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coredns/middleware/kubernetes/kubernetes.go
Michael Richmond d04abdf422 BK8s datasource middleware -- PoC for A records (#153) 
* Laying down kubernetes middleware foundation

* Duplicated a bunch of code form etcd middleware
* Duplicated code hacked to compile and load as a separate middleware

* Adding verbose build option to Makefile

* Removing stubzone and tls support

tls and stubzone support was carried over from base etcd middleware code.
Removing to simplify the kube middleware implementation. (For now.)

* Adding conf directory for sample conf files

* Removing stubzone support from query handler

* Remove upstream and proxy from k8s corefile.

Not sure that upstream or proxy makes sense for a k8s backed zone.

* Comment out use of singleflight serialization

* Removing parsing support for "upstream" directive from k8s

* Removing upstream directive parsing code

* Removing CNAME and TXT lookup implementation

* Create README.md

Brain-dump of DNS record name assembly and open work items.

* Adding notes about wildcard handling

* Adding basic k8s API client

* Fleshing out methods on k8s connector

* Remove PathPrefix from middleware init

* Removing incorrect plural

* Adding brute-force k8s service lookup functions

* Initializing k8s API connector during startup

* Hacking around to call k8s connector

* Parsing incoming domain name into serviceName and namespace

* Improving and simplifying k8s zone matching and label segmentation

* Removing unused functions carried over from etcd middleware

* Adding basic return of k8s data to DNS client

* updated debugging println statements to flag with "[debug]"
* removed code in kubernetes.go::Records that was a hold-over from etcd middleware.
* Removed some random exploratory hacking.

* Minior README.md updates

* Updating with demo instructions

* Updating README.md with CoreFile and removing completed TODO items

* Updating conf file and README to reflect DNS response cache works

* Disabling DNS response caching

* Adding debug statement on entry to Records()

* Changing port number in exampes to port 53.

* Misc style and clarity changes

* Removing empty function definitions

* Adding comment to track future cleanup

* Refactoring README to follow style of other middleware

* Exposing dataobject field (typo)
2016-06-06 20:49:53 +01:00

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// Package kubernetes provides the kubernetes backend.
package kubernetes
import (
"fmt"
"strings"
"time"
"github.com/miekg/coredns/middleware"
"github.com/miekg/coredns/middleware/kubernetes/msg"
k8sc "github.com/miekg/coredns/middleware/kubernetes/k8sclient"
"github.com/miekg/coredns/middleware/proxy"
// "github.com/miekg/coredns/middleware/singleflight"
"github.com/miekg/dns"
"golang.org/x/net/context"
)
type Kubernetes struct {
Next middleware.Handler
Zones []string
Proxy proxy.Proxy // Proxy for looking up names during the resolution process
Ctx context.Context
// Inflight *singleflight.Group
APIConn *k8sc.K8sConnector
}
func (g Kubernetes) getZoneForName(name string) (string, []string) {
/*
* getZoneForName returns the zone string that matches the name and a
* list of the DNS labels from name that are within the zone.
* For example, if "coredns.local" is a zone configured for the
* Kubernetes middleware, then getZoneForName("a.b.coredns.local")
* will return ("coredns.local", ["a", "b"]).
*/
var zone string
var serviceSegments []string
for _, z := range g.Zones {
if dns.IsSubDomain(z, name) {
zone = z
serviceSegments = dns.SplitDomainName(name)
serviceSegments = serviceSegments[:len(serviceSegments) - dns.CountLabel(zone)]
break
}
}
return zone, serviceSegments
}
// Records looks up services in kubernetes.
// If exact is true, it will lookup just
// this name. This is used when find matches when completing SRV lookups
// for instance.
func (g Kubernetes) Records(name string, exact bool) ([]msg.Service, error) {
fmt.Println("enter Records('", name, "', ", exact, ")")
zone, serviceSegments := g.getZoneForName(name)
var serviceName string
var namespace string
// For initial implementation, assume namespace is first serviceSegment
// and service name is remaining segments.
serviceSegLen := len(serviceSegments)
if serviceSegLen >= 2 {
namespace = serviceSegments[serviceSegLen-1]
serviceName = strings.Join(serviceSegments[:serviceSegLen-1], ".")
}
// else we are looking up the zone. So handle the NS, SOA records etc.
fmt.Println("[debug] zone: ", zone)
fmt.Println("[debug] servicename: ", serviceName)
fmt.Println("[debug] namespace: ", namespace)
fmt.Println("[debug] APIconn: ", g.APIConn)
k8sItem := g.APIConn.GetServiceItemInNamespace(namespace, serviceName)
fmt.Println("[debug] k8s item:", k8sItem)
switch {
case exact && k8sItem == nil:
fmt.Println("here2")
return nil, nil
}
if k8sItem == nil {
// Did not find item in k8s
return nil, nil
}
fmt.Println("[debug] clusterIP:", k8sItem.Spec.ClusterIP)
for _, p := range k8sItem.Spec.Ports {
fmt.Println("[debug] host:", name)
fmt.Println("[debug] port:", p.Port)
}
clusterIP := k8sItem.Spec.ClusterIP
var records []msg.Service
for _, p := range k8sItem.Spec.Ports{
s := msg.Service{Host: clusterIP, Port: p.Port}
records = append(records, s)
}
return records, nil
}
/*
// Get performs the call to the Kubernetes http API.
func (g Kubernetes) Get(path string, recursive bool) (bool, error) {
fmt.Println("[debug] in Get path: ", path)
fmt.Println("[debug] in Get recursive: ", recursive)
return false, nil
}
*/
func (g Kubernetes) splitDNSName(name string) []string {
l := dns.SplitDomainName(name)
for i, j := 0, len(l)-1; i < j; i, j = i+1, j-1 {
l[i], l[j] = l[j], l[i]
}
return l
}
// skydns/local/skydns/east/staging/web
// skydns/local/skydns/west/production/web
//
// skydns/local/skydns/*/*/web
// skydns/local/skydns/*/web
// loopNodes recursively loops through the nodes and returns all the values. The nodes' keyname
// will be match against any wildcards when star is true.
/*
func (g Kubernetes) loopNodes(ns []*etcdc.Node, nameParts []string, star bool, bx map[msg.Service]bool) (sx []msg.Service, err error) {
if bx == nil {
bx = make(map[msg.Service]bool)
}
Nodes:
for _, n := range ns {
if n.Dir {
nodes, err := g.loopNodes(n.Nodes, nameParts, star, bx)
if err != nil {
return nil, err
}
sx = append(sx, nodes...)
continue
}
if star {
keyParts := strings.Split(n.Key, "/")
for i, n := range nameParts {
if i > len(keyParts)-1 {
// name is longer than key
continue Nodes
}
if n == "*" || n == "any" {
continue
}
if keyParts[i] != n {
continue Nodes
}
}
}
serv := new(msg.Service)
if err := json.Unmarshal([]byte(n.Value), serv); err != nil {
return nil, err
}
b := msg.Service{Host: serv.Host, Port: serv.Port, Priority: serv.Priority, Weight: serv.Weight, Text: serv.Text, Key: n.Key}
if _, ok := bx[b]; ok {
continue
}
bx[b] = true
serv.Key = n.Key
serv.Ttl = g.Ttl(n, serv)
if serv.Priority == 0 {
serv.Priority = priority
}
sx = append(sx, *serv)
}
return sx, nil
}
// Ttl returns the smaller of the kubernetes TTL and the service's
// TTL. If neither of these are set (have a zero value), a default is used.
func (g Kubernetes) Ttl(node *etcdc.Node, serv *msg.Service) uint32 {
kubernetesTtl := uint32(node.TTL)
if kubernetesTtl == 0 && serv.Ttl == 0 {
return ttl
}
if kubernetesTtl == 0 {
return serv.Ttl
}
if serv.Ttl == 0 {
return kubernetesTtl
}
if kubernetesTtl < serv.Ttl {
return kubernetesTtl
}
return serv.Ttl
}
*/
// kubernetesNameError checks if the error is ErrorCodeKeyNotFound from kubernetes.
func isKubernetesNameError(err error) bool {
return false
}
const (
priority = 10 // default priority when nothing is set
ttl = 300 // default ttl when nothing is set
minTtl = 60
hostmaster = "hostmaster"
k8sTimeout = 5 * time.Second
)
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