水泵模拟服务器
// Copyright (C) 2018 basysKom GmbH, [email protected] // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR BSD-3-Clause #include "simulationserver.h" #include <qopen62541utils.h> #include <qopen62541valueconverter.h> #include <QtCore/QDebug> #include <QtCore/QLoggingCategory> #include <cstring> using namespace Qt::Literals::StringLiterals; // Node ID conversion is included from the open62541 plugin but warnings from there should be logged // using qt.opcua.testserver instead of qt.opcua.plugins.open62541 for usage in the test server Q_LOGGING_CATEGORY(QT_OPCUA_PLUGINS_OPEN62541, "qt.opcua.demoserver") DemoServer::DemoServer(QObject *parent) : QObject(parent) , m_state(DemoServer::MachineState::Idle) , m_percentFilledTank1(100) , m_percentFilledTank2(0) { m_timer.setInterval(0); m_timer.setSingleShot(false); m_machineTimer.setInterval(200); connect(&m_timer, &QTimer::timeout, this, &DemoServer::processServerEvents); } DemoServer::~DemoServer() { shutdown(); UA_Server_delete(m_server); UA_NodeId_clear(&m_percentFilledTank1Node); UA_NodeId_clear(&m_percentFilledTank2Node); UA_NodeId_clear(&m_tank2TargetPercentNode); UA_NodeId_clear(&m_tank2ValveStateNode); UA_NodeId_clear(&m_machineStateNode); } bool DemoServer::init() { m_server = UA_Server_new(); if (!m_server) return false; UA_StatusCode result = UA_ServerConfig_setMinimal(UA_Server_getConfig(m_server), 43344, nullptr); if (result != UA_STATUSCODE_GOOD) return false; return true; } void DemoServer::processServerEvents() { if (m_running) UA_Server_run_iterate(m_server, true); } void DemoServer::shutdown() { if (m_running) { UA_Server_run_shutdown(m_server); m_running = false; } } UA_NodeId DemoServer::addObject(const QString &parent, const QString &nodeString, const QString &browseName, const QString &displayName, const QString &description, quint32 referenceType) { UA_NodeId resultNode; UA_ObjectAttributes oAttr = UA_ObjectAttributes_default; oAttr.displayName = UA_LOCALIZEDTEXT_ALLOC("en-US", displayName.toUtf8().constData()); if (description.size()) oAttr.description = UA_LOCALIZEDTEXT_ALLOC("en-US", description.toUtf8().constData()); UA_StatusCode result; UA_NodeId requestedNodeId = Open62541Utils::nodeIdFromQString(nodeString); UA_NodeId parentNodeId = Open62541Utils::nodeIdFromQString(parent); UA_QualifiedName nodeBrowseName = UA_QUALIFIEDNAME_ALLOC(requestedNodeId.namespaceIndex, browseName.toUtf8().constData()); result = UA_Server_addObjectNode(m_server, requestedNodeId, parentNodeId, UA_NODEID_NUMERIC(0, referenceType), nodeBrowseName, UA_NODEID_NULL, oAttr, nullptr, &resultNode); UA_QualifiedName_clear(&nodeBrowseName); UA_NodeId_clear(&requestedNodeId); UA_NodeId_clear(&parentNodeId); UA_ObjectAttributes_clear(&oAttr); if (result != UA_STATUSCODE_GOOD) { qWarning() << "Could not add folder:" << nodeString << " :" << result; return UA_NODEID_NULL; } return resultNode; } UA_NodeId DemoServer::addVariable(const UA_NodeId &folder, const QString &variableNode, const QString &browseName, const QString &displayName, const QVariant &value, QOpcUa::Types type, quint32 referenceType) { UA_NodeId variableNodeId = Open62541Utils::nodeIdFromQString(variableNode); UA_VariableAttributes attr = UA_VariableAttributes_default; attr.value = QOpen62541ValueConverter::toOpen62541Variant(value, type); attr.displayName = UA_LOCALIZEDTEXT_ALLOC("en-US", displayName.toUtf8().constData()); attr.dataType = attr.value.type ? attr.value.type->typeId : UA_TYPES[UA_TYPES_BOOLEAN].typeId; attr.accessLevel = UA_ACCESSLEVELMASK_READ | UA_ACCESSLEVELMASK_WRITE; UA_QualifiedName variableName = UA_QUALIFIEDNAME_ALLOC(variableNodeId.namespaceIndex, browseName.toUtf8().constData()); UA_NodeId resultId; UA_StatusCode result = UA_Server_addVariableNode(m_server, variableNodeId, folder, UA_NODEID_NUMERIC(0, referenceType), variableName, UA_NODEID_NULL, attr, nullptr, &resultId); UA_NodeId_clear(&variableNodeId); UA_VariableAttributes_clear(&attr); UA_QualifiedName_clear(&variableName); if (result != UA_STATUSCODE_GOOD) { qWarning() << "Could not add variable:" << result; return UA_NODEID_NULL; } return resultId; } UA_StatusCode DemoServer::startPumpMethod(UA_Server *server, const UA_NodeId *sessionId, void *sessionHandle, const UA_NodeId *methodId, void *methodContext, const UA_NodeId *objectId, void *objectContext, size_t inputSize, const UA_Variant *input, size_t outputSize, UA_Variant *output) { Q_UNUSED(server); Q_UNUSED(sessionId); Q_UNUSED(sessionHandle); Q_UNUSED(methodId); Q_UNUSED(objectId); Q_UNUSED(objectContext); Q_UNUSED(inputSize); Q_UNUSED(input); Q_UNUSED(outputSize); Q_UNUSED(output); DemoServer *data = static_cast<DemoServer *>(methodContext); double targetValue = data->readTank2TargetValue(); if (data->m_state == MachineState::Idle && data->m_percentFilledTank1 > 0 && data->m_percentFilledTank2 < targetValue) { qDebug() << "Start pumping"; data->setState(MachineState::Pumping); data->m_machineTimer.start(); return UA_STATUSCODE_GOOD; } else { qDebug() << "Machine already running"; return UA_STATUSCODE_BADUSERACCESSDENIED; } } UA_StatusCode DemoServer::stopPumpMethod(UA_Server *server, const UA_NodeId *sessionId, void *sessionHandle, const UA_NodeId *methodId, void *methodContext, const UA_NodeId *objectId, void *objectContext, size_t inputSize, const UA_Variant *input, size_t outputSize, UA_Variant *output) { Q_UNUSED(server); Q_UNUSED(sessionId); Q_UNUSED(sessionHandle); Q_UNUSED(methodId); Q_UNUSED(objectId); Q_UNUSED(objectContext); Q_UNUSED(inputSize); Q_UNUSED(input); Q_UNUSED(outputSize); Q_UNUSED(output); DemoServer *data = static_cast<DemoServer *>(methodContext); if (data->m_state == MachineState::Pumping) { qDebug() << "Stopping"; data->m_machineTimer.stop(); data->setState(MachineState::Idle); return UA_STATUSCODE_GOOD; } else { qDebug() << "Nothing to stop"; return UA_STATUSCODE_BADUSERACCESSDENIED; } } UA_StatusCode DemoServer::flushTank2Method(UA_Server *server, const UA_NodeId *sessionId, void *sessionHandle, const UA_NodeId *methodId, void *methodContext, const UA_NodeId *objectId, void *objectContext, size_t inputSize, const UA_Variant *input, size_t outputSize, UA_Variant *output) { Q_UNUSED(server); Q_UNUSED(sessionId); Q_UNUSED(sessionHandle); Q_UNUSED(methodId); Q_UNUSED(objectId); Q_UNUSED(objectContext); Q_UNUSED(inputSize); Q_UNUSED(input); Q_UNUSED(outputSize); Q_UNUSED(output); DemoServer *data = static_cast<DemoServer *>(methodContext); double targetValue = data->readTank2TargetValue(); if (data->m_state == MachineState::Idle && data->m_percentFilledTank2 > targetValue) { data->setState(MachineState::Flushing); qDebug() << "Flushing tank 2"; data->setTank2ValveState(true); data->m_machineTimer.start(); return UA_STATUSCODE_GOOD; } else { qDebug() << "Unable to comply"; return UA_STATUSCODE_BADUSERACCESSDENIED; } } UA_StatusCode DemoServer::resetMethod(UA_Server *server, const UA_NodeId *sessionId, void *sessionHandle, const UA_NodeId *methodId, void *methodContext, const UA_NodeId *objectId, void *objectContext, size_t inputSize, const UA_Variant *input, size_t outputSize, UA_Variant *output) { Q_UNUSED(server); Q_UNUSED(sessionId); Q_UNUSED(sessionHandle); Q_UNUSED(methodId); Q_UNUSED(objectId); Q_UNUSED(objectContext); Q_UNUSED(inputSize); Q_UNUSED(input); Q_UNUSED(outputSize); Q_UNUSED(output); DemoServer *data = static_cast<DemoServer *>(methodContext); qDebug() << "Reset simulation"; data->setState(MachineState::Idle); data->m_machineTimer.stop(); data->setTank2ValveState(false); data->setPercentFillTank1(100); data->setPercentFillTank2(0); return UA_STATUSCODE_GOOD; } void DemoServer::setState(DemoServer::MachineState state) { UA_Variant val; m_state = state; UA_Variant_setScalarCopy(&val, &state, &UA_TYPES[UA_TYPES_UINT32]); UA_Server_writeValue(m_server, m_machineStateNode, val); } void DemoServer::setPercentFillTank1(double fill) { UA_Variant val; m_percentFilledTank1 = fill; UA_Variant_setScalarCopy(&val, &fill, &UA_TYPES[UA_TYPES_DOUBLE]); UA_Server_writeValue(this->m_server, this->m_percentFilledTank1Node, val); } void DemoServer::setPercentFillTank2(double fill) { UA_Variant val; m_percentFilledTank2 = fill; UA_Variant_setScalarCopy(&val, &fill, &UA_TYPES[UA_TYPES_DOUBLE]); UA_Server_writeValue(this->m_server, this->m_percentFilledTank2Node, val); } void DemoServer::setTank2ValveState(bool state) { UA_Variant val; UA_Variant_setScalarCopy(&val, &state, &UA_TYPES[UA_TYPES_BOOLEAN]); UA_Server_writeValue(this->m_server, this->m_tank2ValveStateNode, val); } double DemoServer::readTank2TargetValue() { UA_Variant var; UA_Server_readValue(m_server, m_tank2TargetPercentNode, &var); return static_cast<double *>(var.data)[0]; } UA_NodeId DemoServer::addMethod(const UA_NodeId &folder, const QString &variableNode, const QString &description, const QString &browseName, const QString &displayName, UA_MethodCallback cb, quint32 referenceType) { UA_NodeId methodNodeId = Open62541Utils::nodeIdFromQString(variableNode); UA_MethodAttributes attr = UA_MethodAttributes_default; attr.description = UA_LOCALIZEDTEXT_ALLOC("en-US", description.toUtf8().constData()); attr.displayName = UA_LOCALIZEDTEXT_ALLOC("en-US", displayName.toUtf8().constData()); attr.executable = true; UA_QualifiedName methodBrowseName = UA_QUALIFIEDNAME_ALLOC(methodNodeId.namespaceIndex, browseName.toUtf8().constData()); UA_NodeId resultId; UA_StatusCode result = UA_Server_addMethodNode(m_server, methodNodeId, folder, UA_NODEID_NUMERIC(0, referenceType), methodBrowseName, attr, cb, 0, nullptr, 0, nullptr, this, &resultId); UA_NodeId_clear(&methodNodeId); UA_MethodAttributes_clear(&attr); UA_QualifiedName_clear(&methodBrowseName); if (result != UA_STATUSCODE_GOOD) { qWarning() << "Could not add Method:" << result; return UA_NODEID_NULL; } return resultId; } void DemoServer::launch() { UA_StatusCode s = UA_Server_run_startup(m_server); if (s != UA_STATUSCODE_GOOD) qFatal("Could not launch server"); m_running = true; m_timer.start(); int ns1 = UA_Server_addNamespace(m_server, "Demo Namespace"); if (ns1 != 2) { qFatal("Unexpected namespace index for Demo namespace"); } UA_NodeId machineObject = addObject(QOpcUa::namespace0Id(QOpcUa::NodeIds::Namespace0::ObjectsFolder), u"ns=2;s=Machine"_s, u"Machine"_s, u"Machine"_s, u"The machine simulator"_s, UA_NS0ID_ORGANIZES); UA_NodeId tank1Object = addObject(u"ns=2;s=Machine"_s, u"ns=2;s=Machine.Tank1"_s, u"Tank1"_s, u"Tank 1"_s); UA_NodeId tank2Object = addObject(u"ns=2;s=Machine"_s, u"ns=2;s=Machine.Tank2"_s, u"Tank2"_s, u"Tank 2"_s); m_percentFilledTank1Node = addVariable(tank1Object, u"ns=2;s=Machine.Tank1.PercentFilled"_s, u"PercentFilled"_s, u"Tank 1 Fill Level"_s, 100.0, QOpcUa::Types::Double); m_percentFilledTank2Node = addVariable(tank2Object, u"ns=2;s=Machine.Tank2.PercentFilled"_s, u"PercentFilled"_s, u"Tank 2 Fill Level"_s, 0.0, QOpcUa::Types::Double); m_tank2TargetPercentNode = addVariable(tank2Object, u"ns=2;s=Machine.Tank2.TargetPercent"_s, u"TargetPercent"_s, u"Tank 2 Target Level"_s, 0.0, QOpcUa::Types::Double); m_tank2ValveStateNode = addVariable(tank2Object, u"ns=2;s=Machine.Tank2.ValveState"_s, u"ValveState"_s, u"Tank 2 Valve State"_s, false, QOpcUa::Types::Boolean); m_machineStateNode = addVariable(machineObject, u"ns=2;s=Machine.State"_s, u"State"_s, u"Machine State"_s, static_cast<quint32>(MachineState::Idle), QOpcUa::Types::UInt32); UA_NodeId tempId; tempId = addVariable(machineObject, u"ns=2;s=Machine.Designation"_s, u"Designation"_s, u"Machine Designation"_s, u"TankExample"_s, QOpcUa::Types::String); UA_NodeId_clear(&tempId); tempId = addMethod(machineObject, u"ns=2;s=Machine.Start"_s, u"Starts the pump"_s, u"Start"_s, u"Start Pump"_s, &startPumpMethod); UA_NodeId_clear(&tempId); tempId = addMethod(machineObject, u"ns=2;s=Machine.Stop"_s, u"Stops the pump"_s, u"Stop"_s, u"Stop Pump"_s, &stopPumpMethod); UA_NodeId_clear(&tempId); tempId = addMethod(machineObject, u"ns=2;s=Machine.FlushTank2"_s, u"Flushes tank 2"_s, u"FlushTank2"_s, u"Flush Tank 2"_s, &flushTank2Method); UA_NodeId_clear(&tempId); tempId = addMethod(machineObject, u"ns=2;s=Machine.Reset"_s, u"Resets the simulation"_s, u"Reset"_s, u"Reset Simulation"_s, &resetMethod); UA_NodeId_clear(&tempId); UA_NodeId_clear(&machineObject); UA_NodeId_clear(&tank1Object); UA_NodeId_clear(&tank2Object); QObject::connect(&m_machineTimer, &QTimer::timeout, this, [this]() { double targetValue = readTank2TargetValue(); if (m_state == MachineState::Pumping && m_percentFilledTank1 > 0 && m_percentFilledTank2 < targetValue) { setPercentFillTank1(m_percentFilledTank1 - 1); setPercentFillTank2(m_percentFilledTank2 + 1); if (qFuzzyIsNull(m_percentFilledTank1) || m_percentFilledTank2 >= targetValue) { setState(MachineState::Idle); m_machineTimer.stop(); } } else if (m_state == MachineState::Flushing && m_percentFilledTank2 > targetValue) { setPercentFillTank2(m_percentFilledTank2 - 1); if (m_percentFilledTank2 <= targetValue) { setTank2ValveState(false); setState(MachineState::Idle); m_machineTimer.stop(); } } }); }