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/*********************************************************************************************************
* 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 *
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* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. *
*********************************************************************************************************/
/* See doc/rt_busypeers.conf.sample for more details about the features of this extension */
#include "rtbusy.h"
/* The configuration structure */
struct rtbusy_conf rtbusy_conf;
static struct fd_rt_fwd_hdl * rt_busy_hdl = NULL;
static void rtbusy_expirecb(void * data, DiamId_t sentto, size_t senttolen, struct msg ** req);
/* The function that does the actual work */
int rt_busy_process_busy(struct msg ** pmsg, int is_req, DiamId_t sentto, size_t senttolen, union avp_value *oh)
{
struct msg * qry = NULL;
struct rt_data * rtd = NULL;
struct fd_list * candidates = NULL;
int sendingattempts;
int resend = 1;
TRACE_ENTRY("%p(%p) %d %p %p", pmsg, pmsg?*pmsg:NULL, is_req, sentto, oh);
if (is_req) {
qry = *pmsg;
} else {
CHECK_FCT( fd_msg_answ_getq( *pmsg, &qry ) );
}
CHECK_FCT( fd_msg_rt_get ( qry, &rtd ) );
ASSERT(rtd);
/* rtd is the routing data associated with the query that was sent */
/* Store the error in this routing data, this avoids sending the message to the same peer again */
CHECK_FCT( fd_rtd_error_add(rtd,
sentto, senttolen,
(uint8_t *)(oh ? (DiamId_t)oh->os.data : fd_g_config->cnf_diamid), oh ? oh->os.len : fd_g_config->cnf_diamid_len ,
ER_DIAMETER_TOO_BUSY,
&candidates,
&sendingattempts) );
/* Now we need to decide if we re-send this query to a different peer or return an error to upstream */
/* First, are we exceeding the allowed attempts? */
if (rtbusy_conf.RetryMaxPeers != 0) {
if (sendingattempts >= rtbusy_conf.RetryMaxPeers) {
TRACE_DEBUG(FULL, "Maximum number of sending attempts reached for message %p, returning an error upstream", qry);
resend = 0;
}
}
if (resend) {
/* Check if we have any valid candidate left for sending the message. This may not be 100% accurate but there should not be
any situation where this is actually an issue. */
if (FD_IS_LIST_EMPTY(candidates)) {
resend = 0;
} else {
struct rtd_candidate * first = candidates->next->o;
if (first->score < 0) /* No more candidate available */
resend = 0;
}
}
/* Ok, now act on the message, we know what to do */
if (resend) {
if (!is_req) {
/* We must free the answer we received, and send the query again */
CHECK_FCT( fd_msg_answ_detach(*pmsg) );
CHECK_FCT( fd_msg_free(*pmsg) );
*pmsg = qry;
}
/* Send the query again. We need to re-associate the expirecb which was cleaned, if it is used */
if (rtbusy_conf.RelayTimeout) {
char *buf = NULL;
size_t len;
struct timespec expire;
CHECK_SYS( clock_gettime(CLOCK_REALTIME, &expire) );
expire.tv_sec += rtbusy_conf.RelayTimeout/1000 + ((expire.tv_nsec + (1000000LL * (rtbusy_conf.RelayTimeout % 1000))) / 1000000000LL);
expire.tv_nsec = (expire.tv_nsec + (1000000LL * (rtbusy_conf.RelayTimeout % 1000))) % 1000000000LL;
CHECK_MALLOC_DO( fd_msg_dump_full(&buf, &len, NULL, *pmsg, fd_g_config->cnf_dict, 0, 1), /* nothing */);
TRACE_ERROR( "No answer received for message from peer '%.*s' before timeout (%dms), re-sending: %s", (int)senttolen, sentto,
rtbusy_conf.RelayTimeout, buf);
free(buf);
CHECK_FCT( fd_msg_send_timeout( pmsg, NULL, NULL, rtbusy_expirecb, &expire ) );
} else {
CHECK_FCT( fd_msg_send(pmsg, NULL, NULL) );
}
} else {
if (is_req) {
char *buf = NULL;
size_t len;
CHECK_MALLOC_DO( fd_msg_dump_full(&buf, &len, NULL, *pmsg, fd_g_config->cnf_dict, 0, 1), /* nothing */);
TRACE_ERROR( "No answer received for message from peer '%.*s' before timeout (%dms), giving up and sending error reply: %s", (int)senttolen, sentto,
rtbusy_conf.RelayTimeout, buf);
free(buf);
/* We must create an answer */
CHECK_FCT( fd_msg_new_answer_from_req ( fd_g_config->cnf_dict, pmsg, MSGFL_ANSW_ERROR ) );
CHECK_FCT( fd_msg_rescode_set(*pmsg, "DIAMETER_TOO_BUSY", "[rt_busypeers] Timeout reached while waiting for an answer", NULL, 1 ) );
CHECK_FCT( fd_msg_send(pmsg, NULL, NULL) );
}
/* Otherwise, we have nothing to do at all, the answer will be forwarded upstream as part of the normal processing */
}
return 0;
}
/* Callback called on expiry of the timeout timer */
static void rtbusy_expirecb(void * data, DiamId_t sentto, size_t senttolen, struct msg ** preq)
{
CHECK_FCT_DO( rt_busy_process_busy(preq, 1, sentto, senttolen, NULL), /* continue */ );
}
/* the routing callback that handles all the tasks of this extension */
static int rtbusy_fwd_cb(void * cbdata, struct msg ** pmsg)
{
struct msg_hdr * hdr;
struct avp * avp;
union avp_value *a_rc = NULL, *a_oh = NULL;
DiamId_t sentto = NULL;
size_t senttolen;
/* Get the header of the message */
CHECK_FCT( fd_msg_hdr(*pmsg, &hdr) );
/* If the message is a request, we only associate the timeout */
if (hdr->msg_flags & CMD_FLAG_REQUEST) {
struct timespec expire;
CHECK_SYS( clock_gettime(CLOCK_REALTIME, &expire) );
expire.tv_sec += rtbusy_conf.RelayTimeout/1000 + ((expire.tv_nsec + (1000000LL * (rtbusy_conf.RelayTimeout % 1000))) / 1000000000LL);
expire.tv_nsec = (expire.tv_nsec + (1000000LL * (rtbusy_conf.RelayTimeout % 1000))) % 1000000000LL;
CHECK_FCT( fd_msg_anscb_associate( *pmsg, NULL, NULL, rtbusy_expirecb, &expire ) );
return 0;
}
/* From this point, the message is an answer; we need to check if the E flag is set and if the Result-Code is DIAMETER_TOO_BUSY */
if (!(hdr->msg_flags & CMD_FLAG_ERROR)) {
/* This answer does not have the E flag, no need to process further */
return 0;
}
CHECK_FCT( fd_msg_source_get( *pmsg, &sentto, &senttolen ) );
/* Now get the AVPs we are interested in */
CHECK_FCT( fd_msg_browse(*pmsg, MSG_BRW_FIRST_CHILD, &avp, NULL) );
while (avp) {
struct avp_hdr * ahdr;
CHECK_FCT( fd_msg_avp_hdr( avp, &ahdr ) );
if (! (ahdr->avp_flags & AVP_FLAG_VENDOR)) {
switch (ahdr->avp_code) {
case AC_ORIGIN_HOST:
/* Parse this AVP */
CHECK_FCT( fd_msg_parse_dict ( avp, fd_g_config->cnf_dict, NULL ) );
ASSERT( ahdr->avp_value );
a_oh = ahdr->avp_value;
break;
case AC_RESULT_CODE:
/* Parse this AVP */
CHECK_FCT( fd_msg_parse_dict ( avp, fd_g_config->cnf_dict, NULL ) );
ASSERT( ahdr->avp_value );
a_rc = ahdr->avp_value;
if (a_rc->u32 != ER_DIAMETER_TOO_BUSY) {
/* It is not a TOO_BUSY error, we don't do anything */
goto out;
}
break;
}
if (a_rc && a_oh)
break;
}
/* Go to next AVP */
CHECK_FCT( fd_msg_browse(avp, MSG_BRW_NEXT, &avp, NULL) );
}
/* Check we have received the necessary information */
if (!a_rc) {
TRACE_ERROR( "Invalid Diameter answer without a Result-Code AVP, rt_busypeer module gave up processing");
goto out;
}
if (!a_oh) {
TRACE_ERROR( "Invalid Diameter answer without an Origin-Host AVP, rt_busypeer module gave up processing");
goto out;
}
/* Pass this error to the function that processes BUSY status */
CHECK_FCT( rt_busy_process_busy(pmsg, 0, sentto, senttolen, a_oh) );
out:
return 0;
}
/* entry point */
static int rtbusy_entry(char * conffile)
{
enum fd_rt_fwd_dir dir = RT_FWD_ANS;
TRACE_ENTRY("%p", conffile);
/* Initialize the configuration */
memset(&rtbusy_conf, 0, sizeof(rtbusy_conf));
/* Parse the configuration file */
CHECK_FCT( rtbusy_conf_handle(conffile) );
if (rtbusy_conf.SkipTooBusyErrors && !rtbusy_conf.RelayTimeout) {
TRACE_NOTICE("[rt_busypeers] Configuration file does not specify any behavior (no effect)!");
return 0;
}
if (rtbusy_conf.SkipTooBusyErrors)
dir = RT_FWD_REQ; /* in this case, RelayTimeout is not 0 */
else if (rtbusy_conf.RelayTimeout)
dir = RT_FWD_ALL;
/* Register the callback */
CHECK_FCT( fd_rt_fwd_register ( rtbusy_fwd_cb, NULL, dir, &rt_busy_hdl ) );
/* We're done */
return 0;
}
/* Unload */
void fd_ext_fini(void)
{
TRACE_ENTRY();
/* Unregister the cb */
if (rt_busy_hdl)
CHECK_FCT_DO( fd_rt_fwd_unregister ( rt_busy_hdl, NULL), /* continue */);
/* Done */
return ;
}
EXTENSION_ENTRY("rt_busypeers", rtbusy_entry);