/* Copyright (c) 2007-2019, The Tor Project, Inc. */ /* See LICENSE for licensing information */ /** * \file btrack_circuit.c * \brief Bootstrap tracker for origin circuits * * Track state changes of origin circuits, as published by the circuit * subsystem. **/ #include "core/or/or.h" #include "core/or/ocirc_event.h" #include "feature/control/btrack_circuit.h" #include "feature/control/control.h" #include "lib/log/log.h" /** Pair of a best origin circuit GID with its state or status */ typedef struct btc_best_t { uint32_t gid; int val; } btc_best_t; /** GID and state of the best origin circuit we've seen so far */ static btc_best_t best_any_state = { 0, -1 }; /** GID and state of the best application circuit we've seen so far */ static btc_best_t best_ap_state = { 0, -1 }; /** GID and status of the best origin circuit we've seen so far */ static btc_best_t best_any_evtype = { 0, -1 }; /** GID and status of the best application circuit we've seen so far */ static btc_best_t best_ap_evtype = { 0, -1 }; /** Reset cached "best" values */ static void btc_reset_bests(void) { best_any_state.gid = best_ap_state.gid = 0; best_any_state.val = best_ap_state.val = -1; best_any_evtype.gid = best_ap_state.gid = 0; best_any_evtype.val = best_ap_evtype.val = -1; } /** True if @a state is a "better" origin circuit state than @a best->val */ static bool btc_state_better(int state, const btc_best_t *best) { return state > best->val; } /** * Definine an ordering on circuit status events * * The CIRC_EVENT_ constants aren't sorted in a useful order, so this * array helps to decode them. This approach depends on the statuses * being nonnegative and dense. **/ static int circ_event_order[] = { [CIRC_EVENT_FAILED] = -1, [CIRC_EVENT_CLOSED] = -1, [CIRC_EVENT_LAUNCHED] = 1, [CIRC_EVENT_EXTENDED] = 2, [CIRC_EVENT_BUILT] = 3, }; #define N_CIRC_EVENT_ORDER \ (sizeof(circ_event_order) / sizeof(circ_event_order[0])) /** True if @a state is a "better" origin circuit event status than @a best->val */ static bool btc_evtype_better(int state, const btc_best_t *best) { if (state < 0) return false; if (best->val < 0) return true; tor_assert(state >= 0 && (unsigned)state < N_CIRC_EVENT_ORDER); tor_assert(best->val >= 0 && (unsigned)best->val < N_CIRC_EVENT_ORDER); return circ_event_order[state] > circ_event_order[best->val]; } static bool btc_update_state(const ocirc_state_msg_t *msg, btc_best_t *best, const char *type) { if (btc_state_better(msg->state, best)) { log_info(LD_BTRACK, "CIRC BEST_%s state %d->%d gid=%"PRIu32, type, best->val, msg->state, msg->gid); best->gid = msg->gid; best->val = msg->state; return true; } return false; } static bool btc_update_evtype(const ocirc_cevent_msg_t *msg, btc_best_t *best, const char *type) { if (btc_evtype_better(msg->evtype, best)) { log_info(LD_BTRACK, "CIRC BEST_%s evtype %d->%d gid=%"PRIu32, type, best->val, msg->evtype, msg->gid); best->gid = msg->gid; best->val = msg->evtype; return true; } return false; } static void btc_state_rcvr(const ocirc_state_msg_t *msg) { log_debug(LD_BTRACK, "CIRC gid=%"PRIu32" state=%d onehop=%d", msg->gid, msg->state, msg->onehop); btc_update_state(msg, &best_any_state, "ANY"); if (msg->onehop) return; btc_update_state(msg, &best_ap_state, "AP"); } static void btc_cevent_rcvr(const ocirc_cevent_msg_t *msg) { log_debug(LD_BTRACK, "CIRC gid=%"PRIu32" evtype=%d reason=%d onehop=%d", msg->gid, msg->evtype, msg->reason, msg->onehop); btc_update_evtype(msg, &best_any_evtype, "ANY"); if (msg->onehop) return; btc_update_evtype(msg, &best_ap_evtype, "AP"); } static void btc_event_rcvr(const ocirc_event_msg_t *msg) { switch (msg->type) { case OCIRC_MSGTYPE_STATE: return btc_state_rcvr(&msg->u.state); case OCIRC_MSGTYPE_CHAN: log_debug(LD_BTRACK, "CIRC gid=%"PRIu32" chan=%"PRIu64" onehop=%d", msg->u.chan.gid, msg->u.chan.chan, msg->u.chan.onehop); break; case OCIRC_MSGTYPE_CEVENT: return btc_cevent_rcvr(&msg->u.cevent); default: break; } } int btrack_circ_init(void) { ocirc_event_subscribe(btc_event_rcvr); return 0; } void btrack_circ_fini(void) { btc_reset_bests(); }