static void testcase10(void)
{
/* try to shut down when an emergency call is ongoing */
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
// unplug charger
disconnect_charger(state);
assert(message_queue_is_empty());
assert(!timer_exists());
// set up an emergency call
DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE msg =
TEST_MSG_INIT(DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE);
msg.ongoing = true;
send_message(state, &msg);
// request shutdown
DSM_MSGTYPE_SHUTDOWN_REQ msg2 = TEST_MSG_INIT(DSM_MSGTYPE_SHUTDOWN_REQ);
send_message(state, &msg2);
assert(message_queue_is_empty());
assert(!timer_exists());
// stop the emergency call
msg.ongoing = false;
send_message(state, &msg);
expect_shutdown(state);
unload_module_under_test(state);
}
static void testcase17(void)
{
/*
* 1. overheat
* 2. cool down before shutdown; we still have to shutdown
*/
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
// overheat
DSM_MSGTYPE_SET_THERMAL_STATE msg =
TEST_MSG_INIT(DSM_MSGTYPE_SET_THERMAL_STATE);
msg.overheated = true;
send_message(state, &msg);
assert(message_queue_is_empty());
assert(timer_exists());
// cool down
DSM_MSGTYPE_SET_THERMAL_STATE msg2 =
TEST_MSG_INIT(DSM_MSGTYPE_SET_THERMAL_STATE);
msg2.overheated = false;
send_message(state, &msg2);
assert(message_queue_is_empty());
assert(timer_exists());
trigger_timer();
expect_shutdown(state);
unload_module_under_test(state);
}
static void testcase14(void)
{
/*
* 1. request shutdown when charger is known to be plugged in
* 2. start emergency call before timer runs out
* 3. stop emergency call
*/
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
// plug in charger
connect_charger(state);
assert(message_queue_is_empty());
assert(!timer_exists());
// request shutdown
DSM_MSGTYPE_SHUTDOWN_REQ msg = TEST_MSG_INIT(DSM_MSGTYPE_SHUTDOWN_REQ);
send_message(state, &msg);
DSM_MSGTYPE_STATE_CHANGE_IND* ind;
assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND)));
assert(ind->state == DSME_STATE_ACTDEAD);
free(ind);
DSM_MSGTYPE_SAVE_DATA_IND* ind2;
assert((ind2 = queued(DSM_MSGTYPE_SAVE_DATA_IND)));
free(ind2);
assert(message_queue_is_empty());
assert(timer_exists());
// start emergency call
DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE msg2 =
TEST_MSG_INIT(DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE);
msg2.ongoing = true;
send_message(state, &msg2);
assert(message_queue_is_empty());
assert(!timer_exists());
// stop emergency call
DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE msg3 =
TEST_MSG_INIT(DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE);
msg3.ongoing = false;
send_message(state, &msg3);
// TODO: should we go to actdead instead?
assert(message_queue_is_empty());
assert(!timer_exists());
unload_module_under_test(state);
}
static void set_charger_state(module_t* state, bool connected)
{
DSM_MSGTYPE_SET_CHARGER_STATE msg =
TEST_MSG_INIT(DSM_MSGTYPE_SET_CHARGER_STATE);
msg.connected = connected;
send_message(state, &msg);
}
static void request_shutdown_expecting_shutdown(module_t* state)
{
DSM_MSGTYPE_SHUTDOWN_REQ msg = TEST_MSG_INIT(DSM_MSGTYPE_SHUTDOWN_REQ);
send_message(state, &msg);
expect_shutdown(state);
}
static void request_shutdown_expecting_actdead(module_t* state)
{
DSM_MSGTYPE_SHUTDOWN_REQ msg = TEST_MSG_INIT(DSM_MSGTYPE_SHUTDOWN_REQ);
send_message(state, &msg);
DSM_MSGTYPE_STATE_CHANGE_IND* ind;
assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND)));
assert(ind->state == DSME_STATE_ACTDEAD);
free(ind);
DSM_MSGTYPE_SAVE_DATA_IND* ind2;
assert((ind2 = queued(DSM_MSGTYPE_SAVE_DATA_IND)));
free(ind2);
assert(message_queue_is_empty());
assert(timer_exists());
trigger_timer();
DSM_MSGTYPE_CHANGE_RUNLEVEL* msg2;
assert((msg2 = queued(DSM_MSGTYPE_CHANGE_RUNLEVEL)));
assert(msg2->runlevel == 5);
free(msg2);
assert(!timer_exists());
assert(message_queue_is_empty());
}
static void unload_usbtracker(void)
{
DSM_MSGTYPE_DBUS_DISCONNECT msg = TEST_MSG_INIT(DSM_MSGTYPE_DBUS_DISCONNECT);
send_message(usbtracker_module, &msg);
unload_module_under_test(usbtracker_module);
assert(g_slist_length(dbus_signal_bindings) == 0);
}
static void testcase18(void)
{
/*
* 1. start in actdead
* 2. request startup
*/
module_t* state = load_state_module("ACT_DEAD", DSME_STATE_ACTDEAD);
assert(!timer_exists());
assert(message_queue_is_empty());
// query state
DSM_MSGTYPE_STATE_QUERY msg = TEST_MSG_INIT(DSM_MSGTYPE_STATE_QUERY);
send_message(state, &msg);
DSM_MSGTYPE_STATE_CHANGE_IND* ind;
assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND)));
assert(ind->state == DSME_STATE_ACTDEAD);
free(ind);
assert(message_queue_is_empty());
assert(!timer_exists());
// request startup
DSM_MSGTYPE_POWERUP_REQ msg2 = TEST_MSG_INIT(DSM_MSGTYPE_POWERUP_REQ);
send_message(state, &msg2);
assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND)));
assert(ind->state == DSME_STATE_USER);
free(ind);
assert(timer_exists());
trigger_timer();
DSM_MSGTYPE_CHANGE_RUNLEVEL* req;
assert((req = queued(DSM_MSGTYPE_CHANGE_RUNLEVEL)));
assert(req->runlevel == 2);
assert(message_queue_is_empty());
assert(!timer_exists());
// query state
send_message(state, &msg);
assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND)));
assert(ind->state == DSME_STATE_USER);
free(ind);
assert(message_queue_is_empty());
assert(!timer_exists());
unload_module_under_test(state);
}
static void load_emergencycalltracker(void)
{
gchar* module_name = g_strconcat(dsme_module_path, "emergencycalltracker.so", NULL);
emergencycalltracker_module = load_module_under_test(module_name);
DSM_MSGTYPE_DBUS_CONNECT msg = TEST_MSG_INIT(DSM_MSGTYPE_DBUS_CONNECT);
send_message(emergencycalltracker_module, &msg);
g_free(module_name);
}
static void load_usbtracker(void)
{
gchar* module_name_tmp = g_strconcat(dsme_module_path, "usbtracker.so", NULL);
usbtracker_module = load_module_under_test(module_name_tmp);
DSM_MSGTYPE_DBUS_CONNECT msg = TEST_MSG_INIT(DSM_MSGTYPE_DBUS_CONNECT);
send_message(usbtracker_module, &msg);
g_free(module_name_tmp);
}
static void testcase23(void)
{
/* broken timers */
// thermal shutdown when not able to create a timer
dsme_create_timer_fails = 1;
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
DSM_MSGTYPE_SET_THERMAL_STATE msg =
TEST_MSG_INIT(DSM_MSGTYPE_SET_THERMAL_STATE);
msg.overheated = true;
send_message(state, &msg);
DSM_MSGTYPE_STATE_CHANGE_IND* ind2;
assert((ind2 = queued(DSM_MSGTYPE_STATE_CHANGE_IND)));
assert(ind2->state == DSME_STATE_SHUTDOWN);
free(ind2);
DSM_MSGTYPE_SAVE_DATA_IND* ind3;
assert((ind3 = queued(DSM_MSGTYPE_SAVE_DATA_IND)));
free(ind3);
assert(message_queue_is_empty());
assert(timer_exists());
trigger_timer();
DSM_MSGTYPE_HWWD_KICK* ind4;
assert((ind4 = queued(DSM_MSGTYPE_HWWD_KICK)));
free(ind4);
DSM_MSGTYPE_SHUTDOWN* msg2;
assert((msg2 = queued(DSM_MSGTYPE_SHUTDOWN)));
assert(msg2->runlevel == 0);
free(msg2);
assert(!timer_exists());
assert(message_queue_is_empty());
unload_module_under_test(state);
// start in actdead and plug and unplug the charger, but timer fails
dsme_create_timer_fails = 1;
state = load_state_module("ACT_DEAD", DSME_STATE_ACTDEAD);
assert(!timer_exists());
connect_charger(state);
assert(message_queue_is_empty());
assert(!timer_exists());
disconnect_charger(state);
expect_shutdown(state);
assert(!timer_exists());
assert(message_queue_is_empty());
unload_module_under_test(state);
}
static void load_alarmtracker(long int alarmtime)
{
set_alarm_queue(alarmtime);
gchar* module_name_tmp = g_strconcat(dsme_module_path, "alarmtracker.so", NULL);
alarmtracker_module = load_module_under_test(module_name_tmp);
DSM_MSGTYPE_DBUS_CONNECT msg = TEST_MSG_INIT(DSM_MSGTYPE_DBUS_CONNECT);
send_message(alarmtracker_module, &msg);
g_free(module_name_tmp);
}
/* Set alarm with com.nokia.time dbus interface */
static void test_init_set_alarm_in5min(void)
{
load_alarmtracker(0);
DBusMessage* alarm_setup_msg = dbus_message_new_signal("/com/nokia/time", "com.nokia.time", "next_bootup_event");
time_t new_alarm_time = time(0)+300;
dbus_message_append_args(alarm_setup_msg,
DBUS_TYPE_INT32, &new_alarm_time);
dsme_dbus_stub_send_signal(alarm_setup_msg);
free(alarm_setup_msg);
assert(!message_queue_is_empty());
assert(queued(DSM_MSGTYPE_WAIT));
assert(message_queue_is_empty());
DSM_MSGTYPE_WAKEUP wakeupmsg =
TEST_MSG_INIT(DSM_MSGTYPE_WAKEUP);
send_message(alarmtracker_module, &wakeupmsg);
/* INTERNAL MSGs */
DSM_MSGTYPE_SET_ALARM_STATE *msg;
assert(message_queue_is_empty());
/* DBUS IF */
assert(dbusmsgq_async->len == 0);
assert(dbusmsgq_blocking->len == 0);
/* DSMESOCK */
assert((msg = queued_dsmesock(DSM_MSGTYPE_SET_ALARM_STATE)));
assert(msg->alarm_set);
free(msg);
assert(g_slist_length(dsmesock_broadcasts)==0);
assert(timer_exists());
sumtime(first_timer_seconds());
trigger_timer();
assert(!message_queue_is_empty());
assert((msg = queued(DSM_MSGTYPE_SET_ALARM_STATE)));
assert(msg->alarm_set);
free(msg);
assert(dbusmsgq_async->len == 0);
assert(dbusmsgq_blocking->len == 0);
assert(g_slist_length(dsmesock_broadcasts)==0);
assert(!timer_exists());
unload_alarmtracker();
}
static void testcase5(void)
{
/*
* 1. request shutdown when charger is known to be unplugged
* 2. plug in charger before timer runs out
* => expect shutdown
*/
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
// unplug charger
disconnect_charger(state);
assert(message_queue_is_empty());
assert(!timer_exists());
// request shutdown
DSM_MSGTYPE_SHUTDOWN_REQ msg = TEST_MSG_INIT(DSM_MSGTYPE_SHUTDOWN_REQ);
send_message(state, &msg);
DSM_MSGTYPE_STATE_CHANGE_IND* ind;
assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND)));
assert(ind->state == DSME_STATE_SHUTDOWN);
free(ind);
DSM_MSGTYPE_SAVE_DATA_IND* ind2;
assert((ind2 = queued(DSM_MSGTYPE_SAVE_DATA_IND)));
free(ind2);
assert(message_queue_is_empty());
assert(timer_exists());
// plug in charger
connect_charger(state);
assert(message_queue_is_empty());
// expect shutdown
trigger_timer();
DSM_MSGTYPE_HWWD_KICK* ind3;
assert((ind3 = queued(DSM_MSGTYPE_HWWD_KICK)));
free(ind3);
DSM_MSGTYPE_SHUTDOWN* msg2;
assert((msg2 = queued(DSM_MSGTYPE_SHUTDOWN)));
assert(msg2->runlevel == 0);
free(msg2);
assert(!timer_exists());
assert(message_queue_is_empty());
unload_module_under_test(state);
}
static void testcase15(void)
{
/* emergency call */
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
// start emergency call
DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE msg =
TEST_MSG_INIT(DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE);
msg.ongoing = true;
send_message(state, &msg);
assert(message_queue_is_empty());
assert(!timer_exists());
// stop emergency call
DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE msg2 =
TEST_MSG_INIT(DSM_MSGTYPE_SET_EMERGENCY_CALL_STATE);
msg2.ongoing = false;
send_message(state, &msg2);
assert(message_queue_is_empty());
assert(!timer_exists());
unload_module_under_test(state);
}
static void testcase19(void)
{
/* request shutdown when an alarm is about to happen */
// boot to user state
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
disconnect_charger(state);
// set up an alarm
DSM_MSGTYPE_SET_ALARM_STATE msg = TEST_MSG_INIT(DSM_MSGTYPE_SET_ALARM_STATE);
msg.alarm_set = true;
send_message(state, &msg);
request_shutdown_expecting_reboot(state);
unload_module_under_test(state);
}
static void testcase11(void)
{
/* reboot */
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
// unplug charger
disconnect_charger(state);
assert(message_queue_is_empty());
assert(!timer_exists());
// request reboot
DSM_MSGTYPE_REBOOT_REQ msg = TEST_MSG_INIT(DSM_MSGTYPE_REBOOT_REQ);
send_message(state, &msg);
expect_reboot(state);
unload_module_under_test(state);
}
static void testcase16(void)
{
/* thermal shutdown due to overheating */
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
DSM_MSGTYPE_SET_THERMAL_STATE msg =
TEST_MSG_INIT(DSM_MSGTYPE_SET_THERMAL_STATE);
msg.overheated = true;
send_message(state, &msg);
assert(message_queue_is_empty());
assert(timer_exists());
trigger_timer();
expect_shutdown(state);
unload_module_under_test(state);
}
static void testcase12(void)
{
/* shutdown on empty battery */
module_t* state = load_state_module("USER", DSME_STATE_USER);
assert(!timer_exists());
// unplug charger
disconnect_charger(state);
// indicate an empty battery
DSM_MSGTYPE_SET_BATTERY_STATE msg =
TEST_MSG_INIT(DSM_MSGTYPE_SET_BATTERY_STATE);
msg.empty = true;
send_message(state, &msg);
assert(timer_exists());
trigger_timer();
DSM_MSGTYPE_BATTERY_EMPTY_IND* ind;
assert((ind = queued(DSM_MSGTYPE_BATTERY_EMPTY_IND)));
free(ind);
DSM_MSGTYPE_STATE_CHANGE_IND* ind2;
assert((ind2 = queued(DSM_MSGTYPE_STATE_CHANGE_IND)));
assert(ind2->state == DSME_STATE_SHUTDOWN);
free(ind2);
DSM_MSGTYPE_SAVE_DATA_IND* ind3;
assert((ind3 = queued(DSM_MSGTYPE_SAVE_DATA_IND)));
free(ind3);
// expect shutdown
trigger_timer();
DSM_MSGTYPE_SHUTDOWN* msg2;
assert((msg2 = queued(DSM_MSGTYPE_SHUTDOWN)));
assert(msg2->runlevel == 0);
free(msg2);
assert(!timer_exists());
assert(message_queue_is_empty());
unload_module_under_test(state);
}