Documentation ¶
Index ¶
Constants ¶
const ( GarbageCollectSubsystem = "garbage_collector" EventProcessingLatencyKey = "event_processing_latency_microseconds" DirtyProcessingLatencyKey = "dirty_processing_latency_microseconds" OrphanProcessingLatencyKey = "orphan_processing_latency_microseconds" )
const ResourceResyncTime time.Duration = 0
Variables ¶
var ( EventProcessingLatency = prometheus.NewSummary( prometheus.SummaryOpts{ Subsystem: GarbageCollectSubsystem, Name: EventProcessingLatencyKey, Help: "Time in microseconds of an event spend in the eventQueue", }, ) DirtyProcessingLatency = prometheus.NewSummary( prometheus.SummaryOpts{ Subsystem: GarbageCollectSubsystem, Name: DirtyProcessingLatencyKey, Help: "Time in microseconds of an item spend in the dirtyQueue", }, ) OrphanProcessingLatency = prometheus.NewSummary( prometheus.SummaryOpts{ Subsystem: GarbageCollectSubsystem, Name: OrphanProcessingLatencyKey, Help: "Time in microseconds of an item spend in the orphanQueue", }, ) )
Functions ¶
func DefaultIgnoredResources ¶ added in v1.7.0
func DefaultIgnoredResources() map[schema.GroupResource]struct{}
DefaultIgnoredResources returns the default set of resources that the garbage collector controller should ignore. This is exposed so downstream integrators can have access to the defaults, and add to them as necessary when constructing the controller.
Types ¶
type GarbageCollector ¶
type GarbageCollector struct {
// contains filtered or unexported fields
}
GarbageCollector runs reflectors to watch for changes of managed API objects, funnels the results to a single-threaded dependencyGraphBuilder, which builds a graph caching the dependencies among objects. Triggered by the graph changes, the dependencyGraphBuilder enqueues objects that can potentially be garbage-collected to the `attemptToDelete` queue, and enqueues objects whose dependents need to be orphaned to the `attemptToOrphan` queue. The GarbageCollector has workers who consume these two queues, send requests to the API server to delete/update the objects accordingly. Note that having the dependencyGraphBuilder notify the garbage collector ensures that the garbage collector operates with a graph that is at least as up to date as the notification is sent.
func NewGarbageCollector ¶
func NewGarbageCollector( metaOnlyClientPool dynamic.ClientPool, clientPool dynamic.ClientPool, mapper meta.RESTMapper, deletableResources map[schema.GroupVersionResource]struct{}, ignoredResources map[schema.GroupResource]struct{}, sharedInformers informers.SharedInformerFactory, ) (*GarbageCollector, error)
func (*GarbageCollector) GraphHasUID ¶
func (gc *GarbageCollector) GraphHasUID(UIDs []types.UID) bool
*FOR TEST USE ONLY* GraphHasUID returns if the GraphBuilder has a particular UID store in its uidToNode graph. It's useful for debugging. This method is used by integration tests.
func (*GarbageCollector) HasSynced ¶ added in v1.6.0
func (gc *GarbageCollector) HasSynced() bool
func (*GarbageCollector) Run ¶
func (gc *GarbageCollector) Run(workers int, stopCh <-chan struct{})
type GraphBuilder ¶ added in v1.6.0
type GraphBuilder struct {
// contains filtered or unexported fields
}
GraphBuilder: based on the events supplied by the informers, GraphBuilder updates uidToNode, a graph that caches the dependencies as we know, and enqueues items to the attemptToDelete and attemptToOrphan.
func (*GraphBuilder) HasSynced ¶ added in v1.6.0
func (gb *GraphBuilder) HasSynced() bool
func (*GraphBuilder) Run ¶ added in v1.6.0
func (gb *GraphBuilder) Run(stopCh <-chan struct{})
type RegisteredRateLimiter ¶
type RegisteredRateLimiter struct {
// contains filtered or unexported fields
}
RegisteredRateLimiter records the registered RateLimters to avoid duplication.
func NewRegisteredRateLimiter ¶
func NewRegisteredRateLimiter(resources map[schema.GroupVersionResource]struct{}) *RegisteredRateLimiter
NewRegisteredRateLimiter returns a new RegisteredRateLimiater. TODO: NewRegisteredRateLimiter is not dynamic. We need to find a better way when GC dynamically change the resources it monitors.