src/snac.c

/*
 *
 * Various SNAC-related dodads...
 *
 * outstanding_snacs is a list of aim_snac_t structs.  A SNAC should be added
 * whenever a new SNAC is sent and it should remain in the list until the
 * response for it has been receieved.
 *
 * cleansnacs() should be called periodically by the client in order
 * to facilitate the aging out of unreplied-to SNACs. This can and does
 * happen, so it should be handled.
 *
 */

#define FAIM_INTERNAL
#include <aim.h>

/*
 * Called from aim_session_init() to initialize the hash.
 */
faim_internal void aim_initsnachash(struct aim_session_t *sess)
{
  int i;

  for (i = 0; i < FAIM_SNAC_HASH_SIZE; i++) {
    sess->snac_hash[i] = NULL;
    faim_mutex_init(&sess->snac_hash_locks[i]);
  }

  return;
}

faim_internal unsigned long aim_cachesnac(struct aim_session_t *sess,
					  const unsigned short family,
					  const unsigned short type,
					  const unsigned short flags,
					  const void *data, const int datalen)
{
  struct aim_snac_t snac;

  snac.id = sess->snac_nextid++;
  snac.family = family;
  snac.type = type;
  snac.flags = flags;

  if (datalen) {
    if (!(snac.data = malloc(datalen)))
      return 0; /* er... */
    memcpy(snac.data, data, datalen);
  } else
    snac.data = NULL;

  return aim_newsnac(sess, &snac);
}

/*
 * Clones the passed snac structure and caches it in the
 * list/hash.
 */
faim_internal unsigned long aim_newsnac(struct aim_session_t *sess,
					struct aim_snac_t *newsnac)
{
  struct aim_snac_t *snac = NULL;
  int index;

  if (!newsnac)
    return 0;

  if (!(snac = calloc(1, sizeof(struct aim_snac_t))))
    return 0;
  memcpy(snac, newsnac, sizeof(struct aim_snac_t));
  snac->issuetime = time(&snac->issuetime);
  snac->next = NULL;

  index = snac->id % FAIM_SNAC_HASH_SIZE;

  faim_mutex_lock(&sess->snac_hash_locks[index]);
  snac->next = sess->snac_hash[index];
  sess->snac_hash[index] = snac;
  faim_mutex_unlock(&sess->snac_hash_locks[index]);

  return(snac->id);
}

/*
 * Finds a snac structure with the passed SNAC ID,
 * removes it from the list/hash, and returns a pointer to it.
 *
 * The returned structure must be freed by the caller.
 *
 */
faim_internal struct aim_snac_t *aim_remsnac(struct aim_session_t *sess,
					     u_long id)
{
  struct aim_snac_t *cur = NULL;
  int index;

  index = id % FAIM_SNAC_HASH_SIZE;

  faim_mutex_lock(&sess->snac_hash_locks[index]);
  if (!sess->snac_hash[index])
    ;
  else if (sess->snac_hash[index]->id == id) {
    cur = sess->snac_hash[index];
    sess->snac_hash[index] = cur->next;
  } else {
    cur = sess->snac_hash[index];
    while (cur->next) {
      if (cur->next->id == id) {
	struct aim_snac_t *tmp;

	tmp = cur->next;
	cur->next = cur->next->next;
	cur = tmp;
	break;
      }
      cur = cur->next;
    }
  }
  faim_mutex_unlock(&sess->snac_hash_locks[index]);

  return cur;
}

/*
 * This is for cleaning up old SNACs that either don't get replies or
 * a reply was never received for.  Garabage collection. Plain and simple.
 *
 * maxage is the _minimum_ age in seconds to keep SNACs.
 *
 */
faim_internal int aim_cleansnacs(struct aim_session_t *sess,
				 int maxage)
{
  int i;

  for (i = 0; i < FAIM_SNAC_HASH_SIZE; i++) {
    struct aim_snac_t *cur, **prev;
    time_t curtime;

    faim_mutex_lock(&sess->snac_hash_locks[i]);
    if (!sess->snac_hash[i]) {
      faim_mutex_unlock(&sess->snac_hash_locks[i]);
      continue;
    }

    curtime = time(NULL); /* done here in case we waited for the lock */

    for (prev = &sess->snac_hash[i]; (cur = *prev); ) {
      if ((curtime - cur->issuetime) > maxage) {

	*prev = cur->next;

	/* XXX should we have destructors here? */
	if (cur->data)
	  free(cur->data);
	free(cur);

      } else
	prev = &cur->next;
    }

    faim_mutex_unlock(&sess->snac_hash_locks[i]);
  }

  return 0;
}

faim_internal int aim_putsnac(u_char *buf, int family, int subtype, int flags, u_long snacid)
{
  int curbyte = 0;
  curbyte += aimutil_put16(buf+curbyte, (u_short)(family&0xffff));
  curbyte += aimutil_put16(buf+curbyte, (u_short)(subtype&0xffff));
  curbyte += aimutil_put16(buf+curbyte, (u_short)(flags&0xffff));
  curbyte += aimutil_put32(buf+curbyte, snacid);
  return curbyte;
}
Commit	Line	Data
	1	/*
	2	*
	3	* Various SNAC-related dodads...
	4	*
	5	* outstanding_snacs is a list of aim_snac_t structs. A SNAC should be added
	6	* whenever a new SNAC is sent and it should remain in the list until the
	7	* response for it has been receieved.
	8	*
	9	* cleansnacs() should be called periodically by the client in order
	10	* to facilitate the aging out of unreplied-to SNACs. This can and does
	11	* happen, so it should be handled.
	12	*
	13	*/
	14
	15	#define FAIM_INTERNAL
	16	#include <aim.h>
	17
	18	/*
	19	* Called from aim_session_init() to initialize the hash.
	20	*/
	21	faim_internal void aim_initsnachash(struct aim_session_t *sess)
	22	{
	23	int i;
	24
	25	for (i = 0; i < FAIM_SNAC_HASH_SIZE; i++) {
	26	sess->snac_hash[i] = NULL;
	27	faim_mutex_init(&sess->snac_hash_locks[i]);
	28	}
	29
	30	return;
	31	}
	32
	33	faim_internal unsigned long aim_cachesnac(struct aim_session_t *sess,
	34	const unsigned short family,
	35	const unsigned short type,
	36	const unsigned short flags,
	37	const void *data, const int datalen)
	38	{
	39	struct aim_snac_t snac;
	40
	41	snac.id = sess->snac_nextid++;
	42	snac.family = family;
	43	snac.type = type;
	44	snac.flags = flags;
	45
	46	if (datalen) {
	47	if (!(snac.data = malloc(datalen)))
	48	return 0; /* er... */
	49	memcpy(snac.data, data, datalen);
	50	} else
	51	snac.data = NULL;
	52
	53	return aim_newsnac(sess, &snac);
	54	}
	55
	56	/*
	57	* Clones the passed snac structure and caches it in the
	58	* list/hash.
	59	*/
	60	faim_internal unsigned long aim_newsnac(struct aim_session_t *sess,
	61	struct aim_snac_t *newsnac)
	62	{
	63	struct aim_snac_t *snac = NULL;
	64	int index;
	65
	66	if (!newsnac)
	67	return 0;
	68
	69	if (!(snac = calloc(1, sizeof(struct aim_snac_t))))
	70	return 0;
	71	memcpy(snac, newsnac, sizeof(struct aim_snac_t));
	72	snac->issuetime = time(&snac->issuetime);
	73	snac->next = NULL;
	74
	75	index = snac->id % FAIM_SNAC_HASH_SIZE;
	76
	77	faim_mutex_lock(&sess->snac_hash_locks[index]);
	78	snac->next = sess->snac_hash[index];
	79	sess->snac_hash[index] = snac;
	80	faim_mutex_unlock(&sess->snac_hash_locks[index]);
	81
	82	return(snac->id);
	83	}
	84
	85	/*
	86	* Finds a snac structure with the passed SNAC ID,
	87	* removes it from the list/hash, and returns a pointer to it.
	88	*
	89	* The returned structure must be freed by the caller.
	90	*
	91	*/
	92	faim_internal struct aim_snac_t aim_remsnac(struct aim_session_t sess,
	93	u_long id)
	94	{
	95	struct aim_snac_t *cur = NULL;
	96	int index;
	97
	98	index = id % FAIM_SNAC_HASH_SIZE;
	99
	100	faim_mutex_lock(&sess->snac_hash_locks[index]);
	101	if (!sess->snac_hash[index])
	102	;
	103	else if (sess->snac_hash[index]->id == id) {
	104	cur = sess->snac_hash[index];
	105	sess->snac_hash[index] = cur->next;
	106	} else {
	107	cur = sess->snac_hash[index];
	108	while (cur->next) {
	109	if (cur->next->id == id) {
	110	struct aim_snac_t *tmp;
	111
	112	tmp = cur->next;
	113	cur->next = cur->next->next;
	114	cur = tmp;
	115	break;
	116	}
	117	cur = cur->next;
	118	}
	119	}
	120	faim_mutex_unlock(&sess->snac_hash_locks[index]);
	121
	122	return cur;
	123	}
	124
	125	/*
	126	* This is for cleaning up old SNACs that either don't get replies or
	127	* a reply was never received for. Garabage collection. Plain and simple.
	128	*
	129	* maxage is the _minimum_ age in seconds to keep SNACs.
	130	*
	131	*/
	132	faim_internal int aim_cleansnacs(struct aim_session_t *sess,
	133	int maxage)
	134	{
	135	int i;
	136
	137	for (i = 0; i < FAIM_SNAC_HASH_SIZE; i++) {
	138	struct aim_snac_t cur, *prev;
	139	time_t curtime;
	140
	141	faim_mutex_lock(&sess->snac_hash_locks[i]);
	142	if (!sess->snac_hash[i]) {
	143	faim_mutex_unlock(&sess->snac_hash_locks[i]);
	144	continue;
	145	}
	146
	147	curtime = time(NULL); /* done here in case we waited for the lock */
	148
	149	for (prev = &sess->snac_hash[i]; (cur = *prev); ) {
	150	if ((curtime - cur->issuetime) > maxage) {
	151
	152	*prev = cur->next;
	153
	154	/* XXX should we have destructors here? */
	155	if (cur->data)
	156	free(cur->data);
	157	free(cur);
	158
	159	} else
	160	prev = &cur->next;
	161	}
	162
	163	faim_mutex_unlock(&sess->snac_hash_locks[i]);
	164	}
	165
	166	return 0;
	167	}
	168
	169	faim_internal int aim_putsnac(u_char *buf, int family, int subtype, int flags, u_long snacid)
	170	{
	171	int curbyte = 0;
	172	curbyte += aimutil_put16(buf+curbyte, (u_short)(family&0xffff));
	173	curbyte += aimutil_put16(buf+curbyte, (u_short)(subtype&0xffff));
	174	curbyte += aimutil_put16(buf+curbyte, (u_short)(flags&0xffff));
	175	curbyte += aimutil_put32(buf+curbyte, snacid);
	176	return curbyte;
	177	}