Logging
Overview
Operator SDK-generated operators use the logr interface to log. This log interface has several backends such as zap, which the SDK uses in generated code by default. logr.Logger exposes structured logging methods that help create machine-readable logs and adding a wealth of information to log records.
Default zap logger
Operator SDK uses a zap
-based logr
backend when scaffolding new projects. To assist with configuring and using this logger, the SDK includes several helper functions.
In the simple example below, we add the zap flagset to the operator’s command line flags with BindFlags()
, and then set the controller-runtime logger with zap.Options{}
.
By default, zap.Options{}
will return a logger that is ready for production use. It uses a JSON encoder, logs starting at the info
level. To customize the default behavior, users can use the zap flagset and specify flags on the command line. The zap flagset includes the following flags that can be used to configure the logger:
--zap-devel
: Development Mode defaults(encoder=consoleEncoder,logLevel=Debug,stackTraceLevel=Warn) Production Mode defaults(encoder=jsonEncoder,logLevel=Info,stackTraceLevel=Error)--zap-encoder
: Zap log encoding (‘json’ or ‘console’)--zap-log-level
: Zap Level to configure the verbosity of logging. Can be one of ‘debug’, ‘info’, ‘error’, or any integer value > 0 which corresponds to custom debug levels of increasing verbosity”)--zap-stacktrace-level
: Zap Level at and above which stacktraces are captured (one of ‘info’ or ‘error’)
Consult the controller-runtime godocs for more detailed flag information.
A simple example
Operators set the logger for all operator logging in main.go
. To illustrate how this works, try out this simple example:
package main
import (
"sigs.k8s.io/controller-runtime/pkg/log/zap"
logf "sigs.k8s.io/controller-runtime/pkg/log"
)
var globalLog = logf.Log.WithName("global")
func main() {
// Add the zap logger flag set to the CLI. The flag set must
// be added before calling flag.Parse().
opts := zap.Options{}
opts.BindFlags(flag.CommandLine)
flag.Parse()
logger := zap.New(zap.UseFlagOptions(&opts))
logf.SetLogger(logger)
scopedLog := logf.Log.WithName("scoped")
globalLog.Info("Printing at INFO level")
globalLog.V(1).Info("Printing at DEBUG level")
scopedLog.Info("Printing at INFO level")
scopedLog.V(1).Info("Printing at DEBUG level")
}
Output using the defaults
$ go run main.go
INFO[0000] Running the operator locally in namespace default.
{"level":"info","ts":1587741740.407766,"logger":"global","msg":"Printing at INFO level"}
{"level":"info","ts":1587741740.407855,"logger":"scoped","msg":"Printing at INFO level"}
Output overriding the log level to 1 (debug)
$ go run main.go --zap-log-level=debug
INFO[0000] Running the operator locally in namespace default.
{"level":"info","ts":1587741837.602911,"logger":"global","msg":"Printing at INFO level"}
{"level":"debug","ts":1587741837.602964,"logger":"global","msg":"Printing at DEBUG level"}
{"level":"info","ts":1587741837.6029708,"logger":"scoped","msg":"Printing at INFO level"}
{"level":"debug","ts":1587741837.602973,"logger":"scoped","msg":"Printing at DEBUG level"}
Custom zap logger
In order to use a custom zap logger, zap from controller-runtime can be utilized to wrap it in a logr
implementation.
Below is an example illustrating the use of zap-logfmt in logging.
Example
In your main.go
file, replace the current implementation for logs inside the main
function:
...
// Add the zap logger flag set to the CLI. The flag set must
// be added before calling flag.Parse().
opts := zap.Options{}
opts.BindFlags(flag.CommandLine)
flag.Parse()
logger := zap.New(zap.UseFlagOptions(&opts))
logf.SetLogger(logger)
...
With:
import(
...
zaplogfmt "github.com/sykesm/zap-logfmt"
uzap "go.uber.org/zap"
"go.uber.org/zap/zapcore"
logf "sigs.k8s.io/controller-runtime/pkg/log"
"sigs.k8s.io/controller-runtime/pkg/log/zap"
...
)
configLog := uzap.NewProductionEncoderConfig()
configLog.EncodeTime = func(ts time.Time, encoder zapcore.PrimitiveArrayEncoder) {
encoder.AppendString(ts.UTC().Format(time.RFC3339Nano))
}
logfmtEncoder := zaplogfmt.NewEncoder(configLog)
// Construct a new logr.logger.
logger := zap.New(zap.UseDevMode(true), zap.WriteTo(os.Stdout), zap.Encoder(logfmtEncoder))
logf.SetLogger(logger)
NOTE: For this example, you will need to add the module "github.com/sykesm/zap-logfmt"
to your project. Run go get -u github.com/sykesm/zap-logfmt
.
Output using custom zap logger
$ go run main.go
ts=2020-04-30T20:35:59.551268Z level=info logger=global msg="Printing at INFO level"
ts=2020-04-30T20:35:59.551314Z level=debug logger=global msg="Printing at DEBUG level"
ts=2020-04-30T20:35:59.551318Z level=info logger=scoped msg="Printing at INFO level"
ts=2020-04-30T20:35:59.55132Z level=debug logger=scoped msg="Printing at DEBUG level"
By using sigs.k8s.io/controller-runtime/pkg/log
, your logger is propagated through controller-runtime
. Any logs produced by controller-runtime
code will be through your logger, and therefore have the same formatting and destination.
Setting flags when running locally
When running locally with make run ENABLE_WEBHOOKS=false
, you can use the ARGS
var to pass additional flags to your operator, including the zap flags. For example:
$ make run ARGS="--zap-encoder=console" ENABLE_WEBHOOKS=false
Make sure to have your run
target to take ARGS
as shown below in Makefile
.
# Run against the configured Kubernetes cluster in ~/.kube/config
run: manifests generate fmt vet
go run ./main.go $(ARGS)
Setting flags when deploying to a cluster
When deploying your operator to a cluster you can set additional flags using an args
array in your operator’s container
spec in the file config/default/manager_auth_proxy_patch.yaml
For example:
apiVersion: apps/v1
kind: Deployment
metadata:
name: controller-manager
namespace: system
spec:
template:
spec:
containers:
- name: kube-rbac-proxy
image: gcr.io/kubebuilder/kube-rbac-proxy:v0.5.0
args:
- "--secure-listen-address=0.0.0.0:8443"
- "--upstream=http://127.0.0.1:8080/"
- "--logtostderr=true"
- "--v=10"
ports:
- containerPort: 8443
name: https
- name: manager
args:
- "--metrics-bind-address=127.0.0.1:8080"
- "--leader-elect"
- "--zap-encoder=console"
- "--zap-log-level=debug"
Creating a structured log statement
There are two ways to create structured logs with logr
. You can create new loggers using log.WithValues(keyValues)
that include keyValues
, a list of key-value pair interface{}
‘s, in each log record. Alternatively you can include keyValues
directly in a log statement, as all logr
log statements take some message and keyValues
. The signature of logr.Error()
has an error
-type parameter, which can be nil
.
An example from memcached_controller.go:
package memcached
import (
"github.com/go-logr/logr"
)
// MemcachedReconciler reconciles a Memcached object
type MemcachedReconciler struct {
client.Client
Log logr.Logger
Scheme *runtime.Scheme
}
func (r *MemcachedReconciler) Reconcile(ctx context.Context, req ctrl.Request) (ctrl.Result, error) {
log := r.Log.WithValues("memcached", req.NamespacedName)
// Fetch the Memcached instance
memcached := &cachev1alpha1.Memcached{}
err := r.Get(ctx, req.NamespacedName, memcached)
if err != nil {
if errors.IsNotFound(err) {
// Request object not found, could have been deleted after reconcile request.
// Owned objects are automatically garbage collected. For additional cleanup logic use finalizers.
// Return and don't requeue
log.Info("Memcached resource not found. Ignoring since object must be deleted")
return ctrl.Result{}, nil
}
// Error reading the object - requeue the request.
log.Error(err, "Failed to get Memcached")
return ctrl.Result{}, err
}
// Check if the deployment already exists, if not create a new one
found := &appsv1.Deployment{}
err = r.Get(ctx, types.NamespacedName{Name: memcached.Name, Namespace: memcached.Namespace}, found)
if err != nil && errors.IsNotFound(err) {
// Define a new deployment
dep := r.deploymentForMemcached(memcached)
log.Info("Creating a new Deployment", "Deployment.Namespace", dep.Namespace, "Deployment.Name", dep.Name)
err = r.Create(ctx, dep)
if err != nil {
log.Error(err, "Failed to create new Deployment", "Deployment.Namespace", dep.Namespace, "Deployment.Name", dep.Name)
return ctrl.Result{}, err
}
// Deployment created successfully - return and requeue
return ctrl.Result{Requeue: true}, nil
} else if err != nil {
log.Error(err, "Failed to get Deployment")
return ctrl.Result{}, err
}
...
}
Log records will look like the following (from log.Error()
above):
2020-04-27T09:14:15.939-0400 ERROR controllers.Memcached Failed to create new Deployment {"memcached": "default/memcached-sample", "Deployment.Namespace": "default", "Deployment.Name": "memcached-sample"}
Non-default logging
If you do not want to use logr
as your logging tool, you can remove logr
-specific statements without issue from your operator’s code, including the logr
setup code in main.go
, and add your own. Note that removing logr
setup code will prevent controller-runtime
from logging.
Last modified March 18, 2021: ansible/helm : aling flags and deprecated the old ones (#4654) (348e7def)