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https://gitlab.torproject.org/tpo/core/tor.git
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Merge branch 'maint-0.3.2' into release-0.3.2
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commit
94752b3fa6
6
changes/bug23816
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6
changes/bug23816
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@ -0,0 +1,6 @@
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o Minor bugfixes (directory client):
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- On failure to download directory information, delay retry attempts
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by a random amount based on the "decorrelated jitter" algorithm.
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Our previous delay algorithm tended to produce extra-long delays too
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easily. Fixes bug 23816; bugfix on 0.2.9.1-alpha.
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@ -5421,54 +5421,68 @@ find_dl_min_and_max_delay(download_status_t *dls, const or_options_t *options,
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*max = INT_MAX;
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}
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/** Advance one delay step. The algorithm is to use the previous delay to
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* compute an increment, we construct a value uniformly at random between
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* delay+1 and (delay*(DIR_DEFAULT_RANDOM_MULTIPLIER+1))+1 (or
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* DIR_TEST_NET_RANDOM_MULTIPLIER in test networks).
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/** As next_random_exponential_delay() below, but does not compute a random
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* value. Instead, compute the range of values that
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* next_random_exponential_delay() should use when computing its random value.
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* Store the low bound into *<b>low_bound_out</b>, and the high bound into
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* *<b>high_bound_out</b>. Guarantees that the low bound is strictly less
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* than the high bound. */
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STATIC void
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next_random_exponential_delay_range(int *low_bound_out,
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int *high_bound_out,
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int delay,
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int base_delay)
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{
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// This is the "decorrelated jitter" approach, from
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// https://www.awsarchitectureblog.com/2015/03/backoff.html
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// The formula is
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// sleep = min(cap, random_between(base, sleep * 3))
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const int delay_times_3 = delay < INT_MAX/3 ? delay * 3 : INT_MAX;
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*low_bound_out = base_delay;
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if (delay_times_3 > base_delay) {
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*high_bound_out = delay_times_3;
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} else {
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*high_bound_out = base_delay+1;
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}
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}
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/** Advance one delay step. The algorithm will generate a random delay,
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* such that each failure is possibly (random) longer than the ones before.
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*
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* We then clamp that value to be no larger than max_delay, and return it.
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*
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* The <b>base_delay</b> parameter is lowest possible delay time (can't be
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* zero); the <b>backoff_position</b> parameter is the number of times we've
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* generated a delay; and the <b>delay</b> argument is the most recently used
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* delay.
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*
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* Requires that delay is less than INT_MAX, and delay is in [0,max_delay].
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*/
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STATIC int
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next_random_exponential_delay(int delay, int max_delay)
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next_random_exponential_delay(int delay,
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int base_delay,
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int max_delay)
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{
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/* Check preconditions */
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if (BUG(max_delay < 0))
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max_delay = 0;
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if (BUG(delay > max_delay))
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delay = max_delay;
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if (delay == INT_MAX)
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return INT_MAX; /* prevent overflow */
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if (BUG(delay < 0))
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delay = 0;
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/* How much are we willing to add to the delay? */
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int max_increment;
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int multiplier = DIR_DEFAULT_RANDOM_MULTIPLIER;
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if (get_options()->TestingTorNetwork) {
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/* Decrease the multiplier in testing networks. This reduces the variance,
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* so that bootstrap is more reliable. */
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multiplier = DIR_TEST_NET_RANDOM_MULTIPLIER;
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}
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if (base_delay < 1)
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base_delay = 1;
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if (delay && delay < (INT_MAX-1) / multiplier) {
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max_increment = delay * multiplier;
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} else if (delay) {
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max_increment = INT_MAX-1;
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} else {
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max_increment = 1;
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}
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int low_bound=0, high_bound=max_delay;
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if (BUG(max_increment < 1))
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max_increment = 1;
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next_random_exponential_delay_range(&low_bound, &high_bound,
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delay, base_delay);
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/* the + 1 here is so that we always wait longer than last time. */
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int increment = crypto_rand_int(max_increment)+1;
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int rand_delay = crypto_rand_int_range(low_bound, high_bound);
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if (increment < max_delay - delay)
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return delay + increment;
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else
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return max_delay;
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return MIN(rand_delay, max_delay);
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}
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/** Find the current delay for dls based on schedule or min_delay/
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@ -5517,7 +5531,7 @@ download_status_schedule_get_delay(download_status_t *dls,
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while (dls->last_backoff_position < dls_schedule_position) {
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/* Do one increment step */
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delay = next_random_exponential_delay(delay, max_delay);
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delay = next_random_exponential_delay(delay, min_delay, max_delay);
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/* Update our position */
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++(dls->last_backoff_position);
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}
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@ -226,7 +226,15 @@ STATIC const smartlist_t *find_dl_schedule(const download_status_t *dls,
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STATIC void find_dl_min_and_max_delay(download_status_t *dls,
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const or_options_t *options,
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int *min, int *max);
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STATIC int next_random_exponential_delay(int delay, int max_delay);
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STATIC int next_random_exponential_delay(int delay,
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int base_delay,
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int max_delay);
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STATIC void next_random_exponential_delay_range(int *low_bound_out,
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int *high_bound_out,
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int delay,
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int base_delay);
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STATIC int parse_hs_version_from_post(const char *url, const char *prefix,
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const char **end_pos);
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@ -4126,9 +4126,9 @@ download_status_random_backoff_helper(int min_delay, int max_delay)
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int increment = -1;
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int old_increment = -1;
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time_t current_time = time(NULL);
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const int exponent = DIR_DEFAULT_RANDOM_MULTIPLIER + 1;
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/* Check the random backoff cases */
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int n_attempts = 0;
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do {
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increment = download_status_schedule_get_delay(&dls_random,
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NULL,
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@ -4148,40 +4148,16 @@ download_status_random_backoff_helper(int min_delay, int max_delay)
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/* Test */
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tt_int_op(increment, OP_GE, min_delay);
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tt_int_op(increment, OP_LE, max_delay);
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if (dls_random.last_backoff_position == 0) {
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/* regression tests for 17750
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* Always use the minimum delay for the first increment */
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tt_int_op(increment, OP_EQ, min_delay);
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} else {
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/* It's times like these I'd love a good saturating arithmetic
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* implementation */
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int min_inc = INT_MAX;
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if (old_increment <= INT_MAX - 1) {
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min_inc = old_increment + 1;
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}
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int max_inc = INT_MAX;
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if (old_increment <= (INT_MAX - 1)/exponent) {
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max_inc = (exponent * old_increment) + 1;
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}
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/* Regression test for 20534 and friends:
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* increment must always increase after the first */
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tt_int_op(increment, OP_GE, min_inc);
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/* We at most quadruple, and always add one */
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tt_int_op(increment, OP_LE, max_inc);
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}
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/* Advance */
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++(dls_random.n_download_attempts);
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++(dls_random.n_download_failures);
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if (dls_random.n_download_attempts < IMPOSSIBLE_TO_DOWNLOAD - 1) {
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++(dls_random.n_download_attempts);
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++(dls_random.n_download_failures);
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}
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/* Try another maybe */
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old_increment = increment;
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if (increment >= max_delay)
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current_time += increment;
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} while (increment < max_delay);
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} while (increment < max_delay && ++n_attempts < 1000);
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done:
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return;
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@ -4208,6 +4184,38 @@ test_dir_download_status_random_backoff(void *arg)
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download_status_random_backoff_helper(INT_MAX/2, INT_MAX);
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}
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static void
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test_dir_download_status_random_backoff_ranges(void *arg)
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{
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(void)arg;
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int lo, hi;
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next_random_exponential_delay_range(&lo, &hi, 0, 10);
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tt_int_op(lo, OP_EQ, 10);
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tt_int_op(hi, OP_EQ, 11);
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next_random_exponential_delay_range(&lo, &hi, 6, 10);
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tt_int_op(lo, OP_EQ, 10);
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tt_int_op(hi, OP_EQ, 6*3);
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next_random_exponential_delay_range(&lo, &hi, 13, 10);
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tt_int_op(lo, OP_EQ, 10);
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tt_int_op(hi, OP_EQ, 13 * 3);
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next_random_exponential_delay_range(&lo, &hi, 37, 10);
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tt_int_op(lo, OP_EQ, 10);
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tt_int_op(hi, OP_EQ, 111);
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next_random_exponential_delay_range(&lo, &hi, 123, 10);
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tt_int_op(lo, OP_EQ, 10);
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tt_int_op(hi, OP_EQ, 369);
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next_random_exponential_delay_range(&lo, &hi, INT_MAX-5, 10);
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tt_int_op(lo, OP_EQ, 10);
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tt_int_op(hi, OP_EQ, INT_MAX);
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done:
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;
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}
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static void
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test_dir_download_status_increment(void *arg)
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{
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@ -6208,6 +6216,7 @@ struct testcase_t dir_tests[] = {
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DIR(packages, 0),
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DIR(download_status_schedule, 0),
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DIR(download_status_random_backoff, 0),
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DIR(download_status_random_backoff_ranges, 0),
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DIR(download_status_increment, 0),
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DIR(authdir_type_to_string, 0),
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DIR(conn_purpose_to_string, 0),
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