HostingEnvironment.QueueBackgroundWorkItem 使用 ASP.Net 线程池还是其他线程池?
HostingEnvironment.QueueBackgroundWorkItem uses ASP.Net thread pool or another thread pool?
我有一个 ASP.Net 应用程序,其中后台任务使用 HostingEnvironment.QueueBackgroundWorkItem 运行,如代码所示下面。
问题: 下面代码中调度的后台任务是使用ASP.Net线程池线程中的线程,还是使用单独线程中的线程游泳池?
public ActionResult SendCustMails()
{
HostingEnvironment.QueueBackgroundWorkItem(ct => SendCustMailsTo(ct, "Customer Notification"));
return View();
}
private void SendCustMailsTo (CancellationToken ct, string msg)
{
//some code is omitted
foreach (var customer in Customers)
{
if (ct.IsCancellationRequested)
{
break;
}
SendMail(customer, msg);
}
return ct;
}
从Hosting environment source code可以看出,QueueBackgroundWorkItem 方法使用 _backGroundWorkScheduler 字段,它是 BackgroundWorkScheduler 类型来调度后台工作项:
public sealed class HostingEnvironment : MarshalByRefObject {
//other field declarations
private static HostingEnvironment _theHostingEnvironment;
private BackgroundWorkScheduler _backgroundWorkScheduler = null; // created on demand
//yet more field declarations
//methods
[SecurityPermission(SecurityAction.LinkDemand, Unrestricted = true)]
public static void QueueBackgroundWorkItem(Action<CancellationToken> workItem) {
if (workItem == null) {
throw new ArgumentNullException("workItem");
}
QueueBackgroundWorkItem(ct => { workItem(ct); return _completedTask; });
}
// See documentation on the other overload for a general API overview.
//
// This overload of QueueBackgroundWorkItem takes a Task-returning callback; the
// work item will be considered finished when the returned Task transitions to a
// terminal state.
[SecurityPermission(SecurityAction.LinkDemand, Unrestricted = true)]
public static void QueueBackgroundWorkItem(Func<CancellationToken, Task> workItem) {
if (workItem == null) {
throw new ArgumentNullException("workItem");
}
if (_theHostingEnvironment == null) {
throw new InvalidOperationException(); // can only be called within an ASP.NET AppDomain
}
_theHostingEnvironment.QueueBackgroundWorkItemInternal(workItem);
}
private void QueueBackgroundWorkItemInternal(Func<CancellationToken, Task> workItem) {
Debug.Assert(workItem != null);
BackgroundWorkScheduler scheduler = Volatile.Read(ref _backgroundWorkScheduler);
// If the scheduler doesn't exist, lazily create it, but only allow one instance to ever be published to the backing field
if (scheduler == null) {
BackgroundWorkScheduler newlyCreatedScheduler = new BackgroundWorkScheduler(UnregisterObject, Misc.WriteUnhandledExceptionToEventLog);
scheduler = Interlocked.CompareExchange(ref _backgroundWorkScheduler, newlyCreatedScheduler, null) ?? newlyCreatedScheduler;
if (scheduler == newlyCreatedScheduler) {
RegisterObject(scheduler); // Only call RegisterObject if we just created the "winning" one
}
}
scheduler.ScheduleWorkItem(workItem);
}
//yet more methods
}
如果我们查看 BackgroundWorkScheduler class 的源代码:
internal sealed class BackgroundWorkScheduler : IRegisteredObject {
//....
public void ScheduleWorkItem(Func<CancellationToken, Task> workItem) {
Debug.Assert(workItem != null);
if (_cancellationTokenHelper.IsCancellationRequested) {
return; // we're not going to run this work item
}
// Unsafe* since we want to get rid of Principal and other constructs specific to the current ExecutionContext
ThreadPool.UnsafeQueueUserWorkItem(state => {
lock (this) {
if (_cancellationTokenHelper.IsCancellationRequested) {
return; // we're not going to run this work item
}
else {
_numExecutingWorkItems++;
}
}
RunWorkItemImpl((Func<CancellationToken, Task>)state);
}, workItem);
}
//other methods
}
我们可以注意到它在内部使用 Asp.Net 线程池来安排工作项。
我有一个 ASP.Net 应用程序,其中后台任务使用 HostingEnvironment.QueueBackgroundWorkItem 运行,如代码所示下面。
问题: 下面代码中调度的后台任务是使用ASP.Net线程池线程中的线程,还是使用单独线程中的线程游泳池?
public ActionResult SendCustMails()
{
HostingEnvironment.QueueBackgroundWorkItem(ct => SendCustMailsTo(ct, "Customer Notification"));
return View();
}
private void SendCustMailsTo (CancellationToken ct, string msg)
{
//some code is omitted
foreach (var customer in Customers)
{
if (ct.IsCancellationRequested)
{
break;
}
SendMail(customer, msg);
}
return ct;
}
从Hosting environment source code可以看出,QueueBackgroundWorkItem 方法使用 _backGroundWorkScheduler 字段,它是 BackgroundWorkScheduler 类型来调度后台工作项:
public sealed class HostingEnvironment : MarshalByRefObject {
//other field declarations
private static HostingEnvironment _theHostingEnvironment;
private BackgroundWorkScheduler _backgroundWorkScheduler = null; // created on demand
//yet more field declarations
//methods
[SecurityPermission(SecurityAction.LinkDemand, Unrestricted = true)]
public static void QueueBackgroundWorkItem(Action<CancellationToken> workItem) {
if (workItem == null) {
throw new ArgumentNullException("workItem");
}
QueueBackgroundWorkItem(ct => { workItem(ct); return _completedTask; });
}
// See documentation on the other overload for a general API overview.
//
// This overload of QueueBackgroundWorkItem takes a Task-returning callback; the
// work item will be considered finished when the returned Task transitions to a
// terminal state.
[SecurityPermission(SecurityAction.LinkDemand, Unrestricted = true)]
public static void QueueBackgroundWorkItem(Func<CancellationToken, Task> workItem) {
if (workItem == null) {
throw new ArgumentNullException("workItem");
}
if (_theHostingEnvironment == null) {
throw new InvalidOperationException(); // can only be called within an ASP.NET AppDomain
}
_theHostingEnvironment.QueueBackgroundWorkItemInternal(workItem);
}
private void QueueBackgroundWorkItemInternal(Func<CancellationToken, Task> workItem) {
Debug.Assert(workItem != null);
BackgroundWorkScheduler scheduler = Volatile.Read(ref _backgroundWorkScheduler);
// If the scheduler doesn't exist, lazily create it, but only allow one instance to ever be published to the backing field
if (scheduler == null) {
BackgroundWorkScheduler newlyCreatedScheduler = new BackgroundWorkScheduler(UnregisterObject, Misc.WriteUnhandledExceptionToEventLog);
scheduler = Interlocked.CompareExchange(ref _backgroundWorkScheduler, newlyCreatedScheduler, null) ?? newlyCreatedScheduler;
if (scheduler == newlyCreatedScheduler) {
RegisterObject(scheduler); // Only call RegisterObject if we just created the "winning" one
}
}
scheduler.ScheduleWorkItem(workItem);
}
//yet more methods
}
如果我们查看 BackgroundWorkScheduler class 的源代码:
internal sealed class BackgroundWorkScheduler : IRegisteredObject {
//....
public void ScheduleWorkItem(Func<CancellationToken, Task> workItem) {
Debug.Assert(workItem != null);
if (_cancellationTokenHelper.IsCancellationRequested) {
return; // we're not going to run this work item
}
// Unsafe* since we want to get rid of Principal and other constructs specific to the current ExecutionContext
ThreadPool.UnsafeQueueUserWorkItem(state => {
lock (this) {
if (_cancellationTokenHelper.IsCancellationRequested) {
return; // we're not going to run this work item
}
else {
_numExecutingWorkItems++;
}
}
RunWorkItemImpl((Func<CancellationToken, Task>)state);
}, workItem);
}
//other methods
}
我们可以注意到它在内部使用 Asp.Net 线程池来安排工作项。