/********************************************************************************************************* * Software License Agreement (BSD License) * * Author: Sebastien Decugis * * * * 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 */ }