode_kdc_rep so we can use them in raw form if needed. But, we don't... */ memset(reply.enc_part.ciphertext.data, 0, reply.enc_part.ciphertext.length); free(reply.enc_part.ciphertext.data); cleanup: assert(status != NULL); if (reply_key) krb5_free_keyblock(kdc_context, reply_key); if (errcode) emsg = krb5_get_error_message (kdc_context, errcode); log_tgs_req(from, request, &reply, cname, sname, altcname, authtime, c_flags, s4u_name, status, errcode, emsg); if (errcode) { krb5_free_error_message (kdc_context, emsg); emsg = NULL; } if (errcode) { int got_err = 0; if (status == 0) { status = krb5_get_error_message (kdc_context, errcode); got_err = 1; } errcode -= ERROR_TABLE_BASE_krb5; if (errcode < 0 || errcode > 128) errcode = KRB_ERR_GENERIC; retval = prepare_error_tgs(state, request, header_ticket, errcode, nprincs ? server.princ : NULL, response, status); if (got_err) { krb5_free_error_message (kdc_context, status); status = 0; } } if (header_ticket != NULL) krb5_free_ticket(kdc_context, header_ticket); if (request != NULL) krb5_free_kdc_req(kdc_context, request); if (state) kdc_free_rstate(state); if (cname != NULL) free(cname); if (sname != NULL) free(sname); if (nprincs != 0) krb5_db_free_principal(kdc_context, &server, 1); if (session_key.contents != NULL) krb5_free_keyblock_contents(kdc_context, &session_key); if (newtransited) free(enc_tkt_reply.transited.tr_contents.data); if (k_nprincs) krb5_db_free_principal(kdc_context, &krbtgt, k_nprincs); if (c_nprincs) krb5_db_free_principal(kdc_context, &client, c_nprincs); if (s4u_x509_user != NULL) krb5_free_pa_s4u_x509_user(kdc_context, s4u_x509_user); if (kdc_issued_auth_data != NULL) krb5_free_authdata(kdc_context, kdc_issued_auth_data); if (s4u_name != NULL) free(s4u_name); if (subkey != NULL) krb5_free_keyblock(kdc_context, subkey); if (reply.padata) krb5_free_pa_data(kdc_context, reply.padata); if (reply_encpart.enc_padata) krb5_free_pa_data(kdc_context, reply_encpart.enc_padata); return retval; }
krb5_error_code krb5_do_preauth(krb5_context context, krb5_kdc_req *request, krb5_pa_data **in_padata, krb5_pa_data ***out_padata, krb5_data *salt, krb5_data *s2kparams, krb5_enctype *etype, krb5_keyblock *as_key, krb5_prompter_fct prompter, void *prompter_data, krb5_gic_get_as_key_fct gak_fct, void *gak_data) { int h, i, j, out_pa_list_size; int seen_etype_info2 = 0; krb5_pa_data *out_pa = NULL, **out_pa_list = NULL; krb5_data scratch; krb5_etype_info etype_info = NULL; krb5_error_code ret; static const int paorder[] = { PA_INFO, PA_REAL }; int realdone; KRB5_LOG0(KRB5_INFO, "krb5_do_preauth() start"); if (in_padata == NULL) { *out_padata = NULL; return(0); } #ifdef DEBUG if (salt && salt->data && salt->length > 0) { fprintf (stderr, "salt len=%d", salt->length); if (salt->length > 0) fprintf (stderr, " '%*s'", salt->length, salt->data); fprintf (stderr, "; preauth data types:"); for (i = 0; in_padata[i]; i++) { fprintf (stderr, " %d", in_padata[i]->pa_type); } fprintf (stderr, "\n"); } #endif out_pa_list = NULL; out_pa_list_size = 0; /* first do all the informational preauths, then the first real one */ for (h=0; h<(sizeof(paorder)/sizeof(paorder[0])); h++) { realdone = 0; for (i=0; in_padata[i] && !realdone; i++) { int k, l, etype_found, valid_etype_found; /* * This is really gross, but is necessary to prevent * lossge when talking to a 1.0.x KDC, which returns an * erroneous PA-PW-SALT when it returns a KRB-ERROR * requiring additional preauth. */ switch (in_padata[i]->pa_type) { case KRB5_PADATA_ETYPE_INFO: case KRB5_PADATA_ETYPE_INFO2: { krb5_preauthtype pa_type = in_padata[i]->pa_type; if (etype_info) { if (seen_etype_info2 || pa_type != KRB5_PADATA_ETYPE_INFO2) continue; if (pa_type == KRB5_PADATA_ETYPE_INFO2) { krb5_free_etype_info( context, etype_info); etype_info = NULL; } } scratch.length = in_padata[i]->length; scratch.data = (char *) in_padata[i]->contents; if (pa_type == KRB5_PADATA_ETYPE_INFO2) { seen_etype_info2++; ret = decode_krb5_etype_info2(&scratch, &etype_info); } else ret = decode_krb5_etype_info(&scratch, &etype_info); if (ret) { ret = 0; /*Ignore error and etype_info element*/ krb5_free_etype_info( context, etype_info); etype_info = NULL; continue; } if (etype_info[0] == NULL) { krb5_free_etype_info(context, etype_info); etype_info = NULL; break; } /* * Select first etype in our request which is also in * etype-info (preferring client request ktype order). */ for (etype_found = 0, valid_etype_found = 0, k = 0; !etype_found && k < request->nktypes; k++) { for (l = 0; etype_info[l]; l++) { if (etype_info[l]->etype == request->ktype[k]) { etype_found++; break; } /* check if program has support for this etype for more * precise error reporting. */ if (valid_enctype(etype_info[l]->etype)) valid_etype_found++; } } if (!etype_found) { KRB5_LOG(KRB5_ERR, "error !etype_found, " "valid_etype_found = %d", valid_etype_found); if (valid_etype_found) { /* supported enctype but not requested */ ret = KRB5_CONFIG_ETYPE_NOSUPP; goto cleanup; } else { /* unsupported enctype */ ret = KRB5_PROG_ETYPE_NOSUPP; goto cleanup; } } scratch.data = (char *) etype_info[l]->salt; scratch.length = etype_info[l]->length; krb5_free_data_contents(context, salt); if (scratch.length == KRB5_ETYPE_NO_SALT) salt->data = NULL; else if ((ret = krb5int_copy_data_contents( context, &scratch, salt)) != 0) goto cleanup; *etype = etype_info[l]->etype; krb5_free_data_contents(context, s2kparams); if ((ret = krb5int_copy_data_contents(context, &etype_info[l]->s2kparams, s2kparams)) != 0) goto cleanup; break; } case KRB5_PADATA_PW_SALT: case KRB5_PADATA_AFS3_SALT: if (etype_info) continue; break; default: ; } for (j=0; pa_types[j].type >= 0; j++) { if ((in_padata[i]->pa_type == pa_types[j].type) && (pa_types[j].flags & paorder[h])) { out_pa = NULL; if ((ret = ((*pa_types[j].fct)(context, request, in_padata[i], &out_pa, salt, s2kparams, etype, as_key, prompter, prompter_data, gak_fct, gak_data)))) { goto cleanup; } if (out_pa) { if (out_pa_list == NULL) { if ((out_pa_list = (krb5_pa_data **) malloc(2*sizeof(krb5_pa_data *))) == NULL) { ret = ENOMEM; goto cleanup; } } else { if ((out_pa_list = (krb5_pa_data **) realloc(out_pa_list, (out_pa_list_size+2)* sizeof(krb5_pa_data *))) == NULL) { /* XXX this will leak the pointers which have already been allocated. oh well. */ ret = ENOMEM; goto cleanup; } } out_pa_list[out_pa_list_size++] = out_pa; } if (paorder[h] == PA_REAL) realdone = 1; } } } } if (out_pa_list) out_pa_list[out_pa_list_size++] = NULL; *out_padata = out_pa_list; if (etype_info) krb5_free_etype_info(context, etype_info); KRB5_LOG0(KRB5_INFO, "krb5_do_preauth() end"); return(0); cleanup: if (out_pa_list) { out_pa_list[out_pa_list_size++] = NULL; krb5_free_pa_data(context, out_pa_list); } if (etype_info) krb5_free_etype_info(context, etype_info); KRB5_LOG0(KRB5_INFO, "krb5_do_preauth() end"); return (ret); }