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authorMaksym Telychko <maksym.telychko@globallogic.com>2019-06-06 16:03:44 +0300
committerMaksym Telychko <maksym.telychko@globallogic.com>2019-06-06 16:03:44 +0300
commitda563a985ccb0b5f316b44e35aabd511687ff4bf (patch)
tree8c4261bff4b66b16018541004db1cd04258b3ca1 /src
parent53efcef2e2f521135b323e194c45f1d9fa7b5d5d (diff)
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[MTS-MTQ] refactoring: added quectel empty classes, CellularRadio moved to TelitRadio
Diffstat (limited to 'src')
-rw-r--r--src/MTS_IO_CdmaRadio.cpp2
-rw-r--r--src/MTS_IO_CellularRadio.cpp1818
-rw-r--r--src/MTS_IO_CellularRadioFactory.cpp12
-rw-r--r--src/MTS_IO_EG95Radio.cpp1
-rw-r--r--src/MTS_IO_GE910Radio.cpp2
-rw-r--r--src/MTS_IO_HE910Radio.cpp2
-rw-r--r--src/MTS_IO_LE866Radio.cpp2
-rw-r--r--src/MTS_IO_LE910Radio.cpp2
-rw-r--r--src/MTS_IO_ME910Radio.cpp2
-rw-r--r--src/MTS_IO_QuectelRadio.cpp1
-rw-r--r--src/MTS_IO_TelitRadio.cpp1838
11 files changed, 1853 insertions, 1829 deletions
diff --git a/src/MTS_IO_CdmaRadio.cpp b/src/MTS_IO_CdmaRadio.cpp
index 8057650..4ff5d63 100644
--- a/src/MTS_IO_CdmaRadio.cpp
+++ b/src/MTS_IO_CdmaRadio.cpp
@@ -35,7 +35,7 @@
using namespace MTS::IO;
CdmaRadio::CdmaRadio(const std::string& sName, const std::string& sPort)
-: CellularRadio(sName, sPort)
+: TelitRadio(sName, sPort)
{
}
diff --git a/src/MTS_IO_CellularRadio.cpp b/src/MTS_IO_CellularRadio.cpp
index f89e673..a29d14f 100644
--- a/src/MTS_IO_CellularRadio.cpp
+++ b/src/MTS_IO_CellularRadio.cpp
@@ -18,1820 +18,4 @@
*
*/
-#include <mts/MTS_IO_CellularRadio.h>
-#include <mts/MTS_IO_MccMncTable.h>
-#include <mts/MTS_Thread.h>
-#include <mts/MTS_Timer.h>
-#include <mts/MTS_Logger.h>
-#include <mts/MTS_Text.h>
-#include <mts/MTS_System.h>
-#include <map>
-#include <cstring>
-#include <sstream>
-#include <sys/file.h>
-#include <errno.h>
-#include <unistd.h>
-
-
-using namespace MTS::IO;
-
-const char CellularRadio::ETX = 0x03; //Ends socket connection
-const char CellularRadio::DLE = 0x10; //Escapes ETX and DLE within Payload
-const char CellularRadio::CR = 0x0D;
-const char CellularRadio::NL = 0x0A;
-const char CellularRadio::CTRL_Z = 0x1A;
-
-const std::string CellularRadio::RSP_ERROR("ERROR");
-const std::string CellularRadio::RSP_OK("OK");
-
-
-const std::string CellularRadio::DEFAULT_RADIO_PORT("/dev/modem_at1");
-const std::string CellularRadio::DEFAULT_RADIO_DIR("/var/run/radio/");
-const std::string CellularRadio::VALUE_UNKNOWN("Unknown");
-const std::string CellularRadio::VALUE_UNAVAILABLE("Unavailable");
-const std::string CellularRadio::VALUE_NOT_SUPPORTED("Not Supported");
-
-const std::string CellularRadio::VALUE_NOT_REGISTERED("NOT REGISTERED");
-const std::string CellularRadio::VALUE_REGISTERED("REGISTERED");
-const std::string CellularRadio::VALUE_SEARCHING("SEARCHING");
-const std::string CellularRadio::VALUE_DENIED("DENIED");
-const std::string CellularRadio::VALUE_ROAMING("ROAMING");
-
-//Static Data
-const std::string CellularRadio::KEY_TYPE("type"); //!< GSM or CDMA
-const std::string CellularRadio::KEY_CODE("code"); //!< Product Code : H5, H6, C2, EV3, G3
-const std::string CellularRadio::KEY_MODEL("model"); //!< Model : HE910, LE910, CE910, DE910, GE910
-const std::string CellularRadio::KEY_MANUFACTURER("manufacturer"); //!< Manufacturer: Telit
-const std::string CellularRadio::KEY_HARDWARE("hardware"); //!< Radio Hardware Version
-const std::string CellularRadio::KEY_FIRMWARE("firmware"); //!< Radio Firmware Version
-const std::string CellularRadio::KEY_FIRMWARE_BUILD("firmwarebuild"); //!< Radio Firmware Build
-
-const std::string CellularRadio::KEY_CARRIER("carrier"); //!< Cellular Service Provider (Home Network)
-const std::string CellularRadio::VALUE_CARRIER_VERIZON("Verizon");
-const std::string CellularRadio::VALUE_CARRIER_AERIS("Aeris");
-const std::string CellularRadio::VALUE_CARRIER_SPRINT("Sprint");
-const std::string CellularRadio::VALUE_CARRIER_USCELLULAR("U.S. Cellular");
-const std::string CellularRadio::VALUE_CARRIER_ATT("AT&T");
-const std::string CellularRadio::VALUE_CARRIER_TMOBILE("T-Mobile");
-
-const std::string CellularRadio::KEY_IMEI("imei"); //!< International Mobile Station Equipment Identity
-const std::string CellularRadio::KEY_MEID("meid"); //!< Mobile Equipment Identifier
-const std::string CellularRadio::KEY_IMSI("imsi"); //!< International Mobile Subscriber Identity
-const std::string CellularRadio::KEY_MSID("msid"); //!< Mobil Station ID / Mobile Identification Number (MSID/MIN) (CDMA-Only)
-const std::string CellularRadio::KEY_MDN("mdn"); //!< Mobile Directory Number : Actual phone number dialed to reach radio
-const std::string CellularRadio::KEY_ICCID("iccid"); //!< Integrated Circuit Card Identifier
-const std::string CellularRadio::KEY_MSL("msl"); //!< Master Subsidy Lock
-
-//Dynamic Data
-const std::string CellularRadio::KEY_ROAMING("roaming"); //!< Indicates whether or not using Home Network
-const std::string CellularRadio::KEY_DATETIME("datetime"); //!< Date and Time from tower
-const std::string CellularRadio::KEY_SERVICE("service"); //!< Service Connection Type [GPRS, EGPRS, WCDMA, HSDPA, 1xRTT, EVDO]
-const std::string CellularRadio::KEY_NETWORK("network"); //!< Cellular Service Provider
-const std::string CellularRadio::KEY_NETWORK_REG("netreg"); //!< Network Registration
-const std::string CellularRadio::KEY_CID("cid"); //!< Cellular ID (Tower) in HEX
-const std::string CellularRadio::KEY_LAC("lac"); //!< Location Area Code in HEX
-const std::string CellularRadio::KEY_RAC("rac"); //!< Routing Area Code in HEX
-const std::string CellularRadio::KEY_RSSI("rssi"); //!< Signal Strength
-const std::string CellularRadio::KEY_RSSIDBM("rssidBm"); //!< Signal Strength in dBm
-const std::string CellularRadio::KEY_MCC("mcc"); //!< Country Code
-const std::string CellularRadio::KEY_MNC("mnc"); //!< Operator Code
-const std::string CellularRadio::KEY_CHANNEL("channel"); //!< ARFCN or UARFCN Assigned Radio Channel
-const std::string CellularRadio::KEY_TXPWR("txpwr"); //!< Transmit Power
-const std::string CellularRadio::KEY_PSC("psc"); //!< Active Primary Synchronization Code (PSC)
-const std::string CellularRadio::KEY_ECIO("ecio"); //!< Active Ec/Io (chip energy per total wideband power in dBm)
-const std::string CellularRadio::KEY_RSCP("rscp"); //!< Active RSCP (Received Signal Code Power in dBm)
-const std::string CellularRadio::KEY_DRX("drx"); //!< Discontinuous reception cycle length (ms)
-const std::string CellularRadio::KEY_MM("mm"); //!< Mobility Management State
-const std::string CellularRadio::KEY_RR("rr"); //!< Radio Resource State
-const std::string CellularRadio::KEY_NOM("nom"); //!< Network Operator Mode
-const std::string CellularRadio::KEY_ABND("abnd"); //!< Active Band
-const std::string CellularRadio::KEY_BLER("bler"); //!< Block Error Rate (percentage)
-const std::string CellularRadio::KEY_SD("sd"); //!< Service Domain
-const std::string CellularRadio::KEY_DEBUG("debug"); //!< Debug Information
-
-const std::string CellularRadio::KEY_MIP("mipProfile"); //!< Mobile IP Information
-const std::string CellularRadio::KEY_MIP_ID("id"); //!< Mobile IP ID
-const std::string CellularRadio::KEY_MIP_ENABLED("enabled"); //!< Mobile IP Enabled/Disabled
-const std::string CellularRadio::KEY_MIP_NAI("nai"); //!< Network Access Identifier
-const std::string CellularRadio::KEY_MIP_HOMEADDRESS("homeAddress"); //!< Home Address
-const std::string CellularRadio::KEY_MIP_PRIMARYHA("primaryAddress"); //!< Primary Home Agent
-const std::string CellularRadio::KEY_MIP_SECONDARYHA("secondaryAddress"); //!< Secondary Home Agent
-const std::string CellularRadio::KEY_MIP_MNAAASPI("mnAaaSpi"); //!< Mobile Node Authentication, Authorization, and Accounting Server Security Parameter Index
-const std::string CellularRadio::KEY_MIP_MNHASPI("mnHaSpi"); //!< Mobile Node Home Agent Security Server Parameter Index
-const std::string CellularRadio::KEY_MIP_REVTUN("revTun"); //!< Reverse Tunneling Enabled
-const std::string CellularRadio::KEY_MIP_MNAAASS("mnAaaSs"); //!< Mobile Node Authentication, Authorization, and Accounting Server Shared Secret
-const std::string CellularRadio::KEY_MIP_MNHASS("mnHaSs"); //!< Mobile Node Home Agent Shared Secret
-
-const std::string CellularRadio::VALUE_TYPE_GSM("GSM");
-const std::string CellularRadio::VALUE_TYPE_LTE("LTE");
-const std::string CellularRadio::VALUE_TYPE_CDMA("CDMA");
-
-const std::string CellularRadio::VALUE_SD_NO_SERVICE("NO SERVICE");
-const std::string CellularRadio::VALUE_SD_CS_ONLY("CS ONLY");
-const std::string CellularRadio::VALUE_SD_PS_ONLY("PS ONLY");
-const std::string CellularRadio::VALUE_SD_CSPS("CS+PS");
-
-const std::string CellularRadio::VALUE_ABND_GSM_850("GSM 850");
-const std::string CellularRadio::VALUE_ABND_GSM_900("GSM 900");
-const std::string CellularRadio::VALUE_ABND_DCS_1800("DCS 1800");
-const std::string CellularRadio::VALUE_ABND_PCS_1900("PCS 1900");
-
-const std::vector<std::string> CellularRadio::DEFAULT_BAIL_STRINGS = { CellularRadio::RSP_OK, CellularRadio::RSP_ERROR };
-
-CellularRadio::CellularRadio(const std::string& sName, const std::string& sRadioPort)
-: m_sName(sName)
-, m_sRadioPort(sRadioPort)
-, m_bEchoEnabled(false)
-, m_bEnableEchoOnClose(false)
-{
- m_apIo.reset(new MTS::IO::SerialConnection(
- MTS::IO::SerialConnection::Builder(m_sRadioPort)
- .baudRate(115200)
- .useLockFile()
- .build()));
-}
-
-
-CellularRadio::~CellularRadio() {
- shutdown();
- m_apIo.reset();
-}
-
-bool CellularRadio::initialize(uint32_t iTimeoutMillis) {
- if(!m_apIo->open(iTimeoutMillis)) {
- printError("%s| Failed to open radio port [%s]", m_sName.c_str(), m_sRadioPort.c_str());
- return false;
- }
-
- bool bEnabled;
- CODE eCode = getEcho(bEnabled);
- if(eCode == SUCCESS && bEnabled) {
- printDebug("%s| Disabling 'echo'", m_sName.c_str());
- setEcho(false);
- m_bEnableEchoOnClose = true;
- }
-
- return true;
-}
-
-bool CellularRadio::resetRadio(uint32_t iTimeoutMillis) {
-
- printInfo("%s| Rebooting radio", m_sName.c_str());
- if(sendBasicCommand("AT#REBOOT") == SUCCESS) {
- if(iTimeoutMillis > 5000) {
- MTS::Thread::sleep(5000);
- iTimeoutMillis -= 5000;
- }
- return resetConnection(iTimeoutMillis);
- }
-
- return false;
-}
-
-bool CellularRadio::resetConnection(uint32_t iTimeoutMillis) {
- //Close Current Connection
- if(!m_apIo.isNull()) {
- m_apIo->close();
- }
-
- m_apIo.reset(new MTS::IO::SerialConnection(
- MTS::IO::SerialConnection::Builder(m_sRadioPort)
- .baudRate(115200)
- .useLockFile()
- .build()));
-
- //Try to obtain the device port over the given period of time
- MTS::Timer oTimer;
- oTimer.start();
- uint64_t iCurrentTime = 0;
- while(iCurrentTime < iTimeoutMillis) {
-
- if(!m_apIo->open(iTimeoutMillis - iCurrentTime)) {
- printWarning("%s| Failed to re-open radio port [%s]", m_sName.c_str(), m_sRadioPort.c_str());
- } else {
- printInfo("%s| Successfully re-opened radio port [%s]", m_sName.c_str(), m_sRadioPort.c_str());
- printDebug("%s| Recovering 'echo' after connection reset", m_sName.c_str()); // see CellularRadio::initialize
- setEcho(m_bEchoEnabled);
- break;
- }
-
- ::usleep(500000); //500 millis
- iCurrentTime = oTimer.getMillis();
- }
- oTimer.stop();
- return !m_apIo->isClosed();
-}
-
-void CellularRadio::shutdown() {
-
- if(!m_apIo.isNull()) {
- if(m_bEnableEchoOnClose) {
- printDebug("%s| Enabling 'echo'", m_sName.c_str());
- setEcho(true);
- m_bEnableEchoOnClose = false;
- }
- m_apIo->close();
- }
-}
-
-const std::string& CellularRadio::getName() const {
- return m_sName;
-}
-
-
-CellularRadio::CODE CellularRadio::getModel(std::string& sModel) {
- printTrace("%s| Get Model", m_sName.c_str());
- //Always returns SUCCESS because the model should be m_sName
- sModel = m_sName;
- std::string sCmd("ATI4");
- std::string sResult = CellularRadio::sendCommand(m_apIo, sCmd);
- if (sResult.find("OK") == std::string::npos) {
- printWarning("%s| Unable to get model from radio. Returning [%s]", m_sName.c_str(), m_sName.c_str());
- return SUCCESS;
- } else {
- sModel = CellularRadio::extractModelFromResult(sResult);
- if(sModel.size() == 0) {
- printWarning("%s| Unable to get model from radio. Returning [%s]", m_sName.c_str(), m_sName.c_str());
- return SUCCESS;
- }
- }
-
- printDebug("%s| Extracted [%s] from [%s] query", m_sName.c_str(), sModel.c_str(), sCmd.c_str());
- if(sModel != m_sName) {
- printWarning("%s| Model identified [%s] does not match expected [%s]. Returning [%s]",
- m_sName.c_str(), sModel.c_str(), m_sName.c_str(), sModel.c_str());
- }
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::convertModelToMtsShortCode(const std::string& sModel, std::string& sCode, CellularRadio *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("LE910C1-NS") == 0) {
- sCode = "LSP3";
- eCode = SUCCESS;
- } else if (sModel.find("LE910C1-AP") == 0) {
- sCode = "LAP3";
- eCode = SUCCESS;
- } else if (sModel.find("ME910C1-NA") == 0) {
- sCode = "MAT1";
- eCode = SUCCESS;
- } else if (sModel.find("ME910C1-NV") == 0) {
- sCode = "MVW1";
- 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 {
- sCode = VALUE_NOT_SUPPORTED;
- printError("RADIO| Could not identify MTS short code from model. [%s]", sModel.c_str());
- eCode = ERROR;
- }
- return eCode;
-}
-
-CellularRadio::CODE CellularRadio::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;
-}
-
-CellularRadio::CODE CellularRadio::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;
-}
-
-CellularRadio::CODE CellularRadio::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-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-NA") == 0) {
- sType = VALUE_TYPE_LTE;
- eCode = SUCCESS;
- } else if (sModel.find("ME910C1-NV") == 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 {
- 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;
-}
-
-CellularRadio::CODE CellularRadio::getFirmware(std::string& sFirmware) {
- printTrace("%s| Get Firmware", m_sName.c_str());
- sFirmware = VALUE_NOT_SUPPORTED;
- std::string sCmd("AT+CGMR");
- std::string sResult = CellularRadio::sendCommand(sCmd);
- size_t pos = sResult.find(RSP_OK);
- if (pos == std::string::npos) {
- printWarning("%s| Unable to get firmware from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- sFirmware = MTS::Text::trim(sResult.substr(0, pos));
- if(sFirmware.size() == 0) {
- printWarning("%s| Unable to get firmware from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- m_sFirmware = sFirmware;
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getFirmwareBuild(std::string& sFirmwareBuild) {
- sFirmwareBuild = VALUE_NOT_SUPPORTED;
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getHardware(std::string& sHardware) {
- printTrace("%s| Get Hardware", m_sName.c_str());
- sHardware = VALUE_NOT_SUPPORTED;
-
- if(m_sFirmware.size() == 0) {
- getFirmware(m_sFirmware);
- }
-
- if(getHardwareVersionFromFirmware(m_sFirmware, sHardware)) {
- return SUCCESS;
- }
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getManufacturer(std::string& sManufacturer) {
- printTrace("%s| Get Manufacturer", m_sName.c_str());
- sManufacturer = VALUE_NOT_SUPPORTED;
- std::string sCmd("AT+GMI");
- std::string sResult = CellularRadio::sendCommand(sCmd);
- size_t pos = sResult.find(RSP_OK);
- if (pos == std::string::npos) {
- printWarning("%s| Unable to get manufacturer from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- sManufacturer = MTS::Text::trim(sResult.substr(0, pos));
- if(sManufacturer.size() == 0) {
- printWarning("%s| Unable to get manufacturer from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getImei(std::string& sImei) {
- printTrace("%s| Get IMEI", m_sName.c_str());
- sImei = VALUE_NOT_SUPPORTED;
- std::string sCmd("AT+CGSN");
- std::string sResult = CellularRadio::sendCommand(sCmd);
- size_t pos = sResult.find(RSP_OK);
- if (pos == std::string::npos) {
- printWarning("%s| Unable to get IMEI from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- sImei = MTS::Text::trim(sResult.substr(0, pos));
- if(sImei.size() == 0) {
- printWarning("%s| Unable to get IMEI from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getMeid(std::string& sMeid) {
- printTrace("%s| Get MEID", m_sName.c_str());
- return getImei(sMeid);
-}
-
-CellularRadio::CODE CellularRadio::getImsi(std::string& sImsi) {
- printTrace("%s| Get IMSI", m_sName.c_str());
- sImsi = VALUE_NOT_SUPPORTED;
- std::string sCmd("AT+CIMI");
- std::string sResult = CellularRadio::sendCommand(sCmd);
- size_t pos = sResult.find(RSP_OK);
- if (pos == std::string::npos) {
- printWarning("%s| Unable to get IMSI from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- sImsi = MTS::Text::trim(sResult.substr(0, pos));
- if(sImsi.size() == 0) {
- printWarning("%s| Unable to get IMSI from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getSimStatus(std::string& sSimStatus) {
- printTrace("%s| Get SIM Status", getName().c_str());
- sSimStatus = VALUE_UNKNOWN;
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getIccid(std::string& sIccid) {
- printTrace("%s| Get ICCID", m_sName.c_str());
- sIccid = VALUE_NOT_SUPPORTED;
- std::string sCmd("AT#CCID");
- std::string sResult = CellularRadio::sendCommand(sCmd);
- size_t end = sResult.find(RSP_OK);
- if (end == std::string::npos) {
- printWarning("%s| Unable to get ICCID from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- size_t start = sResult.find("#CCID:");
- if(start != std::string::npos) {
- start += sizeof("#CCID:");
- sIccid = MTS::Text::trim(sResult.substr(start, end-start));
- if(sIccid.size() == 0) {
- printWarning("%s| Unable to get ICCID from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
- }
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getService(std::string& sService) {
- printTrace("%s| Get Service", m_sName.c_str());
- sService = VALUE_NOT_SUPPORTED;
- std::string sCmd("AT#PSNT?");
- std::string sResult = CellularRadio::sendCommand(sCmd);
- size_t end = sResult.find(RSP_OK);
- if (end == std::string::npos) {
- printWarning("%s| Unable to get Service from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- size_t start = sResult.find(",");
- if(start != std::string::npos) {
- start += 1; //comma
- std::string sPsnt = MTS::Text::trim(sResult.substr(start, end-start));
- int32_t iService;
- sscanf(sPsnt.c_str(), "%d", &iService);
-
- switch(iService) {
- case 0: sService = "GPRS"; break;
- case 1: sService = "EGPRS"; break;
- case 2: sService = "WCDMA"; break;
- case 3: sService = "HSDPA"; break;
- case 4: sService = "LTE"; break;
- default: sService = VALUE_UNKNOWN; break;
- }
-
- printDebug("%s| Service ID: [%d][%s]", m_sName.c_str(), iService, sService.c_str());
- }
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getLac(std::string& sLac) {
- Json::Value jData;
-
- printTrace("%s| Get LAC", m_sName.c_str());
- sLac = VALUE_NOT_SUPPORTED;
-
- if(getNetworkStatus(jData) == SUCCESS) {
- if(jData.isMember(KEY_LAC)) {
- sLac = jData[KEY_LAC].asString();
- return SUCCESS;
- }
- }
-
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getMdn(std::string& sMdn) {
- printTrace("%s| Get MDN", m_sName.c_str());
- sMdn = VALUE_NOT_SUPPORTED;
- std::string sCmd("AT+CNUM");
- std::string sResult = CellularRadio::sendCommand(sCmd);
- size_t end = sResult.find(RSP_OK);
- if (end == std::string::npos) {
- printWarning("%s| Unable to get MDN from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- size_t start = sResult.find("CNUM:");
- if(start != std::string::npos) {
- start += sizeof("CNUM:");
- std::vector<std::string> vParts = MTS::Text::split(sResult.substr(start, end - start), ',');
- if(vParts.size() < 3) {
- printWarning("%s| Unable to parse MDN from response [%s]", m_sName.c_str(), sResult.c_str());
- return FAILURE;
- }
- sMdn = MTS::Text::strip(vParts[1], '"');
- if(sMdn.size() == 0) {
- printWarning("%s| Unable to get MDN from radio using command [%s]. MDN may not be set.", m_sName.c_str(), sCmd.c_str());
- }
- } else {
- sMdn = "";
- printWarning("%s| Unable to get MDN from radio using command [%s]. MDN may not be set.", m_sName.c_str(), sCmd.c_str());
- }
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getMsid(std::string& sMsid) {
- printTrace("%s| Get MSID", m_sName.c_str());
- sMsid = "";
-
- std::string sImsi;
- if(getImsi(sImsi) == SUCCESS) {
- if(sImsi.size() >= 10) {
- sMsid = sImsi.substr(sImsi.size() - 10);
- printTrace("IMSI: [%s] MEID [%s]", sImsi.c_str(), sMsid.c_str());
- return SUCCESS;
- }
- }
- printWarning("%s| Unable to get MSID from radio", m_sName.c_str());
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getType(std::string& sType) {
- printTrace("%s| Get Type", m_sName.c_str());
- sType = VALUE_NOT_SUPPORTED;
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getCarrier(std::string& sCarrier) {
- printTrace("%s| Get Carrier", m_sName.c_str());
- if(m_sCarrier == "") {
- Json::Value jData;
- if(getNetworkStatus(jData) == SUCCESS) {
- if(jData.isMember(KEY_MCC) && jData.isMember(KEY_MNC)) {
- std::string sMcc = jData[KEY_MCC].asString();
- std::string sMnc = jData[KEY_MNC].asString();
- Json::Value jLookup = MccMncTable::getInstance()->lookup(sMcc, sMnc);
- printTrace("%s| MCC-MNC Lookup: [%s][%s][%s]", m_sName.c_str(),
- sMcc.c_str(), sMnc.c_str(), jLookup.toStyledString().c_str());
- if(jLookup.isMember(KEY_CARRIER)) {
- m_sCarrier = jLookup[KEY_CARRIER].asString();
- } else {
- printWarning("%s| MCC-MNC Lookup did not contain carrier", m_sName.c_str());
- return FAILURE;
- }
- } else {
- printWarning("%s| Network Status did no contain MCC or MNC", m_sName.c_str());
- return FAILURE;
- }
- } else {
- return FAILURE;
- }
- }
-
- sCarrier = m_sCarrier;
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getTower(std::string& sTower) {
- Json::Value jData;
-
- printTrace("%s| Get Tower", m_sName.c_str());
- sTower = VALUE_NOT_SUPPORTED;
-
- if(getNetworkStatus(jData) == SUCCESS) {
- if(jData.isMember(KEY_CID)) {
- sTower = jData[KEY_CID].asString();
- return SUCCESS;
- }
- }
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getTime(std::string& sDate, std::string& sTime, std::string& sTimeZone) {
- Json::Value jData;
-
- printTrace("%s| Get Time", m_sName.c_str());
- sDate = "";
- sTime = "";
- sTimeZone = "";
-
- std::string sCmd("AT+CCLK?");
- std::string sResult = CellularRadio::sendCommand(sCmd);
- size_t end = sResult.find(RSP_OK);
- if (end == std::string::npos) {
- printWarning("%s| Unable to get Time from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- size_t start = sResult.find("CCLK: ");
- if(start != std::string::npos) {
- start += sizeof("CCLK: ");
- std::string sValue = MTS::Text::trim(sResult.substr(start, end - start));
- sValue = MTS::Text::strip(sValue, '"');
-
- std::vector<std::string> vParts = MTS::Text::split(sValue, ',');
- if(vParts.size() != 2) {
- printWarning("%s| Unable to parse Date from response [%s]", m_sName.c_str(), sResult.c_str());
- return FAILURE;
- }
-
-
- std::vector<std::string> vDateParts = MTS::Text::split(vParts[0], '/');
- if(vDateParts.size() != 3) {
- printWarning("%s| Unable to parse Date from response [%s]", m_sName.c_str(), sResult.c_str());
- return FAILURE;
- }
-
- //The Date format is YY/MM/DD -> Change to MM/DD/YY
- sDate = vDateParts[1] + "/" + vDateParts[2] + "/" + vDateParts[0];
-
- vParts = MTS::Text::split(vParts[1], '-');
- if(vParts.size() != 2) {
- printWarning("%s| Unable to parse Time from response [%s]", m_sName.c_str(), sResult.c_str());
- return FAILURE;
- }
- sTime = vParts[0];
-
- int32_t iZoneUnits; //the difference, expressed in quarters of an hour, between the local time and GMT
- if(!MTS::Text::parse(iZoneUnits, MTS::Text::strip(vParts[1], '+'))) {
- printWarning("%s| Unable to parse Time Zone from response [%s]", m_sName.c_str(), sResult.c_str());
- return FAILURE;
- }
-
- int32_t iZone = iZoneUnits/4; //Divide by 4 to get hours difference
- int32_t iZonePartial = (iZoneUnits % 4) * 15; //Remainder in minutes
- std::string sPlusSign = "+";
- if(iZonePartial < 0) {
- //Remove negative sign from partial and clear plus sign component
- iZonePartial *= -1;
- sPlusSign = "";
- }
- std::stringstream ss;
- ss << sPlusSign << iZone;
- if(iZonePartial != 0) {
- ss << ":" << iZonePartial;
- }
-
- sTimeZone = ss.str();
- return SUCCESS;
-
- } else {
- printWarning("%s| Unable to get Time from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- }
-
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getRoaming(bool& bRoaming) {
- Json::Value jData;
-
- printTrace("%s| Get Roaming", m_sName.c_str());
- bRoaming = false;
-
- REGISTRATION eReg;
- if(getRegistration(eReg) == SUCCESS) {
- bRoaming = (eReg == ROAMING);
- return SUCCESS;
- }
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getNetwork(std::string& sNetwork) {
- Json::Value jData;
-
- printTrace("%s| Get Network", m_sName.c_str());
- sNetwork = VALUE_NOT_SUPPORTED;
-
- if(getNetworkStatus(jData) == SUCCESS) {
- if(jData.isMember(KEY_NETWORK)) {
- sNetwork = jData[KEY_NETWORK].asString();
- return SUCCESS;
- }
- }
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::getSignalStrength(int32_t& rssi) {
- printTrace("%s| Get Signal Strength", m_sName.c_str());
- std::string sCmd("AT+CSQ");
- std::string sResult = sendCommand(sCmd);
- if (sResult.find("+CSQ: ") == std::string::npos) {
- printDebug("%s| Signal Strength command returned unexpected response: [%s]", m_sName.c_str(), sResult.c_str());
- return FAILURE;
- }
-
- size_t start = sResult.find(':');
- size_t stop = sResult.find(',', start);
- if(start == std::string::npos || stop == std::string::npos) {
- printDebug("%s| Signal Strength command returned malformed response: [%s]", m_sName.c_str(), sResult.c_str());
- return FAILURE;
- }
- std::string signal = sResult.substr(start + 2, stop - start - 2);
-
- sscanf(signal.c_str(), "%d", &rssi);
- printDebug("%s| Signal Strength: [%d]", m_sName.c_str(), rssi);
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getModemLocation(std::string& sLocation) {
- printTrace("%s|CellularRadio getModemLocation - not supported", m_sName.c_str());
- return FAILURE;
-}
-
-CellularRadio::CODE CellularRadio::convertSignalStrengthTodBm(const int32_t& iRssi, int32_t& iDbm) {
-
- //Telit Conversion
- if(iRssi < 0 || iRssi == 99) {
- return FAILURE;
- }
-
- if(iRssi == 0) {
- iDbm = -113;
- } else if(iRssi == 1) {
- iDbm = -111;
- } else if(iRssi <= 30) {
- //28 steps between 2 and 30
- //54 dbm between 53 and 109
- float stepSize = 54.0 / 28.0;
- iDbm = -109 + (int)(stepSize * (iRssi-2));
- } else {
- iDbm = -51;
- }
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::convertdBmToSignalStrength(const int32_t& iDBm, int32_t& iRssi) {
- //Telit Conversion
- if(iDBm <= -113) {
- iRssi = 0;
- } else if(iDBm <= -111) {
- iRssi = 1;
- } else if(iDBm <= -53) {
- //54 dbm between -109 and -53
- //28 steps between 2 and 30
- float stepSize = 28.0/54.0;
- iRssi = ((iDBm + 109)*stepSize) + 2;
- } else {
- iRssi = 31;
- }
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::getEcho(bool& bEnabled) {
- printTrace("%s| Echo Test", m_sName.c_str());
- std::string sResult = sendCommand("AT");
- if(sResult.size() == 0) {
- return NO_RESPONSE;
- }
-
- if(sResult.find("AT") != std::string::npos) {
- bEnabled = true;
- } else {
- bEnabled = false;
- }
- m_bEchoEnabled = bEnabled;
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::setEcho(bool bEnabled) {
- CODE eCode = FAILURE;
- if(bEnabled) {
- eCode = sendBasicCommand("ATE1");
- m_bEchoEnabled = (eCode == SUCCESS ) ? true : m_bEchoEnabled;
- } else {
- eCode = sendBasicCommand("ATE0");
- m_bEchoEnabled = (eCode == SUCCESS ) ? false : m_bEchoEnabled;
- }
-
- return eCode;
-}
-
-CellularRadio::CODE CellularRadio::getStaticInformation(Json::Value& jData) {
- printTrace("%s| Get Static Information", m_sName.c_str());
-
- printTrace("%s| Static Information:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
-
- return FAILURE;
-}
-
-/* AT#RFSTS - NETWORK STATUS
-
- (GSM network)
- #RFSTS:<PLMN>,<ARFCN>,<RSSI>,<LAC>,<RAC>,<TXPWR>,<MM>,<RR>,<NOM>,<CID>,<IMSI>,<NetNameAsc>,<SD>,<ABND>
- Where:
- <PLMN> - Country code and operator code(MCC, MNC)
- <ARFCN> - GSM Assigned Radio Channel
- <RSSI> - Received Signal Strength Indication
- <LAC> - Localization Area Code
- <RAC> - Routing Area Code
- <TXPWR> - Tx Power
- <MM> - Mobility Management state
- <RR> - Radio Resource state
- <NOM> - Network Operator Mode
- <CID> - Cell ID
- <IMSI> - International Mobile Subscriber Identity
- <NetNameAsc> - Operator name
- <SD> - Service Domain
- 0 - No Service
- 1 - CS only
- 2 - PS only
- 3 - CS+PS
- <ABND> - Active Band
- 1 - GSM 850
- 2 - GSM 900
- 3 - DCS 1800
- 4 - PCS 1900
-
-
- (WCDMA network)
- #RFSTS:
- <PLMN>,<UARFCN>,<PSC>,<Ec/Io>,<RSCP>, RSSI>,<LAC>,<RAC>,<TXPWR>,<DRX>,<MM>,<RRC>,<NOM>,<BLER>,<CID>,<IMSI>,
- <NetNameAsc>,<SD>,<nAST>[,<nUARFCN><nPSC>,<nEc/Io>]
- Where:
- <PLMN> - Country code and operator code(MCC, MNC)
- <UARFCN> - UMTS Assigned Radio Channel
- <PSC> - Active PSC(Primary Synchronization Code)
- <Ec/Io> - Active Ec/Io(chip energy per total wideband power in dBm)
- <RSCP> - Active RSCP (Received Signal Code Power in dBm)
- <RSSI> - Received Signal Strength Indication
- <LAC> - Localization Area Code
- <RAC> - Routing Area Code
- <TXPWR> - Tx Power
- <DRX> - Discontinuous reception cycle Length (cycle length in ms)
- <MM> - Mobility Management state
- <RR> - Radio Resource state
- <NOM> - Network Operator Mode
- <BLER> - Block Error Rate (e.g., 005 means 0.5 %)
- <CID> - Cell ID
- <IMSI> - International Mobile Station ID
- <NetNameAsc> - Operator name
- <SD> - Service Domain (see above)
- <nAST> - Number of Active Set (Maximum 6)
- <nUARFCN> UARFCN of n th active set
- <nPSC> PSC of n th active set
- <nEc/Io > Ec/Io of n th active Set
-
- (LTE Network)
- #RFSTS:
- <PLMN> -
- <EARFCN> -
- <RSRP> -
- <RSSI> -
- <RSRQ> -
- <TAC> -
- [<TXPWR>] -
- <DRX> -
- <MM> -
- <RRC> -
- <CID> -
- <IMSI> -
- [<NetNameAsc>] -
- <SD> -
- <ABND> -
-*/
-CellularRadio::CODE CellularRadio::getNetworkStatus(Json::Value& jData) {
- int32_t iValue;
- std::string sValue;
- const uint32_t GSM_NETWORK_FORMAT = 14;
- const uint32_t WCDMA_NETWORK_FORMAT = 19;
- const uint32_t LTE_NETWORK_FORMAT = 16;
-
- printTrace("%s| Get Network Status", m_sName.c_str());
-
- //Always get common network stats because this should never fail
- //This way the basic stats are always returned even if AT#RFSTS fails below
- getCommonNetworkStats(jData);
-
- std::string sCmd;
- std::string sResult;
- // LE910 radios have a bug where issuing AT#RFSTS with a locked SIM
- // will cause the radio to stop responding until a radio power cycle
- // Telit Support Portal Case #5069697
- // LE910C1-NS is an LE910, so we stop the scan after the 0.
- if (m_sName.find("LE910") != std::string::npos) {
- sCmd = "AT+CPIN?";
- sResult = sendCommand(sCmd);
- if (sResult.find("+CPIN:") == std::string::npos) {
- printDebug("%s| AT+CPIN? returned unexpected response: [%s][%s]", m_sName.c_str(), sCmd.c_str(), sResult.c_str());
- printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
- return SUCCESS; //return SUCCESS because getCommonNetworkStats() succeeded at top of this function
- }
- if (sResult.find("SIM PIN") != std::string::npos) {
- printError("%s| The SIM is locked and must first be unlocked", m_sName.c_str());
- printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
- return SUCCESS; //return SUCCESS because getCommonNetworkStats() succeeded at top of this function
- }
- }
-
- sCmd = "AT#RFSTS";
- sResult = sendCommand(sCmd, DEFAULT_BAIL_STRINGS, 200);
- if (sResult.find("#RFSTS:") == std::string::npos) {
- //On LTE radios without signal, this case will run because AT#RFSTS just returns "OK"
- printDebug("%s| Network Status command returned unexpected response: [%s][%s]", m_sName.c_str(), sCmd.c_str(), sResult.c_str());
- printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
- return SUCCESS; //return SUCCESS because getCommonNetworkStats() succeeded at top of this function
- }
-
- size_t start = sResult.find(":") + 1; //Position right after "#RFSTS:"
- std::vector<std::string> vParts = MTS::Text::split(MTS::Text::trim(sResult.substr(start)), ",");
-
- if (vParts.size() < 3) {
- printDebug("%s| Network Status command reponse is an unknown format: [%s][%s]", m_sName.c_str(), sCmd.c_str(), sResult.c_str());
- printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
- return SUCCESS; //return SUCCESS because getCommonNetworkStats() succeeded at top of this function
- } else {
- //Country Code and Operator Code
- std::vector<std::string> vPLMN = MTS::Text::split(vParts[0], ' ');
- if(vPLMN.size() == 2) {
- jData[KEY_MCC] = MTS::Text::strip(vPLMN[0], '"');
- jData[KEY_MNC] = MTS::Text::strip(vPLMN[1], '"');
- }
-
- jData[KEY_CHANNEL] = vParts[1];
- }
-
- if (vParts.size() == GSM_NETWORK_FORMAT ) {
- //Parse as GSM Network Format
- jData[KEY_RSSIDBM] = vParts[2];
- jData[KEY_LAC] = vParts[3];
- jData[KEY_RAC] = vParts[4];
- jData[KEY_TXPWR] = vParts[5];
- jData[KEY_MM] = vParts[6];
- jData[KEY_RR] = vParts[7];
- jData[KEY_NOM] = vParts[8];
- jData[KEY_CID] = vParts[9];
- jData[KEY_IMSI] = MTS::Text::strip(vParts[10], '"');
- jData[KEY_NETWORK] = MTS::Text::strip(vParts[11], '"');
- if(MTS::Text::parse(iValue, vParts[12]) && convertServiceDomainToString((SERVICEDOMAIN)iValue, sValue) == SUCCESS) {
- jData[KEY_SD] = sValue;
- }
- if(MTS::Text::parse(iValue, vParts[13]) && convertActiveBandToString((ACTIVEBAND)iValue, sValue) == SUCCESS) {
- jData[KEY_ABND] = sValue;
- }
- // IN003567 ME910C1 radios have some odd behavior with regards to WCDMA. The ordering of the fields from #RFSTS are
- // the same as LTE up to the 16th field (for ME901C1-WW anyway). Drop into LTE parsing for ME910C1-WW.
- } else if((vParts.size() >= WCDMA_NETWORK_FORMAT) && (m_sName.find("ME910C1-WW") == std::string::npos)) {
- Json::Value jDebug;
-
- //Parse as WCDMA Network Format
-
- jDebug[KEY_PSC] = vParts[2];
- jDebug[KEY_ECIO] = vParts[3];
- jDebug[KEY_RSCP] = vParts[4];
-
- jData[KEY_RSSIDBM] = vParts[5];
- jData[KEY_LAC] = vParts[6];
- jData[KEY_RAC] = vParts[7];
-
- jDebug[KEY_TXPWR] = vParts[8];
- jDebug[KEY_DRX] = vParts[9];
- jDebug[KEY_MM] = vParts[10];
- jDebug[KEY_RR] = vParts[11];
- jDebug[KEY_NOM] = vParts[12];
-
- if(vParts[13].size() != 0) {
- jDebug[KEY_BLER] = vParts[13];
- } else {
- jDebug[KEY_BLER] = "000";
- }
-
- jData[KEY_CID] = vParts[14];
- jData[KEY_IMSI] = MTS::Text::strip(vParts[15], '"');
- jData[KEY_NETWORK] = MTS::Text::strip(vParts[16], '"');
-
- // Get the radio band given the channel (UARFCN)
- RadioBandMap radioBandMap(vParts[1], CellularRadio::VALUE_TYPE_CDMA);
- jData[KEY_ABND] = radioBandMap.getRadioBandName();
-
- if(MTS::Text::parse(iValue, vParts[17]) && convertServiceDomainToString((SERVICEDOMAIN)iValue, sValue) == SUCCESS) {
- jDebug[KEY_SD] = sValue;
- }
- //Ignoring Active Set Values
- // <nAST> - Number of Active Set (Maximum 6)
- // <nUARFCN> - UARFCN of n th active set
- // <nPSC> - PSC of n th active set
- // <nEc/Io > - Ec/Io of n th active Set
-
- jData[KEY_DEBUG] = jDebug;
- } else if(vParts.size() >= LTE_NETWORK_FORMAT) {
- Json::Value jDebug;
-
- //Parse as LTE Network Format
-
- //
- // MD: It is noticed that LTE Network format may vary depending on the firmware version:
- //
- // <PLMN>,<EARFCN>,<RSRP>,<RSSI>,<RSRQ>,<TAC>,[<TXPWR>],<DRX>,<MM>,<RRC>,<CID>,<IMSI>,[<NetNameAsc>],<SD>,<ABND>,<SINR>
- // Ex 1: #RFSTS: "310 260",2300,-98,-63,-14,AA06,,128,19,0,0501D02,"310260754792598","T-Mobile",3,4,197
- //
- // <PLMN>,<EARFCN>,<RSRP>,<RSSI>,<RSRQ>,<TAC>,<RAC>,[<TXPWR>],<DRX>,<MM>,<RRC>,<CID>,<IMSI>,[<NetNameAsc>],<SD>,<ABND>
- // Ex 2: #RFSTS:"310 410",5780,-105,-73,-14,4603,255,,128,19,0,0000098,"310410536498694","AT&T",3,17
- // #RFSTS:"311 480",1150,-96,-66,-9.0,bf35,FF,0,0,19,1,"2ED1B0E","311480148817753","Verizon",2,2,720000,10800
- // #RFSTS:"310 410",2175,-120,-89,-17.5,4612,FF,0,0,19,1,"4E5E916","310410807276607","AT&T",3,4
- //
- // Additional <RAC> parameter in the second example shifts the rest of the parameters. Here we are trying to figure out
- // which format is currently produced based on <NetNameAsc> field position which always has double quotation marks.
- //
- if (vParts[13].find("\"") != std::string::npos) {
- // parse the RAC and then remove it from the vector
- jData[KEY_RAC] = vParts[6];
- vParts.erase(vParts.begin() + 6);
- }
-
- jDebug["rsrp"] = vParts[2];
- jDebug[KEY_RSSIDBM] = vParts[3];
- jDebug["rsrq"] = vParts[4];
-
- jData["tac"] = vParts[5];
- jDebug[KEY_TXPWR] = vParts[6];
- jData[KEY_DRX] = vParts[7];
- jDebug[KEY_MM] = vParts[8];
- jDebug["rrc"] = vParts[9];
- jData[KEY_CID] = MTS::Text::strip(vParts[10], '"');
- jData[KEY_IMSI] = MTS::Text::strip(vParts[11], '"');
- jData[KEY_NETWORK] = MTS::Text::strip(vParts[12], '"');
-
- // Get the radio band given the channel (EARFCN)
- RadioBandMap radioBandMap(vParts[1], CellularRadio::VALUE_TYPE_LTE);
- jData[KEY_ABND] = radioBandMap.getRadioBandName();
-
- jData[KEY_LAC] = queryLteLac();
-
- if(MTS::Text::parse(iValue, vParts[13]) && convertServiceDomainToString((SERVICEDOMAIN)iValue, sValue) == SUCCESS) {
- jDebug[KEY_SD] = sValue;
- }
-
- jData[KEY_DEBUG] = jDebug;
- }
-
- printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
- return SUCCESS;
-}
-
-// Get the LAC for the LTE radio that's not in the #RFSTS response
-std::string CellularRadio::queryLteLac() {
- std::string CGREGstring;
- std::string originalCGREG;
- std::string result;
-
- CGREGstring = queryCGREGstring();
- if (CGREGstring == RSP_ERROR) {
- originalCGREG = "0";
- } else {
- originalCGREG = CGREGstring.at(CGREGstring.find(",") - 1); //Position right before first comma ("+CGREG: 0,1")
- }
-
- // Temporarily set CGREG=2 to get more info
- setCGREG("2");
-
- CGREGstring = queryCGREGstring();
- if (CGREGstring == RSP_ERROR) {
- result = CellularRadio::VALUE_UNKNOWN;
- } else {
- size_t start = CGREGstring.find(":") + 1; //Position right after "#RFSTS:"
- std::vector<std::string> vParts = MTS::Text::split(MTS::Text::trim(CGREGstring.substr(start)), ",");
- if(vParts.size() < 3) {
- result = CellularRadio::VALUE_UNAVAILABLE;
- } else {
- result = MTS::Text::strip(vParts[2], '"');
- }
- }
-
- setCGREG(originalCGREG);
-
- return result;
-}
-
-void CellularRadio::setCGREG(std::string value) {
- std::string sCmd("AT+CGREG=" + value);
- std::string cmdResult(sendCommand(sCmd));
- if (cmdResult.find("OK") == std::string::npos) {
- printDebug("%s| AT#CGREG=%s returned unexpected response: [%s][%s]", m_sName.c_str(), value.c_str(), sCmd.c_str(), cmdResult.c_str());
- }
-}
-
-std::string CellularRadio::queryCGREGstring() {
- std::string sCmd("AT+CGREG?");
- std::string cmdResult(sendCommand(sCmd));
- if (cmdResult.find("+CGREG:") == std::string::npos) {
- printDebug("%s| AT#CGREG? returned unexpected response: [%s][%s]", m_sName.c_str(), sCmd.c_str(), cmdResult.c_str());
- return RSP_ERROR;
- }
- return cmdResult;
-}
-
-void CellularRadio::getCommonNetworkStats(Json::Value& jData) {
-
- bool bRoaming = false;
- if(getRoaming(bRoaming) == SUCCESS) {
- jData[KEY_ROAMING] = bRoaming;
- }
-
- int32_t iRssi;
- if(getSignalStrength(iRssi) == SUCCESS) {
- jData[KEY_RSSI] = iRssi;
- int32_t dBm;
- if(!jData.isMember(KEY_RSSIDBM) && convertSignalStrengthTodBm(iRssi, dBm) == SUCCESS) {
- //Add RSSI in dBm format
- jData[KEY_RSSIDBM] = MTS::Text::format(dBm);
- }
- }
-
- std::string sService;
- if(getService(sService) == SUCCESS) {
- jData[KEY_SERVICE] = sService;
- }
- std::string sDate, sTime, sTimeZone;
- if(getTime(sDate, sTime, sTimeZone) == SUCCESS) {
- jData[KEY_DATETIME] = sDate + " " + sTime + " GMT" + sTimeZone;
- }
-
- std::string sNetworkReg;
- CellularRadio::REGISTRATION eReg;
- if (getRegistration(eReg) == SUCCESS) {
- if (convertRegistrationToString(eReg, sNetworkReg) == SUCCESS) {
- jData[CellularRadio::KEY_NETWORK_REG] = sNetworkReg;
- }
- }
-}
-
-void CellularRadio::initMipProfile(Json::Value& jData) {
- jData[KEY_MIP_ID] = 0;
- jData[KEY_MIP_ENABLED] = false;
- jData[KEY_MIP_NAI] = VALUE_UNKNOWN;
- jData[KEY_MIP_HOMEADDRESS] = VALUE_UNKNOWN;
- jData[KEY_MIP_PRIMARYHA] = VALUE_UNKNOWN;
- jData[KEY_MIP_SECONDARYHA] = VALUE_UNKNOWN;
- jData[KEY_MIP_MNAAASPI] = VALUE_UNKNOWN;
- jData[KEY_MIP_MNHASPI] = VALUE_UNKNOWN;
- jData[KEY_MIP_MNAAASS] = false;
- jData[KEY_MIP_MNHASS] = false;
-}
-
-CellularRadio::CODE CellularRadio::getRegistration(REGISTRATION& eRegistration) {
- std::string sCmd;
- std::string sResp;
-
- // LE910C1-NS is an LE910, so we stop the scan after the 0.
- if (m_sName.find("LE910") != std::string::npos) {
- // use AT+CGREG instead for LE910 models
- sCmd = "AT+CGREG?";
- sResp = "+CGREG: ";
- }
- else {
- sCmd = "AT+CREG?";
- sResp = "+CREG: ";
- }
-
- std::string sResult = sendCommand(sCmd, DEFAULT_BAIL_STRINGS, 5000);
- if (sResult.find(sResp) == std::string::npos) {
- if(sResult.size() == 0) {
- printDebug("%s| Registration command returned no response: [%s]", m_sName.c_str());
- return NO_RESPONSE;
- }
- printDebug("%s| Registration command returned unexpected response: [%s]", m_sName.c_str(), sResult.c_str());
- return FAILURE;
- }
-
- size_t start = sResult.find(',');
- size_t stop = sResult.find(' ', start);
- std::string sRegStat = sResult.substr(start + 1, stop - start - 1);
- int32_t value;
- sscanf(sRegStat.c_str(), "%d", &value);
- eRegistration = (REGISTRATION)value;
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::convertRegistrationToString(REGISTRATION eRegistration, std::string& sRegistration) {
-
- CODE eCode = FAILURE;
- switch (eRegistration) {
- case NOT_REGISTERED: sRegistration = VALUE_NOT_REGISTERED; eCode = SUCCESS; break;
- case REGISTERED: sRegistration = VALUE_REGISTERED; eCode = SUCCESS; break;
- case SEARCHING: sRegistration = VALUE_SEARCHING; eCode = SUCCESS; break;
- case DENIED: sRegistration = VALUE_DENIED; eCode = SUCCESS; break;
- case UNKNOWN: sRegistration = VALUE_UNKNOWN; eCode = SUCCESS; break;
- case ROAMING: sRegistration = VALUE_ROAMING; eCode = SUCCESS; break;
- }
- return eCode;
-}
-
-CellularRadio::CODE CellularRadio::validateMsl(const Json::Value& jArgs) {
- printTrace("%s| Validate MSL", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMdn(const Json::Value& jArgs) {
- printTrace("%s| Set MDN", m_sName.c_str());
-
- if(!jArgs["mdn"].isString()) {
- return INVALID_ARGS;
- }
-
- std::string sCmd("AT#SNUM=1,\"");
- sCmd += jArgs["mdn"].asString() + "\"";
-
- std::string sResult = sendCommand(sCmd, DEFAULT_BAIL_STRINGS, 1000);
- size_t end = sResult.find(RSP_OK);
- if (end == std::string::npos) {
- printWarning("%s| Unable to set MDN for radio using command [%s]", m_sName.c_str(), sCmd.c_str());
- return FAILURE;
- }
-
- return SUCCESS;
-}
-
-CellularRadio::CODE CellularRadio::setMsid(const Json::Value& jArgs) {
- printTrace("%s| Set MSID", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::getMipProfile(Json::Value& jMipProfile) {
- printTrace("%s| Get MIP Active Profile", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipActiveProfile(const Json::Value& jArgs) {
- printTrace("%s| Set MIP Active Profile", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipNai(const Json::Value& jArgs) {
- printTrace("%s| Set MIP NAI", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipHomeIp(const Json::Value& jArgs) {
- printTrace("%s| Set MIP Home IP", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipPrimaryHa(const Json::Value& jArgs) {
- printTrace("%s| Set MIP Primary HA", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipSecondaryHa(const Json::Value& jArgs) {
- printTrace("%s| Set MIP Secondary HA", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipMnAaaSpi(const Json::Value& jArgs) {
- printTrace("%s| Set MIP MN-AAA SPI", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipMnHaSpi(const Json::Value& jArgs) {
- printTrace("%s| Set MIP MN-HA SPI", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipRevTun(const Json::Value& jArgs) {
- printTrace("%s| Set MIP Rev Tun", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipMnAaaSs(const Json::Value& jArgs) {
- printTrace("%s| Set MIP MN-AAA SS", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setMipMnHaSs(const Json::Value& jArgs) {
- printTrace("%s| Set MIP MN-HA SS", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::updateDc(const Json::Value& jArgs, UpdateCb& stepCb) {
- printTrace("%s| Update Device Configuration", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::updatePrl(const Json::Value& jArgs, UpdateCb& stepCb) {
- printTrace("%s| Update Preferred Roaming List", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::updateFumo(const Json::Value& jArgs, UpdateCb& stepCb) {
- printTrace("%s| Update Firmware Update Management Object", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::resetHfa(const Json::Value& jArgs, UpdateCb& stepCb) {
- printTrace("%s| HFA Reset", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::activate(const Json::Value& jArgs, UpdateCb& stepCb) {
- printTrace("%s| Activation", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::setActiveFirmware(const Json::Value& jArgs) {
- printTrace("%s| Set Active Firmware Image Number: not applicable", m_sName.c_str());
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::getActiveFirmware(std::string& sFwId) {
- printTrace("%s| Get Active Firmware Image Number: not applicable", m_sName.c_str());
- sFwId = VALUE_NOT_SUPPORTED;
-
- return NOT_APPLICABLE;
-}
-
-CellularRadio::CODE CellularRadio::sendBasicCommand(const std::string& sCmd, int32_t iTimeoutMillis, const char& ESC) {
- std::string response = sendCommand(sCmd, DEFAULT_BAIL_STRINGS, iTimeoutMillis, ESC);
- if (response.size() == 0) {
- return NO_RESPONSE;
- } else if (response.find(RSP_OK) != std::string::npos) {
- return SUCCESS;
- } else if (response.find(RSP_ERROR) != std::string::npos) {
- return ERROR;
- } else {
- return FAILURE;
- }
-}
-
-std::string CellularRadio::sendCommand(const std::string& sCmd, const std::vector<std::string>& vBail, int32_t timeoutMillis, const char& ESC) {
- return sendCommand(m_apIo, sCmd, vBail, timeoutMillis, ESC);
-}
-
-std::string CellularRadio::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& iterationData, 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 CellularRadio::sendCommand(const std::string& sCmd, MTS::IO::CellularRadio::IsNeedMoreData& isNeedMoreData, int32_t timeoutMillis, const char& ESC) {
- return sendCommand(m_apIo, sCmd, isNeedMoreData, timeoutMillis, ESC);
-}
-
-std::string CellularRadio::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;
-}
-
-CellularRadio::CODE CellularRadio::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 CellularRadio::extractModelFromResult(const std::string& sResult) {
- std::string sModel(CellularRadio::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-NA") != std::string::npos) {
- sModel = "ME910C1-NA";
- } else if(sResult.find("ME910C1-NV") != std::string::npos) {
- sModel = "ME910C1-NV";
- } 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-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";
- }
- return sModel;
-}
-
-std::string CellularRadio::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";
- }
-}
-
-bool CellularRadio::splitAndAssign(const std::string& sLine, const std::string& sKey, Json::Value& jParent, const std::string& sJsonKey, Json::ValueType eType) {
-
- std::vector<std::string> vParts = MTS::Text::split(sLine, ":", 2);
-
- if(vParts.size() == 2 && vParts[0] == sKey) {
- if(eType == Json::ValueType::stringValue) {
- jParent[sJsonKey] = MTS::Text::trim(vParts[1]);
- } else if (eType == Json::ValueType::intValue || eType == Json::ValueType::uintValue) {
- //TODO:
- printWarning("%s| Unable to parse requested type from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
- return false;
- } else if(eType == Json::ValueType::realValue) {
- //TODO:
- printWarning("%s| Unable to parse requested type from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
- return false;
- } else if(eType == Json::ValueType::booleanValue) {
- //TODO:
- printWarning("%s| Unable to parse requested type from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
- return false;
- } else {
- printWarning("%s| Unable to parse requested type from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
- return false;
- }
- } else {
- printWarning("%s| Unable to parse %s from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
- return false;
- }
-
- return true;
-}
-
-bool CellularRadio::getCarrierFromFirmware(const std::string& sFirmware, std::string& sCarrier) {
- // Telit Radios
- // H.ab.zyx => 3 Main Components
- // "H" = Hardware -> 15 = DE910 family, 18 = CE910 family, 12 = HE910 family
- // "a" = Hardware version
- // "b" = Software Major Version
- // "z" = is the product type, i.e. DUAL or SC
- // "y" = is the carrier variant
- // "x" = is the firmware version
- // Telit will do their best to keep the carrier variant as "0" for Sprint, "1" for Aeris, "2" for Verizon, and "3" for U.S. Cellular.
-
- const uint32_t CARRIER_INDEX = 1; //y in [zyx]
-
- bool bResult = false;
- std::vector<std::string> vParts = MTS::Text::split(sFirmware, '.');
-
- if(vParts.size() == 3) {
- //CDMA firmware version notation
- if(vParts[0] == "15" || vParts[0] == "18") {
- //DE910 or CE910 -> Good good
- std::string sID = vParts[2];
- if(sID.size() == 3) {
- char cId = sID[CARRIER_INDEX];
-
- //Good good
- if(cId == '0') {
- sCarrier = VALUE_CARRIER_SPRINT;
- bResult = true;
- } else
- if(cId == '1') {
- sCarrier = VALUE_CARRIER_AERIS;
- bResult = true;
- } else
- if(cId == '2') {
- sCarrier = VALUE_CARRIER_VERIZON;
- bResult = true;
- } else
- if(cId == '3') {
- sCarrier = VALUE_CARRIER_USCELLULAR;
- bResult = true;
- }
- }
- }
- }
-
- return bResult;
-}
-
-bool CellularRadio::getHardwareVersionFromFirmware(const std::string& sFirmware, std::string& sHardware) {
- // Telit Radios
- // H.ab.zyx => 3 Main Components
- // "H" = Hardware -> 15 = DE910 family, 18 = CE910 family, 12 = HE910 family
- // "a" = Hardware version
- // "b" = Software Major Version
- // "z" = is the product type, i.e. DUAL or SC
- // "y" = is the carrier variant
- // "x" = is the firmware version
- // Telit will do their best to keep the carrier variant as "0" for Sprint, "1" for Aeris, and "2" for Verizon.
-
- const uint32_t HARDWARE_INDEX = 0; //a in [ab]
-
- bool bResult = false;
- std::vector<std::string> vParts = MTS::Text::split(sFirmware, '.');
-
- if(vParts.size() == 3) {
- //GSM Hardware Version
- if(!(vParts[0] == "15" || vParts[0] == "18")) {
- //Not DE910 or CE910 -> Good good
- std::string sVersion = vParts[1];
- if(sVersion.size() == 2) {
- sHardware = "1.";
- sHardware += sVersion[HARDWARE_INDEX];
- bResult = true;
- }
- }
- }
-
- return bResult;
-
-}
-
-const char *CellularRadio::RadioBandMap::getLTEBand(const int32_t channel)
-{
- for (unsigned int ii = 0; ii < NUM_LTE_BANDS; ii++)
- {
- if (EULTRAband[ii].low <= channel && EULTRAband[ii].high >= channel)
- {
- return EULTRAband[ii].name;
- }
- }
- return VALUE_UNKNOWN.c_str();
-}
-
-const char *CellularRadio::RadioBandMap::getCDMABand(const int channel)
-{
- for (unsigned int ii = 0; ii < NUM_WCDMA_BANDS; ii++)
- {
- if (WCDMAband[ii].low <= channel && WCDMAband[ii].high >= channel)
- {
- return WCDMAband[ii].name;
- }
- }
- return VALUE_UNKNOWN.c_str();
-}
-
-const char *CellularRadio::RadioBandMap::getGSMBand(const int channel)
-{
- for (unsigned int ii = 0; ii < NUM_GSM_BANDS; ii++)
- {
- if (GSMband[ii].low <= channel && GSMband[ii].high >= channel)
- {
- return GSMband[ii].name;
- }
- }
- return VALUE_UNKNOWN.c_str();
-}
-
-const char *CellularRadio::RadioBandMap::getRadioBandName()
-{
- const char *band = CellularRadio::VALUE_UNKNOWN.c_str();
-
- if (m_sRadioType == CellularRadio::VALUE_TYPE_LTE)
- {
- band = getLTEBand(m_iChannel);
- }
- else if (m_sRadioType == CellularRadio::VALUE_TYPE_CDMA)
- {
- band = getCDMABand(m_iChannel);
- }
- else if (m_sRadioType == CellularRadio::VALUE_TYPE_GSM)
- {
- band = getGSMBand(m_iChannel);
- }
-
- return band;
-}
-
-const char *CellularRadio::RadioBandMap::getRadioBandName(const std::string &channel, const std::string &radioType)
-{
- const char *band = CellularRadio::VALUE_UNKNOWN.c_str();
- int32_t chan = strtol(channel.c_str(), NULL, 10);
- if (radioType == CellularRadio::VALUE_TYPE_LTE)
- {
- band = getLTEBand(chan);
- }
- else if (radioType == CellularRadio::VALUE_TYPE_CDMA)
- {
- band = getCDMABand(chan);
- }
- else if (radioType == CellularRadio::VALUE_TYPE_GSM)
- {
- band = getGSMBand(chan);
- }
-
- return band;
-}
+#include "mts/MTS_IO_CellularRadio.h"
diff --git a/src/MTS_IO_CellularRadioFactory.cpp b/src/MTS_IO_CellularRadioFactory.cpp
index ef87f0e..17cbd05 100644
--- a/src/MTS_IO_CellularRadioFactory.cpp
+++ b/src/MTS_IO_CellularRadioFactory.cpp
@@ -87,14 +87,14 @@ std::string CellularRadioFactory::identifyRadio(const std::string& sPort) {
apIo.reset(new SerialConnection(SerialConnection::Builder(sPort).baudRate(115200).useLockFile().build()));
while(!apIo->open(30000)) {
printError("CellularRadioFactory| Failed to open radio port [%s]", sPort.c_str());
- return CellularRadio::VALUE_UNKNOWN;
+ return TelitRadio::VALUE_UNKNOWN;
}
//Attempt basic radio communication
- if(CellularRadio::test(apIo) != CellularRadio::SUCCESS) {
+ if(TelitRadio::test(apIo) != TelitRadio::SUCCESS) {
printError("CellularRadioFactory| Failed to communicate with radio on port [%s]", sPort.c_str());
apIo->close();
- return CellularRadio::VALUE_UNKNOWN;
+ return TelitRadio::VALUE_UNKNOWN;
}
//Get model
@@ -102,7 +102,7 @@ std::string CellularRadioFactory::identifyRadio(const std::string& sPort) {
std::string sCmd("ATI4");
std::string sResult;
do {
- sResult = CellularRadio::sendCommand(apIo, sCmd, CellularRadio::DEFAULT_BAIL_STRINGS, 1000, CellularRadio::CR);
+ sResult = TelitRadio::sendCommand(apIo, sCmd, TelitRadio::DEFAULT_BAIL_STRINGS, 1000, TelitRadio::CR);
if (sResult.find("OK") == std::string::npos) {
printDebug("RADIO| Attempting to get radio model [%s] ...", sResult.c_str());
} else {
@@ -114,10 +114,10 @@ std::string CellularRadioFactory::identifyRadio(const std::string& sPort) {
if(count == 30) {
printDebug("RADIO| Unable to get radio model");
apIo->close();
- return CellularRadio::VALUE_UNKNOWN;
+ return TelitRadio::VALUE_UNKNOWN;
}
- std::string sModel = CellularRadio::extractModelFromResult(sResult);
+ std::string sModel = TelitRadio::extractModelFromResult(sResult);
printDebug("RADIO| Extracted [%s] from ATI4 query", sModel.c_str());
apIo->close();
return sModel;
diff --git a/src/MTS_IO_EG95Radio.cpp b/src/MTS_IO_EG95Radio.cpp
new file mode 100644
index 0000000..2fca48f
--- /dev/null
+++ b/src/MTS_IO_EG95Radio.cpp
@@ -0,0 +1 @@
+#include "mts/MTS_IO_EG95Radio.h"
diff --git a/src/MTS_IO_GE910Radio.cpp b/src/MTS_IO_GE910Radio.cpp
index f31f4fc..c99d16c 100644
--- a/src/MTS_IO_GE910Radio.cpp
+++ b/src/MTS_IO_GE910Radio.cpp
@@ -34,7 +34,7 @@ using namespace MTS::IO;
const std::string GE910Radio::MODEL_NAME("GE910");
GE910Radio::GE910Radio(const std::string& sPort)
-: CellularRadio(MODEL_NAME, sPort)
+: TelitRadio(MODEL_NAME, sPort)
{
}
diff --git a/src/MTS_IO_HE910Radio.cpp b/src/MTS_IO_HE910Radio.cpp
index 0178c9d..cc0e873 100644
--- a/src/MTS_IO_HE910Radio.cpp
+++ b/src/MTS_IO_HE910Radio.cpp
@@ -32,7 +32,7 @@
using namespace MTS::IO;
HE910Radio::HE910Radio(const std::string& sHE910Model, const std::string& sPort)
-: CellularRadio(sHE910Model, sPort)
+: TelitRadio(sHE910Model, sPort)
{
}
diff --git a/src/MTS_IO_LE866Radio.cpp b/src/MTS_IO_LE866Radio.cpp
index 2e92f67..85b8dc3 100644
--- a/src/MTS_IO_LE866Radio.cpp
+++ b/src/MTS_IO_LE866Radio.cpp
@@ -31,7 +31,7 @@
using namespace MTS::IO;
LE866Radio::LE866Radio(const std::string& sLE866Model, const std::string& sPort)
-: CellularRadio(sLE866Model, sPort)
+: TelitRadio(sLE866Model, sPort)
{
}
diff --git a/src/MTS_IO_LE910Radio.cpp b/src/MTS_IO_LE910Radio.cpp
index f383b68..b02c2ce 100644
--- a/src/MTS_IO_LE910Radio.cpp
+++ b/src/MTS_IO_LE910Radio.cpp
@@ -33,7 +33,7 @@
using namespace MTS::IO;
LE910Radio::LE910Radio(const std::string& sLE910Model, const std::string& sPort)
-: CellularRadio(sLE910Model, sPort)
+: TelitRadio(sLE910Model, sPort)
{
}
diff --git a/src/MTS_IO_ME910Radio.cpp b/src/MTS_IO_ME910Radio.cpp
index 590a883..3ed9e50 100644
--- a/src/MTS_IO_ME910Radio.cpp
+++ b/src/MTS_IO_ME910Radio.cpp
@@ -25,7 +25,7 @@
using namespace MTS::IO;
ME910Radio::ME910Radio(const std::string& sME910Model, const std::string& sPort)
-: CellularRadio(sME910Model, sPort)
+: TelitRadio(sME910Model, sPort)
{
}
diff --git a/src/MTS_IO_QuectelRadio.cpp b/src/MTS_IO_QuectelRadio.cpp
new file mode 100644
index 0000000..365bbca
--- /dev/null
+++ b/src/MTS_IO_QuectelRadio.cpp
@@ -0,0 +1 @@
+#include "mts/MTS_IO_QuectelRadio.h"
diff --git a/src/MTS_IO_TelitRadio.cpp b/src/MTS_IO_TelitRadio.cpp
new file mode 100644
index 0000000..de863c3
--- /dev/null
+++ b/src/MTS_IO_TelitRadio.cpp
@@ -0,0 +1,1838 @@
+/*
+ * Copyright (C) 2019 by Multi-Tech Systems
+ *
+ * This file is part of libmts-io.
+ *
+ * libmts-io 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 of the License, or
+ * (at your option) any later version.
+ *
+ * libmts-io 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 libmts-io. If not, see <http://www.gnu.org/licenses/>.
+ *
+ */
+
+#include <mts/MTS_IO_TelitRadio.h>
+
+#include <mts/MTS_IO_MccMncTable.h>
+#include <mts/MTS_Thread.h>
+#include <mts/MTS_Timer.h>
+#include <mts/MTS_Logger.h>
+#include <mts/MTS_Text.h>
+#include <mts/MTS_System.h>
+#include <map>
+#include <cstring>
+#include <sstream>
+#include <sys/file.h>
+#include <errno.h>
+#include <unistd.h>
+
+
+using namespace MTS::IO;
+
+const char TelitRadio::ETX = 0x03; //Ends socket connection
+const char TelitRadio::DLE = 0x10; //Escapes ETX and DLE within Payload
+const char TelitRadio::CR = 0x0D;
+const char TelitRadio::NL = 0x0A;
+const char TelitRadio::CTRL_Z = 0x1A;
+
+const std::string TelitRadio::RSP_ERROR("ERROR");
+const std::string TelitRadio::RSP_OK("OK");
+
+
+const std::string TelitRadio::DEFAULT_RADIO_PORT("/dev/modem_at1");
+const std::string TelitRadio::DEFAULT_RADIO_DIR("/var/run/radio/");
+const std::string TelitRadio::VALUE_UNKNOWN("Unknown");
+const std::string TelitRadio::VALUE_UNAVAILABLE("Unavailable");
+const std::string TelitRadio::VALUE_NOT_SUPPORTED("Not Supported");
+
+const std::string TelitRadio::VALUE_NOT_REGISTERED("NOT REGISTERED");
+const std::string TelitRadio::VALUE_REGISTERED("REGISTERED");
+const std::string TelitRadio::VALUE_SEARCHING("SEARCHING");
+const std::string TelitRadio::VALUE_DENIED("DENIED");
+const std::string TelitRadio::VALUE_ROAMING("ROAMING");
+
+//Static Data
+const std::string TelitRadio::KEY_TYPE("type"); //!< GSM or CDMA
+const std::string TelitRadio::KEY_CODE("code"); //!< Product Code : H5, H6, C2, EV3, G3
+const std::string TelitRadio::KEY_MODEL("model"); //!< Model : HE910, LE910, CE910, DE910, GE910
+const std::string TelitRadio::KEY_MANUFACTURER("manufacturer"); //!< Manufacturer: Telit
+const std::string TelitRadio::KEY_HARDWARE("hardware"); //!< Radio Hardware Version
+const std::string TelitRadio::KEY_FIRMWARE("firmware"); //!< Radio Firmware Version
+const std::string TelitRadio::KEY_FIRMWARE_BUILD("firmwarebuild"); //!< Radio Firmware Build
+
+const std::string TelitRadio::KEY_CARRIER("carrier"); //!< Cellular Service Provider (Home Network)
+const std::string TelitRadio::VALUE_CARRIER_VERIZON("Verizon");
+const std::string TelitRadio::VALUE_CARRIER_AERIS("Aeris");
+const std::string TelitRadio::VALUE_CARRIER_SPRINT("Sprint");
+const std::string TelitRadio::VALUE_CARRIER_USCELLULAR("U.S. Cellular");
+const std::string TelitRadio::VALUE_CARRIER_ATT("AT&T");
+const std::string TelitRadio::VALUE_CARRIER_TMOBILE("T-Mobile");
+
+const std::string TelitRadio::KEY_IMEI("imei"); //!< International Mobile Station Equipment Identity
+const std::string TelitRadio::KEY_MEID("meid"); //!< Mobile Equipment Identifier
+const std::string TelitRadio::KEY_IMSI("imsi"); //!< International Mobile Subscriber Identity
+const std::string TelitRadio::KEY_MSID("msid"); //!< Mobil Station ID / Mobile Identification Number (MSID/MIN) (CDMA-Only)
+const std::string TelitRadio::KEY_MDN("mdn"); //!< Mobile Directory Number : Actual phone number dialed to reach radio
+const std::string TelitRadio::KEY_ICCID("iccid"); //!< Integrated Circuit Card Identifier
+const std::string TelitRadio::KEY_MSL("msl"); //!< Master Subsidy Lock
+
+//Dynamic Data
+const std::string TelitRadio::KEY_ROAMING("roaming"); //!< Indicates whether or not using Home Network
+const std::string TelitRadio::KEY_DATETIME("datetime"); //!< Date and Time from tower
+const std::string TelitRadio::KEY_SERVICE("service"); //!< Service Connection Type [GPRS, EGPRS, WCDMA, HSDPA, 1xRTT, EVDO]
+const std::string TelitRadio::KEY_NETWORK("network"); //!< Cellular Service Provider
+const std::string TelitRadio::KEY_NETWORK_REG("netreg"); //!< Network Registration
+const std::string TelitRadio::KEY_CID("cid"); //!< Cellular ID (Tower) in HEX
+const std::string TelitRadio::KEY_LAC("lac"); //!< Location Area Code in HEX
+const std::string TelitRadio::KEY_RAC("rac"); //!< Routing Area Code in HEX
+const std::string TelitRadio::KEY_RSSI("rssi"); //!< Signal Strength
+const std::string TelitRadio::KEY_RSSIDBM("rssidBm"); //!< Signal Strength in dBm
+const std::string TelitRadio::KEY_MCC("mcc"); //!< Country Code
+const std::string TelitRadio::KEY_MNC("mnc"); //!< Operator Code
+const std::string TelitRadio::KEY_CHANNEL("channel"); //!< ARFCN or UARFCN Assigned Radio Channel
+const std::string TelitRadio::KEY_TXPWR("txpwr"); //!< Transmit Power
+const std::string TelitRadio::KEY_PSC("psc"); //!< Active Primary Synchronization Code (PSC)
+const std::string TelitRadio::KEY_ECIO("ecio"); //!< Active Ec/Io (chip energy per total wideband power in dBm)
+const std::string TelitRadio::KEY_RSCP("rscp"); //!< Active RSCP (Received Signal Code Power in dBm)
+const std::string TelitRadio::KEY_DRX("drx"); //!< Discontinuous reception cycle length (ms)
+const std::string TelitRadio::KEY_MM("mm"); //!< Mobility Management State
+const std::string TelitRadio::KEY_RR("rr"); //!< Radio Resource State
+const std::string TelitRadio::KEY_NOM("nom"); //!< Network Operator Mode
+const std::string TelitRadio::KEY_ABND("abnd"); //!< Active Band
+const std::string TelitRadio::KEY_BLER("bler"); //!< Block Error Rate (percentage)
+const std::string TelitRadio::KEY_SD("sd"); //!< Service Domain
+const std::string TelitRadio::KEY_DEBUG("debug"); //!< Debug Information
+
+const std::string TelitRadio::KEY_MIP("mipProfile"); //!< Mobile IP Information
+const std::string TelitRadio::KEY_MIP_ID("id"); //!< Mobile IP ID
+const std::string TelitRadio::KEY_MIP_ENABLED("enabled"); //!< Mobile IP Enabled/Disabled
+const std::string TelitRadio::KEY_MIP_NAI("nai"); //!< Network Access Identifier
+const std::string TelitRadio::KEY_MIP_HOMEADDRESS("homeAddress"); //!< Home Address
+const std::string TelitRadio::KEY_MIP_PRIMARYHA("primaryAddress"); //!< Primary Home Agent
+const std::string TelitRadio::KEY_MIP_SECONDARYHA("secondaryAddress"); //!< Secondary Home Agent
+const std::string TelitRadio::KEY_MIP_MNAAASPI("mnAaaSpi"); //!< Mobile Node Authentication, Authorization, and Accounting Server Security Parameter Index
+const std::string TelitRadio::KEY_MIP_MNHASPI("mnHaSpi"); //!< Mobile Node Home Agent Security Server Parameter Index
+const std::string TelitRadio::KEY_MIP_REVTUN("revTun"); //!< Reverse Tunneling Enabled
+const std::string TelitRadio::KEY_MIP_MNAAASS("mnAaaSs"); //!< Mobile Node Authentication, Authorization, and Accounting Server Shared Secret
+const std::string TelitRadio::KEY_MIP_MNHASS("mnHaSs"); //!< Mobile Node Home Agent Shared Secret
+
+const std::string TelitRadio::VALUE_TYPE_GSM("GSM");
+const std::string TelitRadio::VALUE_TYPE_LTE("LTE");
+const std::string TelitRadio::VALUE_TYPE_CDMA("CDMA");
+
+const std::string TelitRadio::VALUE_SD_NO_SERVICE("NO SERVICE");
+const std::string TelitRadio::VALUE_SD_CS_ONLY("CS ONLY");
+const std::string TelitRadio::VALUE_SD_PS_ONLY("PS ONLY");
+const std::string TelitRadio::VALUE_SD_CSPS("CS+PS");
+
+const std::string TelitRadio::VALUE_ABND_GSM_850("GSM 850");
+const std::string TelitRadio::VALUE_ABND_GSM_900("GSM 900");
+const std::string TelitRadio::VALUE_ABND_DCS_1800("DCS 1800");
+const std::string TelitRadio::VALUE_ABND_PCS_1900("PCS 1900");
+
+const std::vector<std::string> TelitRadio::DEFAULT_BAIL_STRINGS = { TelitRadio::RSP_OK, TelitRadio::RSP_ERROR };
+
+TelitRadio::TelitRadio(const std::string& sName, const std::string& sRadioPort)
+: m_sName(sName)
+, m_sRadioPort(sRadioPort)
+, m_bEchoEnabled(false)
+, m_bEnableEchoOnClose(false)
+{
+ m_apIo.reset(new MTS::IO::SerialConnection(
+ MTS::IO::SerialConnection::Builder(m_sRadioPort)
+ .baudRate(115200)
+ .useLockFile()
+ .build()));
+}
+
+
+TelitRadio::~TelitRadio() {
+ shutdown();
+ m_apIo.reset();
+}
+
+bool TelitRadio::initialize(uint32_t iTimeoutMillis) {
+ if(!m_apIo->open(iTimeoutMillis)) {
+ printError("%s| Failed to open radio port [%s]", m_sName.c_str(), m_sRadioPort.c_str());
+ return false;
+ }
+
+ bool bEnabled;
+ CODE eCode = getEcho(bEnabled);
+ if(eCode == SUCCESS && bEnabled) {
+ printDebug("%s| Disabling 'echo'", m_sName.c_str());
+ setEcho(false);
+ m_bEnableEchoOnClose = true;
+ }
+
+ return true;
+}
+
+bool TelitRadio::resetRadio(uint32_t iTimeoutMillis) {
+
+ printInfo("%s| Rebooting radio", m_sName.c_str());
+ if(sendBasicCommand("AT#REBOOT") == SUCCESS) {
+ if(iTimeoutMillis > 5000) {
+ MTS::Thread::sleep(5000);
+ iTimeoutMillis -= 5000;
+ }
+ return resetConnection(iTimeoutMillis);
+ }
+
+ return false;
+}
+
+bool TelitRadio::resetConnection(uint32_t iTimeoutMillis) {
+ //Close Current Connection
+ if(!m_apIo.isNull()) {
+ m_apIo->close();
+ }
+
+ m_apIo.reset(new MTS::IO::SerialConnection(
+ MTS::IO::SerialConnection::Builder(m_sRadioPort)
+ .baudRate(115200)
+ .useLockFile()
+ .build()));
+
+ //Try to obtain the device port over the given period of time
+ MTS::Timer oTimer;
+ oTimer.start();
+ uint64_t iCurrentTime = 0;
+ while(iCurrentTime < iTimeoutMillis) {
+
+ if(!m_apIo->open(iTimeoutMillis - iCurrentTime)) {
+ printWarning("%s| Failed to re-open radio port [%s]", m_sName.c_str(), m_sRadioPort.c_str());
+ } else {
+ printInfo("%s| Successfully re-opened radio port [%s]", m_sName.c_str(), m_sRadioPort.c_str());
+ printDebug("%s| Recovering 'echo' after connection reset", m_sName.c_str()); // see TelitRadio::initialize
+ setEcho(m_bEchoEnabled);
+ break;
+ }
+
+ ::usleep(500000); //500 millis
+ iCurrentTime = oTimer.getMillis();
+ }
+ oTimer.stop();
+ return !m_apIo->isClosed();
+}
+
+void TelitRadio::shutdown() {
+
+ if(!m_apIo.isNull()) {
+ if(m_bEnableEchoOnClose) {
+ printDebug("%s| Enabling 'echo'", m_sName.c_str());
+ setEcho(true);
+ m_bEnableEchoOnClose = false;
+ }
+ m_apIo->close();
+ }
+}
+
+const std::string& TelitRadio::getName() const {
+ return m_sName;
+}
+
+
+TelitRadio::CODE TelitRadio::getModel(std::string& sModel) {
+ printTrace("%s| Get Model", m_sName.c_str());
+ //Always returns SUCCESS because the model should be m_sName
+ sModel = m_sName;
+ std::string sCmd("ATI4");
+ std::string sResult = TelitRadio::sendCommand(m_apIo, sCmd);
+ if (sResult.find("OK") == std::string::npos) {
+ printWarning("%s| Unable to get model from radio. Returning [%s]", m_sName.c_str(), m_sName.c_str());
+ return SUCCESS;
+ } else {
+ sModel = TelitRadio::extractModelFromResult(sResult);
+ if(sModel.size() == 0) {
+ printWarning("%s| Unable to get model from radio. Returning [%s]", m_sName.c_str(), m_sName.c_str());
+ return SUCCESS;
+ }
+ }
+
+ printDebug("%s| Extracted [%s] from [%s] query", m_sName.c_str(), sModel.c_str(), sCmd.c_str());
+ if(sModel != m_sName) {
+ printWarning("%s| Model identified [%s] does not match expected [%s]. Returning [%s]",
+ m_sName.c_str(), sModel.c_str(), m_sName.c_str(), sModel.c_str());
+ }
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::convertModelToMtsShortCode(const std::string& sModel, std::string& sCode, TelitRadio *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("LE910C1-NS") == 0) {
+ sCode = "LSP3";
+ eCode = SUCCESS;
+ } else if (sModel.find("LE910C1-AP") == 0) {
+ sCode = "LAP3";
+ eCode = SUCCESS;
+ } else if (sModel.find("ME910C1-NA") == 0) {
+ sCode = "MAT1";
+ eCode = SUCCESS;
+ } else if (sModel.find("ME910C1-NV") == 0) {
+ sCode = "MVW1";
+ 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 {
+ sCode = VALUE_NOT_SUPPORTED;
+ printError("RADIO| Could not identify MTS short code from model. [%s]", sModel.c_str());
+ eCode = ERROR;
+ }
+ return eCode;
+}
+
+TelitRadio::CODE TelitRadio::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;
+}
+
+TelitRadio::CODE TelitRadio::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;
+}
+
+TelitRadio::CODE TelitRadio::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-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-NA") == 0) {
+ sType = VALUE_TYPE_LTE;
+ eCode = SUCCESS;
+ } else if (sModel.find("ME910C1-NV") == 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 {
+ 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;
+}
+
+TelitRadio::CODE TelitRadio::getFirmware(std::string& sFirmware) {
+ printTrace("%s| Get Firmware", m_sName.c_str());
+ sFirmware = VALUE_NOT_SUPPORTED;
+ std::string sCmd("AT+CGMR");
+ std::string sResult = TelitRadio::sendCommand(sCmd);
+ size_t pos = sResult.find(RSP_OK);
+ if (pos == std::string::npos) {
+ printWarning("%s| Unable to get firmware from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ sFirmware = MTS::Text::trim(sResult.substr(0, pos));
+ if(sFirmware.size() == 0) {
+ printWarning("%s| Unable to get firmware from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ m_sFirmware = sFirmware;
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getFirmwareBuild(std::string& sFirmwareBuild) {
+ sFirmwareBuild = VALUE_NOT_SUPPORTED;
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getHardware(std::string& sHardware) {
+ printTrace("%s| Get Hardware", m_sName.c_str());
+ sHardware = VALUE_NOT_SUPPORTED;
+
+ if(m_sFirmware.size() == 0) {
+ getFirmware(m_sFirmware);
+ }
+
+ if(getHardwareVersionFromFirmware(m_sFirmware, sHardware)) {
+ return SUCCESS;
+ }
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getManufacturer(std::string& sManufacturer) {
+ printTrace("%s| Get Manufacturer", m_sName.c_str());
+ sManufacturer = VALUE_NOT_SUPPORTED;
+ std::string sCmd("AT+GMI");
+ std::string sResult = TelitRadio::sendCommand(sCmd);
+ size_t pos = sResult.find(RSP_OK);
+ if (pos == std::string::npos) {
+ printWarning("%s| Unable to get manufacturer from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ sManufacturer = MTS::Text::trim(sResult.substr(0, pos));
+ if(sManufacturer.size() == 0) {
+ printWarning("%s| Unable to get manufacturer from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getImei(std::string& sImei) {
+ printTrace("%s| Get IMEI", m_sName.c_str());
+ sImei = VALUE_NOT_SUPPORTED;
+ std::string sCmd("AT+CGSN");
+ std::string sResult = TelitRadio::sendCommand(sCmd);
+ size_t pos = sResult.find(RSP_OK);
+ if (pos == std::string::npos) {
+ printWarning("%s| Unable to get IMEI from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ sImei = MTS::Text::trim(sResult.substr(0, pos));
+ if(sImei.size() == 0) {
+ printWarning("%s| Unable to get IMEI from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getMeid(std::string& sMeid) {
+ printTrace("%s| Get MEID", m_sName.c_str());
+ return getImei(sMeid);
+}
+
+TelitRadio::CODE TelitRadio::getImsi(std::string& sImsi) {
+ printTrace("%s| Get IMSI", m_sName.c_str());
+ sImsi = VALUE_NOT_SUPPORTED;
+ std::string sCmd("AT+CIMI");
+ std::string sResult = TelitRadio::sendCommand(sCmd);
+ size_t pos = sResult.find(RSP_OK);
+ if (pos == std::string::npos) {
+ printWarning("%s| Unable to get IMSI from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ sImsi = MTS::Text::trim(sResult.substr(0, pos));
+ if(sImsi.size() == 0) {
+ printWarning("%s| Unable to get IMSI from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getSimStatus(std::string& sSimStatus) {
+ printTrace("%s| Get SIM Status", getName().c_str());
+ sSimStatus = VALUE_UNKNOWN;
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getIccid(std::string& sIccid) {
+ printTrace("%s| Get ICCID", m_sName.c_str());
+ sIccid = VALUE_NOT_SUPPORTED;
+ std::string sCmd("AT#CCID");
+ std::string sResult = TelitRadio::sendCommand(sCmd);
+ size_t end = sResult.find(RSP_OK);
+ if (end == std::string::npos) {
+ printWarning("%s| Unable to get ICCID from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ size_t start = sResult.find("#CCID:");
+ if(start != std::string::npos) {
+ start += sizeof("#CCID:");
+ sIccid = MTS::Text::trim(sResult.substr(start, end-start));
+ if(sIccid.size() == 0) {
+ printWarning("%s| Unable to get ICCID from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+ }
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getService(std::string& sService) {
+ printTrace("%s| Get Service", m_sName.c_str());
+ sService = VALUE_NOT_SUPPORTED;
+ std::string sCmd("AT#PSNT?");
+ std::string sResult = TelitRadio::sendCommand(sCmd);
+ size_t end = sResult.find(RSP_OK);
+ if (end == std::string::npos) {
+ printWarning("%s| Unable to get Service from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ size_t start = sResult.find(",");
+ if(start != std::string::npos) {
+ start += 1; //comma
+ std::string sPsnt = MTS::Text::trim(sResult.substr(start, end-start));
+ int32_t iService;
+ sscanf(sPsnt.c_str(), "%d", &iService);
+
+ switch(iService) {
+ case 0: sService = "GPRS"; break;
+ case 1: sService = "EGPRS"; break;
+ case 2: sService = "WCDMA"; break;
+ case 3: sService = "HSDPA"; break;
+ case 4: sService = "LTE"; break;
+ default: sService = VALUE_UNKNOWN; break;
+ }
+
+ printDebug("%s| Service ID: [%d][%s]", m_sName.c_str(), iService, sService.c_str());
+ }
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getLac(std::string& sLac) {
+ Json::Value jData;
+
+ printTrace("%s| Get LAC", m_sName.c_str());
+ sLac = VALUE_NOT_SUPPORTED;
+
+ if(getNetworkStatus(jData) == SUCCESS) {
+ if(jData.isMember(KEY_LAC)) {
+ sLac = jData[KEY_LAC].asString();
+ return SUCCESS;
+ }
+ }
+
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getMdn(std::string& sMdn) {
+ printTrace("%s| Get MDN", m_sName.c_str());
+ sMdn = VALUE_NOT_SUPPORTED;
+ std::string sCmd("AT+CNUM");
+ std::string sResult = TelitRadio::sendCommand(sCmd);
+ size_t end = sResult.find(RSP_OK);
+ if (end == std::string::npos) {
+ printWarning("%s| Unable to get MDN from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ size_t start = sResult.find("CNUM:");
+ if(start != std::string::npos) {
+ start += sizeof("CNUM:");
+ std::vector<std::string> vParts = MTS::Text::split(sResult.substr(start, end - start), ',');
+ if(vParts.size() < 3) {
+ printWarning("%s| Unable to parse MDN from response [%s]", m_sName.c_str(), sResult.c_str());
+ return FAILURE;
+ }
+ sMdn = MTS::Text::strip(vParts[1], '"');
+ if(sMdn.size() == 0) {
+ printWarning("%s| Unable to get MDN from radio using command [%s]. MDN may not be set.", m_sName.c_str(), sCmd.c_str());
+ }
+ } else {
+ sMdn = "";
+ printWarning("%s| Unable to get MDN from radio using command [%s]. MDN may not be set.", m_sName.c_str(), sCmd.c_str());
+ }
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getMsid(std::string& sMsid) {
+ printTrace("%s| Get MSID", m_sName.c_str());
+ sMsid = "";
+
+ std::string sImsi;
+ if(getImsi(sImsi) == SUCCESS) {
+ if(sImsi.size() >= 10) {
+ sMsid = sImsi.substr(sImsi.size() - 10);
+ printTrace("IMSI: [%s] MEID [%s]", sImsi.c_str(), sMsid.c_str());
+ return SUCCESS;
+ }
+ }
+ printWarning("%s| Unable to get MSID from radio", m_sName.c_str());
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getType(std::string& sType) {
+ printTrace("%s| Get Type", m_sName.c_str());
+ sType = VALUE_NOT_SUPPORTED;
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getCarrier(std::string& sCarrier) {
+ printTrace("%s| Get Carrier", m_sName.c_str());
+ if(m_sCarrier == "") {
+ Json::Value jData;
+ if(getNetworkStatus(jData) == SUCCESS) {
+ if(jData.isMember(KEY_MCC) && jData.isMember(KEY_MNC)) {
+ std::string sMcc = jData[KEY_MCC].asString();
+ std::string sMnc = jData[KEY_MNC].asString();
+ Json::Value jLookup = MccMncTable::getInstance()->lookup(sMcc, sMnc);
+ printTrace("%s| MCC-MNC Lookup: [%s][%s][%s]", m_sName.c_str(),
+ sMcc.c_str(), sMnc.c_str(), jLookup.toStyledString().c_str());
+ if(jLookup.isMember(KEY_CARRIER)) {
+ m_sCarrier = jLookup[KEY_CARRIER].asString();
+ } else {
+ printWarning("%s| MCC-MNC Lookup did not contain carrier", m_sName.c_str());
+ return FAILURE;
+ }
+ } else {
+ printWarning("%s| Network Status did no contain MCC or MNC", m_sName.c_str());
+ return FAILURE;
+ }
+ } else {
+ return FAILURE;
+ }
+ }
+
+ sCarrier = m_sCarrier;
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getTower(std::string& sTower) {
+ Json::Value jData;
+
+ printTrace("%s| Get Tower", m_sName.c_str());
+ sTower = VALUE_NOT_SUPPORTED;
+
+ if(getNetworkStatus(jData) == SUCCESS) {
+ if(jData.isMember(KEY_CID)) {
+ sTower = jData[KEY_CID].asString();
+ return SUCCESS;
+ }
+ }
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getTime(std::string& sDate, std::string& sTime, std::string& sTimeZone) {
+ Json::Value jData;
+
+ printTrace("%s| Get Time", m_sName.c_str());
+ sDate = "";
+ sTime = "";
+ sTimeZone = "";
+
+ std::string sCmd("AT+CCLK?");
+ std::string sResult = TelitRadio::sendCommand(sCmd);
+ size_t end = sResult.find(RSP_OK);
+ if (end == std::string::npos) {
+ printWarning("%s| Unable to get Time from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ size_t start = sResult.find("CCLK: ");
+ if(start != std::string::npos) {
+ start += sizeof("CCLK: ");
+ std::string sValue = MTS::Text::trim(sResult.substr(start, end - start));
+ sValue = MTS::Text::strip(sValue, '"');
+
+ std::vector<std::string> vParts = MTS::Text::split(sValue, ',');
+ if(vParts.size() != 2) {
+ printWarning("%s| Unable to parse Date from response [%s]", m_sName.c_str(), sResult.c_str());
+ return FAILURE;
+ }
+
+
+ std::vector<std::string> vDateParts = MTS::Text::split(vParts[0], '/');
+ if(vDateParts.size() != 3) {
+ printWarning("%s| Unable to parse Date from response [%s]", m_sName.c_str(), sResult.c_str());
+ return FAILURE;
+ }
+
+ //The Date format is YY/MM/DD -> Change to MM/DD/YY
+ sDate = vDateParts[1] + "/" + vDateParts[2] + "/" + vDateParts[0];
+
+ vParts = MTS::Text::split(vParts[1], '-');
+ if(vParts.size() != 2) {
+ printWarning("%s| Unable to parse Time from response [%s]", m_sName.c_str(), sResult.c_str());
+ return FAILURE;
+ }
+ sTime = vParts[0];
+
+ int32_t iZoneUnits; //the difference, expressed in quarters of an hour, between the local time and GMT
+ if(!MTS::Text::parse(iZoneUnits, MTS::Text::strip(vParts[1], '+'))) {
+ printWarning("%s| Unable to parse Time Zone from response [%s]", m_sName.c_str(), sResult.c_str());
+ return FAILURE;
+ }
+
+ int32_t iZone = iZoneUnits/4; //Divide by 4 to get hours difference
+ int32_t iZonePartial = (iZoneUnits % 4) * 15; //Remainder in minutes
+ std::string sPlusSign = "+";
+ if(iZonePartial < 0) {
+ //Remove negative sign from partial and clear plus sign component
+ iZonePartial *= -1;
+ sPlusSign = "";
+ }
+ std::stringstream ss;
+ ss << sPlusSign << iZone;
+ if(iZonePartial != 0) {
+ ss << ":" << iZonePartial;
+ }
+
+ sTimeZone = ss.str();
+ return SUCCESS;
+
+ } else {
+ printWarning("%s| Unable to get Time from radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ }
+
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getRoaming(bool& bRoaming) {
+ Json::Value jData;
+
+ printTrace("%s| Get Roaming", m_sName.c_str());
+ bRoaming = false;
+
+ REGISTRATION eReg;
+ if(getRegistration(eReg) == SUCCESS) {
+ bRoaming = (eReg == ROAMING);
+ return SUCCESS;
+ }
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getNetwork(std::string& sNetwork) {
+ Json::Value jData;
+
+ printTrace("%s| Get Network", m_sName.c_str());
+ sNetwork = VALUE_NOT_SUPPORTED;
+
+ if(getNetworkStatus(jData) == SUCCESS) {
+ if(jData.isMember(KEY_NETWORK)) {
+ sNetwork = jData[KEY_NETWORK].asString();
+ return SUCCESS;
+ }
+ }
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::getSignalStrength(int32_t& rssi) {
+ printTrace("%s| Get Signal Strength", m_sName.c_str());
+ std::string sCmd("AT+CSQ");
+ std::string sResult = sendCommand(sCmd);
+ if (sResult.find("+CSQ: ") == std::string::npos) {
+ printDebug("%s| Signal Strength command returned unexpected response: [%s]", m_sName.c_str(), sResult.c_str());
+ return FAILURE;
+ }
+
+ size_t start = sResult.find(':');
+ size_t stop = sResult.find(',', start);
+ if(start == std::string::npos || stop == std::string::npos) {
+ printDebug("%s| Signal Strength command returned malformed response: [%s]", m_sName.c_str(), sResult.c_str());
+ return FAILURE;
+ }
+ std::string signal = sResult.substr(start + 2, stop - start - 2);
+
+ sscanf(signal.c_str(), "%d", &rssi);
+ printDebug("%s| Signal Strength: [%d]", m_sName.c_str(), rssi);
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getModemLocation(std::string& sLocation) {
+ printTrace("%s|TelitRadio getModemLocation - not supported", m_sName.c_str());
+ return FAILURE;
+}
+
+TelitRadio::CODE TelitRadio::convertSignalStrengthTodBm(const int32_t& iRssi, int32_t& iDbm) {
+
+ //Telit Conversion
+ if(iRssi < 0 || iRssi == 99) {
+ return FAILURE;
+ }
+
+ if(iRssi == 0) {
+ iDbm = -113;
+ } else if(iRssi == 1) {
+ iDbm = -111;
+ } else if(iRssi <= 30) {
+ //28 steps between 2 and 30
+ //54 dbm between 53 and 109
+ float stepSize = 54.0 / 28.0;
+ iDbm = -109 + (int)(stepSize * (iRssi-2));
+ } else {
+ iDbm = -51;
+ }
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::convertdBmToSignalStrength(const int32_t& iDBm, int32_t& iRssi) {
+ //Telit Conversion
+ if(iDBm <= -113) {
+ iRssi = 0;
+ } else if(iDBm <= -111) {
+ iRssi = 1;
+ } else if(iDBm <= -53) {
+ //54 dbm between -109 and -53
+ //28 steps between 2 and 30
+ float stepSize = 28.0/54.0;
+ iRssi = ((iDBm + 109)*stepSize) + 2;
+ } else {
+ iRssi = 31;
+ }
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::getEcho(bool& bEnabled) {
+ printTrace("%s| Echo Test", m_sName.c_str());
+ std::string sResult = sendCommand("AT");
+ if(sResult.size() == 0) {
+ return NO_RESPONSE;
+ }
+
+ if(sResult.find("AT") != std::string::npos) {
+ bEnabled = true;
+ } else {
+ bEnabled = false;
+ }
+ m_bEchoEnabled = bEnabled;
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::setEcho(bool bEnabled) {
+ CODE eCode = FAILURE;
+ if(bEnabled) {
+ eCode = sendBasicCommand("ATE1");
+ m_bEchoEnabled = (eCode == SUCCESS ) ? true : m_bEchoEnabled;
+ } else {
+ eCode = sendBasicCommand("ATE0");
+ m_bEchoEnabled = (eCode == SUCCESS ) ? false : m_bEchoEnabled;
+ }
+
+ return eCode;
+}
+
+TelitRadio::CODE TelitRadio::getStaticInformation(Json::Value& jData) {
+ printTrace("%s| Get Static Information", m_sName.c_str());
+
+ printTrace("%s| Static Information:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
+
+ return FAILURE;
+}
+
+/* AT#RFSTS - NETWORK STATUS
+
+ (GSM network)
+ #RFSTS:<PLMN>,<ARFCN>,<RSSI>,<LAC>,<RAC>,<TXPWR>,<MM>,<RR>,<NOM>,<CID>,<IMSI>,<NetNameAsc>,<SD>,<ABND>
+ Where:
+ <PLMN> - Country code and operator code(MCC, MNC)
+ <ARFCN> - GSM Assigned Radio Channel
+ <RSSI> - Received Signal Strength Indication
+ <LAC> - Localization Area Code
+ <RAC> - Routing Area Code
+ <TXPWR> - Tx Power
+ <MM> - Mobility Management state
+ <RR> - Radio Resource state
+ <NOM> - Network Operator Mode
+ <CID> - Cell ID
+ <IMSI> - International Mobile Subscriber Identity
+ <NetNameAsc> - Operator name
+ <SD> - Service Domain
+ 0 - No Service
+ 1 - CS only
+ 2 - PS only
+ 3 - CS+PS
+ <ABND> - Active Band
+ 1 - GSM 850
+ 2 - GSM 900
+ 3 - DCS 1800
+ 4 - PCS 1900
+
+
+ (WCDMA network)
+ #RFSTS:
+ <PLMN>,<UARFCN>,<PSC>,<Ec/Io>,<RSCP>, RSSI>,<LAC>,<RAC>,<TXPWR>,<DRX>,<MM>,<RRC>,<NOM>,<BLER>,<CID>,<IMSI>,
+ <NetNameAsc>,<SD>,<nAST>[,<nUARFCN><nPSC>,<nEc/Io>]
+ Where:
+ <PLMN> - Country code and operator code(MCC, MNC)
+ <UARFCN> - UMTS Assigned Radio Channel
+ <PSC> - Active PSC(Primary Synchronization Code)
+ <Ec/Io> - Active Ec/Io(chip energy per total wideband power in dBm)
+ <RSCP> - Active RSCP (Received Signal Code Power in dBm)
+ <RSSI> - Received Signal Strength Indication
+ <LAC> - Localization Area Code
+ <RAC> - Routing Area Code
+ <TXPWR> - Tx Power
+ <DRX> - Discontinuous reception cycle Length (cycle length in ms)
+ <MM> - Mobility Management state
+ <RR> - Radio Resource state
+ <NOM> - Network Operator Mode
+ <BLER> - Block Error Rate (e.g., 005 means 0.5 %)
+ <CID> - Cell ID
+ <IMSI> - International Mobile Station ID
+ <NetNameAsc> - Operator name
+ <SD> - Service Domain (see above)
+ <nAST> - Number of Active Set (Maximum 6)
+ <nUARFCN> UARFCN of n th active set
+ <nPSC> PSC of n th active set
+ <nEc/Io > Ec/Io of n th active Set
+
+ (LTE Network)
+ #RFSTS:
+ <PLMN> -
+ <EARFCN> -
+ <RSRP> -
+ <RSSI> -
+ <RSRQ> -
+ <TAC> -
+ [<TXPWR>] -
+ <DRX> -
+ <MM> -
+ <RRC> -
+ <CID> -
+ <IMSI> -
+ [<NetNameAsc>] -
+ <SD> -
+ <ABND> -
+*/
+TelitRadio::CODE TelitRadio::getNetworkStatus(Json::Value& jData) {
+ int32_t iValue;
+ std::string sValue;
+ const uint32_t GSM_NETWORK_FORMAT = 14;
+ const uint32_t WCDMA_NETWORK_FORMAT = 19;
+ const uint32_t LTE_NETWORK_FORMAT = 16;
+
+ printTrace("%s| Get Network Status", m_sName.c_str());
+
+ //Always get common network stats because this should never fail
+ //This way the basic stats are always returned even if AT#RFSTS fails below
+ getCommonNetworkStats(jData);
+
+ std::string sCmd;
+ std::string sResult;
+ // LE910 radios have a bug where issuing AT#RFSTS with a locked SIM
+ // will cause the radio to stop responding until a radio power cycle
+ // Telit Support Portal Case #5069697
+ // LE910C1-NS is an LE910, so we stop the scan after the 0.
+ if (m_sName.find("LE910") != std::string::npos) {
+ sCmd = "AT+CPIN?";
+ sResult = sendCommand(sCmd);
+ if (sResult.find("+CPIN:") == std::string::npos) {
+ printDebug("%s| AT+CPIN? returned unexpected response: [%s][%s]", m_sName.c_str(), sCmd.c_str(), sResult.c_str());
+ printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
+ return SUCCESS; //return SUCCESS because getCommonNetworkStats() succeeded at top of this function
+ }
+ if (sResult.find("SIM PIN") != std::string::npos) {
+ printError("%s| The SIM is locked and must first be unlocked", m_sName.c_str());
+ printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
+ return SUCCESS; //return SUCCESS because getCommonNetworkStats() succeeded at top of this function
+ }
+ }
+
+ sCmd = "AT#RFSTS";
+ sResult = sendCommand(sCmd, DEFAULT_BAIL_STRINGS, 200);
+ if (sResult.find("#RFSTS:") == std::string::npos) {
+ //On LTE radios without signal, this case will run because AT#RFSTS just returns "OK"
+ printDebug("%s| Network Status command returned unexpected response: [%s][%s]", m_sName.c_str(), sCmd.c_str(), sResult.c_str());
+ printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
+ return SUCCESS; //return SUCCESS because getCommonNetworkStats() succeeded at top of this function
+ }
+
+ size_t start = sResult.find(":") + 1; //Position right after "#RFSTS:"
+ std::vector<std::string> vParts = MTS::Text::split(MTS::Text::trim(sResult.substr(start)), ",");
+
+ if (vParts.size() < 3) {
+ printDebug("%s| Network Status command reponse is an unknown format: [%s][%s]", m_sName.c_str(), sCmd.c_str(), sResult.c_str());
+ printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
+ return SUCCESS; //return SUCCESS because getCommonNetworkStats() succeeded at top of this function
+ } else {
+ //Country Code and Operator Code
+ std::vector<std::string> vPLMN = MTS::Text::split(vParts[0], ' ');
+ if(vPLMN.size() == 2) {
+ jData[KEY_MCC] = MTS::Text::strip(vPLMN[0], '"');
+ jData[KEY_MNC] = MTS::Text::strip(vPLMN[1], '"');
+ }
+
+ jData[KEY_CHANNEL] = vParts[1];
+ }
+
+ if (vParts.size() == GSM_NETWORK_FORMAT ) {
+ //Parse as GSM Network Format
+ jData[KEY_RSSIDBM] = vParts[2];
+ jData[KEY_LAC] = vParts[3];
+ jData[KEY_RAC] = vParts[4];
+ jData[KEY_TXPWR] = vParts[5];
+ jData[KEY_MM] = vParts[6];
+ jData[KEY_RR] = vParts[7];
+ jData[KEY_NOM] = vParts[8];
+ jData[KEY_CID] = vParts[9];
+ jData[KEY_IMSI] = MTS::Text::strip(vParts[10], '"');
+ jData[KEY_NETWORK] = MTS::Text::strip(vParts[11], '"');
+ if(MTS::Text::parse(iValue, vParts[12]) && convertServiceDomainToString((SERVICEDOMAIN)iValue, sValue) == SUCCESS) {
+ jData[KEY_SD] = sValue;
+ }
+ if(MTS::Text::parse(iValue, vParts[13]) && convertActiveBandToString((ACTIVEBAND)iValue, sValue) == SUCCESS) {
+ jData[KEY_ABND] = sValue;
+ }
+ // IN003567 ME910C1 radios have some odd behavior with regards to WCDMA. The ordering of the fields from #RFSTS are
+ // the same as LTE up to the 16th field (for ME901C1-WW anyway). Drop into LTE parsing for ME910C1-WW.
+ } else if((vParts.size() >= WCDMA_NETWORK_FORMAT) && (m_sName.find("ME910C1-WW") == std::string::npos)) {
+ Json::Value jDebug;
+
+ //Parse as WCDMA Network Format
+
+ jDebug[KEY_PSC] = vParts[2];
+ jDebug[KEY_ECIO] = vParts[3];
+ jDebug[KEY_RSCP] = vParts[4];
+
+ jData[KEY_RSSIDBM] = vParts[5];
+ jData[KEY_LAC] = vParts[6];
+ jData[KEY_RAC] = vParts[7];
+
+ jDebug[KEY_TXPWR] = vParts[8];
+ jDebug[KEY_DRX] = vParts[9];
+ jDebug[KEY_MM] = vParts[10];
+ jDebug[KEY_RR] = vParts[11];
+ jDebug[KEY_NOM] = vParts[12];
+
+ if(vParts[13].size() != 0) {
+ jDebug[KEY_BLER] = vParts[13];
+ } else {
+ jDebug[KEY_BLER] = "000";
+ }
+
+ jData[KEY_CID] = vParts[14];
+ jData[KEY_IMSI] = MTS::Text::strip(vParts[15], '"');
+ jData[KEY_NETWORK] = MTS::Text::strip(vParts[16], '"');
+
+ // Get the radio band given the channel (UARFCN)
+ RadioBandMap radioBandMap(vParts[1], TelitRadio::VALUE_TYPE_CDMA);
+ jData[KEY_ABND] = radioBandMap.getRadioBandName();
+
+ if(MTS::Text::parse(iValue, vParts[17]) && convertServiceDomainToString((SERVICEDOMAIN)iValue, sValue) == SUCCESS) {
+ jDebug[KEY_SD] = sValue;
+ }
+ //Ignoring Active Set Values
+ // <nAST> - Number of Active Set (Maximum 6)
+ // <nUARFCN> - UARFCN of n th active set
+ // <nPSC> - PSC of n th active set
+ // <nEc/Io > - Ec/Io of n th active Set
+
+ jData[KEY_DEBUG] = jDebug;
+ } else if(vParts.size() >= LTE_NETWORK_FORMAT) {
+ Json::Value jDebug;
+
+ //Parse as LTE Network Format
+
+ //
+ // MD: It is noticed that LTE Network format may vary depending on the firmware version:
+ //
+ // <PLMN>,<EARFCN>,<RSRP>,<RSSI>,<RSRQ>,<TAC>,[<TXPWR>],<DRX>,<MM>,<RRC>,<CID>,<IMSI>,[<NetNameAsc>],<SD>,<ABND>,<SINR>
+ // Ex 1: #RFSTS: "310 260",2300,-98,-63,-14,AA06,,128,19,0,0501D02,"310260754792598","T-Mobile",3,4,197
+ //
+ // <PLMN>,<EARFCN>,<RSRP>,<RSSI>,<RSRQ>,<TAC>,<RAC>,[<TXPWR>],<DRX>,<MM>,<RRC>,<CID>,<IMSI>,[<NetNameAsc>],<SD>,<ABND>
+ // Ex 2: #RFSTS:"310 410",5780,-105,-73,-14,4603,255,,128,19,0,0000098,"310410536498694","AT&T",3,17
+ // #RFSTS:"311 480",1150,-96,-66,-9.0,bf35,FF,0,0,19,1,"2ED1B0E","311480148817753","Verizon",2,2,720000,10800
+ // #RFSTS:"310 410",2175,-120,-89,-17.5,4612,FF,0,0,19,1,"4E5E916","310410807276607","AT&T",3,4
+ //
+ // Additional <RAC> parameter in the second example shifts the rest of the parameters. Here we are trying to figure out
+ // which format is currently produced based on <NetNameAsc> field position which always has double quotation marks.
+ //
+ if (vParts[13].find("\"") != std::string::npos) {
+ // parse the RAC and then remove it from the vector
+ jData[KEY_RAC] = vParts[6];
+ vParts.erase(vParts.begin() + 6);
+ }
+
+ jDebug["rsrp"] = vParts[2];
+ jDebug[KEY_RSSIDBM] = vParts[3];
+ jDebug["rsrq"] = vParts[4];
+
+ jData["tac"] = vParts[5];
+ jDebug[KEY_TXPWR] = vParts[6];
+ jData[KEY_DRX] = vParts[7];
+ jDebug[KEY_MM] = vParts[8];
+ jDebug["rrc"] = vParts[9];
+ jData[KEY_CID] = MTS::Text::strip(vParts[10], '"');
+ jData[KEY_IMSI] = MTS::Text::strip(vParts[11], '"');
+ jData[KEY_NETWORK] = MTS::Text::strip(vParts[12], '"');
+
+ // Get the radio band given the channel (EARFCN)
+ RadioBandMap radioBandMap(vParts[1], TelitRadio::VALUE_TYPE_LTE);
+ jData[KEY_ABND] = radioBandMap.getRadioBandName();
+
+ jData[KEY_LAC] = queryLteLac();
+
+ if(MTS::Text::parse(iValue, vParts[13]) && convertServiceDomainToString((SERVICEDOMAIN)iValue, sValue) == SUCCESS) {
+ jDebug[KEY_SD] = sValue;
+ }
+
+ jData[KEY_DEBUG] = jDebug;
+ }
+
+ printTrace("%s| Network Status:\n%s\n", m_sName.c_str(), jData.toStyledString().c_str());
+ return SUCCESS;
+}
+
+// Get the LAC for the LTE radio that's not in the #RFSTS response
+std::string TelitRadio::queryLteLac() {
+ std::string CGREGstring;
+ std::string originalCGREG;
+ std::string result;
+
+ CGREGstring = queryCGREGstring();
+ if (CGREGstring == RSP_ERROR) {
+ originalCGREG = "0";
+ } else {
+ originalCGREG = CGREGstring.at(CGREGstring.find(",") - 1); //Position right before first comma ("+CGREG: 0,1")
+ }
+
+ // Temporarily set CGREG=2 to get more info
+ setCGREG("2");
+
+ CGREGstring = queryCGREGstring();
+ if (CGREGstring == RSP_ERROR) {
+ result = TelitRadio::VALUE_UNKNOWN;
+ } else {
+ size_t start = CGREGstring.find(":") + 1; //Position right after "#RFSTS:"
+ std::vector<std::string> vParts = MTS::Text::split(MTS::Text::trim(CGREGstring.substr(start)), ",");
+ if(vParts.size() < 3) {
+ result = TelitRadio::VALUE_UNAVAILABLE;
+ } else {
+ result = MTS::Text::strip(vParts[2], '"');
+ }
+ }
+
+ setCGREG(originalCGREG);
+
+ return result;
+}
+
+void TelitRadio::setCGREG(std::string value) {
+ std::string sCmd("AT+CGREG=" + value);
+ std::string cmdResult(sendCommand(sCmd));
+ if (cmdResult.find("OK") == std::string::npos) {
+ printDebug("%s| AT#CGREG=%s returned unexpected response: [%s][%s]", m_sName.c_str(), value.c_str(), sCmd.c_str(), cmdResult.c_str());
+ }
+}
+
+std::string TelitRadio::queryCGREGstring() {
+ std::string sCmd("AT+CGREG?");
+ std::string cmdResult(sendCommand(sCmd));
+ if (cmdResult.find("+CGREG:") == std::string::npos) {
+ printDebug("%s| AT#CGREG? returned unexpected response: [%s][%s]", m_sName.c_str(), sCmd.c_str(), cmdResult.c_str());
+ return RSP_ERROR;
+ }
+ return cmdResult;
+}
+
+void TelitRadio::getCommonNetworkStats(Json::Value& jData) {
+
+ bool bRoaming = false;
+ if(getRoaming(bRoaming) == SUCCESS) {
+ jData[KEY_ROAMING] = bRoaming;
+ }
+
+ int32_t iRssi;
+ if(getSignalStrength(iRssi) == SUCCESS) {
+ jData[KEY_RSSI] = iRssi;
+ int32_t dBm;
+ if(!jData.isMember(KEY_RSSIDBM) && convertSignalStrengthTodBm(iRssi, dBm) == SUCCESS) {
+ //Add RSSI in dBm format
+ jData[KEY_RSSIDBM] = MTS::Text::format(dBm);
+ }
+ }
+
+ std::string sService;
+ if(getService(sService) == SUCCESS) {
+ jData[KEY_SERVICE] = sService;
+ }
+ std::string sDate, sTime, sTimeZone;
+ if(getTime(sDate, sTime, sTimeZone) == SUCCESS) {
+ jData[KEY_DATETIME] = sDate + " " + sTime + " GMT" + sTimeZone;
+ }
+
+ std::string sNetworkReg;
+ TelitRadio::REGISTRATION eReg;
+ if (getRegistration(eReg) == SUCCESS) {
+ if (convertRegistrationToString(eReg, sNetworkReg) == SUCCESS) {
+ jData[TelitRadio::KEY_NETWORK_REG] = sNetworkReg;
+ }
+ }
+}
+
+void TelitRadio::initMipProfile(Json::Value& jData) {
+ jData[KEY_MIP_ID] = 0;
+ jData[KEY_MIP_ENABLED] = false;
+ jData[KEY_MIP_NAI] = VALUE_UNKNOWN;
+ jData[KEY_MIP_HOMEADDRESS] = VALUE_UNKNOWN;
+ jData[KEY_MIP_PRIMARYHA] = VALUE_UNKNOWN;
+ jData[KEY_MIP_SECONDARYHA] = VALUE_UNKNOWN;
+ jData[KEY_MIP_MNAAASPI] = VALUE_UNKNOWN;
+ jData[KEY_MIP_MNHASPI] = VALUE_UNKNOWN;
+ jData[KEY_MIP_MNAAASS] = false;
+ jData[KEY_MIP_MNHASS] = false;
+}
+
+TelitRadio::CODE TelitRadio::getRegistration(REGISTRATION& eRegistration) {
+ std::string sCmd;
+ std::string sResp;
+
+ // LE910C1-NS is an LE910, so we stop the scan after the 0.
+ if (m_sName.find("LE910") != std::string::npos) {
+ // use AT+CGREG instead for LE910 models
+ sCmd = "AT+CGREG?";
+ sResp = "+CGREG: ";
+ }
+ else {
+ sCmd = "AT+CREG?";
+ sResp = "+CREG: ";
+ }
+
+ std::string sResult = sendCommand(sCmd, DEFAULT_BAIL_STRINGS, 5000);
+ if (sResult.find(sResp) == std::string::npos) {
+ if(sResult.size() == 0) {
+ printDebug("%s| Registration command returned no response: [%s]", m_sName.c_str());
+ return NO_RESPONSE;
+ }
+ printDebug("%s| Registration command returned unexpected response: [%s]", m_sName.c_str(), sResult.c_str());
+ return FAILURE;
+ }
+
+ size_t start = sResult.find(',');
+ size_t stop = sResult.find(' ', start);
+ std::string sRegStat = sResult.substr(start + 1, stop - start - 1);
+ int32_t value;
+ sscanf(sRegStat.c_str(), "%d", &value);
+ eRegistration = (REGISTRATION)value;
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::convertRegistrationToString(REGISTRATION eRegistration, std::string& sRegistration) {
+
+ CODE eCode = FAILURE;
+ switch (eRegistration) {
+ case NOT_REGISTERED: sRegistration = VALUE_NOT_REGISTERED; eCode = SUCCESS; break;
+ case REGISTERED: sRegistration = VALUE_REGISTERED; eCode = SUCCESS; break;
+ case SEARCHING: sRegistration = VALUE_SEARCHING; eCode = SUCCESS; break;
+ case DENIED: sRegistration = VALUE_DENIED; eCode = SUCCESS; break;
+ case UNKNOWN: sRegistration = VALUE_UNKNOWN; eCode = SUCCESS; break;
+ case ROAMING: sRegistration = VALUE_ROAMING; eCode = SUCCESS; break;
+ }
+ return eCode;
+}
+
+TelitRadio::CODE TelitRadio::validateMsl(const Json::Value& jArgs) {
+ printTrace("%s| Validate MSL", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMdn(const Json::Value& jArgs) {
+ printTrace("%s| Set MDN", m_sName.c_str());
+
+ if(!jArgs["mdn"].isString()) {
+ return INVALID_ARGS;
+ }
+
+ std::string sCmd("AT#SNUM=1,\"");
+ sCmd += jArgs["mdn"].asString() + "\"";
+
+ std::string sResult = sendCommand(sCmd, DEFAULT_BAIL_STRINGS, 1000);
+ size_t end = sResult.find(RSP_OK);
+ if (end == std::string::npos) {
+ printWarning("%s| Unable to set MDN for radio using command [%s]", m_sName.c_str(), sCmd.c_str());
+ return FAILURE;
+ }
+
+ return SUCCESS;
+}
+
+TelitRadio::CODE TelitRadio::setMsid(const Json::Value& jArgs) {
+ printTrace("%s| Set MSID", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::getMipProfile(Json::Value& jMipProfile) {
+ printTrace("%s| Get MIP Active Profile", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipActiveProfile(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP Active Profile", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipNai(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP NAI", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipHomeIp(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP Home IP", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipPrimaryHa(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP Primary HA", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipSecondaryHa(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP Secondary HA", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipMnAaaSpi(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP MN-AAA SPI", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipMnHaSpi(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP MN-HA SPI", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipRevTun(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP Rev Tun", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipMnAaaSs(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP MN-AAA SS", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setMipMnHaSs(const Json::Value& jArgs) {
+ printTrace("%s| Set MIP MN-HA SS", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::updateDc(const Json::Value& jArgs, UpdateCb& stepCb) {
+ printTrace("%s| Update Device Configuration", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::updatePrl(const Json::Value& jArgs, UpdateCb& stepCb) {
+ printTrace("%s| Update Preferred Roaming List", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::updateFumo(const Json::Value& jArgs, UpdateCb& stepCb) {
+ printTrace("%s| Update Firmware Update Management Object", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::resetHfa(const Json::Value& jArgs, UpdateCb& stepCb) {
+ printTrace("%s| HFA Reset", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::activate(const Json::Value& jArgs, UpdateCb& stepCb) {
+ printTrace("%s| Activation", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::setActiveFirmware(const Json::Value& jArgs) {
+ printTrace("%s| Set Active Firmware Image Number: not applicable", m_sName.c_str());
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::getActiveFirmware(std::string& sFwId) {
+ printTrace("%s| Get Active Firmware Image Number: not applicable", m_sName.c_str());
+ sFwId = VALUE_NOT_SUPPORTED;
+
+ return NOT_APPLICABLE;
+}
+
+TelitRadio::CODE TelitRadio::sendBasicCommand(const std::string& sCmd, int32_t iTimeoutMillis, const char& ESC) {
+ std::string response = sendCommand(sCmd, DEFAULT_BAIL_STRINGS, iTimeoutMillis, ESC);
+ if (response.size() == 0) {
+ return NO_RESPONSE;
+ } else if (response.find(RSP_OK) != std::string::npos) {
+ return SUCCESS;
+ } else if (response.find(RSP_ERROR) != std::string::npos) {
+ return ERROR;
+ } else {
+ return FAILURE;
+ }
+}
+
+std::string TelitRadio::sendCommand(const std::string& sCmd, const std::vector<std::string>& vBail, int32_t timeoutMillis, const char& ESC) {
+ return sendCommand(m_apIo, sCmd, vBail, timeoutMillis, ESC);
+}
+
+std::string TelitRadio::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& iterationData, 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 TelitRadio::sendCommand(const std::string& sCmd, MTS::IO::TelitRadio::IsNeedMoreData& isNeedMoreData, int32_t timeoutMillis, const char& ESC) {
+ return sendCommand(m_apIo, sCmd, isNeedMoreData, timeoutMillis, ESC);
+}
+
+std::string TelitRadio::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;
+}
+
+TelitRadio::CODE TelitRadio::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 TelitRadio::extractModelFromResult(const std::string& sResult) {
+ std::string sModel(TelitRadio::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-NA") != std::string::npos) {
+ sModel = "ME910C1-NA";
+ } else if(sResult.find("ME910C1-NV") != std::string::npos) {
+ sModel = "ME910C1-NV";
+ } 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-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";
+ }
+ return sModel;
+}
+
+std::string TelitRadio::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";
+ }
+}
+
+bool TelitRadio::splitAndAssign(const std::string& sLine, const std::string& sKey, Json::Value& jParent, const std::string& sJsonKey, Json::ValueType eType) {
+
+ std::vector<std::string> vParts = MTS::Text::split(sLine, ":", 2);
+
+ if(vParts.size() == 2 && vParts[0] == sKey) {
+ if(eType == Json::ValueType::stringValue) {
+ jParent[sJsonKey] = MTS::Text::trim(vParts[1]);
+ } else if (eType == Json::ValueType::intValue || eType == Json::ValueType::uintValue) {
+ //TODO:
+ printWarning("%s| Unable to parse requested type from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
+ return false;
+ } else if(eType == Json::ValueType::realValue) {
+ //TODO:
+ printWarning("%s| Unable to parse requested type from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
+ return false;
+ } else if(eType == Json::ValueType::booleanValue) {
+ //TODO:
+ printWarning("%s| Unable to parse requested type from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
+ return false;
+ } else {
+ printWarning("%s| Unable to parse requested type from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
+ return false;
+ }
+ } else {
+ printWarning("%s| Unable to parse %s from line [%s]", getName().c_str(), sKey.c_str(), sLine.c_str());
+ return false;
+ }
+
+ return true;
+}
+
+bool TelitRadio::getCarrierFromFirmware(const std::string& sFirmware, std::string& sCarrier) {
+ // Telit Radios
+ // H.ab.zyx => 3 Main Components
+ // "H" = Hardware -> 15 = DE910 family, 18 = CE910 family, 12 = HE910 family
+ // "a" = Hardware version
+ // "b" = Software Major Version
+ // "z" = is the product type, i.e. DUAL or SC
+ // "y" = is the carrier variant
+ // "x" = is the firmware version
+ // Telit will do their best to keep the carrier variant as "0" for Sprint, "1" for Aeris, "2" for Verizon, and "3" for U.S. Cellular.
+
+ const uint32_t CARRIER_INDEX = 1; //y in [zyx]
+
+ bool bResult = false;
+ std::vector<std::string> vParts = MTS::Text::split(sFirmware, '.');
+
+ if(vParts.size() == 3) {
+ //CDMA firmware version notation
+ if(vParts[0] == "15" || vParts[0] == "18") {
+ //DE910 or CE910 -> Good good
+ std::string sID = vParts[2];
+ if(sID.size() == 3) {
+ char cId = sID[CARRIER_INDEX];
+
+ //Good good
+ if(cId == '0') {
+ sCarrier = VALUE_CARRIER_SPRINT;
+ bResult = true;
+ } else
+ if(cId == '1') {
+ sCarrier = VALUE_CARRIER_AERIS;
+ bResult = true;
+ } else
+ if(cId == '2') {
+ sCarrier = VALUE_CARRIER_VERIZON;
+ bResult = true;
+ } else
+ if(cId == '3') {
+ sCarrier = VALUE_CARRIER_USCELLULAR;
+ bResult = true;
+ }
+ }
+ }
+ }
+
+ return bResult;
+}
+
+bool TelitRadio::getHardwareVersionFromFirmware(const std::string& sFirmware, std::string& sHardware) {
+ // Telit Radios
+ // H.ab.zyx => 3 Main Components
+ // "H" = Hardware -> 15 = DE910 family, 18 = CE910 family, 12 = HE910 family
+ // "a" = Hardware version
+ // "b" = Software Major Version
+ // "z" = is the product type, i.e. DUAL or SC
+ // "y" = is the carrier variant
+ // "x" = is the firmware version
+ // Telit will do their best to keep the carrier variant as "0" for Sprint, "1" for Aeris, and "2" for Verizon.
+
+ const uint32_t HARDWARE_INDEX = 0; //a in [ab]
+
+ bool bResult = false;
+ std::vector<std::string> vParts = MTS::Text::split(sFirmware, '.');
+
+ if(vParts.size() == 3) {
+ //GSM Hardware Version
+ if(!(vParts[0] == "15" || vParts[0] == "18")) {
+ //Not DE910 or CE910 -> Good good
+ std::string sVersion = vParts[1];
+ if(sVersion.size() == 2) {
+ sHardware = "1.";
+ sHardware += sVersion[HARDWARE_INDEX];
+ bResult = true;
+ }
+ }
+ }
+
+ return bResult;
+
+}
+
+const char *TelitRadio::RadioBandMap::getLTEBand(const int32_t channel)
+{
+ for (unsigned int ii = 0; ii < NUM_LTE_BANDS; ii++)
+ {
+ if (EULTRAband[ii].low <= channel && EULTRAband[ii].high >= channel)
+ {
+ return EULTRAband[ii].name;
+ }
+ }
+ return VALUE_UNKNOWN.c_str();
+}
+
+const char *TelitRadio::RadioBandMap::getCDMABand(const int channel)
+{
+ for (unsigned int ii = 0; ii < NUM_WCDMA_BANDS; ii++)
+ {
+ if (WCDMAband[ii].low <= channel && WCDMAband[ii].high >= channel)
+ {
+ return WCDMAband[ii].name;
+ }
+ }
+ return VALUE_UNKNOWN.c_str();
+}
+
+const char *TelitRadio::RadioBandMap::getGSMBand(const int channel)
+{
+ for (unsigned int ii = 0; ii < NUM_GSM_BANDS; ii++)
+ {
+ if (GSMband[ii].low <= channel && GSMband[ii].high >= channel)
+ {
+ return GSMband[ii].name;
+ }
+ }
+ return VALUE_UNKNOWN.c_str();
+}
+
+const char *TelitRadio::RadioBandMap::getRadioBandName()
+{
+ const char *band = TelitRadio::VALUE_UNKNOWN.c_str();
+
+ if (m_sRadioType == TelitRadio::VALUE_TYPE_LTE)
+ {
+ band = getLTEBand(m_iChannel);
+ }
+ else if (m_sRadioType == TelitRadio::VALUE_TYPE_CDMA)
+ {
+ band = getCDMABand(m_iChannel);
+ }
+ else if (m_sRadioType == TelitRadio::VALUE_TYPE_GSM)
+ {
+ band = getGSMBand(m_iChannel);
+ }
+
+ return band;
+}
+
+const char *TelitRadio::RadioBandMap::getRadioBandName(const std::string &channel, const std::string &radioType)
+{
+ const char *band = TelitRadio::VALUE_UNKNOWN.c_str();
+ int32_t chan = strtol(channel.c_str(), NULL, 10);
+ if (radioType == TelitRadio::VALUE_TYPE_LTE)
+ {
+ band = getLTEBand(chan);
+ }
+ else if (radioType == TelitRadio::VALUE_TYPE_CDMA)
+ {
+ band = getCDMABand(chan);
+ }
+ else if (radioType == TelitRadio::VALUE_TYPE_GSM)
+ {
+ band = getGSMBand(chan);
+ }
+
+ return band;
+}