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File Providers in ASP.NET Core

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 .NET and .NET Core Support Policy. For the current release, see the .NET 8 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.

By Steve Smith

ASP.NET Core abstracts file system access through the use of File Providers. File Providers are used throughout the ASP.NET Core framework. For example:

View or download sample code (how to download)

File Provider interfaces

The primary interface is IFileProvider. IFileProvider exposes methods to:

IFileInfo provides methods and properties for working with files:

You can read from the file using the IFileInfo.CreateReadStream method.

The FileProviderSample sample app demonstrates how to configure a File Provider in Startup.ConfigureServices for use throughout the app via dependency injection.

File Provider implementations

The following table lists implementations of IFileProvider.

Implementation Description
Composite File Provider Used to provide combined access to files and directories from one or more other providers.
Manifest Embedded File Provider Used to access files embedded in assemblies.
Physical File Provider Used to access the system's physical files.

Physical File Provider

The PhysicalFileProvider provides access to the physical file system. PhysicalFileProvider uses the System.IO.File type (for the physical provider) and scopes all paths to a directory and its children. This scoping prevents access to the file system outside of the specified directory and its children. The most common scenario for creating and using a PhysicalFileProvider is to request an IFileProvider in a constructor through dependency injection.

When instantiating this provider directly, an absolute directory path is required and serves as the base path for all requests made using the provider. Glob patterns aren't supported in the directory path.

The following code shows how to use PhysicalFileProvider to obtain directory contents and file information:

var provider = new PhysicalFileProvider(applicationRoot);
var contents = provider.GetDirectoryContents(string.Empty);
var filePath = Path.Combine("wwwroot", "js", "site.js");
var fileInfo = provider.GetFileInfo(filePath);

Types in the preceding example:

  • provider is an IFileProvider.
  • contents is an IDirectoryContents.
  • fileInfo is an IFileInfo.

The File Provider can be used to iterate through the directory specified by applicationRoot or call GetFileInfo to obtain a file's information. Glob patterns can't be passed to the GetFileInfo method. The File Provider has no access outside of the applicationRoot directory.

The FileProviderSample sample app creates the provider in the Startup.ConfigureServices method using IHostEnvironment.ContentRootFileProvider:

var physicalProvider = _env.ContentRootFileProvider;

Manifest Embedded File Provider

The ManifestEmbeddedFileProvider is used to access files embedded within assemblies. The ManifestEmbeddedFileProvider uses a manifest compiled into the assembly to reconstruct the original paths of the embedded files.

To generate a manifest of the embedded files:

  1. Add the Microsoft.Extensions.FileProviders.Embedded NuGet package to your project.

  2. Set the <GenerateEmbeddedFilesManifest> property to true. Specify the files to embed with <EmbeddedResource>:

    <Project Sdk="Microsoft.NET.Sdk.Web">
    
      <PropertyGroup>
        <TargetFramework>netcoreapp3.1</TargetFramework>
        <GenerateEmbeddedFilesManifest>true</GenerateEmbeddedFilesManifest>
      </PropertyGroup>
    
      <ItemGroup>
        <PackageReference Include="Microsoft.Extensions.FileProviders.Embedded" Version="3.1.0" />
      </ItemGroup>
    
      <ItemGroup>
        <EmbeddedResource Include="Resource.txt" />
      </ItemGroup>
    
    </Project>
    

Use glob patterns to specify one or more files to embed into the assembly.

The FileProviderSample sample app creates an ManifestEmbeddedFileProvider and passes the currently executing assembly to its constructor.

Startup.cs:

var manifestEmbeddedProvider = 
    new ManifestEmbeddedFileProvider(typeof(Program).Assembly);

Additional overloads allow you to:

  • Specify a relative file path.
  • Scope files to a last modified date.
  • Name the embedded resource containing the embedded file manifest.
Overload Description
ManifestEmbeddedFileProvider(Assembly, String) Accepts an optional root relative path parameter. Specify the root to scope calls to GetDirectoryContents to those resources under the provided path.
ManifestEmbeddedFileProvider(Assembly, String, DateTimeOffset) Accepts an optional root relative path parameter and a lastModified date (DateTimeOffset) parameter. The lastModified date scopes the last modification date for the IFileInfo instances returned by the IFileProvider.
ManifestEmbeddedFileProvider(Assembly, String, String, DateTimeOffset) Accepts an optional root relative path, lastModified date, and manifestName parameters. The manifestName represents the name of the embedded resource containing the manifest.

Composite File Provider

The CompositeFileProvider combines IFileProvider instances, exposing a single interface for working with files from multiple providers. When creating the CompositeFileProvider, pass one or more IFileProvider instances to its constructor.

In the FileProviderSample sample app, a PhysicalFileProvider and a ManifestEmbeddedFileProvider provide files to a CompositeFileProvider registered in the app's service container. The following code is found in the project's Startup.ConfigureServices method:

var physicalProvider = _env.ContentRootFileProvider;
var manifestEmbeddedProvider = 
    new ManifestEmbeddedFileProvider(typeof(Program).Assembly);
var compositeProvider = 
    new CompositeFileProvider(physicalProvider, manifestEmbeddedProvider);

services.AddSingleton<IFileProvider>(compositeProvider);

Watch for changes

The IFileProvider.Watch method provides a scenario to watch one or more files or directories for changes. The Watch method:

The resulting change token exposes:

  • HasChanged: A property that can be inspected to determine if a change has occurred.
  • RegisterChangeCallback: Called when changes are detected to the specified path string. Each change token only calls its associated callback in response to a single change. To enable constant monitoring, use a TaskCompletionSource<TResult> (shown below) or recreate IChangeToken instances in response to changes.

The WatchConsole sample app writes a message whenever a .txt file in the TextFiles directory is modified:

private static readonly string _fileFilter = Path.Combine("TextFiles", "*.txt");

public static void Main(string[] args)
{
    Console.WriteLine($"Monitoring for changes with filter '{_fileFilter}' (Ctrl + C to quit)...");

    while (true)
    {
        MainAsync().GetAwaiter().GetResult();
    }
}

private static async Task MainAsync()
{
    var fileProvider = new PhysicalFileProvider(Directory.GetCurrentDirectory());
    IChangeToken token = fileProvider.Watch(_fileFilter);
    var tcs = new TaskCompletionSource<object>();

    token.RegisterChangeCallback(state =>
        ((TaskCompletionSource<object>)state).TrySetResult(null), tcs);

    await tcs.Task.ConfigureAwait(false);

    Console.WriteLine("file changed");
}

Some file systems, such as Docker containers and network shares, may not reliably send change notifications. Set the DOTNET_USE_POLLING_FILE_WATCHER environment variable to 1 or true to poll the file system for changes every four seconds (not configurable).

Glob patterns

File system paths use wildcard patterns called glob (or globbing) patterns. Specify groups of files with these patterns. The two wildcard characters are * and **:

*
Matches anything at the current folder level, any filename, or any file extension. Matches are terminated by / and . characters in the file path.

**
Matches anything across multiple directory levels. Can be used to recursively match many files within a directory hierarchy.

The following table provides common examples of glob patterns.

Pattern Description
directory/file.txt Matches a specific file in a specific directory.
directory/*.txt Matches all files with .txt extension in a specific directory.
directory/*/appsettings.json Matches all appsettings.json files in directories exactly one level below the directory folder.
directory/**/*.txt Matches all files with a .txt extension found anywhere under the directory folder.

ASP.NET Core abstracts file system access through the use of File Providers. File Providers are used throughout the ASP.NET Core framework:

View or download sample code (how to download)

File Provider interfaces

The primary interface is IFileProvider. IFileProvider exposes methods to:

IFileInfo provides methods and properties for working with files:

You can read from the file using the IFileInfo.CreateReadStream method.

The sample app demonstrates how to configure a File Provider in Startup.ConfigureServices for use throughout the app via dependency injection.

File Provider implementations

Three implementations of IFileProvider are available.

Implementation Description
PhysicalFileProvider The physical provider is used to access the system's physical files.
ManifestEmbeddedFileProvider The manifest embedded provider is used to access files embedded in assemblies.
CompositeFileProvider The composite provider is used to provide combined access to files and directories from one or more other providers.

PhysicalFileProvider

The PhysicalFileProvider provides access to the physical file system. PhysicalFileProvider uses the System.IO.File type (for the physical provider) and scopes all paths to a directory and its children. This scoping prevents access to the file system outside of the specified directory and its children. The most common scenario for creating and using a PhysicalFileProvider is to request an IFileProvider in a constructor through dependency injection.

When instantiating this provider directly, a directory path is required and serves as the base path for all requests made using the provider.

The following code shows how to create a PhysicalFileProvider and use it to obtain directory contents and file information:

var provider = new PhysicalFileProvider(applicationRoot);
var contents = provider.GetDirectoryContents(string.Empty);
var fileInfo = provider.GetFileInfo("wwwroot/js/site.js");

Types in the preceding example:

  • provider is an IFileProvider.
  • contents is an IDirectoryContents.
  • fileInfo is an IFileInfo.

The File Provider can be used to iterate through the directory specified by applicationRoot or call GetFileInfo to obtain a file's information. The File Provider has no access outside of the applicationRoot directory.

The sample app creates the provider in the app's Startup.ConfigureServices class using IHostingEnvironment.ContentRootFileProvider:

var physicalProvider = _env.ContentRootFileProvider;

ManifestEmbeddedFileProvider

The ManifestEmbeddedFileProvider is used to access files embedded within assemblies. The ManifestEmbeddedFileProvider uses a manifest compiled into the assembly to reconstruct the original paths of the embedded files.

To generate a manifest of the embedded files, set the <GenerateEmbeddedFilesManifest> property to true. Specify the files to embed with <EmbeddedResource>:

<Project Sdk="Microsoft.NET.Sdk.Web">

  <PropertyGroup>
    <TargetFramework>netcoreapp2.2</TargetFramework>
    <AspNetCoreHostingModel>InProcess</AspNetCoreHostingModel>
    <GenerateEmbeddedFilesManifest>true</GenerateEmbeddedFilesManifest>
  </PropertyGroup>

  <ItemGroup>
    <PackageReference Include="Microsoft.AspNetCore.App" />
  </ItemGroup>

  <ItemGroup>
    <EmbeddedResource Include="Resource.txt" />
  </ItemGroup>

</Project>

Use glob patterns to specify one or more files to embed into the assembly.

The sample app creates an ManifestEmbeddedFileProvider and passes the currently executing assembly to its constructor.

Startup.cs:

var manifestEmbeddedProvider = 
    new ManifestEmbeddedFileProvider(typeof(Program).Assembly);

Additional overloads allow you to:

  • Specify a relative file path.
  • Scope files to a last modified date.
  • Name the embedded resource containing the embedded file manifest.
Overload Description
ManifestEmbeddedFileProvider(Assembly, String) Accepts an optional root relative path parameter. Specify the root to scope calls to GetDirectoryContents to those resources under the provided path.
ManifestEmbeddedFileProvider(Assembly, String, DateTimeOffset) Accepts an optional root relative path parameter and a lastModified date (DateTimeOffset) parameter. The lastModified date scopes the last modification date for the IFileInfo instances returned by the IFileProvider.
ManifestEmbeddedFileProvider(Assembly, String, String, DateTimeOffset) Accepts an optional root relative path, lastModified date, and manifestName parameters. The manifestName represents the name of the embedded resource containing the manifest.

CompositeFileProvider

The CompositeFileProvider combines IFileProvider instances, exposing a single interface for working with files from multiple providers. When creating the CompositeFileProvider, pass one or more IFileProvider instances to its constructor.

In the sample app, a PhysicalFileProvider and a ManifestEmbeddedFileProvider provide files to a CompositeFileProvider registered in the app's service container:

var physicalProvider = _env.ContentRootFileProvider;
var manifestEmbeddedProvider = 
    new ManifestEmbeddedFileProvider(typeof(Program).Assembly);
var compositeProvider = 
    new CompositeFileProvider(physicalProvider, manifestEmbeddedProvider);

services.AddSingleton<IFileProvider>(compositeProvider);

Watch for changes

The IFileProvider.Watch method provides a scenario to watch one or more files or directories for changes. Watch accepts a path string, which can use glob patterns to specify multiple files. Watch returns an IChangeToken. The change token exposes:

  • HasChanged: A property that can be inspected to determine if a change has occurred.
  • RegisterChangeCallback: Called when changes are detected to the specified path string. Each change token only calls its associated callback in response to a single change. To enable constant monitoring, use a TaskCompletionSource<TResult> (shown below) or recreate IChangeToken instances in response to changes.

In the sample app, the WatchConsole console app is configured to display a message whenever a text file is modified:

private static PhysicalFileProvider _fileProvider = 
    new PhysicalFileProvider(Directory.GetCurrentDirectory());

public static void Main(string[] args)
{
    Console.WriteLine("Monitoring quotes.txt for changes (Ctrl-c to quit)...");

    while (true)
    {
        MainAsync().GetAwaiter().GetResult();
    }
}

private static async Task MainAsync()
{
    IChangeToken token = _fileProvider.Watch("quotes.txt");
    var tcs = new TaskCompletionSource<object>();

    token.RegisterChangeCallback(state => 
        ((TaskCompletionSource<object>)state).TrySetResult(null), tcs);

    await tcs.Task.ConfigureAwait(false);

    Console.WriteLine("quotes.txt changed");
}

Some file systems, such as Docker containers and network shares, may not reliably send change notifications. Set the DOTNET_USE_POLLING_FILE_WATCHER environment variable to 1 or true to poll the file system for changes every four seconds (not configurable).

Glob patterns

File system paths use wildcard patterns called glob (or globbing) patterns. Specify groups of files with these patterns. The two wildcard characters are * and **:

*
Matches anything at the current folder level, any filename, or any file extension. Matches are terminated by / and . characters in the file path.

**
Matches anything across multiple directory levels. Can be used to recursively match many files within a directory hierarchy.

Glob pattern examples

directory/file.txt
Matches a specific file in a specific directory.

directory/*.txt
Matches all files with .txt extension in a specific directory.

directory/*/appsettings.json
Matches all appsettings.json files in directories exactly one level below the directory folder.

directory/**/*.txt
Matches all files with .txt extension found anywhere under the directory folder.