/*
* Copyright (C) 2015 by Multi-Tech Systems
*
* This file is part of radio-cmd.
*
* radio-cmd is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* radio-cmd 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with radio-cmd. If not, see .
*
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "Version.h"
const std::string DEFAULT_PORT("/dev/modem_at1");
const int32_t DEFAULT_TIMEOUT = 100;
const std::string DEFAULT_COMMAND("AT");
const std::string DEFAULT_CACHE("/var/run/radio");
const std::string FMODEL("model");
const std::string FMSL("msl");
std::string g_sTimeout;
std::string g_sDevice(DEFAULT_PORT);
std::string g_sAtCommand(DEFAULT_COMMAND);
std::string g_sCache(DEFAULT_CACHE);
std::string g_sModel;
std::string g_sMDN;
std::string g_sMSID;
std::string g_sMSL;
std::string g_sMIPActiveProfile;
std::string g_sMIPNai;
std::string g_sMIPHomeAddr;
std::string g_sMIPPrimaryHa;
std::string g_sMIPSecondaryHa;
std::string g_sMIPMnAaaSpi;
std::string g_sMIPMnHaSpi;
std::string g_sMIPRevTun;
std::string g_sMIPMnAaaSs;
std::string g_sMIPMnHaSs;
std::string g_sRxDiversity;
std::string g_sActiveFirmware;
std::string g_sConfigFile;
Json::Value g_jData;
std::string g_sRadioMode;
std::string g_sSimPin;
std::string g_sCellularMode;
MTS::AutoPtr g_apRadio;
int32_t g_iOptions = 0;
const uint32_t OPT_INDIVIDUAL = 0x01FFFFFF;
const uint32_t OPT_SUMMARY = 0x7E000000;
const uint32_t OPT_INITIALIZE = 0x80000000;
const uint32_t OPT_TIMEOUT = 0x00000001;
const uint32_t OPT_DEVICE = 0x00000002;
const uint32_t OPT_COMMAND = 0x00000004;
const uint32_t OPT_MSL = 0x00000008;
const uint32_t OPT_SETMDN = 0x00000010;
const uint32_t OPT_SETMSID = 0x00000020;
const uint32_t OPT_SETMSL = 0x00000040;
const uint32_t OPT_SETMIPACTIVEPROFILE = 0x00000080;
const uint32_t OPT_SETMIPNAI = 0x00000100;
const uint32_t OPT_SETMIPHOMEADDR = 0x00000200;
const uint32_t OPT_SETMIPPRIMARYHA = 0x00000400;
const uint32_t OPT_SETMIPSECONDARYHA = 0x00000800;
const uint32_t OPT_SETMIPMNAAASPI = 0x00001000;
const uint32_t OPT_SETMIPMNHASPI = 0x00002000;
const uint32_t OPT_SETMIPREVTUN = 0x00004000;
const uint32_t OPT_SETMIPMNAAASS = 0x00008000;
const uint32_t OPT_SETMIPMNHASS = 0x00010000;
const uint32_t OPT_INIT_DC = 0x00020000;
const uint32_t OPT_INIT_FUMO = 0x00040000;
const uint32_t OPT_INIT_PRL = 0x00080000;
const uint32_t OPT_INIT_RTN = 0x00100000;
const uint32_t OPT_INIT_ACTIVATION = 0x00200000;
const uint32_t OPT_MDN = 0x00400000;
const uint32_t OPT_MSID = 0x00800000;
const uint32_t OPT_SETRXDIVERSITY = 0x01000000;
const uint32_t OPT_SETACTIVEFIRMWARE = 0x02000000;
const uint32_t OPT_CONFIG_FILE = 0x04000000;
const uint32_t OPT_GET_RADIOMODE = 0x08000000;
const uint32_t OPT_SET_RADIOMODE = 0x10000000;
const uint32_t OPT_UNLOCK_SIM_CARD = 0x20000000;
const uint32_t OPT_RESET_RADIO = 0x40000000;
int32_t g_iAuxOptions = 0;
const uint32_t AOPT_SET_CELLULAR_MODE = 0x00000001;
void handle_sigterm(int signum);
void printHelp(const std::string& sApp);
void parseOptions(int argc, char** argv);
void initializeCache();
void shutdown();
const char *code2str(MTS::IO::ICellularRadio::CODE code);
std::string loadImeiFromDeviceInfo();
MTS::IO::ICellularRadio::RADIO_NETWORK_MODE radioModeEnum(const std::string &mode);
const char* radioModeStr(MTS::IO::ICellularRadio::RADIO_NETWORK_MODE mode);
MTS::IO::ICellularRadio::CELLULAR_MODES cellularModeFlags(const std::string networks);
static int iOption = 0;
static struct option long_options[] = {
{ "help", no_argument, 0, '?' },
{ "version", no_argument, 0, 'v' },
{ "printlvl", required_argument, 0, 'p' },
{ "device", required_argument, 0, 'd' },
{ "config-file", required_argument, 0, 'c' },
{ "set-mdn", required_argument, 0, 'n' },
{ "set-msl", required_argument, 0, 'm' },
{ "set-msid", required_argument, 0, 's' },
{ "msl", required_argument, 0, 'l' },
{ "mdn", required_argument, 0, 'k' },
{ "msid", required_argument, 0, 'j' },
{ "set-active-firmware" , required_argument, 0, 'f' },
{ "set-rx-diversity", required_argument, 0, 'r' },
{ "set-mip-active-profile", required_argument, 0, '0' },
{ "set-mip-nai", required_argument, 0, '1' },
{ "set-mip-home-ip", required_argument, 0, '2' },
{ "set-mip-primary-ha", required_argument, 0, '3' },
{ "set-mip-secondary-ha", required_argument, 0, '4' },
{ "set-mip-mn-aaa-spi", required_argument, 0, '5' },
{ "set-mip-mn-ha-spi", required_argument, 0, '6' },
{ "set-mip-rev-tun", required_argument, 0, '7' },
{ "set-mip-mn-aaa-ss", required_argument, 0, '8' },
{ "set-mip-mn-ha-ss", required_argument, 0, '9' },
{ "unlock-sim-card", required_argument, 0, OPT_UNLOCK_SIM_CARD },
{ "get-radio-network-mode", no_argument, &iOption, OPT_GET_RADIOMODE },
{ "set-radio-network-mode", required_argument, 0, OPT_SET_RADIOMODE },
{ "reset-radio", no_argument, &iOption, OPT_RESET_RADIO },
{ "init-dc", no_argument, &iOption, OPT_INIT_DC },
{ "init-fumo", no_argument, &iOption, OPT_INIT_FUMO },
{ "init-prl", no_argument, &iOption, OPT_INIT_PRL },
{ "init-activation", no_argument, &iOption, OPT_INIT_ACTIVATION },
{ "factory-default", no_argument, &iOption, OPT_INIT_RTN },
{ "set-cellular-mode", required_argument, 0, 'w' },
{ 0, 0, 0, 0 }
};
Json::Value getStaticData();
Json::Value getNetworkData();
MTS::IO::ICellularRadio::UpdateCb cb = [](const Json::Value& s)->void {
if(s.isString()) {
printf("%s\n", s.asCString());
}
};
int main(int argc, char** argv) {
using namespace MTS::IO;
//Disable stdout buffering so this process can pipe out data as needed
// * otherwise entire stdout is buffered until process is closed using popen
setbuf(stdout, NULL);
signal(SIGTERM, handle_sigterm);
signal(SIGINT, handle_sigterm);
MTS::Logger::setPrintLevel(MTS::Logger::PrintLevel::OFF_LEVEL, true);
parseOptions(argc, argv);
if(!(g_iOptions & OPT_INITIALIZE)) {
// get model from cache
std::ifstream fModel((g_sCache + "/" + FMODEL).c_str());
if(fModel.is_open()) {
std::string sModel;
fModel >> sModel;
if(sModel.size() > 0) {
printTrace("Pulling Model from cache: [%s]", sModel.c_str());
g_sModel = sModel;
}
}
// get msl from cache
std::ifstream fMSL((g_sCache + "/" + FMSL).c_str());
if(fMSL.is_open()) {
std::string sMSL;
fMSL >> sMSL;
if(sMSL.size() > 0) {
printTrace("Pulling Msl from cache: [%s]", sMSL.c_str());
g_sMSL = sMSL;
g_iOptions |= OPT_MSL;
}
}
}
MTS::IO::CellularRadioFactory factory;
g_apRadio.reset(factory.create(g_sModel, g_sDevice));
if(g_apRadio.isNull() || !g_apRadio->initialize()) {
printf("Error creating radio interface [%s][%s]\n", g_sDevice.c_str(), g_sModel.c_str());
return EXIT_FAILURE;
}
ICellularRadio::CODE result = ICellularRadio::CODE::SUCCESS;
if(g_iOptions & OPT_COMMAND) {
int32_t timeoutMillis = DEFAULT_TIMEOUT;
if(g_iOptions & OPT_TIMEOUT) {
timeoutMillis = atoi(g_sTimeout.c_str());
if(!timeoutMillis) {
printError("Timeout: invalid, use default timeout\n");
timeoutMillis = DEFAULT_TIMEOUT;
}
}
printDebug("AT Command: %s\n", g_sAtCommand.c_str());
std::string sResult = g_apRadio->sendCommand(g_sAtCommand, MTS::IO::ICellularRadio::DEFAULT_BAIL_STRINGS, timeoutMillis);
printDebug("RESULT: %s\n", sResult.c_str());
// skip first line
std::size_t pos = sResult.find('\n');
if(pos == std::string::npos) {
pos = 0;
} else {
++pos;
}
printf("%s", sResult.substr(pos).c_str());
} else if(g_iOptions & OPT_SETMDN) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MDN: %s\n", g_sMDN.c_str());
jArgs["mdn"] = g_sMDN;
if(g_iOptions & OPT_MSL) {
printDebug("MSL: %s\n", g_sMSL.c_str());
jArgs["msl"] = g_sMSL;
}
result = g_apRadio->setMdn(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMSID) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MSID: %s\n", g_sMSID.c_str());
jArgs["msid"] = g_sMSID;
if(g_iOptions & OPT_MSL) {
printDebug("MSL: %s\n", g_sMSL.c_str());
jArgs["msl"] = g_sMSL;
}
result = g_apRadio->setMsid(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPACTIVEPROFILE) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP ACTIVE PROFILE: %s\n", g_sMIPActiveProfile.c_str());
jArgs["activeProfile"] = g_sMIPActiveProfile;
result = g_apRadio->setMipActiveProfile(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPNAI) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP NAI: %s\n", g_sMIPNai.c_str());
jArgs["nai"] = g_sMIPNai;
result = g_apRadio->setMipNai(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPHOMEADDR) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP HOME ADDR: %s\n", g_sMIPHomeAddr.c_str());
jArgs["homeIp"] = g_sMIPHomeAddr;
result = g_apRadio->setMipHomeIp(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPPRIMARYHA) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP PRIMARY HA: %s\n", g_sMIPPrimaryHa.c_str());
jArgs["primaryHa"] = g_sMIPPrimaryHa;
result = g_apRadio->setMipPrimaryHa(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPSECONDARYHA) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP SECONDARY HA: %s\n", g_sMIPSecondaryHa.c_str());
jArgs["secondaryHa"] = g_sMIPSecondaryHa;
result = g_apRadio->setMipSecondaryHa(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPMNAAASPI) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP MN-AAA SPI: %s\n", g_sMIPMnAaaSpi.c_str());
jArgs["mnAaaSpi"] = g_sMIPMnAaaSpi;
result = g_apRadio->setMipMnAaaSpi(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPMNHASPI) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP MN-HA SPI: %s\n", g_sMIPMnHaSpi.c_str());
jArgs["mnHaSpi"] = g_sMIPMnHaSpi;
result = g_apRadio->setMipMnHaSpi(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPREVTUN) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP REV TUN: %s\n", g_sMIPRevTun.c_str());
jArgs["revTun"] = g_sMIPRevTun;
result = g_apRadio->setMipRevTun(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPMNAAASS) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP MN-AAA SS: %s\n", g_sMIPMnAaaSs.c_str());
jArgs["mnAaaSs"] = g_sMIPMnAaaSs;
result = g_apRadio->setMipMnAaaSs(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMIPMNHASS) {
Json::Value jArgs(Json::objectValue);
printDebug("SET MIP MN-HA SS: %s\n", g_sMIPMnHaSs.c_str());
jArgs["mnHaSs"] = g_sMIPMnHaSs;
result = g_apRadio->setMipMnHaSs(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETMSL) {
Json::Value jArgs(Json::objectValue);
jArgs["msl"] = g_sMSL;
result = g_apRadio->validateMsl(jArgs);
if(result == MTS::IO::ICellularRadio::CODE::SUCCESS) {
std::ofstream fMSL((g_sCache + "/" + FMSL).c_str(), std::ios_base::trunc | std::ios_base::out);
if(fMSL.is_open()) {
std::string sMSL;
fMSL << g_sMSL;
}
}
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_INIT_DC) {
Json::Value jArgs(Json::nullValue);
result = g_apRadio->updateDc(jArgs, cb);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_INIT_PRL) {
Json::Value jArgs(Json::nullValue);
result = g_apRadio->updatePrl(jArgs, cb);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_INIT_FUMO) {
Json::Value jArgs(Json::objectValue);
if(g_iOptions & OPT_CONFIG_FILE) {
jArgs["config-file"] = g_sConfigFile;
}
result = g_apRadio->updateFumo(jArgs, cb);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_INIT_RTN) {
Json::Value jArgs(Json::objectValue);
if(g_iOptions & OPT_MSL) {
printDebug("MSL: %s\n", g_sMSL.c_str());
jArgs["msl"] = g_sMSL;
}
result = g_apRadio->resetHfa(jArgs, cb);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_INIT_ACTIVATION) {
Json::Value jArgs(Json::objectValue);
if(g_iOptions & OPT_MSID) {
printDebug("MSID: %s", g_sMSID.c_str());
jArgs["msid"] = g_sMSID;
}
if(g_iOptions & OPT_MDN) {
printDebug("MDN: %s", g_sMDN.c_str());
jArgs["mdn"] = g_sMDN;
}
result = g_apRadio->activate(jArgs, cb);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETRXDIVERSITY) {
Json::Value jArgs(Json::objectValue);
jArgs["enabled"] = g_sRxDiversity;
result = g_apRadio->setRxDiversity(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_SETACTIVEFIRMWARE) {
Json::Value jArgs(Json::objectValue);
jArgs["fwid"] = g_sActiveFirmware;
result = g_apRadio->setActiveFirmware(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_GET_RADIOMODE) {
ICellularRadio::RADIO_NETWORK_MODE mode;
g_apRadio->getRadioNetworkMode(mode);
printf("%s\n", radioModeStr(mode));
} else if(g_iOptions & OPT_SET_RADIOMODE) {
ICellularRadio::CODE res = g_apRadio->setRadioNetworkMode(radioModeEnum(g_sRadioMode));
printf("%s\n", code2str(res));
} else if(g_iOptions & OPT_UNLOCK_SIM_CARD) {
Json::Value jArgs(Json::objectValue);
jArgs["pin"] = g_sSimPin;
result = g_apRadio->unlockSimCard(jArgs);
printf("%s\n", code2str(result));
} else if(g_iOptions & OPT_RESET_RADIO) {
bool ret = g_apRadio->resetRadio();
result = (ret) ? ICellularRadio::CODE::SUCCESS : ICellularRadio::CODE::FAILURE;
printf("%s\n", code2str(result));
} else if(g_iAuxOptions & AOPT_SET_CELLULAR_MODE) {
ICellularRadio::CELLULAR_MODES networks = cellularModeFlags(g_sCellularMode);
if (networks != ICellularRadio::CELLULAR_MODE_NA) {
result = g_apRadio->setCellularMode(networks);
printf("%s\n", code2str(result));
} else {
printf("Invalid argument: %s\n", g_sCellularMode.c_str());
}
}
shutdown();
return (result == ICellularRadio::CODE::SUCCESS) ? 0 : 1;
}
void handle_sigterm(int signum) {
if(signum == SIGTERM) {
shutdown();
}
}
void shutdown() {
printDebug("Shutting Down");
if(!g_apRadio.isNull()) {
g_apRadio->shutdown();
}
}
void parseOptions(int argc, char** argv)
{
if(argc == 1) {
printHelp(argv[0]);
exit(0);
}
while (true) {
int c = getopt_long(argc, argv, "t:d:p:r:?v", long_options, nullptr);
/* Detect the end of the options. */
if(c == -1) {
break;
}
if(c == 0) {
g_iOptions |= iOption;
continue;
}
switch (c) {
case '?':
printHelp(argv[0]);
exit(0);
break;
case 'v':
printf("Version: %s\n", Version::version.c_str());
exit(0);
break;
case 'p':
int iPrintLvl;
if(MTS::Text::parse(iPrintLvl, optarg) && iPrintLvl >= 0 && iPrintLvl <= 100) {
MTS::Logger::setPrintLevel(iPrintLvl);
} else {
printf("print level out of range [0-100]\n");
exit(1);
}
break;
case 'r':
if(optarg != 0) {
g_sRxDiversity = optarg;
}
g_iOptions |= OPT_SETRXDIVERSITY;
break;
case 'f':
if(optarg != 0) {
g_sActiveFirmware = optarg;
}
g_iOptions |= OPT_SETACTIVEFIRMWARE;
break;
case 't':
if(optarg != 0) {
g_sTimeout = optarg;
}
g_iOptions |= OPT_TIMEOUT;
break;
case 'd':
if(optarg != 0) {
g_sDevice = optarg;
}
g_iOptions |= OPT_DEVICE;
break;
case 'n':
if(optarg != 0) {
g_sMDN = optarg;
}
g_iOptions |= OPT_SETMDN;
break;
case 's':
if(optarg != 0) {
g_sMSID = optarg;
}
g_iOptions |= OPT_SETMSID;
break;
case 'm':
if(optarg != 0) {
g_sMSL = optarg;
}
g_iOptions |= OPT_SETMSL;
break;
case 'c':
if(optarg != 0) {
g_sConfigFile = optarg;
}
g_iOptions |= OPT_CONFIG_FILE;
break;
case 'l':
if(optarg != 0) {
g_sMSL = optarg;
}
g_iOptions |= OPT_MSL;
break;
case 'k':
if(optarg != 0) {
g_sMDN = optarg;
}
g_iOptions |= OPT_MDN;
break;
case 'j':
if(optarg != 0) {
g_sMSID = optarg;
}
g_iOptions |= OPT_MSID;
break;
case '0':
if(optarg != 0) {
g_sMIPActiveProfile = optarg;
}
g_iOptions |= OPT_SETMIPACTIVEPROFILE;
break;
case '1':
if(optarg != 0) {
g_sMIPNai = optarg;
}
g_iOptions |= OPT_SETMIPNAI;
break;
case '2':
if(optarg != 0) {
g_sMIPHomeAddr = optarg;
}
g_iOptions |= OPT_SETMIPHOMEADDR;
break;
case '3':
if(optarg != 0) {
g_sMIPPrimaryHa = optarg;
}
g_iOptions |= OPT_SETMIPPRIMARYHA;
break;
case '4':
if(optarg != 0) {
g_sMIPSecondaryHa = optarg;
}
g_iOptions |= OPT_SETMIPSECONDARYHA;
break;
case '5':
if(optarg != 0) {
g_sMIPMnAaaSpi = optarg;
}
g_iOptions |= OPT_SETMIPMNAAASPI;
break;
case '6':
if(optarg != 0) {
g_sMIPMnHaSpi = optarg;
}
g_iOptions |= OPT_SETMIPMNHASPI;
break;
case '7':
if(optarg != 0) {
g_sMIPRevTun = optarg;
}
g_iOptions |= OPT_SETMIPREVTUN;
break;
case '8':
if(optarg != 0) {
g_sMIPMnAaaSs = optarg;
}
g_iOptions |= OPT_SETMIPMNAAASS;
break;
case '9':
if(optarg != 0) {
g_sMIPMnHaSs = optarg;
}
g_iOptions |= OPT_SETMIPMNHASS;
break;
case OPT_SET_RADIOMODE:
if (optarg)
g_sRadioMode = optarg;
g_iOptions |= OPT_SET_RADIOMODE;
break;
case OPT_UNLOCK_SIM_CARD:
if(optarg != 0) {
g_sSimPin = optarg;
}
g_iOptions |= OPT_UNLOCK_SIM_CARD;
break;
case 'w':
if (optarg)
g_sCellularMode = optarg;
g_iAuxOptions |= AOPT_SET_CELLULAR_MODE;
break;
default:
printf("OPTION: [%d] ABORTING!!\n", c);
abort();
break;
}
}
if((g_iOptions & (OPT_TIMEOUT | OPT_DEVICE)) || !g_iOptions) {
/* Assume that any remaining command line arguments is AT Command */
if(optind < argc) {
g_sAtCommand = argv[optind];
g_iOptions |= OPT_COMMAND;
}
}
printDebug("OPTS: %08X\n", g_iOptions);
}
void printHelp(const std::string& sApp) {
printf("Usage: %s [OPTION] [] ...\n", sApp.c_str());
printf("\tSimple utility to send either general AT command or predefined specific command to radio module\n");
printf("\t [ -t -d ] : send AT command. Timeout and device are optional\n");
printf("\t--device (d) : modem device to use, default: /dev/modem_at1\n");
printf("\t--init-dc : initiate device configuration update\n");
printf("\t--init-fumo [ --config-file ] : initiate module/modem firmware update\n");
printf("\t--init-prl : initiate PRL update\n");
printf("\t--init-activation [ --msid --mdn ]\n");
printf("\t : initiate account activation. Some carriers require MDN and MSID\n");
printf("\n");
printf("\t--set-mdn [ --msl ] : set MDN value. Some carriers require MSL\n");
printf("\t--set-msid [ --msl ] : set MSID value. Some carriers require MSL\n");
printf("\t--set-msl : validate and save Master Subsidy Lock (MSL) in cache\n");
printf("\t--set-mip-active-profile : set active MIP profile\n");
printf("\t--set-mip-nai : set MIP Network Access Identifier\n");
printf("\t--set-mip-home-ip : set MIP Home Address\n");
printf("\t--set-mip-primary-ha : set MIP Primary Home Agent\n");
printf("\t--set-mip-secondary-ha : set MIP Secondary Home Agent\n");
printf("\t--set-mip-mn-aaa-spi : set MIP MN AAA SPI\n");
printf("\t--set-mip-mn-ha-spi : set MIP MN HA SPI\n");
printf("\t--set-mip-rev-tun : set MIP Reverse Tunneling\n");
printf("\t--set-mip-mn-aaa-ss : set MIP MN AAA SS\n");
printf("\t--set-mip-mn-ha-ss : set MIP MN HA SS\n");
printf("\t--set-rx-diversity : set RX Diversity\n");
printf("\t--get-radio-network-mode : get selected cellular network\n");
printf("\t--set-radio-network-mode {auto|gsm|umts} : set cellular network\n");
printf("\t--set-cellular-mode : set preferred networks eg. 2g,3g,4g\n");
// Applicable for LTE910-NA1 dual FW images only
// printf("\t--set-active-firmware : switch to a specific firmware image\n");
printf("\t--factory-default [ --msl ] : reset to factory defaults\n");
printf("\t--unlock-sim-card : unlock the SIM card using the PIN code provided\n");
printf("\t--reset-radio : reset the radio module using AT commands\n");
printf("\n");
printf("\t--printlvl (p) : sets the printlvl [0-100]\n");
printf("\t--version (v) : returns version\n");
printf("\t--help (?) : returns this message\n");
printf("\n");
printf("\tSupported Radios:\n");
printf("\t\tLE910, HE910, GE910, DE910, CE910\n");
}
const char *code2str(MTS::IO::ICellularRadio::CODE code) {
switch (code) {
case MTS::IO::ICellularRadio::CODE::SUCCESS:
return "Success";
case MTS::IO::ICellularRadio::CODE::ERROR:
return "Error";
case MTS::IO::ICellularRadio::CODE::FAILURE:
return "Failure";
case MTS::IO::ICellularRadio::CODE::NO_RESPONSE:
return "No Response";
case MTS::IO::ICellularRadio::CODE::NOT_APPLICABLE:
return "Not Applicable";
case MTS::IO::ICellularRadio::CODE::INVALID_ARGS:
return "Invalid Arguments";
}
return "Unknown";
}
MTS::IO::ICellularRadio::RADIO_NETWORK_MODE radioModeEnum(const std::string &mode)
{
using namespace MTS::IO;
if (mode == "auto")
return ICellularRadio::RADIO_NETWORK_MODE_AUTO;
else if (mode == "gsm")
return ICellularRadio::RADIO_NETWORK_MODE_GSM_ONLY;
else if (mode == "umts")
return ICellularRadio::RADIO_NETWORK_MODE_UMTS_ONLY;
else
return ICellularRadio::RADIO_NETWORK_MODE_UNKNOWN;
}
const char* radioModeStr(MTS::IO::ICellularRadio::RADIO_NETWORK_MODE mode)
{
using namespace MTS::IO;
switch (mode) {
case ICellularRadio::RADIO_NETWORK_MODE_GSM_ONLY : return "gsm";
case ICellularRadio::RADIO_NETWORK_MODE_UMTS_ONLY: return "umts";
case ICellularRadio::RADIO_NETWORK_MODE_AUTO : return "auto";
default : return "";
}
}
MTS::IO::ICellularRadio::CELLULAR_MODES cellularModeFlags(const std::string networks)
{
using namespace MTS::IO;
int result = ICellularRadio::CELLULAR_MODE_NA;
const std::vector &items = MTS::Text::split(networks, ",");
for (const auto &it: items) {
if (it == "2g") {
result |= ICellularRadio::CELLULAR_MODE_2G;
} else if (it == "3g") {
result |= ICellularRadio::CELLULAR_MODE_3G;
} else if (it == "4g") {
result |= ICellularRadio::CELLULAR_MODE_4G;
} else if (it == "5g") {
result |= ICellularRadio::CELLULAR_MODE_5G;
} else {
result = ICellularRadio::CELLULAR_MODE_NA;
break;
}
}
return static_cast(result);
}