Documentation ¶
Index ¶
Constants ¶
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Functions ¶
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Types ¶
type Client ¶
type Client interface { // Create creates the object specified in the KVPair, which must not // already exist. On success, returns a KVPair for the object with // revision information filled-in. Create(ctx context.Context, object *model.KVPair) (*model.KVPair, error) // Update modifies the existing object specified in the KVPair. // On success, returns a KVPair for the object with revision // information filled-in. If the input KVPair has revision // information then the update only succeeds if the revision is still // current. Update(ctx context.Context, object *model.KVPair) (*model.KVPair, error) // Apply updates or creates the object specified in the KVPair. // On success, returns a KVPair for the object with revision // information filled-in. Revision information is ignored on an Apply. Apply(ctx context.Context, object *model.KVPair) (*model.KVPair, error) // Delete removes the object specified by the key. If the call // contains revision information, the delete only succeeds if the // revision is still current. // // Some keys are hierarchical, and Delete is a recursive operation. // // Any objects that were implicitly added by a Create operation should // also be removed when deleting the objects that implicitly created it. // For example, deleting the last WorkloadEndpoint in a Workload will // also remove the Workload. Delete(ctx context.Context, key model.Key, revision string) (*model.KVPair, error) // DeleteKVP removes the object specified by the KVPair. If the KVPair // contains revision information, the delete only succeeds if the // revision is still current. // // Some keys are hierarchical, and Delete is a recursive operation. // // Any objects that were implicitly added by a Create operation should // also be removed when deleting the objects that implicitly created it. // For example, deleting the last WorkloadEndpoint in a Workload will // also remove the Workload. DeleteKVP(ctx context.Context, object *model.KVPair) (*model.KVPair, error) // Get returns the object identified by the given key as a KVPair with // revision information. Get(ctx context.Context, key model.Key, revision string) (*model.KVPair, error) // List returns a slice of KVPairs matching the input list options. // list should be passed one of the model.<Type>ListOptions structs. // Non-zero fields in the struct are used as filters. List(ctx context.Context, list model.ListInterface, revision string) (*model.KVPairList, error) // Watch returns a WatchInterface used for watching a resources matching the // input list options. Watch(ctx context.Context, list model.ListInterface, revision string) (WatchInterface, error) // EnsureInitialized ensures that the backend is initialized // any ready to be used. EnsureInitialized() error // Clean removes Calico data from the backend datastore. Used for test purposes. Clean() error }
Client is the interface to the backend datastore. It makes heavy use of the KVPair struct, which contains a key and (optional) value drawn from the backend/model package along with opaque revision information that the datastore uses to enforce consistency.
type SyncStatus ¶
type SyncStatus uint8
SyncStatus represents the overall state of the datastore. When the status changes, the Syncer calls OnStatusUpdated() on its callback.
const ( // WaitForDatastore means the Syncer is waiting to connect to the datastore. // (Or, it is waiting for the data in the datastore to be ready to use.) WaitForDatastore SyncStatus = iota // ResyncInProgress means the Syncer is resyncing with the datastore. // During the first resync, the Syncer sends updates for all keys that // exist in the datastore as well as any updates that occur // concurrently. ResyncInProgress // InSync means the Syncer has now sent all the existing keys in the // datastore and the user of hte API has the full picture. InSync )
func (SyncStatus) String ¶
func (s SyncStatus) String() string
type Syncer ¶
type Syncer interface { // Starts the Syncer. May start a background goroutine. Start() // Stops the Syncer. Stops all background goroutines. Any cached updates that the syncer knows about // are emitted as delete events. Stop() }
type SyncerCallbacks ¶
type SyncerCallbacks interface { // OnStatusUpdated is called when the status of the sync status of the // datastore changes. OnStatusUpdated(status SyncStatus) // OnUpdates is called when the Syncer has one or more updates to report. // Updates consist of typed key-value pairs. The keys are drawn from the // backend.model package. The values are either nil, to indicate a // deletion (or failure to parse a value), or a pointer to a value of // the associated value type. // // When a recursive delete is made, deleting many leaf keys, the Syncer // generates deletion updates for all the leaf keys. OnUpdates(updates []Update) }
type SyncerParseFailCallbacks ¶
SyncerParseFailCallbacks is an optional interface that can be implemented by a Syncer callback. Datastores that support it can report a failure to parse a particular key or value.
type Update ¶
type Update struct { model.KVPair UpdateType UpdateType }
Update from the Syncer. A KV pair plus extra metadata.
type UpdateType ¶
type UpdateType uint8
const ( UpdateTypeKVUnknown UpdateType = iota UpdateTypeKVNew UpdateTypeKVUpdated UpdateTypeKVDeleted )
type WatchEvent ¶ added in v1.7.4
type WatchEvent struct { Type WatchEventType // Old is: // * If Type is Added or Error: nil // * If Type is Modified or Deleted: the previous state of the object // New is: // * If Type is Added or Modified: the new state of the object. // * If Type is Deleted or Error: nil Old *model.KVPair New *model.KVPair // The error, if EventType is Error. Error error }
Event represents a single event to a watched resource.
type WatchEventType ¶ added in v1.7.4
type WatchEventType string
WatchEventType defines the possible types of events.
const ( WatchAdded WatchEventType = "ADDED" WatchModified WatchEventType = "MODIFIED" WatchDeleted WatchEventType = "DELETED" WatchError WatchEventType = "ERROR" )
type WatchInterface ¶ added in v1.7.4
type WatchInterface interface { // Stops watching. Will close the channel returned by ResultChan(). Releases // any resources used by the watch. Stop() // Returns a chan which will receive all the events. This channel is closed when: // - Stop() is called, or // - A error of type errors.ErrorWatchTerminated is received. // In both cases the watcher will be cleaned up, and the client should stop receiving // from this channel. ResultChan() <-chan WatchEvent // HasTerminated returns true if the watcher has terminated and released all // resources. This is used for test purposes. HasTerminated() bool }
Interface can be implemented by anything that knows how to watch and report changes.