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|
/* timer event handling
* Copyright (C) 1997 Angelos D. Keromytis.
* Copyright (C) 1998-2001 D. Hugh Redelmeier.
* Copyright (C) 2009 Andreas Steffen - Hochschule fuer Technik Rapperswil
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*/
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <time.h>
#include <unistd.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <sys/queue.h>
#include <freeswan.h>
#include <library.h>
#include <crypto/rngs/rng.h>
#include "constants.h"
#include "defs.h"
#include "connections.h"
#include "state.h"
#include "demux.h"
#include "ipsec_doi.h" /* needs demux.h and state.h */
#include "kernel.h"
#include "server.h"
#include "log.h"
#include "timer.h"
#include "whack.h"
#include "nat_traversal.h"
/**
* monotonic version of time(3)
*/
time_t now(void)
{
static time_t delta = 0
, last_time = 0;
time_t n = time(NULL);
passert(n != (time_t)-1);
if (last_time > n)
{
plog("time moved backwards %ld seconds", (long)(last_time - n));
delta += last_time - n;
}
last_time = n;
return n + delta;
}
/* This file has the event handling routines. Events are
* kept as a linked list of event structures. These structures
* have information like event type, expiration time and a pointer
* to event specific data (for example, to a state structure).
*/
static struct event *evlist = (struct event *) NULL;
/**
* This routine places an event in the event list.
*/
void event_schedule(enum event_type type, time_t tm, struct state *st)
{
struct event *ev = malloc_thing(struct event);
ev->ev_type = type;
ev->ev_time = tm + now();
ev->ev_state = st;
/* If the event is associated with a state, put a backpointer to the
* event in the state object, so we can find and delete the event
* if we need to (for example, if we receive a reply).
*/
if (st != NULL)
{
if (type == EVENT_DPD || type == EVENT_DPD_TIMEOUT)
{
passert(st->st_dpd_event == NULL);
st->st_dpd_event = ev;
}
else
{
passert(st->st_event == NULL);
st->st_event = ev;
}
}
DBG(DBG_CONTROL,
if (st == NULL)
DBG_log("inserting event %N, timeout in %lu seconds"
, timer_event_names, type, (unsigned long)tm);
else
DBG_log("inserting event %N, timeout in %lu seconds for #%lu"
, timer_event_names, type, (unsigned long)tm
, ev->ev_state->st_serialno));
if (evlist == (struct event *) NULL
|| evlist->ev_time >= ev->ev_time)
{
ev->ev_next = evlist;
evlist = ev;
}
else
{
struct event *evt;
for (evt = evlist; evt->ev_next != NULL; evt = evt->ev_next)
if (evt->ev_next->ev_time >= ev->ev_time)
break;
#ifdef NEVER /* this seems to be overkill */
DBG(DBG_CONTROL,
if (evt->ev_state == NULL)
DBG_log("event added after event %N"
, timer_event_names, evt->ev_type);
else
DBG_log("event added after event %N for #%lu"
, timer_event_names, evt->ev_type,
, evt->ev_state->st_serialno));
#endif /* NEVER */
ev->ev_next = evt->ev_next;
evt->ev_next = ev;
}
}
/**
* Generate the secret value for responder cookies, and
* schedule an event for refresh.
*/
bool init_secret(void)
{
rng_t *rng;
rng = lib->crypto->create_rng(lib->crypto, RNG_STRONG);
if (rng == NULL)
{
plog("secret initialization failed, no RNG supported");
return FALSE;
}
rng->get_bytes(rng, sizeof(secret_of_the_day), secret_of_the_day);
rng->destroy(rng);
event_schedule(EVENT_REINIT_SECRET, EVENT_REINIT_SECRET_DELAY, NULL);
return true;
}
/**
* Handle the first event on the list.
*/
void handle_timer_event(void)
{
time_t tm;
struct event *ev = evlist;
int type;
struct state *st;
connection_t *c = NULL;
ip_address peer;
if (ev == (struct event *) NULL) /* Just paranoid */
{
DBG(DBG_CONTROL, DBG_log("empty event list, yet we're called"));
return;
}
type = ev->ev_type;
st = ev->ev_state;
tm = now();
if (tm < ev->ev_time)
{
DBG(DBG_CONTROL, DBG_log("called while no event expired (%lu/%lu, %N)"
, (unsigned long)tm, (unsigned long)ev->ev_time
, timer_event_names, type));
/* This will happen if the most close-to-expire event was
* a retransmission or cleanup, and we received a packet
* at the same time as the event expired. Due to the processing
* order in call_server(), the packet processing will happen first,
* and the event will be removed.
*/
return;
}
evlist = evlist->ev_next; /* Ok, we'll handle this event */
DBG(DBG_CONTROL,
if (evlist != (struct event *) NULL)
DBG_log("event after this is %N in %ld seconds"
, timer_event_names, evlist->ev_type
, (long) (evlist->ev_time - tm)));
/* for state-associated events, pick up the state pointer
* and remove the backpointer from the state object.
* We'll eventually either schedule a new event, or delete the state.
*/
passert(GLOBALS_ARE_RESET());
if (st != NULL)
{
c = st->st_connection;
if (type == EVENT_DPD || type == EVENT_DPD_TIMEOUT)
{
passert(st->st_dpd_event == ev);
st->st_dpd_event = NULL;
}
else
{
passert(st->st_event == ev);
st->st_event = NULL;
}
peer = c->spd.that.host_addr;
set_cur_state(st);
}
switch (type)
{
case EVENT_REINIT_SECRET:
passert(st == NULL);
DBG(DBG_CONTROL, DBG_log("event EVENT_REINIT_SECRET handled"));
init_secret();
break;
case EVENT_LOG_DAILY:
daily_log_event();
break;
case EVENT_RETRANSMIT:
/* Time to retransmit, or give up.
*
* Generally, we'll only try to send the message
* MAXIMUM_RETRANSMISSIONS times. Each time we double
* our patience.
*
* As a special case, if this is the first initiating message
* of a Main Mode exchange, and we have been directed to try
* forever, we'll extend the number of retransmissions to
* MAXIMUM_RETRANSMISSIONS_INITIAL times, with all these
* extended attempts having the same patience. The intention
* is to reduce the bother when nobody is home.
*/
{
time_t delay = 0;
DBG(DBG_CONTROL, DBG_log(
"handling event EVENT_RETRANSMIT for %s \"%s\" #%lu"
, ip_str(&peer), c->name, st->st_serialno));
if (st->st_retransmit < MAXIMUM_RETRANSMISSIONS)
delay = EVENT_RETRANSMIT_DELAY_0 << (st->st_retransmit + 1);
else if (st->st_state == STATE_MAIN_I1
&& c->sa_keying_tries == 0
&& st->st_retransmit < MAXIMUM_RETRANSMISSIONS_INITIAL)
delay = EVENT_RETRANSMIT_DELAY_0 << MAXIMUM_RETRANSMISSIONS;
if (delay != 0)
{
st->st_retransmit++;
whack_log(RC_RETRANSMISSION
, "%s: retransmission; will wait %lus for response"
, enum_name(&state_names, st->st_state)
, (unsigned long)delay);
send_packet(st, "EVENT_RETRANSMIT");
event_schedule(EVENT_RETRANSMIT, delay, st);
}
else
{
/* check if we've tried rekeying enough times.
* st->st_try == 0 means that this should be the only try.
* c->sa_keying_tries == 0 means that there is no limit.
*/
unsigned long try = st->st_try;
unsigned long try_limit = c->sa_keying_tries;
const char *details = "";
switch (st->st_state)
{
case STATE_MAIN_I3:
details = ". Possible authentication failure:"
" no acceptable response to our"
" first encrypted message";
break;
case STATE_MAIN_I1:
details = ". No response (or no acceptable response) to our"
" first IKE message";
break;
case STATE_QUICK_I1:
if (c->newest_ipsec_sa == SOS_NOBODY)
details = ". No acceptable response to our"
" first Quick Mode message:"
" perhaps peer likes no proposal";
break;
default:
break;
}
loglog(RC_NORETRANSMISSION
, "max number of retransmissions (%d) reached %s%s"
, st->st_retransmit
, enum_show(&state_names, st->st_state), details);
if (try != 0 && try != try_limit)
{
/* A lot like EVENT_SA_REPLACE, but over again.
* Since we know that st cannot be in use,
* we can delete it right away.
*/
char story[80]; /* arbitrary limit */
try++;
snprintf(story, sizeof(story), try_limit == 0
? "starting keying attempt %ld of an unlimited number"
: "starting keying attempt %ld of at most %ld"
, try, try_limit);
if (st->st_whack_sock != NULL_FD)
{
/* Release whack because the observer will get bored. */
loglog(RC_COMMENT, "%s, but releasing whack"
, story);
release_pending_whacks(st, story);
}
else
{
/* no whack: just log to syslog */
plog("%s", story);
}
ipsecdoi_replace(st, try);
}
delete_state(st);
}
}
break;
case EVENT_SA_REPLACE:
case EVENT_SA_REPLACE_IF_USED:
{
so_serial_t newest = IS_PHASE1(st->st_state)
? c->newest_isakmp_sa : c->newest_ipsec_sa;
if (newest != st->st_serialno
&& newest != SOS_NOBODY)
{
/* not very interesting: no need to replace */
DBG(DBG_LIFECYCLE
, plog("not replacing stale %s SA: #%lu will do"
, IS_PHASE1(st->st_state)? "ISAKMP" : "IPsec"
, newest));
}
else if (type == EVENT_SA_REPLACE_IF_USED
&& st->st_outbound_time <= tm - c->sa_rekey_margin)
{
/* we observed no recent use: no need to replace
*
* The sampling effects mean that st_outbound_time
* could be up to SHUNT_SCAN_INTERVAL more recent
* than actual traffic because the sampler looks at change
* over that interval.
* st_outbound_time could also not yet reflect traffic
* in the last SHUNT_SCAN_INTERVAL.
* We expect that SHUNT_SCAN_INTERVAL is smaller than
* c->sa_rekey_margin so that the effects of this will
* be unimportant.
* This is just an optimization: correctness is not
* at stake.
*
* Note: we are abusing the DBG mechanism to control
* normal log output.
*/
DBG(DBG_LIFECYCLE
, plog("not replacing stale %s SA: inactive for %lus"
, IS_PHASE1(st->st_state)? "ISAKMP" : "IPsec"
, (unsigned long)(tm - st->st_outbound_time)));
}
else
{
DBG(DBG_LIFECYCLE
, plog("replacing stale %s SA"
, IS_PHASE1(st->st_state)? "ISAKMP" : "IPsec"));
ipsecdoi_replace(st, 1);
}
delete_dpd_event(st);
event_schedule(EVENT_SA_EXPIRE, st->st_margin, st);
}
break;
case EVENT_SA_EXPIRE:
{
const char *satype;
so_serial_t latest;
if (IS_PHASE1(st->st_state))
{
satype = "ISAKMP";
latest = c->newest_isakmp_sa;
}
else
{
satype = "IPsec";
latest = c->newest_ipsec_sa;
}
if (st->st_serialno != latest)
{
/* not very interesting: already superseded */
DBG(DBG_LIFECYCLE
, plog("%s SA expired (superseded by #%lu)"
, satype, latest));
}
else
{
plog("%s SA expired (%s)", satype
, (c->policy & POLICY_DONT_REKEY)
? "--dontrekey"
: "LATEST!"
);
}
}
/* FALLTHROUGH */
case EVENT_SO_DISCARD:
/* Delete this state object. It must be in the hash table. */
delete_state(st);
break;
case EVENT_DPD:
dpd_outI(st);
break;
case EVENT_DPD_TIMEOUT:
dpd_timeout(st);
break;
case EVENT_NAT_T_KEEPALIVE:
nat_traversal_ka_event();
break;
default:
loglog(RC_LOG_SERIOUS, "INTERNAL ERROR: ignoring unknown expiring event %N"
, timer_event_names, type);
}
free(ev);
reset_cur_state();
}
/**
* Return the time until the next event in the queue
* expires (never negative), or -1 if no jobs in queue.
*/
long next_event(void)
{
time_t tm;
if (evlist == (struct event *) NULL)
return -1;
tm = now();
DBG(DBG_CONTROL,
if (evlist->ev_state == NULL)
DBG_log("next event %N in %ld seconds"
, timer_event_names, evlist->ev_type
, (long)evlist->ev_time - (long)tm);
else
DBG_log("next event %N in %ld seconds for #%lu"
, timer_event_names, evlist->ev_type
, (long)evlist->ev_time - (long)tm
, evlist->ev_state->st_serialno));
if (evlist->ev_time - tm <= 0)
return 0;
else
return evlist->ev_time - tm;
}
/**
* Delete an event.
*/
void delete_event(struct state *st)
{
if (st->st_event != (struct event *) NULL)
{
struct event **ev;
for (ev = &evlist; ; ev = &(*ev)->ev_next)
{
if (*ev == NULL)
{
DBG(DBG_CONTROL, DBG_log("event %N to be deleted not found",
timer_event_names, st->st_event->ev_type));
break;
}
if ((*ev) == st->st_event)
{
*ev = (*ev)->ev_next;
if (st->st_event->ev_type == EVENT_RETRANSMIT)
{
st->st_retransmit = 0;
}
free(st->st_event);
st->st_event = (struct event *) NULL;
break;
}
}
}
}
/**
* Delete a DPD event.
*/
void delete_dpd_event(struct state *st)
{
if (st->st_dpd_event != (struct event *) NULL)
{
struct event **ev;
for (ev = &evlist; ; ev = &(*ev)->ev_next)
{
if (*ev == NULL)
{
DBG(DBG_CONTROL, DBG_log("event %N to be deleted not found",
timer_event_names, st->st_dpd_event->ev_type));
break;
}
if ((*ev) == st->st_dpd_event)
{
*ev = (*ev)->ev_next;
free(st->st_dpd_event);
st->st_dpd_event = (struct event *) NULL;
break;
}
}
}
}
/**
* Free remaining events
*/
void free_events(void)
{
struct event *ev_tmp, *ev;
ev = evlist;
evlist = NULL;
while (ev)
{
ev_tmp = ev;
ev = ev->ev_next;
free(ev_tmp);
}
}
|