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- /* Copyright (c) 2017, The Tor Project, Inc. */
- /* See LICENSE for licensing information */
- /**
- * \file test_hs_common.c
- * \brief Test hidden service common functionalities.
- */
- #define HS_COMMON_PRIVATE
- #define HS_CLIENT_PRIVATE
- #define HS_SERVICE_PRIVATE
- #define NODELIST_PRIVATE
- #include "test.h"
- #include "test_helpers.h"
- #include "log_test_helpers.h"
- #include "hs_test_helpers.h"
- #include "connection_edge.h"
- #include "hs_common.h"
- #include "hs_client.h"
- #include "hs_service.h"
- #include "config.h"
- #include "networkstatus.h"
- #include "directory.h"
- #include "dirvote.h"
- #include "nodelist.h"
- #include "routerlist.h"
- #include "statefile.h"
- #include "circuitlist.h"
- #include "shared_random.h"
- #include "util.h"
- /** Test the validation of HS v3 addresses */
- static void
- test_validate_address(void *arg)
- {
- int ret;
- (void) arg;
- /* Address too short and too long. */
- setup_full_capture_of_logs(LOG_WARN);
- ret = hs_address_is_valid("blah");
- tt_int_op(ret, OP_EQ, 0);
- expect_log_msg_containing("has an invalid length");
- teardown_capture_of_logs();
- setup_full_capture_of_logs(LOG_WARN);
- ret = hs_address_is_valid(
- "p3xnclpu4mu22dwaurjtsybyqk4xfjmcfz6z62yl24uwmhjatiwnlnadb");
- tt_int_op(ret, OP_EQ, 0);
- expect_log_msg_containing("has an invalid length");
- teardown_capture_of_logs();
- /* Invalid checksum (taken from prop224) */
- setup_full_capture_of_logs(LOG_WARN);
- ret = hs_address_is_valid(
- "l5satjgud6gucryazcyvyvhuxhr74u6ygigiuyixe3a6ysis67ororad");
- tt_int_op(ret, OP_EQ, 0);
- expect_log_msg_containing("invalid checksum");
- teardown_capture_of_logs();
- setup_full_capture_of_logs(LOG_WARN);
- ret = hs_address_is_valid(
- "btojiu7nu5y5iwut64eufevogqdw4wmqzugnoluw232r4t3ecsfv37ad");
- tt_int_op(ret, OP_EQ, 0);
- expect_log_msg_containing("invalid checksum");
- teardown_capture_of_logs();
- /* Non base32 decodable string. */
- setup_full_capture_of_logs(LOG_WARN);
- ret = hs_address_is_valid(
- "????????????????????????????????????????????????????????");
- tt_int_op(ret, OP_EQ, 0);
- expect_log_msg_containing("can't be decoded");
- teardown_capture_of_logs();
- /* Valid address. */
- ret = hs_address_is_valid(
- "25njqamcweflpvkl73j4szahhihoc4xt3ktcgjnpaingr5yhkenl5sid");
- tt_int_op(ret, OP_EQ, 1);
- done:
- ;
- }
- static int
- mock_write_str_to_file(const char *path, const char *str, int bin)
- {
- (void)bin;
- tt_str_op(path, OP_EQ, "/double/five"PATH_SEPARATOR"squared");
- tt_str_op(str, OP_EQ,
- "25njqamcweflpvkl73j4szahhihoc4xt3ktcgjnpaingr5yhkenl5sid.onion\n");
- done:
- return 0;
- }
- /** Test building HS v3 onion addresses. Uses test vectors from the
- * ./hs_build_address.py script. */
- static void
- test_build_address(void *arg)
- {
- int ret;
- char onion_addr[HS_SERVICE_ADDR_LEN_BASE32 + 1];
- ed25519_public_key_t pubkey;
- /* hex-encoded ed25519 pubkey used in hs_build_address.py */
- char pubkey_hex[] =
- "d75a980182b10ab7d54bfed3c964073a0ee172f3daa62325af021a68f707511a";
- hs_service_t *service = NULL;
- (void) arg;
- MOCK(write_str_to_file, mock_write_str_to_file);
- /* The following has been created with hs_build_address.py script that
- * follows proposal 224 specification to build an onion address. */
- static const char *test_addr =
- "25njqamcweflpvkl73j4szahhihoc4xt3ktcgjnpaingr5yhkenl5sid";
- /* Let's try to build the same onion address as the script */
- base16_decode((char*)pubkey.pubkey, sizeof(pubkey.pubkey),
- pubkey_hex, strlen(pubkey_hex));
- hs_build_address(&pubkey, HS_VERSION_THREE, onion_addr);
- tt_str_op(test_addr, OP_EQ, onion_addr);
- /* Validate that address. */
- ret = hs_address_is_valid(onion_addr);
- tt_int_op(ret, OP_EQ, 1);
- service = tor_malloc_zero(sizeof(hs_service_t));
- memcpy(service->onion_address, onion_addr, sizeof(service->onion_address));
- tor_asprintf(&service->config.directory_path, "/double/five");
- ret = write_address_to_file(service, "squared");
- tt_int_op(ret, OP_EQ, 0);
- done:
- hs_service_free(service);
- }
- /** Test that our HS time period calculation functions work properly */
- static void
- test_time_period(void *arg)
- {
- (void) arg;
- uint64_t tn;
- int retval;
- time_t fake_time, correct_time, start_time;
- /* Let's do the example in prop224 section [TIME-PERIODS] */
- retval = parse_rfc1123_time("Wed, 13 Apr 2016 11:00:00 UTC",
- &fake_time);
- tt_int_op(retval, OP_EQ, 0);
- /* Check that the time period number is right */
- tn = hs_get_time_period_num(fake_time);
- tt_u64_op(tn, OP_EQ, 16903);
- /* Increase current time to 11:59:59 UTC and check that the time period
- number is still the same */
- fake_time += 3599;
- tn = hs_get_time_period_num(fake_time);
- tt_u64_op(tn, OP_EQ, 16903);
- { /* Check start time of next time period */
- retval = parse_rfc1123_time("Wed, 13 Apr 2016 12:00:00 UTC",
- &correct_time);
- tt_int_op(retval, OP_EQ, 0);
- start_time = hs_get_start_time_of_next_time_period(fake_time);
- tt_int_op(start_time, OP_EQ, correct_time);
- }
- /* Now take time to 12:00:00 UTC and check that the time period rotated */
- fake_time += 1;
- tn = hs_get_time_period_num(fake_time);
- tt_u64_op(tn, OP_EQ, 16904);
- /* Now also check our hs_get_next_time_period_num() function */
- tn = hs_get_next_time_period_num(fake_time);
- tt_u64_op(tn, OP_EQ, 16905);
- { /* Check start time of next time period again */
- retval = parse_rfc1123_time("Wed, 14 Apr 2016 12:00:00 UTC",
- &correct_time);
- tt_int_op(retval, OP_EQ, 0);
- start_time = hs_get_start_time_of_next_time_period(fake_time);
- tt_int_op(start_time, OP_EQ, correct_time);
- }
- /* Now do another sanity check: The time period number at the start of the
- * next time period, must be the same time period number as the one returned
- * from hs_get_next_time_period_num() */
- {
- time_t next_tp_start = hs_get_start_time_of_next_time_period(fake_time);
- tt_u64_op(hs_get_time_period_num(next_tp_start), OP_EQ,
- hs_get_next_time_period_num(fake_time));
- }
- done:
- ;
- }
- /** Test that we can correctly find the start time of the next time period */
- static void
- test_start_time_of_next_time_period(void *arg)
- {
- (void) arg;
- int retval;
- time_t fake_time;
- char tbuf[ISO_TIME_LEN + 1];
- time_t next_tp_start_time;
- /* Do some basic tests */
- retval = parse_rfc1123_time("Wed, 13 Apr 2016 11:00:00 UTC",
- &fake_time);
- tt_int_op(retval, OP_EQ, 0);
- next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time);
- /* Compare it with the correct result */
- format_iso_time(tbuf, next_tp_start_time);
- tt_str_op("2016-04-13 12:00:00", OP_EQ, tbuf);
- /* Another test with an edge-case time (start of TP) */
- retval = parse_rfc1123_time("Wed, 13 Apr 2016 12:00:00 UTC",
- &fake_time);
- tt_int_op(retval, OP_EQ, 0);
- next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time);
- format_iso_time(tbuf, next_tp_start_time);
- tt_str_op("2016-04-14 12:00:00", OP_EQ, tbuf);
- {
- /* Now pretend we are on a testing network and alter the voting schedule to
- be every 10 seconds. This means that a time period has length 10*24
- seconds (4 minutes). It also means that we apply a rotational offset of
- 120 seconds to the time period, so that it starts at 00:02:00 instead of
- 00:00:00. */
- or_options_t *options = get_options_mutable();
- options->TestingTorNetwork = 1;
- options->V3AuthVotingInterval = 10;
- options->TestingV3AuthInitialVotingInterval = 10;
- retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:00:00 UTC",
- &fake_time);
- tt_int_op(retval, OP_EQ, 0);
- next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time);
- /* Compare it with the correct result */
- format_iso_time(tbuf, next_tp_start_time);
- tt_str_op("2016-04-13 00:02:00", OP_EQ, tbuf);
- retval = parse_rfc1123_time("Wed, 13 Apr 2016 00:02:00 UTC",
- &fake_time);
- tt_int_op(retval, OP_EQ, 0);
- next_tp_start_time = hs_get_start_time_of_next_time_period(fake_time);
- /* Compare it with the correct result */
- format_iso_time(tbuf, next_tp_start_time);
- tt_str_op("2016-04-13 00:06:00", OP_EQ, tbuf);
- }
- done:
- ;
- }
- /* Cleanup the global nodelist. It also frees the "md" in the node_t because
- * we allocate the memory in helper_add_hsdir_to_networkstatus(). */
- static void
- cleanup_nodelist(void)
- {
- smartlist_t *nodelist = nodelist_get_list();
- SMARTLIST_FOREACH_BEGIN(nodelist, node_t *, node) {
- tor_free(node->md);
- node->md = NULL;
- } SMARTLIST_FOREACH_END(node);
- nodelist_free_all();
- }
- static void
- helper_add_hsdir_to_networkstatus(networkstatus_t *ns,
- int identity_idx,
- const char *nickname,
- int is_hsdir)
- {
- routerstatus_t *rs = tor_malloc_zero(sizeof(routerstatus_t));
- routerinfo_t *ri = tor_malloc_zero(sizeof(routerinfo_t));
- uint8_t identity[DIGEST_LEN];
- tor_addr_t ipv4_addr;
- memset(identity, identity_idx, sizeof(identity));
- memcpy(rs->identity_digest, identity, DIGEST_LEN);
- rs->is_hs_dir = is_hsdir;
- rs->pv.supports_v3_hsdir = 1;
- strlcpy(rs->nickname, nickname, sizeof(rs->nickname));
- tor_addr_parse(&ipv4_addr, "1.2.3.4");
- ri->addr = tor_addr_to_ipv4h(&ipv4_addr);
- rs->addr = tor_addr_to_ipv4h(&ipv4_addr);
- ri->nickname = tor_strdup(nickname);
- ri->protocol_list = tor_strdup("HSDir=1-2 LinkAuth=3");
- memcpy(ri->cache_info.identity_digest, identity, DIGEST_LEN);
- ri->cache_info.signing_key_cert = tor_malloc_zero(sizeof(tor_cert_t));
- /* Needed for the HSDir index computation. */
- memset(&ri->cache_info.signing_key_cert->signing_key,
- identity_idx, ED25519_PUBKEY_LEN);
- tt_assert(nodelist_set_routerinfo(ri, NULL));
- node_t *node = node_get_mutable_by_id(ri->cache_info.identity_digest);
- tt_assert(node);
- node->rs = rs;
- /* We need this to exist for node_has_descriptor() to return true. */
- node->md = tor_malloc_zero(sizeof(microdesc_t));
- /* Do this now the nodelist_set_routerinfo() function needs a "rs" to set
- * the indexes which it doesn't have when it is called. */
- node_set_hsdir_index(node, ns);
- node->ri = NULL;
- smartlist_add(ns->routerstatus_list, rs);
- done:
- routerinfo_free(ri);
- }
- static networkstatus_t *mock_ns = NULL;
- static networkstatus_t *
- mock_networkstatus_get_latest_consensus(void)
- {
- time_t now = approx_time();
- /* If initialized, return it */
- if (mock_ns) {
- return mock_ns;
- }
- /* Initialize fake consensus */
- mock_ns = tor_malloc_zero(sizeof(networkstatus_t));
- /* This consensus is live */
- mock_ns->valid_after = now-1;
- mock_ns->fresh_until = now+1;
- mock_ns->valid_until = now+2;
- /* Create routerstatus list */
- mock_ns->routerstatus_list = smartlist_new();
- mock_ns->type = NS_TYPE_CONSENSUS;
- return mock_ns;
- }
- static networkstatus_t *
- mock_networkstatus_get_live_consensus(time_t now)
- {
- (void) now;
- tt_assert(mock_ns);
- done:
- return mock_ns;
- }
- /** Test the responsible HSDirs calculation function */
- static void
- test_responsible_hsdirs(void *arg)
- {
- time_t now = approx_time();
- smartlist_t *responsible_dirs = smartlist_new();
- networkstatus_t *ns = NULL;
- int retval;
- (void) arg;
- hs_init();
- MOCK(networkstatus_get_latest_consensus,
- mock_networkstatus_get_latest_consensus);
- ns = networkstatus_get_latest_consensus();
- { /* First router: HSdir */
- helper_add_hsdir_to_networkstatus(ns, 1, "igor", 1);
- }
- { /* Second HSDir */
- helper_add_hsdir_to_networkstatus(ns, 2, "victor", 1);
- }
- { /* Third relay but not HSDir */
- helper_add_hsdir_to_networkstatus(ns, 3, "spyro", 0);
- }
- ed25519_keypair_t kp;
- retval = ed25519_keypair_generate(&kp, 0);
- tt_int_op(retval, OP_EQ , 0);
- uint64_t time_period_num = hs_get_time_period_num(now);
- hs_get_responsible_hsdirs(&kp.pubkey, time_period_num,
- 0, 0, responsible_dirs);
- /* Make sure that we only found 2 responsible HSDirs.
- * The third relay was not an hsdir! */
- tt_int_op(smartlist_len(responsible_dirs), OP_EQ, 2);
- /** TODO: Build a bigger network and do more tests here */
- done:
- SMARTLIST_FOREACH(ns->routerstatus_list,
- routerstatus_t *, rs, routerstatus_free(rs));
- smartlist_free(responsible_dirs);
- smartlist_clear(ns->routerstatus_list);
- networkstatus_vote_free(mock_ns);
- cleanup_nodelist();
- }
- static void
- mock_directory_initiate_request(directory_request_t *req)
- {
- (void)req;
- return;
- }
- static int
- mock_hs_desc_encode_descriptor(const hs_descriptor_t *desc,
- const ed25519_keypair_t *signing_kp,
- char **encoded_out)
- {
- (void)desc;
- (void)signing_kp;
- tor_asprintf(encoded_out, "lulu");
- return 0;
- }
- static or_state_t dummy_state;
- /* Mock function to get fake or state (used for rev counters) */
- static or_state_t *
- get_or_state_replacement(void)
- {
- return &dummy_state;
- }
- static int
- mock_router_have_minimum_dir_info(void)
- {
- return 1;
- }
- /** Test that we correctly detect when the HSDir hash ring changes so that we
- * reupload our descriptor. */
- static void
- test_desc_reupload_logic(void *arg)
- {
- networkstatus_t *ns = NULL;
- (void) arg;
- hs_init();
- MOCK(router_have_minimum_dir_info,
- mock_router_have_minimum_dir_info);
- MOCK(get_or_state,
- get_or_state_replacement);
- MOCK(networkstatus_get_latest_consensus,
- mock_networkstatus_get_latest_consensus);
- MOCK(directory_initiate_request,
- mock_directory_initiate_request);
- MOCK(hs_desc_encode_descriptor,
- mock_hs_desc_encode_descriptor);
- ns = networkstatus_get_latest_consensus();
- /** Test logic:
- * 1) Upload descriptor to HSDirs
- * CHECK that previous_hsdirs list was populated.
- * 2) Then call router_dir_info_changed() without an HSDir set change.
- * CHECK that no reuplod occurs.
- * 3) Now change the HSDir set, and call dir_info_changed() again.
- * CHECK that reupload occurs.
- * 4) Finally call service_desc_schedule_upload().
- * CHECK that previous_hsdirs list was cleared.
- **/
- /* Let's start by building our descriptor and service */
- hs_service_descriptor_t *desc = service_descriptor_new();
- hs_service_t *service = NULL;
- /* hex-encoded ed25519 pubkey used in hs_build_address.py */
- char pubkey_hex[] =
- "d75a980182b10ab7d54bfed3c964073a0ee172f3daa62325af021a68f707511a";
- char onion_addr[HS_SERVICE_ADDR_LEN_BASE32 + 1];
- ed25519_public_key_t pubkey;
- base16_decode((char*)pubkey.pubkey, sizeof(pubkey.pubkey),
- pubkey_hex, strlen(pubkey_hex));
- hs_build_address(&pubkey, HS_VERSION_THREE, onion_addr);
- service = tor_malloc_zero(sizeof(hs_service_t));
- memcpy(service->onion_address, onion_addr, sizeof(service->onion_address));
- ed25519_secret_key_generate(&service->keys.identity_sk, 0);
- ed25519_public_key_generate(&service->keys.identity_pk,
- &service->keys.identity_sk);
- service->desc_current = desc;
- /* Also add service to service map */
- hs_service_ht *service_map = get_hs_service_map();
- tt_assert(service_map);
- tt_int_op(hs_service_get_num_services(), OP_EQ, 0);
- register_service(service_map, service);
- tt_int_op(hs_service_get_num_services(), OP_EQ, 1);
- /* Now let's create our hash ring: */
- {
- helper_add_hsdir_to_networkstatus(ns, 1, "dingus", 1);
- helper_add_hsdir_to_networkstatus(ns, 2, "clive", 1);
- helper_add_hsdir_to_networkstatus(ns, 3, "aaron", 1);
- helper_add_hsdir_to_networkstatus(ns, 4, "lizzie", 1);
- helper_add_hsdir_to_networkstatus(ns, 5, "daewon", 1);
- helper_add_hsdir_to_networkstatus(ns, 6, "clarke", 1);
- }
- /* Now let's upload our desc to all hsdirs */
- upload_descriptor_to_all(service, desc);
- /* Check that previous hsdirs were populated */
- tt_int_op(smartlist_len(desc->previous_hsdirs), OP_EQ, 6);
- /* Poison next upload time so that we can see if it was changed by
- * router_dir_info_changed(). No changes in hash ring so far, so the upload
- * time should stay as is. */
- desc->next_upload_time = 42;
- router_dir_info_changed();
- tt_int_op(desc->next_upload_time, OP_EQ, 42);
- /* Now change the HSDir hash ring by swapping nora for aaron.
- * Start by clearing the hash ring */
- {
- SMARTLIST_FOREACH(ns->routerstatus_list,
- routerstatus_t *, rs, routerstatus_free(rs));
- smartlist_clear(ns->routerstatus_list);
- cleanup_nodelist();
- routerlist_free_all();
- }
- { /* Now add back all the nodes */
- helper_add_hsdir_to_networkstatus(ns, 1, "dingus", 1);
- helper_add_hsdir_to_networkstatus(ns, 2, "clive", 1);
- helper_add_hsdir_to_networkstatus(ns, 4, "lizzie", 1);
- helper_add_hsdir_to_networkstatus(ns, 5, "daewon", 1);
- helper_add_hsdir_to_networkstatus(ns, 6, "clarke", 1);
- helper_add_hsdir_to_networkstatus(ns, 7, "nora", 1);
- }
- /* Now call service_desc_hsdirs_changed() and see that it detected the hash
- ring change */
- time_t now = approx_time();
- tt_assert(now);
- tt_int_op(service_desc_hsdirs_changed(service, desc), OP_EQ, 1);
- tt_int_op(smartlist_len(desc->previous_hsdirs), OP_EQ, 6);
- /* Now order another upload and see that we keep having 6 prev hsdirs */
- upload_descriptor_to_all(service, desc);
- /* Check that previous hsdirs were populated */
- tt_int_op(smartlist_len(desc->previous_hsdirs), OP_EQ, 6);
- /* Now restore the HSDir hash ring to its original state by swapping back
- aaron for nora */
- /* First clear up the hash ring */
- {
- SMARTLIST_FOREACH(ns->routerstatus_list,
- routerstatus_t *, rs, routerstatus_free(rs));
- smartlist_clear(ns->routerstatus_list);
- cleanup_nodelist();
- routerlist_free_all();
- }
- { /* Now populate the hash ring again */
- helper_add_hsdir_to_networkstatus(ns, 1, "dingus", 1);
- helper_add_hsdir_to_networkstatus(ns, 2, "clive", 1);
- helper_add_hsdir_to_networkstatus(ns, 3, "aaron", 1);
- helper_add_hsdir_to_networkstatus(ns, 4, "lizzie", 1);
- helper_add_hsdir_to_networkstatus(ns, 5, "daewon", 1);
- helper_add_hsdir_to_networkstatus(ns, 6, "clarke", 1);
- }
- /* Check that our algorithm catches this change of hsdirs */
- tt_int_op(service_desc_hsdirs_changed(service, desc), OP_EQ, 1);
- /* Now pretend that the descriptor changed, and order a reupload to all
- HSDirs. Make sure that the set of previous HSDirs was cleared. */
- service_desc_schedule_upload(desc, now, 1);
- tt_int_op(smartlist_len(desc->previous_hsdirs), OP_EQ, 0);
- /* Now reupload again: see that the prev hsdir set got populated again. */
- upload_descriptor_to_all(service, desc);
- tt_int_op(smartlist_len(desc->previous_hsdirs), OP_EQ, 6);
- done:
- SMARTLIST_FOREACH(ns->routerstatus_list,
- routerstatus_t *, rs, routerstatus_free(rs));
- smartlist_clear(ns->routerstatus_list);
- networkstatus_vote_free(ns);
- cleanup_nodelist();
- hs_free_all();
- }
- /** Test disaster SRV computation and caching */
- static void
- test_disaster_srv(void *arg)
- {
- uint8_t *cached_disaster_srv_one = NULL;
- uint8_t *cached_disaster_srv_two = NULL;
- uint8_t srv_one[DIGEST256_LEN] = {0};
- uint8_t srv_two[DIGEST256_LEN] = {0};
- uint8_t srv_three[DIGEST256_LEN] = {0};
- uint8_t srv_four[DIGEST256_LEN] = {0};
- uint8_t srv_five[DIGEST256_LEN] = {0};
- (void) arg;
- /* Get the cached SRVs: we gonna use them later for verification */
- cached_disaster_srv_one = get_first_cached_disaster_srv();
- cached_disaster_srv_two = get_second_cached_disaster_srv();
- /* Compute some srvs */
- get_disaster_srv(1, srv_one);
- get_disaster_srv(2, srv_two);
- /* Check that the cached ones where updated */
- tt_mem_op(cached_disaster_srv_one, OP_EQ, srv_one, DIGEST256_LEN);
- tt_mem_op(cached_disaster_srv_two, OP_EQ, srv_two, DIGEST256_LEN);
- /* Ask for an SRV that has already been computed */
- get_disaster_srv(2, srv_two);
- /* and check that the cache entries have not changed */
- tt_mem_op(cached_disaster_srv_one, OP_EQ, srv_one, DIGEST256_LEN);
- tt_mem_op(cached_disaster_srv_two, OP_EQ, srv_two, DIGEST256_LEN);
- /* Ask for a new SRV */
- get_disaster_srv(3, srv_three);
- tt_mem_op(cached_disaster_srv_one, OP_EQ, srv_three, DIGEST256_LEN);
- tt_mem_op(cached_disaster_srv_two, OP_EQ, srv_two, DIGEST256_LEN);
- /* Ask for another SRV: none of the original SRVs should now be cached */
- get_disaster_srv(4, srv_four);
- tt_mem_op(cached_disaster_srv_one, OP_EQ, srv_three, DIGEST256_LEN);
- tt_mem_op(cached_disaster_srv_two, OP_EQ, srv_four, DIGEST256_LEN);
- /* Ask for yet another SRV */
- get_disaster_srv(5, srv_five);
- tt_mem_op(cached_disaster_srv_one, OP_EQ, srv_five, DIGEST256_LEN);
- tt_mem_op(cached_disaster_srv_two, OP_EQ, srv_four, DIGEST256_LEN);
- done:
- ;
- }
- /** Test our HS descriptor request tracker by making various requests and
- * checking whether they get tracked properly. */
- static void
- test_hid_serv_request_tracker(void *arg)
- {
- (void) arg;
- time_t retval;
- routerstatus_t *hsdir = NULL, *hsdir2 = NULL, *hsdir3 = NULL;
- time_t now = approx_time();
- const char *req_key_str_first =
- "vd4zb6zesaubtrjvdqcr2w7x7lhw2up4Xnw4526ThUNbL5o1go+EdUuEqlKxHkNbnK41pRzizzs";
- const char *req_key_str_second =
- "g53o7iavcd62oihswhr24u6czmqws5kpXnw4526ThUNbL5o1go+EdUuEqlKxHkNbnK41pRzizzs";
- const char *req_key_str_small = "ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ";
- /*************************** basic test *******************************/
- /* Get request tracker and make sure it's empty */
- strmap_t *request_tracker = get_last_hid_serv_requests();
- tt_int_op(strmap_size(request_tracker),OP_EQ, 0);
- /* Let's register a hid serv request */
- hsdir = tor_malloc_zero(sizeof(routerstatus_t));
- memset(hsdir->identity_digest, 'Z', DIGEST_LEN);
- retval = hs_lookup_last_hid_serv_request(hsdir, req_key_str_first,
- now, 1);
- tt_int_op(retval, OP_EQ, now);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 1);
- /* Let's lookup a non-existent hidserv request */
- retval = hs_lookup_last_hid_serv_request(hsdir, req_key_str_second,
- now+1, 0);
- tt_int_op(retval, OP_EQ, 0);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 1);
- /* Let's lookup a real hidserv request */
- retval = hs_lookup_last_hid_serv_request(hsdir, req_key_str_first,
- now+2, 0);
- tt_int_op(retval, OP_EQ, now); /* we got it */
- tt_int_op(strmap_size(request_tracker),OP_EQ, 1);
- /**********************************************************************/
- /* Let's add another request for the same HS but on a different HSDir. */
- hsdir2 = tor_malloc_zero(sizeof(routerstatus_t));
- memset(hsdir2->identity_digest, 2, DIGEST_LEN);
- retval = hs_lookup_last_hid_serv_request(hsdir2, req_key_str_first,
- now+3, 1);
- tt_int_op(retval, OP_EQ, now+3);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 2);
- /* Check that we can clean the first request based on time */
- hs_clean_last_hid_serv_requests(now+3+REND_HID_SERV_DIR_REQUERY_PERIOD);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 1);
- /* Check that it doesn't exist anymore */
- retval = hs_lookup_last_hid_serv_request(hsdir, req_key_str_first,
- now+2, 0);
- tt_int_op(retval, OP_EQ, 0);
- /* Now let's add a smaller req key str */
- hsdir3 = tor_malloc_zero(sizeof(routerstatus_t));
- memset(hsdir3->identity_digest, 3, DIGEST_LEN);
- retval = hs_lookup_last_hid_serv_request(hsdir3, req_key_str_small,
- now+4, 1);
- tt_int_op(retval, OP_EQ, now+4);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 2);
- /*************************** deleting entries **************************/
- /* Add another request with very short key */
- retval = hs_lookup_last_hid_serv_request(hsdir, "l", now, 1);
- tt_int_op(retval, OP_EQ, now);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 3);
- /* Try deleting entries with a dummy key. Check that our previous requests
- * are still there */
- tor_capture_bugs_(1);
- hs_purge_hid_serv_from_last_hid_serv_requests("a");
- tt_int_op(strmap_size(request_tracker),OP_EQ, 3);
- tor_end_capture_bugs_();
- /* Try another dummy key. Check that requests are still there */
- {
- char dummy[2000];
- memset(dummy, 'Z', 2000);
- dummy[1999] = '\x00';
- hs_purge_hid_serv_from_last_hid_serv_requests(dummy);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 3);
- }
- /* Another dummy key! */
- hs_purge_hid_serv_from_last_hid_serv_requests(req_key_str_second);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 3);
- /* Now actually delete a request! */
- hs_purge_hid_serv_from_last_hid_serv_requests(req_key_str_first);
- tt_int_op(strmap_size(request_tracker),OP_EQ, 2);
- /* Purge it all! */
- hs_purge_last_hid_serv_requests();
- request_tracker = get_last_hid_serv_requests();
- tt_int_op(strmap_size(request_tracker),OP_EQ, 0);
- done:
- tor_free(hsdir);
- tor_free(hsdir2);
- tor_free(hsdir3);
- }
- static void
- test_parse_extended_hostname(void *arg)
- {
- (void) arg;
- char address1[] = "fooaddress.onion";
- char address2[] = "aaaaaaaaaaaaaaaa.onion";
- char address3[] = "fooaddress.exit";
- char address4[] = "www.torproject.org";
- char address5[] = "foo.abcdefghijklmnop.onion";
- char address6[] = "foo.bar.abcdefghijklmnop.onion";
- char address7[] = ".abcdefghijklmnop.onion";
- char address8[] =
- "www.25njqamcweflpvkl73j4szahhihoc4xt3ktcgjnpaingr5yhkenl5sid.onion";
- tt_assert(BAD_HOSTNAME == parse_extended_hostname(address1));
- tt_assert(ONION_V2_HOSTNAME == parse_extended_hostname(address2));
- tt_str_op(address2,OP_EQ, "aaaaaaaaaaaaaaaa");
- tt_assert(EXIT_HOSTNAME == parse_extended_hostname(address3));
- tt_assert(NORMAL_HOSTNAME == parse_extended_hostname(address4));
- tt_assert(ONION_V2_HOSTNAME == parse_extended_hostname(address5));
- tt_str_op(address5,OP_EQ, "abcdefghijklmnop");
- tt_assert(ONION_V2_HOSTNAME == parse_extended_hostname(address6));
- tt_str_op(address6,OP_EQ, "abcdefghijklmnop");
- tt_assert(BAD_HOSTNAME == parse_extended_hostname(address7));
- tt_assert(ONION_V3_HOSTNAME == parse_extended_hostname(address8));
- tt_str_op(address8, OP_EQ,
- "25njqamcweflpvkl73j4szahhihoc4xt3ktcgjnpaingr5yhkenl5sid");
- done: ;
- }
- static void
- test_time_between_tp_and_srv(void *arg)
- {
- int ret;
- networkstatus_t ns;
- (void) arg;
- /* This function should be returning true where "^" are:
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^^^^^^^^^^^^ ^^^^^^^^^^^^ |
- * | |
- * +------------------------------------------------------------------+
- */
- ret = parse_rfc1123_time("Sat, 26 Oct 1985 00:00:00 UTC", &ns.valid_after);
- tt_int_op(ret, OP_EQ, 0);
- ret = parse_rfc1123_time("Sat, 26 Oct 1985 01:00:00 UTC", &ns.fresh_until);
- tt_int_op(ret, OP_EQ, 0);
- dirvote_recalculate_timing(get_options(), ns.valid_after);
- ret = hs_in_period_between_tp_and_srv(&ns, 0);
- tt_int_op(ret, OP_EQ, 0);
- ret = parse_rfc1123_time("Sat, 26 Oct 1985 11:00:00 UTC", &ns.valid_after);
- tt_int_op(ret, OP_EQ, 0);
- ret = parse_rfc1123_time("Sat, 26 Oct 1985 12:00:00 UTC", &ns.fresh_until);
- tt_int_op(ret, OP_EQ, 0);
- dirvote_recalculate_timing(get_options(), ns.valid_after);
- ret = hs_in_period_between_tp_and_srv(&ns, 0);
- tt_int_op(ret, OP_EQ, 0);
- ret = parse_rfc1123_time("Sat, 26 Oct 1985 12:00:00 UTC", &ns.valid_after);
- tt_int_op(ret, OP_EQ, 0);
- ret = parse_rfc1123_time("Sat, 26 Oct 1985 13:00:00 UTC", &ns.fresh_until);
- tt_int_op(ret, OP_EQ, 0);
- dirvote_recalculate_timing(get_options(), ns.valid_after);
- ret = hs_in_period_between_tp_and_srv(&ns, 0);
- tt_int_op(ret, OP_EQ, 1);
- ret = parse_rfc1123_time("Sat, 26 Oct 1985 23:00:00 UTC", &ns.valid_after);
- tt_int_op(ret, OP_EQ, 0);
- ret = parse_rfc1123_time("Sat, 27 Oct 1985 00:00:00 UTC", &ns.fresh_until);
- tt_int_op(ret, OP_EQ, 0);
- dirvote_recalculate_timing(get_options(), ns.valid_after);
- ret = hs_in_period_between_tp_and_srv(&ns, 0);
- tt_int_op(ret, OP_EQ, 1);
- ret = parse_rfc1123_time("Sat, 27 Oct 1985 00:00:00 UTC", &ns.valid_after);
- tt_int_op(ret, OP_EQ, 0);
- ret = parse_rfc1123_time("Sat, 27 Oct 1985 01:00:00 UTC", &ns.fresh_until);
- tt_int_op(ret, OP_EQ, 0);
- dirvote_recalculate_timing(get_options(), ns.valid_after);
- ret = hs_in_period_between_tp_and_srv(&ns, 0);
- tt_int_op(ret, OP_EQ, 0);
- done:
- ;
- }
- /************ Reachability Test (it is huge) ****************/
- /* Simulate different consensus for client and service. Used by the
- * reachability test. The SRV and responsible HSDir list are used by all
- * reachability tests so make them common to simplify setup and teardown. */
- static networkstatus_t *mock_service_ns = NULL;
- static networkstatus_t *mock_client_ns = NULL;
- static sr_srv_t current_srv, previous_srv;
- static smartlist_t *service_responsible_hsdirs = NULL;
- static smartlist_t *client_responsible_hsdirs = NULL;
- static networkstatus_t *
- mock_networkstatus_get_live_consensus_service(time_t now)
- {
- (void) now;
- if (mock_service_ns) {
- return mock_service_ns;
- }
- mock_service_ns = tor_malloc_zero(sizeof(networkstatus_t));
- mock_service_ns->routerstatus_list = smartlist_new();
- mock_service_ns->type = NS_TYPE_CONSENSUS;
- return mock_service_ns;
- }
- static networkstatus_t *
- mock_networkstatus_get_latest_consensus_service(void)
- {
- return mock_networkstatus_get_live_consensus_service(0);
- }
- static networkstatus_t *
- mock_networkstatus_get_live_consensus_client(time_t now)
- {
- (void) now;
- if (mock_client_ns) {
- return mock_client_ns;
- }
- mock_client_ns = tor_malloc_zero(sizeof(networkstatus_t));
- mock_client_ns->routerstatus_list = smartlist_new();
- mock_client_ns->type = NS_TYPE_CONSENSUS;
- return mock_client_ns;
- }
- static networkstatus_t *
- mock_networkstatus_get_latest_consensus_client(void)
- {
- return mock_networkstatus_get_live_consensus_client(0);
- }
- /* 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;
- }
- /* Initialize a big HSDir V3 hash ring. */
- static void
- helper_initialize_big_hash_ring(networkstatus_t *ns)
- {
- int ret;
- /* Generate 250 hsdirs! :) */
- for (int counter = 1 ; counter < 251 ; counter++) {
- /* Let's generate random nickname for each hsdir... */
- char nickname_binary[8];
- char nickname_str[13] = {0};
- crypto_rand(nickname_binary, sizeof(nickname_binary));
- ret = base64_encode(nickname_str, sizeof(nickname_str),
- nickname_binary, sizeof(nickname_binary), 0);
- tt_int_op(ret, OP_EQ, 12);
- helper_add_hsdir_to_networkstatus(ns, counter, nickname_str, 1);
- }
- /* Make sure we have 200 hsdirs in our list */
- tt_int_op(smartlist_len(ns->routerstatus_list), OP_EQ, 250);
- done:
- ;
- }
- /** Initialize service and publish its descriptor as needed. Return the newly
- * allocated service object to the caller. */
- static hs_service_t *
- helper_init_service(time_t now)
- {
- int retval;
- 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);
- /* Register service to global map. */
- retval = register_service(get_hs_service_map(), service);
- tt_int_op(retval, OP_EQ, 0);
- /* Initialize service descriptor */
- build_all_descriptors(now);
- tt_assert(service->desc_current);
- tt_assert(service->desc_next);
- done:
- return service;
- }
- /* Helper function to set the RFC 1123 time string into t. */
- static void
- set_consensus_times(const char *timestr, time_t *t)
- {
- tt_assert(timestr);
- tt_assert(t);
- int ret = parse_rfc1123_time(timestr, t);
- tt_int_op(ret, OP_EQ, 0);
- done:
- return;
- }
- /* Helper function to cleanup the mock consensus (client and service) */
- static void
- cleanup_mock_ns(void)
- {
- if (mock_service_ns) {
- SMARTLIST_FOREACH(mock_service_ns->routerstatus_list,
- routerstatus_t *, rs, routerstatus_free(rs));
- smartlist_clear(mock_service_ns->routerstatus_list);
- mock_service_ns->sr_info.current_srv = NULL;
- mock_service_ns->sr_info.previous_srv = NULL;
- networkstatus_vote_free(mock_service_ns);
- mock_service_ns = NULL;
- }
- if (mock_client_ns) {
- SMARTLIST_FOREACH(mock_client_ns->routerstatus_list,
- routerstatus_t *, rs, routerstatus_free(rs));
- smartlist_clear(mock_client_ns->routerstatus_list);
- mock_client_ns->sr_info.current_srv = NULL;
- mock_client_ns->sr_info.previous_srv = NULL;
- networkstatus_vote_free(mock_client_ns);
- mock_client_ns = NULL;
- }
- }
- /* Helper function to setup a reachability test. Once called, the
- * cleanup_reachability_test MUST be called at the end. */
- static void
- setup_reachability_test(void)
- {
- MOCK(circuit_mark_for_close_, mock_circuit_mark_for_close);
- MOCK(get_or_state, get_or_state_replacement);
- hs_init();
- /* Baseline to start with. */
- memset(¤t_srv, 0, sizeof(current_srv));
- memset(&previous_srv, 1, sizeof(previous_srv));
- /* Initialize the consensuses. */
- mock_networkstatus_get_latest_consensus_service();
- mock_networkstatus_get_latest_consensus_client();
- service_responsible_hsdirs = smartlist_new();
- client_responsible_hsdirs = smartlist_new();
- }
- /* Helper function to cleanup a reachability test initial setup. */
- static void
- cleanup_reachability_test(void)
- {
- smartlist_free(service_responsible_hsdirs);
- service_responsible_hsdirs = NULL;
- smartlist_free(client_responsible_hsdirs);
- client_responsible_hsdirs = NULL;
- hs_free_all();
- cleanup_mock_ns();
- UNMOCK(get_or_state);
- UNMOCK(circuit_mark_for_close_);
- }
- /* A reachability test always check if the resulting service and client
- * responsible HSDir for the given parameters are equal.
- *
- * Return true iff the same exact nodes are in both list. */
- static int
- are_responsible_hsdirs_equal(void)
- {
- int count = 0;
- tt_int_op(smartlist_len(client_responsible_hsdirs), OP_EQ, 6);
- tt_int_op(smartlist_len(service_responsible_hsdirs), OP_EQ, 8);
- SMARTLIST_FOREACH_BEGIN(client_responsible_hsdirs,
- const routerstatus_t *, c_rs) {
- SMARTLIST_FOREACH_BEGIN(service_responsible_hsdirs,
- const routerstatus_t *, s_rs) {
- if (tor_memeq(c_rs->identity_digest, s_rs->identity_digest,
- DIGEST_LEN)) {
- count++;
- break;
- }
- } SMARTLIST_FOREACH_END(s_rs);
- } SMARTLIST_FOREACH_END(c_rs);
- done:
- return (count == 6);
- }
- /* Tor doesn't use such a function to get the previous HSDir, it is only used
- * in node_set_hsdir_index(). We need it here so we can test the reachability
- * scenario 6 that requires the previous time period to compute the list of
- * responsible HSDir because of the client state timing. */
- static uint64_t
- get_previous_time_period(time_t now)
- {
- return hs_get_time_period_num(now) - 1;
- }
- /* Configuration of a reachability test scenario. */
- typedef struct reachability_cfg_t {
- /* Consensus timings to be set. They have to be compliant with
- * RFC 1123 time format. */
- const char *service_valid_after;
- const char *service_valid_until;
- const char *client_valid_after;
- const char *client_valid_until;
- /* SRVs that the service and client should use. */
- sr_srv_t *service_current_srv;
- sr_srv_t *service_previous_srv;
- sr_srv_t *client_current_srv;
- sr_srv_t *client_previous_srv;
- /* A time period function for the service to use for this scenario. For a
- * successful reachability test, the client always use the current time
- * period thus why no client function. */
- uint64_t (*service_time_period_fn)(time_t);
- /* Is the client and service expected to be in a new time period. After
- * setting the consensus time, the reachability test checks
- * hs_in_period_between_tp_and_srv() and test the returned value against
- * this. */
- unsigned int service_in_new_tp;
- unsigned int client_in_new_tp;
- /* Some scenario requires a hint that the client, because of its consensus
- * time, will request the "next" service descriptor so this indicates if it
- * is the case or not. */
- unsigned int client_fetch_next_desc;
- } reachability_cfg_t;
- /* Some defines to help with semantic while reading a configuration below. */
- #define NOT_IN_NEW_TP 0
- #define IN_NEW_TP 1
- #define DONT_NEED_NEXT_DESC 0
- #define NEED_NEXT_DESC 1
- static reachability_cfg_t reachability_scenarios[] = {
- /* Scenario 1
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | S C |
- * +------------------------------------------------------------------+
- *
- * S: Service, C: Client
- *
- * Service consensus valid_after time is set to 13:00 and client to 15:00,
- * both are after TP#1 thus have access to SRV#1. Service and client should
- * be using TP#1.
- */
- { "Sat, 26 Oct 1985 13:00:00 UTC", /* Service valid_after */
- "Sat, 26 Oct 1985 14:00:00 UTC", /* Service valid_until */
- "Sat, 26 Oct 1985 15:00:00 UTC", /* Client valid_after */
- "Sat, 26 Oct 1985 16:00:00 UTC", /* Client valid_until. */
- ¤t_srv, NULL, /* Service current and previous SRV */
- ¤t_srv, NULL, /* Client current and previous SRV */
- hs_get_time_period_num, /* Service time period function. */
- IN_NEW_TP, /* Is service in new TP? */
- IN_NEW_TP, /* Is client in new TP? */
- NEED_NEXT_DESC },
- /* Scenario 2
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | S C |
- * +------------------------------------------------------------------+
- *
- * S: Service, C: Client
- *
- * Service consensus valid_after time is set to 23:00 and client to 01:00,
- * which makes the client after the SRV#2 and the service just before. The
- * service should only be using TP#1. The client should be using TP#1.
- */
- { "Sat, 26 Oct 1985 23:00:00 UTC", /* Service valid_after */
- "Sat, 27 Oct 1985 00:00:00 UTC", /* Service valid_until */
- "Sat, 27 Oct 1985 01:00:00 UTC", /* Client valid_after */
- "Sat, 27 Oct 1985 02:00:00 UTC", /* Client valid_until. */
- &previous_srv, NULL, /* Service current and previous SRV */
- ¤t_srv, &previous_srv, /* Client current and previous SRV */
- hs_get_time_period_num, /* Service time period function. */
- IN_NEW_TP, /* Is service in new TP? */
- NOT_IN_NEW_TP, /* Is client in new TP? */
- NEED_NEXT_DESC },
- /* Scenario 3
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|----------$===========| |
- * | ^ ^ |
- * | S C |
- * +------------------------------------------------------------------+
- *
- * S: Service, C: Client
- *
- * Service consensus valid_after time is set to 03:00 and client to 05:00,
- * which makes both after SRV#2. The service should be using TP#1 as its
- * current time period. The client should be using TP#1.
- */
- { "Sat, 27 Oct 1985 03:00:00 UTC", /* Service valid_after */
- "Sat, 27 Oct 1985 04:00:00 UTC", /* Service valid_until */
- "Sat, 27 Oct 1985 05:00:00 UTC", /* Client valid_after */
- "Sat, 27 Oct 1985 06:00:00 UTC", /* Client valid_until. */
- ¤t_srv, &previous_srv, /* Service current and previous SRV */
- ¤t_srv, &previous_srv, /* Client current and previous SRV */
- hs_get_time_period_num, /* Service time period function. */
- NOT_IN_NEW_TP, /* Is service in new TP? */
- NOT_IN_NEW_TP, /* Is client in new TP? */
- DONT_NEED_NEXT_DESC },
- /* Scenario 4
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | S C |
- * +------------------------------------------------------------------+
- *
- * S: Service, C: Client
- *
- * Service consensus valid_after time is set to 11:00 and client to 13:00,
- * which makes the service before TP#2 and the client just after. The
- * service should be using TP#1 as its current time period and TP#2 as the
- * next. The client should be using TP#2 time period.
- */
- { "Sat, 27 Oct 1985 11:00:00 UTC", /* Service valid_after */
- "Sat, 27 Oct 1985 12:00:00 UTC", /* Service valid_until */
- "Sat, 27 Oct 1985 13:00:00 UTC", /* Client valid_after */
- "Sat, 27 Oct 1985 14:00:00 UTC", /* Client valid_until. */
- ¤t_srv, &previous_srv, /* Service current and previous SRV */
- ¤t_srv, &previous_srv, /* Client current and previous SRV */
- hs_get_next_time_period_num, /* Service time period function. */
- NOT_IN_NEW_TP, /* Is service in new TP? */
- IN_NEW_TP, /* Is client in new TP? */
- NEED_NEXT_DESC },
- /* Scenario 5
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | C S |
- * +------------------------------------------------------------------+
- *
- * S: Service, C: Client
- *
- * Service consensus valid_after time is set to 01:00 and client to 23:00,
- * which makes the service after SRV#2 and the client just before. The
- * service should be using TP#1 as its current time period and TP#2 as the
- * next. The client should be using TP#1 time period.
- */
- { "Sat, 27 Oct 1985 01:00:00 UTC", /* Service valid_after */
- "Sat, 27 Oct 1985 02:00:00 UTC", /* Service valid_until */
- "Sat, 26 Oct 1985 23:00:00 UTC", /* Client valid_after */
- "Sat, 27 Oct 1985 00:00:00 UTC", /* Client valid_until. */
- ¤t_srv, &previous_srv, /* Service current and previous SRV */
- &previous_srv, NULL, /* Client current and previous SRV */
- hs_get_time_period_num, /* Service time period function. */
- NOT_IN_NEW_TP, /* Is service in new TP? */
- IN_NEW_TP, /* Is client in new TP? */
- DONT_NEED_NEXT_DESC },
- /* Scenario 6
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | C S |
- * +------------------------------------------------------------------+
- *
- * S: Service, C: Client
- *
- * Service consensus valid_after time is set to 13:00 and client to 11:00,
- * which makes the service outside after TP#2 and the client just before.
- * The service should be using TP#1 as its current time period and TP#2 as
- * its next. The client should be using TP#1 time period.
- */
- { "Sat, 27 Oct 1985 13:00:00 UTC", /* Service valid_after */
- "Sat, 27 Oct 1985 14:00:00 UTC", /* Service valid_until */
- "Sat, 27 Oct 1985 11:00:00 UTC", /* Client valid_after */
- "Sat, 27 Oct 1985 12:00:00 UTC", /* Client valid_until. */
- ¤t_srv, &previous_srv, /* Service current and previous SRV */
- ¤t_srv, &previous_srv, /* Client current and previous SRV */
- get_previous_time_period, /* Service time period function. */
- IN_NEW_TP, /* Is service in new TP? */
- NOT_IN_NEW_TP, /* Is client in new TP? */
- DONT_NEED_NEXT_DESC },
- /* End marker. */
- { NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, 0, 0, 0}
- };
- /* Run a single reachability scenario. num_scenario is the corresponding
- * scenario number from the documentation. It is used to log it in case of
- * failure so we know which scenario fails. */
- static int
- run_reachability_scenario(const reachability_cfg_t *cfg, int num_scenario)
- {
- int ret = -1;
- hs_service_t *service;
- uint64_t service_tp, client_tp;
- ed25519_public_key_t service_blinded_pk, client_blinded_pk;
- setup_reachability_test();
- tt_assert(cfg);
- /* Set service consensus time. */
- set_consensus_times(cfg->service_valid_after,
- &mock_service_ns->valid_after);
- set_consensus_times(cfg->service_valid_until,
- &mock_service_ns->valid_until);
- set_consensus_times(cfg->service_valid_until,
- &mock_service_ns->fresh_until);
- dirvote_recalculate_timing(get_options(), mock_service_ns->valid_after);
- /* Set client consensus time. */
- set_consensus_times(cfg->client_valid_after,
- &mock_client_ns->valid_after);
- set_consensus_times(cfg->client_valid_until,
- &mock_client_ns->valid_until);
- set_consensus_times(cfg->client_valid_until,
- &mock_client_ns->fresh_until);
- dirvote_recalculate_timing(get_options(), mock_client_ns->valid_after);
- /* New time period checks for this scenario. */
- tt_int_op(hs_in_period_between_tp_and_srv(mock_service_ns, 0), OP_EQ,
- cfg->service_in_new_tp);
- tt_int_op(hs_in_period_between_tp_and_srv(mock_client_ns, 0), OP_EQ,
- cfg->client_in_new_tp);
- /* Set the SRVs for this scenario. */
- mock_client_ns->sr_info.current_srv = cfg->client_current_srv;
- mock_client_ns->sr_info.previous_srv = cfg->client_previous_srv;
- mock_service_ns->sr_info.current_srv = cfg->service_current_srv;
- mock_service_ns->sr_info.previous_srv = cfg->service_previous_srv;
- /* Initialize a service to get keys. */
- service = helper_init_service(time(NULL));
- /*
- * === Client setup ===
- */
- MOCK(networkstatus_get_live_consensus,
- mock_networkstatus_get_live_consensus_client);
- MOCK(networkstatus_get_latest_consensus,
- mock_networkstatus_get_latest_consensus_client);
- /* Make networkstatus_is_live() happy. */
- update_approx_time(mock_client_ns->valid_after);
- /* Initialize a big hashring for this consensus with the hsdir index set. */
- helper_initialize_big_hash_ring(mock_client_ns);
- /* Client ONLY use the current time period. This is the whole point of these
- * reachability test that is to make sure the client can always reach the
- * service using only its current time period. */
- client_tp = hs_get_time_period_num(0);
- hs_build_blinded_pubkey(&service->keys.identity_pk, NULL, 0,
- client_tp, &client_blinded_pk);
- hs_get_responsible_hsdirs(&client_blinded_pk, client_tp, 0, 1,
- client_responsible_hsdirs);
- /* Cleanup the nodelist so we can let the service computes its own set of
- * node with its own hashring. */
- cleanup_nodelist();
- tt_int_op(smartlist_len(client_responsible_hsdirs), OP_EQ, 6);
- UNMOCK(networkstatus_get_latest_consensus);
- UNMOCK(networkstatus_get_live_consensus);
- /*
- * === Service setup ===
- */
- MOCK(networkstatus_get_live_consensus,
- mock_networkstatus_get_live_consensus_service);
- MOCK(networkstatus_get_latest_consensus,
- mock_networkstatus_get_latest_consensus_service);
- /* Make networkstatus_is_live() happy. */
- update_approx_time(mock_service_ns->valid_after);
- /* Initialize a big hashring for this consensus with the hsdir index set. */
- helper_initialize_big_hash_ring(mock_service_ns);
- service_tp = cfg->service_time_period_fn(0);
- hs_build_blinded_pubkey(&service->keys.identity_pk, NULL, 0,
- service_tp, &service_blinded_pk);
- /* A service builds two lists of responsible HSDir, for the current and the
- * next descriptor. Depending on the scenario, the client timing indicate if
- * it is fetching the current or the next descriptor so we use the
- * "client_fetch_next_desc" to know which one the client is trying to get to
- * confirm that the service computes the same hashring for the same blinded
- * key and service time period function. */
- hs_get_responsible_hsdirs(&service_blinded_pk, service_tp,
- cfg->client_fetch_next_desc, 0,
- service_responsible_hsdirs);
- cleanup_nodelist();
- tt_int_op(smartlist_len(service_responsible_hsdirs), OP_EQ, 8);
- UNMOCK(networkstatus_get_latest_consensus);
- UNMOCK(networkstatus_get_live_consensus);
- /* Some testing of the values we just got from the client and service. */
- tt_mem_op(&client_blinded_pk, OP_EQ, &service_blinded_pk,
- ED25519_PUBKEY_LEN);
- tt_int_op(are_responsible_hsdirs_equal(), OP_EQ, 1);
- /* Everything went well. */
- ret = 0;
- done:
- cleanup_reachability_test();
- if (ret == -1) {
- /* Do this so we can know which scenario failed. */
- char msg[32];
- tor_snprintf(msg, sizeof(msg), "Scenario %d failed", num_scenario);
- tt_fail_msg(msg);
- }
- return ret;
- }
- static void
- test_reachability(void *arg)
- {
- (void) arg;
- /* NOTE: An important axiom to understand here is that SRV#N must only be
- * used with TP#N value. For example, SRV#2 with TP#1 should NEVER be used
- * together. The HSDir index computation is based on this axiom.*/
- for (int i = 0; reachability_scenarios[i].service_valid_after; ++i) {
- int ret = run_reachability_scenario(&reachability_scenarios[i], i + 1);
- if (ret < 0) {
- return;
- }
- }
- }
- /** Pick an HSDir for service with <b>onion_identity_pk</b> as a client. Put
- * its identity digest in <b>hsdir_digest_out</b>. */
- static void
- helper_client_pick_hsdir(const ed25519_public_key_t *onion_identity_pk,
- char *hsdir_digest_out)
- {
- tt_assert(onion_identity_pk);
- routerstatus_t *client_hsdir = pick_hsdir_v3(onion_identity_pk);
- tt_assert(client_hsdir);
- digest_to_base64(hsdir_digest_out, client_hsdir->identity_digest);
- done:
- ;
- }
- static void
- test_hs_indexes(void *arg)
- {
- int ret;
- uint64_t period_num = 42;
- ed25519_public_key_t pubkey;
- (void) arg;
- /* Build the hs_index */
- {
- uint8_t hs_index[DIGEST256_LEN];
- const char *b32_test_vector =
- "37e5cbbd56a22823714f18f1623ece5983a0d64c78495a8cfab854245e5f9a8a";
- char test_vector[DIGEST256_LEN];
- ret = base16_decode(test_vector, sizeof(test_vector), b32_test_vector,
- strlen(b32_test_vector));
- tt_int_op(ret, OP_EQ, sizeof(test_vector));
- /* Our test vector uses a public key set to 32 bytes of \x42. */
- memset(&pubkey, '\x42', sizeof(pubkey));
- hs_build_hs_index(1, &pubkey, period_num, hs_index);
- tt_mem_op(hs_index, OP_EQ, test_vector, sizeof(hs_index));
- }
- /* Build the hsdir_index */
- {
- uint8_t srv[DIGEST256_LEN];
- uint8_t hsdir_index[DIGEST256_LEN];
- const char *b32_test_vector =
- "db475361014a09965e7e5e4d4a25b8f8d4b8f16cb1d8a7e95eed50249cc1a2d5";
- char test_vector[DIGEST256_LEN];
- ret = base16_decode(test_vector, sizeof(test_vector), b32_test_vector,
- strlen(b32_test_vector));
- tt_int_op(ret, OP_EQ, sizeof(test_vector));
- /* Our test vector uses a public key set to 32 bytes of \x42. */
- memset(&pubkey, '\x42', sizeof(pubkey));
- memset(srv, '\x43', sizeof(srv));
- hs_build_hsdir_index(&pubkey, srv, period_num, hsdir_index);
- tt_mem_op(hsdir_index, OP_EQ, test_vector, sizeof(hsdir_index));
- }
- done:
- ;
- }
- #define EARLY_IN_SRV_TO_TP 0
- #define LATE_IN_SRV_TO_TP 1
- #define EARLY_IN_TP_TO_SRV 2
- #define LATE_IN_TP_TO_SRV 3
- /** Set the consensus and system time based on <b>position</b>. See the
- * following diagram for details:
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|----------$===========| |
- * | |
- * | |
- * +------------------------------------------------------------------+
- */
- static time_t
- helper_set_consensus_and_system_time(networkstatus_t *ns, int position)
- {
- time_t real_time = 0;
- /* The period between SRV#N and TP#N is from 00:00 to 12:00 UTC. Consensus
- * valid_after is what matters here, the rest is just to specify the voting
- * period correctly. */
- if (position == LATE_IN_SRV_TO_TP) {
- parse_rfc1123_time("Wed, 13 Apr 2016 11:00:00 UTC", &ns->valid_after);
- parse_rfc1123_time("Wed, 13 Apr 2016 12:00:00 UTC", &ns->fresh_until);
- parse_rfc1123_time("Wed, 13 Apr 2016 14:00:00 UTC", &ns->valid_until);
- } else if (position == EARLY_IN_TP_TO_SRV) {
- parse_rfc1123_time("Wed, 13 Apr 2016 13:00:00 UTC", &ns->valid_after);
- parse_rfc1123_time("Wed, 13 Apr 2016 14:00:00 UTC", &ns->fresh_until);
- parse_rfc1123_time("Wed, 13 Apr 2016 16:00:00 UTC", &ns->valid_until);
- } else if (position == LATE_IN_TP_TO_SRV) {
- parse_rfc1123_time("Wed, 13 Apr 2016 23:00:00 UTC", &ns->valid_after);
- parse_rfc1123_time("Wed, 14 Apr 2016 00:00:00 UTC", &ns->fresh_until);
- parse_rfc1123_time("Wed, 14 Apr 2016 02:00:00 UTC", &ns->valid_until);
- } else if (position == EARLY_IN_SRV_TO_TP) {
- parse_rfc1123_time("Wed, 14 Apr 2016 01:00:00 UTC", &ns->valid_after);
- parse_rfc1123_time("Wed, 14 Apr 2016 02:00:00 UTC", &ns->fresh_until);
- parse_rfc1123_time("Wed, 14 Apr 2016 04:00:00 UTC", &ns->valid_until);
- } else {
- tt_assert(0);
- }
- dirvote_recalculate_timing(get_options(), ns->valid_after);
- /* Set system time: pretend to be just 2 minutes before consensus expiry */
- real_time = ns->valid_until - 120;
- update_approx_time(real_time);
- done:
- return real_time;
- }
- /** Helper function that carries out the actual test for
- * test_client_service_sync() */
- static void
- helper_test_hsdir_sync(networkstatus_t *ns,
- int service_position, int client_position,
- int client_fetches_next_desc)
- {
- hs_service_descriptor_t *desc;
- int retval;
- /** Test logic:
- * 1) Initialize service time: consensus and system time.
- * 1.1) Initialize service hash ring
- * 2) Initialize service and publish descriptors.
- * 3) Initialize client time: consensus and system time.
- * 3.1) Initialize client hash ring
- * 4) Try to fetch descriptor as client, and CHECK that the HSDir picked by
- * the client was also picked by service.
- */
- /* 1) Initialize service time: consensus and real time */
- time_t now = helper_set_consensus_and_system_time(ns, service_position);
- helper_initialize_big_hash_ring(ns);
- /* 2) Initialize service */
- hs_service_t *service = helper_init_service(now);
- desc = client_fetches_next_desc ? service->desc_next : service->desc_current;
- /* Now let's upload our desc to all hsdirs */
- upload_descriptor_to_all(service, desc);
- /* Cleanup right now so we don't memleak on error. */
- cleanup_nodelist();
- /* Check that previous hsdirs were populated */
- tt_int_op(smartlist_len(desc->previous_hsdirs), OP_EQ, 8);
- /* 3) Initialize client time */
- helper_set_consensus_and_system_time(ns, client_position);
- cleanup_nodelist();
- SMARTLIST_FOREACH(ns->routerstatus_list,
- routerstatus_t *, rs, routerstatus_free(rs));
- smartlist_clear(ns->routerstatus_list);
- helper_initialize_big_hash_ring(ns);
- /* 4) Pick 6 HSDirs as a client and check that they were also chosen by the
- service. */
- for (int y = 0 ; y < 6 ; y++) {
- char client_hsdir_b64_digest[BASE64_DIGEST_LEN+1] = {0};
- helper_client_pick_hsdir(&service->keys.identity_pk,
- client_hsdir_b64_digest);
- /* CHECK: Go through the hsdirs chosen by the service and make sure that it
- * contains the one picked by the client! */
- retval = smartlist_contains_string(desc->previous_hsdirs,
- client_hsdir_b64_digest);
- tt_int_op(retval, OP_EQ, 1);
- }
- /* Finally, try to pick a 7th hsdir and see that NULL is returned since we
- * exhausted all of them: */
- tt_assert(!pick_hsdir_v3(&service->keys.identity_pk));
- done:
- /* At the end: free all services and initialize the subsystem again, we will
- * need it for next scenario. */
- cleanup_nodelist();
- hs_service_free_all();
- hs_service_init();
- SMARTLIST_FOREACH(ns->routerstatus_list,
- routerstatus_t *, rs, routerstatus_free(rs));
- smartlist_clear(ns->routerstatus_list);
- }
- /** This test ensures that client and service will pick the same HSDirs, under
- * various timing scenarios:
- * a) Scenario where both client and service are in the time segment between
- * SRV#N and TP#N:
- * b) Scenario where both client and service are in the time segment between
- * TP#N and SRV#N+1.
- * c) Scenario where service is between SRV#N and TP#N, but client is between
- * TP#N and SRV#N+1.
- * d) Scenario where service is between TP#N and SRV#N+1, but client is
- * between SRV#N and TP#N.
- *
- * This test is important because it tests that upload_descriptor_to_all() is
- * in synch with pick_hsdir_v3(). That's not the case for the
- * test_reachability() test which only compares the responsible hsdir sets.
- */
- static void
- test_client_service_hsdir_set_sync(void *arg)
- {
- networkstatus_t *ns = NULL;
- (void) arg;
- MOCK(networkstatus_get_latest_consensus,
- mock_networkstatus_get_latest_consensus);
- MOCK(networkstatus_get_live_consensus,
- mock_networkstatus_get_live_consensus);
- MOCK(get_or_state,
- get_or_state_replacement);
- MOCK(hs_desc_encode_descriptor,
- mock_hs_desc_encode_descriptor);
- MOCK(directory_initiate_request,
- mock_directory_initiate_request);
- hs_init();
- /* Initialize a big hash ring: we want it to be big so that client and
- * service cannot accidentally select the same HSDirs */
- ns = networkstatus_get_latest_consensus();
- tt_assert(ns);
- /** Now test the various synch scenarios. See the helper function for more
- details: */
- /* a) Scenario where both client and service are in the time segment between
- * SRV#N and TP#N. At this time the client fetches the first HS desc:
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|----------$===========| |
- * | ^ ^ |
- * | S C |
- * +------------------------------------------------------------------+
- */
- helper_test_hsdir_sync(ns, LATE_IN_SRV_TO_TP, LATE_IN_SRV_TO_TP, 0);
- /* b) Scenario where both client and service are in the time segment between
- * TP#N and SRV#N+1. At this time the client fetches the second HS
- * desc:
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | S C |
- * +------------------------------------------------------------------+
- */
- helper_test_hsdir_sync(ns, LATE_IN_TP_TO_SRV, LATE_IN_TP_TO_SRV, 1);
- /* c) Scenario where service is between SRV#N and TP#N, but client is
- * between TP#N and SRV#N+1. Client is forward in time so it fetches the
- * second HS desc.
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | S C |
- * +------------------------------------------------------------------+
- */
- helper_test_hsdir_sync(ns, LATE_IN_SRV_TO_TP, EARLY_IN_TP_TO_SRV, 1);
- /* d) Scenario where service is between TP#N and SRV#N+1, but client is
- * between SRV#N and TP#N. Client is backwards in time so it fetches the
- * first HS desc.
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | C S |
- * +------------------------------------------------------------------+
- */
- helper_test_hsdir_sync(ns, EARLY_IN_TP_TO_SRV, LATE_IN_SRV_TO_TP, 0);
- /* e) Scenario where service is between SRV#N and TP#N, but client is
- * between TP#N-1 and SRV#3. Client is backwards in time so it fetches
- * the first HS desc.
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | C S |
- * +------------------------------------------------------------------+
- */
- helper_test_hsdir_sync(ns, EARLY_IN_SRV_TO_TP, LATE_IN_TP_TO_SRV, 0);
- /* f) Scenario where service is between TP#N and SRV#N+1, but client is
- * between SRV#N+1 and TP#N+1. Client is forward in time so it fetches
- * the second HS desc.
- *
- * +------------------------------------------------------------------+
- * | |
- * | 00:00 12:00 00:00 12:00 00:00 12:00 |
- * | SRV#1 TP#1 SRV#2 TP#2 SRV#3 TP#3 |
- * | |
- * | $==========|-----------$===========|-----------$===========| |
- * | ^ ^ |
- * | S C |
- * +------------------------------------------------------------------+
- */
- helper_test_hsdir_sync(ns, LATE_IN_TP_TO_SRV, EARLY_IN_SRV_TO_TP, 1);
- done:
- networkstatus_vote_free(ns);
- nodelist_free_all();
- hs_free_all();
- }
- struct testcase_t hs_common_tests[] = {
- { "build_address", test_build_address, TT_FORK,
- NULL, NULL },
- { "validate_address", test_validate_address, TT_FORK,
- NULL, NULL },
- { "time_period", test_time_period, TT_FORK,
- NULL, NULL },
- { "start_time_of_next_time_period", test_start_time_of_next_time_period,
- TT_FORK, NULL, NULL },
- { "responsible_hsdirs", test_responsible_hsdirs, TT_FORK,
- NULL, NULL },
- { "desc_reupload_logic", test_desc_reupload_logic, TT_FORK,
- NULL, NULL },
- { "disaster_srv", test_disaster_srv, TT_FORK,
- NULL, NULL },
- { "hid_serv_request_tracker", test_hid_serv_request_tracker, TT_FORK,
- NULL, NULL },
- { "parse_extended_hostname", test_parse_extended_hostname, TT_FORK,
- NULL, NULL },
- { "time_between_tp_and_srv", test_time_between_tp_and_srv, TT_FORK,
- NULL, NULL },
- { "reachability", test_reachability, TT_FORK,
- NULL, NULL },
- { "client_service_hsdir_set_sync", test_client_service_hsdir_set_sync,
- TT_FORK, NULL, NULL },
- { "hs_indexes", test_hs_indexes, TT_FORK,
- NULL, NULL },
- END_OF_TESTCASES
- };
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