protocol.c
- Author: Pekka Riikonen <priikone@poseidon.pspt.fi>
+ Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 1997 - 2000 Pekka Riikonen
+ Copyright (C) 1997 - 2003 Pekka Riikonen
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
-
+
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
/*
* Server side of the protocols.
*/
-/*
- * $Id$
- * $Log$
- * Revision 1.3 2000/07/06 07:15:31 priikone
- * Cleaner code fro password and public key authentication.
- * Deprecated old `channel_auth' protocol.
- *
- * Revision 1.2 2000/07/05 06:13:04 priikone
- * Support for SILC style public keys added.
- *
- * Revision 1.1.1.1 2000/06/27 11:36:56 priikone
- * Imported from internal CVS/Added Log headers.
- *
- *
- */
+/* $Id$ */
#include "serverincludes.h"
#include "server_internal.h"
SILC_TASK_CALLBACK(silc_server_protocol_connection_auth);
SILC_TASK_CALLBACK(silc_server_protocol_key_exchange);
-
-/* SILC client protocol list */
-const SilcProtocolObject silc_protocol_list[] =
-{
- { SILC_PROTOCOL_SERVER_CONNECTION_AUTH,
- silc_server_protocol_connection_auth },
- { SILC_PROTOCOL_SERVER_KEY_EXCHANGE,
- silc_server_protocol_key_exchange },
-
- { SILC_PROTOCOL_SERVER_NONE, NULL },
-};
+SILC_TASK_CALLBACK(silc_server_protocol_rekey);
/*
* Key Exhange protocol functions
*/
+static bool
+silc_verify_public_key_internal(SilcServer server, SilcSocketConnection sock,
+ SilcSocketType conn_type,
+ unsigned char *pk, SilcUInt32 pk_len,
+ SilcSKEPKType pk_type)
+{
+ char file[256], filename[256], *fingerprint;
+ struct stat st;
+
+ if (pk_type != SILC_SKE_PK_TYPE_SILC) {
+ SILC_LOG_WARNING(("We don't support %s (%s) port %d public key type %d",
+ sock->hostname, sock->ip, sock->port, pk_type));
+ return FALSE;
+ }
+
+ /* Accept client keys without verification */
+ if (conn_type == SILC_SOCKET_TYPE_CLIENT) {
+ SILC_LOG_DEBUG(("Accepting client public key without verification"));
+ return TRUE;
+ }
+
+ /* XXX For now, accept server keys without verification too. We are
+ currently always doing mutual authentication so the proof of posession
+ of the private key is verified, and if server is authenticated in
+ conn auth protocol with public key we MUST have the key already. */
+ return TRUE;
+ /* Rest is unreachable code! */
+
+ memset(filename, 0, sizeof(filename));
+ memset(file, 0, sizeof(file));
+ snprintf(file, sizeof(file) - 1, "serverkey_%s_%d.pub", sock->hostname,
+ sock->port);
+ snprintf(filename, sizeof(filename) - 1, SILC_ETCDIR "/serverkeys/%s",
+ file);
+
+ /* Create serverkeys directory if it doesn't exist. */
+ if (stat(SILC_ETCDIR "/serverkeys", &st) < 0) {
+ /* If dir doesn't exist */
+ if (errno == ENOENT) {
+ if (mkdir(SILC_ETCDIR "/serverkeys", 0755) < 0) {
+ SILC_LOG_ERROR(("Couldn't create `%s' directory\n",
+ SILC_ETCDIR "/serverkeys"));
+ return TRUE;
+ }
+ } else {
+ SILC_LOG_ERROR(("%s\n", strerror(errno)));
+ return TRUE;
+ }
+ }
+
+ /* Take fingerprint of the public key */
+ fingerprint = silc_hash_fingerprint(NULL, pk, pk_len);
+ SILC_LOG_DEBUG(("Received server %s (%s) port %d public key (%s)",
+ sock->hostname, sock->ip, sock->port, fingerprint));
+ silc_free(fingerprint);
+
+ /* Check whether this key already exists */
+ if (stat(filename, &st) < 0) {
+ /* We don't have it, then cache it. */
+ SILC_LOG_DEBUG(("New public key from server"));
+
+ silc_pkcs_save_public_key_data(filename, pk, pk_len,
+ SILC_PKCS_FILE_PEM);
+ return TRUE;
+ } else {
+ /* The key already exists, verify it. */
+ SilcPublicKey public_key;
+ unsigned char *encpk;
+ SilcUInt32 encpk_len;
+
+ SILC_LOG_DEBUG(("We have the public key saved locally"));
+
+ /* Load the key file */
+ if (!silc_pkcs_load_public_key(filename, &public_key,
+ SILC_PKCS_FILE_PEM))
+ if (!silc_pkcs_load_public_key(filename, &public_key,
+ SILC_PKCS_FILE_BIN)) {
+ SILC_LOG_WARNING(("Could not load local copy of the %s (%s) port %d "
+ "server public key", sock->hostname, sock->ip,
+ sock->port));
+
+ /* Save the key for future checking */
+ unlink(filename);
+ silc_pkcs_save_public_key_data(filename, pk, pk_len,
+ SILC_PKCS_FILE_PEM);
+ return TRUE;
+ }
+
+ /* Encode the key data */
+ encpk = silc_pkcs_public_key_encode(public_key, &encpk_len);
+ if (!encpk) {
+ SILC_LOG_WARNING(("Local copy of the server %s (%s) port %d public key "
+ "is malformed", sock->hostname, sock->ip, sock->port));
+
+ /* Save the key for future checking */
+ unlink(filename);
+ silc_pkcs_save_public_key_data(filename, pk, pk_len, SILC_PKCS_FILE_PEM);
+ return TRUE;
+ }
+
+ if (memcmp(pk, encpk, encpk_len)) {
+ SILC_LOG_WARNING(("%s (%s) port %d server public key does not match "
+ "with local copy", sock->hostname, sock->ip,
+ sock->port));
+ SILC_LOG_WARNING(("It is possible that the key has expired or changed"));
+ SILC_LOG_WARNING(("It is also possible that some one is performing "
+ "man-in-the-middle attack"));
+ SILC_LOG_WARNING(("Will not accept the server %s (%s) port %d public "
+ "key",
+ sock->hostname, sock->ip, sock->port));
+ return FALSE;
+ }
+
+ /* Local copy matched */
+ return TRUE;
+ }
+}
+
+/* Callback that is called when we have received KE2 payload from
+ responder. We try to verify the public key now. */
+
+static void
+silc_server_protocol_ke_verify_key(SilcSKE ske,
+ unsigned char *pk_data,
+ SilcUInt32 pk_len,
+ SilcSKEPKType pk_type,
+ void *context,
+ SilcSKEVerifyCbCompletion completion,
+ void *completion_context)
+{
+ SilcProtocol protocol = (SilcProtocol)context;
+ SilcServerKEInternalContext *ctx =
+ (SilcServerKEInternalContext *)protocol->context;
+ SilcServer server = (SilcServer)ctx->server;
+
+ SILC_LOG_DEBUG(("Verifying received public key"));
+
+ if (silc_verify_public_key_internal(
+ server, ctx->sock,
+ (ctx->responder == FALSE ?
+ SILC_SOCKET_TYPE_ROUTER:
+ ctx->sconfig.ref_ptr ? SILC_SOCKET_TYPE_SERVER :
+ ctx->rconfig.ref_ptr ? SILC_SOCKET_TYPE_ROUTER :
+ SILC_SOCKET_TYPE_CLIENT),
+ pk_data, pk_len, pk_type))
+ completion(ske, SILC_SKE_STATUS_OK, completion_context);
+ else
+ completion(ske, SILC_SKE_STATUS_UNSUPPORTED_PUBLIC_KEY,
+ completion_context);
+}
+
/* Packet sending callback. This function is provided as packet sending
routine to the Key Exchange functions. */
void *context)
{
SilcProtocol protocol = (SilcProtocol)context;
- SilcServerKEInternalContext *ctx =
+ SilcServerKEInternalContext *ctx =
(SilcServerKEInternalContext *)protocol->context;
SilcServer server = (SilcServer)ctx->server;
/* Sets the negotiated key material into use for particular connection. */
-static void silc_server_protocol_ke_set_keys(SilcSKE ske,
- SilcSocketConnection sock,
- SilcSKEKeyMaterial *keymat,
- SilcCipher cipher,
- SilcPKCS pkcs,
- SilcHash hash,
- int is_responder)
+int silc_server_protocol_ke_set_keys(SilcServer server,
+ SilcSKE ske,
+ SilcSocketConnection sock,
+ SilcSKEKeyMaterial *keymat,
+ SilcCipher cipher,
+ SilcPKCS pkcs,
+ SilcHash hash,
+ SilcHmac hmac,
+ SilcSKEDiffieHellmanGroup group,
+ bool is_responder)
{
- SilcIDListUnknown *conn_data;
- SilcHash nhash;
+ SilcUnknownEntry conn_data;
+ SilcIDListData idata;
+ const char *cname = silc_cipher_get_name(cipher);
- SILC_LOG_DEBUG(("Setting new key into use"));
+ SILC_LOG_DEBUG(("Setting new keys into use"));
conn_data = silc_calloc(1, sizeof(*conn_data));
+ idata = (SilcIDListData)conn_data;
/* Allocate cipher to be used in the communication */
- silc_cipher_alloc(cipher->cipher->name, &conn_data->send_key);
- silc_cipher_alloc(cipher->cipher->name, &conn_data->receive_key);
-
+ if (!silc_cipher_alloc((char *)cname, &idata->send_key)) {
+ silc_free(conn_data);
+ SILC_LOG_ERROR(("Cannot allocate algorithm: %s", cname));
+ return FALSE;
+ }
+ if (!silc_cipher_alloc((char *)cname, &idata->receive_key)) {
+ silc_free(conn_data);
+ SILC_LOG_ERROR(("Cannot allocate algorithm: %s", cname));
+ return FALSE;
+ }
+
+ if (!silc_hmac_alloc((char *)silc_hmac_get_name(hmac), NULL,
+ &idata->hmac_send)) {
+ silc_cipher_free(idata->send_key);
+ silc_cipher_free(idata->receive_key);
+ silc_free(conn_data);
+ SILC_LOG_ERROR(("Cannot allocate algorithm: %s",
+ silc_hmac_get_name(hmac)));
+ return FALSE;
+ }
+
+ if (!silc_hmac_alloc((char *)silc_hmac_get_name(hmac), NULL,
+ &idata->hmac_receive)) {
+ silc_cipher_free(idata->send_key);
+ silc_cipher_free(idata->receive_key);
+ silc_hmac_free(idata->hmac_send);
+ silc_free(conn_data);
+ SILC_LOG_ERROR(("Cannot allocate algorithm: %s",
+ silc_hmac_get_name(hmac)));
+ return FALSE;
+ }
+
if (is_responder == TRUE) {
- conn_data->send_key->cipher->set_key(conn_data->send_key->context,
- keymat->receive_enc_key,
- keymat->enc_key_len);
- conn_data->send_key->set_iv(conn_data->send_key, keymat->receive_iv);
- conn_data->receive_key->cipher->set_key(conn_data->receive_key->context,
- keymat->send_enc_key,
- keymat->enc_key_len);
- conn_data->receive_key->set_iv(conn_data->receive_key, keymat->send_iv);
-
+ silc_cipher_set_key(idata->send_key, keymat->receive_enc_key,
+ keymat->enc_key_len);
+ silc_cipher_set_iv(idata->send_key, keymat->receive_iv);
+ silc_cipher_set_key(idata->receive_key, keymat->send_enc_key,
+ keymat->enc_key_len);
+ silc_cipher_set_iv(idata->receive_key, keymat->send_iv);
+ silc_hmac_set_key(idata->hmac_send, keymat->receive_hmac_key,
+ keymat->hmac_key_len);
+ silc_hmac_set_key(idata->hmac_receive, keymat->send_hmac_key,
+ keymat->hmac_key_len);
} else {
- conn_data->send_key->cipher->set_key(conn_data->send_key->context,
- keymat->send_enc_key,
- keymat->enc_key_len);
- conn_data->send_key->set_iv(conn_data->send_key, keymat->send_iv);
- conn_data->receive_key->cipher->set_key(conn_data->receive_key->context,
- keymat->receive_enc_key,
- keymat->enc_key_len);
- conn_data->receive_key->set_iv(conn_data->receive_key, keymat->receive_iv);
+ silc_cipher_set_key(idata->send_key, keymat->send_enc_key,
+ keymat->enc_key_len);
+ silc_cipher_set_iv(idata->send_key, keymat->send_iv);
+ silc_cipher_set_key(idata->receive_key, keymat->receive_enc_key,
+ keymat->enc_key_len);
+ silc_cipher_set_iv(idata->receive_key, keymat->receive_iv);
+ silc_hmac_set_key(idata->hmac_send, keymat->send_hmac_key,
+ keymat->hmac_key_len);
+ silc_hmac_set_key(idata->hmac_receive, keymat->receive_hmac_key,
+ keymat->hmac_key_len);
}
- /* Allocate PKCS to be used */
-#if 0
- /* XXX Do we ever need to allocate PKCS for the connection??
- If yes, we need to change KE protocol to get the initiators
- public key. */
- silc_pkcs_alloc(pkcs->pkcs->name, &conn_data->pkcs);
- conn_data->public_key = silc_pkcs_public_key_alloc(XXX);
- silc_pkcs_set_public_key(conn_data->pkcs, ske->ke2_payload->pk_data,
- ske->ke2_payload->pk_len);
-#endif
-
- /* Save HMAC key to be used in the communication. */
- silc_hash_alloc(hash->hash->name, &nhash);
- silc_hmac_alloc(nhash, &conn_data->hmac);
- conn_data->hmac_key_len = keymat->hmac_key_len;
- conn_data->hmac_key = silc_calloc(conn_data->hmac_key_len,
- sizeof(unsigned char));
- memcpy(conn_data->hmac_key, keymat->hmac_key, keymat->hmac_key_len);
+ idata->rekey = silc_calloc(1, sizeof(*idata->rekey));
+ idata->rekey->send_enc_key = silc_memdup(keymat->send_enc_key,
+ keymat->enc_key_len / 8);
+ idata->rekey->enc_key_len = keymat->enc_key_len / 8;
+
+ if (ske->prop->flags & SILC_SKE_SP_FLAG_PFS)
+ idata->rekey->pfs = TRUE;
+ idata->rekey->ske_group = silc_ske_group_get_number(group);
+
+ /* Save the hash */
+ if (!silc_hash_alloc(silc_hash_get_name(hash), &idata->hash)) {
+ silc_cipher_free(idata->send_key);
+ silc_cipher_free(idata->receive_key);
+ silc_hmac_free(idata->hmac_send);
+ silc_hmac_free(idata->hmac_receive);
+ silc_free(conn_data);
+ SILC_LOG_ERROR(("Cannot allocate algorithm: %s",
+ silc_hash_get_name(hash)));
+ return FALSE;
+ }
+
+ /* Save the remote host's public key */
+ silc_pkcs_public_key_decode(ske->ke1_payload->pk_data,
+ ske->ke1_payload->pk_len, &idata->public_key);
+ if (ske->prop->flags & SILC_SKE_SP_FLAG_MUTUAL)
+ silc_hash_make(server->sha1hash, ske->ke1_payload->pk_data,
+ ske->ke1_payload->pk_len, idata->fingerprint);
sock->user_data = (void *)conn_data;
+
+ SILC_LOG_INFO(("%s (%s) security properties: %s %s %s %s",
+ sock->hostname, sock->ip,
+ silc_cipher_get_name(idata->send_key),
+ (char *)silc_hmac_get_name(idata->hmac_send),
+ silc_hash_get_name(idata->hash),
+ ske->prop->flags & SILC_SKE_SP_FLAG_PFS ? "PFS" : ""));
+
+ return TRUE;
+}
+
+/* Check remote host version string */
+
+SilcSKEStatus silc_ske_check_version(SilcSKE ske, unsigned char *version,
+ SilcUInt32 len, void *context)
+{
+ SilcUInt32 l_protocol_version = 0, r_protocol_version = 0;
+
+ SILC_LOG_INFO(("%s (%s) is version %s", ske->sock->hostname,
+ ske->sock->ip, version));
+
+ if (!silc_parse_version_string(version, &r_protocol_version, NULL, NULL,
+ NULL, NULL)) {
+ SILC_LOG_ERROR(("%s (%s) %s is not allowed/supported version",
+ ske->sock->hostname, ske->sock->ip, version));
+ return SILC_SKE_STATUS_BAD_VERSION;
+ }
+
+ if (!silc_parse_version_string(silc_version_string,
+ &l_protocol_version, NULL, NULL,
+ NULL, NULL)) {
+ SILC_LOG_ERROR(("%s (%s) %s is not allowed/supported version",
+ ske->sock->hostname, ske->sock->ip, version));
+ return SILC_SKE_STATUS_BAD_VERSION;
+ }
+
+ /* If remote is too new, don't connect */
+ if (l_protocol_version < r_protocol_version) {
+ SILC_LOG_ERROR(("%s (%s) %s is not allowed/supported version",
+ ske->sock->hostname, ske->sock->ip, version));
+ return SILC_SKE_STATUS_BAD_VERSION;
+ }
+
+ ske->sock->version = r_protocol_version;
+
+ return SILC_SKE_STATUS_OK;
+}
+
+/* Callback that is called by the SKE to indicate that it is safe to
+ continue the execution of the protocol. This is used only if we are
+ initiator. Is given as argument to the silc_ske_initiator_finish or
+ silc_ske_responder_phase_2 functions. This is called due to the fact
+ that the public key verification process is asynchronous and we must
+ not continue the protocl until the public key has been verified and
+ this callback is called. */
+
+static void silc_server_protocol_ke_continue(SilcSKE ske, void *context)
+{
+ SilcProtocol protocol = (SilcProtocol)context;
+ SilcServerKEInternalContext *ctx =
+ (SilcServerKEInternalContext *)protocol->context;
+ SilcServer server = (SilcServer)ctx->server;
+
+ if (ske->status != SILC_SKE_STATUS_OK) {
+ SILC_LOG_ERROR(("Error (%s) during Key Exchange protocol with %s (%s)",
+ silc_ske_map_status(ske->status), ctx->sock->hostname,
+ ctx->sock->ip));
+
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+
+ /* Send Ok to the other end. We will end the protocol as responder
+ sends Ok to us when we will take the new keys into use. */
+ if (ctx->responder == FALSE) {
+ SILC_LOG_DEBUG(("Ending key exchange protocol"));
+ silc_ske_end(ctx->ske);
+
+ /* End the protocol on the next round */
+ protocol->state = SILC_PROTOCOL_STATE_END;
+ }
+
+ /* Advance protocol state and call the next state if we are responder.
+ This happens when this callback was sent to silc_ske_responder_phase_2
+ function. */
+ if (ctx->responder == TRUE) {
+ protocol->state++;
+ silc_protocol_execute(protocol, server->schedule, 0, 100000);
+ }
}
/* Performs key exchange protocol. This is used for both initiator
SILC_TASK_CALLBACK(silc_server_protocol_key_exchange)
{
SilcProtocol protocol = (SilcProtocol)context;
- SilcServerKEInternalContext *ctx =
+ SilcServerKEInternalContext *ctx =
(SilcServerKEInternalContext *)protocol->context;
SilcServer server = (SilcServer)ctx->server;
- SilcSKEStatus status = 0;
-
- SILC_LOG_DEBUG(("Start"));
+ SilcSKEStatus status = SILC_SKE_STATUS_OK;
if (protocol->state == SILC_PROTOCOL_STATE_UNKNOWN)
protocol->state = SILC_PROTOCOL_STATE_START;
- SILC_LOG_DEBUG(("State=%d", protocol->state));
+ SILC_LOG_DEBUG(("Current protocol state %d", protocol->state));
switch(protocol->state) {
case SILC_PROTOCOL_STATE_START:
SilcSKE ske;
/* Allocate Key Exchange object */
- ske = silc_ske_alloc();
- ctx->ske = ske;
-
+ ctx->ske = ske = silc_ske_alloc(server->rng, server);
+
+ silc_ske_set_callbacks(ske, silc_server_protocol_ke_send_packet, NULL,
+ silc_server_protocol_ke_verify_key,
+ silc_server_protocol_ke_continue,
+ silc_ske_check_version, context);
+
if (ctx->responder == TRUE) {
/* Start the key exchange by processing the received security
properties packet from initiator. */
+ SILC_LOG_DEBUG(("Process security property list (KE)"));
status = silc_ske_responder_start(ske, ctx->rng, ctx->sock,
- ctx->packet, NULL, NULL);
+ silc_version_string,
+ ctx->packet->buffer, ctx->flags);
} else {
SilcSKEStartPayload *start_payload;
+ SILC_LOG_DEBUG(("Send security property list (KE)"));
+
/* Assemble security properties. */
- silc_ske_assemble_security_properties(ske, &start_payload);
+ silc_ske_assemble_security_properties(ske, ctx->flags,
+ silc_version_string,
+ &start_payload);
/* Start the key exchange by sending our security properties
to the remote end. */
status = silc_ske_initiator_start(ske, ctx->rng, ctx->sock,
- start_payload,
- silc_server_protocol_ke_send_packet,
- context);
+ start_payload);
}
+ /* Return now if the procedure is pending. */
+ if (status == SILC_SKE_STATUS_PENDING)
+ return;
+
if (status != SILC_SKE_STATUS_OK) {
- SILC_LOG_WARNING(("Error (type %d) during Key Exchange protocol",
- status));
- SILC_LOG_DEBUG(("Error (type %d) during Key Exchange protocol",
- status));
+ SILC_LOG_ERROR(("Error (%s) during Key Exchange protocol with %s (%s)",
+ silc_ske_map_status(status), ctx->sock->hostname,
+ ctx->sock->ip));
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
/* Advance protocol state and call the next state if we are responder */
protocol->state++;
if (ctx->responder == TRUE)
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 100000);
+ silc_protocol_execute(protocol, server->schedule, 0, 100000);
}
break;
case 2:
{
- /*
- * Phase 1
+ /*
+ * Phase 1
*/
if (ctx->responder == TRUE) {
/* Sends the selected security properties to the initiator. */
- status =
- silc_ske_responder_phase_1(ctx->ske,
- ctx->ske->start_payload,
- silc_server_protocol_ke_send_packet,
- context);
+ SILC_LOG_DEBUG(("Send security property list reply (KE)"));
+ status = silc_ske_responder_phase_1(ctx->ske);
} else {
/* Call Phase-1 function. This processes the Key Exchange Start
paylaod reply we just got from the responder. The callback
function will receive the processed payload where we will
save it. */
- status =
- silc_ske_initiator_phase_1(ctx->ske,
- ctx->packet,
- NULL, NULL);
+ SILC_LOG_DEBUG(("Process security property list reply (KE)"));
+ status = silc_ske_initiator_phase_1(ctx->ske, ctx->packet->buffer);
}
+ /* Return now if the procedure is pending. */
+ if (status == SILC_SKE_STATUS_PENDING)
+ return;
+
if (status != SILC_SKE_STATUS_OK) {
- SILC_LOG_WARNING(("Error (type %d) during Key Exchange protocol",
- status));
- SILC_LOG_DEBUG(("Error (type %d) during Key Exchange protocol",
- status));
+ SILC_LOG_ERROR(("Error (%s) during Key Exchange protocol with %s (%s)",
+ silc_ske_map_status(status), ctx->sock->hostname,
+ ctx->sock->ip));
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
/* Advance protocol state and call next state if we are initiator */
protocol->state++;
if (ctx->responder == FALSE)
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 100000);
+ silc_protocol_execute(protocol, server->schedule, 0, 100000);
}
break;
case 3:
{
- /*
- * Phase 2
+ /*
+ * Phase 2
*/
if (ctx->responder == TRUE) {
/* Process the received Key Exchange 1 Payload packet from
the initiator. This also creates our parts of the Diffie
- Hellman algorithm. */
- status =
- silc_ske_responder_phase_2(ctx->ske, ctx->packet, NULL, NULL);
+ Hellman algorithm. The silc_server_protocol_ke_continue
+ will be called after the public key has been verified. */
+ SILC_LOG_DEBUG(("Process KE1 packet"));
+ status = silc_ske_responder_phase_2(ctx->ske, ctx->packet->buffer);
} else {
/* Call the Phase-2 function. This creates Diffie Hellman
key exchange parameters and sends our public part inside
Key Exhange 1 Payload to the responder. */
- status =
- silc_ske_initiator_phase_2(ctx->ske,
- silc_server_protocol_ke_send_packet,
- context);
+ SILC_LOG_DEBUG(("Send KE1 packet"));
+ status = silc_ske_initiator_phase_2(ctx->ske,
+ server->public_key,
+ server->private_key,
+ SILC_SKE_PK_TYPE_SILC);
+ protocol->state++;
}
+ /* Return now if the procedure is pending. */
+ if (status == SILC_SKE_STATUS_PENDING)
+ return;
+
if (status != SILC_SKE_STATUS_OK) {
- SILC_LOG_WARNING(("Error (type %d) during Key Exchange protocol",
- status));
- SILC_LOG_DEBUG(("Error (type %d) during Key Exchange protocol",
- status));
+ SILC_LOG_ERROR(("Error (%s) during Key Exchange protocol with %s (%s)",
+ silc_ske_map_status(status), ctx->sock->hostname,
+ ctx->sock->ip));
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
-
- /* Advance protocol state and call the next state if we are responder */
- protocol->state++;
- if (ctx->responder == TRUE)
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 100000);
}
break;
case 4:
{
- /*
+ /*
* Finish protocol
*/
if (ctx->responder == TRUE) {
- unsigned char *pk, *prv;
- unsigned int pk_len, prv_len;
-
- /* Get our public key to be sent to the initiator */
- pk = silc_pkcs_get_public_key(server->public_key, &pk_len);
-
- /* Get out private key to sign some data. */
- prv = silc_pkcs_get_private_key(server->public_key, &prv_len);
-
/* This creates the key exchange material and sends our
public parts to the initiator inside Key Exchange 2 Payload. */
- status =
- silc_ske_responder_finish(ctx->ske,
- pk, pk_len, prv, prv_len,
- SILC_SKE_PK_TYPE_SILC,
- silc_server_protocol_ke_send_packet,
- context);
-
- memset(pk, 0, pk_len);
- memset(prv, 0, prv_len);
- silc_free(pk);
- silc_free(prv);
+ SILC_LOG_DEBUG(("Process KE2 packet"));
+ status = silc_ske_responder_finish(ctx->ske,
+ server->public_key,
+ server->private_key,
+ SILC_SKE_PK_TYPE_SILC);
+
+ /* End the protocol on the next round */
+ protocol->state = SILC_PROTOCOL_STATE_END;
} else {
/* Finish the protocol. This verifies the Key Exchange 2 payload
- sent by responder. */
- status =
- silc_ske_initiator_finish(ctx->ske,
- ctx->packet, NULL, NULL);
+ sent by responder. The silc_server_protocol_ke_continue will
+ be called after the public key has been verified. */
+ SILC_LOG_DEBUG(("Send KE2 packet"));
+ status = silc_ske_initiator_finish(ctx->ske, ctx->packet->buffer);
}
+ /* Return now if the procedure is pending. */
+ if (status == SILC_SKE_STATUS_PENDING)
+ return;
+
if (status != SILC_SKE_STATUS_OK) {
- SILC_LOG_WARNING(("Error (type %d) during Key Exchange protocol",
- status));
- SILC_LOG_DEBUG(("Error (type %d) during Key Exchange protocol",
- status));
+ SILC_LOG_ERROR(("Error (%s) during Key Exchange protocol with %s (%s)",
+ silc_ske_map_status(status), ctx->sock->hostname,
+ ctx->sock->ip));
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
-
- /* Send Ok to the other end. We will end the protocol as responder
- sends Ok to us when we will take the new keys into use. */
- if (ctx->responder == FALSE)
- silc_ske_end(ctx->ske, silc_server_protocol_ke_send_packet, context);
-
- /* End the protocol on the next round */
- protocol->state = SILC_PROTOCOL_STATE_END;
}
break;
+
case SILC_PROTOCOL_STATE_END:
{
- /*
+ /*
* End protocol
*/
SilcSKEKeyMaterial *keymat;
+ int key_len = silc_cipher_get_key_len(ctx->ske->prop->cipher);
+ int hash_len = silc_hash_len(ctx->ske->prop->hash);
- /* Send Ok to the other end if we are responder. If we are
- initiator we have sent this already. */
- if (ctx->responder == TRUE)
- silc_ske_end(ctx->ske, silc_server_protocol_ke_send_packet, context);
+ SILC_LOG_DEBUG(("Process computed key material"));
/* Process the key material */
keymat = silc_calloc(1, sizeof(*keymat));
- silc_ske_process_key_material(ctx->ske, 16, (16 * 8), 16, keymat);
+ status = silc_ske_process_key_material(ctx->ske, 16, key_len, hash_len,
+ keymat);
+ if (status != SILC_SKE_STATUS_OK) {
+ SILC_LOG_ERROR(("Error during Key Exchange protocol: "
+ "could not process key material"));
- /* Take the new keys into use. */
- silc_server_protocol_ke_set_keys(ctx->ske, ctx->sock, keymat,
- ctx->ske->prop->cipher,
- ctx->ske->prop->pkcs,
- ctx->ske->prop->hash,
- ctx->responder);
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ silc_ske_free_key_material(keymat);
+ return;
+ }
+ ctx->keymat = keymat;
- /* Unregister the timeout task since the protocol has ended.
+ /* Send Ok to the other end if we are responder. If we are initiator
+ we have sent this already. */
+ if (ctx->responder == TRUE) {
+ SILC_LOG_DEBUG(("Ending key exchange protocol"));
+ silc_ske_end(ctx->ske);
+ }
+
+ /* Unregister the timeout task since the protocol has ended.
This was the timeout task to be executed if the protocol is
not completed fast enough. */
if (ctx->timeout_task)
- silc_task_unregister(server->timeout_queue, ctx->timeout_task);
+ silc_schedule_task_del(server->schedule, ctx->timeout_task);
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
/* Call the final callback */
if (protocol->final_callback)
- protocol->execute_final(server->timeout_queue, 0, protocol, fd);
+ silc_protocol_execute_final(protocol, server->schedule);
else
silc_protocol_free(protocol);
}
break;
+
case SILC_PROTOCOL_STATE_ERROR:
/*
* Error occured
*/
- /* Unregister the timeout task since the protocol has ended.
+ /* Send abort notification */
+ silc_ske_abort(ctx->ske, ctx->ske->status);
+
+ /* Unregister the timeout task since the protocol has ended.
This was the timeout task to be executed if the protocol is
not completed fast enough. */
if (ctx->timeout_task)
- silc_task_unregister(server->timeout_queue, ctx->timeout_task);
+ silc_schedule_task_del(server->schedule, ctx->timeout_task);
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
/* On error the final callback is always called. */
if (protocol->final_callback)
- protocol->execute_final(server->timeout_queue, 0, protocol, fd);
+ silc_protocol_execute_final(protocol, server->schedule);
else
silc_protocol_free(protocol);
break;
+
+ case SILC_PROTOCOL_STATE_FAILURE:
+ /*
+ * We have received failure from remote
+ */
+
+ /* Unregister the timeout task since the protocol has ended.
+ This was the timeout task to be executed if the protocol is
+ not completed fast enough. */
+ if (ctx->timeout_task)
+ silc_schedule_task_del(server->schedule, ctx->timeout_task);
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
+
+ /* On error the final callback is always called. */
+ if (protocol->final_callback)
+ silc_protocol_execute_final(protocol, server->schedule);
+ else
+ silc_protocol_free(protocol);
+ break;
+
case SILC_PROTOCOL_STATE_UNKNOWN:
break;
}
* Connection Authentication protocol functions
*/
-/* XXX move these to somehwere else */
-
-int silc_server_password_authentication(SilcServer server, char *auth1,
- char *auth2)
+static int
+silc_server_password_authentication(SilcServer server, char *local_auth,
+ char *remote_auth)
{
- if (!auth1 || !auth2)
+ if (!remote_auth || !local_auth || strlen(local_auth) != strlen(remote_auth))
return FALSE;
- if (!memcmp(auth1, auth2, strlen(auth1)))
+ if (!memcmp(remote_auth, local_auth, strlen(local_auth)))
return TRUE;
return FALSE;
}
-int silc_server_public_key_authentication(SilcServer server,
- char *pkfile,
- unsigned char *sign,
- unsigned int sign_len,
- SilcSKE ske)
+static int
+silc_server_public_key_authentication(SilcServer server,
+ SilcPublicKey pub_key,
+ unsigned char *sign,
+ SilcUInt32 sign_len,
+ SilcSKE ske)
{
- SilcPublicKey pub_key;
SilcPKCS pkcs;
int len;
SilcBuffer auth;
- if (!pkfile || !sign)
- return FALSE;
-
- /* Load public key from file */
- if (!silc_pkcs_load_public_key(pkfile, &pub_key))
+ if (!pub_key || !sign)
return FALSE;
silc_pkcs_alloc(pub_key->name, &pkcs);
SILC_STR_END);
/* Verify signature */
- if (pkcs->pkcs->verify(pkcs->context, sign, sign_len,
- auth->data, auth->len))
- {
- silc_pkcs_free(pkcs);
- silc_pkcs_public_key_free(pub_key);
- silc_buffer_free(auth);
- return TRUE;
- }
+ if (silc_pkcs_verify_with_hash(pkcs, ske->prop->hash, sign, sign_len,
+ auth->data, auth->len)) {
+ silc_pkcs_free(pkcs);
+ silc_buffer_free(auth);
+ return TRUE;
+ }
silc_pkcs_free(pkcs);
- silc_pkcs_public_key_free(pub_key);
silc_buffer_free(auth);
return FALSE;
}
-/* Performs connection authentication protocol. If responder, we
+static int
+silc_server_get_public_key_auth(SilcServer server,
+ unsigned char **auth_data,
+ SilcUInt32 *auth_data_len,
+ SilcSKE ske)
+{
+ int len;
+ SilcPKCS pkcs;
+ SilcBuffer auth;
+
+ pkcs = server->pkcs;
+
+ /* Make the authentication data. Protocol says it is HASH plus
+ KE Start Payload. */
+ len = ske->hash_len + ske->start_payload_copy->len;
+ auth = silc_buffer_alloc(len);
+ silc_buffer_pull_tail(auth, len);
+ silc_buffer_format(auth,
+ SILC_STR_UI_XNSTRING(ske->hash, ske->hash_len),
+ SILC_STR_UI_XNSTRING(ske->start_payload_copy->data,
+ ske->start_payload_copy->len),
+ SILC_STR_END);
+
+ *auth_data = silc_calloc((silc_pkcs_get_key_len(pkcs) / 8) + 1,
+ sizeof(**auth_data));
+ if (silc_pkcs_sign_with_hash(pkcs, ske->prop->hash, auth->data,
+ auth->len, *auth_data, auth_data_len)) {
+ silc_buffer_free(auth);
+ return TRUE;
+ }
+
+ SILC_LOG_ERROR(("Error computing signature"));
+
+ silc_free(*auth_data);
+ silc_buffer_free(auth);
+ return FALSE;
+}
+
+/* Function that actually performs the authentication to the remote. This
+ supports both passphrase and public key authentication. */
+
+static bool
+silc_server_get_authentication(SilcServerConnAuthInternalContext *ctx,
+ char *local_passphrase,
+ SilcHashTable local_publickeys,
+ unsigned char *remote_auth,
+ SilcUInt32 remote_auth_len)
+{
+ SilcServer server = (SilcServer)ctx->server;
+ SilcSKE ske = ctx->ske;
+ bool result = FALSE;
+
+ /* If we don't have authentication data set at all we do not require
+ authentication at all */
+ if (!local_passphrase && (!local_publickeys ||
+ !silc_hash_table_count(local_publickeys))) {
+ SILC_LOG_DEBUG(("No authentication required"));
+ return TRUE;
+ }
+
+ /* If both passphrase and public key is provided then we'll try both of
+ them and see which one of them authenticates. If only one of them is
+ set, then try only that. */
+
+ /* Try first passphrase (as it is faster to check) */
+ if (local_passphrase) {
+ SILC_LOG_DEBUG(("Password authentication"));
+ result = silc_server_password_authentication(server, local_passphrase,
+ remote_auth);
+ }
+
+ /* Try public key authenetication */
+ if (!result && local_publickeys) {
+ SilcPublicKey cached_key;
+ SilcPublicKey remote_key =
+ ((SilcIDListData)ctx->sock->user_data)->public_key;
+
+ SILC_LOG_DEBUG(("Public key authentication"));
+
+ /* Find the public key to be used in authentication */
+ cached_key = silc_server_find_public_key(server, local_publickeys,
+ remote_key);
+ if (!cached_key)
+ return FALSE;
+
+ result = silc_server_public_key_authentication(server, cached_key,
+ remote_auth,
+ remote_auth_len, ske);
+ }
+
+ SILC_LOG_DEBUG(("Authentication %s", result ? "successful" : "failed"));
+
+ return result;
+}
+
+/* Performs connection authentication protocol. If responder, we
authenticate the remote data received. If initiator, we will send
authentication data to the remote end. */
SILC_TASK_CALLBACK(silc_server_protocol_connection_auth)
{
SilcProtocol protocol = (SilcProtocol)context;
- SilcServerConnAuthInternalContext *ctx =
+ SilcServerConnAuthInternalContext *ctx =
(SilcServerConnAuthInternalContext *)protocol->context;
SilcServer server = (SilcServer)ctx->server;
- SILC_LOG_DEBUG(("Start"));
-
if (protocol->state == SILC_PROTOCOL_STATE_UNKNOWN)
protocol->state = SILC_PROTOCOL_STATE_START;
- SILC_LOG_DEBUG(("State=%d", protocol->state));
+ SILC_LOG_DEBUG(("Current protocol state %d", protocol->state));
switch(protocol->state) {
case SILC_PROTOCOL_STATE_START:
{
- /*
+ /*
* Start protocol.
*/
* We are receiving party
*/
int ret;
- unsigned short payload_len;
- unsigned short conn_type;
- unsigned char *auth_data;
+ SilcUInt16 payload_len;
+ SilcUInt16 conn_type;
+ unsigned char *auth_data = NULL;
- SILC_LOG_INFO(("Performing authentication protocol for %s",
- ctx->sock->hostname ? ctx->sock->hostname :
- ctx->sock->ip));
+ SILC_LOG_INFO(("Performing authentication protocol for %s (%s)",
+ ctx->sock->hostname, ctx->sock->ip));
/* Parse the received authentication data packet. The received
payload is Connection Auth Payload. */
- silc_buffer_unformat(ctx->packet,
- SILC_STR_UI_SHORT(&payload_len),
- SILC_STR_UI_SHORT(&conn_type),
- SILC_STR_END);
-
- if (payload_len != ctx->packet->len) {
+ ret = silc_buffer_unformat(ctx->packet->buffer,
+ SILC_STR_UI_SHORT(&payload_len),
+ SILC_STR_UI_SHORT(&conn_type),
+ SILC_STR_END);
+ if (ret == -1) {
SILC_LOG_ERROR(("Bad payload in authentication packet"));
- SILC_LOG_DEBUG(("Bad payload in authentication packet"));
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+
+ if (payload_len != ctx->packet->buffer->len) {
+ SILC_LOG_ERROR(("Bad payload length in authentication packet"));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
-
+
payload_len -= 4;
-
- if (conn_type < SILC_SOCKET_TYPE_CLIENT ||
+
+ if (conn_type < SILC_SOCKET_TYPE_CLIENT ||
conn_type > SILC_SOCKET_TYPE_ROUTER) {
- SILC_LOG_ERROR(("Bad connection type %d", conn_type));
- SILC_LOG_DEBUG(("Bad connection type %d", conn_type));
+ SILC_LOG_ERROR(("Bad connection type (%d) in authentication packet",
+ conn_type));
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
-
+
if (payload_len > 0) {
/* Get authentication data */
- silc_buffer_pull(ctx->packet, 4);
- silc_buffer_unformat(ctx->packet,
- SILC_STR_UI_XNSTRING_ALLOC(&auth_data,
- payload_len),
- SILC_STR_END);
- } else {
- auth_data = NULL;
+ silc_buffer_pull(ctx->packet->buffer, 4);
+ ret = silc_buffer_unformat(ctx->packet->buffer,
+ SILC_STR_UI_XNSTRING_ALLOC(&auth_data,
+ payload_len),
+ SILC_STR_END);
+ if (ret == -1) {
+ SILC_LOG_DEBUG(("Bad payload in authentication payload"));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
}
- /*
+ /*
* Check the remote connection type and make sure that we have
* configured this connection. If we haven't allowed this connection
* the authentication must be failed.
/* Remote end is client */
if (conn_type == SILC_SOCKET_TYPE_CLIENT) {
- SilcConfigServerSectionClientConnection *client = NULL;
- client =
- silc_config_server_find_client_conn(server->config,
- ctx->sock->ip,
- ctx->sock->port);
- if (!client)
- client =
- silc_config_server_find_client_conn(server->config,
- ctx->sock->hostname,
- ctx->sock->port);
-
- if (client) {
- switch(client->auth_meth) {
- case SILC_PROTOCOL_CONN_AUTH_NONE:
- /* No authentication required */
- SILC_LOG_DEBUG(("No authentication required"));
- break;
-
- case SILC_PROTOCOL_CONN_AUTH_PASSWORD:
- /* Password authentication */
- SILC_LOG_DEBUG(("Password authentication"));
- ret = silc_server_password_authentication(server, auth_data,
- client->auth_data);
-
- if (ret) {
- memset(auth_data, 0, payload_len);
- silc_free(auth_data);
- auth_data = NULL;
- break;
- }
+ SilcServerConfigClient *client = ctx->cconfig.ref_ptr;
+ if (client) {
+ ret = silc_server_get_authentication(ctx, client->passphrase,
+ client->publickeys,
+ auth_data, payload_len);
+ if (!ret) {
/* Authentication failed */
SILC_LOG_ERROR(("Authentication failed"));
- SILC_LOG_DEBUG(("Authentication failed"));
- protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
- return;
- break;
-
- case SILC_PROTOCOL_CONN_AUTH_PUBLIC_KEY:
- /* Public key authentication */
- SILC_LOG_DEBUG(("Public key authentication"));
- ret = silc_server_public_key_authentication(server,
- client->auth_data,
- auth_data,
- payload_len,
- ctx->ske);
-
- if (ret) {
- memset(auth_data, 0, payload_len);
- silc_free(auth_data);
- auth_data = NULL;
- break;
- }
-
- SILC_LOG_ERROR(("Authentication failed"));
- SILC_LOG_DEBUG(("Authentication failed"));
+ silc_free(auth_data);
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
} else {
- SILC_LOG_DEBUG(("No configuration for remote connection"));
- SILC_LOG_ERROR(("Remote connection not configured"));
+ SILC_LOG_ERROR(("Remote client connection not configured"));
SILC_LOG_ERROR(("Authentication failed"));
- memset(auth_data, 0, payload_len);
silc_free(auth_data);
- auth_data = NULL;
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule,
+ 0, 300000);
return;
}
}
-
+
/* Remote end is server */
if (conn_type == SILC_SOCKET_TYPE_SERVER) {
- SilcConfigServerSectionServerConnection *serv = NULL;
- serv =
- silc_config_server_find_server_conn(server->config,
- ctx->sock->ip,
- ctx->sock->port);
- if (!serv)
- serv =
- silc_config_server_find_server_conn(server->config,
- ctx->sock->hostname,
- ctx->sock->port);
-
+ SilcServerConfigServer *serv = ctx->sconfig.ref_ptr;
+
if (serv) {
- switch(serv->auth_meth) {
- case SILC_PROTOCOL_CONN_AUTH_NONE:
- /* No authentication required */
- SILC_LOG_DEBUG(("No authentication required"));
- break;
-
- case SILC_PROTOCOL_CONN_AUTH_PASSWORD:
- /* Password authentication */
- SILC_LOG_DEBUG(("Password authentication"));
- ret = silc_server_password_authentication(server, auth_data,
- serv->auth_data);
-
- if (ret) {
- memset(auth_data, 0, payload_len);
- silc_free(auth_data);
- auth_data = NULL;
- break;
- }
-
+ ret = silc_server_get_authentication(ctx, serv->passphrase,
+ serv->publickeys,
+ auth_data, payload_len);
+ if (!ret) {
/* Authentication failed */
SILC_LOG_ERROR(("Authentication failed"));
- SILC_LOG_DEBUG(("Authentication failed"));
- protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
- return;
- break;
-
- case SILC_PROTOCOL_CONN_AUTH_PUBLIC_KEY:
- /* Public key authentication */
- SILC_LOG_DEBUG(("Public key authentication"));
- ret = silc_server_public_key_authentication(server,
- serv->auth_data,
- auth_data,
- payload_len,
- ctx->ske);
-
- if (ret) {
- memset(auth_data, 0, payload_len);
- silc_free(auth_data);
- auth_data = NULL;
- break;
- }
-
- SILC_LOG_ERROR(("Authentication failed"));
- SILC_LOG_DEBUG(("Authentication failed"));
+ silc_free(auth_data);
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
} else {
- SILC_LOG_DEBUG(("No configuration for remote connection"));
- SILC_LOG_ERROR(("Remote connection not configured"));
+ SILC_LOG_ERROR(("Remote server connection not configured"));
SILC_LOG_ERROR(("Authentication failed"));
- memset(auth_data, 0, payload_len);
- silc_free(auth_data);
- auth_data = NULL;
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule,
+ 0, 300000);
+ silc_free(auth_data);
return;
}
}
-
+
/* Remote end is router */
if (conn_type == SILC_SOCKET_TYPE_ROUTER) {
- SilcConfigServerSectionServerConnection *serv = NULL;
- serv =
- silc_config_server_find_router_conn(server->config,
- ctx->sock->ip,
- ctx->sock->port);
- if (!serv)
- serv =
- silc_config_server_find_router_conn(server->config,
- ctx->sock->hostname,
- ctx->sock->port);
-
+ SilcServerConfigRouter *serv = ctx->rconfig.ref_ptr;
+
if (serv) {
- switch(serv->auth_meth) {
- case SILC_PROTOCOL_CONN_AUTH_NONE:
- /* No authentication required */
- SILC_LOG_DEBUG(("No authentication required"));
- break;
-
- case SILC_PROTOCOL_CONN_AUTH_PASSWORD:
- /* Password authentication */
- SILC_LOG_DEBUG(("Password authentication"));
- ret = silc_server_password_authentication(server, auth_data,
- serv->auth_data);
-
- if (ret) {
- memset(auth_data, 0, payload_len);
- silc_free(auth_data);
- auth_data = NULL;
- break;
- }
-
+ ret = silc_server_get_authentication(ctx, serv->passphrase,
+ serv->publickeys,
+ auth_data, payload_len);
+ if (!ret) {
/* Authentication failed */
SILC_LOG_ERROR(("Authentication failed"));
- SILC_LOG_DEBUG(("Authentication failed"));
+ silc_free(auth_data);
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
- return;
- break;
-
- case SILC_PROTOCOL_CONN_AUTH_PUBLIC_KEY:
- /* Public key authentication */
- SILC_LOG_DEBUG(("Public key authentication"));
- ret = silc_server_public_key_authentication(server,
- serv->auth_data,
- auth_data,
- payload_len,
- ctx->ske);
-
- if (ret) {
- memset(auth_data, 0, payload_len);
- silc_free(auth_data);
- auth_data = NULL;
- break;
- }
-
- SILC_LOG_ERROR(("Authentication failed"));
- SILC_LOG_DEBUG(("Authentication failed"));
- protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
return;
}
} else {
- SILC_LOG_DEBUG(("No configuration for remote connection"));
- SILC_LOG_ERROR(("Remote connection not configured"));
+ SILC_LOG_ERROR(("Remote router connection not configured"));
SILC_LOG_ERROR(("Authentication failed"));
- memset(auth_data, 0, payload_len);
silc_free(auth_data);
- auth_data = NULL;
protocol->state = SILC_PROTOCOL_STATE_ERROR;
- protocol->execute(server->timeout_queue, 0,
- protocol, fd, 0, 300000);
+ silc_protocol_execute(protocol, server->schedule,
+ 0, 300000);
return;
}
}
-
- if (auth_data) {
- memset(auth_data, 0, payload_len);
- silc_free(auth_data);
- }
-
+
+ silc_free(auth_data);
+
/* Save connection type. This is later used to create the
ID for the connection. */
ctx->conn_type = conn_type;
-
+
/* Advance protocol state. */
protocol->state = SILC_PROTOCOL_STATE_END;
- protocol->execute(server->timeout_queue, 0, protocol, fd, 0, 0);
+ silc_protocol_execute(protocol, server->schedule, 0, 0);
} else {
- /*
+ /*
* We are initiator. We are authenticating ourselves to a
* remote server. We will send the authentication data to the
- * other end for verify.
+ * other end for verify.
*/
SilcBuffer packet;
int payload_len = 0;
unsigned char *auth_data = NULL;
- unsigned int auth_data_len = 0;
-
+ SilcUInt32 auth_data_len = 0;
+
switch(ctx->auth_meth) {
- case SILC_PROTOCOL_CONN_AUTH_NONE:
+ case SILC_AUTH_NONE:
/* No authentication required */
break;
-
- case SILC_PROTOCOL_CONN_AUTH_PASSWORD:
+
+ case SILC_AUTH_PASSWORD:
/* Password authentication */
if (ctx->auth_data && ctx->auth_data_len) {
- auth_data = ctx->auth_data;
+ auth_data = strdup(ctx->auth_data);
auth_data_len = ctx->auth_data_len;
break;
}
-
- /* No authentication data exits. Ask interactively from user. */
- /* XXX */
-
- break;
-
- case SILC_PROTOCOL_CONN_AUTH_PUBLIC_KEY:
- /* Public key authentication */
- /* XXX TODO */
break;
+
+ case SILC_AUTH_PUBLIC_KEY:
+ {
+ /* Public key authentication */
+ silc_server_get_public_key_auth(server, &auth_data, &auth_data_len,
+ ctx->ske);
+ break;
+ }
}
-
+
payload_len = 4 + auth_data_len;
packet = silc_buffer_alloc(payload_len);
silc_buffer_pull_tail(packet, SILC_BUFFER_END(packet));
silc_buffer_format(packet,
SILC_STR_UI_SHORT(payload_len),
- SILC_STR_UI_SHORT(server->server_type
+ SILC_STR_UI_SHORT(server->server_type
== SILC_SERVER ?
SILC_SOCKET_TYPE_SERVER :
SILC_SOCKET_TYPE_ROUTER),
SILC_STR_UI_XNSTRING(auth_data, auth_data_len),
SILC_STR_END);
-
+
/* Send the packet to server */
silc_server_packet_send(server, ctx->sock,
- SILC_PACKET_CONNECTION_AUTH, 0,
+ SILC_PACKET_CONNECTION_AUTH, 0,
packet->data, packet->len, TRUE);
-
+
if (auth_data) {
memset(auth_data, 0, auth_data_len);
silc_free(auth_data);
}
silc_buffer_free(packet);
-
+
/* Next state is end of protocol */
protocol->state = SILC_PROTOCOL_STATE_END;
}
case SILC_PROTOCOL_STATE_END:
{
- /*
+ /*
* End protocol
*/
+ unsigned char ok[4];
+
+ SILC_PUT32_MSB(SILC_AUTH_OK, ok);
- /* Succesfully authenticated */
- silc_server_packet_send(server, ctx->sock, SILC_PACKET_SUCCESS,
- 0, NULL, 0, TRUE);
+ /* Authentication successful */
+ silc_server_packet_send(server, ctx->sock, SILC_PACKET_SUCCESS,
+ 0, ok, 4, TRUE);
- /* Unregister the timeout task since the protocol has ended.
+ /* Unregister the timeout task since the protocol has ended.
This was the timeout task to be executed if the protocol is
not completed fast enough. */
if (ctx->timeout_task)
- silc_task_unregister(server->timeout_queue, ctx->timeout_task);
+ silc_schedule_task_del(server->schedule, ctx->timeout_task);
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
/* Protocol has ended, call the final callback */
if (protocol->final_callback)
- protocol->execute_final(server->timeout_queue, 0, protocol, fd);
+ silc_protocol_execute_final(protocol, server->schedule);
else
silc_protocol_free(protocol);
}
case SILC_PROTOCOL_STATE_ERROR:
{
/*
- * Error
+ * Error. Send notify to remote.
*/
+ unsigned char error[4];
/* Authentication failed */
+ SILC_PUT32_MSB(SILC_AUTH_FAILED, error);
silc_server_packet_send(server, ctx->sock, SILC_PACKET_FAILURE,
- 0, NULL, 0, TRUE);
+ 0, error, 4, TRUE);
- /* Unregister the timeout task since the protocol has ended.
+ /* Unregister the timeout task since the protocol has ended.
This was the timeout task to be executed if the protocol is
not completed fast enough. */
if (ctx->timeout_task)
- silc_task_unregister(server->timeout_queue, ctx->timeout_task);
+ silc_schedule_task_del(server->schedule, ctx->timeout_task);
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
/* On error the final callback is always called. */
if (protocol->final_callback)
- protocol->execute_final(server->timeout_queue, 0, protocol, fd);
+ silc_protocol_execute_final(protocol, server->schedule);
else
silc_protocol_free(protocol);
}
break;
+
+ case SILC_PROTOCOL_STATE_FAILURE:
+ /*
+ * We have received failure from remote
+ */
+
+ SILC_LOG_ERROR(("Received Authentication Failure"));
+
+ /* Unregister the timeout task since the protocol has ended.
+ This was the timeout task to be executed if the protocol is
+ not completed fast enough. */
+ if (ctx->timeout_task)
+ silc_schedule_task_del(server->schedule, ctx->timeout_task);
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
+
+ /* On error the final callback is always called. */
+ if (protocol->final_callback)
+ silc_protocol_execute_final(protocol, server->schedule);
+ else
+ silc_protocol_free(protocol);
+ break;
+
case SILC_PROTOCOL_STATE_UNKNOWN:
break;
}
}
+
+/*
+ * Re-key protocol routines
+ */
+
+/* Actually takes the new keys into use. */
+
+static void
+silc_server_protocol_rekey_validate(SilcServer server,
+ SilcServerRekeyInternalContext *ctx,
+ SilcIDListData idata,
+ SilcSKEKeyMaterial *keymat,
+ bool send)
+{
+ if (ctx->responder == TRUE) {
+ if (send) {
+ silc_cipher_set_key(idata->send_key, keymat->receive_enc_key,
+ keymat->enc_key_len);
+ silc_cipher_set_iv(idata->send_key, keymat->receive_iv);
+ silc_hmac_set_key(idata->hmac_send, keymat->receive_hmac_key,
+ keymat->hmac_key_len);
+ } else {
+ silc_cipher_set_key(idata->receive_key, keymat->send_enc_key,
+ keymat->enc_key_len);
+ silc_cipher_set_iv(idata->receive_key, keymat->send_iv);
+ silc_hmac_set_key(idata->hmac_receive, keymat->send_hmac_key,
+ keymat->hmac_key_len);
+ }
+ } else {
+ if (send) {
+ silc_cipher_set_key(idata->send_key, keymat->send_enc_key,
+ keymat->enc_key_len);
+ silc_cipher_set_iv(idata->send_key, keymat->send_iv);
+ silc_hmac_set_key(idata->hmac_send, keymat->send_hmac_key,
+ keymat->hmac_key_len);
+ } else {
+ silc_cipher_set_key(idata->receive_key, keymat->receive_enc_key,
+ keymat->enc_key_len);
+ silc_cipher_set_iv(idata->receive_key, keymat->receive_iv);
+ silc_hmac_set_key(idata->hmac_receive, keymat->receive_hmac_key,
+ keymat->hmac_key_len);
+ }
+ }
+
+ /* Save the current sending encryption key */
+ if (!send) {
+ memset(idata->rekey->send_enc_key, 0, idata->rekey->enc_key_len);
+ silc_free(idata->rekey->send_enc_key);
+ idata->rekey->send_enc_key = silc_memdup(keymat->send_enc_key,
+ keymat->enc_key_len / 8);
+ idata->rekey->enc_key_len = keymat->enc_key_len / 8;
+ }
+}
+
+/* This function actually re-generates (when not using PFS) the keys and
+ takes them into use. */
+
+void silc_server_protocol_rekey_generate(SilcServer server,
+ SilcServerRekeyInternalContext *ctx,
+ bool send)
+{
+ SilcIDListData idata = (SilcIDListData)ctx->sock->user_data;
+ SilcSKEKeyMaterial *keymat;
+ SilcUInt32 key_len = silc_cipher_get_key_len(idata->send_key);
+ SilcUInt32 hash_len = silc_hash_len(idata->hash);
+
+ SILC_LOG_DEBUG(("Generating new %s session keys (no PFS)",
+ send ? "sending" : "receiving"));
+
+ /* Generate the new key */
+ keymat = silc_calloc(1, sizeof(*keymat));
+ silc_ske_process_key_material_data(idata->rekey->send_enc_key,
+ idata->rekey->enc_key_len,
+ 16, key_len, hash_len,
+ idata->hash, keymat);
+
+ /* Set the keys into use */
+ silc_server_protocol_rekey_validate(server, ctx, idata, keymat, send);
+
+ silc_ske_free_key_material(keymat);
+}
+
+/* This function actually re-generates (with PFS) the keys and
+ takes them into use. */
+
+void
+silc_server_protocol_rekey_generate_pfs(SilcServer server,
+ SilcServerRekeyInternalContext *ctx,
+ bool send)
+{
+ SilcIDListData idata = (SilcIDListData)ctx->sock->user_data;
+ SilcSKEKeyMaterial *keymat;
+ SilcUInt32 key_len = silc_cipher_get_key_len(idata->send_key);
+ SilcUInt32 hash_len = silc_hash_len(idata->hash);
+ unsigned char *tmpbuf;
+ SilcUInt32 klen;
+
+ SILC_LOG_DEBUG(("Generating new %s session keys (with PFS)",
+ send ? "sending" : "receiving"));
+
+ /* Encode KEY to binary data */
+ tmpbuf = silc_mp_mp2bin(ctx->ske->KEY, 0, &klen);
+
+ /* Generate the new key */
+ keymat = silc_calloc(1, sizeof(*keymat));
+ silc_ske_process_key_material_data(tmpbuf, klen, 16, key_len, hash_len,
+ idata->hash, keymat);
+
+ /* Set the keys into use */
+ silc_server_protocol_rekey_validate(server, ctx, idata, keymat, send);
+
+ memset(tmpbuf, 0, klen);
+ silc_free(tmpbuf);
+ silc_ske_free_key_material(keymat);
+}
+
+/* Packet sending callback. This function is provided as packet sending
+ routine to the Key Exchange functions. */
+
+static void
+silc_server_protocol_rekey_send_packet(SilcSKE ske,
+ SilcBuffer packet,
+ SilcPacketType type,
+ void *context)
+{
+ SilcProtocol protocol = (SilcProtocol)context;
+ SilcServerRekeyInternalContext *ctx =
+ (SilcServerRekeyInternalContext *)protocol->context;
+ SilcServer server = (SilcServer)ctx->server;
+
+ /* Send the packet immediately */
+ silc_server_packet_send(server, ctx->sock,
+ type, 0, packet->data, packet->len, FALSE);
+}
+
+/* Performs re-key as defined in the SILC protocol specification. */
+
+SILC_TASK_CALLBACK(silc_server_protocol_rekey)
+{
+ SilcProtocol protocol = (SilcProtocol)context;
+ SilcServerRekeyInternalContext *ctx =
+ (SilcServerRekeyInternalContext *)protocol->context;
+ SilcServer server = (SilcServer)ctx->server;
+ SilcIDListData idata = (SilcIDListData)ctx->sock->user_data;
+ SilcSKEStatus status;
+
+ if (protocol->state == SILC_PROTOCOL_STATE_UNKNOWN)
+ protocol->state = SILC_PROTOCOL_STATE_START;
+
+ SILC_LOG_DEBUG(("Current protocol state %d", protocol->state));
+
+ switch(protocol->state) {
+ case SILC_PROTOCOL_STATE_START:
+ {
+ /*
+ * Start protocol.
+ */
+
+ if (ctx->responder == TRUE) {
+ /*
+ * We are receiving party
+ */
+
+ if (ctx->pfs == TRUE) {
+ /*
+ * Use Perfect Forward Secrecy, ie. negotiate the key material
+ * using the SKE protocol.
+ */
+
+ if (ctx->packet->type != SILC_PACKET_KEY_EXCHANGE_1) {
+ SILC_LOG_ERROR(("Error during Re-key (R PFS): re-key state is "
+ "incorrect (received %d, expected %d packet), "
+ "with %s (%s)", ctx->packet->type,
+ SILC_PACKET_KEY_EXCHANGE_1, ctx->sock->hostname,
+ ctx->sock->ip));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+
+ ctx->ske = silc_ske_alloc(server->rng, server);
+ ctx->ske->prop = silc_calloc(1, sizeof(*ctx->ske->prop));
+ silc_ske_group_get_by_number(idata->rekey->ske_group,
+ &ctx->ske->prop->group);
+
+ silc_ske_set_callbacks(ctx->ske,
+ silc_server_protocol_rekey_send_packet,
+ NULL, NULL, NULL, silc_ske_check_version,
+ context);
+
+ status = silc_ske_responder_phase_2(ctx->ske, ctx->packet->buffer);
+ if (status != SILC_SKE_STATUS_OK) {
+ SILC_LOG_ERROR(("Error (%s) during Re-key (R PFS), with %s (%s)",
+ silc_ske_map_status(status), ctx->sock->hostname,
+ ctx->sock->ip));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+
+ /* Advance the protocol state */
+ protocol->state++;
+ silc_protocol_execute(protocol, server->schedule, 0, 0);
+ } else {
+ /*
+ * Do normal and simple re-key.
+ */
+
+ /* Send the REKEY_DONE to indicate we will take new keys into use */
+ silc_server_packet_queue_purge(server, ctx->sock);
+ silc_server_packet_send(server, ctx->sock, SILC_PACKET_REKEY_DONE,
+ 0, NULL, 0, FALSE);
+
+ /* After we send REKEY_DONE we must set the sending encryption
+ key to the new key since all packets after this packet must
+ encrypted with the new key. */
+ silc_server_protocol_rekey_generate(server, ctx, TRUE);
+ silc_server_packet_queue_purge(server, ctx->sock);
+
+ /* The protocol ends in next stage. */
+ protocol->state = SILC_PROTOCOL_STATE_END;
+ }
+
+ } else {
+ /*
+ * We are the initiator of this protocol
+ */
+
+ /* Start the re-key by sending the REKEY packet */
+ silc_server_packet_send(server, ctx->sock, SILC_PACKET_REKEY,
+ 0, NULL, 0, FALSE);
+
+ if (ctx->pfs == TRUE) {
+ /*
+ * Use Perfect Forward Secrecy, ie. negotiate the key material
+ * using the SKE protocol.
+ */
+ ctx->ske = silc_ske_alloc(server->rng, server);
+ ctx->ske->prop = silc_calloc(1, sizeof(*ctx->ske->prop));
+ silc_ske_group_get_by_number(idata->rekey->ske_group,
+ &ctx->ske->prop->group);
+
+ silc_ske_set_callbacks(ctx->ske,
+ silc_server_protocol_rekey_send_packet,
+ NULL, NULL, NULL, silc_ske_check_version,
+ context);
+
+ status = silc_ske_initiator_phase_2(ctx->ske, NULL, NULL, 0);
+ if (status != SILC_SKE_STATUS_OK) {
+ SILC_LOG_ERROR(("Error (%s) during Re-key (I PFS), with %s (%s)",
+ silc_ske_map_status(status), ctx->sock->hostname,
+ ctx->sock->ip));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+
+ /* Advance the protocol state */
+ protocol->state++;
+ } else {
+ /*
+ * Do normal and simple re-key.
+ */
+
+ /* Send the REKEY_DONE to indicate we will take new keys into use
+ now. */
+ silc_server_packet_queue_purge(server, ctx->sock);
+ silc_server_packet_send(server, ctx->sock, SILC_PACKET_REKEY_DONE,
+ 0, NULL, 0, FALSE);
+
+ /* After we send REKEY_DONE we must set the sending encryption
+ key to the new key since all packets after this packet must
+ encrypted with the new key. */
+ silc_server_protocol_rekey_generate(server, ctx, TRUE);
+ silc_server_packet_queue_purge(server, ctx->sock);
+
+ /* The protocol ends in next stage. */
+ protocol->state = SILC_PROTOCOL_STATE_END;
+ }
+ }
+ }
+ break;
+
+ case 2:
+ /*
+ * Second state, used only when doing re-key with PFS.
+ */
+ if (ctx->responder == TRUE) {
+ if (ctx->pfs == TRUE) {
+ /*
+ * Send our KE packet to the initiator now that we've processed
+ * the initiator's KE packet.
+ */
+ status = silc_ske_responder_finish(ctx->ske, NULL, NULL,
+ SILC_SKE_PK_TYPE_SILC);
+ if (status != SILC_SKE_STATUS_OK) {
+ SILC_LOG_ERROR(("Error (%s) during Re-key (R PFS), with %s (%s)",
+ silc_ske_map_status(status), ctx->sock->hostname,
+ ctx->sock->ip));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+ }
+
+ } else {
+ if (ctx->pfs == TRUE) {
+ /*
+ * The packet type must be KE packet
+ */
+ if (ctx->packet->type != SILC_PACKET_KEY_EXCHANGE_2) {
+ SILC_LOG_ERROR(("Error during Re-key (I PFS): re-key state is "
+ "incorrect (received %d, expected %d packet), "
+ "with %s (%s)", ctx->packet->type,
+ SILC_PACKET_KEY_EXCHANGE_2, ctx->sock->hostname,
+ ctx->sock->ip));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+
+ status = silc_ske_initiator_finish(ctx->ske, ctx->packet->buffer);
+ if (status != SILC_SKE_STATUS_OK) {
+ SILC_LOG_ERROR(("Error (%s) during Re-key (I PFS), with %s (%s)",
+ silc_ske_map_status(status), ctx->sock->hostname,
+ ctx->sock->ip));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+ }
+ }
+
+ /* Send the REKEY_DONE to indicate we will take new keys into use
+ now. */
+ silc_server_packet_queue_purge(server, ctx->sock);
+ silc_server_packet_send(server, ctx->sock, SILC_PACKET_REKEY_DONE,
+ 0, NULL, 0, FALSE);
+
+ /* After we send REKEY_DONE we must set the sending encryption
+ key to the new key since all packets after this packet must
+ encrypted with the new key. */
+ silc_server_protocol_rekey_generate_pfs(server, ctx, TRUE);
+ silc_server_packet_queue_purge(server, ctx->sock);
+
+ /* The protocol ends in next stage. */
+ protocol->state = SILC_PROTOCOL_STATE_END;
+ break;
+
+ case SILC_PROTOCOL_STATE_END:
+ /*
+ * End protocol
+ */
+
+ if (ctx->packet->type != SILC_PACKET_REKEY_DONE) {
+ SILC_LOG_ERROR(("Error during Re-key (%s PFS): re-key state is "
+ "incorrect (received %d, expected %d packet), "
+ "with %s (%s)", ctx->responder ? "R" : "I",
+ ctx->packet->type, SILC_PACKET_REKEY_DONE,
+ ctx->sock->hostname, ctx->sock->ip));
+ protocol->state = SILC_PROTOCOL_STATE_ERROR;
+ silc_protocol_execute(protocol, server->schedule, 0, 300000);
+ return;
+ }
+
+ /* We received the REKEY_DONE packet and all packets after this is
+ encrypted with the new key so set the decryption key to the new key */
+ if (ctx->pfs == TRUE)
+ silc_server_protocol_rekey_generate_pfs(server, ctx, FALSE);
+ else
+ silc_server_protocol_rekey_generate(server, ctx, FALSE);
+ silc_server_packet_queue_purge(server, ctx->sock);
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
+
+ /* Protocol has ended, call the final callback */
+ if (protocol->final_callback)
+ silc_protocol_execute_final(protocol, server->schedule);
+ else
+ silc_protocol_free(protocol);
+ break;
+
+ case SILC_PROTOCOL_STATE_ERROR:
+ /*
+ * Error occured
+ */
+
+ if (ctx->pfs == TRUE)
+ /* Send abort notification */
+ silc_ske_abort(ctx->ske, ctx->ske->status);
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
+
+ /* On error the final callback is always called. */
+ if (protocol->final_callback)
+ silc_protocol_execute_final(protocol, server->schedule);
+ else
+ silc_protocol_free(protocol);
+ break;
+
+ case SILC_PROTOCOL_STATE_FAILURE:
+ /*
+ * We have received failure from remote
+ */
+
+ SILC_LOG_ERROR(("Error during Re-Key: received Failure"));
+
+ /* Assure that after calling final callback there cannot be pending
+ executions for this protocol anymore. This just unregisters any
+ timeout callbacks for this protocol. */
+ silc_protocol_cancel(protocol, server->schedule);
+
+ /* On error the final callback is always called. */
+ if (protocol->final_callback)
+ silc_protocol_execute_final(protocol, server->schedule);
+ else
+ silc_protocol_free(protocol);
+ break;
+
+ case SILC_PROTOCOL_STATE_UNKNOWN:
+ break;
+ }
+
+}
+
+/* Registers protocols used in server. */
+
+void silc_server_protocols_register(void)
+{
+ silc_protocol_register(SILC_PROTOCOL_SERVER_CONNECTION_AUTH,
+ silc_server_protocol_connection_auth);
+ silc_protocol_register(SILC_PROTOCOL_SERVER_KEY_EXCHANGE,
+ silc_server_protocol_key_exchange);
+ silc_protocol_register(SILC_PROTOCOL_SERVER_REKEY,
+ silc_server_protocol_rekey);
+ silc_protocol_register(SILC_PROTOCOL_SERVER_BACKUP,
+ silc_server_protocol_backup);
+}
+
+/* Unregisters protocols */
+
+void silc_server_protocols_unregister(void)
+{
+ silc_protocol_unregister(SILC_PROTOCOL_SERVER_CONNECTION_AUTH,
+ silc_server_protocol_connection_auth);
+ silc_protocol_unregister(SILC_PROTOCOL_SERVER_KEY_EXCHANGE,
+ silc_server_protocol_key_exchange);
+ silc_protocol_unregister(SILC_PROTOCOL_SERVER_REKEY,
+ silc_server_protocol_rekey);
+ silc_protocol_unregister(SILC_PROTOCOL_SERVER_BACKUP,
+ silc_server_protocol_backup);
+}