Documentation ¶
Overview ¶
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.
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.
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.
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.
Index ¶
- Constants
- Variables
- func CreateRule(ipv, icmpType, icmpCode int, ...) (api.Rule, api.Rule)
- func E2eDatastoreDescribe(description string, datastores DatastoreType, ...) bool
- func ExpectResource(res runtime.Object, kind, namespace, name string, spec interface{}, ...)
- func HookLogrusForGinkgo()
- type DatastoreType
- type SyncerTester
- func (st *SyncerTester) BlockUpdateHandling()
- func (st *SyncerTester) ExpectCacheSize(size int)
- func (st *SyncerTester) ExpectData(kvp model.KVPair)
- func (st *SyncerTester) ExpectNoData(k model.Key)
- func (st *SyncerTester) ExpectOnUpdates(expected [][]api.Update)
- func (st *SyncerTester) ExpectParseError(key, value string)
- func (st *SyncerTester) ExpectStatusUnchanged()
- func (st *SyncerTester) ExpectStatusUpdate(status api.SyncStatus)
- func (st *SyncerTester) ExpectUpdates(expected []api.Update)
- func (st *SyncerTester) GetCacheEntries() []model.KVPair
- func (st *SyncerTester) OnStatusUpdated(status api.SyncStatus)
- func (st *SyncerTester) OnUpdates(updates []api.Update)
- func (st *SyncerTester) ParseFailed(rawKey string, rawValue string)
- func (st *SyncerTester) UnblockUpdateHandling()
- type TestResourceWatchInterface
Constants ¶
const ExpectNoNamespace = ""
ExpectResource is a test validation function that checks the specified resource matches the key attributes: kind, namespace, name and the supplied Spec. This should be called within a Ginkgo test.
Variables ¶
var EgressRule1 = apiv2.Rule{ Action: "pass", IPVersion: &ipv4, Protocol: &numProtocol1, ICMP: &icmp1, Source: apiv2.EntityRule{ Nets: []string{cidr2}, Selector: "all()", }, }
var EgressRule2 = apiv2.Rule{ Action: "allow", IPVersion: &ipv6, Protocol: &strProtocol2, ICMP: &icmp1, Source: apiv2.EntityRule{ Nets: []string{cidrv62}, Selector: "label2 == '1234'", }, }
var InRule1 = apiv2.Rule{ Action: "allow", IPVersion: &ipv4, Protocol: &strProtocol1, ICMP: &icmp1, Source: apiv2.EntityRule{ Nets: []string{cidr1}, Selector: "label1 == 'value1'", Ports: []numorstring.Port{ portRange, singlePort, namedPort, }, }, }
var InRule2 = apiv2.Rule{ Action: "deny", IPVersion: &ipv6, Protocol: &numProtocol1, ICMP: &icmp1, Source: apiv2.EntityRule{ Nets: []string{cidrv61}, Selector: "has(label2)", }, }
var (
UnsetSyncStatus = api.SyncStatus(255)
)
Functions ¶
func CreateRule ¶
func CreateRule(ipv, icmpType, icmpCode int, proto, cidrStr, tag, selector, inAction, eAction string) (api.Rule, api.Rule)
CreateRule takes all fields necessary to create a api.Rule object and returns ingress and egress api.Rules.
func E2eDatastoreDescribe ¶ added in v1.1.1
func E2eDatastoreDescribe(description string, datastores DatastoreType, body func(config apiconfig.CalicoAPIConfig)) bool
E2eDatastoreDescribe is a replacement for ginkgo.Describe which invokes Describe multiple times for one or more different datastore drivers - passing in the Calico API configuration as a parameter to the test function. This allows easy construction of end-to-end tests covering multiple different datastore drivers.
The *datastores* parameter is a bit-wise OR of the required datastore drivers that will be tested.
func ExpectResource ¶
func HookLogrusForGinkgo ¶
func HookLogrusForGinkgo()
Types ¶
type DatastoreType ¶ added in v1.2.0
type DatastoreType int
const ( DatastoreEtcdV2 DatastoreType = 1 << iota DatastoreEtcdV3 DatastoreK8s DatastoreAll = DatastoreEtcdV3 | DatastoreK8s )
type SyncerTester ¶
type SyncerTester struct {
// contains filtered or unexported fields
}
func NewSyncerTester ¶
func NewSyncerTester() *SyncerTester
Create a new SyncerTester. This helper class implements the api.SyncerCallbacks and provides a number of useful methods for asserting the data that has been supplied on the callbacks.
func (*SyncerTester) BlockUpdateHandling ¶
func (st *SyncerTester) BlockUpdateHandling()
Block the update handling.
func (*SyncerTester) ExpectCacheSize ¶
func (st *SyncerTester) ExpectCacheSize(size int)
ExpectCacheSize verifies that the cache size is as expected.
func (*SyncerTester) ExpectData ¶
func (st *SyncerTester) ExpectData(kvp model.KVPair)
ExpectData verifies that a KVPair is in the cache. If a Revision is not supplied, then just the value will be compared (useful for Kubernetes node backed resources where the revision number is not stable).
func (*SyncerTester) ExpectNoData ¶
func (st *SyncerTester) ExpectNoData(k model.Key)
ExpectNoData verifies that a Key is not in the cache.
func (*SyncerTester) ExpectOnUpdates ¶
func (st *SyncerTester) ExpectOnUpdates(expected [][]api.Update)
Call to test which onUpdate events were received. This removes all updates/onUpdate events from this receiver, so that the next call to this just requires the next set of updates.
Note that for this function to be useful, your test code needs to have fine grained control over the order in which events occur.
func (*SyncerTester) ExpectParseError ¶
func (st *SyncerTester) ExpectParseError(key, value string)
Call to test the next parse error that we expect to have received. This removes the parse error from the receiver.
func (*SyncerTester) ExpectStatusUnchanged ¶
func (st *SyncerTester) ExpectStatusUnchanged()
ExpectStatusUnchanged verifies that the status has not changed since the last ExpectStatusUpdate call.
func (*SyncerTester) ExpectStatusUpdate ¶
func (st *SyncerTester) ExpectStatusUpdate(status api.SyncStatus)
ExpectStatusUpdate verifies a status update message has been received. This should only be called *after* a new status change has occurred. Since the concrete implementations of the syncer API only migrate status in increasing readiness, this means it should be called once each for the following statuses in order: WaitingForDatastore, ResyncInProgress, InSync. The OnStatusUpdate callback will panic if the above is not true.
func (*SyncerTester) ExpectUpdates ¶
func (st *SyncerTester) ExpectUpdates(expected []api.Update)
Call to test the onUpdate events (without worrying about which specific OnUpdate events were received). This removes all updates/onUpdate events from this receiver, so that the next call to this just requires the next set of updates.
Note that for this function to be useful, your test code needs to have fine grained control over the order in which events occur.
func (*SyncerTester) GetCacheEntries ¶
func (st *SyncerTester) GetCacheEntries() []model.KVPair
GetCacheEntries returns a slice of the current cache entries.
func (*SyncerTester) OnStatusUpdated ¶
func (st *SyncerTester) OnStatusUpdated(status api.SyncStatus)
OnStatusUpdated updates the current status and then blocks until a call to ExpectStatusUpdate() has been called.
func (*SyncerTester) OnUpdates ¶
func (st *SyncerTester) OnUpdates(updates []api.Update)
OnUpdates just stores the update and asserts the state of the cache and the update.
func (*SyncerTester) ParseFailed ¶
func (st *SyncerTester) ParseFailed(rawKey string, rawValue string)
ParseFailed just stores the parse failure.
func (*SyncerTester) UnblockUpdateHandling ¶
func (st *SyncerTester) UnblockUpdateHandling()
Unblock the update handling.
type TestResourceWatchInterface ¶
type TestResourceWatchInterface interface { // Stop is used to free up resources associated with the test watcher. The caller // must call this when they are finished with the watcher. Stop() // ExpectEvents is used to validate the events received by the Watcher match the // set of expected events. ExpectEvents(kind string, events []watch.Event) // ExpectEventsAnyOrder is used to validate the events received by the Watcher match the // set of expected events. The order of events is not important. This should only be // called with sets of added events (not deleted or modified), and is used to verify an // initial snapshot. ExpectEventsAnyOrder(kind string, events []watch.Event) }
TestResourceWatchInterface provides methods to terminate a resource watch test, and to validate the events received by the Watch.
func NewTestResourceWatch ¶
func NewTestResourceWatch(datastoreType apiconfig.DatastoreType, w watch.Interface) TestResourceWatchInterface
TestResourceWatch is a test helper used to validate a set of events are received from a watcher. The caller creates a watch.Interface from the resource-specific client and passes that to TestResourceWatch to create a TestResourceWatchInterface.