diff options
-rw-r--r-- | main.cpp | 160 |
1 files changed, 80 insertions, 80 deletions
@@ -21,7 +21,7 @@ #include <mts/MTS_Text.h> #include <mts/MTS_Logger.h> #include <mts/MTS_AutoPtr.h> -#include <mts/MTS_IO_CellularRadio.h> +#include <mts/MTS_IO_ICellularRadio.h> #include <mts/MTS_IO_CellularRadioFactory.h> #include <json/json.h> #include <sstream> @@ -57,7 +57,7 @@ std::string g_sType; std::string g_sPort(DEFAULT_PORT); Json::Value g_jData; -MTS::AutoPtr<MTS::IO::CellularRadio> g_apRadio; +MTS::AutoPtr<MTS::IO::ICellularRadio> g_apRadio; int32_t g_iOptions = 0; @@ -150,7 +150,7 @@ int main(int argc, char** argv) { } } - CellularRadio::CODE result = CellularRadio::CODE::SUCCESS; + ICellularRadio::CODE result = ICellularRadio::CODE::SUCCESS; if(g_iOptions & OPT_SUMMARY_NETWORK) { printf("%s", getNetworkData().toStyledString().c_str()); } else if(g_iOptions & OPT_SUMMARY_STATIC) { @@ -158,134 +158,134 @@ int main(int argc, char** argv) { } else if(g_iOptions & OPT_RSSI) { int32_t iValue; result = g_apRadio->getSignalStrength(iValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { writeToCache(FRSSI, iValue); printf("%d", iValue); } }else if(g_iOptions & OPT_LOCATION) { std::string sValue; result = g_apRadio->getModemLocation(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } else { printf("Radio has not location support"); } }else if(g_iOptions & OPT_NETREG) { std::string sValue; - CellularRadio::REGISTRATION eReg; + ICellularRadio::REGISTRATION eReg; result = g_apRadio->getRegistration(eReg); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { result = g_apRadio->convertRegistrationToString(eReg, sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } } else if(g_iOptions & OPT_LAC) { std::string sValue; result = g_apRadio->getLac(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_TOWER) { std::string sValue; result = g_apRadio->getTower(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_ICCID) { std::string sValue; result = g_apRadio->getIccid(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { writeToCache(FICCID, sValue); printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_SERVICE) { std::string sValue; result = g_apRadio->getService(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_NETWORK) { std::string sValue; result = g_apRadio->getNetwork(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_MDN) { std::string sValue; result = g_apRadio->getMdn(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { writeToCache(FMDN, sValue); printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_FIRMWARE) { std::string sValue; result = g_apRadio->getFirmware(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { writeToCache(FFIRMWARE, sValue); printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_FIRMWAREBUILD) { std::string sValue; result = g_apRadio->getFirmwareBuild(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { writeToCache(FFIRMWAREBUILD, sValue); printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_IMEI) { std::string sValue; result = g_apRadio->getImei(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_IMSI) { std::string sValue; result = g_apRadio->getImsi(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_MODEL) { std::string sValue; result = g_apRadio->getModel(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_TYPE) { std::string sValue; std::string sType; result = g_apRadio->getModel(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { result = g_apRadio->convertModelToType(sValue, sType); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sType.c_str()); } } } else if(g_iOptions & OPT_CARRIER) { std::string sValue; result = g_apRadio->getCarrier(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { writeToCache(FCARRIER, sValue); printf("%s", sValue.c_str()); } } else if(g_iOptions & OPT_DATETIME) { std::string sDate, sTime, sZone; result = g_apRadio->getTime(sDate, sTime, sZone); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s %s GMT%s", sDate.c_str(), sTime.c_str(), sZone.c_str()); } } else if(g_iOptions & OPT_ACTIVEFIRMWARE) { std::string sValue; result = g_apRadio->getActiveFirmware(sValue); - if(result == CellularRadio::SUCCESS) { + if(result == ICellularRadio::SUCCESS) { printf("%s", sValue.c_str()); } } - if (g_bIstty && result == CellularRadio::CODE::SUCCESS) + if (g_bIstty && result == ICellularRadio::CODE::SUCCESS) printf("\n"); shutdown(); - return (result == CellularRadio::CODE::SUCCESS) ? 0 : 1; + return (result == ICellularRadio::CODE::SUCCESS) ? 0 : 1; } void handle_sigterm(int signum) { @@ -319,47 +319,47 @@ void initializeCache() { std::ofstream ofile; ofile.open(g_sCache + "/" + FMODEL); - ofile << jData[MTS::IO::CellularRadio::KEY_MODEL].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_MODEL].asString(); ofile.close(); - if(g_sType == MTS::IO::CellularRadio::VALUE_TYPE_CDMA) { + if(g_sType == MTS::IO::ICellularRadio::VALUE_TYPE_CDMA) { ofile.open(g_sCache + "/" + FIMEI); - ofile << jData[MTS::IO::CellularRadio::KEY_MEID].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_MEID].asString(); ofile.close(); ofile.open(g_sCache + "/" + FMEID); - ofile << jData[MTS::IO::CellularRadio::KEY_MEID].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_MEID].asString(); ofile.close(); } else { ofile.open(g_sCache + "/" + FIMEI); - ofile << jData[MTS::IO::CellularRadio::KEY_IMEI].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_IMEI].asString(); ofile.close(); ofile.open(g_sCache + "/" + FMEID); - ofile << jData[MTS::IO::CellularRadio::KEY_IMEI].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_IMEI].asString(); ofile.close(); } ofile.open(g_sCache + "/" + FIMSI); - ofile << jData[MTS::IO::CellularRadio::KEY_IMSI].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_IMSI].asString(); ofile.close(); ofile.open(g_sCache + "/" + FTYPE); - ofile << jData[MTS::IO::CellularRadio::KEY_TYPE].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_TYPE].asString(); ofile.close(); ofile.open(g_sCache + "/" + FCODE); - ofile << jData[MTS::IO::CellularRadio::KEY_CODE].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_CODE].asString(); ofile.close(); ofile.open(g_sCache + "/" + FFIRMWARE); - ofile << jData[MTS::IO::CellularRadio::KEY_FIRMWARE].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_FIRMWARE].asString(); ofile.close(); ofile.open(g_sCache + "/" + FFIRMWAREBUILD); - ofile << jData[MTS::IO::CellularRadio::KEY_FIRMWARE_BUILD].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_FIRMWARE_BUILD].asString(); ofile.close(); ofile.open(g_sCache + "/" + FCARRIER); - ofile << jData[MTS::IO::CellularRadio::KEY_CARRIER].asString(); + ofile << jData[MTS::IO::ICellularRadio::KEY_CARRIER].asString(); ofile.close(); } @@ -385,87 +385,87 @@ Json::Value getStaticData() { Json::Value jData; std::string sImei; - CellularRadio::CODE eCode = g_apRadio->getImei(sImei); - if(eCode != CellularRadio::SUCCESS) { - printWarning("Radio IMEI not found: %s", CellularRadio::getCodeAsString(eCode).c_str()); + ICellularRadio::CODE eCode = g_apRadio->getImei(sImei); + if(eCode != ICellularRadio::SUCCESS) { + printWarning("Radio IMEI not found: %s", ICellularRadio::getCodeAsString(eCode).c_str()); } - if(g_apRadio->getModel(g_sModel) == CellularRadio::SUCCESS) { - jData[CellularRadio::KEY_MODEL] = g_sModel; + if(g_apRadio->getModel(g_sModel) == ICellularRadio::SUCCESS) { + jData[ICellularRadio::KEY_MODEL] = g_sModel; } else { printWarning("Radio model not found"); } - if(g_apRadio->convertModelToType(g_sModel, g_sType) == CellularRadio::SUCCESS) { - jData[CellularRadio::KEY_TYPE] = g_sType; + if(g_apRadio->convertModelToType(g_sModel, g_sType) == ICellularRadio::SUCCESS) { + jData[ICellularRadio::KEY_TYPE] = g_sType; } else { printWarning("Radio type not supported"); } - std::string sCode(CellularRadio::VALUE_UNKNOWN); - if(CellularRadio::convertModelToMtsShortCode(g_sModel, sCode, g_apRadio.get()) != CellularRadio::SUCCESS) { + std::string sCode(ICellularRadio::VALUE_UNKNOWN); + if(ICellularRadio::convertModelToMtsShortCode(g_sModel, sCode, g_apRadio.get()) != ICellularRadio::SUCCESS) { printWarning("Radio MTS short code not supported"); } - jData[CellularRadio::KEY_CODE] = sCode; + jData[ICellularRadio::KEY_CODE] = sCode; - if(g_sType == CellularRadio::VALUE_TYPE_CDMA) { - jData[CellularRadio::KEY_MEID] = sImei; + if(g_sType == ICellularRadio::VALUE_TYPE_CDMA) { + jData[ICellularRadio::KEY_MEID] = sImei; } else { - jData[CellularRadio::KEY_IMEI] = sImei; + jData[ICellularRadio::KEY_IMEI] = sImei; std::string sIccid; - if(g_apRadio->getIccid(sIccid) == CellularRadio::SUCCESS) { - jData[CellularRadio::KEY_ICCID] = sIccid; + if(g_apRadio->getIccid(sIccid) == ICellularRadio::SUCCESS) { + jData[ICellularRadio::KEY_ICCID] = sIccid; } } - std::string sImsi(CellularRadio::VALUE_UNKNOWN); - if(g_apRadio->getImsi(sImsi) != CellularRadio::SUCCESS) { + std::string sImsi(ICellularRadio::VALUE_UNKNOWN); + if(g_apRadio->getImsi(sImsi) != ICellularRadio::SUCCESS) { printWarning("Radio IMSI not found"); } - jData[CellularRadio::KEY_IMSI] = sImsi; + jData[ICellularRadio::KEY_IMSI] = sImsi; - std::string sMsid(CellularRadio::VALUE_UNKNOWN); - if(g_apRadio->getMsid(sMsid) != CellularRadio::SUCCESS) { + std::string sMsid(ICellularRadio::VALUE_UNKNOWN); + if(g_apRadio->getMsid(sMsid) != ICellularRadio::SUCCESS) { printWarning("Radio MSID not found"); } - jData[CellularRadio::KEY_MSID] = sMsid; + jData[ICellularRadio::KEY_MSID] = sMsid; - std::string sFirmware(CellularRadio::VALUE_UNKNOWN); - if(g_apRadio->getFirmware(sFirmware) != CellularRadio::SUCCESS) { + std::string sFirmware(ICellularRadio::VALUE_UNKNOWN); + if(g_apRadio->getFirmware(sFirmware) != ICellularRadio::SUCCESS) { printWarning("Radio Firmware not found"); } - jData[CellularRadio::KEY_FIRMWARE] = sFirmware; + jData[ICellularRadio::KEY_FIRMWARE] = sFirmware; - std::string sFirmwareBuild(CellularRadio::VALUE_UNKNOWN); - if(g_apRadio->getFirmwareBuild(sFirmwareBuild) != CellularRadio::SUCCESS) { + std::string sFirmwareBuild(ICellularRadio::VALUE_UNKNOWN); + if(g_apRadio->getFirmwareBuild(sFirmwareBuild) != ICellularRadio::SUCCESS) { printWarning("Radio Firmware Build not found"); } - jData[CellularRadio::KEY_FIRMWARE_BUILD] = sFirmwareBuild; + jData[ICellularRadio::KEY_FIRMWARE_BUILD] = sFirmwareBuild; - std::string sCarrier(CellularRadio::VALUE_UNKNOWN); - if(g_apRadio->getCarrier(sCarrier) != CellularRadio::SUCCESS) { + std::string sCarrier(ICellularRadio::VALUE_UNKNOWN); + if(g_apRadio->getCarrier(sCarrier) != ICellularRadio::SUCCESS) { printWarning("Radio Carrier not found"); } - jData[CellularRadio::KEY_CARRIER] = sCarrier; + jData[ICellularRadio::KEY_CARRIER] = sCarrier; - std::string sHardware(CellularRadio::VALUE_UNKNOWN); - if(g_apRadio->getHardware(sHardware) != CellularRadio::SUCCESS) { + std::string sHardware(ICellularRadio::VALUE_UNKNOWN); + if(g_apRadio->getHardware(sHardware) != ICellularRadio::SUCCESS) { printWarning("Radio Hardware Version not found"); } - jData[CellularRadio::KEY_HARDWARE] = sHardware; + jData[ICellularRadio::KEY_HARDWARE] = sHardware; - std::string sManufacturer(CellularRadio::VALUE_UNKNOWN); - if(g_apRadio->getManufacturer(sManufacturer) != CellularRadio::SUCCESS) { + std::string sManufacturer(ICellularRadio::VALUE_UNKNOWN); + if(g_apRadio->getManufacturer(sManufacturer) != ICellularRadio::SUCCESS) { printWarning("Radio Manufacturer not found"); } - jData[CellularRadio::KEY_MANUFACTURER] = sManufacturer; + jData[ICellularRadio::KEY_MANUFACTURER] = sManufacturer; - std::string sMdn(CellularRadio::VALUE_UNKNOWN); - if(g_apRadio->getMdn(sMdn) == CellularRadio::SUCCESS) { + std::string sMdn(ICellularRadio::VALUE_UNKNOWN); + if(g_apRadio->getMdn(sMdn) == ICellularRadio::SUCCESS) { //CDMA Provisioned Flag - if(g_sType == CellularRadio::VALUE_TYPE_CDMA) { + if(g_sType == ICellularRadio::VALUE_TYPE_CDMA) { if(sMdn.size() == 0 || sMdn.find("000000") != std::string::npos) { jData["provisioned"] = false; } else { @@ -475,11 +475,11 @@ Json::Value getStaticData() { } else { printWarning("Radio MDN not found"); } - jData[CellularRadio::KEY_MDN] = sMdn; + jData[ICellularRadio::KEY_MDN] = sMdn; Json::Value jMip; - if(g_apRadio->getMipProfile(jMip) == MTS::IO::CellularRadio::SUCCESS) { - jData[MTS::IO::CellularRadio::KEY_MIP] = jMip; + if(g_apRadio->getMipProfile(jMip) == MTS::IO::ICellularRadio::SUCCESS) { + jData[MTS::IO::ICellularRadio::KEY_MIP] = jMip; } return jData; |