Documentation ¶
Index ¶
- func DefineTestSuite(driver TestDriver, tsInits []func() TestSuite)
- func GetDriverNameWithFeatureTags(driver TestDriver) string
- func GetSnapshotClass(snapshotter string, parameters map[string]string, ns string, suffix string) *unstructured.Unstructured
- func GetStorageClass(provisioner string, parameters map[string]string, ...) *storagev1.StorageClass
- func PVMultiNodeCheck(client clientset.Interface, claim *v1.PersistentVolumeClaim, ...)
- func PVWriteReadSingleNodeCheck(client clientset.Interface, claim *v1.PersistentVolumeClaim, ...)
- func RunInPodWithVolume(c clientset.Interface, ns, claimName, podName, command string, ...)
- func StartInPodWithVolume(c clientset.Interface, ns, claimName, podName, command string, ...) *v1.Pod
- func StartPodLogs(f *framework.Framework) func()
- func StopPod(c clientset.Interface, pod *v1.Pod)
- func SubpathTestPod(f *framework.Framework, subpath, volumeType string, source *v1.VolumeSource, ...) *v1.Pod
- func TestBasicSubpath(f *framework.Framework, contents string, pod *v1.Pod)
- func TestBasicSubpathFile(f *framework.Framework, contents string, pod *v1.Pod, filepath string)
- func WaitForSnapshotReady(c dynamic.Interface, ns string, snapshotName string, ...) error
- type Capability
- type DriverInfo
- type DynamicPVTestDriver
- type InlineVolumeTestDriver
- type NodeSelection
- type PerTestConfig
- type PreprovisionedPVTestDriver
- type PreprovisionedVolumeTestDriver
- type SnapshotClassTest
- type SnapshottableTestDriver
- type StorageClassTest
- func (t StorageClassTest) TestBindingWaitForFirstConsumer(nodeSelector map[string]string, expectUnschedulable bool) (*v1.PersistentVolume, *v1.Node)
- func (t StorageClassTest) TestBindingWaitForFirstConsumerMultiPVC(claims []*v1.PersistentVolumeClaim, nodeSelector map[string]string, ...) ([]*v1.PersistentVolume, *v1.Node)
- func (t StorageClassTest) TestDynamicProvisioning() *v1.PersistentVolume
- type TestDriver
- type TestResource
- type TestSuite
- type TestSuiteInfo
- type TestVolume
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func DefineTestSuite ¶
func DefineTestSuite(driver TestDriver, tsInits []func() TestSuite)
DefineTestSuite defines tests for all testpatterns and all testSuites for a driver
func GetDriverNameWithFeatureTags ¶
func GetDriverNameWithFeatureTags(driver TestDriver) string
GetDriverNameWithFeatureTags returns driver name with feature tags For example)
- [Driver: nfs]
- [Driver: rbd][Feature:Volumes]
func GetSnapshotClass ¶
func GetSnapshotClass( snapshotter string, parameters map[string]string, ns string, suffix string, ) *unstructured.Unstructured
GetSnapshotClass constructs a new SnapshotClass instance with a unique name that is based on namespace + suffix.
func GetStorageClass ¶
func GetStorageClass( provisioner string, parameters map[string]string, bindingMode *storagev1.VolumeBindingMode, ns string, suffix string, ) *storagev1.StorageClass
GetStorageClass constructs a new StorageClass instance with a unique name that is based on namespace + suffix.
func PVMultiNodeCheck ¶
func PVMultiNodeCheck(client clientset.Interface, claim *v1.PersistentVolumeClaim, volume *v1.PersistentVolume, node NodeSelection)
PVMultiNodeCheck checks that a PV retains data when moved between nodes.
It starts these pods: - The first pod writes 'hello word' to the /mnt/test (= the volume) on one node. - The second pod runs grep 'hello world' on /mnt/test on another node.
The first node is selected by Kubernetes when scheduling the first pod. The second pod uses the same criteria, except that a special anti-affinity for the first node gets added. This test can only pass if the cluster has more than one suitable node. The caller has to ensure that.
If all succeeds, Kubernetes actually allocated something that is persistent across pods and across nodes.
This is a common test that can be called from a StorageClassTest.PvCheck.
func PVWriteReadSingleNodeCheck ¶
func PVWriteReadSingleNodeCheck(client clientset.Interface, claim *v1.PersistentVolumeClaim, volume *v1.PersistentVolume, node NodeSelection)
PVWriteReadSingleNodeCheck checks that a PV retains data on a single node.
It starts two pods: - The first pod writes 'hello word' to the /mnt/test (= the volume) on one node. - The second pod runs grep 'hello world' on /mnt/test on the same node.
The node is selected by Kubernetes when scheduling the first pod. It's then selected via its name for the second pod.
If both succeed, Kubernetes actually allocated something that is persistent across pods.
This is a common test that can be called from a StorageClassTest.PvCheck.
func RunInPodWithVolume ¶
func RunInPodWithVolume(c clientset.Interface, ns, claimName, podName, command string, node NodeSelection)
RunInPodWithVolume runs a command in a pod with given claim mounted to /mnt directory. It starts, checks, collects output and stops it.
func StartInPodWithVolume ¶
func StartInPodWithVolume(c clientset.Interface, ns, claimName, podName, command string, node NodeSelection) *v1.Pod
StartInPodWithVolume starts a command in a pod with given claim mounted to /mnt directory The caller is responsible for checking the pod and deleting it.
func StartPodLogs ¶
StartPodLogs begins capturing log output and events from current and future pods running in the namespace of the framework. That ends when the returned cleanup function is called.
The output goes to log files (when using --report-dir, as in the CI) or the output stream (otherwise).
func SubpathTestPod ¶
func SubpathTestPod(f *framework.Framework, subpath, volumeType string, source *v1.VolumeSource, privilegedSecurityContext bool) *v1.Pod
SubpathTestPod returns a pod spec for subpath tests
func TestBasicSubpath ¶
TestBasicSubpath runs basic subpath test
func TestBasicSubpathFile ¶
TestBasicSubpathFile runs basic subpath file test
Types ¶
type Capability ¶
type Capability string
Capability represents a feature that a volume plugin supports
const ( CapPersistence Capability = "persistence" // data is persisted across pod restarts CapBlock Capability = "block" // raw block mode CapFsGroup Capability = "fsGroup" // volume ownership via fsGroup CapExec Capability = "exec" // exec a file in the volume CapDataSource Capability = "dataSource" // support populate data from snapshot // multiple pods on a node can use the same volume concurrently; // for CSI, see: // - https://github.com/container-storage-interface/spec/pull/150 // - https://github.com/container-storage-interface/spec/issues/178 // - NodeStageVolume in the spec CapMultiPODs Capability = "multipods" )
type DriverInfo ¶
type DriverInfo struct { Name string // Name of the driver, aka the provisioner name. FeatureTag string // FeatureTag for the driver MaxFileSize int64 // Max file size to be tested for this driver SupportedFsType sets.String // Map of string for supported fs type SupportedMountOption sets.String // Map of string for supported mount option RequiredMountOption sets.String // Map of string for required mount option (Optional) Capabilities map[Capability]bool // Map that represents plugin capabilities }
DriverInfo represents static information about a TestDriver.
type DynamicPVTestDriver ¶
type DynamicPVTestDriver interface { TestDriver // GetDynamicProvisionStorageClass returns a StorageClass dynamic provision Persistent Volume. // It will set fsType to the StorageClass, if TestDriver supports it. // It will return nil, if the TestDriver doesn't support it. GetDynamicProvisionStorageClass(config *PerTestConfig, fsType string) *storagev1.StorageClass // GetClaimSize returns the size of the volume that is to be provisioned ("5Gi", "1Mi"). // The size must be chosen so that the resulting volume is large enough for all // enabled tests and within the range supported by the underlying storage. GetClaimSize() string }
DynamicPVTestDriver represents an interface for a TestDriver that supports DynamicPV
type InlineVolumeTestDriver ¶
type InlineVolumeTestDriver interface { PreprovisionedVolumeTestDriver // GetVolumeSource returns a volumeSource for inline volume. // It will set readOnly and fsType to the volumeSource, if TestDriver supports both of them. // It will return nil, if the TestDriver doesn't support either of the parameters. GetVolumeSource(readOnly bool, fsType string, testVolume TestVolume) *v1.VolumeSource }
InlineVolumeTestDriver represents an interface for a TestDriver that supports InlineVolume
type NodeSelection ¶
NodeSelection specifies where to run a pod, using a combination of fixed node name, node selector and/or affinity.
type PerTestConfig ¶
type PerTestConfig struct { // The test driver for the test. Driver TestDriver // Some short word that gets inserted into dynamically // generated entities (pods, paths) as first part of the name // to make debugging easier. Can be the same for different // tests inside the test suite. Prefix string // The framework instance allocated for the current test. Framework *framework.Framework // If non-empty, then pods using a volume will be scheduled // onto the node with this name. Otherwise Kubernetes will // pick a node. ClientNodeName string // Some tests also support scheduling pods onto nodes with // these label/value pairs. As not all tests use this field, // a driver that absolutely needs the pods on a specific // node must use ClientNodeName. ClientNodeSelector map[string]string // Some test drivers initialize a storage server. This is // the configuration that then has to be used to run tests. // The values above are ignored for such tests. ServerConfig *framework.VolumeTestConfig }
PerTestConfig represents parameters that control test execution. One instance gets allocated for each test and is then passed via pointer to functions involved in the test.
func (*PerTestConfig) GetUniqueDriverName ¶
func (config *PerTestConfig) GetUniqueDriverName() string
GetUniqueDriverName returns unique driver name that can be used parallelly in tests
type PreprovisionedPVTestDriver ¶
type PreprovisionedPVTestDriver interface { PreprovisionedVolumeTestDriver // GetPersistentVolumeSource returns a PersistentVolumeSource with volume node affinity for pre-provisioned Persistent Volume. // It will set readOnly and fsType to the PersistentVolumeSource, if TestDriver supports both of them. // It will return nil, if the TestDriver doesn't support either of the parameters. GetPersistentVolumeSource(readOnly bool, fsType string, testVolume TestVolume) (*v1.PersistentVolumeSource, *v1.VolumeNodeAffinity) }
PreprovisionedPVTestDriver represents an interface for a TestDriver that supports PreprovisionedPV
type PreprovisionedVolumeTestDriver ¶
type PreprovisionedVolumeTestDriver interface { TestDriver // CreateVolume creates a pre-provisioned volume of the desired volume type. CreateVolume(config *PerTestConfig, volumeType testpatterns.TestVolType) TestVolume }
PreprovisionedVolumeTestDriver represents an interface for a TestDriver that has pre-provisioned volume
type SnapshotClassTest ¶
type SnapshottableTestDriver ¶
type SnapshottableTestDriver interface { TestDriver // GetSnapshotClass returns a SnapshotClass to create snapshot. // It will return nil, if the TestDriver doesn't support it. GetSnapshotClass(config *PerTestConfig) *unstructured.Unstructured }
SnapshottableTestDriver represents an interface for a TestDriver that supports DynamicSnapshot
type StorageClassTest ¶
type StorageClassTest struct { Client clientset.Interface Claim *v1.PersistentVolumeClaim Class *storage.StorageClass Name string CloudProviders []string Provisioner string StorageClassName string Parameters map[string]string DelayBinding bool ClaimSize string ExpectedSize string PvCheck func(claim *v1.PersistentVolumeClaim, volume *v1.PersistentVolume) VolumeMode *v1.PersistentVolumeMode AllowVolumeExpansion bool }
StorageClassTest represents parameters to be used by provisioning tests. Not all parameters are used by all tests.
func (StorageClassTest) TestBindingWaitForFirstConsumer ¶
func (t StorageClassTest) TestBindingWaitForFirstConsumer(nodeSelector map[string]string, expectUnschedulable bool) (*v1.PersistentVolume, *v1.Node)
func (StorageClassTest) TestBindingWaitForFirstConsumerMultiPVC ¶
func (t StorageClassTest) TestBindingWaitForFirstConsumerMultiPVC(claims []*v1.PersistentVolumeClaim, nodeSelector map[string]string, expectUnschedulable bool) ([]*v1.PersistentVolume, *v1.Node)
func (StorageClassTest) TestDynamicProvisioning ¶
func (t StorageClassTest) TestDynamicProvisioning() *v1.PersistentVolume
TestDynamicProvisioning tests dynamic provisioning with specified StorageClassTest
type TestDriver ¶
type TestDriver interface { // GetDriverInfo returns DriverInfo for the TestDriver. This must be static // information. GetDriverInfo() *DriverInfo // SkipUnsupportedTest skips test if Testpattern is not // suitable to test with the TestDriver. It gets called after // parsing parameters of the test suite and before the // framework is initialized. Cheap tests that just check // parameters like the cloud provider can and should be // done in SkipUnsupportedTest to avoid setting up more // expensive resources like framework.Framework. Tests that // depend on a connection to the cluster can be done in // PrepareTest once the framework is ready. SkipUnsupportedTest(testpatterns.TestPattern) // PrepareTest is called at test execution time each time a new test case is about to start. // It sets up all necessary resources and returns the per-test configuration // plus a cleanup function that frees all allocated resources. PrepareTest(f *framework.Framework) (*PerTestConfig, func()) }
TestDriver represents an interface for a driver to be tested in TestSuite. Except for GetDriverInfo, all methods will be called at test runtime and thus can use framework.Skipf, framework.Fatal, Gomega assertions, etc.
type TestResource ¶
type TestResource interface {
// contains filtered or unexported methods
}
TestResource represents an interface for resources that is used by TestSuite
type TestSuite ¶
type TestSuite interface {
// contains filtered or unexported methods
}
TestSuite represents an interface for a set of tests which works with TestDriver
func InitProvisioningTestSuite ¶
func InitProvisioningTestSuite() TestSuite
InitProvisioningTestSuite returns provisioningTestSuite that implements TestSuite interface
func InitSnapshottableTestSuite ¶
func InitSnapshottableTestSuite() TestSuite
InitSnapshottableTestSuite returns snapshottableTestSuite that implements TestSuite interface
func InitSubPathTestSuite ¶
func InitSubPathTestSuite() TestSuite
InitSubPathTestSuite returns subPathTestSuite that implements TestSuite interface
func InitVolumeIOTestSuite ¶
func InitVolumeIOTestSuite() TestSuite
InitVolumeIOTestSuite returns volumeIOTestSuite that implements TestSuite interface
func InitVolumeModeTestSuite ¶
func InitVolumeModeTestSuite() TestSuite
InitVolumeModeTestSuite returns volumeModeTestSuite that implements TestSuite interface
func InitVolumesTestSuite ¶
func InitVolumesTestSuite() TestSuite
InitVolumesTestSuite returns volumesTestSuite that implements TestSuite interface
type TestSuiteInfo ¶
type TestSuiteInfo struct {
// contains filtered or unexported fields
}
TestSuiteInfo represents a set of parameters for TestSuite
type TestVolume ¶
type TestVolume interface {
DeleteVolume()
}
TestVolume is the result of PreprovisionedVolumeTestDriver.CreateVolume. The only common functionality is to delete it. Individual driver interfaces have additional methods that work with volumes created by them.
func CreateVolume ¶
func CreateVolume(driver TestDriver, config *PerTestConfig, volType testpatterns.TestVolType) TestVolume
CreateVolume creates volume for test unless dynamicPV test