nymea-zigbee/zigbee-cli/core.cpp

#include "core.h"
#include "loggingcategory.h"
#include "zigbeeutils.h"

#include <QCoreApplication>

Core::Core(const QString &serialPort, qint32 baudrate, const int &channel, QObject *parent) :
    QObject(parent),
    m_serialPort(serialPort),
    m_baudRate(baudrate)
{
    m_channelMask = 0;
    m_channelMask |= 1 << (channel);

    m_network = ZigbeeNetworkManager::createZigbeeNetwork(ZigbeeNetworkManager::BackendTypeNxp, this);
    m_network->setSerialPortName(serialPort);
    m_network->setSerialBaudrate(baudrate);
    m_network->setSettingsFileName("/tmp/zigbee.conf");

    qDebug() << "Starting network";
    m_network->startNetwork();


    //m_manager = new ZigbeeNetworkManager(channel, controller, this);

    // Set commands
//    TerminalCommand runCommand("run", "Run the zigbee controller in a normal non interactive mode.");
//    QStringList optionalParams;
//    optionalParams.append("router");
//    optionalParams.append("coordinator");
//    runCommand.setOptionalParameters(optionalParams);

//    m_commands.append(runCommand);
//    m_commands.append(TerminalCommand("start", "Start the zigbee network"));
//    m_commands.append(TerminalCommand("reset", "Reset the zigbee controller"));
//    m_commands.append(TerminalCommand("scan", "Start scanning for zigbee networks"));
//    m_commands.append(TerminalCommand("version", "Print the version of the zigbee controll bridge firmware"));
//    m_commands.append(TerminalCommand("network-info", "Print all information of the zigbee network."));
//    m_commands.append(TerminalCommand("list-nodes", "List all nodes and information of the current network"));
//    m_commands.append(TerminalCommand("permit-join", "Permit nodes to join the network"));
//    m_commands.append(TerminalCommand("touch-link", "Initiate touch link pairing"));
//    m_commands.append(TerminalCommand("reset-touchlink", "Touch link factory reset"));
//    m_commands.append(TerminalCommand("whitelist", "Enable the white list joining"));
//    m_commands.append(TerminalCommand("address-request", "Request network address on host node"));
//    m_commands.append(TerminalCommand("matchdescriptor", "Request match descriptors"));
//    m_commands.append(TerminalCommand("init-node", "Request simple descriptors"));
//    m_commands.append(TerminalCommand("lqi", "Request link quality"));
//    m_commands.append(TerminalCommand("toggle", "Request to toggle"));
//    m_commands.append(TerminalCommand("authenticate", "Authenticate device with given IEEE address"));

//    TerminalCommander::instance()->setCommands(m_commands);
//    TerminalCommander::instance()->start();

//    connect(TerminalCommander::instance(), &TerminalCommander::commandReceived, this, &Core::onCommandReceived);
//    connect(TerminalCommander::instance(), &TerminalCommander::finished, QCoreApplication::instance(), &QCoreApplication::quit);
}

//ZigbeeNode *Core::findNode(const QString &shortAddressString)
//{
//    foreach (ZigbeeNode *node, m_manager->nodeList()) {
//        if (ZigbeeUtils::convertUint16ToHexString(node->shortAddress()) == shortAddressString) {
//            return node;
//        }
//    }

//    return nullptr;
//}

//void Core::onCommandReceived(const QStringList &tokens)
//{
//    TerminalCommand command;
//    foreach (const TerminalCommand &terminalCommand, m_commands) {
//        if (tokens.first() == terminalCommand.command()) {
//            command = terminalCommand;
//            break;
//        }
//    }

//    if (!command.isValid()) {
//        qCWarning(dcZigbee()) << "Unknown command" << tokens;
//        return;
//    }

//    // TODO: Process command
//    qCDebug(dcZigbee()) << "Executing" << tokens.join(" ");

//    if (command.command() == "run") {

//        ZigbeeNetworkManager::NodeType nodeType = ZigbeeNetworkManager::NodeTypeCoordinator;
//        if (tokens.count() > 1) {
//            if (!command.optionalParameters().contains(tokens.at(1))) {
//                qCWarning(dcZigbee()) << "Unknown paramter" << tokens.at(1);
//                return;
//            }

//            if (tokens.at(1) == "router") {
//                nodeType = ZigbeeNetworkManager::NodeTypeRouter;
//            }
//        }

//        m_manager->erasePersistentData();
//        m_manager->getVersion();
//        m_manager->setExtendedPanId(m_manager->extendedPanId());
//        m_manager->setChannelMask(0x2108800);
//        m_manager->setDeviceType(nodeType);
//        // Note: this is the leaked philips ZLL master key
//        //m_manager->setInitialSecurity(3, 0, 1, "9F5595F10257C8A469CBF42BC93FEE31");
//        m_manager->setInitialSecurity(4, 0, 1, "5A6967426565416C6C69616E63653039");

//    } else if (command.command() == "start") {
//        m_manager->startNetwork();
//    } else if (command.command() == "version") {
//        m_manager->getVersion();
//    } else if (command.command() == "network-info") {
//        qCDebug(dcZigbee()).nospace().noquote() << "Network controller: " << m_manager->serialPort() << ", Bridge version: " << m_manager->controllerVersion();
//    } else if (command.command() == "scan") {
//        m_manager->startScan();
//    } else if (command.command() == "reset") {
//        m_manager->resetController();
//    } else if (command.command() == "permit-join") {
//        m_manager->permitJoining(0x0000, 180, true);
//    } else if (command.command() == "touch-link") {
//        m_manager->initiateTouchLink();
//    } else if (command.command() == "reset-touchlink") {
//        m_manager->touchLinkFactoryReset();
//    } else if (command.command() == "whitelist") {
//        m_manager->enableWhitelist();
//    } else if (command.command() == "address-request") {
//        if (tokens.count() == 1) {
//            m_manager->networkAddressRequest(0, m_manager->extendedAddress().toUInt64());
//            return;
//        }
//        ZigbeeNode *node = findNode(tokens.at(1));
//        if (!node) {
//            qCWarning(dcZigbee()) << "Could not find node with short address tokens.at(1)";
//            return;
//        }

//        m_manager->networkAddressRequest(node->shortAddress(), node->extendedAddress().toUInt64());

//    } else if (command.command() == "toggle") {
//        if (tokens.count() < 3) {
//            qCWarning(dcZigbee()) << "Please specify also the node short address and adressMode";
//            return;
//        }


//        ZigbeeNode *node = findNode(tokens.at(1));
//        if (!node) {
//            qCWarning(dcZigbee()) << "Could not find node with short address tokens.at(1)";
//            return;
//        }

//        int addressMode = QString(tokens.at(2)).toInt();

//        node->toggle(addressMode);

//    } else if (command.command() == "lqi") {
//        m_manager->requestLinkQuality();
//    } else if (command.command() == "init-node") {
//        if (tokens.count() == 1) {
//            qCWarning(dcZigbee()) << "Please specify also the node short address";
//            return;
//        }

//        ZigbeeNode *node = findNode(tokens.at(1));
//        if (!node) {
//            qCWarning(dcZigbee()) << "Could not find node with short address tokens.at(1)";
//            return;
//        }

//        node->init();

//    } else if (command.command() == "matchdescriptor") {
//        m_manager->requestMatchDescriptor(0x9004, Zigbee::ZigbeeProfileLightLink);
//        //m_manager->requestMatchDescriptor(0xFFFD, Zigbee::ZigbeeProfileLightLink);

//    } else if (command.command() == "authenticate") {
//        if (tokens.count() == 1) {
//            qCWarning(dcZigbee()) << "Please specify also the node short address";
//            return;
//        }

//        m_manager->authenticateDevice(ZigbeeAddress(tokens.at(1)));

//    } else if (command.command() == "list-nodes") {
//        qCDebug(dcZigbee()) << "--> Host:" << m_manager;

//        foreach (ZigbeeNode *node, m_manager->nodeList()) {
//            qCDebug(dcZigbee()) << "    -->" << node;
//        }
//    }

//}