Background tasks with hosted services in ASP.NET Core
By Jeow Li Huan
Note
This isn't the latest version of this article. For the current release, see the .NET 9 version of this article.
Warning
This version of ASP.NET Core is no longer supported. For more information, see the .NET and .NET Core Support Policy. For the current release, see the .NET 9 version of this article.
Important
This information relates to a pre-release product that may be substantially modified before it's commercially released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
For the current release, see the .NET 9 version of this article.
In ASP.NET Core, background tasks can be implemented as hosted services. A hosted service is a class with background task logic that implements the IHostedService interface. This article provides three hosted service examples:
- Background task that runs on a timer.
- Hosted service that activates a scoped service. The scoped service can use dependency injection (DI).
- Queued background tasks that run sequentially.
Worker Service template
The ASP.NET Core Worker Service template provides a starting point for writing long running service apps. An app created from the Worker Service template specifies the Worker SDK in its project file:
<Project Sdk="Microsoft.NET.Sdk.Worker">
To use the template as a basis for a hosted services app:
- Create a new project.
- Select Worker Service. Select Next.
- Provide a project name in the Project name field or accept the default project name. Select Next.
- In the Additional information dialog, Choose a Framework. Select Create.
Package
An app based on the Worker Service template uses the Microsoft.NET.Sdk.Worker
SDK and has an explicit package reference to the Microsoft.Extensions.Hosting package. For example, see the sample app's project file (BackgroundTasksSample.csproj
).
For web apps that use the Microsoft.NET.Sdk.Web
SDK, the Microsoft.Extensions.Hosting package is referenced implicitly from the shared framework. An explicit package reference in the app's project file isn't required.
IHostedService interface
The IHostedService interface defines two methods for objects that are managed by the host:
StartAsync
StartAsync(CancellationToken) contains the logic to start the background task. StartAsync
is called before:
- The app's request processing pipeline is configured.
- The server is started and IApplicationLifetime.ApplicationStarted is triggered.
StartAsync
should be limited to short running tasks because hosted services are run sequentially, and no further services are started until StartAsync
runs to completion.
StopAsync
- StopAsync(CancellationToken) is triggered when the host is performing a graceful shutdown.
StopAsync
contains the logic to end the background task. Implement IDisposable and finalizers (destructors) to dispose of any unmanaged resources.
The cancellation token has a default 30 second timeout to indicate that the shutdown process should no longer be graceful. When cancellation is requested on the token:
- Any remaining background operations that the app is performing should be aborted.
- Any methods called in
StopAsync
should return promptly.
However, tasks aren't abandoned after cancellation is requested—the caller awaits all tasks to complete.
If the app shuts down unexpectedly (for example, the app's process fails), StopAsync
might not be called. Therefore, any methods called or operations conducted in StopAsync
might not occur.
To extend the default 30 second shutdown timeout, set:
- ShutdownTimeout when using Generic Host. For more information, see .NET Generic Host in ASP.NET Core.
- Shutdown timeout host configuration setting when using Web Host. For more information, see ASP.NET Core Web Host.
The hosted service is activated once at app startup and gracefully shut down at app shutdown. If an error is thrown during background task execution, Dispose
should be called even if StopAsync
isn't called.
BackgroundService base class
BackgroundService is a base class for implementing a long running IHostedService.
ExecuteAsync(CancellationToken) is called to run the background service. The implementation returns a Task that represents the entire lifetime of the background service. No further services are started until ExecuteAsync becomes asynchronous, such as by calling await
. Avoid performing long, blocking initialization work in ExecuteAsync
. The host blocks in StopAsync(CancellationToken) waiting for ExecuteAsync
to complete.
The cancellation token is triggered when IHostedService.StopAsync is called. Your implementation of ExecuteAsync
should finish promptly when the cancellation token is fired in order to gracefully shut down the service. Otherwise, the service ungracefully shuts down at the shutdown timeout. For more information, see the IHostedService interface section.
For more information, see the BackgroundService source code.
Timed background tasks
A timed background task makes use of the System.Threading.Timer class. The timer triggers the task's DoWork
method. The timer is disabled on StopAsync
and disposed when the service container is disposed on Dispose
:
public class TimedHostedService : IHostedService, IDisposable
{
private int executionCount = 0;
private readonly ILogger<TimedHostedService> _logger;
private Timer? _timer = null;
public TimedHostedService(ILogger<TimedHostedService> logger)
{
_logger = logger;
}
public Task StartAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Timed Hosted Service running.");
_timer = new Timer(DoWork, null, TimeSpan.Zero,
TimeSpan.FromSeconds(5));
return Task.CompletedTask;
}
private void DoWork(object? state)
{
var count = Interlocked.Increment(ref executionCount);
_logger.LogInformation(
"Timed Hosted Service is working. Count: {Count}", count);
}
public Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Timed Hosted Service is stopping.");
_timer?.Change(Timeout.Infinite, 0);
return Task.CompletedTask;
}
public void Dispose()
{
_timer?.Dispose();
}
}
The Timer doesn't wait for previous executions of DoWork
to finish, so the approach shown might not be suitable for every scenario. Interlocked.Increment is used to increment the execution counter as an atomic operation, which ensures that multiple threads don't update executionCount
concurrently.
The service is registered in IHostBuilder.ConfigureServices
(Program.cs
) with the AddHostedService
extension method:
services.AddHostedService<TimedHostedService>();
Consuming a scoped service in a background task
To use scoped services within a BackgroundService, create a scope. No scope is created for a hosted service by default.
The scoped background task service contains the background task's logic. In the following example:
- The service is asynchronous. The
DoWork
method returns aTask
. For demonstration purposes, a delay of ten seconds is awaited in theDoWork
method. - An ILogger is injected into the service.
internal interface IScopedProcessingService
{
Task DoWork(CancellationToken stoppingToken);
}
internal class ScopedProcessingService : IScopedProcessingService
{
private int executionCount = 0;
private readonly ILogger _logger;
public ScopedProcessingService(ILogger<ScopedProcessingService> logger)
{
_logger = logger;
}
public async Task DoWork(CancellationToken stoppingToken)
{
while (!stoppingToken.IsCancellationRequested)
{
executionCount++;
_logger.LogInformation(
"Scoped Processing Service is working. Count: {Count}", executionCount);
await Task.Delay(10000, stoppingToken);
}
}
}
The hosted service creates a scope to resolve the scoped background task service to call its DoWork
method. DoWork
returns a Task
, which is awaited in ExecuteAsync
:
public class ConsumeScopedServiceHostedService : BackgroundService
{
private readonly ILogger<ConsumeScopedServiceHostedService> _logger;
public ConsumeScopedServiceHostedService(IServiceProvider services,
ILogger<ConsumeScopedServiceHostedService> logger)
{
Services = services;
_logger = logger;
}
public IServiceProvider Services { get; }
protected override async Task ExecuteAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service running.");
await DoWork(stoppingToken);
}
private async Task DoWork(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service is working.");
using (var scope = Services.CreateScope())
{
var scopedProcessingService =
scope.ServiceProvider
.GetRequiredService<IScopedProcessingService>();
await scopedProcessingService.DoWork(stoppingToken);
}
}
public override async Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service is stopping.");
await base.StopAsync(stoppingToken);
}
}
The services are registered in IHostBuilder.ConfigureServices
(Program.cs
). The hosted service is registered with the AddHostedService
extension method:
services.AddHostedService<ConsumeScopedServiceHostedService>();
services.AddScoped<IScopedProcessingService, ScopedProcessingService>();
Queued background tasks
A background task queue is based on the .NET 4.x QueueBackgroundWorkItem:
public interface IBackgroundTaskQueue
{
ValueTask QueueBackgroundWorkItemAsync(Func<CancellationToken, ValueTask> workItem);
ValueTask<Func<CancellationToken, ValueTask>> DequeueAsync(
CancellationToken cancellationToken);
}
public class BackgroundTaskQueue : IBackgroundTaskQueue
{
private readonly Channel<Func<CancellationToken, ValueTask>> _queue;
public BackgroundTaskQueue(int capacity)
{
// Capacity should be set based on the expected application load and
// number of concurrent threads accessing the queue.
// BoundedChannelFullMode.Wait will cause calls to WriteAsync() to return a task,
// which completes only when space became available. This leads to backpressure,
// in case too many publishers/calls start accumulating.
var options = new BoundedChannelOptions(capacity)
{
FullMode = BoundedChannelFullMode.Wait
};
_queue = Channel.CreateBounded<Func<CancellationToken, ValueTask>>(options);
}
public async ValueTask QueueBackgroundWorkItemAsync(
Func<CancellationToken, ValueTask> workItem)
{
if (workItem == null)
{
throw new ArgumentNullException(nameof(workItem));
}
await _queue.Writer.WriteAsync(workItem);
}
public async ValueTask<Func<CancellationToken, ValueTask>> DequeueAsync(
CancellationToken cancellationToken)
{
var workItem = await _queue.Reader.ReadAsync(cancellationToken);
return workItem;
}
}
In the following QueueHostedService
example:
- The
BackgroundProcessing
method returns aTask
, which is awaited inExecuteAsync
. - Background tasks in the queue are dequeued and executed in
BackgroundProcessing
. - Work items are awaited before the service stops in
StopAsync
.
public class QueuedHostedService : BackgroundService
{
private readonly ILogger<QueuedHostedService> _logger;
public QueuedHostedService(IBackgroundTaskQueue taskQueue,
ILogger<QueuedHostedService> logger)
{
TaskQueue = taskQueue;
_logger = logger;
}
public IBackgroundTaskQueue TaskQueue { get; }
protected override async Task ExecuteAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
$"Queued Hosted Service is running.{Environment.NewLine}" +
$"{Environment.NewLine}Tap W to add a work item to the " +
$"background queue.{Environment.NewLine}");
await BackgroundProcessing(stoppingToken);
}
private async Task BackgroundProcessing(CancellationToken stoppingToken)
{
while (!stoppingToken.IsCancellationRequested)
{
var workItem =
await TaskQueue.DequeueAsync(stoppingToken);
try
{
await workItem(stoppingToken);
}
catch (Exception ex)
{
_logger.LogError(ex,
"Error occurred executing {WorkItem}.", nameof(workItem));
}
}
}
public override async Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Queued Hosted Service is stopping.");
await base.StopAsync(stoppingToken);
}
}
A MonitorLoop
service handles enqueuing tasks for the hosted service whenever the w
key is selected on an input device:
- The
IBackgroundTaskQueue
is injected into theMonitorLoop
service. IBackgroundTaskQueue.QueueBackgroundWorkItem
is called to enqueue a work item.- The work item simulates a long-running background task:
- Three 5-second delays are executed (
Task.Delay
). - A
try-catch
statement traps OperationCanceledException if the task is cancelled.
- Three 5-second delays are executed (
public class MonitorLoop
{
private readonly IBackgroundTaskQueue _taskQueue;
private readonly ILogger _logger;
private readonly CancellationToken _cancellationToken;
public MonitorLoop(IBackgroundTaskQueue taskQueue,
ILogger<MonitorLoop> logger,
IHostApplicationLifetime applicationLifetime)
{
_taskQueue = taskQueue;
_logger = logger;
_cancellationToken = applicationLifetime.ApplicationStopping;
}
public void StartMonitorLoop()
{
_logger.LogInformation("MonitorAsync Loop is starting.");
// Run a console user input loop in a background thread
Task.Run(async () => await MonitorAsync());
}
private async ValueTask MonitorAsync()
{
while (!_cancellationToken.IsCancellationRequested)
{
var keyStroke = Console.ReadKey();
if (keyStroke.Key == ConsoleKey.W)
{
// Enqueue a background work item
await _taskQueue.QueueBackgroundWorkItemAsync(BuildWorkItem);
}
}
}
private async ValueTask BuildWorkItem(CancellationToken token)
{
// Simulate three 5-second tasks to complete
// for each enqueued work item
int delayLoop = 0;
var guid = Guid.NewGuid().ToString();
_logger.LogInformation("Queued Background Task {Guid} is starting.", guid);
while (!token.IsCancellationRequested && delayLoop < 3)
{
try
{
await Task.Delay(TimeSpan.FromSeconds(5), token);
}
catch (OperationCanceledException)
{
// Prevent throwing if the Delay is cancelled
}
delayLoop++;
_logger.LogInformation("Queued Background Task {Guid} is running. "
+ "{DelayLoop}/3", guid, delayLoop);
}
if (delayLoop == 3)
{
_logger.LogInformation("Queued Background Task {Guid} is complete.", guid);
}
else
{
_logger.LogInformation("Queued Background Task {Guid} was cancelled.", guid);
}
}
}
The services are registered in IHostBuilder.ConfigureServices
(Program.cs
). The hosted service is registered with the AddHostedService
extension method:
services.AddSingleton<MonitorLoop>();
services.AddHostedService<QueuedHostedService>();
services.AddSingleton<IBackgroundTaskQueue>(ctx =>
{
if (!int.TryParse(hostContext.Configuration["QueueCapacity"], out var queueCapacity))
queueCapacity = 100;
return new BackgroundTaskQueue(queueCapacity);
});
MonitorLoop
is started in Program.cs
:
var monitorLoop = host.Services.GetRequiredService<MonitorLoop>();
monitorLoop.StartMonitorLoop();
Asynchronous timed background task
The following code creates an asynchronous timed background task:
namespace TimedBackgroundTasks;
public class TimedHostedService : BackgroundService
{
private readonly ILogger<TimedHostedService> _logger;
private int _executionCount;
public TimedHostedService(ILogger<TimedHostedService> logger)
{
_logger = logger;
}
protected override async Task ExecuteAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Timed Hosted Service running.");
// When the timer should have no due-time, then do the work once now.
DoWork();
using PeriodicTimer timer = new(TimeSpan.FromSeconds(1));
try
{
while (await timer.WaitForNextTickAsync(stoppingToken))
{
DoWork();
}
}
catch (OperationCanceledException)
{
_logger.LogInformation("Timed Hosted Service is stopping.");
}
}
// Could also be a async method, that can be awaited in ExecuteAsync above
private void DoWork()
{
int count = Interlocked.Increment(ref _executionCount);
_logger.LogInformation("Timed Hosted Service is working. Count: {Count}", count);
}
}
Native AOT
The Worker Service templates support .NET native ahead-of-time (AOT) with the --aot
flag:
- Create a new project.
- Select Worker Service. Select Next.
- Provide a project name in the Project name field or accept the default project name. Select Next.
- In the Additional information dialog:
- Choose a Framework.
- Check the Enable Native AOT publish checkbox.
- Select Create.
The AOT option adds <PublishAot>true</PublishAot>
to the project file:
<Project Sdk="Microsoft.NET.Sdk.Worker">
<PropertyGroup>
<TargetFramework>net8.0</TargetFramework>
<Nullable>enable</Nullable>
<ImplicitUsings>enable</ImplicitUsings>
<InvariantGlobalization>true</InvariantGlobalization>
+ <PublishAot>true</PublishAot>
<UserSecretsId>dotnet-WorkerWithAot-e94b2</UserSecretsId>
</PropertyGroup>
<ItemGroup>
<PackageReference Include="Microsoft.Extensions.Hosting" Version="8.0.0-preview.4.23259.5" />
</ItemGroup>
</Project>
Additional resources
In ASP.NET Core, background tasks can be implemented as hosted services. A hosted service is a class with background task logic that implements the IHostedService interface. This article provides three hosted service examples:
- Background task that runs on a timer.
- Hosted service that activates a scoped service. The scoped service can use dependency injection (DI).
- Queued background tasks that run sequentially.
Worker Service template
The ASP.NET Core Worker Service template provides a starting point for writing long running service apps. An app created from the Worker Service template specifies the Worker SDK in its project file:
<Project Sdk="Microsoft.NET.Sdk.Worker">
To use the template as a basis for a hosted services app:
- Create a new project.
- Select Worker Service. Select Next.
- Provide a project name in the Project name field or accept the default project name. Select Next.
- In the Additional information dialog, Choose a Framework. Select Create.
Package
An app based on the Worker Service template uses the Microsoft.NET.Sdk.Worker
SDK and has an explicit package reference to the Microsoft.Extensions.Hosting package. For example, see the sample app's project file (BackgroundTasksSample.csproj
).
For web apps that use the Microsoft.NET.Sdk.Web
SDK, the Microsoft.Extensions.Hosting package is referenced implicitly from the shared framework. An explicit package reference in the app's project file isn't required.
IHostedService interface
The IHostedService interface defines two methods for objects that are managed by the host:
StartAsync
StartAsync(CancellationToken) contains the logic to start the background task. StartAsync
is called before:
- The app's request processing pipeline is configured.
- The server is started and IApplicationLifetime.ApplicationStarted is triggered.
StartAsync
should be limited to short running tasks because hosted services are run sequentially, and no further services are started until StartAsync
runs to completion.
StopAsync
- StopAsync(CancellationToken) is triggered when the host is performing a graceful shutdown.
StopAsync
contains the logic to end the background task. Implement IDisposable and finalizers (destructors) to dispose of any unmanaged resources.
The cancellation token has a default 30 second timeout to indicate that the shutdown process should no longer be graceful. When cancellation is requested on the token:
- Any remaining background operations that the app is performing should be aborted.
- Any methods called in
StopAsync
should return promptly.
However, tasks aren't abandoned after cancellation is requested—the caller awaits all tasks to complete.
If the app shuts down unexpectedly (for example, the app's process fails), StopAsync
might not be called. Therefore, any methods called or operations conducted in StopAsync
might not occur.
To extend the default 30 second shutdown timeout, set:
- ShutdownTimeout when using Generic Host. For more information, see .NET Generic Host in ASP.NET Core.
- Shutdown timeout host configuration setting when using Web Host. For more information, see ASP.NET Core Web Host.
The hosted service is activated once at app startup and gracefully shut down at app shutdown. If an error is thrown during background task execution, Dispose
should be called even if StopAsync
isn't called.
BackgroundService base class
BackgroundService is a base class for implementing a long running IHostedService.
ExecuteAsync(CancellationToken) is called to run the background service. The implementation returns a Task that represents the entire lifetime of the background service. No further services are started until ExecuteAsync becomes asynchronous, such as by calling await
. Avoid performing long, blocking initialization work in ExecuteAsync
. The host blocks in StopAsync(CancellationToken) waiting for ExecuteAsync
to complete.
The cancellation token is triggered when IHostedService.StopAsync is called. Your implementation of ExecuteAsync
should finish promptly when the cancellation token is fired in order to gracefully shut down the service. Otherwise, the service ungracefully shuts down at the shutdown timeout. For more information, see the IHostedService interface section.
For more information, see the BackgroundService source code.
Timed background tasks
A timed background task makes use of the System.Threading.Timer class. The timer triggers the task's DoWork
method. The timer is disabled on StopAsync
and disposed when the service container is disposed on Dispose
:
public class TimedHostedService : IHostedService, IDisposable
{
private int executionCount = 0;
private readonly ILogger<TimedHostedService> _logger;
private Timer? _timer = null;
public TimedHostedService(ILogger<TimedHostedService> logger)
{
_logger = logger;
}
public Task StartAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Timed Hosted Service running.");
_timer = new Timer(DoWork, null, TimeSpan.Zero,
TimeSpan.FromSeconds(5));
return Task.CompletedTask;
}
private void DoWork(object? state)
{
var count = Interlocked.Increment(ref executionCount);
_logger.LogInformation(
"Timed Hosted Service is working. Count: {Count}", count);
}
public Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Timed Hosted Service is stopping.");
_timer?.Change(Timeout.Infinite, 0);
return Task.CompletedTask;
}
public void Dispose()
{
_timer?.Dispose();
}
}
The Timer doesn't wait for previous executions of DoWork
to finish, so the approach shown might not be suitable for every scenario. Interlocked.Increment is used to increment the execution counter as an atomic operation, which ensures that multiple threads don't update executionCount
concurrently.
The service is registered in IHostBuilder.ConfigureServices
(Program.cs
) with the AddHostedService
extension method:
services.AddHostedService<TimedHostedService>();
Consuming a scoped service in a background task
To use scoped services within a BackgroundService, create a scope. No scope is created for a hosted service by default.
The scoped background task service contains the background task's logic. In the following example:
- The service is asynchronous. The
DoWork
method returns aTask
. For demonstration purposes, a delay of ten seconds is awaited in theDoWork
method. - An ILogger is injected into the service.
internal interface IScopedProcessingService
{
Task DoWork(CancellationToken stoppingToken);
}
internal class ScopedProcessingService : IScopedProcessingService
{
private int executionCount = 0;
private readonly ILogger _logger;
public ScopedProcessingService(ILogger<ScopedProcessingService> logger)
{
_logger = logger;
}
public async Task DoWork(CancellationToken stoppingToken)
{
while (!stoppingToken.IsCancellationRequested)
{
executionCount++;
_logger.LogInformation(
"Scoped Processing Service is working. Count: {Count}", executionCount);
await Task.Delay(10000, stoppingToken);
}
}
}
The hosted service creates a scope to resolve the scoped background task service to call its DoWork
method. DoWork
returns a Task
, which is awaited in ExecuteAsync
:
public class ConsumeScopedServiceHostedService : BackgroundService
{
private readonly ILogger<ConsumeScopedServiceHostedService> _logger;
public ConsumeScopedServiceHostedService(IServiceProvider services,
ILogger<ConsumeScopedServiceHostedService> logger)
{
Services = services;
_logger = logger;
}
public IServiceProvider Services { get; }
protected override async Task ExecuteAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service running.");
await DoWork(stoppingToken);
}
private async Task DoWork(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service is working.");
using (var scope = Services.CreateScope())
{
var scopedProcessingService =
scope.ServiceProvider
.GetRequiredService<IScopedProcessingService>();
await scopedProcessingService.DoWork(stoppingToken);
}
}
public override async Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service is stopping.");
await base.StopAsync(stoppingToken);
}
}
The services are registered in IHostBuilder.ConfigureServices
(Program.cs
). The hosted service is registered with the AddHostedService
extension method:
services.AddHostedService<ConsumeScopedServiceHostedService>();
services.AddScoped<IScopedProcessingService, ScopedProcessingService>();
Queued background tasks
A background task queue is based on the .NET 4.x QueueBackgroundWorkItem:
public interface IBackgroundTaskQueue
{
ValueTask QueueBackgroundWorkItemAsync(Func<CancellationToken, ValueTask> workItem);
ValueTask<Func<CancellationToken, ValueTask>> DequeueAsync(
CancellationToken cancellationToken);
}
public class BackgroundTaskQueue : IBackgroundTaskQueue
{
private readonly Channel<Func<CancellationToken, ValueTask>> _queue;
public BackgroundTaskQueue(int capacity)
{
// Capacity should be set based on the expected application load and
// number of concurrent threads accessing the queue.
// BoundedChannelFullMode.Wait will cause calls to WriteAsync() to return a task,
// which completes only when space became available. This leads to backpressure,
// in case too many publishers/calls start accumulating.
var options = new BoundedChannelOptions(capacity)
{
FullMode = BoundedChannelFullMode.Wait
};
_queue = Channel.CreateBounded<Func<CancellationToken, ValueTask>>(options);
}
public async ValueTask QueueBackgroundWorkItemAsync(
Func<CancellationToken, ValueTask> workItem)
{
if (workItem == null)
{
throw new ArgumentNullException(nameof(workItem));
}
await _queue.Writer.WriteAsync(workItem);
}
public async ValueTask<Func<CancellationToken, ValueTask>> DequeueAsync(
CancellationToken cancellationToken)
{
var workItem = await _queue.Reader.ReadAsync(cancellationToken);
return workItem;
}
}
In the following QueueHostedService
example:
- The
BackgroundProcessing
method returns aTask
, which is awaited inExecuteAsync
. - Background tasks in the queue are dequeued and executed in
BackgroundProcessing
. - Work items are awaited before the service stops in
StopAsync
.
public class QueuedHostedService : BackgroundService
{
private readonly ILogger<QueuedHostedService> _logger;
public QueuedHostedService(IBackgroundTaskQueue taskQueue,
ILogger<QueuedHostedService> logger)
{
TaskQueue = taskQueue;
_logger = logger;
}
public IBackgroundTaskQueue TaskQueue { get; }
protected override async Task ExecuteAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
$"Queued Hosted Service is running.{Environment.NewLine}" +
$"{Environment.NewLine}Tap W to add a work item to the " +
$"background queue.{Environment.NewLine}");
await BackgroundProcessing(stoppingToken);
}
private async Task BackgroundProcessing(CancellationToken stoppingToken)
{
while (!stoppingToken.IsCancellationRequested)
{
var workItem =
await TaskQueue.DequeueAsync(stoppingToken);
try
{
await workItem(stoppingToken);
}
catch (Exception ex)
{
_logger.LogError(ex,
"Error occurred executing {WorkItem}.", nameof(workItem));
}
}
}
public override async Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Queued Hosted Service is stopping.");
await base.StopAsync(stoppingToken);
}
}
A MonitorLoop
service handles enqueuing tasks for the hosted service whenever the w
key is selected on an input device:
- The
IBackgroundTaskQueue
is injected into theMonitorLoop
service. IBackgroundTaskQueue.QueueBackgroundWorkItem
is called to enqueue a work item.- The work item simulates a long-running background task:
- Three 5-second delays are executed (
Task.Delay
). - A
try-catch
statement traps OperationCanceledException if the task is cancelled.
- Three 5-second delays are executed (
public class MonitorLoop
{
private readonly IBackgroundTaskQueue _taskQueue;
private readonly ILogger _logger;
private readonly CancellationToken _cancellationToken;
public MonitorLoop(IBackgroundTaskQueue taskQueue,
ILogger<MonitorLoop> logger,
IHostApplicationLifetime applicationLifetime)
{
_taskQueue = taskQueue;
_logger = logger;
_cancellationToken = applicationLifetime.ApplicationStopping;
}
public void StartMonitorLoop()
{
_logger.LogInformation("MonitorAsync Loop is starting.");
// Run a console user input loop in a background thread
Task.Run(async () => await MonitorAsync());
}
private async ValueTask MonitorAsync()
{
while (!_cancellationToken.IsCancellationRequested)
{
var keyStroke = Console.ReadKey();
if (keyStroke.Key == ConsoleKey.W)
{
// Enqueue a background work item
await _taskQueue.QueueBackgroundWorkItemAsync(BuildWorkItem);
}
}
}
private async ValueTask BuildWorkItem(CancellationToken token)
{
// Simulate three 5-second tasks to complete
// for each enqueued work item
int delayLoop = 0;
var guid = Guid.NewGuid().ToString();
_logger.LogInformation("Queued Background Task {Guid} is starting.", guid);
while (!token.IsCancellationRequested && delayLoop < 3)
{
try
{
await Task.Delay(TimeSpan.FromSeconds(5), token);
}
catch (OperationCanceledException)
{
// Prevent throwing if the Delay is cancelled
}
delayLoop++;
_logger.LogInformation("Queued Background Task {Guid} is running. "
+ "{DelayLoop}/3", guid, delayLoop);
}
if (delayLoop == 3)
{
_logger.LogInformation("Queued Background Task {Guid} is complete.", guid);
}
else
{
_logger.LogInformation("Queued Background Task {Guid} was cancelled.", guid);
}
}
}
The services are registered in IHostBuilder.ConfigureServices
(Program.cs
). The hosted service is registered with the AddHostedService
extension method:
services.AddSingleton<MonitorLoop>();
services.AddHostedService<QueuedHostedService>();
services.AddSingleton<IBackgroundTaskQueue>(ctx =>
{
if (!int.TryParse(hostContext.Configuration["QueueCapacity"], out var queueCapacity))
queueCapacity = 100;
return new BackgroundTaskQueue(queueCapacity);
});
MonitorLoop
is started in Program.cs
:
var monitorLoop = host.Services.GetRequiredService<MonitorLoop>();
monitorLoop.StartMonitorLoop();
Asynchronous timed background task
The following code creates an asynchronous timed background task:
namespace TimedBackgroundTasks;
public class TimedHostedService : BackgroundService
{
private readonly ILogger<TimedHostedService> _logger;
private int _executionCount;
public TimedHostedService(ILogger<TimedHostedService> logger)
{
_logger = logger;
}
protected override async Task ExecuteAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Timed Hosted Service running.");
// When the timer should have no due-time, then do the work once now.
DoWork();
using PeriodicTimer timer = new(TimeSpan.FromSeconds(1));
try
{
while (await timer.WaitForNextTickAsync(stoppingToken))
{
DoWork();
}
}
catch (OperationCanceledException)
{
_logger.LogInformation("Timed Hosted Service is stopping.");
}
}
// Could also be a async method, that can be awaited in ExecuteAsync above
private void DoWork()
{
int count = Interlocked.Increment(ref _executionCount);
_logger.LogInformation("Timed Hosted Service is working. Count: {Count}", count);
}
}
Additional resources
In ASP.NET Core, background tasks can be implemented as hosted services. A hosted service is a class with background task logic that implements the IHostedService interface. This article provides three hosted service examples:
- Background task that runs on a timer.
- Hosted service that activates a scoped service. The scoped service can use dependency injection (DI).
- Queued background tasks that run sequentially.
View or download sample code (how to download)
Worker Service template
The ASP.NET Core Worker Service template provides a starting point for writing long running service apps. An app created from the Worker Service template specifies the Worker SDK in its project file:
<Project Sdk="Microsoft.NET.Sdk.Worker">
To use the template as a basis for a hosted services app:
- Create a new project.
- Select Worker Service. Select Next.
- Provide a project name in the Project name field or accept the default project name. Select Create.
- In the Create a new Worker service dialog, select Create.
Package
An app based on the Worker Service template uses the Microsoft.NET.Sdk.Worker
SDK and has an explicit package reference to the Microsoft.Extensions.Hosting package. For example, see the sample app's project file (BackgroundTasksSample.csproj
).
For web apps that use the Microsoft.NET.Sdk.Web
SDK, the Microsoft.Extensions.Hosting package is referenced implicitly from the shared framework. An explicit package reference in the app's project file isn't required.
IHostedService interface
The IHostedService interface defines two methods for objects that are managed by the host:
StartAsync
StartAsync
contains the logic to start the background task. StartAsync
is called before:
- The app's request processing pipeline is configured.
- The server is started and IApplicationLifetime.ApplicationStarted is triggered.
The default behavior can be changed so that the hosted service's StartAsync
runs after the app's pipeline has been configured and ApplicationStarted
is called. To change the default behavior, add the hosted service (VideosWatcher
in the following example) after calling ConfigureWebHostDefaults
:
using Microsoft.AspNetCore.Hosting;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Hosting;
public class Program
{
public static void Main(string[] args)
{
CreateHostBuilder(args).Build().Run();
}
public static IHostBuilder CreateHostBuilder(string[] args) =>
Host.CreateDefaultBuilder(args)
.ConfigureWebHostDefaults(webBuilder =>
{
webBuilder.UseStartup<Startup>();
})
.ConfigureServices(services =>
{
services.AddHostedService<VideosWatcher>();
});
}
StopAsync
- StopAsync(CancellationToken) is triggered when the host is performing a graceful shutdown.
StopAsync
contains the logic to end the background task. Implement IDisposable and finalizers (destructors) to dispose of any unmanaged resources.
The cancellation token has a default five second timeout to indicate that the shutdown process should no longer be graceful. When cancellation is requested on the token:
- Any remaining background operations that the app is performing should be aborted.
- Any methods called in
StopAsync
should return promptly.
However, tasks aren't abandoned after cancellation is requested—the caller awaits all tasks to complete.
If the app shuts down unexpectedly (for example, the app's process fails), StopAsync
might not be called. Therefore, any methods called or operations conducted in StopAsync
might not occur.
To extend the default five second shutdown timeout, set:
- ShutdownTimeout when using Generic Host. For more information, see .NET Generic Host in ASP.NET Core.
- Shutdown timeout host configuration setting when using Web Host. For more information, see ASP.NET Core Web Host.
The hosted service is activated once at app startup and gracefully shut down at app shutdown. If an error is thrown during background task execution, Dispose
should be called even if StopAsync
isn't called.
BackgroundService base class
BackgroundService is a base class for implementing a long running IHostedService.
ExecuteAsync(CancellationToken) is called to run the background service. The implementation returns a Task that represents the entire lifetime of the background service. No further services are started until ExecuteAsync becomes asynchronous, such as by calling await
. Avoid performing long, blocking initialization work in ExecuteAsync
. The host blocks in StopAsync(CancellationToken) waiting for ExecuteAsync
to complete.
The cancellation token is triggered when IHostedService.StopAsync is called. Your implementation of ExecuteAsync
should finish promptly when the cancellation token is fired in order to gracefully shut down the service. Otherwise, the service ungracefully shuts down at the shutdown timeout. For more information, see the IHostedService interface section.
StartAsync
should be limited to short running tasks because hosted services are run sequentially, and no further services are started until StartAsync
runs to completion. Long running tasks should be placed in ExecuteAsync
. For more information, see the source to BackgroundService.
Timed background tasks
A timed background task makes use of the System.Threading.Timer class. The timer triggers the task's DoWork
method. The timer is disabled on StopAsync
and disposed when the service container is disposed on Dispose
:
public class TimedHostedService : IHostedService, IDisposable
{
private int executionCount = 0;
private readonly ILogger<TimedHostedService> _logger;
private Timer _timer;
public TimedHostedService(ILogger<TimedHostedService> logger)
{
_logger = logger;
}
public Task StartAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Timed Hosted Service running.");
_timer = new Timer(DoWork, null, TimeSpan.Zero,
TimeSpan.FromSeconds(5));
return Task.CompletedTask;
}
private void DoWork(object state)
{
var count = Interlocked.Increment(ref executionCount);
_logger.LogInformation(
"Timed Hosted Service is working. Count: {Count}", count);
}
public Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Timed Hosted Service is stopping.");
_timer?.Change(Timeout.Infinite, 0);
return Task.CompletedTask;
}
public void Dispose()
{
_timer?.Dispose();
}
}
The Timer doesn't wait for previous executions of DoWork
to finish, so the approach shown might not be suitable for every scenario. Interlocked.Increment is used to increment the execution counter as an atomic operation, which ensures that multiple threads don't update executionCount
concurrently.
The service is registered in IHostBuilder.ConfigureServices
(Program.cs
) with the AddHostedService
extension method:
services.AddHostedService<TimedHostedService>();
Consuming a scoped service in a background task
To use scoped services within a BackgroundService, create a scope. No scope is created for a hosted service by default.
The scoped background task service contains the background task's logic. In the following example:
- The service is asynchronous. The
DoWork
method returns aTask
. For demonstration purposes, a delay of ten seconds is awaited in theDoWork
method. - An ILogger is injected into the service.
internal interface IScopedProcessingService
{
Task DoWork(CancellationToken stoppingToken);
}
internal class ScopedProcessingService : IScopedProcessingService
{
private int executionCount = 0;
private readonly ILogger _logger;
public ScopedProcessingService(ILogger<ScopedProcessingService> logger)
{
_logger = logger;
}
public async Task DoWork(CancellationToken stoppingToken)
{
while (!stoppingToken.IsCancellationRequested)
{
executionCount++;
_logger.LogInformation(
"Scoped Processing Service is working. Count: {Count}", executionCount);
await Task.Delay(10000, stoppingToken);
}
}
}
The hosted service creates a scope to resolve the scoped background task service to call its DoWork
method. DoWork
returns a Task
, which is awaited in ExecuteAsync
:
public class ConsumeScopedServiceHostedService : BackgroundService
{
private readonly ILogger<ConsumeScopedServiceHostedService> _logger;
public ConsumeScopedServiceHostedService(IServiceProvider services,
ILogger<ConsumeScopedServiceHostedService> logger)
{
Services = services;
_logger = logger;
}
public IServiceProvider Services { get; }
protected override async Task ExecuteAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service running.");
await DoWork(stoppingToken);
}
private async Task DoWork(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service is working.");
using (var scope = Services.CreateScope())
{
var scopedProcessingService =
scope.ServiceProvider
.GetRequiredService<IScopedProcessingService>();
await scopedProcessingService.DoWork(stoppingToken);
}
}
public override async Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
"Consume Scoped Service Hosted Service is stopping.");
await base.StopAsync(stoppingToken);
}
}
The services are registered in IHostBuilder.ConfigureServices
(Program.cs
). The hosted service is registered with the AddHostedService
extension method:
services.AddHostedService<ConsumeScopedServiceHostedService>();
services.AddScoped<IScopedProcessingService, ScopedProcessingService>();
Queued background tasks
A background task queue is based on the .NET 4.x QueueBackgroundWorkItem:
public interface IBackgroundTaskQueue
{
ValueTask QueueBackgroundWorkItemAsync(Func<CancellationToken, ValueTask> workItem);
ValueTask<Func<CancellationToken, ValueTask>> DequeueAsync(
CancellationToken cancellationToken);
}
public class BackgroundTaskQueue : IBackgroundTaskQueue
{
private readonly Channel<Func<CancellationToken, ValueTask>> _queue;
public BackgroundTaskQueue(int capacity)
{
// Capacity should be set based on the expected application load and
// number of concurrent threads accessing the queue.
// BoundedChannelFullMode.Wait will cause calls to WriteAsync() to return a task,
// which completes only when space became available. This leads to backpressure,
// in case too many publishers/calls start accumulating.
var options = new BoundedChannelOptions(capacity)
{
FullMode = BoundedChannelFullMode.Wait
};
_queue = Channel.CreateBounded<Func<CancellationToken, ValueTask>>(options);
}
public async ValueTask QueueBackgroundWorkItemAsync(
Func<CancellationToken, ValueTask> workItem)
{
if (workItem == null)
{
throw new ArgumentNullException(nameof(workItem));
}
await _queue.Writer.WriteAsync(workItem);
}
public async ValueTask<Func<CancellationToken, ValueTask>> DequeueAsync(
CancellationToken cancellationToken)
{
var workItem = await _queue.Reader.ReadAsync(cancellationToken);
return workItem;
}
}
In the following QueueHostedService
example:
- The
BackgroundProcessing
method returns aTask
, which is awaited inExecuteAsync
. - Background tasks in the queue are dequeued and executed in
BackgroundProcessing
. - Work items are awaited before the service stops in
StopAsync
.
public class QueuedHostedService : BackgroundService
{
private readonly ILogger<QueuedHostedService> _logger;
public QueuedHostedService(IBackgroundTaskQueue taskQueue,
ILogger<QueuedHostedService> logger)
{
TaskQueue = taskQueue;
_logger = logger;
}
public IBackgroundTaskQueue TaskQueue { get; }
protected override async Task ExecuteAsync(CancellationToken stoppingToken)
{
_logger.LogInformation(
$"Queued Hosted Service is running.{Environment.NewLine}" +
$"{Environment.NewLine}Tap W to add a work item to the " +
$"background queue.{Environment.NewLine}");
await BackgroundProcessing(stoppingToken);
}
private async Task BackgroundProcessing(CancellationToken stoppingToken)
{
while (!stoppingToken.IsCancellationRequested)
{
var workItem =
await TaskQueue.DequeueAsync(stoppingToken);
try
{
await workItem(stoppingToken);
}
catch (Exception ex)
{
_logger.LogError(ex,
"Error occurred executing {WorkItem}.", nameof(workItem));
}
}
}
public override async Task StopAsync(CancellationToken stoppingToken)
{
_logger.LogInformation("Queued Hosted Service is stopping.");
await base.StopAsync(stoppingToken);
}
}
A MonitorLoop
service handles enqueuing tasks for the hosted service whenever the w
key is selected on an input device:
- The
IBackgroundTaskQueue
is injected into theMonitorLoop
service. IBackgroundTaskQueue.QueueBackgroundWorkItem
is called to enqueue a work item.- The work item simulates a long-running background task:
- Three 5-second delays are executed (
Task.Delay
). - A
try-catch
statement traps OperationCanceledException if the task is cancelled.
- Three 5-second delays are executed (
public class MonitorLoop
{
private readonly IBackgroundTaskQueue _taskQueue;
private readonly ILogger _logger;
private readonly CancellationToken _cancellationToken;
public MonitorLoop(IBackgroundTaskQueue taskQueue,
ILogger<MonitorLoop> logger,
IHostApplicationLifetime applicationLifetime)
{
_taskQueue = taskQueue;
_logger = logger;
_cancellationToken = applicationLifetime.ApplicationStopping;
}
public void StartMonitorLoop()
{
_logger.LogInformation("MonitorAsync Loop is starting.");
// Run a console user input loop in a background thread
Task.Run(async () => await MonitorAsync());
}
private async ValueTask MonitorAsync()
{
while (!_cancellationToken.IsCancellationRequested)
{
var keyStroke = Console.ReadKey();
if (keyStroke.Key == ConsoleKey.W)
{
// Enqueue a background work item
await _taskQueue.QueueBackgroundWorkItemAsync(BuildWorkItem);
}
}
}
private async ValueTask BuildWorkItem(CancellationToken token)
{
// Simulate three 5-second tasks to complete
// for each enqueued work item
int delayLoop = 0;
var guid = Guid.NewGuid().ToString();
_logger.LogInformation("Queued Background Task {Guid} is starting.", guid);
while (!token.IsCancellationRequested && delayLoop < 3)
{
try
{
await Task.Delay(TimeSpan.FromSeconds(5), token);
}
catch (OperationCanceledException)
{
// Prevent throwing if the Delay is cancelled
}
delayLoop++;
_logger.LogInformation("Queued Background Task {Guid} is running. " + "{DelayLoop}/3", guid, delayLoop);
}
if (delayLoop == 3)
{
_logger.LogInformation("Queued Background Task {Guid} is complete.", guid);
}
else
{
_logger.LogInformation("Queued Background Task {Guid} was cancelled.", guid);
}
}
}
The services are registered in IHostBuilder.ConfigureServices
(Program.cs
). The hosted service is registered with the AddHostedService
extension method:
services.AddSingleton<MonitorLoop>();
services.AddHostedService<QueuedHostedService>();
services.AddSingleton<IBackgroundTaskQueue>(ctx => {
if (!int.TryParse(hostContext.Configuration["QueueCapacity"], out var queueCapacity))
queueCapacity = 100;
return new BackgroundTaskQueue(queueCapacity);
});
MonitorLoop
is started in Program.Main
:
var monitorLoop = host.Services.GetRequiredService<MonitorLoop>();
monitorLoop.StartMonitorLoop();
Additional resources
ASP.NET Core