Writing Custom Scorecard Tests
This guide outlines the steps which can be followed to extend the existing scorecard tests and implement operator specific custom tests.
Run scorecard with custom tests:
Building test image:
The following steps explain creating of a custom test image which can be used with Scorecard to run operator specific tests. As an example, let us start by creating a sample go repository containing the test bundle data, custom scorecard tests and a Makefile to help us build a test image.
The sample test image repository present here has the following project structure:
$ tree .
.
...
├── config
| ...
│ └── scorecard
│ ├── bases
│ │ └── config.yaml
│ ├── kustomization.yaml
│ └── patches
│ ├── basic.config.yaml
│ └── olm.config.yaml
├── Makefile
├── bundle
│ ├── manifests
│ │ ├── cache.example.com_memcached_crd.yaml
│ │ └── memcached-operator.clusterserviceversion.yaml
│ ├── metadata
│ │ └── annotations.yaml
│ └── tests
│ └── scorecard
│ └── config.yaml
├── go.mod
├── go.sum
├── images
│ └── custom-scorecard-tests
│ ├── Dockerfile
│ ├── bin
│ │ ├── entrypoint
│ │ └── user_setup
│ ├── cmd
│ │ └── test
│ │ └── main.go
│ └── custom-scorecard-tests
└── internal
└── tests
└── tests.go
config/scorecard
- Contains a kustomization for generating a config from a base and set of overlays.bundle/
- Contains bundle manifests and metadata under test.bundle/tests/scorecard/config.yaml
- Configuration file generated bymake bundle
from theconfig/scorecard
kustomization.images/custom-scorecard-tests/cmd/test/main.go
- Scorecard test binary.internal/tests/tests.go
- Contains the implementation of custom tests specific to the operator.
Writing custom test logic:
Scorecard currently implements a few basic and olm tests for the image bundle, custom resources and custom resource definitions. Additional tests specific to the operator can also be included in the test suite of scorecard.
The tests.go
file is where the custom tests are implemented in the sample test image project. These tests use scapiv1alpha3.TestResult
struct to populate the result, which is then converted to json format for the output. For example, the format of a simple custom sample test can be as follows:
package tests
import (
"github.com/operator-framework/operator-registry/pkg/registry"
scapiv1alpha3 "github.com/operator-framework/api/pkg/apis/scorecard/v1alpha3"
)
const (
CustomTest1Name = "customtest1"
)
// CustomTest1
func CustomTest1(bundle registry.Bundle) scapiv1alpha3.TestStatus {
r := scapiv1alpha3.TestResult{}
r.Name = CustomTest1Name
r.Description = "Custom Test 1"
r.State = scapiv1alpha3.PassState
r.Errors = make([]string, 0)
r.Suggestions = make([]string, 0)
// Implement relevant custom test logic here
return wrapResult(r)
}
Scorecard Configuration file:
The configuration file includes test definitions and metadata to run the test. This file is constructed using a kustomization under config/scorecard
, with overlays for test sets.
For the example CustomTest1
function, add the following to config/scorecard/customtest1.config.yaml
.
- op: add
path: /stages/0/tests/-
value:
image: quay.io/<username>/custom-scorecard-tests:latest
entrypoint:
- custom-scorecard-tests
- customtest1
labels:
suite: custom
test: customtest1
The important fields to note here are:
image
- name and tag of the test image which was specified in the Makefile.labels
- the name of thetest
andsuite
the test function belongs to. This can be specified in theoperator-sdk scorecard
command to run the desired test.
Next, add a JSON 6902 patch to your config/scorecard/kustomization.yaml
:
patchesJson6902:
...
- path: patches/customtest1.config.yaml
target:
group: scorecard.operatorframework.io
version: v1alpha3
kind: Configuration
name: config
Once you run make bundle
, the bundle/tests/scorecard/config.yaml
will be (re)generated with your custom test.
If generating a config file outside of the on-disk bundle, you can run:
$ kustomize build config/scorecard > path/to/config.yaml
Note: The default location of config.yaml
inside the bundle is <bundle directory>/tests/scorecard/config.yaml
. It can be overridden using the --config
flag. For more details regarding the configuration file refer to user docs.
Scorecard binary:
The scorecard test image implementation requires the bundle under test to be present in the test image. The apimanifests.GetBundleFromDir()
function reads the pod’s bundle to fetch the manifests and scorecard configuration from desired path.
cfg, err := apimanifests.GetBundleFromDir(scorecard.PodBundleRoot)
if err != nil {
log.Fatal(err.Error())
}
The scorecard binary uses config.yaml
file to locate tests and execute the them as Pods which scorecard creates. Custom test images are included into Pods that scorecard creates, passing in the bundle contents on a shared mount point to the test image container. The specific custom test that is executed is driven by the config.yaml’s entry-point command and arguments.
An example scorecard binary is present here.
The names with which the tests are identified in config.yaml
and would be passed in the scorecard
command, are to be specified here.
...
switch entrypoint[0] {
case tests.CustomTest1Name:
result = tests.CustomTest1(cfg)
...
}
...
The result of the custom tests which is in scapiv1alpha3.TestResult
format, is converted to json for output.
prettyJSON, err := json.MarshalIndent(result, "", " ")
if err != nil {
log.Fatal("Failed to generate json", err)
}
fmt.Printf("%s\n", string(prettyJSON))
The names of the custom tests are also included in printValidTests()
function:
func printValidTests() (result scapiv1alpha3.TestStatus) {
...
str := fmt.Sprintf("Valid tests for this image include: %s", tests.CustomTest1Name)
result.Errors = append(result.Errors, str)
...
}
Building the project
The project makefile is to help us build the go project and test image using docker. An example of the makefile script can be found in the sample test image.
To build the project, use the docker build
command and specify the desired name of the image in the format: <repository_name>/<username>/<image_name>:tag
.
Push the image to a remote repository by running the docker command:
docker push <repository_name>/<username>/<image_name>:tag
Running scorecard command
The operator-sdk scorecard
command is used to execute the scorecard tests by specifying the location of test bundle in the command. The name or suite of the tests which are to be executed can be specified with the --selector
flag. The command will create scorecard pods with the image specified in config.yaml
for the respective test. For example, the CustomTest1Name
test provides the following json output.
$ operator-sdk scorecard <bundle_dir_or_image> --selector=suite=custom -o json --wait-time=32s --skip-cleanup=false
{
"kind": "TestList",
"apiVersion": "scorecard.operatorframework.io/v1alpha3",
"items": [
{
"kind": "Test",
"apiVersion": "scorecard.operatorframework.io/v1alpha3",
"spec": {
"image": "quay.io/operator-framework/scorecard-test:latest",
"entrypoint": [
"custom-scorecard-tests",
"customtest1"
],
"labels": {
"suite": "custom",
"test": "customtest1"
}
},
"status": {
"results": [
{
"name": "customtest1",
"log": "an ISV custom test",
"state": "pass"
}
]
}
}
]
}
Note: More details on the usage of operator-sdk scorecard
command and its flags can be found in the scorecard user documentation
Debugging scorecard custom tests
The --skip-cleanup
flag can be used when executing the operator-sdk scorecard
command to cause the scorecard created test pods to be unremoved. This is useful when debugging or writing new tests so that you can view the test logs or the pod manifests.
Scorecard initContainer
The scorecard inserts an initContainer
into the test pods it creates. The initContainer
serves the purpose of uncompressing the operator bundle contents, mounting them into a shared mount point accessible by test images. The operator bundle contents are stored within a ConfigMap, uniquely built for each scorecard test execution. Upon scorecard completion, the ConfigMap is removed as part of normal cleanup, along with the test pods created by scorecard.
Using Custom Service Accounts
Scorecard does not deploy service accounts, RBAC resources, or namespaces for your test but instead considers these resources to be outside its scope. You can however implement whatever service accounts your tests require and then specify that service account from the command line using the service-account flag:
$ operator-sdk scorecard <bundle_dir_or_image> --service-account=mycustomsa
Also, you can set up a non-default namespace that your tests will be executed within using the following namespace flag:
$ operator-sdk scorecard <bundle_dir_or_image> --namespace=mycustomns
If you do not specify either of these flags, the default namespace and service account will be used by the scorecard to run test pods.
Returning Multiple Test Results
Some custom tests might require or be better implemented to return more than a single test result. For this case, scorecard’s output API allows multiple test results to be defined for a single test.
Accessing the Kube API
Within your custom tests you might require connecting to the Kube API.
In golang, you could use the client-go API for example to check Kube resources within your tests, or even create custom resources. Your custom test image is being executed within a Pod, so you can use an in-cluster connection to invoke the Kube API.
Last modified September 16, 2020: [1.0.x] Fix broken links (#3893) (cfabe8d6)