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 testcase20(void) { /* weird $BOOTSTATE cases */ gchar* module_name = g_strconcat(dsme_module_path, "state.so", NULL); // do not specify $BOOTSTATE module_t* state = load_module_under_test(module_name); DSM_MSGTYPE_STATE_CHANGE_IND* ind; 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); // specify a bad $BOOTSTATE state = load_state_module("DIIBADAABA", DSME_STATE_USER); DSM_MSGTYPE_ENTER_MALF* msg; assert(msg = queued(DSM_MSGTYPE_ENTER_MALF)); free(msg); assert(!timer_exists()); assert(message_queue_is_empty()); unload_module_under_test(state); // specify SHUTDOWN setenv("BOOTSTATE", "SHUTDOWN", true); state = load_module_under_test(module_name); unsetenv("BOOTSTATE"); expect_shutdown(state); unload_module_under_test(state); // specify SHUTDOWN setenv("BOOTSTATE", "SHUTDOWN", true); state = load_module_under_test(module_name); unsetenv("BOOTSTATE"); expect_shutdown(state); unload_module_under_test(state); // specify BOOT setenv("BOOTSTATE", "BOOT", true); state = load_module_under_test(module_name); unsetenv("BOOTSTATE"); expect_reboot(state); unload_module_under_test(state); g_free(module_name); }
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 testcase2b(void) { /* * continue after booting to actdead * 2. unplug a known to be plugged in charger * 3. wait for the shutdown to happen */ module_t* state = load_state_module("ACT_DEAD", DSME_STATE_ACTDEAD); assert(!timer_exists()); // unplug charger connect_charger(state); assert(!timer_exists()); assert(message_queue_is_empty()); disconnect_charger(state); assert(timer_exists()); assert(message_queue_is_empty()); // plug charger connect_charger(state); assert(!timer_exists()); // unplug charger disconnect_charger(state); assert(message_queue_is_empty()); assert(timer_exists()); // wait for the shutdown trigger_timer(); expect_shutdown(state); unload_module_under_test(state); }
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 testcase21(void) { /* non-rd_mode cases and cal problems */ // non-rd_mode rd_mode = ""; setenv("BOOTSTATE", "DIIBADAABA", true); module_t* state = load_module_under_test("../modules/libstate.so"); unsetenv("BOOTSTATE"); DSM_MSGTYPE_STATE_CHANGE_IND* ind; assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND))); assert(ind->state == DSME_STATE_MALF); free(ind); assert(message_queue_is_empty()); assert(timer_exists()); trigger_timer(); DSM_MSGTYPE_HWWD_KICK* ind3; assert((ind3 = queued(DSM_MSGTYPE_HWWD_KICK))); free(ind3); DSM_MSGTYPE_SHUTDOWN* msg; assert((msg = queued(DSM_MSGTYPE_SHUTDOWN))); assert(msg->runlevel == 8); free(msg); assert(message_queue_is_empty()); assert(!timer_exists()); unload_module_under_test(state); // cal problem rd_mode = 0; setenv("BOOTSTATE", "DIIBADAABA", true); state = load_module_under_test("../modules/libstate.so"); unsetenv("BOOTSTATE"); assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND))); assert(ind->state == DSME_STATE_MALF); free(ind); assert(message_queue_is_empty()); assert(timer_exists()); trigger_timer(); assert((ind3 = queued(DSM_MSGTYPE_HWWD_KICK))); free(ind3); assert((msg = queued(DSM_MSGTYPE_SHUTDOWN))); assert(msg->runlevel == 8); free(msg); assert(message_queue_is_empty()); assert(!timer_exists()); unload_module_under_test(state); }
static void testcase22(void) { /* TEST/LOCAL mode */ // boot to TEST state module_t* state = load_state_module("TEST", DSME_STATE_TEST); assert(!timer_exists()); unload_module_under_test(state); }
static void testcase21(void) { /* non-rd_mode cases and cal problems */ gchar* module_name = g_strconcat(dsme_module_path, "state.so", NULL); // non-rd_mode rd_mode = ""; unsetenv("DSME_RD_FLAGS_ENV"); setenv("BOOTSTATE", "DIIBADAABA", true); module_t* state = load_module_under_test(module_name); unsetenv("BOOTSTATE"); DSM_MSGTYPE_STATE_CHANGE_IND* ind; assert(ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND)); assert(ind->state == DSME_STATE_USER); free(ind); assert(!message_queue_is_empty()); DSM_MSGTYPE_ENTER_MALF* malfmsg; assert((malfmsg = queued(DSM_MSGTYPE_ENTER_MALF))); //TODO: Should the reason / component be checked? free(malfmsg); assert(message_queue_is_empty()); assert(!timer_exists()); unload_module_under_test(state); // cal problem rd_mode = 0; setenv("BOOTSTATE", "DIIBADAABA", true); state = load_module_under_test(module_name); unsetenv("BOOTSTATE"); assert(ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND)); assert(ind->state == DSME_STATE_USER); free(ind); assert(!message_queue_is_empty()); assert(malfmsg = queued(DSM_MSGTYPE_ENTER_MALF)); //TODO: Should the reason / component be checked? free(malfmsg); assert(message_queue_is_empty()); assert(!timer_exists()); unload_module_under_test(state); g_free(module_name); }
static void testcase7(void) { /* start in actdead */ module_t* state = load_state_module("ACT_DEAD", DSME_STATE_ACTDEAD); assert(!timer_exists()); assert(message_queue_is_empty()); assert(!timer_exists()); unload_module_under_test(state); }
static void testcase1(void) { /* request shutdown right after starting in user state */ module_t* state = load_state_module("USER", DSME_STATE_USER); assert(!timer_exists()); request_shutdown_expecting_reboot(state); unload_module_under_test(state); }
static void testcase20(void) { /* weird $BOOTSTATE cases */ // do not specify $BOOTSTATE module_t* state = load_module_under_test("../modules/libstate.so"); DSM_MSGTYPE_STATE_CHANGE_IND* ind; assert((ind = queued(DSM_MSGTYPE_STATE_CHANGE_IND))); assert(ind->state == DSME_STATE_MALF); free(ind); assert(message_queue_is_empty()); assert(!timer_exists()); unload_module_under_test(state); // specify a bad $BOOTSTATE state = load_state_module("DIIBADAABA", DSME_STATE_MALF); assert(!timer_exists()); assert(message_queue_is_empty()); unload_module_under_test(state); // specify SHUTDOWN setenv("BOOTSTATE", "SHUTDOWN", true); state = load_module_under_test("../modules/libstate.so"); unsetenv("BOOTSTATE"); expect_shutdown(state); unload_module_under_test(state); // specify SHUTDOWN setenv("BOOTSTATE", "SHUTDOWN", true); state = load_module_under_test("../modules/libstate.so"); unsetenv("BOOTSTATE"); expect_shutdown(state); unload_module_under_test(state); // specify BOOT setenv("BOOTSTATE", "BOOT", true); state = load_module_under_test("../modules/libstate.so"); unsetenv("BOOTSTATE"); expect_reboot(state); unload_module_under_test(state); }
static void testcase8(void) { /* start in actdead and unplug the charger */ module_t* state = load_state_module("ACT_DEAD", DSME_STATE_ACTDEAD); assert(!timer_exists()); // unplug charger disconnect_charger(state); expect_shutdown(state); unload_module_under_test(state); }
static void testcase1(void) { /* request shutdown right after starting in user state */ module_t* state = load_state_module("USER", DSME_STATE_USER); assert(!timer_exists()); request_shutdown_expecting_actdead(state); unload_module_under_test(state); assert(g_slist_length(dbus_signal_bindings) == 0); }
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 testcase4(void) { /* request shutdown when charger is known to be unplugged */ // boot to user state module_t* state = load_state_module("USER", DSME_STATE_USER); assert(!timer_exists()); disconnect_charger(state); request_shutdown_expecting_shutdown(state); unload_module_under_test(state); }
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 testcase6(void) { module_t* state = load_state_module("USER", DSME_STATE_USER); assert(!timer_exists()); // plug and unplug charger connect_charger(state); assert(message_queue_is_empty()); assert(!timer_exists()); disconnect_charger(state); assert(message_queue_is_empty()); assert(!timer_exists()); unload_module_under_test(state); }
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 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 testcase2(void) { /* * 1. request shutdown when charger is known to be plugged in */ // boot to user state module_t* state = load_state_module("USER", DSME_STATE_USER); assert(!timer_exists()); // request shutdown when charger connected connect_charger(state); assert(message_queue_is_empty()); assert(!timer_exists()); request_shutdown_expecting_actdead(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); }
static void testcase3(void) { /* * 1. request shutdown when charger is known to be plugged in * 2. unplug charger * 3. plug the charger back in * 4. unplug charger * 5. wait for the shutdown to happen */ // boot to user state module_t* state = load_state_module("USER", DSME_STATE_USER); assert(!timer_exists()); // request shutdown when charger connected connect_charger(state); assert(message_queue_is_empty()); assert(!timer_exists()); request_shutdown_expecting_reboot(state); unload_module_under_test(state); }
static void testcase9(void) { /* start in actdead and plug and uplug the charger */ module_t* state = load_state_module("ACT_DEAD", DSME_STATE_ACTDEAD); assert(!timer_exists()); // plug charger connect_charger(state); assert(message_queue_is_empty()); assert(!timer_exists()); // unplug charger disconnect_charger(state); assert(message_queue_is_empty()); assert(timer_exists()); // wait for the shutdown trigger_timer(); expect_shutdown(state); 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); }