sensorconfig.cpp 55.8 KB
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//================================================================================
// Name        : sensorconfig.cpp
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// Author      : Axel Auweter, Daniele Tafani
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// Contact     : info@dcdb.it
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// Copyright   : Leibniz Supercomputing Centre
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// Description : C++ API implementation for configuring libdcdb public sensors.
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//================================================================================

//================================================================================
// This file is part of DCDB (DataCenter DataBase)
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// Copyright (C) 2011-2019 Leibniz Supercomputing Centre
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//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
//================================================================================
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#include <cstring>
#include <iostream>
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#include <algorithm>
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#include <string>
#include <list>
#include <unordered_set>
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#include <utility>
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#include "cassandra.h"
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#include <boost/regex.hpp>
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#include "sensorconfig_internal.h"
#include "dcdbglobals.h"
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#include "dcdbendian.h"
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#include "dcdb/virtualsensor.h"
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using namespace DCDB;

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/*
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 * PublicSensor functions.
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 */
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PublicSensor::PublicSensor()
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{
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    name = "";
    is_virtual = false;
    pattern = "";
    scaling_factor = 1.0;
    unit = "";
    sensor_mask = 0;
    expression = "";
    v_sensorid = "";
    t_zero = 0;
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    interval = 0;
    ttl = 0;
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}

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PublicSensor::PublicSensor (const PublicSensor &copy)
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{
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    name = copy.name;
    is_virtual = copy.is_virtual;
    pattern = copy.pattern;
    scaling_factor = copy.scaling_factor;
    unit = copy.unit;
    sensor_mask = copy.sensor_mask;
    expression = copy.expression;
    v_sensorid = copy.v_sensorid;
    t_zero = copy.t_zero;
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    interval = copy.interval;
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    operations = copy.operations;
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    ttl = copy.ttl;
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}


/*
 * SensorConfig functions
 */
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SCError SensorConfig::loadCache()
{
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    return impl->loadCache();
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}

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SCError SensorConfig::publishSensor(const char* publicName, const char* sensorPattern)
{
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    return impl->publishSensor(publicName, sensorPattern);
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}

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SCError SensorConfig::publishSensor(const PublicSensor& sensor)
{
    return impl->publishSensor(sensor);
}

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SCError SensorConfig::publishSensor(const SensorMetadata& sensor)
{
    return impl->publishSensor(sensor);
}

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SCError SensorConfig::publishVirtualSensor(const char* publicName, const char* vSensorExpression, const char* vSensorId, TimeStamp tZero, uint64_t interval)
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{
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    return impl->publishVirtualSensor(publicName, vSensorExpression, vSensorId, tZero, interval);
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}

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SCError SensorConfig::unPublishSensor(const char* publicName)
{
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    return impl->unPublishSensor(publicName);
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}

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SCError SensorConfig::getPublicSensorNames(std::list<std::string>& publicSensors)
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{
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    return impl->getPublicSensorNames(publicSensors);
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}

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SCError SensorConfig::getPublicSensorsVerbose(std::list<PublicSensor>& publicSensors)
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{
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    return impl->getPublicSensorsVerbose(publicSensors);
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}

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SCError SensorConfig::getPublicSensorByName(PublicSensor& sensor, const char* publicName)
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{
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    return impl->getPublicSensorByName(sensor, publicName);
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}

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SCError SensorConfig::getPublicSensorByPattern(PublicSensor& sensor, const char* pattern)
{
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    return impl->getPublicSensorByPattern(sensor, pattern);
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}

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SCError SensorConfig::getPublicSensorsByWildcard(std::list<PublicSensor>& sensors, const char* wildcard)
{
    return impl->getPublicSensorsByWildcard(sensors, wildcard);
}

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SCError SensorConfig::isVirtual(bool& isVirtual, std::string publicName)
{
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    return impl->isVirtual(isVirtual, publicName);
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}

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SCError SensorConfig::getSensorPattern(std::string& pattern, std::string publicName)
{
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    return impl->getSensorPattern(pattern, publicName);
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}

SCError SensorConfig::getSensorListForPattern(std::list<SensorId>& sensorIds, std::string pattern)
{
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    return impl->getSensorListForPattern(sensorIds, pattern);
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}

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SCError SensorConfig::getSensorListForPattern(std::list<SensorId>& sensorIds, std::string pattern, TimeStamp start, TimeStamp end)
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{
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    return impl->getSensorListForPattern(sensorIds, pattern, start, end);
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}

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SCError SensorConfig::setSensorScalingFactor(std::string publicName, double scalingFactor) {
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    return impl->setSensorScalingFactor(publicName, scalingFactor);
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}

SCError SensorConfig::setSensorUnit(std::string publicName, std::string unit)
{
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    return impl->setSensorUnit(publicName, unit);
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}

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SCError SensorConfig::setSensorMask(std::string publicName, uint64_t mask)
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{
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    return impl->setSensorMask(publicName, mask);
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}

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SCError SensorConfig::setOperations(std::string publicName, std::set<std::string> operations)
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{
    return impl->setOperations(publicName,operations);
}

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SCError SensorConfig::clearOperations(std::string publicName)
{
    return impl->clearOperations(publicName);
}

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SCError SensorConfig::setTimeToLive(std::string publicName, uint64_t ttl)
{
    return impl->setTimeToLive(publicName, ttl);
}

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SCError SensorConfig::setVirtualSensorExpression(std::string publicName, std::string expression)
{
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    return impl->setVirtualSensorExpression(publicName, expression);
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}

SCError SensorConfig::setVirtualSensorTZero(std::string publicName, TimeStamp tZero)
{
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    return impl->setVirtualSensorTZero(publicName, tZero);
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}

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SCError SensorConfig::setSensorInterval(std::string publicName, uint64_t interval)
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{
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    return impl->setSensorInterval(publicName, interval);
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}

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SensorConfig::SensorConfig(Connection* conn)
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{
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    /* Allocate impl object */
    impl = new SensorConfigImpl(conn);
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}

SensorConfig::~SensorConfig()
{
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    if (impl) {
        delete impl;
    }
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}

/*
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 * SensorConfigImpl protected members and functions
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 */

/*
 * Validate the pattern for a Sensor to be published
 * Patterns may only consist of hex numbers and forward slashes
 * and at most one wildcard character (*). Also, the total number of
 * bits may not exceed 128.
 */
bool SensorConfigImpl::validateSensorPattern(const char* sensorPattern)
{
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    unsigned int wildcards, seps;

    /* Iterate through the string and validate/count the characters */
    wildcards = 0, seps = 0;
    for (unsigned int c = 0; c < strlen(sensorPattern); c++) {
        switch (sensorPattern[c]) {
            case '*':
                wildcards++;
                break;
            case '/':
                seps++;
                break;
                /* Everything else is allowed */
            default:
                break;
        }
    }
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    /* More than one wildcard is not allowed */
    if (wildcards > 1)
        return false;
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    if (strlen(sensorPattern) - seps > MAX_PATTERN_LENGTH)
        return false;
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    /* Looks good */
    return true;
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}

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/*
 * Validate the public name of a sensor.
 */
bool SensorConfigImpl::validateSensorPublicName(std::string publicName)
{
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    return true;
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}
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/*
 * SensorConfigImpl public functions
 */
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SCError SensorConfigImpl::loadCache()
{
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    sensorList.clear();
    sensorMapByName.clear();
    sensorMapByPattern.clear();

    SCError rc = getPublicSensorsVerbose(sensorList);
    if (rc != SC_OK) {
        return rc;
    } else {
        for (auto& s: sensorList) {
            sensorMapByName.insert(std::make_pair(s.name, std::ref(s)));
            sensorMapByPattern.insert(std::make_pair(s.pattern, std::ref(s)));
        }
        return SC_OK;
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    }
}

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SCError SensorConfigImpl::publishSensor(std::string publicName, std::string sensorPattern)
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{
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    /* Check if the pattern matches the requirements */
    SensorId sid;
    if (!validateSensorPattern(sensorPattern.c_str()) || !sid.mqttTopicConvert(sensorPattern)) {
        return SC_INVALIDPATTERN;
    }

    /* Check if the publicName is valid */
    if (!validateSensorPublicName(publicName.c_str())) {
        return SC_INVALIDPUBLICNAME;
    }

    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }
    
    /* Insert the entry */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "INSERT INTO " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " (name, pattern, virtual) VALUES (?,?, FALSE);";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        return SC_UNKNOWNERROR;
    } else {
        prepared = cass_future_get_prepared(future);
    }

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    cass_future_free(future);

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    statement = cass_prepared_bind(prepared);
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    cass_statement_bind_string_by_name(statement, "name", publicName.c_str());
    cass_statement_bind_string_by_name(statement, "pattern", sid.getId().c_str());
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    future = cass_session_execute(session, statement);
    cass_future_wait(future);
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    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
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        cass_prepared_free(prepared);
        cass_future_free(future);
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        cass_statement_free(statement);

        return SC_UNKNOWNERROR;
    }

    cass_prepared_free(prepared);
    cass_future_free(future);
    cass_statement_free(statement);

    return SC_OK;
}

SCError SensorConfigImpl::publishSensor(const PublicSensor& sensor)
{
    /* Check if the pattern matches the requirements */
    SensorId sid;
    if (!validateSensorPattern(sensor.pattern.c_str()) || !sid.mqttTopicConvert(sensor.pattern)) {
        return SC_INVALIDPATTERN;
    }

    /* Check if the publicName is valid */
    if (!validateSensorPublicName(sensor.name.c_str())) {
        return SC_INVALIDPUBLICNAME;
    }

    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Insert the entry */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
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    const char* query = "INSERT INTO " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " (name, pattern, virtual, scaling_factor, unit, sensor_mask, interval, ttl) VALUES (?,?, FALSE, ?, ?, ?, ?, ?);";
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    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        return SC_UNKNOWNERROR;
    } else {
        prepared = cass_future_get_prepared(future);
    }

    cass_future_free(future);

    statement = cass_prepared_bind(prepared);

    cass_statement_bind_string_by_name(statement, "name", sensor.name.c_str());
    cass_statement_bind_string_by_name(statement, "pattern", sid.getId().c_str());
    cass_statement_bind_double_by_name(statement, "scaling_factor", sensor.scaling_factor);
    cass_statement_bind_string_by_name(statement, "unit", sensor.unit.c_str());
    cass_statement_bind_int64_by_name(statement, "sensor_mask", sensor.sensor_mask);
    cass_statement_bind_int64_by_name(statement, "interval", sensor.interval);
    cass_statement_bind_int64_by_name(statement, "ttl", sensor.ttl);
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    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);

        cass_prepared_free(prepared);
        cass_future_free(future);
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        cass_statement_free(statement);

        return SC_UNKNOWNERROR;
    }

    cass_prepared_free(prepared);
    cass_future_free(future);
    cass_statement_free(statement);

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    // Operations are inserted as an update statement, if required
    if(sensor.operations.size() > 0)
        return setOperations(sensor.name, sensor.operations);
    else
        return SC_OK;
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}

SCError SensorConfigImpl::publishSensor(const SensorMetadata& sensor)
{
    /* Check if the pattern matches the requirements */
    SensorId sid;
    if (!sensor.getPattern() || !validateSensorPattern(sensor.getPattern()->c_str()) || !sid.mqttTopicConvert(*sensor.getPattern())) {
        return SC_INVALIDPATTERN;
    }

    /* Check if the publicName is valid */
    if (!sensor.getPublicName() || !validateSensorPublicName(sensor.getPublicName()->c_str())) {
        return SC_INVALIDPUBLICNAME;
    }

    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Insert the entry */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    
    std::string queryBuf = "INSERT INTO " + std::string(CONFIG_KEYSPACE_NAME) + "." + std::string(CF_PUBLISHEDSENSORS) + " (name, pattern, virtual";
    std::string valuesBuf = ") VALUES (?, ?, FALSE";
    std::string closingBuf = ");";
            
    if(sensor.getScale()) {
        queryBuf += ", scaling_factor";
        valuesBuf += ", ?";
    }
    if(sensor.getUnit()) {
        queryBuf += ", unit";
        valuesBuf += ", ?";
    }
    if(sensor.getIntegrable() || sensor.getMonotonic()) {
        queryBuf += ", sensor_mask";
        valuesBuf += ", ?";
    }
    if(sensor.getInterval()) {
        queryBuf += ", interval";
        valuesBuf += ", ?";
    }
    if(sensor.getTTL()) {
        queryBuf += ", ttl";
        valuesBuf += ", ?";
    }
    
    std::string query = queryBuf + valuesBuf + closingBuf;

    future = cass_session_prepare(session, query.c_str());
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        return SC_UNKNOWNERROR;
    } else {
        prepared = cass_future_get_prepared(future);
    }

    cass_future_free(future);

    statement = cass_prepared_bind(prepared);
    cass_statement_bind_string_by_name(statement, "name", sensor.getPublicName()->c_str());
    cass_statement_bind_string_by_name(statement, "pattern", sid.getId().c_str());
    
    if(sensor.getScale())
        cass_statement_bind_double_by_name(statement, "scaling_factor", *sensor.getScale());
    if(sensor.getUnit())
        cass_statement_bind_string_by_name(statement, "unit", sensor.getUnit()->c_str());
    if(sensor.getInterval())
        cass_statement_bind_int64_by_name(statement, "interval", *sensor.getInterval());
    if(sensor.getTTL())
        cass_statement_bind_int64_by_name(statement, "ttl", *sensor.getTTL());
    if(sensor.getIntegrable() || sensor.getMonotonic()) {
        uint64_t sensorMask = 0;
        if(sensor.getIntegrable())
            sensorMask = sensorMask | INTEGRABLE;
        if(sensor.getMonotonic())
            sensorMask = sensorMask | MONOTONIC;
        cass_statement_bind_int64_by_name(statement, "sensor_mask", sensorMask);
    }
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    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);

        cass_prepared_free(prepared);
        cass_future_free(future);
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        cass_statement_free(statement);

        return SC_UNKNOWNERROR;
    }
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    cass_prepared_free(prepared);
    cass_future_free(future);
    cass_statement_free(statement);
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    // Operations are inserted as an update statement, if required
    if(sensor.getOperations() && sensor.getOperations()->size()>0)
        return setOperations(*sensor.getPublicName(), *sensor.getOperations());
    else
        return SC_OK;
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}

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SCError SensorConfigImpl::publishVirtualSensor(std::string publicName, std::string vSensorExpression, std::string vSensorId, TimeStamp tZero, uint64_t interval)
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{
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    /* Check if the publicName is valid */
    if (!validateSensorPublicName(publicName.c_str())) {
        return SC_INVALIDPUBLICNAME;
    }

    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Validate vSensorExpression */
    try {
        VSensorExpression vsExp(connection, vSensorExpression);

        /* Check that it is not recursive-pointing to itself */
        std::unordered_set<std::string> inputSet;
        vsExp.getInputsRecursive(inputSet);
        std::unordered_set<std::string>::const_iterator found = inputSet.find(publicName);
        if (found != inputSet.end()) {
            return SC_EXPRESSIONSELFREF;
        }
    }
    catch (std::exception& e) {
        std::cout << e.what();
        return SC_INVALIDEXPRESSION;
    }

    /* Check if the vSensorId is valid */
    SensorId vSensor;
    if (!vSensor.mqttTopicConvert(vSensorId)) {
        return SC_INVALIDVSENSORID;
    }

    /* Insert the entry */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
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    const char* query = "INSERT INTO " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " (name, expression, vsensorid, tzero, interval, virtual) VALUES (?,?,?,?,?,TRUE);";
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    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        return SC_UNKNOWNERROR;
    } else {
        prepared = cass_future_get_prepared(future);
    }

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    cass_future_free(future);

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    statement = cass_prepared_bind(prepared);
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    cass_statement_bind_string_by_name(statement, "name", publicName.c_str());
    cass_statement_bind_string_by_name(statement, "expression", vSensorExpression.c_str());
    cass_statement_bind_string_by_name(statement, "vsensorid", vSensorId.c_str());
    cass_statement_bind_int64_by_name(statement, "tzero", tZero.getRaw());
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    cass_statement_bind_int64_by_name(statement, "interval", interval);
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    future = cass_session_execute(session, statement);
    cass_future_wait(future);
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    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
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        cass_prepared_free(prepared);
        cass_future_free(future);
        cass_statement_free(statement);

        return SC_UNKNOWNERROR;
    }
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    cass_prepared_free(prepared);
    cass_future_free(future);
    cass_statement_free(statement);

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    return SC_OK;
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}


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SCError SensorConfigImpl::unPublishSensor(std::string publicName)
{
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    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Remove the entry */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "DELETE FROM " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " WHERE name = ? ;";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        return SC_UNKNOWNERROR;
    } else {
        prepared = cass_future_get_prepared(future);
    }

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    cass_future_free(future);

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    statement = cass_prepared_bind(prepared);

    cass_statement_bind_string_by_name(statement, "name", publicName.c_str());
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    future = cass_session_execute(session, statement);
    cass_future_wait(future);
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    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
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        cass_prepared_free(prepared);
        cass_future_free(future);
        cass_statement_free(statement);
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        return SC_UNKNOWNERROR;
    }
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    cass_prepared_free(prepared);
    cass_future_free(future);
    cass_statement_free(statement);

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    return SC_OK;
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}

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SCError SensorConfigImpl::getPublicSensorNames(std::list<std::string>& publicSensors)
{
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    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Clear the list */
    publicSensors.clear();

    /* Fill the list with all public sensors */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const char* query = "SELECT name FROM " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " ;";

    statement = cass_statement_new(query, 0);

    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        cass_statement_free(statement);
        return SC_UNKNOWNERROR;
    } else {
        const CassResult* result = cass_future_get_result(future);
        CassIterator* iterator = cass_iterator_from_result(result);

        while (cass_iterator_next(iterator)) {
            const char* name;
            size_t      name_len;

            const CassRow* row = cass_iterator_get_row(iterator);

            if (cass_value_get_string(cass_row_get_column_by_name(row, "name"), &name, &name_len) != CASS_OK) {
                name = ""; name_len = 0;
            }

            publicSensors.push_back(std::string(name, name_len));
        }
        cass_result_free(result);
        cass_iterator_free(iterator);
    }

    cass_future_free(future);
    cass_statement_free(statement);
    return SC_OK;
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}

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SCError SensorConfigImpl::getPublicSensorsVerbose(std::list<PublicSensor>& publicSensors)
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{
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    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Clear the list */
    publicSensors.clear();

    /* Fill the list with all public sensors */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const char* query = "SELECT * FROM " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " ;";

    statement = cass_statement_new(query, 0);

    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        cass_statement_free(statement);
        return SC_UNKNOWNERROR;
    } else {
        const CassResult* result = cass_future_get_result(future);
        CassIterator* iterator = cass_iterator_from_result(result);

        while (cass_iterator_next(iterator)) {
            const char* name;
            size_t      name_len;
            cass_bool_t is_virtual;
            const char* pattern;
            size_t      pattern_len;
            double      scaling_factor;
            const char* unit;
            size_t      unit_len;
            int64_t     sensor_mask;
            const char* expression;
            size_t      expression_len;
            const char* vsensorid;
            size_t      vsensorid_len;
            int64_t     tzero;
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            int64_t     interval;
            int64_t     ttl;
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            set<string> operations;
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            PublicSensor sensor;

            const CassRow* row = cass_iterator_get_row(iterator);

            if (cass_value_get_string(cass_row_get_column_by_name(row, "name"), &name, &name_len) != CASS_OK) {
                name = ""; name_len = 0;
            }
            if (cass_value_get_bool(cass_row_get_column_by_name(row, "virtual"), &is_virtual) != CASS_OK) {
                is_virtual = cass_false;
            }
            if (cass_value_get_string(cass_row_get_column_by_name(row, "pattern"), &pattern, &pattern_len) != CASS_OK) {
                pattern = ""; pattern_len = 0;
            }
            if (cass_value_get_double(cass_row_get_column_by_name(row, "scaling_factor"), &scaling_factor) != CASS_OK) {
                scaling_factor = 1.0;
            }
            if (cass_value_get_string(cass_row_get_column_by_name(row, "unit"), &unit, &unit_len) != CASS_OK) {
                unit = ""; unit_len = 0;
            }
            if (cass_value_get_int64(cass_row_get_column_by_name(row, "sensor_mask"), &sensor_mask) != CASS_OK) {
                sensor_mask = 0;
            }
            if (cass_value_get_string(cass_row_get_column_by_name(row, "expression"), &expression, &expression_len) != CASS_OK) {
                expression = ""; expression_len = 0;
            }
            if (cass_value_get_string(cass_row_get_column_by_name(row, "vsensorid"), &vsensorid, &vsensorid_len) != CASS_OK) {
                vsensorid = ""; vsensorid_len = 0;
            }
            if (cass_value_get_int64(cass_row_get_column_by_name(row, "tzero"), &tzero) != CASS_OK) {
                tzero = 0;
            }
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            if (cass_value_get_int64(cass_row_get_column_by_name(row, "interval"), &interval) != CASS_OK) {
                interval = 0;
            }
            if (cass_value_get_int64(cass_row_get_column_by_name(row, "ttl"), &ttl) != CASS_OK) {
                ttl = 0;
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            }

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            const CassValue* opSet = nullptr;
            CassIterator *opSetIt = nullptr;
            if((opSet=cass_row_get_column_by_name(row, "operations")) && (opSetIt=cass_iterator_from_collection(opSet))) {
                const char *opString;
                size_t opLen;

                while (cass_iterator_next(opSetIt)) {
                    if (cass_value_get_string(cass_iterator_get_value(opSetIt), &opString, &opLen) != CASS_OK) {
                        operations.clear();
                        break;
                    } else
                        operations.insert(std::string(opString, opLen));
                }

                cass_iterator_free(opSetIt);
            }
            
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            sensor.name = std::string(name, name_len);
            sensor.is_virtual = is_virtual == cass_true ? true : false;
            sensor.pattern = std::string(pattern, pattern_len);
            sensor.scaling_factor = scaling_factor;
            sensor.unit = std::string(unit, unit_len);
            sensor.sensor_mask = sensor_mask;
            sensor.expression = std::string(expression, expression_len);
            sensor.v_sensorid = std::string(vsensorid, vsensorid_len);
            sensor.t_zero = tzero;
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            sensor.interval = interval;
            sensor.ttl = ttl;
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            sensor.operations = operations;
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            publicSensors.push_back(sensor);
        }
        cass_result_free(result);
        cass_iterator_free(iterator);
    }

    cass_future_free(future);
    cass_statement_free(statement);
    return SC_OK;
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}

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SCError SensorConfigImpl::getPublicSensorByName(PublicSensor& sensor, const char* publicName)
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{
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    /* Check if the sensor definition is already in the cache */
    SensorMap_t::const_iterator got = sensorMapByName.find(publicName);
    if (got != sensorMapByName.end()) {
        sensor = got->second;
        return SC_OK;
    }

    /* Not in cache - query the data base */
    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Fill the list with all public sensors */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "SELECT * FROM " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " WHERE name = ?;";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        return SC_UNKNOWNERROR;
    } else {
        prepared = cass_future_get_prepared(future);
    }
    cass_future_free(future);

    statement = cass_prepared_bind(prepared);
    cass_statement_bind_string_by_name(statement, "name", publicName);

    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        cass_statement_free(statement);
        return SC_UNKNOWNERROR;
    } else {
        const CassResult* result = cass_future_get_result(future);
        CassIterator* iterator = cass_iterator_from_result(result);

        if (cass_iterator_next(iterator)) {
            const char* name;
            size_t      name_len;
            cass_bool_t is_virtual;
            const char* pattern;
            size_t      pattern_len;
            double      scaling_factor;
            const char* unit;
            size_t      unit_len;
            int64_t     sensor_mask;
            const char* expression;
            size_t      expression_len;
            const char* vsensorid;
            size_t      vsensorid_len;
            int64_t     tzero;
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            int64_t     interval;
            int64_t     ttl;
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            set<string> operations;
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            const CassRow* row = cass_iterator_get_row(iterator);

            if (cass_value_get_string(cass_row_get_column_by_name(row, "name"), &name, &name_len) != CASS_OK) {
                name = ""; name_len = 0;
            }
            if (cass_value_get_bool(cass_row_get_column_by_name(row, "virtual"), &is_virtual) != CASS_OK) {
                is_virtual = cass_false;
            }
            if (cass_value_get_string(cass_row_get_column_by_name(row, "pattern"), &pattern, &pattern_len) != CASS_OK) {
                pattern = ""; pattern_len = 0;
            }
            if (cass_value_get_double(cass_row_get_column_by_name(row, "scaling_factor"), &scaling_factor) != CASS_OK) {
                scaling_factor = 1.0;
            }
            if (cass_value_get_string(cass_row_get_column_by_name(row, "unit"), &unit, &unit_len) != CASS_OK) {
                unit = ""; unit_len = 0;
            }
            if (cass_value_get_int64(cass_row_get_column_by_name(row, "sensor_mask"), &sensor_mask) != CASS_OK) {
                sensor_mask = 0;
            }
            if (cass_value_get_string(cass_row_get_column_by_name(row, "expression"), &expression, &expression_len) != CASS_OK) {
                expression = ""; expression_len = 0;
            }
            if (cass_value_get_string(cass_row_get_column_by_name(row, "vsensorid"), &vsensorid, &vsensorid_len) != CASS_OK) {
                vsensorid = ""; vsensorid_len = 0;
            }
            if (cass_value_get_int64(cass_row_get_column_by_name(row, "tzero"), &tzero) != CASS_OK) {
                tzero = 0;
            }
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            if (cass_value_get_int64(cass_row_get_column_by_name(row, "interval"), &interval) != CASS_OK) {
                interval = 0;
            }
            if (cass_value_get_int64(cass_row_get_column_by_name(row, "ttl"), &ttl) != CASS_OK) {
                ttl = 0;
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            }
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            const CassValue* opSet = nullptr;
            CassIterator *opSetIt = nullptr;
            if((opSet=cass_row_get_column_by_name(row, "operations")) && (opSetIt=cass_iterator_from_collection(opSet))) {
                CassIterator *opSetIt = cass_iterator_from_collection(opSet);
                const char *opString;
                size_t opLen;

                while (cass_iterator_next(opSetIt)) {
                    if (cass_value_get_string(cass_iterator_get_value(opSetIt), &opString, &opLen) != CASS_OK) {
                        operations.clear();
                        break;
                    } else
                        operations.insert(std::string(opString, opLen));
                }

                cass_iterator_free(opSetIt);
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            }
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            sensor.name = std::string(name, name_len);
            sensor.is_virtual = is_virtual == cass_true ? true : false;
            sensor.pattern = std::string(pattern, pattern_len);
            sensor.scaling_factor = scaling_factor;
            sensor.unit = std::string(unit, unit_len);
            sensor.sensor_mask = sensor_mask;
            sensor.expression = std::string(expression, expression_len);
            sensor.v_sensorid = std::string(vsensorid, vsensorid_len);
            sensor.t_zero = tzero;
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            sensor.interval = interval;
            sensor.ttl = ttl;
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            sensor.operations = operations;
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            /* Add to sensorPropertyCache for later use */
            sensorList.push_back(sensor);
            sensorMapByName.insert(std::make_pair(publicName, std::ref(sensorList.back())));
            sensorMapByPattern.insert(std::make_pair(sensor.pattern, std::ref(sensorList.back())));
        }
        else {
            cass_result_free(result);
            cass_iterator_free(iterator);
            cass_future_free(future);
            cass_statement_free(statement);

            return SC_UNKNOWNSENSOR;
        }
        cass_result_free(result);
        cass_iterator_free(iterator);
    }

    cass_future_free(future);
    cass_statement_free(statement);
    cass_prepared_free(prepared);
    return SC_OK;
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}

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SCError SensorConfigImpl::getPublicSensorByPattern(PublicSensor& sensor, const char* pattern)
{
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    if (sensorList.size() == 0) {
        loadCache();
    }

    SensorMap_t::const_iterator got = sensorMapByPattern.find(pattern);
    if (got != sensorMapByPattern.end()) {
        sensor = got->second;
        return SC_OK;
    } else {
        return SC_UNKNOWNSENSOR;
    }
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}

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SCError SensorConfigImpl::getPublicSensorsByWildcard(std::list<PublicSensor>& sensors, const char* wildcard)
{
    SCError err = SC_OK;
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    if (strpbrk(wildcard, "*?") == NULL) {
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        PublicSensor sen;
        if ((err = getPublicSensorByName(sen, wildcard)) == SC_OK) {
            sensors.push_back(sen);
        }
        return err;
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    } else {
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        if ((err = getPublicSensorsVerbose(sensors)) == SC_OK) {
            std::string w("^");
            while (*wildcard != 0) {
                switch (*wildcard) {
                    case '.':
                    case '[':
                    case '\\':
                    case '^':
                    case '$':
                        w.append("\\");
                        w.append(wildcard, 1);
                        break;
                    case '?':
                        w.append(".");
                        break;
                    case '*':
                        w.append(".*");
                        break;
                    default:
                        w.append(wildcard, 1);
                        break;
                }
                wildcard++;
            }

            boost::regex r(w, boost::regex::basic);
            auto it = sensors.begin();
            while(it != sensors.end()) {
                if (!boost::regex_match(it->name, r)) {
                    it = sensors.erase(it);
                } else {
                    it++;
                }
            }

            if (sensors.size() > 0) {
                return SC_OK;
            } else {
                return SC_UNKNOWNSENSOR;
            }
        } else {
            return err;
        }
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    }
}

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SCError SensorConfigImpl::isVirtual(bool& isVirtual, std::string publicName)
{
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    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Read the virtual field from the database */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "SELECT virtual FROM " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " WHERE name = ? ;";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        return SC_UNKNOWNERROR;
    } else {
        prepared = cass_future_get_prepared(future);
    }
    cass_future_free(future);

    statement = cass_prepared_bind(prepared);
    cass_statement_bind_string_by_name(statement, "name", publicName.c_str());

    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
    } else {
        const CassResult* result = cass_future_get_result(future);
        CassIterator* iterator = cass_iterator_from_result(result);

        if (cass_iterator_next(iterator)) {
            cass_bool_t isVirtual_;
            const CassRow* row = cass_iterator_get_row(iterator);
            cass_value_get_bool(cass_row_get_column_by_name(row, "virtual"), &isVirtual_);
            isVirtual = isVirtual_ ? true : false;
        }
        else {
            return SC_UNKNOWNSENSOR;
        }

        cass_result_free(result);
        cass_iterator_free(iterator);
    }

    cass_future_free(future);
    cass_statement_free(statement);
    cass_prepared_free(prepared);
    return SC_OK;
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}

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SCError SensorConfigImpl::getSensorPattern(std::string& pattern, std::string publicName)
{
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    /* Check if the session is valid */
    if (!session) {
        return SC_INVALIDSESSION;
    }

    /* Ensure that the public sensor is not virtual */
    bool virt;
    SCError err = isVirtual(virt, publicName);
    if (err != SC_OK) {
        return err;
    }
    if (virt) {
        return SC_WRONGTYPE;
    }

    /* Read the Pattern string from the database */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "SELECT pattern FROM " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " WHERE name = ? ;";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        cass_future_free(future);
        return SC_UNKNOWNERROR;
    } else {
        prepared = cass_future_get_prepared(future);
    }
    cass_future_free(future);

    statement = cass_prepared_bind(prepared);
    cass_statement_bind_string_by_name(statement, "name", publicName.c_str());

    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
    } else {
        const CassResult* result = cass_future_get_result(future);
        CassIterator* iterator = cass_iterator_from_result(result);

        if (cass_iterator_next(iterator)) {
            const char* pattern_cstr;
            size_t      pattern_len;
            const CassRow* row = cass_iterator_get_row(iterator);
            cass_value_get_string(cass_row_get_column_by_name(row, "pattern"), &pattern_cstr, &pattern_len);
            pattern = std::string(pattern_cstr, pattern_len);
        }
        else {
            return SC_UNKNOWNSENSOR;
        }

        cass_result_free(result);
        cass_iterator_free(iterator);
    }

    cass_future_free(future);
    cass_statement_free(statement);
    cass_prepared_free(prepared);
    return SC_OK;
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}

SCError SensorConfigImpl::getSensorListForPattern(std::list<SensorId>& sensorIds, std::string pattern)
{
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    /* Tiny hack to call the long version of this function */
    TimeStamp start((uint64_t)0x0);
    TimeStamp end((uint64_t)0x260DD31906D70000);
    return getSensorListForPattern(sensorIds, pattern, start, end);
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}

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SCError SensorConfigImpl::getSensorListForPattern(std::list<SensorId>& sensorIds, std::string pattern, TimeStamp start, TimeStamp end)
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{
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    /* Clear the list of sensorIds */
    sensorIds.clear();
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    /* Strip all slashes from publishedSensorName */
    //pattern.erase(std::remove(pattern.begin(), pattern.end(), '/'), pattern.end());
    
    uint16_t wsStart = start.getWeekstamp();
    uint16_t wsEnd   = end.getWeekstamp();
    
    for(uint16_t ws=wsStart; ws<=wsEnd; ws++) {
        SensorId sensor;
        sensor.setId(pattern);
        sensor.setRsvd(ws);
        sensorIds.push_back(sensor);
    }
    
    return SC_OK;
    
//    /* Clear the list of sensorIds */
//    sensorIds.clear();
//
//    /* Strip all slashes from publishedSensorName */
//    pattern.erase(std::remove(pattern.begin(), pattern.end(), '/'), pattern.end());
//
//    /* Calculate lower and upper boundaries for the expansion of the pattern */
//    std::string low  = pattern;
//    std::string high = pattern;
//    if (pattern.find("*") != std::string::npos) {
//        low.replace(pattern.find("*"), 1, MAX_PATTERN_LENGTH-pattern.length(), 0);
//        high.replace(pattern.find("*"), 1, MAX_PATTERN_LENGTH-pattern.length(), 127);
//    }
//
//    SensorId lowId, highId;
//    if (!lowId.mqttTopicConvert(low)) {
//        return SC_INVALIDPATTERN;
//    }
//    if (!highId.mqttTopicConvert(high)) {
//        return SC_INVALIDPATTERN;
//    }
//
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//  std::cout << "Lower boundary for sensor scan: " << std::hex << std::setfill('0') << std::setw(16) << lowId.raw[0] << " " << std::hex << std::setfill('0') << std::setw(16) << lowId.raw[1] << std::endl;
//  std::cout << "Upper boundary for sensor scan: " << std::hex << std::setfill('0') << std::setw(16) << highId.raw[0] << " " << std::hex << std::setfill('0') << std::setw(16) << highId.raw[1] << std::endl;
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//
//    /* Query the database to see which raw sensors actually exist in the interval between low and high */
//    CassError rc = CASS_OK;
//    CassStatement* statement = nullptr;
//    CassFuture* future = nullptr;
//    const CassPrepared* prepared = nullptr;
//    const char* query = "SELECT DISTINCT sid,ws FROM " KEYSPACE_NAME "." CF_SENSORDATA " WHERE TOKEN(sid) >= TOKEN(?) and TOKEN(sid) <= TOKEN(?) and ws >= ? and ws <= ?;";
//
//    future = cass_session_prepare(session, query);
//    cass_future_wait(future);
//
//    rc = cass_future_error_code(future);
//    if (rc != CASS_OK) {
//        connection->printError(future);
//        return SC_UNKNOWNERROR;
//    }
//
//    prepared = cass_future_get_prepared(future);
//    cass_future_free(future);
//
//    statement = cass_prepared_bind(prepared);
//
//    cass_statement_bind_string(statement, 0, low.c_str());
//    cass_statement_bind_string(statement, 1, high.c_str());
//    cass_statement_bind_int16(statement, 2, (cass_int16_t)start.getWeekstamp());
//    cass_statement_bind_int16(statement, 3, (cass_int16_t)end.getWeekstamp());
//
//    future = cass_session_execute(session, statement);
//    cass_future_wait(future);
//
//    rc = cass_future_error_code(future);
//    if (rc != CASS_OK) {
//        connection->printError(future);
//        return SC_UNKNOWNERROR;
//    }
//
//    const CassResult* result = cass_future_get_result(future);
//    cass_future_free(future);
//
//    CassIterator* iterator = cass_iterator_from_result(result);
//    while (cass_iterator_next(iterator)) {
//        const CassRow* row = cass_iterator_get_row(iterator);
//        const char* res;
//        size_t       res_len;
//        cass_int16_t res_ws;
//        cass_value_get_string(cass_row_get_column_by_name(row, "sid"), &res, &res_len);
//        cass_value_get_int16(cass_row_get_column_by_name(row, "ws"), &res_ws);
//
//        SensorId sensor;
//        std::string id(res, res_len);
//        sensor.setId(id);
//
//        /* Check if the sensorId matches the pattern and append to result */
//        if (sensor.patternMatch(pattern)) {
//            /* Only append if within the weekstamp window */
//            if ((res_ws >= start.getWeekstamp()) && (res_ws <= end.getWeekstamp())) {
//                sensorIds.push_back(sensor);
//            }
//        }
//    }
//    cass_result_free(result);
//    cass_iterator_free(iterator);
//    cass_statement_free(statement);
//    cass_prepared_free(prepared);
//
//    return SC_OK;
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}

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SCError SensorConfigImpl::setSensorScalingFactor(std::string publicName, double scalingFactor)
{
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    SCError error = SC_UNKNOWNERROR;

    /* Check the sensorconfig whether the given public sensor has the integrable flag set to true */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "UPDATE " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " SET scaling_factor = ? WHERE name = ? ;";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        return SC_UNKNOWNERROR;
    }
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    prepared = cass_future_get_prepared(future);
    cass_future_free(future);
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    statement = cass_prepared_bind(prepared);
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    cass_statement_bind_double(statement, 0, scalingFactor);
    cass_statement_bind_string(statement, 1, publicName.c_str());
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    future = cass_session_execute(session, statement);
    cass_future_wait(future);
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    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        error = SC_UNKNOWNERROR;
    }
    else {
        error = SC_OK;
    }
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    cass_statement_free(statement);
    cass_prepared_free(prepared);
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    return error;
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}

SCError SensorConfigImpl::setSensorUnit(std::string publicName, std::string unit)
{
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    SCError error = SC_UNKNOWNERROR;

    /* Check the sensorconfig whether the given public sensor has the integrable flag set to true */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "UPDATE " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " SET unit = ? WHERE name = ? ;";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        return SC_UNKNOWNERROR;
    }

    prepared = cass_future_get_prepared(future);
    cass_future_free(future);
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    statement = cass_prepared_bind(prepared);
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    cass_statement_bind_string(statement, 0, unit.c_str());
    cass_statement_bind_string(statement, 1, publicName.c_str());
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    future = cass_session_execute(session, statement);
    cass_future_wait(future);
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    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        error = SC_UNKNOWNERROR;
    }
    else {
        error = SC_OK;
    }

    cass_statement_free(statement);
    cass_prepared_free(prepared);

    return error;
}

SCError SensorConfigImpl::setSensorMask(std::string publicName, uint64_t mask)
{
    SCError error = SC_UNKNOWNERROR;

    /* Check the sensorconfig whether the given public sensor has the integrable flag set to true */
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "UPDATE " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " SET sensor_mask = ? WHERE name = ? ;";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        return SC_UNKNOWNERROR;
    }
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    prepared = cass_future_get_prepared(future);
    cass_future_free(future);
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    statement = cass_prepared_bind(prepared);
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    cass_statement_bind_int64(statement, 0, mask);
    cass_statement_bind_string(statement, 1, publicName.c_str());
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    future = cass_session_execute(session, statement);
    cass_future_wait(future);
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    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        error = SC_UNKNOWNERROR;
    }
    else {
        error = SC_OK;
    }
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    cass_statement_free(statement);
    cass_prepared_free(prepared);

    return error;
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}

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SCError SensorConfigImpl::setOperations(std::string publicName, std::set<std::string> operations)
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{
    SCError error = SC_UNKNOWNERROR;
    
    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
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    const char* query = "UPDATE " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " SET operations = operations + ? WHERE name = ? ;";

    CassCollection* cassSet = cass_collection_new(CASS_COLLECTION_TYPE_SET, operations.size());
    for(const auto& op : operations)
        cass_collection_append_string(cassSet, op.c_str());
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    future = cass_session_prepare(session, query);
    cass_future_wait(future);
    
    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        return SC_UNKNOWNERROR;
    }
    
    prepared = cass_future_get_prepared(future);
    cass_future_free(future);
    
    statement = cass_prepared_bind(prepared);
    
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    cass_statement_bind_collection(statement, 0, cassSet);
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    cass_statement_bind_string(statement, 1, publicName.c_str());
    
    future = cass_session_execute(session, statement);
    cass_future_wait(future);
    
    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        error = SC_UNKNOWNERROR;
    }
    else {
        error = SC_OK;
    }
    
    cass_statement_free(statement);
    cass_prepared_free(prepared);
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    cass_collection_free(cassSet);
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    return error;
}
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SCError SensorConfigImpl::clearOperations(std::string publicName)
{
    SCError error = SC_UNKNOWNERROR;

    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "UPDATE " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " SET operations = {} WHERE name = ? ;";
    
    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        return SC_UNKNOWNERROR;
    }

    prepared = cass_future_get_prepared(future);
    cass_future_free(future);

    statement = cass_prepared_bind(prepared);

    cass_statement_bind_string(statement, 0, publicName.c_str());

    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        error = SC_UNKNOWNERROR;
    }
    else {
        error = SC_OK;
    }

    cass_statement_free(statement);
    cass_prepared_free(prepared);

    return error;
}

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SCError SensorConfigImpl::setTimeToLive(std::string publicName, uint64_t ttl)
{
    SCError error = SC_UNKNOWNERROR;

    CassError rc = CASS_OK;
    CassStatement* statement = nullptr;
    CassFuture* future = nullptr;
    const CassPrepared* prepared = nullptr;
    const char* query = "UPDATE " CONFIG_KEYSPACE_NAME "." CF_PUBLISHEDSENSORS " SET ttl = ? WHERE name = ? ;";

    future = cass_session_prepare(session, query);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        return SC_UNKNOWNERROR;
    }

    prepared = cass_future_get_prepared(future);
    cass_future_free(future);

    statement = cass_prepared_bind(prepared);

    cass_statement_bind_int64(statement, 0, ttl);
    cass_statement_bind_string(statement, 1, publicName.c_str());

    future = cass_session_execute(session, statement);
    cass_future_wait(future);

    rc = cass_future_error_code(future);
    if (rc != CASS_OK) {
        connection->printError(future);
        error = SC_UNKNOWNERROR;
    }
    else {
        error = SC_OK;
    }

    cass_statement_free(statement);
    cass_prepared_free(prepared);

    return error;
}
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SCError SensorConfigImpl::setVirtualSensorExpression(std::string publicName, std::string expression)
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{
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