using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; namespace Kneesocks { public class Pool where T : Connection { // number of threads that should be started when the pool is created // these threads will run for as long as the pool exists public int InitialCount { get; set; } = 3; // amount of connections that should initially be allowed per thread public int InitialSize { get; set; } = 3; // amount of additional connections that each thread can handle after // a new thread is created public int SizeGrowth { get; set; } = 1; // maximum amount of connections that a single thread will be assigned // 0 means no limit public int MaxSize { get; set; } = 10; // maximum number of threads that will be spawned // 0 means no limit public int MaxCount { get; set; } = 0; // maximum number of connections in a thread that exceeds the calculated // amount for the pool's thread count before the connection redistribution // function is called // 0 means never redistribute public int Tolerance { get; set; } = 0; private int _fullThreadCount; private bool updateFullThreadCount = true; private List Threads = new List(); private UInt64 InternalCounter = 0; private Dictionary Connections = new Dictionary(); public Pool() { for(var i = 0; i < InitialCount; ++i) CreateThread(); } private void IndexConnection(UInt64 id, Connection connection) { lock(Connections) { if(id == 0) id = InternalCounter++; Connections.Add(id, connection); } } public bool AddConnection(Connection connection, UInt64 id = 0) { lock(Threads) { foreach(var thread in Threads) { if(thread.Stack.Count < FullThreadSize) { thread.Stack.AddClient(connection); return true; } } if(MaxCount == 0 || Threads.Count < MaxCount) { CreateThread(connection); return true; } } return false; } public void InvalidateConnection(Connection connection) { lock(Connections) { } } public void InvalidateThread(Stack stackRef) { lock(Threads) { var ctx = Threads.FirstOrDefault(x => Object.ReferenceEquals(x.Stack, stackRef)); if(ctx != null) { Threads.Remove(ctx); updateFullThreadCount = true; } } } private ThreadContext CreateThread(Connection initialConnection = null, bool runWithNoClients = false) { var stack = new Stack(this, runWithNoClients, initialConnection); var ctx = new ThreadContext { Stack = stack, Thread = new Thread(new ThreadStart(stack.ManageStack)) }; Threads.Add(ctx); updateFullThreadCount = true; return ctx; } private int FullThreadSize { get { if(updateFullThreadCount) { _fullThreadCount = Math.Min( MaxSize == 0 ? int.MaxValue : MaxSize, InitialSize + SizeGrowth * (Threads.Count - InitialCount) ); } return _fullThreadCount; } } class ThreadContext { public Thread Thread { get; set; } public Stack Stack { get; set; } } } }