#!/usr/bin/env bash
# Copyright 2018 The Kubernetes Authors.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
set -o errexit
set -o nounset
set -o pipefail
run_configmap_tests() {
set -o nounset
set -o errexit
create_and_use_new_namespace
kube::log::status "Testing configmaps"
kubectl create -f test/fixtures/doc-yaml/user-guide/configmap/configmap.yaml
kube::test::get_object_assert 'configmap/test-configmap' "{{${id_field:?}}}" 'test-configmap'
kubectl delete configmap test-configmap "${kube_flags[@]:?}"
### Create a new namespace
# Pre-condition: the test-configmaps namespace does not exist
kube::test::get_object_assert 'namespaces' "{{range.items}}{{ if eq $id_field \"test-configmaps\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create namespace test-configmaps
# Post-condition: namespace 'test-configmaps' is created.
kube::test::get_object_assert 'namespaces/test-configmaps' "{{$id_field}}" 'test-configmaps'
### Create a generic configmap in a specific namespace
# Pre-condition: configmap test-configmap and test-binary-configmap does not exist
kube::test::get_object_assert 'configmaps' "{{range.items}}{{ if eq $id_field \"test-configmap\" }}found{{end}}{{end}}:" ':'
kube::test::get_object_assert 'configmaps' "{{range.items}}{{ if eq $id_field \"test-binary-configmap\" }}found{{end}}{{end}}:" ':'
# Dry-run command
kubectl create configmap test-configmap --dry-run=client --from-literal=key1=value1 --namespace=test-configmaps
kubectl create configmap test-configmap --dry-run=server --from-literal=key1=value1 --namespace=test-configmaps
kube::test::get_object_assert 'configmaps' "{{range.items}}{{ if eq $id_field \"test-configmap\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create configmap test-configmap --from-literal=key1=value1 --namespace=test-configmaps
kubectl create configmap test-binary-configmap --from-file <( head -c 256 /dev/urandom ) --namespace=test-configmaps
# Post-condition: configmap exists and has expected values
kube::test::get_object_assert 'configmap/test-configmap --namespace=test-configmaps' "{{$id_field}}" 'test-configmap'
kube::test::get_object_assert 'configmap/test-binary-configmap --namespace=test-configmaps' "{{$id_field}}" 'test-binary-configmap'
grep -q "key1: value1" <<< "$(kubectl get configmap/test-configmap --namespace=test-configmaps -o yaml "${kube_flags[@]}")"
grep -q "binaryData" <<< "$(kubectl get configmap/test-binary-configmap --namespace=test-configmaps -o yaml "${kube_flags[@]}")"
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert configmaps events "--namespace=test-configmaps"
# Clean-up
kubectl delete configmap test-configmap --namespace=test-configmaps
kubectl delete configmap test-binary-configmap --namespace=test-configmaps
kubectl delete namespace test-configmaps
set +o nounset
set +o errexit
}
# Runs all pod related tests.
run_pod_tests() {
set -o nounset
set -o errexit
kube::log::status "Testing kubectl(v1:pods)"
### Create POD valid-pod from JSON
# Pre-condition: no POD exists
create_and_use_new_namespace
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create "${kube_flags[@]}" -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml
# Post-condition: valid-pod POD is created
kubectl get "${kube_flags[@]}" pods -o json
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
kube::test::get_object_assert 'pod valid-pod' "{{$id_field}}" 'valid-pod'
kube::test::get_object_assert 'pod/valid-pod' "{{$id_field}}" 'valid-pod'
kube::test::get_object_assert 'pods/valid-pod' "{{$id_field}}" 'valid-pod'
# pod has field manager for kubectl create
output_message=$(kubectl get --show-managed-fields -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-create'
# Repeat above test using jsonpath template
kube::test::get_object_jsonpath_assert pods "{.items[*]$id_field}" 'valid-pod'
kube::test::get_object_jsonpath_assert 'pod valid-pod' "{$id_field}" 'valid-pod'
kube::test::get_object_jsonpath_assert 'pod/valid-pod' "{$id_field}" 'valid-pod'
kube::test::get_object_jsonpath_assert 'pods/valid-pod' "{$id_field}" 'valid-pod'
# Describe command should print detailed information
kube::test::describe_object_assert pods 'valid-pod' "Name:" "Image:" "Node:" "Labels:" "Status:"
# Describe command should print events information by default
kube::test::describe_object_events_assert pods 'valid-pod'
# Describe command should not print events information when show-events=false
kube::test::describe_object_events_assert pods 'valid-pod' false
# Describe command should print events information when show-events=true
kube::test::describe_object_events_assert pods 'valid-pod' true
# Describe command (resource only) should print detailed information
kube::test::describe_resource_assert pods "Name:" "Image:" "Node:" "Labels:" "Status:"
# Describe command should print events information by default
kube::test::describe_resource_events_assert pods
# Describe command should not print events information when show-events=false
kube::test::describe_resource_events_assert pods false
# Describe command should print events information when show-events=true
kube::test::describe_resource_events_assert pods true
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert pods events
### Dump current valid-pod POD
output_pod=$(kubectl get pod valid-pod -o yaml "${kube_flags[@]}")
### Delete POD valid-pod by id
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
kubectl delete pod valid-pod "${kube_flags[@]}" --grace-period=0 --force
# Post-condition: valid-pod POD doesn't exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
### Delete POD valid-pod by id with --now
# Pre-condition: valid-pod POD exists
kubectl create "${kube_flags[@]}" -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
kubectl delete pod valid-pod "${kube_flags[@]}" --now
# Post-condition: valid-pod POD doesn't exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
### Delete POD valid-pod by id with --grace-period=0
# Pre-condition: valid-pod POD exists
kubectl create "${kube_flags[@]}" -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command succeeds without --force by waiting
kubectl delete pod valid-pod "${kube_flags[@]}" --grace-period=0
# Post-condition: valid-pod POD doesn't exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
### Create POD valid-pod from dumped YAML
# Pre-condition: no POD exists
create_and_use_new_namespace
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
echo "${output_pod}" | ${SED} '/namespace:/d' | kubectl create -f - "${kube_flags[@]}"
# Post-condition: valid-pod POD is created
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
### Delete POD valid-pod from JSON
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
kubectl delete -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml "${kube_flags[@]}" --grace-period=0 --force
# Post-condition: valid-pod POD doesn't exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
### Create POD valid-pod from JSON
# Pre-condition: no POD exists
create_and_use_new_namespace
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml "${kube_flags[@]}"
# Post-condition: valid-pod POD is created
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" "valid-pod:"
### Delete POD valid-pod with label
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert "pods -lname=valid-pod" "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
kubectl delete pods -lname=valid-pod "${kube_flags[@]}" --grace-period=0 --force
# Post-condition: valid-pod POD doesn't exist
kube::test::get_object_assert "pods -lname=valid-pod" "{{range.items}}{{$id_field}}:{{end}}" ''
### Create POD valid-pod from YAML
# Pre-condition: no POD exists
create_and_use_new_namespace
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml "${kube_flags[@]}"
# Post-condition: valid-pod POD is created
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
output_message=$(kubectl get pods --field-selector metadata.name=valid-pod "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" "valid-pod"
# Command
phase=$(kubectl get "${kube_flags[@]}" pod valid-pod -o go-template='{{ .status.phase }}')
output_message=$(kubectl get pods --field-selector status.phase="${phase}" "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" "valid-pod"
### Delete PODs with no parameter mustn't kill everything
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
! kubectl delete pods "${kube_flags[@]}" || exit 1
# Post-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
### Delete PODs with --all and a label selector is not permitted
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
! kubectl delete --all pods -lname=valid-pod "${kube_flags[@]}" || exit 1
# Post-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
### Delete all PODs
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
kubectl delete --all pods "${kube_flags[@]}" --grace-period=0 --force # --all remove all the pods
# Post-condition: no POD exists
kube::test::get_object_assert "pods -lname=valid-pod" "{{range.items}}{{$id_field}}:{{end}}" ''
# Detailed tests for describe pod output
### Create a new namespace
# Pre-condition: the test-secrets namespace does not exist
kube::test::get_object_assert 'namespaces' "{{range.items}}{{ if eq $id_field \"test-kubectl-describe-pod\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create namespace test-kubectl-describe-pod
# Post-condition: namespace 'test-secrets' is created.
kube::test::get_object_assert 'namespaces/test-kubectl-describe-pod' "{{$id_field}}" 'test-kubectl-describe-pod'
### Create a generic secret
# Pre-condition: no SECRET exists
kube::test::get_object_assert 'secrets --namespace=test-kubectl-describe-pod' "{{range.items}}{{$id_field}}:{{end}}" ''
# Dry-run command
kubectl create secret generic test-secret --dry-run=client --from-literal=key-1=value1 --type=test-type --namespace=test-kubectl-describe-pod
kubectl create secret generic test-secret --dry-run=server --from-literal=key-1=value1 --type=test-type --namespace=test-kubectl-describe-pod
kube::test::get_object_assert 'secrets --namespace=test-kubectl-describe-pod' "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create secret generic test-secret --from-literal=key-1=value1 --type=test-type --namespace=test-kubectl-describe-pod
# Post-condition: secret exists and has expected values
kube::test::get_object_assert 'secret/test-secret --namespace=test-kubectl-describe-pod' "{{$id_field}}" 'test-secret'
kube::test::get_object_assert 'secret/test-secret --namespace=test-kubectl-describe-pod' "{{${secret_type:?}}}" 'test-type'
### Create a generic configmap
# Pre-condition: CONFIGMAP test-configmap does not exist
#kube::test::get_object_assert 'configmap/test-configmap --namespace=test-kubectl-describe-pod' "{{$id_field}}" ''
kube::test::get_object_assert 'configmaps --namespace=test-kubectl-describe-pod' "{{range.items}}{{ if eq $id_field \"test-configmap\" }}found{{end}}{{end}}:" ':'
#kube::test::get_object_assert 'configmaps --namespace=test-kubectl-describe-pod' "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create configmap test-configmap --from-literal=key-2=value2 --namespace=test-kubectl-describe-pod
# Post-condition: configmap exists and has expected values
kube::test::get_object_assert 'configmap/test-configmap --namespace=test-kubectl-describe-pod' "{{$id_field}}" 'test-configmap'
### Create a pod disruption budget with minAvailable
# Pre-condition: pdb does not exist
kube::test::get_object_assert 'pdb --namespace=test-kubectl-describe-pod' "{{range.items}}{{ if eq $id_field \"test-pdb-1\" }}found{{end}}{{end}}:" ':'
# Dry-run command
kubectl create pdb test-pdb-1 --dry-run=client --selector=app=rails --min-available=2 --namespace=test-kubectl-describe-pod
kubectl create pdb test-pdb-1 --dry-run=server --selector=app=rails --min-available=2 --namespace=test-kubectl-describe-pod
kube::test::get_object_assert 'pdb --namespace=test-kubectl-describe-pod' "{{range.items}}{{ if eq $id_field \"test-pdb-1\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create pdb test-pdb-1 --selector=app=rails --min-available=2 --namespace=test-kubectl-describe-pod
# Post-condition: pdb exists and has expected values
kube::test::get_object_assert 'pdb/test-pdb-1 --namespace=test-kubectl-describe-pod' "{{${pdb_min_available:?}}}" '2'
# Command
kubectl create pdb test-pdb-2 --selector=app=rails --min-available=50% --namespace=test-kubectl-describe-pod
# Post-condition: pdb exists and has expected values
kube::test::get_object_assert 'pdb/test-pdb-2 --namespace=test-kubectl-describe-pod' "{{$pdb_min_available}}" '50%'
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert poddisruptionbudgets events "--namespace=test-kubectl-describe-pod"
### Create a pod disruption budget with maxUnavailable
# Command
kubectl create pdb test-pdb-3 --selector=app=rails --max-unavailable=2 --namespace=test-kubectl-describe-pod
# Post-condition: pdb exists and has expected values
kube::test::get_object_assert 'pdb/test-pdb-3 --namespace=test-kubectl-describe-pod' "{{${pdb_max_unavailable:?}}}" '2'
# Command
kubectl create pdb test-pdb-4 --selector=app=rails --max-unavailable=50% --namespace=test-kubectl-describe-pod
# Post-condition: pdb exists and has expected values
kube::test::get_object_assert 'pdb/test-pdb-4 --namespace=test-kubectl-describe-pod' "{{$pdb_max_unavailable}}" '50%'
### Fail creating a pod disruption budget if both maxUnavailable and minAvailable specified
! kubectl create pdb test-pdb --selector=app=rails --min-available=2 --max-unavailable=3 --namespace=test-kubectl-describe-pod || exit 1
# Create a pod that consumes secret, configmap, and downward API keys as envs
kube::test::get_object_assert 'pods --namespace=test-kubectl-describe-pod' "{{range.items}}{{$id_field}}:{{end}}" ''
kubectl create -f hack/testdata/pod-with-api-env.yaml --namespace=test-kubectl-describe-pod
kube::test::describe_object_assert 'pods --namespace=test-kubectl-describe-pod' 'env-test-pod' "TEST_CMD_1" "<set to the key 'key-1' in secret 'test-secret'>" "TEST_CMD_2" "<set to the key 'key-2' of config map 'test-configmap'>" "TEST_CMD_3" "env-test-pod (v1:metadata.name)"
# Describe command (resource only) should print detailed information about environment variables
kube::test::describe_resource_assert 'pods --namespace=test-kubectl-describe-pod' "TEST_CMD_1" "<set to the key 'key-1' in secret 'test-secret'>" "TEST_CMD_2" "<set to the key 'key-2' of config map 'test-configmap'>" "TEST_CMD_3" "env-test-pod (v1:metadata.name)"
# Clean-up
kubectl delete pod env-test-pod --namespace=test-kubectl-describe-pod
kubectl delete secret test-secret --namespace=test-kubectl-describe-pod
kubectl delete configmap test-configmap --namespace=test-kubectl-describe-pod
kubectl delete pdb/test-pdb-1 pdb/test-pdb-2 pdb/test-pdb-3 pdb/test-pdb-4 --namespace=test-kubectl-describe-pod
kubectl delete namespace test-kubectl-describe-pod
### Priority Class
kube::test::get_object_assert 'priorityclasses' "{{range.items}}{{ if eq $id_field \"test-priorityclass\" }}found{{end}}{{end}}:" ':'
# Dry-run command
kubectl create priorityclass test-priorityclass --dry-run=client
kubectl create priorityclass test-priorityclass --dry-run=server
kube::test::get_object_assert 'priorityclasses' "{{range.items}}{{ if eq $id_field \"test-priorityclass\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create priorityclass test-priorityclass
kube::test::get_object_assert 'priorityclasses' "{{range.items}}{{ if eq $id_field \"test-priorityclass\" }}found{{end}}{{end}}:" 'found:'
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert priorityclasses events
kubectl delete priorityclass test-priorityclass
### Create two PODs
# Pre-condition: no POD exists
create_and_use_new_namespace
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml "${kube_flags[@]}"
kubectl create -f test/e2e/testing-manifests/kubectl/agnhost-primary-pod.yaml "${kube_flags[@]}"
# Post-condition: valid-pod and agnhost-primary PODs are created
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'agnhost-primary:valid-pod:'
### Delete multiple PODs at once
# Pre-condition: valid-pod and agnhost-primary PODs exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'agnhost-primary:valid-pod:'
# Command
kubectl delete pods valid-pod agnhost-primary "${kube_flags[@]}" --grace-period=0 --force # delete multiple pods at once
# Post-condition: no POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
### Create valid-pod POD
# Pre-condition: no POD exists
create_and_use_new_namespace
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml "${kube_flags[@]}"
# Post-condition: valid-pod POD is created
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
### Dry-run label the valid-pod POD
# Pre-condition: valid-pod is not labelled
kube::test::get_object_assert 'pod valid-pod' "{{range${labels_field:?}}}{{.}}:{{end}}" 'valid-pod:'
# Command
kubectl label pods valid-pod new-name=new-valid-pod --dry-run=client "${kube_flags[@]}"
kubectl label pods valid-pod new-name=new-valid-pod --dry-run=server "${kube_flags[@]}"
# Post-condition: valid-pod is not labelled
kube::test::get_object_assert 'pod valid-pod' "{{range${labels_field:?}}}{{.}}:{{end}}" 'valid-pod:'
### Label the valid-pod POD
# Pre-condition: valid-pod is not labelled
kube::test::get_object_assert 'pod valid-pod' "{{range${labels_field:?}}}{{.}}:{{end}}" 'valid-pod:'
# Command
kubectl label pods valid-pod new-name=new-valid-pod "${kube_flags[@]}"
# Post-condition: valid-pod is labelled
kube::test::get_object_assert 'pod valid-pod' "{{range$labels_field}}{{.}}:{{end}}" 'valid-pod:new-valid-pod:'
### Label the valid-pod POD with empty label value
# Pre-condition: valid-pod does not have label "emptylabel"
kube::test::get_object_assert 'pod valid-pod' "{{range$labels_field}}{{.}}:{{end}}" 'valid-pod:new-valid-pod:'
# Command
kubectl label pods valid-pod emptylabel="" "${kube_flags[@]}"
# Post-condition: valid pod contains "emptylabel" with no value
kube::test::get_object_assert 'pod valid-pod' "{{${labels_field}.emptylabel}}" ''
### Dry-run annotate the valid-pod POD with empty annotation value
# Pre-condition: valid-pod does not have annotation "emptyannotation"
kube::test::get_object_assert 'pod valid-pod' "{{${annotations_field:?}.emptyannotation}}" '<no value>'
# Command
kubectl annotate pods valid-pod emptyannotation="" --dry-run=client "${kube_flags[@]}"
kubectl annotate pods valid-pod emptyannotation="" --dry-run=server "${kube_flags[@]}"
# Post-condition: valid-pod does not have annotation "emptyannotation"
kube::test::get_object_assert 'pod valid-pod' "{{${annotations_field:?}.emptyannotation}}" '<no value>'
### Annotate the valid-pod POD with empty annotation value
# Pre-condition: valid-pod does not have annotation "emptyannotation"
kube::test::get_object_assert 'pod valid-pod' "{{${annotations_field:?}.emptyannotation}}" '<no value>'
# Command
kubectl annotate pods valid-pod emptyannotation="" "${kube_flags[@]}"
# Post-condition: valid pod contains "emptyannotation" with no value
kube::test::get_object_assert 'pod valid-pod' "{{${annotations_field}.emptyannotation}}" ''
# pod has field for kubectl annotate field manager
output_message=$(kubectl get pod valid-pod -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-annotate'
### Record label change
# Pre-condition: valid-pod does not have record annotation
kube::test::get_object_assert 'pod valid-pod' "{{range.items}}{{$annotations_field}}:{{end}}" ''
# Command
kubectl label pods valid-pod record-change=true --record=true "${kube_flags[@]}"
# Post-condition: valid-pod has record annotation
kube::test::get_object_assert 'pod valid-pod' "{{range$annotations_field}}{{.}}:{{end}}" ".*--record=true.*"
# pod has field for kubectl label field manager
output_message=$(kubectl get pod valid-pod -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-label'
### Do not record label change
# Command
kubectl label pods valid-pod no-record-change=true --record=false "${kube_flags[@]}"
# Post-condition: valid-pod's record annotation still contains command with --record=true
kube::test::get_object_assert 'pod valid-pod' "{{range$annotations_field}}{{.}}:{{end}}" ".*--record=true.*"
### Record label change with specified flag and previous change already recorded
### we are no longer tricked by data from another user into revealing more information about our client
# Command
kubectl label pods valid-pod new-record-change=true --record=true "${kube_flags[@]}"
# Post-condition: valid-pod's record annotation contains new change
kube::test::get_object_assert 'pod valid-pod' "{{range$annotations_field}}{{.}}:{{end}}" ".*new-record-change=true.*"
### Delete POD by label
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
kubectl delete pods -lnew-name=new-valid-pod --grace-period=0 --force "${kube_flags[@]}"
# Post-condition: valid-pod POD doesn't exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
### Create pod-with-precision POD
# Pre-condition: no POD is running
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f hack/testdata/pod-with-precision.json "${kube_flags[@]}"
# Post-condition: valid-pod POD is running
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'pod-with-precision:'
## Patch preserves precision
# Command
kubectl patch "${kube_flags[@]}" pod pod-with-precision -p='{"metadata":{"annotations":{"patchkey": "patchvalue"}}}'
# Post-condition: pod-with-precision POD has patched annotation
kube::test::get_object_assert 'pod pod-with-precision' "{{${annotations_field}.patchkey}}" 'patchvalue'
# Command
kubectl label pods pod-with-precision labelkey=labelvalue "${kube_flags[@]}"
# Post-condition: pod-with-precision POD has label
kube::test::get_object_assert 'pod pod-with-precision' "{{${labels_field}.labelkey}}" 'labelvalue'
# Command
kubectl annotate pods pod-with-precision annotatekey=annotatevalue "${kube_flags[@]}"
# Post-condition: pod-with-precision POD has annotation
kube::test::get_object_assert 'pod pod-with-precision' "{{${annotations_field}.annotatekey}}" 'annotatevalue'
# Cleanup
kubectl delete pod pod-with-precision "${kube_flags[@]}"
### Annotate POD YAML file locally without effecting the live pod.
kubectl create -f hack/testdata/pod.yaml "${kube_flags[@]}"
# Command
kubectl annotate -f hack/testdata/pod.yaml annotatekey=annotatevalue "${kube_flags[@]}"
# Pre-condition: annotationkey is annotationvalue
kube::test::get_object_assert 'pod test-pod' "{{${annotations_field}.annotatekey}}" 'annotatevalue'
# Command
output_message=$(kubectl annotate --local -f hack/testdata/pod.yaml annotatekey=localvalue -o yaml "${kube_flags[@]}")
echo "$output_message"
# Post-condition: annotationkey is still annotationvalue in the live pod, but command output is the new value
kube::test::get_object_assert 'pod test-pod' "{{${annotations_field}.annotatekey}}" 'annotatevalue'
kube::test::if_has_string "${output_message}" "localvalue"
# Cleanup
kubectl delete -f hack/testdata/pod.yaml "${kube_flags[@]}"
### Create valid-pod POD
# Pre-condition: no services and no rcs exist
kube::test::get_object_assert service "{{range.items}}{{$id_field}}:{{end}}" ''
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" ''
## kubectl create --edit can update the label filed of multiple resources. tmp-editor.sh is a fake editor
TEMP=$(mktemp /tmp/tmp-editor-XXXXXXXX.sh)
echo -e "#!/usr/bin/env bash\n${SED} -i \"s/mock/modified/g\" \$1" > "${TEMP}"
chmod +x "${TEMP}"
# Command
EDITOR=${TEMP} kubectl create --edit -f hack/testdata/multi-resource-json.json "${kube_flags[@]}"
# Post-condition: service named modified and rc named modified are created
kube::test::get_object_assert service "{{range.items}}{{$id_field}}:{{end}}" 'modified:'
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" 'modified:'
# resources have field manager for kubectl create
output_message=$(kubectl get service/modified -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-create'
output_message=$(kubectl get rc/modified -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-create'
# Clean up
kubectl delete service/modified "${kube_flags[@]}"
kubectl delete rc/modified "${kube_flags[@]}"
# Pre-condition: no services and no rcs exist
kube::test::get_object_assert service "{{range.items}}{{$id_field}}:{{end}}" ''
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
EDITOR=${TEMP} kubectl create --edit -f hack/testdata/multi-resource-list.json "${kube_flags[@]}"
# Post-condition: service named modified and rc named modified are created
kube::test::get_object_assert service "{{range.items}}{{$id_field}}:{{end}}" 'modified:'
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" 'modified:'
# Clean up
rm "${TEMP}"
kubectl delete service/modified "${kube_flags[@]}"
kubectl delete rc/modified "${kube_flags[@]}"
## kubectl create --edit won't create anything if user makes no changes
grep -q 'Edit cancelled' <<< "$(EDITOR="cat" kubectl create --edit -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml -o json 2>&1)"
## Create valid-pod POD
# Pre-condition: no POD exists
kube::test::wait_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml "${kube_flags[@]}"
# Post-condition: valid-pod POD is created
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
## Patch can modify a local object
kubectl patch --local -f test/fixtures/pkg/kubectl/cmd/patch/validPod.yaml --patch='{"spec": {"restartPolicy":"Never"}}' -o yaml | grep -q "Never"
## Patch fails with type restore error and exit code 1
output_message=$(! kubectl patch "${kube_flags[@]}" pod valid-pod -p='{"metadata":{"labels":"invalid"}}' 2>&1)
kube::test::if_has_string "${output_message}" 'cannot restore map from string'
## Patch exits with error message "patched (no change)" and exit code 0 when no-op occurs
output_message=$(kubectl patch "${kube_flags[@]}" pod valid-pod -p='{"metadata":{"labels":{"name":"valid-pod"}}}' 2>&1)
kube::test::if_has_string "${output_message}" 'patched (no change)'
## Patch pod can change image
# Command
kubectl patch "${kube_flags[@]}" pod valid-pod --record -p='{"spec":{"containers":[{"name": "kubernetes-serve-hostname", "image": "nginx"}]}}'
# Post-condition: valid-pod POD has image nginx
kube::test::get_object_assert pods "{{range.items}}{{${image_field:?}}}:{{end}}" 'nginx:'
# Post-condition: valid-pod has the record annotation
kube::test::get_object_assert pods "{{range.items}}{{$annotations_field}}:{{end}}" "${change_cause_annotation:?}"
# prove that patch can use different types
kubectl patch "${kube_flags[@]}" pod valid-pod --type="json" -p='[{"op": "replace", "path": "/spec/containers/0/image", "value":"nginx2"}]'
# Post-condition: valid-pod POD has image nginx
kube::test::get_object_assert pods "{{range.items}}{{$image_field}}:{{end}}" 'nginx2:'
# prove that patch can use different types
kubectl patch "${kube_flags[@]}" pod valid-pod --type="json" -p='[{"op": "replace", "path": "/spec/containers/0/image", "value":"nginx"}]'
# Post-condition: valid-pod POD has image nginx
kube::test::get_object_assert pods "{{range.items}}{{$image_field}}:{{end}}" 'nginx:'
# Dry-run change image
kubectl patch "${kube_flags[@]}" pod valid-pod --record --dry-run=client -p='{"spec":{"containers":[{"name": "kubernetes-serve-hostname", "image": "not-nginx"}]}}'
kubectl patch "${kube_flags[@]}" pod valid-pod --record --dry-run=server -p='{"spec":{"containers":[{"name": "kubernetes-serve-hostname", "image": "not-nginx"}]}}'
# Post-condition: valid-pod POD has image nginx
kube::test::get_object_assert pods "{{range.items}}{{$image_field}}:{{end}}" 'nginx:'
# prove that yaml input works too
YAML_PATCH=$'spec:\n containers:\n - name: kubernetes-serve-hostname\n image: changed-with-yaml\n'
kubectl patch "${kube_flags[@]}" pod valid-pod -p="${YAML_PATCH}"
# Post-condition: valid-pod POD has image nginx
kube::test::get_object_assert pods "{{range.items}}{{$image_field}}:{{end}}" 'changed-with-yaml:'
## Patch pod from JSON can change image
# Command
kubectl patch "${kube_flags[@]}" -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml -p='{"spec":{"containers":[{"name": "kubernetes-serve-hostname", "image": "registry.k8s.io/pause:3.10"}]}}'
# Post-condition: valid-pod POD has expected image
kube::test::get_object_assert pods "{{range.items}}{{$image_field}}:{{end}}" 'registry.k8s.io/pause:3.10:'
# pod has field for kubectl patch field manager
output_message=$(kubectl get pod valid-pod -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-patch'
## If resourceVersion is specified in the patch, it will be treated as a precondition, i.e., if the resourceVersion is different from that is stored in the server, the Patch should be rejected
ERROR_FILE="${KUBE_TEMP}/conflict-error"
## If the resourceVersion is the same as the one stored in the server, the patch will be applied.
# Command
# Needs to retry because other party may change the resource.
for count in {0..3}; do
resourceVersion=$(kubectl get "${kube_flags[@]}" pod valid-pod -o go-template='{{ .metadata.resourceVersion }}')
kubectl patch "${kube_flags[@]}" pod valid-pod -p='{"spec":{"containers":[{"name": "kubernetes-serve-hostname", "image": "nginx"}]},"metadata":{"resourceVersion":"'"${resourceVersion}"'"}}' 2> "${ERROR_FILE}" || true
if grep -q "the object has been modified" "${ERROR_FILE}"; then
kube::log::status "retry $1, error: $(cat "${ERROR_FILE}")"
rm "${ERROR_FILE}"
sleep $((2**count))
else
rm "${ERROR_FILE}"
kube::test::get_object_assert pods "{{range.items}}{{$image_field}}:{{end}}" 'nginx:'
break
fi
done
## If the resourceVersion is the different from the one stored in the server, the patch will be rejected.
resourceVersion=$(kubectl get "${kube_flags[@]}" pod valid-pod -o go-template='{{ .metadata.resourceVersion }}')
((resourceVersion+=100))
# Command
kubectl patch "${kube_flags[@]}" pod valid-pod -p='{"spec":{"containers":[{"name": "kubernetes-serve-hostname", "image": "nginx"}]},"metadata":{"resourceVersion":"'"$resourceVersion"'"}}' 2> "${ERROR_FILE}" || true
# Post-condition: should get an error reporting the conflict
if grep -q "please apply your changes to the latest version and try again" "${ERROR_FILE}"; then
kube::log::status "\"kubectl patch with resourceVersion $resourceVersion\" returns error as expected: $(cat "${ERROR_FILE}")"
else
kube::log::status "\"kubectl patch with resourceVersion $resourceVersion\" returns unexpected error or non-error: $(cat "${ERROR_FILE}")"
exit 1
fi
rm "${ERROR_FILE}"
## --force replace pod can change other field, e.g., spec.container.name
# Command
kubectl get "${kube_flags[@]}" pod valid-pod -o json | ${SED} 's/"kubernetes-serve-hostname"/"replaced-k8s-serve-hostname"/g' > /tmp/tmp-valid-pod.json
kubectl replace "${kube_flags[@]}" --force -f /tmp/tmp-valid-pod.json
# Post-condition: spec.container.name = "replaced-k8s-serve-hostname"
kube::test::get_object_assert 'pod valid-pod' "{{(index .spec.containers 0).name}}" 'replaced-k8s-serve-hostname'
# Pod has field manager for kubectl replace
output_message=$(kubectl get pod valid-pod -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-replace'
## check replace --grace-period requires --force
output_message=$(! kubectl replace "${kube_flags[@]}" --grace-period=1 -f /tmp/tmp-valid-pod.json 2>&1)
kube::test::if_has_string "${output_message}" '\-\-grace-period must have \-\-force specified'
## check replace --timeout requires --force
output_message=$(! kubectl replace "${kube_flags[@]}" --timeout=1s -f /tmp/tmp-valid-pod.json 2>&1)
kube::test::if_has_string "${output_message}" '\-\-timeout must have \-\-force specified'
#cleaning
rm /tmp/tmp-valid-pod.json
## replace of a cluster scoped resource can succeed
# Pre-condition: a node exists
kubectl create -f - "${kube_flags[@]}" << __EOF__
{
"kind": "Node",
"apiVersion": "v1",
"metadata": {
"name": "node-v1-test"
}
}
__EOF__
kube::test::get_object_assert "node node-v1-test" "{{range.items}}{{if .metadata.annotations.a}}found{{end}}{{end}}:" ':'
# Dry-run command
kubectl replace --dry-run=server -f - "${kube_flags[@]}" << __EOF__
{
"kind": "Node",
"apiVersion": "v1",
"metadata": {
"name": "node-v1-test",
"annotations": {"a":"b"},
"resourceVersion": "0"
}
}
__EOF__
kubectl replace --dry-run=client -f - "${kube_flags[@]}" << __EOF__
{
"kind": "Node",
"apiVersion": "v1",
"metadata": {
"name": "node-v1-test",
"annotations": {"a":"b"},
"resourceVersion": "0"
}
}
__EOF__
kube::test::get_object_assert "node node-v1-test" "{{range.items}}{{if .metadata.annotations.a}}found{{end}}{{end}}:" ':'
# Command
kubectl replace -f - "${kube_flags[@]}" << __EOF__
{
"kind": "Node",
"apiVersion": "v1",
"metadata": {
"name": "node-v1-test",
"annotations": {"a":"b"},
"resourceVersion": "0"
}
}
__EOF__
# Post-condition: the node command succeeds
kube::test::get_object_assert "node node-v1-test" "{{.metadata.annotations.a}}" 'b'
kubectl delete node node-v1-test "${kube_flags[@]}"
## kubectl edit can update the image field of a POD. tmp-editor.sh is a fake editor
echo -e "#!/usr/bin/env bash\n${SED} -i \"s/nginx/registry.k8s.io\/serve_hostname/g\" \$1" > /tmp/tmp-editor.sh
chmod +x /tmp/tmp-editor.sh
# Pre-condition: valid-pod POD has image nginx
kube::test::get_object_assert pods "{{range.items}}{{$image_field}}:{{end}}" 'nginx:'
grep -q 'Patch:' <<< "$(EDITOR=/tmp/tmp-editor.sh kubectl edit "${kube_flags[@]}" pods/valid-pod --output-patch=true)"
# Post-condition: valid-pod POD has image registry.k8s.io/serve_hostname
kube::test::get_object_assert pods "{{range.items}}{{$image_field}}:{{end}}" 'registry.k8s.io/serve_hostname:'
# pod has field for kubectl edit field manager
output_message=$(kubectl get pod valid-pod -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-edit'
# cleaning
rm /tmp/tmp-editor.sh
## kubectl edit should work on Windows
grep -q 'Edit cancelled' <<< "$(EDITOR="cat" kubectl edit pod/valid-pod 2>&1)"
grep -q 'name: valid-pod' <<< "$(EDITOR="cat" kubectl edit pod/valid-pod)"
grep -q CRLF <<< "$(EDITOR="cat" kubectl edit --windows-line-endings pod/valid-pod | file - )"
! grep -q CRLF <<< "$(EDITOR="cat" kubectl edit --windows-line-endings=false pod/valid-pod | file - )" || exit 1
grep -q 'kind: List' <<< "$(EDITOR="cat" kubectl edit ns)"
### Label POD YAML file locally without effecting the live pod.
# Pre-condition: name is valid-pod
kube::test::get_object_assert 'pod valid-pod' "{{${labels_field}.name}}" 'valid-pod'
# Command
output_message=$(kubectl label --local --overwrite -f hack/testdata/pod.yaml name=localonlyvalue -o yaml "${kube_flags[@]}")
echo "$output_message"
# Post-condition: name is still valid-pod in the live pod, but command output is the new value
kube::test::get_object_assert 'pod valid-pod' "{{${labels_field}.name}}" 'valid-pod'
kube::test::if_has_string "${output_message}" "localonlyvalue"
### Overwriting an existing label is not permitted
# Pre-condition: name is valid-pod
kube::test::get_object_assert 'pod valid-pod' "{{${labels_field}.name}}" 'valid-pod'
# Command
! kubectl label pods valid-pod name=valid-pod-super-sayan "${kube_flags[@]}" || exit 1
# Post-condition: name is still valid-pod
kube::test::get_object_assert 'pod valid-pod' "{{${labels_field}.name}}" 'valid-pod'
### --overwrite must be used to overwrite existing label, can be applied to all resources
# Pre-condition: name is valid-pod
kube::test::get_object_assert 'pod valid-pod' "{{${labels_field}.name}}" 'valid-pod'
# Command
kubectl label --overwrite pods --all name=valid-pod-super-sayan "${kube_flags[@]}"
# Post-condition: name is valid-pod-super-sayan
kube::test::get_object_assert 'pod valid-pod' "{{${labels_field}.name}}" 'valid-pod-super-sayan'
### Delete POD by label
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
kubectl delete pods -lname=valid-pod-super-sayan --grace-period=0 --force "${kube_flags[@]}"
# Post-condition: valid-pod POD doesn't exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
### Create two PODs from 1 yaml file
# Pre-condition: no POD exists
create_and_use_new_namespace
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f test/fixtures/doc-yaml/user-guide/multi-pod.yaml "${kube_flags[@]}"
# Post-condition: redis-master and valid-pod PODs exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'redis-master:valid-pod:'
### Delete two PODs from 1 yaml file
# Pre-condition: redis-master and valid-pod PODs exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'redis-master:valid-pod:'
# Command
kubectl delete -f test/fixtures/doc-yaml/user-guide/multi-pod.yaml "${kube_flags[@]}"
# Post-condition: no PODs exist
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
## kubectl apply should update configuration annotations only if apply is already called
## 1. kubectl create doesn't set the annotation
# Pre-Condition: no POD exists
create_and_use_new_namespace
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Command: create a pod "test-pod"
kubectl create -f hack/testdata/pod.yaml "${kube_flags[@]}"
# Post-Condition: pod "test-pod" is created
kube::test::get_object_assert 'pods test-pod' "{{${labels_field}.name}}" 'test-pod-label'
# Post-Condition: pod "test-pod" doesn't have configuration annotation
! grep -q kubectl.kubernetes.io/last-applied-configuration <<< "$(kubectl get pods test-pod -o yaml "${kube_flags[@]}" )" || exit 1
## 2. kubectl replace doesn't set the annotation
kubectl get pods test-pod -o yaml "${kube_flags[@]}" | ${SED} 's/test-pod-label/test-pod-replaced/g' > "${KUBE_TEMP}"/test-pod-replace.yaml
# Command: replace the pod "test-pod"
kubectl replace -f "${KUBE_TEMP}"/test-pod-replace.yaml "${kube_flags[@]}"
# Post-Condition: pod "test-pod" is replaced
kube::test::get_object_assert 'pods test-pod' "{{${labels_field}.name}}" 'test-pod-replaced'
# Post-Condition: pod "test-pod" doesn't have configuration annotation
! grep -q kubectl.kubernetes.io/last-applied-configuration <<< "$(kubectl get pods test-pod -o yaml "${kube_flags[@]}")" || exit 1
## 3. kubectl apply does set the annotation
# Command: apply the pod "test-pod"
kubectl apply -f hack/testdata/pod-apply.yaml "${kube_flags[@]}"
# Post-Condition: pod "test-pod" is applied
kube::test::get_object_assert 'pods test-pod' "{{${labels_field}.name}}" 'test-pod-applied'
# Post-Condition: pod "test-pod" has configuration annotation
grep -q kubectl.kubernetes.io/last-applied-configuration <<< "$(kubectl get pods test-pod -o yaml "${kube_flags[@]}")"
kubectl get pods test-pod -o yaml "${kube_flags[@]}" | grep kubectl.kubernetes.io/last-applied-configuration > "${KUBE_TEMP}"/annotation-configuration
## 4. kubectl replace updates an existing annotation
kubectl get pods test-pod -o yaml "${kube_flags[@]}" | ${SED} 's/test-pod-applied/test-pod-replaced/g' > "${KUBE_TEMP}"/test-pod-replace.yaml
# Command: replace the pod "test-pod"
kubectl replace -f "${KUBE_TEMP}"/test-pod-replace.yaml "${kube_flags[@]}"
# Post-Condition: pod "test-pod" is replaced
kube::test::get_object_assert 'pods test-pod' "{{${labels_field}.name}}" 'test-pod-replaced'
# Post-Condition: pod "test-pod" has configuration annotation, and it's updated (different from the annotation when it's applied)
grep -q kubectl.kubernetes.io/last-applied-configuration <<< "$(kubectl get pods test-pod -o yaml "${kube_flags[@]}" )"
kubectl get pods test-pod -o yaml "${kube_flags[@]}" | grep kubectl.kubernetes.io/last-applied-configuration > "${KUBE_TEMP}"/annotation-configuration-replaced
! [[ $(diff -q "${KUBE_TEMP}"/annotation-configuration "${KUBE_TEMP}"/annotation-configuration-replaced > /dev/null) ]] || exit 1
# Clean up
rm "${KUBE_TEMP}"/test-pod-replace.yaml "${KUBE_TEMP}"/annotation-configuration "${KUBE_TEMP}"/annotation-configuration-replaced
kubectl delete pods test-pod "${kube_flags[@]}"
set +o nounset
set +o errexit
}
# runs specific kubectl create tests
run_create_secret_tests() {
set -o nounset
set -o errexit
### Create generic secret with explicit namespace
# Pre-condition: secret 'mysecret' does not exist
output_message=$(! kubectl get secrets mysecret 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" 'secrets "mysecret" not found'
# Command
output_message=$(kubectl create "${kube_flags[@]}" secret generic mysecret --dry-run=client --from-literal=foo=bar -o jsonpath='{.metadata.namespace}' --namespace=user-specified)
kube::test::if_has_string "${output_message}" 'user-specified'
# Post-condition: mysecret still not created since --dry-run was used
# Output from 'create' command should contain the specified --namespace value
failure_message=$(! kubectl get secrets mysecret 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${failure_message}" 'secrets "mysecret" not found'
# Command
output_message=$(kubectl create "${kube_flags[@]}" secret generic mysecret --dry-run=client --from-literal=foo=bar -o jsonpath='{.metadata.namespace}')
# Post-condition: jsonpath for .metadata.namespace should be empty for object since --namespace was not explicitly specified
kube::test::if_empty_string "${output_message}"
# check to make sure that replace correctly PUTs to a URL
kubectl create configmap tester-update-cm -o json --dry-run=client | kubectl create "${kube_flags[@]}" --raw /api/v1/namespaces/default/configmaps -f -
output_message=$(kubectl create configmap tester-update-cm --from-literal=key1=config1 -o json --dry-run=client | kubectl replace "${kube_flags[@]}" --raw /api/v1/namespaces/default/configmaps/tester-update-cm -f -)
# the message should show the body returned which will include a UID not present in the input
kube::test::if_has_string "${output_message}" 'uid'
# if the PUT was well-formed, the server will now have a key and value we can retrieve on GET
output_message=$(kubectl get "${kube_flags[@]}" --raw /api/v1/namespaces/default/configmaps/tester-update-cm 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" 'config1'
# if DELETE raw works correctly, this will delete the configmap
kubectl delete "${kube_flags[@]}" --raw /api/v1/namespaces/default/configmaps/tester-update-cm
output_message=$(! kubectl get "${kube_flags[@]}" configmap tester-update-cm 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" 'configmaps "tester-update-cm" not found'
set +o nounset
set +o errexit
}
run_secrets_test() {
set -o nounset
set -o errexit
create_and_use_new_namespace
kube::log::status "Testing secrets"
# Ensure dry run succeeds and includes kind, apiVersion and data, and doesn't require a server connection
output_message=$(kubectl create secret generic test --from-literal=key1=value1 --dry-run=client -o yaml --server=example.com --v=6)
kube::test::if_has_string "${output_message}" 'kind: Secret'
kube::test::if_has_string "${output_message}" 'apiVersion: v1'
kube::test::if_has_string "${output_message}" 'key1: dmFsdWUx'
kube::test::if_has_not_string "${output_message}" 'example.com'
### Create a new namespace
# Pre-condition: the test-secrets namespace does not exist
kube::test::get_object_assert 'namespaces' "{{range.items}}{{ if eq $id_field \"test-secrets\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create namespace test-secrets
# Post-condition: namespace 'test-secrets' is created.
kube::test::get_object_assert 'namespaces/test-secrets' "{{$id_field}}" 'test-secrets'
### Create a generic secret in a specific namespace
# Pre-condition: no SECRET exists
kube::test::get_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create secret generic test-secret --from-literal=key1=value1 --type=test-type --namespace=test-secrets
# Post-condition: secret exists and has expected values
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$id_field}}" 'test-secret'
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$secret_type}}" 'test-type'
grep -q 'key1: dmFsdWUx' <<< "$(kubectl get secret/test-secret --namespace=test-secrets -o yaml "${kube_flags[@]}")"
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert secrets "" "--namespace=test-secrets"
# Clean-up
kubectl delete secret test-secret --namespace=test-secrets
### Create a docker-registry secret in a specific namespace
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
fi
# Pre-condition: no SECRET exists
kube::test::get_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create secret docker-registry test-secret --docker-username=test-user --docker-password=test-password --docker-email='[email protected]' --namespace=test-secrets
# Post-condition: secret exists and has expected values
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$id_field}}" 'test-secret'
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$secret_type}}" 'kubernetes.io/dockerconfigjson'
grep -q '.dockerconfigjson: eyJhdXRocyI6eyJodHRwczovL2luZGV4LmRvY2tlci5pby92MS8iOnsidXNlcm5hbWUiOiJ0ZXN0LXVzZXIiLCJwYXNzd29yZCI6InRlc3QtcGFzc3dvcmQiLCJlbWFpbCI6InRlc3QtdXNlckB0ZXN0LmNvbSIsImF1dGgiOiJkR1Z6ZEMxMWMyVnlPblJsYzNRdGNHRnpjM2R2Y21RPSJ9fX0=' <<< "$(kubectl get secret/test-secret --namespace=test-secrets -o yaml "${kube_flags[@]}")"
# Clean-up
kubectl delete secret test-secret --namespace=test-secrets
### Create a docker-registry secret in a specific namespace with docker config file
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
fi
# Pre-condition: no SECRET exists
kube::test::get_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create secret docker-registry test-secret --from-file=.dockerconfigjson=hack/testdata/dockerconfig.json --namespace=test-secrets
# Post-condition: secret exists and has expected values
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$id_field}}" 'test-secret'
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$secret_type}}" 'kubernetes.io/dockerconfigjson'
grep -q '.dockerconfigjson: ewogICAgImF1dGhzIjp7CiAgICAgICAgImh0dHA6Ly9mb28uZXhhbXBsZS5jb20iOnsKICAgICAgICAgICAgInVzZXJuYW1lIjoiZm9vIiwKICAgICAgICAgICAgInBhc3N3b3JkIjoiYmFyIiwKICAgICAgICAgICAgImVtYWlsIjoiZm9vQGV4YW1wbGUuY29tIgogICAgICAgIH0sCiAgICAgICAgImh0dHA6Ly9iYXIuZXhhbXBsZS5jb20iOnsKICAgICAgICAgICAgInVzZXJuYW1lIjoiYmFyIiwKICAgICAgICAgICAgInBhc3N3b3JkIjoiYmF6IiwKICAgICAgICAgICAgImVtYWlsIjoiYmFyQGV4YW1wbGUuY29tIgogICAgICAgIH0KICAgIH0KfQo=' <<< "$(kubectl get secret/test-secret --namespace=test-secrets -o yaml "${kube_flags[@]}")"
# Clean-up
kubectl delete secret test-secret --namespace=test-secrets
### Create a tls secret
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
fi
# Pre-condition: no SECRET exists
kube::test::get_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create secret tls test-secret --namespace=test-secrets --key=hack/testdata/tls.key --cert=hack/testdata/tls.crt
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$id_field}}" 'test-secret'
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$secret_type}}" 'kubernetes.io/tls'
# Clean-up
kubectl delete secret test-secret --namespace=test-secrets
# Command with process substitution
kubectl create secret tls test-secret --namespace=test-secrets --key <(cat hack/testdata/tls.key) --cert <(cat hack/testdata/tls.crt)
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$id_field}}" 'test-secret'
kube::test::get_object_assert 'secret/test-secret --namespace=test-secrets' "{{$secret_type}}" 'kubernetes.io/tls'
# Clean-up
kubectl delete secret test-secret --namespace=test-secrets
# Create a secret using stringData
kubectl create --namespace=test-secrets -f - "${kube_flags[@]}" << __EOF__
{
"kind": "Secret",
"apiVersion": "v1",
"metadata": {
"name": "secret-string-data"
},
"data": {
"k1":"djE=",
"k2":""
},
"stringData": {
"k2":"v2"
}
}
__EOF__
# Post-condition: secret-string-data secret is created with expected data, merged/overridden data from stringData, and a cleared stringData field
kube::test::get_object_assert 'secret/secret-string-data --namespace=test-secrets ' '{{.data}}' '.*k1:djE=.*'
kube::test::get_object_assert 'secret/secret-string-data --namespace=test-secrets ' '{{.data}}' '.*k2:djI=.*'
kube::test::get_object_assert 'secret/secret-string-data --namespace=test-secrets ' '{{.stringData}}' '<no value>'
# Clean up
kubectl delete secret secret-string-data --namespace=test-secrets
### Create a secret using output flags
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
fi
# Pre-condition: no secret exists
kube::test::get_object_assert 'secrets --namespace=test-secrets' "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
grep -q 'test-secret:' <<< "$(kubectl create secret generic test-secret --namespace=test-secrets --from-literal=key1=value1 --output=go-template --template="{{.metadata.name}}:")"
## Clean-up
kubectl delete secret test-secret --namespace=test-secrets
# Clean up
kubectl delete namespace test-secrets
set +o nounset
set +o errexit
}
run_service_accounts_tests() {
set -o nounset
set -o errexit
create_and_use_new_namespace
kube::log::status "Testing service accounts"
### Create a new namespace
# Pre-condition: the test-service-accounts namespace does not exist
kube::test::get_object_assert 'namespaces' "{{range.items}}{{ if eq $id_field \"test-service-accounts\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create namespace test-service-accounts
# Post-condition: namespace 'test-service-accounts' is created.
kube::test::get_object_assert 'namespaces/test-service-accounts' "{{$id_field}}" 'test-service-accounts'
### Create a service account in a specific namespace
# Pre-condition: service account does not exist
kube::test::get_object_assert 'serviceaccount --namespace=test-service-accounts' "{{range.items}}{{ if eq $id_field \"test-service-account\" }}found{{end}}{{end}}:" ':'
# Dry-run command
kubectl create serviceaccount test-service-account --dry-run=client --namespace=test-service-accounts
kubectl create serviceaccount test-service-account --dry-run=server --namespace=test-service-accounts
kube::test::get_object_assert 'serviceaccount --namespace=test-service-accounts' "{{range.items}}{{ if eq $id_field \"test-service-account\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create serviceaccount test-service-account --namespace=test-service-accounts
# Post-condition: secret exists and has expected values
kube::test::get_object_assert 'serviceaccount/test-service-account --namespace=test-service-accounts' "{{$id_field}}" 'test-service-account'
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert serviceaccounts secrets,events "--namespace=test-service-accounts"
# Clean-up
kubectl delete serviceaccount test-service-account --namespace=test-service-accounts
# Clean up
kubectl delete namespace test-service-accounts
set +o nounset
set +o errexit
}
run_service_tests() {
set -o nounset
set -o errexit
# switch back to the default namespace
kubectl config set-context "${CONTEXT}" --namespace=""
kube::log::status "Testing kubectl(v1:services)"
### Create redis-master service from JSON
# Pre-condition: Only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
# Command
kubectl create -f test/e2e/testing-manifests/guestbook/redis-master-service.yaml "${kube_flags[@]}"
# Post-condition: redis-master service exists
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:redis-master:'
# Describe command should print detailed information
kube::test::describe_object_assert services 'redis-master' "Name:" "Labels:" "Selector:" "IP:" "Port:" "Endpoints:" "Session Affinity:"
# Describe command should print events information by default
kube::test::describe_object_events_assert services 'redis-master'
# Describe command should not print events information when show-events=false
kube::test::describe_object_events_assert services 'redis-master' false
# Describe command should print events information when show-events=true
kube::test::describe_object_events_assert services 'redis-master' true
# Describe command (resource only) should print detailed information
kube::test::describe_resource_assert services "Name:" "Labels:" "Selector:" "IP:" "Port:" "Endpoints:" "Session Affinity:"
# Describe command should print events information by default
kube::test::describe_resource_events_assert services
# Describe command should not print events information when show-events=false
kube::test::describe_resource_events_assert services false
# Describe command should print events information when show-events=true
kube::test::describe_resource_events_assert services true
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert services events
### set selector
# prove role=master
kube::test::get_object_assert 'services redis-master' "{{range${service_selector_field:?}}}{{.}}:{{end}}" "redis:master:backend:"
# Set selector of a local file without talking to the server
kubectl set selector -f test/e2e/testing-manifests/guestbook/redis-master-service.yaml role=padawan --local -o yaml "${kube_flags[@]}"
kubectl set selector -f test/e2e/testing-manifests/guestbook/redis-master-service.yaml role=padawan --dry-run=client -o yaml "${kube_flags[@]}"
# Set command to change the selector.
kubectl set selector -f test/e2e/testing-manifests/guestbook/redis-master-service.yaml role=padawan
# prove role=padawan
kube::test::get_object_assert 'services redis-master' "{{range$service_selector_field}}{{.}}:{{end}}" "padawan:"
# Set command to reset the selector back to the original one.
kubectl set selector -f test/e2e/testing-manifests/guestbook/redis-master-service.yaml app=redis,role=master,tier=backend
# prove role=master
kube::test::get_object_assert 'services redis-master' "{{range$service_selector_field}}{{.}}:{{end}}" "redis:master:backend:"
# Show dry-run works on running selector
kubectl set selector services redis-master role=padawan --dry-run=client -o yaml "${kube_flags[@]}"
kubectl set selector services redis-master role=padawan --dry-run=server -o yaml "${kube_flags[@]}"
output_message=$(kubectl get services redis-master --show-managed-fields -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-set'
! kubectl set selector services redis-master role=padawan --local -o yaml "${kube_flags[@]}" || exit 1
kube::test::get_object_assert 'services redis-master' "{{range$service_selector_field}}{{.}}:{{end}}" "redis:master:backend:"
# --resource-version=<current-resource-version> succeeds
rv=$(kubectl get services redis-master -o jsonpath='{.metadata.resourceVersion}' "${kube_flags[@]}")
kubectl set selector services redis-master rvtest1=true "--resource-version=${rv}" "${kube_flags[@]}"
# --resource-version=<non-current-resource-version> fails
output_message=$(! kubectl set selector services redis-master rvtest1=true --resource-version=1 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" 'Conflict'
### Dump current redis-master service
output_service=$(kubectl get service redis-master -o json "${kube_flags[@]}")
### Delete redis-master-service by id
# Pre-condition: redis-master service exists
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:redis-master:'
# Command
kubectl delete service redis-master "${kube_flags[@]}"
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
fi
# Post-condition: Only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
### Create redis-master-service from dumped JSON
# Pre-condition: Only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
# Command
echo "${output_service}" | kubectl create -f - "${kube_flags[@]}"
# Post-condition: redis-master service is created
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:redis-master:'
### Create redis-master-v1-test service
# Pre-condition: redis-master-service service exists
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:redis-master:'
# Command
kubectl create -f - "${kube_flags[@]}" << __EOF__
{
"kind": "Service",
"apiVersion": "v1",
"metadata": {
"name": "service-v1-test"
},
"spec": {
"ports": [
{
"protocol": "TCP",
"port": 80,
"targetPort": 80
}
]
}
}
__EOF__
# Post-condition: service-v1-test service is created
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:redis-master:service-.*-test:'
### Identity
kubectl get service "${kube_flags[@]}" service-v1-test -o json | kubectl replace "${kube_flags[@]}" -f -
### Delete services by id
# Pre-condition: service-v1-test exists
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:redis-master:service-.*-test:'
# Command
kubectl delete service redis-master "${kube_flags[@]}"
kubectl delete service "service-v1-test" "${kube_flags[@]}"
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
fi
# Post-condition: Only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
### Create two services
# Pre-condition: Only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
# Command
kubectl create -f test/e2e/testing-manifests/guestbook/redis-master-service.yaml "${kube_flags[@]}"
kubectl create -f test/e2e/testing-manifests/guestbook/redis-slave-service.yaml "${kube_flags[@]}"
# Post-condition: redis-master and redis-slave services are created
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:redis-master:redis-slave:'
### Custom columns can be specified
# Pre-condition: generate output using custom columns
output_message=$(kubectl get services -o=custom-columns=NAME:.metadata.name,RSRC:.metadata.resourceVersion 2>&1 "${kube_flags[@]}")
# Post-condition: should contain name column
kube::test::if_has_string "${output_message}" 'redis-master'
### Delete multiple services at once
# Pre-condition: redis-master and redis-slave services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:redis-master:redis-slave:'
# Command
kubectl delete services redis-master redis-slave "${kube_flags[@]}" # delete multiple services at once
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
fi
# Post-condition: Only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
### Create an ExternalName service
# Pre-condition: Only the default kubernetes service exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
# Dry-run command
kubectl create service externalname beep-boop --dry-run=client --external-name bar.com
kubectl create service externalname beep-boop --dry-run=server --external-name bar.com
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
# Command
kubectl create service externalname beep-boop --external-name bar.com
# Post-condition: beep-boop service is created
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'beep-boop:kubernetes:'
### Delete beep-boop service by id
# Pre-condition: beep-boop service exists
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'beep-boop:kubernetes:'
# Command
kubectl delete service beep-boop "${kube_flags[@]}"
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
fi
# Post-condition: Only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
### Create pod and service
# Pre-condition: no pod exists
kube::test::wait_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" ''
# Pre-condition: Only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
# Dry-run command
kubectl run testmetadata --image=nginx --port=80 --expose --dry-run=client
kubectl run testmetadata --image=nginx --port=80 --expose --dry-run=server
# Check only the default kubernetes services exist
kube::test::get_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
# Command
kubectl run testmetadata --image=nginx --port=80 --expose
# Check result
kube::test::get_object_assert pods "{{range.items}}{{$id_field}}:{{end}}" 'testmetadata:'
kube::test::get_object_assert 'service testmetadata' "{{${port_field:?}}}" '80'
# pod has field for kubectl run field manager
output_message=$(kubectl get pod testmetadata -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-run'
### Expose pod as a new service
# Command
kubectl expose pod testmetadata --port=1000 --target-port=80 --type=NodePort --name=exposemetadata --overrides='{ "metadata": { "annotations": { "zone-context": "work" } } } '
# Check result
kube::test::get_object_assert 'service exposemetadata' "{{.metadata.annotations}}" "map\[zone-context:work\]"
# Service has field manager for kubectl expose
output_message=$(kubectl get service exposemetadata -o=jsonpath='{.metadata.managedFields[*].manager}' "${kube_flags[@]:?}" 2>&1)
kube::test::if_has_string "${output_message}" 'kubectl-expose'
# Clean-Up
# Command
kubectl delete service exposemetadata testmetadata "${kube_flags[@]}"
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert services "{{range.items}}{{$id_field}}:{{end}}" 'kubernetes:'
fi
kubectl delete pod testmetadata "${kube_flags[@]}"
if [[ "${WAIT_FOR_DELETION:-}" == "true" ]]; then
kube::test::wait_object_assert deployment "{{range.items}}{{$id_field}}:{{end}}" ''
fi
set +o nounset
set +o errexit
}
run_rc_tests() {
set -o nounset
set -o errexit
create_and_use_new_namespace
kube::log::status "Testing kubectl(v1:replicationcontrollers)"
### Create and stop controller, make sure it doesn't leak pods
# Pre-condition: no replication controller exists
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f hack/testdata/frontend-controller.yaml "${kube_flags[@]}"
kubectl delete rc frontend "${kube_flags[@]}"
# Post-condition: no pods from frontend controller
kube::test::wait_object_assert "pods -l name=frontend" "{{range.items}}{{$id_field}}:{{end}}" ''
### Create replication controller frontend from JSON
# Pre-condition: no replication controller exists
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f hack/testdata/frontend-controller.yaml "${kube_flags[@]}"
# Post-condition: frontend replication controller is created
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" 'frontend:'
# Describe command should print detailed information
kube::test::describe_object_assert rc 'frontend' "Name:" "Pod Template:" "Labels:" "Selector:" "Replicas:" "Pods Status:" "Volumes:" "GET_HOSTS_FROM:"
# Describe command should print events information by default
kube::test::describe_object_events_assert rc 'frontend'
# Describe command should not print events information when show-events=false
kube::test::describe_object_events_assert rc 'frontend' false
# Describe command should print events information when show-events=true
kube::test::describe_object_events_assert rc 'frontend' true
# Describe command (resource only) should print detailed information
kube::test::describe_resource_assert rc "Name:" "Name:" "Pod Template:" "Labels:" "Selector:" "Replicas:" "Pods Status:" "Volumes:" "GET_HOSTS_FROM:"
# Describe command should print events information by default
kube::test::describe_resource_events_assert rc
# Describe command should not print events information when show-events=false
kube::test::describe_resource_events_assert rc false
# Describe command should print events information when show-events=true
kube::test::describe_resource_events_assert rc true
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert replicationcontrollers events
### Scale replication controller frontend with current-replicas and replicas
# Pre-condition: 3 replicas
kube::test::get_object_assert 'rc frontend' "{{${rc_replicas_field:?}}}" '3'
# Command
kubectl scale --current-replicas=3 --replicas=2 replicationcontrollers frontend "${kube_flags[@]}"
# Post-condition: 2 replicas
kube::test::get_object_assert 'rc frontend' "{{$rc_replicas_field}}" '2'
### Scale replication controller frontend with (wrong) current-replicas and replicas
# Pre-condition: 2 replicas
kube::test::get_object_assert 'rc frontend' "{{$rc_replicas_field}}" '2'
# Command
! kubectl scale --current-replicas=3 --replicas=2 replicationcontrollers frontend "${kube_flags[@]}" || exit 1
# Post-condition: nothing changed
kube::test::get_object_assert 'rc frontend' "{{$rc_replicas_field}}" '2'
### Scale replication controller frontend with replicas only
# Pre-condition: 2 replicas
kube::test::get_object_assert 'rc frontend' "{{$rc_replicas_field}}" '2'
# Command
kubectl scale --replicas=3 replicationcontrollers frontend "${kube_flags[@]}"
# Post-condition: 3 replicas
kube::test::get_object_assert 'rc frontend' "{{$rc_replicas_field}}" '3'
### Scale replication controller from JSON with replicas only
# Pre-condition: 3 replicas
kube::test::get_object_assert 'rc frontend' "{{$rc_replicas_field}}" '3'
# Command
kubectl scale --replicas=2 -f hack/testdata/frontend-controller.yaml "${kube_flags[@]}"
# Post-condition: 2 replicas
kube::test::get_object_assert 'rc frontend' "{{$rc_replicas_field}}" '2'
# Clean-up
kubectl delete rc frontend "${kube_flags[@]}"
### Scale multiple replication controllers
kubectl create -f test/e2e/testing-manifests/guestbook/legacy/redis-master-controller.yaml "${kube_flags[@]}"
kubectl create -f test/e2e/testing-manifests/guestbook/legacy/redis-slave-controller.yaml "${kube_flags[@]}"
# Command dry-run client
output_message=$(kubectl scale rc/redis-master rc/redis-slave --replicas=4 --dry-run=client "${kube_flags[@]}")
# Post-condition dry-run client: 1 replicas each
kube::test::if_has_string "${output_message}" 'replicationcontroller/redis-master scaled (dry run)'
kube::test::if_has_string "${output_message}" 'replicationcontroller/redis-slave scaled (dry run)'
kube::test::get_object_assert 'rc redis-master' "{{$rc_replicas_field}}" '1'
kube::test::get_object_assert 'rc redis-slave' "{{$rc_replicas_field}}" '2'
# Command dry-run server
output_message=$(kubectl scale rc/redis-master rc/redis-slave --replicas=4 --dry-run=server "${kube_flags[@]}")
# Post-condition dry-run server: 1 replicas each
kube::test::if_has_string "${output_message}" 'replicationcontroller/redis-master scaled (server dry run)'
kube::test::if_has_string "${output_message}" 'replicationcontroller/redis-slave scaled (server dry run)'
kube::test::get_object_assert 'rc redis-master' "{{$rc_replicas_field}}" '1'
kube::test::get_object_assert 'rc redis-slave' "{{$rc_replicas_field}}" '2'
# Command
kubectl scale rc/redis-master rc/redis-slave --replicas=4 "${kube_flags[@]}"
# Post-condition: 4 replicas each
kube::test::get_object_assert 'rc redis-master' "{{$rc_replicas_field}}" '4'
kube::test::get_object_assert 'rc redis-slave' "{{$rc_replicas_field}}" '4'
# Clean-up
kubectl delete rc redis-{master,slave} "${kube_flags[@]}"
### Scale a deployment
kubectl create -f test/fixtures/doc-yaml/user-guide/deployment.yaml "${kube_flags[@]}"
# Command dry-run client
output_message=$(kubectl scale --current-replicas=3 --replicas=1 deployment/nginx-deployment --dry-run=client)
# Post-condition: 3 replica for nginx-deployment dry-run client
kube::test::if_has_string "${output_message}" 'nginx-deployment scaled (dry run)'
kube::test::get_object_assert 'deployment nginx-deployment' "{{${deployment_replicas:?}}}" '3'
# Command dry-run server
output_message=$(kubectl scale --current-replicas=3 --replicas=1 deployment/nginx-deployment --dry-run=server)
# Post-condition: 3 replica for nginx-deployment dry-run server
kube::test::if_has_string "${output_message}" 'nginx-deployment scaled (server dry run)'
kube::test::get_object_assert 'deployment nginx-deployment' "{{${deployment_replicas:?}}}" '3'
# Command
kubectl scale --current-replicas=3 --replicas=1 deployment/nginx-deployment
# Post-condition: 1 replica for nginx-deployment
kube::test::get_object_assert 'deployment nginx-deployment' "{{${deployment_replicas:?}}}" '1'
# Clean-up
kubectl delete deployment/nginx-deployment "${kube_flags[@]}"
### Scale a deployment with piped input
kubectl create -f test/fixtures/doc-yaml/user-guide/deployment.yaml "${kube_flags[@]}"
# Command
kubectl get deployment/nginx-deployment -o json | kubectl scale --replicas=2 -f -
# Post-condition: 2 replica for nginx-deployment
kube::test::get_object_assert 'deployment nginx-deployment' "{{${deployment_replicas:?}}}" '2'
# Clean-up
kubectl delete deployment/nginx-deployment "${kube_flags[@]}"
### Expose deployments by creating a service
# Uses deployment selectors for created service
output_message=$(kubectl expose -f test/fixtures/pkg/kubectl/cmd/expose/appsv1deployment.yaml --port 80 2>&1 "${kube_flags[@]}")
# Post-condition: service created for deployment.
kube::test::if_has_string "${output_message}" 'service/expose-test-deployment exposed'
# Clean-up
kubectl delete service/expose-test-deployment "${kube_flags[@]}"
# Contains no selectors, should fail.
output_message=$(! kubectl expose -f test/fixtures/pkg/kubectl/cmd/expose/appsv1deployment-no-selectors.yaml --port 80 2>&1 "${kube_flags[@]}")
# Post-condition: service created for deployment.
kube::test::if_has_string "${output_message}" 'invalid deployment: no selectors'
### Expose a deployment as a service
kubectl create -f test/fixtures/doc-yaml/user-guide/deployment.yaml "${kube_flags[@]}"
# Pre-condition: 3 replicas
kube::test::get_object_assert 'deployment nginx-deployment' "{{$deployment_replicas}}" '3'
# Command
kubectl expose deployment/nginx-deployment
# Post-condition: service exists and exposes deployment port (80)
kube::test::get_object_assert 'service nginx-deployment' "{{${port_field:?}}}" '80'
# Clean-up
kubectl delete deployment/nginx-deployment service/nginx-deployment "${kube_flags[@]}"
### Expose replication controller as service
kubectl create -f hack/testdata/frontend-controller.yaml "${kube_flags[@]}"
# Pre-condition: 3 replicas
kube::test::get_object_assert 'rc frontend' "{{$rc_replicas_field}}" '3'
# Command
kubectl expose rc frontend --port=80 "${kube_flags[@]}"
# Post-condition: service exists and the port is unnamed
kube::test::get_object_assert 'service frontend' "{{${port_name:?}}} {{$port_field}}" '<no value> 80'
# Command
kubectl expose service frontend --port=443 --name=frontend-2 "${kube_flags[@]}"
# Post-condition: service exists and the port is unnamed
kube::test::get_object_assert 'service frontend-2' "{{$port_name}} {{$port_field}}" '<no value> 443'
# Command
kubectl create -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml "${kube_flags[@]}"
kubectl expose pod valid-pod --port=444 --name=frontend-3 "${kube_flags[@]}"
# Post-condition: service exists and the port is unnamed
kube::test::get_object_assert 'service frontend-3' "{{$port_name}} {{$port_field}}" '<no value> 444'
# Verify that expose service works without specifying a port.
kubectl expose service frontend --name=frontend-4 "${kube_flags[@]}"
# Post-condition: service exists with the same port as the original service.
kube::test::get_object_assert 'service frontend-4' "{{$port_field}}" '80'
# Cleanup services
kubectl delete pod valid-pod "${kube_flags[@]}"
kubectl delete service frontend{,-2,-3,-4} "${kube_flags[@]}"
### Expose negative invalid resource test
# Pre-condition: don't need
# Command
output_message=$(! kubectl expose nodes 127.0.0.1 2>&1 "${kube_flags[@]}")
# Post-condition: the error message has "cannot expose" string
kube::test::if_has_string "${output_message}" 'cannot expose'
### Try to generate a service with invalid name (exceeding maximum valid size)
# Pre-condition: use --name flag
output_message=$(! kubectl expose -f hack/testdata/pod-with-large-name.yaml --name=invalid-large-service-name-that-has-more-than-sixty-three-characters --port=8081 2>&1 "${kube_flags[@]}")
# Post-condition: should fail due to invalid name
kube::test::if_has_string "${output_message}" 'metadata.name: Invalid value'
# Pre-condition: default run without --name flag; should succeed by truncating the inherited name
output_message=$(kubectl expose -f hack/testdata/pod-with-large-name.yaml --port=8081 2>&1 "${kube_flags[@]}")
# Post-condition: inherited name from pod has been truncated
kube::test::if_has_string "${output_message}" 'kubernetes-serve-hostname-testing-sixty-three-characters-in-len exposed'
# Clean-up
kubectl delete svc kubernetes-serve-hostname-testing-sixty-three-characters-in-len "${kube_flags[@]}"
### Expose multiport object as a new service
# Pre-condition: don't use --port flag
output_message=$(kubectl expose -f test/fixtures/doc-yaml/admin/high-availability/etcd.yaml --selector=test=etcd 2>&1 "${kube_flags[@]}")
# Post-condition: expose succeeded
kube::test::if_has_string "${output_message}" 'etcd-server exposed'
# Post-condition: generated service has both ports from the exposed pod
kube::test::get_object_assert 'service etcd-server' "{{$port_name}} {{$port_field}}" 'port-1 2380'
kube::test::get_object_assert 'service etcd-server' "{{${second_port_name:?}}} {{${second_port_field:?}}}" 'port-2 2379'
# Clean-up
kubectl delete svc etcd-server "${kube_flags[@]}"
### Delete replication controller with id
# Pre-condition: frontend replication controller exists
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" 'frontend:'
# Command
kubectl delete rc frontend "${kube_flags[@]}"
# Post-condition: no replication controller exists
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" ''
### Create two replication controllers
# Pre-condition: no replication controller exists
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f hack/testdata/frontend-controller.yaml "${kube_flags[@]}"
kubectl create -f test/e2e/testing-manifests/guestbook/legacy/redis-slave-controller.yaml "${kube_flags[@]}"
# Post-condition: frontend and redis-slave
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" 'frontend:redis-slave:'
### Delete multiple controllers at once
# Pre-condition: frontend and redis-slave
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" 'frontend:redis-slave:'
# Command
kubectl delete rc frontend redis-slave "${kube_flags[@]}" # delete multiple controllers at once
# Post-condition: no replication controller exists
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" ''
### Auto scale replication controller
# Pre-condition: no replication controller exists
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create -f hack/testdata/frontend-controller.yaml "${kube_flags[@]}"
kube::test::get_object_assert rc "{{range.items}}{{$id_field}}:{{end}}" 'frontend:'
# autoscale 1~2 pods, CPU utilization 70%, rc specified by file
kubectl autoscale -f hack/testdata/frontend-controller.yaml "${kube_flags[@]}" --max=2 --cpu-percent=70
kube::test::get_object_assert 'hpa frontend' "{{${hpa_min_field:?}}} {{${hpa_max_field:?}}} {{${hpa_cpu_field:?}}}" '1 2 70'
kubectl delete hpa frontend "${kube_flags[@]}"
# autoscale 2~3 pods, no CPU utilization specified, rc specified by name
kubectl autoscale rc frontend "${kube_flags[@]}" --min=2 --max=3
kube::test::get_object_assert 'hpa frontend' "{{$hpa_min_field}} {{$hpa_max_field}} {{$hpa_cpu_field}}" '2 3 80'
kubectl delete hpa frontend "${kube_flags[@]}"
# autoscale without specifying --max should fail
! kubectl autoscale rc frontend "${kube_flags[@]}" || exit 1
# Clean up
kubectl delete rc frontend "${kube_flags[@]}"
## Set resource limits/request of a deployment
# Pre-condition: no deployment exists
kube::test::get_object_assert deployment "{{range.items}}{{$id_field}}:{{end}}" ''
# Set resources of a local file without talking to the server
kubectl set resources -f hack/testdata/deployment-multicontainer-resources.yaml -c=perl --limits=cpu=300m --requests=cpu=300m --local -o yaml "${kube_flags[@]}"
! kubectl set resources -f hack/testdata/deployment-multicontainer-resources.yaml -c=perl --limits=cpu=300m --requests=cpu=300m --dry-run=client -o yaml "${kube_flags[@]}" || exit 1
# Create a deployment
kubectl create -f hack/testdata/deployment-multicontainer-resources.yaml "${kube_flags[@]}"
kube::test::get_object_assert deployment "{{range.items}}{{$id_field}}:{{end}}" 'nginx-deployment-resources:'
kube::test::get_object_assert deployment "{{range.items}}{{${image_field0:?}}}:{{end}}" "${IMAGE_DEPLOYMENT_R1}:"
kube::test::get_object_assert deployment "{{range.items}}{{${image_field1:?}}}:{{end}}" "${IMAGE_PERL}:"
# Set the deployment's cpu limits
kubectl set resources deployment nginx-deployment-resources --limits=cpu=100m "${kube_flags[@]}"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 0).resources.limits.cpu}}:{{end}}" "100m:"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 1).resources.limits.cpu}}:{{end}}" "100m:"
# Set a non-existing container should fail
! kubectl set resources deployment nginx-deployment-resources -c=redis --limits=cpu=100m || exit 1
# Set the limit of a specific container in deployment
kubectl set resources deployment nginx-deployment-resources -c=nginx --limits=cpu=200m "${kube_flags[@]}"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 0).resources.limits.cpu}}:{{end}}" "200m:"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 1).resources.limits.cpu}}:{{end}}" "100m:"
# Set limits/requests of a deployment specified by a file
kubectl set resources -f hack/testdata/deployment-multicontainer-resources.yaml -c=perl --limits=cpu=300m --requests=cpu=300m "${kube_flags[@]}"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 0).resources.limits.cpu}}:{{end}}" "200m:"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 1).resources.limits.cpu}}:{{end}}" "300m:"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 1).resources.requests.cpu}}:{{end}}" "300m:"
# Show dry-run works on running deployments
kubectl set resources deployment nginx-deployment-resources -c=perl --limits=cpu=400m --requests=cpu=400m --dry-run=client -o yaml "${kube_flags[@]}"
kubectl set resources deployment nginx-deployment-resources -c=perl --limits=cpu=400m --requests=cpu=400m --dry-run=server -o yaml "${kube_flags[@]}"
! kubectl set resources deployment nginx-deployment-resources -c=perl --limits=cpu=400m --requests=cpu=400m --local -o yaml "${kube_flags[@]}" || exit 1
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 0).resources.limits.cpu}}:{{end}}" "200m:"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 1).resources.limits.cpu}}:{{end}}" "300m:"
kube::test::get_object_assert deployment "{{range.items}}{{(index .spec.template.spec.containers 1).resources.requests.cpu}}:{{end}}" "300m:"
# Clean up
kubectl delete deployment nginx-deployment-resources "${kube_flags[@]}"
set +o nounset
set +o errexit
}
run_namespace_tests() {
set -o nounset
set -o errexit
kube::log::status "Testing kubectl(v1:namespaces)"
### Create a new namespace
# Pre-condition: test namespace does not exist
output_message=$(! kubectl get ns/my-namespace 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" ' not found'
# Dry-run command
kubectl create namespace my-namespace --dry-run=client
kubectl create namespace my-namespace --dry-run=server
output_message=$(! kubectl get ns/my-namespace 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" ' not found'
# Command
kubectl create namespace my-namespace
# Post-condition: namespace 'my-namespace' is created.
kube::test::get_object_assert 'namespaces/my-namespace' "{{$id_field}}" 'my-namespace'
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert namespaces resourcequotas,limitranges
# Clean up
kubectl delete namespace my-namespace --wait=false
# make sure that wait properly waits for finalization
kubectl wait --for=delete ns/my-namespace
output_message=$(! kubectl get ns/my-namespace 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" ' not found'
kubectl create namespace my-namespace
kube::test::get_object_assert 'namespaces/my-namespace' "{{$id_field}}" 'my-namespace'
output_message=$(! kubectl delete namespace -n my-namespace --all 2>&1 "${kube_flags[@]}")
kube::test::if_has_string "${output_message}" 'Warning: deleting cluster-scoped resources'
kube::test::if_has_string "${output_message}" 'namespace "my-namespace" deleted'
### Quota
kubectl create namespace quotas
kube::test::get_object_assert 'namespaces/quotas' "{{$id_field}}" 'quotas'
kube::test::get_object_assert 'quota --namespace=quotas' "{{range.items}}{{ if eq $id_field \"test-quota\" }}found{{end}}{{end}}:" ':'
# Dry-run command
kubectl create quota test-quota --dry-run=client --namespace=quotas
kubectl create quota test-quota --dry-run=server --namespace=quotas
kube::test::get_object_assert 'quota --namespace=quotas' "{{range.items}}{{ if eq $id_field \"test-quota\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create quota test-quota --namespace=quotas
kube::test::get_object_assert 'quota --namespace=quotas' "{{range.items}}{{ if eq $id_field \"test-quota\" }}found{{end}}{{end}}:" 'found:'
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert resourcequotas "" "--namespace=quotas"
# Clean up
kubectl delete quota test-quota --namespace=quotas
kubectl delete namespace quotas
######################
# Pods in Namespaces #
######################
if kube::test::if_supports_resource "${pods:?}" ; then
### Create a new namespace
# Pre-condition: the other namespace does not exist
kube::test::get_object_assert 'namespaces' "{{range.items}}{{ if eq $id_field \"other\" }}found{{end}}{{end}}:" ':'
# Command
kubectl create namespace other
# Post-condition: namespace 'other' is created.
kube::test::get_object_assert 'namespaces/other' "{{$id_field}}" 'other'
### Create POD valid-pod in specific namespace
# Pre-condition: no POD exists
kube::test::get_object_assert 'pods --namespace=other' "{{range.items}}{{$id_field}}:{{end}}" ''
# Command
kubectl create "${kube_flags[@]}" --namespace=other -f test/fixtures/doc-yaml/admin/limitrange/valid-pod.yaml
# Post-condition: valid-pod POD is created
kube::test::get_object_assert 'pods --namespace=other' "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Post-condition: verify shorthand `-n other` has the same results as `--namespace=other`
kube::test::get_object_assert 'pods -n other' "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Post-condition: a resource cannot be retrieved by name across all namespaces
output_message=$(! kubectl get "${kube_flags[@]}" pod valid-pod --all-namespaces 2>&1)
kube::test::if_has_string "${output_message}" "a resource cannot be retrieved by name across all namespaces"
### Delete POD valid-pod in specific namespace
# Pre-condition: valid-pod POD exists
kube::test::get_object_assert 'pods --namespace=other' "{{range.items}}{{$id_field}}:{{end}}" 'valid-pod:'
# Command
kubectl delete "${kube_flags[@]}" pod --namespace=other valid-pod --grace-period=0 --force
# Post-condition: valid-pod POD doesn't exist
kube::test::get_object_assert 'pods --namespace=other' "{{range.items}}{{$id_field}}:{{end}}" ''
# Clean up
kubectl delete namespace other
fi
set +o nounset
set +o errexit
}
run_nodes_tests() {
set -o nounset
set -o errexit
kube::log::status "Testing kubectl(v1:nodes)"
kube::test::get_object_assert nodes "{{range.items}}{{$id_field}}:{{end}}" '127.0.0.1:'
kube::test::describe_object_assert nodes "127.0.0.1" "Name:" "Labels:" "CreationTimestamp:" "Conditions:" "Addresses:" "Capacity:" "Pods:"
# Describe command should print events information by default
kube::test::describe_object_events_assert nodes "127.0.0.1"
# Describe command should not print events information when show-events=false
kube::test::describe_object_events_assert nodes "127.0.0.1" false
# Describe command should print events information when show-events=true
kube::test::describe_object_events_assert nodes "127.0.0.1" true
# Describe command (resource only) should print detailed information
kube::test::describe_resource_assert nodes "Name:" "Labels:" "CreationTimestamp:" "Conditions:" "Addresses:" "Capacity:" "Pods:"
# Describe command should print events information by default
kube::test::describe_resource_events_assert nodes
# Describe command should not print events information when show-events=false
kube::test::describe_resource_events_assert nodes false
# Describe command should print events information when show-events=true
kube::test::describe_resource_events_assert nodes true
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert nodes pods,events
### kubectl patch update can mark node unschedulable
# Pre-condition: node is schedulable
kube::test::get_object_assert "nodes 127.0.0.1" "{{.spec.unschedulable}}" '<no value>'
kubectl patch "${kube_flags[@]}" nodes "127.0.0.1" -p='{"spec":{"unschedulable":true}}'
# Post-condition: node is unschedulable
kube::test::get_object_assert "nodes 127.0.0.1" "{{.spec.unschedulable}}" 'true'
kubectl patch "${kube_flags[@]}" nodes "127.0.0.1" -p='{"spec":{"unschedulable":null}}'
# Post-condition: node is schedulable
kube::test::get_object_assert "nodes 127.0.0.1" "{{.spec.unschedulable}}" '<no value>'
# check webhook token authentication endpoint, kubectl doesn't actually display the returned object so this isn't super useful
# but it proves that works
kubectl create -f test/fixtures/pkg/kubectl/cmd/create/tokenreview-v1.json --validate=false
set +o nounset
set +o errexit
}
run_pod_templates_tests() {
set -o nounset
set -o errexit
create_and_use_new_namespace
kube::log::status "Testing pod templates"
### Create PODTEMPLATE
# Pre-condition: no PODTEMPLATE
kube::test::get_object_assert podtemplates "{{range.items}}{{.metadata.name}}:{{end}}" ''
# Command
kubectl create -f test/fixtures/doc-yaml/user-guide/walkthrough/podtemplate.json "${kube_flags[@]}"
# Post-condition: nginx PODTEMPLATE is available
kube::test::get_object_assert podtemplates "{{range.items}}{{.metadata.name}}:{{end}}" 'nginx:'
### Printing pod templates works
kubectl get podtemplates "${kube_flags[@]}"
grep -q nginx <<< "$(kubectl get podtemplates -o yaml "${kube_flags[@]}")"
### Delete nginx pod template by name
# Pre-condition: nginx pod template is available
kube::test::get_object_assert podtemplates "{{range.items}}{{.metadata.name}}:{{end}}" 'nginx:'
# Describe command should respect the chunk size parameter
kube::test::describe_resource_chunk_size_assert podtemplates events
# Command
kubectl delete podtemplate nginx "${kube_flags[@]}"
# Post-condition: No templates exist
kube::test::get_object_assert podtemplate "{{range.items}}{{.metadata.name}}:{{end}}" ''
set +o nounset
set +o errexit
}
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