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Update SmartThreadPool to latest version 2.2.3 with a major and minor change.

Browse Source 
SmartThreadPool code comes from http://www.codeproject.com/Articles/7933/Smart-Thread-Pool
This version implements thread abort (via WorkItem.Cancel(true)), threadpool naming, max thread stack, etc. so we no longer need to manually patch those.
However, two changes have been made to stock 2.2.3.
Major change: WorkItem.Cancel(bool abortExecution) in our version does not succeed if the work item was in progress and thread abort was not specified.
This is to match previous behaviour where we handle co-operative termination via another mechanism rather than checking WorkItem.IsCanceled.
Minor change: Did not add STP's StopWatch implementation as this is only used WinCE and Silverlight and causes a build clash with System.Diagnostics.StopWatch
The reason for updating is to see if this improves http://opensimulator.org/mantis/view.php?id=6557 and http://opensimulator.org/mantis/view.php?id=6586
This commit is contained in:
Justin Clark-Casey (justincc)
2013-05-01 19:01:43 +01:00
parent ac135c649c
commit 206fb306a7
31 changed files with 6690 additions and 4804 deletions
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802
ThirdParty/SmartThreadPool/STPPerformanceCounter.cs vendored
View File

@@ -1,354 +1,448 @@
using System;
using System.Diagnostics;
namespace Amib.Threading.Internal
{
internal enum STPPerformanceCounterType
{
// Fields
ActiveThreads = 0,
InUseThreads = 1,
OverheadThreads = 2,
OverheadThreadsPercent = 3,
OverheadThreadsPercentBase = 4,
WorkItems = 5,
WorkItemsInQueue = 6,
WorkItemsProcessed = 7,
WorkItemsQueuedPerSecond = 8,
WorkItemsProcessedPerSecond = 9,
AvgWorkItemWaitTime = 10,
AvgWorkItemWaitTimeBase = 11,
AvgWorkItemProcessTime = 12,
AvgWorkItemProcessTimeBase = 13,
WorkItemsGroups = 14,
LastCounter = 14,
}
/// <summary>
/// Summary description for STPPerformanceCounter.
/// </summary>
internal class STPPerformanceCounter
{
// Fields
private PerformanceCounterType _pcType;
protected string _counterHelp;
protected string _counterName;
// Methods
public STPPerformanceCounter(
string counterName,
string counterHelp,
PerformanceCounterType pcType)
{
this._counterName = counterName;
this._counterHelp = counterHelp;
this._pcType = pcType;
}
public void AddCounterToCollection(CounterCreationDataCollection counterData)
{
CounterCreationData counterCreationData = new CounterCreationData(
_counterName,
_counterHelp,
_pcType);
counterData.Add(counterCreationData);
}
// Properties
public string Name
{
get
{
return _counterName;
}
}
}
internal class STPPerformanceCounters
{
// Fields
internal STPPerformanceCounter[] _stpPerformanceCounters;
private static STPPerformanceCounters _instance;
internal const string _stpCategoryHelp = "SmartThreadPool performance counters";
internal const string _stpCategoryName = "SmartThreadPool";
// Methods
static STPPerformanceCounters()
{
_instance = new STPPerformanceCounters();
}
private STPPerformanceCounters()
{
STPPerformanceCounter[] stpPerformanceCounters = new STPPerformanceCounter[]
{
new STPPerformanceCounter("Active threads", "The current number of available in the thread pool.", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("In use threads", "The current number of threads that execute a work item.", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("Overhead threads", "The current number of threads that are active, but are not in use.", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("% overhead threads", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawFraction),
new STPPerformanceCounter("% overhead threads base", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawBase),
new STPPerformanceCounter("Work Items", "The number of work items in the Smart Thread Pool. Both queued and processed.", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("Work Items in queue", "The current number of work items in the queue", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("Work Items processed", "The number of work items already processed", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("Work Items queued/sec", "The number of work items queued per second", PerformanceCounterType.RateOfCountsPerSecond32),
new STPPerformanceCounter("Work Items processed/sec", "The number of work items processed per second", PerformanceCounterType.RateOfCountsPerSecond32),
new STPPerformanceCounter("Avg. Work Item wait time/sec", "The average time a work item supends in the queue waiting for its turn to execute.", PerformanceCounterType.AverageCount64),
new STPPerformanceCounter("Avg. Work Item wait time base", "The average time a work item supends in the queue waiting for its turn to execute.", PerformanceCounterType.AverageBase),
new STPPerformanceCounter("Avg. Work Item process time/sec", "The average time it takes to process a work item.", PerformanceCounterType.AverageCount64),
new STPPerformanceCounter("Avg. Work Item process time base", "The average time it takes to process a work item.", PerformanceCounterType.AverageBase),
new STPPerformanceCounter("Work Items Groups", "The current number of work item groups associated with the Smart Thread Pool.", PerformanceCounterType.NumberOfItems32),
};
_stpPerformanceCounters = stpPerformanceCounters;
SetupCategory();
}
private void SetupCategory()
{
if (!PerformanceCounterCategory.Exists(_stpCategoryName))
{
CounterCreationDataCollection counters = new CounterCreationDataCollection();
for (int i = 0; i < _stpPerformanceCounters.Length; i++)
{
_stpPerformanceCounters[i].AddCounterToCollection(counters);
}
// *********** Remark for .NET 2.0 ***********
// If you are here, it means you got the warning that this overload
// of the method is deprecated in .NET 2.0. To use the correct
// method overload, uncomment the third argument of
// the method.
#pragma warning disable 0618
PerformanceCounterCategory.Create(
_stpCategoryName,
_stpCategoryHelp,
//PerformanceCounterCategoryType.MultiInstance,
counters);
#pragma warning restore 0618
}
}
// Properties
public static STPPerformanceCounters Instance
{
get
{
return _instance;
}
}
}
internal class STPInstancePerformanceCounter : IDisposable
{
// Fields
private PerformanceCounter _pcs;
// Methods
protected STPInstancePerformanceCounter()
{
}
public STPInstancePerformanceCounter(
string instance,
STPPerformanceCounterType spcType)
{
STPPerformanceCounters counters = STPPerformanceCounters.Instance;
_pcs = new PerformanceCounter(
STPPerformanceCounters._stpCategoryName,
counters._stpPerformanceCounters[(int) spcType].Name,
instance,
false);
_pcs.RawValue = _pcs.RawValue;
}
~STPInstancePerformanceCounter()
{
Close();
}
public void Close()
{
if (_pcs != null)
{
_pcs.RemoveInstance();
_pcs.Close();
_pcs = null;
}
}
public void Dispose()
{
Close();
GC.SuppressFinalize(this);
}
public virtual void Increment()
{
_pcs.Increment();
}
public virtual void IncrementBy(long val)
{
_pcs.IncrementBy(val);
}
public virtual void Set(long val)
{
_pcs.RawValue = val;
}
}
internal class STPInstanceNullPerformanceCounter : STPInstancePerformanceCounter
{
// Methods
public STPInstanceNullPerformanceCounter() {}
public override void Increment() {}
public override void IncrementBy(long value) {}
public override void Set(long val) {}
}
internal interface ISTPInstancePerformanceCounters : IDisposable
{
void Close();
void SampleThreads(long activeThreads, long inUseThreads);
void SampleWorkItems(long workItemsQueued, long workItemsProcessed);
void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime);
void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime);
}
internal class STPInstancePerformanceCounters : ISTPInstancePerformanceCounters, IDisposable
{
// Fields
private STPInstancePerformanceCounter[] _pcs;
private static STPInstancePerformanceCounter _stpInstanceNullPerformanceCounter;
// Methods
static STPInstancePerformanceCounters()
{
_stpInstanceNullPerformanceCounter = new STPInstanceNullPerformanceCounter();
}
public STPInstancePerformanceCounters(string instance)
{
_pcs = new STPInstancePerformanceCounter[(int)STPPerformanceCounterType.LastCounter];
// STPPerformanceCounters counters = STPPerformanceCounters.Instance;
for (int i = 0; i < _pcs.Length; i++)
{
if (instance != null)
{
_pcs[i] = new STPInstancePerformanceCounter(
instance,
(STPPerformanceCounterType) i);
}
else
{
_pcs[i] = _stpInstanceNullPerformanceCounter;
}
}
}
public void Close()
{
if (null != _pcs)
{
for (int i = 0; i < _pcs.Length; i++)
{
if (null != _pcs[i])
{
_pcs[i].Close();
}
}
_pcs = null;
}
}
~STPInstancePerformanceCounters()
{
Close();
}
public void Dispose()
{
Close();
GC.SuppressFinalize(this);
}
private STPInstancePerformanceCounter GetCounter(STPPerformanceCounterType spcType)
{
return _pcs[(int) spcType];
}
public void SampleThreads(long activeThreads, long inUseThreads)
{
GetCounter(STPPerformanceCounterType.ActiveThreads).Set(activeThreads);
GetCounter(STPPerformanceCounterType.InUseThreads).Set(inUseThreads);
GetCounter(STPPerformanceCounterType.OverheadThreads).Set(activeThreads-inUseThreads);
GetCounter(STPPerformanceCounterType.OverheadThreadsPercentBase).Set(activeThreads-inUseThreads);
GetCounter(STPPerformanceCounterType.OverheadThreadsPercent).Set(inUseThreads);
}
public void SampleWorkItems(long workItemsQueued, long workItemsProcessed)
{
GetCounter(STPPerformanceCounterType.WorkItems).Set(workItemsQueued+workItemsProcessed);
GetCounter(STPPerformanceCounterType.WorkItemsInQueue).Set(workItemsQueued);
GetCounter(STPPerformanceCounterType.WorkItemsProcessed).Set(workItemsProcessed);
GetCounter(STPPerformanceCounterType.WorkItemsQueuedPerSecond).Set(workItemsQueued);
GetCounter(STPPerformanceCounterType.WorkItemsProcessedPerSecond).Set(workItemsProcessed);
}
public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime)
{
GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTime).IncrementBy((long)workItemWaitTime.TotalMilliseconds);
GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTimeBase).Increment();
}
public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime)
{
GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTime).IncrementBy((long)workItemProcessTime.TotalMilliseconds);
GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTimeBase).Increment();
}
}
internal class NullSTPInstancePerformanceCounters : ISTPInstancePerformanceCounters, IDisposable
{
static NullSTPInstancePerformanceCounters()
{
}
private static NullSTPInstancePerformanceCounters _instance = new NullSTPInstancePerformanceCounters(null);
public static NullSTPInstancePerformanceCounters Instance
{
get { return _instance; }
}
public NullSTPInstancePerformanceCounters(string instance) {}
public void Close() {}
public void Dispose() {}
public void SampleThreads(long activeThreads, long inUseThreads) {}
public void SampleWorkItems(long workItemsQueued, long workItemsProcessed) {}
public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime) {}
public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime) {}
}
}
using System;
using System.Diagnostics;
using System.Threading;
namespace Amib.Threading
{
public interface ISTPPerformanceCountersReader
{
long InUseThreads { get; }
long ActiveThreads { get; }
long WorkItemsQueued { get; }
long WorkItemsProcessed { get; }
}
}
namespace Amib.Threading.Internal
{
internal interface ISTPInstancePerformanceCounters : IDisposable
{
void Close();
void SampleThreads(long activeThreads, long inUseThreads);
void SampleWorkItems(long workItemsQueued, long workItemsProcessed);
void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime);
void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime);
}
#if !(_WINDOWS_CE) && !(_SILVERLIGHT) && !(WINDOWS_PHONE)
internal enum STPPerformanceCounterType
{
// Fields
ActiveThreads = 0,
InUseThreads = 1,
OverheadThreads = 2,
OverheadThreadsPercent = 3,
OverheadThreadsPercentBase = 4,
WorkItems = 5,
WorkItemsInQueue = 6,
WorkItemsProcessed = 7,
WorkItemsQueuedPerSecond = 8,
WorkItemsProcessedPerSecond = 9,
AvgWorkItemWaitTime = 10,
AvgWorkItemWaitTimeBase = 11,
AvgWorkItemProcessTime = 12,
AvgWorkItemProcessTimeBase = 13,
WorkItemsGroups = 14,
LastCounter = 14,
}
/// <summary>
/// Summary description for STPPerformanceCounter.
/// </summary>
internal class STPPerformanceCounter
{
// Fields
private readonly PerformanceCounterType _pcType;
protected string _counterHelp;
protected string _counterName;
// Methods
public STPPerformanceCounter(
string counterName,
string counterHelp,
PerformanceCounterType pcType)
{
_counterName = counterName;
_counterHelp = counterHelp;
_pcType = pcType;
}
public void AddCounterToCollection(CounterCreationDataCollection counterData)
{
CounterCreationData counterCreationData = new CounterCreationData(
_counterName,
_counterHelp,
_pcType);
counterData.Add(counterCreationData);
}
// Properties
public string Name
{
get
{
return _counterName;
}
}
}
internal class STPPerformanceCounters
{
// Fields
internal STPPerformanceCounter[] _stpPerformanceCounters;
private static readonly STPPerformanceCounters _instance;
internal const string _stpCategoryHelp = "SmartThreadPool performance counters";
internal const string _stpCategoryName = "SmartThreadPool";
// Methods
static STPPerformanceCounters()
{
_instance = new STPPerformanceCounters();
}
private STPPerformanceCounters()
{
STPPerformanceCounter[] stpPerformanceCounters = new STPPerformanceCounter[]
{
new STPPerformanceCounter("Active threads", "The current number of available in the thread pool.", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("In use threads", "The current number of threads that execute a work item.", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("Overhead threads", "The current number of threads that are active, but are not in use.", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("% overhead threads", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawFraction),
new STPPerformanceCounter("% overhead threads base", "The current number of threads that are active, but are not in use in percents.", PerformanceCounterType.RawBase),
new STPPerformanceCounter("Work Items", "The number of work items in the Smart Thread Pool. Both queued and processed.", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("Work Items in queue", "The current number of work items in the queue", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("Work Items processed", "The number of work items already processed", PerformanceCounterType.NumberOfItems32),
new STPPerformanceCounter("Work Items queued/sec", "The number of work items queued per second", PerformanceCounterType.RateOfCountsPerSecond32),
new STPPerformanceCounter("Work Items processed/sec", "The number of work items processed per second", PerformanceCounterType.RateOfCountsPerSecond32),
new STPPerformanceCounter("Avg. Work Item wait time/sec", "The average time a work item supends in the queue waiting for its turn to execute.", PerformanceCounterType.AverageCount64),
new STPPerformanceCounter("Avg. Work Item wait time base", "The average time a work item supends in the queue waiting for its turn to execute.", PerformanceCounterType.AverageBase),
new STPPerformanceCounter("Avg. Work Item process time/sec", "The average time it takes to process a work item.", PerformanceCounterType.AverageCount64),
new STPPerformanceCounter("Avg. Work Item process time base", "The average time it takes to process a work item.", PerformanceCounterType.AverageBase),
new STPPerformanceCounter("Work Items Groups", "The current number of work item groups associated with the Smart Thread Pool.", PerformanceCounterType.NumberOfItems32),
};
_stpPerformanceCounters = stpPerformanceCounters;
SetupCategory();
}
private void SetupCategory()
{
if (!PerformanceCounterCategory.Exists(_stpCategoryName))
{
CounterCreationDataCollection counters = new CounterCreationDataCollection();
for (int i = 0; i < _stpPerformanceCounters.Length; i++)
{
_stpPerformanceCounters[i].AddCounterToCollection(counters);
}
PerformanceCounterCategory.Create(
_stpCategoryName,
_stpCategoryHelp,
PerformanceCounterCategoryType.MultiInstance,
counters);
}
}
// Properties
public static STPPerformanceCounters Instance
{
get
{
return _instance;
}
}
}
internal class STPInstancePerformanceCounter : IDisposable
{
// Fields
private bool _isDisposed;
private PerformanceCounter _pcs;
// Methods
protected STPInstancePerformanceCounter()
{
_isDisposed = false;
}
public STPInstancePerformanceCounter(
string instance,
STPPerformanceCounterType spcType) : this()
{
STPPerformanceCounters counters = STPPerformanceCounters.Instance;
_pcs = new PerformanceCounter(
STPPerformanceCounters._stpCategoryName,
counters._stpPerformanceCounters[(int) spcType].Name,
instance,
false);
_pcs.RawValue = _pcs.RawValue;
}
public void Close()
{
if (_pcs != null)
{
_pcs.RemoveInstance();
_pcs.Close();
_pcs = null;
}
}
public void Dispose()
{
Dispose(true);
}
public virtual void Dispose(bool disposing)
{
if (!_isDisposed)
{
if (disposing)
{
Close();
}
}
_isDisposed = true;
}
public virtual void Increment()
{
_pcs.Increment();
}
public virtual void IncrementBy(long val)
{
_pcs.IncrementBy(val);
}
public virtual void Set(long val)
{
_pcs.RawValue = val;
}
}
internal class STPInstanceNullPerformanceCounter : STPInstancePerformanceCounter
{
// Methods
public override void Increment() {}
public override void IncrementBy(long value) {}
public override void Set(long val) {}
}
internal class STPInstancePerformanceCounters : ISTPInstancePerformanceCounters
{
private bool _isDisposed;
// Fields
private STPInstancePerformanceCounter[] _pcs;
private static readonly STPInstancePerformanceCounter _stpInstanceNullPerformanceCounter;
// Methods
static STPInstancePerformanceCounters()
{
_stpInstanceNullPerformanceCounter = new STPInstanceNullPerformanceCounter();
}
public STPInstancePerformanceCounters(string instance)
{
_isDisposed = false;
_pcs = new STPInstancePerformanceCounter[(int)STPPerformanceCounterType.LastCounter];
// Call the STPPerformanceCounters.Instance so the static constructor will
// intialize the STPPerformanceCounters singleton.
STPPerformanceCounters.Instance.GetHashCode();
for (int i = 0; i < _pcs.Length; i++)
{
if (instance != null)
{
_pcs[i] = new STPInstancePerformanceCounter(
instance,
(STPPerformanceCounterType) i);
}
else
{
_pcs[i] = _stpInstanceNullPerformanceCounter;
}
}
}
public void Close()
{
if (null != _pcs)
{
for (int i = 0; i < _pcs.Length; i++)
{
if (null != _pcs[i])
{
_pcs[i].Dispose();
}
}
_pcs = null;
}
}
public void Dispose()
{
Dispose(true);
}
public virtual void Dispose(bool disposing)
{
if (!_isDisposed)
{
if (disposing)
{
Close();
}
}
_isDisposed = true;
}
private STPInstancePerformanceCounter GetCounter(STPPerformanceCounterType spcType)
{
return _pcs[(int) spcType];
}
public void SampleThreads(long activeThreads, long inUseThreads)
{
GetCounter(STPPerformanceCounterType.ActiveThreads).Set(activeThreads);
GetCounter(STPPerformanceCounterType.InUseThreads).Set(inUseThreads);
GetCounter(STPPerformanceCounterType.OverheadThreads).Set(activeThreads-inUseThreads);
GetCounter(STPPerformanceCounterType.OverheadThreadsPercentBase).Set(activeThreads-inUseThreads);
GetCounter(STPPerformanceCounterType.OverheadThreadsPercent).Set(inUseThreads);
}
public void SampleWorkItems(long workItemsQueued, long workItemsProcessed)
{
GetCounter(STPPerformanceCounterType.WorkItems).Set(workItemsQueued+workItemsProcessed);
GetCounter(STPPerformanceCounterType.WorkItemsInQueue).Set(workItemsQueued);
GetCounter(STPPerformanceCounterType.WorkItemsProcessed).Set(workItemsProcessed);
GetCounter(STPPerformanceCounterType.WorkItemsQueuedPerSecond).Set(workItemsQueued);
GetCounter(STPPerformanceCounterType.WorkItemsProcessedPerSecond).Set(workItemsProcessed);
}
public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime)
{
GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTime).IncrementBy((long)workItemWaitTime.TotalMilliseconds);
GetCounter(STPPerformanceCounterType.AvgWorkItemWaitTimeBase).Increment();
}
public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime)
{
GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTime).IncrementBy((long)workItemProcessTime.TotalMilliseconds);
GetCounter(STPPerformanceCounterType.AvgWorkItemProcessTimeBase).Increment();
}
}
#endif
internal class NullSTPInstancePerformanceCounters : ISTPInstancePerformanceCounters, ISTPPerformanceCountersReader
{
private static readonly NullSTPInstancePerformanceCounters _instance = new NullSTPInstancePerformanceCounters();
public static NullSTPInstancePerformanceCounters Instance
{
get { return _instance; }
}
public void Close() {}
public void Dispose() {}
public void SampleThreads(long activeThreads, long inUseThreads) {}
public void SampleWorkItems(long workItemsQueued, long workItemsProcessed) {}
public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime) {}
public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime) {}
public long InUseThreads
{
get { return 0; }
}
public long ActiveThreads
{
get { return 0; }
}
public long WorkItemsQueued
{
get { return 0; }
}
public long WorkItemsProcessed
{
get { return 0; }
}
}
internal class LocalSTPInstancePerformanceCounters : ISTPInstancePerformanceCounters, ISTPPerformanceCountersReader
{
public void Close() { }
public void Dispose() { }
private long _activeThreads;
private long _inUseThreads;
private long _workItemsQueued;
private long _workItemsProcessed;
public long InUseThreads
{
get { return _inUseThreads; }
}
public long ActiveThreads
{
get { return _activeThreads; }
}
public long WorkItemsQueued
{
get { return _workItemsQueued; }
}
public long WorkItemsProcessed
{
get { return _workItemsProcessed; }
}
public void SampleThreads(long activeThreads, long inUseThreads)
{
_activeThreads = activeThreads;
_inUseThreads = inUseThreads;
}
public void SampleWorkItems(long workItemsQueued, long workItemsProcessed)
{
_workItemsQueued = workItemsQueued;
_workItemsProcessed = workItemsProcessed;
}
public void SampleWorkItemsWaitTime(TimeSpan workItemWaitTime)
{
// Not supported
}
public void SampleWorkItemsProcessTime(TimeSpan workItemProcessTime)
{
// Not supported
}
}
}