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|
/*
* Filters: Utility Functions Tests
*
* (c) 2015 CZ.NIC z.s.p.o.
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
#include "test/birdtest.h"
#include "test/bt-utils.h"
#include "filter/filter.h"
#include "filter/data.h"
#include "conf/conf.h"
#define TESTS_NUM 10
#define PREFIXES_NUM 32
#define PREFIX_TESTS_NUM 10000
#define PREFIX_BENCH_NUM 100000000
#define TRIE_BUFFER_SIZE 1024
#define TEST_BUFFER_SIZE (1024*1024)
#define BIG_BUFFER_SIZE 10000
/* Wrapping structure for storing f_prefixes structures in list */
struct f_prefix_node {
node n;
struct f_prefix prefix;
};
static u32
xrandom(u32 max)
{
return (bt_random() % max);
}
static inline uint
get_exp_random(void)
{
uint r, n = 0;
for (r = bt_random(); r & 1; r = r >> 1)
n++;
return n;
}
static int
compare_prefixes(const void *a, const void *b)
{
return net_compare(&((const struct f_prefix *) a)->net,
&((const struct f_prefix *) b)->net);
}
static inline int
matching_ip4_nets(const net_addr_ip4 *a, const net_addr_ip4 *b)
{
ip4_addr cmask = ip4_mkmask(MIN(a->pxlen, b->pxlen));
return ip4_compare(ip4_and(a->prefix, cmask), ip4_and(b->prefix, cmask)) == 0;
}
static inline int
matching_ip6_nets(const net_addr_ip6 *a, const net_addr_ip6 *b)
{
ip6_addr cmask = ip6_mkmask(MIN(a->pxlen, b->pxlen));
return ip6_compare(ip6_and(a->prefix, cmask), ip6_and(b->prefix, cmask)) == 0;
}
static inline int
matching_nets(const net_addr *a, const net_addr *b)
{
if (a->type != b->type)
return 0;
return (a->type == NET_IP4) ?
matching_ip4_nets((const net_addr_ip4 *) a, (const net_addr_ip4 *) b) :
matching_ip6_nets((const net_addr_ip6 *) a, (const net_addr_ip6 *) b);
}
static int
is_prefix_included(list *prefixes, const net_addr *needle)
{
struct f_prefix_node *n;
WALK_LIST(n, *prefixes)
if (matching_nets(&n->prefix.net, needle) &&
(n->prefix.lo <= needle->pxlen) && (needle->pxlen <= n->prefix.hi))
{
char buf[64];
bt_format_net(buf, 64, &n->prefix.net);
bt_debug("FOUND %s %d-%d\n", buf, n->prefix.lo, n->prefix.hi);
return 1; /* OK */
}
return 0; /* FAIL */
}
static void
get_random_net(net_addr *net, int v6)
{
if (!v6)
{
uint pxlen = xrandom(24)+8;
ip4_addr ip4 = ip4_from_u32((u32) bt_random());
net_fill_ip4(net, ip4_and(ip4, ip4_mkmask(pxlen)), pxlen);
}
else
{
uint pxlen = xrandom(120)+8;
ip6_addr ip6 = ip6_build(bt_random(), bt_random(), bt_random(), bt_random());
net_fill_ip6(net, ip6_and(ip6, ip6_mkmask(pxlen)), pxlen);
}
}
static void
get_random_prefix(struct f_prefix *px, int v6, int tight)
{
get_random_net(&px->net, v6);
if (tight)
{
px->lo = px->hi = px->net.pxlen;
}
else if (bt_random() % 2)
{
px->lo = 0;
px->hi = px->net.pxlen;
}
else
{
px->lo = px->net.pxlen;
px->hi = net_max_prefix_length[px->net.type];
}
}
static void
get_random_ip4_subnet(net_addr_ip4 *net, const net_addr_ip4 *src, int pxlen)
{
*net = NET_ADDR_IP4(ip4_and(src->prefix, ip4_mkmask(pxlen)), pxlen);
if (pxlen > src->pxlen)
{
ip4_addr rnd = ip4_from_u32((u32) bt_random());
ip4_addr mask = ip4_xor(ip4_mkmask(src->pxlen), ip4_mkmask(pxlen));
net->prefix = ip4_or(net->prefix, ip4_and(rnd, mask));
}
}
static void
get_random_ip6_subnet(net_addr_ip6 *net, const net_addr_ip6 *src, int pxlen)
{
*net = NET_ADDR_IP6(ip6_and(src->prefix, ip6_mkmask(pxlen)), pxlen);
if (pxlen > src->pxlen)
{
ip6_addr rnd = ip6_build(bt_random(), bt_random(), bt_random(), bt_random());
ip6_addr mask = ip6_xor(ip6_mkmask(src->pxlen), ip6_mkmask(pxlen));
net->prefix = ip6_or(net->prefix, ip6_and(rnd, mask));
}
}
static void
get_random_subnet(net_addr *net, const net_addr *src, int pxlen)
{
if (src->type == NET_IP4)
get_random_ip4_subnet((net_addr_ip4 *) net, (const net_addr_ip4 *) src, pxlen);
else
get_random_ip6_subnet((net_addr_ip6 *) net, (const net_addr_ip6 *) src, pxlen);
}
static void
get_inner_net(net_addr *net, const struct f_prefix *src)
{
int pxlen, step;
if (bt_random() % 2)
{
step = get_exp_random();
step = MIN(step, src->hi - src->lo);
pxlen = (bt_random() % 2) ? (src->lo + step) : (src->hi - step);
}
else
pxlen = src->lo + bt_random() % (src->hi - src->lo + 1);
get_random_subnet(net, &src->net, pxlen);
}
static void
swap_random_bits_ip4(net_addr_ip4 *net, int num)
{
for (int i = 0; i < num; i++)
{
ip4_addr swap = IP4_NONE;
ip4_setbit(&swap, bt_random() % net->pxlen);
net->prefix = ip4_xor(net->prefix, swap);
}
}
static void
swap_random_bits_ip6(net_addr_ip6 *net, int num)
{
for (int i = 0; i < num; i++)
{
ip6_addr swap = IP6_NONE;
ip6_setbit(&swap, bt_random() % net->pxlen);
net->prefix = ip6_xor(net->prefix, swap);
}
}
static void
swap_random_bits(net_addr *net, int num)
{
if (net->type == NET_IP4)
swap_random_bits_ip4((net_addr_ip4 *) net, num);
else
swap_random_bits_ip6((net_addr_ip6 *) net, num);
}
static void
get_outer_net(net_addr *net, const struct f_prefix *src)
{
int pxlen, step;
int inside = 0;
int max = net_max_prefix_length[src->net.type];
if ((src->lo > 0) && (bt_random() % 3))
{
step = 1 + get_exp_random();
step = MIN(step, src->lo);
pxlen = src->lo - step;
}
else if ((src->hi < max) && (bt_random() % 2))
{
step = 1 + get_exp_random();
step = MIN(step, max - src->hi);
pxlen = src->hi + step;
}
else
{
pxlen = src->lo + bt_random() % (src->hi - src->lo + 1);
inside = 1;
}
get_random_subnet(net, &src->net, pxlen);
/* Perhaps swap some bits in prefix */
if ((net->pxlen > 0) && (inside || (bt_random() % 4)))
swap_random_bits(net, 1 + get_exp_random());
}
static list *
make_random_prefix_list(int num, int v6, int tight)
{
list *prefixes = lp_allocz(tmp_linpool, sizeof(struct f_prefix_node));
init_list(prefixes);
for (int i = 0; i < num; i++)
{
struct f_prefix_node *px = lp_allocz(tmp_linpool, sizeof(struct f_prefix_node));
get_random_prefix(&px->prefix, v6, tight);
add_tail(prefixes, &px->n);
char buf[64];
bt_format_net(buf, 64, &px->prefix.net);
bt_debug("ADD %s{%d,%d}\n", buf, px->prefix.lo, px->prefix.hi);
}
return prefixes;
}
static struct f_trie *
make_trie_from_prefix_list(list *prefixes)
{
struct f_trie *trie = f_new_trie(tmp_linpool, 0);
struct f_prefix_node *n;
WALK_LIST(n, *prefixes)
trie_add_prefix(trie, &n->prefix.net, n->prefix.lo, n->prefix.hi);
return trie;
}
/*
* Read sequence of prefixes from file handle and return prefix list.
* Each prefix is on one line, sequence terminated by empty line or eof.
* Arg @plus means prefix should include all longer ones.
*/
static list *
read_prefix_list(FILE *f, int v6, int plus)
{
ASSERT(!v6);
uint a0, a1, a2, a3, pl;
char s[32];
int n;
list *pxlist = lp_allocz(tmp_linpool, sizeof(struct f_prefix_node));
init_list(pxlist);
errno = 0;
while (fgets(s, 32, f))
{
if (s[0] == '\n')
return pxlist;
n = sscanf(s, "%u.%u.%u.%u/%u", &a0, &a1, &a2, &a3, &pl);
if (n != 5)
bt_abort_msg("Invalid content of trie_data");
struct f_prefix_node *px = lp_allocz(tmp_linpool, sizeof(struct f_prefix_node));
net_fill_ip4(&px->prefix.net, ip4_build(a0, a1, a2, a3), pl);
px->prefix.lo = pl;
px->prefix.hi = plus ? IP4_MAX_PREFIX_LENGTH : pl;
add_tail(pxlist, &px->n);
char buf[64];
bt_format_net(buf, 64, &px->prefix.net);
bt_debug("ADD %s{%d,%d}\n", buf, px->prefix.lo, px->prefix.hi);
}
bt_syscall(errno, "fgets()");
return EMPTY_LIST(*pxlist) ? NULL : pxlist;
}
/*
* Open file, read multiple sequences of prefixes from it. Fill @data with
* prefix lists and @trie with generated tries. Return number of sequences /
* tries. Use separate linpool @lp0 for prefix lists and @lp1 for tries.
* Arg @plus means prefix should include all longer ones.
*/
static int
read_prefix_file(const char *filename, int plus,
list *data[], struct f_trie *trie[])
{
FILE *f = fopen(filename, "r");
bt_syscall(!f, "fopen(%s)", filename);
int n = 0;
list *pxlist;
while (pxlist = read_prefix_list(f, 0, plus))
{
data[n] = pxlist;
trie[n] = make_trie_from_prefix_list(pxlist);
bt_debug("NEXT\n");
n++;
}
fclose(f);
bt_debug("DONE reading %d tries\n", n);
return n;
}
/*
* Select random subset of @dn prefixes from prefix list @src of length @sn,
* and store them to buffer @dst (of size @dn). Prefixes may be chosen multiple
* times. Randomize order of prefixes in @dst buffer.
*/
static void
select_random_prefix_subset(list *src[], net_addr dst[], int sn, int dn)
{
int pn = 0;
if (!dn)
return;
/* Compute total prefix number */
for (int i = 0; i < sn; i++)
pn += list_length(src[i]);
/* Change of selecting a prefix */
int rnd = (pn / dn) + 10;
int n = 0;
/* Iterate indefinitely over src array */
for (int i = 0; 1; i++, i = (i < sn) ? i : 0)
{
struct f_prefix_node *px;
WALK_LIST(px, *src[i])
{
if (xrandom(rnd) != 0)
continue;
net_copy(&dst[n], &px->prefix.net);
n++;
/* We have enough */
if (n == dn)
goto done;
}
}
done:
/* Shuffle networks */
for (int i = 0; i < dn; i++)
{
int j = xrandom(dn);
if (i == j)
continue;
net_addr tmp;
net_copy(&tmp, &dst[i]);
net_copy(&dst[i], &dst[j]);
net_copy(&dst[j], &tmp);
}
}
/* Fill @dst buffer with @dn randomly generated /32 prefixes */
static void
make_random_addresses(net_addr dst[], int dn)
{
for (int i = 0; i < dn; i++)
net_fill_ip4(&dst[i], ip4_from_u32((u32) bt_random()), IP4_MAX_PREFIX_LENGTH);
}
static void
test_match_net(list *prefixes, struct f_trie *trie, const net_addr *net)
{
char buf[64];
bt_format_net(buf, 64, net);
bt_debug("TEST %s\n", buf);
int should_be = is_prefix_included(prefixes, net);
int is_there = trie_match_net(trie, net);
bt_assert_msg(should_be == is_there, "Prefix %s %s match", buf,
(should_be ? "should" : "should not"));
}
static int
t_match_random_net(void)
{
bt_bird_init();
bt_config_parse(BT_CONFIG_SIMPLE);
int v6 = 0;
for (int round = 0; round < TESTS_NUM; round++)
{
list *prefixes = make_random_prefix_list(PREFIXES_NUM, v6, 0);
struct f_trie *trie = make_trie_from_prefix_list(prefixes);
for (int i = 0; i < PREFIX_TESTS_NUM; i++)
{
net_addr net;
get_random_net(&net, v6);
test_match_net(prefixes, trie, &net);
}
v6 = !v6;
tmp_flush();
}
bt_bird_cleanup();
return 1;
}
static int
t_match_inner_net(void)
{
bt_bird_init();
bt_config_parse(BT_CONFIG_SIMPLE);
int v6 = 0;
for (int round = 0; round < TESTS_NUM; round++)
{
list *prefixes = make_random_prefix_list(PREFIXES_NUM, v6, 0);
struct f_trie *trie = make_trie_from_prefix_list(prefixes);
struct f_prefix_node *n = HEAD(*prefixes);
for (int i = 0; i < PREFIX_TESTS_NUM; i++)
{
net_addr net;
get_inner_net(&net, &n->prefix);
test_match_net(prefixes, trie, &net);
n = NODE_VALID(NODE_NEXT(n)) ? NODE_NEXT(n) : HEAD(*prefixes);
}
v6 = !v6;
tmp_flush();
}
bt_bird_cleanup();
return 1;
}
static int
t_match_outer_net(void)
{
bt_bird_init();
bt_config_parse(BT_CONFIG_SIMPLE);
int v6 = 0;
for (int round = 0; round < TESTS_NUM; round++)
{
list *prefixes = make_random_prefix_list(PREFIXES_NUM, v6, 0);
struct f_trie *trie = make_trie_from_prefix_list(prefixes);
struct f_prefix_node *n = HEAD(*prefixes);
for (int i = 0; i < PREFIX_TESTS_NUM; i++)
{
net_addr net;
get_outer_net(&net, &n->prefix);
test_match_net(prefixes, trie, &net);
n = NODE_VALID(NODE_NEXT(n)) ? NODE_NEXT(n) : HEAD(*prefixes);
}
v6 = !v6;
tmp_flush();
}
v6 = !v6;
bt_bird_cleanup();
return 1;
}
/*
* Read prefixes from @filename, build set of tries, prepare test data and do
* PREFIX_BENCH_NUM trie lookups. With @plus = 0, use random subset of known
* prefixes as test data, with @plus = 1, use randomly generated /32 prefixes
* as test data.
*/
static int
benchmark_trie_dataset(const char *filename, int plus)
{
int n = 0;
list *data[TRIE_BUFFER_SIZE];
struct f_trie *trie[TRIE_BUFFER_SIZE];
net_addr *nets;
bt_reset_suite_case_timer();
bt_log_suite_case_result(1, "Reading %s", filename, n);
n = read_prefix_file(filename, plus, data, trie);
bt_log_suite_case_result(1, "Read prefix data, %d lists, ", n);
size_t trie_size = rmemsize(tmp_linpool).effective * 1000 / (1024*1024);
bt_log_suite_case_result(1, "Trie size %u.%03u MB",
(uint) (trie_size / 1000), (uint) (trie_size % 1000));
int t = PREFIX_BENCH_NUM / n;
int tb = MIN(t, TEST_BUFFER_SIZE);
nets = tmp_alloc(tb * sizeof(net_addr));
if (!plus)
select_random_prefix_subset(data, nets, n, tb);
else
make_random_addresses(nets, tb);
bt_log_suite_case_result(1, "Make test data, %d (%d) tests", t, tb);
bt_reset_suite_case_timer();
/*
int match = 0;
for (int i = 0; i < t; i++)
for (int j = 0; j < n; j++)
test_match_net(data[j], trie[j], &nets[i]);
*/
int match = 0;
for (int i = 0; i < t; i++)
for (int j = 0; j < n; j++)
if (trie_match_net(trie[j], &nets[i % TEST_BUFFER_SIZE]))
match++;
bt_log_suite_case_result(1, "Matching done, %d / %d matches", match, t * n);
tmp_flush();
return 1;
}
static int UNUSED
t_bench_trie_datasets_subset(void)
{
bt_bird_init();
bt_config_parse(BT_CONFIG_SIMPLE);
/* Specific datasets, not included */
benchmark_trie_dataset("trie-data-bgp-1", 0);
benchmark_trie_dataset("trie-data-bgp-10", 0);
benchmark_trie_dataset("trie-data-bgp-100", 0);
benchmark_trie_dataset("trie-data-bgp-1000", 0);
bt_bird_cleanup();
return 1;
}
static int UNUSED
t_bench_trie_datasets_random(void)
{
bt_bird_init();
bt_config_parse(BT_CONFIG_SIMPLE);
/* Specific datasets, not included */
benchmark_trie_dataset("trie-data-bgp-1", 1);
benchmark_trie_dataset("trie-data-bgp-10", 1);
benchmark_trie_dataset("trie-data-bgp-100", 1);
benchmark_trie_dataset("trie-data-bgp-1000", 1);
bt_bird_cleanup();
return 1;
}
static int
t_trie_same(void)
{
bt_bird_init();
bt_config_parse(BT_CONFIG_SIMPLE);
int v6 = 0;
for (int round = 0; round < TESTS_NUM*4; round++)
{
list *prefixes = make_random_prefix_list(100 * PREFIXES_NUM, v6, 0);
struct f_trie *trie1 = f_new_trie(tmp_linpool, 0);
struct f_trie *trie2 = f_new_trie(tmp_linpool, 0);
struct f_prefix_node *n;
WALK_LIST(n, *prefixes)
trie_add_prefix(trie1, &n->prefix.net, n->prefix.lo, n->prefix.hi);
WALK_LIST_BACKWARDS(n, *prefixes)
trie_add_prefix(trie2, &n->prefix.net, n->prefix.lo, n->prefix.hi);
bt_assert(trie_same(trie1, trie2));
v6 = !v6;
tmp_flush();
}
bt_bird_cleanup();
return 1;
}
static inline void
log_networks(const net_addr *a, const net_addr *b)
{
if (bt_verbose >= BT_VERBOSE_ABSOLUTELY_ALL)
{
char buf0[64];
char buf1[64];
bt_format_net(buf0, 64, a);
bt_format_net(buf1, 64, b);
bt_debug("Found %s expected %s\n", buf0, buf1);
}
}
static int
t_trie_walk(void)
{
bt_bird_init();
bt_config_parse(BT_CONFIG_SIMPLE);
for (int round = 0; round < TESTS_NUM*8; round++)
{
int level = round / TESTS_NUM;
int v6 = level % 2;
int num = PREFIXES_NUM * (int[]){1, 10, 100, 1000}[level / 2];
int pos = 0, end = 0;
list *prefixes = make_random_prefix_list(num, v6, 1);
struct f_trie *trie = make_trie_from_prefix_list(prefixes);
struct f_prefix *pxset = malloc((num + 1) * sizeof(struct f_prefix));
struct f_prefix_node *n;
WALK_LIST(n, *prefixes)
pxset[pos++] = n->prefix;
memset(&pxset[pos], 0, sizeof (struct f_prefix));
qsort(pxset, num, sizeof(struct f_prefix), compare_prefixes);
/* Full walk */
bt_debug("Full walk (round %d, %d nets)\n", round, num);
pos = 0;
uint pxc = 0;
TRIE_WALK(trie, net, NULL)
{
log_networks(&net, &pxset[pos].net);
bt_assert(net_equal(&net, &pxset[pos].net));
/* Skip possible duplicates */
while (net_equal(&pxset[pos].net, &pxset[pos + 1].net))
pos++;
pos++;
pxc++;
}
TRIE_WALK_END;
bt_assert(pos == num);
bt_assert(pxc == trie->prefix_count);
bt_debug("Full walk done\n");
/* Prepare net for subnet walk - start with random prefix */
pos = bt_random() % num;
end = pos + (int[]){2, 2, 3, 4}[level / 2];
end = MIN(end, num);
struct f_prefix from = pxset[pos];
/* Find a common superprefix to several subsequent prefixes */
for (; pos < end; pos++)
{
if (net_equal(&from.net, &pxset[pos].net))
continue;
int common = !v6 ?
ip4_pxlen(net4_prefix(&from.net), net4_prefix(&pxset[pos].net)) :
ip6_pxlen(net6_prefix(&from.net), net6_prefix(&pxset[pos].net));
from.net.pxlen = MIN(from.net.pxlen, common);
if (!v6)
((net_addr_ip4 *) &from.net)->prefix =
ip4_and(net4_prefix(&from.net), net4_prefix(&pxset[pos].net));
else
((net_addr_ip6 *) &from.net)->prefix =
ip6_and(net6_prefix(&from.net), net6_prefix(&pxset[pos].net));
}
/* Fix irrelevant bits */
if (!v6)
((net_addr_ip4 *) &from.net)->prefix =
ip4_and(net4_prefix(&from.net), ip4_mkmask(net4_pxlen(&from.net)));
else
((net_addr_ip6 *) &from.net)->prefix =
ip6_and(net6_prefix(&from.net), ip6_mkmask(net6_pxlen(&from.net)));
/* Find initial position for final prefix */
for (pos = 0; pos < num; pos++)
if (compare_prefixes(&pxset[pos], &from) >= 0)
break;
int p0 = pos;
char buf0[64];
bt_format_net(buf0, 64, &from.net);
bt_debug("Subnet walk for %s (round %d, %d nets)\n", buf0, round, num);
/* Subnet walk */
TRIE_WALK(trie, net, &from.net)
{
log_networks(&net, &pxset[pos].net);
bt_assert(net_equal(&net, &pxset[pos].net));
bt_assert(net_in_netX(&net, &from.net));
/* Skip possible duplicates */
while (net_equal(&pxset[pos].net, &pxset[pos + 1].net))
pos++;
pos++;
}
TRIE_WALK_END;
bt_assert((pos == num) || !net_in_netX(&pxset[pos].net, &from.net));
bt_debug("Subnet walk done for %s (found %d nets)\n", buf0, pos - p0);
tmp_flush();
}
bt_bird_cleanup();
return 1;
}
static int
find_covering_nets(struct f_prefix *prefixes, int num, const net_addr *net, net_addr *found)
{
struct f_prefix key;
net_addr *n = &key.net;
int found_num = 0;
net_copy(n, net);
while (1)
{
struct f_prefix *px =
bsearch(&key, prefixes, num, sizeof(struct f_prefix), compare_prefixes);
if (px)
{
net_copy(&found[found_num], n);
found_num++;
}
if (n->pxlen == 0)
return found_num;
n->pxlen--;
if (n->type == NET_IP4)
ip4_clrbit(&((net_addr_ip4 *) n)->prefix, n->pxlen);
else
ip6_clrbit(&((net_addr_ip6 *) n)->prefix, n->pxlen);
}
}
static int
t_trie_walk_to_root(void)
{
bt_bird_init();
bt_config_parse(BT_CONFIG_SIMPLE);
for (int round = 0; round < TESTS_NUM * 4; round++)
{
int level = round / TESTS_NUM;
int v6 = level % 2;
int num = PREFIXES_NUM * (int[]){32, 512}[level / 2];
int pos = 0;
int st = 0, sn = 0, sm = 0;
list *prefixes = make_random_prefix_list(num, v6, 1);
struct f_trie *trie = make_trie_from_prefix_list(prefixes);
struct f_prefix *pxset = malloc((num + 1) * sizeof(struct f_prefix));
struct f_prefix_node *pxn;
WALK_LIST(pxn, *prefixes)
pxset[pos++] = pxn->prefix;
memset(&pxset[pos], 0, sizeof (struct f_prefix));
qsort(pxset, num, sizeof(struct f_prefix), compare_prefixes);
int i;
for (i = 0; i < (PREFIX_TESTS_NUM / 10); i++)
{
net_addr from;
get_random_net(&from, v6);
net_addr found[129];
int found_num = find_covering_nets(pxset, num, &from, found);
int n = 0;
if (bt_verbose >= BT_VERBOSE_ABSOLUTELY_ALL)
{
char buf[64];
bt_format_net(buf, 64, &from);
bt_debug("Lookup for %s (expect %d)\n", buf, found_num);
}
/* Walk to root, separate for IPv4 and IPv6 */
if (!v6)
{
TRIE_WALK_TO_ROOT_IP4(trie, (net_addr_ip4 *) &from, net)
{
log_networks((net_addr *) &net, &found[n]);
bt_assert((n < found_num) && net_equal((net_addr *) &net, &found[n]));
n++;
}
TRIE_WALK_TO_ROOT_END;
}
else
{
TRIE_WALK_TO_ROOT_IP6(trie, (net_addr_ip6 *) &from, net)
{
log_networks((net_addr *) &net, &found[n]);
bt_assert((n < found_num) && net_equal((net_addr *) &net, &found[n]));
n++;
}
TRIE_WALK_TO_ROOT_END;
}
bt_assert(n == found_num);
/* Stats */
st += n;
sn += !!n;
sm = MAX(sm, n);
}
bt_debug("Success in %d / %d, sum %d, max %d\n", sn, i, st, sm);
tmp_flush();
}
bt_bird_cleanup();
return 1;
}
int
main(int argc, char *argv[])
{
bt_init(argc, argv);
bt_test_suite(t_match_random_net, "Testing random prefix matching");
bt_test_suite(t_match_inner_net, "Testing random inner prefix matching");
bt_test_suite(t_match_outer_net, "Testing random outer prefix matching");
bt_test_suite(t_trie_same, "A trie filled forward should be same with a trie filled backward.");
bt_test_suite(t_trie_walk, "Testing TRIE_WALK() on random tries");
bt_test_suite(t_trie_walk_to_root, "Testing TRIE_WALK_TO_ROOT() on random tries");
// bt_test_suite(t_bench_trie_datasets_subset, "Benchmark tries from datasets by random subset of nets");
// bt_test_suite(t_bench_trie_datasets_random, "Benchmark tries from datasets by generated addresses");
return bt_exit_value();
}
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