extensions/dbg_msg_dumps/dbg_msg_dumps.c - freeDiameter-old - Gitiles

 /*********************************************************************************************************
 * Software License Agreement (BSD License)                                                               *
 * Author: Sebastien Decugis <sdecugis@freediameter.net>							 *
 *													 *
 * Copyright (c) 2015, 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.								 *
 *********************************************************************************************************/

 /* This extension uses the hooks mechanism to display the full content of received and sent messages, for
    learning & debugging purpose.
    Do NOT use this extension in production environment because it will slow down all operation. */

 /* You can add a configuration parameter on the LoadExtension line, e.g.
 LoadExtension="dbg_msg_dump.fdx":"0x149";
 The value is an hexadecimal value with the following bits meaning: */
 #define HK_ERRORS_QUIET    0x0001	 /* errors are not dumped -- removes the default handling as well */
 #define HK_ERRORS_COMPACT  0x0002	 /* errors in compact mode */
 #define HK_ERRORS_FULL     0x0004  	 /* errors in full mode (1 line with all the data) */
 #define HK_ERRORS_TREE     0x0008  	 /* errors in treeview mode (message split over multiple lines) */

 #define HK_SNDRCV_QUIET    0x0010	 /* send+rcv are not dumped -- removes the default handling as well */
 #define HK_SNDRCV_COMPACT  0x0020	 /* send+rcv in compact mode */
 #define HK_SNDRCV_FULL     0x0040  	 /* send+rcv in full mode */
 #define HK_SNDRCV_TREE     0x0080  	 /* send+rcv in tree mode */

 #define HK_ROUTING_QUIET   0x0100  	 /* routing decisions are not dumped -- removes the default handling as well */
 #define HK_ROUTING_COMPACT 0x0200  	 /* routing decisions in compact mode */
 #define HK_ROUTING_FULL    0x0400  	 /* routing decisions in full mode */
 #define HK_ROUTING_TREE    0x0800  	 /* routing decisions in tree mode */

 #define HK_PEERS_QUIET     0x1000  	 /* peers connections events are not dumped -- removes the default handling as well */
 #define HK_PEERS_COMPACT   0x2000  	 /* peers connections events in compact mode */
 #define HK_PEERS_FULL      0x4000  	 /* peers connections events in full mode */
 #define HK_PEERS_TREE      0x8000  	 /* peers connections events in tree mode */
 /*
 Default value is HK_ERRORS_TREE + HK_SNDRCV_TREE + HK_PEERS_TREE
 */

 #include <freeDiameter/extension.h>

 static struct fd_hook_hdl *md_hdl[4] = {NULL,NULL,NULL,NULL};
 static uint32_t dump_level = HK_ERRORS_TREE | HK_SNDRCV_TREE | HK_PEERS_TREE; /* default */
 static char * buf = NULL;
 static size_t len;
 static pthread_mutex_t mtx = PTHREAD_MUTEX_INITIALIZER;

 /* The callback called when messages are received and sent */
 static void md_hook_cb_tree(enum fd_hook_type type, struct msg * msg, struct peer_hdr * peer, void * other, struct fd_hook_permsgdata *pmd, void * regdata)
 {
 	char * peer_name = peer ? peer->info.pi_diamid : "<unknown peer>";

 	CHECK_POSIX_DO( pthread_mutex_lock(&mtx), );

 	if (msg) {
 		CHECK_MALLOC_DO( fd_msg_dump_treeview(&buf, &len, NULL, msg, fd_g_config->cnf_dict, (type == HOOK_MESSAGE_PARSING_ERROR) ? 0 : 1, 1),
 			{ LOG_E("Error while dumping a message"); pthread_mutex_unlock(&mtx); return; } );
 	}

 	switch (type) {
 /* errors */
 	case HOOK_MESSAGE_FAILOVER:
 		LOG_E("FAILOVER from '%s':", peer_name);
 		LOG_SPLIT(FD_LOG_ERROR, "     ", buf, NULL);
 		break;
 	case HOOK_MESSAGE_PARSING_ERROR:
 		if (msg) {
 			DiamId_t id = NULL;
 			if (fd_msg_source_get( msg, &id, NULL ))
 				id = (DiamId_t)"<error getting source>";
 			if (!id)
 				id = (DiamId_t)"<local>";
 			LOG_E("PARSING ERROR: '%s' from '%s': ", (char *)other, (char *)id);
 			LOG_SPLIT(FD_LOG_ERROR, "     ", buf, NULL);
 		} else {
 			struct fd_cnx_rcvdata *rcv_data = other;
 			CHECK_MALLOC_DO(fd_dump_extend_hexdump(&buf, &len, NULL, rcv_data->buffer, rcv_data->length, 0, 0), break);
 			LOG_E("PARSING ERROR: %zdB msg from '%s': %s", rcv_data->length, peer_name, buf);
 		}
 		break;
 	case HOOK_MESSAGE_PARSING_ERROR2:
 		LOG_E("PARSING ERROR, returning:");
 		LOG_SPLIT(FD_LOG_ERROR, "     ", buf, NULL);
 		break;
 	case HOOK_MESSAGE_ROUTING_ERROR:
 		LOG_E("ROUTING ERROR '%s' for: ", (char *)other);
 		LOG_SPLIT(FD_LOG_ERROR, "     ", buf, NULL);
 		break;
 	case HOOK_MESSAGE_DROPPED:
 		LOG_E("DROPPED '%s'", (char *)other);
 		LOG_SPLIT(FD_LOG_ERROR, "     ", buf, NULL);
 		break;

 /* send receive */
 	case HOOK_MESSAGE_RECEIVED:
 		LOG_N("RCV from '%s':", peer_name);
 		LOG_SPLIT(FD_LOG_NOTICE, "     ", buf, NULL);
 		break;
 	case HOOK_MESSAGE_SENDING:
 		LOG_N("SNDING to '%s':", peer_name);
 		LOG_SPLIT(FD_LOG_NOTICE, "     ", buf, NULL);
 		break;
 	case HOOK_MESSAGE_SENT:
 		LOG_N("SND to '%s':", peer_name);
 		LOG_SPLIT(FD_LOG_NOTICE, "     ", buf, NULL);
 		break;

 /* routing */
 	case HOOK_MESSAGE_LOCAL:
 		LOG_N("ISSUED:");
 		LOG_SPLIT(FD_LOG_NOTICE, "     ", buf, NULL);
 		break;
 	case HOOK_MESSAGE_ROUTING_FORWARD:
 		LOG_N("FORWARDING: %s", buf);
 		LOG_SPLIT(FD_LOG_NOTICE, "     ", buf, NULL);
 		break;
 	case HOOK_MESSAGE_ROUTING_LOCAL:
 		LOG_N("DISPATCHING: %s", buf);
 		LOG_SPLIT(FD_LOG_NOTICE, "     ", buf, NULL);
 		break;

 /* peers */
 	case HOOK_PEER_CONNECT_FAILED:
 		LOG_N("CONNECT FAILED to %s: %s", peer_name, (char *)other);
 		break;
 	case HOOK_PEER_CONNECT_SUCCESS:
 		{
 			char protobuf[40];
 			if (peer) {
 				CHECK_FCT_DO(fd_peer_cnx_proto_info(peer, protobuf, sizeof(protobuf)), break );
 			} else {
 				protobuf[0] = '-';
 				protobuf[1] = '\0';
 			}
 			LOG_N("CONNECTED TO '%s' (%s):", peer_name, protobuf);
 			LOG_SPLIT(FD_LOG_NOTICE, "     ", buf, NULL);
 		}
 		break;

 /* Not handled */
 	case HOOK_DATA_RECEIVED:
 		break;
 	}

 	CHECK_POSIX_DO( pthread_mutex_unlock(&mtx), );
 }

 static void md_hook_cb_full(enum fd_hook_type type, struct msg * msg, struct peer_hdr * peer, void * other, struct fd_hook_permsgdata *pmd, void * regdata)
 {
 	char * peer_name = peer ? peer->info.pi_diamid : "<unknown peer>";

 	CHECK_POSIX_DO( pthread_mutex_lock(&mtx), );

 	if (msg) {
 		CHECK_MALLOC_DO( fd_msg_dump_full(&buf, &len, NULL, msg, fd_g_config->cnf_dict, (type == HOOK_MESSAGE_PARSING_ERROR) ? 0 : 1, 1),
 			{ LOG_E("Error while dumping a message"); pthread_mutex_unlock(&mtx); return; } );
 	}

 	switch (type) {
 /* errors */
 	case HOOK_MESSAGE_FAILOVER:
 		LOG_E("FAILOVER from '%s': %s", peer_name, buf);
 		break;
 	case HOOK_MESSAGE_PARSING_ERROR:
 		if (msg) {
 			DiamId_t id = NULL;
 			if (fd_msg_source_get( msg, &id, NULL ))
 				id = (DiamId_t)"<error getting source>";
 			if (!id)
 				id = (DiamId_t)"<local>";
 			LOG_E("PARSING ERROR: '%s' from '%s': %s", (char *)other, (char *)id, buf);
 		} else {
 			struct fd_cnx_rcvdata *rcv_data = other;
 			CHECK_MALLOC_DO(fd_dump_extend_hexdump(&buf, &len, NULL, rcv_data->buffer, rcv_data->length, 0, 0), break);
 			LOG_E("PARSING ERROR: %zdB msg from '%s': %s", rcv_data->length, peer_name, buf);
 		}
 		break;
 	case HOOK_MESSAGE_PARSING_ERROR2:
 		LOG_E("PARSING ERROR, returning: %s", buf);
 		break;
 	case HOOK_MESSAGE_ROUTING_ERROR:
 		LOG_E("ROUTING ERROR '%s' for: %s", (char *)other, buf);
 		break;
 	case HOOK_MESSAGE_DROPPED:
 		LOG_E("DROPPED '%s' %s", (char *)other, buf);
 		break;

 /* send receive */
 	case HOOK_MESSAGE_RECEIVED:
 		LOG_N("RCV from '%s': %s", peer_name, buf);
 		break;
 	case HOOK_MESSAGE_SENDING:
 		LOG_N("SNDING to '%s': %s", peer_name, buf);
 		break;
 	case HOOK_MESSAGE_SENT:
 		LOG_N("SND to '%s': %s", peer_name, buf);
 		break;

 /* routing */
 	case HOOK_MESSAGE_LOCAL:
 		LOG_N("ISSUED: %s", buf);
 		break;
 	case HOOK_MESSAGE_ROUTING_FORWARD:
 		LOG_N("FORWARDING: %s", buf);
 		break;
 	case HOOK_MESSAGE_ROUTING_LOCAL:
 		LOG_N("DISPATCHING: %s", buf);
 		break;

 /* peers */
 	case HOOK_PEER_CONNECT_FAILED:
 		LOG_N("CONNECT FAILED to %s: %s", peer_name, (char *)other);
 		break;
 	case HOOK_PEER_CONNECT_SUCCESS: {
 			char protobuf[40];
 			if (peer) {
 				CHECK_FCT_DO(fd_peer_cnx_proto_info(peer, protobuf, sizeof(protobuf)), break );
 			} else {
 				protobuf[0] = '-';
 				protobuf[1] = '\0';
 			}
 			LOG_N("CONNECTED TO '%s' (%s): %s", peer_name, protobuf, buf);
 		}
 		break;
 /* Not handled */
 	case HOOK_DATA_RECEIVED:
 		break;
 	}

 	CHECK_POSIX_DO( pthread_mutex_unlock(&mtx), );
 }

 static void md_hook_cb_compact(enum fd_hook_type type, struct msg * msg, struct peer_hdr * peer, void * other, struct fd_hook_permsgdata *pmd, void * regdata)
 {
 	char * peer_name = peer ? peer->info.pi_diamid : "<unknown peer>";

 	CHECK_POSIX_DO( pthread_mutex_lock(&mtx), );

 	if (msg) {
 		CHECK_MALLOC_DO( fd_msg_dump_summary(&buf, &len, NULL, msg, fd_g_config->cnf_dict, 0, 0),
 			{ LOG_E("Error while dumping a message"); pthread_mutex_unlock(&mtx); return; } );
 	}

 	switch (type) {
 /* errors */
 	case HOOK_MESSAGE_FAILOVER:
 		LOG_E("FAILOVER from '%s': %s", peer_name, buf);
 		break;
 	case HOOK_MESSAGE_PARSING_ERROR:
 		if (msg) {
 			DiamId_t id = NULL;
 			if (fd_msg_source_get( msg, &id, NULL ))
 				id = (DiamId_t)"<error getting source>";
 			if (!id)
 				id = (DiamId_t)"<local>";
 			LOG_E("PARSING ERROR: '%s' from '%s': %s", (char *)other, (char *)id, buf);
 		} else {
 			struct fd_cnx_rcvdata *rcv_data = other;
 			CHECK_MALLOC_DO(fd_dump_extend_hexdump(&buf, &len, NULL, rcv_data->buffer, rcv_data->length, 0, 0), break);
 			LOG_E("PARSING ERROR: %zdB msg from '%s': %s", rcv_data->length, peer_name, buf);
 		}
 		break;
 	case HOOK_MESSAGE_PARSING_ERROR2:
 		LOG_E("PARSING ERROR, returning: %s", buf);
 		break;
 	case HOOK_MESSAGE_ROUTING_ERROR:
 		LOG_E("ROUTING ERROR '%s' for: %s", (char *)other, buf);
 		break;
 	case HOOK_MESSAGE_DROPPED:
 		LOG_E("DROPPED '%s' %s", (char *)other, buf);
 		break;

 /* send receive */
 	case HOOK_MESSAGE_RECEIVED:
 		LOG_N("RCV from '%s': %s", peer_name, buf);
 		break;
 	case HOOK_MESSAGE_SENDING:
 		LOG_N("SNDING to '%s': %s", peer_name, buf);
 		break;
 	case HOOK_MESSAGE_SENT:
 		LOG_N("SND to '%s': %s", peer_name, buf);
 		break;

 /* routing */
 	case HOOK_MESSAGE_LOCAL:
 		LOG_N("ISSUED: %s", buf);
 		break;
 	case HOOK_MESSAGE_ROUTING_FORWARD:
 		LOG_N("FORWARDING: %s", buf);
 		break;
 	case HOOK_MESSAGE_ROUTING_LOCAL:
 		LOG_N("DISPATCHING: %s", buf);
 		break;

 /* peers */
 	case HOOK_PEER_CONNECT_FAILED:
 		LOG_N("CONNECT FAILED to %s: %s", peer_name, (char *)other);
 		break;
 	case HOOK_PEER_CONNECT_SUCCESS: {
 			char protobuf[40];
 			if (peer) {
 				CHECK_FCT_DO(fd_peer_cnx_proto_info(peer, protobuf, sizeof(protobuf)), break );
 			} else {
 				protobuf[0] = '-';
 				protobuf[1] = '\0';
 			}
 			LOG_N("CONNECTED TO '%s' (%s)", peer_name, protobuf);
 		}
 		break;
 /* Not handled */
 	case HOOK_DATA_RECEIVED:
 		break;
 	}

 	CHECK_POSIX_DO( pthread_mutex_unlock(&mtx), );
 }

 static void md_hook_cb_quiet(enum fd_hook_type type, struct msg * msg, struct peer_hdr * peer, void * other, struct fd_hook_permsgdata *pmd, void * regdata)
 {
 }

 /* Entry point */
 static int md_main(char * conffile)
 {
 	uint32_t mask_errors, mask_sndrcv, mask_routing, mask_peers;
 	uint32_t mask_quiet, mask_compact, mask_full, mask_tree;
 	TRACE_ENTRY("%p", conffile);

 	if (conffile != NULL) {
 		char * endp;
 		dump_level = (uint32_t)strtoul(conffile, &endp, 16);
 		CHECK_PARAMS_DO( *endp == '\0', {
 			LOG_E("Configuration parameter must be in the form \"0xNNNN\"");
 			return EINVAL; });
 	}

 	mask_errors = HOOK_MASK( HOOK_MESSAGE_FAILOVER, HOOK_MESSAGE_PARSING_ERROR, HOOK_MESSAGE_PARSING_ERROR2, HOOK_MESSAGE_ROUTING_ERROR, HOOK_MESSAGE_DROPPED  );
 	mask_sndrcv = HOOK_MASK( HOOK_MESSAGE_RECEIVED, HOOK_MESSAGE_SENT ); /* We don t access SENDING hook here */
 	mask_routing= HOOK_MASK( HOOK_MESSAGE_LOCAL, HOOK_MESSAGE_ROUTING_FORWARD, HOOK_MESSAGE_ROUTING_LOCAL );
 	mask_peers  = HOOK_MASK( HOOK_PEER_CONNECT_FAILED, HOOK_PEER_CONNECT_SUCCESS );

 	mask_quiet  = (dump_level & HK_ERRORS_QUIET)  ? mask_errors : 0;
 	mask_quiet |= (dump_level & HK_SNDRCV_QUIET)  ? mask_sndrcv : 0;
 	mask_quiet |= (dump_level & HK_ROUTING_QUIET) ? mask_routing : 0;
 	mask_quiet |= (dump_level & HK_PEERS_QUIET)   ? mask_peers : 0;

 	mask_compact  = (dump_level & HK_ERRORS_COMPACT)  ? mask_errors : 0;
 	mask_compact |= (dump_level & HK_SNDRCV_COMPACT)  ? mask_sndrcv : 0;
 	mask_compact |= (dump_level & HK_ROUTING_COMPACT) ? mask_routing : 0;
 	mask_compact |= (dump_level & HK_PEERS_COMPACT)   ? mask_peers : 0;

 	mask_full  = (dump_level & HK_ERRORS_FULL)  ? mask_errors : 0;
 	mask_full |= (dump_level & HK_SNDRCV_FULL)  ? mask_sndrcv : 0;
 	mask_full |= (dump_level & HK_ROUTING_FULL) ? mask_routing : 0;
 	mask_full |= (dump_level & HK_PEERS_FULL)   ? mask_peers : 0;

 	mask_tree  = (dump_level & HK_ERRORS_TREE)  ? mask_errors : 0;
 	mask_tree |= (dump_level & HK_SNDRCV_TREE)  ? mask_sndrcv : 0;
 	mask_tree |= (dump_level & HK_ROUTING_TREE) ? mask_routing : 0;
 	mask_tree |= (dump_level & HK_PEERS_TREE)   ? mask_peers : 0;

 	if (mask_quiet) {
 		CHECK_FCT( fd_hook_register( mask_quiet, md_hook_cb_quiet, NULL, NULL, &md_hdl[0]) );
 	}
 	if (mask_compact) {
 		CHECK_FCT( fd_hook_register( mask_compact, md_hook_cb_compact, NULL, NULL, &md_hdl[1]) );
 	}
 	if (mask_full) {
 		CHECK_FCT( fd_hook_register( mask_full, md_hook_cb_full, NULL, NULL, &md_hdl[2]) );
 	}
 	if (mask_tree) {
 		CHECK_FCT( fd_hook_register( mask_tree, md_hook_cb_tree, NULL, NULL, &md_hdl[3]) );
 	}

 	return 0;
 }

 /* Cleanup */
 void fd_ext_fini(void)
 {
 	TRACE_ENTRY();
 	if (md_hdl[0]) { CHECK_FCT_DO( fd_hook_unregister( md_hdl[0] ), ); }
 	if (md_hdl[1]) { CHECK_FCT_DO( fd_hook_unregister( md_hdl[1] ), ); }
 	if (md_hdl[2]) { CHECK_FCT_DO( fd_hook_unregister( md_hdl[2] ), ); }
 	if (md_hdl[2]) { CHECK_FCT_DO( fd_hook_unregister( md_hdl[3] ), ); }
 	return ;
 }

 EXTENSION_ENTRY("dbg_msg_dumps", md_main);
	/*********************************************************************************************************
	* Software License Agreement (BSD License) *
	* Author: Sebastien Decugis <sdecugis@freediameter.net> *
	* *
	* Copyright (c) 2015, 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. *
	*********************************************************************************************************/

	/* This extension uses the hooks mechanism to display the full content of received and sent messages, for
	learning & debugging purpose.
	Do NOT use this extension in production environment because it will slow down all operation. */

	/* You can add a configuration parameter on the LoadExtension line, e.g.
	LoadExtension="dbg_msg_dump.fdx":"0x149";
	The value is an hexadecimal value with the following bits meaning: */
	#define HK_ERRORS_QUIET 0x0001 /* errors are not dumped -- removes the default handling as well */
	#define HK_ERRORS_COMPACT 0x0002 /* errors in compact mode */
	#define HK_ERRORS_FULL 0x0004 /* errors in full mode (1 line with all the data) */
	#define HK_ERRORS_TREE 0x0008 /* errors in treeview mode (message split over multiple lines) */

	#define HK_SNDRCV_QUIET 0x0010 /* send+rcv are not dumped -- removes the default handling as well */
	#define HK_SNDRCV_COMPACT 0x0020 /* send+rcv in compact mode */
	#define HK_SNDRCV_FULL 0x0040 /* send+rcv in full mode */
	#define HK_SNDRCV_TREE 0x0080 /* send+rcv in tree mode */

	#define HK_ROUTING_QUIET 0x0100 /* routing decisions are not dumped -- removes the default handling as well */
	#define HK_ROUTING_COMPACT 0x0200 /* routing decisions in compact mode */
	#define HK_ROUTING_FULL 0x0400 /* routing decisions in full mode */
	#define HK_ROUTING_TREE 0x0800 /* routing decisions in tree mode */

	#define HK_PEERS_QUIET 0x1000 /* peers connections events are not dumped -- removes the default handling as well */
	#define HK_PEERS_COMPACT 0x2000 /* peers connections events in compact mode */
	#define HK_PEERS_FULL 0x4000 /* peers connections events in full mode */
	#define HK_PEERS_TREE 0x8000 /* peers connections events in tree mode */
	/*
	Default value is HK_ERRORS_TREE + HK_SNDRCV_TREE + HK_PEERS_TREE
	*/

	#include <freeDiameter/extension.h>

	static struct fd_hook_hdl *md_hdl[4] = {NULL,NULL,NULL,NULL};
	static uint32_t dump_level = HK_ERRORS_TREE \| HK_SNDRCV_TREE \| HK_PEERS_TREE; /* default */
	static char * buf = NULL;
	static size_t len;
	static pthread_mutex_t mtx = PTHREAD_MUTEX_INITIALIZER;

	/* The callback called when messages are received and sent */
	static void md_hook_cb_tree(enum fd_hook_type type, struct msg * msg, struct peer_hdr * peer, void * other, struct fd_hook_permsgdata pmd, void regdata)
	{
	char * peer_name = peer ? peer->info.pi_diamid : "<unknown peer>";

	CHECK_POSIX_DO( pthread_mutex_lock(&mtx), );

	if (msg) {
	CHECK_MALLOC_DO( fd_msg_dump_treeview(&buf, &len, NULL, msg, fd_g_config->cnf_dict, (type == HOOK_MESSAGE_PARSING_ERROR) ? 0 : 1, 1),
	{ LOG_E("Error while dumping a message"); pthread_mutex_unlock(&mtx); return; } );
	}

	switch (type) {
	/* errors */
	case HOOK_MESSAGE_FAILOVER:
	LOG_E("FAILOVER from '%s':", peer_name);
	LOG_SPLIT(FD_LOG_ERROR, " ", buf, NULL);
	break;
	case HOOK_MESSAGE_PARSING_ERROR:
	if (msg) {
	DiamId_t id = NULL;
	if (fd_msg_source_get( msg, &id, NULL ))
	id = (DiamId_t)"<error getting source>";
	if (!id)
	id = (DiamId_t)"<local>";
	LOG_E("PARSING ERROR: '%s' from '%s': ", (char )other, (char )id);
	LOG_SPLIT(FD_LOG_ERROR, " ", buf, NULL);
	} else {
	struct fd_cnx_rcvdata *rcv_data = other;
	CHECK_MALLOC_DO(fd_dump_extend_hexdump(&buf, &len, NULL, rcv_data->buffer, rcv_data->length, 0, 0), break);
	LOG_E("PARSING ERROR: %zdB msg from '%s': %s", rcv_data->length, peer_name, buf);
	}
	break;
	case HOOK_MESSAGE_PARSING_ERROR2:
	LOG_E("PARSING ERROR, returning:");
	LOG_SPLIT(FD_LOG_ERROR, " ", buf, NULL);
	break;
	case HOOK_MESSAGE_ROUTING_ERROR:
	LOG_E("ROUTING ERROR '%s' for: ", (char *)other);
	LOG_SPLIT(FD_LOG_ERROR, " ", buf, NULL);
	break;
	case HOOK_MESSAGE_DROPPED:
	LOG_E("DROPPED '%s'", (char *)other);
	LOG_SPLIT(FD_LOG_ERROR, " ", buf, NULL);
	break;

	/* send receive */
	case HOOK_MESSAGE_RECEIVED:
	LOG_N("RCV from '%s':", peer_name);
	LOG_SPLIT(FD_LOG_NOTICE, " ", buf, NULL);
	break;
	case HOOK_MESSAGE_SENDING:
	LOG_N("SNDING to '%s':", peer_name);
	LOG_SPLIT(FD_LOG_NOTICE, " ", buf, NULL);
	break;
	case HOOK_MESSAGE_SENT:
	LOG_N("SND to '%s':", peer_name);
	LOG_SPLIT(FD_LOG_NOTICE, " ", buf, NULL);
	break;

	/* routing */
	case HOOK_MESSAGE_LOCAL:
	LOG_N("ISSUED:");
	LOG_SPLIT(FD_LOG_NOTICE, " ", buf, NULL);
	break;
	case HOOK_MESSAGE_ROUTING_FORWARD:
	LOG_N("FORWARDING: %s", buf);
	LOG_SPLIT(FD_LOG_NOTICE, " ", buf, NULL);
	break;
	case HOOK_MESSAGE_ROUTING_LOCAL:
	LOG_N("DISPATCHING: %s", buf);
	LOG_SPLIT(FD_LOG_NOTICE, " ", buf, NULL);
	break;

	/* peers */
	case HOOK_PEER_CONNECT_FAILED:
	LOG_N("CONNECT FAILED to %s: %s", peer_name, (char *)other);
	break;
	case HOOK_PEER_CONNECT_SUCCESS:
	{
	char protobuf[40];
	if (peer) {
	CHECK_FCT_DO(fd_peer_cnx_proto_info(peer, protobuf, sizeof(protobuf)), break );
	} else {
	protobuf[0] = '-';
	protobuf[1] = '\0';
	}
	LOG_N("CONNECTED TO '%s' (%s):", peer_name, protobuf);
	LOG_SPLIT(FD_LOG_NOTICE, " ", buf, NULL);
	}
	break;

	/* Not handled */
	case HOOK_DATA_RECEIVED:
	break;
	}

	CHECK_POSIX_DO( pthread_mutex_unlock(&mtx), );
	}

	static void md_hook_cb_full(enum fd_hook_type type, struct msg * msg, struct peer_hdr * peer, void * other, struct fd_hook_permsgdata pmd, void regdata)
	{
	char * peer_name = peer ? peer->info.pi_diamid : "<unknown peer>";

	CHECK_POSIX_DO( pthread_mutex_lock(&mtx), );

	if (msg) {
	CHECK_MALLOC_DO( fd_msg_dump_full(&buf, &len, NULL, msg, fd_g_config->cnf_dict, (type == HOOK_MESSAGE_PARSING_ERROR) ? 0 : 1, 1),
	{ LOG_E("Error while dumping a message"); pthread_mutex_unlock(&mtx); return; } );
	}

	switch (type) {
	/* errors */
	case HOOK_MESSAGE_FAILOVER:
	LOG_E("FAILOVER from '%s': %s", peer_name, buf);
	break;
	case HOOK_MESSAGE_PARSING_ERROR:
	if (msg) {
	DiamId_t id = NULL;
	if (fd_msg_source_get( msg, &id, NULL ))
	id = (DiamId_t)"<error getting source>";
	if (!id)
	id = (DiamId_t)"<local>";
	LOG_E("PARSING ERROR: '%s' from '%s': %s", (char )other, (char )id, buf);
	} else {
	struct fd_cnx_rcvdata *rcv_data = other;
	CHECK_MALLOC_DO(fd_dump_extend_hexdump(&buf, &len, NULL, rcv_data->buffer, rcv_data->length, 0, 0), break);
	LOG_E("PARSING ERROR: %zdB msg from '%s': %s", rcv_data->length, peer_name, buf);
	}
	break;
	case HOOK_MESSAGE_PARSING_ERROR2:
	LOG_E("PARSING ERROR, returning: %s", buf);
	break;
	case HOOK_MESSAGE_ROUTING_ERROR:
	LOG_E("ROUTING ERROR '%s' for: %s", (char *)other, buf);
	break;
	case HOOK_MESSAGE_DROPPED:
	LOG_E("DROPPED '%s' %s", (char *)other, buf);
	break;

	/* send receive */
	case HOOK_MESSAGE_RECEIVED:
	LOG_N("RCV from '%s': %s", peer_name, buf);
	break;
	case HOOK_MESSAGE_SENDING:
	LOG_N("SNDING to '%s': %s", peer_name, buf);
	break;
	case HOOK_MESSAGE_SENT:
	LOG_N("SND to '%s': %s", peer_name, buf);
	break;

	/* routing */
	case HOOK_MESSAGE_LOCAL:
	LOG_N("ISSUED: %s", buf);
	break;
	case HOOK_MESSAGE_ROUTING_FORWARD:
	LOG_N("FORWARDING: %s", buf);
	break;
	case HOOK_MESSAGE_ROUTING_LOCAL:
	LOG_N("DISPATCHING: %s", buf);
	break;

	/* peers */
	case HOOK_PEER_CONNECT_FAILED:
	LOG_N("CONNECT FAILED to %s: %s", peer_name, (char *)other);
	break;
	case HOOK_PEER_CONNECT_SUCCESS: {
	char protobuf[40];
	if (peer) {
	CHECK_FCT_DO(fd_peer_cnx_proto_info(peer, protobuf, sizeof(protobuf)), break );
	} else {
	protobuf[0] = '-';
	protobuf[1] = '\0';
	}
	LOG_N("CONNECTED TO '%s' (%s): %s", peer_name, protobuf, buf);
	}
	break;
	/* Not handled */
	case HOOK_DATA_RECEIVED:
	break;
	}

	CHECK_POSIX_DO( pthread_mutex_unlock(&mtx), );
	}

	static void md_hook_cb_compact(enum fd_hook_type type, struct msg * msg, struct peer_hdr * peer, void * other, struct fd_hook_permsgdata pmd, void regdata)
	{
	char * peer_name = peer ? peer->info.pi_diamid : "<unknown peer>";

	CHECK_POSIX_DO( pthread_mutex_lock(&mtx), );

	if (msg) {
	CHECK_MALLOC_DO( fd_msg_dump_summary(&buf, &len, NULL, msg, fd_g_config->cnf_dict, 0, 0),
	{ LOG_E("Error while dumping a message"); pthread_mutex_unlock(&mtx); return; } );
	}

	switch (type) {
	/* errors */
	case HOOK_MESSAGE_FAILOVER:
	LOG_E("FAILOVER from '%s': %s", peer_name, buf);
	break;
	case HOOK_MESSAGE_PARSING_ERROR:
	if (msg) {
	DiamId_t id = NULL;
	if (fd_msg_source_get( msg, &id, NULL ))
	id = (DiamId_t)"<error getting source>";
	if (!id)
	id = (DiamId_t)"<local>";
	LOG_E("PARSING ERROR: '%s' from '%s': %s", (char )other, (char )id, buf);
	} else {
	struct fd_cnx_rcvdata *rcv_data = other;
	CHECK_MALLOC_DO(fd_dump_extend_hexdump(&buf, &len, NULL, rcv_data->buffer, rcv_data->length, 0, 0), break);
	LOG_E("PARSING ERROR: %zdB msg from '%s': %s", rcv_data->length, peer_name, buf);
	}
	break;
	case HOOK_MESSAGE_PARSING_ERROR2:
	LOG_E("PARSING ERROR, returning: %s", buf);
	break;
	case HOOK_MESSAGE_ROUTING_ERROR:
	LOG_E("ROUTING ERROR '%s' for: %s", (char *)other, buf);
	break;
	case HOOK_MESSAGE_DROPPED:
	LOG_E("DROPPED '%s' %s", (char *)other, buf);
	break;

	/* send receive */
	case HOOK_MESSAGE_RECEIVED:
	LOG_N("RCV from '%s': %s", peer_name, buf);
	break;
	case HOOK_MESSAGE_SENDING:
	LOG_N("SNDING to '%s': %s", peer_name, buf);
	break;
	case HOOK_MESSAGE_SENT:
	LOG_N("SND to '%s': %s", peer_name, buf);
	break;

	/* routing */
	case HOOK_MESSAGE_LOCAL:
	LOG_N("ISSUED: %s", buf);
	break;
	case HOOK_MESSAGE_ROUTING_FORWARD:
	LOG_N("FORWARDING: %s", buf);
	break;
	case HOOK_MESSAGE_ROUTING_LOCAL:
	LOG_N("DISPATCHING: %s", buf);
	break;

	/* peers */
	case HOOK_PEER_CONNECT_FAILED:
	LOG_N("CONNECT FAILED to %s: %s", peer_name, (char *)other);
	break;
	case HOOK_PEER_CONNECT_SUCCESS: {
	char protobuf[40];
	if (peer) {
	CHECK_FCT_DO(fd_peer_cnx_proto_info(peer, protobuf, sizeof(protobuf)), break );
	} else {
	protobuf[0] = '-';
	protobuf[1] = '\0';
	}
	LOG_N("CONNECTED TO '%s' (%s)", peer_name, protobuf);
	}
	break;
	/* Not handled */
	case HOOK_DATA_RECEIVED:
	break;
	}

	CHECK_POSIX_DO( pthread_mutex_unlock(&mtx), );
	}

	static void md_hook_cb_quiet(enum fd_hook_type type, struct msg * msg, struct peer_hdr * peer, void * other, struct fd_hook_permsgdata pmd, void regdata)
	{
	}

	/* Entry point */
	static int md_main(char * conffile)
	{
	uint32_t mask_errors, mask_sndrcv, mask_routing, mask_peers;
	uint32_t mask_quiet, mask_compact, mask_full, mask_tree;
	TRACE_ENTRY("%p", conffile);

	if (conffile != NULL) {
	char * endp;
	dump_level = (uint32_t)strtoul(conffile, &endp, 16);
	CHECK_PARAMS_DO( *endp == '\0', {
	LOG_E("Configuration parameter must be in the form \"0xNNNN\"");
	return EINVAL; });
	}

	mask_errors = HOOK_MASK( HOOK_MESSAGE_FAILOVER, HOOK_MESSAGE_PARSING_ERROR, HOOK_MESSAGE_PARSING_ERROR2, HOOK_MESSAGE_ROUTING_ERROR, HOOK_MESSAGE_DROPPED );
	mask_sndrcv = HOOK_MASK( HOOK_MESSAGE_RECEIVED, HOOK_MESSAGE_SENT ); /* We don t access SENDING hook here */
	mask_routing= HOOK_MASK( HOOK_MESSAGE_LOCAL, HOOK_MESSAGE_ROUTING_FORWARD, HOOK_MESSAGE_ROUTING_LOCAL );
	mask_peers = HOOK_MASK( HOOK_PEER_CONNECT_FAILED, HOOK_PEER_CONNECT_SUCCESS );

	mask_quiet = (dump_level & HK_ERRORS_QUIET) ? mask_errors : 0;
	mask_quiet \|= (dump_level & HK_SNDRCV_QUIET) ? mask_sndrcv : 0;
	mask_quiet \|= (dump_level & HK_ROUTING_QUIET) ? mask_routing : 0;
	mask_quiet \|= (dump_level & HK_PEERS_QUIET) ? mask_peers : 0;

	mask_compact = (dump_level & HK_ERRORS_COMPACT) ? mask_errors : 0;
	mask_compact \|= (dump_level & HK_SNDRCV_COMPACT) ? mask_sndrcv : 0;
	mask_compact \|= (dump_level & HK_ROUTING_COMPACT) ? mask_routing : 0;
	mask_compact \|= (dump_level & HK_PEERS_COMPACT) ? mask_peers : 0;

	mask_full = (dump_level & HK_ERRORS_FULL) ? mask_errors : 0;
	mask_full \|= (dump_level & HK_SNDRCV_FULL) ? mask_sndrcv : 0;
	mask_full \|= (dump_level & HK_ROUTING_FULL) ? mask_routing : 0;
	mask_full \|= (dump_level & HK_PEERS_FULL) ? mask_peers : 0;

	mask_tree = (dump_level & HK_ERRORS_TREE) ? mask_errors : 0;
	mask_tree \|= (dump_level & HK_SNDRCV_TREE) ? mask_sndrcv : 0;
	mask_tree \|= (dump_level & HK_ROUTING_TREE) ? mask_routing : 0;
	mask_tree \|= (dump_level & HK_PEERS_TREE) ? mask_peers : 0;

	if (mask_quiet) {
	CHECK_FCT( fd_hook_register( mask_quiet, md_hook_cb_quiet, NULL, NULL, &md_hdl[0]) );
	}
	if (mask_compact) {
	CHECK_FCT( fd_hook_register( mask_compact, md_hook_cb_compact, NULL, NULL, &md_hdl[1]) );
	}
	if (mask_full) {
	CHECK_FCT( fd_hook_register( mask_full, md_hook_cb_full, NULL, NULL, &md_hdl[2]) );
	}
	if (mask_tree) {
	CHECK_FCT( fd_hook_register( mask_tree, md_hook_cb_tree, NULL, NULL, &md_hdl[3]) );
	}

	return 0;
	}

	/* Cleanup */
	void fd_ext_fini(void)
	{
	TRACE_ENTRY();
	if (md_hdl[0]) { CHECK_FCT_DO( fd_hook_unregister( md_hdl[0] ), ); }
	if (md_hdl[1]) { CHECK_FCT_DO( fd_hook_unregister( md_hdl[1] ), ); }
	if (md_hdl[2]) { CHECK_FCT_DO( fd_hook_unregister( md_hdl[2] ), ); }
	if (md_hdl[2]) { CHECK_FCT_DO( fd_hook_unregister( md_hdl[3] ), ); }
	return ;
	}

	EXTENSION_ENTRY("dbg_msg_dumps", md_main);