libfdcore/messages.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.								 *
 *********************************************************************************************************/

 #include "fdcore-internal.h"

 static struct dict_object * dict_avp_SI  = NULL; /* Session-Id */
 static struct dict_object * dict_avp_OH  = NULL; /* Origin-Host */
 static struct dict_object * dict_avp_OR  = NULL; /* Origin-Realm */
 static struct dict_object * dict_avp_EM  = NULL; /* Error-Message */
 static struct dict_object * dict_avp_ERH = NULL; /* Error-Reporting-Host */
 static struct dict_object * dict_avp_FAVP= NULL; /* Failed-AVP */
 static struct dict_object * dict_avp_RC  = NULL; /* Result-Code */
 struct dict_object * fd_dict_avp_OSI = NULL; /* Origin-State-Id */
 struct dict_object * fd_dict_cmd_CER = NULL; /* Capabilities-Exchange-Request */
 struct dict_object * fd_dict_cmd_DWR = NULL; /* Device-Watchdog-Request */
 struct dict_object * fd_dict_avp_DC  = NULL; /* Disconnect-Cause */
 struct dict_object * fd_dict_cmd_DPR = NULL; /* Disconnect-Peer-Request */

 /* Resolve the dictionary objects */
 int fd_msg_init(void)
 {
 	TRACE_ENTRY("");

 	/* Initialize the dictionary objects that we may use frequently */
 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Session-Id", 	&dict_avp_SI , ENOENT)  );
 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Origin-Host",     	&dict_avp_OH  , ENOENT)  );
 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Origin-Realm",    	&dict_avp_OR  , ENOENT)  );
 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Origin-State-Id", 	&fd_dict_avp_OSI , ENOENT)  );

 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Result-Code",     	&dict_avp_RC  , ENOENT)  );
 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Error-Message",   	&dict_avp_EM  , ENOENT)  );
 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Error-Reporting-Host", &dict_avp_ERH , ENOENT)  );
 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Failed-AVP",      	&dict_avp_FAVP, ENOENT)  );

 	CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Disconnect-Cause", 	&fd_dict_avp_DC , ENOENT)  );

 	CHECK_FCT( fd_dict_search ( fd_g_config->cnf_dict, DICT_COMMAND, CMD_BY_NAME, "Capabilities-Exchange-Request", &fd_dict_cmd_CER, ENOENT ) );
 	CHECK_FCT( fd_dict_search ( fd_g_config->cnf_dict, DICT_COMMAND, CMD_BY_NAME, "Device-Watchdog-Request", &fd_dict_cmd_DWR, ENOENT ) );
 	CHECK_FCT( fd_dict_search ( fd_g_config->cnf_dict, DICT_COMMAND, CMD_BY_NAME, "Disconnect-Peer-Request", &fd_dict_cmd_DPR, ENOENT ) );


 	return 0;
 }

 /* Add Origin-Host, Origin-Realm, Origin-State-Id AVPS at the end of the message */
 int fd_msg_add_origin ( struct msg * msg, int osi )
 {
 	union avp_value val;
 	struct avp * avp_OH  = NULL;
 	struct avp * avp_OR  = NULL;
 	struct avp * avp_OSI = NULL;

 	TRACE_ENTRY("%p", msg);
 	CHECK_PARAMS(  msg  );

 	/* Create the Origin-Host AVP */
 	CHECK_FCT( fd_msg_avp_new( dict_avp_OH, 0, &avp_OH ) );

 	/* Set its value */
 	memset(&val, 0, sizeof(val));
 	val.os.data = (os0_t)fd_g_config->cnf_diamid;
 	val.os.len  = fd_g_config->cnf_diamid_len;
 	CHECK_FCT( fd_msg_avp_setvalue( avp_OH, &val ) );

 	/* Add it to the message */
 	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_OH ) );


 	/* Create the Origin-Realm AVP */
 	CHECK_FCT( fd_msg_avp_new( dict_avp_OR, 0, &avp_OR ) );

 	/* Set its value */
 	memset(&val, 0, sizeof(val));
 	val.os.data = (os0_t)fd_g_config->cnf_diamrlm;
 	val.os.len  = fd_g_config->cnf_diamrlm_len;
 	CHECK_FCT( fd_msg_avp_setvalue( avp_OR, &val ) );

 	/* Add it to the message */
 	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_OR ) );

 	if (osi) {
 		/* Create the Origin-State-Id AVP */
 		CHECK_FCT( fd_msg_avp_new( fd_dict_avp_OSI, 0, &avp_OSI ) );

 		/* Set its value */
 		memset(&val, 0, sizeof(val));
 		val.u32 = fd_g_config->cnf_orstateid;
 		CHECK_FCT( fd_msg_avp_setvalue( avp_OSI, &val ) );

 		/* Add it to the message */
 		CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_OSI ) );
 	}

 	return 0;
 }

 /* Create a new Session-Id and add at the beginning of the message. */
 int fd_msg_new_session( struct msg * msg, os0_t opt, size_t optlen )
 {
 	union avp_value val;
 	struct avp * avp  = NULL;
 	struct session * sess = NULL;
 	os0_t sid;
 	size_t sidlen;

 	TRACE_ENTRY("%p %p %zd", msg, opt, optlen);
 	CHECK_PARAMS(  msg  );

 	/* Check there is not already a session in the message */
 	CHECK_FCT( fd_msg_sess_get(fd_g_config->cnf_dict, msg, &sess, NULL) );
 	CHECK_PARAMS( sess == NULL );

 	/* Ok, now create the session */
 	CHECK_FCT( fd_sess_new ( &sess, fd_g_config->cnf_diamid, fd_g_config->cnf_diamid_len, opt, optlen ) );
 	CHECK_FCT( fd_sess_getsid( sess, &sid, &sidlen) );

 	/* Create an AVP to hold it */
 	CHECK_FCT( fd_msg_avp_new( dict_avp_SI, 0, &avp ) );

 	/* Set its value */
 	memset(&val, 0, sizeof(val));
 	val.os.data = sid;
 	val.os.len  = sidlen;
 	CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );

 	/* Add it to the message */
 	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_FIRST_CHILD, avp ) );

 	/* Save the session associated with the message */
 	CHECK_FCT( fd_msg_sess_set( msg, sess) );

 	/* Done! */
 	return 0;
 }


 /* Add Result-Code and eventually Failed-AVP, Error-Message and Error-Reporting-Host AVPs */
 int fd_msg_rescode_set( struct msg * msg, char * rescode, char * errormsg, struct avp * optavp, int type_id )
 {
 	union avp_value val;
 	struct avp * avp_RC  = NULL;
 	struct avp * avp_EM  = NULL;
 	struct avp * avp_ERH = NULL;
 	struct avp * avp_FAVP= NULL;
 	uint32_t rc_val = 0;
 	int set_e_bit=0;
 	int std_err_msg=0;

 	TRACE_ENTRY("%p %s %p %p %d", msg, rescode, errormsg, optavp, type_id);

 	CHECK_PARAMS(  msg && rescode  );

 	/* Find the enum value corresponding to the rescode string, this will give the class of error */
 	{
 		struct dict_object * enum_obj = NULL;
 		struct dict_enumval_request req;
 		memset(&req, 0, sizeof(struct dict_enumval_request));

 		/* First, get the enumerated type of the Result-Code AVP (this is fast, no need to cache the object) */
 		CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_TYPE, TYPE_OF_AVP, dict_avp_RC, &(req.type_obj), ENOENT  )  );

 		/* Now search for the value given as parameter */
 		req.search.enum_name = rescode;
 		CHECK_FCT(  fd_dict_search( fd_g_config->cnf_dict, DICT_ENUMVAL, ENUMVAL_BY_STRUCT, &req, &enum_obj, ENOTSUP)  );

 		/* finally retrieve its data */
 		CHECK_FCT_DO(  fd_dict_getval( enum_obj, &(req.search) ), return EINVAL );

 		/* copy the found value, we're done */
 		rc_val = req.search.enum_value.u32;
 	}

 	if (type_id == 1) {
 		/* Add the Origin-Host and Origin-Realm AVP */
 		CHECK_FCT( fd_msg_add_origin ( msg, 0 ) );
 	}

 	/* Create the Result-Code AVP */
 	CHECK_FCT( fd_msg_avp_new( dict_avp_RC, 0, &avp_RC ) );

 	/* Set its value */
 	memset(&val, 0, sizeof(val));
 	val.u32  = rc_val;
 	CHECK_FCT( fd_msg_avp_setvalue( avp_RC, &val ) );

 	/* Add it to the message */
 	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_RC ) );

 	if (type_id == 2) {
 		/* Add the Error-Reporting-Host AVP */

 		CHECK_FCT( fd_msg_avp_new( dict_avp_ERH, 0, &avp_ERH ) );

 		/* Set its value */
 		memset(&val, 0, sizeof(val));
 		val.os.data = (uint8_t *)fd_g_config->cnf_diamid;
 		val.os.len  = fd_g_config->cnf_diamid_len;
 		CHECK_FCT( fd_msg_avp_setvalue( avp_ERH, &val ) );

 		/* Add it to the message */
 		CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_ERH ) );

 	}

 	/* Now add the optavp in a FailedAVP if provided */
 	if (optavp) {
 		struct avp * optavp_cpy = NULL;
 		struct avp_hdr *opt_hdr, *optcpy_hdr;
 		struct dict_object * opt_model = NULL;
 		int is_grouped = 0;

 		/* Create the Failed-AVP AVP */
 		CHECK_FCT( fd_msg_avp_new( dict_avp_FAVP, 0, &avp_FAVP ) );

 		/* Was this AVP a grouped one? Best effort only here */
 		if (!fd_msg_model ( optavp, &opt_model ) && (opt_model != NULL)) {
 			struct dict_avp_data  dictdata;
 			CHECK_FCT(  fd_dict_getval(opt_model, &dictdata)  );
 			if (dictdata.avp_basetype == AVP_TYPE_GROUPED)
 				is_grouped = 1;
 		}

 		/* Create a new AVP with a copy of the data of the invalid or missing AVP */
 		optavp_cpy = optavp;

 		if (is_grouped) {
 			CHECK_FCT( fd_msg_avp_new( opt_model, 0, &optavp_cpy) );
 		} else {
 			CHECK_FCT( fd_msg_avp_new( NULL, AVPFL_SET_BLANK_VALUE | AVPFL_SET_RAWDATA_FROM_AVP, &optavp_cpy) );

 			CHECK_FCT( fd_msg_avp_hdr(optavp, &opt_hdr) );
 			CHECK_FCT( fd_msg_avp_hdr(optavp_cpy, &optcpy_hdr) );
 			memcpy(optcpy_hdr, opt_hdr, sizeof(struct avp_hdr));
 		}

 		/* Add the passed AVP inside it */
 		CHECK_FCT( fd_msg_avp_add( avp_FAVP, MSG_BRW_LAST_CHILD, optavp_cpy ) );

 		/* And add to the message */
 		CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_FAVP ) );
 	}


 	/* Deal with the 'E' bit and the error message */
 	switch (rc_val / 1000) {
 		case 1:	/* Informational */
 		case 2: /* Success */
 			/* Nothing special here: no E bit, no error message unless one is specified */
 			break;

 		case 3: /* Protocol Errors */
 			set_e_bit = 1;
 			std_err_msg = 1;
 			break;

 		case 4: /* Transcient Failure */
 		case 5: /* Permanent Failure */
 		default:
 			std_err_msg = 1;
 			break;

 	}

 	{
 		struct msg_hdr * hdr = NULL;

 		CHECK_FCT(  fd_msg_hdr( msg, &hdr )  );

 		if (set_e_bit)
 			hdr->msg_flags |= CMD_FLAG_ERROR;
 		else
 			hdr->msg_flags &= ~ CMD_FLAG_ERROR;
 	}

 	if (std_err_msg || errormsg) {
 		/* Add the Error-Message AVP */

 		CHECK_FCT( fd_msg_avp_new( dict_avp_EM, 0, &avp_EM ) );

 		/* Set its value */
 		memset(&val, 0, sizeof(val));

 		if (errormsg) {
 			val.os.data = (uint8_t *)errormsg;
 			val.os.len  = strlen(errormsg);
 		} else {
 			val.os.data = (uint8_t *)rescode;
 			val.os.len  = strlen(rescode);
 		}
 		CHECK_FCT( fd_msg_avp_setvalue( avp_EM, &val ) );

 		/* Add it to the message */
 		CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_EM ) );
 	}

 	return 0;
 }

 static int fd_msg_send_int( struct msg ** pmsg, void (*anscb)(void *, struct msg **), void * data, void (*expirecb)(void *, DiamId_t, size_t, struct msg **), const struct timespec *timeout )
 {
 	struct msg_hdr *hdr;
 	DiamId_t diamid;

 	/* Save the callback in the message, with the timeout */
 	CHECK_FCT(  fd_msg_anscb_associate( *pmsg, anscb, data, expirecb, timeout )  );

 	/* If this is a new request, call the HOOK_MESSAGE_LOCAL hook */
 	if ( (fd_msg_hdr(*pmsg, &hdr) == 0)
 	 &&  (hdr->msg_flags & CMD_FLAG_REQUEST)
 	 &&  (fd_msg_source_get(*pmsg, &diamid, NULL) == 0)
 	 &&  (diamid == NULL)) {
 		fd_hook_call(HOOK_MESSAGE_LOCAL, *pmsg, NULL, NULL, fd_msg_pmdl_get(*pmsg));
 	}

 	/* Post the message in the outgoing queue */
 	CHECK_FCT( fd_fifo_post(fd_g_outgoing, pmsg) );

 	return 0;
 }

 /* Send a message and optionally register a callback for an answer */
 int fd_msg_send ( struct msg ** pmsg, void (*anscb)(void *, struct msg **), void * data )
 {
 	TRACE_ENTRY("%p %p %p", pmsg, anscb, data);
 	CHECK_PARAMS( pmsg );

 	return fd_msg_send_int(pmsg, anscb, data, NULL, NULL);
 }

 /* The variation of the same function with a timeout callback */
 int fd_msg_send_timeout ( struct msg ** pmsg, void (*anscb)(void *, struct msg **), void * data, void (*expirecb)(void *, DiamId_t, size_t, struct msg **), const struct timespec *timeout )
 {
 	TRACE_ENTRY("%p %p %p %p %p", pmsg, anscb, data, expirecb, timeout);
 	CHECK_PARAMS( pmsg && expirecb && timeout );

 	return fd_msg_send_int(pmsg, anscb, data, expirecb, timeout);
 }


 /* Parse a message against our dictionary, and in case of error log and eventually build the error reply -- returns the parsing status */
 int fd_msg_parse_or_error( struct msg ** msg, struct msg **error)
 {
 	int ret = 0;
 	struct msg * m;
 	struct msg_hdr * hdr = NULL;
 	struct fd_pei	pei;

 	TRACE_ENTRY("%p", msg);

 	CHECK_PARAMS(msg && *msg && error);
 	m = *msg;
 	*error = NULL;

 	/* Parse the message against our dictionary */
 	ret = fd_msg_parse_rules ( m, fd_g_config->cnf_dict, &pei);
 	if 	((ret != EBADMSG) 	/* Parsing grouped AVP failed / Conflicting rule found */
 		&& (ret != ENOTSUP))	/* Command is not supported / Mandatory AVP is not supported */
 		return ret; /* 0 or another error */

 	/* Log */
 	fd_hook_call(HOOK_MESSAGE_PARSING_ERROR, m, NULL, pei.pei_message ?: pei.pei_errcode, fd_msg_pmdl_get(m));

 	CHECK_FCT( fd_msg_hdr(m, &hdr) );

 	/* Now create an answer error if the message is a query */
 	if (hdr->msg_flags & CMD_FLAG_REQUEST) {

 		/* Create the error message */
 		CHECK_FCT( fd_msg_new_answer_from_req ( fd_g_config->cnf_dict, &m, pei.pei_protoerr ? MSGFL_ANSW_ERROR : 0 ) );

 		/* Set the error code */
 		CHECK_FCT( fd_msg_rescode_set(m, pei.pei_errcode, pei.pei_message, pei.pei_avp, 1 ) );

 		/* free the pei AVP to avoid memory leak */
 		if (pei.pei_avp_free) {
 			fd_msg_free(pei.pei_avp);
 		}

 		*msg = NULL;
 		*error = m;

 	} else {
 		do { /* Rescue error messages */
 			struct avp * avp;
 			union avp_value * rc = NULL;

 			/* Search the Result-Code AVP */
 			CHECK_FCT_DO(  fd_msg_browse(*msg, MSG_BRW_FIRST_CHILD, &avp, NULL), break  );
 			while (avp) {
 				struct avp_hdr * ahdr;
 				CHECK_FCT_DO(  fd_msg_avp_hdr( avp, &ahdr ), break  );

 				if ((ahdr->avp_code == AC_RESULT_CODE) && (! (ahdr->avp_flags & AVP_FLAG_VENDOR)) ) {
 					/* Parse this AVP */
 					ASSERT( ahdr->avp_value );
 					rc = ahdr->avp_value;
 					break;
 				}

 				/* Go to next AVP */
 				CHECK_FCT_DO(  fd_msg_browse(avp, MSG_BRW_NEXT, &avp, NULL), break  );
 			}

 			if (rc) {
 				switch (rc->u32 / 1000) {
 					case 1:	/* 1xxx : Informational */
 					case 2:	/* 2xxx : Sucess */
 						/* In these cases, we want the message to validate the ABNF, so we will discard the bad message */
 						break;

 					default: /* Other errors */
 						/* We let the application decide what to do with the message, we rescue it */
 						*error = m;
 				}
 			}
 		} while (0);
 	}

 	return EBADMSG; /* We convert ENOTSUP to EBADMSG as well */
 }
	/*********************************************************************************************************
	* 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. *
	*********************************************************************************************************/

	#include "fdcore-internal.h"

	static struct dict_object * dict_avp_SI = NULL; /* Session-Id */
	static struct dict_object * dict_avp_OH = NULL; /* Origin-Host */
	static struct dict_object * dict_avp_OR = NULL; /* Origin-Realm */
	static struct dict_object * dict_avp_EM = NULL; /* Error-Message */
	static struct dict_object * dict_avp_ERH = NULL; /* Error-Reporting-Host */
	static struct dict_object * dict_avp_FAVP= NULL; /* Failed-AVP */
	static struct dict_object * dict_avp_RC = NULL; /* Result-Code */
	struct dict_object * fd_dict_avp_OSI = NULL; /* Origin-State-Id */
	struct dict_object * fd_dict_cmd_CER = NULL; /* Capabilities-Exchange-Request */
	struct dict_object * fd_dict_cmd_DWR = NULL; /* Device-Watchdog-Request */
	struct dict_object * fd_dict_avp_DC = NULL; /* Disconnect-Cause */
	struct dict_object * fd_dict_cmd_DPR = NULL; /* Disconnect-Peer-Request */

	/* Resolve the dictionary objects */
	int fd_msg_init(void)
	{
	TRACE_ENTRY("");

	/* Initialize the dictionary objects that we may use frequently */
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Session-Id", &dict_avp_SI , ENOENT) );
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Origin-Host", &dict_avp_OH , ENOENT) );
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Origin-Realm", &dict_avp_OR , ENOENT) );
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Origin-State-Id", &fd_dict_avp_OSI , ENOENT) );

	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Result-Code", &dict_avp_RC , ENOENT) );
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Error-Message", &dict_avp_EM , ENOENT) );
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Error-Reporting-Host", &dict_avp_ERH , ENOENT) );
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Failed-AVP", &dict_avp_FAVP, ENOENT) );

	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Disconnect-Cause", &fd_dict_avp_DC , ENOENT) );

	CHECK_FCT( fd_dict_search ( fd_g_config->cnf_dict, DICT_COMMAND, CMD_BY_NAME, "Capabilities-Exchange-Request", &fd_dict_cmd_CER, ENOENT ) );
	CHECK_FCT( fd_dict_search ( fd_g_config->cnf_dict, DICT_COMMAND, CMD_BY_NAME, "Device-Watchdog-Request", &fd_dict_cmd_DWR, ENOENT ) );
	CHECK_FCT( fd_dict_search ( fd_g_config->cnf_dict, DICT_COMMAND, CMD_BY_NAME, "Disconnect-Peer-Request", &fd_dict_cmd_DPR, ENOENT ) );


	return 0;
	}

	/* Add Origin-Host, Origin-Realm, Origin-State-Id AVPS at the end of the message */
	int fd_msg_add_origin ( struct msg * msg, int osi )
	{
	union avp_value val;
	struct avp * avp_OH = NULL;
	struct avp * avp_OR = NULL;
	struct avp * avp_OSI = NULL;

	TRACE_ENTRY("%p", msg);
	CHECK_PARAMS( msg );

	/* Create the Origin-Host AVP */
	CHECK_FCT( fd_msg_avp_new( dict_avp_OH, 0, &avp_OH ) );

	/* Set its value */
	memset(&val, 0, sizeof(val));
	val.os.data = (os0_t)fd_g_config->cnf_diamid;
	val.os.len = fd_g_config->cnf_diamid_len;
	CHECK_FCT( fd_msg_avp_setvalue( avp_OH, &val ) );

	/* Add it to the message */
	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_OH ) );


	/* Create the Origin-Realm AVP */
	CHECK_FCT( fd_msg_avp_new( dict_avp_OR, 0, &avp_OR ) );

	/* Set its value */
	memset(&val, 0, sizeof(val));
	val.os.data = (os0_t)fd_g_config->cnf_diamrlm;
	val.os.len = fd_g_config->cnf_diamrlm_len;
	CHECK_FCT( fd_msg_avp_setvalue( avp_OR, &val ) );

	/* Add it to the message */
	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_OR ) );

	if (osi) {
	/* Create the Origin-State-Id AVP */
	CHECK_FCT( fd_msg_avp_new( fd_dict_avp_OSI, 0, &avp_OSI ) );

	/* Set its value */
	memset(&val, 0, sizeof(val));
	val.u32 = fd_g_config->cnf_orstateid;
	CHECK_FCT( fd_msg_avp_setvalue( avp_OSI, &val ) );

	/* Add it to the message */
	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_OSI ) );
	}

	return 0;
	}

	/* Create a new Session-Id and add at the beginning of the message. */
	int fd_msg_new_session( struct msg * msg, os0_t opt, size_t optlen )
	{
	union avp_value val;
	struct avp * avp = NULL;
	struct session * sess = NULL;
	os0_t sid;
	size_t sidlen;

	TRACE_ENTRY("%p %p %zd", msg, opt, optlen);
	CHECK_PARAMS( msg );

	/* Check there is not already a session in the message */
	CHECK_FCT( fd_msg_sess_get(fd_g_config->cnf_dict, msg, &sess, NULL) );
	CHECK_PARAMS( sess == NULL );

	/* Ok, now create the session */
	CHECK_FCT( fd_sess_new ( &sess, fd_g_config->cnf_diamid, fd_g_config->cnf_diamid_len, opt, optlen ) );
	CHECK_FCT( fd_sess_getsid( sess, &sid, &sidlen) );

	/* Create an AVP to hold it */
	CHECK_FCT( fd_msg_avp_new( dict_avp_SI, 0, &avp ) );

	/* Set its value */
	memset(&val, 0, sizeof(val));
	val.os.data = sid;
	val.os.len = sidlen;
	CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );

	/* Add it to the message */
	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_FIRST_CHILD, avp ) );

	/* Save the session associated with the message */
	CHECK_FCT( fd_msg_sess_set( msg, sess) );

	/* Done! */
	return 0;
	}


	/* Add Result-Code and eventually Failed-AVP, Error-Message and Error-Reporting-Host AVPs */
	int fd_msg_rescode_set( struct msg * msg, char * rescode, char * errormsg, struct avp * optavp, int type_id )
	{
	union avp_value val;
	struct avp * avp_RC = NULL;
	struct avp * avp_EM = NULL;
	struct avp * avp_ERH = NULL;
	struct avp * avp_FAVP= NULL;
	uint32_t rc_val = 0;
	int set_e_bit=0;
	int std_err_msg=0;

	TRACE_ENTRY("%p %s %p %p %d", msg, rescode, errormsg, optavp, type_id);

	CHECK_PARAMS( msg && rescode );

	/* Find the enum value corresponding to the rescode string, this will give the class of error */
	{
	struct dict_object * enum_obj = NULL;
	struct dict_enumval_request req;
	memset(&req, 0, sizeof(struct dict_enumval_request));

	/* First, get the enumerated type of the Result-Code AVP (this is fast, no need to cache the object) */
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_TYPE, TYPE_OF_AVP, dict_avp_RC, &(req.type_obj), ENOENT ) );

	/* Now search for the value given as parameter */
	req.search.enum_name = rescode;
	CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_ENUMVAL, ENUMVAL_BY_STRUCT, &req, &enum_obj, ENOTSUP) );

	/* finally retrieve its data */
	CHECK_FCT_DO( fd_dict_getval( enum_obj, &(req.search) ), return EINVAL );

	/* copy the found value, we're done */
	rc_val = req.search.enum_value.u32;
	}

	if (type_id == 1) {
	/* Add the Origin-Host and Origin-Realm AVP */
	CHECK_FCT( fd_msg_add_origin ( msg, 0 ) );
	}

	/* Create the Result-Code AVP */
	CHECK_FCT( fd_msg_avp_new( dict_avp_RC, 0, &avp_RC ) );

	/* Set its value */
	memset(&val, 0, sizeof(val));
	val.u32 = rc_val;
	CHECK_FCT( fd_msg_avp_setvalue( avp_RC, &val ) );

	/* Add it to the message */
	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_RC ) );

	if (type_id == 2) {
	/* Add the Error-Reporting-Host AVP */

	CHECK_FCT( fd_msg_avp_new( dict_avp_ERH, 0, &avp_ERH ) );

	/* Set its value */
	memset(&val, 0, sizeof(val));
	val.os.data = (uint8_t *)fd_g_config->cnf_diamid;
	val.os.len = fd_g_config->cnf_diamid_len;
	CHECK_FCT( fd_msg_avp_setvalue( avp_ERH, &val ) );

	/* Add it to the message */
	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_ERH ) );

	}

	/* Now add the optavp in a FailedAVP if provided */
	if (optavp) {
	struct avp * optavp_cpy = NULL;
	struct avp_hdr opt_hdr, optcpy_hdr;
	struct dict_object * opt_model = NULL;
	int is_grouped = 0;

	/* Create the Failed-AVP AVP */
	CHECK_FCT( fd_msg_avp_new( dict_avp_FAVP, 0, &avp_FAVP ) );

	/* Was this AVP a grouped one? Best effort only here */
	if (!fd_msg_model ( optavp, &opt_model ) && (opt_model != NULL)) {
	struct dict_avp_data dictdata;
	CHECK_FCT( fd_dict_getval(opt_model, &dictdata) );
	if (dictdata.avp_basetype == AVP_TYPE_GROUPED)
	is_grouped = 1;
	}

	/* Create a new AVP with a copy of the data of the invalid or missing AVP */
	optavp_cpy = optavp;

	if (is_grouped) {
	CHECK_FCT( fd_msg_avp_new( opt_model, 0, &optavp_cpy) );
	} else {
	CHECK_FCT( fd_msg_avp_new( NULL, AVPFL_SET_BLANK_VALUE \| AVPFL_SET_RAWDATA_FROM_AVP, &optavp_cpy) );

	CHECK_FCT( fd_msg_avp_hdr(optavp, &opt_hdr) );
	CHECK_FCT( fd_msg_avp_hdr(optavp_cpy, &optcpy_hdr) );
	memcpy(optcpy_hdr, opt_hdr, sizeof(struct avp_hdr));
	}

	/* Add the passed AVP inside it */
	CHECK_FCT( fd_msg_avp_add( avp_FAVP, MSG_BRW_LAST_CHILD, optavp_cpy ) );

	/* And add to the message */
	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_FAVP ) );
	}


	/* Deal with the 'E' bit and the error message */
	switch (rc_val / 1000) {
	case 1: /* Informational */
	case 2: /* Success */
	/* Nothing special here: no E bit, no error message unless one is specified */
	break;

	case 3: /* Protocol Errors */
	set_e_bit = 1;
	std_err_msg = 1;
	break;

	case 4: /* Transcient Failure */
	case 5: /* Permanent Failure */
	default:
	std_err_msg = 1;
	break;

	}

	{
	struct msg_hdr * hdr = NULL;

	CHECK_FCT( fd_msg_hdr( msg, &hdr ) );

	if (set_e_bit)
	hdr->msg_flags \|= CMD_FLAG_ERROR;
	else
	hdr->msg_flags &= ~ CMD_FLAG_ERROR;
	}

	if (std_err_msg \|\| errormsg) {
	/* Add the Error-Message AVP */

	CHECK_FCT( fd_msg_avp_new( dict_avp_EM, 0, &avp_EM ) );

	/* Set its value */
	memset(&val, 0, sizeof(val));

	if (errormsg) {
	val.os.data = (uint8_t *)errormsg;
	val.os.len = strlen(errormsg);
	} else {
	val.os.data = (uint8_t *)rescode;
	val.os.len = strlen(rescode);
	}
	CHECK_FCT( fd_msg_avp_setvalue( avp_EM, &val ) );

	/* Add it to the message */
	CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp_EM ) );
	}

	return 0;
	}

	static int fd_msg_send_int( struct msg ** pmsg, void (anscb)(void , struct msg *), void data, void (expirecb)(void , DiamId_t, size_t, struct msg *), const struct timespec timeout )
	{
	struct msg_hdr *hdr;
	DiamId_t diamid;

	/* Save the callback in the message, with the timeout */
	CHECK_FCT( fd_msg_anscb_associate( *pmsg, anscb, data, expirecb, timeout ) );

	/* If this is a new request, call the HOOK_MESSAGE_LOCAL hook */
	if ( (fd_msg_hdr(*pmsg, &hdr) == 0)
	&& (hdr->msg_flags & CMD_FLAG_REQUEST)
	&& (fd_msg_source_get(*pmsg, &diamid, NULL) == 0)
	&& (diamid == NULL)) {
	fd_hook_call(HOOK_MESSAGE_LOCAL, pmsg, NULL, NULL, fd_msg_pmdl_get(pmsg));
	}

	/* Post the message in the outgoing queue */
	CHECK_FCT( fd_fifo_post(fd_g_outgoing, pmsg) );

	return 0;
	}

	/* Send a message and optionally register a callback for an answer */
	int fd_msg_send ( struct msg ** pmsg, void (anscb)(void , struct msg *), void data )
	{
	TRACE_ENTRY("%p %p %p", pmsg, anscb, data);
	CHECK_PARAMS( pmsg );

	return fd_msg_send_int(pmsg, anscb, data, NULL, NULL);
	}

	/* The variation of the same function with a timeout callback */
	int fd_msg_send_timeout ( struct msg ** pmsg, void (anscb)(void , struct msg *), void data, void (expirecb)(void , DiamId_t, size_t, struct msg *), const struct timespec timeout )
	{
	TRACE_ENTRY("%p %p %p %p %p", pmsg, anscb, data, expirecb, timeout);
	CHECK_PARAMS( pmsg && expirecb && timeout );

	return fd_msg_send_int(pmsg, anscb, data, expirecb, timeout);
	}


	/* Parse a message against our dictionary, and in case of error log and eventually build the error reply -- returns the parsing status */
	int fd_msg_parse_or_error( struct msg msg, struct msg error)
	{
	int ret = 0;
	struct msg * m;
	struct msg_hdr * hdr = NULL;
	struct fd_pei pei;

	TRACE_ENTRY("%p", msg);

	CHECK_PARAMS(msg && *msg && error);
	m = *msg;
	*error = NULL;

	/* Parse the message against our dictionary */
	ret = fd_msg_parse_rules ( m, fd_g_config->cnf_dict, &pei);
	if ((ret != EBADMSG) /* Parsing grouped AVP failed / Conflicting rule found */
	&& (ret != ENOTSUP)) /* Command is not supported / Mandatory AVP is not supported */
	return ret; /* 0 or another error */

	/* Log */
	fd_hook_call(HOOK_MESSAGE_PARSING_ERROR, m, NULL, pei.pei_message ?: pei.pei_errcode, fd_msg_pmdl_get(m));

	CHECK_FCT( fd_msg_hdr(m, &hdr) );

	/* Now create an answer error if the message is a query */
	if (hdr->msg_flags & CMD_FLAG_REQUEST) {

	/* Create the error message */
	CHECK_FCT( fd_msg_new_answer_from_req ( fd_g_config->cnf_dict, &m, pei.pei_protoerr ? MSGFL_ANSW_ERROR : 0 ) );

	/* Set the error code */
	CHECK_FCT( fd_msg_rescode_set(m, pei.pei_errcode, pei.pei_message, pei.pei_avp, 1 ) );

	/* free the pei AVP to avoid memory leak */
	if (pei.pei_avp_free) {
	fd_msg_free(pei.pei_avp);
	}

	*msg = NULL;
	*error = m;

	} else {
	do { /* Rescue error messages */
	struct avp * avp;
	union avp_value * rc = NULL;

	/* Search the Result-Code AVP */
	CHECK_FCT_DO( fd_msg_browse(*msg, MSG_BRW_FIRST_CHILD, &avp, NULL), break );
	while (avp) {
	struct avp_hdr * ahdr;
	CHECK_FCT_DO( fd_msg_avp_hdr( avp, &ahdr ), break );

	if ((ahdr->avp_code == AC_RESULT_CODE) && (! (ahdr->avp_flags & AVP_FLAG_VENDOR)) ) {
	/* Parse this AVP */
	ASSERT( ahdr->avp_value );
	rc = ahdr->avp_value;
	break;
	}

	/* Go to next AVP */
	CHECK_FCT_DO( fd_msg_browse(avp, MSG_BRW_NEXT, &avp, NULL), break );
	}

	if (rc) {
	switch (rc->u32 / 1000) {
	case 1: /* 1xxx : Informational */
	case 2: /* 2xxx : Sucess */
	/* In these cases, we want the message to validate the ABNF, so we will discard the bad message */
	break;

	default: /* Other errors */
	/* We let the application decide what to do with the message, we rescue it */
	*error = m;
	}
	}
	} while (0);
	}

	return EBADMSG; /* We convert ENOTSUP to EBADMSG as well */
	}