# Select the .NET version to use

This article explains the policies used by the .NET tools, SDK, and runtime for selecting versions. These policies provide a balance between running applications using the specified versions and enabling ease of upgrading both developer and end-user machines. These policies enable:

• Easy and efficient deployment of .NET, including security and reliability updates.
• Use the latest tools and commands independent of target runtime.

Version selection occurs:

The rest of this document examines those four scenarios.

## The SDK uses the latest installed version

SDK commands include dotnet new and dotnet run. The .NET CLI must choose an SDK version for every dotnet command. It uses the latest SDK installed on the machine by default, even if:

• The project targets an earlier version of the .NET runtime.
• The latest version of the .NET SDK is a preview version.

You can take advantage of the latest SDK features and improvements while targeting earlier .NET runtime versions. You can target different runtime versions of .NET using the same SDK tools.

On rare occasions, you may need to use an earlier version of the SDK. You specify that version in a global.json file. The "use latest" policy means you only use global.json to specify a .NET SDK version earlier than the latest installed version.

global.json can be placed anywhere in the file hierarchy. The CLI searches upward from the project directory for the first global.json it finds. You control which projects a given global.json applies to by its place in the file system. The .NET CLI searches for a global.json file iteratively navigating the path upward from the current working directory. The first global.json file found specifies the version used. If that SDK version is installed, that version is used. If the SDK specified in the global.json isn't found, the .NET CLI uses matching rules to select a compatible SDK, or fails if none is found.

The following example shows the global.json syntax:

{
"sdk": {
"version": "5.0.0"
}
}


The process for selecting an SDK version is:

1. dotnet searches for a global.json file iteratively reverse-navigating the path upward from the current working directory.
2. dotnet uses the SDK specified in the first global.json found.
3. dotnet uses the latest installed SDK if no global.json is found.

For more information about SDK version selection, see the Matching rules and rollForward sections of the global.json overview article.

## Target Framework Monikers define build time APIs

You build your project against APIs defined in a Target Framework Moniker (TFM). You specify the target framework in the project file. Set the TargetFramework element in your project file as shown in the following example:

<TargetFramework>net5.0</TargetFramework>


You may build your project against multiple TFMs. Setting multiple target frameworks is more common for libraries but can be done with applications as well. You specify a TargetFrameworks property (plural of TargetFramework). The target frameworks are semicolon-delimited as shown in the following example:

<TargetFrameworks>net5.0;netcoreapp3.1;net47</TargetFrameworks>


A given SDK supports a fixed set of frameworks, capped to the target framework of the runtime it ships with. For example, the .NET 5 SDK includes the .NET 5 runtime, which is an implementation of the net5.0 target framework. The .NET 5 SDK supports netcoreapp2.0, netcoreapp2.1, netcoreapp3.0, and so on, but not net6.0 (or higher). You install the .NET 6 SDK to build for net6.0.

### .NET Standard

.NET Standard was a way to target an API surface shared by different implementations of .NET. Starting with the release of .NET 5, which is an API standard itself, .NET Standard has little relevance, except for one scenario: .NET Standard is useful when you want to target both .NET and .NET Framework. .NET 5 implements all .NET Standard versions.

## Framework-dependent apps roll-forward

When you run an application from source with dotnet run, from a framework-dependent deployment with dotnet myapp.dll, or from a framework-dependent executable with myapp.exe, the dotnet executable is the host for the application.

The host chooses the latest patch version installed on the machine. For example, if you specified net5.0 in your project file, and 5.0.2 is the latest .NET runtime installed, the 5.0.2 runtime is used.

If no acceptable 5.0.* version is found, a new 5.* version is used. For example, if you specified net5.0 and only 5.1.0 is installed, the application runs using the 5.1.0 runtime. This behavior is referred to as "minor version roll-forward." Lower versions also won't be considered. When no acceptable runtime is installed, the application won't run.

A few usage examples demonstrate the behavior, if you target 5.0:

• ✔️ 5.0 is specified. 5.0.3 is the highest patch version installed. 5.0.3 is used.
• ❌ 5.0 is specified. No 5.0.* versions are installed. 3.1.1 is the highest runtime installed. An error message is displayed.
• ✔️ 5.0 is specified. No 5.0.* versions are installed. 5.1.0 is the highest runtime version installed. 5.1.0 is used.
• ❌ 3.0 is specified. No 3.x versions are installed. 5.0.0 is the highest runtime installed. An error message is displayed.

Minor version roll-forward has one side-effect that may affect end users. Consider the following scenario:

1. The application specifies that 5.0 is required.
2. When run, version 5.0.* isn't installed, however, 5.1.0 is. Version 5.1.0 will be used.
3. Later, the user installs 5.0.3 and runs the application again, 5.0.3 will now be used.

It's possible that 5.0.3 and 5.1.0 behave differently, particularly for scenarios like serializing binary data.

### Control roll-forward behavior

The roll-forward behavior for an application can be configured in four different ways:

1. Project-level setting by setting the <RollForward> property:

<PropertyGroup>
<RollForward>LatestMinor</RollForward>
</PropertyGroup>

2. The *.runtimeconfig.json file.

This file is produced when you compile your application. If the <RollForward> property was set in the project, it's reproduced in the *.runtimeconfig.json file as the rollForward setting. Users can edit this file to change the behavior of your application.

{
"runtimeOptions": {
"tfm": "net5.0",
"rollForward": "LatestMinor",
"framework": {
"name": "Microsoft.NETCore.App",
"version": "5.0.0"
}
}
}

3. The dotnet command's --roll-forward <value> property.

When you run an application, you can control the roll-forward behavior through the command line:

dotnet run --roll-forward LatestMinor
dotnet myapp.dll --roll-forward LatestMinor
myapp.exe --roll-forward LatestMinor

4. The DOTNET_ROLL_FORWARD environment variable.

### Precedence

Roll forward behavior is set by the following order when your app is run, higher numbered items taking precedence over lower numbered items:

1. First the *.runtimeconfig.json config file is evaluated.
2. Next, the DOTNET_ROLL_FORWARD environment variable is considered, overriding the previous check.
3. Finally, any --roll-forward parameter passed to the running application overrides everything else.

### Values

However you set the roll-forward setting, use one of the following values to set the behavior:

Value Description
Minor Default if not specified.
Roll-forward to the lowest higher minor version, if requested minor version is missing. If the requested minor version is present, then the LatestPatch policy is used.
Major Roll-forward to the next available higher major version, and lowest minor version, if requested major version is missing. If the requested major version is present, then the Minor policy is used.
LatestPatch Roll-forward to the highest patch version. This value disables minor version roll-forward.
LatestMinor Roll-forward to highest minor version, even if requested minor version is present.
LatestMajor Roll-forward to highest major and highest minor version, even if requested major is present.
Disable Don't roll-forward, only bind to the specified version. This policy isn't recommended for general use since it disables the ability to roll-forward to the latest patches. This value is only recommended for testing.

## Self-contained deployments include the selected runtime

You can publish an application as a self-contained distribution. This approach bundles the .NET runtime and libraries with your application. Self-contained deployments don't have a dependency on runtime environments. Runtime version selection occurs at publishing time, not run time.

The restore event that occurs when publishing selects the latest patch version of the given runtime family. For example, dotnet publish will select .NET 5.0.3 if it's the latest patch version in the .NET 5 runtime family. The target framework (including the latest installed security patches) is packaged with the application.

An error occurs if the minimum version specified for an application isn't satisfied. dotnet publish binds to the latest runtime patch version (within a given major.minor version family). dotnet publish doesn't support the roll-forward semantics of dotnet run. For more information about patches and self-contained deployments, see the article on runtime patch selection in deploying .NET applications.

Self-contained deployments may require a specific patch version. You can override the minimum runtime patch version (to higher or lower versions) in the project file, as shown in the following example:

<PropertyGroup>
<RuntimeFrameworkVersion>5.0.7</RuntimeFrameworkVersion>
</PropertyGroup>


The RuntimeFrameworkVersion element overrides the default version policy. For self-contained deployments, the RuntimeFrameworkVersion specifies the exact runtime framework version. For framework-dependent applications, the RuntimeFrameworkVersion specifies the minimum required runtime framework version.