#ifndef MTS_IO_ICELLULARRADIO_H #define MTS_IO_ICELLULARRADIO_H #include #include #include #include #include #include #define EXPORT __attribute__((visibility("default"))) namespace MTS { namespace IO { class EXPORT ICellularRadio { public: typedef std::function IsNeedMoreData; typedef std::function UpdateCb; //Registration Values enum REGISTRATION : uint8_t { NOT_REGISTERED = 0, REGISTERED = 1, SEARCHING=2, DENIED=3, UNKNOWN=4, ROAMING=5 }; enum SERVICEDOMAIN : uint8_t { NO_SERVICE = 0, CS_ONLY = 1, PS_ONLY = 2, CSPS = 3 }; enum ACTIVEBAND : uint8_t { GSM_850 = 0, GSM_900 = 1, DCS_1800 = 2, PCS_1900 = 3 }; enum CODE : uint8_t { SUCCESS = 0, ERROR, FAILURE, NO_RESPONSE, NOT_APPLICABLE, INVALID_ARGS }; enum SIMSTATUS : uint8_t { READY = 0, LOCKED, BLOCKED, NOT_INSERTED }; enum CELLULAR_MODES : uint8_t { CELLULAR_MODE_NA = 0, // NOT AVAILABLE CELLULAR_MODE_2G = 1 << 0, // GSM CELLULAR_MODE_3G = 1 << 1, // WCDMA CELLULAR_MODE_4G = 1 << 2, // LTE CELLULAR_MODE_5G = 1 << 3 // 5G }; enum UE_MODES_OF_OPERATION : uint8_t { UNKNOWN_MODE = 0, // current mode of operation is not available PS_MODE1, // only EPS (LTE) services are allowed, the usage is "voice centric" PS_MODE2, // only EPS (LTE) services are allowed, the usage is "data centric" CS_PS_MODE1, // both EPS and non-EPS services are allowed, the usage is "voice centric" CS_PS_MODE2, // both EPS and non-EPS services are allowed, the usage is "data centric" CS_MODE1, // only non-EPS services are allowed, the usage is "voice centric" CS_MODE2 // only non-EPS services are allowed, the usage is "data centric" }; enum PDP_CONTEXT_AUTH_TYPE : uint8_t { NONE = 0, PAP, CHAP, PAP_CHAP }; static CODE convertModelToType(const std::string& sModel, std::string& sType); static CODE convertModelToMtsShortCode(const std::string& sModel, std::string& sCode, ICellularRadio *radioObj = NULL); static CODE convertServiceDomainToString(SERVICEDOMAIN eSd, std::string& sSd); static CODE convertActiveBandToString(ACTIVEBAND eBand, std::string& sBand); static CODE convertUeModeToString(ICellularRadio::UE_MODES_OF_OPERATION mode, std::string& sMode); static CODE convertStringToUeMode(const std::string& sMode, ICellularRadio::UE_MODES_OF_OPERATION& mode); static std::string sendCommand(MTS::AutoPtr& apIo, const std::string& sCmd, IsNeedMoreData& isNeedMoreData, int32_t timeoutMillis = 100, const char& ESC = CR); static std::string sendCommand(MTS::AutoPtr& apIo, const std::string& sCmd, const std::vector& vBail = DEFAULT_BAIL_STRINGS, int32_t timeoutMillis = 100, const char& ESC = CR); //! Wait for response from the radio without sending any data to it static std::string waitResponse(MTS::AutoPtr& apIo, IsNeedMoreData& isNeedMoreData, int32_t timeoutMillis = 100); static std::string waitResponse(MTS::AutoPtr& apIo, const std::vector& vBail = DEFAULT_BAIL_STRINGS, int32_t timeoutMillis = 100); static CODE test(MTS::AutoPtr& apIo, uint32_t timeoutSeconds = 30); static std::string extractModelFromResult(const std::string& sResult); static std::string getCodeAsString(CODE code); static const char *DEFAULT_RADIO_PORT; static const char *DEFAULT_RADIO_DIR; static const char *VALUE_UNKNOWN; static const char *VALUE_UNAVAILABLE; static const char *VALUE_NOT_SUPPORTED; //Special Payload Characters static const char ETX; //Ends socket connection static const char DLE; //Escapes ETX and DLE within Payload static const char CR; static const char NL; static const char CTRL_Z; static const char *RSP_OK; static const char *RSP_ERROR; static const char *RSP_CONNECT; static const char *VALUE_NOT_REGISTERED; static const char *VALUE_REGISTERED; static const char *VALUE_SEARCHING; static const char *VALUE_DENIED; static const char *VALUE_ROAMING; //Static Data static const char *KEY_TYPE; //!< GSM or CDMA static const char *KEY_CODE; //!< Product Code : H5, H6, C2, EV3, G3 static const char *KEY_MODEL; //!< Model : HE910, CE910, DE910, GE910 static const char *KEY_MANUFACTURER; //!< Manufacturer: Telit static const char *KEY_HARDWARE; //!< Radio Hardware Version static const char *KEY_FIRMWARE; //!< Radio Firmware Version static const char *KEY_FIRMWARE_BUILD;//!< Radio Firmware Build static const char *KEY_VENDOR_FIRMWARE; //!< Radio Vendor Firmware Version static const char *KEY_IMEI; //!< International Mobile Station Equipment Identity static const char *KEY_MEID; //!< Mobile Equipment Identifier static const char *KEY_IMSI; //!< International Mobile Subscriber Identity static const char *KEY_MSID; //!< Mobil Station ID (MSID) aka MIN aka MSIN aka Last few digits of IMSI static const char *KEY_MDN; //!< Mobile Directory Number : Actual phone number dialed to reach radio static const char *KEY_CARRIER; //!< Cellular Service Provider (Home Network) static const char *KEY_ICCID; //!< Integrated Circuit Card Identifier static const char *KEY_MSL; //!< Master Subsidy Lock static const char *KEY_SUPPORTED_CELL_MODES; //!< Comma-separated list of all supported cellular modes (2g,3g,4g) static const char *KEY_SIM_CARRIER_CODE; //!< Unique carrier identifier based on the SIM card information. static const char *KEY_SIM_MCC; //!< MCC of the home network from the SIM. static const char *KEY_SIM_MNC; //!< MNC of the home network from the SIM. static const char *KEY_VOICE_ENABLED; //!< Enable/Disable support of voice calls static const char *KEY_SMS_ONLY; //!< Enable/Disable "SMS only" registration flag //Network Status Data static const char *KEY_ROAMING; //!< Indicates whether or not using Home Network static const char *KEY_DATETIME; //!< Date and Time from tower static const char *KEY_SERVICE; //!< Service Connection Type [GPRS, EGPRS, WCDMA, HSDPA, 1xRTT, EVDO] static const char *KEY_CELL_MODE; //!< Specifies the cellular mode that is currently used by the modem [2g, 3g, 4g] static const char *KEY_NETWORK; //!< Cellular Service Provider static const char *KEY_NETWORK_REG; //!< Network Registration static const char *KEY_CID; //!< Cellular ID (Tower) in HEX static const char *KEY_LAC; //!< Location Area Code in HEX static const char *KEY_RAC; //!< Routing Area Code in HEX static const char *KEY_RSSI; //!< Received Signal Strength Indication static const char *KEY_RSSIDBM; //!< Received Signal Strength Indication in dBm static const char *KEY_MCC; //!< Mobile Country Code static const char *KEY_MNC; //!< Mobile Network (Operator) Code static const char *KEY_CHANNEL; //!< ARFCN or UARFCN Assigned Radio Channel static const char *KEY_TXPWR; //!< Transmit Power static const char *KEY_PSC; //!< Active Primary Synchronization Code (PSC) static const char *KEY_ECIO; //!< Active Ec/Io (chip energy per total wideband power in dBm) static const char *KEY_RSCP; //!< Active RSCP (Received Signal Code Power in dBm) static const char *KEY_DRX; //!< Discontinuous reception cycle length (ms) static const char *KEY_MM; //!< Mobility Management State static const char *KEY_RR; //!< Radio Resource State static const char *KEY_NOM; //!< Network Operator Mode static const char *KEY_ABND; //!< Active Band static const char *KEY_BLER; //!< Block Error Rate (percentage) static const char *KEY_SD; //!< Service Domain static const char *KEY_DEBUG; //!< Debug Information static const char *KEY_MIP; //!< Mobile IP Information static const char *KEY_MIP_ID; //!< MIP Profile ID static const char *KEY_MIP_ENABLED; //!< MIP Profile Enabled/Disabled static const char *KEY_MIP_NAI; //!< Network Access Identifier static const char *KEY_MIP_HOMEADDRESS; //!< Home Address static const char *KEY_MIP_PRIMARYHA; //!< Primary Home Agent static const char *KEY_MIP_SECONDARYHA; //!< Secondary Home Agent static const char *KEY_MIP_MNAAASPI; //!< Mobile Node Authentication, Authorization, and Accounting Server Security Parameter Index static const char *KEY_MIP_MNHASPI; //!< Mobile Node Home Agent Security Server Parameter Index static const char *KEY_MIP_REVTUN; //!< Reverse Tunneling Enabled static const char *KEY_MIP_MNAAASS; //!< Mobile Node Authentication, Authorization, and Accounting Server Shared Secret static const char *KEY_MIP_MNHASS; //!< Mobile Node Home Agent Shared Secret //SIM Status Summary data static const char *KEY_IS_SIM_INSERTED; //!< SIM card insertion indicator. True when a SIM card is inserted static const char *KEY_IS_SIM_LOCKED; //!< SIM card lock status indicator. True when a SIM card is locked by PIN / PUK / other code static const char *KEY_SIM_LOCK_STATUS; //!< SIM card lock status string. Either "READY", "SIM PIN", "SIM PUK" or other state static const char *KEY_ATTEMPTS_PIN; //!< The number of attempts left to unlock the SIM card using PIN code static const char *KEY_ATTEMPTS_PUK; //!< The number of attempts left to unlock the SIM card using PUK code //PDP Context static const char *KEY_PDP_CONTEXT_ID; static const char *KEY_PDP_CONTEXT_APN; static const char *KEY_PDP_CONTEXT_IPMODE; static const char *KEY_PDP_CONTEXT_AUTH_TYPE; static const char *KEY_PDP_CONTEXT_AUTH_USERNAME; static const char *KEY_PDP_CONTEXT_AUTH_PASSWORD; static const char *VALUE_PDP_CONTEXT_IP_MODE_IP; static const char *VALUE_PDP_CONTEXT_IP_MODE_IPV6; static const char *VALUE_PDP_CONTEXT_IP_MODE_IPV4V6; static const char *VALUE_PDP_CONTEXT_AUTH_TYPE_NONE; static const char *VALUE_PDP_CONTEXT_AUTH_TYPE_PAP; static const char *VALUE_PDP_CONTEXT_AUTH_TYPE_CHAP; static const char *VALUE_PDP_CONTEXT_AUTH_TYPE_PAP_CHAP; //Values - Type static const char *VALUE_TYPE_LTE; static const char *VALUE_TYPE_GSM; static const char *VALUE_TYPE_CDMA; //Values - Carrier static const char *VALUE_CARRIER_VERIZON; static const char *VALUE_CARRIER_AERIS; static const char *VALUE_CARRIER_SPRINT; static const char *VALUE_CARRIER_USCELLULAR; static const char *VALUE_CARRIER_ATT; static const char *VALUE_CARRIER_TMOBILE; static const char *VALUE_SD_NO_SERVICE; static const char *VALUE_SD_CS_ONLY; static const char *VALUE_SD_PS_ONLY; static const char *VALUE_SD_CSPS; static const char *VALUE_ABND_GSM_850; static const char *VALUE_ABND_GSM_900; static const char *VALUE_ABND_DCS_1800; static const char *VALUE_ABND_PCS_1900; //Values - Carrier code; abstraction over PLMN IDs, IINs and other identifiers static const char *VALUE_CARRIER_CODE_VERIZON; static const char *VALUE_CARRIER_CODE_ATT; static const std::vector DEFAULT_BAIL_STRINGS; virtual ~ICellularRadio() = 0; virtual bool initialize(uint32_t iTimeoutMillis = 5000) = 0; virtual bool resetRadio(uint32_t iTimeoutMillis = 5000) = 0; virtual bool resetConnection(uint32_t iTimeoutMillis = 5000) = 0; virtual void shutdown() = 0; virtual const std::string& getName() const = 0; virtual CODE getModel(std::string& sModel) = 0; virtual CODE getFirmware(std::string& sFirmware) = 0; virtual CODE getFirmwareBuild(std::string& sFirmwareBuild) = 0; virtual CODE getVendorFirmware(std::string& sVendorFirmware) = 0; virtual CODE getHardware(std::string& sHardware) = 0; virtual CODE getManufacturer(std::string& sManufacturer) = 0; virtual CODE getImei(std::string& sImei) = 0; virtual CODE getMeid(std::string& sMeid) = 0; virtual CODE getImsi(std::string& sImsi) = 0; virtual CODE getSimStatus(std::string& sSimStatus) = 0; virtual CODE getSupportedCellularModes(CELLULAR_MODES &networks) = 0; virtual CODE getCellularMode(CELLULAR_MODES &networks) = 0; virtual CODE setCellularMode(CELLULAR_MODES networks) = 0; /** * @brief getSimStatusSummary - get summary on the SIM card status * (if there is a SIM card inserted, is it locked, etc). * See below for the full list of returned fields. * * - `isSimInserted` - bool, is the SIM card installed or not; * - `isSimLocked` - bool, is the SIM card blocked with PIN/PUK or not (or is READY); * - `lockStatus` - string, either "READY", "SIM PUK", "SIM PIN" or other status as * returned by "AT+CPIN?" AT command; * - `attemptsPin` - integer, the number of attempts lef to enter a PIN code; * - `attemptsPuk` - integer, the number of attempts lef to enter a PUK code. * * **Only `isSimInserted` is always present.** All other fields are omitted if * the SIM card is removed. * * @param jData - an object to be filled with data * @return CODE::SUCCESS on success, * CODE::NOT_APPLICABLE if not supported by this radio * and CODE::ERROR otherwise */ virtual CODE getSimStatusSummary(Json::Value& jData) = 0; virtual CODE getIccid(std::string& sIccid) = 0; virtual CODE getService(std::string& sService) = 0; virtual CODE getLac(std::string& sLac) = 0; virtual CODE getMdn(std::string& sMdn) = 0; virtual CODE getMsid(std::string& sMsid) = 0; virtual CODE getType(std::string& sType) = 0; virtual CODE getCarrier(std::string& sCarrier) = 0; virtual CODE getNetwork(std::string& sNetwork) = 0; virtual CODE getTower(std::string& sTower) = 0; virtual CODE getTime(std::string& sDate, std::string& sTime, std::string& sTimeZone) = 0; virtual CODE getRoaming(bool& bRoaming) = 0; virtual CODE getSignalStrength(int32_t& iRssi) = 0; virtual CODE getModemLocation(std::string& sLocation) = 0; virtual CODE convertSignalStrengthTodBm(const int32_t& iRssi, int32_t& dBm) = 0; virtual CODE convertdBmToSignalStrength(const int32_t& dBm, int32_t& iRssi) = 0; virtual CODE getRegistration(REGISTRATION& eRegistration) = 0; virtual CODE convertRegistrationToString(REGISTRATION eRegistration, std::string& sRegistration) = 0; virtual CODE convertCellModesToString(CELLULAR_MODES eCellModes, std::string& sCellModes) = 0; /** * @brief unlockSimCard - unlock the SIM card using PIN code provided * * This command does not peform any checks on the number of attempts left. * Use with caution, verify the SIM status manually before execution. * * @param jArgs - a JSON object with the following format: * * jArgs = { * "pin" : "A correct PIN code to unlock the SIM card: STRING" * } * * @return CODE::SUCCESS when SIM card was succeffully unlocked, * CODE::INVALID_ARGS when passed arguments are invalid, * CODE::ERROR otherwise (i.e. when modem is not responding, * when SIM card is removed, when PIN code is not correct * or on any other error). */ virtual CODE unlockSimCard(const Json::Value& jArgs) = 0; /** * @brief getSimCarrierCode - get unique carrier identifier based on * the SIM card information. * * @param sCarrier - a string to be populated with one of the carrier codes: * * - VALUE_CARRIER_CODE_VERIZON - Verizon * - VALUE_CARRIER_CODE_ATT - AT&T * - VALUE_UNKNOWN - Unknown carrier * - other values may be defined in the future * * @return CODE::SUCCESS when carrier code retrieved, * CODE::ERROR otherwise (i.e. when modem is not responding, * when SIM card is removed or on any other error). */ virtual CODE getSimCarrierCode(std::string& sCarrierCode) = 0; //! Gather details of the radio's Mobile IP Profile /*! \param Json::Value object that will be populated with MIP data \return Returns result code of gathering MIP */ virtual CODE getMipProfile(Json::Value& jMipProfile) = 0; /* * jArgs = { * "msl" : "Master Subsidy Lock (Aeris, Sprint): STRING" * } */ virtual CODE validateMsl(const Json::Value& jArgs) = 0; /* * jArgs = { * "mdn" : "Mobile Directory Number : STRING", * "msl" : "[OPTIONAL] Master Subsidy Lock (Aeris, Sprint): STRING" * } */ virtual CODE setMdn(const Json::Value& jArgs) = 0; /* * jArgs = { * "msid" : "Mobil Station ID (MSID) aka MIN aka MSIN : STRING", * "msl" : "[OPTIONAL] Master Subsidy Lock (Aeris, Sprint): STRING" * } */ virtual CODE setMsid(const Json::Value& jArgs) = 0; /* * jArgs = { * "activeProfile" : "Set active profile: STRING" * } */ virtual CODE setMipActiveProfile(const Json::Value& jArgs) = 0; /* * jArgs = { * "nai" : "Network Access Identifier : STRING" * } */ virtual CODE setMipNai(const Json::Value& jArgs) = 0; /* * jArgs = { * "homeIp" : "Home Address : STRING" * } */ virtual CODE setMipHomeIp(const Json::Value& jArgs) = 0; /* * jArgs = { * "primaryHa" : "Primary Home Agent : STRING" * } */ virtual CODE setMipPrimaryHa(const Json::Value& jArgs) = 0; /* * jArgs = { * "secondaryHa" : "Secondary Home Agent : STRING" * } */ virtual CODE setMipSecondaryHa(const Json::Value& jArgs) = 0; /* * jArgs = { * "mnAaaSpi" : "Mobile Node Authentication, Authorization, and Accounting Server Security Parameter Index : STRING" * } */ virtual CODE setMipMnAaaSpi(const Json::Value& jArgs) = 0; /* * jArgs = { * "mnHaSpi" : "Mobile Node Home Agent Security Server Parameter Index : STRING" * } */ virtual CODE setMipMnHaSpi(const Json::Value& jArgs) = 0; /* * jArgs = { * "revTun" : "[DESCRIPTION] : STRING" * } */ virtual CODE setMipRevTun(const Json::Value& jArgs) = 0; /* * jArgs = { * "mnAaaSs" : "Mobile Node Authentication, Authorization, and Accounting Server Shared Secret : STRING" * } */ virtual CODE setMipMnAaaSs(const Json::Value& jArgs) = 0; /* * jArgs = { * "mnHaSs" : "Mobile Node Home Agent Shared Secret : STRING" * } */ virtual CODE setMipMnHaSs(const Json::Value& jArgs) = 0; /* * jArgs = null */ virtual CODE updateDc(const Json::Value& jArgs, UpdateCb& stepCb) = 0; /* * jArgs = null */ virtual CODE updatePrl(const Json::Value& jArgs, UpdateCb& stepCb) = 0; /* * jArgs = null */ virtual CODE updateFumo(const Json::Value& jArgs, UpdateCb& stepCb) = 0; /** * @brief updateFumoLocal - Performs the radio firmware upgrade using local firmware image. * * This command uploads (injects) the whole delta firmware image to the radio, performs the * upgrade and waits for it to complete. * * @param fd - file descriptor of a file that shall be injected to the radio. * @param stepCb - callback to receive status updates during the firmware upgrade. * @return CODE::SUCCESS when the firmware upgrade was successful, * CODE::INVALID_ARGS when the file can't be opened for reading, * CODE::FAILURE when upgrade failed on the radio side, * CODE::NOT_APPLICABLE when not supported by this radio, * CODE::ERROR otherwise. */ virtual CODE updateFumoLocal(int fd, UpdateCb& stepCb) = 0; /** * @brief fumoLocalInject - upload delta file to the radio's internal memory. * * This command uploads (injects) the whole delta firmware image to some place that * can be later used by the radio to perform the Delta Radio Firmware Upgrade. * * This delta firmware image is NOT validated on the firmware image upload step. * * @param fd - file sescriptor of a file that shall be uploaded to the radio. * @param stepCb - callback to receive status updates during the upload. * @return CODE::SUCCESS when the file was successfully uploaded, * CODE::INVALID_ARGS when the file can't be opened for reading, * CODE::NOT_APPLICABLE when not supported by this radio, * CODE::ERROR otherwise. */ virtual CODE fumoLocalInject(int fd, UpdateCb& stepCb) = 0; /** * @brief fumoLocalApply - apply the delta file that was previously uploaded. * * This commands initializes and tracks the progress of the delta firmware upgrade * procedure using the delta firmware image file that was previously uploaded * into internal memory of the radio. * * See ICellularRadio::fumoLocalInject to upload the file and prepare * for the upgrade. * * @param fd - file descriptor of a file that shall be uploaded to the radio. * @param stepCb - the callback to receive status updates during the upgrade. * @return CODE::SUCCESS when the firmware upgrade was successful, * CODE::FAILURE when upgrade failed on the radio side, * CODE::NOT_APPLICABLE when not supported by this radio, * CODE::ERROR otherwise. */ virtual CODE fumoLocalApply(UpdateCb& stepCb) = 0; /** * @brief fumoLocalCleanup - remove the delta file from the radio's internal memory. * * This command allows to remove the old delta firmware image from the radio's internal * memory for cases when it's no longer needed. * * @return CODE::SUCCESS when the file was successfully deleted, * CODE::FAILURE when the file can't be deleted (i.e. no such file), * CODE::NOT_APPLICABLE when not supported by this radio, * CODE::ERROR otherwise. */ virtual CODE fumoLocalCleanup() = 0; /* * jArgs = { * "msl" : "Master Subsidy Lock (Sprint): STRING" * } */ virtual CODE resetHfa(const Json::Value& jArgs, UpdateCb& stepCb) = 0; /* * jArgs = { * "mdn" : "Mobile Directory Number (Aeris): STRING" * "msid" : "Mobile Station ID (Aeris): STRING" * } */ virtual CODE activate(const Json::Value& jArgs, UpdateCb& stepCb) = 0; /* * jArgs = { * "enabled" : "RX Diversity Enabled ("0" or "1"): STRING" * } */ virtual CODE setRxDiversity(const Json::Value& jArgs) = 0; /* * jArgs = { * "fwid" : "Firmware Image To Be Enabled: STRING" * } */ virtual CODE startOmaDm(UpdateCb& stepCb) = 0; virtual CODE setActiveFirmware(const Json::Value& jArgs) = 0; virtual CODE getActiveFirmware(std::string& sFwId) = 0; virtual CODE getEcho(bool& bEnabled) = 0; virtual CODE setEcho(bool bEnabled = true) = 0; virtual CODE getStaticInformation(Json::Value& jData) = 0; virtual CODE getNetworkStatus(Json::Value& jData) = 0; virtual CODE sendBasicCommand(const std::string& sCmd, int32_t timeoutMillis = 100, const char& ESC = CR) = 0; virtual std::string sendCommand(const std::string& sCmd, const std::vector& vBail = DEFAULT_BAIL_STRINGS, int32_t timeoutMillis = 100, const char& ESC = CR) = 0; virtual std::string sendCommand(const std::string& sCmd, IsNeedMoreData& isNeedMoreData, int32_t timeoutMillis = 100, const char& ESC = CR) = 0; //! Wait for response from the radio without sending any data to it virtual std::string waitResponse(const std::vector& vBail = DEFAULT_BAIL_STRINGS, int32_t timeoutMillis = 100) = 0; //! Wait for response from the radio without sending any data to it virtual std::string waitResponse(IsNeedMoreData& isNeedMoreData, int32_t timeoutMillis = 100) = 0; virtual CODE setUeModeOfOperation(ICellularRadio::UE_MODES_OF_OPERATION mode) = 0; virtual CODE getUeModeOfOperation(ICellularRadio::UE_MODES_OF_OPERATION& mode) = 0; /** * @brief getSimMccMnc - get MCC/MNC (PLMN code) of the home network from the SIM. * * @param sPlmnId - a string to be filled with the MCC/MNC combination, * example: "310410" (for AT&T), "90118" (for WMS). * @return CODE::SUCCESS when fetched successfully, * CODE::NOT_APPLICABLE when the modem doesn't support this feature, * CODE::NO_RESPONSE when the modem doesn't respond, * CODE::ERROR when the radio returns "ERROR" (SIM card removed, SIM card locked etc), * CODE::FAILURE otherwise (unexpected response, no data in SIM etc). */ virtual CODE getSimMccMnc(std::string& sMccMnc) = 0; virtual CODE getSimMccMnc(std::string& sMcc, std::string& sMnc) = 0; /** * @brief disableVoiceSupport - disable voice support (IMS and CSFB) and enable "SMS only" registration flag. * * @return CODE::SUCCESS when disabled successfully, * CODE::NOT_APPLICABLE when the modem doesn't support this feature, * CODE::NO_RESPONSE when the modem doesn't respond, * CODE::ERROR when the radio returns "ERROR", * CODE::FAILURE otherwise (unexpected response). */ virtual CODE disableVoiceSupport() = 0; /** * @brief getVoiceSupport - get voice support configuration for the current radio. * * @param bVoiceEnabled - a boolean value indicating that "voice support" is enabled. * @param bSmsOnly - a boolean value indicating that "SMS only" registration flag is enabled. * * @return CODE::SUCCESS when fetched successfully, * CODE::NOT_APPLICABLE when the modem doesn't support this feature, * CODE::NO_RESPONSE when the modem doesn't respond, * CODE::ERROR when the radio returns "ERROR", * CODE::FAILURE otherwise (unexpected response). */ virtual CODE getVoiceSupport(Json::Value& jData) = 0; virtual CODE getVoiceSupport(bool& bVoiceEnabled, bool& bSmsOnly) = 0; /** * @brief getSelectedBandsRaw - get the raw Selected Bands value for the current radio. * * This commands sends the query to the radio, selects first 3 values from the response, * parses the numbers as dec (Telit GSM and WCDMA fiels) or hex (Quectel GW_band and LTE, * Telit LTE), formats them as comma-separated hex values and saves the result to sRawBands. * * WARNING: The response format is radio-dependent. Please consult the AT command manual * to interpet the resulting values. * * For Telit radios: * * - command: `AT#BND?`; * - example radio response: `#BND: 5,15,800C5`; * - `sRawBands` format: `[,[,]]`; * - example `sRawBands` content: `5,F,800C5`. * * For Quectel radios: * * - command: `AT+QCFG="band"`; * - example radio response: `+QCFG: "band",0x93,0x80800c5,0x0`; * - `sRawBands` format: `,,`, * NOTE: the `` value is duplicated for the first two fields; * - example `sRawBands` content: `93,93,80800c5`. * * @param sRawBands - radio-depended string value, shows the currently selected bands. * * @return CODE::SUCCESS when fetched successfully, * CODE::NOT_APPLICABLE when the modem doesn't support this feature, * CODE::NO_RESPONSE when the modem doesn't respond, * CODE::ERROR when the radio returns "ERROR", * CODE::FAILURE otherwise (unexpected response). */ virtual CODE getSelectedBandsRaw(std::string& sRawBands) = 0; /** * @brief Get the list of PDP contexts from the radio * NOTE: authType, password and username are only present if the radio supports Cellular Authentication on * the PDP Context Level. “password” and “username” are only present if the current authentication type is * other than NONE. The “password” field is omitted on radios that do not allow reading the current password (i.e. on Telit LE910Cx). * * @param jData - an object to be filled with data. * { * "context_number : STRING": { * "apn" : "apn_value: STRING", * "authType" : "auth_type_value: STRING", * "ipMode" : "ip_mode_value: STRING", * "password" : "password_value (optional): STRING", * "username" : "username_value (optional): STRING" * } * } * * @return CODE::SUCCESS when fetched successfully, * CODE::NO_RESPONSE when the modem doesn't respond, * CODE::ERROR when the radio returns "ERROR", * CODE::FAILURE otherwise (unexpected response). */ virtual CODE getPdpContexts(Json::Value& jData) = 0; /** * @brief Set the PDP context to the radio. If any of the fields are omitted, * the system re-uses the current configuration for such fields. * If all fields are omitted - the system deletes the context. * "username" and "password" are mandatory if "ipMode" is PAP, CHAP or PAP-CHAP. * "username", "password" and "authType" shall be omitted on radios that do NOT * support Cellular Authentication on the PDP Context Level. * * @param sId - ID of the PDP context that should be edited. * @param jConfig - a JSON object that contains: * { * "apn" : "apn_value (optional): STRING", * "authType" : "auth_type_value (optional): STRING", * "ipMode" : "ip_mode_value (optional): STRING", * "password" : "password_value (optional): STRING", * "username" : "username_value (optional): STRING" * } * * @return CODE::SUCCESS when fetched successfully, * CODE::NO_RESPONSE when the modem doesn't respond, * CODE::ERROR when the radio returns "ERROR", * CODE::INVALID_ARGS when one of the JSON object values is incorrect OR not supported by the current radio, * CODE::FAILURE otherwise (unexpected response). */ virtual CODE setPdpContext(const std::string& sId, const Json::Value& jConfig) = 0; /** * @brief Execute the diagnostics AT commands and capture their output * * NOTE: The list of diagnostic AT commands is radio-specific and changes * depending on the radio model (code). * * NOTE: The method stops its execution if the radio repeatedly ignores * the commands (returns no execution result for several of them). This * is required to limit the maximum execution time of the function and * prevent the process from occupying the radio for too long. In case * of timeout, the report will contain the output of all commands that * it managed to execute before the failure. * * @param sDiagReport - the AT commands execution report. * * @return CODE::SUCCESS when fetched successfully, * CODE::NO_RESPONSE when the radio ignored several of the AT commands, * CODE::FAILURE otherwise. */ virtual CODE getDiagnostics(std::string& sDiagReport) = 0; }; } } #endif