libfdcore/p_cnx.c - freeDiameter-old - Gitiles

 /*********************************************************************************************************
 * Software License Agreement (BSD License)                                                               *
 * Author: Sebastien Decugis <sdecugis@freediameter.net>							 *
 *													 *
 * Copyright (c) 2013, WIDE Project and NICT								 *
 * All rights reserved.											 *
 * 													 *
 * Redistribution and use of this software in source and binary forms, with or without modification, are  *
 * permitted provided that the following conditions are met:						 *
 * 													 *
 * * Redistributions of source code must retain the above 						 *
 *   copyright notice, this list of conditions and the 							 *
 *   following disclaimer.										 *
 *    													 *
 * * Redistributions in binary form must reproduce the above 						 *
 *   copyright notice, this list of conditions and the 							 *
 *   following disclaimer in the documentation and/or other						 *
 *   materials provided with the distribution.								 *
 * 													 *
 * * Neither the name of the WIDE Project or NICT nor the 						 *
 *   names of its contributors may be used to endorse or 						 *
 *   promote products derived from this software without 						 *
 *   specific prior written permission of WIDE Project and 						 *
 *   NICT.												 *
 * 													 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED *
 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A *
 * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR *
 * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 	 *
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 	 *
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR *
 * TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF   *
 * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.								 *
 *********************************************************************************************************/

 #include "fdcore-internal.h"


 /* TODO: change the behavior to handle properly forced ordering at beginning & end of OPEN state */

 /* This file contains code used by a peer state machine to initiate a connection to remote peer */

 struct next_conn {
 	struct fd_list	chain;
 	int		proto;	/* Protocol of the next attempt */
 	union {
 		sSS	ss;	/* The address, only for TCP */
 		sSA4	sin;
 		sSA6	sin6;
 	};
 	uint16_t	port;	/* The port, for SCTP (included in ss for TCP) */
 	int		dotls;	/* Handshake TLS after connection ? */
 };

 static __inline__ void failed_connection_attempt(struct fd_peer * peer)
 {
 	/* Simply remove the first item in the list if not empty */
 	if (! FD_IS_LIST_EMPTY(&peer->p_connparams) ) {
 		struct fd_list * li = peer->p_connparams.next;
 		fd_list_unlink(li);
 		free(li);
 	}
 }

 static void empty_connection_list(struct fd_peer * peer)
 {
 	/* Remove all items */
 	while (!FD_IS_LIST_EMPTY(&peer->p_connparams)) {
 		failed_connection_attempt(peer);
 	}
 }

 static int prepare_connection_list(struct fd_peer * peer)
 {
 	struct fd_list * li, *last_prio;
 	struct next_conn   * new;

 	uint16_t	port_no; /* network order */
 	int		dotls_immediate;
 	int count = 0;

 	TRACE_ENTRY("%p", peer);

 	/* Resolve peer address(es) if needed */
 	if (FD_IS_LIST_EMPTY(&peer->p_hdr.info.pi_endpoints)) {
 		struct addrinfo hints, *ai, *aip;
 		int ret;

 		memset(&hints, 0, sizeof(hints));
 		hints.ai_flags = AI_ADDRCONFIG;
 		ret = getaddrinfo(peer->p_hdr.info.pi_diamid, NULL, &hints, &ai);
 		if (ret) {
 			TRACE_DEBUG(INFO, "Unable to resolve address for peer '%s' (%s), aborting", peer->p_hdr.info.pi_diamid, gai_strerror(ret));
 			if (ret != EAI_AGAIN)
 				fd_psm_terminate( peer, NULL );
 			return 0;
 		}

 		for (aip = ai; aip != NULL; aip = aip->ai_next) {
 			CHECK_FCT( fd_ep_add_merge( &peer->p_hdr.info.pi_endpoints, aip->ai_addr, aip->ai_addrlen, EP_FL_DISC ) );
 		}
 		freeaddrinfo(ai);
 	}

 	/* Remove addresses from unwanted family */
 	if (peer->p_hdr.info.config.pic_flags.pro3) {
 		CHECK_FCT( fd_ep_filter_family(
 					&peer->p_hdr.info.pi_endpoints,
 					(peer->p_hdr.info.config.pic_flags.pro3 == PI_P3_IP) ?
 						AF_INET
 						: AF_INET6));
 	}
 	if (fd_g_config->cnf_flags.no_ip4) {
 		CHECK_FCT( fd_ep_filter_family(
 					&peer->p_hdr.info.pi_endpoints,
 					AF_INET6));
 	}
 	if (fd_g_config->cnf_flags.no_ip6) {
 		CHECK_FCT( fd_ep_filter_family(
 					&peer->p_hdr.info.pi_endpoints,
 					AF_INET));
 	}

 	/* We don't use the alternate addresses that were sent by the remote peer */
 	CHECK_FCT( fd_ep_clearflags(&peer->p_hdr.info.pi_endpoints, EP_FL_ADV) );


 	/* Now check we have at least one address to attempt */
 	if (FD_IS_LIST_EMPTY(&peer->p_hdr.info.pi_endpoints)) {
 		TRACE_DEBUG(INFO, "No address %savailable to connect to peer '%s', aborting",
 					peer->p_hdr.info.config.pic_flags.pro3 ? "in the configured family " : "", peer->p_hdr.info.pi_diamid);
 		fd_psm_terminate( peer, NULL );
 		return 0;
 	}

 	/* Check if we are able to communicate with this peer */
 	if (fd_g_config->cnf_sec_data.tls_disabled && ( peer->p_hdr.info.config.pic_flags.sec != PI_SEC_NONE)) {
 		LOG_E("Peer '%s' not configured for No_TLS and TLS is locally disabled; giving up connection attempts",
 					peer->p_hdr.info.pi_diamid);
 		fd_psm_terminate( peer, NULL );
 		return 0;
 	}

 	/* Cleanup any previous list */
 	empty_connection_list(peer);

 	/* Prepare the parameters */
 	if ((peer->p_hdr.info.config.pic_flags.sec != PI_SEC_DEFAULT) || (fd_g_config->cnf_flags.tls_alg)) {
 		dotls_immediate = 0;
 		port_no = htons(peer->p_hdr.info.config.pic_port ?: DIAMETER_PORT);
 	} else {
 		dotls_immediate = 1;
 		port_no = htons(peer->p_hdr.info.config.pic_port ?: DIAMETER_SECURE_PORT);
 	}

 	last_prio = &peer->p_connparams;

 	/* Create TCP parameters unless specified otherwise */
 	if ((!fd_g_config->cnf_flags.no_tcp) && (peer->p_hdr.info.config.pic_flags.pro4 != PI_P4_SCTP)) {
 		for (li = peer->p_hdr.info.pi_endpoints.next; li != &peer->p_hdr.info.pi_endpoints; li = li->next) {
 			struct fd_endpoint * ep = (struct fd_endpoint *)li;

 			CHECK_MALLOC( new = malloc(sizeof(struct next_conn)) );
 			memset(new, 0, sizeof(struct next_conn));
 			fd_list_init(&new->chain, new);

 			new->proto = IPPROTO_TCP;

 			memcpy( &new->ss, &ep->ss, sizeof(sSS) );
 			switch (new->ss.ss_family) {
 				case AF_INET:
 					new->sin.sin_port = port_no;
 					break;
 				case AF_INET6:
 					new->sin6.sin6_port = port_no;
 					break;
 				default:
 					free(new);
 					continue; /* Move to the next endpoint */
 			}

 			new->dotls = dotls_immediate;

 			/* Add the new entry to the appropriate position (conf and disc go first) */
 			if (ep->flags & (EP_FL_CONF | EP_FL_DISC)) {
 				fd_list_insert_after(last_prio, &new->chain);
 				last_prio = &new->chain;
 			} else {
 				fd_list_insert_before(&peer->p_connparams, &new->chain);
 			}
 			count++;
 		}
 	}

 	/* Now, add the SCTP entry, if not disabled */
 #ifndef DISABLE_SCTP
 	if ((!fd_g_config->cnf_flags.no_sctp) && (peer->p_hdr.info.config.pic_flags.pro4 != PI_P4_TCP)) {
 		struct next_conn   * new;

 		CHECK_MALLOC( new = malloc(sizeof(struct next_conn)) );
 		memset(new, 0, sizeof(struct next_conn));
 		fd_list_init(&new->chain, new);

 		new->proto = IPPROTO_SCTP;
 		new->port  = ntohs(port_no); /* back to host byte order... */
 		new->dotls = dotls_immediate;

 		/* Add the new entry to the appropriate position (depending on preferences) */
 		if ((fd_g_config->cnf_flags.pr_tcp) || (peer->p_hdr.info.config.pic_flags.alg == PI_ALGPREF_TCP)) {
 			fd_list_insert_after(last_prio, &new->chain);
 		} else {
 			fd_list_insert_after(&peer->p_connparams, &new->chain); /* very first position */
 		}
 		count++;
 	}
 #endif /* DISABLE_SCTP */

 	LOG_D("Prepared %d sets of connection parameters to peer %s", count, peer->p_hdr.info.pi_diamid);

 	return 0;
 }


 /* The thread that attempts the connection */
 static void * connect_thr(void * arg)
 {
 	struct fd_peer * peer = arg;
 	struct cnxctx * cnx = NULL;
 	struct next_conn * nc = NULL;
 	int rebuilt = 0;
 	int fatal_error=0;

 	TRACE_ENTRY("%p", arg);
 	CHECK_PARAMS_DO( CHECK_PEER(peer), return NULL );

 	/* Set the thread name */
 	{
 		char buf[48];
 		snprintf(buf, sizeof(buf), "ConnTo:%s", peer->p_hdr.info.pi_diamid);
 		fd_log_threadname ( buf );
 	}

 	do {
 		/* Rebuild the list if needed, if it is empty -- but at most once */
 		if (FD_IS_LIST_EMPTY(&peer->p_connparams)) {
 			if (! rebuilt) {
 				CHECK_FCT_DO( fatal_error = prepare_connection_list(peer), goto out );
 				rebuilt ++;
 			}
 			if (FD_IS_LIST_EMPTY(&peer->p_connparams)) {
 				/* We encountered an error or we have looped over all the addresses of the peer. */
 				fd_hook_call(HOOK_PEER_CONNECT_FAILED, NULL, peer, "All connection attempts failed, will retry later", NULL);

 				CHECK_FCT_DO( fatal_error = fd_event_send(peer->p_events, FDEVP_CNX_FAILED, 0, NULL), goto out );
 				return NULL;
 			}
 		}

 		/* Attempt connection to the first entry */
 		nc = (struct next_conn *)(peer->p_connparams.next);

 		switch (nc->proto) {
 			case IPPROTO_TCP:
 				cnx = fd_cnx_cli_connect_tcp((sSA *)&nc->ss, sSAlen(&nc->ss));
 				break;
 #ifndef DISABLE_SCTP
 			case IPPROTO_SCTP:
 				cnx = fd_cnx_cli_connect_sctp((peer->p_hdr.info.config.pic_flags.pro3 == PI_P3_IP) ? 1 : fd_g_config->cnf_flags.no_ip6,
 							nc->port, &peer->p_hdr.info.pi_endpoints);
 				break;
 #endif /* DISABLE_SCTP */
 		}

 		if (cnx)
 			break;

 		/* Pop these parameters and continue */
 		failed_connection_attempt(peer);

 		pthread_testcancel();

 	} while (!cnx); /* and until cancellation or all addresses attempted without success */

 	/* Now, we have an established connection in cnx */

 	pthread_cleanup_push((void *)fd_cnx_destroy, cnx);

 	/* Set the hostname in the connection, so that handshake verifies the remote identity */
 	fd_cnx_sethostname(cnx,peer->p_hdr.info.pi_diamid);

 	/* Handshake if needed (secure port) */
 	if (nc->dotls) {
 		CHECK_FCT_DO( fd_cnx_handshake(cnx, GNUTLS_CLIENT,
 						ALGO_HANDSHAKE_3436,
 						peer->p_hdr.info.config.pic_priority, NULL),
 			{
 				/* Handshake failed ...  */
 				fd_hook_call(HOOK_PEER_CONNECT_FAILED, NULL, peer, "TLS Handshake failed", NULL);
 				fd_cnx_destroy(cnx);
 				empty_connection_list(peer);
 				fd_ep_filter(&peer->p_hdr.info.pi_endpoints, EP_FL_CONF);
 				goto out_pop;
 			} );
 		LOG_A("%s: TLS handshake successful.", peer->p_hdr.info.pi_diamid);
 	} else {
 		/* Prepare to receive the next message */
 		CHECK_FCT_DO( fatal_error = fd_cnx_start_clear(cnx, 0), goto out_pop );
 	}

 	/* Upon success, generate FDEVP_CNX_ESTABLISHED */
 	CHECK_FCT_DO( fatal_error = fd_event_send(peer->p_events, FDEVP_CNX_ESTABLISHED, 0, cnx),  );
 out_pop:
 	;
 	pthread_cleanup_pop(0);

 out:

 	if (fatal_error) {

 		/* Cleanup the connection */
 		if (cnx)
 			fd_cnx_destroy(cnx);

 		/* Generate a termination event */
 		CHECK_FCT_DO(fd_core_shutdown(), );
 	}

 	return NULL;
 }


 /* Initiate a connection attempt to a remote peer */
 int fd_p_cnx_init(struct fd_peer * peer)
 {
 	TRACE_ENTRY("%p", peer);

 	/* Start the connect thread */
 	CHECK_FCT( pthread_create(&peer->p_ini_thr, NULL, connect_thr, peer) );
 	return 0;
 }

 /* Cancel a connection attempt */
 void fd_p_cnx_abort(struct fd_peer * peer, int cleanup_all)
 {
 	TRACE_ENTRY("%p %d", peer, cleanup_all);
 	CHECK_PARAMS_DO( CHECK_PEER(peer), return );

 	if (peer->p_ini_thr != (pthread_t)NULL) {
 		CHECK_FCT_DO( fd_thr_term(&peer->p_ini_thr), /* continue */);
 		failed_connection_attempt(peer);
 	}

 	if (cleanup_all) {
 		empty_connection_list(peer);
 	}
 }
	/*********************************************************************************************************
	* Software License Agreement (BSD License) *
	* Author: Sebastien Decugis <sdecugis@freediameter.net> *
	* *
	* Copyright (c) 2013, WIDE Project and NICT *
	* All rights reserved. *
	* *
	* Redistribution and use of this software in source and binary forms, with or without modification, are *
	* permitted provided that the following conditions are met: *
	* *
	* * Redistributions of source code must retain the above *
	* copyright notice, this list of conditions and the *
	* following disclaimer. *
	* *
	* * Redistributions in binary form must reproduce the above *
	* copyright notice, this list of conditions and the *
	* following disclaimer in the documentation and/or other *
	* materials provided with the distribution. *
	* *
	* * Neither the name of the WIDE Project or NICT nor the *
	* names of its contributors may be used to endorse or *
	* promote products derived from this software without *
	* specific prior written permission of WIDE Project and *
	* NICT. *
	* *
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED *
	* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A *
	* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR *
	* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT *
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS *
	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR *
	* TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF *
	* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. *
	*********************************************************************************************************/

	#include "fdcore-internal.h"


	/* TODO: change the behavior to handle properly forced ordering at beginning & end of OPEN state */

	/* This file contains code used by a peer state machine to initiate a connection to remote peer */

	struct next_conn {
	struct fd_list chain;
	int proto; /* Protocol of the next attempt */
	union {
	sSS ss; /* The address, only for TCP */
	sSA4 sin;
	sSA6 sin6;
	};
	uint16_t port; /* The port, for SCTP (included in ss for TCP) */
	int dotls; /* Handshake TLS after connection ? */
	};

	static __inline__ void failed_connection_attempt(struct fd_peer * peer)
	{
	/* Simply remove the first item in the list if not empty */
	if (! FD_IS_LIST_EMPTY(&peer->p_connparams) ) {
	struct fd_list * li = peer->p_connparams.next;
	fd_list_unlink(li);
	free(li);
	}
	}

	static void empty_connection_list(struct fd_peer * peer)
	{
	/* Remove all items */
	while (!FD_IS_LIST_EMPTY(&peer->p_connparams)) {
	failed_connection_attempt(peer);
	}
	}

	static int prepare_connection_list(struct fd_peer * peer)
	{
	struct fd_list * li, *last_prio;
	struct next_conn * new;

	uint16_t port_no; /* network order */
	int dotls_immediate;
	int count = 0;

	TRACE_ENTRY("%p", peer);

	/* Resolve peer address(es) if needed */
	if (FD_IS_LIST_EMPTY(&peer->p_hdr.info.pi_endpoints)) {
	struct addrinfo hints, ai, aip;
	int ret;

	memset(&hints, 0, sizeof(hints));
	hints.ai_flags = AI_ADDRCONFIG;
	ret = getaddrinfo(peer->p_hdr.info.pi_diamid, NULL, &hints, &ai);
	if (ret) {
	TRACE_DEBUG(INFO, "Unable to resolve address for peer '%s' (%s), aborting", peer->p_hdr.info.pi_diamid, gai_strerror(ret));
	if (ret != EAI_AGAIN)
	fd_psm_terminate( peer, NULL );
	return 0;
	}

	for (aip = ai; aip != NULL; aip = aip->ai_next) {
	CHECK_FCT( fd_ep_add_merge( &peer->p_hdr.info.pi_endpoints, aip->ai_addr, aip->ai_addrlen, EP_FL_DISC ) );
	}
	freeaddrinfo(ai);
	}

	/* Remove addresses from unwanted family */
	if (peer->p_hdr.info.config.pic_flags.pro3) {
	CHECK_FCT( fd_ep_filter_family(
	&peer->p_hdr.info.pi_endpoints,
	(peer->p_hdr.info.config.pic_flags.pro3 == PI_P3_IP) ?
	AF_INET
	: AF_INET6));
	}
	if (fd_g_config->cnf_flags.no_ip4) {
	CHECK_FCT( fd_ep_filter_family(
	&peer->p_hdr.info.pi_endpoints,
	AF_INET6));
	}
	if (fd_g_config->cnf_flags.no_ip6) {
	CHECK_FCT( fd_ep_filter_family(
	&peer->p_hdr.info.pi_endpoints,
	AF_INET));
	}

	/* We don't use the alternate addresses that were sent by the remote peer */
	CHECK_FCT( fd_ep_clearflags(&peer->p_hdr.info.pi_endpoints, EP_FL_ADV) );


	/* Now check we have at least one address to attempt */
	if (FD_IS_LIST_EMPTY(&peer->p_hdr.info.pi_endpoints)) {
	TRACE_DEBUG(INFO, "No address %savailable to connect to peer '%s', aborting",
	peer->p_hdr.info.config.pic_flags.pro3 ? "in the configured family " : "", peer->p_hdr.info.pi_diamid);
	fd_psm_terminate( peer, NULL );
	return 0;
	}

	/* Check if we are able to communicate with this peer */
	if (fd_g_config->cnf_sec_data.tls_disabled && ( peer->p_hdr.info.config.pic_flags.sec != PI_SEC_NONE)) {
	LOG_E("Peer '%s' not configured for No_TLS and TLS is locally disabled; giving up connection attempts",
	peer->p_hdr.info.pi_diamid);
	fd_psm_terminate( peer, NULL );
	return 0;
	}

	/* Cleanup any previous list */
	empty_connection_list(peer);

	/* Prepare the parameters */
	if ((peer->p_hdr.info.config.pic_flags.sec != PI_SEC_DEFAULT) \|\| (fd_g_config->cnf_flags.tls_alg)) {
	dotls_immediate = 0;
	port_no = htons(peer->p_hdr.info.config.pic_port ?: DIAMETER_PORT);
	} else {
	dotls_immediate = 1;
	port_no = htons(peer->p_hdr.info.config.pic_port ?: DIAMETER_SECURE_PORT);
	}

	last_prio = &peer->p_connparams;

	/* Create TCP parameters unless specified otherwise */
	if ((!fd_g_config->cnf_flags.no_tcp) && (peer->p_hdr.info.config.pic_flags.pro4 != PI_P4_SCTP)) {
	for (li = peer->p_hdr.info.pi_endpoints.next; li != &peer->p_hdr.info.pi_endpoints; li = li->next) {
	struct fd_endpoint * ep = (struct fd_endpoint *)li;

	CHECK_MALLOC( new = malloc(sizeof(struct next_conn)) );
	memset(new, 0, sizeof(struct next_conn));
	fd_list_init(&new->chain, new);

	new->proto = IPPROTO_TCP;

	memcpy( &new->ss, &ep->ss, sizeof(sSS) );
	switch (new->ss.ss_family) {
	case AF_INET:
	new->sin.sin_port = port_no;
	break;
	case AF_INET6:
	new->sin6.sin6_port = port_no;
	break;
	default:
	free(new);
	continue; /* Move to the next endpoint */
	}

	new->dotls = dotls_immediate;

	/* Add the new entry to the appropriate position (conf and disc go first) */
	if (ep->flags & (EP_FL_CONF \| EP_FL_DISC)) {
	fd_list_insert_after(last_prio, &new->chain);
	last_prio = &new->chain;
	} else {
	fd_list_insert_before(&peer->p_connparams, &new->chain);
	}
	count++;
	}
	}

	/* Now, add the SCTP entry, if not disabled */
	#ifndef DISABLE_SCTP
	if ((!fd_g_config->cnf_flags.no_sctp) && (peer->p_hdr.info.config.pic_flags.pro4 != PI_P4_TCP)) {
	struct next_conn * new;

	CHECK_MALLOC( new = malloc(sizeof(struct next_conn)) );
	memset(new, 0, sizeof(struct next_conn));
	fd_list_init(&new->chain, new);

	new->proto = IPPROTO_SCTP;
	new->port = ntohs(port_no); /* back to host byte order... */
	new->dotls = dotls_immediate;

	/* Add the new entry to the appropriate position (depending on preferences) */
	if ((fd_g_config->cnf_flags.pr_tcp) \|\| (peer->p_hdr.info.config.pic_flags.alg == PI_ALGPREF_TCP)) {
	fd_list_insert_after(last_prio, &new->chain);
	} else {
	fd_list_insert_after(&peer->p_connparams, &new->chain); /* very first position */
	}
	count++;
	}
	#endif /* DISABLE_SCTP */

	LOG_D("Prepared %d sets of connection parameters to peer %s", count, peer->p_hdr.info.pi_diamid);

	return 0;
	}


	/* The thread that attempts the connection */
	static void * connect_thr(void * arg)
	{
	struct fd_peer * peer = arg;
	struct cnxctx * cnx = NULL;
	struct next_conn * nc = NULL;
	int rebuilt = 0;
	int fatal_error=0;

	TRACE_ENTRY("%p", arg);
	CHECK_PARAMS_DO( CHECK_PEER(peer), return NULL );

	/* Set the thread name */
	{
	char buf[48];
	snprintf(buf, sizeof(buf), "ConnTo:%s", peer->p_hdr.info.pi_diamid);
	fd_log_threadname ( buf );
	}

	do {
	/* Rebuild the list if needed, if it is empty -- but at most once */
	if (FD_IS_LIST_EMPTY(&peer->p_connparams)) {
	if (! rebuilt) {
	CHECK_FCT_DO( fatal_error = prepare_connection_list(peer), goto out );
	rebuilt ++;
	}
	if (FD_IS_LIST_EMPTY(&peer->p_connparams)) {
	/* We encountered an error or we have looped over all the addresses of the peer. */
	fd_hook_call(HOOK_PEER_CONNECT_FAILED, NULL, peer, "All connection attempts failed, will retry later", NULL);

	CHECK_FCT_DO( fatal_error = fd_event_send(peer->p_events, FDEVP_CNX_FAILED, 0, NULL), goto out );
	return NULL;
	}
	}

	/* Attempt connection to the first entry */
	nc = (struct next_conn *)(peer->p_connparams.next);

	switch (nc->proto) {
	case IPPROTO_TCP:
	cnx = fd_cnx_cli_connect_tcp((sSA *)&nc->ss, sSAlen(&nc->ss));
	break;
	#ifndef DISABLE_SCTP
	case IPPROTO_SCTP:
	cnx = fd_cnx_cli_connect_sctp((peer->p_hdr.info.config.pic_flags.pro3 == PI_P3_IP) ? 1 : fd_g_config->cnf_flags.no_ip6,
	nc->port, &peer->p_hdr.info.pi_endpoints);
	break;
	#endif /* DISABLE_SCTP */
	}

	if (cnx)
	break;

	/* Pop these parameters and continue */
	failed_connection_attempt(peer);

	pthread_testcancel();

	} while (!cnx); /* and until cancellation or all addresses attempted without success */

	/* Now, we have an established connection in cnx */

	pthread_cleanup_push((void *)fd_cnx_destroy, cnx);

	/* Set the hostname in the connection, so that handshake verifies the remote identity */
	fd_cnx_sethostname(cnx,peer->p_hdr.info.pi_diamid);

	/* Handshake if needed (secure port) */
	if (nc->dotls) {
	CHECK_FCT_DO( fd_cnx_handshake(cnx, GNUTLS_CLIENT,
	ALGO_HANDSHAKE_3436,
	peer->p_hdr.info.config.pic_priority, NULL),
	{
	/* Handshake failed ... */
	fd_hook_call(HOOK_PEER_CONNECT_FAILED, NULL, peer, "TLS Handshake failed", NULL);
	fd_cnx_destroy(cnx);
	empty_connection_list(peer);
	fd_ep_filter(&peer->p_hdr.info.pi_endpoints, EP_FL_CONF);
	goto out_pop;
	} );
	LOG_A("%s: TLS handshake successful.", peer->p_hdr.info.pi_diamid);
	} else {
	/* Prepare to receive the next message */
	CHECK_FCT_DO( fatal_error = fd_cnx_start_clear(cnx, 0), goto out_pop );
	}

	/* Upon success, generate FDEVP_CNX_ESTABLISHED */
	CHECK_FCT_DO( fatal_error = fd_event_send(peer->p_events, FDEVP_CNX_ESTABLISHED, 0, cnx), );
	out_pop:
	;
	pthread_cleanup_pop(0);

	out:

	if (fatal_error) {

	/* Cleanup the connection */
	if (cnx)
	fd_cnx_destroy(cnx);

	/* Generate a termination event */
	CHECK_FCT_DO(fd_core_shutdown(), );
	}

	return NULL;
	}


	/* Initiate a connection attempt to a remote peer */
	int fd_p_cnx_init(struct fd_peer * peer)
	{
	TRACE_ENTRY("%p", peer);

	/* Start the connect thread */
	CHECK_FCT( pthread_create(&peer->p_ini_thr, NULL, connect_thr, peer) );
	return 0;
	}

	/* Cancel a connection attempt */
	void fd_p_cnx_abort(struct fd_peer * peer, int cleanup_all)
	{
	TRACE_ENTRY("%p %d", peer, cleanup_all);
	CHECK_PARAMS_DO( CHECK_PEER(peer), return );

	if (peer->p_ini_thr != (pthread_t)NULL) {
	CHECK_FCT_DO( fd_thr_term(&peer->p_ini_thr), /* continue */);
	failed_connection_attempt(peer);
	}

	if (cleanup_all) {
	empty_connection_list(peer);
	}
	}