PlayNicely.Executor
1.3.0-beta-479
See the version list below for details.
dotnet add package PlayNicely.Executor --version 1.3.0-beta-479
NuGet\Install-Package PlayNicely.Executor -Version 1.3.0-beta-479
<PackageReference Include="PlayNicely.Executor" Version="1.3.0-beta-479" />
paket add PlayNicely.Executor --version 1.3.0-beta-479
#r "nuget: PlayNicely.Executor, 1.3.0-beta-479"
// Install PlayNicely.Executor as a Cake Addin #addin nuget:?package=PlayNicely.Executor&version=1.3.0-beta-479&prerelease // Install PlayNicely.Executor as a Cake Tool #tool nuget:?package=PlayNicely.Executor&version=1.3.0-beta-479&prerelease
Play Nicely - Executor
The Play Nicely Executor project depends on the PlayNicely.Projects package, extending it to support execution of programs, against test case projects, within a pre-defined environment. Executor then collects program output so that test assertion can be made.
The Executor package, provides a fluent interface to define an
ITestEnvironment
through a
builder, with which, some
programs can be defined as uninstalled, other programs as required. A test
environment can also define what NuGet package sources are available and what
packages are mapped to those sources, so that
BDD projects can
test new functionality. If a test case project is specified, the file system of
that project will be 'materialized' and set as the working directory for the
executed process.
How It Works
The main types are the ITestEnvironment
, TestEnvironmentBuilder
, and
ITestEnvironmentRunner
. An ITestEnvironment
ensures a side effect free
environment, within which, any testing can run. You create an
ITestEnvironment
using the
fluent interface of
TestEnvironmentBuilder
. With this class you define the desired working
directory and execution context for your ITestEnvironmentRunner
.
Tests run using the ITestEnvironmentRunner
, this package defines a basic
ProcessRunner
which runs an executable with arguments, much like a command
line, and returns a basic ExecutionResult
. The base result includes whether
the command succeeded and the stdout and stderr streams. The DotNetRunner
class,
defined in
PlayNicely.Executor.DotNet
executes a dotnet
subcommand, with arguments, and returns a
ExecutionResult<DotNetExecutionContext>
. This includes detailed information
about the dotnet command results, build context, targets ran, projects built,
lists of errors, etc.
If you have a specific process you'd like to support, you can define a concrete
implementation derived from ITestEnvironmentRunner
.
Getting Started
This getting started uses the ProcessRunner
to execute a dotnet build
process on a pre-defined test case project, within a side effect free test
environment. The purpose of this getting started is to demonstrate how to set
up a test environment, execute a runner and assert the result.
ℹ️ I'm using
ProcessRunner
here withdotnet
to illustrate getting started. The PlayNicely.Executor.DotNet package provides a specific implementation fordotnet
that includes important context information after execution. If you are runningdotnet
tests, we recommend using that runner instead.
This getting started is code-first, in a typical configuration you would likely use the IDE to define test case projects and SpecFlow (or some other BDD framework) to define the environment.
Define the test case project
Let's create a scenario to test for a failing build, because the .NET target framework is invalid. First, define the test case project and file system.
var testCaseProject = new TestCaseProject("my-failing-project");
var projectFile = testCaseProject.AddFile("proj.csproj");
testCaseProject.ProjectFile = projectFile;
using(var writer = new StreamWriter(projectFile.OpenWriteStream())
{
writer.WriteLine("<Project Sdk=\"Microsoft.NET.Sdk\">");
writer.WriteLine(" <PropertyGroup>");
// Note invalid target framework...
writer.WriteLine(" <TargetFramework>my-net9.0</TargetFramework>");
writer.WriteLine(" </PropertyGroup>");
writer.WriteLine("</Project>");
}
Define the environment
Use the TestEnvironmentBuilder
to specify:
- Command Management
RequiredCommands
- any command that must be available in the test environment. Using this method ensures commands can always be executed, by finding them in the current$PATH
, and creating a temporary bin directory with symbolic links to the actual executables. This bin directory is prepended to the$PATH
in the subsequent environment. On Windows this is less likely to be required, but on Linux, most commands are in shared directories like/usr/bin
or/usr/local/bin
, if something is excluded (see next bullet point), by removing one of these paths, it is likely to exclude a lot of other commands,RequiredCommands
ensures the essential commands can still be executed from the$PATH
.ExcludeCommandFromPath
- it is often neccesary, in a negative test case, to assume a program is not installed. This method locates a command on the current$PATH
and removes any directories where it is found. The result of this, when running in theITestEnvironment
is that any attempt to run an excluded command will fail (because it isn't found on the$PATH
).
- Package Management
AddPackageSource
- often, the usage of this package is to test another NuGet package project. So that the test environment can run release tests using the under development version of a package, this method allows overridingNuGet.Config
in the test environment.ℹ️ If you specify a relative path for the source location, it is relative to your assembly's binary location.
ClearPackageSources
- Allows the list of package sources to be cleared so that machine wide sources can be excluded during testing.MapPackagesToSource
- map packages with a package name (pattern) to a specific source. So that you can test local packages rather than the most recent one published to nuget.org. This is important, if you are making a change to a package you want to test those changes locally.PackageSourceFallback
- after mapping patterns to particular package sources, you need to set an all encompassing fallback package source. You can use this method to do that if you know which source, typically nuget.org. If you'd rather use a best default, see the next method.UseBestPackageSourceFallback
- If you would rather just default the fallback package source, use this method. It will use the following logic to determine a fallback source.- use source named 'nuget.org'
- use the first source that is
https?://
and is using the domain 'nuget.org' - use the first source that is https:// based
- use the first source that is http:// based
- use any available source
SetProject
- the target project for this test environment, the project's file system will be materialized and set as the working directory for the process.
Example for clarity
Continuing context from here. We need to
ensure dotnet
is always available, and specify the test case target project.
var builder = new TestEnvironmentBuilder();
var testEnv = await builder.RequiredCommands("dotnet")
.SetProject(testCaseProject)
.BuildAsync();
Run the test
With the environment built, simply construct the runner and assert the result (which we expect to fail).
var runner = new ProcessRunner("dotnet", "build"); // Don't need to specify project path,
// process working dir is root of project
var testResult = await runner.ExecuteAsync(testEnv);
Assert.That(testResult.Succeeded, Is.False);
Why?
This project came about to support the use of Node.js packages within .NET projects in a .NET first way. You can achieve the integration of Node.js tools using plugins or other tooling. The problem with this (using plugins) is, these can often become out of date or stale. Most of the Node.js packages are developed by an active community, so accessing the latest npm packages directly makes the most sense (we get latest features and security updates).
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net8.0 is compatible. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
-
net8.0
- NuGet.Configuration (>= 6.9.1)
- PlayNicely.Projects (>= 1.1.1-beta-479)
NuGet packages (2)
Showing the top 2 NuGet packages that depend on PlayNicely.Executor:
Package | Downloads |
---|---|
PlayNicely.Executor.DotNet
A framework that facilitates testing of Play Nicely functionality. Provides capability to execute dotnet commands, in a controlled environment, against test case projects. |
|
PlayNicely.SpecFlow.Executor
SpecFlow bindings that allow you to run tests by executing programs against a pre-configured test environment. |
GitHub repositories
This package is not used by any popular GitHub repositories.