public ClaymoreETHDualMinerFixture()
{
string processName = "claymore";
string configFilePath = @"C:\ProgramData\CryptoCurrency\Ethereum\Claymore's Dual Ethereum+Decred_Siacoin_Lbry_Pascal AMD+NVIDIA GPU Miner v10.2";
bool hasAPI = true;
bool hasConfigurationSettings = true;;
bool hasERROut = true;
bool hasLogFiles = true;
bool hasSTDOut = true;
string logFileFnPattern = "\\d{10}_log.txt";
string logFileFolder = @"C:\ProgramData\CryptoCurrency\Ethereum\Claymore's Dual Ethereum+Decred_Siacoin_Lbry_Pascal AMD+NVIDIA GPU Miner v10.2";;
//ComputerSW kind;
string processPath = @"C:\ProgramData\CryptoCurrency\Ethereum\Claymore's Dual Ethereum+Decred_Siacoin_Lbry_Pascal AMD+NVIDIA GPU Miner v10.2\EthDcrMiner64.exe";
string processStartPath = @"C:\ProgramData\CryptoCurrency\Ethereum\Claymore's Dual Ethereum+Decred_Siacoin_Lbry_Pascal AMD+NVIDIA GPU Miner v10.2";
string version = "10.2";
Coin[] coinsMined = new Coin[2] {
Coin.ETH, Coin.ZEC
};
ConcurrentObservableDictionary <string, string> configurationSettings = new ConcurrentObservableDictionary <string, string>()
{
{ "mport", "21200" },
{ "epool", "eth-us-east1.nanopool.org:9999" },
{ "epsw", "x" },
{ "ewal", "0xcdac8dea6d3ced686bacc9622fb7f92d29ed8874.ncat-m01/[email protected]" },
{ "esm", "STRATUMTYPE" },
{ "mode", "0" },
{ "dcoin", "sc" },
{ "dpool", "stratum+tcp://sia-us-east1.nanopool.org:7777" },
{ "dwal", "72cb72ceb7b2b6b7a06c3393bdbd2311e180bb14cd629960d5a017d2dc816043be77abf79efe.ncat-m01/[email protected]" },
{ "dpsw", "x" },
{ "allpools", "0" },
{ "tt", "85" },
{ "asm", "1" },
{ "gser", "2" },
{ "fanmin", "50" },
{ string.Empty, string.Empty },
};
claymoreETHDualMinerSW = new ClaymoreETHDualMinerSW(processName,
processPath,
processStartPath,
version,
hasConfigurationSettings,
configurationSettings,
configFilePath,
hasLogFiles,
logFileFolder,
logFileFnPattern,
hasAPI,
hasSTDOut,
hasERROut,
coinsMined);
claymoreETHDualMinerProcess = new ClaymoreETHDualMinerProcess(claymoreETHDualMinerSW);
computerProcesses = new ComputerProcesses();
JsonConvert.DefaultSettings = () => new JsonSerializerSettings
{
Converters =
{
new StringEnumConverter {
CamelCaseText =
true
}
}
};
}
public void AAtest()
{
bool fine = false;
string processName = "EthDcrMiner64";
string configFilePath = @"C:\ProgramData\CryptoCurrency\Ethereum\Claymore's Dual Ethereum+Decred_Siacoin_Lbry_Pascal AMD+NVIDIA GPU Miner v10.2\config.txt";
bool hasAPI = true;
bool hasConfigurationSettings = true;;
bool hasERROut = true;
bool hasLogFiles = true;
bool hasSTDOut = true;
string logFileFnPattern = "\\d{10}_log.txt";
string logFileFolder = @"C:\ProgramData\CryptoCurrency\Ethereum\Claymore's Dual Ethereum+Decred_Siacoin_Lbry_Pascal AMD+NVIDIA GPU Miner v10.2";;
string processPath = @"C:\ProgramData\CryptoCurrency\Ethereum\Claymore's Dual Ethereum+Decred_Siacoin_Lbry_Pascal AMD+NVIDIA GPU Miner v10.2\EthDcrMiner64.exe";
string processStartPath = @"C:\ProgramData\CryptoCurrency\Ethereum\Claymore's Dual Ethereum+Decred_Siacoin_Lbry_Pascal AMD+NVIDIA GPU Miner v10.2";
string version = "10.2";
Coin[] coinsMined = new Coin[2] {
Coin.ETH, Coin.ZEC
};
ConcurrentObservableDictionary <string, string> configurationSettings = new ConcurrentObservableDictionary <string, string>()
{
{ "mport", "21200" },
{ "epool", "eth-us-east1.nanopool.org:9999" },
{ "epsw", "x" },
{ "ewal", "0xcdac8dea6d3ced686bacc9622fb7f92d29ed8874.ncat-m01/[email protected]" },
{ "esm", "STRATUMTYPE" },
{ "mode", "0" },
{ "dcoin", "sc" },
{ "dpool", "stratum+tcp://sia-us-east1.nanopool.org:7777" },
{ "dwal", "72cb72ceb7b2b6b7a06c3393bdbd2311e180bb14cd629960d5a017d2dc816043be77abf79efe.ncat-m01/[email protected]" },
{ "dpsw", "x" },
{ "dcri", "4" },
{ "allpools", "0" },
{ "ftime", "0" },
{ "tt", "85" },
{ "tstop", "90" },
//{"di","0" },
{ "asm", "1" },
{ "gser", "2" },
{ "fanmin", "50" },
{ "fanmax", "100" },
//{"benchmark", "170" },
{ "cclock", "0" },
{ "mclock", "0" },
};
VideoCardSignil localcardvcdc = VideoCardsKnown.TuningParameters.Keys.Where(x => (x.VideoCardMaker ==
VideoCardMaker.ASUS &&
x.GPUMaker ==
GPUMaker.NVIDEA))
.Single();
ConcurrentObservableDictionary <Coin, HashRate> hashRatePerCoin = new ConcurrentObservableDictionary <Coin, HashRate>();
MinerGPU minerGPU = new MinerGPU(localcardvcdc,
"10DE 17C8 - 3842",
"100.00001.02320.00",
false,
1140,
1753,
11.13,
0.8,
hashRatePerCoin);
List <TuneMinerGPUsResult> tuneMinerGPUsResultList = new List <TuneMinerGPUsResult>();
MinerGPU[] minerGPUsToTune = new MinerGPU[1] {
minerGPU
};
// create the collection of MinerSWs to tune
MinerSW[] minerSWsToTune = new MinerSW[1];
ClaymoreETHDualMinerSW claymoreETHDualMinerSW = new ClaymoreETHDualMinerSW(processName,
processPath,
processStartPath,
version,
hasConfigurationSettings,
configurationSettings,
configFilePath,
hasLogFiles,
logFileFolder,
logFileFnPattern,
hasAPI,
hasSTDOut,
hasERROut,
coinsMined);
minerSWsToTune[0] = claymoreETHDualMinerSW;
foreach (var msw in minerSWsToTune)
{
// Move to the directory where this software expects to start
Directory.SetCurrentDirectory(msw.ProcessStartPath);
foreach (var mg in minerGPUsToTune)
{
// stop any running instances of this SW
Process.GetProcessesByName(msw.ProcessName).ToList().ForEach(x => x.Kill());
// Select the tuning strategy for this MinerSW and this VideoCard
var vcdc = mg.VideoCardSignil;
var vctp = VideoCardsKnown.TuningParameters[vcdc];
// Calculate the step for each parameter
int memoryClockStep = (vctp.MemoryClockMax - vctp.MemoryClockMin) / (fine ? 1 : 5);
int coreClockStep = (vctp.CoreClockMax - vctp.CoreClockMin) / (fine ? 1 : 5);
//double voltageStep = (vctp.VoltageMax - vctp.VoltageMin) / (fine ? 0.01 : 0.05);
// memoryClock Min, max, step
// CoreClock Min, max, step
// memoryVoltage min, max, step
int memoryClockTune;
int coreClockTune;
//double voltageTune = vctp.VoltageMin;
ConcurrentObservableDictionary <Coin, HashRate> hashRatePerCoinTune;
Power powerConsumptionTune;
// ToDo: initialize the structures that monitor for miner SW stopping, or Rig rebooting
//while (voltageTune <= vctp.VoltageMax)
//{
coreClockTune = vctp.CoreClockMin;
while (coreClockTune <= vctp.CoreClockMax)
{
msw.ConfigurationSettings["-cclock"] = coreClockTune.ToString();
memoryClockTune = vctp.MemoryClockMin;
while (memoryClockTune <= vctp.MemoryClockMax)
{
msw.ConfigurationSettings["-mclock"] = memoryClockTune.ToString();
// Stop the miner software
Process.GetProcessesByName(msw.ProcessName).ToList().ForEach(x => x.Kill());
// write the MinerSW Configuration to the miner's configuration file
//Func<KeyValuePair, string> cfgpair = (x) => $"-{x.Key} {x.Value}";
string s = string.Join(Environment.NewLine, msw.ConfigurationSettings.Select(x => $"-{x.Key} {x.Value}"));
System.IO.File.WriteAllText(msw.ConfigFilePath, s);
// update the structures that monitor for miner SW stopping, or Rig rebooting
// Start the miner process
var cmd = Command.Run(processPath, new[] { "" }, options: o => o.DisposeOnExit(false));
//var outputLines = cmd.StandardOutput.GetLines().ToList();
//var errorText = cmd.StandardError.ReadToEnd();
// Wait a Delay for the card to settle
Task.Delay(new TimeSpan(0, 0, 3));
// Get the current HashRate and power consumption
//var minerStatus = await StatusFetchAsync();
// Dictionary<Coin, HashRate> hashRatesTune = new Dictionary<Coin, HashRate> { { Coin.ETH, new HashRate(1000.0, new TimeSpan(0, 0, 1)) } };
//PowerConsumption powerConsumptionTune = new PowerConsumption();
// Or Detect a minerSW stoppage or detect a rig reboot
// Stop the miner process
//cmd.Process.Close(); //todo: figure out DisposeOnExit(false)
Process.GetProcessesByName(msw.ProcessName).ToList().ForEach(x => x.Kill());
powerConsumptionTune = new Power(1, UnitsNet.Units.PowerUnit.Watt);
hashRatePerCoinTune = new ConcurrentObservableDictionary <Coin, HashRate>();
foreach (var k in msw.CoinsMined)
{
hashRatePerCoinTune[k] = new HashRate(1, new TimeSpan(0, 0, 1));
}
// Record the results for this combination of msw,mvc,mClock,cClock,and mVoltage
tuneMinerGPUsResultList.Add(new TuneMinerGPUsResult(coreClockTune, memoryClockTune, vctp.VoltageDefault, hashRatePerCoinTune, powerConsumptionTune));
if (memoryClockTune != vctp.MemoryClockMax)
{
memoryClockTune += memoryClockStep;
memoryClockTune = memoryClockTune > vctp.MemoryClockMax ? vctp.MemoryClockMax : memoryClockTune;
}
else
{
memoryClockTune += 1;
}
}
if (coreClockTune != vctp.CoreClockMax)
{
coreClockTune += coreClockStep;
coreClockTune = coreClockTune > vctp.CoreClockMax ? vctp.CoreClockMax : coreClockTune;
}
else
{
coreClockTune += 1;
}
}
//voltageTune += voltageStep;
//voltageTune = voltageTune > vctp.VoltageMax ? vctp.VoltageMax : voltageTune;
//}
}
// Best hashrate for this MinerSW, by order of coins mined
//ConcurrentObservableDictionary<Coin, HashRate> bestHashRates
//var bestMinerGPUResult = tuneMinerGPUsResultList.Max(x => x.HashRates[msw.CoinsMined[0]]);
}
//return tuneMinerGPUsResultList;
Assert.Equal(1, 1);
}
