/* Tests that we can save and load Tox data.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include "../testing/misc_tools.h"
#include "../toxcore/ccompat.h"
#include "../toxcore/tox.h"
#include "../toxcore/tox_struct.h"
#include "../toxcore/util.h"
#include "auto_test_support.h"
#include "check_compat.h"
#ifndef USE_IPV6
#define USE_IPV6 1
#endif
#ifdef TOX_LOCALHOST
#undef TOX_LOCALHOST
#endif
#if USE_IPV6
#define TOX_LOCALHOST "::1"
#else
#define TOX_LOCALHOST "127.0.0.1"
#endif
#ifdef TCP_RELAY_PORT
#undef TCP_RELAY_PORT
#endif
#define TCP_RELAY_PORT 33431
static void accept_friend_request(const Tox_Event_Friend_Request *event, void *userdata)
{
Tox *tox = (Tox *)userdata;
const uint8_t *public_key = tox_event_friend_request_get_public_key(event);
const uint8_t *message = tox_event_friend_request_get_message(event);
uint32_t message_length = tox_event_friend_request_get_message_length(event);
if (message_length == 7 && memcmp("Gentoo", message, 7) == 0) {
tox_friend_add_norequest(tox, public_key, nullptr);
}
}
static unsigned int connected_t1;
static void tox_connection_status(const Tox_Event_Self_Connection_Status *event, void *user_data)
{
const Tox_Connection connection_status = tox_event_self_connection_status_get_connection_status(event);
if (connected_t1 && !connection_status) {
ck_abort_msg("Tox went offline");
}
ck_assert_msg(connection_status != TOX_CONNECTION_NONE, "wrong status %d", connection_status);
connected_t1 = connection_status;
}
/* validate that:
* a) saving stays within the confined space
* b) a saved state can be loaded back successfully
* c) a second save is of equal size
* d) the second save is of equal content */
static void reload_tox(Tox **tox, struct Tox_Options *const in_opts, void *user_data)
{
const size_t extra = 64;
const size_t save_size1 = tox_get_savedata_size(*tox);
ck_assert_msg(save_size1 != 0, "save is invalid size %u", (unsigned)save_size1);
printf("%u\n", (unsigned)save_size1);
uint8_t *buffer = (uint8_t *)malloc(save_size1 + 2 * extra);
ck_assert_msg(buffer != nullptr, "malloc failed");
memset(buffer, 0xCD, extra);
memset(buffer + extra + save_size1, 0xCD, extra);
tox_get_savedata(*tox, buffer + extra);
tox_kill(*tox);
for (size_t i = 0; i < extra; ++i) {
ck_assert_msg(buffer[i] == 0xCD, "Buffer underwritten from tox_get_savedata() @%u", (unsigned)i);
ck_assert_msg(buffer[extra + save_size1 + i] == 0xCD, "Buffer overwritten from tox_get_savedata() @%u", (unsigned)i);
}
struct Tox_Options *const options = (in_opts == nullptr) ? tox_options_new(nullptr) : in_opts;
tox_options_set_ipv6_enabled(options, USE_IPV6);
tox_options_set_savedata_type(options, TOX_SAVEDATA_TYPE_TOX_SAVE);
tox_options_set_savedata_data(options, buffer + extra, save_size1);
*tox = tox_new_log(options, nullptr, user_data);
if (in_opts == nullptr) {
tox_options_free(options);
}
ck_assert_msg(*tox != nullptr, "Failed to load back stored buffer");
const size_t save_size2 = tox_get_savedata_size(*tox);
ck_assert_msg(save_size1 == save_size2, "Tox save data changed in size from a store/load cycle: %u -> %u",
(unsigned)save_size1, (unsigned)save_size2);
uint8_t *buffer2 = (uint8_t *)malloc(save_size2);
ck_assert_msg(buffer2 != nullptr, "malloc failed");
tox_get_savedata(*tox, buffer2);
ck_assert_msg(!memcmp(buffer + extra, buffer2, save_size2), "Tox state changed by store/load/store cycle");
free(buffer2);
free(buffer);
}
typedef struct Time_Data {
pthread_mutex_t lock;
uint64_t clock;
} Time_Data;
static uint64_t get_state_clock_callback(void *user_data)
{
Time_Data *time_data = (Time_Data *)user_data;
pthread_mutex_lock(&time_data->lock);
uint64_t clock = time_data->clock;
pthread_mutex_unlock(&time_data->lock);
return clock;
}
static void increment_clock(Time_Data *time_data, uint64_t count)
{
pthread_mutex_lock(&time_data->lock);
time_data->clock += count;
pthread_mutex_unlock(&time_data->lock);
}
static void set_current_time_callback(Tox *tox, Time_Data *time_data)
{
Mono_Time *mono_time = tox->mono_time;
mono_time_set_current_time_callback(mono_time, get_state_clock_callback, time_data);
}
static void test_few_clients(void)
{
uint32_t index[] = { 1, 2, 3 };
time_t con_time = 0, cur_time = time(nullptr);
struct Tox_Options *opts1 = tox_options_new(nullptr);
tox_options_set_ipv6_enabled(opts1, USE_IPV6);
tox_options_set_tcp_port(opts1, TCP_RELAY_PORT);
Tox_Err_New t_n_error;
Tox *tox1 = tox_new_log(opts1, &t_n_error, &index[0]);
ck_assert_msg(t_n_error == TOX_ERR_NEW_OK, "Failed to create tox instance: %d", t_n_error);
tox_options_free(opts1);
tox_events_init(tox1);
Tox_Dispatch *dispatch1 = tox_dispatch_new(nullptr);
ck_assert(dispatch1 != nullptr);
struct Tox_Options *opts2 = tox_options_new(nullptr);
tox_options_set_ipv6_enabled(opts2, USE_IPV6);
tox_options_set_udp_enabled(opts2, false);
tox_options_set_local_discovery_enabled(opts2, false);
Tox *tox2 = tox_new_log(opts2, &t_n_error, &index[1]);
ck_assert_msg(t_n_error == TOX_ERR_NEW_OK, "Failed to create tox instance: %d", t_n_error);
tox_events_init(tox2);
Tox_Dispatch *dispatch2 = tox_dispatch_new(nullptr);
ck_assert(dispatch2 != nullptr);
struct Tox_Options *opts3 = tox_options_new(nullptr);
tox_options_set_ipv6_enabled(opts3, USE_IPV6);
tox_options_set_local_discovery_enabled(opts3, false);
Tox *tox3 = tox_new_log(opts3, &t_n_error, &index[2]);
ck_assert_msg(t_n_error == TOX_ERR_NEW_OK, "Failed to create tox instance: %d", t_n_error);
ck_assert_msg(tox1 && tox2 && tox3, "Failed to create 3 tox instances");
Time_Data time_data;
ck_assert_msg(pthread_mutex_init(&time_data.lock, nullptr) == 0, "Failed to init time_data mutex");
time_data.clock = current_time_monotonic(tox1->mono_time);
set_current_time_callback(tox1, &time_data);
set_current_time_callback(tox2, &time_data);
set_current_time_callback(tox3, &time_data);
uint8_t dht_key[TOX_PUBLIC_KEY_SIZE];
tox_self_get_dht_id(tox1, dht_key);
const uint16_t dht_port = tox_self_get_udp_port(tox1, nullptr);
printf("using tox1 as tcp relay for tox2\n");
tox_add_tcp_relay(tox2, TOX_LOCALHOST, TCP_RELAY_PORT, dht_key, nullptr);
printf("bootstrapping toxes off tox1\n");
tox_bootstrap(tox2, "localhost", dht_port, dht_key, nullptr);
tox_bootstrap(tox3, "localhost", dht_port, dht_key, nullptr);
connected_t1 = 0;
tox_events_callback_self_connection_status(dispatch1, tox_connection_status);
tox_events_callback_friend_request(dispatch2, accept_friend_request);
uint8_t address[TOX_ADDRESS_SIZE];
tox_self_get_address(tox2, address);
uint32_t test = tox_friend_add(tox3, address, (const uint8_t *)"Gentoo", 7, nullptr);
ck_assert_msg(test == 0, "Failed to add friend error code: %u", test);
uint8_t off = 1;
while (true) {
{
Tox_Err_Events_Iterate err = TOX_ERR_EVENTS_ITERATE_OK;
Tox_Events *events = tox_events_iterate(tox1, true, &err);
ck_assert(err == TOX_ERR_EVENTS_ITERATE_OK);
tox_dispatch_invoke(dispatch1, events, tox1);
tox_events_free(events);
}
{
Tox_Err_Events_Iterate err = TOX_ERR_EVENTS_ITERATE_OK;
Tox_Events *events = tox_events_iterate(tox2, true, &err);
ck_assert(err == TOX_ERR_EVENTS_ITERATE_OK);
tox_dispatch_invoke(dispatch2, events, tox2);
tox_events_free(events);
}
tox_iterate(tox3, nullptr);
if (tox_self_get_connection_status(tox1) && tox_self_get_connection_status(tox2)
&& tox_self_get_connection_status(tox3)) {
if (off) {
printf("Toxes are online, took %lu seconds\n", (unsigned long)(time(nullptr) - cur_time));
con_time = time(nullptr);
off = 0;
}
if (tox_friend_get_connection_status(tox2, 0, nullptr) == TOX_CONNECTION_TCP
&& tox_friend_get_connection_status(tox3, 0, nullptr) == TOX_CONNECTION_TCP) {
break;
}
}
increment_clock(&time_data, 200);
c_sleep(5);
}
ck_assert_msg(connected_t1, "Tox1 isn't connected. %u", connected_t1);
printf("tox clients connected took %lu seconds\n", (unsigned long)(time(nullptr) - con_time));
// We're done with this callback, so unset it to ensure we don't fail the
// test if tox1 goes offline while tox2 and 3 are reloaded.
tox_events_callback_self_connection_status(dispatch1, nullptr);
reload_tox(&tox2, opts2, &index[1]);
tox_events_init(tox2);
reload_tox(&tox3, opts3, &index[2]);
cur_time = time(nullptr);
off = 1;
while (true) {
{
Tox_Err_Events_Iterate err = TOX_ERR_EVENTS_ITERATE_OK;
Tox_Events *events = tox_events_iterate(tox1, true, &err);
ck_assert(err == TOX_ERR_EVENTS_ITERATE_OK);
tox_dispatch_invoke(dispatch1, events, tox1);
tox_events_free(events);
}
{
Tox_Err_Events_Iterate err = TOX_ERR_EVENTS_ITERATE_OK;
Tox_Events *events = tox_events_iterate(tox2, true, &err);
ck_assert(err == TOX_ERR_EVENTS_ITERATE_OK);
tox_dispatch_invoke(dispatch2, events, tox2);
tox_events_free(events);
}
tox_iterate(tox3, nullptr);
if (tox_self_get_connection_status(tox1) && tox_self_get_connection_status(tox2)
&& tox_self_get_connection_status(tox3)) {
if (off) {
printf("Toxes are online again after reloading, took %lu seconds\n", (unsigned long)(time(nullptr) - cur_time));
con_time = time(nullptr);
off = 0;
}
if (tox_friend_get_connection_status(tox2, 0, nullptr) == TOX_CONNECTION_TCP
&& tox_friend_get_connection_status(tox3, 0, nullptr) == TOX_CONNECTION_TCP) {
break;
}
}
increment_clock(&time_data, 100);
c_sleep(5);
}
printf("tox clients connected took %lu seconds\n", (unsigned long)(time(nullptr) - con_time));
printf("test_few_clients succeeded, took %lu seconds\n", (unsigned long)(time(nullptr) - cur_time));
tox_dispatch_free(dispatch1);
tox_dispatch_free(dispatch2);
tox_kill(tox1);
tox_kill(tox2);
tox_kill(tox3);
tox_options_free(opts2);
tox_options_free(opts3);
}
int main(void)
{
setvbuf(stdout, nullptr, _IONBF, 0);
test_few_clients();
return 0;
}