Gitiles
Code Review Sign In
gerrit.opencord.org / freeDiameter-old / 13d9601bf947af3286764506368fc3d04672bfde / . / libfdcore / p_ce.c
blob: 1b4cd1315b200225ae083e69e547a3b7d87e9b49 [file] [log] [blame]
/*********************************************************************************************************
* 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"
/* This file contains code to handle Capabilities Exchange messages (CER and CEA) and election process */
/* Save a connection as peer's principal */
static int set_peer_cnx(struct fd_peer * peer, struct cnxctx **cnx)
{
CHECK_PARAMS( peer->p_cnxctx == NULL );
/* Save the connection in peer */
peer->p_cnxctx = *cnx;
*cnx = NULL;
/* Set the events to be sent to the PSM */
CHECK_FCT( fd_cnx_recv_setaltfifo(peer->p_cnxctx, peer->p_events) );
/* Read the credentials if possible */
if (fd_cnx_getTLS(peer->p_cnxctx)) {
CHECK_FCT( fd_cnx_getcred(peer->p_cnxctx, &peer->p_hdr.info.runtime.pir_cert_list, &peer->p_hdr.info.runtime.pir_cert_list_size) );
}
/* Read the endpoints, maybe used to reconnect to the peer later */
CHECK_FCT( fd_cnx_getremoteeps(peer->p_cnxctx, &peer->p_hdr.info.pi_endpoints) );
/* Read the protocol */
peer->p_hdr.info.runtime.pir_proto = fd_cnx_getproto(peer->p_cnxctx);
return 0;
}
/* Delete the peer connection, and cleanup associated information */
void fd_p_ce_clear_cnx(struct fd_peer * peer, struct cnxctx ** cnx_kept)
{
peer->p_hdr.info.runtime.pir_cert_list = NULL;
peer->p_hdr.info.runtime.pir_cert_list_size = 0;
peer->p_hdr.info.runtime.pir_proto = 0;
if (peer->p_cnxctx) {
if (cnx_kept != NULL) {
*cnx_kept = peer->p_cnxctx;
} else {
fd_cnx_destroy(peer->p_cnxctx);
}
peer->p_cnxctx = NULL;
}
}
/* Election: compare the Diameter Ids by lexical order, return true if the election is won */
static __inline__ int election_result(struct fd_peer * peer)
{
int ret = (strcasecmp(peer->p_hdr.info.pi_diamid, fd_g_config->cnf_diamid) < 0);
if (ret) {
TRACE_DEBUG(INFO, "Election WON against peer '%s'", peer->p_hdr.info.pi_diamid);
} else {
TRACE_DEBUG(INFO, "Election LOST against peer '%s'", peer->p_hdr.info.pi_diamid);
}
return ret;
}
/* Add AVPs about local information in a CER or CEA */
static int add_CE_info(struct msg *msg, struct cnxctx * cnx, int isi_tls, int isi_none)
{
struct dict_object * dictobj = NULL;
struct avp * avp = NULL;
union avp_value val;
struct fd_list *li;
/* Add the Origin-* AVPs */
CHECK_FCT( fd_msg_add_origin ( msg, 1 ) );
/* Find the model for Host-IP-Address AVP */
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Host-IP-Address", &dictobj, ENOENT ) );
/* Add the AVP(s) -- not sure what is the purpose... We could probably only add the primary one ? */
for (li = fd_g_config->cnf_endpoints.next; li != &fd_g_config->cnf_endpoints; li = li->next) {
struct fd_endpoint * ep = (struct fd_endpoint *)li;
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp ) );
CHECK_FCT( fd_msg_avp_value_encode ( &ep->ss, avp ) );
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
}
/* Vendor-Id, Product-Name, and Firmware-Revision AVPs */
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Vendor-Id", &dictobj, ENOENT ) );
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp ) );
val.u32 = MY_VENDOR_ID;
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Product-Name", &dictobj, ENOENT ) );
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp ) );
val.os.data = (unsigned char *)FD_PROJECT_NAME;
val.os.len = strlen(FD_PROJECT_NAME);
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Firmware-Revision", &dictobj, ENOENT ) );
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp ) );
val.u32 = (uint32_t)(FD_PROJECT_VERSION_MAJOR * 10000 + FD_PROJECT_VERSION_MINOR * 100 + FD_PROJECT_VERSION_REV);
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
/* Add the Inband-Security-Id AVP if needed */
if (isi_tls || isi_none) {
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Inband-Security-Id", &dictobj, ENOENT ) );
if (isi_none) {
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp ) );
val.u32 = ACV_ISI_NO_INBAND_SECURITY;
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
}
if (isi_tls) {
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp ) );
val.u32 = ACV_ISI_TLS;
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
}
}
/* List of local applications */
{
struct dict_object * dictobj_auth = NULL;
struct dict_object * dictobj_acct = NULL;
struct dict_object * dictobj_vid = NULL;
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Vendor-Specific-Application-Id", &dictobj, ENOENT ) );
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Vendor-Id", &dictobj_vid, ENOENT ) );
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Auth-Application-Id", &dictobj_auth, ENOENT ) );
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Acct-Application-Id", &dictobj_acct, ENOENT ) );
for (li = fd_g_config->cnf_apps.next; li != &fd_g_config->cnf_apps; li = li->next) {
struct fd_app * a = (struct fd_app *)(li);
if (a->flags.auth) {
CHECK_FCT( fd_msg_avp_new ( dictobj_auth, 0, &avp ) );
val.u32 = a->appid;
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
if (a->vndid != 0) {
struct avp * avp2 = NULL;
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp2 ) );
CHECK_FCT( fd_msg_avp_add( avp2, MSG_BRW_LAST_CHILD, avp ) );
avp = avp2;
CHECK_FCT( fd_msg_avp_new ( dictobj_vid, 0, &avp2 ) );
val.u32 = a->vndid;
CHECK_FCT( fd_msg_avp_setvalue( avp2, &val ) );
CHECK_FCT( fd_msg_avp_add( avp, MSG_BRW_LAST_CHILD, avp2 ) );
}
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
}
if (a->flags.acct) {
CHECK_FCT( fd_msg_avp_new ( dictobj_acct, 0, &avp ) );
val.u32 = a->appid;
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
if (a->vndid != 0) {
struct avp * avp2 = NULL;
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp2 ) );
CHECK_FCT( fd_msg_avp_add( avp2, MSG_BRW_LAST_CHILD, avp ) );
avp = avp2;
CHECK_FCT( fd_msg_avp_new ( dictobj_vid, 0, &avp2 ) );
val.u32 = a->vndid;
CHECK_FCT( fd_msg_avp_setvalue( avp2, &val ) );
CHECK_FCT( fd_msg_avp_add( avp, MSG_BRW_LAST_CHILD, avp2 ) );
}
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
}
}
/* do not forget the relay application */
if (! fd_g_config->cnf_flags.no_fwd) {
CHECK_FCT( fd_msg_avp_new ( dictobj_auth, 0, &avp ) );
val.u32 = AI_RELAY;
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
}
}
/* Add the list of supported vendors */
{
uint32_t * array = fd_dict_get_vendorid_list(fd_g_config->cnf_dict);
if (array) {
int i = 0;
CHECK_FCT( fd_dict_search( fd_g_config->cnf_dict, DICT_AVP, AVP_BY_NAME, "Supported-Vendor-Id", &dictobj, ENOENT ) );
while (array[i] != 0) {
CHECK_FCT( fd_msg_avp_new ( dictobj, 0, &avp ) );
val.u32 = array[i];
CHECK_FCT( fd_msg_avp_setvalue( avp, &val ) );
CHECK_FCT( fd_msg_avp_add( msg, MSG_BRW_LAST_CHILD, avp ) );
i++;
}
free(array);
}
}
return 0;
}
/* Remove any information saved from a previous CER/CEA exchange */
static void cleanup_remote_CE_info(struct fd_peer * peer)
{
/* free linked information */
free(peer->p_hdr.info.runtime.pir_realm);
free(peer->p_hdr.info.runtime.pir_prodname);
while (!FD_IS_LIST_EMPTY(&peer->p_hdr.info.runtime.pir_apps)) {
struct fd_list * li = peer->p_hdr.info.runtime.pir_apps.next;
fd_list_unlink(li);
free(li);
}
/* note: pir_cert_list needs not be freed (belongs to gnutls) */
/* cleanup the area */
memset(&peer->p_hdr.info.runtime, 0, sizeof(peer->p_hdr.info.runtime));
/* reinit the list */
fd_list_init(&peer->p_hdr.info.runtime.pir_apps, peer);
/* Remove previously advertised endpoints */
fd_ep_clearflags( &peer->p_hdr.info.pi_endpoints, EP_FL_ADV );
}
/* Extract information sent by the remote peer and save it in our peer structure */
static int save_remote_CE_info(struct msg * msg, struct fd_peer * peer, struct fd_pei * error, uint32_t *rc)
{
struct avp * avp = NULL;
cleanup_remote_CE_info(peer);
CHECK_FCT( fd_msg_browse( msg, MSG_BRW_FIRST_CHILD, &avp, NULL) );
/* Loop on all AVPs and save what we are interrested into */
while (avp) {
struct avp_hdr * hdr;
CHECK_FCT( fd_msg_avp_hdr( avp, &hdr ) );
if (hdr->avp_flags & AVP_FLAG_VENDOR) {
/* Ignore all vendor-specific AVPs in CER/CEA because we don't support any currently */
LOG_A("Ignored a vendor-specific AVP in CER / CEA");
goto next;
}
switch (hdr->avp_code) {
case AC_RESULT_CODE: /* Result-Code */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
if (rc)
*rc = hdr->avp_value->u32;
break;
case AC_ORIGIN_HOST: /* Origin-Host */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
/* We check that the value matches what we know, otherwise disconnect the peer */
if (fd_os_almostcasesrch(hdr->avp_value->os.data, hdr->avp_value->os.len,
peer->p_hdr.info.pi_diamid, peer->p_hdr.info.pi_diamidlen, NULL)) {
TRACE_DEBUG(INFO, "Received a message with Origin-Host set to '%.*s' while expecting '%s'",
(int)hdr->avp_value->os.len, hdr->avp_value->os.data, peer->p_hdr.info.pi_diamid);
error->pei_errcode = "DIAMETER_AVP_NOT_ALLOWED";
error->pei_message = "Your Origin-Host value does not match my configuration.";
error->pei_avp = avp;
return EINVAL;
}
break;
case AC_ORIGIN_REALM: /* Origin-Realm */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
/* In case of multiple AVPs */
if (peer->p_hdr.info.runtime.pir_realm) {
TRACE_DEBUG(INFO, "Multiple instances of the Origin-Realm AVP");
error->pei_errcode = "DIAMETER_AVP_OCCURS_TOO_MANY_TIMES";
error->pei_message = "I found several Origin-Realm AVPs";
error->pei_avp = avp;
return EINVAL;
}
/* If the octet string contains a \0 */
if (!fd_os_is_valid_DiameterIdentity(hdr->avp_value->os.data, hdr->avp_value->os.len)) {
error->pei_errcode = "DIAMETER_INVALID_AVP_VALUE";
error->pei_message = "Your Origin-Realm contains invalid characters.";
error->pei_avp = avp;
return EINVAL;
}
/* Save the value */
CHECK_MALLOC( peer->p_hdr.info.runtime.pir_realm = os0dup( hdr->avp_value->os.data, hdr->avp_value->os.len ) );
peer->p_hdr.info.runtime.pir_realmlen = hdr->avp_value->os.len;
break;
case AC_HOST_IP_ADDRESS: /* Host-IP-Address */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
{
sSS ss;
/* Get the sockaddr value */
memset(&ss, 0, sizeof(ss));
CHECK_FCT_DO( fd_msg_avp_value_interpret( avp, &ss),
{
/* in case of error, assume the AVP value was wrong */
error->pei_errcode = "DIAMETER_INVALID_AVP_VALUE";
error->pei_avp = avp;
return EINVAL;
} );
/* Save this endpoint in the list as advertized */
CHECK_FCT( fd_ep_add_merge( &peer->p_hdr.info.pi_endpoints, (sSA *)&ss, sizeof(sSS), EP_FL_ADV ) );
}
break;
case AC_VENDOR_ID: /* Vendor-Id */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
/* In case of multiple AVPs */
if (peer->p_hdr.info.runtime.pir_vendorid) {
TRACE_DEBUG(INFO, "Multiple instances of the Vendor-Id AVP");
error->pei_errcode = "DIAMETER_AVP_OCCURS_TOO_MANY_TIMES";
error->pei_message = "I found several Vendor-Id AVPs";
error->pei_avp = avp;
return EINVAL;
}
peer->p_hdr.info.runtime.pir_vendorid = hdr->avp_value->u32;
break;
case AC_PRODUCT_NAME: /* Product-Name */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
/* In case of multiple AVPs */
if (peer->p_hdr.info.runtime.pir_prodname) {
TRACE_DEBUG(INFO, "Multiple instances of the Product-Name AVP");
error->pei_errcode = "DIAMETER_AVP_OCCURS_TOO_MANY_TIMES";
error->pei_message = "I found several Product-Name AVPs";
error->pei_avp = avp;
return EINVAL;
}
CHECK_MALLOC( peer->p_hdr.info.runtime.pir_prodname = calloc( hdr->avp_value->os.len + 1, 1 ) );
memcpy(peer->p_hdr.info.runtime.pir_prodname, hdr->avp_value->os.data, hdr->avp_value->os.len);
break;
case AC_ORIGIN_STATE_ID: /* Origin-State-Id */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
/* In case of multiple AVPs */
if (peer->p_hdr.info.runtime.pir_orstate) {
TRACE_DEBUG(INFO, "Multiple instances of the Origin-State-Id AVP");
error->pei_errcode = "DIAMETER_AVP_OCCURS_TOO_MANY_TIMES";
error->pei_message = "I found several Origin-State-Id AVPs";
error->pei_avp = avp;
return EINVAL;
}
peer->p_hdr.info.runtime.pir_orstate = hdr->avp_value->u32;
break;
case AC_SUPPORTED_VENDOR_ID: /* Supported-Vendor-Id */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
TRACE_DEBUG(FULL, "'%s' claims support for a subset of vendor %d features.", peer->p_hdr.info.pi_diamid, hdr->avp_value->u32);
/* not that it makes a difference for us...
-- if an application actually needs this info, we could save it somewhere.
*/
break;
case AC_VENDOR_SPECIFIC_APPLICATION_ID: /* Vendor-Specific-Application-Id (grouped)*/
{
struct avp * inavp = NULL;
vendor_id_t vid = 0;
application_id_t auth_aid = 0;
application_id_t acct_aid = 0;
int invalid=0;
/* get the first child AVP */
CHECK_FCT( fd_msg_browse(avp, MSG_BRW_FIRST_CHILD, &inavp, NULL) );
while (inavp) {
struct avp_hdr * inhdr;
CHECK_FCT( fd_msg_avp_hdr( inavp, &inhdr ) );
if (inhdr->avp_flags & AVP_FLAG_VENDOR) {
LOG_A("Ignored a vendor AVP inside Vendor-Specific-Application-Id AVP");
goto innext;
}
if (inhdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto innext;
}
switch (inhdr->avp_code) {
case AC_VENDOR_ID: /* Vendor-Id */
#ifndef WORKAROUND_ACCEPT_INVALID_VSAI
if (vid != 0)
invalid++; /* We already had one such AVP. This is invalid according to RFC6733 but not RFC3588 (but there is an erratum) */
#endif /* WORKAROUND_ACCEPT_INVALID_VSAI */
vid = inhdr->avp_value->u32;
break;
case AC_AUTH_APPLICATION_ID: /* Auth-Application-Id */
if (auth_aid != 0)
invalid++; /* We already had one such AVP */
#ifndef WORKAROUND_ACCEPT_INVALID_VSAI
if (acct_aid != 0)
invalid++; /* Only 1 *-Application-Id AVP is allowed */
#endif /* WORKAROUND_ACCEPT_INVALID_VSAI */
auth_aid = inhdr->avp_value->u32;
break;
case AC_ACCT_APPLICATION_ID: /* Acct-Application-Id */
if (acct_aid != 0)
invalid++; /* We already had one such AVP */
#ifndef WORKAROUND_ACCEPT_INVALID_VSAI
if (auth_aid != 0)
invalid++; /* Only 1 *-Application-Id AVP is allowed */
#endif /* WORKAROUND_ACCEPT_INVALID_VSAI */
acct_aid = inhdr->avp_value->u32;
break;
/* ignore other AVPs */
}
if (invalid) {
TRACE_DEBUG(FULL, "Invalid Vendor-Specific-Application-Id AVP received");
error->pei_errcode = "DIAMETER_INVALID_AVP_VALUE";
error->pei_avp = avp;
return EINVAL;
}
innext:
/* Go to next in AVP */
CHECK_FCT( fd_msg_browse(inavp, MSG_BRW_NEXT, &inavp, NULL) );
}
/* Add entry in the list */
if (auth_aid) {
CHECK_FCT( fd_app_merge(&peer->p_hdr.info.runtime.pir_apps, auth_aid, vid, 1, 0) );
}
if (acct_aid) {
CHECK_FCT( fd_app_merge(&peer->p_hdr.info.runtime.pir_apps, acct_aid, vid, 0, 1) );
}
}
break;
case AC_AUTH_APPLICATION_ID: /* Auth-Application-Id */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
if (hdr->avp_value->u32 == AI_RELAY) {
peer->p_hdr.info.runtime.pir_relay = 1;
} else {
CHECK_FCT( fd_app_merge(&peer->p_hdr.info.runtime.pir_apps, hdr->avp_value->u32, 0, 1, 0) );
}
break;
case AC_ACCT_APPLICATION_ID: /* Acct-Application-Id */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
if (hdr->avp_value->u32 == AI_RELAY) {
/* Not clear if the relay application can be inside this AVP... */
peer->p_hdr.info.runtime.pir_relay = 1;
} else {
CHECK_FCT( fd_app_merge(&peer->p_hdr.info.runtime.pir_apps, hdr->avp_value->u32, 0, 0, 1) );
}
break;
case AC_FIRMWARE_REVISION: /* Firmware-Revision */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
peer->p_hdr.info.runtime.pir_firmrev = hdr->avp_value->u32;
break;
case AC_INBAND_SECURITY_ID: /* Inband-Security-Id */
if (hdr->avp_value == NULL) {
/* This is a sanity check */
LOG_F("Ignored an AVP (code %x) with unset value in CER/CEA", hdr->avp_code);
ASSERT(0); /* To check if this really happens, and understand why... */
goto next;
}
if (hdr->avp_value->u32 >= 32 ) {
error->pei_errcode = "DIAMETER_INVALID_AVP_VALUE";
error->pei_message = "I don't support this Inband-Security-Id value (yet).";
error->pei_avp = avp;
return EINVAL;
}
peer->p_hdr.info.runtime.pir_isi |= (1 << hdr->avp_value->u32);
break;
}
next:
/* Go to next AVP */
CHECK_FCT( fd_msg_browse(avp, MSG_BRW_NEXT, &avp, NULL) );
}
return 0;
}
/* Create a CER message for sending */
static int create_CER(struct fd_peer * peer, struct cnxctx * cnx, struct msg ** cer)
{
int isi_tls = 0;
int isi_none = 0;
/* Find CER dictionary object and create an instance */
CHECK_FCT( fd_msg_new ( fd_dict_cmd_CER, MSGFL_ALLOC_ETEID, cer ) );
/* Do we need Inband-Security-Id AVPs ? If we're already using TLS, we don't... */
if (!fd_cnx_getTLS(cnx)) {
isi_none = peer->p_hdr.info.config.pic_flags.sec & PI_SEC_NONE; /* we add it even if the peer does not use the old mechanism, it is impossible to distinguish */
if (peer->p_hdr.info.config.pic_flags.sec & PI_SEC_TLS_OLD) {
if (fd_g_config->cnf_sec_data.tls_disabled) {
LOG_N("TLS disabled locally, so Inband-Security-Id (TLS) not included for peer %s", peer->p_hdr.info.pi_diamid);
} else {
isi_tls = 1;
}
}
}
/* Add the information about the local peer */
CHECK_FCT( add_CE_info(*cer, cnx, isi_tls, isi_none) );
/* Done! */
return 0;
}
/* Continue with the initiator side */
static int to_waitcea(struct fd_peer * peer, struct cnxctx * cnx)
{
/* We sent a CER on the connection, set the event queue so that we receive the CEA */
CHECK_FCT( set_peer_cnx(peer, &cnx) );
/* Change state and reset the timer */
CHECK_FCT( fd_psm_change_state(peer, STATE_WAITCEA) );
fd_psm_next_timeout(peer, 0, CEA_TIMEOUT);
return 0;
}
/* Reject an incoming connection attempt */
static void receiver_reject(struct cnxctx ** recv_cnx, struct msg ** cer, struct fd_pei * error)
{
struct msg_hdr * hdr = NULL;
/* Create and send the CEA with appropriate error code */
CHECK_FCT_DO( fd_msg_new_answer_from_req ( fd_g_config->cnf_dict, cer, MSGFL_ANSW_ERROR ), goto destroy );
CHECK_FCT_DO( fd_msg_rescode_set(*cer, error->pei_errcode, error->pei_message, error->pei_avp, 0 ), goto destroy );
CHECK_FCT_DO( fd_msg_hdr( *cer, &hdr ), goto destroy );
if (hdr->msg_flags & CMD_FLAG_ERROR) {
/* Generic error format, just add the origin AVPs */
CHECK_FCT_DO( fd_msg_add_origin ( *cer, 1 ), goto destroy );
} else {
/* Add other AVPs to be compliant with the ABNF */
CHECK_FCT_DO( add_CE_info(*cer, *recv_cnx, 0, 0), goto destroy );
}
CHECK_FCT_DO( fd_out_send(cer, *recv_cnx, NULL, 0), goto destroy );
if (error->pei_avp_free) {
fd_msg_free(error->pei_avp);
}
/* And now destroy this connection */
destroy:
fd_cnx_destroy(*recv_cnx);
*recv_cnx = NULL;
if (*cer) {
fd_hook_call(HOOK_MESSAGE_DROPPED, *cer, NULL, "An error occurred while rejecting this CER.", fd_msg_pmdl_get(*cer));
fd_msg_free(*cer);
*cer = NULL;
}
}
/* We have established a new connection to the remote peer, send CER and eventually process the election */
int fd_p_ce_handle_newcnx(struct fd_peer * peer, struct cnxctx * initiator)
{
struct msg * cer = NULL;
/* Send CER on the new connection */
CHECK_FCT( create_CER(peer, initiator, &cer) );
CHECK_FCT( fd_out_send(&cer, initiator, peer, 0) );
/* Are we doing an election ? */
if (fd_peer_getstate(peer) == STATE_WAITCNXACK_ELEC) {
if (election_result(peer)) {
/* Close initiator connection */
fd_cnx_destroy(initiator);
LOG_D("%s: Election lost on outgoing connection, closing and answering CEA on incoming connection.", peer->p_hdr.info.pi_diamid);
/* Process with the receiver side */
CHECK_FCT( fd_p_ce_process_receiver(peer) );
} else {
struct fd_pei pei;
memset(&pei, 0, sizeof(pei));
pei.pei_errcode = "ELECTION_LOST";
pei.pei_message = "Please answer my CER instead, you won the election.";
LOG_D("%s: Election lost on incoming connection, closing and waiting for CEA on outgoing connection.", peer->p_hdr.info.pi_diamid);
/* Answer an ELECTION LOST to the receiver side */
receiver_reject(&peer->p_receiver, &peer->p_cer, &pei);
CHECK_FCT( to_waitcea(peer, initiator) );
}
} else {
/* No election (yet) */
CHECK_FCT( to_waitcea(peer, initiator) );
}
return 0;
}
/* We have received a Capabilities Exchange message on the peer connection */
int fd_p_ce_msgrcv(struct msg ** msg, int req, struct fd_peer * peer)
{
uint32_t rc = 0;
int st;
struct fd_pei pei;
TRACE_ENTRY("%p %p", msg, peer);
CHECK_PARAMS( msg && *msg && CHECK_PEER(peer) );
/* The only valid situation where we are called is in WAITCEA and we receive a CEA (we may have won an election) */
/* Note : to implement Capabilities Update, we would need to change here */
/* If it is a CER, just reply an error */
if (req) {
/* Create the error message */
CHECK_FCT( fd_msg_new_answer_from_req ( fd_g_config->cnf_dict, msg, MSGFL_ANSW_ERROR ) );
/* Set the error code */
CHECK_FCT( fd_msg_rescode_set(*msg, "DIAMETER_UNABLE_TO_COMPLY", "No CER allowed in current state", NULL, 1 ) );
/* msg now contains an answer message to send back */
CHECK_FCT_DO( fd_out_send(msg, NULL, peer, 0), /* In case of error the message has already been dumped */ );
}
/* If the state is not WAITCEA, just discard the message */
if (req || ((st = fd_peer_getstate(peer)) != STATE_WAITCEA)) {
if (*msg) {
/* In such case, just discard the message */
char buf[128];
snprintf(buf, sizeof(buf), "Received while peer state machine was in state %s.", STATE_STR(st));
fd_hook_call(HOOK_MESSAGE_DROPPED, *msg, peer, buf, fd_msg_pmdl_get(*msg));
CHECK_FCT_DO( fd_msg_free(*msg), /* continue */);
*msg = NULL;
}
return 0;
}
memset(&pei, 0, sizeof(pei));
/* Save info from the CEA into the peer */
CHECK_FCT_DO( save_remote_CE_info(*msg, peer, &pei, &rc),
{
fd_hook_call(HOOK_PEER_CONNECT_FAILED, *msg, peer, "An error occurred while processing incoming CEA.", NULL);
goto cleanup;
} );
/* Check the Result-Code */
switch (rc) {
case ER_DIAMETER_SUCCESS:
/* Log success */
fd_hook_call(HOOK_PEER_CONNECT_SUCCESS, *msg, peer, NULL, NULL);
/* Dispose of the message, we don't need it anymore */
CHECK_FCT_DO( fd_msg_free(*msg), /* continue */ );
*msg = NULL;
/* No problem, we can continue */
break;
case ER_DIAMETER_TOO_BUSY:
/* Retry later */
fd_hook_call(HOOK_PEER_CONNECT_FAILED, *msg, peer, "Remote peer is too busy", NULL);
fd_psm_cleanup(peer, 0);
fd_psm_next_timeout(peer, 0, 300);
return 0;
case ER_ELECTION_LOST:
/* Ok, just wait for a little while for the CER to be processed on the other connection. */
TRACE_DEBUG(FULL, "Peer %s replied a CEA with Result-Code AVP ELECTION_LOST, waiting for events.", peer->p_hdr.info.pi_diamid);
return 0;
default:
/* In any other case, we abort all attempts to connect to this peer */
fd_hook_call(HOOK_PEER_CONNECT_FAILED, *msg, peer, "CEA with unexpected error code", NULL);
return EINVAL;
}
/* Handshake if needed, start clear otherwise */
if ( ! fd_cnx_getTLS(peer->p_cnxctx) ) {
int todo = peer->p_hdr.info.config.pic_flags.sec & peer->p_hdr.info.runtime.pir_isi ;
/* Special case: if the peer did not send a ISI AVP */
if (peer->p_hdr.info.runtime.pir_isi == 0)
todo = peer->p_hdr.info.config.pic_flags.sec;
if (todo == PI_SEC_NONE) {
/* Ok for clear connection */
TRACE_DEBUG(INFO, "No TLS protection negotiated with peer '%s'.", peer->p_hdr.info.pi_diamid);
CHECK_FCT( fd_cnx_start_clear(peer->p_cnxctx, 1) );
} else if (fd_g_config->cnf_sec_data.tls_disabled) {
LOG_E("Clear connection with remote peer '%s' is not (explicitly) allowed, and TLS is disabled. Giving up...", peer->p_hdr.info.pi_diamid);
fd_hook_call(HOOK_PEER_CONNECT_FAILED, NULL, peer, "TLS is disabled and peer is not configured for IPsec", NULL);
goto cleanup;
} else {
fd_psm_change_state(peer, STATE_OPEN_HANDSHAKE);
CHECK_FCT_DO( fd_cnx_handshake(peer->p_cnxctx, 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 after CER/CEA exchange", NULL);
goto cleanup;
} );
/* Retrieve the credentials */
CHECK_FCT( fd_cnx_getcred(peer->p_cnxctx, &peer->p_hdr.info.runtime.pir_cert_list, &peer->p_hdr.info.runtime.pir_cert_list_size) );
}
}
/* Move to next state */
if (peer->p_flags.pf_cnx_pb) {
fd_psm_change_state(peer, STATE_REOPEN );
CHECK_FCT( fd_p_dw_reopen(peer) );
} else {
fd_psm_change_state(peer, STATE_OPEN );
fd_psm_next_timeout(peer, 1, peer->p_hdr.info.config.pic_twtimer ?: fd_g_config->cnf_timer_tw);
}
return 0;
cleanup:
fd_p_ce_clear_cnx(peer, NULL);
/* Send the error to the peer */
CHECK_FCT( fd_event_send(peer->p_events, FDEVP_CNX_ERROR, 0, NULL) );
return 0;
}
/* Handle the receiver side to go to OPEN or OPEN_NEW state (any election is resolved) */
int fd_p_ce_process_receiver(struct fd_peer * peer)
{
struct fd_pei pei;
struct msg * msg = NULL;
int isi = 0;
int fatal = 0;
int tls_sync=0;
TRACE_ENTRY("%p", peer);
CHECK_FCT_DO( set_peer_cnx(peer, &peer->p_receiver),
{
fd_hook_call(HOOK_PEER_CONNECT_FAILED, NULL, peer, "Error saving the incoming connection in the peer structure", NULL);
return __ret__;
} );
msg = peer->p_cer;
peer->p_cer = NULL;
memset(&pei, 0, sizeof(pei));
/* Parse the content of the received CER */
CHECK_FCT_DO( save_remote_CE_info(msg, peer, &pei, NULL), goto error_abort );
/* Validate the realm if needed */
if (peer->p_hdr.info.config.pic_realm) {
size_t len = strlen(peer->p_hdr.info.config.pic_realm);
if (fd_os_almostcasesrch(peer->p_hdr.info.config.pic_realm, len, peer->p_hdr.info.runtime.pir_realm, peer->p_hdr.info.runtime.pir_realmlen, NULL)) {
TRACE_DEBUG(INFO, "Rejected CER from peer '%s', realm mismatch with configured value (returning DIAMETER_UNKNOWN_PEER).", peer->p_hdr.info.pi_diamid);
pei.pei_errcode = "DIAMETER_UNKNOWN_PEER"; /* maybe AVP_NOT_ALLOWED would be better fit? */
goto error_abort;
}
}
/* Save the credentials if handshake already occurred */
if ( fd_cnx_getTLS(peer->p_cnxctx) ) {
CHECK_FCT( fd_cnx_getcred(peer->p_cnxctx, &peer->p_hdr.info.runtime.pir_cert_list, &peer->p_hdr.info.runtime.pir_cert_list_size) );
}
/* Validate the peer if needed */
if (peer->p_flags.pf_responder) {
int res = fd_peer_validate( peer );
if (res < 0) {
TRACE_DEBUG(INFO, "Rejected CER from peer '%s', validation failed (returning DIAMETER_UNKNOWN_PEER).", peer->p_hdr.info.pi_diamid);
pei.pei_errcode = "DIAMETER_UNKNOWN_PEER";
goto error_abort;
}
CHECK_FCT( res );
}
/* Check if we have common applications */
if ( fd_g_config->cnf_flags.no_fwd && (! peer->p_hdr.info.runtime.pir_relay) ) {
int got_common;
CHECK_FCT( fd_app_check_common( &fd_g_config->cnf_apps, &peer->p_hdr.info.runtime.pir_apps, &got_common) );
if (!got_common) {
TRACE_DEBUG(INFO, "No common application with peer '%s', sending DIAMETER_NO_COMMON_APPLICATION", peer->p_hdr.info.pi_diamid);
pei.pei_errcode = "DIAMETER_NO_COMMON_APPLICATION";
fatal = 1;
goto error_abort;
}
}
/* Do we agree on ISI ? */
if ( ! fd_cnx_getTLS(peer->p_cnxctx) ) {
/* In case of responder, the validate callback must have set the config.pic_flags.sec value already */
/* First case: we are not using old mechanism: ISI are deprecated, we ignore it. */
if ( ! (peer->p_hdr.info.config.pic_flags.sec & PI_SEC_TLS_OLD)) {
/* Just check then that the peer configuration allows for IPsec protection */
if (peer->p_hdr.info.config.pic_flags.sec & PI_SEC_NONE) {
isi = PI_SEC_NONE;
} else {
/* otherwise, we should have already been protected. Reject */
TRACE_DEBUG(INFO, "Non TLS-protected CER/CEA exchanges are not allowed with this peer, rejecting.");
}
} else {
/* The old mechanism is allowed with this peer. Now, look into the ISI AVP values */
/* In case no ISI was present anyway: */
if (!peer->p_hdr.info.runtime.pir_isi) {
TRACE_DEBUG(INFO, "Inband-Security-Id AVP is missing in received CER.");
if (peer->p_hdr.info.config.pic_flags.sec & PI_SEC_NONE) {
isi = PI_SEC_NONE;
TRACE_DEBUG(INFO, "IPsec protection allowed by configuration, allowing this mechanism to be used.");
} else {
/* otherwise, we should have already been protected. Reject */
TRACE_DEBUG(INFO, "Rejecting the peer connection (please allow IPsec here or configure TLS in the remote peer).");
}
} else {
/* OK, the remote peer did send the ISI AVP. */
if ((peer->p_hdr.info.config.pic_flags.sec & PI_SEC_NONE) && (peer->p_hdr.info.runtime.pir_isi & PI_SEC_NONE)) {
/* We have allowed IPsec */
isi = PI_SEC_NONE;
} else if (fd_g_config->cnf_sec_data.tls_disabled) {
/* We can agree on TLS */
TRACE_DEBUG(INFO, "Remote peer is not allowed for IPsec and TLS is disabled.");;
} else if (peer->p_hdr.info.runtime.pir_isi & PI_SEC_TLS_OLD) {
/* We can agree on TLS */
isi = PI_SEC_TLS_OLD;
} else {
TRACE_DEBUG(INFO, "Remote peer requested IPsec protection, but local configuration forbids it.");
}
}
}
/* If we did not find an agreement */
if (!isi) {
TRACE_DEBUG(INFO, "No common security mechanism with '%s', sending DIAMETER_NO_COMMON_SECURITY", peer->p_hdr.info.pi_diamid);
pei.pei_errcode = "DIAMETER_NO_COMMON_SECURITY";
fatal = 1;
goto error_abort;
}
/* Do not send the ISI IPsec if we are using the new mechanism */
if ((isi == PI_SEC_NONE) && (! (peer->p_hdr.info.config.pic_flags.sec & PI_SEC_TLS_OLD)))
isi = 0;
} else if (peer->p_hdr.info.runtime.pir_isi & PI_SEC_TLS_OLD) {
/* Seem some weird peers are sending the Inband-Security-Id AVP on the secure port... No harm */
isi = PI_SEC_TLS_OLD;
}
/* Reply a CEA */
CHECK_FCT( fd_msg_new_answer_from_req ( fd_g_config->cnf_dict, &msg, 0 ) );
CHECK_FCT( fd_msg_rescode_set(msg, "DIAMETER_SUCCESS", NULL, NULL, 0 ) );
CHECK_FCT( add_CE_info(msg, peer->p_cnxctx, isi & PI_SEC_TLS_OLD, isi & PI_SEC_NONE) );
/* The connection is complete, but we may still need TLS handshake */
fd_hook_call(HOOK_PEER_CONNECT_SUCCESS, msg, peer, NULL, NULL);
CHECK_FCT( fd_out_send(&msg, peer->p_cnxctx, peer, 0 ) );
/* Handshake if needed */
if (isi & PI_SEC_TLS_OLD) {
fd_psm_change_state(peer, STATE_OPEN_HANDSHAKE);
CHECK_FCT_DO( fd_cnx_handshake(peer->p_cnxctx, GNUTLS_SERVER, 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 after CER/CEA exchange", NULL);
goto cleanup;
} );
/* Retrieve the credentials */
CHECK_FCT_DO( fd_cnx_getcred(peer->p_cnxctx, &peer->p_hdr.info.runtime.pir_cert_list, &peer->p_hdr.info.runtime.pir_cert_list_size),
{
/* Error ... */
fd_hook_call(HOOK_PEER_CONNECT_FAILED, NULL, peer, "Unable to retrieve remote credentials after TLS handshake", NULL);
goto cleanup;
} );
/* Call second validation callback if needed */
if (peer->p_cb2) {
TRACE_DEBUG(FULL, "Calling second validation callback for %s", peer->p_hdr.info.pi_diamid);
CHECK_FCT_DO( (*peer->p_cb2)( &peer->p_hdr.info ),
{
fd_hook_call(HOOK_PEER_CONNECT_FAILED, NULL, peer, "Validation callback rejected the peer after handshake", NULL);
CHECK_FCT( fd_psm_terminate( peer, "DO_NOT_WANT_TO_TALK_TO_YOU" ) );
return 0;
} );
}
tls_sync = 1;
} else {
if ( ! fd_cnx_getTLS(peer->p_cnxctx) ) {
TRACE_DEBUG(INFO, "No TLS protection negotiated with peer '%s'.", peer->p_hdr.info.pi_diamid);
CHECK_FCT( fd_cnx_start_clear(peer->p_cnxctx, 1) );
}
}
/* Move to OPEN or REOPEN state */
if (peer->p_flags.pf_cnx_pb) {
fd_psm_change_state(peer, STATE_REOPEN );
CHECK_FCT( fd_p_dw_reopen(peer) );
} else {
if ((!tls_sync) && (fd_cnx_is_unordered_delivery_supported(peer->p_cnxctx))) {
fd_psm_change_state(peer, STATE_OPEN_NEW );
/* send DWR */
CHECK_FCT( fd_p_dw_timeout(peer) );
} else {
fd_psm_change_state(peer, STATE_OPEN );
fd_psm_next_timeout(peer, 1, peer->p_hdr.info.config.pic_twtimer ?: fd_g_config->cnf_timer_tw);
}
}
return 0;
error_abort:
if (pei.pei_errcode) {
/* Send the error */
fd_hook_call(HOOK_PEER_CONNECT_FAILED, msg, peer, pei.pei_message ?: pei.pei_errcode, NULL);
receiver_reject(&peer->p_cnxctx, &msg, &pei);
} else {
char buf[1024];
snprintf(buf, sizeof(buf), "Unexpected error occurred while processing incoming connection from '%s'.", peer->p_hdr.info.pi_diamid);
fd_hook_call(HOOK_PEER_CONNECT_FAILED, msg, peer, buf, NULL);
}
cleanup:
if (msg) {
fd_msg_free(msg);
}
fd_p_ce_clear_cnx(peer, NULL);
/* Send the error to the peer */
CHECK_FCT( fd_event_send(peer->p_events, fatal ? FDEVP_TERMINATE : FDEVP_CNX_ERROR, 0, NULL) );
return 0;
}
/* We have received a CER on a new connection for this peer */
int fd_p_ce_handle_newCER(struct msg ** msg, struct fd_peer * peer, struct cnxctx ** cnx, int valid)
{
struct fd_pei pei;
int cur_state = fd_peer_getstate(peer);
memset(&pei, 0, sizeof(pei));
switch (cur_state) {
case STATE_CLOSED:
peer->p_receiver = *cnx;
*cnx = NULL;
peer->p_cer = *msg;
*msg = NULL;
CHECK_FCT( fd_p_ce_process_receiver(peer) );
break;
case STATE_WAITCNXACK:
/* Save the parameters in the peer, move to STATE_WAITCNXACK_ELEC */
peer->p_receiver = *cnx;
*cnx = NULL;
peer->p_cer = *msg;
*msg = NULL;
CHECK_FCT( fd_psm_change_state(peer, STATE_WAITCNXACK_ELEC) );
break;
case STATE_WAITCEA:
if (election_result(peer)) {
/* Close initiator connection (was already set as principal) */
LOG_D("%s: Election lost on outgoing connection, closing and answering CEA on incoming connection.", peer->p_hdr.info.pi_diamid);
fd_p_ce_clear_cnx(peer, NULL);
/* and go on with the receiver side */
peer->p_receiver = *cnx;
*cnx = NULL;
peer->p_cer = *msg;
*msg = NULL;
CHECK_FCT( fd_p_ce_process_receiver(peer) );
} else {
/* Answer an ELECTION LOST to the receiver side and continue */
pei.pei_errcode = "ELECTION_LOST";
pei.pei_message = "Please answer my CER instead, you won the election.";
LOG_D("%s: Election lost on incoming connection, closing and waiting for CEA on outgoing connection.", peer->p_hdr.info.pi_diamid);
receiver_reject(cnx, msg, &pei);
}
break;
default:
pei.pei_errcode = "DIAMETER_UNABLE_TO_COMPLY"; /* INVALID COMMAND? in case of Capabilities-Updates? */
pei.pei_message = "Invalid state to receive a new connection attempt.";
LOG_E("%s: Rejecting new connection attempt while our state machine is in state '%s'", peer->p_hdr.info.pi_diamid, STATE_STR(cur_state));
receiver_reject(cnx, msg, &pei);
}
return 0;
}