mirror of https://github.com/acidanthera/audk.git
295 lines
14 KiB
Markdown
295 lines
14 KiB
Markdown
# Edk2 Continuous Integration
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## Basic Status
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| Package | Windows VS2019 (IA32/X64)| Ubuntu GCC (IA32/X64/ARM/AARCH64) | Known Issues |
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| :---- | :----- | :---- | :--- |
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| ArmPkg | | :heavy_check_mark: |
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| ArmPlatformPkg | | :heavy_check_mark: |
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| ArmVirtPkg | SEE PACKAGE README | SEE PACKAGE README |
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| CryptoPkg | :heavy_check_mark: | :heavy_check_mark: | Spell checking in audit mode
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| DynamicTablesPkg | | :heavy_check_mark: |
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| EmbeddedPkg |
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| EmulatorPkg | SEE PACKAGE README | SEE PACKAGE README | Spell checking in audit mode
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| FatPkg | :heavy_check_mark: | :heavy_check_mark: |
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| FmpDevicePkg | :heavy_check_mark: | :heavy_check_mark: |
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| IntelFsp2Pkg |
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| IntelFsp2WrapperPkg |
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| MdeModulePkg | :heavy_check_mark: | :heavy_check_mark: | DxeIpl dependency on ArmPkg, Depends on StandaloneMmPkg, Spell checking in audit mode
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| MdePkg | :heavy_check_mark: | :heavy_check_mark: | Spell checking in audit mode
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| NetworkPkg | :heavy_check_mark: | :heavy_check_mark: | Spell checking in audit mode
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| OvmfPkg | SEE PACKAGE README | SEE PACKAGE README | Spell checking in audit mode
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| PcAtChipsetPkg | :heavy_check_mark: | :heavy_check_mark: |
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| SecurityPkg | :heavy_check_mark: | :heavy_check_mark: | Spell checking in audit mode
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| ShellPkg | :heavy_check_mark: | :heavy_check_mark: | Spell checking in audit mode, 3 modules are not being built by DSC
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| SignedCapsulePkg |
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| SourceLevelDebugPkg |
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| StandaloneMmPkg | :heavy_check_mark: | :heavy_check_mark: |
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| UefiCpuPkg | :heavy_check_mark: | :heavy_check_mark: | Spell checking in audit mode, 2 binary modules not being built by DSC
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| UefiPayloadPkg |
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| UnitTestFrameworkPkg | :heavy_check_mark: | :heavy_check_mark: |
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For more detailed status look at the test results of the latest CI run on the
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repo readme.
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## Background
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This Continuous integration and testing infrastructure leverages the TianoCore EDKII Tools PIP modules:
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[library](https://pypi.org/project/edk2-pytool-library/) and
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[extensions](https://pypi.org/project/edk2-pytool-extensions/) (with repos
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located [here](https://github.com/tianocore/edk2-pytool-library) and
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[here](https://github.com/tianocore/edk2-pytool-extensions)).
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The primary execution flows can be found in the
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`.azurepipelines/Windows-VS2019.yml` and `.azurepipelines/Ubuntu-GCC5.yml`
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files. These YAML files are consumed by the Azure Dev Ops Build Pipeline and
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dictate what server resources should be used, how they should be configured, and
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what processes should be run on them. An overview of this schema can be found
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[here](https://docs.microsoft.com/en-us/azure/devops/pipelines/yaml-schema?view=azure-devops&tabs=schema).
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Inspection of these files reveals the EDKII Tools commands that make up the
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primary processes for the CI build: 'stuart_setup', 'stuart_update', and
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'stuart_ci_build'. These commands come from the EDKII Tools PIP modules and are
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configured as described below. More documentation on the tools can be
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found [here](https://github.com/tianocore/edk2-pytool-extensions/blob/master/docs/using.md)
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and [here](https://github.com/tianocore/edk2-pytool-extensions/blob/master/docs/features/feature_invocables.md).
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## Configuration
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Configuration of the CI process consists of (in order of precedence):
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* command-line arguments passed in via the Pipeline YAML
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* a per-package configuration file (e.g. `<package-name>.ci.yaml`) that is
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detected by the CI system in EDKII Tools.
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* a global configuration Python module (e.g. `CISetting.py`) passed in via the
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command-line
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The global configuration file is described in
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[this readme](https://github.com/tianocore/edk2-pytool-extensions/blob/master/docs/usability/using_settings_manager.md)
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from the EDKII Tools documentation. This configuration is written as a Python
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module so that decisions can be made dynamically based on command line
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parameters and codebase state.
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The per-package configuration file can override most settings in the global
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configuration file, but is not dynamic. This file can be used to skip or
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customize tests that may be incompatible with a specific package. Each test generally requires
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per package configuration which comes from this file.
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## Running CI locally
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The EDKII Tools environment (and by extension the ci) is designed to support
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easily and consistently running locally and in a cloud ci environment. To do
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that a few steps should be followed. Details of EDKII Tools can be found in the
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[docs folder here](https://github.com/tianocore/edk2-pytool-extensions/tree/master/docs)
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### Prerequisets
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1. A supported toolchain (others might work but this is what is tested and validated)
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* Windows 10:
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* VS 2017 or VS 2019
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* Windows SDK (for rc)
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* Windows WDK (for capsules)
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* Ubuntu 18.04 or Fedora
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* GCC5
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* Easy to add more but this is the current state
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2. Python 3.7.x or newer on path
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3. git on path
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4. Recommended to setup and activate a python virtual environment
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5. Install the requirements `pip install --upgrade pip-requirements.txt`
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### Running CI
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1. clone your edk2 repo
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2. Activate your python virtual environment in cmd window
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3. Get code dependencies (done only when submodules change)
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* `stuart_setup -c .pytool/CISettings.py TOOL_CHAIN_TAG=<your tag here>`
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4. Update other dependencies (done more often)
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* `stuart_update -c .pytool/CISettings.py TOOL_CHAIN_TAG=<your tag here>`
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5. Run CI build (--help will give you options)
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* `stuart_ci_build -c .pytool/CISettings.py TOOL_CHAIN_TAG=<your tag here>`
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* -p <pkg1,pkg2,pkg3> : To build only certain packages use a CSV list
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* -a <arch1,arch2,arch3>: To run only certain architectures use a CSV list
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* -t <target1,target2>: To run only tests related to certain targets use a
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CSV list
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* By default all tests are opted in. Then given a package.ci.yaml file those
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tests can be configured for a package. Finally setting the check to the
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value `skip` will skip that plugin. Examples:
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* `CompilerPlugin=skip` skip the build test
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* `GuidCheck=skip` skip the Guid check
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* `SpellCheck=skip` skip the spell checker
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* etc
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6. Detailed reports and logs per package are captured in the `Build` directory
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## Current PyTool Test Capabilities
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All CI tests are instances of EDKII Tools plugins. Documentation on the plugin
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system can be found [here](https://github.com/tianocore/edk2-pytool-extensions/blob/master/docs/usability/using_plugin_manager.md)
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and [here](https://github.com/tianocore/edk2-pytool-extensions/blob/master/docs/features/feature_plugin_manager.md).
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Upon invocation, each plugin will be passed the path to the current package
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under test and a dictionary containing its targeted configuration, as assembled
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from the command line, per-package configuration, and global configuration.
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Note: CI plugins are considered unique from build plugins and helper plugins,
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even though some CI plugins may execute steps of a build.
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In the example, these plugins live alongside the code under test (in the
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`.pytool/Plugin` directory), but may be moved to the 'edk2-test' repo if that
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location makes more sense for the community.
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### Module Inclusion Test - DscCompleteCheck
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This scans all INF files from a package and confirms they are
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listed in the package level DSC file. The test considers it an error if any INF
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does not appear in the `Components` section of the package-level DSC (indicating
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that it would not be built if the package were built). This is critical because
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much of the CI infrastructure assumes that all modules will be listed in the DSC
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and compiled.
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This test will ignore INFs in the following cases:
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1. When `MODULE_TYPE` = `HOST_APPLICATION`
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2. When a Library instance **only** supports the `HOST_APPLICATION` environment
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### Host Module Inclusion Test - HostUnitTestDscCompleteCheck
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This test scans all INF files from a package for those related to host
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based unit tests and confirms they are listed in the unit test DSC file for the package.
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The test considers it an error if any INF meeting the requirements does not appear
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in the `Components` section of the unit test DSC. This is critical because
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much of the CI infrastructure assumes that modules will be listed in the DSC
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and compiled.
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This test will only require INFs in the following cases:
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1. When `MODULE_TYPE` = `HOST_APPLICATION`
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2. When a Library instance explicitly supports the `HOST_APPLICATION` environment
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### Code Compilation Test - CompilerPlugin
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Once the Module Inclusion Test has verified that all modules would be built if
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all package-level DSCs were built, the Code Compilation Test simply runs through
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and builds every package-level DSC on every toolchain and for every architecture
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that is supported. Any module that fails to build is considered an error.
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### Host Unit Test Compilation and Run Test - HostUnitTestCompilerPlugin
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A test that compiles the dsc for host based unit test apps.
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On Windows this will also enable a build plugin to execute that will run the unit tests and verify the results.
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These tools will be invoked on any CI
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pass that includes the NOOPT target. In order for these tools to do their job,
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the package and tests must be configured in a particular way...
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#### Including Host-Based Tests in the Package YAML
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For example, looking at the `MdeModulePkg.ci.yaml` config file, there are two
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config options that control HostBased test behavior:
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```json
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## options defined .pytool/Plugin/HostUnitTestCompilerPlugin
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"HostUnitTestCompilerPlugin": {
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"DscPath": "Test/MdeModulePkgHostTest.dsc"
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},
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```
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This option tell the test builder to run. The test builder needs to know which
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modules in this package are host-based tests, so that DSC path is provided.
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#### Configuring the HostBased DSC
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The HostBased DSC for `MdeModulePkg` is located at
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`MdeModulePkg/Test/MdeModulePkgHostTest.dsc`.
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To add automated host-based unit test building to a new package, create a
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similar DSC. The new DSC should make sure to have the `NOOPT` BUILD_TARGET
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and should include the line:
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```
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!include UnitTestFrameworkPkg/UnitTestFrameworkPkgHost.dsc.inc
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```
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All of the modules that are included in the `Components` section of this
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DSC should be of type HOST_APPLICATION.
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### GUID Uniqueness Test - GuidCheck
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This test works on the collection of all packages rather than an individual
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package. It looks at all FILE_GUIDs and GUIDs declared in DEC files and ensures
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that they are unique for the codebase. This prevents, for example, accidental
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duplication of GUIDs when using an existing INF as a template for a new module.
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### Cross-Package Dependency Test - DependencyCheck
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This test compares the list of all packages used in INFs files for a given
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package against a list of "allowed dependencies" in plugin configuration for
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that package. Any module that depends on a disallowed package will cause a test
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failure.
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### Library Declaration Test - LibraryClassCheck
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This test scans at all library header files found in the `Library` folders in
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all of the package's declared include directories and ensures that all files
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have a matching LibraryClass declaration in the DEC file for the package. Any
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missing declarations will cause a failure.
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### Invalid Character Test - CharEncodingCheck
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This test scans all files in a package to make sure that there are no invalid
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Unicode characters that may cause build errors in some character
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sets/localizations.
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### Spell Checking - cspell
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This test runs a spell checker on all files within the package. This is done
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using the NodeJs cspell tool. For details check `.pytool/Plugin/SpellCheck`.
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For this plugin to run during ci you must install nodejs and cspell and have
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both available to the command line when running your CI.
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Install
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* Install nodejs from https://nodejs.org/en/
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* Install cspell
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1. Open cmd prompt with access to node and npm
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2. Run `npm install -g cspell`
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More cspell info: https://github.com/streetsidesoftware/cspell
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### License Checking - LicenseCheck
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Scans all new added files in a package to make sure code is contributed under
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BSD-2-Clause-Patent.
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### Ecc tool - EccCheck
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Run the Ecc tool on the package. The Ecc tool is available in the BaseTools
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package. It checks that the code complies to the EDKII coding standard.
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## PyTool Scopes
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Scopes are how the PyTool ext_dep, path_env, and plugins are activated. Meaning
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that if an invocable process has a scope active then those ext_dep and path_env
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will be active. To allow easy integration of PyTools capabilities there are a
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few standard scopes.
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| Scope | Invocable | Description |
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| :---- | :----- | :---- |
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| global | edk2_invocable++ - should be base_abstract_invocable | Running an invocables |
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| global-win | edk2_invocable++ | Running on Microsoft Windows |
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| global-nix | edk2_invocable++ | Running on Linux based OS |
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| edk2-build | | This indicates that an invocable is building EDK2 based UEFI code |
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| cibuild | set in .pytool/CISettings.py | Suggested target for edk2 continuous integration builds. Tools used for CiBuilds can use this scope. Example: asl compiler |
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| host-based-test | set in .pytool/CISettings.py | Turns on the host based tests and plugin |
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| host-test-win | set in .pytool/CISettings.py | Enables the host based test runner for Windows |
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## Future investments
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* PatchCheck tests as plugins
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* MacOS/xcode support
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* Clang/LLVM support
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* Visual Studio AARCH64 and ARM support
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* BaseTools C tools CI/PR and binary release process
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* BaseTools Python tools CI/PR process
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* Extensible private/closed source platform reporting
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* UEFI SCTs
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* Other automation
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