Nota: El administrador del sitio debe habilitar code scanning para your GitHub Enterprise Server instance antes de que pueda utilizar esta característica. Si quieres utilizar GitHub Actions para escanear tu código, el administrador de sitio también puede habilitar las GitHub Actions y configurar la infraestructura que se requiera. Para más información, vea "Configuración de code scanning para el dispositivo".
About the CodeQL analysis workflow and compiled languages
You set up GitHub to run code scanning for your repository by adding a GitHub Actions workflow to the repository. For CodeQL code scanning, you add the CodeQL analysis workflow. For more information, see "Setting up code scanning for a repository."
Habitualmente, no necesitas editar el flujo de trabajo predeterminado para code scanning. Sin embargo, si lo requieres, puedes editar el flujo de trabajo para personalizar algunos de los ajustes. Por ejemplo, puedes editar el CodeQL analysis workflow de GitHub para especificar la frecuencia de los escaneos, los idiomas o los directorios a escanear, y qué debe buscar el CodeQL del code scanning en tu código. También podrías necesitar editar el CodeQL analysis workflow si utilizas un conjunto de comandos específicos para compilar tu código. For general information about configuring code scanning and editing workflow files, see "Configuring code scanning" and "Learn GitHub Actions."
About autobuild for CodeQL
Code scanning works by running queries against one or more databases. Each database contains a representation of all of the code in a single language in your repository.
For the compiled languages C/C++, C#, and Java, the process of populating this database involves building the code and extracting data. For these three languages, CodeQL analyzes the source files in your repository that are built. CodeQL also runs a build for Go projects to set up the project, but then analyzes all Go files in the repository, not just the files that are built. For any of these languages, including Go, you can disable autobuild and instead use custom build commands in order to analyze only the files that are built by these custom commands.
Para los lenguajes compilados compatibles, puedes utilizar la acción autobuild en CodeQL analysis workflow para compilar tu código. Esto evita tener que especificar comandos de compilación explícitos para C/C++, C# y Java.
If your workflow uses a language matrix, autobuild attempts to build each of the compiled languages listed in the matrix. Without a matrix autobuild attempts to build the supported compiled language that has the most source files in the repository. With the exception of Go, analysis of other compiled languages in your repository will fail unless you supply explicit build commands.
Note: If you use self-hosted runners for GitHub Actions, you may need to install additional software to use the autobuild process. Additionally, if your repository requires a specific version of a build tool, you may need to install it manually. For more information, see "Specifications for GitHub-hosted runners".
C/C++
| Supported system type | System name |
|---|---|
| Operating system | Windows, macOS, and Linux |
| Build system | Windows: MSbuild and build scripts Linux and macOS: Autoconf, Make, CMake, qmake, Meson, Waf, SCons, Linux Kbuild, and build scripts |
The behavior of the autobuild step varies according to the operating system that the extraction runs on. On Windows, the autobuild step attempts to autodetect a suitable build method for C/C++ using the following approach:
- Invoke
MSBuild.exeon the solution (.sln) or project (.vcxproj) file closest to the root. Ifautobuilddetects multiple solution or project files at the same (shortest) depth from the top level directory, it will attempt to build all of them. - Invoke a script that looks like a build script—build.bat, build.cmd, and build.exe (in that order).
On Linux and macOS, the autobuild step reviews the files present in the repository to determine the build system used:
- Look for a build system in the root directory.
- If none are found, search subdirectories for a unique directory with a build system for C/C++.
- Run an appropriate command to configure the system.
C#
| Supported system type | System name |
|---|---|
| Operating system | Windows and Linux |
| Build system | .NET and MSbuild, as well as build scripts |
The autobuild process attempts to autodetect a suitable build method for C# using the following approach:
- Invoke
dotnet buildon the solution (.sln) or project (.csproj) file closest to the root. - Invoke
MSbuild(Linux) orMSBuild.exe(Windows) on the solution or project file closest to the root. Ifautobuilddetects multiple solution or project files at the same (shortest) depth from the top level directory, it will attempt to build all of them. - Invoke a script that looks like a build script—build and build.sh (in that order, for Linux) or build.bat, build.cmd, and build.exe (in that order, for Windows).
Java
| Supported system type | System name |
|---|---|
| Operating system | Windows, macOS, and Linux (no restriction) |
| Build system | Gradle, Maven and Ant |
The autobuild process tries to determine the build system for Java codebases by applying this strategy:
- Search for a build file in the root directory. Check for Gradle then Maven then Ant build files.
- Run the first build file found. If both Gradle and Maven files are present, the Gradle file is used.
- Otherwise, search for build files in direct subdirectories of the root directory. If only one subdirectory contains build files, run the first file identified in that subdirectory (using the same preference as for 1). If more than one subdirectory contains build files, report an error.
Adding build steps for a compiled language
If autobuild fails, or you want to analyze a different set of source files from those built by the autobuild process, you'll need to remove the autobuild step from the workflow, and manually add build steps. For C/C++, C#, Go, and Java projects, CodeQL will analyze whatever source code is built by your specified build steps. For information on how to edit the workflow file, see "Configuring code scanning."
After removing the autobuild step, uncomment the run step and add build commands that are suitable for your repository. The workflow run step runs command-line programs using the operating system's shell. You can modify these commands and add more commands to customize the build process.
- run: |
make bootstrap
make release
For more information about the run keyword, see "Workflow syntax for GitHub Actions."
If your repository contains multiple compiled languages, you can specify language-specific build commands. For example, if your repository contains C/C++, C# and Java, and autobuild correctly builds C/C++ and C# but fails to build Java, you could use the following configuration in your workflow, after the init step. This specifies build steps for Java while still using autobuild for C/C++ and C#:
- if: matrix.language == 'cpp' || matrix.language == 'csharp'
name: Autobuild
uses: github/codeql-action/autobuild@v1
- if: matrix.language == 'java'
name: Build Java
run: |
make bootstrap
make release
For more information about the if conditional, see "Workflow syntax for GitHub Actions."
For more tips and tricks about why autobuild won't build your code, see "Troubleshooting the CodeQL workflow."
If you added manual build steps for compiled languages and code scanning is still not working on your repository, contact el administrador del sitio.