# Testing Guidelines This document lays out several guidelines to secure high quality and consistency throughout `airshipctl`'s test bed. ## Testing packages The `airshipctl` project uses the [testify] library, a thin wrapper around Go's builtin `testing` package. The `testify` package provides the following packages: * `assert`: Functions from this package can be used to replace most calls to `t.Error` * `require`: Contains the same functions as above, but these functions should replace calls to `t.Fatal` * `mock`: Contains the `Mock` mechanism, granting the ability to mock out structs ## Test coverage Tests should cover at least __80%__ of the codebase. Anything less will cause the CI gates to fail. A developer should assert that their code meets this criteria before submitting a patchset. This check can be performed with one of the following `make` targets: ``` # Runs all unit tests, then computes and reports the coverage make cover # Same as above, but in the same dockerized container as the CI gates make docker-image-unit-tests ``` Good practice is to assert that the changed packages have not decreased in coverage. The coverage check can be run for a specific package with a command such as the following. ``` make cover PKG=./pkg/foo ``` ## Test directory structure Test files end in `_test.go`, and sit next to the tested file. For example, `airshipctl/pkg/foo/foo.go` should be tested by `airshipctl/pkg/foo/foo_test.go`. A test's package name should also end in `_test`, unless that file intends to test unexported fields and method, at which point it should be in the package under test. Go will ignore any files stored in a directory called `testdata`, therefore all non-Go test files (such as expected output or example input) should be stored there. Any mocks for a package should be stored in a sub-package ending in `mocks`. Each mocked struct should have its own file, where the filename describes the struct, i.e. a file containing a mocked `Fooer` should be stored at `mocks/fooer.go`. Mocked files can be either handwritten or generated via [mockery]. The `mockery` tool can generate files in this fashion with the following command. ``` mockery -all -case snake ``` An example file structure might look something like the following. ``` airshipctl/pkg/foo ├── foo.go ├── foo_test.go ├── mocks │ └── fooer.go └── testdata └── example-input.yaml ``` ## Testing guidelines This section annotates various standards for unit tests in `airshipctl`. These should be thought of as "guidelines" rather than "rules". * Using [table-tests] prevents a lot of duplicated code. * Using [subtests] allows tests to provide much more fine-grained results. * Calls to methods from `testify/require` be reserved for situations in which the test should fail immediately (e.g. during test setup). Generally, `testify/assert` should be preferred. ## How to write unit tests for files listed under the `cmd` package Go files listed under the `cmd` package should be relatively slim. Their purpose is to be a client of the `pkg` package. Most of these files will contain no more than a single function which creates and returns a `cobra.Command`. Nonetheless, these functions need to be tested. To help alleviate some of the difficulties that come with testing a CLI, `airshipctl` provides several helper structs and functions under the `testutil` package. As an example, suppose you have the following function: ``` func NewVersionCommand() *cobra.Command { versionCmd := &cobra.Command{ Use: "version", Short: "Show the version number of airshipctl", Run: func(cmd *cobra.Command, args []string) { out := cmd.OutOrStdout() clientV := version.clientVersion() w := util.NewTabWriter(out) defer w.Flush() fmt.Fprintf(w, "%s:\t%s\n", "airshipctl", clientV) }, } return versionCmd } ``` Testing this functionality is easy with the use of the pre-built `testutil.CmdTest`: ``` func TestVersion(t *testing.T) { versionCmd := cmd.NewVersionCommand() cmdTests := []*testutil.CmdTest{ { Name: "version", CmdLine: "", Cmd: versionCmd, Error: nil, }, { Name: "version-help", CmdLine: "--help", Cmd: versionCmd, Error: nil, }, } for _, tt := range cmdTests { testutil.RunTest(t, tt) } } ``` The above test uses `CmdTest` structs, which are then fed to the `RunTest` function. This function provides abstraction around running a command on the command line and comparing its output to a "golden file" (the pre-determined expected output). The following describes the fields of the `CmdTest` struct. * `Name` - The name for this test. This field *must* be unique, as it will be used while naming the golden file * `CmdLine` - The arguments and flags to pass to the command * `Cmd` - The actual instance of a `cobra.Command` to run. The above example reuses the command, but more complex tests may require different instances (e.g. to pass in a different `Settings` object) * `Error` - The expected error for the command to return. This can be omitted if this test doesn't expect an error Once you've written your test, you can generate the associated golden files by running `make update-golden`, which invokes the "update" mode for `testutil.RunTest`. When the command has completed, you can view the output in the associated files in the `testdata` directory next to your command. Note that these files are easily discoverable from the output of `git status`. When you're certain that the golden files are correct, you can add them to the repo. [mockery]: https://github.com/vektra/mockery [subtests]: https://blog.golang.org/subtests [table-tests]: https://github.com/golang/go/wiki/TableDrivenTests [testify]: https://github.com/stretchr/testify