mapo-mono/MP.MONO.SIM/Program.cs

// See https://aka.ms/new-console-template for more information
using MachineSim;
using Microsoft.Extensions.Configuration;
using MP.MONO.Core;
using MP.MONO.Core.CONF;
using MP.MONO.Core.DTO;
using Newtonsoft.Json;
using NLog;
using StackExchange.Redis;
using System.Reflection;
using static MP.MONO.Core.Enums;

// init parte config, vedere https://blog.hildenco.com/2020/05/configuration-in-net-core-console.html
var env = Environment.GetEnvironmentVariable("ASPNETCORE_ENVIRONMENT");
var builder = new ConfigurationBuilder()
    .AddJsonFile($"appsettings.json", true, true)
    .AddJsonFile($"appsettings.{env}.json", true, true)
    .AddEnvironmentVariables();
IConfigurationRoot? config = builder.Build();

// imposto variabili di base
string lineSep = "---------------------------------------------";
string redisConf = config.GetConnectionString("Redis");
string confPath = Path.Combine(Directory.GetCurrentDirectory(), "conf");
Logger Log = LogManager.GetCurrentClassLogger();
Random rand = new Random();
List<MachineStatus>? statusList = new List<MachineStatus>();
List<MachineMode>? modeList = new List<MachineMode>();

// fix numero minimo dei thread pool x evitare collasso chiamate redis
ThreadPool.SetMinThreads(10, 10);

Dictionary<string, int> LogSimulator = new Dictionary<string, int>();
Dictionary<string, DateTime> LastSend = new Dictionary<string, DateTime>();
DateTime lastLog = DateTime.Now.AddMinutes(-1);
bool verboseLog = false;
bool logWriting = false;

logInfo(lineSep, true, true);
logInfo($"Starting Machine SIM", true, true);
logInfo($"vers.{Assembly.GetExecutingAssembly().GetName().Version}", true, true);
logInfo("", true, true);
logInfo($"Redis server param: {redisConf.Substring(0, 20)}...", false, true);
logInfo(lineSep, true, true);
logInfo("", true, true);
logInfo("Running - press CTRL-C to stop SIM", false, true);
logInfo("", false, true);

// Setup REDIS
ConnectionMultiplexer.SetFeatureFlag("preventthreadtheft", true);
ConnectionMultiplexer redis = ConnectionMultiplexer.Connect(redisConf);
ISubscriber sub = redis.GetSubscriber();
IDatabase? redisDb = redis.GetDatabase();

// preparo oggetti da configurare
AlarmReportingMode alarmMode = AlarmReportingMode.ND;
List<BaseAlarmBankConf>? alarmsBankBitConf = new List<BaseAlarmBankConf>();
List<BaseAlarmRawConf>? alarmsRawConf = new List<BaseAlarmRawConf>();
List<MachineMode>? machineModeConf = new List<MachineMode>();
List<MachineStatus>? machineStatusConf = new List<MachineStatus>();

// salvo configurazioni in redis
setupConf();
var currSimGen = new Simulator(confPath, modeList.Count, statusList.Count);

// preparo la lista dei contatori invio...
LogSimulator.Add(Constants.ACT_LOG_M_QUEUE, 0);
LogSimulator.Add(Constants.ALARM_M_QUEUE, 0);
LogSimulator.Add(Constants.EVENT_LOG_M_QUEUE, 0);
LogSimulator.Add(Constants.PARAMS_M_QUEUE, 0);
LogSimulator.Add(Constants.PROD_M_QUEUE, 0);
LogSimulator.Add(Constants.MACH_STATS_M_QUEUE, 0);
LogSimulator.Add(Constants.MAINT_STATS_M_QUEUE, 0);
LogSimulator.Add(Constants.TOOLS_M_QUEUE, 0);

// avvio tutti i thread...
Thread threadStatus = new Thread(simMPStatus);
Thread threadCount = new Thread(simCountersRaw);
Thread threadAlarms = new Thread(simAlarms);
Thread threadParams = new Thread(simParameters);
Thread threadProd = new Thread(simProd);
Thread threadMaint = new Thread(simMaint);
Thread threadTools = new Thread(simTools);
Thread threadEvHistory = new Thread(simEvents);
Thread threadActLog = new Thread(simActivityLog);

threadStatus.Start();
threadAlarms.Start();
threadParams.Start();
threadProd.Start();
threadCount.Start();
threadMaint.Start();
threadTools.Start();
threadEvHistory.Start();
threadActLog.Start();

/// <summary>
/// verifica esistenza file oppure lo crea...
/// </summary>
void checkFilePresent(string filePath)
{
    // verific presenza file log...
    if (!File.Exists(filePath))
    {
        File.WriteAllText(filePath, $"{filePath} created!");
    }
}

/// <summary>
/// Setup e salvataggio redis delle conf (es modi/stati)
/// </summary>
void setupConf()
{
    alarmMode = config.GetValue<AlarmReportingMode>("SimPar:AlarmMode");
    redisDb.StringSetAsync(Constants.ALARMS_MODE_KEY, JsonConvert.SerializeObject(alarmMode));
    ConfigManager configManager = new ConfigManager(redisConf, confPath);
    if (alarmMode == AlarmReportingMode.RawList)
    {
        alarmsRawConf = configManager.getAlarmsRawConf();
    }
    else
    {
        alarmsBankBitConf = configManager.getAlarmsBankConf();
    }
    machineModeConf = configManager.getMachineModeConf();
    machineStatusConf = configManager.getMachineStatusConf();
    _ = configManager.getParamsConf();
}

/// <summary>
/// Effettua log INFO su file e se richiesto su console
/// </summary>
void logInfo(string msg, bool log2file = true, bool log2console = false)
{
    if (log2console)
    {
        Console.WriteLine(msg);
    }
    if (log2file)
    {
        Log.Info(msg);
    }
}
/// <summary>
/// Effettua log ERROR su file e se richiesto su console
/// </summary>
void logError(string msg, bool log2file = true, bool log2console = false)
{
    if (log2console)
    {
        Console.WriteLine(msg);
    }
    if (log2file)
    {
        Log.Error(msg);
    }
}

void saveAndSendMessage(string memKey, string notifyChannel, string message)
{
    // effettuo la scrittura nell'area di memoria indicata SE passato intervallo minimo
    bool doSend = true;
    if (LastSend.ContainsKey(memKey))
    {
        if (DateTime.Now.Subtract(LastSend[memKey]).TotalSeconds < 60)
        {
            doSend = false;
        }
    }
    else
    {
        LastSend.Add(memKey, DateTime.Now);
    }
    if (doSend)
    {
        redisDb.StringSetAsync(memKey, message);
        LastSend[memKey] = DateTime.Now;
        logInfo($"Redis Cache Key: {memKey}");
    }

    // invio notifica tramite il canale richiesto
    sub.Publish(notifyChannel, message);
    if (verboseLog)
    {
        logInfo($"[{notifyChannel}] key: {memKey} | val/message: {message}");
    }
    else
    {
        try
        {
            if (!logWriting)
            {
                if (LogSimulator.ContainsKey(notifyChannel))
                {
                    LogSimulator[notifyChannel]++;
                }
                else
                {
                    LogSimulator.Add(notifyChannel, 1);
                }
                logWriting = true;
                // vedo se loggare...
                DateTime adesso = DateTime.Now;
                if (adesso.Subtract(lastLog).TotalSeconds > 15)
                {
                    lastLog = adesso;
                    logInfo(lineSep);

                    // lavoro su copia...
                    var LogSimulatorCopy = new Dictionary<string, int>(LogSimulator);
                    foreach (var item in LogSimulatorCopy)
                    {
                        logInfo($"Redis mQueue {item.Key,-20}{item.Value,12}");
                    }
                    logInfo(lineSep);
                }
                logWriting = false;
            }
        }
        catch (Exception ex)
        {
            logError($"ERROR{Environment.NewLine}{ex}");
        }
    }
}

void simAlarms()
{
    int minPeriod = 2000;
    int maxPeriod = 8000;
    int percAllarmi = config.GetValue<int>("SimPar:PercAllarmi");
    int MaxAddAllarmi = config.GetValue<int>("SimPar:MaxAddAllarmi");
    double MaxDurationAllarmi = config.GetValue<int>("SimPar:MaxDurationAllarmi");

    // in base alla modalità configurata effettuo la simulazione...
    if (alarmMode == AlarmReportingMode.RawList)
    {
        // controllo se devo fare (se ho valori da simulare...)
        if (alarmsRawConf.Count > 0 && alarmsRawConf[0].messages.Count > 0)
        {
            DateTime lastOk = DateTime.Now;
            // Dict allarmi attivi (e da quando)
            Dictionary<string, DateTime> CurrActiveAlarm = new Dictionary<string, DateTime>();
            do
            {
                bool newAlarm = false;
                DateTime adesso = DateTime.Now;
                Dictionary<string, DateTime> NewActiveAlarm = new Dictionary<string, DateTime>();
                // se fosse oltre MaxDurationAllarmi * 3 sec senza all ok --> riporta ad all Ok
                if (lastOk.Subtract(adesso).TotalSeconds > MaxDurationAllarmi * 3 && CurrActiveAlarm.Count > 0)
                {
                    lastOk = adesso;
                }
                else
                {
                    // verifico situazione allarmi già presenti
                    foreach (var singleAlarm in CurrActiveAlarm)
                    {
                        // 1: seleziono allarmi se ce ne fossero e la loro durata è <= limite * rand (50-150) x rimetterli in elenco
                        if (adesso.Subtract(singleAlarm.Value).TotalSeconds < MaxDurationAllarmi * rand.Next(50, 150) / 100)
                        {
                            NewActiveAlarm.Add(singleAlarm.Key, singleAlarm.Value);
                        }
                    }
                    // ciclo x numero banchi da config...
                    foreach (var alarmGroup in alarmsRawConf)
                    {

                        // simulo e limito insorgenza NUOVI allarmi al percAllarmi/100 dei casi
                        newAlarm = rand.Next(0, 100) <= percAllarmi;
                        if (newAlarm)
                        {
                            int numNew = rand.Next(1, MaxAddAllarmi);
                            // ciclo x aggiungere il numero di allarmi indicato
                            for (int i = 0; i < numNew; i++)
                            {
                                // seleziono uno degli allarmi del banco
                                int alarmIndex = rand.Next(0, alarmGroup.messages.Count);
                                string rndNewAlarm = alarmGroup.messages[alarmIndex];
                                if (!NewActiveAlarm.ContainsKey(rndNewAlarm))
                                {
                                    NewActiveAlarm.Add(rndNewAlarm, DateTime.Now);
                                }
                            }
                        }
                    }
                }

                // copio i nuovi allarmi nella memoria principale...
                CurrActiveAlarm = NewActiveAlarm;
                // serializzo ed invio l'elenco dei soli allarmi attivi
                List<string> actAlarmList = CurrActiveAlarm.Select(x => x.Key).OrderBy(x => x).ToList();
                string rawDataVal = JsonConvert.SerializeObject(actAlarmList);
                saveAndSendMessage(Constants.ALARM_ACT_KEY, Constants.ALARM_RAW_QUEUE, rawDataVal);
                // attesa random
                Thread.Sleep(rand.Next(minPeriod, maxPeriod));
            } while (true);
        }
    }
    else if (alarmMode == AlarmReportingMode.BankBit)
    {
        // controllo se devo fare (se ho valori da simulare...)
        if (alarmsBankBitConf.Count > 0)
        {
            do
            {
                Dictionary<string, uint> currAlarmsVal = new Dictionary<string, uint>();
                uint alarmCode = 0;
                bool hasAlarm;
                // ciclo x numero banchi da config...
                foreach (var item in alarmsBankBitConf)
                {
                    // limito allarmi al percAllarmi/100 dei casi
                    hasAlarm = rand.Next(0, 100) <= percAllarmi;
                    // allarme libero SE in condizione allarme
                    alarmCode = hasAlarm ? (uint)rand.Next(0, 65535) : 0;
                    currAlarmsVal.Add(item.memAddr, alarmCode);
                }
                string rawDataVal = JsonConvert.SerializeObject(currAlarmsVal);
                saveAndSendMessage(Constants.ALARM_ACT_KEY, Constants.ALARM_RAW_QUEUE, rawDataVal);
                // attesa random
                Thread.Sleep(rand.Next(minPeriod, maxPeriod));
            } while (true);
        }
    }
}

void simParameters()
{
    int minPeriod = 150;
    int maxPeriod = 500;

    // controllo se devo fare (se ho valori da simulare...)
    if (currSimGen.currSimPar.Count > 0)
    {
        do
        {
            // gestione SIM dictionary
            var paramDict = currSimGen.getParamsVal();
            string rawData = JsonConvert.SerializeObject(paramDict);
            saveAndSendMessage(Constants.PARAMS_ACT_KEY, Constants.PARAMS_RAW_QUEUE, rawData);

            // attesa random
            Thread.Sleep(rand.Next(minPeriod, maxPeriod));
        } while (true);
    }
}

void simMPStatus()
{
    int minPeriod = 1000;
    int maxPeriod = 5000;

    // controllo se devo fare (se ho valori da simulare...)
    if (currSimGen.currSimMachStat.Count > 0)
    {
        do
        {
            // recupero uno stato simulato
            var newStatus = currSimGen.getStatus();
            string rawData = JsonConvert.SerializeObject(newStatus);
            saveAndSendMessage(Constants.STATUS_ACT_KEY, Constants.STATUS_RAW_QUEUE, rawData);

            // attesa random
            Thread.Sleep(rand.Next(minPeriod, maxPeriod));
        } while (true);
    }
}

void simCountersRaw()
{
    int minPeriod = 1000;
    int maxPeriod = 5000;

    // controllo se devo fare (se ho valori da simulare...)
    if (currSimGen.currSimMachStat.Count > 0)
    {
        do
        {
            // recupero uno stato simulato
            var newStatus = currSimGen.getCountersRaw();
            string rawData = JsonConvert.SerializeObject(newStatus);
            saveAndSendMessage(Constants.COUNT_CURR_KEY, Constants.COUNT_RAW_QUEUE, rawData);

            // attesa random
            Thread.Sleep(rand.Next(minPeriod, maxPeriod));
        } while (true);
    }
}

void simProd()
{
    int minPeriod = 3000;
    int maxPeriod = 10000;

    // controllo se devo fare (se ho valori da simulare...)
    if (currSimGen.currSimProd.Count > 0)
    {
        do
        {
            // recupero uno stato simulato
            var newStatus = currSimGen.getProd();
            string rawData = JsonConvert.SerializeObject(newStatus);
            saveAndSendMessage(Constants.PROD_CURR_KEY, Constants.PROD_M_QUEUE, rawData);

            // attesa random
            Thread.Sleep(rand.Next(minPeriod, maxPeriod));
        } while (true);
    }
}


void simMaint()
{
    int minPeriod = 10000;
    int maxPeriod = 20000;


    // controllo se devo fare (se ho valori da simulare...)
    if (currSimGen.currSimMaint.Count > 0)
    {
        do
        {
            // recupero uno stato simulato
            var newVal = currSimGen.getMaint();
            string rawData = JsonConvert.SerializeObject(newVal);
            saveAndSendMessage(Constants.MAINT_STATS_CURR_KEY, Constants.MAINT_STATS_M_QUEUE, rawData);

            // attesa random
            Thread.Sleep(rand.Next(minPeriod, maxPeriod));
        } while (true);
    }
}

void simTools()
{
    int minPeriod = 3000;
    int maxPeriod = 10000;


    // controllo se devo fare (se ho valori da simulare...)
    if (currSimGen.currSimTools.Count > 0)
    {
        do
        {
            // recupero uno stato simulato
            var newVal = currSimGen.getTools();
            string rawData = JsonConvert.SerializeObject(newVal);
            saveAndSendMessage(Constants.TOOLS_CURR_KEY, Constants.TOOLS_M_QUEUE, rawData);

            // attesa random
            Thread.Sleep(rand.Next(minPeriod, maxPeriod));
        } while (true);
    }
}

void simEvents()
{
    int minPeriod = 200;
    int maxPeriod = 800;

    // controllo se devo fare (se ho valori da simulare...)
    if (currSimGen.currSimEvHist.Count > 0)
    {
        do
        {
            // recupero uno stato simulato
            var newVal = currSimGen.getEvents();
            string rawData = JsonConvert.SerializeObject(newVal);
            saveAndSendMessage(Constants.EVENT_LOG_CURR_KEY, Constants.EVENT_LOG_M_QUEUE, rawData);

            // attesa random
            Thread.Sleep(rand.Next(minPeriod, maxPeriod));
        } while (true);
    }
}

void simActivityLog()
{
    int minPeriod = 15000;
    int maxPeriod = 30000;

    // controllo se devo fare (se ho valori da simulare...)
    if (currSimGen.currSimActLog.Count > 0)
    {
        do
        {
            // recupero uno stato simulato
            var newVal = currSimGen.getActLog();
            string rawData = JsonConvert.SerializeObject(newVal);
            saveAndSendMessage(Constants.ACT_LOG_CURR_KEY, Constants.ACT_LOG_M_QUEUE, rawData);

            // attesa random
            Thread.Sleep(rand.Next(minPeriod, maxPeriod));
        } while (true);
    }
}