override unsafe protected void MinerThread()
{
Random r = new Random();
MarkAsAlive();
MainForm.Logger("Dual Ethash/Lbry miner thread for Device #" + DeviceIndex + " started.");
BuildEthashProgram();
fixed(UInt32 *ethashOutputPtr = mEthashOutput)
fixed(byte *ethashHeaderhashPtr = mEthashHeaderhash)
fixed(byte *lbryInputPtr = mLbryInput)
fixed(UInt32 * lbryOutputPtr = mLbryOutput)
while (!Stopped)
{
MarkAsAlive();
try
{
int ethashEpoch = -1;
long ethashDAGSize = 0;
ComputeBuffer <byte> ethashDAGBuffer = null;
// Wait for the first job to arrive.
int elapsedTime = 0;
while ((mEthashStratum == null || mEthashStratum.GetJob() == null || mLbryStratum == null || mLbryStratum.GetJob() == null) && elapsedTime < 60000)
{
Thread.Sleep(100);
elapsedTime += 100;
}
if (mEthashStratum == null || mEthashStratum.GetJob() == null || mLbryStratum == null || mLbryStratum.GetJob() == null)
{
MainForm.Logger("Stratum server failed to send a new job.");
return;
}
System.Diagnostics.Stopwatch consoleUpdateStopwatch = new System.Diagnostics.Stopwatch();
EthashStratum.Work ethashWork;
LbryStratum.Work lbryWork;
mEthashSearchKernel.SetMemoryArgument(7, mLbryInputBuffer);
mEthashSearchKernel.SetMemoryArgument(8, mLbryOutputBuffer);
while (!Stopped && (ethashWork = mEthashStratum.GetWork()) != null && (lbryWork = mLbryStratum.GetWork()) != null)
{
MarkAsAlive();
String ethashPoolExtranonce = mEthashStratum.PoolExtranonce;
byte[] ethashExtranonceByteArray = Utilities.StringToByteArray(ethashPoolExtranonce);
byte ethashLocalExtranonce = (byte)ethashWork.LocalExtranonce;
UInt64 ethashStartNonce = (UInt64)ethashLocalExtranonce << (8 * (7 - ethashExtranonceByteArray.Length));
for (int i = 0; i < ethashExtranonceByteArray.Length; ++i)
{
ethashStartNonce |= (UInt64)ethashExtranonceByteArray[i] << (8 * (7 - i));
}
ethashStartNonce += (ulong)r.Next(0, int.MaxValue) & (0xfffffffffffffffful >> (ethashExtranonceByteArray.Length * 8 + 8));
String ethashJobID = ethashWork.GetJob().ID;
String ethashSeedhash = ethashWork.GetJob().Seedhash;
double ethashDifficulty = mEthashStratum.Difficulty;
Buffer.BlockCopy(Utilities.StringToByteArray(ethashWork.GetJob().Headerhash), 0, mEthashHeaderhash, 0, 32);
Queue.Write <byte>(mEthashHeaderBuffer, true, 0, 32, (IntPtr)ethashHeaderhashPtr, null);
var lbryJob = lbryWork.Job;
Array.Copy(lbryWork.Blob, mLbryInput, 112);
UInt32 lbryStartNonce = (UInt32)(r.Next(0, int.MaxValue));
UInt64 lbryTarget = (UInt64)((double)0xffff0000UL / (mLbryStratum.Difficulty / 256));
mEthashSearchKernel.SetValueArgument <UInt64>(10, lbryTarget);
Queue.Write <byte>(mLbryInputBuffer, true, 0, 112, (IntPtr)lbryInputPtr, null);
if (ethashEpoch != ethashWork.GetJob().Epoch)
{
if (ethashDAGBuffer != null)
{
ethashDAGBuffer.Dispose();
ethashDAGBuffer = null;
}
ethashEpoch = ethashWork.GetJob().Epoch;
DAGCache cache = new DAGCache(ethashEpoch, ethashWork.GetJob().Seedhash);
ethashDAGSize = Utilities.GetDAGSize(ethashEpoch);
System.Diagnostics.Stopwatch sw = new System.Diagnostics.Stopwatch();
sw.Start();
mEthashGlobalWorkSizeArray[0] = ethashDAGSize / 64;
mEthashGlobalWorkSizeArray[0] /= 8;
if (mEthashGlobalWorkSizeArray[0] % mEthashLocalWorkSizeArray[0] > 0)
{
mEthashGlobalWorkSizeArray[0] += mEthashLocalWorkSizeArray[0] - mEthashGlobalWorkSizeArray[0] % mEthashLocalWorkSizeArray[0];
}
ComputeBuffer <byte> DAGCacheBuffer = new ComputeBuffer <byte>(Context, ComputeMemoryFlags.ReadOnly, cache.GetData().Length);
fixed(byte *p = cache.GetData())
Queue.Write <byte>(DAGCacheBuffer, true, 0, cache.GetData().Length, (IntPtr)p, null);
ethashDAGBuffer = new ComputeBuffer <byte>(Context, ComputeMemoryFlags.ReadWrite, mEthashGlobalWorkSizeArray[0] * 8 * 64 /* ethashDAGSize */); // With this, we can remove a conditional statement in the DAG kernel.
mEthashDAGKernel.SetValueArgument <UInt32>(0, 0);
mEthashDAGKernel.SetMemoryArgument(1, DAGCacheBuffer);
mEthashDAGKernel.SetMemoryArgument(2, ethashDAGBuffer);
mEthashDAGKernel.SetValueArgument <UInt32>(3, (UInt32)cache.GetData().Length / 64);
mEthashDAGKernel.SetValueArgument <UInt32>(4, 0xffffffffu);
for (long start = 0; start < ethashDAGSize / 64; start += mEthashGlobalWorkSizeArray[0])
{
mEthashGlobalWorkOffsetArray[0] = start;
Queue.Execute(mEthashDAGKernel, mEthashGlobalWorkOffsetArray, mEthashGlobalWorkSizeArray, mEthashLocalWorkSizeArray, null);
Queue.Finish();
if (Stopped || !mEthashStratum.GetJob().ID.Equals(ethashJobID))
{
break;
}
}
DAGCacheBuffer.Dispose();
if (Stopped || !mEthashStratum.GetJob().ID.Equals(ethashJobID))
{
break;
}
sw.Stop();
MainForm.Logger("Generated DAG for Epoch #" + ethashEpoch + " (" + (long)sw.Elapsed.TotalMilliseconds + "ms).");
}
consoleUpdateStopwatch.Start();
while (!Stopped && mEthashStratum.GetJob().ID.Equals(ethashJobID) && mEthashStratum.PoolExtranonce.Equals(ethashPoolExtranonce) && mLbryStratum.GetJob().Equals(lbryJob))
{
System.Diagnostics.Stopwatch sw = new System.Diagnostics.Stopwatch();
sw.Start();
MarkAsAlive();
mEthashGlobalWorkOffsetArray[0] = 0;
mEthashSearchKernel.SetValueArgument <UInt32>(9, lbryStartNonce);;
// Get a new local extranonce if necessary.
if ((ethashStartNonce & (0xfffffffffffffffful >> (ethashExtranonceByteArray.Length * 8 + 8)) + (ulong)mEthashGlobalWorkSizeArray[0] * 3 / 4) >= ((ulong)0x1 << (64 - (ethashExtranonceByteArray.Length * 8 + 8))))
{
break;
}
if (0xffffffffu - lbryStartNonce < (UInt32)mEthashGlobalWorkSizeArray[0] / 4)
{
break;
}
UInt64 target = (UInt64)((double)0xffff0000U / ethashDifficulty);
mEthashSearchKernel.SetMemoryArgument(0, mEthashOutputBuffer); // g_output
mEthashSearchKernel.SetMemoryArgument(1, mEthashHeaderBuffer); // g_header
mEthashSearchKernel.SetMemoryArgument(2, ethashDAGBuffer); // _g_dag
mEthashSearchKernel.SetValueArgument <UInt32>(3, (UInt32)(ethashDAGSize / 128)); // DAG_SIZE
mEthashSearchKernel.SetValueArgument <UInt64>(4, ethashStartNonce); // start_nonce
mEthashSearchKernel.SetValueArgument <UInt64>(5, target); // target
mEthashSearchKernel.SetValueArgument <UInt32>(6, 0xffffffffu); // isolate
mEthashOutput[255] = 0; // mEthashOutput[255] is used as an atomic counter.
Queue.Write <UInt32>(mEthashOutputBuffer, true, 0, 256, (IntPtr)ethashOutputPtr, null);
mLbryOutput[255] = 0; // mLbryOutput[255] is used as an atomic counter.
Queue.Write <UInt32>(mLbryOutputBuffer, true, 0, lbryOutputSize, (IntPtr)lbryOutputPtr, null);
Queue.Execute(mEthashSearchKernel, mEthashGlobalWorkOffsetArray, mEthashGlobalWorkSizeArray, mEthashLocalWorkSizeArray, null);
Queue.Read <UInt32>(mEthashOutputBuffer, true, 0, 256, (IntPtr)ethashOutputPtr, null);
if (mEthashStratum.GetJob().ID.Equals(ethashJobID))
{
for (int i = 0; i < mEthashOutput[255]; ++i)
{
mEthashStratum.Submit(GatelessGateDevice, ethashWork.GetJob(), ethashStartNonce + (UInt64)mEthashOutput[i]);
}
}
ethashStartNonce += (UInt64)mEthashGlobalWorkSizeArray[0] * 3 / 4;
Queue.Read <UInt32>(mLbryOutputBuffer, true, 0, lbryOutputSize, (IntPtr)lbryOutputPtr, null);
if (mLbryStratum.GetJob().Equals(lbryJob))
{
for (int i = 0; i < mLbryOutput[255]; ++i)
{
String result = "";
for (int j = 0; j < 8; ++j)
{
UInt32 word = mLbryOutput[256 + i * 8 + j];
result += String.Format("{0:x2}{1:x2}{2:x2}{3:x2}", ((word >> 0) & 0xff), ((word >> 8) & 0xff), ((word >> 16) & 0xff), ((word >> 24) & 0xff));
}
mLbryStratum.Submit(GatelessGateDevice, lbryWork, mLbryOutput[i], result);
}
}
lbryStartNonce += (UInt32)mEthashGlobalWorkSizeArray[0] / 4;
sw.Stop();
Speed = ((double)mEthashGlobalWorkSizeArray[0] * 3 / 4) / sw.Elapsed.TotalSeconds;
double speedSecondary = (((double)mEthashGlobalWorkSizeArray[0] / 4) / sw.Elapsed.TotalSeconds);
if (consoleUpdateStopwatch.ElapsedMilliseconds >= 10 * 1000)
{
MainForm.Logger("Device #" + DeviceIndex + " (Ethash): " + String.Format("{0:N2} Mh/s (Ethash), {1:N2} Mh/s (Lbry)", Speed / (1000000), speedSecondary / (1000000)));
consoleUpdateStopwatch.Restart();
}
}
}
if (ethashDAGBuffer != null)
{
ethashDAGBuffer.Dispose();
ethashDAGBuffer = null;
}
} catch (Exception ex) {
MainForm.Logger("Exception in miner thread: " + ex.Message + ex.StackTrace);
Speed = 0;
if (UnrecoverableException.IsUnrecoverableException(ex))
{
this.UnrecoverableException = new UnrecoverableException(ex, GatelessGateDevice);
Stop();
}
else
{
MainForm.Logger("Restarting miner thread...");
System.Threading.Thread.Sleep(5000);
}
}
}
MarkAsDone();
}
override unsafe protected void MinerThread()
{
Random r = new Random();
MarkAsAlive();
MainForm.Logger("Miner thread for Device #" + DeviceIndex + " started.");
BuildLbryProgram();
fixed(long *lbryGlobalWorkOffsetArrayPtr = mLbryGlobalWorkOffsetArray)
fixed(long *lbryGlobalWorkSizeArrayPtr = mLbryGlobalWorkSizeArray)
fixed(long *lbryLocalWorkSizeArrayPtr = mLbryLocalWorkSizeArray)
fixed(byte *lbryInputPtr = mLbryInput)
fixed(UInt32 * lbryOutputPtr = mLbryOutput)
while (!Stopped)
{
MarkAsAlive();
try
{
mLbrySearchKernel.SetMemoryArgument(0, mLbryInputBuffer);
mLbrySearchKernel.SetMemoryArgument(1, mLbryOutputBuffer);
// Wait for the first lbryJob to arrive.
int elapsedTime = 0;
while ((mLbryStratum == null || mLbryStratum.GetJob() == null) && elapsedTime < 60000)
{
Thread.Sleep(100);
elapsedTime += 100;
}
if (mLbryStratum == null || mLbryStratum.GetJob() == null)
{
throw new TimeoutException("Stratum server failed to send a new lbryJob.");
}
System.Diagnostics.Stopwatch consoleUpdateStopwatch = new System.Diagnostics.Stopwatch();
LbryStratum.Work lbryWork;
while (!Stopped && (lbryWork = mLbryStratum.GetWork()) != null)
{
MarkAsAlive();
var lbryJob = lbryWork.Job;
Array.Copy(lbryWork.Blob, mLbryInput, 112);
UInt32 lbryStartNonce = (UInt32)(r.Next(0, int.MaxValue));
UInt64 lbryTarget = (UInt64)((double)0xffff0000UL / (mLbryStratum.Difficulty / 256));
mLbrySearchKernel.SetValueArgument <UInt64>(3, lbryTarget);
Queue.Write <byte>(mLbryInputBuffer, true, 0, 112, (IntPtr)lbryInputPtr, null);
consoleUpdateStopwatch.Start();
while (!Stopped && mLbryStratum.GetJob().Equals(lbryJob))
{
System.Diagnostics.Stopwatch sw = new System.Diagnostics.Stopwatch();
sw.Start();
MarkAsAlive();
mLbrySearchKernel.SetValueArgument <UInt32>(2, lbryStartNonce);
// Get a new local extranonce if necessary.
if (0xffffffffu - lbryStartNonce < (UInt32)mLbryGlobalWorkSizeArray[0] * mIterations)
{
break;
}
mLbryOutput[255] = 0; // mLbryOutput[255] is used as an atomic counter.
Queue.Write <UInt32>(mLbryOutputBuffer, true, 0, lbryOutputSize, (IntPtr)lbryOutputPtr, null);
Queue.Execute(mLbrySearchKernel, mLbryGlobalWorkOffsetArray, mLbryGlobalWorkSizeArray, mLbryLocalWorkSizeArray, null);
Queue.Read <UInt32>(mLbryOutputBuffer, true, 0, lbryOutputSize, (IntPtr)lbryOutputPtr, null);
if (mLbryStratum.GetJob().Equals(lbryJob))
{
for (int i = 0; i < mLbryOutput[255]; ++i)
{
String result = "";
for (int j = 0; j < 8; ++j)
{
UInt32 word = mLbryOutput[256 + i * 8 + j];
result += String.Format("{0:x2}{1:x2}{2:x2}{3:x2}", ((word >> 0) & 0xff), ((word >> 8) & 0xff), ((word >> 16) & 0xff), ((word >> 24) & 0xff));
}
mLbryStratum.Submit(GatelessGateDevice, lbryWork, mLbryOutput[i], result);
}
}
lbryStartNonce += (UInt32)mLbryGlobalWorkSizeArray[0] * (uint)mIterations;
sw.Stop();
Speed = ((double)mLbryGlobalWorkSizeArray[0]) / sw.Elapsed.TotalSeconds * mIterations;
if (consoleUpdateStopwatch.ElapsedMilliseconds >= 10 * 1000)
{
MainForm.Logger("Device #" + DeviceIndex + ": " + String.Format("{0:N2} Mh/s (Lbry)", Speed / 1000000));
consoleUpdateStopwatch.Restart();
}
}
}
} catch (Exception ex) {
MainForm.Logger("Exception in miner thread: " + ex.Message + ex.StackTrace);
if (UnrecoverableException.IsUnrecoverableException(ex))
{
this.UnrecoverableException = new UnrecoverableException(ex, GatelessGateDevice);
Stop();
}
}
Speed = 0;
if (!Stopped)
{
MainForm.Logger("Restarting miner thread...");
System.Threading.Thread.Sleep(5000);
}
}
MarkAsDone();
}
