/* Copyright (c) 2017, The Tor Project, Inc. */ /* See LICENSE for licensing information */ /** * \file hs_circuit.c **/ #define HS_CIRCUIT_PRIVATE #include "or.h" #include "circpathbias.h" #include "circuitbuild.h" #include "circuitlist.h" #include "circuituse.h" #include "config.h" #include "nodelist.h" #include "policies.h" #include "relay.h" #include "rendservice.h" #include "rephist.h" #include "router.h" #include "hs_cell.h" #include "hs_ident.h" #include "hs_ntor.h" #include "hs_service.h" #include "hs_circuit.h" /* Trunnel. */ #include "ed25519_cert.h" #include "hs/cell_common.h" #include "hs/cell_establish_intro.h" /* A circuit is about to become an e2e rendezvous circuit. Check * circ_purpose and ensure that it's properly set. Return true iff * circuit purpose is properly set, otherwise return false. */ static int circuit_purpose_is_correct_for_rend(unsigned int circ_purpose, int is_service_side) { if (is_service_side) { if (circ_purpose != CIRCUIT_PURPOSE_S_CONNECT_REND) { log_warn(LD_BUG, "HS e2e circuit setup with wrong purpose (%d)", circ_purpose); return 0; } } if (!is_service_side) { if (circ_purpose != CIRCUIT_PURPOSE_C_REND_READY && circ_purpose != CIRCUIT_PURPOSE_C_REND_READY_INTRO_ACKED) { log_warn(LD_BUG, "Client e2e circuit setup with wrong purpose (%d)", circ_purpose); return 0; } } return 1; } /* Create and return a crypt path for the final hop of a v3 prop224 rendezvous * circuit. Initialize the crypt path crypto using the output material from the * ntor key exchange at ntor_key_seed. * * If is_service_side is set, we are the hidden service and the final * hop of the rendezvous circuit is the client on the other side. */ static crypt_path_t * create_rend_cpath(const uint8_t *ntor_key_seed, size_t seed_len, int is_service_side) { uint8_t keys[HS_NTOR_KEY_EXPANSION_KDF_OUT_LEN]; crypt_path_t *cpath = NULL; /* Do the key expansion */ if (hs_ntor_circuit_key_expansion(ntor_key_seed, seed_len, keys, sizeof(keys)) < 0) { goto err; } /* Setup the cpath */ cpath = tor_malloc_zero(sizeof(crypt_path_t)); cpath->magic = CRYPT_PATH_MAGIC; if (circuit_init_cpath_crypto(cpath, (char*)keys, sizeof(keys), is_service_side, 1) < 0) { tor_free(cpath); goto err; } err: memwipe(keys, 0, sizeof(keys)); return cpath; } /* We are a v2 legacy HS client: Create and return a crypt path for the hidden * service on the other side of the rendezvous circuit circ. Initialize * the crypt path crypto using the body of the RENDEZVOUS1 cell at * rend_cell_body (which must be at least DH_KEY_LEN+DIGEST_LEN bytes). */ static crypt_path_t * create_rend_cpath_legacy(origin_circuit_t *circ, const uint8_t *rend_cell_body) { crypt_path_t *hop = NULL; char keys[DIGEST_LEN+CPATH_KEY_MATERIAL_LEN]; /* first DH_KEY_LEN bytes are g^y from the service. Finish the dh * handshake...*/ tor_assert(circ->build_state); tor_assert(circ->build_state->pending_final_cpath); hop = circ->build_state->pending_final_cpath; tor_assert(hop->rend_dh_handshake_state); if (crypto_dh_compute_secret(LOG_PROTOCOL_WARN, hop->rend_dh_handshake_state, (char*)rend_cell_body, DH_KEY_LEN, keys, DIGEST_LEN+CPATH_KEY_MATERIAL_LEN)<0) { log_warn(LD_GENERAL, "Couldn't complete DH handshake."); goto err; } /* ... and set up cpath. */ if (circuit_init_cpath_crypto(hop, keys+DIGEST_LEN, sizeof(keys)-DIGEST_LEN, 0, 0) < 0) goto err; /* Check whether the digest is right... */ if (tor_memneq(keys, rend_cell_body+DH_KEY_LEN, DIGEST_LEN)) { log_warn(LD_PROTOCOL, "Incorrect digest of key material."); goto err; } /* clean up the crypto stuff we just made */ crypto_dh_free(hop->rend_dh_handshake_state); hop->rend_dh_handshake_state = NULL; goto done; err: hop = NULL; done: memwipe(keys, 0, sizeof(keys)); return hop; } /* Append the final hop to the cpath of the rend circ, and mark * circ ready for use to transfer HS relay cells. */ static void finalize_rend_circuit(origin_circuit_t *circ, crypt_path_t *hop, int is_service_side) { tor_assert(circ); tor_assert(hop); /* Notify the circuit state machine that we are splicing this circuit */ int new_circ_purpose = is_service_side ? CIRCUIT_PURPOSE_S_REND_JOINED : CIRCUIT_PURPOSE_C_REND_JOINED; circuit_change_purpose(TO_CIRCUIT(circ), new_circ_purpose); /* All is well. Extend the circuit. */ hop->state = CPATH_STATE_OPEN; /* Set the windows to default. */ hop->package_window = circuit_initial_package_window(); hop->deliver_window = CIRCWINDOW_START; /* Now that this circuit has finished connecting to its destination, * make sure circuit_get_open_circ_or_launch is willing to return it * so we can actually use it. */ circ->hs_circ_has_timed_out = 0; /* Append the hop to the cpath of this circuit */ onion_append_to_cpath(&circ->cpath, hop); /* In legacy code, 'pending_final_cpath' points to the final hop we just * appended to the cpath. We set the original pointer to NULL so that we * don't double free it. */ if (circ->build_state) { circ->build_state->pending_final_cpath = NULL; } /* Finally, mark circuit as ready to be used for client streams */ if (!is_service_side) { circuit_try_attaching_streams(circ); } } /* For a given circuit and a service introduction point object, register the * intro circuit to the circuitmap. This supports legacy intro point. */ static void register_intro_circ(const hs_service_intro_point_t *ip, origin_circuit_t *circ) { tor_assert(ip); tor_assert(circ); if (ip->base.is_only_legacy) { uint8_t digest[DIGEST_LEN]; if (BUG(crypto_pk_get_digest(ip->legacy_key, (char *) digest) < 0)) { return; } hs_circuitmap_register_intro_circ_v2_service_side(circ, digest); } else { hs_circuitmap_register_intro_circ_v3_service_side(circ, &ip->auth_key_kp.pubkey); } } /* Return the number of opened introduction circuit for the given circuit that * is matching its identity key. */ static unsigned int count_opened_desc_intro_point_circuits(const hs_service_t *service, const hs_service_descriptor_t *desc) { unsigned int count = 0; tor_assert(service); tor_assert(desc); DIGEST256MAP_FOREACH(desc->intro_points.map, key, const hs_service_intro_point_t *, ip) { const circuit_t *circ; const origin_circuit_t *ocirc = hs_circ_service_get_intro_circ(ip); if (ocirc == NULL) { continue; } circ = TO_CIRCUIT(ocirc); tor_assert(circ->purpose == CIRCUIT_PURPOSE_S_ESTABLISH_INTRO || circ->purpose == CIRCUIT_PURPOSE_S_INTRO); /* Having a circuit not for the requested service is really bad. */ tor_assert(ed25519_pubkey_eq(&service->keys.identity_pk, ô->hs_ident->identity_pk)); /* Only count opened circuit and skip circuit that will be closed. */ if (!circ->marked_for_close && circ->state == CIRCUIT_STATE_OPEN) { count++; } } DIGEST256MAP_FOREACH_END; return count; } /* From a given service, rendezvous cookie and handshake info, create a * rendezvous point circuit identifier. This can't fail. */ STATIC hs_ident_circuit_t * create_rp_circuit_identifier(const hs_service_t *service, const uint8_t *rendezvous_cookie, const curve25519_public_key_t *server_pk, const hs_ntor_rend_cell_keys_t *keys) { hs_ident_circuit_t *ident; uint8_t handshake_info[CURVE25519_PUBKEY_LEN + DIGEST256_LEN]; tor_assert(service); tor_assert(rendezvous_cookie); tor_assert(server_pk); tor_assert(keys); ident = hs_ident_circuit_new(&service->keys.identity_pk, HS_IDENT_CIRCUIT_RENDEZVOUS); /* Copy the RENDEZVOUS_COOKIE which is the unique identifier. */ memcpy(ident->rendezvous_cookie, rendezvous_cookie, sizeof(ident->rendezvous_cookie)); /* Build the HANDSHAKE_INFO which looks like this: * SERVER_PK [32 bytes] * AUTH_INPUT_MAC [32 bytes] */ memcpy(handshake_info, server_pk->public_key, CURVE25519_PUBKEY_LEN); memcpy(handshake_info + CURVE25519_PUBKEY_LEN, keys->rend_cell_auth_mac, DIGEST256_LEN); tor_assert(sizeof(ident->rendezvous_handshake_info) == sizeof(handshake_info)); memcpy(ident->rendezvous_handshake_info, handshake_info, sizeof(ident->rendezvous_handshake_info)); /* Finally copy the NTOR_KEY_SEED for e2e encryption on the circuit. */ tor_assert(sizeof(ident->rendezvous_ntor_key_seed) == sizeof(keys->ntor_key_seed)); memcpy(ident->rendezvous_ntor_key_seed, keys->ntor_key_seed, sizeof(ident->rendezvous_ntor_key_seed)); return ident; } /* From a given service and service intro point, create an introduction point * circuit identifier. This can't fail. */ static hs_ident_circuit_t * create_intro_circuit_identifier(const hs_service_t *service, const hs_service_intro_point_t *ip) { hs_ident_circuit_t *ident; tor_assert(service); tor_assert(ip); ident = hs_ident_circuit_new(&service->keys.identity_pk, HS_IDENT_CIRCUIT_INTRO); ed25519_pubkey_copy(&ident->intro_auth_pk, &ip->auth_key_kp.pubkey); return ident; } /* For a given introduction point and an introduction circuit, send the * ESTABLISH_INTRO cell. The service object is used for logging. This can fail * and if so, the circuit is closed and the intro point object is flagged * that the circuit is not established anymore which is important for the * retry mechanism. */ static void send_establish_intro(const hs_service_t *service, hs_service_intro_point_t *ip, origin_circuit_t *circ) { ssize_t cell_len; uint8_t payload[RELAY_PAYLOAD_SIZE]; tor_assert(service); tor_assert(ip); tor_assert(circ); /* Encode establish intro cell. */ cell_len = hs_cell_build_establish_intro(circ->cpath->prev->rend_circ_nonce, ip, payload); if (cell_len < 0) { log_warn(LD_REND, "Unable to encode ESTABLISH_INTRO cell for service %s " "on circuit %u. Closing circuit.", safe_str_client(service->onion_address), TO_CIRCUIT(circ)->n_circ_id); goto err; } /* Send the cell on the circuit. */ if (relay_send_command_from_edge(CONTROL_CELL_ID, TO_CIRCUIT(circ), RELAY_COMMAND_ESTABLISH_INTRO, (char *) payload, cell_len, circ->cpath->prev) < 0) { log_info(LD_REND, "Unable to send ESTABLISH_INTRO cell for service %s " "on circuit %u.", safe_str_client(service->onion_address), TO_CIRCUIT(circ)->n_circ_id); /* On error, the circuit has been closed. */ goto done; } /* Record the attempt to use this circuit. */ pathbias_count_use_attempt(circ); goto done; err: circuit_mark_for_close(TO_CIRCUIT(circ), END_CIRC_REASON_INTERNAL); done: memwipe(payload, 0, sizeof(payload)); } /* Return a string constant describing the anonymity of service. */ static const char * get_service_anonymity_string(const hs_service_t *service) { if (service->config.is_single_onion) { return "single onion"; } else { return "hidden"; } } /* For a given service, the ntor onion key and a rendezvous cookie, launch a * circuit to the rendezvous point specified by the link specifiers. On * success, a circuit identifier is attached to the circuit with the needed * data. This function will try to open a circuit for a maximum value of * MAX_REND_FAILURES then it will give up. */ static void launch_rendezvous_point_circuit(const hs_service_t *service, const hs_service_intro_point_t *ip, const hs_cell_introduce2_data_t *data) { int circ_needs_uptime; time_t now = time(NULL); extend_info_t *info = NULL; origin_circuit_t *circ; tor_assert(service); tor_assert(ip); tor_assert(data); circ_needs_uptime = hs_service_requires_uptime_circ(service->config.ports); /* Get the extend info data structure for the chosen rendezvous point * specified by the given link specifiers. */ info = hs_get_extend_info_from_lspecs(data->link_specifiers, &data->onion_pk, service->config.is_single_onion); if (info == NULL) { /* We are done here, we can't extend to the rendezvous point. * If you're running an IPv6-only v3 single onion service on 0.3.2 or with * 0.3.2 clients, and somehow disable the option check, it will fail here. */ log_fn(LOG_PROTOCOL_WARN, LD_REND, "Not enough info to open a circuit to a rendezvous point for " "%s service %s.", get_service_anonymity_string(service), safe_str_client(service->onion_address)); goto end; } for (int i = 0; i < MAX_REND_FAILURES; i++) { int circ_flags = CIRCLAUNCH_NEED_CAPACITY | CIRCLAUNCH_IS_INTERNAL; if (circ_needs_uptime) { circ_flags |= CIRCLAUNCH_NEED_UPTIME; } /* Firewall and policies are checked when getting the extend info. */ if (service->config.is_single_onion) { circ_flags |= CIRCLAUNCH_ONEHOP_TUNNEL; } circ = circuit_launch_by_extend_info(CIRCUIT_PURPOSE_S_CONNECT_REND, info, circ_flags); if (circ != NULL) { /* Stop retrying, we have a circuit! */ break; } } if (circ == NULL) { log_warn(LD_REND, "Giving up on launching a rendezvous circuit to %s " "for %s service %s", safe_str_client(extend_info_describe(info)), get_service_anonymity_string(service), safe_str_client(service->onion_address)); goto end; } log_info(LD_REND, "Rendezvous circuit launched to %s with cookie %s " "for %s service %s", safe_str_client(extend_info_describe(info)), safe_str_client(hex_str((const char *) data->rendezvous_cookie, REND_COOKIE_LEN)), get_service_anonymity_string(service), safe_str_client(service->onion_address)); tor_assert(circ->build_state); /* Rendezvous circuit have a specific timeout for the time spent on trying * to connect to the rendezvous point. */ circ->build_state->expiry_time = now + MAX_REND_TIMEOUT; /* Create circuit identifier and key material. */ { hs_ntor_rend_cell_keys_t keys; curve25519_keypair_t ephemeral_kp; /* No need for extra strong, this is only for this circuit life time. This * key will be used for the RENDEZVOUS1 cell that will be sent on the * circuit once opened. */ curve25519_keypair_generate(&ephemeral_kp, 0); if (hs_ntor_service_get_rendezvous1_keys(&ip->auth_key_kp.pubkey, &ip->enc_key_kp, &ephemeral_kp, &data->client_pk, &keys) < 0) { /* This should not really happened but just in case, don't make tor * freak out, close the circuit and move on. */ log_info(LD_REND, "Unable to get RENDEZVOUS1 key material for " "service %s", safe_str_client(service->onion_address)); circuit_mark_for_close(TO_CIRCUIT(circ), END_CIRC_REASON_INTERNAL); goto end; } circ->hs_ident = create_rp_circuit_identifier(service, data->rendezvous_cookie, &ephemeral_kp.pubkey, &keys); memwipe(&ephemeral_kp, 0, sizeof(ephemeral_kp)); memwipe(&keys, 0, sizeof(keys)); tor_assert(circ->hs_ident); } end: extend_info_free(info); } /* Return true iff the given service rendezvous circuit circ is allowed for a * relaunch to the rendezvous point. */ static int can_relaunch_service_rendezvous_point(const origin_circuit_t *circ) { tor_assert(circ); /* This is initialized when allocating an origin circuit. */ tor_assert(circ->build_state); tor_assert(TO_CIRCUIT(circ)->purpose == CIRCUIT_PURPOSE_S_CONNECT_REND); /* XXX: Retrying under certain condition. This is related to #22455. */ /* Avoid to relaunch twice a circuit to the same rendezvous point at the * same time. */ if (circ->hs_service_side_rend_circ_has_been_relaunched) { log_info(LD_REND, "Rendezvous circuit to %s has already been retried. " "Skipping retry.", safe_str_client( extend_info_describe(circ->build_state->chosen_exit))); goto disallow; } /* We check failure_count >= hs_get_service_max_rend_failures()-1 below, and * the -1 is because we increment the failure count for our current failure * *after* this clause. */ int max_rend_failures = hs_get_service_max_rend_failures() - 1; /* A failure count that has reached maximum allowed or circuit that expired, * we skip relaunching. */ if (circ->build_state->failure_count > max_rend_failures || circ->build_state->expiry_time <= time(NULL)) { log_info(LD_REND, "Attempt to build a rendezvous circuit to %s has " "failed with %d attempts and expiry time %ld. " "Giving up building.", safe_str_client( extend_info_describe(circ->build_state->chosen_exit)), circ->build_state->failure_count, (long int) circ->build_state->expiry_time); goto disallow; } /* Allowed to relaunch. */ return 1; disallow: return 0; } /* Retry the rendezvous point of circ by launching a new circuit to it. */ static void retry_service_rendezvous_point(const origin_circuit_t *circ) { int flags = 0; origin_circuit_t *new_circ; cpath_build_state_t *bstate; tor_assert(circ); /* This is initialized when allocating an origin circuit. */ tor_assert(circ->build_state); tor_assert(TO_CIRCUIT(circ)->purpose == CIRCUIT_PURPOSE_S_CONNECT_REND); /* Ease our life. */ bstate = circ->build_state; log_info(LD_REND, "Retrying rendezvous point circuit to %s", safe_str_client(extend_info_describe(bstate->chosen_exit))); /* Get the current build state flags for the next circuit. */ flags |= (bstate->need_uptime) ? CIRCLAUNCH_NEED_UPTIME : 0; flags |= (bstate->need_capacity) ? CIRCLAUNCH_NEED_CAPACITY : 0; flags |= (bstate->is_internal) ? CIRCLAUNCH_IS_INTERNAL : 0; /* We do NOT add the onehop tunnel flag even though it might be a single * onion service. The reason is that if we failed once to connect to the RP * with a direct connection, we consider that chances are that we will fail * again so try a 3-hop circuit and hope for the best. Because the service * has no anonymity (single onion), this change of behavior won't affect * security directly. */ new_circ = circuit_launch_by_extend_info(CIRCUIT_PURPOSE_S_CONNECT_REND, bstate->chosen_exit, flags); if (new_circ == NULL) { log_warn(LD_REND, "Failed to launch rendezvous circuit to %s", safe_str_client(extend_info_describe(bstate->chosen_exit))); goto done; } /* Transfer build state information to the new circuit state in part to * catch any other failures. */ new_circ->build_state->failure_count = bstate->failure_count+1; new_circ->build_state->expiry_time = bstate->expiry_time; new_circ->hs_ident = hs_ident_circuit_dup(circ->hs_ident); done: return; } /* Add all possible link specifiers in node to lspecs. * legacy ID is mandatory thus MUST be present in node. If the primary address * is not IPv4, log a BUG() warning, and return an empty smartlist. * Includes ed25519 id and IPv6 link specifiers if present in the node. */ static void get_lspecs_from_node(const node_t *node, smartlist_t *lspecs) { link_specifier_t *ls; tor_addr_port_t ap; tor_assert(node); tor_assert(lspecs); /* Get the relay's IPv4 address. */ node_get_prim_orport(node, &ap); /* We expect the node's primary address to be a valid IPv4 address. * This conforms to the protocol, which requires either an IPv4 or IPv6 * address (or both). */ if (BUG(!tor_addr_is_v4(&ap.addr)) || BUG(!tor_addr_port_is_valid_ap(&ap, 0))) { return; } ls = link_specifier_new(); link_specifier_set_ls_type(ls, LS_IPV4); link_specifier_set_un_ipv4_addr(ls, tor_addr_to_ipv4h(&ap.addr)); link_specifier_set_un_ipv4_port(ls, ap.port); /* Four bytes IPv4 and two bytes port. */ link_specifier_set_ls_len(ls, sizeof(ap.addr.addr.in_addr) + sizeof(ap.port)); smartlist_add(lspecs, ls); /* Legacy ID is mandatory and will always be present in node. */ ls = link_specifier_new(); link_specifier_set_ls_type(ls, LS_LEGACY_ID); memcpy(link_specifier_getarray_un_legacy_id(ls), node->identity, link_specifier_getlen_un_legacy_id(ls)); link_specifier_set_ls_len(ls, link_specifier_getlen_un_legacy_id(ls)); smartlist_add(lspecs, ls); /* ed25519 ID is only included if the node has it. */ if (!ed25519_public_key_is_zero(&node->ed25519_id)) { ls = link_specifier_new(); link_specifier_set_ls_type(ls, LS_ED25519_ID); memcpy(link_specifier_getarray_un_ed25519_id(ls), &node->ed25519_id, link_specifier_getlen_un_ed25519_id(ls)); link_specifier_set_ls_len(ls, link_specifier_getlen_un_ed25519_id(ls)); smartlist_add(lspecs, ls); } /* Check for IPv6. If so, include it as well. */ if (node_has_ipv6_orport(node)) { ls = link_specifier_new(); node_get_pref_ipv6_orport(node, &ap); link_specifier_set_ls_type(ls, LS_IPV6); size_t addr_len = link_specifier_getlen_un_ipv6_addr(ls); const uint8_t *in6_addr = tor_addr_to_in6_addr8(&ap.addr); uint8_t *ipv6_array = link_specifier_getarray_un_ipv6_addr(ls); memcpy(ipv6_array, in6_addr, addr_len); link_specifier_set_un_ipv6_port(ls, ap.port); /* Sixteen bytes IPv6 and two bytes port. */ link_specifier_set_ls_len(ls, addr_len + sizeof(ap.port)); smartlist_add(lspecs, ls); } } /* Using the given descriptor intro point ip, the node of the * rendezvous point rp_node and the service's subcredential, populate the * already allocated intro1_data object with the needed key material and link * specifiers. * * If rp_node has an invalid primary address, intro1_data->link_specifiers * will be an empty list. Otherwise, this function can't fail. The ip * MUST be a valid object containing the needed keys and authentication * method. */ static void setup_introduce1_data(const hs_desc_intro_point_t *ip, const node_t *rp_node, const uint8_t *subcredential, hs_cell_introduce1_data_t *intro1_data) { smartlist_t *rp_lspecs; tor_assert(ip); tor_assert(rp_node); tor_assert(subcredential); tor_assert(intro1_data); /* Build the link specifiers from the extend information of the rendezvous * circuit that we've picked previously. */ rp_lspecs = smartlist_new(); get_lspecs_from_node(rp_node, rp_lspecs); /* Populate the introduce1 data object. */ memset(intro1_data, 0, sizeof(hs_cell_introduce1_data_t)); if (ip->legacy.key != NULL) { intro1_data->is_legacy = 1; intro1_data->legacy_key = ip->legacy.key; } intro1_data->auth_pk = &ip->auth_key_cert->signed_key; intro1_data->enc_pk = &ip->enc_key; intro1_data->subcredential = subcredential; intro1_data->onion_pk = node_get_curve25519_onion_key(rp_node); intro1_data->link_specifiers = rp_lspecs; } /* ========== */ /* Public API */ /* ========== */ /* Return an introduction point circuit matching the given intro point object. * NULL is returned is no such circuit can be found. */ origin_circuit_t * hs_circ_service_get_intro_circ(const hs_service_intro_point_t *ip) { origin_circuit_t *circ = NULL; tor_assert(ip); if (ip->base.is_only_legacy) { uint8_t digest[DIGEST_LEN]; if (BUG(crypto_pk_get_digest(ip->legacy_key, (char *) digest) < 0)) { goto end; } circ = hs_circuitmap_get_intro_circ_v2_service_side(digest); } else { circ = hs_circuitmap_get_intro_circ_v3_service_side( &ip->auth_key_kp.pubkey); } end: return circ; } /* Called when we fail building a rendezvous circuit at some point other than * the last hop: launches a new circuit to the same rendezvous point. This * supports legacy service. * * We currently relaunch connections to rendezvous points if: * - A rendezvous circuit timed out before connecting to RP. * - The redenzvous circuit failed to connect to the RP. * * We avoid relaunching a connection to this rendezvous point if: * - We have already tried MAX_REND_FAILURES times to connect to this RP. * - We've been trying to connect to this RP for more than MAX_REND_TIMEOUT * seconds * - We've already retried this specific rendezvous circuit. */ void hs_circ_retry_service_rendezvous_point(origin_circuit_t *circ) { tor_assert(circ); tor_assert(TO_CIRCUIT(circ)->purpose == CIRCUIT_PURPOSE_S_CONNECT_REND); /* Check if we are allowed to relaunch to the rendezvous point of circ. */ if (!can_relaunch_service_rendezvous_point(circ)) { goto done; } /* Flag the circuit that we are relaunching so to avoid to relaunch twice a * circuit to the same rendezvous point at the same time. */ circ->hs_service_side_rend_circ_has_been_relaunched = 1; /* Legacy service don't have an hidden service ident. */ if (circ->hs_ident) { retry_service_rendezvous_point(circ); } else { rend_service_relaunch_rendezvous(circ); } done: return; } /* For a given service and a service intro point, launch a circuit to the * extend info ei. If the service is a single onion, a one-hop circuit will be * requested. Return 0 if the circuit was successfully launched and tagged * with the correct identifier. On error, a negative value is returned. */ int hs_circ_launch_intro_point(hs_service_t *service, const hs_service_intro_point_t *ip, extend_info_t *ei) { /* Standard flags for introduction circuit. */ int ret = -1, circ_flags = CIRCLAUNCH_NEED_UPTIME | CIRCLAUNCH_IS_INTERNAL; origin_circuit_t *circ; tor_assert(service); tor_assert(ip); tor_assert(ei); /* Update circuit flags in case of a single onion service that requires a * direct connection. */ if (service->config.is_single_onion) { circ_flags |= CIRCLAUNCH_ONEHOP_TUNNEL; } log_info(LD_REND, "Launching a circuit to intro point %s for service %s.", safe_str_client(extend_info_describe(ei)), safe_str_client(service->onion_address)); /* Note down the launch for the retry period. Even if the circuit fails to * be launched, we still want to respect the retry period to avoid stress on * the circuit subsystem. */ service->state.num_intro_circ_launched++; circ = circuit_launch_by_extend_info(CIRCUIT_PURPOSE_S_ESTABLISH_INTRO, ei, circ_flags); if (circ == NULL) { goto end; } /* Setup the circuit identifier and attach it to it. */ circ->hs_ident = create_intro_circuit_identifier(service, ip); tor_assert(circ->hs_ident); /* Register circuit in the global circuitmap. */ register_intro_circ(ip, circ); /* Success. */ ret = 0; end: return ret; } /* Called when a service introduction point circuit is done building. Given * the service and intro point object, this function will send the * ESTABLISH_INTRO cell on the circuit. Return 0 on success. Return 1 if the * circuit has been repurposed to General because we already have too many * opened. */ int hs_circ_service_intro_has_opened(hs_service_t *service, hs_service_intro_point_t *ip, const hs_service_descriptor_t *desc, origin_circuit_t *circ) { int ret = 0; unsigned int num_intro_circ, num_needed_circ; tor_assert(service); tor_assert(ip); tor_assert(desc); tor_assert(circ); /* Cound opened circuits that have sent ESTABLISH_INTRO cells or are already * established introduction circuits */ num_intro_circ = count_opened_desc_intro_point_circuits(service, desc); num_needed_circ = service->config.num_intro_points; if (num_intro_circ > num_needed_circ) { /* There are too many opened valid intro circuit for what the service * needs so repurpose this one. */ /* XXX: Legacy code checks options->ExcludeNodes and if not NULL it just * closes the circuit. I have NO idea why it does that so it hasn't been * added here. I can only assume in case our ExcludeNodes list changes but * in that case, all circuit are flagged unusable (config.c). --dgoulet */ log_info(LD_CIRC | LD_REND, "Introduction circuit just opened but we " "have enough for service %s. Repurposing " "it to general and leaving internal.", safe_str_client(service->onion_address)); tor_assert(circ->build_state->is_internal); /* Remove it from the circuitmap. */ hs_circuitmap_remove_circuit(TO_CIRCUIT(circ)); /* Cleaning up the hidden service identifier and repurpose. */ hs_ident_circuit_free(circ->hs_ident); circ->hs_ident = NULL; if (circuit_should_use_vanguards(TO_CIRCUIT(circ)->purpose)) circuit_change_purpose(TO_CIRCUIT(circ), CIRCUIT_PURPOSE_HS_VANGUARDS); else circuit_change_purpose(TO_CIRCUIT(circ), CIRCUIT_PURPOSE_C_GENERAL); /* Inform that this circuit just opened for this new purpose. */ circuit_has_opened(circ); /* This return value indicate to the caller that the IP object should be * removed from the service because it's corresponding circuit has just * been repurposed. */ ret = 1; goto done; } log_info(LD_REND, "Introduction circuit %u established for service %s.", TO_CIRCUIT(circ)->n_circ_id, safe_str_client(service->onion_address)); circuit_log_path(LOG_INFO, LD_REND, circ); /* Time to send an ESTABLISH_INTRO cell on this circuit. On error, this call * makes sure the circuit gets closed. */ send_establish_intro(service, ip, circ); done: return ret; } /* Called when a service rendezvous point circuit is done building. Given the * service and the circuit, this function will send a RENDEZVOUS1 cell on the * circuit using the information in the circuit identifier. If the cell can't * be sent, the circuit is closed. */ void hs_circ_service_rp_has_opened(const hs_service_t *service, origin_circuit_t *circ) { size_t payload_len; uint8_t payload[RELAY_PAYLOAD_SIZE] = {0}; tor_assert(service); tor_assert(circ); tor_assert(circ->hs_ident); /* Some useful logging. */ log_info(LD_REND, "Rendezvous circuit %u has opened with cookie %s " "for service %s", TO_CIRCUIT(circ)->n_circ_id, hex_str((const char *) circ->hs_ident->rendezvous_cookie, REND_COOKIE_LEN), safe_str_client(service->onion_address)); circuit_log_path(LOG_INFO, LD_REND, circ); /* This can't fail. */ payload_len = hs_cell_build_rendezvous1( circ->hs_ident->rendezvous_cookie, sizeof(circ->hs_ident->rendezvous_cookie), circ->hs_ident->rendezvous_handshake_info, sizeof(circ->hs_ident->rendezvous_handshake_info), payload); /* Pad the payload with random bytes so it matches the size of a legacy cell * which is normally always bigger. Also, the size of a legacy cell is * always smaller than the RELAY_PAYLOAD_SIZE so this is safe. */ if (payload_len < HS_LEGACY_RENDEZVOUS_CELL_SIZE) { crypto_rand((char *) payload + payload_len, HS_LEGACY_RENDEZVOUS_CELL_SIZE - payload_len); payload_len = HS_LEGACY_RENDEZVOUS_CELL_SIZE; } if (relay_send_command_from_edge(CONTROL_CELL_ID, TO_CIRCUIT(circ), RELAY_COMMAND_RENDEZVOUS1, (const char *) payload, payload_len, circ->cpath->prev) < 0) { /* On error, circuit is closed. */ log_warn(LD_REND, "Unable to send RENDEZVOUS1 cell on circuit %u " "for service %s", TO_CIRCUIT(circ)->n_circ_id, safe_str_client(service->onion_address)); goto done; } /* Setup end-to-end rendezvous circuit between the client and us. */ if (hs_circuit_setup_e2e_rend_circ(circ, circ->hs_ident->rendezvous_ntor_key_seed, sizeof(circ->hs_ident->rendezvous_ntor_key_seed), 1) < 0) { log_warn(LD_GENERAL, "Failed to setup circ"); goto done; } done: memwipe(payload, 0, sizeof(payload)); } /* Circ has been expecting an INTRO_ESTABLISHED cell that just arrived. Handle * the INTRO_ESTABLISHED cell payload of length payload_len arriving on the * given introduction circuit circ. The service is only used for logging * purposes. Return 0 on success else a negative value. */ int hs_circ_handle_intro_established(const hs_service_t *service, const hs_service_intro_point_t *ip, origin_circuit_t *circ, const uint8_t *payload, size_t payload_len) { int ret = -1; tor_assert(service); tor_assert(ip); tor_assert(circ); tor_assert(payload); if (BUG(TO_CIRCUIT(circ)->purpose != CIRCUIT_PURPOSE_S_ESTABLISH_INTRO)) { goto done; } /* Try to parse the payload into a cell making sure we do actually have a * valid cell. For a legacy node, it's an empty payload so as long as we * have the cell, we are good. */ if (!ip->base.is_only_legacy && hs_cell_parse_intro_established(payload, payload_len) < 0) { log_warn(LD_REND, "Unable to parse the INTRO_ESTABLISHED cell on " "circuit %u for service %s", TO_CIRCUIT(circ)->n_circ_id, safe_str_client(service->onion_address)); goto done; } /* Switch the purpose to a fully working intro point. */ circuit_change_purpose(TO_CIRCUIT(circ), CIRCUIT_PURPOSE_S_INTRO); /* Getting a valid INTRODUCE_ESTABLISHED means we've successfully used the * circuit so update our pathbias subsystem. */ pathbias_mark_use_success(circ); /* Success. */ ret = 0; done: return ret; } /* We just received an INTRODUCE2 cell on the established introduction circuit * circ. Handle the INTRODUCE2 payload of size payload_len for the given * circuit and service. This cell is associated with the intro point object ip * and the subcredential. Return 0 on success else a negative value. */ int hs_circ_handle_introduce2(const hs_service_t *service, const origin_circuit_t *circ, hs_service_intro_point_t *ip, const uint8_t *subcredential, const uint8_t *payload, size_t payload_len) { int ret = -1; time_t elapsed; hs_cell_introduce2_data_t data; tor_assert(service); tor_assert(circ); tor_assert(ip); tor_assert(subcredential); tor_assert(payload); /* Populate the data structure with everything we need for the cell to be * parsed, decrypted and key material computed correctly. */ data.auth_pk = &ip->auth_key_kp.pubkey; data.enc_kp = &ip->enc_key_kp; data.subcredential = subcredential; data.payload = payload; data.payload_len = payload_len; data.link_specifiers = smartlist_new(); data.replay_cache = ip->replay_cache; if (hs_cell_parse_introduce2(&data, circ, service) < 0) { goto done; } /* Check whether we've seen this REND_COOKIE before to detect repeats. */ if (replaycache_add_test_and_elapsed( service->state.replay_cache_rend_cookie, data.rendezvous_cookie, sizeof(data.rendezvous_cookie), &elapsed)) { /* A Tor client will send a new INTRODUCE1 cell with the same REND_COOKIE * as its previous one if its intro circ times out while in state * CIRCUIT_PURPOSE_C_INTRODUCE_ACK_WAIT. If we received the first * INTRODUCE1 cell (the intro-point relay converts it into an INTRODUCE2 * cell), we are already trying to connect to that rend point (and may * have already succeeded); drop this cell. */ log_info(LD_REND, "We received an INTRODUCE2 cell with same REND_COOKIE " "field %ld seconds ago. Dropping cell.", (long int) elapsed); goto done; } /* At this point, we just confirmed that the full INTRODUCE2 cell is valid * so increment our counter that we've seen one on this intro point. */ ip->introduce2_count++; /* Launch rendezvous circuit with the onion key and rend cookie. */ launch_rendezvous_point_circuit(service, ip, &data); /* Success. */ ret = 0; done: SMARTLIST_FOREACH(data.link_specifiers, link_specifier_t *, lspec, link_specifier_free(lspec)); smartlist_free(data.link_specifiers); memwipe(&data, 0, sizeof(data)); return ret; } /* Circuit circ just finished the rend ntor key exchange. Use the key * exchange output material at ntor_key_seed and setup circ to * serve as a rendezvous end-to-end circuit between the client and the * service. If is_service_side is set, then we are the hidden service * and the other side is the client. * * Return 0 if the operation went well; in case of error return -1. */ int hs_circuit_setup_e2e_rend_circ(origin_circuit_t *circ, const uint8_t *ntor_key_seed, size_t seed_len, int is_service_side) { if (BUG(!circuit_purpose_is_correct_for_rend(TO_CIRCUIT(circ)->purpose, is_service_side))) { return -1; } crypt_path_t *hop = create_rend_cpath(ntor_key_seed, seed_len, is_service_side); if (!hop) { log_warn(LD_REND, "Couldn't get v3 %s cpath!", is_service_side ? "service-side" : "client-side"); return -1; } finalize_rend_circuit(circ, hop, is_service_side); return 0; } /* We are a v2 legacy HS client and we just received a RENDEZVOUS1 cell * rend_cell_body on circ. Finish up the DH key exchange and then * extend the crypt path of circ so that the hidden service is on the * other side. */ int hs_circuit_setup_e2e_rend_circ_legacy_client(origin_circuit_t *circ, const uint8_t *rend_cell_body) { if (BUG(!circuit_purpose_is_correct_for_rend( TO_CIRCUIT(circ)->purpose, 0))) { return -1; } crypt_path_t *hop = create_rend_cpath_legacy(circ, rend_cell_body); if (!hop) { log_warn(LD_GENERAL, "Couldn't get v2 cpath."); return -1; } finalize_rend_circuit(circ, hop, 0); return 0; } /* Given the introduction circuit intro_circ, the rendezvous circuit * rend_circ, a descriptor intro point object ip and the service's * subcredential, send an INTRODUCE1 cell on intro_circ. * * This will also setup the circuit identifier on rend_circ containing the key * material for the handshake and e2e encryption. Return 0 on success else * negative value. Because relay_send_command_from_edge() closes the circuit * on error, it is possible that intro_circ is closed on error. */ int hs_circ_send_introduce1(origin_circuit_t *intro_circ, origin_circuit_t *rend_circ, const hs_desc_intro_point_t *ip, const uint8_t *subcredential) { int ret = -1; ssize_t payload_len; uint8_t payload[RELAY_PAYLOAD_SIZE] = {0}; hs_cell_introduce1_data_t intro1_data; tor_assert(intro_circ); tor_assert(rend_circ); tor_assert(ip); tor_assert(subcredential); /* It is undefined behavior in hs_cell_introduce1_data_clear() if intro1_data * has been declared on the stack but not initialized. Here, we set it to 0. */ memset(&intro1_data, 0, sizeof(hs_cell_introduce1_data_t)); /* This takes various objects in order to populate the introduce1 data * object which is used to build the content of the cell. */ const node_t *exit_node = build_state_get_exit_node(rend_circ->build_state); if (exit_node == NULL) { log_info(LD_REND, "Unable to get rendezvous point for circuit %u. " "Failing.", TO_CIRCUIT(intro_circ)->n_circ_id); goto done; } setup_introduce1_data(ip, exit_node, subcredential, &intro1_data); /* If we didn't get any link specifiers, it's because our node was * bad. */ if (BUG(!intro1_data.link_specifiers) || !smartlist_len(intro1_data.link_specifiers)) { log_warn(LD_REND, "Unable to get link specifiers for INTRODUCE1 cell on " "circuit %u.", TO_CIRCUIT(intro_circ)->n_circ_id); goto done; } /* Final step before we encode a cell, we setup the circuit identifier which * will generate both the rendezvous cookie and client keypair for this * connection. Those are put in the ident. */ intro1_data.rendezvous_cookie = rend_circ->hs_ident->rendezvous_cookie; intro1_data.client_kp = &rend_circ->hs_ident->rendezvous_client_kp; memcpy(intro_circ->hs_ident->rendezvous_cookie, rend_circ->hs_ident->rendezvous_cookie, sizeof(intro_circ->hs_ident->rendezvous_cookie)); /* From the introduce1 data object, this will encode the INTRODUCE1 cell * into payload which is then ready to be sent as is. */ payload_len = hs_cell_build_introduce1(&intro1_data, payload); if (BUG(payload_len < 0)) { goto done; } if (relay_send_command_from_edge(CONTROL_CELL_ID, TO_CIRCUIT(intro_circ), RELAY_COMMAND_INTRODUCE1, (const char *) payload, payload_len, intro_circ->cpath->prev) < 0) { /* On error, circuit is closed. */ log_warn(LD_REND, "Unable to send INTRODUCE1 cell on circuit %u.", TO_CIRCUIT(intro_circ)->n_circ_id); goto done; } /* Success. */ ret = 0; goto done; done: hs_cell_introduce1_data_clear(&intro1_data); memwipe(payload, 0, sizeof(payload)); return ret; } /* Send an ESTABLISH_RENDEZVOUS cell along the rendezvous circuit circ. On * success, 0 is returned else -1 and the circuit is marked for close. */ int hs_circ_send_establish_rendezvous(origin_circuit_t *circ) { ssize_t cell_len = 0; uint8_t cell[RELAY_PAYLOAD_SIZE] = {0}; tor_assert(circ); tor_assert(TO_CIRCUIT(circ)->purpose == CIRCUIT_PURPOSE_C_ESTABLISH_REND); log_info(LD_REND, "Send an ESTABLISH_RENDEZVOUS cell on circuit %u", TO_CIRCUIT(circ)->n_circ_id); /* Set timestamp_dirty, because circuit_expire_building expects it, * and the rend cookie also means we've used the circ. */ TO_CIRCUIT(circ)->timestamp_dirty = time(NULL); /* We've attempted to use this circuit. Probe it if we fail */ pathbias_count_use_attempt(circ); /* Generate the RENDEZVOUS_COOKIE and place it in the identifier so we can * complete the handshake when receiving the acknowledgement. */ crypto_rand((char *) circ->hs_ident->rendezvous_cookie, HS_REND_COOKIE_LEN); /* Generate the client keypair. No need to be extra strong, not long term */ curve25519_keypair_generate(&circ->hs_ident->rendezvous_client_kp, 0); cell_len = hs_cell_build_establish_rendezvous(circ->hs_ident->rendezvous_cookie, cell); if (BUG(cell_len < 0)) { goto err; } if (relay_send_command_from_edge(CONTROL_CELL_ID, TO_CIRCUIT(circ), RELAY_COMMAND_ESTABLISH_RENDEZVOUS, (const char *) cell, cell_len, circ->cpath->prev) < 0) { /* Circuit has been marked for close */ log_warn(LD_REND, "Unable to send ESTABLISH_RENDEZVOUS cell on " "circuit %u", TO_CIRCUIT(circ)->n_circ_id); memwipe(cell, 0, cell_len); goto err; } memwipe(cell, 0, cell_len); return 0; err: return -1; } /* We are about to close or free this circ. Clean it up from any * related HS data structures. This function can be called multiple times * safely for the same circuit. */ void hs_circ_cleanup(circuit_t *circ) { tor_assert(circ); /* If it's a service-side intro circ, notify the HS subsystem for the intro * point circuit closing so it can be dealt with cleanly. */ if (circ->purpose == CIRCUIT_PURPOSE_S_ESTABLISH_INTRO || circ->purpose == CIRCUIT_PURPOSE_S_INTRO) { hs_service_intro_circ_has_closed(TO_ORIGIN_CIRCUIT(circ)); } /* Clear HS circuitmap token for this circ (if any). Very important to be * done after the HS subsystem has been notified of the close else the * circuit will not be found. * * We do this at the close if possible because from that point on, the * circuit is good as dead. We can't rely on removing it in the circuit * free() function because we open a race window between the close and free * where we can't register a new circuit for the same intro point. */ if (circ->hs_token) { hs_circuitmap_remove_circuit(circ); } }