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- /* Copyright (c) 2001 Matej Pfajfar.
- * Copyright (c) 2001-2004, Roger Dingledine.
- * Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
- * Copyright (c) 2007-2016, The Tor Project, Inc. */
- /* See LICENSE for licensing information */
- /**
- * \file circuitstats.c
- *
- * \brief Maintains and analyzes statistics about circuit built times, so we
- * can tell how long we may need to wait for a fast circuit to be constructed.
- *
- * By keeping these statistics, a client learns when it should time out a slow
- * circuit for being too slow, and when it should keep a circuit open in order
- * to wait for it to complete.
- *
- * The information here is kept in a circuit_built_times_t structure, which is
- * currently a singleton, but doesn't need to be. It's updated by calls to
- * circuit_build_times_count_timeout() from circuituse.c,
- * circuit_build_times_count_close() from circuituse.c, and
- * circuit_build_times_add_time() from circuitbuild.c, and inspected by other
- * calls into this module, mostly from circuitlist.c. Observations are
- * persisted to disk via the or_state_t-related calls.
- */
- #define CIRCUITSTATS_PRIVATE
- #include "or.h"
- #include "circuitbuild.h"
- #include "circuitstats.h"
- #include "config.h"
- #include "confparse.h"
- #include "control.h"
- #include "main.h"
- #include "networkstatus.h"
- #include "rendclient.h"
- #include "rendservice.h"
- #include "statefile.h"
- #undef log
- #include <math.h>
- static void cbt_control_event_buildtimeout_set(
- const circuit_build_times_t *cbt,
- buildtimeout_set_event_t type);
- #define CBT_BIN_TO_MS(bin) ((bin)*CBT_BIN_WIDTH + (CBT_BIN_WIDTH/2))
- /** Global list of circuit build times */
- // XXXX: Add this as a member for entry_guard_t instead of global?
- // Then we could do per-guard statistics, as guards are likely to
- // vary in their own latency. The downside of this is that guards
- // can change frequently, so we'd be building a lot more circuits
- // most likely.
- static circuit_build_times_t circ_times;
- #ifdef TOR_UNIT_TESTS
- /** If set, we're running the unit tests: we should avoid clobbering
- * our state file or accessing get_options() or get_or_state() */
- static int unit_tests = 0;
- #else
- #define unit_tests 0
- #endif
- /** Return a pointer to the data structure describing our current circuit
- * build time history and computations. */
- const circuit_build_times_t *
- get_circuit_build_times(void)
- {
- return &circ_times;
- }
- /** As get_circuit_build_times, but return a mutable pointer. */
- circuit_build_times_t *
- get_circuit_build_times_mutable(void)
- {
- return &circ_times;
- }
- /** Return the time to wait before actually closing an under-construction, in
- * milliseconds. */
- double
- get_circuit_build_close_time_ms(void)
- {
- return circ_times.close_ms;
- }
- /** Return the time to wait before giving up on an under-construction circuit,
- * in milliseconds. */
- double
- get_circuit_build_timeout_ms(void)
- {
- return circ_times.timeout_ms;
- }
- /**
- * This function decides if CBT learning should be disabled. It returns
- * true if one or more of the following conditions are met:
- *
- * 1. If the cbtdisabled consensus parameter is set.
- * 2. If the torrc option LearnCircuitBuildTimeout is false.
- * 3. If we are a directory authority
- * 4. If we fail to write circuit build time history to our state file.
- * 5. If we are compiled or configured in Tor2web mode
- * 6. If we are configured in Single Onion mode
- */
- int
- circuit_build_times_disabled(const or_options_t *options)
- {
- if (unit_tests) {
- return 0;
- } else {
- int consensus_disabled = networkstatus_get_param(NULL, "cbtdisabled",
- 0, 0, 1);
- int config_disabled = !options->LearnCircuitBuildTimeout;
- int dirauth_disabled = options->AuthoritativeDir;
- int state_disabled = did_last_state_file_write_fail() ? 1 : 0;
- /* LearnCircuitBuildTimeout and Tor2web/Single Onion Services are
- * incompatible in two ways:
- *
- * - LearnCircuitBuildTimeout results in a low CBT, which
- * Single Onion use of one-hop intro and rendezvous circuits lowers
- * much further, producing *far* too many timeouts.
- *
- * - The adaptive CBT code does not update its timeout estimate
- * using build times for single-hop circuits.
- *
- * If we fix both of these issues someday, we should test
- * these modes with LearnCircuitBuildTimeout on again. */
- int tor2web_disabled = rend_client_allow_non_anonymous_connection(options);
- int single_onion_disabled = rend_service_allow_non_anonymous_connection(
- options);
- if (consensus_disabled || config_disabled || dirauth_disabled ||
- state_disabled || tor2web_disabled || single_onion_disabled) {
- #if 0
- log_debug(LD_CIRC,
- "CircuitBuildTime learning is disabled. "
- "Consensus=%d, Config=%d, AuthDir=%d, StateFile=%d",
- consensus_disabled, config_disabled, dirauth_disabled,
- state_disabled);
- #endif
- return 1;
- } else {
- #if 0
- log_debug(LD_CIRC,
- "CircuitBuildTime learning is not disabled. "
- "Consensus=%d, Config=%d, AuthDir=%d, StateFile=%d",
- consensus_disabled, config_disabled, dirauth_disabled,
- state_disabled);
- #endif
- return 0;
- }
- }
- }
- /**
- * Retrieve and bounds-check the cbtmaxtimeouts consensus paramter.
- *
- * Effect: When this many timeouts happen in the last 'cbtrecentcount'
- * circuit attempts, the client should discard all of its history and
- * begin learning a fresh timeout value.
- */
- static int32_t
- circuit_build_times_max_timeouts(void)
- {
- int32_t cbt_maxtimeouts;
- cbt_maxtimeouts = networkstatus_get_param(NULL, "cbtmaxtimeouts",
- CBT_DEFAULT_MAX_RECENT_TIMEOUT_COUNT,
- CBT_MIN_MAX_RECENT_TIMEOUT_COUNT,
- CBT_MAX_MAX_RECENT_TIMEOUT_COUNT);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_max_timeouts() called, cbtmaxtimeouts is"
- " %d",
- cbt_maxtimeouts);
- }
- return cbt_maxtimeouts;
- }
- /**
- * Retrieve and bounds-check the cbtnummodes consensus paramter.
- *
- * Effect: This value governs how many modes to use in the weighted
- * average calculation of Pareto parameter Xm. A value of 3 introduces
- * some bias (2-5% of CDF) under ideal conditions, but allows for better
- * performance in the event that a client chooses guard nodes of radically
- * different performance characteristics.
- */
- static int32_t
- circuit_build_times_default_num_xm_modes(void)
- {
- int32_t num = networkstatus_get_param(NULL, "cbtnummodes",
- CBT_DEFAULT_NUM_XM_MODES,
- CBT_MIN_NUM_XM_MODES,
- CBT_MAX_NUM_XM_MODES);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_default_num_xm_modes() called, cbtnummodes"
- " is %d",
- num);
- }
- return num;
- }
- /**
- * Retrieve and bounds-check the cbtmincircs consensus paramter.
- *
- * Effect: This is the minimum number of circuits to build before
- * computing a timeout.
- */
- static int32_t
- circuit_build_times_min_circs_to_observe(void)
- {
- int32_t num = networkstatus_get_param(NULL, "cbtmincircs",
- CBT_DEFAULT_MIN_CIRCUITS_TO_OBSERVE,
- CBT_MIN_MIN_CIRCUITS_TO_OBSERVE,
- CBT_MAX_MIN_CIRCUITS_TO_OBSERVE);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_min_circs_to_observe() called, cbtmincircs"
- " is %d",
- num);
- }
- return num;
- }
- /** Return true iff <b>cbt</b> has recorded enough build times that we
- * want to start acting on the timeout it implies. */
- int
- circuit_build_times_enough_to_compute(const circuit_build_times_t *cbt)
- {
- return cbt->total_build_times >= circuit_build_times_min_circs_to_observe();
- }
- /**
- * Retrieve and bounds-check the cbtquantile consensus paramter.
- *
- * Effect: This is the position on the quantile curve to use to set the
- * timeout value. It is a percent (10-99).
- */
- double
- circuit_build_times_quantile_cutoff(void)
- {
- int32_t num = networkstatus_get_param(NULL, "cbtquantile",
- CBT_DEFAULT_QUANTILE_CUTOFF,
- CBT_MIN_QUANTILE_CUTOFF,
- CBT_MAX_QUANTILE_CUTOFF);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_quantile_cutoff() called, cbtquantile"
- " is %d",
- num);
- }
- return num/100.0;
- }
- /**
- * Retrieve and bounds-check the cbtclosequantile consensus paramter.
- *
- * Effect: This is the position on the quantile curve to use to set the
- * timeout value to use to actually close circuits. It is a percent
- * (0-99).
- */
- static double
- circuit_build_times_close_quantile(void)
- {
- int32_t param;
- /* Cast is safe - circuit_build_times_quantile_cutoff() is capped */
- int32_t min = (int)tor_lround(100*circuit_build_times_quantile_cutoff());
- param = networkstatus_get_param(NULL, "cbtclosequantile",
- CBT_DEFAULT_CLOSE_QUANTILE,
- CBT_MIN_CLOSE_QUANTILE,
- CBT_MAX_CLOSE_QUANTILE);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_close_quantile() called, cbtclosequantile"
- " is %d", param);
- }
- if (param < min) {
- log_warn(LD_DIR, "Consensus parameter cbtclosequantile is "
- "too small, raising to %d", min);
- param = min;
- }
- return param / 100.0;
- }
- /**
- * Retrieve and bounds-check the cbttestfreq consensus paramter.
- *
- * Effect: Describes how often in seconds to build a test circuit to
- * gather timeout values. Only applies if less than 'cbtmincircs'
- * have been recorded.
- */
- static int32_t
- circuit_build_times_test_frequency(void)
- {
- int32_t num = networkstatus_get_param(NULL, "cbttestfreq",
- CBT_DEFAULT_TEST_FREQUENCY,
- CBT_MIN_TEST_FREQUENCY,
- CBT_MAX_TEST_FREQUENCY);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_test_frequency() called, cbttestfreq is %d",
- num);
- }
- return num;
- }
- /**
- * Retrieve and bounds-check the cbtmintimeout consensus parameter.
- *
- * Effect: This is the minimum allowed timeout value in milliseconds.
- * The minimum is to prevent rounding to 0 (we only check once
- * per second).
- */
- static int32_t
- circuit_build_times_min_timeout(void)
- {
- int32_t num = networkstatus_get_param(NULL, "cbtmintimeout",
- CBT_DEFAULT_TIMEOUT_MIN_VALUE,
- CBT_MIN_TIMEOUT_MIN_VALUE,
- CBT_MAX_TIMEOUT_MIN_VALUE);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_min_timeout() called, cbtmintimeout is %d",
- num);
- }
- return num;
- }
- /**
- * Retrieve and bounds-check the cbtinitialtimeout consensus paramter.
- *
- * Effect: This is the timeout value to use before computing a timeout,
- * in milliseconds.
- */
- int32_t
- circuit_build_times_initial_timeout(void)
- {
- int32_t min = circuit_build_times_min_timeout();
- int32_t param = networkstatus_get_param(NULL, "cbtinitialtimeout",
- CBT_DEFAULT_TIMEOUT_INITIAL_VALUE,
- CBT_MIN_TIMEOUT_INITIAL_VALUE,
- CBT_MAX_TIMEOUT_INITIAL_VALUE);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_initial_timeout() called, "
- "cbtinitialtimeout is %d",
- param);
- }
- if (param < min) {
- log_warn(LD_DIR, "Consensus parameter cbtinitialtimeout is too small, "
- "raising to %d", min);
- param = min;
- }
- return param;
- }
- /**
- * Retrieve and bounds-check the cbtrecentcount consensus paramter.
- *
- * Effect: This is the number of circuit build times to keep track of
- * for deciding if we hit cbtmaxtimeouts and need to reset our state
- * and learn a new timeout.
- */
- static int32_t
- circuit_build_times_recent_circuit_count(networkstatus_t *ns)
- {
- int32_t num;
- num = networkstatus_get_param(ns, "cbtrecentcount",
- CBT_DEFAULT_RECENT_CIRCUITS,
- CBT_MIN_RECENT_CIRCUITS,
- CBT_MAX_RECENT_CIRCUITS);
- if (!(get_options()->LearnCircuitBuildTimeout)) {
- log_debug(LD_BUG,
- "circuit_build_times_recent_circuit_count() called, "
- "cbtrecentcount is %d",
- num);
- }
- return num;
- }
- /**
- * This function is called when we get a consensus update.
- *
- * It checks to see if we have changed any consensus parameters
- * that require reallocation or discard of previous stats.
- */
- void
- circuit_build_times_new_consensus_params(circuit_build_times_t *cbt,
- networkstatus_t *ns)
- {
- int32_t num;
- /*
- * First check if we're doing adaptive timeouts at all; nothing to
- * update if we aren't.
- */
- if (!circuit_build_times_disabled(get_options())) {
- num = circuit_build_times_recent_circuit_count(ns);
- if (num > 0) {
- if (num != cbt->liveness.num_recent_circs) {
- int8_t *recent_circs;
- log_notice(LD_CIRC, "The Tor Directory Consensus has changed how many "
- "circuits we must track to detect network failures from %d "
- "to %d.", cbt->liveness.num_recent_circs, num);
- tor_assert(cbt->liveness.timeouts_after_firsthop ||
- cbt->liveness.num_recent_circs == 0);
- /*
- * Technically this is a circular array that we are reallocating
- * and memcopying. However, since it only consists of either 1s
- * or 0s, and is only used in a statistical test to determine when
- * we should discard our history after a sufficient number of 1's
- * have been reached, it is fine if order is not preserved or
- * elements are lost.
- *
- * cbtrecentcount should only be changing in cases of severe network
- * distress anyway, so memory correctness here is paramount over
- * doing acrobatics to preserve the array.
- */
- recent_circs = tor_calloc(num, sizeof(int8_t));
- if (cbt->liveness.timeouts_after_firsthop &&
- cbt->liveness.num_recent_circs > 0) {
- memcpy(recent_circs, cbt->liveness.timeouts_after_firsthop,
- sizeof(int8_t)*MIN(num, cbt->liveness.num_recent_circs));
- }
- // Adjust the index if it needs it.
- if (num < cbt->liveness.num_recent_circs) {
- cbt->liveness.after_firsthop_idx = MIN(num-1,
- cbt->liveness.after_firsthop_idx);
- }
- tor_free(cbt->liveness.timeouts_after_firsthop);
- cbt->liveness.timeouts_after_firsthop = recent_circs;
- cbt->liveness.num_recent_circs = num;
- }
- /* else no change, nothing to do */
- } else { /* num == 0 */
- /*
- * Weird. This probably shouldn't happen, so log a warning, but try
- * to do something sensible anyway.
- */
- log_warn(LD_CIRC,
- "The cbtrecentcircs consensus parameter came back zero! "
- "This disables adaptive timeouts since we can't keep track of "
- "any recent circuits.");
- circuit_build_times_free_timeouts(cbt);
- }
- } else {
- /*
- * Adaptive timeouts are disabled; this might be because of the
- * LearnCircuitBuildTimes config parameter, and hence permanent, or
- * the cbtdisabled consensus parameter, so it may be a new condition.
- * Treat it like getting num == 0 above and free the circuit history
- * if we have any.
- */
- circuit_build_times_free_timeouts(cbt);
- }
- }
- /**
- * Return the initial default or configured timeout in milliseconds
- */
- static double
- circuit_build_times_get_initial_timeout(void)
- {
- double timeout;
- const or_options_t *options = get_options();
- /*
- * Check if we have LearnCircuitBuildTimeout, and if we don't,
- * always use CircuitBuildTimeout, no questions asked.
- */
- if (!unit_tests && options->CircuitBuildTimeout) {
- timeout = options->CircuitBuildTimeout*1000;
- if (!circuit_build_times_disabled(options) &&
- timeout < circuit_build_times_min_timeout()) {
- log_warn(LD_CIRC, "Config CircuitBuildTimeout too low. Setting to %ds",
- circuit_build_times_min_timeout()/1000);
- timeout = circuit_build_times_min_timeout();
- }
- } else {
- timeout = circuit_build_times_initial_timeout();
- }
- return timeout;
- }
- /**
- * Reset the build time state.
- *
- * Leave estimated parameters, timeout and network liveness intact
- * for future use.
- */
- STATIC void
- circuit_build_times_reset(circuit_build_times_t *cbt)
- {
- memset(cbt->circuit_build_times, 0, sizeof(cbt->circuit_build_times));
- cbt->total_build_times = 0;
- cbt->build_times_idx = 0;
- cbt->have_computed_timeout = 0;
- }
- /**
- * Initialize the buildtimes structure for first use.
- *
- * Sets the initial timeout values based on either the config setting,
- * the consensus param, or the default (CBT_DEFAULT_TIMEOUT_INITIAL_VALUE).
- */
- void
- circuit_build_times_init(circuit_build_times_t *cbt)
- {
- memset(cbt, 0, sizeof(*cbt));
- /*
- * Check if we really are using adaptive timeouts, and don't keep
- * track of this stuff if not.
- */
- if (!circuit_build_times_disabled(get_options())) {
- cbt->liveness.num_recent_circs =
- circuit_build_times_recent_circuit_count(NULL);
- cbt->liveness.timeouts_after_firsthop =
- tor_calloc(cbt->liveness.num_recent_circs, sizeof(int8_t));
- } else {
- cbt->liveness.num_recent_circs = 0;
- cbt->liveness.timeouts_after_firsthop = NULL;
- }
- cbt->close_ms = cbt->timeout_ms = circuit_build_times_get_initial_timeout();
- cbt_control_event_buildtimeout_set(cbt, BUILDTIMEOUT_SET_EVENT_RESET);
- }
- /**
- * Free the saved timeouts, if the cbtdisabled consensus parameter got turned
- * on or something.
- */
- void
- circuit_build_times_free_timeouts(circuit_build_times_t *cbt)
- {
- if (!cbt) return;
- if (cbt->liveness.timeouts_after_firsthop) {
- tor_free(cbt->liveness.timeouts_after_firsthop);
- }
- cbt->liveness.num_recent_circs = 0;
- }
- #if 0
- /**
- * Rewind our build time history by n positions.
- */
- static void
- circuit_build_times_rewind_history(circuit_build_times_t *cbt, int n)
- {
- int i = 0;
- cbt->build_times_idx -= n;
- cbt->build_times_idx %= CBT_NCIRCUITS_TO_OBSERVE;
- for (i = 0; i < n; i++) {
- cbt->circuit_build_times[(i+cbt->build_times_idx)
- %CBT_NCIRCUITS_TO_OBSERVE]=0;
- }
- if (cbt->total_build_times > n) {
- cbt->total_build_times -= n;
- } else {
- cbt->total_build_times = 0;
- }
- log_info(LD_CIRC,
- "Rewound history by %d places. Current index: %d. "
- "Total: %d", n, cbt->build_times_idx, cbt->total_build_times);
- }
- #endif
- /**
- * Add a new build time value <b>time</b> to the set of build times. Time
- * units are milliseconds.
- *
- * circuit_build_times <b>cbt</b> is a circular array, so loop around when
- * array is full.
- */
- int
- circuit_build_times_add_time(circuit_build_times_t *cbt, build_time_t btime)
- {
- if (btime <= 0 || btime > CBT_BUILD_TIME_MAX) {
- log_warn(LD_BUG, "Circuit build time is too large (%u)."
- "This is probably a bug.", btime);
- tor_fragile_assert();
- return -1;
- }
- log_debug(LD_CIRC, "Adding circuit build time %u", btime);
- cbt->circuit_build_times[cbt->build_times_idx] = btime;
- cbt->build_times_idx = (cbt->build_times_idx + 1) % CBT_NCIRCUITS_TO_OBSERVE;
- if (cbt->total_build_times < CBT_NCIRCUITS_TO_OBSERVE)
- cbt->total_build_times++;
- if ((cbt->total_build_times % CBT_SAVE_STATE_EVERY) == 0) {
- /* Save state every n circuit builds */
- if (!unit_tests && !get_options()->AvoidDiskWrites)
- or_state_mark_dirty(get_or_state(), 0);
- }
- return 0;
- }
- /**
- * Return maximum circuit build time
- */
- static build_time_t
- circuit_build_times_max(const circuit_build_times_t *cbt)
- {
- int i = 0;
- build_time_t max_build_time = 0;
- for (i = 0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (cbt->circuit_build_times[i] > max_build_time
- && cbt->circuit_build_times[i] != CBT_BUILD_ABANDONED)
- max_build_time = cbt->circuit_build_times[i];
- }
- return max_build_time;
- }
- #if 0
- /** Return minimum circuit build time */
- build_time_t
- circuit_build_times_min(circuit_build_times_t *cbt)
- {
- int i = 0;
- build_time_t min_build_time = CBT_BUILD_TIME_MAX;
- for (i = 0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (cbt->circuit_build_times[i] && /* 0 <-> uninitialized */
- cbt->circuit_build_times[i] < min_build_time)
- min_build_time = cbt->circuit_build_times[i];
- }
- if (min_build_time == CBT_BUILD_TIME_MAX) {
- log_warn(LD_CIRC, "No build times less than CBT_BUILD_TIME_MAX!");
- }
- return min_build_time;
- }
- #endif
- /**
- * Calculate and return a histogram for the set of build times.
- *
- * Returns an allocated array of histrogram bins representing
- * the frequency of index*CBT_BIN_WIDTH millisecond
- * build times. Also outputs the number of bins in nbins.
- *
- * The return value must be freed by the caller.
- */
- static uint32_t *
- circuit_build_times_create_histogram(const circuit_build_times_t *cbt,
- build_time_t *nbins)
- {
- uint32_t *histogram;
- build_time_t max_build_time = circuit_build_times_max(cbt);
- int i, c;
- *nbins = 1 + (max_build_time / CBT_BIN_WIDTH);
- histogram = tor_calloc(*nbins, sizeof(build_time_t));
- // calculate histogram
- for (i = 0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (cbt->circuit_build_times[i] == 0
- || cbt->circuit_build_times[i] == CBT_BUILD_ABANDONED)
- continue; /* 0 <-> uninitialized */
- c = (cbt->circuit_build_times[i] / CBT_BIN_WIDTH);
- histogram[c]++;
- }
- return histogram;
- }
- /**
- * Return the Pareto start-of-curve parameter Xm.
- *
- * Because we are not a true Pareto curve, we compute this as the
- * weighted average of the N most frequent build time bins. N is either
- * 1 if we don't have enough circuit build time data collected, or
- * determined by the consensus parameter cbtnummodes (default 3).
- */
- static build_time_t
- circuit_build_times_get_xm(circuit_build_times_t *cbt)
- {
- build_time_t i, nbins;
- build_time_t *nth_max_bin;
- int32_t bin_counts=0;
- build_time_t ret = 0;
- uint32_t *histogram = circuit_build_times_create_histogram(cbt, &nbins);
- int n=0;
- int num_modes = circuit_build_times_default_num_xm_modes();
- tor_assert(nbins > 0);
- tor_assert(num_modes > 0);
- // Only use one mode if < 1000 buildtimes. Not enough data
- // for multiple.
- if (cbt->total_build_times < CBT_NCIRCUITS_TO_OBSERVE)
- num_modes = 1;
- nth_max_bin = tor_calloc(num_modes, sizeof(build_time_t));
- /* Determine the N most common build times */
- for (i = 0; i < nbins; i++) {
- if (histogram[i] >= histogram[nth_max_bin[0]]) {
- nth_max_bin[0] = i;
- }
- for (n = 1; n < num_modes; n++) {
- if (histogram[i] >= histogram[nth_max_bin[n]] &&
- (!histogram[nth_max_bin[n-1]]
- || histogram[i] < histogram[nth_max_bin[n-1]])) {
- nth_max_bin[n] = i;
- }
- }
- }
- for (n = 0; n < num_modes; n++) {
- bin_counts += histogram[nth_max_bin[n]];
- ret += CBT_BIN_TO_MS(nth_max_bin[n])*histogram[nth_max_bin[n]];
- log_info(LD_CIRC, "Xm mode #%d: %u %u", n, CBT_BIN_TO_MS(nth_max_bin[n]),
- histogram[nth_max_bin[n]]);
- }
- /* The following assert is safe, because we don't get called when we
- * haven't observed at least CBT_MIN_MIN_CIRCUITS_TO_OBSERVE circuits. */
- tor_assert(bin_counts > 0);
- ret /= bin_counts;
- tor_free(histogram);
- tor_free(nth_max_bin);
- return ret;
- }
- /**
- * Output a histogram of current circuit build times to
- * the or_state_t state structure.
- */
- void
- circuit_build_times_update_state(const circuit_build_times_t *cbt,
- or_state_t *state)
- {
- uint32_t *histogram;
- build_time_t i = 0;
- build_time_t nbins = 0;
- config_line_t **next, *line;
- histogram = circuit_build_times_create_histogram(cbt, &nbins);
- // write to state
- config_free_lines(state->BuildtimeHistogram);
- next = &state->BuildtimeHistogram;
- *next = NULL;
- state->TotalBuildTimes = cbt->total_build_times;
- state->CircuitBuildAbandonedCount = 0;
- for (i = 0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (cbt->circuit_build_times[i] == CBT_BUILD_ABANDONED)
- state->CircuitBuildAbandonedCount++;
- }
- for (i = 0; i < nbins; i++) {
- // compress the histogram by skipping the blanks
- if (histogram[i] == 0) continue;
- *next = line = tor_malloc_zero(sizeof(config_line_t));
- line->key = tor_strdup("CircuitBuildTimeBin");
- tor_asprintf(&line->value, "%d %d",
- CBT_BIN_TO_MS(i), histogram[i]);
- next = &(line->next);
- }
- if (!unit_tests) {
- if (!get_options()->AvoidDiskWrites)
- or_state_mark_dirty(get_or_state(), 0);
- }
- tor_free(histogram);
- }
- /**
- * Shuffle the build times array.
- *
- * Adapted from http://en.wikipedia.org/wiki/Fisher-Yates_shuffle
- */
- static void
- circuit_build_times_shuffle_and_store_array(circuit_build_times_t *cbt,
- build_time_t *raw_times,
- uint32_t num_times)
- {
- uint32_t n = num_times;
- if (num_times > CBT_NCIRCUITS_TO_OBSERVE) {
- log_notice(LD_CIRC, "The number of circuit times that this Tor version "
- "uses to calculate build times is less than the number stored "
- "in your state file. Decreasing the circuit time history from "
- "%lu to %d.", (unsigned long)num_times,
- CBT_NCIRCUITS_TO_OBSERVE);
- }
- if (n > INT_MAX-1) {
- log_warn(LD_CIRC, "For some insane reasons, you had %lu circuit build "
- "observations in your state file. That's far too many; probably "
- "there's a bug here.", (unsigned long)n);
- n = INT_MAX-1;
- }
- /* This code can only be run on a compact array */
- while (n-- > 1) {
- int k = crypto_rand_int(n + 1); /* 0 <= k <= n. */
- build_time_t tmp = raw_times[k];
- raw_times[k] = raw_times[n];
- raw_times[n] = tmp;
- }
- /* Since the times are now shuffled, take a random CBT_NCIRCUITS_TO_OBSERVE
- * subset (ie the first CBT_NCIRCUITS_TO_OBSERVE values) */
- for (n = 0; n < MIN(num_times, CBT_NCIRCUITS_TO_OBSERVE); n++) {
- circuit_build_times_add_time(cbt, raw_times[n]);
- }
- }
- /**
- * Filter old synthetic timeouts that were created before the
- * new right-censored Pareto calculation was deployed.
- *
- * Once all clients before 0.2.1.13-alpha are gone, this code
- * will be unused.
- */
- static int
- circuit_build_times_filter_timeouts(circuit_build_times_t *cbt)
- {
- int num_filtered=0, i=0;
- double timeout_rate = 0;
- build_time_t max_timeout = 0;
- timeout_rate = circuit_build_times_timeout_rate(cbt);
- max_timeout = (build_time_t)cbt->close_ms;
- for (i = 0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (cbt->circuit_build_times[i] > max_timeout) {
- build_time_t replaced = cbt->circuit_build_times[i];
- num_filtered++;
- cbt->circuit_build_times[i] = CBT_BUILD_ABANDONED;
- log_debug(LD_CIRC, "Replaced timeout %d with %d", replaced,
- cbt->circuit_build_times[i]);
- }
- }
- log_info(LD_CIRC,
- "We had %d timeouts out of %d build times, "
- "and filtered %d above the max of %u",
- (int)(cbt->total_build_times*timeout_rate),
- cbt->total_build_times, num_filtered, max_timeout);
- return num_filtered;
- }
- /**
- * Load histogram from <b>state</b>, shuffling the resulting array
- * after we do so. Use this result to estimate parameters and
- * calculate the timeout.
- *
- * Return -1 on error.
- */
- int
- circuit_build_times_parse_state(circuit_build_times_t *cbt,
- or_state_t *state)
- {
- int tot_values = 0;
- uint32_t loaded_cnt = 0, N = 0;
- config_line_t *line;
- unsigned int i;
- build_time_t *loaded_times;
- int err = 0;
- circuit_build_times_init(cbt);
- if (circuit_build_times_disabled(get_options())) {
- return 0;
- }
- /* build_time_t 0 means uninitialized */
- loaded_times = tor_calloc(state->TotalBuildTimes, sizeof(build_time_t));
- for (line = state->BuildtimeHistogram; line; line = line->next) {
- smartlist_t *args = smartlist_new();
- smartlist_split_string(args, line->value, " ",
- SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 0);
- if (smartlist_len(args) < 2) {
- log_warn(LD_GENERAL, "Unable to parse circuit build times: "
- "Too few arguments to CircuitBuildTime");
- err = 1;
- SMARTLIST_FOREACH(args, char*, cp, tor_free(cp));
- smartlist_free(args);
- break;
- } else {
- const char *ms_str = smartlist_get(args,0);
- const char *count_str = smartlist_get(args,1);
- uint32_t count, k;
- build_time_t ms;
- int ok;
- ms = (build_time_t)tor_parse_ulong(ms_str, 0, 0,
- CBT_BUILD_TIME_MAX, &ok, NULL);
- if (!ok) {
- log_warn(LD_GENERAL, "Unable to parse circuit build times: "
- "Unparsable bin number");
- err = 1;
- SMARTLIST_FOREACH(args, char*, cp, tor_free(cp));
- smartlist_free(args);
- break;
- }
- count = (uint32_t)tor_parse_ulong(count_str, 0, 0,
- UINT32_MAX, &ok, NULL);
- if (!ok) {
- log_warn(LD_GENERAL, "Unable to parse circuit build times: "
- "Unparsable bin count");
- err = 1;
- SMARTLIST_FOREACH(args, char*, cp, tor_free(cp));
- smartlist_free(args);
- break;
- }
- if (loaded_cnt+count+state->CircuitBuildAbandonedCount
- > state->TotalBuildTimes) {
- log_warn(LD_CIRC,
- "Too many build times in state file. "
- "Stopping short before %d",
- loaded_cnt+count);
- SMARTLIST_FOREACH(args, char*, cp, tor_free(cp));
- smartlist_free(args);
- break;
- }
- for (k = 0; k < count; k++) {
- loaded_times[loaded_cnt++] = ms;
- }
- N++;
- SMARTLIST_FOREACH(args, char*, cp, tor_free(cp));
- smartlist_free(args);
- }
- }
- log_info(LD_CIRC,
- "Adding %d timeouts.", state->CircuitBuildAbandonedCount);
- for (i=0; i < state->CircuitBuildAbandonedCount; i++) {
- loaded_times[loaded_cnt++] = CBT_BUILD_ABANDONED;
- }
- if (loaded_cnt != state->TotalBuildTimes) {
- log_warn(LD_CIRC,
- "Corrupt state file? Build times count mismatch. "
- "Read %d times, but file says %d", loaded_cnt,
- state->TotalBuildTimes);
- err = 1;
- circuit_build_times_reset(cbt);
- goto done;
- }
- circuit_build_times_shuffle_and_store_array(cbt, loaded_times, loaded_cnt);
- /* Verify that we didn't overwrite any indexes */
- for (i=0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (!cbt->circuit_build_times[i])
- break;
- tot_values++;
- }
- log_info(LD_CIRC,
- "Loaded %d/%d values from %d lines in circuit time histogram",
- tot_values, cbt->total_build_times, N);
- if (cbt->total_build_times != tot_values
- || cbt->total_build_times > CBT_NCIRCUITS_TO_OBSERVE) {
- log_warn(LD_CIRC,
- "Corrupt state file? Shuffled build times mismatch. "
- "Read %d times, but file says %d", tot_values,
- state->TotalBuildTimes);
- err = 1;
- circuit_build_times_reset(cbt);
- goto done;
- }
- circuit_build_times_set_timeout(cbt);
- if (!state->CircuitBuildAbandonedCount && cbt->total_build_times) {
- circuit_build_times_filter_timeouts(cbt);
- }
- done:
- tor_free(loaded_times);
- return err ? -1 : 0;
- }
- /**
- * Estimates the Xm and Alpha parameters using
- * http://en.wikipedia.org/wiki/Pareto_distribution#Parameter_estimation
- *
- * The notable difference is that we use mode instead of min to estimate Xm.
- * This is because our distribution is frechet-like. We claim this is
- * an acceptable approximation because we are only concerned with the
- * accuracy of the CDF of the tail.
- */
- STATIC int
- circuit_build_times_update_alpha(circuit_build_times_t *cbt)
- {
- build_time_t *x=cbt->circuit_build_times;
- double a = 0;
- int n=0,i=0,abandoned_count=0;
- build_time_t max_time=0;
- /* http://en.wikipedia.org/wiki/Pareto_distribution#Parameter_estimation */
- /* We sort of cheat here and make our samples slightly more pareto-like
- * and less frechet-like. */
- cbt->Xm = circuit_build_times_get_xm(cbt);
- tor_assert(cbt->Xm > 0);
- for (i=0; i< CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (!x[i]) {
- continue;
- }
- if (x[i] < cbt->Xm) {
- a += tor_mathlog(cbt->Xm);
- } else if (x[i] == CBT_BUILD_ABANDONED) {
- abandoned_count++;
- } else {
- a += tor_mathlog(x[i]);
- if (x[i] > max_time)
- max_time = x[i];
- }
- n++;
- }
- /*
- * We are erring and asserting here because this can only happen
- * in codepaths other than startup. The startup state parsing code
- * performs this same check, and resets state if it hits it. If we
- * hit it at runtime, something serious has gone wrong.
- */
- if (n!=cbt->total_build_times) {
- log_err(LD_CIRC, "Discrepancy in build times count: %d vs %d", n,
- cbt->total_build_times);
- }
- tor_assert(n==cbt->total_build_times);
- if (max_time <= 0) {
- /* This can happen if Xm is actually the *maximum* value in the set.
- * It can also happen if we've abandoned every single circuit somehow.
- * In either case, tell the caller not to compute a new build timeout. */
- log_warn(LD_BUG,
- "Could not determine largest build time (%d). "
- "Xm is %dms and we've abandoned %d out of %d circuits.", max_time,
- cbt->Xm, abandoned_count, n);
- return 0;
- }
- a += abandoned_count*tor_mathlog(max_time);
- a -= n*tor_mathlog(cbt->Xm);
- // Estimator comes from Eq #4 in:
- // "Bayesian estimation based on trimmed samples from Pareto populations"
- // by Arturo J. Fernández. We are right-censored only.
- a = (n-abandoned_count)/a;
- cbt->alpha = a;
- return 1;
- }
- /**
- * This is the Pareto Quantile Function. It calculates the point x
- * in the distribution such that F(x) = quantile (ie quantile*100%
- * of the mass of the density function is below x on the curve).
- *
- * We use it to calculate the timeout and also to generate synthetic
- * values of time for circuits that timeout before completion.
- *
- * See http://en.wikipedia.org/wiki/Quantile_function,
- * http://en.wikipedia.org/wiki/Inverse_transform_sampling and
- * http://en.wikipedia.org/wiki/Pareto_distribution#Generating_a_
- * random_sample_from_Pareto_distribution
- * That's right. I'll cite wikipedia all day long.
- *
- * Return value is in milliseconds, clamped to INT32_MAX.
- */
- STATIC double
- circuit_build_times_calculate_timeout(circuit_build_times_t *cbt,
- double quantile)
- {
- double ret;
- tor_assert(quantile >= 0);
- tor_assert(1.0-quantile > 0);
- tor_assert(cbt->Xm > 0);
- /* If either alpha or p are 0, we would divide by zero, yielding an
- * infinite (double) result; which would be clamped to INT32_MAX.
- * Instead, initialise ret to INT32_MAX, and skip over these
- * potentially illegal/trapping divides by zero.
- */
- ret = INT32_MAX;
- if (cbt->alpha > 0) {
- double p;
- p = pow(1.0-quantile,1.0/cbt->alpha);
- if (p > 0) {
- ret = cbt->Xm/p;
- }
- }
- if (ret > INT32_MAX) {
- ret = INT32_MAX;
- }
- tor_assert(ret > 0);
- return ret;
- }
- #ifdef TOR_UNIT_TESTS
- /** Pareto CDF */
- double
- circuit_build_times_cdf(circuit_build_times_t *cbt, double x)
- {
- double ret;
- tor_assert(cbt->Xm > 0);
- ret = 1.0-pow(cbt->Xm/x,cbt->alpha);
- tor_assert(0 <= ret && ret <= 1.0);
- return ret;
- }
- #endif
- #ifdef TOR_UNIT_TESTS
- /**
- * Generate a synthetic time using our distribution parameters.
- *
- * The return value will be within the [q_lo, q_hi) quantile points
- * on the CDF.
- */
- build_time_t
- circuit_build_times_generate_sample(circuit_build_times_t *cbt,
- double q_lo, double q_hi)
- {
- double randval = crypto_rand_double();
- build_time_t ret;
- double u;
- /* Generate between [q_lo, q_hi) */
- /*XXXX This is what nextafter is supposed to be for; we should use it on the
- * platforms that support it. */
- q_hi -= 1.0/(INT32_MAX);
- tor_assert(q_lo >= 0);
- tor_assert(q_hi < 1);
- tor_assert(q_lo < q_hi);
- u = q_lo + (q_hi-q_lo)*randval;
- tor_assert(0 <= u && u < 1.0);
- /* circuit_build_times_calculate_timeout returns <= INT32_MAX */
- ret = (build_time_t)
- tor_lround(circuit_build_times_calculate_timeout(cbt, u));
- tor_assert(ret > 0);
- return ret;
- }
- #endif
- #ifdef TOR_UNIT_TESTS
- /**
- * Estimate an initial alpha parameter by solving the quantile
- * function with a quantile point and a specific timeout value.
- */
- void
- circuit_build_times_initial_alpha(circuit_build_times_t *cbt,
- double quantile, double timeout_ms)
- {
- // Q(u) = Xm/((1-u)^(1/a))
- // Q(0.8) = Xm/((1-0.8))^(1/a)) = CircBuildTimeout
- // CircBuildTimeout = Xm/((1-0.8))^(1/a))
- // CircBuildTimeout = Xm*((1-0.8))^(-1/a))
- // ln(CircBuildTimeout) = ln(Xm)+ln(((1-0.8)))*(-1/a)
- // -ln(1-0.8)/(ln(CircBuildTimeout)-ln(Xm))=a
- tor_assert(quantile >= 0);
- tor_assert(cbt->Xm > 0);
- cbt->alpha = tor_mathlog(1.0-quantile)/
- (tor_mathlog(cbt->Xm)-tor_mathlog(timeout_ms));
- tor_assert(cbt->alpha > 0);
- }
- #endif
- /**
- * Returns true if we need circuits to be built
- */
- int
- circuit_build_times_needs_circuits(const circuit_build_times_t *cbt)
- {
- /* Return true if < MIN_CIRCUITS_TO_OBSERVE */
- return !circuit_build_times_enough_to_compute(cbt);
- }
- /**
- * Returns true if we should build a timeout test circuit
- * right now.
- */
- int
- circuit_build_times_needs_circuits_now(const circuit_build_times_t *cbt)
- {
- return circuit_build_times_needs_circuits(cbt) &&
- approx_time()-cbt->last_circ_at > circuit_build_times_test_frequency();
- }
- /**
- * How long should we be unreachable before we think we need to check if
- * our published IP address has changed.
- */
- #define CIRCUIT_TIMEOUT_BEFORE_RECHECK_IP (60*3)
- /**
- * Called to indicate that the network showed some signs of liveness,
- * i.e. we received a cell.
- *
- * This is used by circuit_build_times_network_check_live() to decide
- * if we should record the circuit build timeout or not.
- *
- * This function is called every time we receive a cell. Avoid
- * syscalls, events, and other high-intensity work.
- */
- void
- circuit_build_times_network_is_live(circuit_build_times_t *cbt)
- {
- time_t now = approx_time();
- if (cbt->liveness.nonlive_timeouts > 0) {
- time_t time_since_live = now - cbt->liveness.network_last_live;
- log_notice(LD_CIRC,
- "Tor now sees network activity. Restoring circuit build "
- "timeout recording. Network was down for %d seconds "
- "during %d circuit attempts.",
- (int)time_since_live,
- cbt->liveness.nonlive_timeouts);
- if (time_since_live > CIRCUIT_TIMEOUT_BEFORE_RECHECK_IP)
- reschedule_descriptor_update_check();
- }
- cbt->liveness.network_last_live = now;
- cbt->liveness.nonlive_timeouts = 0;
- /* Tell control.c */
- control_event_network_liveness_update(1);
- }
- /**
- * Called to indicate that we completed a circuit. Because this circuit
- * succeeded, it doesn't count as a timeout-after-the-first-hop.
- *
- * This is used by circuit_build_times_network_check_changed() to determine
- * if we had too many recent timeouts and need to reset our learned timeout
- * to something higher.
- */
- void
- circuit_build_times_network_circ_success(circuit_build_times_t *cbt)
- {
- /* Check for NULLness because we might not be using adaptive timeouts */
- if (cbt->liveness.timeouts_after_firsthop &&
- cbt->liveness.num_recent_circs > 0) {
- cbt->liveness.timeouts_after_firsthop[cbt->liveness.after_firsthop_idx]
- = 0;
- cbt->liveness.after_firsthop_idx++;
- cbt->liveness.after_firsthop_idx %= cbt->liveness.num_recent_circs;
- }
- }
- /**
- * A circuit just timed out. If it failed after the first hop, record it
- * in our history for later deciding if the network speed has changed.
- *
- * This is used by circuit_build_times_network_check_changed() to determine
- * if we had too many recent timeouts and need to reset our learned timeout
- * to something higher.
- */
- static void
- circuit_build_times_network_timeout(circuit_build_times_t *cbt,
- int did_onehop)
- {
- /* Check for NULLness because we might not be using adaptive timeouts */
- if (cbt->liveness.timeouts_after_firsthop &&
- cbt->liveness.num_recent_circs > 0) {
- if (did_onehop) {
- cbt->liveness.timeouts_after_firsthop[cbt->liveness.after_firsthop_idx]
- = 1;
- cbt->liveness.after_firsthop_idx++;
- cbt->liveness.after_firsthop_idx %= cbt->liveness.num_recent_circs;
- }
- }
- }
- /**
- * A circuit was just forcibly closed. If there has been no recent network
- * activity at all, but this circuit was launched back when we thought the
- * network was live, increment the number of "nonlive" circuit timeouts.
- *
- * This is used by circuit_build_times_network_check_live() to decide
- * if we should record the circuit build timeout or not.
- */
- static void
- circuit_build_times_network_close(circuit_build_times_t *cbt,
- int did_onehop, time_t start_time)
- {
- time_t now = time(NULL);
- /*
- * Check if this is a timeout that was for a circuit that spent its
- * entire existence during a time where we have had no network activity.
- */
- if (cbt->liveness.network_last_live < start_time) {
- if (did_onehop) {
- char last_live_buf[ISO_TIME_LEN+1];
- char start_time_buf[ISO_TIME_LEN+1];
- char now_buf[ISO_TIME_LEN+1];
- format_local_iso_time(last_live_buf, cbt->liveness.network_last_live);
- format_local_iso_time(start_time_buf, start_time);
- format_local_iso_time(now_buf, now);
- log_notice(LD_CIRC,
- "A circuit somehow completed a hop while the network was "
- "not live. The network was last live at %s, but the circuit "
- "launched at %s. It's now %s. This could mean your clock "
- "changed.", last_live_buf, start_time_buf, now_buf);
- }
- cbt->liveness.nonlive_timeouts++;
- if (cbt->liveness.nonlive_timeouts == 1) {
- log_notice(LD_CIRC,
- "Tor has not observed any network activity for the past %d "
- "seconds. Disabling circuit build timeout recording.",
- (int)(now - cbt->liveness.network_last_live));
- /* Tell control.c */
- control_event_network_liveness_update(0);
- } else {
- log_info(LD_CIRC,
- "Got non-live timeout. Current count is: %d",
- cbt->liveness.nonlive_timeouts);
- }
- }
- }
- /**
- * When the network is not live, we do not record circuit build times.
- *
- * The network is considered not live if there has been at least one
- * circuit build that began and ended (had its close_ms measurement
- * period expire) since we last received a cell.
- *
- * Also has the side effect of rewinding the circuit time history
- * in the case of recent liveness changes.
- */
- int
- circuit_build_times_network_check_live(const circuit_build_times_t *cbt)
- {
- if (cbt->liveness.nonlive_timeouts > 0) {
- return 0;
- }
- return 1;
- }
- /**
- * Returns true if we have seen more than MAX_RECENT_TIMEOUT_COUNT of
- * the past RECENT_CIRCUITS time out after the first hop. Used to detect
- * if the network connection has changed significantly, and if so,
- * resets our circuit build timeout to the default.
- *
- * Also resets the entire timeout history in this case and causes us
- * to restart the process of building test circuits and estimating a
- * new timeout.
- */
- STATIC int
- circuit_build_times_network_check_changed(circuit_build_times_t *cbt)
- {
- int total_build_times = cbt->total_build_times;
- int timeout_count=0;
- int i;
- if (cbt->liveness.timeouts_after_firsthop &&
- cbt->liveness.num_recent_circs > 0) {
- /* how many of our recent circuits made it to the first hop but then
- * timed out? */
- for (i = 0; i < cbt->liveness.num_recent_circs; i++) {
- timeout_count += cbt->liveness.timeouts_after_firsthop[i];
- }
- }
- /* If 80% of our recent circuits are timing out after the first hop,
- * we need to re-estimate a new initial alpha and timeout. */
- if (timeout_count < circuit_build_times_max_timeouts()) {
- return 0;
- }
- circuit_build_times_reset(cbt);
- if (cbt->liveness.timeouts_after_firsthop &&
- cbt->liveness.num_recent_circs > 0) {
- memset(cbt->liveness.timeouts_after_firsthop, 0,
- sizeof(*cbt->liveness.timeouts_after_firsthop)*
- cbt->liveness.num_recent_circs);
- }
- cbt->liveness.after_firsthop_idx = 0;
- #define MAX_TIMEOUT ((int32_t) (INT32_MAX/2))
- /* Check to see if this has happened before. If so, double the timeout
- * to give clients on abysmally bad network connections a shot at access */
- if (cbt->timeout_ms >= circuit_build_times_get_initial_timeout()) {
- if (cbt->timeout_ms > MAX_TIMEOUT || cbt->close_ms > MAX_TIMEOUT) {
- log_warn(LD_CIRC, "Insanely large circuit build timeout value. "
- "(timeout = %fmsec, close = %fmsec)",
- cbt->timeout_ms, cbt->close_ms);
- } else {
- cbt->timeout_ms *= 2;
- cbt->close_ms *= 2;
- }
- } else {
- cbt->close_ms = cbt->timeout_ms
- = circuit_build_times_get_initial_timeout();
- }
- #undef MAX_TIMEOUT
- cbt_control_event_buildtimeout_set(cbt, BUILDTIMEOUT_SET_EVENT_RESET);
- log_notice(LD_CIRC,
- "Your network connection speed appears to have changed. Resetting "
- "timeout to %lds after %d timeouts and %d buildtimes.",
- tor_lround(cbt->timeout_ms/1000), timeout_count,
- total_build_times);
- return 1;
- }
- /**
- * Count the number of timeouts in a set of cbt data.
- */
- double
- circuit_build_times_timeout_rate(const circuit_build_times_t *cbt)
- {
- int i=0,timeouts=0;
- for (i = 0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (cbt->circuit_build_times[i] >= cbt->timeout_ms) {
- timeouts++;
- }
- }
- if (!cbt->total_build_times)
- return 0;
- return ((double)timeouts)/cbt->total_build_times;
- }
- /**
- * Count the number of closed circuits in a set of cbt data.
- */
- double
- circuit_build_times_close_rate(const circuit_build_times_t *cbt)
- {
- int i=0,closed=0;
- for (i = 0; i < CBT_NCIRCUITS_TO_OBSERVE; i++) {
- if (cbt->circuit_build_times[i] == CBT_BUILD_ABANDONED) {
- closed++;
- }
- }
- if (!cbt->total_build_times)
- return 0;
- return ((double)closed)/cbt->total_build_times;
- }
- /**
- * Store a timeout as a synthetic value.
- *
- * Returns true if the store was successful and we should possibly
- * update our timeout estimate.
- */
- int
- circuit_build_times_count_close(circuit_build_times_t *cbt,
- int did_onehop,
- time_t start_time)
- {
- if (circuit_build_times_disabled(get_options())) {
- cbt->close_ms = cbt->timeout_ms
- = circuit_build_times_get_initial_timeout();
- return 0;
- }
- /* Record this force-close to help determine if the network is dead */
- circuit_build_times_network_close(cbt, did_onehop, start_time);
- /* Only count timeouts if network is live.. */
- if (!circuit_build_times_network_check_live(cbt)) {
- return 0;
- }
- circuit_build_times_add_time(cbt, CBT_BUILD_ABANDONED);
- return 1;
- }
- /**
- * Update timeout counts to determine if we need to expire
- * our build time history due to excessive timeouts.
- *
- * We do not record any actual time values at this stage;
- * we are only interested in recording the fact that a timeout
- * happened. We record the time values via
- * circuit_build_times_count_close() and circuit_build_times_add_time().
- */
- void
- circuit_build_times_count_timeout(circuit_build_times_t *cbt,
- int did_onehop)
- {
- if (circuit_build_times_disabled(get_options())) {
- cbt->close_ms = cbt->timeout_ms
- = circuit_build_times_get_initial_timeout();
- return;
- }
- /* Register the fact that a timeout just occurred. */
- circuit_build_times_network_timeout(cbt, did_onehop);
- /* If there are a ton of timeouts, we should reset
- * the circuit build timeout. */
- circuit_build_times_network_check_changed(cbt);
- }
- /**
- * Estimate a new timeout based on history and set our timeout
- * variable accordingly.
- */
- static int
- circuit_build_times_set_timeout_worker(circuit_build_times_t *cbt)
- {
- build_time_t max_time;
- if (!circuit_build_times_enough_to_compute(cbt))
- return 0;
- if (!circuit_build_times_update_alpha(cbt))
- return 0;
- cbt->timeout_ms = circuit_build_times_calculate_timeout(cbt,
- circuit_build_times_quantile_cutoff());
- cbt->close_ms = circuit_build_times_calculate_timeout(cbt,
- circuit_build_times_close_quantile());
- max_time = circuit_build_times_max(cbt);
- if (cbt->timeout_ms > max_time) {
- log_info(LD_CIRC,
- "Circuit build timeout of %dms is beyond the maximum build "
- "time we have ever observed. Capping it to %dms.",
- (int)cbt->timeout_ms, max_time);
- cbt->timeout_ms = max_time;
- }
- if (max_time < INT32_MAX/2 && cbt->close_ms > 2*max_time) {
- log_info(LD_CIRC,
- "Circuit build measurement period of %dms is more than twice "
- "the maximum build time we have ever observed. Capping it to "
- "%dms.", (int)cbt->close_ms, 2*max_time);
- cbt->close_ms = 2*max_time;
- }
- /* Sometimes really fast guard nodes give us such a steep curve
- * that this ends up being not that much greater than timeout_ms.
- * Make it be at least 1 min to handle this case. */
- cbt->close_ms = MAX(cbt->close_ms, circuit_build_times_initial_timeout());
- cbt->have_computed_timeout = 1;
- return 1;
- }
- /**
- * Exposed function to compute a new timeout. Dispatches events and
- * also filters out extremely high timeout values.
- */
- void
- circuit_build_times_set_timeout(circuit_build_times_t *cbt)
- {
- long prev_timeout = tor_lround(cbt->timeout_ms/1000);
- double timeout_rate;
- /*
- * Just return if we aren't using adaptive timeouts
- */
- if (circuit_build_times_disabled(get_options()))
- return;
- if (!circuit_build_times_set_timeout_worker(cbt))
- return;
- if (cbt->timeout_ms < circuit_build_times_min_timeout()) {
- log_info(LD_CIRC, "Set buildtimeout to low value %fms. Setting to %dms",
- cbt->timeout_ms, circuit_build_times_min_timeout());
- cbt->timeout_ms = circuit_build_times_min_timeout();
- if (cbt->close_ms < cbt->timeout_ms) {
- /* This shouldn't happen because of MAX() in timeout_worker above,
- * but doing it just in case */
- cbt->close_ms = circuit_build_times_initial_timeout();
- }
- }
- cbt_control_event_buildtimeout_set(cbt, BUILDTIMEOUT_SET_EVENT_COMPUTED);
- timeout_rate = circuit_build_times_timeout_rate(cbt);
- if (prev_timeout > tor_lround(cbt->timeout_ms/1000)) {
- log_info(LD_CIRC,
- "Based on %d circuit times, it looks like we don't need to "
- "wait so long for circuits to finish. We will now assume a "
- "circuit is too slow to use after waiting %ld seconds.",
- cbt->total_build_times,
- tor_lround(cbt->timeout_ms/1000));
- log_info(LD_CIRC,
- "Circuit timeout data: %fms, %fms, Xm: %d, a: %f, r: %f",
- cbt->timeout_ms, cbt->close_ms, cbt->Xm, cbt->alpha,
- timeout_rate);
- } else if (prev_timeout < tor_lround(cbt->timeout_ms/1000)) {
- log_info(LD_CIRC,
- "Based on %d circuit times, it looks like we need to wait "
- "longer for circuits to finish. We will now assume a "
- "circuit is too slow to use after waiting %ld seconds.",
- cbt->total_build_times,
- tor_lround(cbt->timeout_ms/1000));
- log_info(LD_CIRC,
- "Circuit timeout data: %fms, %fms, Xm: %d, a: %f, r: %f",
- cbt->timeout_ms, cbt->close_ms, cbt->Xm, cbt->alpha,
- timeout_rate);
- } else {
- log_info(LD_CIRC,
- "Set circuit build timeout to %lds (%fms, %fms, Xm: %d, a: %f,"
- " r: %f) based on %d circuit times",
- tor_lround(cbt->timeout_ms/1000),
- cbt->timeout_ms, cbt->close_ms, cbt->Xm, cbt->alpha, timeout_rate,
- cbt->total_build_times);
- }
- }
- #ifdef TOR_UNIT_TESTS
- /** Make a note that we're running unit tests (rather than running Tor
- * itself), so we avoid clobbering our state file. */
- void
- circuitbuild_running_unit_tests(void)
- {
- unit_tests = 1;
- }
- #endif
- void
- circuit_build_times_update_last_circ(circuit_build_times_t *cbt)
- {
- cbt->last_circ_at = approx_time();
- }
- static void
- cbt_control_event_buildtimeout_set(const circuit_build_times_t *cbt,
- buildtimeout_set_event_t type)
- {
- char *args = NULL;
- double qnt;
- switch (type) {
- case BUILDTIMEOUT_SET_EVENT_RESET:
- case BUILDTIMEOUT_SET_EVENT_SUSPENDED:
- case BUILDTIMEOUT_SET_EVENT_DISCARD:
- qnt = 1.0;
- break;
- case BUILDTIMEOUT_SET_EVENT_COMPUTED:
- case BUILDTIMEOUT_SET_EVENT_RESUME:
- default:
- qnt = circuit_build_times_quantile_cutoff();
- break;
- }
- tor_asprintf(&args, "TOTAL_TIMES=%lu "
- "TIMEOUT_MS=%lu XM=%lu ALPHA=%f CUTOFF_QUANTILE=%f "
- "TIMEOUT_RATE=%f CLOSE_MS=%lu CLOSE_RATE=%f",
- (unsigned long)cbt->total_build_times,
- (unsigned long)cbt->timeout_ms,
- (unsigned long)cbt->Xm, cbt->alpha, qnt,
- circuit_build_times_timeout_rate(cbt),
- (unsigned long)cbt->close_ms,
- circuit_build_times_close_rate(cbt));
- control_event_buildtimeout_set(type, args);
- tor_free(args);
- }
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