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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) 2007-2017, The Tor Project, Inc. */
- /* See LICENSE for licensing information */
- /**
- * \file entrynodes.h
- * \brief Header file for circuitbuild.c.
- **/
- #ifndef TOR_ENTRYNODES_H
- #define TOR_ENTRYNODES_H
- #include "handles.h"
- /* Forward declare for guard_selection_t; entrynodes.c has the real struct */
- typedef struct guard_selection_s guard_selection_t;
- /* Forward declare for entry_guard_t; the real declaration is private. */
- typedef struct entry_guard_t entry_guard_t;
- /* Forward declaration for circuit_guard_state_t; the real declaration is
- private. */
- typedef struct circuit_guard_state_t circuit_guard_state_t;
- /* Forward declaration for entry_guard_restriction_t; the real declaration is
- private. */
- typedef struct entry_guard_restriction_t entry_guard_restriction_t;
- /* Information about a guard's pathbias status.
- * These fields are used in circpathbias.c to try to detect entry
- * nodes that are failing circuits at a suspicious frequency.
- */
- typedef struct guard_pathbias_t {
- unsigned int path_bias_noticed : 1; /**< Did we alert the user about path
- * bias for this node already? */
- unsigned int path_bias_warned : 1; /**< Did we alert the user about path bias
- * for this node already? */
- unsigned int path_bias_extreme : 1; /**< Did we alert the user about path
- * bias for this node already? */
- unsigned int path_bias_disabled : 1; /**< Have we disabled this node because
- * of path bias issues? */
- unsigned int path_bias_use_noticed : 1; /**< Did we alert the user about path
- * use bias for this node already? */
- unsigned int path_bias_use_extreme : 1; /**< Did we alert the user about path
- * use bias for this node already? */
- double circ_attempts; /**< Number of circuits this guard has "attempted" */
- double circ_successes; /**< Number of successfully built circuits using
- * this guard as first hop. */
- double successful_circuits_closed; /**< Number of circuits that carried
- * streams successfully. */
- double collapsed_circuits; /**< Number of fully built circuits that were
- * remotely closed before any streams were
- * attempted. */
- double unusable_circuits; /**< Number of circuits for which streams were
- * attempted, but none succeeded. */
- double timeouts; /**< Number of 'right-censored' circuit timeouts for this
- * guard. */
- double use_attempts; /**< Number of circuits we tried to use with streams */
- double use_successes; /**< Number of successfully used circuits using
- * this guard as first hop. */
- } guard_pathbias_t;
- #if defined(ENTRYNODES_PRIVATE)
- /**
- * @name values for entry_guard_t.is_reachable.
- *
- * See entry_guard_t.is_reachable for more information.
- */
- /**@{*/
- #define GUARD_REACHABLE_NO 0
- #define GUARD_REACHABLE_YES 1
- #define GUARD_REACHABLE_MAYBE 2
- /**@}*/
- /** An entry_guard_t represents our information about a chosen long-term
- * first hop, known as a "helper" node in the literature. We can't just
- * use a node_t, since we want to remember these even when we
- * don't have any directory info. */
- struct entry_guard_t {
- HANDLE_ENTRY(entry_guard, entry_guard_t);
- char nickname[MAX_HEX_NICKNAME_LEN+1];
- char identity[DIGEST_LEN];
- ed25519_public_key_t ed_id;
- /**
- * @name new guard selection algorithm fields.
- *
- * Only the new (prop271) algorithm uses these. For a more full
- * description of the algorithm, see the module documentation for
- * entrynodes.c
- */
- /**@{*/
- /* == Persistent fields, present for all sampled guards. */
- /** When was this guard added to the sample? */
- time_t sampled_on_date;
- /** Since what date has this guard been "unlisted"? A guard counts as
- * unlisted if we have a live consensus that does not include it, or
- * if we have a live consensus that does not include it as a usable
- * guard. This field is zero when the guard is listed. */
- time_t unlisted_since_date; // can be zero
- /** What version of Tor added this guard to the sample? */
- char *sampled_by_version;
- /** Is this guard listed right now? If this is set, then
- * unlisted_since_date should be set too. */
- unsigned currently_listed : 1;
- /* == Persistent fields, for confirmed guards only */
- /** When was this guard confirmed? (That is, when did we first use it
- * successfully and decide to keep it?) This field is zero if this is not a
- * confirmed guard. */
- time_t confirmed_on_date; /* 0 if not confirmed */
- /**
- * In what order was this guard confirmed? Guards with lower indices
- * appear earlier on the confirmed list. If the confirmed list is compacted,
- * this field corresponds to the index of this guard on the confirmed list.
- *
- * This field is set to -1 if this guard is not confirmed.
- */
- int confirmed_idx; /* -1 if not confirmed; otherwise the order that this
- * item should occur in the CONFIRMED_GUARDS ordered
- * list */
- /**
- * Which selection does this guard belong to?
- */
- char *selection_name;
- /** Bridges only: address of the bridge. */
- tor_addr_port_t *bridge_addr;
- /* ==== Non-persistent fields. */
- /* == These are used by sampled guards */
- /** When did we last decide to try using this guard for a circuit? 0 for
- * "not since we started up." */
- time_t last_tried_to_connect;
- /** How reachable do we consider this guard to be? One of
- * GUARD_REACHABLE_NO, GUARD_REACHABLE_YES, or GUARD_REACHABLE_MAYBE. */
- unsigned is_reachable : 2;
- /** Boolean: true iff this guard is pending. A pending guard is one
- * that we have an in-progress circuit through, and which we do not plan
- * to try again until it either succeeds or fails. Primary guards can
- * never be pending. */
- unsigned is_pending : 1;
- /** If true, don't write this guard to disk. (Used for bridges with unknown
- * identities) */
- unsigned is_persistent : 1;
- /** When did we get the earliest connection failure for this guard?
- * We clear this field on a successful connect. We do _not_ clear it
- * when we mark the guard as "MAYBE" reachable.
- */
- time_t failing_since;
- /* == Set inclusion flags. */
- /** If true, this guard is in the filtered set. The filtered set includes
- * all sampled guards that our configuration allows us to use. */
- unsigned is_filtered_guard : 1;
- /** If true, this guard is in the usable filtered set. The usable filtered
- * set includes all filtered guards that are not believed to be
- * unreachable. (That is, those for which is_reachable is not
- * GUARD_REACHABLE_NO) */
- unsigned is_usable_filtered_guard : 1;
- unsigned is_primary:1;
- /** This string holds any fields that we are maintaining because
- * we saw them in the state, even if we don't understand them. */
- char *extra_state_fields;
- /** Backpointer to the guard selection that this guard belongs to.
- * The entry_guard_t must never outlive its guard_selection. */
- guard_selection_t *in_selection;
- /**@}*/
- /** Path bias information for this guard. */
- guard_pathbias_t pb;
- };
- /**
- * Possible rules for a guard selection to follow
- */
- typedef enum guard_selection_type_t {
- /** Infer the type of this selection from its name. */
- GS_TYPE_INFER=0,
- /** Use the normal guard selection algorithm, taking our sample from the
- * complete list of guards in the consensus. */
- GS_TYPE_NORMAL=1,
- /** Use the normal guard selection algorithm, taking our sample from the
- * configured bridges, and allowing it to grow as large as all the configured
- * bridges */
- GS_TYPE_BRIDGE,
- /** Use the normal guard selection algorithm, taking our sample from the
- * set of filtered nodes. */
- GS_TYPE_RESTRICTED,
- } guard_selection_type_t;
- /**
- * All of the the context for guard selection on a particular client.
- *
- * We maintain multiple guard selection contexts for a client, depending
- * aspects on its current configuration -- whether an extremely
- * restrictive EntryNodes is used, whether UseBridges is enabled, and so
- * on.)
- *
- * See the module documentation for entrynodes.c for more information
- * about guard selection algorithms.
- */
- struct guard_selection_s {
- /**
- * The name for this guard-selection object. (Must not contain spaces).
- */
- char *name;
- /**
- * What rules does this guard-selection object follow?
- */
- guard_selection_type_t type;
- /**
- * A value of 1 means that primary_entry_guards is up-to-date; 0
- * means we need to recalculate it before using primary_entry_guards
- * or the is_primary flag on any guard.
- */
- int primary_guards_up_to_date;
- /**
- * A list of the sampled entry guards, as entry_guard_t structures.
- * Not in any particular order. When we 'sample' a guard, we are
- * noting it as a possible guard to pick in the future. The use of
- * sampling here prevents us from being forced by an attacker to try
- * every guard on the network. This list is persistent.
- */
- smartlist_t *sampled_entry_guards;
- /**
- * Ordered list (from highest to lowest priority) of guards that we
- * have successfully contacted and decided to use. Every member of
- * this list is a member of sampled_entry_guards. Every member should
- * have confirmed_on_date set, and have confirmed_idx greater than
- * any earlier member of the list.
- *
- * This list is persistent. It is a subset of the elements in
- * sampled_entry_guards, and its pointers point to elements of
- * sampled_entry_guards.
- */
- smartlist_t *confirmed_entry_guards;
- /**
- * Ordered list (from highest to lowest priority) of guards that we
- * are willing to use the most happily. These guards may or may not
- * yet be confirmed yet. If we can use one of these guards, we are
- * probably not on a network that is trying to restrict our guard
- * choices.
- *
- * This list is a subset of the elements in
- * sampled_entry_guards, and its pointers point to elements of
- * sampled_entry_guards.
- */
- smartlist_t *primary_entry_guards;
- /** When did we last successfully build a circuit or use a circuit? */
- time_t last_time_on_internet;
- /** What confirmed_idx value should the next-added member of
- * confirmed_entry_guards receive? */
- int next_confirmed_idx;
- };
- struct entry_guard_handle_t;
- /**
- * A restriction to remember which entry guards are off-limits for a given
- * circuit.
- *
- * Right now, we only use restrictions to block a single guard from being
- * selected; this mechanism is designed to be more extensible in the future,
- * however.
- *
- * Note: This mechanism is NOT for recording which guards are never to be
- * used: only which guards cannot be used on <em>one particular circuit</em>.
- */
- struct entry_guard_restriction_t {
- /**
- * The guard's RSA identity digest must not equal this.
- */
- uint8_t exclude_id[DIGEST_LEN];
- };
- /**
- * Per-circuit state to track whether we'll be able to use the circuit.
- */
- struct circuit_guard_state_t {
- /** Handle to the entry guard object for this circuit. */
- struct entry_guard_handle_t *guard;
- /** The time at which <b>state</b> last changed. */
- time_t state_set_at;
- /** One of GUARD_CIRC_STATE_* */
- uint8_t state;
- /**
- * A set of restrictions that were placed on this guard when we selected it
- * for this particular circuit. We need to remember the restrictions here,
- * since any guard that breaks these restrictions will not block this
- * circuit from becoming COMPLETE.
- */
- entry_guard_restriction_t *restrictions;
- };
- #endif
- /* Common entry points for old and new guard code */
- int guards_update_all(void);
- const node_t *guards_choose_guard(cpath_build_state_t *state,
- circuit_guard_state_t **guard_state_out);
- const node_t *guards_choose_dirguard(circuit_guard_state_t **guard_state_out);
- #if 1
- /* XXXX NM I would prefer that all of this stuff be private to
- * entrynodes.c. */
- entry_guard_t *entry_guard_get_by_id_digest_for_guard_selection(
- guard_selection_t *gs, const char *digest);
- entry_guard_t *entry_guard_get_by_id_digest(const char *digest);
- circuit_guard_state_t *
- get_guard_state_for_bridge_desc_fetch(const char *digest);
- void entry_guards_changed_for_guard_selection(guard_selection_t *gs);
- void entry_guards_changed(void);
- guard_selection_t * get_guard_selection_info(void);
- int num_live_entry_guards_for_guard_selection(
- guard_selection_t *gs,
- int for_directory);
- int num_live_entry_guards(int for_directory);
- #endif
- const node_t *entry_guard_find_node(const entry_guard_t *guard);
- const char *entry_guard_get_rsa_id_digest(const entry_guard_t *guard);
- const char *entry_guard_describe(const entry_guard_t *guard);
- guard_pathbias_t *entry_guard_get_pathbias_state(entry_guard_t *guard);
- /** Enum to specify how we're going to use a given guard, when we're picking
- * one for immediate use. */
- typedef enum {
- GUARD_USAGE_TRAFFIC = 0,
- GUARD_USAGE_DIRGUARD = 1
- } guard_usage_t;
- void circuit_guard_state_free(circuit_guard_state_t *state);
- int entry_guard_pick_for_circuit(guard_selection_t *gs,
- guard_usage_t usage,
- entry_guard_restriction_t *rst,
- const node_t **chosen_node_out,
- circuit_guard_state_t **guard_state_out);
- /* We just connected to an entry guard. What should we do with the circuit? */
- typedef enum {
- GUARD_USABLE_NEVER = -1, /* Never use the circuit */
- GUARD_MAYBE_USABLE_LATER = 0, /* Keep it. We might use it in the future */
- GUARD_USABLE_NOW = 1, /* Use it right now */
- } guard_usable_t;
- guard_usable_t entry_guard_succeeded(circuit_guard_state_t **guard_state_p);
- void entry_guard_failed(circuit_guard_state_t **guard_state_p);
- void entry_guard_cancel(circuit_guard_state_t **guard_state_p);
- void entry_guard_chan_failed(channel_t *chan);
- int entry_guards_update_all(guard_selection_t *gs);
- int entry_guards_upgrade_waiting_circuits(guard_selection_t *gs,
- const smartlist_t *all_circuits,
- smartlist_t *newly_complete_out);
- int entry_guard_state_should_expire(circuit_guard_state_t *guard_state);
- void entry_guards_note_internet_connectivity(guard_selection_t *gs);
- int update_guard_selection_choice(const or_options_t *options);
- /* Used by bridges.c only. */
- int num_bridges_usable(void);
- #ifdef ENTRYNODES_PRIVATE
- /**
- * @name Default values for the parameters for the new (prop271) entry guard
- * algorithm.
- */
- /**@{*/
- /**
- * We never let our sampled guard set grow larger than this percentage
- * of the guards on the network.
- */
- #define DFLT_MAX_SAMPLE_THRESHOLD_PERCENT 20
- /**
- * We never let our sampled guard set grow larger than this number of
- * guards.
- */
- #define DFLT_MAX_SAMPLE_SIZE 60
- /**
- * We always try to make our sample contain at least this many guards.
- */
- #define DFLT_MIN_FILTERED_SAMPLE_SIZE 20
- /**
- * If a guard is unlisted for this many days in a row, we remove it.
- */
- #define DFLT_REMOVE_UNLISTED_GUARDS_AFTER_DAYS 20
- /**
- * We remove unconfirmed guards from the sample after this many days,
- * regardless of whether they are listed or unlisted.
- */
- #define DFLT_GUARD_LIFETIME_DAYS 120
- /**
- * We remove confirmed guards from the sample if they were sampled
- * GUARD_LIFETIME_DAYS ago and confirmed this many days ago.
- */
- #define DFLT_GUARD_CONFIRMED_MIN_LIFETIME_DAYS 60
- /**
- * How many guards do we try to keep on our primary guard list?
- */
- #define DFLT_N_PRIMARY_GUARDS 3
- /**
- * Of the live guards on the primary guard list, how many do we consider when
- * choosing a guard to use?
- */
- #define DFLT_N_PRIMARY_GUARDS_TO_USE 1
- /**
- * As DFLT_N_PRIMARY_GUARDS, but for choosing which directory guard to use.
- */
- #define DFLT_N_PRIMARY_DIR_GUARDS_TO_USE 3
- /**
- * If we haven't successfully built or used a circuit in this long, then
- * consider that the internet is probably down.
- */
- #define DFLT_INTERNET_LIKELY_DOWN_INTERVAL (10*60)
- /**
- * If we're trying to connect to a nonprimary guard for at least this
- * many seconds, and we haven't gotten the connection to work, we will treat
- * lower-priority guards as usable.
- */
- #define DFLT_NONPRIMARY_GUARD_CONNECT_TIMEOUT 15
- /**
- * If a circuit has been sitting around in 'waiting for better guard' state
- * for at least this long, we'll expire it.
- */
- #define DFLT_NONPRIMARY_GUARD_IDLE_TIMEOUT (10*60)
- /**
- * If our configuration retains fewer than this fraction of guards from the
- * torrc, we are in a restricted setting.
- */
- #define DFLT_MEANINGFUL_RESTRICTION_PERCENT 20
- /**
- * If our configuration retains fewer than this fraction of guards from the
- * torrc, we are in an extremely restricted setting, and should warn.
- */
- #define DFLT_EXTREME_RESTRICTION_PERCENT 1
- /**@}*/
- STATIC double get_max_sample_threshold(void);
- STATIC int get_max_sample_size_absolute(void);
- STATIC int get_min_filtered_sample_size(void);
- STATIC int get_remove_unlisted_guards_after_days(void);
- STATIC int get_guard_lifetime(void);
- STATIC int get_guard_confirmed_min_lifetime(void);
- STATIC int get_n_primary_guards(void);
- STATIC int get_n_primary_guards_to_use(guard_usage_t usage);
- STATIC int get_internet_likely_down_interval(void);
- STATIC int get_nonprimary_guard_connect_timeout(void);
- STATIC int get_nonprimary_guard_idle_timeout(void);
- STATIC double get_meaningful_restriction_threshold(void);
- STATIC double get_extreme_restriction_threshold(void);
- HANDLE_DECL(entry_guard, entry_guard_t, STATIC)
- STATIC guard_selection_type_t guard_selection_infer_type(
- guard_selection_type_t type_in,
- const char *name);
- STATIC guard_selection_t *guard_selection_new(const char *name,
- guard_selection_type_t type);
- STATIC guard_selection_t *get_guard_selection_by_name(
- const char *name, guard_selection_type_t type, int create_if_absent);
- STATIC void guard_selection_free(guard_selection_t *gs);
- MOCK_DECL(STATIC int, entry_guard_is_listed,
- (guard_selection_t *gs, const entry_guard_t *guard));
- STATIC const char *choose_guard_selection(const or_options_t *options,
- const networkstatus_t *ns,
- const guard_selection_t *old_selection,
- guard_selection_type_t *type_out);
- STATIC entry_guard_t *get_sampled_guard_with_id(guard_selection_t *gs,
- const uint8_t *rsa_id);
- MOCK_DECL(STATIC time_t, randomize_time, (time_t now, time_t max_backdate));
- STATIC entry_guard_t *entry_guard_add_to_sample(guard_selection_t *gs,
- const node_t *node);
- STATIC entry_guard_t *entry_guards_expand_sample(guard_selection_t *gs);
- STATIC char *entry_guard_encode_for_state(entry_guard_t *guard);
- STATIC entry_guard_t *entry_guard_parse_from_state(const char *s);
- STATIC void entry_guard_free(entry_guard_t *e);
- STATIC void entry_guards_update_filtered_sets(guard_selection_t *gs);
- STATIC int entry_guards_all_primary_guards_are_down(guard_selection_t *gs);
- /**
- * @name Flags for sample_reachable_filtered_entry_guards()
- */
- /**@{*/
- #define SAMPLE_EXCLUDE_CONFIRMED (1u<<0)
- #define SAMPLE_EXCLUDE_PRIMARY (1u<<1)
- #define SAMPLE_EXCLUDE_PENDING (1u<<2)
- #define SAMPLE_NO_UPDATE_PRIMARY (1u<<3)
- #define SAMPLE_EXCLUDE_NO_DESCRIPTOR (1u<<4)
- /**@}*/
- STATIC entry_guard_t *sample_reachable_filtered_entry_guards(
- guard_selection_t *gs,
- const entry_guard_restriction_t *rst,
- unsigned flags);
- STATIC void entry_guard_consider_retry(entry_guard_t *guard);
- STATIC void make_guard_confirmed(guard_selection_t *gs, entry_guard_t *guard);
- STATIC void entry_guards_update_confirmed(guard_selection_t *gs);
- STATIC void entry_guards_update_primary(guard_selection_t *gs);
- STATIC int num_reachable_filtered_guards(guard_selection_t *gs,
- const entry_guard_restriction_t *rst);
- STATIC void sampled_guards_update_from_consensus(guard_selection_t *gs);
- /**
- * @name Possible guard-states for a circuit.
- */
- /**@{*/
- /** State for a circuit that can (so far as the guard subsystem is
- * concerned) be used for actual traffic as soon as it is successfully
- * opened. */
- #define GUARD_CIRC_STATE_USABLE_ON_COMPLETION 1
- /** State for an non-open circuit that we shouldn't use for actual
- * traffic, when it completes, unless other circuits to preferable
- * guards fail. */
- #define GUARD_CIRC_STATE_USABLE_IF_NO_BETTER_GUARD 2
- /** State for an open circuit that we shouldn't use for actual traffic
- * unless other circuits to preferable guards fail. */
- #define GUARD_CIRC_STATE_WAITING_FOR_BETTER_GUARD 3
- /** State for a circuit that can (so far as the guard subsystem is
- * concerned) be used for actual traffic. */
- #define GUARD_CIRC_STATE_COMPLETE 4
- /** State for a circuit that is unusable, and will not become usable. */
- #define GUARD_CIRC_STATE_DEAD 5
- /**@}*/
- STATIC void entry_guards_note_guard_failure(guard_selection_t *gs,
- entry_guard_t *guard);
- STATIC entry_guard_t *select_entry_guard_for_circuit(guard_selection_t *gs,
- guard_usage_t usage,
- const entry_guard_restriction_t *rst,
- unsigned *state_out);
- STATIC void mark_primary_guards_maybe_reachable(guard_selection_t *gs);
- STATIC unsigned entry_guards_note_guard_success(guard_selection_t *gs,
- entry_guard_t *guard,
- unsigned old_state);
- STATIC int entry_guard_has_higher_priority(entry_guard_t *a, entry_guard_t *b);
- STATIC char *getinfo_helper_format_single_entry_guard(const entry_guard_t *e);
- #endif
- void remove_all_entry_guards_for_guard_selection(guard_selection_t *gs);
- void remove_all_entry_guards(void);
- struct bridge_info_t;
- void entry_guard_learned_bridge_identity(const tor_addr_port_t *addrport,
- const uint8_t *rsa_id_digest);
- int entry_list_is_constrained(const or_options_t *options);
- int guards_retry_optimistic(const or_options_t *options);
- int entry_guards_parse_state_for_guard_selection(
- guard_selection_t *gs, or_state_t *state, int set, char **msg);
- int entry_guards_parse_state(or_state_t *state, int set, char **msg);
- void entry_guards_update_state(or_state_t *state);
- int getinfo_helper_entry_guards(control_connection_t *conn,
- const char *question, char **answer,
- const char **errmsg);
- int entries_known_but_down(const or_options_t *options);
- void entries_retry_all(const or_options_t *options);
- int guard_selection_have_enough_dir_info_to_build_circuits(
- guard_selection_t *gs);
- int entry_guards_have_enough_dir_info_to_build_circuits(void);
- void entry_guards_free_all(void);
- double pathbias_get_close_success_count(entry_guard_t *guard);
- double pathbias_get_use_success_count(entry_guard_t *guard);
- /** Contains the bandwidth of a relay as a guard and as a non-guard
- * after the guardfraction has been considered. */
- typedef struct guardfraction_bandwidth_t {
- /** Bandwidth as a guard after guardfraction has been considered. */
- int guard_bw;
- /** Bandwidth as a non-guard after guardfraction has been considered. */
- int non_guard_bw;
- } guardfraction_bandwidth_t;
- int should_apply_guardfraction(const networkstatus_t *ns);
- void
- guard_get_guardfraction_bandwidth(guardfraction_bandwidth_t *guardfraction_bw,
- int orig_bandwidth,
- uint32_t guardfraction_percentage);
- #endif
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