Documentation
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Overview ¶
Package request contains everything around extracting info from a http request object. TODO: this package is temporary. Handlers must move into pkg/apiserver/handlers to avoid dependency cycle
Index ¶
- Variables
- func AuditAnnotationsFromLatencyTrackers(ctx context.Context) map[string]string
- func AuditIDFrom(ctx context.Context) (types.UID, bool)
- func GetAuditIDTruncated(req *http.Request) string
- func NamespaceFrom(ctx context.Context) (string, bool)
- func NamespaceValue(ctx context.Context) string
- func NewContext() context.Context
- func NewDefaultContext() context.Context
- func ReceivedTimestampFrom(ctx context.Context) (time.Time, bool)
- func TrackResponseWriteLatency(ctx context.Context, d time.Duration)
- func TrackSerializeResponseObjectLatency(ctx context.Context, f func())
- func TrackStorageLatency(ctx context.Context, d time.Duration)
- func TrackTransformResponseObjectLatency(ctx context.Context, transform func())
- func UserFrom(ctx context.Context) (user.Info, bool)
- func WithAuditID(parent context.Context, auditID types.UID) context.Context
- func WithLatencyTrackers(parent context.Context) context.Context
- func WithLatencyTrackersAndCustomClock(parent context.Context, c clock.Clock) context.Context
- func WithNamespace(parent context.Context, namespace string) context.Context
- func WithReceivedTimestamp(parent context.Context, receivedTimestamp time.Time) context.Context
- func WithRequestInfo(parent context.Context, info *RequestInfo) context.Context
- func WithUser(parent context.Context, user user.Info) context.Context
- func WithValue(parent context.Context, key interface{}, val interface{}) context.Context
- type DurationTracker
- type LatencyTrackers
- type LongRunningRequestCheck
- type RequestInfo
- type RequestInfoFactory
- type RequestInfoResolver
Constants ¶
This section is empty.
Variables ¶
var NamespaceSubResourcesForTest = sets.NewString(namespaceSubresources.List()...)
NamespaceSubResourcesForTest exports namespaceSubresources for testing in pkg/controlplane/master_test.go, so we never drift
Functions ¶
func AuditAnnotationsFromLatencyTrackers ¶ added in v0.24.0
AuditAnnotationsFromLatencyTrackers will inspect each latency tracker associated with the request context and return a set of audit annotations that can be added to the API audit entry.
func AuditIDFrom ¶ added in v0.22.0
AuditIDFrom returns the value of the audit ID from the request context.
func GetAuditIDTruncated ¶ added in v0.22.0
GetAuditIDTruncated returns the audit ID (truncated) associated with a request. If the length of the Audit-ID value exceeds the limit, we truncate it to keep the first N (maxAuditIDLength) characters. This is intended to be used in logging only.
func NamespaceFrom ¶
NamespaceFrom returns the value of the namespace key on the ctx
func NamespaceValue ¶
NamespaceValue returns the value of the namespace key on the ctx, or the empty string if none
func NewContext ¶
NewContext instantiates a base context object for request flows.
func NewDefaultContext ¶
NewDefaultContext instantiates a base context object for request flows in the default namespace
func ReceivedTimestampFrom ¶ added in v0.20.0
ReceivedTimestampFrom returns the value of the ReceivedTimestamp key from the specified context.
func TrackResponseWriteLatency ¶ added in v0.24.0
TrackResponseWriteLatency is used to track latency incurred in writing the serialized raw bytes to the http ResponseWriter object (via the Write method) associated with the request. When called multiple times, the latency provided will be summed up.
func TrackSerializeResponseObjectLatency ¶ added in v0.24.0
TrackSerializeResponseObjectLatency is used to track latency incurred in serialization (json or protobuf) of the response object. When called multiple times, the latency provided will be summed up.
func TrackStorageLatency ¶ added in v0.24.0
TrackStorageLatency is used to track latency incurred inside the underlying storage layer. When called multiple times, the latency provided will be summed up.
func TrackTransformResponseObjectLatency ¶ added in v0.24.0
TrackTransformResponseObjectLatency is used to track latency incurred inside the function that takes an object returned from the underlying storage layer (etcd) and performs any necessary transformations of the response object. This does not include the latency incurred in serialization (json or protobuf) of the response object or writing of it to the http ResponseWriter object. When called multiple times, the latency incurred inside the transform func each time will be summed up.
func WithAuditID ¶ added in v0.22.0
WithAuditID returns a copy of the parent context into which the Audit-ID associated with the request is set.
If the specified auditID is empty, no value is set and the parent context is returned as is.
func WithLatencyTrackers ¶ added in v0.24.0
WithLatencyTrackers returns a copy of parent context to which an instance of LatencyTrackers is added.
func WithLatencyTrackersAndCustomClock ¶ added in v0.24.0
WithLatencyTrackersAndCustomClock returns a copy of parent context to which an instance of LatencyTrackers is added. Tracers use given clock.
func WithNamespace ¶
WithNamespace returns a copy of parent in which the namespace value is set
func WithReceivedTimestamp ¶ added in v0.20.0
WithReceivedTimestamp returns a copy of parent context in which the ReceivedTimestamp (the time the request reached the apiserver) is set.
If the specified ReceivedTimestamp is zero, no value is set and the parent context is returned as is.
func WithRequestInfo ¶
func WithRequestInfo(parent context.Context, info *RequestInfo) context.Context
WithRequestInfo returns a copy of parent in which the request info value is set
Types ¶
type DurationTracker ¶ added in v0.23.0
type DurationTracker interface {
// Track measures time spent in the given function f and
// aggregates measured duration using aggregateFunction.
// if Track is invoked with f from multiple goroutines concurrently,
// then f must be safe to be invoked concurrently by multiple goroutines.
Track(f func())
// TrackDuration tracks latency from the specified duration
// and aggregate it using aggregateFunction
TrackDuration(time.Duration)
// GetLatency returns the total latency incurred so far
GetLatency() time.Duration
}
DurationTracker is a simple interface for tracking functions duration, it is safe for concurrent use by multiple goroutines.
type LatencyTrackers ¶ added in v0.24.0
type LatencyTrackers struct {
// MutatingWebhookTracker tracks the latency incurred in mutating webhook(s).
// Since mutating webhooks are done sequentially, latency
// is aggregated using sum function.
MutatingWebhookTracker DurationTracker
// ValidatingWebhookTracker tracks the latency incurred in validating webhook(s).
// Validate webhooks are done in parallel, so max function is used.
ValidatingWebhookTracker DurationTracker
// StorageTracker tracks the latency incurred inside the storage layer,
// it accounts for the time it takes to send data to the underlying
// storage layer (etcd) and get the complete response back.
// If a request involves N (N>=1) round trips to the underlying
// stogare layer, the latency will account for the total duration
// from these N round trips.
// It does not include the time incurred in admission, or validation.
StorageTracker DurationTracker
// TransformTracker tracks the latency incurred in transforming the
// response object(s) returned from the underlying storage layer.
// This includes transforming the object to user's desired form
// (ie. as Table), and also setting appropriate API level fields.
// This does not include the latency incurred in serialization
// (json or protobuf) of the response object or writing
// of it to the http ResponseWriter object.
TransformTracker DurationTracker
// SerializationTracker tracks the latency incurred in serialization
// (json or protobuf) of the response object.
// NOTE: serialization and writing of the serialized raw bytes to the
// associated http ResponseWriter object are interleaved, and hence
// the latency measured here will include the time spent writing the
// serialized raw bytes to the http ResponseWriter object.
SerializationTracker DurationTracker
// ResponseWriteTracker tracks the latency incurred in writing the
// serialized raw bytes to the http ResponseWriter object (via the
// Write method) associated with the request.
// The Write method can be invoked multiple times, so we use a
// latency tracker that sums up the duration from each call.
ResponseWriteTracker DurationTracker
}
LatencyTrackers stores trackers used to measure latecny incurred in components within the apiserver.
func LatencyTrackersFrom ¶ added in v0.24.0
func LatencyTrackersFrom(ctx context.Context) (*LatencyTrackers, bool)
LatencyTrackersFrom returns the associated LatencyTrackers instance from the specified context.
type LongRunningRequestCheck ¶
type LongRunningRequestCheck func(r *http.Request, requestInfo *RequestInfo) bool
LongRunningRequestCheck is a predicate which is true for long-running http requests.
type RequestInfo ¶
type RequestInfo struct {
// IsResourceRequest indicates whether or not the request is for an API resource or subresource
IsResourceRequest bool
// Path is the URL path of the request
Path string
// Verb is the kube verb associated with the request for API requests, not the http verb. This includes things like list and watch.
// for non-resource requests, this is the lowercase http verb
Verb string
APIPrefix string
APIGroup string
APIVersion string
Namespace string
// Resource is the name of the resource being requested. This is not the kind. For example: pods
Resource string
// Subresource is the name of the subresource being requested. This is a different resource, scoped to the parent resource, but it may have a different kind.
// For instance, /pods has the resource "pods" and the kind "Pod", while /pods/foo/status has the resource "pods", the sub resource "status", and the kind "Pod"
// (because status operates on pods). The binding resource for a pod though may be /pods/foo/binding, which has resource "pods", subresource "binding", and kind "Binding".
Subresource string
// Name is empty for some verbs, but if the request directly indicates a name (not in body content) then this field is filled in.
Name string
// Parts are the path parts for the request, always starting with /{resource}/{name}
Parts []string
}
RequestInfo holds information parsed from the http.Request
func RequestInfoFrom ¶
func RequestInfoFrom(ctx context.Context) (*RequestInfo, bool)
RequestInfoFrom returns the value of the RequestInfo key on the ctx
type RequestInfoFactory ¶
type RequestInfoFactory struct {
APIPrefixes sets.String // without leading and trailing slashes
GrouplessAPIPrefixes sets.String // without leading and trailing slashes
}
func (*RequestInfoFactory) NewRequestInfo ¶
func (r *RequestInfoFactory) NewRequestInfo(req *http.Request) (*RequestInfo, error)
TODO write an integration test against the swagger doc to test the RequestInfo and match up behavior to responses NewRequestInfo returns the information from the http request. If error is not nil, RequestInfo holds the information as best it is known before the failure It handles both resource and non-resource requests and fills in all the pertinent information for each. Valid Inputs: Resource paths /apis/{api-group}/{version}/namespaces /api/{version}/namespaces /api/{version}/namespaces/{namespace} /api/{version}/namespaces/{namespace}/{resource} /api/{version}/namespaces/{namespace}/{resource}/{resourceName} /api/{version}/{resource} /api/{version}/{resource}/{resourceName}
Special verbs without subresources: /api/{version}/proxy/{resource}/{resourceName} /api/{version}/proxy/namespaces/{namespace}/{resource}/{resourceName}
Special verbs with subresources: /api/{version}/watch/{resource} /api/{version}/watch/namespaces/{namespace}/{resource}
NonResource paths /apis/{api-group}/{version} /apis/{api-group} /apis /api/{version} /api /healthz /
type RequestInfoResolver ¶
type RequestInfoResolver interface {
NewRequestInfo(req *http.Request) (*RequestInfo, error)
}
Source Files