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#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
typedef struct State {
uint32_t index;
uint64_t clock;
size_t save_size;
uint8_t *save_state;
bool alive;
bool connected;
uint32_t conference;
} State;
#define NUM_INVITE_MERGE_TOX 5
#include "run_auto_test.h"
static void handle_conference_invite(
Tox *tox, uint32_t friend_number, Tox_Conference_Type type,
const uint8_t *cookie, size_t length, void *user_data)
{
State *state = (State *)user_data;
if (friend_number != -1) {
Tox_Err_Conference_Join err;
state->conference = tox_conference_join(tox, friend_number, cookie, length, &err);
ck_assert_msg(err == TOX_ERR_CONFERENCE_JOIN_OK,
"attempting to join the conference returned with an error: %d", err);
fprintf(stderr, "#%u accepted invite to conference %u\n", state->index, state->conference);
}
}
static void handle_conference_connected(
Tox *tox, uint32_t conference_number, void *user_data)
{
State *state = (State *)user_data;
fprintf(stderr, "#%u connected to conference %u\n", state->index, state->conference);
state->connected = true;
}
static void iterate_alive(Tox **toxes, State *state)
{
for (uint32_t i = 0; i < NUM_INVITE_MERGE_TOX; i++) {
if (!state[i].alive) {
continue;
}
tox_iterate(toxes[i], &state[i]);
state[i].clock += ITERATION_INTERVAL;
}
c_sleep(20);
}
static void save(Tox **toxes, State *state, uint32_t n)
{
fprintf(stderr, "Saving #%u\n", state[n].index);
if (state[n].save_state != nullptr) {
free(state[n].save_state);
}
state[n].save_size = tox_get_savedata_size(toxes[n]);
state[n].save_state = (uint8_t *)malloc(state[n].save_size);
ck_assert_msg(state[n].save_state != nullptr, "malloc failed");
tox_get_savedata(toxes[n], state[n].save_state);
}
static void kill(Tox **toxes, State *state, uint32_t n)
{
fprintf(stderr, "Killing #%u\n", state[n].index);
state[n].alive = false;
tox_kill(toxes[n]);
}
static void reload(Tox **toxes, State *state, uint32_t n)
{
if (state[n].alive) {
state[n].alive = false;
tox_kill(toxes[n]);
}
fprintf(stderr, "Reloading #%u\n", state[n].index);
ck_assert(state[n].save_state != nullptr);
struct Tox_Options *const options = tox_options_new(nullptr);
tox_options_set_savedata_type(options, TOX_SAVEDATA_TYPE_TOX_SAVE);
tox_options_set_savedata_data(options, state[n].save_state, state[n].save_size);
toxes[n] = tox_new_log(options, nullptr, &state[n].index);
tox_options_free(options);
set_mono_time_callback(toxes[n], &state[n]);
state[n].alive = true;
}
static void wait_connected(Tox **toxes, State *state, uint32_t n, uint32_t friendnumber)
{
do {
iterate_alive(toxes, state);
} while (tox_friend_get_connection_status(toxes[n], friendnumber, nullptr) == TOX_CONNECTION_NONE);
}
static void do_invite(Tox **toxes, State *state, uint32_t inviter, uint32_t invitee, uint32_t friendnum)
{
fprintf(stderr, "#%u inviting #%u\n", state[inviter].index, state[invitee].index);
Tox_Err_Conference_Invite err;
tox_conference_invite(toxes[inviter], friendnum, state[inviter].conference, &err);
ck_assert_msg(err == TOX_ERR_CONFERENCE_INVITE_OK,
"#%u attempting to invite #%u (friendnumber %u) returned with an error: %d", state[inviter].index, state[invitee].index,
friendnum, err);
do {
iterate_alive(toxes, state);
} while (!state[invitee].connected);
}
static bool group_complete(Tox **toxes, State *state)
{
int c = -1, size = 0;
for (int i = 0; i < NUM_INVITE_MERGE_TOX; i++) {
if (!state[i].alive) {
continue;
}
const int ct = tox_conference_peer_count(toxes[i], state[i].conference, nullptr);
if (c == -1) {
c = ct;
} else if (c != ct) {
return false;
}
++size;
}
return (c == size);
}
static void wait_group_complete(Tox **toxes, State *state)
{
do {
iterate_alive(toxes, state);
} while (!group_complete(toxes, state));
}
static void conference_invite_merge_test(Tox **toxes, State *state)
{
// Test that an explicit invite between peers in different connected
// components will cause a split group to merge
for (int i = 0; i < NUM_INVITE_MERGE_TOX; i++) {
tox_callback_conference_invite(toxes[i], handle_conference_invite);
tox_callback_conference_connected(toxes[i], &handle_conference_connected);
state[i].alive = true;
state[i].save_state = nullptr;
}
{
// Create new conference, tox 2 is the founder.
Tox_Err_Conference_New err;
state[2].conference = tox_conference_new(toxes[2], &err);
state[2].connected = true;
ck_assert_msg(err == TOX_ERR_CONFERENCE_NEW_OK,
"attempting to create a new conference returned with an error: %d", err);
fprintf(stderr, "Created conference: index=%u\n", state[2].conference);
}
save(toxes, state, 2);
do_invite(toxes, state, 2, 1, 0);
do_invite(toxes, state, 1, 0, 0);
save(toxes, state, 1);
kill(toxes, state, 1);
do {
iterate_alive(toxes, state);
} while (tox_conference_peer_count(toxes[2], state[2].conference, nullptr) != 1);
do_invite(toxes, state, 2, 3, 1);
do_invite(toxes, state, 3, 4, 1);
kill(toxes, state, 2);
reload(toxes, state, 1);
uint8_t public_key[TOX_PUBLIC_KEY_SIZE];
tox_self_get_public_key(toxes[1], public_key);
tox_friend_add_norequest(toxes[3], public_key, nullptr);
tox_self_get_public_key(toxes[3], public_key);
tox_friend_add_norequest(toxes[1], public_key, nullptr);
wait_connected(toxes, state, 1, 2);
do_invite(toxes, state, 1, 3, 2);
fprintf(stderr, "Waiting for group to merge\n");
wait_group_complete(toxes, state);
fprintf(stderr, "Group merged\n");
reload(toxes, state, 2);
wait_connected(toxes, state, 2, 0);
do_invite(toxes, state, 2, 1, 0);
fprintf(stderr, "Waiting for #2 to rejoin\n");
wait_group_complete(toxes, state);
kill(toxes, state, 2);
wait_group_complete(toxes, state);
reload(toxes, state, 2);
wait_connected(toxes, state, 2, 0);
wait_connected(toxes, state, 1, 1);
do_invite(toxes, state, 1, 2, 1);
fprintf(stderr, "Waiting for #2 to rejoin\n");
wait_group_complete(toxes, state);
for (int i = 0; i < NUM_INVITE_MERGE_TOX; i++) {
if (state[i].save_state != nullptr) {
free(state[i].save_state);
}
}
}
int main(void)
{
setvbuf(stdout, nullptr, _IONBF, 0);
run_auto_test(NUM_INVITE_MERGE_TOX, conference_invite_merge_test, true);
return 0;
}
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