#ifdef HAVE_CONFIG_H #include "config.h" #endif #include "check_compat.h" #include "../testing/misc_tools.h" #include "../toxcore/crypto_core.h" #ifndef DHT_C_INCLUDED #include "../toxcore/DHT.c" #endif // DHT_C_INCLUDED #include "../toxcore/tox.h" // These tests currently fail. static bool enable_broken_tests = false; #ifndef USE_IPV6 #define USE_IPV6 1 #endif static inline IP get_loopback(void) { IP ip; #if USE_IPV6 ip.family = net_family_ipv6; ip.ip.v6 = get_ip6_loopback(); #else ip.family = net_family_ipv4; ip.ip.v4 = get_ip4_loopback(); #endif return ip; } static void mark_bad(const Mono_Time *mono_time, IPPTsPng *ipptp) { ipptp->timestamp = mono_time_get(mono_time) - 2 * BAD_NODE_TIMEOUT; ipptp->hardening.routes_requests_ok = 0; ipptp->hardening.send_nodes_ok = 0; ipptp->hardening.testing_requests = 0; } static void mark_possible_bad(const Mono_Time *mono_time, IPPTsPng *ipptp) { ipptp->timestamp = mono_time_get(mono_time); ipptp->hardening.routes_requests_ok = 0; ipptp->hardening.send_nodes_ok = 0; ipptp->hardening.testing_requests = 0; } static void mark_good(const Mono_Time *mono_time, IPPTsPng *ipptp) { ipptp->timestamp = mono_time_get(mono_time); ipptp->hardening.routes_requests_ok = (HARDENING_ALL_OK >> 0) & 1; ipptp->hardening.send_nodes_ok = (HARDENING_ALL_OK >> 1) & 1; ipptp->hardening.testing_requests = (HARDENING_ALL_OK >> 2) & 1; } static void mark_all_good(const Mono_Time *mono_time, Client_data *list, uint32_t length, uint8_t ipv6) { uint32_t i; for (i = 0; i < length; ++i) { if (ipv6) { mark_good(mono_time, &list[i].assoc6); } else { mark_good(mono_time, &list[i].assoc4); } } } /* Returns 1 if public_key has a furthest distance to comp_client_id than all public_key's in the list */ static uint8_t is_furthest(const uint8_t *comp_client_id, Client_data *list, uint32_t length, const uint8_t *public_key) { uint32_t i; for (i = 0; i < length; ++i) { if (id_closest(comp_client_id, public_key, list[i].public_key) == 1) { return 0; } } return 1; } static int client_in_list(Client_data *list, uint32_t length, const uint8_t *public_key) { uint32_t i; for (i = 0; i < length; ++i) { if (id_equal(public_key, list[i].public_key)) { return i; } } return -1; } static void test_addto_lists_update(DHT *dht, Client_data *list, uint32_t length, IP_Port *ip_port) { uint32_t used, test, test1, test2, found; IP_Port test_ipp; uint8_t test_id[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t ipv6 = net_family_is_ipv6(ip_port->ip.family) ? 1 : 0; // check id update for existing ip_port test = random_u32() % length; ipport_copy(&test_ipp, ipv6 ? &list[test].assoc6.ip_port : &list[test].assoc4.ip_port); random_bytes(test_id, sizeof(test_id)); used = addto_lists(dht, test_ipp, test_id); ck_assert_msg(used >= 1, "Wrong number of added clients"); // it is possible to have ip_port duplicates in the list, so ip_port @ found not always equal to ip_port @ test found = client_in_list(list, length, test_id); ck_assert_msg(found >= 0, "Client id is not in the list"); ck_assert_msg(ipport_equal(&test_ipp, ipv6 ? &list[found].assoc6.ip_port : &list[found].assoc4.ip_port), "Client IP_Port is incorrect"); // check ip_port update for existing id test = random_u32() % length; test_ipp.port = random_u32() % TOX_PORT_DEFAULT; id_copy(test_id, list[test].public_key); used = addto_lists(dht, test_ipp, test_id); ck_assert_msg(used >= 1, "Wrong number of added clients"); // it is not possible to have id duplicates in the list, so id @ found must be equal id @ test ck_assert_msg(client_in_list(list, length, test_id) == test, "Client id is not in the list"); ck_assert_msg(ipport_equal(&test_ipp, ipv6 ? &list[test].assoc6.ip_port : &list[test].assoc4.ip_port), "Client IP_Port is incorrect"); // check ip_port update for existing id and ip_port (... port ... id ...) test1 = random_u32() % (length / 2); test2 = random_u32() % (length / 2) + length / 2; ipport_copy(&test_ipp, ipv6 ? &list[test1].assoc6.ip_port : &list[test1].assoc4.ip_port); id_copy(test_id, list[test2].public_key); if (ipv6) { list[test2].assoc6.ip_port.port = -1; } else { list[test2].assoc4.ip_port.port = -1; } used = addto_lists(dht, test_ipp, test_id); ck_assert_msg(used >= 1, "Wrong number of added clients"); ck_assert_msg(client_in_list(list, length, test_id) == test2, "Client id is not in the list"); ck_assert_msg(ipport_equal(&test_ipp, ipv6 ? &list[test2].assoc6.ip_port : &list[test2].assoc4.ip_port), "Client IP_Port is incorrect"); // check ip_port update for existing id and ip_port (... id ... port ...) test1 = random_u32() % (length / 2); test2 = random_u32() % (length / 2) + length / 2; ipport_copy(&test_ipp, ipv6 ? &list[test2].assoc6.ip_port : &list[test2].assoc4.ip_port); id_copy(test_id, list[test1].public_key); if (ipv6) { list[test1].assoc6.ip_port.port = -1; } else { list[test1].assoc4.ip_port.port = -1; } used = addto_lists(dht, test_ipp, test_id); ck_assert_msg(used >= 1, "Wrong number of added clients"); ck_assert_msg(client_in_list(list, length, test_id) == test1, "Client id is not in the list"); ck_assert_msg(ipport_equal(&test_ipp, ipv6 ? &list[test1].assoc6.ip_port : &list[test1].assoc4.ip_port), "Client IP_Port is incorrect"); } static void test_addto_lists_bad(DHT *dht, Client_data *list, uint32_t length, IP_Port *ip_port) { // check "bad" clients replacement int used, test1, test2, test3; uint8_t public_key[CRYPTO_PUBLIC_KEY_SIZE], test_id1[CRYPTO_PUBLIC_KEY_SIZE], test_id2[CRYPTO_PUBLIC_KEY_SIZE], test_id3[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t ipv6 = net_family_is_ipv6(ip_port->ip.family) ? 1 : 0; random_bytes(public_key, sizeof(public_key)); mark_all_good(dht->mono_time, list, length, ipv6); test1 = random_u32() % (length / 3); test2 = random_u32() % (length / 3) + length / 3; test3 = random_u32() % (length / 3) + 2 * length / 3; ck_assert_msg(!(test1 == test2 || test1 == test3 || test2 == test3), "Wrong test indices are chosen"); id_copy((uint8_t *)&test_id1, list[test1].public_key); id_copy((uint8_t *)&test_id2, list[test2].public_key); id_copy((uint8_t *)&test_id3, list[test3].public_key); // mark nodes as "bad" if (ipv6) { mark_bad(dht->mono_time, &list[test1].assoc6); mark_bad(dht->mono_time, &list[test2].assoc6); mark_bad(dht->mono_time, &list[test3].assoc6); } else { mark_bad(dht->mono_time, &list[test1].assoc4); mark_bad(dht->mono_time, &list[test2].assoc4); mark_bad(dht->mono_time, &list[test3].assoc4); } ip_port->port += 1; used = addto_lists(dht, *ip_port, public_key); ck_assert_msg(used >= 1, "Wrong number of added clients"); ck_assert_msg(client_in_list(list, length, public_key) >= 0, "Client id is not in the list"); ck_assert_msg(client_in_list(list, length, test_id2) >= 0, "Wrong bad client removed"); ck_assert_msg(client_in_list(list, length, test_id3) >= 0, "Wrong bad client removed"); } static void test_addto_lists_possible_bad(DHT *dht, Client_data *list, uint32_t length, IP_Port *ip_port, const uint8_t *comp_client_id) { // check "possibly bad" clients replacement uint32_t used, test1, test2, test3; uint8_t public_key[CRYPTO_PUBLIC_KEY_SIZE], test_id1[CRYPTO_PUBLIC_KEY_SIZE], test_id2[CRYPTO_PUBLIC_KEY_SIZE], test_id3[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t ipv6 = net_family_is_ipv6(ip_port->ip.family) ? 1 : 0; random_bytes(public_key, sizeof(public_key)); mark_all_good(dht->mono_time, list, length, ipv6); test1 = random_u32() % (length / 3); test2 = random_u32() % (length / 3) + length / 3; test3 = random_u32() % (length / 3) + 2 * length / 3; ck_assert_msg(!(test1 == test2 || test1 == test3 || test2 == test3), "Wrong test indices are chosen"); id_copy((uint8_t *)&test_id1, list[test1].public_key); id_copy((uint8_t *)&test_id2, list[test2].public_key); id_copy((uint8_t *)&test_id3, list[test3].public_key); // mark nodes as "possibly bad" if (ipv6) { mark_possible_bad(dht->mono_time, &list[test1].assoc6); mark_possible_bad(dht->mono_time, &list[test2].assoc6); mark_possible_bad(dht->mono_time, &list[test3].assoc6); } else { mark_possible_bad(dht->mono_time, &list[test1].assoc4); mark_possible_bad(dht->mono_time, &list[test2].assoc4); mark_possible_bad(dht->mono_time, &list[test3].assoc4); } ip_port->port += 1; used = addto_lists(dht, *ip_port, public_key); ck_assert_msg(used >= 1, "Wrong number of added clients"); ck_assert_msg(client_in_list(list, length, public_key) >= 0, "Client id is not in the list"); bool inlist_id1 = client_in_list(list, length, test_id1) >= 0; bool inlist_id2 = client_in_list(list, length, test_id2) >= 0; bool inlist_id3 = client_in_list(list, length, test_id3) >= 0; ck_assert_msg(inlist_id1 + inlist_id2 + inlist_id3 == 2, "Wrong client removed"); if (!inlist_id1) { ck_assert_msg(id_closest(comp_client_id, test_id2, test_id1) == 1, "Id has been removed but is closer to than another one"); ck_assert_msg(id_closest(comp_client_id, test_id3, test_id1) == 1, "Id has been removed but is closer to than another one"); } else if (!inlist_id2) { ck_assert_msg(id_closest(comp_client_id, test_id1, test_id2) == 1, "Id has been removed but is closer to than another one"); ck_assert_msg(id_closest(comp_client_id, test_id3, test_id2) == 1, "Id has been removed but is closer to than another one"); } else if (!inlist_id3) { ck_assert_msg(id_closest(comp_client_id, test_id1, test_id3) == 1, "Id has been removed but is closer to than another one"); ck_assert_msg(id_closest(comp_client_id, test_id2, test_id3) == 1, "Id has been removed but is closer to than another one"); } } static void test_addto_lists_good(DHT *dht, Client_data *list, uint32_t length, IP_Port *ip_port, const uint8_t *comp_client_id) { uint8_t public_key[CRYPTO_PUBLIC_KEY_SIZE]; uint8_t ipv6 = net_family_is_ipv6(ip_port->ip.family) ? 1 : 0; mark_all_good(dht->mono_time, list, length, ipv6); // check "good" client id replacement do { random_bytes(public_key, sizeof(public_key)); } while (is_furthest(comp_client_id, list, length, public_key)); ip_port->port += 1; addto_lists(dht, *ip_port, public_key); ck_assert_msg(client_in_list(list, length, public_key) >= 0, "Good client id is not in the list"); // check "good" client id skip do { random_bytes(public_key, sizeof(public_key)); } while (!is_furthest(comp_client_id, list, length, public_key)); ip_port->port += 1; addto_lists(dht, *ip_port, public_key); ck_assert_msg(client_in_list(list, length, public_key) == -1, "Good client id is in the list"); } #ifndef MAX #define MAX(a, b) ((a) > (b) ? (a) : (b)) #endif static void test_addto_lists(IP ip) { Logger *log = logger_new(); uint32_t index = 1; logger_callback_log(log, (logger_cb *)print_debug_log, nullptr, &index); Mono_Time *mono_time = mono_time_new(); ck_assert_msg(mono_time != nullptr, "Failed to create Mono_Time"); Networking_Core *net = new_networking(log, ip, TOX_PORT_DEFAULT); ck_assert_msg(net != nullptr, "Failed to create Networking_Core"); DHT *dht = new_dht(log, mono_time, net, true); ck_assert_msg(dht != nullptr, "Failed to create DHT"); IP_Port ip_port; ip_port.ip = ip; ip_port.port = TOX_PORT_DEFAULT; uint8_t public_key[CRYPTO_PUBLIC_KEY_SIZE]; uint16_t i, used; // check lists filling for (i = 0; i < MAX(LCLIENT_LIST, MAX_FRIEND_CLIENTS); ++i) { random_bytes(public_key, sizeof(public_key)); used = addto_lists(dht, ip_port, public_key); ck_assert_msg(used == dht->num_friends + 1, "Wrong number of added clients with existing ip_port"); } for (i = 0; i < MAX(LCLIENT_LIST, MAX_FRIEND_CLIENTS); ++i) { ip_port.port += 1; used = addto_lists(dht, ip_port, public_key); ck_assert_msg(used == dht->num_friends + 1, "Wrong number of added clients with existing public_key"); } for (i = 0; i < MAX(LCLIENT_LIST, MAX_FRIEND_CLIENTS); ++i) { ip_port.port += 1; random_bytes(public_key, sizeof(public_key)); used = addto_lists(dht, ip_port, public_key); ck_assert_msg(used >= 1, "Wrong number of added clients"); } /*check: Current behavior if there are two clients with the same id is * to replace the first ip by the second. */ test_addto_lists_update(dht, dht->close_clientlist, LCLIENT_LIST, &ip_port); for (i = 0; i < dht->num_friends; ++i) { test_addto_lists_update(dht, dht->friends_list[i].client_list, MAX_FRIEND_CLIENTS, &ip_port); } // check "bad" entries test_addto_lists_bad(dht, dht->close_clientlist, LCLIENT_LIST, &ip_port); for (i = 0; i < dht->num_friends; ++i) { test_addto_lists_bad(dht, dht->friends_list[i].client_list, MAX_FRIEND_CLIENTS, &ip_port); } // check "possibly bad" entries if (enable_broken_tests) { test_addto_lists_possible_bad(dht, dht->close_clientlist, LCLIENT_LIST, &ip_port, dht->self_public_key); for (i = 0; i < dht->num_friends; ++i) { test_addto_lists_possible_bad(dht, dht->friends_list[i].client_list, MAX_FRIEND_CLIENTS, &ip_port, dht->friends_list[i].public_key); } } // check "good" entries test_addto_lists_good(dht, dht->close_clientlist, LCLIENT_LIST, &ip_port, dht->self_public_key); for (i = 0; i < dht->num_friends; ++i) { test_addto_lists_good(dht, dht->friends_list[i].client_list, MAX_FRIEND_CLIENTS, &ip_port, dht->friends_list[i].public_key); } kill_dht(dht); kill_networking(net); logger_kill(log); } static void test_addto_lists_ipv4(void) { IP ip; ip_init(&ip, 0); test_addto_lists(ip); } static void test_addto_lists_ipv6(void) { IP ip; ip_init(&ip, 1); test_addto_lists(ip); } #define DHT_DEFAULT_PORT (TOX_PORT_DEFAULT + 1000) static void print_pk(uint8_t *public_key) { uint32_t j; for (j = 0; j < CRYPTO_PUBLIC_KEY_SIZE; j++) { printf("%02X", public_key[j]); } printf("\n"); } static void test_add_to_list(uint8_t cmp_list[][CRYPTO_PUBLIC_KEY_SIZE + 1], uint16_t length, const uint8_t *pk, const uint8_t *cmp_pk) { uint8_t p_b[CRYPTO_PUBLIC_KEY_SIZE]; uint16_t i; for (i = 0; i < length; ++i) { if (!cmp_list[i][CRYPTO_PUBLIC_KEY_SIZE]) { memcpy(cmp_list[i], pk, CRYPTO_PUBLIC_KEY_SIZE); cmp_list[i][CRYPTO_PUBLIC_KEY_SIZE] = 1; return; } if (memcmp(cmp_list[i], pk, CRYPTO_PUBLIC_KEY_SIZE) == 0) { return; } } for (i = 0; i < length; ++i) { if (id_closest(cmp_pk, cmp_list[i], pk) == 2) { memcpy(p_b, cmp_list[i], CRYPTO_PUBLIC_KEY_SIZE); memcpy(cmp_list[i], pk, CRYPTO_PUBLIC_KEY_SIZE); test_add_to_list(cmp_list, length, p_b, cmp_pk); break; } } } #define NUM_DHT 100 static void test_list_main(void) { DHT *dhts[NUM_DHT]; Logger *logs[NUM_DHT]; Mono_Time *mono_times[NUM_DHT]; uint32_t index[NUM_DHT]; uint8_t cmp_list1[NUM_DHT][MAX_FRIEND_CLIENTS][CRYPTO_PUBLIC_KEY_SIZE + 1]; memset(cmp_list1, 0, sizeof(cmp_list1)); uint16_t i, j, k, l; for (i = 0; i < NUM_DHT; ++i) { IP ip; ip_init(&ip, 1); logs[i] = logger_new(); index[i] = i + 1; logger_callback_log(logs[i], (logger_cb *)print_debug_log, nullptr, &index[i]); mono_times[i] = mono_time_new(); dhts[i] = new_dht(logs[i], mono_times[i], new_networking(logs[i], ip, DHT_DEFAULT_PORT + i), true); ck_assert_msg(dhts[i] != nullptr, "Failed to create dht instances %u", i); ck_assert_msg(net_port(dhts[i]->net) != DHT_DEFAULT_PORT + i, "Bound to wrong port: %d", net_port(dhts[i]->net)); } for (i = 0; i < NUM_DHT; ++i) { for (j = 1; j < NUM_DHT; ++j) { test_add_to_list(cmp_list1[i], MAX_FRIEND_CLIENTS, dhts[(i + j) % NUM_DHT]->self_public_key, dhts[i]->self_public_key); } } for (i = 0; i < NUM_DHT; ++i) { for (j = 0; j < NUM_DHT; ++j) { if (i == j) { continue; } IP_Port ip_port; ip_init(&ip_port.ip, 0); ip_port.ip.ip.v4.uint32 = random_u32(); ip_port.port = random_u32() % (UINT16_MAX - 1); ++ip_port.port; addto_lists(dhts[i], ip_port, dhts[j]->self_public_key); } } #if 0 print_pk(dhts[0]->self_public_key); for (i = 0; i < MAX_FRIEND_CLIENTS; ++i) { printf("----Entry %u----\n", i); print_pk(cmp_list1[i]); } #endif uint16_t m_count = 0; for (l = 0; l < NUM_DHT; ++l) { for (i = 0; i < MAX_FRIEND_CLIENTS; ++i) { for (j = 1; j < NUM_DHT; ++j) { if (memcmp(cmp_list1[l][i], dhts[(l + j) % NUM_DHT]->self_public_key, CRYPTO_PUBLIC_KEY_SIZE) != 0) { continue; } uint16_t count = 0; for (k = 0; k < LCLIENT_LIST; ++k) { if (memcmp(dhts[l]->self_public_key, dhts[(l + j) % NUM_DHT]->close_clientlist[k].public_key, CRYPTO_PUBLIC_KEY_SIZE) == 0) { ++count; } } if (count != 1) { print_pk(dhts[l]->self_public_key); for (k = 0; k < MAX_FRIEND_CLIENTS; ++k) { printf("----Entry %u----\n", k); print_pk(cmp_list1[l][k]); } for (k = 0; k < LCLIENT_LIST; ++k) { printf("----Closel %u----\n", k); print_pk(dhts[(l + j) % NUM_DHT]->close_clientlist[k].public_key); } print_pk(dhts[(l + j) % NUM_DHT]->self_public_key); } ck_assert_msg(count == 1, "Nodes in search don't know ip of friend. %u %u %u", i, j, count); Node_format ln[MAX_SENT_NODES]; uint16_t n = get_close_nodes(dhts[(l + j) % NUM_DHT], dhts[l]->self_public_key, ln, net_family_unspec, 1, 0); ck_assert_msg(n == MAX_SENT_NODES, "bad num close %u | %u %u", n, i, j); count = 0; for (k = 0; k < MAX_SENT_NODES; ++k) { if (memcmp(dhts[l]->self_public_key, ln[k].public_key, CRYPTO_PUBLIC_KEY_SIZE) == 0) { ++count; } } ck_assert_msg(count == 1, "Nodes in search don't know ip of friend. %u %u %u", i, j, count); #if 0 for (k = 0; k < MAX_SENT_NODES; ++k) { printf("----gn %u----\n", k); print_pk(ln[k].public_key); } #endif ++m_count; } } } ck_assert_msg(m_count == (NUM_DHT) * (MAX_FRIEND_CLIENTS), "Bad count. %u != %u", m_count, (NUM_DHT) * (MAX_FRIEND_CLIENTS)); for (i = 0; i < NUM_DHT; ++i) { Networking_Core *n = dhts[i]->net; kill_dht(dhts[i]); kill_networking(n); mono_time_free(mono_times[i]); logger_kill(logs[i]); } } static void test_list(void) { uint8_t i; for (i = 0; i < 10; ++i) { test_list_main(); } } static void ip_callback(void *data, int32_t number, IP_Port ip_port) { } #define NUM_DHT_FRIENDS 20 static uint64_t get_clock_callback(Mono_Time *mono_time, void *user_data) { const uint64_t *clock = (const uint64_t *)user_data; return *clock; } static void test_DHT_test(void) { uint32_t to_comp = 8394782; DHT *dhts[NUM_DHT]; Logger *logs[NUM_DHT]; Mono_Time *mono_times[NUM_DHT]; uint64_t clock[NUM_DHT]; uint32_t index[NUM_DHT]; uint32_t i, j; for (i = 0; i < NUM_DHT; ++i) { IP ip; ip_init(&ip, 1); logs[i] = logger_new(); index[i] = i + 1; logger_callback_log(logs[i], (logger_cb *)print_debug_log, nullptr, &index[i]); mono_times[i] = mono_time_new(); clock[i] = current_time_monotonic(mono_times[i]); mono_time_set_current_time_callback(mono_times[i], get_clock_callback, &clock[i]); dhts[i] = new_dht(logs[i], mono_times[i], new_networking(logs[i], ip, DHT_DEFAULT_PORT + i), true); ck_assert_msg(dhts[i] != nullptr, "Failed to create dht instances %u", i); ck_assert_msg(net_port(dhts[i]->net) != DHT_DEFAULT_PORT + i, "Bound to wrong port"); } struct { uint16_t tox1; uint16_t tox2; } pairs[NUM_DHT_FRIENDS]; for (i = 0; i < NUM_DHT_FRIENDS; ++i) { // TODO(hugbubby): remove use of goto. loop_top: pairs[i].tox1 = random_u32() % NUM_DHT; pairs[i].tox2 = (pairs[i].tox1 + (random_u32() % (NUM_DHT - 1)) + 1) % NUM_DHT; for (j = 0; j < i; ++j) { if (pairs[j].tox2 == pairs[i].tox2 && pairs[j].tox1 == pairs[i].tox1) { goto loop_top; } } uint16_t lock_count = 0; ck_assert_msg(dht_addfriend(dhts[pairs[i].tox2], dhts[pairs[i].tox1]->self_public_key, &ip_callback, &to_comp, 1337, &lock_count) == 0, "Failed to add friend"); ck_assert_msg(lock_count == 1, "bad lock count: %u %u", lock_count, i); } for (i = 0; i < NUM_DHT; ++i) { IP_Port ip_port; ip_port.ip = get_loopback(); ip_port.port = net_htons(DHT_DEFAULT_PORT + i); dht_bootstrap(dhts[(i - 1) % NUM_DHT], ip_port, dhts[i]->self_public_key); } while (true) { uint16_t counter = 0; for (i = 0; i < NUM_DHT_FRIENDS; ++i) { IP_Port a; if (dht_getfriendip(dhts[pairs[i].tox2], dhts[pairs[i].tox1]->self_public_key, &a) == 1) { ++counter; } } if (counter == NUM_DHT_FRIENDS) { break; } for (i = 0; i < NUM_DHT; ++i) { mono_time_update(mono_times[i]); networking_poll(dhts[i]->net, nullptr); do_dht(dhts[i]); clock[i] += 500; } c_sleep(20); } for (i = 0; i < NUM_DHT; ++i) { Networking_Core *n = dhts[i]->net; kill_dht(dhts[i]); kill_networking(n); mono_time_free(mono_times[i]); logger_kill(logs[i]); } } static void test_dht_create_packet(void) { uint8_t plain[100] = {0}; uint8_t pkt[1 + CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + sizeof(plain) + CRYPTO_MAC_SIZE]; uint8_t key[CRYPTO_SYMMETRIC_KEY_SIZE]; new_symmetric_key(key); uint16_t length = dht_create_packet(key, key, NET_PACKET_GET_NODES, plain, sizeof(plain), pkt); ck_assert_msg(pkt[0] == NET_PACKET_GET_NODES, "Malformed packet."); ck_assert_msg(memcmp(pkt + 1, key, CRYPTO_SYMMETRIC_KEY_SIZE) == 0, "Malformed packet."); ck_assert_msg(length == 1 + CRYPTO_PUBLIC_KEY_SIZE + CRYPTO_NONCE_SIZE + sizeof(plain) + CRYPTO_MAC_SIZE, "Invalid size. Should be %u got %d", (unsigned)sizeof(pkt), length); printf("Create Packet Successful!\n"); } #define MAX_COUNT 3 static void dht_pack_unpack(const Node_format *nodes, size_t size, uint8_t *data, size_t length) { int16_t packed_size = pack_nodes(data, length, nodes, size); ck_assert_msg(packed_size != -1, "Wrong pack_nodes result"); uint16_t processed = 0; VLA(Node_format, nodes_unpacked, size); const uint8_t tcp_enabled = 1; uint16_t unpacked_count = unpack_nodes(nodes_unpacked, size, &processed, data, length, tcp_enabled); ck_assert_msg(unpacked_count == size, "Wrong unpack_nodes result"); ck_assert_msg(processed == packed_size, "unpack_nodes did not process all data"); for (size_t i = 0; i < size; i++) { const IP_Port *ipp1 = &nodes[i].ip_port; const IP_Port *ipp2 = &nodes_unpacked[i].ip_port; ck_assert_msg(ip_equal(&ipp1->ip, &ipp2->ip), "Unsuccessful ip unpack"); ck_assert_msg(ipp1->port == ipp2->port, "Unsuccessful port unpack"); const uint8_t *pk1 = nodes[i].public_key; const uint8_t *pk2 = nodes_unpacked[i].public_key; ck_assert_msg(!memcmp(pk1, pk2, CRYPTO_PUBLIC_KEY_SIZE), "Unsuccessful pk unpack"); } } static void random_ip(IP_Port *ipp, int family) { uint8_t *ip = nullptr; size_t size; if (family == TOX_AF_INET || family == TCP_INET) { ip = (uint8_t *)&ipp->ip.ip.v4; size = sizeof(ipp->ip.ip.v4); } else if (family == TOX_AF_INET6 || family == TCP_INET6) { ip = (uint8_t *)&ipp->ip.ip.v6; size = sizeof(ipp->ip.ip.v6); } else { return; } uint8_t *port = (uint8_t *)&ipp->port; random_bytes(port, sizeof(ipp->port)); random_bytes(ip, size); // TODO(iphydf): Pass the net_family variant to random_ip. ipp->ip.family.value = family; } #define PACKED_NODES_SIZE (SIZE_IPPORT + CRYPTO_PUBLIC_KEY_SIZE) static void test_dht_node_packing(void) { const uint16_t length = MAX_COUNT * PACKED_NODES_SIZE; uint8_t *data = (uint8_t *)malloc(length); Node_format nodes[MAX_COUNT]; const size_t pk_size = sizeof(nodes[0].public_key); random_bytes(nodes[0].public_key, pk_size); random_bytes(nodes[1].public_key, pk_size); random_bytes(nodes[2].public_key, pk_size); random_ip(&nodes[0].ip_port, TOX_AF_INET); random_ip(&nodes[1].ip_port, TOX_AF_INET); random_ip(&nodes[2].ip_port, TOX_AF_INET); dht_pack_unpack(nodes, 3, data, length); random_ip(&nodes[0].ip_port, TOX_AF_INET); random_ip(&nodes[1].ip_port, TOX_AF_INET); random_ip(&nodes[2].ip_port, TCP_INET); dht_pack_unpack(nodes, 3, data, length); random_ip(&nodes[0].ip_port, TOX_AF_INET); random_ip(&nodes[1].ip_port, TOX_AF_INET6); random_ip(&nodes[2].ip_port, TCP_INET6); dht_pack_unpack(nodes, 3, data, length); random_ip(&nodes[0].ip_port, TCP_INET); random_ip(&nodes[1].ip_port, TCP_INET6); random_ip(&nodes[2].ip_port, TCP_INET); dht_pack_unpack(nodes, 3, data, length); random_ip(&nodes[0].ip_port, TOX_AF_INET6); random_ip(&nodes[1].ip_port, TOX_AF_INET6); random_ip(&nodes[2].ip_port, TOX_AF_INET6); dht_pack_unpack(nodes, 3, data, length); free(data); } int main(void) { setvbuf(stdout, nullptr, _IONBF, 0); test_dht_create_packet(); test_dht_node_packing(); test_list(); test_DHT_test(); if (enable_broken_tests) { test_addto_lists_ipv4(); test_addto_lists_ipv6(); } return 0; }