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#include "mts/MTS_IO_ICellularRadio.h"
#include <mts/MTS_Logger.h>
#include <mts/MTS_Timer.h>
const char MTS::IO::ICellularRadio::ETX = 0x03; //Ends socket connection
const char MTS::IO::ICellularRadio::DLE = 0x10; //Escapes ETX and DLE within Payload
const char MTS::IO::ICellularRadio::CR = 0x0D;
const char MTS::IO::ICellularRadio::NL = 0x0A;
const char MTS::IO::ICellularRadio::CTRL_Z = 0x1A;
const char *MTS::IO::ICellularRadio::RSP_ERROR = "ERROR";
const char *MTS::IO::ICellularRadio::RSP_OK = "OK";
const char *MTS::IO::ICellularRadio::DEFAULT_RADIO_PORT = "/dev/modem_at1";
const char *MTS::IO::ICellularRadio::DEFAULT_RADIO_DIR = "/var/run/radio/";
const char *MTS::IO::ICellularRadio::VALUE_UNKNOWN = "Unknown";
const char *MTS::IO::ICellularRadio::VALUE_UNAVAILABLE = "Unavailable";
const char *MTS::IO::ICellularRadio::VALUE_NOT_SUPPORTED = "Not Supported";
const char *MTS::IO::ICellularRadio::VALUE_NOT_REGISTERED = "NOT REGISTERED";
const char *MTS::IO::ICellularRadio::VALUE_REGISTERED = "REGISTERED";
const char *MTS::IO::ICellularRadio::VALUE_SEARCHING = "SEARCHING";
const char *MTS::IO::ICellularRadio::VALUE_DENIED = "DENIED";
const char *MTS::IO::ICellularRadio::VALUE_ROAMING = "ROAMING";
//Static Data
const char *MTS::IO::ICellularRadio::KEY_TYPE = "type"; //!< GSM or CDMA
const char *MTS::IO::ICellularRadio::KEY_CODE = "code"; //!< Product Code : H5, H6, C2, EV3, G3
const char *MTS::IO::ICellularRadio::KEY_MODEL = "model"; //!< Model : HE910, LE910, CE910, DE910, GE910
const char *MTS::IO::ICellularRadio::KEY_MANUFACTURER = "manufacturer"; //!< Manufacturer: Telit
const char *MTS::IO::ICellularRadio::KEY_HARDWARE = "hardware"; //!< Radio Hardware Version
const char *MTS::IO::ICellularRadio::KEY_FIRMWARE = "firmware"; //!< Radio Firmware Version
const char *MTS::IO::ICellularRadio::KEY_FIRMWARE_BUILD = "firmwarebuild"; //!< Radio Firmware Build
const char *MTS::IO::ICellularRadio::KEY_CARRIER = "carrier"; //!< Cellular Service Provider = Home Network
const char *MTS::IO::ICellularRadio::VALUE_CARRIER_VERIZON = "Verizon";
const char *MTS::IO::ICellularRadio::VALUE_CARRIER_AERIS = "Aeris";
const char *MTS::IO::ICellularRadio::VALUE_CARRIER_SPRINT = "Sprint";
const char *MTS::IO::ICellularRadio::VALUE_CARRIER_USCELLULAR = "U.S. Cellular";
const char *MTS::IO::ICellularRadio::VALUE_CARRIER_ATT = "AT&T";
const char *MTS::IO::ICellularRadio::VALUE_CARRIER_TMOBILE = "T-Mobile";
const char *MTS::IO::ICellularRadio::KEY_IMEI = "imei"; //!< International Mobile Station Equipment Identity
const char *MTS::IO::ICellularRadio::KEY_MEID = "meid"; //!< Mobile Equipment Identifier
const char *MTS::IO::ICellularRadio::KEY_IMSI = "imsi"; //!< International Mobile Subscriber Identity
const char *MTS::IO::ICellularRadio::KEY_MSID = "msid"; //!< Mobil Station ID / Mobile Identification Number = MSID/MIN = CDMA-Only
const char *MTS::IO::ICellularRadio::KEY_MDN = "mdn"; //!< Mobile Directory Number : Actual phone number dialed to reach radio
const char *MTS::IO::ICellularRadio::KEY_ICCID = "iccid"; //!< Integrated Circuit Card Identifier
const char *MTS::IO::ICellularRadio::KEY_MSL = "msl"; //!< Master Subsidy Lock
const char *MTS::IO::ICellularRadio::KEY_SUPPORTED_CELL_MODES = "supportedCellularModes"; //!< Comma-separated list of all supported cellular modes (2g,3g,4g)
//Dynamic Data
const char *MTS::IO::ICellularRadio::KEY_ROAMING = "roaming"; //!< Indicates whether or not using Home Network
const char *MTS::IO::ICellularRadio::KEY_DATETIME = "datetime"; //!< Date and Time from tower
const char *MTS::IO::ICellularRadio::KEY_SERVICE = "service"; //!< Service Connection Type [GPRS, EGPRS, WCDMA, HSDPA, 1xRTT, EVDO]
const char *MTS::IO::ICellularRadio::KEY_CELL_MODE = "cellularMode"; //!< Specifies the cellular mode that is currently used by the modem [2g, 3g, 4g]
const char *MTS::IO::ICellularRadio::KEY_NETWORK = "network"; //!< Cellular Service Provider
const char *MTS::IO::ICellularRadio::KEY_NETWORK_REG = "netreg"; //!< Network Registration
const char *MTS::IO::ICellularRadio::KEY_CID = "cid"; //!< Cellular ID = Tower in HEX
const char *MTS::IO::ICellularRadio::KEY_LAC = "lac"; //!< Location Area Code in HEX
const char *MTS::IO::ICellularRadio::KEY_RAC = "rac"; //!< Routing Area Code in HEX
const char *MTS::IO::ICellularRadio::KEY_RSSI = "rssi"; //!< Signal Strength
const char *MTS::IO::ICellularRadio::KEY_RSSIDBM = "rssidBm"; //!< Signal Strength in dBm
const char *MTS::IO::ICellularRadio::KEY_MCC = "mcc"; //!< Country Code
const char *MTS::IO::ICellularRadio::KEY_MNC = "mnc"; //!< Operator Code
const char *MTS::IO::ICellularRadio::KEY_CHANNEL = "channel"; //!< ARFCN or UARFCN Assigned Radio Channel
const char *MTS::IO::ICellularRadio::KEY_TXPWR = "txpwr"; //!< Transmit Power
const char *MTS::IO::ICellularRadio::KEY_PSC = "psc"; //!< Active Primary Synchronization Code = PSC
const char *MTS::IO::ICellularRadio::KEY_ECIO = "ecio"; //!< Active Ec/Io = chip energy per total wideband power in dBm
const char *MTS::IO::ICellularRadio::KEY_RSCP = "rscp"; //!< Active RSCP = Received Signal Code Power in dBm
const char *MTS::IO::ICellularRadio::KEY_DRX = "drx"; //!< Discontinuous reception cycle length = ms
const char *MTS::IO::ICellularRadio::KEY_MM = "mm"; //!< Mobility Management State
const char *MTS::IO::ICellularRadio::KEY_RR = "rr"; //!< Radio Resource State
const char *MTS::IO::ICellularRadio::KEY_NOM = "nom"; //!< Network Operator Mode
const char *MTS::IO::ICellularRadio::KEY_ABND = "abnd"; //!< Active Band
const char *MTS::IO::ICellularRadio::KEY_BLER = "bler"; //!< Block Error Rate = percentage
const char *MTS::IO::ICellularRadio::KEY_SD = "sd"; //!< Service Domain
const char *MTS::IO::ICellularRadio::KEY_DEBUG = "debug"; //!< Debug Information
const char *MTS::IO::ICellularRadio::KEY_MIP = "mipProfile"; //!< Mobile IP Information
const char *MTS::IO::ICellularRadio::KEY_MIP_ID = "id"; //!< Mobile IP ID
const char *MTS::IO::ICellularRadio::KEY_MIP_ENABLED = "enabled"; //!< Mobile IP Enabled/Disabled
const char *MTS::IO::ICellularRadio::KEY_MIP_NAI = "nai"; //!< Network Access Identifier
const char *MTS::IO::ICellularRadio::KEY_MIP_HOMEADDRESS = "homeAddress"; //!< Home Address
const char *MTS::IO::ICellularRadio::KEY_MIP_PRIMARYHA = "primaryAddress"; //!< Primary Home Agent
const char *MTS::IO::ICellularRadio::KEY_MIP_SECONDARYHA = "secondaryAddress"; //!< Secondary Home Agent
const char *MTS::IO::ICellularRadio::KEY_MIP_MNAAASPI = "mnAaaSpi"; //!< Mobile Node Authentication, Authorization, and Accounting Server Security Parameter Index
const char *MTS::IO::ICellularRadio::KEY_MIP_MNHASPI = "mnHaSpi"; //!< Mobile Node Home Agent Security Server Parameter Index
const char *MTS::IO::ICellularRadio::KEY_MIP_REVTUN = "revTun"; //!< Reverse Tunneling Enabled
const char *MTS::IO::ICellularRadio::KEY_MIP_MNAAASS = "mnAaaSs"; //!< Mobile Node Authentication, Authorization, and Accounting Server Shared Secret
const char *MTS::IO::ICellularRadio::KEY_MIP_MNHASS = "mnHaSs"; //!< Mobile Node Home Agent Shared Secret
const char *MTS::IO::ICellularRadio::VALUE_TYPE_GSM = "GSM";
const char *MTS::IO::ICellularRadio::VALUE_TYPE_LTE = "LTE";
const char *MTS::IO::ICellularRadio::VALUE_TYPE_CDMA = "CDMA";
const char *MTS::IO::ICellularRadio::KEY_IS_SIM_INSERTED = "isSimInserted"; //!< SIM card insertion indicator. True when a SIM card is inserted
const char *MTS::IO::ICellularRadio::KEY_IS_SIM_LOCKED = "isSimLocked"; //!< SIM card lock status indicator. True when a SIM card is locked by PIN / PUK / other code
const char *MTS::IO::ICellularRadio::KEY_SIM_LOCK_STATUS = "lockStatus"; //!< SIM card lock status string. Either "READY", "SIM PIN", "SIM PUK" or other state
const char *MTS::IO::ICellularRadio::KEY_ATTEMPTS_PIN = "attemptsPin"; //!< The number of attempts left to unlock the SIM card using PIN code
const char *MTS::IO::ICellularRadio::KEY_ATTEMPTS_PUK = "attemptsPuk"; //!< The number of attempts left to unlock the SIM card using PUK code
const char *MTS::IO::ICellularRadio::VALUE_SD_NO_SERVICE = "NO SERVICE";
const char *MTS::IO::ICellularRadio::VALUE_SD_CS_ONLY = "CS ONLY";
const char *MTS::IO::ICellularRadio::VALUE_SD_PS_ONLY = "PS ONLY";
const char *MTS::IO::ICellularRadio::VALUE_SD_CSPS = "CS+PS";
const char *MTS::IO::ICellularRadio::VALUE_ABND_GSM_850 = "GSM 850";
const char *MTS::IO::ICellularRadio::VALUE_ABND_GSM_900 = "GSM 900";
const char *MTS::IO::ICellularRadio::VALUE_ABND_DCS_1800 = "DCS 1800";
const char *MTS::IO::ICellularRadio::VALUE_ABND_PCS_1900 = "PCS 1900";
const std::vector<std::string> MTS::IO::ICellularRadio::DEFAULT_BAIL_STRINGS = { MTS::IO::ICellularRadio::RSP_OK, MTS::IO::ICellularRadio::RSP_ERROR };
MTS::IO::ICellularRadio::~ICellularRadio()
{
}
MTS::IO::ICellularRadio::CODE MTS::IO::ICellularRadio::convertModelToMtsShortCode(const std::string& sModel, std::string& sCode, MTS::IO::ICellularRadio *radioObject) {
CODE eCode = FAILURE;
if(sModel.find("HE910-D") == 0) {
sCode = "H5";
eCode = SUCCESS;
} else if (sModel.find("HE910-EUD") == 0) {
sCode = "H6";
eCode = SUCCESS;
} else if (sModel.find("LE910-JN1") == 0) {
sCode = "LDC3";
eCode = SUCCESS;
} else if (sModel.find("LE866A1-JS") == 0) {
sCode = "LSB3";
eCode = SUCCESS;
} else if (sModel.find("LE910-NAG") == 0) {
sCode = "LAT1";
eCode = SUCCESS;
} else if (sModel.find("LE910C4-NF") == 0) {
sCode = "L4N1";
eCode = SUCCESS;
} else if (sModel.find("LE910-NA1") == 0) {
if (NULL == radioObject) {
sCode = VALUE_NOT_SUPPORTED;
eCode = ERROR;
} else {
std::string sValue;
eCode = radioObject->getActiveFirmware(sValue);
if (eCode == SUCCESS) {
sCode = "LNA3";
} else {
sCode = "LAT3";
}
}
eCode = SUCCESS;
} else if (sModel.find("LE910-SVG") == 0) {
sCode = "LVW2";
eCode = SUCCESS;
} else if (sModel.find("LE910-SV1") == 0) {
sCode = "LVW3";
eCode = SUCCESS;
} else if (sModel.find("LE910C1-NS") == 0) {
sCode = "LSP3";
eCode = SUCCESS;
} else if (sModel.find("LE910C1-AP") == 0) {
sCode = "LAP3";
eCode = SUCCESS;
} else if (sModel.find("ME910C1-WW") == 0) {
sCode = "MNG2";
eCode = SUCCESS;
} else if (sModel.find("LE910-EUG") == 0) {
sCode = "LEU1";
eCode = SUCCESS;
} else if (sModel.find("LE910C4-EU") == 0) {
sCode = "L4E1";
eCode = SUCCESS;
} else if (sModel.find("LE910-EU1") == 0) {
sCode = "LEU3";
eCode = SUCCESS;
} else if (sModel.find("GE910") == 0) {
sCode = "G3";
eCode = SUCCESS;
} else if (sModel.find("CE910") == 0) {
sCode = "C2";
eCode = SUCCESS;
} else if (sModel.find("DE910") == 0) {
sCode = "EV3";
eCode = SUCCESS;
} else if (sModel.find("EG95") == 0) {
if (NULL == radioObject) {
sCode = VALUE_NOT_SUPPORTED;
eCode = ERROR;
} else {
std::string sValue;
eCode = radioObject->getFirmware(sValue);
if (eCode != SUCCESS) {
sCode = VALUE_NOT_SUPPORTED;
eCode = ERROR;
} else if (sValue.find("EG95E") != std::string::npos) {
sCode = "LEU7";
eCode = SUCCESS;
} else if (sValue.find("EG95NA") != std::string::npos) {
sCode = "LNA7";
eCode = SUCCESS;
} else {
sCode = VALUE_NOT_SUPPORTED;
eCode = ERROR;
}
}
} else {
sCode = VALUE_NOT_SUPPORTED;
printError("RADIO| Could not identify MTS short code from model. [%s]", sModel.c_str());
eCode = ERROR;
}
return eCode;
}
MTS::IO::ICellularRadio::CODE MTS::IO::ICellularRadio::convertServiceDomainToString(SERVICEDOMAIN eSd, std::string& sSd) {
CODE eCode = FAILURE;
switch(eSd) {
case NO_SERVICE: sSd = VALUE_SD_NO_SERVICE; eCode = SUCCESS; break;
case CS_ONLY: sSd = VALUE_SD_CS_ONLY; eCode = SUCCESS; break;
case PS_ONLY: sSd = VALUE_SD_PS_ONLY; eCode = SUCCESS; break;
case CSPS: sSd = VALUE_SD_CSPS; eCode = SUCCESS; break;
default: sSd = VALUE_UNKNOWN; eCode = FAILURE; break;
}
return eCode;
}
MTS::IO::ICellularRadio::CODE MTS::IO::ICellularRadio::convertActiveBandToString(ACTIVEBAND eBand, std::string& sBand) {
CODE eCode = FAILURE;
switch(eBand) {
case GSM_850: sBand = VALUE_ABND_GSM_850; eCode = SUCCESS; break;
case GSM_900: sBand = VALUE_ABND_GSM_900; eCode = SUCCESS; break;
case DCS_1800: sBand = VALUE_ABND_DCS_1800; eCode = SUCCESS; break;
case PCS_1900: sBand = VALUE_ABND_PCS_1900; eCode = SUCCESS; break;
default: sBand = VALUE_UNKNOWN; eCode = FAILURE; break;
}
return eCode;
}
MTS::IO::ICellularRadio::CODE MTS::IO::ICellularRadio::convertModelToType(const std::string& sModel, std::string& sType) {
CODE eCode = FAILURE;
sType = VALUE_NOT_SUPPORTED;
if(sModel.find("HE910-D") == 0) {
sType = VALUE_TYPE_GSM;
eCode = SUCCESS;
} else if (sModel.find("HE910-EUD") == 0) {
sType = VALUE_TYPE_GSM;
eCode = SUCCESS;
} else if (sModel.find("LE910-JN1") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE866A1-JS") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910-NAG") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910C4-NF") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910-NA1") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910-SVG") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910-SV1") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910-EUG") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910C4-EU") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910-EU1") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910C1-NS") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("LE910C1-AP") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("ME910C1-WW") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else if (sModel.find("GE910") == 0) {
sType = VALUE_TYPE_GSM;
eCode = SUCCESS;
} else if (sModel.find("CE910") == 0) {
sType = VALUE_TYPE_CDMA;
eCode = SUCCESS;
} else if (sModel.find("DE910") == 0) {
sType = VALUE_TYPE_CDMA;
eCode = SUCCESS;
} else if (sModel.find("EG95") == 0) {
sType = VALUE_TYPE_LTE;
eCode = SUCCESS;
} else {
sType = VALUE_TYPE_GSM;
eCode = ERROR;
printError("RADIO| Could not identify type from model. [%s]. Assuming [%s]", sModel.c_str(), sType.c_str());
}
return eCode;
}
std::string MTS::IO::ICellularRadio::sendCommand(MTS::AutoPtr<MTS::IO::Connection>& apIo, const std::string& sCmd,
const std::vector<std::string>& vBail, int32_t timeoutMillis, const char& ESC) {
IsNeedMoreData isNeedMoreData = [&vBail](const std::string&, const std::string& allData)->bool {
for(size_t i = 0; i < vBail.size(); i++) {
const std::string& sBail = vBail[i];
if(sBail.size() > 0) {
if(allData.find(sBail) != std::string::npos) {
//Return when bail string is found
printTrace("RADIO| Found bail string [%s]", sBail.c_str());
return false;
}
}
}
return true;
};
return sendCommand(apIo, sCmd, isNeedMoreData, timeoutMillis, ESC);
}
std::string MTS::IO::ICellularRadio::sendCommand(MTS::AutoPtr<MTS::IO::Connection>& apIo, const std::string& sCmd,
IsNeedMoreData& isNeedMoreData, int32_t timeoutMillis, const char& ESC) {
if(MTS::Logger::getPrintLevel() >= MTS::Logger::PrintLevel::TRACE_LEVEL) {
printTrace("RADIO| Sending command [%s]", sCmd.c_str());
}
if(apIo.isNull()) {
printError("RADIO| IO is not set in sendCommand");
return "";
}
int32_t iResult;
if(ESC == 0x00) {
iResult = apIo->write(sCmd.data(), sCmd.size());
} else {
std::string sNewCmd(sCmd);
sNewCmd.push_back(ESC);
iResult = apIo->write(sNewCmd.data(), sNewCmd.size());
}
if(iResult == -1) {
printError("RADIO| Failed to send command to radio");
return "";
}
bool done = false;
const uint32_t capacity = 1024;
char buffer[capacity];
std::string sResult;
Timer timer;
timer.start();
do {
int32_t iterationTimeout = 100;
int bytesRead = apIo->read((char*)buffer, capacity, iterationTimeout);
if(bytesRead == -1) {
printError("RADIO| Failed to read from radio");
break;
}
std::string sIteration((char*)buffer, bytesRead);
sResult += sIteration;
if(isNeedMoreData && !isNeedMoreData(sIteration, sResult)) {
printTrace("RADIO| No more data needed");
return sResult;
}
if(timeoutMillis >= 0) {
done = (timer.getMillis() >= (uint64_t)timeoutMillis);
} else {
//Do not stop looping until bail string is found
}
} while(!done);
//Timed out
return sResult;
}
MTS::IO::ICellularRadio::CODE MTS::IO::ICellularRadio::test(MTS::AutoPtr<MTS::IO::Connection>& apIo, uint32_t timeoutSeconds) {
printTrace("RADIO| Basic Test");
uint32_t count = 0;
std::string sCmd("AT");
do {
std::string sResult = sendCommand(apIo, sCmd);
if (sResult.find(RSP_OK) == std::string::npos) {
printTrace("RADIO| Waiting for basic radio communication [%s] ...", sResult.c_str());
} else {
break;
}
count++;
} while (count < timeoutSeconds);
if(count == timeoutSeconds) {
printWarning("RADIO| Basic radio communication FAILED");
return NO_RESPONSE;
}
return SUCCESS;
}
std::string MTS::IO::ICellularRadio::extractModelFromResult(const std::string& sResult) {
std::string sModel(VALUE_NOT_SUPPORTED);
if(sResult.find("HE910-D") != std::string::npos) {
sModel = "HE910-D";
} else if(sResult.find("HE910-EUD") != std::string::npos) {
sModel = "HE910-EUD";
} else if(sResult.find("LE910-JN1") != std::string::npos) {
sModel = "LE910-JN1";
} else if(sResult.find("LE866A1-JS") != std::string::npos) {
sModel = "LE866A1-JS";
} else if(sResult.find("LE910-NAG") != std::string::npos) {
sModel = "LE910-NAG";
} else if(sResult.find("LE910C4-NF") != std::string::npos) {
sModel = "LE910C4-NF";
} else if(sResult.find("LE910-NA1") != std::string::npos) {
sModel = "LE910-NA1";
} else if(sResult.find("ME910C1-WW") != std::string::npos) {
sModel = "ME910C1-WW";
} else if(sResult.find("LE910-SVG") != std::string::npos) {
sModel = "LE910-SVG";
} else if(sResult.find("LE910-SV1") != std::string::npos) {
sModel = "LE910-SV1";
} else if(sResult.find("LE910-EUG") != std::string::npos) {
sModel = "LE910-EUG";
} else if(sResult.find("LE910C4-EU") != std::string::npos) {
sModel = "LE910C4-EU";
} else if(sResult.find("LE910-EU1") != std::string::npos) {
sModel = "LE910-EU1";
} else if(sResult.find("LE910C1-NS") != std::string::npos) {
sModel = "LE910C1-NS";
} else if(sResult.find("LE910C1-AP") != std::string::npos) {
sModel = "LE910C1-AP";
} else if(sResult.find("GE910") != std::string::npos) {
sModel = "GE910";
} else if(sResult.find("DE910-DUAL") != std::string::npos) {
sModel = "DE910-DUAL";
} else if(sResult.find("CE910") != std::string::npos) {
sModel = "CE910";
} else if(sResult.find("EG95") != std::string::npos) {
sModel = "EG95";
}
return sModel;
}
std::string MTS::IO::ICellularRadio::getCodeAsString(CODE eCode) {
switch(eCode) {
case SUCCESS:
return "SUCCESS";
case ERROR:
return "ERROR";
case FAILURE:
return "FAILURE";
case NO_RESPONSE:
return "NO RESPONSE";
default:
return "UNKNOWN";
}
}
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