/* LX200 GPS Copyright (C) 2003 Jasem Mutlaq (mutlaqja@ikarustech.com) This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "lx200gps.h" #include "lx200driver.h" #include #include #include #include #define GPSGroup "Extended GPS Features" extern LX200Generic *telescope; extern int MaxReticleFlashRate; static ISwitch GPSPowerS[] = {{ "On", "", ISS_OFF, 0, 0}, {"Off", "", ISS_ON, 0, 0}}; static ISwitch GPSStatusS[] = {{ "Sleep", "", ISS_OFF, 0, 0}, {"Wake up", "", ISS_OFF, 0 ,0}, {"Restart", "", ISS_OFF, 0, 0}}; static ISwitch GPSUpdateS[] = { {"Update GPS", "", ISS_OFF, 0, 0}, {"Update Client", "", ISS_OFF, 0, 0}}; static ISwitch AltDecPecS[] = {{ "Enable", "", ISS_OFF, 0 ,0}, {"Disable", "", ISS_OFF, 0 ,0}}; static ISwitch AzRaPecS[] = {{ "Enable", "", ISS_OFF, 0, 0}, {"Disable", "", ISS_OFF, 0 ,0}}; static ISwitch SelenSyncS[] = {{ "Sync", "", ISS_OFF, 0, 0}}; static ISwitch AltDecBackSlashS[] = {{ "Activate", "", ISS_OFF, 0, 0}}; static ISwitch AzRaBackSlashS[] = {{ "Activate", "", ISS_OFF, 0, 0}}; static ISwitch OTAUpdateS[] = {{ "Update", "", ISS_OFF, 0, 0}}; static ISwitchVectorProperty GPSPowerSP = { mydev, "GPS Power", "", GPSGroup, IP_RW, ISR_1OFMANY, 0 , IPS_IDLE, GPSPowerS, NARRAY(GPSPowerS), "", 0}; static ISwitchVectorProperty GPSStatusSP = { mydev, "GPS Status", "", GPSGroup, IP_RW, ISR_1OFMANY, 0, IPS_IDLE, GPSStatusS, NARRAY(GPSStatusS), "", 0}; static ISwitchVectorProperty GPSUpdateSP = { mydev, "GPS System", "", GPSGroup, IP_RW, ISR_1OFMANY, 0, IPS_IDLE, GPSUpdateS, NARRAY(GPSUpdateS), "", 0}; static ISwitchVectorProperty AltDecPecSP = { mydev, "Alt/Dec PEC", "", GPSGroup, IP_RW, ISR_1OFMANY, 0, IPS_IDLE, AltDecPecS, NARRAY(AltDecPecS), "", 0}; static ISwitchVectorProperty AzRaPecSP = { mydev, "Az/Ra PEC", "", GPSGroup, IP_RW, ISR_1OFMANY, 0, IPS_IDLE, AzRaPecS, NARRAY(AzRaPecS), "", 0}; static ISwitchVectorProperty SelenSyncSP = { mydev, "Selenographic Sync", "", GPSGroup, IP_RW, ISR_ATMOST1, 0, IPS_IDLE, SelenSyncS, NARRAY(SelenSyncS), "", 0}; static ISwitchVectorProperty AltDecBackSlashSP = { mydev, "Alt/Dec Anti-backslash", "", GPSGroup, IP_RW, ISR_ATMOST1, 0, IPS_IDLE, AltDecBackSlashS, NARRAY(AltDecBackSlashS), "", 0}; static ISwitchVectorProperty AzRaBackSlashSP = { mydev, "Az/Ra Anti-backslash", "", GPSGroup, IP_RW, ISR_ATMOST1, 0, IPS_IDLE, AzRaBackSlashS, NARRAY(AzRaBackSlashS), "", 0}; static ISwitchVectorProperty OTAUpdateSP = { mydev, "OTA Update", "", GPSGroup, IP_RW, ISR_ATMOST1, 0, IPS_IDLE, OTAUpdateS, NARRAY(OTAUpdateS), "", 0}; static INumber OTATempN[] = { {"Temp.", "", "%g", -200., 500., 0., 0., 0, 0, 0 } }; static INumberVectorProperty OTATempNP = { mydev, "OTA Temperature (C)", "", GPSGroup, IP_RO, 0, IPS_IDLE, OTATempN, NARRAY(OTATempN), "", 0}; void updateTemp(void *p); void changeLX200GPSDeviceName(const char *newName) { strcpy(GPSPowerSP.device, newName); strcpy(GPSStatusSP.device, newName ); strcpy(GPSUpdateSP.device, newName ); strcpy(AltDecPecSP.device, newName ); strcpy(AzRaPecSP.device,newName ); strcpy(SelenSyncSP.device, newName ); strcpy(AltDecBackSlashSP.device, newName ); strcpy(AzRaBackSlashSP.device, newName ); strcpy(OTATempNP.device, newName ); strcpy(OTAUpdateSP.device, newName); } LX200GPS::LX200GPS() : LX200_16() { IEAddTimer(900000, updateTemp, &fd); } void LX200GPS::ISGetProperties (const char *dev) { if (dev && strcmp (thisDevice, dev)) return; // process parent first LX200_16::ISGetProperties(dev); IDDefSwitch (&GPSPowerSP, NULL); IDDefSwitch (&GPSStatusSP, NULL); IDDefSwitch (&GPSUpdateSP, NULL); IDDefSwitch (&AltDecPecSP, NULL); IDDefSwitch (&AzRaPecSP, NULL); IDDefSwitch (&SelenSyncSP, NULL); IDDefSwitch (&AltDecBackSlashSP, NULL); IDDefSwitch (&AzRaBackSlashSP, NULL); IDDefNumber (&OTATempNP, NULL); IDDefSwitch (&OTAUpdateSP, NULL); } void LX200GPS::ISNewText (const char *dev, const char *name, char *texts[], char *names[], int n) { // ignore if not ours // if (strcmp (dev, thisDevice)) return; LX200_16::ISNewText (dev, name, texts, names, n); } void LX200GPS::ISNewNumber (const char *dev, const char *name, double values[], char *names[], int n) { LX200_16::ISNewNumber (dev, name, values, names, n); } void LX200GPS::ISNewSwitch (const char *dev, const char *name, ISState *states, char *names[], int n) { int index=0, err=0; char msg[64]; if (strcmp (dev, thisDevice)) return; /* GPS Power */ if (!strcmp(name,GPSPowerSP.name)) { if (checkPower(&GPSPowerSP)) return; if (IUUpdateSwitch(&GPSPowerSP, states, names, n) < 0) return; index = getOnSwitch(&GPSPowerSP); if (index == 0) turnGPSOn(fd); else turnGPSOff(fd); GPSPowerSP.s = IPS_OK; IDSetSwitch (&GPSPowerSP, index == 0 ? "GPS System is ON" : "GPS System is OFF" ); return; } /* GPS Status Update */ if (!strcmp(name,GPSStatusSP.name)) { if (checkPower(&GPSStatusSP)) return; if (IUUpdateSwitch(&GPSStatusSP, states, names, n) < 0) return; index = getOnSwitch(&GPSStatusSP); if (index == 0) { err = gpsSleep(fd); strcpy(msg, "GPS system is in sleep mode."); } else if (index == 1) { err = gpsWakeUp(fd); strcpy(msg, "GPS system is reactivated."); } else { err = gpsRestart(fd); strcpy(msg, "GPS system is restarting..."); updateTime(); updateLocation(); } GPSStatusSP.s = IPS_OK; IDSetSwitch (&GPSStatusSP, "%s", msg); return; } /* GPS Update */ if (!strcmp(name,GPSUpdateSP.name)) { if (checkPower(&GPSUpdateSP)) return; if (IUUpdateSwitch(&GPSUpdateSP, states, names, n) < 0) return; index = getOnSwitch(&GPSUpdateSP); GPSUpdateSP.s = IPS_OK; if (index == 0) { IDSetSwitch(&GPSUpdateSP, "Updating GPS system. This operation might take few minutes to complete..."); if (updateGPS_System(fd)) { IDSetSwitch(&GPSUpdateSP, "GPS system update successful."); updateTime(); updateLocation(); } else { GPSUpdateSP.s = IPS_IDLE; IDSetSwitch(&GPSUpdateSP, "GPS system update failed."); } } else { updateTime(); updateLocation(); IDSetSwitch(&GPSUpdateSP, "Client time and location is synced to LX200 GPS Data."); } return; } /* Alt Dec Periodic Error correction */ if (!strcmp(name, AltDecPecSP.name)) { if (checkPower(&AltDecPecSP)) return; if (IUUpdateSwitch(&AltDecPecSP, states, names, n) < 0) return; index = getOnSwitch(&AltDecPecSP); if (index == 0) { err = enableDecAltPec(fd); strcpy (msg, "Alt/Dec Compensation Enabled"); } else { err = disableDecAltPec(fd); strcpy (msg, "Alt/Dec Compensation Disabled"); } AltDecPecSP.s = IPS_OK; IDSetSwitch(&AltDecPecSP, "%s", msg); return; } /* Az RA periodic error correction */ if (!strcmp(name, AzRaPecSP.name)) { if (checkPower(&AzRaPecSP)) return; if (IUUpdateSwitch(&AzRaPecSP, states, names, n) < 0) return; index = getOnSwitch(&AzRaPecSP); if (index == 0) { err = enableRaAzPec(fd); strcpy (msg, "Ra/Az Compensation Enabled"); } else { err = disableRaAzPec(fd); strcpy (msg, "Ra/Az Compensation Disabled"); } AzRaPecSP.s = IPS_OK; IDSetSwitch(&AzRaPecSP, "%s", msg); return; } if (!strcmp(name, AltDecBackSlashSP.name)) { if (checkPower(&AltDecBackSlashSP)) return; err = activateAltDecAntiBackSlash(fd); AltDecBackSlashSP.s = IPS_OK; IDSetSwitch(&AltDecBackSlashSP, "Alt/Dec Anti-backslash enabled"); return; } if (!strcmp(name, AzRaBackSlashSP.name)) { if (checkPower(&AzRaBackSlashSP)) return; err = activateAzRaAntiBackSlash(fd); AzRaBackSlashSP.s = IPS_OK; IDSetSwitch(&AzRaBackSlashSP, "Az/Ra Anti-backslash enabled"); return; } if (!strcmp(name, OTAUpdateSP.name)) { int error_type=0; if (checkPower(&OTAUpdateSP)) return; IUResetSwitch(&OTAUpdateSP); if ( (error_type = getOTATemp(fd, &OTATempNP.np[0].value)) < 0) { OTAUpdateSP.s = IPS_ALERT; OTATempNP.s = IPS_ALERT; IDSetNumber(&OTATempNP, "Error: OTA temperature read timed out."); } else { OTAUpdateSP.s = IPS_OK; OTATempNP.s = IPS_OK; IDSetNumber(&OTATempNP, NULL); } return; } LX200_16::ISNewSwitch (dev, name, states, names, n); } void LX200GPS::ISPoll () { LX200_16::ISPoll(); } void updateTemp(void * p) { int fd = *((int *) p); if (telescope->isTelescopeOn()) { if (getOTATemp(fd, &OTATempNP.np[0].value) < 0) { OTATempNP.s = IPS_ALERT; IDSetNumber(&OTATempNP, "Error: OTA temperature read timed out."); return; } else { OTATempNP.s = IPS_OK; IDSetNumber(&OTATempNP, NULL); } } IEAddTimer(900000, updateTemp, &fd); } void LX200GPS::getBasicData() { //getOTATemp(&OTATempNP.np[0].value); //IDSetNumber(&OTATempNP, NULL); // process parent LX200_16::getBasicData(); }