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litespeed-quic/tests/test_trechist.c
Dmitri Tikhonov fbc6cc0413 Release 2.22.0 
- [FEATURE] Extensible HTTP Priorities (HTTP/3 only).
- [FEATURE] Add conn context to packet-out memory interface (PR #175).
- [BUGFIX] gQUIC proof generation: allocate buffer big enough for
  signature (issue #173).
- [BUGFIX] Make library thread-safe: drop use of global variables
  (issue #133, issue #167).
- [BUGFIX] Deactivate only *recent* HQ frame, not any HQ frame.
- [BUGFIX] gQUIC server: associate compressed cert with SSL_CTX,
  instead of keeping them in a separate hash, potentially leading
  to mismatches.
- [BUGFIX] Stream data discard infinite loop: break on FIN.
- cmake: add install target via -DCMAKE_INSTALL_PREFIX (PR #171).
- Support randomized packet number to begin a connection.
- Mini and full IETF connection size optimization.
- http_client: specify HTTP priorities based on stream conditions.
2020-10-07 09:41:26 -04:00

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/* Copyright (c) 2017 - 2020 LiteSpeed Technologies Inc. See LICENSE. */
/* Tests based on rechist tests */
#include <assert.h>
#include <inttypes.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef WIN32
#include "vc_compat.h"
#endif
#include "lsquic_int_types.h"
#include "lsquic_trechist.h"
static void
test_clone (trechist_mask_t src_mask, struct trechist_elem *src_elems)
{
trechist_mask_t hist_mask;
struct trechist_elem *hist_elems;
const struct lsquic_packno_range *ranges[2];
struct trechist_iter iters[2];
int s;
hist_elems = malloc(sizeof(hist_elems[0]) * TRECHIST_MAX_RANGES);
lsquic_trechist_iter(&iters[0], src_mask, src_elems);
s = lsquic_trechist_copy_ranges(&hist_mask, hist_elems, &iters[0],
lsquic_trechist_first, lsquic_trechist_next);
assert(s == 0);
lsquic_trechist_iter(&iters[0], src_mask, src_elems);
lsquic_trechist_iter(&iters[1], hist_mask, hist_elems);
for (ranges[0] = lsquic_trechist_first(&iters[0]),
ranges[1] = lsquic_trechist_first(&iters[1]);
ranges[0] && ranges[1];
ranges[0] = lsquic_trechist_next(&iters[0]),
ranges[1] = lsquic_trechist_next(&iters[1]))
{
assert(ranges[0]->low == ranges[1]->low);
assert(ranges[0]->high == ranges[1]->high);
}
assert(!ranges[0] && !ranges[1]);
free(hist_elems);
}
static void
test4 (void)
{
trechist_mask_t hist_mask;
struct trechist_elem *hist_elems;
const struct lsquic_packno_range *range;
struct trechist_iter iter;
lsquic_packno_t packno;
hist_elems = malloc(sizeof(hist_elems[0]) * TRECHIST_MAX_RANGES);
hist_mask = 0;
test_clone(hist_mask, hist_elems);
for (packno = 11917; packno <= 11941; ++packno)
lsquic_trechist_insert(&hist_mask, hist_elems, packno);
for (packno = 11946; packno <= 11994; ++packno)
lsquic_trechist_insert(&hist_mask, hist_elems, packno);
test_clone(hist_mask, hist_elems);
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(range);
assert(range->high == 11994);
assert(range->low == 11946);
range = lsquic_trechist_next(&iter);
assert(range);
assert(range->high == 11941);
assert(range->low == 11917);
range = lsquic_trechist_next(&iter);
assert(!range);
lsquic_trechist_insert(&hist_mask, hist_elems, 11995);
lsquic_trechist_insert(&hist_mask, hist_elems, 11996);
test_clone(hist_mask, hist_elems);
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(range);
assert(range->high == 11996);
assert(range->low == 11946);
range = lsquic_trechist_next(&iter);
assert(range);
assert(range->high == 11941);
assert(range->low == 11917);
range = lsquic_trechist_next(&iter);
assert(!range);
test_clone(hist_mask, hist_elems);
lsquic_trechist_insert(&hist_mask, hist_elems, 11912);
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(range);
assert(range->high == 11996);
assert(range->low == 11946);
range = lsquic_trechist_next(&iter);
assert(range);
assert(range->high == 11941);
assert(range->low == 11917);
range = lsquic_trechist_next(&iter);
assert(range);
assert(range->high == 11912);
assert(range->low == 11912);
range = lsquic_trechist_next(&iter);
assert(!range);
for (packno = 12169; packno <= 12193; ++packno)
lsquic_trechist_insert(&hist_mask, hist_elems, packno);
test_clone(hist_mask, hist_elems);
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(range);
assert(range->high == 12193);
assert(range->low == 12169);
range = lsquic_trechist_next(&iter);
assert(range);
assert(range->high == 11996);
assert(range->low == 11946);
range = lsquic_trechist_next(&iter);
assert(range);
assert(range->high == 11941);
assert(range->low == 11917);
range = lsquic_trechist_next(&iter);
assert(range);
assert(range->high == 11912);
assert(range->low == 11912);
range = lsquic_trechist_next(&iter);
assert(!range);
test_clone(hist_mask, hist_elems);
free(hist_elems);
}
static void
rechist2str (trechist_mask_t hist_mask, const struct trechist_elem *hist_elems,
char *buf, size_t bufsz)
{
const struct lsquic_packno_range *range;
struct trechist_iter iter;
size_t off;
int n;
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
for (off = 0, range = lsquic_trechist_first(&iter);
range && off < bufsz;
off += n, range = lsquic_trechist_next(&iter))
{
n = snprintf(buf + off, bufsz - off, "[%"PRIu64"-%"PRIu64"]",
range->high, range->low);
if (n < 0 || (size_t) n >= bufsz - off)
break;
}
}
static void
test5 (void)
{
trechist_mask_t hist_mask;
struct trechist_elem *hist_elems;
char buf[100];
hist_elems = malloc(sizeof(hist_elems[0]) * TRECHIST_MAX_RANGES);
hist_mask = 0;
lsquic_trechist_insert(&hist_mask, hist_elems, 1);
/* Packet 2 omitted because it could not be decrypted */
lsquic_trechist_insert(&hist_mask, hist_elems, 3);
lsquic_trechist_insert(&hist_mask, hist_elems, 12);
rechist2str(hist_mask, hist_elems, buf, sizeof(buf));
assert(0 == strcmp(buf, "[12-12][3-3][1-1]"));
lsquic_trechist_insert(&hist_mask, hist_elems, 4);
rechist2str(hist_mask, hist_elems, buf, sizeof(buf));
assert(0 == strcmp(buf, "[12-12][4-3][1-1]"));
lsquic_trechist_insert(&hist_mask, hist_elems, 10);
rechist2str(hist_mask, hist_elems, buf, sizeof(buf));
assert(0 == strcmp(buf, "[12-12][10-10][4-3][1-1]"));
lsquic_trechist_insert(&hist_mask, hist_elems, 6);
rechist2str(hist_mask, hist_elems, buf, sizeof(buf));
assert(0 == strcmp(buf, "[12-12][10-10][6-6][4-3][1-1]"));
lsquic_trechist_insert(&hist_mask, hist_elems, 7);
lsquic_trechist_insert(&hist_mask, hist_elems, 8);
rechist2str(hist_mask, hist_elems, buf, sizeof(buf));
assert(0 == strcmp(buf, "[12-12][10-10][8-6][4-3][1-1]"));
test_clone(hist_mask, hist_elems);
assert(!(lsquic_trechist_contains(hist_mask, hist_elems, 0)));
assert(!(lsquic_trechist_contains(hist_mask, hist_elems, 9)));
assert(!(lsquic_trechist_contains(hist_mask, hist_elems, 20)));
assert(lsquic_trechist_contains(hist_mask, hist_elems, 4));
assert(lsquic_trechist_contains(hist_mask, hist_elems, 1));
assert(lsquic_trechist_contains(hist_mask, hist_elems, 7));
assert(lsquic_trechist_contains(hist_mask, hist_elems, 8));
assert(lsquic_trechist_contains(hist_mask, hist_elems, 6));
lsquic_trechist_insert(&hist_mask, hist_elems, 9);
rechist2str(hist_mask, hist_elems, buf, sizeof(buf));
assert(0 == strcmp(buf, "[12-12][10-6][4-3][1-1]"));
test_clone(hist_mask, hist_elems);
lsquic_trechist_insert(&hist_mask, hist_elems, 5);
lsquic_trechist_insert(&hist_mask, hist_elems, 11);
rechist2str(hist_mask, hist_elems, buf, sizeof(buf));
assert(0 == strcmp(buf, "[12-3][1-1]"));
free(hist_elems);
}
static void
basic_test (void)
{
trechist_mask_t hist_mask;
struct trechist_elem *hist_elems;
const struct lsquic_packno_range *range;
struct trechist_iter iter;
unsigned i;
int s;
hist_elems = malloc(sizeof(hist_elems[0]) * TRECHIST_MAX_RANGES);
hist_mask = 0;
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(!range);
s = lsquic_trechist_insert(&hist_mask, hist_elems, 1);
assert(("inserting packet number one is successful", 0 == s));
s = lsquic_trechist_insert(&hist_mask, hist_elems, 1);
assert(("inserting packet number one again results in duplicate error",
s == 1));
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(("first range returned correctly", range));
assert(("first range low value checks out", range->low == 1));
assert(("first range high value checks out", range->high == 1));
range = lsquic_trechist_next(&iter);
assert(!range);
assert(("second range does not exist", !range));
for (i = 3; i <= 5; ++i)
{
s = lsquic_trechist_insert(&hist_mask, hist_elems, i);
assert(("inserting packet", s == 0));
}
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(("first range returned correctly", range));
assert(("first range low value checks out", range->low == 3));
assert(("first range high value checks out", range->high == 5));
assert(!(lsquic_trechist_contains(hist_mask, hist_elems, 7)));
assert(!(lsquic_trechist_contains(hist_mask, hist_elems, 2)));
assert(lsquic_trechist_contains(hist_mask, hist_elems, 4));
range = lsquic_trechist_next(&iter);
assert(("second range returned correctly", range));
assert(("second range low value checks out", range->low == 1));
assert(("second range high value checks out", range->high == 1));
range = lsquic_trechist_next(&iter);
assert(("third range does not exist", !range));
assert(5 == lsquic_trechist_max(hist_mask, hist_elems));
s = lsquic_trechist_insert(&hist_mask, hist_elems, 10);
assert(("inserting packet", s == 0));
assert(10 == lsquic_trechist_max(hist_mask, hist_elems));
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(("first range returned correctly", range));
assert(("first range low value checks out", range->low == 10));
assert(("first range high value checks out", range->high == 10));
test_clone(hist_mask, hist_elems);
s = lsquic_trechist_insert(&hist_mask, hist_elems, 8);
assert(("inserting packet", s == 0));
s = lsquic_trechist_insert(&hist_mask, hist_elems, 9);
assert(("inserting packet", s == 0));
/* Check merge */
lsquic_trechist_iter(&iter, hist_mask, hist_elems);
range = lsquic_trechist_first(&iter);
assert(("first range returned correctly", range));
assert(("first range low value checks out", range->low == 8));
assert(("first range high value checks out", range->high == 10));
free(hist_elems);
}
static void
test_limits (void)
{
trechist_mask_t hist_mask;
struct trechist_elem *hist_elems;
unsigned i;
int s;
hist_elems = malloc(sizeof(hist_elems[0]) * TRECHIST_MAX_RANGES);
hist_mask = 0;
for (i = 1; i <= UCHAR_MAX; ++i)
{
s = lsquic_trechist_insert(&hist_mask, hist_elems, i);
assert(s == 0);
}
s = lsquic_trechist_insert(&hist_mask, hist_elems, i);
assert(s == -1); /* Overflow */
for (i = 0; i < TRECHIST_MAX_RANGES - 1; ++i)
{
s = lsquic_trechist_insert(&hist_mask, hist_elems, 1000 + 2 * i);
assert(s == 0);
}
s = lsquic_trechist_insert(&hist_mask, hist_elems, 1000 + 2 * i);
assert(s == -1); /* Out of ranges */
free(hist_elems);
}
int
main (void)
{
basic_test();
test4();
test5();
test_limits();
return 0;
}
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