// NewREST returns a RESTStorage object that will work against secrets.
func NewREST(opts generic.RESTOptions) *REST {
prefix := "/secrets"
newListFunc := func() runtime.Object { return &api.SecretList{} }
storageInterface := opts.Decorator(
opts.Storage, cachesize.GetWatchCacheSizeByResource(cachesize.Secrets), &api.Secret{}, prefix, secret.Strategy, newListFunc)
store := ®istry.Store{
NewFunc: func() runtime.Object { return &api.Secret{} },
NewListFunc: newListFunc,
KeyRootFunc: func(ctx api.Context) string {
return registry.NamespaceKeyRootFunc(ctx, prefix)
},
KeyFunc: func(ctx api.Context, id string) (string, error) {
return registry.NamespaceKeyFunc(ctx, prefix, id)
},
ObjectNameFunc: func(obj runtime.Object) (string, error) {
return obj.(*api.Secret).Name, nil
},
PredicateFunc: func(label labels.Selector, field fields.Selector) generic.Matcher {
return secret.Matcher(label, field)
},
QualifiedResource: api.Resource("secrets"),
DeleteCollectionWorkers: opts.DeleteCollectionWorkers,
CreateStrategy: secret.Strategy,
UpdateStrategy: secret.Strategy,
DeleteStrategy: secret.Strategy,
Storage: storageInterface,
}
return &REST{store}
}
// NewREST returns a RESTStorage object that will work against Jobs.
func NewREST(opts generic.RESTOptions) (*REST, *StatusREST) {
prefix := "/jobs"
newListFunc := func() runtime.Object { return &batch.JobList{} }
storageInterface := opts.Decorator(
opts.Storage, cachesize.GetWatchCacheSizeByResource(cachesize.Jobs), &batch.Job{}, prefix, job.Strategy, newListFunc)
store := ®istry.Store{
NewFunc: func() runtime.Object { return &batch.Job{} },
// NewListFunc returns an object capable of storing results of an etcd list.
NewListFunc: newListFunc,
// Produces a path that etcd understands, to the root of the resource
// by combining the namespace in the context with the given prefix
KeyRootFunc: func(ctx api.Context) string {
return registry.NamespaceKeyRootFunc(ctx, prefix)
},
// Produces a path that etcd understands, to the resource by combining
// the namespace in the context with the given prefix
KeyFunc: func(ctx api.Context, name string) (string, error) {
return registry.NamespaceKeyFunc(ctx, prefix, name)
},
// Retrieve the name field of a job
ObjectNameFunc: func(obj runtime.Object) (string, error) {
return obj.(*batch.Job).Name, nil
},
// Used to match objects based on labels/fields for list and watch
PredicateFunc: func(label labels.Selector, field fields.Selector) generic.Matcher {
return job.MatchJob(label, field)
},
QualifiedResource: batch.Resource("jobs"),
DeleteCollectionWorkers: opts.DeleteCollectionWorkers,
// Used to validate job creation
CreateStrategy: job.Strategy,
// Used to validate job updates
UpdateStrategy: job.Strategy,
DeleteStrategy: job.Strategy,
Storage: storageInterface,
}
statusStore := *store
statusStore.UpdateStrategy = job.StatusStrategy
return &REST{store}, &StatusREST{store: &statusStore}
}
// NewREST returns a RESTStorage object that will work with ConfigMap objects.
func NewREST(opts generic.RESTOptions) *REST {
prefix := "/configmaps"
newListFunc := func() runtime.Object { return &api.ConfigMapList{} }
storageInterface := opts.Decorator(
opts.Storage, 100, &api.ConfigMap{}, prefix, configmap.Strategy, newListFunc)
store := ®istry.Store{
NewFunc: func() runtime.Object {
return &api.ConfigMap{}
},
// NewListFunc returns an object to store results of an etcd list.
NewListFunc: newListFunc,
// Produces a path that etcd understands, to the root of the resource
// by combining the namespace in the context with the given prefix.
KeyRootFunc: func(ctx api.Context) string {
return registry.NamespaceKeyRootFunc(ctx, prefix)
},
// Produces a path that etcd understands, to the resource by combining
// the namespace in the context with the given prefix
KeyFunc: func(ctx api.Context, name string) (string, error) {
return registry.NamespaceKeyFunc(ctx, prefix, name)
},
// Retrieves the name field of a ConfigMap object.
ObjectNameFunc: func(obj runtime.Object) (string, error) {
return obj.(*api.ConfigMap).Name, nil
},
// Matches objects based on labels/fields for list and watch
PredicateFunc: configmap.MatchConfigMap,
QualifiedResource: api.Resource("configmaps"),
DeleteCollectionWorkers: opts.DeleteCollectionWorkers,
CreateStrategy: configmap.Strategy,
UpdateStrategy: configmap.Strategy,
DeleteStrategy: configmap.Strategy,
Storage: storageInterface,
}
return &REST{store}
}
// NewREST returns a RESTStorage object that will work against network policies.
func NewREST(opts generic.RESTOptions) *REST {
prefix := "/networkpolicies"
newListFunc := func() runtime.Object { return &extensionsapi.NetworkPolicyList{} }
storageInterface := opts.Decorator(
opts.Storage, cachesize.GetWatchCacheSizeByResource(cachesize.NetworkPolicys), &extensionsapi.NetworkPolicy{}, prefix, networkpolicy.Strategy, newListFunc)
store := ®istry.Store{
NewFunc: func() runtime.Object { return &extensionsapi.NetworkPolicy{} },
// NewListFunc returns an object capable of storing results of an etcd list.
NewListFunc: newListFunc,
// Produces a NetworkPolicy that etcd understands, to the root of the resource
// by combining the namespace in the context with the given prefix
KeyRootFunc: func(ctx api.Context) string {
return registry.NamespaceKeyRootFunc(ctx, prefix)
},
// Produces a NetworkPolicy that etcd understands, to the resource by combining
// the namespace in the context with the given prefix
KeyFunc: func(ctx api.Context, name string) (string, error) {
return registry.NamespaceKeyFunc(ctx, prefix, name)
},
// Retrieve the name field of a network policy
ObjectNameFunc: func(obj runtime.Object) (string, error) {
return obj.(*extensionsapi.NetworkPolicy).Name, nil
},
// Used to match objects based on labels/fields for list and watch
PredicateFunc: func(label labels.Selector, field fields.Selector) generic.Matcher {
return networkpolicy.MatchNetworkPolicy(label, field)
},
QualifiedResource: extensionsapi.Resource("networkpolicies"),
DeleteCollectionWorkers: opts.DeleteCollectionWorkers,
// Used to validate controller creation
CreateStrategy: networkpolicy.Strategy,
// Used to validate controller updates
UpdateStrategy: networkpolicy.Strategy,
DeleteStrategy: networkpolicy.Strategy,
Storage: storageInterface,
}
return &REST{store}
}
// NewREST returns a RESTStorage object that will work against nodes.
func NewStorage(opts generic.RESTOptions, connection client.ConnectionInfoGetter, proxyTransport http.RoundTripper) NodeStorage {
prefix := "/minions"
newListFunc := func() runtime.Object { return &api.NodeList{} }
storageInterface := opts.Decorator(
opts.Storage, cachesize.GetWatchCacheSizeByResource(cachesize.Nodes), &api.Node{}, prefix, node.Strategy, newListFunc)
store := ®istry.Store{
NewFunc: func() runtime.Object { return &api.Node{} },
NewListFunc: newListFunc,
KeyRootFunc: func(ctx api.Context) string {
return prefix
},
KeyFunc: func(ctx api.Context, name string) (string, error) {
return registry.NoNamespaceKeyFunc(ctx, prefix, name)
},
ObjectNameFunc: func(obj runtime.Object) (string, error) {
return obj.(*api.Node).Name, nil
},
PredicateFunc: node.MatchNode,
QualifiedResource: api.Resource("nodes"),
DeleteCollectionWorkers: opts.DeleteCollectionWorkers,
CreateStrategy: node.Strategy,
UpdateStrategy: node.Strategy,
DeleteStrategy: node.Strategy,
ExportStrategy: node.Strategy,
Storage: storageInterface,
}
statusStore := *store
statusStore.UpdateStrategy = node.StatusStrategy
nodeREST := &REST{store, connection, proxyTransport}
return NodeStorage{
Node: nodeREST,
Status: &StatusREST{store: &statusStore},
Proxy: &noderest.ProxyREST{Store: store, Connection: client.ConnectionInfoGetter(nodeREST), ProxyTransport: proxyTransport},
}
}
// NewREST returns a RESTStorage object that will work against namespaces.
func NewREST(opts generic.RESTOptions) (*REST, *StatusREST, *FinalizeREST) {
prefix := "/namespaces"
newListFunc := func() runtime.Object { return &api.NamespaceList{} }
storageInterface := opts.Decorator(
opts.Storage, cachesize.GetWatchCacheSizeByResource(cachesize.Namespaces), &api.Namespace{}, prefix, namespace.Strategy, newListFunc)
store := ®istry.Store{
NewFunc: func() runtime.Object { return &api.Namespace{} },
NewListFunc: newListFunc,
KeyRootFunc: func(ctx api.Context) string {
return prefix
},
KeyFunc: func(ctx api.Context, name string) (string, error) {
return registry.NoNamespaceKeyFunc(ctx, prefix, name)
},
ObjectNameFunc: func(obj runtime.Object) (string, error) {
return obj.(*api.Namespace).Name, nil
},
PredicateFunc: func(label labels.Selector, field fields.Selector) generic.Matcher {
return namespace.MatchNamespace(label, field)
},
QualifiedResource: api.Resource("namespaces"),
DeleteCollectionWorkers: opts.DeleteCollectionWorkers,
CreateStrategy: namespace.Strategy,
UpdateStrategy: namespace.Strategy,
DeleteStrategy: namespace.Strategy,
ReturnDeletedObject: true,
Storage: storageInterface,
}
statusStore := *store
statusStore.UpdateStrategy = namespace.StatusStrategy
finalizeStore := *store
finalizeStore.UpdateStrategy = namespace.FinalizeStrategy
return &REST{Store: store, status: &statusStore}, &StatusREST{store: &statusStore}, &FinalizeREST{store: &finalizeStore}
}
// NewREST returns a registry which will store CertificateSigningRequest in the given helper
func NewREST(opts generic.RESTOptions) (*REST, *StatusREST, *ApprovalREST) {
prefix := "/certificatesigningrequests"
newListFunc := func() runtime.Object { return &certificates.CertificateSigningRequestList{} }
storageInterface := opts.Decorator(opts.Storage, cachesize.GetWatchCacheSizeByResource(cachesize.CertificateSigningRequests), &certificates.CertificateSigningRequest{}, prefix, csrregistry.Strategy, newListFunc)
store := ®istry.Store{
NewFunc: func() runtime.Object { return &certificates.CertificateSigningRequest{} },
NewListFunc: newListFunc,
KeyRootFunc: func(ctx api.Context) string {
return prefix
},
KeyFunc: func(ctx api.Context, id string) (string, error) {
return registry.NoNamespaceKeyFunc(ctx, prefix, id)
},
ObjectNameFunc: func(obj runtime.Object) (string, error) {
return obj.(*certificates.CertificateSigningRequest).Name, nil
},
PredicateFunc: func(label labels.Selector, field fields.Selector) generic.Matcher {
return csrregistry.Matcher(label, field)
},
QualifiedResource: certificates.Resource("certificatesigningrequests"),
DeleteCollectionWorkers: opts.DeleteCollectionWorkers,
CreateStrategy: csrregistry.Strategy,
UpdateStrategy: csrregistry.Strategy,
Storage: storageInterface,
}
// Subresources use the same store and creation strategy, which only
// allows empty subs. Updates to an existing subresource are handled by
// dedicated strategies.
statusStore := *store
statusStore.UpdateStrategy = csrregistry.StatusStrategy
approvalStore := *store
approvalStore.UpdateStrategy = csrregistry.ApprovalStrategy
return &REST{store}, &StatusREST{store: &statusStore}, &ApprovalREST{store: &approvalStore}
}
