Пример #1
0
/*
 * Generate status string from bitfield
 */
static void upsc_setstatus(unsigned int status)
{

	/*
	 * I'll look for all available statuses, even though they might not be
	 *  supported in the UPScode II protocol.
	 */

	status_init();

	if (status & UPSC_STAT_ONLINE)
		status_set("OL");
	if (status & UPSC_STAT_ONBATT)
		status_set("OB");
	if (status & UPSC_STAT_LOBATT)
		status_set("LB");
	if (status & UPSC_STAT_REPLACEBATT)
		status_set("RB");
	if (status & UPSC_STAT_BOOST)
		status_set("BOOST");
	if (status & UPSC_STAT_TRIM)
		status_set("TRIM");
	if (status & UPSC_STAT_OVERLOAD)
		status_set("OVER");
	if (status & UPSC_STAT_CALIBRATION)
		status_set("CAL");
	if (status & UPSC_STAT_OFF)
		status_set("OFF");
	if (status & UPSC_STAT_BYPASS)
		status_set("BYPASS");

	status_commit();
}
Пример #2
0
void update_battery_charge_dchrg_status()
{
  if (buf[BAT_CHRG_DISCHRG_STATUS] == '0')
    status_set("DISCHRG");
  else
    status_set("CHRG");
}
Пример #3
0
void upsdrv_updateinfo(void)
{
	if (ivt_status() < 7) {
		dstate_datastale();
		return;
	}

	dstate_setinfo("battery.voltage", "%.2f", battery.voltage.act);
	dstate_setinfo("battery.voltage.minimum", "%.2f", battery.voltage.min);
	dstate_setinfo("battery.voltage.maximum", "%.2f", battery.voltage.max);

	dstate_setinfo("battery.current", "%.1f", battery.current.act);
	dstate_setinfo("battery.current.minimum", "%.1f", battery.current.min);
	dstate_setinfo("battery.current.maximum", "%.1f", battery.current.max);

	dstate_setinfo("battery.temperature", "%.0f", battery.temperature);

	status_init();

	if (battery.current.act > 0) {
		status_set("OL");		/* charging */
	} else {
		status_set("OB");		/* discharging */
	}

	if (battery.voltage.act < battery.voltage.low) {
		status_set("LB");
	}

	status_commit();

	dstate_dataok();
}
Пример #4
0
void update_battery_status()
{
  if((buf[BAT_STATUS])=='0')
    status_set("OB");                   //battery normal
  else if((buf[BAT_STATUS])=='1')
    status_set("RB");                  //battery low trip output
  else
    status_set("LB");
}
Пример #5
0
void upsdrv_updateinfo(void)
{
	char	reply[REPLY_PACKETSIZE];
	int	ret, online, battery_normal;

	if (!udev) {
		ret = usb_device_open(&udev, &usbdevice, &device_matcher, &driver_callback);

		if (ret < 0) {
			return;
		}
	}

	ret = query_ups(reply);

	if (ret < 4) {
		usb_comm_fail("Query to UPS failed");
		dstate_datastale();

		usb_device_close(udev);
		udev = NULL;

		return;
	}

	usb_comm_good();
	dstate_dataok();

	/*
	 * 3rd bit of 4th byte indicates whether the UPS is on line (1)
	 * or on battery (0)
	 */
	online = (reply[3]&4)>>2;

	/*
	 * 2nd bit of 4th byte indicates battery status; normal (1)
	 * or low (0)
	 */
	battery_normal = (reply[3]&2)>>1;

	status_init();

	if (online) {
	    status_set("OL");
	} else {
	    status_set("OB");
	}

	if (!battery_normal) {
	    status_set("LB");
	}

	status_commit();
}
Пример #6
0
int main(void)
{
    char str[30];
    status_init();
    adc_init();
    
    status_set(false);
    
    uart_init(1);
    twi_init(0xC);
    twi_enable_interrupt();
    twi_register_get(get);
    
    measurement = 0;
    
    sei();
    
    while (1) {
        
        // VRef is 2.56V
        // at T = 0, VOut = 0V. VOut scales at 10mV / ºC
        // T = adc * (2.56 / 1024) * 100
        // T = adc * 256 / 1024
        // T = adc / 4
        uint16_t read = adc_read();
        measurement = read / 4;
        sprintf(str, "%dºC (raw = %d)", measurement, read);
        
        uart_send(str);
        _delay_ms(500);
    }
    
}
Пример #7
0
bool advertise_advertise(void)
{
    if (IS_CONNECTING)
    {
        return false;
    }

    //If advertising before, stop it.
    if (IS_ADVERTISING)
    {
        sd_ble_gap_adv_stop();
    }

    advertise_set_data();

    ble_gap_adv_params_t adv_settings = { 0 };
    adv_settings.type = BLE_GAP_ADV_TYPE_ADV_IND;
    adv_settings.fp = BLE_GAP_ADV_FP_ANY;
    adv_settings.interval = MSEC_TO_UNITS(25, UNIT_0_625_MS);
    adv_settings.timeout = BLE_GAP_ADV_TIMEOUT_GENERAL_UNLIMITED;

    APP_ERROR_CHECK(sd_ble_gap_adv_start(&adv_settings));
    status_set(STATUS_ADVERTISING);
    return true;
}
Пример #8
0
void update_load_status()
{
      int i;
      int x;
      char data[2];
      for(i=0;i<LOAD_LEN;i++)
      {
	 data[i] = buf[LOAD_STATUS+i];
      }
      data[i] = '\0';
      x = atoi(data);
      if(x == 2)
	status_set("OVER");             //over load
      else
	status_set("TRIM");             //over load trip out
}
Пример #9
0
ISR(TWI_vect, ISR_BLOCK) {
    
    status_set(true);
    //uart_send("TWI ISR");
    //DUMP_ERROR();
    if (TW_STATUS == TW_SR_SLA_ACK) {
        
        //uart_send("Got my SLA+W");
        command = 0xFF;
        
    } else if (TW_STATUS == TW_ST_SLA_ACK) {
        
        if (command == 0x0) {
            //uart_send("Got into a ST with a PUT --- wwwwat");
        } else {
        
            //uart_send("Got a GET");
            if (get_callback) {
                TWDR = get_callback();
            } else {
                //uart_send("No callback, sending 0xFF");
                TWDR = 0xFF;
            }
            
            // For the last data byte we need to set ack to 0
            SEND(0, 0);
            return;
        }
        
    } else if (TW_STATUS == TW_SR_DATA_ACK) {
        
        if (command == 0xFF) {
            command = TWDR;
            
            //sprintf(str, "Got command = %x", command);
            //uart_send(str);
            
        } else if (command == 0x0) {
            
            //uart_send("Got a PUT");
            if (put_callback) {
                put_callback(TWDR);
            }
            
        } else {
            //uart_send("WAAAAAAT -- Got a DATA ACK on a GET");
        }
        
    } else if (TW_STATUS == TW_ST_DATA_ACK) {
        
        //uart_send("WTF - Got DATA ACK on ST");
        
    }
    
    SEND(1, 0);
}
Пример #10
0
static void status_reset(void)
{
	LOG_INFO("Resetting status control data\n");

	status_set(BSM2_NOFIX);

	MOVING_AVG_RESET(&alt_delta);
	MOVING_AVG_RESET(&press_delta);
	curr_vdir = HOVERING;
}
Пример #11
0
static int setvar(const char *varname, const char *val)
{
	dummy_info_t *item;

	upsdebugx(2, "entering setvar(%s, %s)", varname, val);

	/* FIXME: the below is only valid if (mode == MODE_DUMMY)
	 * if (mode == MODE_REPEATER) => forward
	 * if (mode == MODE_META) => ?
	 */
	if (!strncmp(varname, "ups.status", 10))
	{
		status_init();
		 /* FIXME: split and check values (support multiple values), à la usbhid-ups */
		status_set(val);
		status_commit();

		return STAT_SET_HANDLED;
	}

	/* Check variable validity */
	if (!is_valid_data(varname))
	{
		upsdebugx(2, "setvar: invalid variable name (%s)", varname);
		return STAT_SET_UNKNOWN;
	}

	/* Check value validity */
	if (!is_valid_value(varname, val))
	{
		upsdebugx(2, "setvar: invalid value (%s) for variable (%s)", val, varname);
		return STAT_SET_UNKNOWN;
	}

	/* If value is empty, remove the variable (FIXME: do we need
	 * a magic word?) */
	if (strlen(val) == 0)
	{
		dstate_delinfo(varname);
	}
	else
	{
		dstate_setinfo(varname, "%s", val);

		if ( (item = find_info(varname)) != NULL)
		{
			dstate_setflags(item->info_type, item->info_flags);

			/* Set max length for strings, if needed */
			if (item->info_flags & ST_FLAG_STRING)
				dstate_setaux(item->info_type, item->info_len);
		}
	}
	return STAT_SET_HANDLED;
}
Пример #12
0
void status_printf(int lvl, const char *t, ...)
{
    static char buf[256];
    va_list l;

    va_start(l, t);
    vsnprintf(buf, sizeof buf, t, l);
    va_end(l);

    status_set(lvl, buf);
}
Пример #13
0
void upsdrv_updateinfo(void)
{

        getupdateinfo(); /* new package for updates */

	dstate_setinfo("output.voltage", "%03.1f", OutVoltage);
	dstate_setinfo("input.voltage", "%03.1f", InVoltage);
	dstate_setinfo("battery.voltage", "%02.1f", BattVoltage);

	/* output and bypass tests */
	if( OutputOn )
	  dstate_setinfo("outlet.switchable", "%s", "yes");
	else
	  dstate_setinfo("outlet.switchable", "%s", "no");

	if( BypassOn )
	  dstate_setinfo("outlet.1.switchable", "%s", "yes");
	else
	  dstate_setinfo("outlet.1.switchable", "%s", "no");

	status_init();

	if (!SourceFail )
	  status_set("OL");		/* on line */
	else
	  status_set("OB");		/* on battery */
	
	if (Autonomy < 5 )
	  status_set("LB");		/* low battery */
	
	status_commit();
	dstate_setinfo("ups.temperature", "%2.2f", Temperature);
	dstate_setinfo("input.frequency", "%2.1f", InFreq);
	dstate_dataok();

}
Пример #14
0
void update_pseudovars( void )
{
	
	status_init();
	
	if(strcmp(sec_varlist[9].value,"1")== 0) {
	status_set("OFF");
	}
	if(strcmp(sec_varlist[76].value,"0")== 0) {
	status_set("OL");
	}
	if(strcmp(sec_varlist[76].value,"1")== 0) {
	status_set("OB");
	}
	if(strcmp(sec_varlist[76].value,"2")== 0) {
	status_set("BYPASS");
	}
	if(strcmp(sec_varlist[76].value,"3")== 0) {
	status_set("TRIM");
	}
	if(strcmp(sec_varlist[76].value,"4")== 0) {
	status_set("BOOST");
	}
	if(strcmp(sec_varlist[10].value,"1")== 0) {
	status_set("OVER");
	}
	if(strcmp(sec_varlist[22].value,"1")== 0) {
	status_set("LB");
	}
	
	if(strcmp(sec_varlist[19].value,"2")== 0) {
	status_set("RB");
	}
	
	status_commit();


}
Пример #15
0
void _protocol_dispatch(uint8_t cmd, uint8_t length) {
	status_set(STATUS_MESSAGE_RX);
	switch(cmd) {
		case 'A':
			for (uint8_t i = 0; i < 4; i++) {
				_last_flight_val[i] = (_buf)[i];
			}
			_last_flight_cmd = cmd;
			break;
		case 'M':
			_last_flight_cmd = cmd;
			break;
		case 'C':
			gyro_calibrate();
			accel_calibrate();
			protocol_send_diag("calibrated");
			break;
		case 't':
			pid_send_tuning();
			attitude_send_tuning();
			protocol_send_diag("tuning sent");
			break;
		case 'E':
			_telemetry_enabled = _telemetry_enabled ? 0x00 : 0x01;
			break;
		case 'r':
			_raw_enabled = _raw_enabled ? 0x00 : 0x01;
			break;
		case 'p':
			pid_receive_tuning(_buf);
			protocol_send_diag("pid received");
			break;
		case 'c':
		case 'k':
			if (attitude_get_id() == 'K') {
				attitude_receive_tuning(_buf);
				protocol_send_diag("kalman received");				
			} else if (attitude_get_id() == 'C') {
				attitude_receive_tuning(_buf);
				protocol_send_diag("complementary received");
			}
			break;
		}
}
Пример #16
0
int status_init(void) {
  int rv;
  // initialize the GPIO hardware
	XGpio_Initialize(&LED, XPAR_XPS_GPIO_1_DEVICE_ID );
	XGpio_SetDataDirection(&LED, 1, 0 );
  XGpio_DiscreteWrite(&LED,1,0x1F);
	
	XGpio_Initialize(&JP1, XPAR_XPS_GPIO_0_DEVICE_ID );
	XGpio_SetDataDirection(&JP1, 1, 0xF );

  status_set( 0, s_init );
  
  #ifdef __XMK__
  // I think using pthread_create is OK since this thread does not access any LwIP stuff.
  return pthread_create( &status_tid, NULL, status_thread, NULL );
  #else
    return 0;
  #endif
}
Пример #17
0
void protocol_send_message(uint8_t cmd, uint8_t *bytes, uint8_t length)
{
	_protocol_send_byte(START, 0);
	_protocol_send_byte(length + 1, 1);
	_protocol_send_byte(cmd, 0);
	
	uint8_t checksum = cmd;

	for (uint8_t i = 0; i < length; i++) {
		_protocol_send_byte(bytes[i], 1);
		checksum += bytes[i];
	}

	checksum = 0xff - checksum;

	_protocol_send_byte(checksum, 1);
	
	status_set(STATUS_MESSAGE_TX);
}
Пример #18
0
Файл: main.c Проект: elcerdo/avr
usbMsgLen_t usbFunctionSetup(uchar data[8])
{
    usbRequest_t    *rq = (void *)data;

    if (rq->bRequest == CUSTOM_RQ_LED_SET_STATUS) {
        status_set(rq->wValue.word & 1);
    } else if (rq->bRequest == CUSTOM_RQ_KEY_GET_STATUS) {
        keypad_update();
        DBG1(0x02, keypad_get(), 8);
        usbMsgPtr = keypad_get();
        return 8;
    } else if (rq->bRequest == CUSTOM_RQ_LEDS_SET_STATUS) {
        return USB_NO_MSG;
    } else if (rq->bRequest == CUSTOM_RQ_LEDS_SET_LAYER) {
        if (rq->wValue.word >= 0 && rq->wValue.word < MAXLAYER) current_layer = rq->wValue.word;
	} else if (rq->bRequest == CUSTOM_RQ_LEDS_SET_INTENSITY) {
        led_send_command(LED_INTENSITY,rq->wValue.bytes[0]);
    }
    return 0;
}
Пример #19
0
int main(int argc, char *argv[]) {

	SRunner *sr;
	int_t failed = 0;
	time_t prog_start, test_start, test_end;

	if (process_kill(PLACER("magmad", 18), SIGTERM, 10) < 0) {
		log_unit("Another instance of the Magma Daemon is already running and refuses to die.");
		exit(EXIT_FAILURE);
	}

	// Setup
	prog_start = time(NULL);

	// Updates the location of the config file if it was specified on the command line.
	check_args_parse(argc, argv);

	if (do_virus_check && !virus_check_data_path) {
		virus_check_data_path = ns_dupe(VIRUS_CHECK_DATA_PATH);
	}

	if (do_tank_check && !tank_check_data_path) {
		tank_check_data_path = ns_dupe(TANK_CHECK_DATA_PATH);
	}

	if (do_dspam_check && !dspam_check_data_path) {
		dspam_check_data_path = ns_dupe(DSPAM_CHECK_DATA_PATH);
	}

	/*if (do_virus_check) printf("doing virus check: [%s]\n", !virus_check_data_path ? "NONE" : virus_check_data_path); else printf ("skipping virus check\n");
	if (do_tank_check) printf("doing tank check: [%s]\n", !tank_check_data_path ? "NONE" : tank_check_data_path); else printf ("skipping tank check\n");
	if (do_dspam_check) printf("doing dspam check: [%s]\n", !dspam_check_data_path ? "NONE" : dspam_check_data_path); else printf ("skipping dspam check\n");
	printf("config file: [%s]\n", magma.config.file);
	exit(EXIT_SUCCESS);*/

	if (!process_start()) {
		log_unit("Initialization error. Exiting.\n");
		status_set(-1);
		process_stop();
		exit(EXIT_FAILURE);
	}

	// Only during development...
	cache_flush();

	// Unit Test Config
	sr = srunner_create(suite_check_magma());

	// Add the suites.
	srunner_add_suite(sr, suite_check_core());
	srunner_add_suite(sr, suite_check_provide());
	srunner_add_suite(sr, suite_check_network());
	srunner_add_suite(sr, suite_check_objects());
	srunner_add_suite(sr, suite_check_users());

	// If were being run under Valgrind, we need to disable forking and increase the default timeout.
	// Under Valgrind, forked checks appear to improperly timeout.
	if (RUNNING_ON_VALGRIND == 0 && (failed = running_on_debugger()) == 0) {
		log_unit("Not being traced or profiled...\n");
		srunner_set_fork_status (sr, CK_FORK);
		case_timeout = RUN_TEST_CASE_TIMEOUT;
	}
	else {
		// Trace detection attempted was thwarted.
		if (failed == -1)	log_unit("Trace detection was thwarted.\n");
		else log_unit("Tracing or debugging is active...\n");
		srunner_set_fork_status (sr, CK_NOFORK);
		case_timeout = PROFILE_TEST_CASE_TIMEOUT;
	}

	// Execute
	log_unit("--------------------------------------------------------------------------\n");

	test_start = time(NULL);
	srunner_run_all(sr, CK_SILENT);
	test_end = time(NULL);

	// Output timing.
	log_unit("--------------------------------------------------------------------------\n");
	log_unit("%-63.63s %9lus\n", "TEST DURATION:", test_end - test_start);
	log_unit("%-63.63s %9lus\n", "TOTAL DURATION:", test_end - prog_start);

	// Summary
	log_unit("--------------------------------------------------------------------------\n");
	failed = srunner_ntests_failed(sr);
	srunner_print(sr, CK_NORMAL);

	// The Check Output Ending
	log_unit("--------------------------------------------------------------------------\n");

	// Cleanup and free the resources allocated by the check code.
	status_set(-1);
	srunner_free(sr);

	ns_cleanup(virus_check_data_path);
	ns_cleanup(tank_check_data_path);
	ns_cleanup(dspam_check_data_path);

	// Cleanup and free the resources allocated by the magma code.
	process_stop();
	system_init_umask();

	exit((failed == 0) ? EXIT_SUCCESS : EXIT_FAILURE);
}
Пример #20
0
static void xmpp_iq_gameroom_open_cb(const char *msg,
                                     enum xmpp_msg_type type,
                                     void *args)
{
    /* Answer :
       <iq to='masterserver@warface/pve_2' type='get'>
        <query xmlns='urn:cryonline:k01'>
         <data query_name='gameroom_open' compressedData='...'
               originalSize='42'/>
        </query>
       </iq>
     */

    struct cb_args *a = (struct cb_args *) args;

    if (type & XMPP_TYPE_ERROR)
    {
        int code = get_info_int(msg, "code='", "'", NULL);
        int custom_code = get_info_int(msg, "custom_code='", "'", NULL);
        const char *reason = NULL;

        switch (code)
        {
            case 1006:
                reason = "QoS limit reached";
                break;
            case 8:
                switch (custom_code)
                {
                    case 0: /* Expired mission, update and try again */
                        if (++a->tries < 2)
                        {
                            struct mission *m =
                                mission_list_get_by_key(a->mission_key);

                            if (m != NULL)
                            {
                                a->mission_name = strdup(m->name);
                                mission_list_update(
                                    _open_updated_list,
                                    args);

                                return;
                            }
                        }

                        reason = "Expired missions";
                        break;
                    case 1:
                        reason = "Invalid or expired mission";
                        break;
                    case 12:
                        reason = "Rank restricted";
                        break;
                    case 21:
                        reason = "Invalid room name";
                        break;
                    default:
                        break;
                }
                break;
            default:
                break;
        }

        if (reason != NULL)
            eprintf("Failed to open room (%s)\n", reason);
        else
            eprintf("Failed to open room (%i:%i)\n", code, custom_code);
    }
    else
    {
        char *data = wf_get_query_content(msg);

        if (data == NULL)
        {
            free(a);
            return;
        }

        /* Leave previous room if any */
        if (session.gameroom.jid != NULL)
        {
            xmpp_presence(session.gameroom.jid, XMPP_PRESENCE_LEAVE, NULL, NULL);
            free(session.gameroom.group_id);
            session.gameroom.group_id = NULL;
            free(session.gameroom.jid);
            session.gameroom.jid = NULL;

            gameroom_sync_free();
        }

        char *room = get_info(data, "room_id='", "'", "Room ID");

        if (room != NULL)
        {
            /* Join XMPP room */
            char *room_jid;

            FORMAT(room_jid, "*****@*****.**",
                   session.online.channel, room);
            xmpp_presence(room_jid, XMPP_PRESENCE_JOIN, NULL, NULL);
            session.gameroom.jid = room_jid;

            /* Reset auto-ready */
            session.gameroom.desired_status = GAMEROOM_READY;

            gameroom_sync_init();
            gameroom_sync(data);

            status_set(STATUS_ONLINE | STATUS_ROOM);
        }

        if (a->fun != NULL)
            a->fun(room, a->args);

        free(room);

        free(data);
    }

    free(a->mission_name);
    a->mission_name = NULL;
    free(a->mission_key);
    a->mission_key = NULL;
    free(a);
}
Пример #21
0
static void xmpp_iq_gameroom_update_pvp_cb(const char *msg,
                                          enum xmpp_msg_type type,
                                          void *args)
{
    /* Answer :
       <iq to='masterserver@warface/pve_2' type='get'>
        <query xmlns='urn:cryonline:k01'>
         <data query_name='gameroom_update_pvp' compressedData='...'
               originalSize='42'/>
        </query>
       </iq>
     */

    struct cb_args *a = (struct cb_args *) args;

    if (type & XMPP_TYPE_ERROR)
    {
        const char *reason = NULL;

        int code = get_info_int(msg, "code='", "'", NULL);
        int custom_code = get_info_int(msg, "custom_code='", "'", NULL);

        switch (code)
        {
            case 8:
                switch (custom_code)
                {
                    case 1:
                        reason = LANG(error_unknown_mission);
                        break;
                    case 7:
                        reason = LANG(error_room_started);
                        break;
                    default:
                        break;
                }
                break;
            default:
                break;
        }

        if (reason != NULL)
            eprintf("%s (%s)",
                    LANG(error_gameroom_setinfo),
                    reason);
        else
            eprintf("%s (%i:%i)",
                    LANG(error_gameroom_setinfo),
                    code,
                    custom_code);
    }
    else
    {
        char *data = wf_get_query_content(msg);

        if (data == NULL)
            return;

        gameroom_sync(data);

        status_set(session.online.status);

        if (a->cb)
            a->cb(a->args);

        free(data);
    }

    free(a);
}
Пример #22
0
static int blazer_status(const char *cmd)
{
    const struct {
        const char	*var;
        const char	*fmt;
        double	(*conv)(const char *, char **);
    } status[] = {
        { "input.voltage", "%.1f", strtod },
        { "input.voltage.fault", "%.1f", strtod },
        { "output.voltage", "%.1f", strtod },
        { "ups.load", "%.0f", blazer_load },
        { "input.frequency", "%.1f", strtod },
        { "battery.voltage", "%.2f", blazer_battery },
        { "ups.temperature", "%.1f", strtod },
        { NULL }
    };

    char	buf[SMALLBUF], *val, *last = NULL;
    int	i;

    /*
     * > [Q1\r]
     * < [(226.0 195.0 226.0 014 49.0 27.5 30.0 00001000\r]
     *    01234567890123456789012345678901234567890123456
     *    0         1         2         3         4
     */
    if (blazer_command(cmd, buf, sizeof(buf)) < 46) {
        upsdebugx(2, "%s: short reply", __func__);
        return -1;
    }

    if (buf[0] != '(') {
        upsdebugx(2, "%s: invalid start character [%02x]", __func__, buf[0]);
        return -1;
    }

    for (i = 0, val = strtok_r(buf+1, " ", &last); status[i].var; i++, val = strtok_r(NULL, " \r\n", &last)) {

        if (!val) {
            upsdebugx(2, "%s: parsing failed", __func__);
            return -1;
        }

        if (strspn(val, "0123456789.") != strlen(val)) {
            upsdebugx(2, "%s: non numerical value [%s]", __func__, val);
            continue;
        }

        dstate_setinfo(status[i].var, status[i].fmt, status[i].conv(val, NULL));
    }

    if (!val) {
        upsdebugx(2, "%s: parsing failed", __func__);
        return -1;
    }

    if (strspn(val, "01") != 8) {
        upsdebugx(2, "Invalid status [%s]", val);
        return -1;
    }

    if (val[7] == '1') {	/* Beeper On */
        dstate_setinfo("ups.beeper.status", "enabled");
    } else {
        dstate_setinfo("ups.beeper.status", "disabled");
    }

    if (val[4] == '1') {	/* UPS Type is Standby (0 is On_line) */
        dstate_setinfo("ups.type", "offline / line interactive");
    } else {
        dstate_setinfo("ups.type", "online");
    }

    status_init();

    if (val[0] == '1') {	/* Utility Fail (Immediate) */
        status_set("OB");
        online = 0;
    } else {
        status_set("OL");
        online = 1;
    }

    if (val[1] == '1') {	/* Battery Low */
        status_set("LB");
    }

    if (val[2] == '1') {	/* Bypass/Boost or Buck Active */

        double	vi, vo;

        vi = strtod(dstate_getinfo("input.voltage"),  NULL);
        vo = strtod(dstate_getinfo("output.voltage"), NULL);

        if (vo < 0.5 * vi) {
            upsdebugx(2, "%s: output voltage too low", __func__);
        } else if (vo < 0.95 * vi) {
            status_set("TRIM");
        } else if (vo < 1.05 * vi) {
            status_set("BYPASS");
        } else if (vo < 1.5 * vi) {
            status_set("BOOST");
        } else {
            upsdebugx(2, "%s: output voltage too high", __func__);
        }
    }

    if (val[5] == '1') {	/* Test in Progress */
        status_set("CAL");
    }

    alarm_init();

    if (val[3] == '1') {	/* UPS Failed */
        alarm_set("UPS selftest failed!");
    }

    if (val[6] == '1') {	/* Shutdown Active */
        alarm_set("Shutdown imminent!");
        status_set("FSD");
    }

    alarm_commit();

    status_commit();

    return 0;
}
Пример #23
0
/* update information */
void upsdrv_updateinfo(void)
{
	char	val[32];
	
	if (!ups_getinfo()){
		return;
	}
	
	/* input.frequency */
	upsdebugx(3, "input.frequency   (raw data): [raw: %u]",
	                            raw_data[INPUT_FREQUENCY]);
	dstate_setinfo("input.frequency", "%02.2f", input_freq());
	upsdebugx(2, "input.frequency: %s", dstate_getinfo("input.frequency"));

	/* output.frequency */
	upsdebugx(3, "output.frequency   (raw data): [raw: %u]",
	                            raw_data[OUTPUT_FREQUENCY]);
	dstate_setinfo("output.frequency", "%02.2f", output_freq());
	upsdebugx(2, "output.frequency: %s", dstate_getinfo("output.frequency"));

	/* ups.load */	
	upsdebugx(3, "ups.load  (raw data): [raw: %u]",
	                            raw_data[UPS_LOAD]);
	dstate_setinfo("ups.load", "%03.1f", load_level());
	upsdebugx(2, "ups.load: %s", dstate_getinfo("ups.load"));

	/* battery.charge */
	upsdebugx(3, "battery.charge (raw data): [raw: %u]",
	                            raw_data[BATTERY_CHARGE]);
	dstate_setinfo("battery.charge", "%03.1f", batt_level());
	upsdebugx(2, "battery.charge: %s", dstate_getinfo("battery.charge"));

	/* input.voltage */	
	upsdebugx(3, "input.voltage (raw data): [raw: %u]",
	                            raw_data[INPUT_VOLTAGE]);
	dstate_setinfo("input.voltage", "%03.1f",input_voltage());
	upsdebugx(2, "input.voltage: %s", dstate_getinfo("input.voltage"));
	
	/* output.voltage */	
	upsdebugx(3, "output.voltage (raw data): [raw: %u]",
	                            raw_data[OUTPUT_VOLTAGE]);
	dstate_setinfo("output.voltage", "%03.1f",output_voltage());
	upsdebugx(2, "output.voltage: %s", dstate_getinfo("output.voltage"));

	status_init();
	
	*val = 0;
	if (!(raw_data[STATUS_A] & MAINS_FAILURE)) {
		!(raw_data[STATUS_A] & OFF) ? 
			status_set("OL") : status_set("OFF");
	} else {
		status_set("OB");
	}

	if (raw_data[STATUS_A] & LOW_BAT)  status_set("LB");

	if (raw_data[STATUS_A] & AVR_ON) {
		input_voltage() < linevoltage ? 
			status_set("BOOST") : status_set("TRIM");
	}

	if (raw_data[STATUS_A] & OVERLOAD)  status_set("OVER");

	if (raw_data[STATUS_B] & BAD_BAT)  status_set("RB");

	if (raw_data[STATUS_B] & TEST)  status_set("TEST");

	status_commit();

	upsdebugx(2, "STATUS: %s", dstate_getinfo("ups.status"));
	dstate_dataok();
}
Пример #24
0
void upsdrv_updateinfo(void)
{
	typedef struct {
		const unsigned char	cmd[6];
		const char	*var;
		const char	*fmt;
		const int	multindex;
	} cmd_s;

	static cmd_s vartab[] = { /* common vars */
		{ { 1,149,2,1,1,154 },	"battery.runtime", "%.0f", M_BAT_RUNTIME },
		{ { 1,149,2,1,2,155 },	"battery.voltage", "%.1f", M_VOLT_DC },
		{ { 1,149,2,1,3,156 },	"battery.current", "%.2f", M_CURRENT_DC },
		{ { 1,161,2,1,13,178 },	"battery.voltage.nominal", "%.1f", M_VOLT_DC },
		{ { 1,149,2,1,12,165 },	"battery.temperature", "%.1f", M_TEMPERATURE },
		{ { 1,149,2,1,14,167 },	"ups.temperature", "%.1f", M_TEMPERATURE },
		{ { 1,161,2,1,8,173 },	"ups.power.nominal", "%.0f", M_NOMPOWER },
		{ { 1,161,2,1,4,169 },	"ups.delay.start", "%.0f", M_10 },
		{ { 1,161,2,1,14,179  },"battery.runtime.low", "%.0f", M_BAT_RUNTIME },
		{ { 1,149,2,1,8,161 },	"input.frequency", "%.1f", M_FREQUENCY },
		{ { 1,149,2,1,10,163 },	"input.bypass.frequency", "%.1f", M_FREQUENCY },
		{ { 1,161,2,1,9,174 },	"input.frequency.nominal", "%.1f", M_FREQUENCY },
		{ { 1,149,2,1,9,162 },	"output.frequency", "%.1f", M_FREQUENCY },
		{ { 1,161,2,1,10,175 },	"output.frequency.nominal", "%.1f", M_FREQUENCY },
		{ { 0 }, NULL, NULL, 0 }
	};

	static cmd_s vartab1o[] = { /* 1-phase out */
		{ { 1,149,2,1,7,160 },	"ups.load", "%.0f", M_LOADPERC },
		{ { 1,149,2,1,6,159 },	"ups.power", "%.0f", M_POWER },
		{ { 1,149,2,1,5,158 },	"ups.realpower", "%.0f", M_POWER },
		{ { 1,144,2,1,3,151 },	"output.voltage", "%.1f", M_VOLTAGE_O },
		{ { 1,144,2,1,4,152 },	"output.current", "%.1f", M_CURRENT_O },
		{ { 0 }, NULL, NULL, 0 }
	};

	static cmd_s vartab1i[] = { /* 1-phase in*/
		{ { 1,144,2,1,1,149 },	"input.voltage", "%.1f", M_VOLTAGE_I },
		{ { 1,144,2,1,5,153 },	"input.bypass.voltage", "%.1f", M_VOLTAGE_B },
		{ { 1,144,2,1,6,154 },	"input.bypass.current", "%.1f", M_CURRENT_B },
		{ { 0 }, NULL, NULL, 0 }
	};

	static cmd_s vartab3o[] = { /*3-phase out */
		{ { 1,144,2,1,24,172 },	"ups.L1.load", "%.0f", M_LOADPERC },
		{ { 1,145,2,1,24,173 },	"ups.L2.load", "%.0f", M_LOADPERC },
		{ { 1,146,2,1,24,174 },	"ups.L3.load", "%.0f", M_LOADPERC },
		{ { 1,144,2,1,22,170 },	"ups.L1.power", "%.0f", M_POWER },
		{ { 1,145,2,1,22,171 },	"ups.L2.power", "%.0f", M_POWER },
		{ { 1,146,2,1,22,172 },	"ups.L3.power", "%.0f", M_POWER },
		{ { 1,144,2,1,21,169 },	"ups.L1.realpower", "%.0f", M_POWER },
		{ { 1,145,2,1,21,170 },	"ups.L2.realpower", "%.0f", M_POWER },
		{ { 1,146,2,1,21,171 },	"ups.L3.realpower", "%.0f", M_POWER },
		{ { 1,144,2,1,3,151 },	"output.L1-N.voltage", "%.1f", M_VOLTAGE_O },
		{ { 1,145,2,1,3,152 },	"output.L2-N.voltage", "%.1f", M_VOLTAGE_O },
		{ { 1,146,2,1,3,153 },	"output.L3-N.voltage", "%.1f", M_VOLTAGE_O },
		{ { 1,144,2,1,14,162 },	"output.L1.crestfactor", "%.1f", M_0_1 },
		{ { 1,145,2,1,14,163 },	"output.L2.crestfactor", "%.1f", M_0_1 },
		{ { 1,146,2,1,14,164 },	"output.L3.crestfactor", "%.1f", M_0_1 },
		{ { 0 }, NULL, NULL, 0 }
	};

	static cmd_s vartab3i[] = { /*3-phase in */
		{ { 1,144,2,1,1,149 },	"input.L1-N.voltage", "%.1f", M_VOLTAGE_I },
		{ { 1,145,2,1,1,150 },	"input.L2-N.voltage", "%.1f", M_VOLTAGE_I },
		{ { 1,146,2,1,1,151 },	"input.L3-N.voltage", "%.1f", M_VOLTAGE_I },

		{ { 1,144,2,1,5,153 },	"input.L1-N.bypass.voltage", "%.1f", M_VOLTAGE_B },
		{ { 1,145,2,1,5,154 },	"input.L2-N.bypass.voltage", "%.1f", M_VOLTAGE_B },
		{ { 1,146,2,1,5,155 },	"input.L3-N.bypass.voltage", "%.1f", M_VOLTAGE_B },

		{ { 1,144,2,1,6,154 },	"input.L1-N.bypass.current", "%.1f", M_CURRENT_B },
		{ { 1,145,2,1,6,155 },	"input.L2-N.bypass.current", "%.1f", M_CURRENT_B },
		{ { 1,146,2,1,6,156 },	"input.L3-N.bypass.current", "%.1f", M_CURRENT_B },

		{ { 1,144,2,1,2,150 },	"input.L1.current", "%.1f", M_CURRENT_I },
		{ { 1,145,2,1,2,151 },	"input.L2.current", "%.1f", M_CURRENT_I },
		{ { 1,146,2,1,2,152 },	"input.L3.current", "%.1f", M_CURRENT_I },
		{ { 0 }, NULL, NULL, 0 }
	};
	
	static cmd_s * cmdin_p;
	static cmd_s * cmdout_p;

	const char	*val;
	char	reply[8];
	int	ret, i;

	for (i = 0; vartab[i].var; i++) {
		int16_t	val;
		ret = do_command(vartab[i].cmd, reply, 6);
		if (ret < 8) {
			continue;
		}
		val = (unsigned char)reply[5];
		val <<= 8;
		val += (unsigned char)reply[6];
		dstate_setinfo(vartab[i].var, vartab[i].fmt, val * multi[vartab[i].multindex]);
	}

	if (num_inphases>1){
		cmdin_p=vartab3i;
	}
	else {
		cmdin_p=vartab1i;
	}

	if (num_outphases>1){
		cmdout_p=vartab3o;
	}
	else {
		cmdout_p=vartab1o;
	}

	for (i = 0; cmdin_p[i].var; i++) {
		int16_t	val;
		ret = do_command(cmdin_p[i].cmd, reply, 6);
		if (ret < 8) {
			continue;
		}
		val = (unsigned char)reply[5];
		val <<= 8;
		val += (unsigned char)reply[6];
		dstate_setinfo(cmdin_p[i].var, cmdin_p[i].fmt, val * multi[cmdin_p[i].multindex]);
	}

	for (i = 0; cmdout_p[i].var; i++) {
		int16_t	val;
		ret = do_command(cmdout_p[i].cmd, reply, 6);
		if (ret < 8) {
			continue;
		}
		val = (unsigned char)reply[5];
		val <<= 8;
		val += (unsigned char)reply[6];
		dstate_setinfo(cmdout_p[i].var, cmdout_p[i].fmt, val * multi[cmdout_p[i].multindex]);
	}

	status_init();

	ret = do_command(cmd_bitfield1, reply, 6);
	if (ret < 8) {
		upslogx(LOG_ERR, "Failed reading bitfield #1");
		dstate_datastale();
		return;
	}

	if (reply[5] & (1<<0)) {	/* ON_BATTERY */
		status_set("OB");
	} else {
		status_set("OL");
	}

	val = dstate_getinfo("battery.current");
	if (val) {
		if (atof(val) > 0.05) {
			status_set("CHRG");
		}
		if (atof(val) < -0.05) {
			status_set("DISCHRG");
		}
	}

	ret = do_command(cmd_bitfield2, reply, 6);
	if (ret < 8) {
		upslogx(LOG_ERR, "Failed reading bitfield #2");
		dstate_datastale();
		return;
	}

	if (reply[6] & (1<<0)) {	/* ON_BYPASS */
		status_set("BYPASS");
	}

	if (reply[6] & (1<<5)) {	/* REPLACE_BATTERY */
		status_set("RB");
	}

	if (reply[6] & (1<<6)) {	/* BOOST_ON */
		status_set("BOOST");
	}

	if (reply[5] & (1<<1)) {	/* BUCK_ON */
		status_set("TRIM");
	}

	ret = do_command(cmd_bitfield3, reply, 6);
	if (ret < 8) {
		upslogx(LOG_ERR, "Failed reading bitfield #3");
		dstate_datastale();
		return;
	}

	if (reply[6] & (1<<0) ) {	/* UPS_OVERLOAD */
		status_set("OVER");
	}

	if (reply[6] & (1<<5) ) {	/* LOW_BATTERY */
		status_set("LB");
	}

	status_commit();

	dstate_dataok();
}
Пример #25
0
void upsdrv_updateinfo(void)
{
	char response[MAX_RESPONSE_LENGTH];
	char *ptr, *ptr2;
	int i;
	int flags;
	int contacts_set;
	int low_battery;

	status_init();
	if (do_command(POLL, STATUS_OUTPUT, "", response) <= 0) {
		dstate_datastale();
		return;
	}
	ptr = field(response, 0);
	/* require output status field to exist */
	if (!ptr) {
		dstate_datastale();
		return;
	}
	switch (atoi(ptr)) {
	case 0:
		status_set("OL");
		break;
	case 1:
		status_set("OB");
		break;
	case 2:
		status_set("BYPASS");
		break;
	case 3:
		status_set("OL");
		status_set("TRIM");
		break;
	case 4:
		status_set("OL");
		status_set("BOOST");
		break;
	case 5:
		status_set("BYPASS");
		break;
	case 6:
		break;
	case 7:
		status_set("OFF");
		break;
	default:
		break;
	}
	ptr = field(response, 6);
	if (ptr)
		dstate_setinfo("ups.load", "%d", atoi(ptr));
	ptr = field(response, 3);
	if (ptr)
		dstate_setinfo("output.voltage", "%03.1f",
		               (double) atoi(ptr) / 10.0);
	ptr = field(response, 1);
	if (ptr)
		dstate_setinfo("output.frequency", "%03.1f",
		               (double) atoi(ptr) / 10.0);
	ptr = field(response, 4);
	if (ptr)
		dstate_setinfo("output.current", "%03.1f",
		               (double) atoi(ptr) / 10.0);

	low_battery = 0;
	if (do_command(POLL, STATUS_BATTERY, "", response) <= 0) {
		dstate_datastale();
		return;
	}
	ptr = field(response, 0);
	if (ptr && atoi(ptr) == 2)
		status_set("RB");
	ptr = field(response, 1);
	if (ptr && atoi(ptr))
		low_battery = 1;
	ptr = field(response, 8);
	if (ptr)
		dstate_setinfo("battery.temperature", "%d", atoi(ptr));
	ptr = field(response, 9);
	if (ptr) {
		dstate_setinfo("battery.charge", "%d", atoi(ptr));
		ptr2 = getval("lowbatt");
		if (ptr2 && atoi(ptr2) > 0 && atoi(ptr2) <= 99 &&
		    atoi(ptr) <= atoi(ptr2))
			low_battery = 1;
	}
	ptr = field(response, 6);
	if (ptr)
		dstate_setinfo("battery.voltage", "%03.1f",
		               (double) atoi(ptr) / 10.0);
	ptr = field(response, 7);
	if (ptr)
		dstate_setinfo("battery.current", "%03.1f",
		               (double) atoi(ptr) / 10.0);
	if (low_battery)
		status_set("LB");

	if (do_command(POLL, STATUS_ALARM, "", response) <= 0) {
		dstate_datastale();
		return;
	}
	ptr = field(response, 3);
	if (ptr && atoi(ptr))
		status_set("OVER");

	if (do_command(POLL, STATUS_INPUT, "", response) > 0) {
		ptr = field(response, 2);
		if (ptr)
			dstate_setinfo("input.voltage", "%03.1f",
			               (double) atoi(ptr) / 10.0);
		ptr = field(response, 1);
		if (ptr)
			dstate_setinfo("input.frequency",
				       "%03.1f", (double) atoi(ptr) / 10.0);
	}

	if (do_command(POLL, TEST_RESULT, "", response) > 0) {
		int	r;
		size_t	trsize;

		r = atoi(response);
		trsize = sizeof(test_result_names) / 
			sizeof(test_result_names[0]);

		if ((r < 0) || (r >= (int) trsize))
			r = 0;

		dstate_setinfo("ups.test.result", "%s", test_result_names[r]);
	}

	if (do_command(POLL, ENVIRONMENT_INFORMATION, "", response) > 0) {
		ptr = field(response, 0);
		if (ptr)
			dstate_setinfo("ambient.temperature", "%d", atoi(ptr));
		ptr = field(response, 1);
		if (ptr)
			dstate_setinfo("ambient.humidity", "%d", atoi(ptr));
		flags = 0;
		contacts_set = 0;
		for (i = 0; i < 4; i++) {
			ptr = field(response, 2 + i);
			if (ptr) {
				contacts_set = 1;
				if (*ptr == '1')
					flags |= 1 << i;
			}
		}
		if (contacts_set)
			dstate_setinfo("ups.contacts", "%02X", flags);
	}

	/* if we are here, status is valid */
	status_commit();
	dstate_dataok();
}
Пример #26
0
void upsdrv_updateinfo(void)
{
  char fstring[512];

  if (! fc.valid) {
    fprintf(stderr, 
	    "upsupdate run before ups_ident() read ups config\n");
    assert(0);
  }

  if (execute("f\r", fstring, sizeof(fstring)) > 0) {
    int inverter=0, charger=0, vin=0, vout=0, btimeleft=0, linestat=0, 
      alstat=0, vaout=0;
    double ampsout=0.0, vbatt=0.0, battpercent=0.0, loadpercent=0.0,
      hstemp=0.0, acfreq=0.0, ambtemp=0.0;
    char tmp[16];

    /* Inverter status.  0=off 1=on */
    memcpy(tmp, fstring+16, 2);
    tmp[2] = '\0';
    inverter = atoi(tmp);

    /* Charger status.  0=off 1=on */
    memcpy(tmp, fstring+18, 2);
    tmp[2] = '\0';
    charger = atoi(tmp);
    
    /* Input Voltage. integer number */
    memcpy(tmp, fstring+24, 4);
    tmp[4] = '\0';
    vin = atoi(tmp);

    /* Output Voltage. integer number */
    memcpy(tmp, fstring+28, 4);
    tmp[4] = '\0';
    vout = atoi(tmp);

    /* Iout.  int times 10 */
    memcpy(tmp, fstring+36, 4);
    tmp[4] = '\0';
    ampsout = ((double)(atoi(tmp)) / 10.0);

    /* Battery voltage.  int times 10 */
    memcpy(tmp, fstring+50, 4);
    tmp[4] = '\0';
    vbatt = ((double)(atoi(tmp)) / 10.0);

    /* Volt-amps out.  int  */
    memcpy(tmp, fstring+40, 6);
    tmp[6] = '\0';
    vaout = atoi(tmp);

    /* Line status.  Bitmask */
    memcpy(tmp, fstring+72, 2);
    tmp[2] = '\0';
    linestat = atoi(tmp);

    /* Alarm status reg 1.  Bitmask */
    memcpy(tmp, fstring+20, 2);
    tmp[2] = '\0';
    alstat = atoi(tmp);

    /* Alarm status reg 2.  Bitmask */
    memcpy(tmp, fstring+22, 2);
    tmp[2] = '\0';
    alstat = alstat | (atoi(tmp) << 8);

    /* AC line frequency */
    memcpy(tmp, fstring+54, 4);
    tmp[4]= '\0';
    acfreq = ((double)(atoi(tmp)) / 100.0);

    /* Runtime remaining */
    memcpy(tmp, fstring+58, 4);
    tmp[4]= '\0';
    btimeleft = atoi(tmp);

    /* UPS Temperature */
    memcpy(tmp, fstring+62, 4);
    tmp[4]= '\0';
    ambtemp = (double)(atoi(tmp));

    /* Percent Load */
    switch(fc.model) {
      case ME3100:
        if (execute("d 16\r", fstring, sizeof(fstring)) > 0) {
          int l;
          sscanf(fstring, "16 FullLoad%% %d", &l);
          loadpercent = (double) l;
        }
	break;
      case RE1800:
        if (execute("d 16\r", fstring, sizeof(fstring)) > 0) {
          int l;
          sscanf(fstring, "16 FullLoad%% %d", &l);
          loadpercent = (double) l;
        }
        if (execute("d 12\r", fstring, sizeof(fstring)) > 0) {
          int l;
          sscanf(fstring, "12 HS Temp  %dC", &l);
          hstemp = (double) l;
        }
        break;
      case MD1KVA:
        if (execute("d 22\r", fstring, sizeof(fstring)) > 0) {
          int l;
          sscanf(fstring, "22 FullLoad%% %d", &l);
          loadpercent = (double) l;
        }
	break;
      default: /* Will never happen, caught in upsdrv_initups() */
        fatalx(EXIT_FAILURE, "Unknown model in upsdrv_updateinfo()");
    }
    /* Compute battery percent left based on battery voltages. */
    battpercent = ((vbatt - fc.emptyvolts) 
		   / (fc.fullvolts - fc.emptyvolts) * 100.0);
    if (battpercent < 0.0) 
      battpercent = 0.0;
    else if (battpercent > 100.0)
      battpercent = 100.0;
    
    /* Compute status string */
    {
	int lowbatt, overload, replacebatt, boosting, trimming;

	lowbatt = alstat & (1<<1);
	overload = alstat & (1<<6);
	replacebatt = alstat & (1<<10);
	boosting = inverter && (linestat & (1<<2)) && (vin < 115);
	trimming = inverter && (linestat & (1<<2)) && (vin > 115);

	status_init();
      
	if (inverter) 
		status_set("OB");
	else
		status_set("OL");

	if (lowbatt)
		status_set("LB");

	if (trimming)
		status_set("TRIM");

	if (boosting)
		status_set("BOOST");

	if (replacebatt)
		status_set("RB");

	if (overload)
		status_set("OVER");

	status_commit();
    }

    if (debugging) {
      fprintf(stderr,
	      "Poll: inverter %d charger %d vin %d vout %d vaout %d btimeleft %d\n",
	      inverter, charger, vin, vout, vaout, btimeleft);
      fprintf(stderr,
	      "      ampsout %5.1f vbatt %5.1f batpcnt %5.1f loadpcnt %5.1f upstemp %5.1f acfreq %5.2f ambtemp %5.1f\n",
	      ampsout, vbatt, battpercent, loadpercent, hstemp, acfreq, ambtemp);

    }

    /* Stuff information into info structures */

    dstate_setinfo("input.voltage", "%05.1f", (double)vin);
    dstate_setinfo("output.voltage", "%05.1f", (double)vout);
    dstate_setinfo("battery.charge", "%02.1f", battpercent);
    dstate_setinfo("ups.load", "%02.1f", loadpercent);
    dstate_setinfo("battery.voltage", "%02.1f", vbatt);
    dstate_setinfo("input.frequency", "%05.2f", (double)acfreq);
    dstate_setinfo("ups.temperature", "%05.1f", (double)hstemp);
    dstate_setinfo("battery.runtime", "%d", btimeleft);
    dstate_setinfo("ambient.temperature", "%05.1f", (double)ambtemp);

    dstate_dataok();
    /* Tim: With out this return, it always falls over to the
        datastate() at the end of the function */
    return;
  } else {

    dstate_datastale();  

  } /* if (execute("f\r", fstring, sizeof(fstring)) > 0) */

  dstate_datastale();
  return;
}
Пример #27
0
/* Convert the local status information to NUT format and set NUT
   status. */
static void netxml_status_set(void)
{
	if (STATUS_BIT(VRANGE)) {
		dstate_setinfo("input.transfer.reason", "input voltage out of range");
	} else if (STATUS_BIT(FRANGE)) {
		dstate_setinfo("input.transfer.reason", "input frequency out of range");
	} else {
		dstate_delinfo("input.transfer.reason");
	}

	if (STATUS_BIT(ONLINE)) {
		status_set("OL");		/* on line */
	} else {
		status_set("OB");		/* on battery */
	}
	if (STATUS_BIT(DISCHRG)) {
		status_set("DISCHRG");		/* discharging */
	}
	if (STATUS_BIT(CHRG)) {
		status_set("CHRG");		/* charging */
	}
	if (STATUS_BIT(LOWBATT)) {
		status_set("LB");		/* low battery */
	}
	if (STATUS_BIT(OVERLOAD)) {
		status_set("OVER");		/* overload */
	}
	if (STATUS_BIT(REPLACEBATT)) {
		status_set("RB");		/* replace batt */
	}
	if (STATUS_BIT(TRIM)) {
		status_set("TRIM");		/* SmartTrim */
	}
	if (STATUS_BIT(BOOST)) {
		status_set("BOOST");		/* SmartBoost */
	}
	if (STATUS_BIT(BYPASSAUTO) || STATUS_BIT(BYPASSMAN)) {
		status_set("BYPASS");		/* on bypass */
	}
	if (STATUS_BIT(OFF)) {
		status_set("OFF");		/* ups is off */
	}

	if (STATUS_BIT(SHUTDOWNIMM)) {
		status_set("FSD");		/* shutdown imminent */
	}
}
Пример #28
0
void upsdrv_updateinfo(void)
{
	uint8_t getextendedOK;
	static int countlost = 0;
	int stat;

	upsdebugx(1, "countlost %d",countlost);

	if (countlost > 0){
		upsdebugx(1, "Communication with UPS is lost: status read failed!");

		if (countlost == COUNTLOST) {
			dstate_datastale();
			upslogx(LOG_WARNING, "Communication with UPS is lost: status read failed!");
		}
	}

	if (typeRielloProtocol == DEV_RIELLOGPSER) 
		stat = get_ups_status();
	else
		stat = get_ups_sentr();

	if (stat < 0) {
		if (countlost < COUNTLOST)
			countlost++;
		return;
	}

	if (typeRielloProtocol == DEV_RIELLOGPSER) {
		if (get_ups_extended() == 0)
			getextendedOK = 1;
		else
			getextendedOK = 0;
	}
	else
		getextendedOK = 1;

	if (countlost == COUNTLOST)
		upslogx(LOG_NOTICE, "Communication with UPS is re-established!");

	dstate_setinfo("input.frequency", "%.2f", DevData.Finp/10.0);
	dstate_setinfo("input.bypass.frequency", "%.2f", DevData.Fbypass/10.0);
	dstate_setinfo("output.frequency", "%.2f", DevData.Fout/10.0);
	dstate_setinfo("battery.voltage", "%.1f", DevData.Ubat/10.0);
	dstate_setinfo("battery.charge", "%u", DevData.BatCap);
	dstate_setinfo("battery.runtime", "%u", DevData.BatTime*60);
	dstate_setinfo("ups.temperature", "%u", DevData.Tsystem);

	if (input_monophase) {
		dstate_setinfo("input.voltage", "%u", DevData.Uinp1);
		dstate_setinfo("input.bypass.voltage", "%u", DevData.Ubypass1);
	}
	else {
		dstate_setinfo("input.L1-N.voltage", "%u", DevData.Uinp1);
		dstate_setinfo("input.L2-N.voltage", "%u", DevData.Uinp2);
		dstate_setinfo("input.L3-N.voltage", "%u", DevData.Uinp3);
		dstate_setinfo("input.bypass.L1-N.voltage", "%u", DevData.Ubypass1);
		dstate_setinfo("input.bypass.L2-N.voltage", "%u", DevData.Ubypass2);
		dstate_setinfo("input.bypass.L3-N.voltage", "%u", DevData.Ubypass3);
	}

	if (output_monophase) {
		dstate_setinfo("output.voltage", "%u", DevData.Uout1);
		dstate_setinfo("output.power.percent", "%u", DevData.Pout1);
		dstate_setinfo("ups.load", "%u", DevData.Pout1);
	}
	else {
		dstate_setinfo("output.L1-N.voltage", "%u", DevData.Uout1);
		dstate_setinfo("output.L2-N.voltage", "%u", DevData.Uout2);
		dstate_setinfo("output.L3-N.voltage", "%u", DevData.Uout3);
		dstate_setinfo("output.L1.power.percent", "%u", DevData.Pout1);
		dstate_setinfo("output.L2.power.percent", "%u", DevData.Pout2);
		dstate_setinfo("output.L3.power.percent", "%u", DevData.Pout3);
		dstate_setinfo("ups.load", "%u", (DevData.Pout1+DevData.Pout2+DevData.Pout3)/3);
	}

	status_init();
	
	/* AC Fail */
	if (riello_test_bit(&DevData.StatusCode[0], 1))
		status_set("OB");
	else
		status_set("OL");

	/* LowBatt */
	if ((riello_test_bit(&DevData.StatusCode[0], 1)) &&
		(riello_test_bit(&DevData.StatusCode[0], 0)))
		status_set("LB");

	/* Standby */
	if (!riello_test_bit(&DevData.StatusCode[0], 3))
		status_set("OFF");

	/* On Bypass */
	if (riello_test_bit(&DevData.StatusCode[1], 3))
		status_set("BYPASS");

	/* Overload */
	if (riello_test_bit(&DevData.StatusCode[4], 2))
		status_set("OVER");

	/* Buck */
	if (riello_test_bit(&DevData.StatusCode[1], 0))
		status_set("TRIM");

	/* Boost */
	if (riello_test_bit(&DevData.StatusCode[1], 1))
		status_set("BOOST");

	/* Replace battery */
	if (riello_test_bit(&DevData.StatusCode[2], 0))
		status_set("RB");

	/* Charging battery */
	if (riello_test_bit(&DevData.StatusCode[2], 2))
		status_set("CHRG");

	status_commit();

	dstate_dataok();

	if (getextendedOK) {
		dstate_setinfo("output.L1.power", "%u", DevData.Pout1VA);
		dstate_setinfo("output.L2.power", "%u", DevData.Pout2VA);
		dstate_setinfo("output.L3.power", "%u", DevData.Pout3VA);
		dstate_setinfo("output.L1.realpower", "%u", DevData.Pout1W);
		dstate_setinfo("output.L2.realpower", "%u", DevData.Pout2W);
		dstate_setinfo("output.L3.realpower", "%u", DevData.Pout3W);
		dstate_setinfo("output.L1.current", "%u", DevData.Iout1);
		dstate_setinfo("output.L2.current", "%u", DevData.Iout2);
		dstate_setinfo("output.L3.current", "%u", DevData.Iout3);
	}

	poll_interval = 2;

	countlost = 0;
/*	if (get_ups_statuscode() != 0)
		upsdebugx(2, "Communication is lost");
	else {
	}*/

	/*
	 * poll_interval = 2;
	 */
}
Пример #29
0
void upsdrv_updateinfo(void)
{
	CFPropertyListRef power_dictionary;
	CFStringRef power_source_state;
	CFNumberRef battery_voltage, battery_runtime;
	CFNumberRef current_capacity;
	CFBooleanRef is_charging;
	double max_capacity_value = 100.0, current_capacity_value;

	upsdebugx(1, "upsdrv_updateinfo()");

	power_dictionary = copy_power_dictionary( g_power_key );
	assert(power_dictionary); /* TODO: call dstate_datastale()? */

	status_init();

	/* Retrieve OL/OB state */
	power_source_state = CFDictionaryGetValue(power_dictionary, CFSTR(kIOPSPowerSourceStateKey));
	assert(power_source_state);
	CFRetain(power_source_state);

	upsdebugx(3, "Power Source State:");
	if(nut_debug_level >= 3) CFShow(power_source_state);

	if(!CFStringCompare(power_source_state, CFSTR(kIOPSACPowerValue), 0)) {
		status_set("OL");
	} else {
		status_set("OB");
	}

	CFRelease(power_source_state);

	/* Retrieve CHRG state */
	is_charging = CFDictionaryGetValue(power_dictionary, CFSTR(kIOPSIsChargingKey));
        if(is_charging) {
		Boolean is_charging_value;

		is_charging_value = CFBooleanGetValue(is_charging);
		if(is_charging_value) {
			status_set("CHRG");
		}
	}

	status_commit();

	/* Retrieve battery voltage */

	battery_voltage = CFDictionaryGetValue(power_dictionary, CFSTR(kIOPSVoltageKey));
	if(battery_voltage) {
		int battery_voltage_value;

		CFNumberGetValue(battery_voltage, kCFNumberIntType, &battery_voltage_value);
		upsdebugx(2, "battery_voltage = %d mV", battery_voltage_value);
		dstate_setinfo("battery.voltage", "%.3f", battery_voltage_value/1000.0);
	}

	/* Retrieve battery runtime */
	battery_runtime = CFDictionaryGetValue(power_dictionary, CFSTR(kIOPSTimeToEmptyKey));
	if(battery_runtime) {
		double battery_runtime_value;

		CFNumberGetValue(battery_runtime, kCFNumberDoubleType, &battery_runtime_value);

		upsdebugx(2, "battery_runtime = %.f minutes", battery_runtime_value);
		if(battery_runtime_value > 0) {
			dstate_setinfo("battery.runtime", "%d", (int)(battery_runtime_value*60));
		} else {
			dstate_delinfo("battery.runtime");
		}
	} else {
		dstate_delinfo("battery.runtime");
	}

	/* Retrieve current capacity */
	current_capacity = CFDictionaryGetValue(power_dictionary, CFSTR(kIOPSCurrentCapacityKey));
	if(current_capacity) {
		CFNumberGetValue(current_capacity, kCFNumberDoubleType, &current_capacity_value);

		upsdebugx(2, "Current Capacity = %.f/%.f units", current_capacity_value, max_capacity_value);
		if(max_capacity_value > 0) {
			dstate_setinfo("battery.charge", "%.f", 100.0 * current_capacity_value / max_capacity_value);
		}
	}

	/* TODO: it should be possible to set poll_interval (and maxage in the
	 * server) to an absurdly large value, and use notify(3) to get
	 * updates.
         */

	/*
	 * poll_interval = 2;
	 */

	dstate_dataok();
	CFRelease(power_dictionary);
}
Пример #30
0
/* for dummy mode
 * parse the definition file and process its content
 */ 
static int parse_data_file(int upsfd)
{
	char	fn[SMALLBUF];
	char	*ptr, var_value[MAX_STRING_SIZE];
	int		value_args = 0, counter;
	time_t	now;

	time(&now);

	upsdebugx(1, "entering parse_data_file()");

	if (now < next_update)
	{
		upsdebugx(1, "leaving (paused)...");
		return 1;
	}

	/* initialise everything, to loop back at the beginning of the file */
	if (ctx == NULL)
	{
		ctx = (PCONF_CTX_t *)xmalloc(sizeof(PCONF_CTX_t));

		if (device_path[0] == '/')
			snprintf(fn, sizeof(fn), "%s", device_path);
		else
			snprintf(fn, sizeof(fn), "%s/%s", confpath(), device_path);

		pconf_init(ctx, upsconf_err);

		if (!pconf_file_begin(ctx, fn))
			fatalx(EXIT_FAILURE, "Can't open dummy-ups definition file %s: %s",
				fn, ctx->errmsg);
	}

	/* Reset the next call time, so that we can loop back on the file
	 * if there is no blocking action (ie TIMER) until the end of the file */
	next_update = -1;

	/* Now start or continue parsing... */
	while (pconf_file_next(ctx))
	{
		if (pconf_parse_error(ctx))
		{
			upsdebugx(2, "Parse error: %s:%d: %s",
				fn, ctx->linenum, ctx->errmsg);
			continue;
		}

		/* Check if we have something to process */
		if (ctx->numargs < 1)
			continue;

		/* Process actions (only "TIMER" ATM) */
		if (!strncmp(ctx->arglist[0], "TIMER", 5))
		{
			/* TIMER <seconds> will wait "seconds" before
			 * continuing the parsing */
			int delay = atoi (ctx->arglist[1]);
			time(&next_update);
			next_update += delay;
			upsdebugx(1, "suspending execution for %i seconds...", delay);
			break;
		}

		/* Remove ":" suffix, after the variable name */
		if ((ptr = strchr(ctx->arglist[0], ':')) != NULL)
			*ptr = '\0';

		upsdebugx(3, "parse_data_file: variable \"%s\" with %d args",
			ctx->arglist[0], (int)ctx->numargs);

		/* Skip the driver.* collection data */
		if (!strncmp(ctx->arglist[0], "driver.", 7))
		{
			upsdebugx(2, "parse_data_file: skipping %s", ctx->arglist[0]);
			continue;
		}

		/* From there, we get varname in arg[0], and values in other arg[1...x] */
		/* special handler for status */
		if (!strncmp( ctx->arglist[0], "ups.status", 10))
		{
			status_init();
			for (counter = 1, value_args = ctx->numargs ;
				counter < value_args ; counter++)
			{
				status_set(ctx->arglist[counter]);
			}
			status_commit();
		}
		else
		{
			for (counter = 1, value_args = ctx->numargs ;
				counter < value_args ; counter++)
			{
				if (counter == 1) /* don't append the first space separator */
					snprintf(var_value, sizeof(var_value), "%s", ctx->arglist[counter]);
				else
					snprintfcat(var_value, sizeof(var_value), " %s", ctx->arglist[counter]);
			}

			if (setvar(ctx->arglist[0], var_value) == STAT_SET_UNKNOWN)
			{
				upsdebugx(2, "parse_data_file: can't add \"%s\" with value \"%s\"\nError: %s",
					ctx->arglist[0], var_value, ctx->errmsg);
			}
			else
			{ 
				upsdebugx(3, "parse_data_file: added \"%s\" with value \"%s\"",
					ctx->arglist[0], var_value);
			}
		}
	}

	/* Cleanup parseconf if there is no pending action */
	if (next_update == -1)
	{
		pconf_finish(ctx);
		free(ctx);
		ctx=NULL;
	}
	return 1;
}