public void AddCpuMiner(cpuminer miner, int deviceID, string deviceName) { _cpuMiners.Add(miner.MinerDeviceName, miner); }
public bool StartInitialize(IMainFormRatesComunication mainFormRatesComunication, string miningLocation, string worker, string btcAdress) { _mainFormRatesComunication = mainFormRatesComunication; _miningLocation = miningLocation; _worker = worker; _btcAdress = btcAdress; if (_worker.Length > 0) { _workerBtcStringWorker = _btcAdress + "." + _worker; } else { _workerBtcStringWorker = _btcAdress; } _perDeviceSpeedDictionary = GetEnabledDeviceTypeSpeeds(); //_groupedDevicesMiners = new Dictionary<GroupedDevices, GroupMiners>(); _groupedDevicesMiners = new Dictionary <string, GroupMiners>(); _enabledDevices = new List <ComputeDevice>(); _currentAllGroupedDevices = new AllGroupedDevices(); // assume profitable IsProfitable = true; // this checks if there are enabled devices and enabled algorithms bool isMiningEnabled = false; foreach (var cdev in ComputeDevice.AllAvaliableDevices) { if (cdev.Enabled) { _enabledDevices.Add(cdev); // check if in CPU group and add the saved CPU miners if (cdev.DeviceGroupType == DeviceGroupType.CPU) { GroupedDevices gdevs = new GroupedDevices(); gdevs.Add(cdev.UUID); cpuminer miner = _cpuMiners[cdev.Group]; CpuGroupMiner cpuGroupMiner = new CpuGroupMiner(gdevs, miner); _groupedDevicesMiners.Add(CalcGroupedDevicesKey(gdevs), cpuGroupMiner); } // check if any algorithm enabled if (!isMiningEnabled) { foreach (var algorithm in cdev.DeviceBenchmarkConfig.AlgorithmSettings) { if (!algorithm.Value.Skip) { isMiningEnabled = true; break; } } } } } if (isMiningEnabled) { _preventSleepTimer.Start(); } IsCurrentlyIdle = !isMiningEnabled; return(isMiningEnabled); }
public CpuGroupMiner(GroupedDevices deviceUUIDSet, cpuminer miner) : base(deviceUUIDSet) { _miners.Add(miner); }