diff --git a/_data/tasks.yml b/_data/tasks.yml index 2586a06a10cb6..a9585a808df17 100644 --- a/_data/tasks.yml +++ b/_data/tasks.yml @@ -144,6 +144,7 @@ toc: - docs/tasks/administer-cluster/reserve-compute-resources.md - docs/tasks/administer-cluster/guaranteed-scheduling-critical-addon-pods.md - docs/tasks/administer-cluster/declare-network-policy.md + - docs/tasks/administer-cluster/reconfigure-kubelet.md - title: Install Network Policy Provider section: - docs/tasks/administer-cluster/calico-network-policy.md diff --git a/docs/tasks/administer-cluster/reconfigure-kubelet.md b/docs/tasks/administer-cluster/reconfigure-kubelet.md new file mode 100644 index 0000000000000..7dd6f44bc7796 --- /dev/null +++ b/docs/tasks/administer-cluster/reconfigure-kubelet.md @@ -0,0 +1,454 @@ +--- +approvers: +- mtaufen +- dawnchen +title: Reconfigure a Node's Kubelet in a Live Cluster +--- + +{% capture overview %} +As of Kubernetes 1.8, the new +[Dynamic Kubelet Configuration](https://github.com/kubernetes/features/issues/281) +feature is available in alpha. This allows you to change the configuration of +Kubelets in a live Kubernetes cluster via first-class Kubernetes concepts. +Specifically, this feature allows you to configure individual Nodes' Kubelets +via ConfigMaps. + +**Warning:** All Kubelet configuration parameters may be changed dynamically, +but not all parameters are safe to change dynamically. This feature is intended +for system experts who have a strong understanding of how configuration changes +will affect behavior. No documentation currently exists which plainly lists +"safe to change" fields, but we plan to add it before this feature graduates +from alpha. +{% endcapture %} + +{% capture prerequisites %} +- A live Kubernetes cluster with both Master and Node at v1.8 or higher must be +running, with the `DynamicKubeletConfig` feature gate enabled and the Kubelet's +`--dynamic-config-dir` flag set to a writeable directory on the Node. +This flag must be set to enable Dynamic Kubelet Configuration. +- The kubectl command-line tool must be also be v1.8 or higher, and must be +configured to communicate with the cluster. +{% endcapture %} + +{% capture steps %} + +## Reconfiguring the Kubelet on a Live Node in your Cluster + +### Basic Workflow Overview + +The basic workflow for configuring a Kubelet in a live cluster is as follows: + +1. Write a YAML or JSON configuration file containing the +Kubelet's configuration. +2. Wrap this file in a ConfigMap and save it to the Kubernetes control plane. +3. Update the Kubelet's correspoinding Node object to use this ConfigMap. + +Each Kubelet watches a configuration reference on its respective Node object. +When this reference changes, the Kubelet downloads the new configuration and +exits. For the feature to work correctly, you must be running a process manager +(like systemd) which will restart the Kubelet when it exits. When the Kubelet is +restarted, it will begin using the new configuration. + +The new configuration completely overrides the old configuration; unspecified +fields in the new configuration will receive their canonical default values. +Some CLI flags do not have an associated configuration field, and will not be +affected by the new configuration. These fields are defined by the KubeletFlags +structure, [here](https://github.com/kubernetes/kubernetes/blob/master/cmd/kubelet/app/options/options.go). + +The status of the Node's Kubelet configuration is reported via the `ConfigOK` +condition in the Node status. Once you have updated a Node to use the new +ConfigMap, you can observe this condition to confirm that the Node is using the +intended configuration. A table describing the possible conditions can be found +at the end of this article. + +This document describes editing Nodes using `kubectl edit`. +There are other ways to modify a Node's spec, including `kubectl patch`, for +example, which facilitate scripted workflows. + +This document only describes a single Node consuming each ConfigMap. Keep in +mind that it is also valid for multiple Nodes to consume the same ConfigMap. + +### Node Authorizer Workarounds + +The Node Authorizer does not yet pay attention to which ConfigMaps are assigned +to which Nodes. If you currently use the Node authorizer, your Kubelets will not +be automatically granted permission to download their respective ConfigMaps. + +The temporary workaround used in this document is to manually create the RBAC +Roles and RoleBindings for each ConfigMap. The Node Authorizer will be extended +before the Dynamic Kubelet Configuration feature graduates from alpha, so doing +this in production should never be necessary. + +### Generating a file that contains the current configuration + +The Dynamic Kubelet Configuration feature allows you to provide an override for +the entire configuration object, rather than a per-field overlay. This is a +simpler model that makes it easier to trace the source of configuration values +and debug issues. The compromise, however, is that you must start with knowledge +of the existing configuration to ensure that you only change the fields you +intend to change. + +In the future, the Kubelet will be bootstrapped from a file on disk, and you +will simply edit a copy of this file (which, as a best practice, should live in +version control) while creating the first Kubelet ConfigMap. Today, however, the +Kubelet is still bootstrapped with command-line flags. Fortunately, there is a +dirty trick you can use to generate a config file containing a Node's current +configuration. The trick involves hitting the Kubelet server's `configz` +endpoint via the kubectl proxy. This endpoint, in its current implementation, is +intended to be used only as a debugging aid, which is part of why this is a +dirty trick. There is ongoing work to improve the endpoint, and in the future +this will be a less "dirty" operation. This trick also requires the `jq` command +to be installed on your machine, for unpacking and editing the JSON response +from the endpoint. + +Do the following to generate the file: + +1. Pick a Node to reconfigure. We will refer to this Node's name as NODE_NAME. +2. Start the kubectl proxy in the background with `kubectl proxy --port=8001 &` +3. Run the following command to download and unpack the configuration from the +configz endpoint: + +``` +$ export NODE_NAME=the-name-of-the-node-you-are-reconfiguring +$ curl -sSL http://localhost:8001/api/v1/proxy/nodes/${NODE_NAME}/configz | jq '.kubeletconfig|.kind="KubeletConfiguration"|.apiVersion="kubeletconfig/v1alpha1"' > kubelet_configz_${NODE_NAME} +``` + +Note that we have to manually add the `kind` and `apiVersion` to the downloaded +object, as these are not reported by the configz endpoint. This is one of the +limitations of the endpoint that is planned to be fixed in the future. + +### Edit the configuration file + +Using your editor of choice, change one of the parameters in the +`kubelet_configz_${NODE_NAME}` file from the previous step. A QPS parameter, +`eventRecordQPS` for example, is a good candidate. + +### Push the configuration file to the control plane + +Push the edited configuration file to the control plane with the +following command: + +``` +$ kubectl -n kube-system create configmap my-node-config --from-file=kubelet=kubelet_configz_${NODE_NAME} --append-hash -o yaml +``` + +You should see a response similar to: + +``` +apiVersion: v1 +data: + kubelet: | + {...} +kind: ConfigMap +metadata: + creationTimestamp: 2017-09-14T20:23:33Z + name: my-node-config-gkt4c2m4b2 + namespace: kube-system + resourceVersion: "119980" + selfLink: /api/v1/namespaces/kube-system/configmaps/my-node-config-gkt4c2m4b2 + uid: 946d785e-998a-11e7-a8dd-42010a800006 +``` + +Note that the configuration data must appear under the ConfigMap's +`kubelet` key. + +We create the ConfigMap in the `kube-system` namespace, which is appropriate +because this ConfigMap configures a Kubernetes system component - the Kubelet. + +The `--append-hash` option appends a short checksum of the ConfigMap contents +to the name. This is convenient for an edit->push workflow, as it will +automatically, yet deterministically, generate new names for new ConfigMaps. + +We use the `-o yaml` output format so that the name, namespace, and uid are all +reported following creation. We will need these in the next step. We will refer +to the name as CONFIG_MAP_NAME and the uid as CONFIG_MAP_UID. + +### Authorize your Node to read the new ConfigMap + +Now that you've created a new ConfigMap, you need to authorize your node to +read it. First, create a Role for your new ConfigMap with the +following commands: + +``` +$ export CONFIG_MAP_NAME=name-from-previous-output +$ kubectl -n kube-system create role ${CONFIG_MAP_NAME}-reader --verb=get --resource=configmap --resource-name=${CONFIG_MAP_NAME} +``` + +Next, create a RoleBinding to associate your Node with the new Role: + +``` +$ kubectl -n kube-system create rolebinding ${CONFIG_MAP_NAME}-reader --role=${CONFIG_MAP_NAME}-reader --user=system:node:${NODE_NAME} +``` + +Once the Node Authorizer is updated to do this automatically, you will +be able to skip this step. + +### Set the Node to use the new configuration + +Edit the Node's reference to point to the new ConfigMap with the +following command: + +``` +kubectl edit node ${NODE_NAME} +``` + +Once in your editor, add the following YAML under `spec`: + +``` +configSource: + configMapRef: + name: CONFIG_MAP_NAME + namespace: kube-system + uid: CONFIG_MAP_UID +``` + +Be sure to specify all three of `name`, `namespace`, and `uid`. + +### Observe that the Node begins using the new configuration + +Retrieve the Node with `kubectl get node ${NODE_NAME} -o yaml`, and look for the +`ConfigOK` condition in `status.conditions`. You should see the message +`Using current (UID: CONFIG_MAP_UID)` when the Kubelet starts using the new +configuration. + +For convenience, you can use the following command (using `jq`) to filter down +to the `ConfigOK` condition: + +``` +$ kubectl get no ${NODE_NAME} -o json | jq '.status.conditions|map(select(.type=="ConfigOK"))' +[ + { + "lastHeartbeatTime": "2017-09-20T18:08:29Z", + "lastTransitionTime": "2017-09-20T18:08:17Z", + "message": "using current (UID: \"2ebc8d1a-9e2a-11e7-a8dd-42010a800006\")", + "reason": "passing all checks", + "status": "True", + "type": "ConfigOK" + } +] +``` + +If something goes wrong, you may see one of several different error conditions, +detailed in the Table of ConfigOK Conditions, below. When this happens, you +should check the Kubelet's log for more details. + +### Edit the configuration file again + +To change the configuration again, we simply repeat the above workflow. +Try editing the `kubelet` file, changing the previously changed parameter to a +new value. + +### Push the newly edited configuration to the control plane + +Push the new configuration to the control plane in a new ConfigMap with the +following command: + +``` +$ kubectl create configmap my-node-config --namespace=kube-system --from-file=kubelet=kubelet_configz_${NODE_NAME} --append-hash -o yaml +``` + +This new ConfigMap will get a new name, as we have changed the contents. +We will refer to the new name as NEW_CONFIG_MAP_NAME and the new uid +as NEW_CONFIG_MAP_UID. + +### Authorize your Node to read the new ConfigMap + +Now that you've created a new ConfigMap, you need to authorize your node to +read it. First, create a Role for your new ConfigMap with the +following commands: + +``` +$ export NEW_CONFIG_MAP_NAME=name-from-previous-output +$ kubectl -n kube-system create role ${NEW_CONFIG_MAP_NAME}-reader --verb=get --resource=configmap --resource-name=${NEW_CONFIG_MAP_NAME} +``` + +Next, create a RoleBinding to associate your Node with the new Role: + +``` +$ kubectl -n kube-system create rolebinding ${NEW_CONFIG_MAP_NAME}-reader --role=${NEW_CONFIG_MAP_NAME}-reader --user=system:node:${NODE_NAME} +``` + +Once the Node Authorizer is updated to do this automatically, you will +be able to skip this step. + +### Configure the Node to use the new configuration + +Once more, edit the Node's `spec.configSource` with +`kubectl edit node ${NODE_NAME}`. Your new `spec.configSource` should look like +the following, with `name` and `uid` substituted as necessary: + +``` +configSource: + configMapRef: + name: NEW_CONFIG_MAP_NAME + namespace: kube-system + uid: NEW_CONFIG_MAP_UID +``` + +### Observe that the Kubelet is using the new configuration + +Once more, retrieve the Node with `kubectl get node ${NODE_NAME} -o yaml`, and +look for the `ConfigOK` condition in `status.conditions`. You should the message +`Using current (UID: NEW_CONFIG_MAP_UID)` when the Kubelet starts using the +new configuration. + +### Deauthorize your Node fom reading the old ConfigMap + +Once you know your Node is using the new configuration and are confident that +the new configuration has not caused any problems, it is a good idea to +deauthorize the node from reading the old ConfigMap. Run the following +commands to remove the RoleBinding and Role: + +``` +$ kubectl -n kube-system delete rolebinding ${CONFIG_MAP_NAME}-reader +$ kubectl -n kube-system delete role ${CONFIG_MAP_NAME}-reader +``` + +You may optionally also choose to remove the old ConfigMap: + +``` +$ kubectl -n kube-system delete configmap ${CONFIG_MAP_NAME} +``` + +Once the Node Authorizer is updated to do this automatically, you will +be able to skip this step. + +### Reset the Node to use its local default configuration + +Finally, if you wish to reset the Node to use the configuration it was +provisioned with, simply edit the Node with `kubectl edit node ${NODE_NAME}` and +remove the `spec.configSource` subfield. + +### Observe that the Node is using its local default configuration + +After removing this subfield, you should eventually observe that the ConfigOK +condition's message reverts to either `using current (default)` or +`using current (init)`, depending on how the Node was provisioned. + +### Deauthorize your Node fom reading the old ConfigMap + +Once you know your Node is using the default configuraiton again, it is a good +idea to deauthorize the node from reading the old ConfigMap. Run the following +commands to remove the RoleBinding and Role: + +``` +$ kubectl -n kube-system delete rolebinding ${NEW_CONFIG_MAP_NAME}-reader +$ kubectl -n kube-system delete role ${NEW_CONFIG_MAP_NAME}-reader +``` + +You may optionally also choose to remove the old ConfigMap: + +``` +$ kubectl -n kube-system delete configmap ${NEW_CONFIG_MAP_NAME} +``` + +Once the Node Authorizer is updated to do this automatically, you will +be able to skip this step. + +{% endcapture %} + +{% capture discussion %} +## Understanding ConfigOK Conditions + +The following table describes several of the `ConfigOK` Node conditions you +might encounter in a cluster that has Dynamic Kubelet Config enabled. If you +observe a condition with `status=False`, you should check the Kubelet log for +more error details by searching for the message or reason text. + +
Possible Messages | +Possible Reasons | +Status | +
---|---|---|
using current (default) | +current is set to the local default, and no init config was provided | +True | +
using current (init) | +current is set to the local default, and an init config was provided | +True | +
using current (UID: CURRENT_CONFIG_MAP_UID) | +passing all checks | +True | +
using last-known-good (default) | +
+
|
+ False | +
using last-known-good (init) | +
+
|
+ False | +
using last-known-good (UID: LAST_KNOWN_GOOD_CONFIG_MAP_UID) | +
+
|
+ False | +
+ + The reasons in the next column could potentially appear for any of + the above messages. + ++ This condition indicates that the Kubelet is having trouble + reconciling `spec.configSource`, and thus no change to the in-use + configuration has occurred. + ++ The "failed to sync" reasons are specific to the failure that + occurred, and the next column does not necessarily contain all + possible failure reasons. + + |
+
+ failed to sync, reason:
+
|
+ False | +