RequestQueue.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ 4.0 / 4.0 / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / clr / src / ManagedLibraries / Remoting / Channels / CORE / RequestQueue.cs / 1305376 / RequestQueue.cs

                            // ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 

// 
// Request Queue 
//      queues up the requests to avoid thread pool starvation,
//      making sure that there are always available threads to process requests 
//
// This code has been taken from the XSP code base and modified for Remoting.
//
 
namespace System.Runtime.Remoting.Channels {
    using System.Threading; 
    using System.Collections; 

    internal class RequestQueue { 
        // configuration params
        private int _minExternFreeThreads;
        private int _minLocalFreeThreads;
        private int _queueLimit; 

        // two queues -- one for local requests, one for external 
        private Queue _localQueue = new Queue(); 
        private Queue _externQueue = new Queue();
 
        // total count
        private int _count;

        // work items queued to pick up new work 
        private WaitCallback _workItemCallback;
        private int _workItemCount; 
        private const int _workItemLimit = 2; 

 
        // helpers
        private static bool IsLocal(SocketHandler sh) {
            return sh.IsLocal();
        } 

        private void QueueRequest(SocketHandler sh, bool isLocal) { 
            lock (this) { 
                if (isLocal)
                    _localQueue.Enqueue(sh); 
                else
                    _externQueue.Enqueue(sh);

                _count++; 
            }
        } 
 
        private SocketHandler DequeueRequest(bool localOnly) {
            Object sh = null; 

            if (_count > 0) {
                lock (this) {
                    if (_localQueue.Count > 0) { 
                        sh = _localQueue.Dequeue();
                        _count--; 
                    } 
                    else if (!localOnly && _externQueue.Count > 0) {
                        sh = _externQueue.Dequeue(); 
                        _count--;
                    }
                }
            } 

            return (SocketHandler)sh; 
        } 

        // ctor 
        internal RequestQueue(int minExternFreeThreads, int minLocalFreeThreads, int queueLimit) {
            _minExternFreeThreads = minExternFreeThreads;
            _minLocalFreeThreads = minLocalFreeThreads;
            _queueLimit = queueLimit; 

            _workItemCallback = new WaitCallback(this.WorkItemCallback); 
        } 

 
        // method called to process the next request
        internal void ProcessNextRequest(SocketHandler sh)
        {
            sh = GetRequestToExecute(sh); 

            if (sh != null) 
                sh.ProcessRequestNow(); 
        } // ProcessNextRequest
 

        // method called when data arrives for incoming requests
        internal SocketHandler GetRequestToExecute(SocketHandler sh) {
            int workerThreads, ioThreads; 
            ThreadPool.GetAvailableThreads(out workerThreads, out ioThreads);
            int freeThreads = (ioThreads > workerThreads) ? workerThreads : ioThreads; 
 
            // fast path when there are threads available and nothing queued
            if (freeThreads >= _minExternFreeThreads && _count == 0) 
                return sh;

            bool isLocal = IsLocal(sh);
 
            // fast path when there are threads for local requests available and nothing queued
            if (isLocal && freeThreads >= _minLocalFreeThreads && _count == 0) 
                return sh; 

            // reject if queue limit exceeded 
            if (_count >= _queueLimit) {
                sh.RejectRequestNowSinceServerIsBusy();
                return null;
            } 

            // can't execute the current request on the current thread -- need to queue 
            QueueRequest(sh, isLocal); 

            // maybe can execute a request previously queued 
            if (freeThreads >= _minExternFreeThreads) {
                sh = DequeueRequest(false); // enough threads to process even external requests
            }
            else if (freeThreads >= _minLocalFreeThreads) { 
                sh = DequeueRequest(true);  // enough threads to process only local requests
            } 
            else{ 
                sh = null;
            } 

            if (sh == null){                  // not enough threads -> do nothing on this thread
                ScheduleMoreWorkIfNeeded(); // try to schedule to worker thread
            } 

            return sh; 
        } 

        // method called from SocketHandler at the end of request 
        internal void ScheduleMoreWorkIfNeeded() {
            // is queue empty?
            if (_count == 0)
                return; 

            // already scheduled enough work items 
            if (_workItemCount >= _workItemLimit) 
                return;
 
            // queue the work item
            Interlocked.Increment(ref _workItemCount);
            ThreadPool.UnsafeQueueUserWorkItem(_workItemCallback, null);
        } 

        // method called to pick up more work 
        private void WorkItemCallback(Object state) { 
            Interlocked.Decrement(ref _workItemCount);
 
            // is queue empty?
            if (_count == 0)
                return;
 
            int workerThreads, ioThreads;
            ThreadPool.GetAvailableThreads(out workerThreads, out ioThreads); 
 
            bool bHandledRequest = false;
            // service another request if enough worker threads are available 
            if (workerThreads >= _minLocalFreeThreads)
            {
                // pick up request from the queue
                SocketHandler sh = DequeueRequest(workerThreads < _minExternFreeThreads); 
                if (sh != null)
                { 
                    sh.ProcessRequestNow(); 
                    bHandledRequest = true;
                } 
            }

            if (!bHandledRequest){
                Thread.Sleep(250); 
                ScheduleMoreWorkIfNeeded();
            } 
        } 

    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 

// 
// Request Queue 
//      queues up the requests to avoid thread pool starvation,
//      making sure that there are always available threads to process requests 
//
// This code has been taken from the XSP code base and modified for Remoting.
//
 
namespace System.Runtime.Remoting.Channels {
    using System.Threading; 
    using System.Collections; 

    internal class RequestQueue { 
        // configuration params
        private int _minExternFreeThreads;
        private int _minLocalFreeThreads;
        private int _queueLimit; 

        // two queues -- one for local requests, one for external 
        private Queue _localQueue = new Queue(); 
        private Queue _externQueue = new Queue();
 
        // total count
        private int _count;

        // work items queued to pick up new work 
        private WaitCallback _workItemCallback;
        private int _workItemCount; 
        private const int _workItemLimit = 2; 

 
        // helpers
        private static bool IsLocal(SocketHandler sh) {
            return sh.IsLocal();
        } 

        private void QueueRequest(SocketHandler sh, bool isLocal) { 
            lock (this) { 
                if (isLocal)
                    _localQueue.Enqueue(sh); 
                else
                    _externQueue.Enqueue(sh);

                _count++; 
            }
        } 
 
        private SocketHandler DequeueRequest(bool localOnly) {
            Object sh = null; 

            if (_count > 0) {
                lock (this) {
                    if (_localQueue.Count > 0) { 
                        sh = _localQueue.Dequeue();
                        _count--; 
                    } 
                    else if (!localOnly && _externQueue.Count > 0) {
                        sh = _externQueue.Dequeue(); 
                        _count--;
                    }
                }
            } 

            return (SocketHandler)sh; 
        } 

        // ctor 
        internal RequestQueue(int minExternFreeThreads, int minLocalFreeThreads, int queueLimit) {
            _minExternFreeThreads = minExternFreeThreads;
            _minLocalFreeThreads = minLocalFreeThreads;
            _queueLimit = queueLimit; 

            _workItemCallback = new WaitCallback(this.WorkItemCallback); 
        } 

 
        // method called to process the next request
        internal void ProcessNextRequest(SocketHandler sh)
        {
            sh = GetRequestToExecute(sh); 

            if (sh != null) 
                sh.ProcessRequestNow(); 
        } // ProcessNextRequest
 

        // method called when data arrives for incoming requests
        internal SocketHandler GetRequestToExecute(SocketHandler sh) {
            int workerThreads, ioThreads; 
            ThreadPool.GetAvailableThreads(out workerThreads, out ioThreads);
            int freeThreads = (ioThreads > workerThreads) ? workerThreads : ioThreads; 
 
            // fast path when there are threads available and nothing queued
            if (freeThreads >= _minExternFreeThreads && _count == 0) 
                return sh;

            bool isLocal = IsLocal(sh);
 
            // fast path when there are threads for local requests available and nothing queued
            if (isLocal && freeThreads >= _minLocalFreeThreads && _count == 0) 
                return sh; 

            // reject if queue limit exceeded 
            if (_count >= _queueLimit) {
                sh.RejectRequestNowSinceServerIsBusy();
                return null;
            } 

            // can't execute the current request on the current thread -- need to queue 
            QueueRequest(sh, isLocal); 

            // maybe can execute a request previously queued 
            if (freeThreads >= _minExternFreeThreads) {
                sh = DequeueRequest(false); // enough threads to process even external requests
            }
            else if (freeThreads >= _minLocalFreeThreads) { 
                sh = DequeueRequest(true);  // enough threads to process only local requests
            } 
            else{ 
                sh = null;
            } 

            if (sh == null){                  // not enough threads -> do nothing on this thread
                ScheduleMoreWorkIfNeeded(); // try to schedule to worker thread
            } 

            return sh; 
        } 

        // method called from SocketHandler at the end of request 
        internal void ScheduleMoreWorkIfNeeded() {
            // is queue empty?
            if (_count == 0)
                return; 

            // already scheduled enough work items 
            if (_workItemCount >= _workItemLimit) 
                return;
 
            // queue the work item
            Interlocked.Increment(ref _workItemCount);
            ThreadPool.UnsafeQueueUserWorkItem(_workItemCallback, null);
        } 

        // method called to pick up more work 
        private void WorkItemCallback(Object state) { 
            Interlocked.Decrement(ref _workItemCount);
 
            // is queue empty?
            if (_count == 0)
                return;
 
            int workerThreads, ioThreads;
            ThreadPool.GetAvailableThreads(out workerThreads, out ioThreads); 
 
            bool bHandledRequest = false;
            // service another request if enough worker threads are available 
            if (workerThreads >= _minLocalFreeThreads)
            {
                // pick up request from the queue
                SocketHandler sh = DequeueRequest(workerThreads < _minExternFreeThreads); 
                if (sh != null)
                { 
                    sh.ProcessRequestNow(); 
                    bHandledRequest = true;
                } 
            }

            if (!bHandledRequest){
                Thread.Sleep(250); 
                ScheduleMoreWorkIfNeeded();
            } 
        } 

    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
                        

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