package object
import (
"fmt"
api "k8s.io/api/core/v1"
discovery "k8s.io/api/discovery/v1beta1"
meta "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
)
// Endpoints is a stripped down api.Endpoints with only the items we need for CoreDNS.
type Endpoints struct {
// Don't add new fields to this struct without talking to the CoreDNS maintainers.
Version string
Name string
Namespace string
Index string
IndexIP []string
Subsets []EndpointSubset
*Empty
}
// EndpointSubset is a group of addresses with a common set of ports. The
// expanded set of endpoints is the Cartesian product of Addresses x Ports.
type EndpointSubset struct {
Addresses []EndpointAddress
Ports []EndpointPort
}
// EndpointAddress is a tuple that describes single IP address.
type EndpointAddress struct {
IP string
Hostname string
NodeName string
TargetRefName string
}
// EndpointPort is a tuple that describes a single port.
type EndpointPort struct {
Port int32
Name string
Protocol string
}
// EndpointsKey returns a string using for the index.
func EndpointsKey(name, namespace string) string { return name + "." + namespace }
// ToEndpoints converts an *api.Endpoints to a *Endpoints.
func ToEndpoints(obj meta.Object) (meta.Object, error) {
end, ok := obj.(*api.Endpoints)
if !ok {
return nil, fmt.Errorf("unexpected object %v", obj)
}
e := &Endpoints{
Version: end.GetResourceVersion(),
Name: end.GetName(),
Namespace: end.GetNamespace(),
Index: EndpointsKey(end.GetName(), end.GetNamespace()),
Subsets: make([]EndpointSubset, len(end.Subsets)),
}
for i, eps := range end.Subsets {
sub := EndpointSubset{
Addresses: make([]EndpointAddress, len(eps.Addresses)),
}
if len(eps.Ports) == 0 {
// Add sentinel if there are no ports.
sub.Ports = []EndpointPort{{Port: -1}}
} else {
sub.Ports = make([]EndpointPort, len(eps.Ports))
}
for j, a := range eps.Addresses {
ea := EndpointAddress{IP: a.IP, Hostname: a.Hostname}
if a.NodeName != nil {
ea.NodeName = *a.NodeName
}
if a.TargetRef != nil {
ea.TargetRefName = a.TargetRef.Name
}
sub.Addresses[j] = ea
}
for k, p := range eps.Ports {
ep := EndpointPort{Port: p.Port, Name: p.Name, Protocol: string(p.Protocol)}
sub.Ports[k] = ep
}
e.Subsets[i] = sub
}
for _, eps := range end.Subsets {
for _, a := range eps.Addresses {
e.IndexIP = append(e.IndexIP, a.IP)
}
}
*end = api.Endpoints{}
return e, nil
}
// EndpointSliceToEndpoints converts a *discovery.EndpointSlice to a *Endpoints.
func EndpointSliceToEndpoints(obj meta.Object) (meta.Object, error) {
ends, ok := obj.(*discovery.EndpointSlice)
if !ok {
return nil, fmt.Errorf("unexpected object %v", obj)
}
e := &Endpoints{
Version: ends.GetResourceVersion(),
Name: ends.GetName(),
Namespace: ends.GetNamespace(),
Index: EndpointsKey(ends.Labels[discovery.LabelServiceName], ends.GetNamespace()),
Subsets: make([]EndpointSubset, 1),
}
if len(ends.Ports) == 0 {
// Add sentinel if there are no ports.
e.Subsets[0].Ports = []EndpointPort{{Port: -1}}
} else {
e.Subsets[0].Ports = make([]EndpointPort, len(ends.Ports))
for k, p := range ends.Ports {
ep := EndpointPort{Port: *p.Port, Name: *p.Name, Protocol: string(*p.Protocol)}
e.Subsets[0].Ports[k] = ep
}
}
for _, end := range ends.Endpoints {
for _, a := range end.Addresses {
ea := EndpointAddress{IP: a}
if end.Hostname != nil {
ea.Hostname = *end.Hostname
}
if end.TargetRef != nil {
ea.TargetRefName = end.TargetRef.Name
}
// EndpointSlice does not contain NodeName, leave blank
e.Subsets[0].Addresses = append(e.Subsets[0].Addresses, ea)
e.IndexIP = append(e.IndexIP, a)
}
}
*ends = discovery.EndpointSlice{}
return e, nil
}
// CopyWithoutSubsets copies e, without the subsets.
func (e *Endpoints) CopyWithoutSubsets() *Endpoints {
e1 := &Endpoints{
Version: e.Version,
Name: e.Name,
Namespace: e.Namespace,
Index: e.Index,
IndexIP: make([]string, len(e.IndexIP)),
}
copy(e1.IndexIP, e.IndexIP)
return e1
}
var _ runtime.Object = &Endpoints{}
// DeepCopyObject implements the ObjectKind interface.
func (e *Endpoints) DeepCopyObject() runtime.Object {
e1 := &Endpoints{
Version: e.Version,
Name: e.Name,
Namespace: e.Namespace,
Index: e.Index,
IndexIP: make([]string, len(e.IndexIP)),
Subsets: make([]EndpointSubset, len(e.Subsets)),
}
copy(e1.IndexIP, e.IndexIP)
for i, eps := range e.Subsets {
sub := EndpointSubset{
Addresses: make([]EndpointAddress, len(eps.Addresses)),
Ports: make([]EndpointPort, len(eps.Ports)),
}
for j, a := range eps.Addresses {
ea := EndpointAddress{IP: a.IP, Hostname: a.Hostname, NodeName: a.NodeName, TargetRefName: a.TargetRefName}
sub.Addresses[j] = ea
}
for k, p := range eps.Ports {
ep := EndpointPort{Port: p.Port, Name: p.Name, Protocol: p.Protocol}
sub.Ports[k] = ep
}
e1.Subsets[i] = sub
}
return e1
}
// GetNamespace implements the metav1.Object interface.
func (e *Endpoints) GetNamespace() string { return e.Namespace }
// SetNamespace implements the metav1.Object interface.
func (e *Endpoints) SetNamespace(namespace string) {}
// GetName implements the metav1.Object interface.
func (e *Endpoints) GetName() string { return e.Name }
// SetName implements the metav1.Object interface.
func (e *Endpoints) SetName(name string) {}
// GetResourceVersion implements the metav1.Object interface.
func (e *Endpoints) GetResourceVersion() string { return e.Version }
// SetResourceVersion implements the metav1.Object interface.
func (e *Endpoints) SetResourceVersion(version string) {}