-
/*
*
* Various SNAC-related dodads...
*
*/
+#define FAIM_INTERNAL
#include <faim/aim.h>
/*
* Called from aim_session_init() to initialize the hash.
*/
-void aim_initsnachash(struct aim_session_t *sess)
+faim_internal void aim_initsnachash(struct aim_session_t *sess)
{
int 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;
+
+ snac.data = malloc(datalen);
+ memcpy(snac.data, data, datalen);
+
+ return aim_newsnac(sess, &snac);
+}
+
/*
* Clones the passed snac structure and caches it in the
* list/hash.
*/
-u_long aim_newsnac(struct aim_session_t *sess,
- struct aim_snac_t *newsnac)
+faim_internal unsigned long aim_newsnac(struct aim_session_t *sess,
+ struct aim_snac_t *newsnac)
{
- struct aim_snac_t *snac = NULL, *cur = NULL;
+ struct aim_snac_t *snac = NULL;
int index;
if (!newsnac)
* The returned structure must be freed by the caller.
*
*/
-struct aim_snac_t *aim_remsnac(struct aim_session_t *sess,
- u_long id)
+faim_internal struct aim_snac_t *aim_remsnac(struct aim_session_t *sess,
+ u_long id)
{
- struct aim_snac_t *cur;
+ 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]->next) {
- if (sess->snac_hash[index]->id == id) {
- cur = sess->snac_hash[index];
- sess->snac_hash[index] = NULL;
- }
+ 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) {
* maxage is the _minimum_ age in seconds to keep SNACs.
*
*/
-int aim_cleansnacs(struct aim_session_t *sess,
- int maxage)
+faim_internal int aim_cleansnacs(struct aim_session_t *sess,
+ int maxage)
{
- struct aim_snac_t *cur;
- struct aim_snac_t *remed = NULL;
- time_t curtime;
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])
- ;
- else if (!sess->snac_hash[i]->next) {
- if ((sess->snac_hash[i]->issuetime + maxage) >= curtime) {
- remed = sess->snac_hash[i];
- if(remed->data)
- free(remed->data);
- free(remed);
- sess->snac_hash[i] = NULL;
- }
- } else {
- cur = sess->snac_hash[i];
- while(cur && cur->next) {
- if ((cur->next->issuetime + maxage) >= curtime) {
- remed = cur->next;
- cur->next = cur->next->next;
- if (remed->data)
- free(remed->data);
- free(remed);
- }
- cur = cur->next;
- }
+ 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;
}
-int aim_putsnac(u_char *buf, int family, int subtype, int flags, u_long snacid)
+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));