void Settings::ParseInitConfig() { QFile launcherFile(DirectoryManager::GetInstance()->GetConfigDir() + InitFile); if (!launcherFile.open(QFile::ReadOnly)) { Logger::GetInstance()->AddLog(tr("Error read launcher config")); return; } YAML::Parser launcherParser; std::istringstream launcherStream(launcherFile.readAll().data()); launcherParser.Load(launcherStream); launcherFile.close(); YAML::Node launcherSettings; if (!launcherParser.GetNextDocument(launcherSettings)) { Logger::GetInstance()->AddLog(tr("Error parse launcher settings.")); return; } AppsConfig newConfig; const YAML::Node* pTimer = launcherSettings.FindValue(CONFIG_UPDATE_INTERVAL); if (pTimer) { QString interval; setString(interval, pTimer); m_nUpdateTimer = interval.toInt() * 60 * 1000; } const YAML::Node* Launcher = launcherSettings.FindValue(LAUNCHER); if (Launcher) { const YAML::Node* LauncherVer = Launcher->FindValue(LAUNCHER_VER); if (LauncherVer) setString(newConfig.m_Launcher.m_Version, LauncherVer); const YAML::Node* LauncherUrl = Launcher->FindValue(LAUNCHER_UPDATE_URL); if (LauncherUrl) setString(newConfig.m_Launcher.m_Url, LauncherUrl); } QFile docFile(DirectoryManager::GetInstance()->GetDocumentsDirectory() + InitFile); if(docFile.open(QFile::ReadOnly)) { YAML::Parser docParser; std::istringstream docStream(docFile.readAll().data()); docParser.Load(docStream); docFile.close(); YAML::Node docSettings; docParser.GetNextDocument(docSettings); ParseAppConfig(&docSettings, STABLE, newConfig.m_Stable); ParseAppConfig(&docSettings, QA, newConfig.m_Test); ParseAppConfig(&docSettings, DEVELOPMENT, newConfig.m_Development); ParseAppConfig(&docSettings, DEPENDENCIES, newConfig.m_Dependencies); } m_Config = newConfig; }
//---------------------------------------------------------------------------------- bool g3d::VoxelSpace_c::load(const std::string &FileName,YAML::Node &user_doc) { bool Res = true; mcv::MixedFileManager_c FManager; std::stringstream YamlHeader = FManager.Parse(FileName); if(YamlHeader.str().empty()) { std::cout << "VoxelSpace_c::load() Couldn't load File: " << FileName << std::endl; return false; } YAML::Parser parser; parser.Load(YamlHeader); parser.GetNextDocument(user_doc); YAML::Node doc; parser.GetNextDocument(doc); doc["VoxelSize"] >> VoxelSize; int TotalVoxels,vXv,vYv,vZv; doc["Xv"] >> vXv; doc["Yv"] >> vYv; doc["Zv"] >> vZv; doc["TotalVoxels"] >> TotalVoxels; int vNbFill; doc["NbFill"] >> vNbFill; EigenBox3D vBox; doc["VoxBox"] >> vBox; //This is the load SetUp as the data is the master with its Xv,Yv,Zv //and the <float> is not guarantied through text save and load //whether use double if more precision is needed but won't correct the text conversion issue //or save the critical information on data, but it becomes no more editable by the user //the remaining issue is the float -> text -> float conversion !!! ??? is this safe ? Reset(vBox.Low,vXv,vYv,vZv,VoxelSize);//will get Xv = vXv .... doc["TypeName"] >> TypeName; doc["ColorTable"] >> ColorTable; if(doc.FindValue("ClassesNames")) { doc["ClassesNames"] >> ClassesNames; }
// Called from the consumer since this class is a registered MessageListener. virtual void onMessage (const Message * message) throw () { static int count = 0; try { count++; const TextMessage * textMessage = dynamic_cast < const TextMessage * >(message); const BytesMessage * bytesMessage = dynamic_cast < const BytesMessage * >(message); string text = ""; if (bytesMessage != NULL) { //std::cout << bytesMessage->getBodyBytes(); //bytesMessage->reset(); size_t i = bytesMessage->getBodyLength (); printf ("%lu", i); ofstream ofs ("message.yaml", ofstream::out); for (int x = 1; x <= i; x++) { ofs << bytesMessage->readByte (); } ofs.flush (); ofs.close (); try { std::ifstream fin ("message.yaml"); //std::stringstream fin(std::string(bytesMessage->getBodyBytes())); YAML::Parser parser (fin); YAML::Node doc; // We assume only the first doc, need to check with doc.size parser.GetNextDocument (doc); /* Key: :agent Key: :body Key: :callerid Key: :collectiv Key: :filter Key: :hash Key: :msgtarget Key: :msgtime Key: :requestid Key: :senderid */ for (YAML::Iterator it = doc.begin (); it != doc.end (); ++it) { std::string key, value; it.first () >> key; std::cout << "Key: " << key << std::endl; } std::string requestid; std::string senderid; std::string msgtarget; doc[":msgtarget"] >> msgtarget; doc[":requestid"] >> requestid; doc[":senderid"] >> senderid; std::cout << msgtarget << std::endl << requestid << std:: endl << senderid << std::endl; // Body seems to be multiline string of yaml // Parsing strings http://stackoverflow.com/questions/2813030/yaml-cpp-parsing-strings std::string body; doc[":body"] >> body; std::stringstream bodystream (body); YAML::Parser bodyparser (bodystream); YAML::Node bodydoc; std::string action; bodyparser.GetNextDocument (bodydoc); bodydoc >> action; std::cout << action; // Construct YAML body YAML::Emitter reply_message_body_yaml; reply_message_body_yaml << "pong"; // Put it in a string std::string reply_message_body = reply_message_body_yaml.c_str(); std::cout << reply_message_body << std::endl; // Append PSK to it std::string psk = "unset"; std::string body_psk = reply_message_body; body_psk.append(psk); std::stringstream md5sumstream; // MD5 - https://gist.github.com/2389719 // but needs a real string // http://social.msdn.microsoft.com/Forums/en/Vsexpressvc/thread/e1774395-ba99-4fe6-98eb-2224a67984b9 unsigned char md5_result[MD5_DIGEST_LENGTH]; const unsigned char * constStr = reinterpret_cast<const unsigned char *> (body_psk.c_str()); MD5(constStr, body_psk.length() , md5_result); for (i=0; i < MD5_DIGEST_LENGTH; i++) { printf("%02x", md5_result[i]); char digit[2]; sprintf(digit,"%02x", md5_result[i]); md5sumstream << digit; } printf("\n"); std::cout << "md5 stream:" << md5sumstream.str() << std::endl; std::string hash = md5sumstream.str(); std::cout << "hash:" << hash << std::endl; YAML::Emitter reply_message_yaml; reply_message_yaml << YAML::BeginMap; reply_message_yaml << YAML::Key << ":msgtime"; reply_message_yaml << YAML::Value << 1010101; reply_message_yaml << YAML::Key << ":requestid"; reply_message_yaml << YAML::Value << requestid; reply_message_yaml << YAML::Key << ":body"; reply_message_yaml << YAML::Value << reply_message_body; reply_message_yaml << YAML::Key << ":senderid"; reply_message_yaml << YAML::Value << "mcpp"; reply_message_yaml << YAML::Key << ":senderagent"; reply_message_yaml << YAML::Value << "discovery"; reply_message_yaml << YAML::Key << ":msgtarget"; reply_message_yaml << YAML::Value << "/topic/mcollective.discovery.reply"; reply_message_yaml << YAML::Key << ":hash"; reply_message_yaml << YAML::Value << hash; reply_message_yaml << YAML::EndMap; // Put it in a string std::string reply_message = reply_message_yaml.c_str(); std::cout << reply_message << std::endl; // Get ready to send try { Connection* connection; Session* session; Destination* destination; MessageProducer* producer; // Create a ConnectionFactory std::string brokerURI = "tcp://127.0.0.1:6163" "?wireFormat=stomp"; auto_ptr<ConnectionFactory> connectionFactory( ConnectionFactory::createCMSConnectionFactory( brokerURI ) ); // Create a Connection connection = connectionFactory->createConnection ("mcollective", "marionette"); connection->start(); // Create a Session session = connection->createSession( Session::AUTO_ACKNOWLEDGE ); // Create the destination (Topic or Queue) destination = session->createTopic( "mcollective.discovery.reply" ); // Create a MessageProducer from the Session to the Topic or Queue producer = session->createProducer( destination ); producer->setDeliveryMode( DeliveryMode::NON_PERSISTENT ); // Create a messages BytesMessage* reply = session->createBytesMessage(); reply->writeString(reply_message.c_str()); producer->send( reply ); printf("reply send \n"); delete reply; }catch ( CMSException& e ) { e.printStackTrace(); } } catch (YAML::ParserException & e) { std::cout << e.what () << "\n"; } } if (textMessage != NULL) { text = textMessage->getText (); } else { text = "NOT A TEXTMESSAGE!"; //std::cout << message->getCMSType(); std::vector < string > v = message->getPropertyNames (); for (std::vector < string >::iterator it = v.begin (); it != v.end (); ++it) { std::cout << *it << std::endl; } } printf ("Message #%d Received: %s\n", count, text.c_str ()); }
YamlConfigurationNode * YamlConfiguration::read_yaml_file(std::string filename, bool ignore_missing, std::queue<LoadQueueEntry> &load_queue, std::string &host_file) { if (access(filename.c_str(), R_OK) == -1) { if (ignore_missing) { return NULL; } throw Exception(errno, "YamlConfig: cannot access file %s", filename.c_str()); } #ifdef HAVE_YAMLCPP_0_5 std::vector<YAML::Node> docs; #else std::ifstream fin(filename.c_str()); YAML::Parser parser; YAML::Node doc1, doc2; #endif bool have_doc1 = false, have_doc2 = false; try { #ifdef HAVE_YAMLCPP_0_5 docs = YAML::LoadAllFromFile(filename); have_doc1 = docs.size() > 0; have_doc2 = docs.size() > 1; #else parser.Load(fin); have_doc1 = parser.GetNextDocument(doc1); have_doc2 = parser.GetNextDocument(doc2); #endif } catch (YAML::ParserException &e) { throw CouldNotOpenConfigException("Failed to parse %s line %i column %i: %s", filename.c_str(), e.mark.line, e.mark.column, e.msg.c_str()); } YamlConfigurationNode *sub_root = NULL; if (! have_doc1) { //throw Exception("YamlConfig: file %s contains no document", filename.c_str()); // empty -> ignore } else if (have_doc1 && have_doc2) { // we have a meta info and a config document #ifdef HAVE_YAMLCPP_0_5 read_meta_doc(docs[0], load_queue, host_file); read_config_doc(docs[1], sub_root); #else read_meta_doc(doc1, load_queue, host_file); read_config_doc(doc2, sub_root); #endif } else { // only one, assume this to be the config document #ifdef HAVE_YAMLCPP_0_5 read_config_doc(docs[0], sub_root); #else read_config_doc(doc1, sub_root); #endif } return sub_root; }
int ConfigManager::readConfigFile(int fd, std::istream* stream) { YAML::Parser p; YAML::Node doc; int ret = 0; std::vector<v4l2_ext_control> controls; try { p.Load(*stream); } catch(YAML::Exception& e) { ROS_FATAL("Could not parse config file: %s", e.what()); return -1; } if(!p.GetNextDocument(doc)) { ROS_FATAL("Could not get YAML document"); return -1; } for(YAML::Iterator it = doc.begin(); it != doc.end(); ++it) { std::string key, value; try { (*it).begin().first() >> key; (*it).begin().second() >> value; } catch(YAML::Exception& e) { ROS_FATAL("Invalid parameter specification: %s", e.what()); return -1; } int ivalue = -1; calibration::CameraParam* info = getParamInfo(key); if(!info) { ROS_FATAL("Unknown parameter '%s' in config file, ignoring...", key.c_str()); continue; } ivalue = atoi(value.c_str()); info->value = ivalue; v4l2_ext_control control; memset(&control, 0, sizeof(control)); control.id = info->id; control.value = ivalue; controls.push_back(control); } v4l2_ext_controls request; memset(&request, 0, sizeof(request)); request.controls = &controls[0]; request.count = controls.size(); request.ctrl_class = V4L2_CTRL_CLASS_USER; if(ioctl(fd, VIDIOC_S_EXT_CTRLS, &request) != 0) { ROS_FATAL("Control setting failed. This may have happened at control 0x%X with value %d", controls[request.error_idx].id, controls[request.error_idx].value ); return -1; } ROS_INFO("Controls set successfully from config file"); return ret; }