Developing the bpfman-operator
This section is intended to give developer level details regarding the layout and design of the bpfman-operator. At its core the operator was implemented using the operator-sdk framework which make those docs another good resource if anything is missed here.
High level design overview
This repository houses two main processes, the bpfman-agent
and the bpfman-operator
along with CRD api definitions
for BpfProgram
and *Program
Objects.
The following diagram depicts how all these components work together to create a functioning operator.
Building and Deploying
For building and deploying the bpfman-operator simply see the attached make help
output.
make help
Usage:
make <target>
General
help Display this help.
Local Dependencies
kustomize Download kustomize locally if necessary.
controller-gen Download controller-gen locally if necessary.
register-gen Download register-gen locally if necessary.
informer-gen Download informer-gen locally if necessary.
lister-gen Download lister-gen locally if necessary.
client-gen Download client-gen locally if necessary.
envtest Download envtest-setup locally if necessary.
opm Download opm locally if necessary.
Development
manifests Generate WebhookConfiguration, ClusterRole and CustomResourceDefinition objects.
generate Generate ALL auto-generated code.
generate-register Generate register code see all `zz_generated.register.go` files.
generate-deepcopy Generate code containing DeepCopy, DeepCopyInto, and DeepCopyObject method implementations see all `zz_generated.register.go` files.
generate-typed-clients Generate typed client code
generate-typed-listers Generate typed listers code
generate-typed-informers Generate typed informers code
fmt Run go fmt against code.
verify Verify all the autogenerated code
test Run Unit tests.
test-integration Run Integration tests.
bundle Generate bundle manifests and metadata, then validate generated files.
build-release-yamls Generate the crd install bundle for a specific release version.
Build
build Build bpfman-operator and bpfman-agent binaries.
build-images Build bpfman, bpfman-agent, and bpfman-operator images.
push-images Push bpfman, bpfman-agent, bpfman-operator images.
load-images-kind Load bpfman, bpfman-agent, and bpfman-operator images into the running local kind devel cluster.
bundle-build Build the bundle image.
bundle-push Push the bundle image.
catalog-build Build a catalog image.
catalog-push Push a catalog image.
CRD Deployment
install Install CRDs into the K8s cluster specified in ~/.kube/config.
uninstall Uninstall CRDs from the K8s cluster specified in ~/.kube/config. Call with ignore-not-found=true to ignore resource not found errors during deletion.
Vanilla K8s Deployment
setup-kind Setup Kind cluster
deploy Deploy bpfman-operator to the K8s cluster specified in ~/.kube/config with the csi driver initialized.
undeploy Undeploy bpfman-operator from the K8s cluster specified in ~/.kube/config. Call with ignore-not-found=true to ignore resource not found errors during deletion.
kind-reload-images Reload locally build images into a kind cluster and restart the ds and deployment so they're picked up.
run-on-kind Kind Deploy runs the bpfman-operator on a local kind cluster using local builds of bpfman, bpfman-agent, and bpfman-operator
Openshift Deployment
deploy-openshift Deploy bpfman-operator to the Openshift cluster specified in ~/.kube/config.
undeploy-openshift Undeploy bpfman-operator from the Openshift cluster specified in ~/.kube/config. Call with ignore-not-found=true to ignore resource not found errors during deletion.
Project Layout
The bpfman-operator project layout is guided by the recommendations from both the
operator-sdk framework
and the standard golang project-layout.
The following is a brief description of the main directories under bpfman-operator/
and their contents.
NOTE: Bolded directories contain auto-generated code
apis/v1alpha1/*_types.go
: Contains the K8s CRD api definitions (*_types.go
) for each version.- apis/v1alpha1/zz_generated.*.go: Contains the auto-generated register (
zz_generate.register.go
) and deepcopy (zz_generated.deepcopy.go
) methods. bundle/
: Contains the OLM bundle manifests and metadata for the operator. More details can be found in the operator-sdk documentation.cmd/
: Contains the main entry-points for the bpfman-operator and bpfman-agent processes.config/
: Contains the configuration files for launching the bpfman-operator on a cluster.bpfman-deployment/
: Contains static deployment yamls for the bpfman-daemon, this includes two containers, one forbpfman
and the other for thebpfman-agent
. This DaemonSet yaml is NOT deployed statically by kustomize, instead it's statically copied into the operator image which is then responsible for deploying and configuring the bpfman-daemon DaemonSet. Lastly, this directory also contains the default config used to configure the bpfman-daemon, along with the cert-manager certificates used to encrypt communication between the bpfman-agent and bpfman.bpfman-operator-deployment/
: Contains the static deployment yaml for the bpfman-operator. This is deployed statically by kustomize.crd/
: Contains the CRD manifests for all of the bpfman-operator APIs.- bases/: Is where the actual CRD definitions are stored. These definitions are auto-generated by controller-gen.
patches/
: Contains kustomize patch files for each Program Type, which enables a conversion webhook for the CRD and adds a directive for certmanager to inject CA into the CRD.
default/
: Contains the default deployment configuration for the bpfman-operator.manifests/
: Contains the bases for generating OLM manifests.openshift/
: Contains the Openshift specific deployment configuration for the bpfman-operator.prometheus/
: Contains the prometheus manifests used to deploy Prometheus to a cluster. At the time of writing this the bpfman-operator is NOT exposing any metrics to prometheus, but this is a future goal.- rbac/: Contains rbac yamls for getting bpfman and the bpfman-operator up and running on Kubernetes.
- bpfman-agent/: Contains the rbac yamls for the bpfman-agent. They are automatically generated by kubebuilder via build tags in the bpfman-agent controller code.
- bpfman-operator/: Contains the rbac yamls for the bpfman-operator. They are automatically generated by kubebuilder via build tags in the bpfman-operator controller code.
samples/
: Contains sample CR definitions that can be deployed by users for each of our supported APIs.scorecard/
: Contains the scorecard manifests used to deploy scorecard to a cluster. At the time of writing this the bpfman-operator is NOT running any scorecard tests.test/
: Contains the test manifests used to deploy the bpfman-operator to a kind cluster for integration testing.
controllers/
: Contains the controller implementations for all of the bpfman-operator APIs. Each controller is responsible for reconciling the state of the cluster with the desired state defined by the user. This is where the source of truth for the auto-generated RBAC can be found, keep an eye out for//+kubebuilder:rbac:groups=bpfman.io
comment tags.bpfmanagent/
: Contains the controller implementations which reconcile user created*Program
types to multipleBpfProgram
objects.bpfmanoperator/
: Contains the controller implementations which reconcile globalBpfProgram
object state back to the user by ensuring the user created*Program
objects are reporting the correct status.
hack/
: Contains any scripts+static files used by the bpfman-operator to facilitate development.internal/
: Contains all private library code and is used by the bpfman-operator and bpfman-agent controllers.pkg/
: Contains all public library code this is consumed externally and internally.- client/: Contains the autogenerated clientset, informers and listers for all of the bpfman-operator APIs. These are autogenerated by the k8s.io/code-generator project, and can be consumed by users wishing to programmatically interact with bpfman specific APIs.
helpers/
: Contains helper functions which can be consumed by users wishing to programmatically interact with bpfman specific APIs.
test/integration/
: Contains integration tests for the bpfman-operator. These tests are run against a kind cluster and are responsible for testing the bpfman-operator in a real cluster environment. It uses the kubernetes-testing-framework project to programmatically spin-up all of the required infrastructure for our unit tests.Makefile
: Contains all of the make targets used to build, test, and generate code used by the bpfman-operator.
RPC Protobuf Generation
Technically part of the bpfman
API, the RPC Protobufs are usually not coded until a bpfman feature is
integrated into the bpfman-operator
and bpfman-agent
code.
To modify the RPC Protobuf definition, edit
proto/bpfman.proto.
Then to generate the protobufs from the updated RPC Protobuf definitions:
This will generate:
- bpfman-api/src/bpfman.v1.rs: Generated Rust Protobuf source code.
- clients/gobpfman/v1/: Directory that contains the generated Go Client code for interacting with bpfman over RPC from a Go application.
When editing proto/bpfman.proto, follow best practices describe in Proto Best Practices.
Note: cargo xtask build-proto
also pulls in
proto/csi.proto (which is in the
same directory as
proto/bpfman.proto).
proto/csi.proto is taken from
container-storage-interface/spec/csi.proto.
See container-storage-interface/spec/spec.md
for more details.
Generated Files
The operator-sdk framework will generate multiple categories of files (Custom Resource Definitions (CRD), RBAC ClusterRole, Webhook Configuration, typed client, listeners and informers code, etc). If any of the bpfman-operator/apis/v1alpha1/*Program_types.go files are modified, then regenerate these files using:
This command will generate all auto-generated code.
There are commands to generate each sub-category if needed.
See make help
to list all the generate commands.
Building
To run in Kubernetes, bpfman components need to be containerized. However, building container images can take longer than just building the code. During development, it may be quicker to find and fix build errors by just building the code. To build the code:
To build the container images, run the following command:
If the make build
command is skipped above, the code will be built in the build-images command.
If the make build
command is run, the built code will be leveraged in this step.
This command generates the following images:
docker images
REPOSITORY TAG IMAGE ID CREATED SIZE
quay.io/bpfman/bpfman latest 69df038ccea3 43 seconds ago 515MB
quay.io/bpfman/bpfman-agent latest f6af33c5925b 2 minutes ago 464MB
quay.io/bpfman/bpfman-operator latest 4fe444b7abf1 2 minutes ago 141MB
:
Running Locally in KIND
Deploying the bpfman-operator goes into more detail on ways to launch bpfman in a Kubernetes cluster. To run locally in a Kind cluster with an up to date build simply run:
The make run-on-kind
will run the make build-images
if the images do not exist or need updating.
Then rebuild and load a fresh build run:
Which will rebuild the bpfman-operator, bpfman-agent, and bpfman images and load them into the kind cluster.
By default, the make run-on-kind
uses the quay.io/bpfman/bpfman*
images described above.
The container images used for bpfman
, bpfman-agent
, and bpfman-operator
can also be manually configured:
BPFMAN_IMG=<your/image/url> BPFMAN_AGENT_IMG=<your/image/url> BPFMAN_OPERATOR_IMG=<your/image/url> make run-on-kind
Testing Locally
See Kubernetes Operator Tests.
Troubleshooting
Metrics/Health port issues
In some scenarios, the health and metric ports may are already in use by other services on the system. When this happens the bpfman-agent container fails to deploy. The ports currently default to 8175 and 8174.
The ports are passed in through the daemonset.yaml for the bpfman-daemon
and deployment.yaml and
manager_auth_proxy_patch.yaml for the bpfman-operator
.
The easiest way to change which ports are used is to update these yaml files and rebuild the container images.
The container images need to be rebuilt because the bpfman-daemon
is deployed from the bpfman-operator
and the associated yaml files are copied into the bpfman-operator
image.
If rebuild the container images is not desirable, then the ports can be changed on the fly.
For the bpfman-operator
, the ports can be updated by editing the bpfman-operator
Deployment.
kubectl edit deployment -n bpfman bpfman-operator
apiVersion: apps/v1
kind: Deployment
:
spec:
template:
:
spec:
containers:
-args:
- --secure-listen-address=0.0.0.0:8443
- --upstream=http://127.0.0.1:8174/ <-- UPDATE
- --logtostderr=true
- --v=0
name: kube-rbac-proxy
:
- args:
- --health-probe-bind-address=:8175 <-- UPDATE
- --metrics-bind-address=127.0.0.1:8174 <-- UPDATE
- --leader-elect
:
livenessProbe:
failureThreshold: 3
httpGet:
path: /healthz
port: 8175 <-- UPDATE
scheme: HTTP
:
name: bpfman-operator
readinessProbe:
failureThreshold: 3
httpGet:
path: /readyz
port: 8175 <-- UPDATE
scheme: HTTP
:
For the bpfman-daemon
, the ports could be updated by editing the bpfman-daemon
DaemonSet.
However, if bpfman-daemon
is restarted for any reason by the bpfman-operator
, the changes
will be lost. So it is recommended to update the ports for the bpfman-daemon
via the bpfman
bpfman-config
ConfigMap.
kubectl edit configmap -n bpfman bpfman-config
apiVersion: v1
data:
bpfman.agent.healthprobe.addr: :8175 <-- UPDATE
bpfman.agent.image: quay.io/bpfman/bpfman-agent:latest
bpfman.agent.log.level: info
bpfman.agent.metric.addr: 127.0.0.1:8174 <-- UPDATE
bpfman.image: quay.io/bpfman/bpfman:latest
bpfman.log.level: debug
kind: ConfigMap
: