1 unstable release
0.0.1 | Jan 27, 2023 |
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#3 in #core-db
47KB
876 lines
CoreDB Operator
A rust kubernetes controller for a CoreDB
resource using kube-rs.
The Controller
object reconciles CoreDB
instances when changes to it are detected, writes to its .status object, creates associated events, and uses finalizers for guaranteed delete handling.
Requirements
- A Kubernetes cluster
- The CRD
- Opentelemetry collector (optional)
Linting
Run linting with cargo fmt
and clippy
Clippy:
rustup component add clippy
cargo clippy
cargo fmt:
rustup component add rustfmt --toolchain nightly
cargo +nightly fmt
Testing
Unit testing
cargo test
Integration testing
- Connect to a cluster that is safe to run the tests against
- Set your kubecontext to any namespace, and label it to indicate it is safe to run tests against this cluster (do not do against non-test clusters)
kubectl label namespace default safe-to-run-coredb-tests=true
- Start or install the controller you want to test (see the following sections)
- Run the integration tests
cargo test -- --ignored
- The integration tests assume you already have installed or are running the operator connected to the cluster.
Other testing notes
- Include the
--nocapture
flag to show print statements during test runs
Cluster
As an example; install kind
. Once installed, follow these instructions to create a kind cluster connected to a local image registry.
CRD
Apply the CRD from cached file, or pipe it from crdgen
(best if changing it):
cargo run --bin crdgen | kubectl apply -f -
Opentelemetry (optional)
Setup an opentelemetry collector in your cluster. Tempo / opentelemetry-operator / grafana agent should all work out of the box. If your collector does not support grpc otlp you need to change the exporter in main.rs
.
Running
Locally
cargo run
- Or, you can run with auto-reloading your local changes.
- First, install cargo-watch
cargo install cargo-watch
- Then, run with auto-reload
cargo watch -x 'run'
- Or, with optional telemetry (change as per requirements):
OPENTELEMETRY_ENDPOINT_URL=https://0.0.0.0:55680 RUST_LOG=info,kube=trace,controller=debug cargo run --features=telemetry
In-cluster
Compile the controller with:
just compile
Build an image with:
just build
Push the image to your local registry with:
docker push localhost:5001/controller:<tag>
Edit the deployment's image tag appropriately, then run:
kubectl apply -f yaml/deployment.yaml
kubectl port-forward service/coredb-controller 8080:80
NB: namespace is assumed to be default
. If you need a different namespace, you can replace default
with whatever you want in the yaml and set the namespace in your current-context to get all the commands here to work.
Usage
In either of the run scenarios, your app is listening on port 8080
, and it will observe CoreDB
events.
Try some of:
kubectl apply -f yaml/sample-coredb.yaml
kubectl delete coredb sample-coredb
kubectl edit coredb sample-coredb # change replicas
The reconciler will run and write the status object on every change. You should see results in the logs of the pod, or on the .status object outputs of kubectl get coredb -o yaml
.
Webapp output
The sample web server exposes some example metrics and debug information you can inspect with curl
.
$ kubectl apply -f yaml/sample-coredb.yaml
$ curl 0.0.0.0:8080/metrics
# HELP cdb_controller_reconcile_duration_seconds The duration of reconcile to complete in seconds
# TYPE cdb_controller_reconcile_duration_seconds histogram
cdb_controller_reconcile_duration_seconds_bucket{le="0.01"} 1
cdb_controller_reconcile_duration_seconds_bucket{le="0.1"} 1
cdb_controller_reconcile_duration_seconds_bucket{le="0.25"} 1
cdb_controller_reconcile_duration_seconds_bucket{le="0.5"} 1
cdb_controller_reconcile_duration_seconds_bucket{le="1"} 1
cdb_controller_reconcile_duration_seconds_bucket{le="5"} 1
cdb_controller_reconcile_duration_seconds_bucket{le="15"} 1
cdb_controller_reconcile_duration_seconds_bucket{le="60"} 1
cdb_controller_reconcile_duration_seconds_bucket{le="+Inf"} 1
cdb_controller_reconcile_duration_seconds_sum 0.013
cdb_controller_reconcile_duration_seconds_count 1
# HELP cdb_controller_reconciliation_errors_total reconciliation errors
# TYPE cdb_controller_reconciliation_errors_total counter
cdb_controller_reconciliation_errors_total 0
# HELP cdb_controller_reconciliations_total reconciliations
# TYPE cdb_controller_reconciliations_total counter
cdb_controller_reconciliations_total 1
$ curl 0.0.0.0:8080/
{"last_event":"2019-07-17T22:31:37.591320068Z"}
The metrics will be auto-scraped if you have a standard PodMonitor
for prometheus.io/scrape
.
Dependencies
~79MB
~1.5M SLoC