static bladerf_devinfo kwargs_to_devinfo(const SoapySDR::Kwargs &args) { std::stringstream ss; if (args.count("backend") != 0) { ss << args.at("backend") << ":"; } else ss << "*:"; if (args.count("device") != 0) { ss << "device=" << args.at("device") << " "; } if (args.count("instance") != 0) { ss << "instance=" << args.at("instance") << " "; } if (args.count("serial") != 0) { ss << "serial=" << args.at("serial") << " "; } bladerf_devinfo info; bladerf_init_devinfo(&info); bladerf_get_devinfo_from_str(ss.str().c_str(), &info); return info; }
std::vector<SoapySDR::Kwargs> findNullDevice(const SoapySDR::Kwargs &args) { std::vector<SoapySDR::Kwargs> results; //require that the user specify type=null if (args.count("type") == 0) return results; if (args.at("type") != "null") return results; SoapySDR::Kwargs nullArgs; nullArgs["type"] = "null"; results.push_back(nullArgs); return results; }
/*********************************************************************** * Discovery routine -- connect to server when key specified **********************************************************************/ static std::vector<SoapySDR::Kwargs> findRemote(const SoapySDR::Kwargs &args) { std::vector<SoapySDR::Kwargs> result; if (args.count(SOAPY_REMOTE_KWARG_STOP) != 0) return result; //no remote specified, use the discovery protocol if (args.count("remote") == 0) { //On non-windows platforms the endpoint instance can last the //duration of the process because it can be cleaned up safely. //Windows has issues cleaning up threads and sockets on exit. #ifndef _MSC_VER static #endif //_MSC_VER auto ssdpEndpoint = SoapySSDPEndpoint::getInstance(); //enable forces new search queries ssdpEndpoint->enablePeriodicSearch(true); //wait maximum timeout for replies std::this_thread::sleep_for(std::chrono::microseconds(SOAPY_REMOTE_SOCKET_TIMEOUT_US)); for (const auto &url : SoapySSDPEndpoint::getInstance()->getServerURLs()) { auto argsWithURL = args; argsWithURL["remote"] = url; const auto subResult = findRemote(argsWithURL); result.insert(result.end(), subResult.begin(), subResult.end()); } return result; } //otherwise connect to a specific url and enumerate auto url = SoapyURL(args.at("remote")); //default url parameters when not specified if (url.getScheme().empty()) url.setScheme("tcp"); if (url.getService().empty()) url.setService(SOAPY_REMOTE_DEFAULT_SERVICE); //try to connect to the remote server SoapySocketSession sess; SoapyRPCSocket s; int ret = s.connect(url.toString()); if (ret != 0) { SoapySDR::logf(SOAPY_SDR_ERROR, "SoapyRemote::find() -- connect(%s) FAIL: %s", url.toString().c_str(), s.lastErrorMsg()); return result; } //find transaction try { SoapyLogAcceptor logAcceptor(url.toString(), s); SoapyRPCPacker packer(s); packer & SOAPY_REMOTE_FIND; packer & translateArgs(args); packer(); SoapyRPCUnpacker unpacker(s); unpacker & result; //graceful disconnect SoapyRPCPacker packerHangup(s); packerHangup & SOAPY_REMOTE_HANGUP; packerHangup(); SoapyRPCUnpacker unpackerHangup(s); } catch (const std::exception &ex) { SoapySDR::logf(SOAPY_SDR_ERROR, "SoapyRemote::find() -- transact FAIL: %s", ex.what()); } //remove instances of the stop key from the result for (auto &resultArgs : result) { resultArgs.erase(SOAPY_REMOTE_KWARG_STOP); if (resultArgs.count("driver") != 0) { resultArgs["remote:driver"] = resultArgs.at("driver"); resultArgs.erase("driver"); } if (resultArgs.count("type") != 0) { resultArgs["remote:type"] = resultArgs.at("type"); resultArgs.erase("type"); } resultArgs["remote"] = url.toString(); } return result; }
std::vector<SDRDeviceInfo *> *SDREnumerator::enumerate_devices(std::string remoteAddr, bool noInit) { if (SDREnumerator::devs[remoteAddr].size()) { return &SDREnumerator::devs[remoteAddr]; } if (noInit) { return NULL; } if (!soapy_initialized) { std::cout << "SoapySDR init.." << std::endl; std::cout << "\tAPI Version: v" << SoapySDR::getAPIVersion() << std::endl; std::cout << "\tABI Version: v" << SoapySDR::getABIVersion() << std::endl; std::cout << "\tInstall root: " << SoapySDR::getRootPath() << std::endl; std::cout << "\tLoading modules... " << std::endl; std::string userModPath = wxGetApp().getModulePath(); if (userModPath != "") { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Loading SoapySDR modules from " + userModPath + ".."); std::vector<std::string> localMods = SoapySDR::listModules(userModPath); for (std::vector<std::string>::iterator mods_i = localMods.begin(); mods_i != localMods.end(); mods_i++) { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Initializing user specified SoapySDR module " + (*mods_i) + ".."); std::cout << "Initializing user specified SoapySDR module " << (*mods_i) << ".." << std::endl; SoapySDR::loadModule(*mods_i); } } else { #ifdef BUNDLE_SOAPY_MODS bool localModPref = wxGetApp().getUseLocalMod(); if (localModPref) { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Loading SoapySDR modules.."); std::cout << "Checking local system SoapySDR modules.." << std::flush; SoapySDR::loadModules(); } wxFileName exePath = wxFileName(wxStandardPaths::Get().GetExecutablePath()); std::vector<std::string> localMods = SoapySDR::listModules(exePath.GetPath().ToStdString() + "/modules/"); for (std::vector<std::string>::iterator mods_i = localMods.begin(); mods_i != localMods.end(); mods_i++) { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Initializing bundled SoapySDR module " + (*mods_i) + ".."); std::cout << "Loading bundled SoapySDR module " << (*mods_i) << ".." << std::endl; SoapySDR::loadModule(*mods_i); } if (!localModPref) { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Loading SoapySDR modules.."); std::cout << "Checking system SoapySDR modules.." << std::flush; SoapySDR::loadModules(); } #else wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Loading SoapySDR modules.."); SoapySDR::loadModules(); #endif } if (SDREnumerator::factories.size()) { SDREnumerator::factories.erase(SDREnumerator::factories.begin(), SDREnumerator::factories.end()); } std::cout << "\tAvailable factories..."; SoapySDR::FindFunctions factories = SoapySDR::Registry::listFindFunctions(); for (SoapySDR::FindFunctions::const_iterator it = factories.begin(); it != factories.end(); ++it) { if (it != factories.begin()) { std::cout << ", "; } std::cout << it->first; if (it->first == "remote") { has_remote = true; } SDREnumerator::factories.push_back(it->first); } if (factories.empty()) { std::cout << "No factories found!" << std::endl; } if ((factories.size() == 1) && factories.find("null") != factories.end()) { std::cout << "Just 'null' factory found." << std::endl; wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_FAILED, std::string("No modules available.")); } std::cout << std::endl; soapy_initialized = true; } modules = SoapySDR::listModules(); std::vector<SoapySDR::Kwargs> results; SoapySDR::Kwargs enumArgs; bool isRemote = false; if (remoteAddr.length()) { std::cout << "Enumerating remote address: " << remoteAddr << std::endl; enumArgs["driver"] = "remote"; enumArgs["remote"] = remoteAddr; isRemote = true; results = SoapySDR::Device::enumerate(enumArgs); } else { results = SoapySDR::Device::enumerate(); } int manualsIdx = results.size(); std::vector<std::string> manualParams; std::vector<bool> manualResult; if (manuals.size()) { for (std::vector<SDRManualDef>::const_iterator m_i = manuals.begin(); m_i != manuals.end(); m_i++) { std::vector<SoapySDR::Kwargs> manual_result; std::string strDevArgs = "driver="+m_i->factory+","+m_i->params; manualParams.push_back(m_i->params); wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Enumerating manual device '") + strDevArgs + "'.."); manual_result = SoapySDR::Device::enumerate(strDevArgs); if (manual_result.size()) { for (std::vector<SoapySDR::Kwargs>::const_iterator i = manual_result.begin(); i != manual_result.end(); i++) { results.push_back(*i); manualResult.push_back(true); } } else { SoapySDR::Kwargs failedEnum; failedEnum = argsStrToKwargs(strDevArgs); failedEnum["label"] = "Not Found ("+m_i->factory+")"; results.push_back(failedEnum); manualResult.push_back(false); } } } if (isRemote) { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Opening remote server ") + remoteAddr + ".."); } for (size_t i = 0; i < results.size(); i++) { SDRDeviceInfo *dev = new SDRDeviceInfo(); SoapySDR::Kwargs deviceArgs = results[i]; for (SoapySDR::Kwargs::const_iterator it = deviceArgs.begin(); it != deviceArgs.end(); ++it) { std::cout << " " << it->first << " = " << it->second << std::endl; if (it->first == "driver") { dev->setDriver(it->second); } else if (it->first == "label" || it->first == "device") { dev->setName(it->second); } } if (deviceArgs.count("remote")) { isRemote = true; } else { isRemote = false; } dev->setRemote(isRemote); dev->setManual(i>=manualsIdx); if (i>=manualsIdx) { dev->setManualParams(manualParams[i-manualsIdx]); } std::cout << "Make device " << i << std::endl; if (i<manualsIdx || manualResult[i-manualsIdx]) try { SoapySDR::Device *device = SoapySDR::Device::make(deviceArgs); SoapySDR::Kwargs info = device->getHardwareInfo(); for (SoapySDR::Kwargs::const_iterator it = info.begin(); it != info.end(); ++it) { std::cout << " " << it->first << "=" << it->second << std::endl; if (it->first == "hardware") { dev->setHardware(it->second); } } if (isRemote) { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Querying remote " + remoteAddr + " device #" + std::to_string(i) + ": " + dev-> getName()); } else { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Querying device #") + std::to_string(i) + ": " + dev->getName()); } SoapySDR::ArgInfoList settingsInfo = device->getSettingInfo(); DeviceConfig *cfg = wxGetApp().getConfig()->getDevice(dev->getDeviceId()); ConfigSettings devSettings = cfg->getSettings(); if (devSettings.size()) { for (ConfigSettings::const_iterator set_i = devSettings.begin(); set_i != devSettings.end(); set_i++) { deviceArgs[set_i->first] = set_i->second; } for (int j = 0; j < settingsInfo.size(); j++) { if (deviceArgs.find(settingsInfo[j].key) != deviceArgs.end()) { settingsInfo[j].value = deviceArgs[settingsInfo[j].key]; } } } dev->setDeviceArgs(deviceArgs); dev->setSettingsInfo(settingsInfo); int numChan = device->getNumChannels(SOAPY_SDR_RX); for (int i = 0; i < numChan; i++) { SDRDeviceChannel *chan = new SDRDeviceChannel(); SoapySDR::RangeList rfRange = device->getFrequencyRange(SOAPY_SDR_RX, i); double rfMin = rfRange[0].minimum(); double rfMax = rfRange[rfRange.size()-1].maximum(); chan->setChannel(i); chan->setFullDuplex(device->getFullDuplex(SOAPY_SDR_RX, i)); chan->setRx(true); chan->setTx(false); chan->getRFRange().setLow(rfMin); chan->getRFRange().setHigh(rfMax); std::vector<std::string> freqs = device->listFrequencies(SOAPY_SDR_RX,i); if (std::find(freqs.begin(), freqs.end(), "CORR") != freqs.end()) { chan->setCORR(true); } else { chan->setCORR(false); } if (device->hasDCOffsetMode(SOAPY_SDR_RX, i)) { chan->setHardwareDC(true); } else { chan->setHardwareDC(false); } std::vector<double> rates = device->listSampleRates(SOAPY_SDR_RX, i); for (std::vector<double>::iterator i = rates.begin(); i != rates.end(); i++) { chan->getSampleRates().push_back((long)(*i)); } ConfigSettings devStreamOpts = cfg->getStreamOpts(); if (devStreamOpts.size()) { dev->setStreamArgs(devStreamOpts); } SoapySDR::ArgInfoList optArgs = device->getStreamArgsInfo(SOAPY_SDR_RX, i); if (devStreamOpts.size()) { for (int j = 0, jMax = optArgs.size(); j < jMax; j++) { if (devStreamOpts.find(optArgs[j].key) != devStreamOpts.end()) { optArgs[j].value = devStreamOpts[optArgs[j].key]; } } } chan->setStreamArgsInfo(optArgs); std::vector<std::string> gainNames = device->listGains(SOAPY_SDR_RX, i); for (std::vector<std::string>::iterator gname = gainNames.begin(); gname!= gainNames.end(); gname++) { chan->addGain((*gname),device->getGainRange(SOAPY_SDR_RX, i, (*gname))); } dev->addChannel(chan); } SoapySDR::Device::unmake(device); dev->setAvailable(true); } catch (const std::exception &ex) { std::cerr << "Error making device: " << ex.what() << std::endl; wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Error querying device #") + std::to_string(i)); dev->setAvailable(false); } else { dev->setAvailable(false); } std::cout << std::endl; SDREnumerator::devs[remoteAddr].push_back(dev); } if (SDREnumerator::devs[remoteAddr].empty()) { wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("No devices found!")); } std::cout << std::endl; return &SDREnumerator::devs[remoteAddr]; }