//private static async Task ResumeAllMiners()
//{
// foreach (var groupMiner in _runningMiners.Values)
// {
// await groupMiner.StartMinerTask(stopMiningManager, _miningLocation, _username);
// }
// // TODO resume devices to Mining state
//}
private static async Task CheckGroupingAndUpdateMiners(CommandType commandType)
{
// first update mining devices
if (commandType == CommandType.DevicesStartStop)
{
//// TODO should we check new and old miningDevices???
//var oldMiningDevices = _miningDevices;
_miningDevices = GroupSetupUtils.GetMiningDevices(_devices, true);
if (_miningDevices.Count > 0)
{
GroupSetupUtils.AvarageSpeeds(_miningDevices);
//// TODO enable StabilityAnalyzer
//// set benchmarked speeds for BenchmarkingAnalyzer
//foreach (var miningDev in _miningDevices)
//{
// var deviceUuid = miningDev.Device.Uuid;
// foreach (var algorithm in miningDev.Algorithms)
// {
// var speedID = $"{deviceUuid}-{algorithm.AlgorithmStringID}";
// var benchmarkSpeed = new BenchmarkingAnalyzer.BenchmarkSpeed {
// PrimarySpeed = algorithm.BenchmarkSpeed,
// SecondarySpeed = algorithm.SecondaryAveragedSpeed,
// };
// BenchmarkingAnalyzer.SetBenchmarkSpeeds(speedID, benchmarkSpeed);
// }
//}
}
}
if (commandType == CommandType.MiningLocationChanged)
{
_runningMiners.Clear();
// re-init mining devices
_miningDevices = GroupSetupUtils.GetMiningDevices(_devices, true);
if (_miningDevices.Count > 0)
{
GroupSetupUtils.AvarageSpeeds(_miningDevices);
}
}
// TODO check if there is nothing to check maybe
if (_normalizedProfits == null)
{
Logger.Error(Tag, "Profits is null");
await PauseAllMiners();
return;
}
if (_miningDevices.Count == 0)
{
return;
}
if (_miningLocation == null)
{
Logger.Error(Tag, "_miningLocation is null");
await PauseAllMiners();
return;
}
await SwichMostProfitableGroupUpMethodTask(_normalizedProfits, CommandType.MiningProfitSettingsChanged == commandType || CommandType.MinerRestartLoopNotify == commandType);
}
public MiningSession(List <ComputeDevice> devices,
IMainFormRatesComunication mainFormRatesComunication,
string miningLocation, string worker, string btcAdress)
{
// init fixed
_mainFormRatesComunication = mainFormRatesComunication;
_miningLocation = miningLocation;
_btcAdress = btcAdress;
_worker = worker;
// initial settup
_miningDevices = GroupSetupUtils.GetMiningDevices(devices, true);
if (_miningDevices.Count > 0)
{
GroupSetupUtils.AvarageSpeeds(_miningDevices);
}
// init timer stuff
_preventSleepTimer = new Timer();
_preventSleepTimer.Elapsed += PreventSleepTimer_Tick;
// sleep time is minimal 1 minute
_preventSleepTimer.Interval = 20 * 1000; // leave this interval, it works
// set internet checking
_internetCheckTimer = new Timer();
_internetCheckTimer.Elapsed += InternetCheckTimer_Tick;
_internetCheckTimer.Interval = 1 * 1000 * 60; // every minute
//// check worker stats
//_checkWorkerStats = new Timer();
//_checkWorkerStats.Elapsed += _checkWorkerStats_Elapsed;
//_checkWorkerStats.Interval = 2 * 1000 * 60; // every 2 minutes check, miners have to mine 5 minutes to take into account
// assume profitable
IsProfitable = true;
// assume we have internet
IsConnectedToInternet = true;
if (IsMiningEnabled)
{
_preventSleepTimer.Start();
_internetCheckTimer.Start();
//_checkWorkerStats.Start();
}
IsMiningRegardlesOfProfit = ConfigManager.GeneralConfig.MinimumProfit == 0;
}
public MiningSession(List <ComputeDevice> devices,
IMainFormRatesComunication mainFormRatesComunication,
string miningLocation, string worker, string btcAdress)
{
// init fixed
_mainFormRatesComunication = mainFormRatesComunication;
_miningLocation = miningLocation;
_switchingManager = new AlgorithmSwitchingManager();
_switchingManager.SmaCheck += SwichMostProfitableGroupUpMethod;
_btcAdress = btcAdress;
_worker = worker;
// initial settup
_miningDevices = GroupSetupUtils.GetMiningDevices(devices, true);
if (_miningDevices.Count > 0)
{
GroupSetupUtils.AvarageSpeeds(_miningDevices);
}
// init timer stuff
_preventSleepTimer = new Timer();
_preventSleepTimer.Elapsed += PreventSleepTimer_Tick;
// sleep time is minimal 1 minute
_preventSleepTimer.Interval = 20 * 1000; // leave this interval, it works
// set internet checking
_internetCheckTimer = new Timer();
_internetCheckTimer.Elapsed += InternetCheckTimer_Tick;
_internetCheckTimer.Interval = 1 * 1000 * 60; // every minute
// assume profitable
_isProfitable = true;
// assume we have internet
_isConnectedToInternet = true;
if (IsMiningEnabled)
{
_preventSleepTimer.Start();
_internetCheckTimer.Start();
}
_switchingManager.Start();
_isMiningRegardlesOfProfit = ConfigManager.GeneralConfig.MinimumProfit == 0;
}
// TODO make Task
public static async Task UpdateMiningSession(IEnumerable <ComputeDevice> devices, string username)
{
_switchingManager?.Stop();
await _semaphore.WaitAsync();
try
{
_username = username;
// TODO check out if there is a change
_miningDevices = GroupSetupUtils.GetMiningDevices(devices, true);
if (_miningDevices.Count > 0)
{
GroupSetupUtils.AvarageSpeeds(_miningDevices);
//// TODO enable StabilityAnalyzer
//// set benchmarked speeds for BenchmarkingAnalyzer
//foreach (var miningDev in _miningDevices)
//{
// var deviceUuid = miningDev.Device.Uuid;
// foreach (var algorithm in miningDev.Algorithms)
// {
// var speedID = $"{deviceUuid}-{algorithm.AlgorithmStringID}";
// var benchmarkSpeed = new BenchmarkingAnalyzer.BenchmarkSpeed {
// PrimarySpeed = algorithm.BenchmarkSpeed,
// SecondarySpeed = algorithm.SecondaryAveragedSpeed,
// };
// BenchmarkingAnalyzer.SetBenchmarkSpeeds(speedID, benchmarkSpeed);
// }
//}
}
}
finally
{
_semaphore.Release();
}
_switchingManager?.ForceUpdate();
}
private static async Task HandleDeferredCommands(List <DeferredDeviceCommand> deferredCommands)
{
try
{
var deviceActions = deferredCommands
.GroupBy(ddc => ddc.device)
.Select(g => g.Select(c => c).ToArray())
.Select(commands => (finalCommand: commands.LastOrDefault(), redundantCommands: commands.Reverse().Skip(1)))
.ToArray();
var redundantCommands = deviceActions
.SelectMany(p => p.redundantCommands)
.ToArray();
// mark redundan't actions as complete
foreach (var redundantCommand in redundantCommands)
{
redundantCommand.Tsc.TrySetResult(false);
}
var validCommands = deviceActions.Select(p => p.finalCommand)
.Where(c => c != null)
.ToArray();
var stopCommands = validCommands.Where(c => c is StopDeviceCommand).ToArray();
var partitionedStartCommands = validCommands
.Where(c => c is StartDeviceCommand)
.Select(c => (command: c, anyAlgoToBenchmark: c.device.AnyEnabledAlgorithmsNeedBenchmarking(), anyAlgoToMine: c.device.AlgorithmSettings.Any(GroupSetupUtils.IsAlgoMiningCapable)))
.ToArray();
var startBenchmarkingCommands = partitionedStartCommands
.Where(t => t.anyAlgoToBenchmark)
.Select(t => t.command)
.ToArray();
var startMiningCommands = partitionedStartCommands
.Where(t => !t.anyAlgoToBenchmark && t.anyAlgoToMine)
.Select(t => t.command)
.ToArray();
var startErrorCommands = partitionedStartCommands
.Where(t => !t.anyAlgoToBenchmark && !t.anyAlgoToMine)
.Select(t => t.command)
.ToArray();
var nonMiningCommands = stopCommands
.Concat(startErrorCommands)
.Concat(startBenchmarkingCommands)
.ToArray();
var nonBenchmarkingCommands = stopCommands
.Concat(startErrorCommands)
.Concat(startMiningCommands)
.ToArray();
// stop all newly obsolete miners
foreach (var stopMiner in nonMiningCommands)
{
await StopAndRemoveMiner(stopMiner);
}
// stop all newly obsolete benchmarks
foreach (var stopBenchmark in nonBenchmarkingCommands)
{
await StopAndRemoveBenchmark(stopBenchmark);
}
// set the stop and error states
foreach (var stop in stopCommands)
{
stop.device.State = DeviceState.Stopped; // THIS TRIGERS STATE CHANGE TODO change this at the point where we initiate the actual change
}
foreach (var stop in startErrorCommands)
{
stop.device.State = DeviceState.Error; // THIS TRIGERS STATE CHANGE TODO change this at the point where we initiate the actual change
}
// start and group devices for mining
var devicesToMineChange = startMiningCommands
.Select(c => _miningDevices.FirstOrDefault(miningDev => miningDev.Device == c.device))
.Any(MiningDevice.ShouldUpdate);
Func <ComputeDevice, bool> isValidMiningDevice = (ComputeDevice dev) => nonMiningCommands.All(c => c.device != dev);
var devicesToMine = _miningDevices
.Select(md => md.Device)
.Concat(startMiningCommands.Select(c => c.device))
.Distinct()
.Where(isValidMiningDevice)
.ToArray();
var anyMiningDeviceInactive = devicesToMine.Any(dev => !_runningMiners.Keys.Any(key => key.Contains(dev.Uuid)));
var miningDevicesMissmatch = _miningDevices.Count != devicesToMine.Length;
// check if there is a difference
if (devicesToMineChange || anyMiningDeviceInactive || miningDevicesMissmatch)
{
_miningDevices = GroupSetupUtils.GetMiningDevices(devicesToMine, true);
GroupSetupUtils.AvarageSpeeds(_miningDevices);
//// TODO enable StabilityAnalyzer
//// set benchmarked speeds for BenchmarkingAnalyzer
//foreach (var miningDev in _miningDevices)
//{
// var deviceUuid = miningDev.Device.Uuid;
// foreach (var algorithm in miningDev.Algorithms)
// {
// var speedID = $"{deviceUuid}-{algorithm.AlgorithmStringID}";
// var benchmarkSpeed = new BenchmarkingAnalyzer.BenchmarkSpeed {
// PrimarySpeed = algorithm.BenchmarkSpeed,
// SecondarySpeed = algorithm.SecondaryAveragedSpeed,
// };
// BenchmarkingAnalyzer.SetBenchmarkSpeeds(speedID, benchmarkSpeed);
// }
//}
await CheckGroupingAndUpdateMiners(new MainCommand());
}
foreach (var startMining in startMiningCommands)
{
startMining.device.State = DeviceState.Mining; // THIS TRIGERS STATE CHANGE TODO change this at the point where we initiate the actual change
}
// start devices to benchmark or update existing benchmarks algorithms
var devicesToBenchmark = startBenchmarkingCommands.Select(c => c.device)
.Select(dev => (dev, benchmarkingDev: _benchmarkingDevices.FirstOrDefault(benchDev => benchDev.Device == dev)))
.ToArray();
// to update
devicesToBenchmark
.Where(p => p.benchmarkingDev != null)
.Select(p => p.benchmarkingDev)
.ToList()
.ForEach(benchDev => benchDev.Update());
// new benchmarks
devicesToBenchmark
.Where(p => p.benchmarkingDev == null)
.Select(p => new BenchmarkingDevice(p.dev))
.ToList()
.ForEach(benchDev => {
benchDev.StartBenchmark();
_benchmarkingDevices.Add(benchDev);
});
foreach (var startMining in startBenchmarkingCommands)
{
startMining.device.State = DeviceState.Benchmarking;
}
foreach (var c in validCommands)
{
c.Tsc.TrySetResult(true);
c.device.IsPendingChange = false;
}
}
catch (Exception e)
{
Logger.Info(Tag, $"HandleDeferredCommands error {e.Message}");
}
// TODO finally on the deferred commands??
}
