Here is one example of a daily workflow for a developer working mainly on the libraries, in this case using Windows:
:: From root:
git clean -xdf
git pull upstream main & git push origin main
:: Build Debug libraries on top of Release runtime:
build.cmd clr+libs -rc Release
:: Performing the above is usually only needed once in a day, or when you pull down significant new changes.
:: If you use Visual Studio, you might open System.Text.RegularExpressions.sln here.
build.cmd -vs System.Text.RegularExpressions
:: Switch to working on a given library (RegularExpressions in this case)
cd src\libraries\System.Text.RegularExpressions
:: Change to test directory
cd tests
:: Then inner loop build / test
:: (If using Visual Studio, you might run tests inside it instead)
pushd ..\src & dotnet build & popd & dotnet build /t:test
Instructions for Unix-like operating systems are essentially the same:
#!/usr/bin/env bash
# From root:
git clean -xdf
git pull upstream main & git push origin main
# Build Debug libraries on top of Release runtime:
./build.sh clr+libs -rc Release
# Performing the above is usually only needed once in a day, or when you pull down significant new changes.
# Switch to working on a given library (RegularExpressions in this case)
cd src/libraries/System.Text.RegularExpressions
# Change to test directory
cd tests
# Then inner loop build / test:
pushd ../src & dotnet build & popd & dotnet build /t:test
The steps above may be all you need to know to make a change. Want more details about what this means? Read on.
This document explains how to work on libraries. In order to work on library projects or run library tests it is necessary to have built the runtime to give the libraries something to run on. You should normally build CoreCLR runtime in release configuration and libraries in debug configuration. If you haven't already done so, please read this document to understand configurations.
These example commands will build a release CoreCLR (and CoreLib), debug libraries, and debug installer:
For Linux:
./build.sh -rc Release
For Windows:
./build.cmd -rc Release
Detailed information about building and testing runtimes and the libraries is in the documents linked below.
The above commands will give you libraries in "debug" configuration (the default) using a runtime in "release" configuration which hopefully you built earlier.
The libraries build has two logical components, the native build which produces the "shims" (which provide a stable interface between the OS and managed code) and the managed build which produces the MSIL code and NuGet packages that make up Libraries. The commands above will build both.
The build settings (BuildTargetFramework, TargetOS, Configuration, Architecture) are generally defaulted based on where you are building (i.e. which OS or which architecture) but we have a few shortcuts for the individual properties that can be passed to the build scripts:
-framework|-f
identifies the target framework for the build. Possible values includenet8.0
(currently the latest .NET version) ornet48
(the latest .NET Framework version). (msbuild propertyBuildTargetFramework
)-os
identifies the OS for the build. It defaults to the OS you are running on but possible values includewindows
,Unix
,Linux
, orOSX
. (msbuild propertyTargetOS
)-configuration|-c Debug|Release
controls the optimization level the compilers use for the build. It defaults toDebug
. (msbuild propertyConfiguration
)-arch
identifies the architecture for the build. It defaults tox64
but possible values includex64
,x86
,arm
, orarm64
. (msbuild propertyTargetArchitecture
)
For more details on the build settings see project-guidelines.
If you invoke the build
script without any actions, the default action chain -restore -build
is executed.
By default the build
script only builds the product libraries and none of the tests. If you want to include tests, you want to add the subset libs.tests
. If you want to run the tests you want to use the -test
action instead of the -build
, e.g. build.cmd/sh libs.tests -test
. To specify just the libraries, use libs
.
Examples
- Building in release mode for platform x64 (restore and build are implicit here as no actions are passed in)
./build.sh libs -c Release -arch x64
- Building the src assemblies and build and run tests (running all tests takes a considerable amount of time!)
./build.sh libs -test
- Clean the entire artifacts folder
./build.sh -clean
For Windows, replace ./build.sh
with build.cmd
.
The libraries build contains some native code. This includes shims over libc, openssl, gssapi, and zlib. The build system uses CMake to generate Makefiles using clang. The build also uses git for generating some version information.
Examples
- Building in debug mode for platform x64
./src/native/libs/build-native.sh debug x64
- Building and updating the binplace (for e.g. the testhost), which is needed when iterating on native components
dotnet.sh build src/native/libraries/build-native.proj
- The following example shows how you would do an arm cross-compile build
./src/native/libs/build-native.sh debug arm cross verbose
For Windows, replace build-native.sh
with build-native.cmd
.
Similar to building the entire repo with build.cmd
or build.sh
in the root you can build projects based on our directory structure by passing in the directory. We also support shortcuts for libraries so you can omit the root src
folder from the path. When given a directory we will build all projects that we find recursively under that directory. Some examples may help here.
Examples
- Build all projects for a given library (e.g.: System.Collections) including running the tests
./build.sh -projects src/libraries/*/System.Collections.sln
- Build just the tests for a library project
./build.sh -projects src/libraries/System.Collections/tests/*.csproj
- All the options listed above like framework and configuration are also supported (note they must be after the directory)
./build.sh -projects src/libraries/*/System.Collections.sln -f net472 -c Release
As dotnet build
works on both Unix and Windows and calls the restore target implicitly, we will use it throughout this guide.
Under the src
directory is a set of directories, each of which represents a particular assembly in Libraries. See Library Project Guidelines section under project-guidelines for more details about the structure.
For example the src\libraries\System.Diagnostics.DiagnosticSource
directory holds the source code for the System.Diagnostics.DiagnosticSource.dll assembly.
You can build the DLL for System.Diagnostics.DiagnosticSource.dll by going to the src\libraries\System.Diagnostics.DiagnosticsSource\src
directory and typing dotnet build
. The DLL ends up in artifacts\bin\AnyOS.AnyCPU.Debug\System.Diagnostics.DiagnosticSource
as well as artifacts\bin\runtime\[$(BuildTargetFramework)-$(TargetOS)-$(Configuration)-$(TargetArchitecture)]
.
You can build the tests for System.Diagnostics.DiagnosticSource.dll by going to
src\libraries\System.Diagnostics.DiagnosticSource\tests
and typing dotnet build
.
Some libraries might also have a ref
and/or a pkg
directory and you can build them in a similar way by typing dotnet build
in that directory.
For libraries that have multiple target frameworks the target frameworks will be listed in the <TargetFrameworks>
property group. When building the csproj for a BuildTargetFramework the most compatible target framework in the list will be chosen and set for the build. For more information about TargetFrameworks
see project-guidelines.
Examples
- Build project for Linux
dotnet build System.Net.NetworkInformation.csproj /p:TargetOS=Linux
- Build Release version of library
dotnet build -c Release System.Net.NetworkInformation.csproj
When changing System.Private.CoreLib
after a full build, in order to test against those changes, you will need an updated System.Private.CoreLib
in the testhost. In order to achieve that, you can build the libs.pretest
subset which does testhost setup including copying over System.Private.CoreLib
.
After doing a build of the runtime:
build.cmd clr -rc Release
You can iterate on System.Private.CoreLib
by running:
build.cmd clr.corelib+clr.nativecorelib+libs.pretest -rc Release
When this System.Private.CoreLib
will be built in Release mode, then it will be crossgen'd and we will update the testhost to the latest version of corelib.
You can use the same workflow for mono runtime by using mono.corelib+libs.pretest
subsets.
By default the libraries will attempt to build using the CoreCLR version of System.Private.CoreLib.dll
. In order to build against the Mono version you need to use the /p:RuntimeFlavor=Mono
argument.
.\build.cmd libs /p:RuntimeFlavor=Mono
By default, building from the root will only build the libraries for the OS you are running on. One can
build for another OS by specifying ./build.sh libs -os [value]
.
Note that you cannot generally build native components for another OS but you can for managed components so if you need to do that you can do it at the individual project level or build all via passing /p:BuildNative=false
.
By default, building from the root or within a project will build the libraries in Debug mode.
One can build in Debug or Release mode from the root by doing ./build.sh libs -c Release
or ./build.sh libs
.
One can build 32- or 64-bit binaries or for any architecture by specifying in the root ./build.sh libs -arch [value]
or in a project /p:TargetArchitecture=[value]
after the dotnet build
command.
If you are working on Windows, and use Visual Studio, you can open individual libraries projects into it. From within Visual Studio you can then build, debug, and run tests.
For more details about running tests inside Visual Studio, go here.
For more about running tests, read the running tests document.
To build a library's package, simply invoke dotnet pack
on the src project after you successfully built the .NETCoreApp vertical from root:
build libs
dotnet pack src\libraries\System.Text.Json\src\
Same as for dotnet build
or dotnet publish
, you can specify the desired configuration via the -c
flag:
dotnet pack src\libraries\System.Text.Json\src\ -c Release