void geo_unload(geo_t *g) {
if (g->geo_mode == GEO_RANGE) {
range_free(g->u.range);
} else if (g->geo_mode == GEO_CIDR) {
radix_tree_free(g->u.tree);
} else {
/* should NOT get here */
assert(0);
}
free(g);
}
void
rspamd_radix_test_func (void)
{
#if 0
radix_tree_t *tree = radix_tree_create ();
#endif
radix_compressed_t *comp_tree = radix_create_compressed ();
struct {
guint32 addr;
guint32 mask;
guint8 addr6[16];
guint32 mask6;
} *addrs;
gsize nelts, i;
gint lc;
gboolean all_good = TRUE;
gdouble ts1, ts2;
double diff;
/* Test suite for the compressed trie */
rspamd_radix_text_vec ();
nelts = max_elts;
/* First of all we generate many elements and push them to the array */
addrs = g_malloc (nelts * sizeof (addrs[0]));
for (i = 0; i < nelts; i ++) {
addrs[i].addr = ottery_rand_uint32 ();
addrs[i].mask = masks[ottery_rand_range(G_N_ELEMENTS (masks) - 1)];
ottery_rand_bytes (addrs[i].addr6, sizeof(addrs[i].addr6));
addrs[i].mask6 = ottery_rand_range(128);
}
#if 0
msg_info ("old radix performance (%z elts)", nelts);
ts1 = rspamd_get_ticks ();
for (i = 0; i < nelts; i ++) {
guint32 mask = G_MAXUINT32 << (32 - addrs[i].mask);
radix32tree_insert (tree, addrs[i].addr, mask, 1);
}
ts2 = rspamd_get_ticks ();
diff = (ts2 - ts1) * 1000.0;
msg_info ("Added %z elements in %.6f ms", nelts, diff);
ts1 = rspamd_get_ticks ();
for (lc = 0; lc < lookup_cycles; lc ++) {
for (i = 0; i < nelts; i ++) {
g_assert (radix32tree_find (tree, addrs[i].addr) != RADIX_NO_VALUE);
}
}
ts2 = rspamd_get_ticks ();
diff = (ts2 - ts1) * 1000.0;
msg_info ("Checked %z elements in %.6f ms", nelts, diff);
ts1 = rspamd_get_ticks ();
for (i = 0; i < nelts; i ++) {
radix32tree_delete (tree, addrs[i].addr, addrs[i].mask);
}
ts2 = rspamd_get_ticks ();
diff = (ts2 - ts1) * 1000.;
msg_info ("Deleted %z elements in %.6f ms", nelts, diff);
radix_tree_free (tree);
#endif
msg_info ("new radix performance (%z elts)", nelts);
ts1 = rspamd_get_ticks ();
for (i = 0; i < nelts; i ++) {
radix_insert_compressed (comp_tree, addrs[i].addr6, sizeof (addrs[i].addr6),
128 - addrs[i].mask6, i);
}
ts2 = rspamd_get_ticks ();
diff = (ts2 - ts1) * 1000.0;
msg_info ("Added %z elements in %.6f ms", nelts, diff);
ts1 = rspamd_get_ticks ();
for (lc = 0; lc < lookup_cycles; lc ++) {
for (i = 0; i < nelts; i ++) {
if (radix_find_compressed (comp_tree, addrs[i].addr6, sizeof (addrs[i].addr6))
== RADIX_NO_VALUE) {
all_good = FALSE;
}
}
}
#if 1
if (!all_good) {
for (i = 0; i < nelts; i ++) {
/* Used to write bad random vector */
char ipbuf[INET6_ADDRSTRLEN + 1];
inet_ntop(AF_INET6, addrs[i].addr6, ipbuf, sizeof(ipbuf));
msg_info("{\"%s\", NULL, \"%ud\", 0, 0, 0, 0},",
ipbuf,
addrs[i].mask6);
}
}
#endif
g_assert (all_good);
ts2 = rspamd_get_ticks ();
diff = (ts2 - ts1) * 1000.0;
msg_info ("Checked %z elements in %.6f ms", nelts, diff);
radix_destroy_compressed (comp_tree);
g_free (addrs);
}
