// ***************************************************************************
// * Output Controlled General Event Logging
// ***************************************************************************
int wvutilsSetVerbosity (uint16_t daemonBitMask)
{
const char* sValue;
int i;
sValue = wvconfigGetStringValue(configItem_STATION_VERBOSE_MSGS);
if (sValue == NULL)
{
return ERROR;
}
DaemonMask = daemonBitMask;
// be backwards compatible
if (strlen(sValue) < 8)
{
i = atoi (sValue);
if (i)
VerboseMask = WV_VERBOSE_ALL;
else
VerboseMask = 0x0000;
}
else
{
// process bit-by-bit
VerboseMask = 0x0000;
for (i = 0; i < 8; i ++)
{
if (sValue[i] == '1')
VerboseMask |= (1 << (7-i));
}
}
return OK;
}
/* ... the main entry point for the wvcwopd process
*/
int main (int argc, char *argv[])
{
void (*alarmHandler)(int);
int retVal;
FILE *pidfile;
int iValue;
double dValue;
const char* sValue;
int runAsDaemon = TRUE;
if (argc > 1)
{
if (!strcmp(argv[1], "-f"))
{
runAsDaemon = FALSE;
}
}
memset (&cwopWork, 0, sizeof (cwopWork));
/* ... initialize some system stuff first
*/
retVal = cwopSysInit (&cwopWork);
if (retVal == ERROR)
{
radMsgLogInit (PROC_NAME_CWOP, FALSE, TRUE);
radMsgLog (PRI_CATASTROPHIC, "wvcwopd init failed!");
radMsgLogExit ();
exit (1);
}
else if (retVal == ERROR_ABORT)
{
exit (2);
}
/* ... call the global radlib system init function
*/
if (radSystemInit (WVIEW_SYSTEM_ID) == ERROR)
{
radMsgLogInit (PROC_NAME_CWOP, TRUE, TRUE);
radMsgLog (PRI_CATASTROPHIC, "radSystemInit failed!");
radMsgLogExit ();
exit (1);
}
/* ... call the radlib process init function
*/
if (radProcessInit (PROC_NAME_CWOP,
cwopWork.fifoFile,
PROC_NUM_TIMERS_CWOP,
runAsDaemon, // TRUE for daemon
msgHandler,
evtHandler,
NULL)
== ERROR)
{
printf ("\nradProcessInit failed: %s\n\n", PROC_NAME_CWOP);
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
cwopWork.myPid = getpid ();
pidfile = fopen (cwopWork.pidFile, "w");
if (pidfile == NULL)
{
radMsgLog (PRI_CATASTROPHIC, "lock file create failed!");
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
fprintf (pidfile, "%d", getpid ());
fclose (pidfile);
alarmHandler = radProcessSignalGetHandler (SIGALRM);
radProcessSignalCatchAll (defaultSigHandler);
radProcessSignalCatch (SIGALRM, alarmHandler);
radProcessSignalRelease(SIGABRT);
// get our configuration values
if (wvconfigInit(FALSE) == ERROR)
{
radMsgLog (PRI_CATASTROPHIC, "wvconfigInit failed!");
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// Is the CWOP daemon enabled?
iValue = wvconfigGetBooleanValue(configItem_ENABLE_CWOP);
if (iValue == ERROR || iValue == 0)
{
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "CWOP daemon is NOT enabled - exiting...");
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// get the wview verbosity setting
if (wvutilsSetVerbosity (WV_VERBOSE_WVCWOPD) == ERROR)
{
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "wvutilsSetVerbosity failed!");
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// get the APRS call sign
sValue = wvconfigGetStringValue(configItemCWOP_APRS_CALL_SIGN);
if (sValue == NULL)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_APRS_CALL_SIGN);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wvstrncpy (cwopWork.callSign, sValue, sizeof(cwopWork.callSign));
if (sValue[strlen(sValue)-1] >= '0' && sValue[strlen(sValue)-1] <= '9')
{
cwopWork.callSignOffset = atoi(&sValue[strlen(sValue)-1]);
}
else
{
cwopWork.callSignOffset = (sValue[strlen(sValue)-1] % 10);
}
cwopWork.callSignOffset %= 10;
}
// get the primary APRS server
sValue = wvconfigGetStringValue(configItemCWOP_APRS_SERVER1);
if (sValue == NULL)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_APRS_SERVER1);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wvstrncpy (cwopWork.server1, sValue, sizeof(cwopWork.server1));
}
// get the primary APRS port number
iValue = wvconfigGetINTValue(configItemCWOP_APRS_PORTNO1);
if (iValue < 0)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_APRS_PORTNO1);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
cwopWork.portNo1 = iValue;
}
// get the secondary APRS server
sValue = wvconfigGetStringValue(configItemCWOP_APRS_SERVER2);
if (sValue == NULL)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_APRS_SERVER2);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wvstrncpy (cwopWork.server2, sValue, sizeof(cwopWork.server2));
}
// get the primary APRS port number
iValue = wvconfigGetINTValue(configItemCWOP_APRS_PORTNO2);
if (iValue < 0)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_APRS_PORTNO2);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
cwopWork.portNo2 = iValue;
}
// get the tertiary APRS server
sValue = wvconfigGetStringValue(configItemCWOP_APRS_SERVER3);
if (sValue == NULL)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_APRS_SERVER3);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wvstrncpy (cwopWork.server3, sValue, sizeof(cwopWork.server3));
}
// get the primary APRS port number
iValue = wvconfigGetINTValue(configItemCWOP_APRS_PORTNO3);
if (iValue < 0)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_APRS_PORTNO3);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
cwopWork.portNo3 = iValue;
}
// get the fine pitch latitude that APRS requires
sValue = wvconfigGetStringValue(configItemCWOP_LATITUDE);
if (sValue == NULL)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_LATITUDE);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wvstrncpy (cwopWork.latitude, sValue, sizeof(cwopWork.latitude));
}
// get the fine pitch longitude that APRS requires
sValue = wvconfigGetStringValue(configItemCWOP_LONGITUDE);
if (sValue == NULL)
{
// we can't do without this!
wvconfigExit ();
radMsgLog (PRI_CATASTROPHIC, "%s failed!", configItemCWOP_LONGITUDE);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wvstrncpy (cwopWork.longitude, sValue, sizeof(cwopWork.longitude));
}
// get the WX packet logging preference
iValue = wvconfigGetBooleanValue(configItemCWOP_LOG_WX_PACKET);
if (iValue <= 0)
{
// just disable it
cwopWork.logWXPackets = 0;
}
else
{
cwopWork.logWXPackets = iValue;
}
wvconfigExit ();
if (statusInit(cwopWork.statusFile, cwopStatusLabels) == ERROR)
{
radMsgLog (PRI_HIGH, "statusInit failed - exiting...");
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
statusUpdate(STATUS_BOOTING);
// wait a bit here before continuing
radUtilsSleep (500);
cwopWork.timer = radTimerCreate (NULL, timerHandler, NULL);
if (cwopWork.timer == NULL)
{
statusUpdateMessage("radTimerCreate failed");
radMsgLog (PRI_HIGH, "radTimerCreate failed");
statusUpdate(STATUS_ERROR);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
radProcessTimerStart (cwopWork.timer, CWOP_MINUTE_INTERVAL);
// register with the radlib message router
if (radMsgRouterInit (WVIEW_RUN_DIR) == ERROR)
{
statusUpdateMessage("radMsgRouterInit failed");
radMsgLog (PRI_HIGH, "radMsgRouterInit failed!");
statusUpdate(STATUS_ERROR);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// enable message reception from the radlib router for SHUTDOWN msgs
radMsgRouterMessageRegister (WVIEW_MSG_TYPE_SHUTDOWN);
// wait for the wview daemon to be ready
if (waitForWviewDaemon () == ERROR)
{
radMsgLog (PRI_HIGH, "waitForWviewDaemon failed");
statusUpdate(STATUS_ERROR);
radMsgRouterExit ();
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// enable message reception from the radlib router for archive notifications
radMsgRouterMessageRegister (WVIEW_MSG_TYPE_ARCHIVE_NOTIFY);
// enable message reception from the radlib router for POLL msgs
radMsgRouterMessageRegister (WVIEW_MSG_TYPE_POLL);
radMsgLog (PRI_STATUS, "CWOP: configured to submit station %s data to:",
cwopWork.callSign);
radMsgLog (PRI_STATUS, "CWOP: Primary: %s:%d", cwopWork.server1, cwopWork.portNo1);
radMsgLog (PRI_STATUS, "CWOP: Secondary: %s:%d", cwopWork.server2, cwopWork.portNo2);
radMsgLog (PRI_STATUS, "CWOP: Tertiary: %s:%d", cwopWork.server3, cwopWork.portNo3);
radMsgLog (PRI_STATUS, "CWOP: Submitting every %d minutes at offset minute: %d",
cwopWork.reportInterval, cwopWork.callSignOffset);
// enter normal processing
cwopWork.inMainLoop = TRUE;
statusUpdate(STATUS_RUNNING);
statusUpdateMessage("Normal operation");
radMsgLog (PRI_STATUS, "running...");
while (!cwopWork.exiting)
{
// wait on something interesting
if (radProcessWait (0) == ERROR)
{
cwopWork.exiting = TRUE;
}
}
statusUpdateMessage("exiting normally");
radMsgLog (PRI_STATUS, "exiting normally...");
statusUpdate(STATUS_SHUTDOWN);
radMsgRouterExit ();
radTimerDelete (cwopWork.timer);
cwopSysExit (&cwopWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (0);
}
/* ... the main entry point for the daemon process
*/
int main (int argc, char *argv[])
{
void (*alarmHandler)(int);
FILE *pidfile;
int iValue;
double dValue;
const char* sValue;
int runAsDaemon = TRUE;
if (argc > 1)
{
if (!strcmp(argv[1], "-f"))
{
runAsDaemon = FALSE;
}
}
/* ... start with a clean slate
*/
memset (&wviewdWork, 0, sizeof (wviewdWork));
/* ... initialize some system stuff first
*/
if (daemonSysInit (&wviewdWork) == -1)
{
radMsgLogInit (PROC_NAME_DAEMON, TRUE, TRUE);
radMsgLog (PRI_CATASTROPHIC, "system init failed!\n");
radMsgLogExit ();
exit (1);
}
/* ... call the global radlib system init function
*/
if (radSystemInit (WVIEW_SYSTEM_ID) == ERROR)
{
radMsgLogInit (PROC_NAME_DAEMON, TRUE, TRUE);
radMsgLog (PRI_CATASTROPHIC, "radSystemInit failed!");
radMsgLogExit ();
exit (1);
}
/* ... call the radlib process init function
*/
if (radProcessInit (PROC_NAME_DAEMON,
wviewdWork.fifoFile,
PROC_NUM_TIMERS_DAEMON,
runAsDaemon, // TRUE for daemon
msgHandler,
evtHandler,
NULL)
== ERROR)
{
printf ("\nradProcessInit failed: %s\n\n", PROC_NAME_DAEMON);
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
wviewdWork.myPid = getpid ();
pidfile = fopen (wviewdWork.pidFile, "w");
if (pidfile == NULL)
{
radMsgLog (PRI_CATASTROPHIC, "lock file create failed!\n");
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
fprintf (pidfile, "%d", getpid ());
fclose (pidfile);
alarmHandler = radProcessSignalGetHandler (SIGALRM);
radProcessSignalCatchAll (defaultSigHandler);
radProcessSignalCatch (SIGALRM, alarmHandler);
radProcessSignalRelease(SIGABRT);
radMsgLog (PRI_STATUS, "%s starting ...", globalWviewVersionStr);
radTimeGetMSSinceEpoch();
wvutilsDetectDSTInit();
// get our configuration values:
if (wvconfigInit(TRUE) == ERROR)
{
radMsgLog (PRI_CATASTROPHIC, "config database is missing!!!\n");
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// get the wview verbosity setting
if (wvutilsSetVerbosity (WV_VERBOSE_WVIEWD) == ERROR)
{
wvconfigExit();
radMsgLog (PRI_CATASTROPHIC, "wvutilsSetVerbosity failed!");
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
///// STATION_INTERFACE PROCESSING BEGIN /////
sValue = wvconfigGetStringValue(configItem_STATION_STATION_TYPE);
if (sValue == NULL)
{
radMsgLog (PRI_MEDIUM,
"no station type given, defaulting to 'VantagePro'...");
strcpy (wviewdWork.stationType, "VantagePro");
}
else
{
wvstrncpy(wviewdWork.stationType, sValue, sizeof(wviewdWork.stationType));
}
if ((!strcmp(wviewdWork.stationType, "WMRUSB")) ||
(!strcmp(wviewdWork.stationType, "WH1080")))
{
// USB stations:
radMsgLog (PRI_MEDIUM,
"station interface: native USB ...");
}
else
{
sValue = wvconfigGetStringValue(configItem_STATION_STATION_INTERFACE);
if (sValue == NULL)
{
radMsgLog (PRI_MEDIUM,
"no station interface given, defaulting to 'serial'...");
strcpy (wviewdWork.stationInterface, "serial");
}
else
{
wvstrncpy(wviewdWork.stationInterface, sValue, sizeof(wviewdWork.stationInterface));
}
// process the interface type
if (!strcmp (wviewdWork.stationInterface, "serial"))
{
radMsgLog (PRI_MEDIUM,
"station interface: serial ...");
// we need a device name for serial IFs
sValue = wvconfigGetStringValue(configItem_STATION_STATION_DEV);
if (sValue == NULL)
{
wvconfigExit();
radMsgLog (PRI_CATASTROPHIC,
"no serial device given, aborting...");
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wvstrncpy(wviewdWork.stationDevice, sValue, sizeof(wviewdWork.stationDevice));
}
// grab the DTR toggle flag:
iValue = wvconfigGetBooleanValue(configItem_STATION_STATION_DTR);
if (iValue >= 0)
{
wviewdWork.stationToggleDTR = iValue;
}
else
{
wviewdWork.stationToggleDTR = TRUE;
}
}
else if (!strcmp (wviewdWork.stationInterface, "ethernet"))
{
radMsgLog (PRI_MEDIUM,
"station interface: ethernet ...");
// we need host and port for ethernet
sValue = wvconfigGetStringValue(configItem_STATION_STATION_HOST);
if (sValue == NULL)
{
wvconfigExit();
radMsgLog (PRI_CATASTROPHIC,
"no hostname given, aborting...");
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wvstrncpy(wviewdWork.stationHost, sValue, sizeof(wviewdWork.stationHost));
iValue = wvconfigGetINTValue(configItem_STATION_STATION_PORT);
if (iValue <= 0)
{
wvconfigExit();
radMsgLog (PRI_CATASTROPHIC,
"no port given, aborting...");
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
else
{
wviewdWork.stationPort = iValue;
// grab the Weatherlink IP flag:
iValue = wvconfigGetBooleanValue(configItem_STATION_STATION_WLIP);
if (iValue >= 0)
{
wviewdWork.stationIsWLIP = iValue;
}
else
{
wviewdWork.stationIsWLIP = FALSE;
}
}
}
}
else
{
// invalid type specified - abort
wvconfigExit();
radMsgLog (PRI_CATASTROPHIC,
"invalid STATION_INTERFACE %s given, aborting...",
wviewdWork.stationInterface);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
}
///// STATION_INTERFACE PROCESSING END /////
iValue = wvconfigGetINTValue(configItem_STATION_STATION_RAIN_SEASON_START);
if (iValue <= 0)
{
radMsgLog (PRI_MEDIUM, "Rain Season Start Month not found - defaulting to 1 (JAN)...\n");
wviewdWork.stationRainSeasonStart = 1;
}
else
{
wviewdWork.stationRainSeasonStart = iValue;
if (wviewdWork.stationRainSeasonStart < 1 ||
wviewdWork.stationRainSeasonStart > 12)
{
radMsgLog (PRI_MEDIUM, "Invalid Rain Season Start Month %d found - defaulting to 1 (JAN)...\n",
wviewdWork.stationRainSeasonStart);
wviewdWork.stationRainSeasonStart = 1;
}
else
{
radMsgLog (PRI_STATUS, "Rain Season Start Month set to %d\n",
wviewdWork.stationRainSeasonStart);
}
}
dValue = wvconfigGetDOUBLEValue(configItem_STATION_STATION_RAIN_STORM_TRIGGER_START);
if (dValue <= 0.0)
{
radMsgLog (PRI_MEDIUM,
"no rain storm start trigger given, defaulting to 0.05 in/hr...");
wviewdWork.stationRainStormTrigger = 0.05;
}
else
{
wviewdWork.stationRainStormTrigger = (float)dValue;
radMsgLog (PRI_STATUS, "Rain Storm Start Trigger set to %5.2f in/hr\n",
wviewdWork.stationRainStormTrigger);
}
iValue = wvconfigGetINTValue(configItem_STATION_STATION_RAIN_STORM_IDLE_STOP);
if (iValue <= 0)
{
radMsgLog (PRI_MEDIUM,
"no rain storm idle stop time given, defaulting to 12 hours...");
wviewdWork.stationRainStormIdleHours = 12;
}
else
{
wviewdWork.stationRainStormIdleHours = iValue;
radMsgLog (PRI_STATUS, "Rain Storm Stop Time set to %d hours\n",
wviewdWork.stationRainStormIdleHours);
}
dValue = wvconfigGetDOUBLEValue(configItem_STATION_STATION_RAIN_YTD);
if (dValue < 0.0)
{
radMsgLog (PRI_MEDIUM,
"no rain YTD preset given, defaulting to 0.00 inches...");
wviewdWork.stationRainStormIdleHours = 12;
}
else
{
wviewdWork.stationRainYTDPreset = (float)dValue;
radMsgLog (PRI_STATUS, "Rain YTD preset set to %.2f inches\n",
wviewdWork.stationRainYTDPreset);
}
dValue = wvconfigGetDOUBLEValue(configItem_STATION_STATION_ET_YTD);
if (dValue < 0.0)
{
radMsgLog (PRI_MEDIUM,
"no ET YTD preset given, defaulting to 0.000 inches...");
wviewdWork.stationETYTDPreset = 0;
}
else
{
wviewdWork.stationETYTDPreset = (float)dValue;
radMsgLog (PRI_STATUS, "ET YTD preset set to %.3f inches\n",
wviewdWork.stationETYTDPreset);
}
iValue = wvconfigGetINTValue(configItem_STATION_STATION_RAIN_ET_YTD_YEAR);
if (iValue < 0)
{
radMsgLog (PRI_MEDIUM,
"no rain/ET YTD Year given, disabling...");
wviewdWork.stationRainETPresetYear = 0;
}
else
{
wviewdWork.stationRainETPresetYear = iValue;
if (wviewdWork.stationRainETPresetYear < 2000 ||
wviewdWork.stationRainETPresetYear > 3000)
{
radMsgLog (PRI_MEDIUM,
"bad rain/ET YTD Year given, disabling...");
wviewdWork.stationRainETPresetYear = 0;
}
else
{
radMsgLog (PRI_STATUS, "rain/ET YTD preset Year set to %d\n",
wviewdWork.stationRainETPresetYear);
}
}
iValue = wvconfigGetINTValue(configItem_STATION_POLL_INTERVAL);
if (iValue < 0)
{
radMsgLog (PRI_MEDIUM,
"no POLL_INTERVAL retrieved, setting to 30 seconds...");
wviewdWork.cdataInterval = 30000;
}
else
{
wviewdWork.cdataInterval = iValue * 1000;
}
if (((wviewdWork.cdataInterval % 1000) != 0) ||
((wviewdWork.cdataInterval/1000) > 60) ||
((60 % (wviewdWork.cdataInterval/1000)) != 0))
{
radMsgLog (PRI_MEDIUM,
"station polling interval %d found in wview.conf is invalid:",
wviewdWork.cdataInterval);
radMsgLog (PRI_MEDIUM,
"defaulting to 30 seconds ...");
radMsgLog (PRI_MEDIUM,
"Note: station polling interval must be less than 60 seconds");
radMsgLog (PRI_MEDIUM,
" and an even divisor of 60 seconds (10000, 15000, 30000)");
wviewdWork.cdataInterval = 30 * 1000;
}
else
{
radMsgLog (PRI_STATUS, "station polling interval set to %d seconds",
(wviewdWork.cdataInterval/1000));
}
iValue = wvconfigGetINTValue(configItem_STATION_PUSH_INTERVAL);
if (iValue < 0)
{
radMsgLog (PRI_MEDIUM,
"no PUSH_INTERVAL retrieved, setting to 60 seconds...");
wviewdWork.pushInterval = 60000;
}
else
{
wviewdWork.pushInterval = iValue * 1000;
}
// Calibration configuration:
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_BAROMETER);
if (dValue <= 0.0)
{
wviewdWork.calMBarometer = 1.00;
}
else
{
wviewdWork.calMBarometer = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_BAROMETER);
wviewdWork.calCBarometer = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_PRESSURE);
if (dValue <= 0.0)
{
wviewdWork.calMPressure = 1.00;
}
else
{
wviewdWork.calMPressure = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_PRESSURE);
wviewdWork.calCPressure = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_ALTIMETER);
if (dValue <= 0.0)
{
wviewdWork.calMAltimeter = 1.00;
}
else
{
wviewdWork.calMAltimeter = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_ALTIMETER);
wviewdWork.calCAltimeter = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_INTEMP);
if (dValue <= 0.0)
{
wviewdWork.calMInTemp = 1.00;
}
else
{
wviewdWork.calMInTemp = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_INTEMP);
wviewdWork.calCInTemp = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_OUTTEMP);
if (dValue <= 0.0)
{
wviewdWork.calMOutTemp = 1.00;
}
else
{
wviewdWork.calMOutTemp = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_OUTTEMP);
wviewdWork.calCOutTemp = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_INHUMIDITY);
if (dValue <= 0.0)
{
wviewdWork.calMInHumidity = 1.00;
}
else
{
wviewdWork.calMInHumidity = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_INHUMIDITY);
wviewdWork.calCInHumidity = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_OUTHUMIDITY);
if (dValue <= 0.0)
{
wviewdWork.calMOutHumidity = 1.00;
}
else
{
wviewdWork.calMOutHumidity = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_OUTHUMIDITY);
wviewdWork.calCOutHumidity = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_WINDSPEED);
if (dValue <= 0.0)
{
wviewdWork.calMWindSpeed = 1.00;
}
else
{
wviewdWork.calMWindSpeed = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_WINDSPEED);
wviewdWork.calCWindSpeed = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_WINDDIR);
if (dValue <= 0.0)
{
wviewdWork.calMWindDir = 1.00;
}
else
{
wviewdWork.calMWindDir = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_WINDDIR);
wviewdWork.calCWindDir = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_RAIN);
if (dValue <= 0.0)
{
wviewdWork.calMRain = 1.00;
}
else
{
wviewdWork.calMRain = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_RAIN);
wviewdWork.calCRain = dValue;
dValue = wvconfigGetDOUBLEValue(configItemCAL_MULT_RAINRATE);
if (dValue <= 0.0)
{
wviewdWork.calMRainRate = 1.00;
}
else
{
wviewdWork.calMRainRate = dValue;
}
dValue = wvconfigGetDOUBLEValue(configItemCAL_CONST_RAINRATE);
wviewdWork.calCRainRate = dValue;
iValue = wvconfigGetBooleanValue(configItem_ENABLE_EMAIL);
if (iValue >= 0)
{
wviewdWork.IsAlertEmailsEnabled = iValue;
}
if (wviewdWork.IsAlertEmailsEnabled)
{
sValue = wvconfigGetStringValue(configItem_TO_EMAIL_ADDRESS);
if (sValue == NULL)
{
radMsgLog (PRI_HIGH, "NO alert email TO address given - disabling email alerts...");
wviewdWork.IsAlertEmailsEnabled = 0;
}
else
{
wvstrncpy (wviewdWork.alertEmailToAdrs, sValue, sizeof(wviewdWork.alertEmailToAdrs));
}
sValue = wvconfigGetStringValue(configItem_FROM_EMAIL_ADDRESS);
if (sValue == NULL)
{
radMsgLog (PRI_HIGH, "NO alert email FROM address given - disabling email alerts...");
wviewdWork.IsAlertEmailsEnabled = 0;
}
else
{
wvstrncpy (wviewdWork.alertEmailFromAdrs, sValue, sizeof(wviewdWork.alertEmailFromAdrs));
}
iValue = wvconfigGetBooleanValue(configItem_SEND_TEST_EMAIL);
if (iValue >= 0)
{
wviewdWork.IsTestEmailEnabled = iValue;
}
}
iValue = wvconfigGetBooleanValue(configItem_HTMLGEN_STATION_SHOW_IF);
if (iValue >= 0)
{
wviewdWork.showStationIF = iValue;
}
else
{
wviewdWork.showStationIF = TRUE;
}
wvconfigExit ();
if (statusInit(wviewdWork.statusFile, wviewStatusLabels) == ERROR)
{
radMsgLog (PRI_HIGH, "statusInit failed - exiting...");
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
statusUpdate(STATUS_BOOTING);
// ... Initialize the archive database interface:
if (dbsqliteArchiveInit() == ERROR)
{
radMsgLog (PRI_HIGH, "dbsqliteArchiveInit failed");
statusUpdateMessage("dbsqliteArchiveInit failed");
statusUpdate(STATUS_ERROR);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// Initialize timers:
wviewdWork.archiveTimer = radTimerCreate (NULL, archiveTimerHandler, NULL);
if (wviewdWork.archiveTimer == NULL)
{
radMsgLog (PRI_HIGH, "radTimerCreate failed");
statusUpdateMessage("radTimerCreate failed");
statusUpdate(STATUS_ERROR);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
wviewdWork.cdataTimer = radTimerCreate (NULL, cdtimerHandler, NULL);
if (wviewdWork.cdataTimer == NULL)
{
radMsgLog (PRI_HIGH, "radTimerCreate failed");
statusUpdateMessage("radTimerCreate failed");
statusUpdate(STATUS_ERROR);
radTimerDelete (wviewdWork.archiveTimer);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
wviewdWork.pushTimer = radTimerCreate (NULL, pushTimerHandler, NULL);
if (wviewdWork.pushTimer == NULL)
{
radMsgLog (PRI_HIGH, "radTimerCreate failed");
statusUpdateMessage("radTimerCreate failed");
statusUpdate(STATUS_ERROR);
radTimerDelete (wviewdWork.cdataTimer);
radTimerDelete (wviewdWork.archiveTimer);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
wviewdWork.syncTimer = radTimerCreate (NULL, syncTimerHandler, NULL);
if (wviewdWork.syncTimer == NULL)
{
radMsgLog (PRI_HIGH, "sync radTimerCreate failed");
statusUpdateMessage("radTimerCreate failed");
statusUpdate(STATUS_ERROR);
radTimerDelete (wviewdWork.cdataTimer);
radTimerDelete (wviewdWork.pushTimer);
radTimerDelete (wviewdWork.archiveTimer);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
wviewdWork.ifTimer = radTimerCreate (NULL, ifTimerHandler, NULL);
if (wviewdWork.ifTimer == NULL)
{
radMsgLog (PRI_HIGH, "sync radTimerCreate failed");
statusUpdateMessage("radTimerCreate failed");
statusUpdate(STATUS_ERROR);
radTimerDelete (wviewdWork.syncTimer);
radTimerDelete (wviewdWork.cdataTimer);
radTimerDelete (wviewdWork.pushTimer);
radTimerDelete (wviewdWork.archiveTimer);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
radProcessEventsAdd (STATION_INIT_COMPLETE_EVENT);
radProcessEventsAdd (STATION_LOOP_COMPLETE_EVENT);
// register with the radlib message router
if (radMsgRouterInit (WVIEW_RUN_DIR) == ERROR)
{
radMsgLog (PRI_HIGH, "radMsgRouterInit failed!");
statusUpdateMessage("radMsgRouterInit failed");
statusUpdate(STATUS_ERROR);
radTimerDelete (wviewdWork.ifTimer);
radTimerDelete (wviewdWork.syncTimer);
radTimerDelete (wviewdWork.cdataTimer);
radTimerDelete (wviewdWork.pushTimer);
radTimerDelete (wviewdWork.archiveTimer);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// enable message reception from the radlib router for worker requests
radMsgRouterMessageRegister (WVIEW_MSG_TYPE_REQUEST);
// enable message reception from the radlib router for POLL msgs
radMsgRouterMessageRegister (WVIEW_MSG_TYPE_POLL);
// enable message reception from the radlib router for ALERT msgs
radMsgRouterMessageRegister (WVIEW_MSG_TYPE_ALERT);
// enable message reception from the radlib router for STATION_DATA msgs
radMsgRouterMessageRegister (WVIEW_MSG_TYPE_STATION_DATA);
// Initialize the HILOW database interface:
// (this cannot occur before the MsgRouter is initialized)
if (dbsqliteHiLowInit(TRUE) == ERROR)
{
radMsgLog (PRI_HIGH, "dbsqliteHiLowInit failed");
statusUpdateMessage("dbsqliteHiLowInit failed");
statusUpdate(STATUS_ERROR);
stationSendShutdown(&wviewdWork);
radMsgRouterExit ();
radTimerDelete (wviewdWork.ifTimer);
radTimerDelete (wviewdWork.syncTimer);
radTimerDelete (wviewdWork.cdataTimer);
radTimerDelete (wviewdWork.pushTimer);
radTimerDelete (wviewdWork.archiveTimer);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// initialize the station abstraction
radMsgLog (PRI_STATUS, "-- Station Init Start --");
if (stationInit (&wviewdWork, daemonArchiveIndication) == ERROR)
{
radMsgLog (PRI_HIGH, "stationInit failed!");
statusUpdateMessage("stationInit failed");
statusUpdate(STATUS_ERROR);
stationSendShutdown(&wviewdWork);
radMsgRouterExit ();
radTimerDelete (wviewdWork.ifTimer);
radTimerDelete (wviewdWork.syncTimer);
radTimerDelete (wviewdWork.cdataTimer);
radTimerDelete (wviewdWork.pushTimer);
radTimerDelete (wviewdWork.archiveTimer);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
// register the station interface if it is device-based:
if (wviewdWork.medium.type == MEDIUM_TYPE_DEVICE)
{
if (radProcessIORegisterDescriptor (wviewdWork.medium.fd,
stationDataCallback,
NULL)
== ERROR)
{
radMsgLog (PRI_HIGH, "IORegDescriptor failed");
statusUpdateMessage("IORegDescriptor failed");
statusUpdate(STATUS_ERROR);
stationSendShutdown(&wviewdWork);
radMsgRouterExit ();
radTimerDelete (wviewdWork.ifTimer);
radTimerDelete (wviewdWork.syncTimer);
radTimerDelete (wviewdWork.cdataTimer);
radTimerDelete (wviewdWork.pushTimer);
radTimerDelete (wviewdWork.archiveTimer);
stationExit (&wviewdWork);
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (1);
}
}
// Send test email if it is enabled:
if (wviewdWork.IsTestEmailEnabled)
{
radMsgLog(PRI_STATUS, "Sending test email...");
emailAlertSend(ALERT_TYPE_TEST);
}
statusUpdate(STATUS_RUNNING);
statusUpdateMessage("Normal operation");
radMsgLog (PRI_STATUS, "running...");
while (!wviewdWork.exiting)
{
// wait on timers, events, file descriptors, msgs
if (radProcessWait (0) == ERROR)
{
wviewdWork.exiting = TRUE;
}
}
statusUpdateMessage("exiting normally");
radMsgLog (PRI_STATUS, "exiting normally...");
statusUpdate(STATUS_SHUTDOWN);
computedDataExit (&wviewdWork);
radMsgRouterExit ();
radTimerDelete (wviewdWork.ifTimer);
radTimerDelete (wviewdWork.syncTimer);
radTimerDelete (wviewdWork.pushTimer);
radTimerDelete (wviewdWork.cdataTimer);
radTimerDelete (wviewdWork.archiveTimer);
stationExit (&wviewdWork);
dbsqliteHiLowExit();
dbsqliteArchiveExit();
daemonSysExit (&wviewdWork);
radProcessExit ();
radSystemExit (WVIEW_SYSTEM_ID);
exit (0);
}
static int readAlarmsConfig (void)
{
WVIEW_ALARM *alarm;
int i, numAlarms = 0;
int iValue;
char type[_MAX_PATH];
int boolMAX;
double thresh;
int abate;
char exec[_MAX_PATH];
char conftype[64];
const char* temp;
if (wvconfigInit(FALSE) == ERROR)
{
radMsgLog (PRI_CATASTROPHIC, "wvconfigInit failed!");
return ERROR;
}
// Is the alarms daemon enabled?
iValue = wvconfigGetBooleanValue(configItem_ENABLE_ALARMS);
if (iValue == ERROR || iValue == 0)
{
wvconfigExit ();
return ERROR_ABORT;
}
// set the wview verbosity setting
if (wvutilsSetVerbosity (WV_VERBOSE_WVALARMD) == ERROR)
{
radMsgLog (PRI_CATASTROPHIC, "wvutilsSetVerbosity failed!");
wvconfigExit ();
return ERROR_ABORT;
}
// get the metric units flag:
iValue = wvconfigGetBooleanValue(configItem_ALARMS_STATION_METRIC);
if (iValue == ERROR)
{
alarmsWork.isMetric = 0;
}
else
{
alarmsWork.isMetric = iValue;
}
// get the do test flag:
iValue = wvconfigGetBooleanValue(configItem_ALARMS_DO_TEST);
if (iValue <= 0)
{
alarmsWork.doTest = FALSE;
}
else
{
alarmsWork.doTest = TRUE;
alarmsWork.doTestNumber = wvconfigGetINTValue(configItem_ALARMS_DO_TEST_NUMBER);
}
for (i = 1; i <= ALARMS_MAX; i ++)
{
sprintf (conftype, "ALARMS_%1.1d_TYPE", i);
temp = wvconfigGetStringValue(conftype);
if (temp == NULL)
{
// No type defined - continue:
continue;
}
wvstrncpy(type, temp, _MAX_PATH);
sprintf (conftype, "ALARMS_%1.1d_MAX", i);
boolMAX = wvconfigGetBooleanValue(conftype);
if (boolMAX == ERROR)
{
continue;
}
sprintf (conftype, "ALARMS_%1.1d_THRESHOLD", i);
thresh = wvconfigGetDOUBLEValue(conftype);
sprintf (conftype, "ALARMS_%1.1d_ABATEMENT", i);
abate = wvconfigGetINTValue(conftype);
sprintf (conftype, "ALARMS_%1.1d_EXECUTE", i);
temp = wvconfigGetStringValue(conftype);
if (temp == NULL)
{
// No type defined - continue:
continue;
}
wvstrncpy(exec, temp, _MAX_PATH);
alarm = (WVIEW_ALARM *) malloc (sizeof (*alarm));
if (alarm == NULL)
{
for (alarm = (WVIEW_ALARM *)radListRemoveFirst (&alarmsWork.alarmList);
alarm != NULL;
alarm = (WVIEW_ALARM *)radListRemoveFirst (&alarmsWork.alarmList))
{
free (alarm);
}
return ERROR;
}
memset (alarm, 0, sizeof (*alarm));
// get the type
if (!strcmp (type, "Barometer"))
{
alarm->type = Barometer;
}
else if (!strcmp (type, "InsideTemp"))
{
alarm->type = InsideTemp;
}
else if (!strcmp (type, "InsideHumidity"))
{
alarm->type = InsideHumidity;
}
else if (!strcmp (type, "OutsideTemp"))
{
alarm->type = OutsideTemp;
}
else if (!strcmp (type, "WindSpeed"))
{
alarm->type = WindSpeed;
}
else if (!strcmp (type, "TenMinuteAvgWindSpeed"))
{
alarm->type = TenMinuteAvgWindSpeed;
}
else if (!strcmp (type, "WindDirection"))
{
alarm->type = WindDirection;
}
else if (!strcmp (type, "OutsideHumidity"))
{
alarm->type = OutsideHumidity;
}
else if (!strcmp (type, "RainRate"))
{
alarm->type = RainRate;
}
else if (!strcmp (type, "StormRain"))
{
alarm->type = StormRain;
}
else if (!strcmp (type, "DayRain"))
{
alarm->type = DayRain;
}
else if (!strcmp (type, "MonthRain"))
{
alarm->type = MonthRain;
}
else if (!strcmp (type, "YearRain"))
{
alarm->type = YearRain;
}
else if (!strcmp (type, "TxBatteryStatus"))
{
alarm->type = TxBatteryStatus;
}
else if (!strcmp (type, "ConsoleBatteryVoltage"))
{
alarm->type = ConsoleBatteryVoltage;
}
else if (!strcmp (type, "DewPoint"))
{
alarm->type = DewPoint;
}
else if (!strcmp (type, "WindChill"))
{
alarm->type = WindChill;
}
else if (!strcmp (type, "HeatIndex"))
{
alarm->type = HeatIndex;
}
else if (!strcmp (type, "Radiation"))
{
alarm->type = Radiation;
}
else if (!strcmp (type, "UV"))
{
alarm->type = UV;
}
else if (!strcmp (type, "ET"))
{
alarm->type = ET;
}
else if (!strcmp (type, "ExtraTemp1"))
{
alarm->type = ExtraTemp1;
}
else if (!strcmp (type, "ExtraTemp2"))
{
alarm->type = ExtraTemp2;
}
else if (!strcmp (type, "ExtraTemp3"))
{
alarm->type = ExtraTemp3;
}
else if (!strcmp (type, "SoilTemp1"))
{
alarm->type = SoilTemp1;
}
else if (!strcmp (type, "SoilTemp2"))
{
alarm->type = SoilTemp2;
}
else if (!strcmp (type, "SoilTemp3"))
{
alarm->type = SoilTemp3;
}
else if (!strcmp (type, "SoilTemp4"))
{
alarm->type = SoilTemp4;
}
else if (!strcmp (type, "LeafTemp1"))
{
alarm->type = LeafTemp1;
}
else if (!strcmp (type, "LeafTemp2"))
{
alarm->type = LeafTemp2;
}
else if (!strcmp (type, "ExtraHumid1"))
{
alarm->type = ExtraHumid1;
}
else if (!strcmp (type, "ExtraHumid2"))
{
alarm->type = ExtraHumid2;
}
else if (!strcmp (type, "Wxt510Hail"))
{
alarm->type = Wxt510Hail;
}
else if (!strcmp (type, "Wxt510Hailrate"))
{
alarm->type = Wxt510Hailrate;
}
else if (!strcmp (type, "Wxt510HeatingTemp"))
{
alarm->type = Wxt510HeatingTemp;
}
else if (!strcmp (type, "Wxt510HeatingVoltage"))
{
alarm->type = Wxt510HeatingVoltage;
}
else if (!strcmp (type, "Wxt510SupplyVoltage"))
{
alarm->type = Wxt510SupplyVoltage;
}
else if (!strcmp (type, "Wxt510ReferenceVoltage"))
{
alarm->type = Wxt510ReferenceVoltage;
}
else
{
free (alarm);
radMsgLog (PRI_MEDIUM, "invalid alarm type %s - skipping...",
type);
continue;
}
// do the max/min flag
alarm->isMax = boolMAX;
// now the bounding value
alarm->bound = (float)thresh;
// now the abatement seconds
alarm->abateSecs = abate;
// finally, the alarm script
wvstrncpy (alarm->scriptToRun, exec, WVIEW_ALARM_SCRIPT_LENGTH);
radListAddToEnd (&alarmsWork.alarmList, (NODE_PTR)alarm);
}
wvconfigExit ();
return (radListGetNumberOfNodes (&alarmsWork.alarmList));
}
