2018-09-21 16:26:57 +02:00
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/* Copyright (c) 2001-2004, Roger Dingledine.
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* Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
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2019-01-16 18:33:22 +01:00
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* Copyright (c) 2007-2019, The Tor Project, Inc. */
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2018-09-21 16:26:57 +02:00
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/* See LICENSE for licensing information */
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#define DLSTATUS_PRIVATE
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#include "core/or/or.h"
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#include "app/config/config.h"
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#include "feature/client/entrynodes.h"
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#include "feature/dirclient/dlstatus.h"
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#include "feature/nodelist/networkstatus.h"
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2018-09-25 22:00:50 +02:00
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#include "feature/relay/routermode.h"
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2018-09-21 16:26:57 +02:00
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#include "lib/crypt_ops/crypto_rand.h"
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#include "feature/dirclient/download_status_st.h"
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/** Decide which download schedule we want to use based on descriptor type
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* in <b>dls</b> and <b>options</b>.
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*
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* Then, return the initial delay for that download schedule, in seconds.
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*
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* Helper function for download_status_increment_failure(),
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* download_status_reset(), and download_status_increment_attempt(). */
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STATIC int
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find_dl_min_delay(const download_status_t *dls, const or_options_t *options)
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{
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tor_assert(dls);
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tor_assert(options);
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switch (dls->schedule) {
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case DL_SCHED_GENERIC:
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/* Any other directory document */
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if (dir_server_mode(options)) {
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/* A directory authority or directory mirror */
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return options->TestingServerDownloadInitialDelay;
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} else {
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return options->TestingClientDownloadInitialDelay;
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}
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case DL_SCHED_CONSENSUS:
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if (!networkstatus_consensus_can_use_multiple_directories(options)) {
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/* A public relay */
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return options->TestingServerConsensusDownloadInitialDelay;
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} else {
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/* A client or bridge */
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if (networkstatus_consensus_is_bootstrapping(time(NULL))) {
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/* During bootstrapping */
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if (!networkstatus_consensus_can_use_extra_fallbacks(options)) {
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/* A bootstrapping client without extra fallback directories */
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return options->
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ClientBootstrapConsensusAuthorityOnlyDownloadInitialDelay;
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} else if (dls->want_authority) {
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/* A bootstrapping client with extra fallback directories, but
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* connecting to an authority */
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return
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options->ClientBootstrapConsensusAuthorityDownloadInitialDelay;
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} else {
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/* A bootstrapping client connecting to extra fallback directories
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*/
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return
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options->ClientBootstrapConsensusFallbackDownloadInitialDelay;
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}
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} else {
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/* A client with a reasonably live consensus, with or without
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* certificates */
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return options->TestingClientConsensusDownloadInitialDelay;
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}
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}
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case DL_SCHED_BRIDGE:
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if (options->UseBridges && num_bridges_usable(0) > 0) {
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/* A bridge client that is sure that one or more of its bridges are
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* running can afford to wait longer to update bridge descriptors. */
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return options->TestingBridgeDownloadInitialDelay;
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} else {
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/* A bridge client which might have no running bridges, must try to
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* get bridge descriptors straight away. */
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return options->TestingBridgeBootstrapDownloadInitialDelay;
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}
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default:
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tor_assert(0);
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}
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/* Impossible, but gcc will fail with -Werror without a `return`. */
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return 0;
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}
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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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STATIC int
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next_random_exponential_delay(int delay,
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int base_delay)
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{
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/* Check preconditions */
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if (BUG(delay < 0))
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delay = 0;
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if (base_delay < 1)
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base_delay = 1;
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int low_bound=0, high_bound=INT_MAX;
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next_random_exponential_delay_range(&low_bound, &high_bound,
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delay, base_delay);
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return crypto_rand_int_range(low_bound, high_bound);
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}
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/** Find the current delay for dls based on min_delay.
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*
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* This function sets dls->next_attempt_at based on now, and returns the delay.
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* Helper for download_status_increment_failure and
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* download_status_increment_attempt. */
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STATIC int
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download_status_schedule_get_delay(download_status_t *dls,
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int min_delay,
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time_t now)
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{
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tor_assert(dls);
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/* If we're using random exponential backoff, we do need min/max delay */
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tor_assert(min_delay >= 0);
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int delay = INT_MAX;
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uint8_t dls_schedule_position = (dls->increment_on
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== DL_SCHED_INCREMENT_ATTEMPT
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? dls->n_download_attempts
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: dls->n_download_failures);
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/* Check if we missed a reset somehow */
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IF_BUG_ONCE(dls->last_backoff_position > dls_schedule_position) {
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dls->last_backoff_position = 0;
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dls->last_delay_used = 0;
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}
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if (dls_schedule_position > 0) {
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delay = dls->last_delay_used;
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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, min_delay);
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/* Update our position */
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++(dls->last_backoff_position);
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}
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} else {
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/* If we're just starting out, use the minimum delay */
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delay = min_delay;
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}
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/* Clamp it within min/max if we have them */
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if (min_delay >= 0 && delay < min_delay) delay = min_delay;
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/* Store it for next time */
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dls->last_backoff_position = dls_schedule_position;
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dls->last_delay_used = delay;
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/* A negative delay makes no sense. Knowing that delay is
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* non-negative allows us to safely do the wrapping check below. */
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tor_assert(delay >= 0);
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/* Avoid now+delay overflowing TIME_MAX, by comparing with a subtraction
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* that won't overflow (since delay is non-negative). */
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if (delay < INT_MAX && now <= TIME_MAX - delay) {
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dls->next_attempt_at = now+delay;
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} else {
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dls->next_attempt_at = TIME_MAX;
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}
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return delay;
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}
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/* Log a debug message about item, which increments on increment_action, has
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* incremented dls_n_download_increments times. The message varies based on
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* was_schedule_incremented (if not, not_incremented_response is logged), and
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* the values of increment, dls_next_attempt_at, and now.
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* Helper for download_status_increment_failure and
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* download_status_increment_attempt. */
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static void
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download_status_log_helper(const char *item, int was_schedule_incremented,
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const char *increment_action,
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const char *not_incremented_response,
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uint8_t dls_n_download_increments, int increment,
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time_t dls_next_attempt_at, time_t now)
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{
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if (item) {
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if (!was_schedule_incremented)
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log_debug(LD_DIR, "%s %s %d time(s); I'll try again %s.",
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item, increment_action, (int)dls_n_download_increments,
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not_incremented_response);
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else if (increment == 0)
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log_debug(LD_DIR, "%s %s %d time(s); I'll try again immediately.",
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item, increment_action, (int)dls_n_download_increments);
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else if (dls_next_attempt_at < TIME_MAX)
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log_debug(LD_DIR, "%s %s %d time(s); I'll try again in %d seconds.",
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item, increment_action, (int)dls_n_download_increments,
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(int)(dls_next_attempt_at-now));
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else
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log_debug(LD_DIR, "%s %s %d time(s); Giving up for a while.",
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item, increment_action, (int)dls_n_download_increments);
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}
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}
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/** Determine when a failed download attempt should be retried.
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* Called when an attempt to download <b>dls</b> has failed with HTTP status
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* <b>status_code</b>. Increment the failure count (if the code indicates a
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* real failure, or if we're a server) and set <b>dls</b>-\>next_attempt_at to
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* an appropriate time in the future and return it.
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* If <b>dls->increment_on</b> is DL_SCHED_INCREMENT_ATTEMPT, increment the
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* failure count, and return a time in the far future for the next attempt (to
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* avoid an immediate retry). */
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time_t
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download_status_increment_failure(download_status_t *dls, int status_code,
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const char *item, int server, time_t now)
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{
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(void) status_code; // XXXX no longer used.
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(void) server; // XXXX no longer used.
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int increment = -1;
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int min_delay = 0;
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tor_assert(dls);
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/* dls wasn't reset before it was used */
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if (dls->next_attempt_at == 0) {
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download_status_reset(dls);
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}
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/* count the failure */
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if (dls->n_download_failures < IMPOSSIBLE_TO_DOWNLOAD-1) {
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++dls->n_download_failures;
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}
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if (dls->increment_on == DL_SCHED_INCREMENT_FAILURE) {
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/* We don't find out that a failure-based schedule has attempted a
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* connection until that connection fails.
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* We'll never find out about successful connections, but this doesn't
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* matter, because schedules are reset after a successful download.
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*/
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if (dls->n_download_attempts < IMPOSSIBLE_TO_DOWNLOAD-1)
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++dls->n_download_attempts;
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/* only return a failure retry time if this schedule increments on failures
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*/
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min_delay = find_dl_min_delay(dls, get_options());
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increment = download_status_schedule_get_delay(dls, min_delay, now);
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}
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download_status_log_helper(item, !dls->increment_on, "failed",
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"concurrently", dls->n_download_failures,
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increment,
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download_status_get_next_attempt_at(dls),
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now);
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if (dls->increment_on == DL_SCHED_INCREMENT_ATTEMPT) {
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/* stop this schedule retrying on failure, it will launch concurrent
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* connections instead */
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return TIME_MAX;
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} else {
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return download_status_get_next_attempt_at(dls);
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}
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}
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/** Determine when the next download attempt should be made when using an
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* attempt-based (potentially concurrent) download schedule.
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* Called when an attempt to download <b>dls</b> is being initiated.
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* Increment the attempt count and set <b>dls</b>-\>next_attempt_at to an
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* appropriate time in the future and return it.
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* If <b>dls->increment_on</b> is DL_SCHED_INCREMENT_FAILURE, don't increment
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* the attempts, and return a time in the far future (to avoid launching a
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* concurrent attempt). */
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time_t
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download_status_increment_attempt(download_status_t *dls, const char *item,
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time_t now)
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{
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int delay = -1;
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int min_delay = 0;
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tor_assert(dls);
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/* dls wasn't reset before it was used */
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if (dls->next_attempt_at == 0) {
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download_status_reset(dls);
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}
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if (dls->increment_on == DL_SCHED_INCREMENT_FAILURE) {
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/* this schedule should retry on failure, and not launch any concurrent
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attempts */
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log_warn(LD_BUG, "Tried to launch an attempt-based connection on a "
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"failure-based schedule.");
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return TIME_MAX;
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}
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if (dls->n_download_attempts < IMPOSSIBLE_TO_DOWNLOAD-1)
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++dls->n_download_attempts;
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min_delay = find_dl_min_delay(dls, get_options());
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delay = download_status_schedule_get_delay(dls, min_delay, now);
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download_status_log_helper(item, dls->increment_on, "attempted",
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"on failure", dls->n_download_attempts,
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delay, download_status_get_next_attempt_at(dls),
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now);
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return download_status_get_next_attempt_at(dls);
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}
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static time_t
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download_status_get_initial_delay_from_now(const download_status_t *dls)
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{
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/* We use constant initial delays, even in exponential backoff
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* schedules. */
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return time(NULL) + find_dl_min_delay(dls, get_options());
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}
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/** Reset <b>dls</b> so that it will be considered downloadable
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* immediately, and/or to show that we don't need it anymore.
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*
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* Must be called to initialise a download schedule, otherwise the zeroth item
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* in the schedule will never be used.
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*
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* (We find the zeroth element of the download schedule, and set
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* next_attempt_at to be the appropriate offset from 'now'. In most
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* cases this means setting it to 'now', so the item will be immediately
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* downloadable; when using authorities with fallbacks, there is a few seconds'
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* delay.) */
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void
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download_status_reset(download_status_t *dls)
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{
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if (dls->n_download_failures == IMPOSSIBLE_TO_DOWNLOAD
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|| dls->n_download_attempts == IMPOSSIBLE_TO_DOWNLOAD)
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return; /* Don't reset this. */
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dls->n_download_failures = 0;
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dls->n_download_attempts = 0;
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dls->next_attempt_at = download_status_get_initial_delay_from_now(dls);
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dls->last_backoff_position = 0;
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dls->last_delay_used = 0;
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/* Don't reset dls->want_authority or dls->increment_on */
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}
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/** Return true iff, as of <b>now</b>, the resource tracked by <b>dls</b> is
|
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|
|
* ready to get its download reattempted. */
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|
|
int
|
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|
download_status_is_ready(download_status_t *dls, time_t now)
|
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|
{
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|
|
|
/* dls wasn't reset before it was used */
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|
|
|
if (dls->next_attempt_at == 0) {
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|
|
download_status_reset(dls);
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|
|
}
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|
return download_status_get_next_attempt_at(dls) <= now;
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|
|
}
|
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|
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|
|
|
/** Mark <b>dl</b> as never downloadable. */
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|
|
void
|
|
|
|
download_status_mark_impossible(download_status_t *dl)
|
|
|
|
{
|
|
|
|
dl->n_download_failures = IMPOSSIBLE_TO_DOWNLOAD;
|
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|
|
dl->n_download_attempts = IMPOSSIBLE_TO_DOWNLOAD;
|
|
|
|
}
|
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|
|
|
|
|
|
/** Return the number of failures on <b>dls</b> since the last success (if
|
|
|
|
* any). */
|
|
|
|
int
|
|
|
|
download_status_get_n_failures(const download_status_t *dls)
|
|
|
|
{
|
|
|
|
return dls->n_download_failures;
|
|
|
|
}
|
|
|
|
|
|
|
|
/** Return the number of attempts to download <b>dls</b> since the last success
|
|
|
|
* (if any). This can differ from download_status_get_n_failures() due to
|
|
|
|
* outstanding concurrent attempts. */
|
|
|
|
int
|
|
|
|
download_status_get_n_attempts(const download_status_t *dls)
|
|
|
|
{
|
|
|
|
return dls->n_download_attempts;
|
|
|
|
}
|
|
|
|
|
|
|
|
/** Return the next time to attempt to download <b>dls</b>. */
|
|
|
|
time_t
|
|
|
|
download_status_get_next_attempt_at(const download_status_t *dls)
|
|
|
|
{
|
|
|
|
/* dls wasn't reset before it was used */
|
|
|
|
if (dls->next_attempt_at == 0) {
|
|
|
|
/* so give the answer we would have given if it had been */
|
|
|
|
return download_status_get_initial_delay_from_now(dls);
|
|
|
|
}
|
|
|
|
|
|
|
|
return dls->next_attempt_at;
|
|
|
|
}
|