/** @file * @author Edouard DUPIN * @copyright 2016, Edouard DUPIN, all right reserved * @license APACHE v2.0 (see license file) */ #include #include #include #include jus::Client::Client() : propertyIp(this, "ip", "127.0.0.1", "Ip to connect server", &jus::Client::onPropertyChangeIp), propertyPort(this, "port", 1983, "Port to connect server", &jus::Client::onPropertyChangePort), m_id(1) { m_interfaceClient.connect(this, &jus::Client::onClientData); } jus::Client::~Client() { } void jus::Client::onClientData(std::string _value) { JUS_DEBUG("Get answer : " << _value); ejson::Object obj(_value); jus::FutureBase future; uint64_t tid = obj["id"].toNumber().get(); if (tid == 0) { if (obj["error"].toString().get() == "PROTOCOL-ERROR") { JUS_ERROR("Get a Protocol error ..."); std::unique_lock lock(m_mutex); for (auto &it : m_pendingCall) { if (it.isValid() == false) { continue; } it.setAnswer(obj); } m_pendingCall.clear(); } else { JUS_ERROR("call with no ID ==> error ..."); } return; } { std::unique_lock lock(m_mutex); auto it = m_pendingCall.begin(); while (it != m_pendingCall.end()) { if (it->isValid() == false) { it = m_pendingCall.erase(it); continue; } if (it->getTransactionId() != tid) { ++it; continue; } future = *it; break; } } if (future.isValid() == false) { JUS_TODO("manage this event better ..."); //m_newData.push_back(std::move(_value)); return; } bool ret = future.setAnswer(obj); if (ret == true) { std::unique_lock lock(m_mutex); auto it = m_pendingCall.begin(); while (it != m_pendingCall.end()) { if (it->isValid() == false) { it = m_pendingCall.erase(it); continue; } if (it->getTransactionId() != tid) { ++it; continue; } it = m_pendingCall.erase(it); break; } } } jus::ServiceRemote jus::Client::getService(const std::string& _name) { return jus::ServiceRemote(this, _name); } bool jus::Client::link(const std::string& _serviceName) { // TODO : Check the number of connection of this service ... jus::Future ret = call("link", _serviceName); ret.wait(); if (ret.hasError() == true) { JUS_WARNING("Can not link with the service named: '" << _serviceName << "' ==> link error"); return false; } return ret.get(); } bool jus::Client::unlink(const std::string& _serviceName) { jus::Future ret = call("unlink", _serviceName); ret.wait(); if (ret.hasError() == true) { JUS_WARNING("Can not unlink with the service named: '" << _serviceName << "' ==> link error"); return false; } return ret.get(); } std::string jus::Client::asyncRead() { if (m_interfaceClient.isActive() == false) { return ""; } int32_t iii = 5000; while (iii>0) { usleep(10000); if (m_newData.size() != 0) { break; } --iii; } if (iii == 0) { // Time-out ... return ""; } std::string out; out = std::move(m_newData[0]); m_newData.erase(m_newData.begin()); JUS_DEBUG("get async data: " << out); return out; } void jus::Client::onPropertyChangeIp() { disconnect(); } void jus::Client::onPropertyChangePort(){ disconnect(); } bool jus::Client::connect(const std::string& _remoteUserToConnect){ disconnect(); JUS_DEBUG("connect [START]"); enet::Tcp connection = std::move(enet::connectTcpClient(*propertyIp, *propertyPort)); m_interfaceClient.setInterface(std::move(connection)); m_interfaceClient.connect(); jus::Future ret = call("connectToUser", _remoteUserToConnect, "jus-client"); ret.wait(); if (ret.hasError() == true) { JUS_WARNING("Can not connect to user named: '" << _remoteUserToConnect << "' ==> return error"); return false; } return ret.get(); } void jus::Client::disconnect() { JUS_DEBUG("disconnect [START]"); m_interfaceClient.disconnect(); JUS_DEBUG("disconnect [STOP]"); } uint64_t jus::Client::getId() { return m_id++; } class SendAsync { private: std::vector m_async; uint64_t m_transactionId; std::string m_service; uint32_t m_partId; public: SendAsync(uint64_t _transactionId, const std::string& _service, const std::vector& _async) : m_async(_async), m_transactionId(_transactionId), m_service(_service), m_partId(1) { } bool operator() (jus::TcpString* _interface){ auto it = m_async.begin(); while (it != m_async.end()) { bool ret = (*it)(_interface, m_service, m_transactionId, m_partId); if (ret == true) { // Remove it ... it = m_async.erase(it); } else { ++it; } m_partId++; } if (m_async.size() == 0) { ejson::Object obj; if (m_service != "") { obj.add("service", ejson::String(m_service)); } obj.add("id", ejson::Number(m_transactionId)); obj.add("part", ejson::Number(m_partId)); obj.add("finish", ejson::Boolean(true)); JUS_DEBUG("Send JSON '" << obj.generateHumanString() << "'"); _interface->write(obj.generateMachineString()); return true; } return false; } }; jus::FutureBase jus::Client::callJson(uint64_t _transactionId, ejson::Object _obj, const std::vector& _async, jus::FutureData::ObserverFinish _callback, const std::string& _service) { JUS_VERBOSE("Send JSON [START] "); if (m_interfaceClient.isActive() == false) { ejson::Object obj; obj.add("error", ejson::String("NOT-CONNECTED")); obj.add("error-help", ejson::String("Client interface not connected (no TCP)")); return jus::FutureBase(_transactionId, true, obj, _callback); } jus::FutureBase tmpFuture(_transactionId, _callback); { std::unique_lock lock(m_mutex); m_pendingCall.push_back(tmpFuture); } if (_async.size() != 0) { _obj.add("part", ejson::Number(0)); } JUS_DEBUG("Send JSON '" << _obj.generateHumanString() << "'"); m_interfaceClient.write(_obj.generateMachineString()); if (_async.size() != 0) { m_interfaceClient.addAsync(SendAsync(_transactionId, _service, _async)); } JUS_VERBOSE("Send JSON [STOP]"); return tmpFuture; }