/* Copyright (c) 2016-2017, The Tor Project, Inc. */ /* See LICENSE for licensing information */ /** * \file test_hs_service.c * \brief Test hidden service functionality. */ #define CIRCUITBUILD_PRIVATE #define CIRCUITLIST_PRIVATE #define CONFIG_PRIVATE #define CONNECTION_PRIVATE #define CRYPTO_PRIVATE #define HS_COMMON_PRIVATE #define HS_SERVICE_PRIVATE #define HS_INTROPOINT_PRIVATE #define HS_CIRCUIT_PRIVATE #define MAIN_PRIVATE #define NETWORKSTATUS_PRIVATE #define STATEFILE_PRIVATE #define TOR_CHANNEL_INTERNAL_ #define HS_CLIENT_PRIVATE #include "test.h" #include "test_helpers.h" #include "log_test_helpers.h" #include "rend_test_helpers.h" #include "hs_test_helpers.h" #include "or.h" #include "config.h" #include "circuitbuild.h" #include "circuitlist.h" #include "circuituse.h" #include "crypto.h" #include "dirvote.h" #include "networkstatus.h" #include "nodelist.h" #include "relay.h" #include "hs_common.h" #include "hs_config.h" #include "hs_ident.h" #include "hs_intropoint.h" #include "hs_ntor.h" #include "hs_circuit.h" #include "hs_service.h" #include "hs_client.h" #include "main.h" #include "rendservice.h" #include "statefile.h" #include "shared_random_state.h" /* Trunnel */ #include "hs/cell_establish_intro.h" static networkstatus_t mock_ns; static networkstatus_t * mock_networkstatus_get_live_consensus(time_t now) { (void) now; return &mock_ns; } static or_state_t *dummy_state = NULL; /* Mock function to get fake or state (used for rev counters) */ static or_state_t * get_or_state_replacement(void) { return dummy_state; } /* Mock function because we are not trying to test the close circuit that does * an awful lot of checks on the circuit object. */ static void mock_circuit_mark_for_close(circuit_t *circ, int reason, int line, const char *file) { (void) circ; (void) reason; (void) line; (void) file; return; } static int mock_relay_send_command_from_edge(streamid_t stream_id, circuit_t *circ, uint8_t relay_command, const char *payload, size_t payload_len, crypt_path_t *cpath_layer, const char *filename, int lineno) { (void) stream_id; (void) circ; (void) relay_command; (void) payload; (void) payload_len; (void) cpath_layer; (void) filename; (void) lineno; return 0; } /* Helper: from a set of options in conf, configure a service which will add * it to the staging list of the HS subsytem. */ static int helper_config_service(const char *conf) { int ret = 0; or_options_t *options = NULL; tt_assert(conf); options = helper_parse_options(conf); tt_assert(options); ret = hs_config_service_all(options, 0); done: or_options_free(options); return ret; } /* Test: Ensure that setting up rendezvous circuits works correctly. */ static void test_e2e_rend_circuit_setup(void *arg) { ed25519_public_key_t service_pk; origin_circuit_t *or_circ; int retval; /** In this test we create a v3 prop224 service-side rendezvous circuit. * We simulate an HS ntor key exchange with a client, and check that * the circuit was setup correctly and is ready to accept rendezvous data */ (void) arg; /* Now make dummy circuit */ { or_circ = origin_circuit_new(); or_circ->base_.purpose = CIRCUIT_PURPOSE_S_CONNECT_REND; or_circ->build_state = tor_malloc_zero(sizeof(cpath_build_state_t)); or_circ->build_state->is_internal = 1; /* prop224: Setup hs conn identifier on the stream */ ed25519_secret_key_t sk; tt_int_op(0, OP_EQ, ed25519_secret_key_generate(&sk, 0)); tt_int_op(0, OP_EQ, ed25519_public_key_generate(&service_pk, &sk)); or_circ->hs_ident = hs_ident_circuit_new(&service_pk, HS_IDENT_CIRCUIT_RENDEZVOUS); TO_CIRCUIT(or_circ)->state = CIRCUIT_STATE_OPEN; } /* Check number of hops */ retval = cpath_get_n_hops(&or_circ->cpath); tt_int_op(retval, OP_EQ, 0); /* Setup the circuit: do the ntor key exchange */ { uint8_t ntor_key_seed[DIGEST256_LEN] = {2}; retval = hs_circuit_setup_e2e_rend_circ(or_circ, ntor_key_seed, sizeof(ntor_key_seed), 1); tt_int_op(retval, OP_EQ, 0); } /* See that a hop was added to the circuit's cpath */ retval = cpath_get_n_hops(&or_circ->cpath); tt_int_op(retval, OP_EQ, 1); /* Check the digest algo */ tt_int_op(crypto_digest_get_algorithm(or_circ->cpath->f_digest), OP_EQ, DIGEST_SHA3_256); tt_int_op(crypto_digest_get_algorithm(or_circ->cpath->b_digest), OP_EQ, DIGEST_SHA3_256); tt_assert(or_circ->cpath->f_crypto); tt_assert(or_circ->cpath->b_crypto); /* Ensure that circ purpose was changed */ tt_int_op(or_circ->base_.purpose, OP_EQ, CIRCUIT_PURPOSE_S_REND_JOINED); done: circuit_free_(TO_CIRCUIT(or_circ)); } /* Helper: Return a newly allocated and initialized origin circuit with * purpose and flags. A default HS identifier is set to an ed25519 * authentication key for introduction point. */ static origin_circuit_t * helper_create_origin_circuit(int purpose, int flags) { origin_circuit_t *circ = NULL; circ = origin_circuit_init(purpose, flags); tt_assert(circ); circ->cpath = tor_malloc_zero(sizeof(crypt_path_t)); circ->cpath->magic = CRYPT_PATH_MAGIC; circ->cpath->state = CPATH_STATE_OPEN; circ->cpath->package_window = circuit_initial_package_window(); circ->cpath->deliver_window = CIRCWINDOW_START; circ->cpath->prev = circ->cpath; /* Random nonce. */ crypto_rand(circ->cpath->prev->rend_circ_nonce, DIGEST_LEN); /* Create a default HS identifier. */ circ->hs_ident = tor_malloc_zero(sizeof(hs_ident_circuit_t)); done: return circ; } /* Helper: Return a newly allocated service object with the identity keypair * sets and the current descriptor. Then register it to the global map. * Caller should us hs_free_all() to free this service or remove it from the * global map before freeing. */ static hs_service_t * helper_create_service(void) { /* Set a service for this circuit. */ hs_service_t *service = hs_service_new(get_options()); tt_assert(service); service->config.version = HS_VERSION_THREE; ed25519_secret_key_generate(&service->keys.identity_sk, 0); ed25519_public_key_generate(&service->keys.identity_pk, &service->keys.identity_sk); service->desc_current = service_descriptor_new(); tt_assert(service->desc_current); /* Register service to global map. */ int ret = register_service(get_hs_service_map(), service); tt_int_op(ret, OP_EQ, 0); done: return service; } /* Helper: Return a newly allocated service intro point with two link * specifiers, one IPv4 and one legacy ID set to As. */ static hs_service_intro_point_t * helper_create_service_ip(void) { hs_desc_link_specifier_t *ls; hs_service_intro_point_t *ip = service_intro_point_new(NULL, 0); tt_assert(ip); /* Add a first unused link specifier. */ ls = tor_malloc_zero(sizeof(*ls)); ls->type = LS_IPV4; smartlist_add(ip->base.link_specifiers, ls); /* Add a second link specifier used by a test. */ ls = tor_malloc_zero(sizeof(*ls)); ls->type = LS_LEGACY_ID; memset(ls->u.legacy_id, 'A', sizeof(ls->u.legacy_id)); smartlist_add(ip->base.link_specifiers, ls); done: return ip; } static void test_load_keys(void *arg) { int ret; char *conf = NULL; char *hsdir_v2 = tor_strdup(get_fname("hs2")); char *hsdir_v3 = tor_strdup(get_fname("hs3")); char addr[HS_SERVICE_ADDR_LEN_BASE32 + 1]; (void) arg; /* We'll register two services, a v2 and a v3, then we'll load keys and * validate that both are in a correct state. */ hs_init(); #define conf_fmt \ "HiddenServiceDir %s\n" \ "HiddenServiceVersion %d\n" \ "HiddenServicePort 65535\n" /* v2 service. */ tor_asprintf(&conf, conf_fmt, hsdir_v2, HS_VERSION_TWO); ret = helper_config_service(conf); tor_free(conf); tt_int_op(ret, OP_EQ, 0); /* This one should now be registered into the v2 list. */ tt_int_op(get_hs_service_staging_list_size(), OP_EQ, 0); tt_int_op(rend_num_services(), OP_EQ, 1); /* v3 service. */ tor_asprintf(&conf, conf_fmt, hsdir_v3, HS_VERSION_THREE); ret = helper_config_service(conf); tor_free(conf); tt_int_op(ret, OP_EQ, 0); /* It's in staging? */ tt_int_op(get_hs_service_staging_list_size(), OP_EQ, 1); /* Load the keys for these. After that, the v3 service should be registered * in the global map. */ hs_service_load_all_keys(); tt_int_op(get_hs_service_map_size(), OP_EQ, 1); hs_service_t *s = get_first_service(); tt_assert(s); /* Ok we have the service object. Validate few things. */ tt_assert(!tor_mem_is_zero(s->onion_address, sizeof(s->onion_address))); tt_int_op(hs_address_is_valid(s->onion_address), OP_EQ, 1); tt_assert(!tor_mem_is_zero((char *) s->keys.identity_sk.seckey, ED25519_SECKEY_LEN)); tt_assert(!tor_mem_is_zero((char *) s->keys.identity_pk.pubkey, ED25519_PUBKEY_LEN)); /* Check onion address from identity key. */ hs_build_address(&s->keys.identity_pk, s->config.version, addr); tt_int_op(hs_address_is_valid(addr), OP_EQ, 1); tt_str_op(addr, OP_EQ, s->onion_address); done: tor_free(hsdir_v2); tor_free(hsdir_v3); hs_free_all(); } static void test_access_service(void *arg) { int ret; char *conf = NULL; char *hsdir_v3 = tor_strdup(get_fname("hs3")); hs_service_ht *global_map; hs_service_t *s = NULL; (void) arg; /* We'll register two services, a v2 and a v3, then we'll load keys and * validate that both are in a correct state. */ hs_init(); #define conf_fmt \ "HiddenServiceDir %s\n" \ "HiddenServiceVersion %d\n" \ "HiddenServicePort 65535\n" /* v3 service. */ tor_asprintf(&conf, conf_fmt, hsdir_v3, HS_VERSION_THREE); ret = helper_config_service(conf); tor_free(conf); tt_int_op(ret, OP_EQ, 0); /* It's in staging? */ tt_int_op(get_hs_service_staging_list_size(), OP_EQ, 1); /* Load the keys for these. After that, the v3 service should be registered * in the global map. */ hs_service_load_all_keys(); tt_int_op(get_hs_service_map_size(), OP_EQ, 1); s = get_first_service(); tt_assert(s); global_map = get_hs_service_map(); tt_assert(global_map); /* From here, we'll try the service accessors. */ hs_service_t *query = find_service(global_map, &s->keys.identity_pk); tt_assert(query); tt_mem_op(query, OP_EQ, s, sizeof(hs_service_t)); /* Remove service, check if it actually works and then put it back. */ remove_service(global_map, s); tt_int_op(get_hs_service_map_size(), OP_EQ, 0); query = find_service(global_map, &s->keys.identity_pk); tt_ptr_op(query, OP_EQ, NULL); /* Register back the service in the map. */ ret = register_service(global_map, s); tt_int_op(ret, OP_EQ, 0); tt_int_op(get_hs_service_map_size(), OP_EQ, 1); /* Twice should fail. */ ret = register_service(global_map, s); tt_int_op(ret, OP_EQ, -1); /* Remove service from map so we don't double free on cleanup. */ remove_service(global_map, s); tt_int_op(get_hs_service_map_size(), OP_EQ, 0); query = find_service(global_map, &s->keys.identity_pk); tt_ptr_op(query, OP_EQ, NULL); /* Let's try to remove twice for fun. */ setup_full_capture_of_logs(LOG_WARN); remove_service(global_map, s); expect_log_msg_containing("Could not find service in the global map"); teardown_capture_of_logs(); done: hs_service_free(s); tor_free(hsdir_v3); hs_free_all(); } /** Test that we can create intro point objects, index them and find them */ static void test_service_intro_point(void *arg) { hs_service_t *service = NULL; hs_service_intro_point_t *ip = NULL; (void) arg; /* Test simple creation of an object. */ { time_t now = time(NULL); ip = helper_create_service_ip(); tt_assert(ip); /* Make sure the authentication keypair is not zeroes. */ tt_int_op(tor_mem_is_zero((const char *) &ip->auth_key_kp, sizeof(ed25519_keypair_t)), OP_EQ, 0); /* The introduce2_max MUST be in that range. */ tt_u64_op(ip->introduce2_max, OP_GE, INTRO_POINT_MIN_LIFETIME_INTRODUCTIONS); tt_u64_op(ip->introduce2_max, OP_LE, INTRO_POINT_MAX_LIFETIME_INTRODUCTIONS); /* Time to expire MUST also be in that range. We add 5 seconds because * there could be a gap between setting now and the time taken in * service_intro_point_new. On ARM, it can be surprisingly slow... */ tt_u64_op(ip->time_to_expire, OP_GE, now + INTRO_POINT_LIFETIME_MIN_SECONDS + 5); tt_u64_op(ip->time_to_expire, OP_LE, now + INTRO_POINT_LIFETIME_MAX_SECONDS + 5); tt_assert(ip->replay_cache); tt_assert(ip->base.link_specifiers); /* By default, this is NOT a legacy object. */ tt_int_op(ip->base.is_only_legacy, OP_EQ, 0); } /* Test functions that uses a service intropoints map with that previously * created object (non legacy). */ { ed25519_public_key_t garbage = { {0} }; hs_service_intro_point_t *query; service = hs_service_new(get_options()); tt_assert(service); service->desc_current = service_descriptor_new(); tt_assert(service->desc_current); /* Add intropoint to descriptor map. */ service_intro_point_add(service->desc_current->intro_points.map, ip); query = service_intro_point_find(service, &ip->auth_key_kp.pubkey); tt_mem_op(query, OP_EQ, ip, sizeof(hs_service_intro_point_t)); query = service_intro_point_find(service, &garbage); tt_ptr_op(query, OP_EQ, NULL); /* While at it, can I find the descriptor with the intro point? */ hs_service_descriptor_t *desc_lookup = service_desc_find_by_intro(service, ip); tt_mem_op(service->desc_current, OP_EQ, desc_lookup, sizeof(hs_service_descriptor_t)); /* Remove object from service descriptor and make sure it is out. */ service_intro_point_remove(service, ip); query = service_intro_point_find(service, &ip->auth_key_kp.pubkey); tt_ptr_op(query, OP_EQ, NULL); } done: /* If the test succeed, this object is no longer referenced in the service * so we can free it without use after free. Else, it might explode because * it's still in the service descriptor map. */ service_intro_point_free(ip); hs_service_free(service); } static node_t mock_node; static const node_t * mock_node_get_by_id(const char *digest) { (void) digest; memset(mock_node.identity, 'A', DIGEST_LEN); /* Only return the matchin identity of As */ if (!tor_memcmp(mock_node.identity, digest, DIGEST_LEN)) { return &mock_node; } return NULL; } static void test_helper_functions(void *arg) { int ret; hs_service_t *service = NULL; hs_service_intro_point_t *ip = NULL; hs_ident_circuit_t ident; (void) arg; MOCK(node_get_by_id, mock_node_get_by_id); hs_service_init(); service = helper_create_service(); ip = helper_create_service_ip(); /* Immediately add the intro point to the service so the free service at the * end cleans it as well. */ service_intro_point_add(service->desc_current->intro_points.map, ip); /* Setup the circuit identifier. */ ed25519_pubkey_copy(&ident.intro_auth_pk, &ip->auth_key_kp.pubkey); ed25519_pubkey_copy(&ident.identity_pk, &service->keys.identity_pk); /* Testing get_objects_from_ident(). */ { hs_service_t *s_lookup = NULL; hs_service_intro_point_t *ip_lookup = NULL; hs_service_descriptor_t *desc_lookup = NULL; get_objects_from_ident(&ident, &s_lookup, &ip_lookup, &desc_lookup); tt_mem_op(s_lookup, OP_EQ, service, sizeof(hs_service_t)); tt_mem_op(ip_lookup, OP_EQ, ip, sizeof(hs_service_intro_point_t)); tt_mem_op(desc_lookup, OP_EQ, service->desc_current, sizeof(hs_service_descriptor_t)); /* Reset */ s_lookup = NULL; ip_lookup = NULL; desc_lookup = NULL; /* NULL parameter should work. */ get_objects_from_ident(&ident, NULL, &ip_lookup, &desc_lookup); tt_mem_op(ip_lookup, OP_EQ, ip, sizeof(hs_service_intro_point_t)); tt_mem_op(desc_lookup, OP_EQ, service->desc_current, sizeof(hs_service_descriptor_t)); /* Reset. */ s_lookup = NULL; ip_lookup = NULL; desc_lookup = NULL; /* Break the ident and we should find nothing. */ memset(&ident, 0, sizeof(ident)); get_objects_from_ident(&ident, &s_lookup, &ip_lookup, &desc_lookup); tt_ptr_op(s_lookup, OP_EQ, NULL); tt_ptr_op(ip_lookup, OP_EQ, NULL); tt_ptr_op(desc_lookup, OP_EQ, NULL); } /* Testing get_node_from_intro_point() */ { const node_t *node = get_node_from_intro_point(ip); tt_ptr_op(node, OP_EQ, &mock_node); SMARTLIST_FOREACH_BEGIN(ip->base.link_specifiers, hs_desc_link_specifier_t *, ls) { if (ls->type == LS_LEGACY_ID) { /* Change legacy id in link specifier which is not the mock node. */ memset(ls->u.legacy_id, 'B', sizeof(ls->u.legacy_id)); } } SMARTLIST_FOREACH_END(ls); node = get_node_from_intro_point(ip); tt_ptr_op(node, OP_EQ, NULL); } /* Testing can_service_launch_intro_circuit() */ { time_t now = time(NULL); /* Put the start of the retry period back in time, we should be allowed. * to launch intro circuit. */ service->state.num_intro_circ_launched = 2; service->state.intro_circ_retry_started_time = (now - INTRO_CIRC_RETRY_PERIOD - 1); ret = can_service_launch_intro_circuit(service, now); tt_int_op(ret, OP_EQ, 1); tt_u64_op(service->state.intro_circ_retry_started_time, OP_EQ, now); tt_u64_op(service->state.num_intro_circ_launched, OP_EQ, 0); /* Call it again, we should still be allowed because we are under * MAX_INTRO_CIRCS_PER_PERIOD which been set to 0 previously. */ ret = can_service_launch_intro_circuit(service, now); tt_int_op(ret, OP_EQ, 1); tt_u64_op(service->state.intro_circ_retry_started_time, OP_EQ, now); tt_u64_op(service->state.num_intro_circ_launched, OP_EQ, 0); /* Too many intro circuit launched means we are not allowed. */ service->state.num_intro_circ_launched = 20; ret = can_service_launch_intro_circuit(service, now); tt_int_op(ret, OP_EQ, 0); } /* Testing intro_point_should_expire(). */ { time_t now = time(NULL); /* Just some basic test of the current state. */ tt_u64_op(ip->introduce2_max, OP_GE, INTRO_POINT_MIN_LIFETIME_INTRODUCTIONS); tt_u64_op(ip->introduce2_max, OP_LE, INTRO_POINT_MAX_LIFETIME_INTRODUCTIONS); tt_u64_op(ip->time_to_expire, OP_GE, now + INTRO_POINT_LIFETIME_MIN_SECONDS); tt_u64_op(ip->time_to_expire, OP_LE, now + INTRO_POINT_LIFETIME_MAX_SECONDS); /* This newly created IP from above shouldn't expire now. */ ret = intro_point_should_expire(ip, now); tt_int_op(ret, OP_EQ, 0); /* Maximum number of INTRODUCE2 cell reached, it should expire. */ ip->introduce2_count = INTRO_POINT_MAX_LIFETIME_INTRODUCTIONS + 1; ret = intro_point_should_expire(ip, now); tt_int_op(ret, OP_EQ, 1); ip->introduce2_count = 0; /* It should expire if time to expire has been reached. */ ip->time_to_expire = now - 1000; ret = intro_point_should_expire(ip, now); tt_int_op(ret, OP_EQ, 1); } done: /* This will free the service and all objects associated to it. */ hs_service_free_all(); UNMOCK(node_get_by_id); } /** Test that we do the right operations when an intro circuit opens */ static void test_intro_circuit_opened(void *arg) { int flags = CIRCLAUNCH_NEED_UPTIME | CIRCLAUNCH_IS_INTERNAL; hs_service_t *service; origin_circuit_t *circ = NULL; (void) arg; hs_init(); MOCK(circuit_mark_for_close_, mock_circuit_mark_for_close); MOCK(relay_send_command_from_edge_, mock_relay_send_command_from_edge); circ = helper_create_origin_circuit(CIRCUIT_PURPOSE_S_ESTABLISH_INTRO, flags); /* No service associated with this circuit. */ setup_full_capture_of_logs(LOG_WARN); hs_service_circuit_has_opened(circ); expect_log_msg_containing("Unknown service identity key"); teardown_capture_of_logs(); /* Set a service for this circuit. */ { service = helper_create_service(); ed25519_pubkey_copy(&circ->hs_ident->identity_pk, &service->keys.identity_pk); /* No intro point associated with this circuit. */ setup_full_capture_of_logs(LOG_WARN); hs_service_circuit_has_opened(circ); expect_log_msg_containing("Unknown introduction point auth key"); teardown_capture_of_logs(); } /* Set an IP object now for this circuit. */ { hs_service_intro_point_t *ip = helper_create_service_ip(); service_intro_point_add(service->desc_current->intro_points.map, ip); /* Update ident to contain the intro point auth key. */ ed25519_pubkey_copy(&circ->hs_ident->intro_auth_pk, &ip->auth_key_kp.pubkey); } /* This one should go all the way. */ setup_full_capture_of_logs(LOG_INFO); hs_service_circuit_has_opened(circ); expect_log_msg_containing("Introduction circuit 0 established for service"); teardown_capture_of_logs(); done: circuit_free_(TO_CIRCUIT(circ)); hs_free_all(); UNMOCK(circuit_mark_for_close_); UNMOCK(relay_send_command_from_edge_); } /** Test the operations we do on a circuit after we learn that we successfuly * established an intro point on it */ static void test_intro_established(void *arg) { int ret; int flags = CIRCLAUNCH_NEED_UPTIME | CIRCLAUNCH_IS_INTERNAL; uint8_t payload[RELAY_PAYLOAD_SIZE] = {0}; origin_circuit_t *circ = NULL; hs_service_t *service; hs_service_intro_point_t *ip = NULL; (void) arg; hs_init(); MOCK(circuit_mark_for_close_, mock_circuit_mark_for_close); circ = helper_create_origin_circuit(CIRCUIT_PURPOSE_S_ESTABLISH_INTRO, flags); tt_assert(circ); /* Test a wrong purpose. */ TO_CIRCUIT(circ)->purpose = CIRCUIT_PURPOSE_S_INTRO; setup_full_capture_of_logs(LOG_WARN); ret = hs_service_receive_intro_established(circ, payload, sizeof(payload)); tt_int_op(ret, OP_EQ, -1); expect_log_msg_containing("Received an INTRO_ESTABLISHED cell on a " "non introduction circuit of purpose"); teardown_capture_of_logs(); /* Back to normal. */ TO_CIRCUIT(circ)->purpose = CIRCUIT_PURPOSE_S_ESTABLISH_INTRO; /* No service associated to it. */ setup_full_capture_of_logs(LOG_WARN); ret = hs_service_receive_intro_established(circ, payload, sizeof(payload)); tt_int_op(ret, OP_EQ, -1); expect_log_msg_containing("Unknown service identity key"); teardown_capture_of_logs(); /* Set a service for this circuit. */ service = helper_create_service(); ed25519_pubkey_copy(&circ->hs_ident->identity_pk, &service->keys.identity_pk); /* No introduction point associated to it. */ setup_full_capture_of_logs(LOG_WARN); ret = hs_service_receive_intro_established(circ, payload, sizeof(payload)); tt_int_op(ret, OP_EQ, -1); expect_log_msg_containing("Introduction circuit established without an " "intro point object on circuit"); teardown_capture_of_logs(); /* Set an IP object now for this circuit. */ { ip = helper_create_service_ip(); service_intro_point_add(service->desc_current->intro_points.map, ip); /* Update ident to contain the intro point auth key. */ ed25519_pubkey_copy(&circ->hs_ident->intro_auth_pk, &ip->auth_key_kp.pubkey); } /* Send an empty payload. INTRO_ESTABLISHED cells are basically zeroes. */ ret = hs_service_receive_intro_established(circ, payload, sizeof(payload)); tt_int_op(ret, OP_EQ, 0); tt_u64_op(ip->circuit_established, OP_EQ, 1); tt_int_op(TO_CIRCUIT(circ)->purpose, OP_EQ, CIRCUIT_PURPOSE_S_INTRO); done: if (circ) circuit_free_(TO_CIRCUIT(circ)); hs_free_all(); UNMOCK(circuit_mark_for_close_); } /** Check the operations we do on a rendezvous circuit after we learn it's * open */ static void test_rdv_circuit_opened(void *arg) { int flags = CIRCLAUNCH_NEED_UPTIME | CIRCLAUNCH_IS_INTERNAL; origin_circuit_t *circ = NULL; hs_service_t *service; (void) arg; hs_init(); MOCK(circuit_mark_for_close_, mock_circuit_mark_for_close); MOCK(relay_send_command_from_edge_, mock_relay_send_command_from_edge); circ = helper_create_origin_circuit(CIRCUIT_PURPOSE_S_CONNECT_REND, flags); crypto_rand((char *) circ->hs_ident->rendezvous_cookie, REND_COOKIE_LEN); crypto_rand((char *) circ->hs_ident->rendezvous_handshake_info, sizeof(circ->hs_ident->rendezvous_handshake_info)); /* No service associated with this circuit. */ setup_full_capture_of_logs(LOG_WARN); hs_service_circuit_has_opened(circ); expect_log_msg_containing("Unknown service identity key"); teardown_capture_of_logs(); /* This should be set to a non zero timestamp. */ tt_u64_op(TO_CIRCUIT(circ)->timestamp_dirty, OP_NE, 0); /* Set a service for this circuit. */ service = helper_create_service(); ed25519_pubkey_copy(&circ->hs_ident->identity_pk, &service->keys.identity_pk); /* Should be all good. */ hs_service_circuit_has_opened(circ); tt_int_op(TO_CIRCUIT(circ)->purpose, OP_EQ, CIRCUIT_PURPOSE_S_REND_JOINED); done: circuit_free_(TO_CIRCUIT(circ)); hs_free_all(); UNMOCK(circuit_mark_for_close_); UNMOCK(relay_send_command_from_edge_); } static void mock_assert_circuit_ok(const circuit_t *c) { (void) c; return; } /** Test for the general mechanism for closing intro circs. * Also a way to identify that #23603 has been fixed. */ static void test_closing_intro_circs(void *arg) { hs_service_t *service = NULL; hs_service_intro_point_t *ip = NULL, *entry = NULL; origin_circuit_t *intro_circ = NULL, *tmp_circ; int flags = CIRCLAUNCH_NEED_UPTIME | CIRCLAUNCH_IS_INTERNAL; (void) arg; MOCK(assert_circuit_ok, mock_assert_circuit_ok); hs_init(); /* Initialize service */ service = helper_create_service(); /* Initialize intro point */ ip = helper_create_service_ip(); tt_assert(ip); service_intro_point_add(service->desc_current->intro_points.map, ip); /* Initialize intro circuit */ intro_circ = origin_circuit_init(CIRCUIT_PURPOSE_S_ESTABLISH_INTRO, flags); intro_circ->hs_ident = hs_ident_circuit_new(&service->keys.identity_pk, HS_IDENT_CIRCUIT_INTRO); /* Register circuit in the circuitmap . */ hs_circuitmap_register_intro_circ_v3_service_side(intro_circ, &ip->auth_key_kp.pubkey); tmp_circ = hs_circuitmap_get_intro_circ_v3_service_side(&ip->auth_key_kp.pubkey); tt_ptr_op(tmp_circ, OP_EQ, intro_circ); /* Pretend that intro point has failed too much */ ip->circuit_retries = MAX_INTRO_POINT_CIRCUIT_RETRIES+1; /* Now pretend we are freeing this intro circuit. We want to see that our * destructor is not gonna kill our intro point structure since that's the * job of the cleanup routine. */ circuit_free(TO_CIRCUIT(intro_circ)); intro_circ = NULL; entry = service_intro_point_find(service, &ip->auth_key_kp.pubkey); tt_assert(entry); /* The free should also remove the circuit from the circuitmap. */ tmp_circ = hs_circuitmap_get_intro_circ_v3_service_side(&ip->auth_key_kp.pubkey); tt_assert(!tmp_circ); /* Now pretend that a new intro point circ was launched and opened. Check * that the intro point will be established correctly. */ intro_circ = origin_circuit_init(CIRCUIT_PURPOSE_S_ESTABLISH_INTRO, flags); intro_circ->hs_ident = hs_ident_circuit_new(&service->keys.identity_pk, HS_IDENT_CIRCUIT_INTRO); ed25519_pubkey_copy(&intro_circ->hs_ident->intro_auth_pk, &ip->auth_key_kp.pubkey); /* Register circuit in the circuitmap . */ hs_circuitmap_register_intro_circ_v3_service_side(intro_circ, &ip->auth_key_kp.pubkey); tmp_circ = hs_circuitmap_get_intro_circ_v3_service_side(&ip->auth_key_kp.pubkey); tt_ptr_op(tmp_circ, OP_EQ, intro_circ); tt_int_op(TO_CIRCUIT(intro_circ)->marked_for_close, OP_EQ, 0); circuit_mark_for_close(TO_CIRCUIT(intro_circ), END_CIRC_REASON_INTERNAL); tt_int_op(TO_CIRCUIT(intro_circ)->marked_for_close, OP_NE, 0); /* At this point, we should not be able to find it in the circuitmap. */ tmp_circ = hs_circuitmap_get_intro_circ_v3_service_side(&ip->auth_key_kp.pubkey); tt_assert(!tmp_circ); done: if (intro_circ) { circuit_free(TO_CIRCUIT(intro_circ)); } /* Frees the service object. */ hs_free_all(); UNMOCK(assert_circuit_ok); } /** Test sending and receiving introduce2 cells */ static void test_introduce2(void *arg) { int ret; int flags = CIRCLAUNCH_NEED_UPTIME | CIRCLAUNCH_IS_INTERNAL; uint8_t payload[RELAY_PAYLOAD_SIZE] = {0}; origin_circuit_t *circ = NULL; hs_service_t *service; hs_service_intro_point_t *ip = NULL; (void) arg; hs_init(); MOCK(circuit_mark_for_close_, mock_circuit_mark_for_close); MOCK(get_or_state, get_or_state_replacement); dummy_state = tor_malloc_zero(sizeof(or_state_t)); circ = helper_create_origin_circuit(CIRCUIT_PURPOSE_S_INTRO, flags); tt_assert(circ); /* Test a wrong purpose. */ TO_CIRCUIT(circ)->purpose = CIRCUIT_PURPOSE_S_ESTABLISH_INTRO; setup_full_capture_of_logs(LOG_WARN); ret = hs_service_receive_introduce2(circ, payload, sizeof(payload)); tt_int_op(ret, OP_EQ, -1); expect_log_msg_containing("Received an INTRODUCE2 cell on a " "non introduction circuit of purpose"); teardown_capture_of_logs(); /* Back to normal. */ TO_CIRCUIT(circ)->purpose = CIRCUIT_PURPOSE_S_INTRO; /* No service associated to it. */ setup_full_capture_of_logs(LOG_WARN); ret = hs_service_receive_introduce2(circ, payload, sizeof(payload)); tt_int_op(ret, OP_EQ, -1); expect_log_msg_containing("Unknown service identity key"); teardown_capture_of_logs(); /* Set a service for this circuit. */ service = helper_create_service(); ed25519_pubkey_copy(&circ->hs_ident->identity_pk, &service->keys.identity_pk); /* No introduction point associated to it. */ setup_full_capture_of_logs(LOG_WARN); ret = hs_service_receive_introduce2(circ, payload, sizeof(payload)); tt_int_op(ret, OP_EQ, -1); expect_log_msg_containing("Unknown introduction auth key when handling " "an INTRODUCE2 cell on circuit"); teardown_capture_of_logs(); /* Set an IP object now for this circuit. */ { ip = helper_create_service_ip(); service_intro_point_add(service->desc_current->intro_points.map, ip); /* Update ident to contain the intro point auth key. */ ed25519_pubkey_copy(&circ->hs_ident->intro_auth_pk, &ip->auth_key_kp.pubkey); } /* This will fail because receiving an INTRODUCE2 cell implies a valid cell * and then launching circuits so let's not do that and instead test that * behaviour differently. */ ret = hs_service_receive_introduce2(circ, payload, sizeof(payload)); tt_int_op(ret, OP_EQ, -1); tt_u64_op(ip->introduce2_count, OP_EQ, 0); done: or_state_free(dummy_state); dummy_state = NULL; if (circ) circuit_free_(TO_CIRCUIT(circ)); hs_free_all(); UNMOCK(circuit_mark_for_close_); } /** Test basic hidden service housekeeping operations (maintaining intro * points, etc) */ static void test_service_event(void *arg) { int flags = CIRCLAUNCH_NEED_UPTIME | CIRCLAUNCH_IS_INTERNAL; time_t now = time(NULL); hs_service_t *service; origin_circuit_t *circ = NULL; (void) arg; hs_init(); MOCK(circuit_mark_for_close_, mock_circuit_mark_for_close); circ = helper_create_origin_circuit(CIRCUIT_PURPOSE_S_INTRO, flags); /* Set a service for this circuit. */ service = helper_create_service(); ed25519_pubkey_copy(&circ->hs_ident->identity_pk, &service->keys.identity_pk); /* Currently this consists of cleaning invalid intro points. So adding IPs * here that should get cleaned up. */ { hs_service_intro_point_t *ip = helper_create_service_ip(); service_intro_point_add(service->desc_current->intro_points.map, ip); /* This run will remove the IP because we have no circuits nor node_t * associated with it. */ run_housekeeping_event(now); tt_int_op(digest256map_size(service->desc_current->intro_points.map), OP_EQ, 0); /* We'll trigger a removal because we've reached our maximum amount of * times we should retry a circuit. For this, we need to have a node_t * that matches the identity of this IP. */ routerinfo_t ri; memset(&ri, 0, sizeof(ri)); ip = helper_create_service_ip(); service_intro_point_add(service->desc_current->intro_points.map, ip); memset(ri.cache_info.identity_digest, 'A', DIGEST_LEN); /* This triggers a node_t creation. */ tt_assert(nodelist_set_routerinfo(&ri, NULL)); ip->circuit_retries = MAX_INTRO_POINT_CIRCUIT_RETRIES + 1; run_housekeeping_event(now); tt_int_op(digest256map_size(service->desc_current->intro_points.map), OP_EQ, 0); /* No removal but no circuit so this means the IP object will stay in the * descriptor map so we can retry it. */ ip = helper_create_service_ip(); service_intro_point_add(service->desc_current->intro_points.map, ip); ip->circuit_established = 1; /* We'll test that, it MUST be 0 after. */ run_housekeeping_event(now); tt_int_op(digest256map_size(service->desc_current->intro_points.map), OP_EQ, 1); /* Remove the IP object at once for the next test. */ ip->circuit_retries = MAX_INTRO_POINT_CIRCUIT_RETRIES + 1; run_housekeeping_event(now); tt_int_op(digest256map_size(service->desc_current->intro_points.map), OP_EQ, 0); /* Now, we'll create an IP with a registered circuit. The IP object * shouldn't go away. */ ip = helper_create_service_ip(); service_intro_point_add(service->desc_current->intro_points.map, ip); ed25519_pubkey_copy(&circ->hs_ident->intro_auth_pk, &ip->auth_key_kp.pubkey); hs_circuitmap_register_intro_circ_v3_service_side( circ, &ip->auth_key_kp.pubkey); run_housekeeping_event(now); tt_int_op(digest256map_size(service->desc_current->intro_points.map), OP_EQ, 1); /* We'll mangle the IP object to expire. */ ip->time_to_expire = now; run_housekeeping_event(now); tt_int_op(digest256map_size(service->desc_current->intro_points.map), OP_EQ, 0); } done: hs_circuitmap_remove_circuit(TO_CIRCUIT(circ)); circuit_free_(TO_CIRCUIT(circ)); hs_free_all(); UNMOCK(circuit_mark_for_close_); } /** Test that we rotate descriptors correctly. */ static void test_rotate_descriptors(void *arg) { int ret; time_t next_rotation_time, now = time(NULL); hs_service_t *service; hs_service_descriptor_t *desc_next; (void) arg; dummy_state = tor_malloc_zero(sizeof(or_state_t)); hs_init(); MOCK(get_or_state, get_or_state_replacement); MOCK(circuit_mark_for_close_, mock_circuit_mark_for_close); MOCK(networkstatus_get_live_consensus, mock_networkstatus_get_live_consensus); /* Descriptor rotation happens with a consensus with a new SRV. */ ret = parse_rfc1123_time("Sat, 26 Oct 1985 13:00:00 UTC", &mock_ns.valid_after); tt_int_op(ret, OP_EQ, 0); ret = parse_rfc1123_time("Sat, 26 Oct 1985 14:00:00 UTC", &mock_ns.fresh_until); tt_int_op(ret, OP_EQ, 0); dirvote_recalculate_timing(get_options(), mock_ns.valid_after); /* Create a service with a default descriptor and state. It's added to the * global map. */ service = helper_create_service(); service_descriptor_free(service->desc_current); service->desc_current = NULL; /* This triggers a build for both descriptors. The time now is only used in * the descriptor certificate which is important to be now else the decoding * will complain that the cert has expired if we use valid_after. */ build_all_descriptors(now); tt_assert(service->desc_current); tt_assert(service->desc_next); /* Tweak our service next rotation time so we can use a custom time. */ service->state.next_rotation_time = next_rotation_time = mock_ns.valid_after + (11 * 60 * 60); /* Nothing should happen, we are not at a new SRV. Our next rotation time * should be untouched. */ rotate_all_descriptors(mock_ns.valid_after); tt_u64_op(service->state.next_rotation_time, OP_EQ, next_rotation_time); tt_assert(service->desc_current); tt_assert(service->desc_next); tt_u64_op(service->desc_current->time_period_num, OP_EQ, hs_get_previous_time_period_num(0)); tt_u64_op(service->desc_next->time_period_num, OP_EQ, hs_get_time_period_num(0)); /* Keep a reference so we can compare it after rotation to the current. */ desc_next = service->desc_next; /* Going right after a new SRV. */ ret = parse_rfc1123_time("Sat, 27 Oct 1985 01:00:00 UTC", &mock_ns.valid_after); tt_int_op(ret, OP_EQ, 0); ret = parse_rfc1123_time("Sat, 27 Oct 1985 02:00:00 UTC", &mock_ns.fresh_until); tt_int_op(ret, OP_EQ, 0); dirvote_recalculate_timing(get_options(), mock_ns.valid_after); /* Note down what to expect for the next rotation time which is 01:00 + 23h * meaning 00:00:00. */ next_rotation_time = mock_ns.valid_after + (23 * 60 * 60); /* We should have our next rotation time modified, our current descriptor * cleaned up and the next descriptor becoming the current. */ rotate_all_descriptors(mock_ns.valid_after); tt_u64_op(service->state.next_rotation_time, OP_EQ, next_rotation_time); tt_mem_op(service->desc_current, OP_EQ, desc_next, sizeof(*desc_next)); tt_assert(service->desc_next == NULL); /* A second time should do nothing. */ rotate_all_descriptors(mock_ns.valid_after); tt_u64_op(service->state.next_rotation_time, OP_EQ, next_rotation_time); tt_mem_op(service->desc_current, OP_EQ, desc_next, sizeof(*desc_next)); tt_assert(service->desc_next == NULL); build_all_descriptors(now); tt_mem_op(service->desc_current, OP_EQ, desc_next, sizeof(*desc_next)); tt_u64_op(service->desc_current->time_period_num, OP_EQ, hs_get_time_period_num(0)); tt_u64_op(service->desc_next->time_period_num, OP_EQ, hs_get_next_time_period_num(0)); tt_assert(service->desc_next); done: hs_free_all(); UNMOCK(get_or_state); UNMOCK(circuit_mark_for_close_); UNMOCK(networkstatus_get_live_consensus); } /** Test building descriptors: picking intro points, setting up their link * specifiers, etc. */ static void test_build_update_descriptors(void *arg) { int ret; time_t now = time(NULL); node_t *node; hs_service_t *service; hs_service_intro_point_t *ip_cur, *ip_next; routerinfo_t ri; (void) arg; hs_init(); MOCK(get_or_state, get_or_state_replacement); MOCK(networkstatus_get_live_consensus, mock_networkstatus_get_live_consensus); dummy_state = tor_malloc_zero(sizeof(or_state_t)); ret = parse_rfc1123_time("Sat, 26 Oct 1985 03:00:00 UTC", &mock_ns.valid_after); tt_int_op(ret, OP_EQ, 0); ret = parse_rfc1123_time("Sat, 26 Oct 1985 04:00:00 UTC", &mock_ns.fresh_until); tt_int_op(ret, OP_EQ, 0); dirvote_recalculate_timing(get_options(), mock_ns.valid_after); /* Create a service without a current descriptor to trigger a build. */ service = helper_create_service(); tt_assert(service); /* Unfortunately, the helper creates a dummy descriptor so get rid of it. */ service_descriptor_free(service->desc_current); service->desc_current = NULL; /* We have a fresh service so this should trigger a build for both * descriptors for specific time period that we'll test. */ build_all_descriptors(now); /* Check *current* descriptor. */ tt_assert(service->desc_current); tt_assert(service->desc_current->desc); tt_assert(service->desc_current->intro_points.map); /* The current time period is the one expected when starting at 03:00. */ tt_u64_op(service->desc_current->time_period_num, OP_EQ, hs_get_time_period_num(0)); /* This should be untouched, the update descriptor process changes it. */ tt_u64_op(service->desc_current->next_upload_time, OP_EQ, 0); /* Check *next* descriptor. */ tt_assert(service->desc_next); tt_assert(service->desc_next->desc); tt_assert(service->desc_next->intro_points.map); tt_assert(service->desc_current != service->desc_next); tt_u64_op(service->desc_next->time_period_num, OP_EQ, hs_get_next_time_period_num(0)); /* This should be untouched, the update descriptor process changes it. */ tt_u64_op(service->desc_next->next_upload_time, OP_EQ, 0); /* Time to test the update of those descriptors. At first, we have no node * in the routerlist so this will find NO suitable node for the IPs. */ setup_full_capture_of_logs(LOG_INFO); update_all_descriptors(now); expect_log_msg_containing("Unable to find a suitable node to be an " "introduction point for service"); teardown_capture_of_logs(); tt_int_op(digest256map_size(service->desc_current->intro_points.map), OP_EQ, 0); tt_int_op(digest256map_size(service->desc_next->intro_points.map), OP_EQ, 0); /* Now, we'll setup a node_t. */ { tor_addr_t ipv4_addr; curve25519_secret_key_t curve25519_secret_key; memset(&ri, 0, sizeof(routerinfo_t)); tor_addr_parse(&ipv4_addr, "127.0.0.1"); ri.addr = tor_addr_to_ipv4h(&ipv4_addr); ri.or_port = 1337; ri.purpose = ROUTER_PURPOSE_GENERAL; /* Ugly yes but we never free the "ri" object so this just makes things * easier. */ ri.protocol_list = (char *) "HSDir=1-2 LinkAuth=3"; ret = curve25519_secret_key_generate(&curve25519_secret_key, 0); tt_int_op(ret, OP_EQ, 0); ri.onion_curve25519_pkey = tor_malloc_zero(sizeof(curve25519_public_key_t)); ri.onion_pkey = crypto_pk_new(); curve25519_public_key_generate(ri.onion_curve25519_pkey, &curve25519_secret_key); memset(ri.cache_info.identity_digest, 'A', DIGEST_LEN); /* Setup ed25519 identity */ ed25519_keypair_t kp1; ed25519_keypair_generate(&kp1, 0); ri.cache_info.signing_key_cert = tor_malloc_zero(sizeof(tor_cert_t)); tt_assert(ri.cache_info.signing_key_cert); ed25519_pubkey_copy(&ri.cache_info.signing_key_cert->signing_key, &kp1.pubkey); nodelist_set_routerinfo(&ri, NULL); node = node_get_mutable_by_id(ri.cache_info.identity_digest); tt_assert(node); node->is_running = node->is_valid = node->is_fast = node->is_stable = 1; } /* We expect to pick only one intro point from the node above. */ setup_full_capture_of_logs(LOG_INFO); update_all_descriptors(now); tor_free(node->ri->onion_curve25519_pkey); /* Avoid memleak. */ tor_free(node->ri->cache_info.signing_key_cert); crypto_pk_free(node->ri->onion_pkey); expect_log_msg_containing("just picked 1 intro points and wanted 3 for next " "descriptor. It currently has 0 intro points. " "Launching ESTABLISH_INTRO circuit shortly."); teardown_capture_of_logs(); tt_int_op(digest256map_size(service->desc_current->intro_points.map), OP_EQ, 1); tt_int_op(digest256map_size(service->desc_next->intro_points.map), OP_EQ, 1); /* Get the IP object. Because we don't have the auth key of the IP, we can't * query it so get the first element in the map. */ { void *obj = NULL; const uint8_t *key; digest256map_iter_t *iter = digest256map_iter_init(service->desc_current->intro_points.map); digest256map_iter_get(iter, &key, &obj); tt_assert(obj); ip_cur = obj; /* Get also the IP from the next descriptor. We'll make sure it's not the * same object as in the current descriptor. */ iter = digest256map_iter_init(service->desc_next->intro_points.map); digest256map_iter_get(iter, &key, &obj); tt_assert(obj); ip_next = obj; } tt_mem_op(ip_cur, OP_NE, ip_next, sizeof(hs_desc_intro_point_t)); /* We won't test the service IP object because there is a specific test * already for this but we'll make sure that the state is coherent.*/ /* Three link specifiers are mandatoy so make sure we do have them. */ tt_int_op(smartlist_len(ip_cur->base.link_specifiers), OP_EQ, 3); /* Make sure we have a valid encryption keypair generated when we pick an * intro point in the update process. */ tt_assert(!tor_mem_is_zero((char *) ip_cur->enc_key_kp.seckey.secret_key, CURVE25519_SECKEY_LEN)); tt_assert(!tor_mem_is_zero((char *) ip_cur->enc_key_kp.pubkey.public_key, CURVE25519_PUBKEY_LEN)); tt_u64_op(ip_cur->time_to_expire, OP_GE, now + INTRO_POINT_LIFETIME_MIN_SECONDS); tt_u64_op(ip_cur->time_to_expire, OP_LE, now + INTRO_POINT_LIFETIME_MAX_SECONDS); /* Now, we will try to set up a service after a new time period has started * and see if it behaves as expected. */ ret = parse_rfc1123_time("Sat, 26 Oct 1985 13:00:00 UTC", &mock_ns.valid_after); tt_int_op(ret, OP_EQ, 0); ret = parse_rfc1123_time("Sat, 26 Oct 1985 14:00:00 UTC", &mock_ns.fresh_until); tt_int_op(ret, OP_EQ, 0); /* Create a service without a current descriptor to trigger a build. */ service = helper_create_service(); tt_assert(service); /* Unfortunately, the helper creates a dummy descriptor so get rid of it. */ service_descriptor_free(service->desc_current); service->desc_current = NULL; /* We have a fresh service so this should trigger a build for both * descriptors for specific time period that we'll test. */ build_all_descriptors(now); /* Check *current* descriptor. */ tt_assert(service->desc_current); tt_assert(service->desc_current->desc); tt_assert(service->desc_current->intro_points.map); /* This should be for the previous time period. */ tt_u64_op(service->desc_current->time_period_num, OP_EQ, hs_get_previous_time_period_num(0)); /* This should be untouched, the update descriptor process changes it. */ tt_u64_op(service->desc_current->next_upload_time, OP_EQ, 0); /* Check *next* descriptor. */ tt_assert(service->desc_next); tt_assert(service->desc_next->desc); tt_assert(service->desc_next->intro_points.map); tt_assert(service->desc_current != service->desc_next); tt_u64_op(service->desc_next->time_period_num, OP_EQ, hs_get_time_period_num(0)); /* This should be untouched, the update descriptor process changes it. */ tt_u64_op(service->desc_next->next_upload_time, OP_EQ, 0); /* Let's remove the next descriptor to simulate a rotation. */ service_descriptor_free(service->desc_next); service->desc_next = NULL; build_all_descriptors(now); /* Check *next* descriptor. */ tt_assert(service->desc_next); tt_assert(service->desc_next->desc); tt_assert(service->desc_next->intro_points.map); tt_assert(service->desc_current != service->desc_next); tt_u64_op(service->desc_next->time_period_num, OP_EQ, hs_get_next_time_period_num(0)); /* This should be untouched, the update descriptor process changes it. */ tt_u64_op(service->desc_next->next_upload_time, OP_EQ, 0); done: hs_free_all(); nodelist_free_all(); } static void test_upload_descriptors(void *arg) { int ret; time_t now = time(NULL); hs_service_t *service; (void) arg; hs_init(); MOCK(get_or_state, get_or_state_replacement); MOCK(networkstatus_get_live_consensus, mock_networkstatus_get_live_consensus); dummy_state = tor_malloc_zero(sizeof(or_state_t)); ret = parse_rfc1123_time("Sat, 26 Oct 1985 13:00:00 UTC", &mock_ns.valid_after); tt_int_op(ret, OP_EQ, 0); ret = parse_rfc1123_time("Sat, 26 Oct 1985 14:00:00 UTC", &mock_ns.fresh_until); tt_int_op(ret, OP_EQ, 0); /* Create a service with no descriptor. It's added to the global map. */ service = hs_service_new(get_options()); tt_assert(service); service->config.version = HS_VERSION_THREE; ed25519_secret_key_generate(&service->keys.identity_sk, 0); ed25519_public_key_generate(&service->keys.identity_pk, &service->keys.identity_sk); /* Register service to global map. */ ret = register_service(get_hs_service_map(), service); tt_int_op(ret, OP_EQ, 0); /* But first, build our descriptor. */ build_all_descriptors(now); /* Nothing should happen because we have 0 introduction circuit established * and we want (by default) 3 intro points. */ run_upload_descriptor_event(now); /* If no upload happened, this should be untouched. */ tt_u64_op(service->desc_current->next_upload_time, OP_EQ, 0); /* We'll simulate that we've opened our intro point circuit and that we only * want one intro point. */ service->config.num_intro_points = 1; /* Set our next upload time after now which will skip the upload. */ service->desc_current->next_upload_time = now + 1000; run_upload_descriptor_event(now); /* If no upload happened, this should be untouched. */ tt_u64_op(service->desc_current->next_upload_time, OP_EQ, now + 1000); done: hs_free_all(); UNMOCK(get_or_state); } /** Test the functions that save and load HS revision counters to state. */ static void test_revision_counter_state(void *arg) { char *state_line_one = NULL; char *state_line_two = NULL; hs_service_descriptor_t *desc_one = service_descriptor_new(); hs_service_descriptor_t *desc_two = service_descriptor_new(); (void) arg; /* Prepare both descriptors */ desc_one->desc->plaintext_data.revision_counter = 42; desc_two->desc->plaintext_data.revision_counter = 240; memset(&desc_one->blinded_kp.pubkey.pubkey, 66, sizeof(desc_one->blinded_kp.pubkey.pubkey)); memset(&desc_two->blinded_kp.pubkey.pubkey, 240, sizeof(desc_one->blinded_kp.pubkey.pubkey)); /* Turn the descriptor rev counters into state lines */ state_line_one = encode_desc_rev_counter_for_state(desc_one); tt_str_op(state_line_one, OP_EQ, "QkJCQkJCQkJCQkJCQkJCQkJCQkJCQkJCQkJCQkJCQkI 42"); state_line_two = encode_desc_rev_counter_for_state(desc_two); tt_str_op(state_line_two, OP_EQ, "8PDw8PDw8PDw8PDw8PDw8PDw8PDw8PDw8PDw8PDw8PA 240"); /* Now let's test our state parsing function: */ int service_found; uint64_t cached_rev_counter; /* First's try with wrong pubkey and check that no service was found */ cached_rev_counter =check_state_line_for_service_rev_counter(state_line_one, &desc_two->blinded_kp.pubkey, &service_found); tt_int_op(service_found, OP_EQ, 0); tt_u64_op(cached_rev_counter, OP_EQ, 0); /* Now let's try with the right pubkeys */ cached_rev_counter =check_state_line_for_service_rev_counter(state_line_one, &desc_one->blinded_kp.pubkey, &service_found); tt_int_op(service_found, OP_EQ, 1); tt_u64_op(cached_rev_counter, OP_EQ, 42); cached_rev_counter =check_state_line_for_service_rev_counter(state_line_two, &desc_two->blinded_kp.pubkey, &service_found); tt_int_op(service_found, OP_EQ, 1); tt_u64_op(cached_rev_counter, OP_EQ, 240); done: tor_free(state_line_one); tor_free(state_line_two); service_descriptor_free(desc_one); service_descriptor_free(desc_two); } /** Global vars used by test_rendezvous1_parsing() */ static char rend1_payload[RELAY_PAYLOAD_SIZE]; static size_t rend1_payload_len = 0; /** Mock for relay_send_command_from_edge() to send a RENDEZVOUS1 cell. Instead * of sending it to the network, instead save it to the global `rend1_payload` * variable so that we can inspect it in the test_rendezvous1_parsing() * test. */ static int mock_relay_send_rendezvous1(streamid_t stream_id, circuit_t *circ, uint8_t relay_command, const char *payload, size_t payload_len, crypt_path_t *cpath_layer, const char *filename, int lineno) { (void) stream_id; (void) circ; (void) relay_command; (void) cpath_layer; (void) filename; (void) lineno; memcpy(rend1_payload, payload, payload_len); rend1_payload_len = payload_len; return 0; } /** Send a RENDEZVOUS1 as a service, and parse it as a client. */ static void test_rendezvous1_parsing(void *arg) { int retval; static const char *test_addr = "4acth47i6kxnvkewtm6q7ib2s3ufpo5sqbsnzjpbi7utijcltosqemad.onion"; hs_service_t *service = NULL; origin_circuit_t *service_circ = NULL; origin_circuit_t *client_circ = NULL; ed25519_keypair_t ip_auth_kp; curve25519_keypair_t ephemeral_kp; curve25519_keypair_t client_kp; curve25519_keypair_t ip_enc_kp; int flags = CIRCLAUNCH_NEED_UPTIME | CIRCLAUNCH_IS_INTERNAL; (void) arg; MOCK(relay_send_command_from_edge_, mock_relay_send_rendezvous1); { /* Let's start by setting up the service that will start the rend */ service = tor_malloc_zero(sizeof(hs_service_t)); ed25519_secret_key_generate(&service->keys.identity_sk, 0); ed25519_public_key_generate(&service->keys.identity_pk, &service->keys.identity_sk); memcpy(service->onion_address, test_addr, sizeof(service->onion_address)); tt_assert(service); } { /* Now let's set up the service rendezvous circuit and its keys. */ service_circ = helper_create_origin_circuit(CIRCUIT_PURPOSE_S_CONNECT_REND, flags); tor_free(service_circ->hs_ident); hs_ntor_rend_cell_keys_t hs_ntor_rend_cell_keys; uint8_t rendezvous_cookie[HS_REND_COOKIE_LEN]; curve25519_keypair_generate(&ip_enc_kp, 0); curve25519_keypair_generate(&ephemeral_kp, 0); curve25519_keypair_generate(&client_kp, 0); ed25519_keypair_generate(&ip_auth_kp, 0); retval = hs_ntor_service_get_rendezvous1_keys(&ip_auth_kp.pubkey, &ip_enc_kp, &ephemeral_kp, &client_kp.pubkey, &hs_ntor_rend_cell_keys); tt_int_op(retval, OP_EQ, 0); memset(rendezvous_cookie, 2, sizeof(rendezvous_cookie)); service_circ->hs_ident = create_rp_circuit_identifier(service, rendezvous_cookie, &ephemeral_kp.pubkey, &hs_ntor_rend_cell_keys); } /* Send out the RENDEZVOUS1 and make sure that our mock func worked */ tt_assert(tor_mem_is_zero(rend1_payload, 32)); hs_circ_service_rp_has_opened(service, service_circ); tt_assert(!tor_mem_is_zero(rend1_payload, 32)); tt_int_op(rend1_payload_len, OP_EQ, HS_LEGACY_RENDEZVOUS_CELL_SIZE); /******************************/ /** Now let's create the client rendezvous circuit */ client_circ = helper_create_origin_circuit(CIRCUIT_PURPOSE_C_REND_READY_INTRO_ACKED, flags); /* fix up its circ ident */ ed25519_pubkey_copy(&client_circ->hs_ident->intro_auth_pk, &ip_auth_kp.pubkey); memcpy(&client_circ->hs_ident->rendezvous_client_kp, &client_kp, sizeof(client_circ->hs_ident->rendezvous_client_kp)); memcpy(&client_circ->hs_ident->intro_enc_pk.public_key, &ip_enc_kp.pubkey.public_key, sizeof(client_circ->hs_ident->intro_enc_pk.public_key)); /* Now parse the rendezvous2 circuit and make sure it was fine. We are * skipping 20 bytes off its payload, since that's the rendezvous cookie * which is only present in REND1. */ retval = handle_rendezvous2(client_circ, (uint8_t*)rend1_payload+20, rend1_payload_len-20); tt_int_op(retval, OP_EQ, 0); /* TODO: We are only simulating client/service here. We could also simulate * the rendezvous point by plugging in rend_mid_establish_rendezvous(). We * would need an extra circuit and some more stuff but it's doable. */ done: circuit_free_(TO_CIRCUIT(service_circ)); circuit_free_(TO_CIRCUIT(client_circ)); hs_service_free(service); hs_free_all(); UNMOCK(relay_send_command_from_edge_); } struct testcase_t hs_service_tests[] = { { "e2e_rend_circuit_setup", test_e2e_rend_circuit_setup, TT_FORK, NULL, NULL }, { "load_keys", test_load_keys, TT_FORK, NULL, NULL }, { "access_service", test_access_service, TT_FORK, NULL, NULL }, { "service_intro_point", test_service_intro_point, TT_FORK, NULL, NULL }, { "helper_functions", test_helper_functions, TT_FORK, NULL, NULL }, { "intro_circuit_opened", test_intro_circuit_opened, TT_FORK, NULL, NULL }, { "intro_established", test_intro_established, TT_FORK, NULL, NULL }, { "closing_intro_circs", test_closing_intro_circs, TT_FORK, NULL, NULL }, { "rdv_circuit_opened", test_rdv_circuit_opened, TT_FORK, NULL, NULL }, { "introduce2", test_introduce2, TT_FORK, NULL, NULL }, { "service_event", test_service_event, TT_FORK, NULL, NULL }, { "rotate_descriptors", test_rotate_descriptors, TT_FORK, NULL, NULL }, { "build_update_descriptors", test_build_update_descriptors, TT_FORK, NULL, NULL }, { "upload_descriptors", test_upload_descriptors, TT_FORK, NULL, NULL }, { "revision_counter_state", test_revision_counter_state, TT_FORK, NULL, NULL }, { "rendezvous1_parsing", test_rendezvous1_parsing, TT_FORK, NULL, NULL }, END_OF_TESTCASES };