k8s

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v1.6.0-alpha.13 Latest Latest
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Published: Mar 24, 2024 License: Apache-2.0 Imports: 67 Imported by: 0

Documentation

Index

Constants

View Source
const (
	// KubeletPort is the default port for the kubelet server on each host machine.
	// May be overridden by a flag at startup.
	KubeletPort = 10250
	// KubeControllerManagerPort is the default port for the controller manager status server.
	// May be overridden by a flag at startup.
	KubeControllerManagerPort = 10257
)
View Source
const (
	// PodListTimeout is how long to wait for the pod to be listable.
	PodListTimeout = time.Minute

	// PodStartTimeout is how long to wait for the pod to be started.
	PodStartTimeout = 5 * time.Minute

	// PodStartShortTimeout is same as `PodStartTimeout` to wait for the pod to be started, but shorter.
	// Use it case by case when we are sure pod start will not be delayed.
	// minutes by slow docker pulls or something else.
	PodStartShortTimeout = 2 * time.Minute

	// PodDeleteTimeout is how long to wait for a pod to be deleted.
	PodDeleteTimeout = 5 * time.Minute

	// PodGetTimeout is how long to wait for a pod to be got.
	PodGetTimeout = 2 * time.Minute

	// PodEventTimeout is how much we wait for a pod event to occur.
	PodEventTimeout = 2 * time.Minute

	// ServiceStartTimeout is how long to wait for a service endpoint to be resolvable.
	ServiceStartTimeout = 3 * time.Minute

	// Poll is how often to Poll pods, nodes and claims.
	Poll = 2 * time.Second

	// PollShortTimeout is the short timeout value in polling.
	PollShortTimeout = 1 * time.Minute

	// ServiceAccountProvisionTimeout is how long to wait for a service account to be provisioned.
	// service accounts are provisioned after namespace creation
	// a service account is required to support pod creation in a namespace as part of admission control
	ServiceAccountProvisionTimeout = 2 * time.Minute

	// SingleCallTimeout is how long to try single API calls (like 'get' or 'list'). Used to prevent
	// transient failures from failing tests.
	SingleCallTimeout = 5 * time.Minute

	// NodeReadyInitialTimeout is how long nodes have to be "ready" when a test begins. They should already
	// be "ready" before the test starts, so this is small.
	NodeReadyInitialTimeout = 20 * time.Second

	// PodReadyBeforeTimeout is how long pods have to be "ready" when a test begins.
	PodReadyBeforeTimeout = 5 * time.Minute

	// ClaimProvisionShortTimeout is same as `ClaimProvisionTimeout` to wait for claim to be dynamically provisioned, but shorter.
	// Use it case by case when we are sure this timeout is enough.
	ClaimProvisionShortTimeout = 1 * time.Minute

	// ClaimProvisionTimeout is how long claims have to become dynamically provisioned.
	ClaimProvisionTimeout = 5 * time.Minute

	// RestartNodeReadyAgainTimeout is how long a node is allowed to become "Ready" after it is restarted before
	// the test is considered failed.
	RestartNodeReadyAgainTimeout = 5 * time.Minute

	// RestartPodReadyAgainTimeout is how long a pod is allowed to become "running" and "ready" after a node
	// restart before test is considered failed.
	RestartPodReadyAgainTimeout = 5 * time.Minute

	// SnapshotCreateTimeout is how long for snapshot to create snapshotContent.
	SnapshotCreateTimeout = 5 * time.Minute

	// SnapshotDeleteTimeout is how long for snapshot to delete snapshotContent.
	SnapshotDeleteTimeout = 5 * time.Minute
)

DEPRECATED constants. Use the timeouts in framework.Framework instead.

View Source
const (

	// AllContainers specifies that all containers be visited
	// Copied from pkg/api/v1/pod to avoid pulling extra dependencies
	AllContainers = InitContainers | Containers | EphemeralContainers
)
View Source
const (
	// DefaultNamespaceDeletionTimeout is timeout duration for waiting for a namespace deletion.
	DefaultNamespaceDeletionTimeout = 5 * time.Minute
)
View Source
const (

	// DefaultNumNodes is the number of nodes. If not specified, then number of nodes is auto-detected
	DefaultNumNodes = -1
)
View Source
const (
	// DefaultPodDeletionTimeout is the default timeout for deleting pod
	DefaultPodDeletionTimeout = 3 * time.Minute
)

Variables

View Source
var ImagePrePullList sets.String

ImagePrePullList is the images used in the current test suite. It should be initialized in test suite and the images in the list should be pre-pulled in the test suite. Currently, this is only used by node e2e test.

View Source
var (

	// ProvidersWithSSH are those providers where each node is accessible with SSH
	ProvidersWithSSH = []string{"gce", "gke", "aws", "local"}
)
View Source
var RunID = uuid.NewUUID()

RunID is a unique identifier of the e2e run. Beware that this ID is not the same for all tests in the e2e run, because each Ginkgo node creates it separately.

Functions

func APIAddress

func APIAddress() string

APIAddress returns a address of an instance.

func AfterReadingAllFlags

func AfterReadingAllFlags(t *TestContextType)

AfterReadingAllFlags makes changes to the context after all flags have been read.

func AllNodesReady

func AllNodesReady(c clientset.Interface, timeout time.Duration) error

AllNodesReady checks whether all registered nodes are ready. Setting -1 on TestContext.AllowedNotReadyNodes will bypass the post test node readiness check. TODO: we should change the AllNodesReady call in AfterEach to WaitForAllNodesHealthy, and figure out how to do it in a configurable way, as we can't expect all setups to run default test add-ons.

func CheckTestingNSDeletedExcept

func CheckTestingNSDeletedExcept(c clientset.Interface, skip string) error

CheckTestingNSDeletedExcept checks whether all e2e based existing namespaces are in the Terminating state and waits until they are finally deleted. It ignores namespace skip.

func ConformanceIt

func ConformanceIt(text string, body interface{}, timeout ...float64) bool

ConformanceIt is wrapper function for ginkgo It. Adds "[Conformance]" tag and makes static analysis easier.

func CoreDump

func CoreDump(dir string)

CoreDump SSHs to the master and all nodes and dumps their logs into dir. It shells out to cluster/log-dump/log-dump.sh to accomplish this.

func CreateTestingNS

func CreateTestingNS(baseName string, c clientset.Interface, labels map[string]string) (*v1.Namespace, error)

CreateTestingNS should be used by every test, note that we append a common prefix to the provided test name. Please see NewFramework instead of using this directly.

func DeleteNamespaces

func DeleteNamespaces(c clientset.Interface, deleteFilter, skipFilter []string) ([]string, error)

DeleteNamespaces deletes all namespaces that match the given delete and skip filters. Filter is by simple strings.Contains; first skip filter, then delete filter. Returns the list of deleted namespaces or an error.

func DumpAllNamespaceInfo

func DumpAllNamespaceInfo(c clientset.Interface, namespace string)

DumpAllNamespaceInfo dumps events, pods and nodes information in the given namespace.

func DumpNodeDebugInfo

func DumpNodeDebugInfo(c clientset.Interface, nodeNames []string, logFunc func(fmt string, args ...interface{}))

DumpNodeDebugInfo dumps debug information of the given nodes.

func ExpectConsistOf

func ExpectConsistOf(actual interface{}, extra interface{}, explain ...interface{})

ExpectConsistOf expects actual contains precisely the extra elements. The ordering of the elements does not matter.

func ExpectEmpty

func ExpectEmpty(actual interface{}, explain ...interface{})

ExpectEmpty expects actual is empty

func ExpectEqual

func ExpectEqual(actual interface{}, extra interface{}, explain ...interface{})

ExpectEqual expects the specified two are the same, otherwise an exception raises

func ExpectError

func ExpectError(err error, explain ...interface{})

ExpectError expects an error happens, otherwise an exception raises

func ExpectHaveKey

func ExpectHaveKey(actual interface{}, key interface{}, explain ...interface{})

ExpectHaveKey expects the actual map has the key in the keyset

func ExpectNoError

func ExpectNoError(err error, explain ...interface{})

ExpectNoError checks if "err" is set, and if so, fails assertion while logging the error.

func ExpectNoErrorWithOffset

func ExpectNoErrorWithOffset(offset int, err error, explain ...interface{})

ExpectNoErrorWithOffset checks if "err" is set, and if so, fails assertion while logging the error at "offset" levels above its caller (for example, for call chain f -> g -> ExpectNoErrorWithOffset(1, ...) error would be logged for "f").

func ExpectNotEqual

func ExpectNotEqual(actual interface{}, extra interface{}, explain ...interface{})

ExpectNotEqual expects the specified two are not the same, otherwise an exception raises

func GenerateSecureToken

func GenerateSecureToken(tokenLen int) (string, error)

GenerateSecureToken returns a string of length tokenLen, consisting of random bytes encoded as base64 for use as a Bearer Token during communication with an APIServer

func GetProviders

func GetProviders() []string

GetProviders returns the names of all currently registered providers.

func LoadClientset

func LoadClientset() (*clientset.Clientset, error)

LoadClientset returns clientset for connecting to kubernetes clusters.

func LoadConfig

func LoadConfig() (config *restclient.Config, err error)

LoadConfig returns a config for a rest client with the UserAgent set to include the current test name.

func MasterOSDistroIs

func MasterOSDistroIs(supportedMasterOsDistros ...string) bool

MasterOSDistroIs returns true if the master OS distro is included in the supportedMasterOsDistros. Otherwise false.

func NodeOSArchIs

func NodeOSArchIs(supportedNodeOsArchs ...string) bool

NodeOSArchIs returns true if the node OS arch is included in the supportedNodeOsArchs. Otherwise false.

func NodeOSDistroIs

func NodeOSDistroIs(supportedNodeOsDistros ...string) bool

NodeOSDistroIs returns true if the node OS distro is included in the supportedNodeOsDistros. Otherwise false.

func PrettyPrintJSON

func PrettyPrintJSON(metrics interface{}) string

PrettyPrintJSON converts metrics to JSON format.

func ProviderIs

func ProviderIs(providers ...string) bool

ProviderIs returns true if the provider is included is the providers. Otherwise false.

func RandomSuffix

func RandomSuffix() string

RandomSuffix provides a random sequence to append to pods,services,rcs.

func RegisterClusterFlags

func RegisterClusterFlags(flags *flag.FlagSet)

RegisterClusterFlags registers flags specific to the cluster e2e test suite.

func RegisterCommonFlags

func RegisterCommonFlags(flags *flag.FlagSet)

RegisterCommonFlags registers flags common to all e2e test suites. The flag set can be flag.CommandLine (if desired) or a custom flag set that then gets passed to viperconfig.ViperizeFlags.

The other Register*Flags methods below can be used to add more test-specific flags. However, those settings then get added regardless whether the test is actually in the test suite.

For tests that have been converted to registering their options themselves, copy flags from test/e2e/framework/config as shown in HandleFlags.

func RegisterProvider

func RegisterProvider(name string, factory Factory)

RegisterProvider is expected to be called during application init, typically by an init function in a provider package.

func RemoveCleanupAction

func RemoveCleanupAction(p CleanupActionHandle)

RemoveCleanupAction removes a function that was installed by AddCleanupAction.

func RunCleanupActions

func RunCleanupActions()

RunCleanupActions runs all functions installed by AddCleanupAction. It does not remove them (see RemoveCleanupAction) but it does run unlocked, so they may remove themselves.

func RunHostCmd

func RunHostCmd(ns, name, cmd string) (string, error)

RunHostCmd runs the given cmd in the context of the given pod using `kubectl exec` inside of a shell.

func RunKubectl

func RunKubectl(namespace string, args ...string) (string, error)

RunKubectl is a convenience wrapper over kubectlBuilder

func WaitForAllNodesSchedulable

func WaitForAllNodesSchedulable(c clientset.Interface, timeout time.Duration) error

WaitForAllNodesSchedulable waits up to timeout for all (but TestContext.AllowedNotReadyNodes) to become schedulable.

func WaitForDefaultServiceAccountInNamespace

func WaitForDefaultServiceAccountInNamespace(c clientset.Interface, namespace string) error

WaitForDefaultServiceAccountInNamespace waits for the default service account to be provisioned the default service account is what is associated with pods when they do not specify a service account as a result, pods are not able to be provisioned in a namespace until the service account is provisioned

func WaitForKubeRootCAInNamespace

func WaitForKubeRootCAInNamespace(c clientset.Interface, namespace string) error

WaitForKubeRootCAInNamespace waits for the configmap kube-root-ca.crt containing the service account CA trust bundle to be provisioned in the specified namespace so that pods do not have to retry mounting the config map (which creates noise that hides other issues in the Kubelet).

func WaitForNamespacesDeleted

func WaitForNamespacesDeleted(c clientset.Interface, namespaces []string, timeout time.Duration) error

WaitForNamespacesDeleted waits for the namespaces to be deleted.

func WaitForServiceEndpointsNum

func WaitForServiceEndpointsNum(c clientset.Interface, namespace, serviceName string, expectNum int, interval, timeout time.Duration) error

WaitForServiceEndpointsNum waits until the amount of endpoints that implement service to expectNum.

Types

type AfterEachActionFunc

type AfterEachActionFunc func(f *Framework, failed bool)

AfterEachActionFunc is a function that can be called after each test

type CleanupActionHandle

type CleanupActionHandle *int

CleanupActionHandle is an integer pointer type for handling cleanup action

func AddCleanupAction

func AddCleanupAction(fn func()) CleanupActionHandle

AddCleanupAction installs a function that will be called in the event of the whole test being terminated. This allows arbitrary pieces of the overall test to hook into SynchronizedAfterSuite(). The hooks are called in last-in-first-out order.

type ClientConfigGetter

type ClientConfigGetter func() (*restclient.Config, error)

ClientConfigGetter is a func that returns getter to return a config.

type CloudConfig

type CloudConfig struct {
	APIEndpoint       string
	ProjectID         string
	Zone              string   // for multizone tests, arbitrarily chosen zone
	Zones             []string // for multizone tests, use this set of zones instead of querying the cloud provider. Must include Zone.
	Region            string
	MultiZone         bool
	MultiMaster       bool
	Cluster           string
	MasterName        string
	NodeInstanceGroup string // comma-delimited list of groups' names
	NumNodes          int
	ClusterIPRange    string
	ClusterTag        string
	Network           string
	ConfigFile        string // for azure and openstack
	NodeTag           string
	MasterTag         string

	Provider ProviderInterface
}

CloudConfig holds the cloud configuration for e2e test suites.

type ClusterVerification

type ClusterVerification struct {
	// contains filtered or unexported fields
}

ClusterVerification is a struct for a verification of cluster state.

func (*ClusterVerification) ForEach

func (cl *ClusterVerification) ForEach(podFunc func(v1.Pod)) error

ForEach runs a function against every verifiable pod. Be warned that this doesn't wait for "n" pods to verify, so it may return very quickly if you have strict pod state requirements.

For example, if you require at least 5 pods to be running before your test will pass, its smart to first call "clusterVerification.WaitFor(5)" before you call clusterVerification.ForEach.

func (*ClusterVerification) WaitFor

func (cl *ClusterVerification) WaitFor(atLeast int, timeout time.Duration) ([]v1.Pod, error)

WaitFor waits for some minimum number of pods to be verified, according to the PodStateVerification definition.

func (*ClusterVerification) WaitForOrFail

func (cl *ClusterVerification) WaitForOrFail(atLeast int, timeout time.Duration)

WaitForOrFail provides a shorthand WaitFor with failure as an option if anything goes wrong.

type ContainerResourceGatherer

type ContainerResourceGatherer struct {
	// contains filtered or unexported fields
}

ContainerResourceGatherer is a struct for gathering container resource.

func NewResourceUsageGatherer

func NewResourceUsageGatherer(c clientset.Interface, options ResourceGathererOptions, pods *v1.PodList) (*ContainerResourceGatherer, error)

NewResourceUsageGatherer returns a new ContainerResourceGatherer.

func (*ContainerResourceGatherer) StartGatheringData

func (g *ContainerResourceGatherer) StartGatheringData()

StartGatheringData starts a stat gathering worker blocks for each node to track, and blocks until StopAndSummarize is called.

func (*ContainerResourceGatherer) StopAndSummarize

func (g *ContainerResourceGatherer) StopAndSummarize(percentiles []int, constraints map[string]ResourceConstraint) (*ResourceUsageSummary, error)

StopAndSummarize stops stat gathering workers, processes the collected stats, generates resource summary for the passed-in percentiles, and returns the summary. It returns an error if the resource usage at any percentile is beyond the specified resource constraints.

type ContainerResourceUsage

type ContainerResourceUsage struct {
	Name                    string
	Timestamp               time.Time
	CPUUsageInCores         float64
	MemoryUsageInBytes      uint64
	MemoryWorkingSetInBytes uint64
	MemoryRSSInBytes        uint64
	// The interval used to calculate CPUUsageInCores.
	CPUInterval time.Duration
}

ContainerResourceUsage is a structure for gathering container resource usage.

type ContainerType

type ContainerType int

ContainerType signifies container type

const (
	// FeatureEphemeralContainers allows running an ephemeral container in pod namespaces to troubleshoot a running pod
	FeatureEphemeralContainers featuregate.Feature = "EphemeralContainers"
	// Containers is for normal containers
	Containers ContainerType = 1 << iota
	// InitContainers is for init containers
	InitContainers
	// EphemeralContainers is for ephemeral containers
	EphemeralContainers
)

type ContainerVisitor

type ContainerVisitor func(container *v1.Container, containerType ContainerType) (shouldContinue bool)

ContainerVisitor is called with each container spec, and returns true if visiting should continue. Copied from pkg/api/v1/pod to avoid pulling extra dependencies

type CreateTestingNSFn

type CreateTestingNSFn func(baseName string, c clientset.Interface, labels map[string]string) (*v1.Namespace, error)

CreateTestingNSFn is a func that is responsible for creating namespace used for executing e2e tests.

type EventsLister

type EventsLister func(opts metav1.ListOptions, ns string) (*v1.EventList, error)

EventsLister is a func that lists events.

type ExecOptions

type ExecOptions struct {
	Command       []string
	Namespace     string
	PodName       string
	ContainerName string
	Stdin         io.Reader
	CaptureStdout bool
	CaptureStderr bool
	// If false, whitespace in std{err,out} will be removed.
	PreserveWhitespace bool
	Quiet              bool
}

ExecOptions passed to ExecWithOptions

type Factory

type Factory func() (ProviderInterface, error)

Factory is a func which operates provider specific behavior.

type FlakeReport

type FlakeReport struct {
	Flakes     []string `json:"flakes"`
	FlakeCount int      `json:"flakeCount"`
	// contains filtered or unexported fields
}

FlakeReport is a struct for managing the flake report.

func NewFlakeReport

func NewFlakeReport() *FlakeReport

NewFlakeReport returns a new flake report.

func (*FlakeReport) GetFlakeCount

func (f *FlakeReport) GetFlakeCount() int

GetFlakeCount returns the flake count.

func (*FlakeReport) PrintHumanReadable

func (f *FlakeReport) PrintHumanReadable() string

PrintHumanReadable returns string of flake report.

func (*FlakeReport) PrintJSON

func (f *FlakeReport) PrintJSON() string

PrintJSON returns the summary of frake report with JSON format.

func (*FlakeReport) RecordFlakeIfError

func (f *FlakeReport) RecordFlakeIfError(err error, optionalDescription ...interface{})

RecordFlakeIfError records the error (if non-nil) as a flake along with an optional description. This can be used as a replacement of framework.ExpectNoError() for non-critical errors that can be considered as 'flakes' to avoid causing failures in tests.

func (*FlakeReport) SummaryKind

func (f *FlakeReport) SummaryKind() string

SummaryKind returns the summary of flake report.

type Framework

type Framework struct {
	BaseName string

	// Set together with creating the ClientSet and the namespace.
	// Guaranteed to be unique in the cluster even when running the same
	// test multiple times in parallel.
	UniqueName string

	ClientSet                        clientset.Interface
	KubemarkExternalClusterClientSet clientset.Interface

	DynamicClient dynamic.Interface

	ScalesGetter scaleclient.ScalesGetter

	SkipNamespaceCreation bool          // Whether to skip creating a namespace
	Namespace             *v1.Namespace // Every test has at least one namespace unless creation is skipped

	NamespaceDeletionTimeout time.Duration

	// Constraints that passed to a check which is executed after data is gathered to
	// see if 99% of results are within acceptable bounds. It has to be injected in the test,
	// as expectations vary greatly. Constraints are grouped by the container names.
	AddonResourceConstraints map[string]ResourceConstraint

	// configuration for framework's client
	Options Options

	// Place where various additional data is stored during test run to be printed to ReportDir,
	// or stdout if ReportDir is not set once test ends.
	TestSummaries []TestDataSummary

	// Timeouts contains the custom timeouts used during the test execution.
	Timeouts *TimeoutContext
	// contains filtered or unexported fields
}

Framework supports common operations used by e2e tests; it will keep a client & a namespace for you. Eventual goal is to merge this with integration test framework.

func NewDefaultFramework

func NewDefaultFramework(baseName string) *Framework

NewDefaultFramework makes a new framework and sets up a BeforeEach/AfterEach for you (you can write additional before/after each functions).

func NewFramework

func NewFramework(baseName string, options Options, client clientset.Interface) *Framework

NewFramework creates a test framework.

func NewFrameworkWithCustomTimeouts

func NewFrameworkWithCustomTimeouts(baseName string, timeouts *TimeoutContext) *Framework

NewFrameworkWithCustomTimeouts makes a framework with with custom timeouts.

func (*Framework) AddAfterEach

func (f *Framework) AddAfterEach(name string, fn AfterEachActionFunc)

AddAfterEach is a way to add a function to be called after every test. The execution order is intentionally random to avoid growing dependencies. If you register the same name twice, it is a coding error and will panic.

func (*Framework) AddNamespacesToDelete

func (f *Framework) AddNamespacesToDelete(namespaces ...*v1.Namespace)

AddNamespacesToDelete adds one or more namespaces to be deleted when the test completes.

func (*Framework) AfterEach

func (f *Framework) AfterEach()

AfterEach deletes the namespace, after reading its events.

func (*Framework) BeforeEach

func (f *Framework) BeforeEach()

BeforeEach gets a client and makes a namespace.

func (*Framework) ClientConfig

func (f *Framework) ClientConfig() *rest.Config

ClientConfig an externally accessible method for reading the kube client config.

func (*Framework) CreateNamespace

func (f *Framework) CreateNamespace(baseName string, labels map[string]string) (*v1.Namespace, error)

CreateNamespace creates a namespace for e2e testing.

func (*Framework) DeleteNamespace

func (f *Framework) DeleteNamespace(name string)

DeleteNamespace can be used to delete a namespace. Additionally it can be used to dump namespace information so as it can be used as an alternative of framework deleting the namespace towards the end.

func (*Framework) ExecCommandInContainer

func (f *Framework) ExecCommandInContainer(podName, containerName string, cmd ...string) string

ExecCommandInContainer executes a command in the specified container.

func (*Framework) ExecCommandInContainerWithFullOutput

func (f *Framework) ExecCommandInContainerWithFullOutput(podName, containerName string, cmd ...string) (string, string, error)

ExecCommandInContainerWithFullOutput executes a command in the specified container and return stdout, stderr and error

func (*Framework) ExecWithOptions

func (f *Framework) ExecWithOptions(options ExecOptions) (string, string, error)

ExecWithOptions executes a command in the specified container, returning stdout, stderr and error. `options` allowed for additional parameters to be passed.

func (*Framework) MatchContainerOutput

func (f *Framework) MatchContainerOutput(
	pod *v1.Pod,
	containerName string,
	expectedOutput []string,
	matcher func(string, ...interface{}) gomegatypes.GomegaMatcher) error

MatchContainerOutput creates a pod and waits for all it's containers to exit with success. It then tests that the matcher with each expectedOutput matches the output of the specified container.

func (*Framework) NewClusterVerification

func (f *Framework) NewClusterVerification(namespace *v1.Namespace, filter PodStateVerification) *ClusterVerification

NewClusterVerification creates a new cluster verification.

func (*Framework) PodClient

func (f *Framework) PodClient() *PodClient

PodClient is a convenience method for getting a pod client interface in the framework's namespace, possibly applying test-suite specific transformations to the pod spec, e.g. for node e2e pod scheduling.

func (*Framework) PodClientNS

func (f *Framework) PodClientNS(namespace string) *PodClient

PodClientNS is a convenience method for getting a pod client interface in an alternative namespace, possibly applying test-suite specific transformations to the pod spec, e.g. for node e2e pod scheduling.

func (*Framework) RecordFlakeIfError

func (f *Framework) RecordFlakeIfError(err error, optionalDescription ...interface{})

RecordFlakeIfError records flakeness info if error happens. NOTE: This function is not used at any places yet, but we are in progress for https://github.com/kubernetes/kubernetes/issues/66239 which requires this. Please don't remove this.

type KubeCluster

type KubeCluster struct {
	Name    string `yaml:"name"`
	Cluster struct {
		CertificateAuthorityData string `yaml:"certificate-authority-data"`
		Server                   string `yaml:"server"`
	} `yaml:"cluster"`
}

KubeCluster is a struct for managing kubernetes cluster info.

type KubeConfig

type KubeConfig struct {
	Contexts []struct {
		Name    string `yaml:"name"`
		Context struct {
			Cluster string `yaml:"cluster"`
			User    string
		} `yaml:"context"`
	} `yaml:"contexts"`

	Clusters []KubeCluster `yaml:"clusters"`

	Users []KubeUser `yaml:"users"`
}

KubeConfig is a struct for managing kubernetes config.

func (*KubeConfig) FindCluster

func (kc *KubeConfig) FindCluster(name string) *KubeCluster

FindCluster returns cluster info which is the specified cluster name.

func (*KubeConfig) FindUser

func (kc *KubeConfig) FindUser(name string) *KubeUser

FindUser returns user info which is the specified user name.

type KubeUser

type KubeUser struct {
	Name string `yaml:"name"`
	User struct {
		Username string `yaml:"username"`
		Password string `yaml:"password" datapolicy:"password"`
		Token    string `yaml:"token" datapolicy:"token"`
	} `yaml:"user"`
}

KubeUser is a struct for managing kubernetes user info.

type KubectlBuilder

type KubectlBuilder struct {
	// contains filtered or unexported fields
}

KubectlBuilder is used to build, customize and execute a kubectl Command. Add more functions to customize the builder as needed.

func NewKubectlCommand

func NewKubectlCommand(namespace string, args ...string) *KubectlBuilder

NewKubectlCommand returns a KubectlBuilder for running kubectl.

func (KubectlBuilder) Exec

func (b KubectlBuilder) Exec() (string, error)

Exec runs the kubectl executable.

func (KubectlBuilder) ExecWithFullOutput

func (b KubectlBuilder) ExecWithFullOutput() (string, string, error)

ExecWithFullOutput runs the kubectl executable, and returns the stdout and stderr.

type NodeKillerConfig

type NodeKillerConfig struct {
	// Enabled determines whether NodeKill should do anything at all.
	// All other options below are ignored if Enabled = false.
	Enabled bool
	// FailureRatio is a percentage of all nodes that could fail simultinously.
	FailureRatio float64
	// Interval is time between node failures.
	Interval time.Duration
	// JitterFactor is factor used to jitter node failures.
	// Node will be killed between [Interval, Interval + (1.0 + JitterFactor)].
	JitterFactor float64
	// SimulatedDowntime is a duration between node is killed and recreated.
	SimulatedDowntime time.Duration
	// NodeKillerStopCh is a channel that is used to notify NodeKiller to stop killing nodes.
	NodeKillerStopCh chan struct{}
}

NodeKillerConfig describes configuration of NodeKiller -- a utility to simulate node failures.

type NodeTestContextType

type NodeTestContextType struct {
	// NodeE2E indicates whether it is running node e2e.
	NodeE2E bool
	// Name of the node to run tests on.
	NodeName string
	// NodeConformance indicates whether the test is running in node conformance mode.
	NodeConformance bool
	// PrepullImages indicates whether node e2e framework should prepull images.
	PrepullImages bool
	// TODO(pingcap): add this if needed
	// KubeletConfig is the kubelet configuration the test is running against.
	// KubeletConfig kubeletconfig.KubeletConfiguration
	// ImageDescription is the description of the image on which the test is running.
	ImageDescription string
	// RuntimeConfig is a map of API server runtime configuration values.
	RuntimeConfig map[string]string
	// SystemSpecName is the name of the system spec (e.g., gke) that's used in
	// the node e2e test. If empty, the default one (system.DefaultSpec) is
	// used. The system specs are in test/e2e_node/system/specs/.
	SystemSpecName string
	// RestartKubelet restarts Kubelet unit when the process is killed.
	RestartKubelet bool
	// ExtraEnvs is a map of environment names to values.
	ExtraEnvs map[string]string
}

NodeTestContextType is part of TestContextType, it is shared by all node e2e test.

type NodesSet

type NodesSet int

NodesSet is a value of nodes set.

const (
	// AllNodes means all containers on all nodes.
	AllNodes NodesSet = 0
	// MasterNodes means all containers on Master nodes only.
	MasterNodes NodesSet = 1
	// MasterAndDNSNodes means all containers on Master nodes and DNS containers on other nodes.
	MasterAndDNSNodes NodesSet = 2
)

type NullProvider

type NullProvider struct{}

NullProvider is the default implementation of the ProviderInterface which doesn't do anything.

func (NullProvider) CleanupServiceResources

func (n NullProvider) CleanupServiceResources(c clientset.Interface, loadBalancerName, region, zone string)

CleanupServiceResources is a base implementation which cleans up service resources.

func (NullProvider) CreatePD

func (n NullProvider) CreatePD(zone string) (string, error)

CreatePD is a base implementation which creates PD.

func (NullProvider) CreatePVSource

func (n NullProvider) CreatePVSource(zone, diskName string) (*v1.PersistentVolumeSource, error)

CreatePVSource is a base implementation which creates PV source.

func (NullProvider) DeleteNode

func (n NullProvider) DeleteNode(node *v1.Node) error

DeleteNode is a base implementation which deletes a node.

func (NullProvider) DeletePD

func (n NullProvider) DeletePD(pdName string) error

DeletePD is a base implementation which deletes PD.

func (NullProvider) DeletePVSource

func (n NullProvider) DeletePVSource(pvSource *v1.PersistentVolumeSource) error

DeletePVSource is a base implementation which deletes PV source.

func (NullProvider) EnableAndDisableInternalLB

func (n NullProvider) EnableAndDisableInternalLB() (enable, disable func(svc *v1.Service))

EnableAndDisableInternalLB is a base implementation which returns functions for enabling/disabling an internal LB.

func (NullProvider) EnsureLoadBalancerResourcesDeleted

func (n NullProvider) EnsureLoadBalancerResourcesDeleted(ip, portRange string) error

EnsureLoadBalancerResourcesDeleted is a base implementation which ensures load balancer is deleted.

func (NullProvider) FrameworkAfterEach

func (n NullProvider) FrameworkAfterEach(f *Framework)

FrameworkAfterEach is a base implementation which does AfterEach.

func (NullProvider) FrameworkBeforeEach

func (n NullProvider) FrameworkBeforeEach(f *Framework)

FrameworkBeforeEach is a base implementation which does BeforeEach.

func (NullProvider) GetGroupNodes

func (n NullProvider) GetGroupNodes(group string) ([]string, error)

GetGroupNodes is a base implementation which returns group nodes.

func (NullProvider) GroupSize

func (n NullProvider) GroupSize(group string) (int, error)

GroupSize returns the size of an instance group

func (NullProvider) LoadBalancerSrcRanges

func (n NullProvider) LoadBalancerSrcRanges() []string

LoadBalancerSrcRanges is a base implementation which returns the ranges of ips used by load balancers.

func (NullProvider) ResizeGroup

func (n NullProvider) ResizeGroup(string, int32) error

ResizeGroup is a base implementation which resizes group.

type Options

type Options struct {
	ClientQPS    float32
	ClientBurst  int
	GroupVersion *schema.GroupVersion
}

Options is a struct for managing test framework options.

type PodClient

type PodClient struct {
	v1core.PodInterface
	// contains filtered or unexported fields
}

PodClient is a struct for pod client.

func (*PodClient) Create

func (c *PodClient) Create(pod *v1.Pod) *v1.Pod

Create creates a new pod according to the framework specifications (don't wait for it to start).

func (*PodClient) DeleteSync

func (c *PodClient) DeleteSync(name string, options metav1.DeleteOptions, timeout time.Duration)

DeleteSync deletes the pod and wait for the pod to disappear for `timeout`. If the pod doesn't disappear before the timeout, it will fail the test.

type PodStateVerification

type PodStateVerification struct {
	// Optional: only pods that have k=v labels will pass this filter.
	Selectors map[string]string

	// Required: The phases which are valid for your pod.
	ValidPhases []v1.PodPhase

	// Optional: only pods passing this function will pass the filter
	// Verify a pod.
	// As an optimization, in addition to specifying filter (boolean),
	// this function allows specifying an error as well.
	// The error indicates that the polling of the pod spectrum should stop.
	Verify func(v1.Pod) (bool, error)

	// Optional: only pods with this name will pass the filter.
	PodName string
}

PodStateVerification represents a verification of pod state. Any time you have a set of pods that you want to operate against or query, this struct can be used to declaratively identify those pods.

type ProviderInterface

type ProviderInterface interface {
	FrameworkBeforeEach(f *Framework)
	FrameworkAfterEach(f *Framework)

	ResizeGroup(group string, size int32) error
	GetGroupNodes(group string) ([]string, error)
	GroupSize(group string) (int, error)

	DeleteNode(node *v1.Node) error

	CreatePD(zone string) (string, error)
	DeletePD(pdName string) error
	CreatePVSource(zone, diskName string) (*v1.PersistentVolumeSource, error)
	DeletePVSource(pvSource *v1.PersistentVolumeSource) error

	CleanupServiceResources(c clientset.Interface, loadBalancerName, region, zone string)

	EnsureLoadBalancerResourcesDeleted(ip, portRange string) error
	LoadBalancerSrcRanges() []string
	EnableAndDisableInternalLB() (enable, disable func(svc *v1.Service))
}

ProviderInterface contains the implementation for certain provider-specific functionality.

func SetupProviderConfig

func SetupProviderConfig(providerName string) (ProviderInterface, error)

SetupProviderConfig validates the chosen provider and creates an interface instance for it.

type ResourceConstraint

type ResourceConstraint struct {
	CPUConstraint    float64
	MemoryConstraint uint64
}

ResourceConstraint is a struct to hold constraints.

type ResourceGathererOptions

type ResourceGathererOptions struct {
	InKubemark                  bool
	Nodes                       NodesSet
	ResourceDataGatheringPeriod time.Duration
	ProbeDuration               time.Duration
	PrintVerboseLogs            bool
}

ResourceGathererOptions is a struct to hold options for resource.

type ResourceUsagePerContainer

type ResourceUsagePerContainer map[string]*ContainerResourceUsage

ResourceUsagePerContainer is map of ContainerResourceUsage

type ResourceUsageSummary

type ResourceUsageSummary map[string][]SingleContainerSummary

ResourceUsageSummary is a struct to hold resource usage summary. we can't have int here, as JSON does not accept integer keys.

func (*ResourceUsageSummary) PrintHumanReadable

func (s *ResourceUsageSummary) PrintHumanReadable() string

PrintHumanReadable prints resource usage summary in human readable.

func (*ResourceUsageSummary) PrintJSON

func (s *ResourceUsageSummary) PrintJSON() string

PrintJSON prints resource usage summary in JSON.

func (*ResourceUsageSummary) SummaryKind

func (s *ResourceUsageSummary) SummaryKind() string

SummaryKind returns string of ResourceUsageSummary

type SingleContainerSummary

type SingleContainerSummary struct {
	Name string
	CPU  float64
	Mem  uint64
}

SingleContainerSummary is a struct to hold single container summary.

type TestContextType

type TestContextType struct {
	KubeConfig         string
	KubeContext        string
	KubeAPIContentType string
	KubeVolumeDir      string
	CertDir            string
	Host               string
	BearerToken        string `datapolicy:"token"`
	// TODO: Deprecating this over time... instead just use gobindata_util.go , see #23987.
	RepoRoot                string
	DockershimCheckpointDir string
	// ListImages will list off all images that are used then quit
	ListImages bool

	// ListConformanceTests will list off all conformance tests that are available then quit
	ListConformanceTests bool

	// Provider identifies the infrastructure provider (gce, gke, aws)
	Provider string

	// Tooling is the tooling in use (e.g. kops, gke).  Provider is the cloud provider and might not uniquely identify the tooling.
	Tooling string

	CloudConfig    CloudConfig
	KubectlPath    string
	OutputDir      string
	ReportDir      string
	ReportPrefix   string
	Prefix         string
	MinStartupPods int
	// Timeout for waiting for system pods to be running
	SystemPodsStartupTimeout    time.Duration
	EtcdUpgradeStorage          string
	EtcdUpgradeVersion          string
	GCEUpgradeScript            string
	ContainerRuntime            string
	ContainerRuntimeEndpoint    string
	ContainerRuntimeProcessName string
	ContainerRuntimePidFile     string
	// SystemdServices are comma separated list of systemd services the test framework
	// will dump logs for.
	SystemdServices string
	// DumpSystemdJournal controls whether to dump the full systemd journal.
	DumpSystemdJournal       bool
	ImageServiceEndpoint     string
	MasterOSDistro           string
	NodeOSDistro             string
	NodeOSArch               string
	VerifyServiceAccount     bool
	DeleteNamespace          bool
	DeleteNamespaceOnFailure bool
	AllowedNotReadyNodes     int
	CleanStart               bool
	// If set to 'true' or 'all' framework will start a goroutine monitoring resource usage of system add-ons.
	// It will read the data every 30 seconds from all Nodes and print summary during afterEach. If set to 'master'
	// only master Node will be monitored.
	GatherKubeSystemResourceUsageData string
	GatherLogsSizes                   bool
	GatherMetricsAfterTest            string
	GatherSuiteMetricsAfterTest       bool
	MaxNodesToGather                  int
	// If set to 'true' framework will gather ClusterAutoscaler metrics when gathering them for other components.
	IncludeClusterAutoscalerMetrics bool
	// Currently supported values are 'hr' for human-readable and 'json'. It's a comma separated list.
	OutputPrintType string
	// NodeSchedulableTimeout is the timeout for waiting for all nodes to be schedulable.
	NodeSchedulableTimeout time.Duration
	// SystemDaemonsetStartupTimeout is the timeout for waiting for all system daemonsets to be ready.
	SystemDaemonsetStartupTimeout time.Duration
	// CreateTestingNS is responsible for creating namespace used for executing e2e tests.
	// It accepts namespace base name, which will be prepended with e2e prefix, kube client
	// and labels to be applied to a namespace.
	CreateTestingNS CreateTestingNSFn
	// If set to true test will dump data about the namespace in which test was running.
	DumpLogsOnFailure bool
	// Disables dumping cluster log from master and nodes after all tests.
	DisableLogDump bool
	// Path to the GCS artifacts directory to dump logs from nodes. Logexporter gets enabled if this is non-empty.
	LogexporterGCSPath string
	// featureGates is a map of feature names to bools that enable or disable alpha/experimental features.
	FeatureGates map[string]bool
	// Node e2e specific test context
	NodeTestContextType

	// The DNS Domain of the cluster.
	ClusterDNSDomain string

	// The configuration of NodeKiller.
	NodeKiller NodeKillerConfig

	// The Default IP Family of the cluster ("ipv4" or "ipv6")
	IPFamily string

	// NonblockingTaints is the comma-delimeted string given by the user to specify taints which should not stop the test framework from running tests.
	NonblockingTaints string

	// ProgressReportURL is the URL which progress updates will be posted to as tests complete. If empty, no updates are sent.
	ProgressReportURL string

	// SriovdpConfigMapFile is the path to the ConfigMap to configure the SRIOV device plugin on this host.
	SriovdpConfigMapFile string

	// SpecSummaryOutput is the file to write ginkgo.SpecSummary objects to as tests complete. Useful for debugging and test introspection.
	SpecSummaryOutput string

	// DockerConfigFile is a file that contains credentials which can be used to pull images from certain private registries, needed for a test.
	DockerConfigFile string

	// SnapshotControllerPodName is the name used for identifying the snapshot controller pod.
	SnapshotControllerPodName string

	// SnapshotControllerHTTPPort the port used for communicating with the snapshot controller HTTP endpoint.
	SnapshotControllerHTTPPort int

	// RequireDevices makes mandatory on the environment on which tests are run 1+ devices exposed through device plugins.
	// With this enabled The e2e tests requiring devices for their operation can assume that if devices aren't reported, the test can fail
	RequireDevices bool
}

TestContextType contains test settings and global state. Due to historic reasons, it is a mixture of items managed by the test framework itself, cloud providers and individual tests. The goal is to move anything not required by the framework into the code which uses the settings.

The recommendation for those settings is:

  • They are stored in their own context structure or local variables.
  • The standard `flag` package is used to register them. The flag name should follow the pattern <part1>.<part2>....<partn> where the prefix is unlikely to conflict with other tests or standard packages and each part is in lower camel case. For example, test/e2e/storage/csi/context.go could define storage.csi.numIterations.
  • framework/config can be used to simplify the registration of multiple options with a single function call: var storageCSI { NumIterations `default:"1" usage:"number of iterations"` } _ config.AddOptions(&storageCSI, "storage.csi")
  • The direct use Viper in tests is possible, but discouraged because it only works in test suites which use Viper (which is not required) and the supported options cannot be discovered by a test suite user.

Test suite authors can use framework/viper to make all command line parameters also configurable via a configuration file.

var TestContext TestContextType

TestContext should be used by all tests to access common context data.

func (TestContextType) ClusterIsIPv6

func (tc TestContextType) ClusterIsIPv6() bool

ClusterIsIPv6 returns true if the cluster is IPv6

type TestDataSummary

type TestDataSummary interface {
	SummaryKind() string
	PrintHumanReadable() string
	PrintJSON() string
}

TestDataSummary is an interface for managing test data.

type TimeoutContext

type TimeoutContext struct {
	// PodStart is how long to wait for the pod to be started.
	PodStart time.Duration

	// PodStartShort is same as `PodStart`, but shorter.
	// Use it in a case-by-case basis, mostly when you are sure pod start will not be delayed.
	PodStartShort time.Duration

	// PodStartSlow is same as `PodStart`, but longer.
	// Use it in a case-by-case basis, mostly when you are sure pod start will take longer than usual.
	PodStartSlow time.Duration

	// PodDelete is how long to wait for the pod to be deleted.
	PodDelete time.Duration

	// ClaimProvision is how long claims have to become dynamically provisioned.
	ClaimProvision time.Duration

	// ClaimProvisionShort is the same as `ClaimProvision`, but shorter.
	ClaimProvisionShort time.Duration

	// ClaimBound is how long claims have to become bound.
	ClaimBound time.Duration

	// PVReclaim is how long PVs have to become reclaimed.
	PVReclaim time.Duration

	// PVBound is how long PVs have to become bound.
	PVBound time.Duration

	// PVCreate is how long PVs have to be created.
	PVCreate time.Duration

	// PVDelete is how long PVs have to become deleted.
	PVDelete time.Duration

	// PVDeleteSlow is the same as PVDelete, but slower.
	PVDeleteSlow time.Duration

	// SnapshotCreate is how long for snapshot to create snapshotContent.
	SnapshotCreate time.Duration

	// SnapshotDelete is how long for snapshot to delete snapshotContent.
	SnapshotDelete time.Duration

	// SnapshotControllerMetrics is how long to wait for snapshot controller metrics.
	SnapshotControllerMetrics time.Duration
}

TimeoutContext contains timeout settings for several actions.

func NewTimeoutContextWithDefaults

func NewTimeoutContextWithDefaults() *TimeoutContext

NewTimeoutContextWithDefaults returns a TimeoutContext with default values.

Directories

Path Synopsis
Package ginkgowrapper wraps Ginkgo Fail and Skip functions to panic with structured data instead of a constant string.
Package ginkgowrapper wraps Ginkgo Fail and Skip functions to panic with structured data instead of a constant string.

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