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/*
Copyright 2014 The Kubernetes Authors All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package master
import (
"crypto/tls"
"fmt"
"net"
"net/http"
"net/http/pprof"
"net/url"
"strconv"
"strings"
"sync"
"time"
"k8s.io/kubernetes/pkg/admission"
"k8s.io/kubernetes/pkg/api"
"k8s.io/kubernetes/pkg/api/latest"
"k8s.io/kubernetes/pkg/api/meta"
"k8s.io/kubernetes/pkg/api/rest"
"k8s.io/kubernetes/pkg/api/unversioned"
apiutil "k8s.io/kubernetes/pkg/api/util"
"k8s.io/kubernetes/pkg/api/v1"
expapi "k8s.io/kubernetes/pkg/apis/extensions"
"k8s.io/kubernetes/pkg/apiserver"
"k8s.io/kubernetes/pkg/auth/authenticator"
"k8s.io/kubernetes/pkg/auth/authorizer"
"k8s.io/kubernetes/pkg/auth/handlers"
client "k8s.io/kubernetes/pkg/client/unversioned"
"k8s.io/kubernetes/pkg/fields"
"k8s.io/kubernetes/pkg/healthz"
"k8s.io/kubernetes/pkg/labels"
"k8s.io/kubernetes/pkg/master/ports"
"k8s.io/kubernetes/pkg/registry/componentstatus"
controlleretcd "k8s.io/kubernetes/pkg/registry/controller/etcd"
deploymentetcd "k8s.io/kubernetes/pkg/registry/deployment/etcd"
"k8s.io/kubernetes/pkg/registry/endpoint"
endpointsetcd "k8s.io/kubernetes/pkg/registry/endpoint/etcd"
eventetcd "k8s.io/kubernetes/pkg/registry/event/etcd"
expcontrolleretcd "k8s.io/kubernetes/pkg/registry/experimental/controller/etcd"
ingressetcd "k8s.io/kubernetes/pkg/registry/ingress/etcd"
jobetcd "k8s.io/kubernetes/pkg/registry/job/etcd"
limitrangeetcd "k8s.io/kubernetes/pkg/registry/limitrange/etcd"
"k8s.io/kubernetes/pkg/registry/namespace"
namespaceetcd "k8s.io/kubernetes/pkg/registry/namespace/etcd"
"k8s.io/kubernetes/pkg/registry/node"
nodeetcd "k8s.io/kubernetes/pkg/registry/node/etcd"
pvetcd "k8s.io/kubernetes/pkg/registry/persistentvolume/etcd"
pvcetcd "k8s.io/kubernetes/pkg/registry/persistentvolumeclaim/etcd"
podetcd "k8s.io/kubernetes/pkg/registry/pod/etcd"
podtemplateetcd "k8s.io/kubernetes/pkg/registry/podtemplate/etcd"
resourcequotaetcd "k8s.io/kubernetes/pkg/registry/resourcequota/etcd"
secretetcd "k8s.io/kubernetes/pkg/registry/secret/etcd"
"k8s.io/kubernetes/pkg/registry/service"
etcdallocator "k8s.io/kubernetes/pkg/registry/service/allocator/etcd"
serviceetcd "k8s.io/kubernetes/pkg/registry/service/etcd"
ipallocator "k8s.io/kubernetes/pkg/registry/service/ipallocator"
serviceaccountetcd "k8s.io/kubernetes/pkg/registry/serviceaccount/etcd"
thirdpartyresourceetcd "k8s.io/kubernetes/pkg/registry/thirdpartyresource/etcd"
"k8s.io/kubernetes/pkg/registry/thirdpartyresourcedata"
thirdpartyresourcedataetcd "k8s.io/kubernetes/pkg/registry/thirdpartyresourcedata/etcd"
"k8s.io/kubernetes/pkg/storage"
etcdstorage "k8s.io/kubernetes/pkg/storage/etcd"
"k8s.io/kubernetes/pkg/tools"
"k8s.io/kubernetes/pkg/ui"
"k8s.io/kubernetes/pkg/util"
"k8s.io/kubernetes/pkg/util/sets"
utilSets "k8s.io/kubernetes/pkg/util/sets"
daemonetcd "k8s.io/kubernetes/pkg/registry/daemonset/etcd"
horizontalpodautoscaleretcd "k8s.io/kubernetes/pkg/registry/horizontalpodautoscaler/etcd"
"github.com/emicklei/go-restful"
"github.com/emicklei/go-restful/swagger"
"github.com/golang/glog"
"github.com/prometheus/client_golang/prometheus"
"k8s.io/kubernetes/pkg/registry/service/allocator"
"k8s.io/kubernetes/pkg/registry/service/portallocator"
)
const (
DefaultEtcdPathPrefix = "/registry"
)
// StorageDestinations is a mapping from API group & resource to
// the underlying storage interfaces.
type StorageDestinations struct {
APIGroups map[string]*StorageDestinationsForAPIGroup
}
type StorageDestinationsForAPIGroup struct {
Default storage.Interface
Overrides map[string]storage.Interface
}
func NewStorageDestinations() StorageDestinations {
return StorageDestinations{
APIGroups: map[string]*StorageDestinationsForAPIGroup{},
}
}
func (s *StorageDestinations) AddAPIGroup(group string, defaultStorage storage.Interface) {
s.APIGroups[group] = &StorageDestinationsForAPIGroup{
Default: defaultStorage,
Overrides: map[string]storage.Interface{},
}
}
func (s *StorageDestinations) AddStorageOverride(group, resource string, override storage.Interface) {
if _, ok := s.APIGroups[group]; !ok {
s.AddAPIGroup(group, nil)
}
if s.APIGroups[group].Overrides == nil {
s.APIGroups[group].Overrides = map[string]storage.Interface{}
}
s.APIGroups[group].Overrides[resource] = override
}
func (s *StorageDestinations) get(group, resource string) storage.Interface {
apigroup, ok := s.APIGroups[group]
if !ok {
glog.Errorf("No storage defined for API group: '%s'", apigroup)
return nil
}
if apigroup.Overrides != nil {
if client, exists := apigroup.Overrides[resource]; exists {
return client
}
}
return apigroup.Default
}
// Get all backends for all registered storage destinations.
// Used for getting all instances for health validations.
func (s *StorageDestinations) backends() []string {
backends := sets.String{}
for _, group := range s.APIGroups {
if group.Default != nil {
for _, backend := range group.Default.Backends() {
backends.Insert(backend)
}
}
if group.Overrides != nil {
for _, storage := range group.Overrides {
for _, backend := range storage.Backends() {
backends.Insert(backend)
}
}
}
}
return backends.List()
}
// Specifies the overrides for various API group versions.
// This can be used to enable/disable entire group versions or specific resources.
type APIGroupVersionOverride struct {
// Whether to enable or disable this group version.
Disable bool
// List of overrides for individual resources in this group version.
ResourceOverrides map[string]bool
}
// Config is a structure used to configure a Master.
type Config struct {
StorageDestinations StorageDestinations
// StorageVersions is a map between groups and their storage versions
StorageVersions map[string]string
EventTTL time.Duration
NodeRegexp string
KubeletClient client.KubeletClient
// allow downstream consumers to disable the core controller loops
EnableCoreControllers bool
EnableLogsSupport bool
EnableUISupport bool
// allow downstream consumers to disable swagger
EnableSwaggerSupport bool
// Allows api group versions or specific resources to be conditionally enabled/disabled.
APIGroupVersionOverrides map[string]APIGroupVersionOverride
// allow downstream consumers to disable the index route
EnableIndex bool
EnableProfiling bool
EnableWatchCache bool
APIPrefix string
APIGroupPrefix string
CorsAllowedOriginList []string
Authenticator authenticator.Request
// TODO(roberthbailey): Remove once the server no longer supports http basic auth.
SupportsBasicAuth bool
Authorizer authorizer.Authorizer
AdmissionControl admission.Interface
MasterServiceNamespace string
// Map requests to contexts. Exported so downstream consumers can provider their own mappers
RequestContextMapper api.RequestContextMapper
// If specified, all web services will be registered into this container
RestfulContainer *restful.Container
// If specified, requests will be allocated a random timeout between this value, and twice this value.
// Note that it is up to the request handlers to ignore or honor this timeout. In seconds.
MinRequestTimeout int
// Number of masters running; all masters must be started with the
// same value for this field. (Numbers > 1 currently untested.)
MasterCount int
// The port on PublicAddress where a read-write server will be installed.
// Defaults to 6443 if not set.
ReadWritePort int
// ExternalHost is the host name to use for external (public internet) facing URLs (e.g. Swagger)
ExternalHost string
// PublicAddress is the IP address where members of the cluster (kubelet,
// kube-proxy, services, etc.) can reach the master.
// If nil or 0.0.0.0, the host's default interface will be used.
PublicAddress net.IP
// Control the interval that pod, node IP, and node heath status caches
// expire.
CacheTimeout time.Duration
// The name of the cluster.
ClusterName string
// The range of IPs to be assigned to services with type=ClusterIP or greater
ServiceClusterIPRange *net.IPNet
// The IP address for the master service (must be inside ServiceClusterIPRange
ServiceReadWriteIP net.IP
// The range of ports to be assigned to services with type=NodePort or greater
ServiceNodePortRange util.PortRange
// Used to customize default proxy dial/tls options
ProxyDialer apiserver.ProxyDialerFunc
ProxyTLSClientConfig *tls.Config
// Used to start and monitor tunneling
Tunneler Tunneler
}
type InstallSSHKey func(user string, data []byte) error
// Master contains state for a Kubernetes cluster master/api server.
type Master struct {
// "Inputs", Copied from Config
serviceClusterIPRange *net.IPNet
serviceNodePortRange util.PortRange
cacheTimeout time.Duration
minRequestTimeout time.Duration
mux apiserver.Mux
muxHelper *apiserver.MuxHelper
handlerContainer *restful.Container
rootWebService *restful.WebService
enableCoreControllers bool
enableLogsSupport bool
enableUISupport bool
enableSwaggerSupport bool
enableProfiling bool
enableWatchCache bool
apiPrefix string
apiGroupPrefix string
corsAllowedOriginList []string
authenticator authenticator.Request
authorizer authorizer.Authorizer
admissionControl admission.Interface
masterCount int
apiGroupVersionOverrides map[string]APIGroupVersionOverride
requestContextMapper api.RequestContextMapper
// External host is the name that should be used in external (public internet) URLs for this master
externalHost string
// clusterIP is the IP address of the master within the cluster.
clusterIP net.IP
publicReadWritePort int
serviceReadWriteIP net.IP
serviceReadWritePort int
masterServices *util.Runner
// storage contains the RESTful endpoints exposed by this master
storage map[string]rest.Storage
// registries are internal client APIs for accessing the storage layer
// TODO: define the internal typed interface in a way that clients can
// also be replaced
nodeRegistry node.Registry
namespaceRegistry namespace.Registry
serviceRegistry service.Registry
endpointRegistry endpoint.Registry
serviceClusterIPAllocator service.RangeRegistry
serviceNodePortAllocator service.RangeRegistry
// "Outputs"
Handler http.Handler
InsecureHandler http.Handler
// Used for custom proxy dialing, and proxy TLS options
proxyTransport http.RoundTripper
// Used to start and monitor tunneling
tunneler Tunneler
// storage for third party objects
thirdPartyStorage storage.Interface
// map from api path to storage for those objects
thirdPartyResources map[string]*thirdpartyresourcedataetcd.REST
// protects the map
thirdPartyResourcesLock sync.RWMutex
}
// NewEtcdStorage returns a storage.Interface for the provided arguments or an error if the version
// is incorrect.
func NewEtcdStorage(client tools.EtcdClient, interfacesFunc meta.VersionInterfacesFunc, version, prefix string) (etcdStorage storage.Interface, err error) {
versionInterfaces, err := interfacesFunc(version)
if err != nil {
return etcdStorage, err
}
return etcdstorage.NewEtcdStorage(client, versionInterfaces.Codec, prefix), nil
}
// setDefaults fills in any fields not set that are required to have valid data.
func setDefaults(c *Config) {
if c.ServiceClusterIPRange == nil {
defaultNet := "10.0.0.0/24"
glog.Warningf("Network range for service cluster IPs is unspecified. Defaulting to %v.", defaultNet)
_, serviceClusterIPRange, err := net.ParseCIDR(defaultNet)
if err != nil {
glog.Fatalf("Unable to parse CIDR: %v", err)
}
if size := ipallocator.RangeSize(serviceClusterIPRange); size < 8 {
glog.Fatalf("The service cluster IP range must be at least %d IP addresses", 8)
}
c.ServiceClusterIPRange = serviceClusterIPRange
}
if c.ServiceReadWriteIP == nil {
// Select the first valid IP from ServiceClusterIPRange to use as the master service IP.
serviceReadWriteIP, err := ipallocator.GetIndexedIP(c.ServiceClusterIPRange, 1)
if err != nil {
glog.Fatalf("Failed to generate service read-write IP for master service: %v", err)
}
glog.V(4).Infof("Setting master service IP to %q (read-write).", serviceReadWriteIP)
c.ServiceReadWriteIP = serviceReadWriteIP
}
if c.ServiceNodePortRange.Size == 0 {
// TODO: Currently no way to specify an empty range (do we need to allow this?)
// We should probably allow this for clouds that don't require NodePort to do load-balancing (GCE)
// but then that breaks the strict nestedness of ServiceType.
// Review post-v1
defaultServiceNodePortRange := util.PortRange{Base: 30000, Size: 2768}
c.ServiceNodePortRange = defaultServiceNodePortRange
glog.Infof("Node port range unspecified. Defaulting to %v.", c.ServiceNodePortRange)
}
if c.MasterCount == 0 {
// Clearly, there will be at least one master.
c.MasterCount = 1
}
if c.ReadWritePort == 0 {
c.ReadWritePort = 6443
}
if c.CacheTimeout == 0 {
c.CacheTimeout = 5 * time.Second
}
for c.PublicAddress == nil || c.PublicAddress.IsUnspecified() || c.PublicAddress.IsLoopback() {
// TODO: This should be done in the caller and just require a
// valid value to be passed in.
hostIP, err := util.ChooseHostInterface()
if err != nil {
glog.Fatalf("Unable to find suitable network address.error='%v' . "+
"Will try again in 5 seconds. Set the public address directly to avoid this wait.", err)
time.Sleep(5 * time.Second)
}
c.PublicAddress = hostIP
glog.Infof("Will report %v as public IP address.", c.PublicAddress)
}
if c.RequestContextMapper == nil {
c.RequestContextMapper = api.NewRequestContextMapper()
}
}
// New returns a new instance of Master from the given config.
// Certain config fields will be set to a default value if unset,
// including:
// ServiceClusterIPRange
// ServiceNodePortRange
// MasterCount
// ReadWritePort
// PublicAddress
// Certain config fields must be specified, including:
// KubeletClient
// Public fields:
// Handler -- The returned master has a field TopHandler which is an
// http.Handler which handles all the endpoints provided by the master,
// including the API, the UI, and miscellaneous debugging endpoints. All
// these are subject to authorization and authentication.
// InsecureHandler -- an http.Handler which handles all the same
// endpoints as Handler, but no authorization and authentication is done.
// Public methods:
// HandleWithAuth -- Allows caller to add an http.Handler for an endpoint
// that uses the same authentication and authorization (if any is configured)
// as the master's built-in endpoints.
// If the caller wants to add additional endpoints not using the master's
// auth, then the caller should create a handler for those endpoints, which delegates the
// any unhandled paths to "Handler".
func New(c *Config) *Master {
setDefaults(c)
if c.KubeletClient == nil {
glog.Fatalf("master.New() called with config.KubeletClient == nil")
}
m := &Master{
serviceClusterIPRange: c.ServiceClusterIPRange,
serviceNodePortRange: c.ServiceNodePortRange,
rootWebService: new(restful.WebService),
enableCoreControllers: c.EnableCoreControllers,
enableLogsSupport: c.EnableLogsSupport,
enableUISupport: c.EnableUISupport,
enableSwaggerSupport: c.EnableSwaggerSupport,
enableProfiling: c.EnableProfiling,
enableWatchCache: c.EnableWatchCache,
apiPrefix: c.APIPrefix,
apiGroupPrefix: c.APIGroupPrefix,
corsAllowedOriginList: c.CorsAllowedOriginList,
authenticator: c.Authenticator,
authorizer: c.Authorizer,
admissionControl: c.AdmissionControl,
apiGroupVersionOverrides: c.APIGroupVersionOverrides,
requestContextMapper: c.RequestContextMapper,
cacheTimeout: c.CacheTimeout,
minRequestTimeout: time.Duration(c.MinRequestTimeout) * time.Second,
masterCount: c.MasterCount,
externalHost: c.ExternalHost,
clusterIP: c.PublicAddress,
publicReadWritePort: c.ReadWritePort,
serviceReadWriteIP: c.ServiceReadWriteIP,
// TODO: serviceReadWritePort should be passed in as an argument, it may not always be 443
serviceReadWritePort: 443,
tunneler: c.Tunneler,
}
var handlerContainer *restful.Container
if c.RestfulContainer != nil {
m.mux = c.RestfulContainer.ServeMux
handlerContainer = c.RestfulContainer
} else {
mux := http.NewServeMux()
m.mux = mux
handlerContainer = NewHandlerContainer(mux)
}
m.handlerContainer = handlerContainer
// Use CurlyRouter to be able to use regular expressions in paths. Regular expressions are required in paths for example for proxy (where the path is proxy/{kind}/{name}/{*})
m.handlerContainer.Router(restful.CurlyRouter{})
m.muxHelper = &apiserver.MuxHelper{Mux: m.mux, RegisteredPaths: []string{}}
m.init(c)
return m
}
// HandleWithAuth adds an http.Handler for pattern to an http.ServeMux
// Applies the same authentication and authorization (if any is configured)
// to the request is used for the master's built-in endpoints.
func (m *Master) HandleWithAuth(pattern string, handler http.Handler) {
// TODO: Add a way for plugged-in endpoints to translate their
// URLs into attributes that an Authorizer can understand, and have
// sensible policy defaults for plugged-in endpoints. This will be different
// for generic endpoints versus REST object endpoints.
// TODO: convert to go-restful
m.muxHelper.Handle(pattern, handler)
}
// HandleFuncWithAuth adds an http.Handler for pattern to an http.ServeMux
// Applies the same authentication and authorization (if any is configured)
// to the request is used for the master's built-in endpoints.
func (m *Master) HandleFuncWithAuth(pattern string, handler func(http.ResponseWriter, *http.Request)) {
// TODO: convert to go-restful
m.muxHelper.HandleFunc(pattern, handler)
}
func NewHandlerContainer(mux *http.ServeMux) *restful.Container {
container := restful.NewContainer()
container.ServeMux = mux
apiserver.InstallRecoverHandler(container)
return container
}
// init initializes master.
func (m *Master) init(c *Config) {
if c.ProxyDialer != nil || c.ProxyTLSClientConfig != nil {
m.proxyTransport = util.SetTransportDefaults(&http.Transport{
Dial: c.ProxyDialer,
TLSClientConfig: c.ProxyTLSClientConfig,
})
}
healthzChecks := []healthz.HealthzChecker{}
dbClient := func(resource string) storage.Interface { return c.StorageDestinations.get("", resource) }
podStorage := podetcd.NewStorage(dbClient("pods"), c.EnableWatchCache, c.KubeletClient, m.proxyTransport)
podTemplateStorage := podtemplateetcd.NewREST(dbClient("podTemplates"))
eventStorage := eventetcd.NewREST(dbClient("events"), uint64(c.EventTTL.Seconds()))
limitRangeStorage := limitrangeetcd.NewREST(dbClient("limitRanges"))
resourceQuotaStorage, resourceQuotaStatusStorage := resourcequotaetcd.NewREST(dbClient("resourceQuotas"))
secretStorage := secretetcd.NewREST(dbClient("secrets"))
serviceAccountStorage := serviceaccountetcd.NewREST(dbClient("serviceAccounts"))
persistentVolumeStorage, persistentVolumeStatusStorage := pvetcd.NewREST(dbClient("persistentVolumes"))
persistentVolumeClaimStorage, persistentVolumeClaimStatusStorage := pvcetcd.NewREST(dbClient("persistentVolumeClaims"))
namespaceStorage, namespaceStatusStorage, namespaceFinalizeStorage := namespaceetcd.NewREST(dbClient("namespaces"))
m.namespaceRegistry = namespace.NewRegistry(namespaceStorage)
endpointsStorage := endpointsetcd.NewREST(dbClient("endpoints"), c.EnableWatchCache)
m.endpointRegistry = endpoint.NewRegistry(endpointsStorage)
nodeStorage, nodeStatusStorage := nodeetcd.NewREST(dbClient("nodes"), c.EnableWatchCache, c.KubeletClient, m.proxyTransport)
m.nodeRegistry = node.NewRegistry(nodeStorage)
serviceStorage := serviceetcd.NewREST(dbClient("services"))
m.serviceRegistry = service.NewRegistry(serviceStorage)
var serviceClusterIPRegistry service.RangeRegistry
serviceClusterIPAllocator := ipallocator.NewAllocatorCIDRRange(m.serviceClusterIPRange, func(max int, rangeSpec string) allocator.Interface {
mem := allocator.NewAllocationMap(max, rangeSpec)
etcd := etcdallocator.NewEtcd(mem, "/ranges/serviceips", "serviceipallocation", dbClient("services"))
serviceClusterIPRegistry = etcd
return etcd
})
m.serviceClusterIPAllocator = serviceClusterIPRegistry
var serviceNodePortRegistry service.RangeRegistry
serviceNodePortAllocator := portallocator.NewPortAllocatorCustom(m.serviceNodePortRange, func(max int, rangeSpec string) allocator.Interface {
mem := allocator.NewAllocationMap(max, rangeSpec)
etcd := etcdallocator.NewEtcd(mem, "/ranges/servicenodeports", "servicenodeportallocation", dbClient("services"))
serviceNodePortRegistry = etcd
return etcd
})
m.serviceNodePortAllocator = serviceNodePortRegistry
controllerStorage, controllerStatusStorage := controlleretcd.NewREST(dbClient("replicationControllers"))
// TODO: Factor out the core API registration
m.storage = map[string]rest.Storage{
"pods": podStorage.Pod,
"pods/attach": podStorage.Attach,
"pods/status": podStorage.Status,
"pods/log": podStorage.Log,
"pods/exec": podStorage.Exec,
"pods/portforward": podStorage.PortForward,
"pods/proxy": podStorage.Proxy,
"pods/binding": podStorage.Binding,
"bindings": podStorage.Binding,
"podTemplates": podTemplateStorage,
"replicationControllers": controllerStorage,
"replicationControllers/status": controllerStatusStorage,
"services": service.NewStorage(m.serviceRegistry, m.endpointRegistry, serviceClusterIPAllocator, serviceNodePortAllocator, m.proxyTransport),
"endpoints": endpointsStorage,
"nodes": nodeStorage,
"nodes/status": nodeStatusStorage,
"events": eventStorage,
"limitRanges": limitRangeStorage,
"resourceQuotas": resourceQuotaStorage,
"resourceQuotas/status": resourceQuotaStatusStorage,
"namespaces": namespaceStorage,
"namespaces/status": namespaceStatusStorage,
"namespaces/finalize": namespaceFinalizeStorage,
"secrets": secretStorage,
"serviceAccounts": serviceAccountStorage,
"persistentVolumes": persistentVolumeStorage,
"persistentVolumes/status": persistentVolumeStatusStorage,
"persistentVolumeClaims": persistentVolumeClaimStorage,
"persistentVolumeClaims/status": persistentVolumeClaimStatusStorage,
"componentStatuses": componentstatus.NewStorage(func() map[string]apiserver.Server { return m.getServersToValidate(c) }),
}
if m.tunneler != nil {
m.tunneler.Run(m.getNodeAddresses)
healthzChecks = append(healthzChecks, healthz.NamedCheck("SSH Tunnel Check", m.IsTunnelSyncHealthy))
prometheus.NewGaugeFunc(prometheus.GaugeOpts{
Name: "apiserver_proxy_tunnel_sync_latency_secs",
Help: "The time since the last successful synchronization of the SSH tunnels for proxy requests.",
}, func() float64 { return float64(m.tunneler.SecondsSinceSync()) })
}
apiVersions := []string{}
// Install v1 unless disabled.
if !m.apiGroupVersionOverrides["api/v1"].Disable {
if err := m.api_v1().InstallREST(m.handlerContainer); err != nil {
glog.Fatalf("Unable to setup API v1: %v", err)
}
apiVersions = append(apiVersions, "v1")
}
apiserver.InstallSupport(m.muxHelper, m.rootWebService, c.EnableProfiling, healthzChecks...)
apiserver.AddApiWebService(m.handlerContainer, c.APIPrefix, apiVersions)
defaultVersion := m.defaultAPIGroupVersion()
requestInfoResolver := &apiserver.APIRequestInfoResolver{APIPrefixes: sets.NewString(strings.TrimPrefix(defaultVersion.Root, "/")), RestMapper: defaultVersion.Mapper}
apiserver.InstallServiceErrorHandler(m.handlerContainer, requestInfoResolver, apiVersions)
// allGroups records all supported groups at /apis
allGroups := []unversioned.APIGroup{}
// Install extensions unless disabled.
if !m.apiGroupVersionOverrides["extensions/v1beta1"].Disable {
m.thirdPartyStorage = c.StorageDestinations.APIGroups["extensions"].Default
m.thirdPartyResources = map[string]*thirdpartyresourcedataetcd.REST{}
expVersion := m.experimental(c)
if err := expVersion.InstallREST(m.handlerContainer); err != nil {
glog.Fatalf("Unable to setup experimental api: %v", err)
}
g, err := latest.Group("extensions")
if err != nil {
glog.Fatalf("Unable to setup experimental api: %v", err)
}
expAPIVersions := []unversioned.GroupVersion{
{
GroupVersion: expVersion.Version,
Version: apiutil.GetVersion(expVersion.Version),
},
}
storageVersion, found := c.StorageVersions[g.Group]
if !found {
glog.Fatalf("Couldn't find storage version of group %v", g.Group)
}
group := unversioned.APIGroup{
Name: g.Group,
Versions: expAPIVersions,
PreferredVersion: unversioned.GroupVersion{GroupVersion: storageVersion, Version: apiutil.GetVersion(storageVersion)},
}
apiserver.AddGroupWebService(m.handlerContainer, c.APIGroupPrefix+"/"+latest.GroupOrDie("extensions").Group, group)
allGroups = append(allGroups, group)
expRequestInfoResolver := &apiserver.APIRequestInfoResolver{APIPrefixes: sets.NewString(strings.TrimPrefix(expVersion.Root, "/")), RestMapper: expVersion.Mapper}
apiserver.InstallServiceErrorHandler(m.handlerContainer, expRequestInfoResolver, []string{expVersion.Version})
}
// This should be done after all groups are registered
// TODO: replace the hardcoded "apis".
apiserver.AddApisWebService(m.handlerContainer, "/apis", allGroups)
// Register root handler.
// We do not register this using restful Webservice since we do not want to surface this in api docs.
// Allow master to be embedded in contexts which already have something registered at the root
if c.EnableIndex {
m.mux.HandleFunc("/", apiserver.IndexHandler(m.handlerContainer, m.muxHelper))
}
if c.EnableLogsSupport {
apiserver.InstallLogsSupport(m.muxHelper)
}
if c.EnableUISupport {
ui.InstallSupport(m.muxHelper, m.enableSwaggerSupport)
}
if c.EnableProfiling {
m.mux.HandleFunc("/debug/pprof/", pprof.Index)
m.mux.HandleFunc("/debug/pprof/profile", pprof.Profile)
m.mux.HandleFunc("/debug/pprof/symbol", pprof.Symbol)
}
handler := http.Handler(m.mux.(*http.ServeMux))
// TODO: handle CORS and auth using go-restful
// See github.com/emicklei/go-restful/blob/master/examples/restful-CORS-filter.go, and
// github.com/emicklei/go-restful/blob/master/examples/restful-basic-authentication.go
if len(c.CorsAllowedOriginList) > 0 {
allowedOriginRegexps, err := util.CompileRegexps(c.CorsAllowedOriginList)
if err != nil {
glog.Fatalf("Invalid CORS allowed origin, --cors-allowed-origins flag was set to %v - %v", strings.Join(c.CorsAllowedOriginList, ","), err)
}
handler = apiserver.CORS(handler, allowedOriginRegexps, nil, nil, "true")
}
m.InsecureHandler = handler
attributeGetter := apiserver.NewRequestAttributeGetter(m.requestContextMapper, latest.GroupOrDie("").RESTMapper, "api")
handler = apiserver.WithAuthorizationCheck(handler, attributeGetter, m.authorizer)
// Install Authenticator
if c.Authenticator != nil {
authenticatedHandler, err := handlers.NewRequestAuthenticator(m.requestContextMapper, c.Authenticator, handlers.Unauthorized(c.SupportsBasicAuth), handler)
if err != nil {
glog.Fatalf("Could not initialize authenticator: %v", err)
}
handler = authenticatedHandler
}
// Install root web services
m.handlerContainer.Add(m.rootWebService)
// TODO: Make this optional? Consumers of master depend on this currently.
m.Handler = handler
if m.enableSwaggerSupport {
m.InstallSwaggerAPI()
}
// After all wrapping is done, put a context filter around both handlers
if handler, err := api.NewRequestContextFilter(m.requestContextMapper, m.Handler); err != nil {
glog.Fatalf("Could not initialize request context filter: %v", err)
} else {
m.Handler = handler
}
if handler, err := api.NewRequestContextFilter(m.requestContextMapper, m.InsecureHandler); err != nil {
glog.Fatalf("Could not initialize request context filter: %v", err)
} else {
m.InsecureHandler = handler
}
// TODO: Attempt clean shutdown?
if m.enableCoreControllers {
m.NewBootstrapController().Start()
}
}
// NewBootstrapController returns a controller for watching the core capabilities of the master.
func (m *Master) NewBootstrapController() *Controller {
return &Controller{
NamespaceRegistry: m.namespaceRegistry,
ServiceRegistry: m.serviceRegistry,
MasterCount: m.masterCount,
EndpointRegistry: m.endpointRegistry,
EndpointInterval: 10 * time.Second,
ServiceClusterIPRegistry: m.serviceClusterIPAllocator,
ServiceClusterIPRange: m.serviceClusterIPRange,
ServiceClusterIPInterval: 3 * time.Minute,
ServiceNodePortRegistry: m.serviceNodePortAllocator,
ServiceNodePortRange: m.serviceNodePortRange,
ServiceNodePortInterval: 3 * time.Minute,
PublicIP: m.clusterIP,
ServiceIP: m.serviceReadWriteIP,
ServicePort: m.serviceReadWritePort,
PublicServicePort: m.publicReadWritePort,
}
}
// InstallSwaggerAPI installs the /swaggerapi/ endpoint to allow schema discovery
// and traversal. It is optional to allow consumers of the Kubernetes master to
// register their own web services into the Kubernetes mux prior to initialization
// of swagger, so that other resource types show up in the documentation.
func (m *Master) InstallSwaggerAPI() {
hostAndPort := m.externalHost
protocol := "https://"
// TODO: this is kind of messed up, we should just pipe in the full URL from the outside, rather
// than guessing at it.
if len(m.externalHost) == 0 && m.clusterIP != nil {
host := m.clusterIP.String()
if m.publicReadWritePort != 0 {
hostAndPort = net.JoinHostPort(host, strconv.Itoa(m.publicReadWritePort))
}
}
webServicesUrl := protocol + hostAndPort
// Enable swagger UI and discovery API
swaggerConfig := swagger.Config{
WebServicesUrl: webServicesUrl,
WebServices: m.handlerContainer.RegisteredWebServices(),
ApiPath: "/swaggerapi/",
SwaggerPath: "/swaggerui/",
SwaggerFilePath: "/swagger-ui/",
}
swagger.RegisterSwaggerService(swaggerConfig, m.handlerContainer)
}
func (m *Master) getServersToValidate(c *Config) map[string]apiserver.Server {
serversToValidate := map[string]apiserver.Server{
"controller-manager": {Addr: "127.0.0.1", Port: ports.ControllerManagerPort, Path: "/healthz"},
"scheduler": {Addr: "127.0.0.1", Port: ports.SchedulerPort, Path: "/healthz"},
}
for ix, machine := range c.StorageDestinations.backends() {
etcdUrl, err := url.Parse(machine)
if err != nil {
glog.Errorf("Failed to parse etcd url for validation: %v", err)
continue
}
var port int
var addr string
if strings.Contains(etcdUrl.Host, ":") {
var portString string
addr, portString, err = net.SplitHostPort(etcdUrl.Host)
if err != nil {
glog.Errorf("Failed to split host/port: %s (%v)", etcdUrl.Host, err)
continue
}
port, _ = strconv.Atoi(portString)
} else {
addr = etcdUrl.Host
port = 4001
}
serversToValidate[fmt.Sprintf("etcd-%d", ix)] = apiserver.Server{Addr: addr, Port: port, Path: "/health", Validate: etcdstorage.EtcdHealthCheck}
}
return serversToValidate
}
func (m *Master) defaultAPIGroupVersion() *apiserver.APIGroupVersion {
return &apiserver.APIGroupVersion{
Root: m.apiPrefix,
Mapper: latest.GroupOrDie("").RESTMapper,
Creater: api.Scheme,
Convertor: api.Scheme,
Typer: api.Scheme,
Linker: latest.GroupOrDie("").SelfLinker,
Admit: m.admissionControl,
Context: m.requestContextMapper,
MinRequestTimeout: m.minRequestTimeout,
}
}
// api_v1 returns the resources and codec for API version v1.
func (m *Master) api_v1() *apiserver.APIGroupVersion {
storage := make(map[string]rest.Storage)
for k, v := range m.storage {
storage[strings.ToLower(k)] = v
}
version := m.defaultAPIGroupVersion()
version.Storage = storage
version.Version = "v1"
version.Codec = v1.Codec
return version
}
// HasThirdPartyResource returns true if a particular third party resource currently installed.
func (m *Master) HasThirdPartyResource(rsrc *expapi.ThirdPartyResource) (bool, error) {
_, group, err := thirdpartyresourcedata.ExtractApiGroupAndKind(rsrc)
if err != nil {
return false, err
}
path := makeThirdPartyPath(group)
services := m.handlerContainer.RegisteredWebServices()
for ix := range services {
if services[ix].RootPath() == path {
return true, nil
}
}
return false, nil
}
func (m *Master) removeThirdPartyStorage(path string) error {
m.thirdPartyResourcesLock.Lock()
defer m.thirdPartyResourcesLock.Unlock()
storage, found := m.thirdPartyResources[path]
if found {
if err := m.removeAllThirdPartyResources(storage); err != nil {
return err
}
delete(m.thirdPartyResources, path)
}
return nil
}
// RemoveThirdPartyResource removes all resources matching `path`. Also deletes any stored data
func (m *Master) RemoveThirdPartyResource(path string) error {
if err := m.removeThirdPartyStorage(path); err != nil {
return err
}
services := m.handlerContainer.RegisteredWebServices()
for ix := range services {
root := services[ix].RootPath()
if root == path || strings.HasPrefix(root, path+"/") {
m.handlerContainer.Remove(services[ix])
}
}
return nil
}
func (m *Master) removeAllThirdPartyResources(registry *thirdpartyresourcedataetcd.REST) error {
ctx := api.NewDefaultContext()
existingData, err := registry.List(ctx, labels.Everything(), fields.Everything())
if err != nil {
return err
}
list, ok := existingData.(*expapi.ThirdPartyResourceDataList)
if !ok {
return fmt.Errorf("expected a *ThirdPartyResourceDataList, got %#v", list)
}
for ix := range list.Items {
item := &list.Items[ix]
if _, err := registry.Delete(ctx, item.Name, nil); err != nil {
return err
}
}
return nil
}
// ListThirdPartyResources lists all currently installed third party resources
func (m *Master) ListThirdPartyResources() []string {
m.thirdPartyResourcesLock.RLock()
defer m.thirdPartyResourcesLock.RUnlock()
result := []string{}
for key := range m.thirdPartyResources {
result = append(result, key)
}
return result
}
func (m *Master) addThirdPartyResourceStorage(path string, storage *thirdpartyresourcedataetcd.REST) {
m.thirdPartyResourcesLock.Lock()
defer m.thirdPartyResourcesLock.Unlock()
m.thirdPartyResources[path] = storage
}
// InstallThirdPartyResource installs a third party resource specified by 'rsrc'. When a resource is
// installed a corresponding RESTful resource is added as a valid path in the web service provided by
// the master.
//
// For example, if you install a resource ThirdPartyResource{ Name: "foo.company.com", Versions: {"v1"} }
// then the following RESTful resource is created on the server:
// http://<host>/apis/company.com/v1/foos/...
func (m *Master) InstallThirdPartyResource(rsrc *expapi.ThirdPartyResource) error {
kind, group, err := thirdpartyresourcedata.ExtractApiGroupAndKind(rsrc)
if err != nil {
return err
}
thirdparty := m.thirdpartyapi(group, kind, rsrc.Versions[0].Name)
if err := thirdparty.InstallREST(m.handlerContainer); err != nil {
glog.Fatalf("Unable to setup thirdparty api: %v", err)
}
path := makeThirdPartyPath(group)
groupVersion := unversioned.GroupVersion{
GroupVersion: group + "/" + rsrc.Versions[0].Name,
Version: rsrc.Versions[0].Name,
}
apiGroup := unversioned.APIGroup{
Name: group,
Versions: []unversioned.GroupVersion{groupVersion},
}
apiserver.AddGroupWebService(m.handlerContainer, path, apiGroup)
m.addThirdPartyResourceStorage(path, thirdparty.Storage[strings.ToLower(kind)+"s"].(*thirdpartyresourcedataetcd.REST))
thirdPartyRequestInfoResolver := &apiserver.APIRequestInfoResolver{APIPrefixes: sets.NewString(strings.TrimPrefix(group, "/")), RestMapper: thirdparty.Mapper}
apiserver.InstallServiceErrorHandler(m.handlerContainer, thirdPartyRequestInfoResolver, []string{thirdparty.Version})
return nil
}
func (m *Master) thirdpartyapi(group, kind, version string) *apiserver.APIGroupVersion {
resourceStorage := thirdpartyresourcedataetcd.NewREST(m.thirdPartyStorage, group, kind)
apiRoot := makeThirdPartyPath("")
storage := map[string]rest.Storage{
strings.ToLower(kind) + "s": resourceStorage,
}
return &apiserver.APIGroupVersion{
Root: apiRoot,
Version: apiutil.GetGroupVersion(group, version),
Creater: thirdpartyresourcedata.NewObjectCreator(group, version, api.Scheme),
Convertor: api.Scheme,
Typer: api.Scheme,
Mapper: thirdpartyresourcedata.NewMapper(latest.GroupOrDie("extensions").RESTMapper, kind, version, group),
Codec: thirdpartyresourcedata.NewCodec(latest.GroupOrDie("extensions").Codec, kind),
Linker: latest.GroupOrDie("extensions").SelfLinker,
Storage: storage,
ServerVersion: latest.GroupOrDie("").GroupVersion,
Context: m.requestContextMapper,
MinRequestTimeout: m.minRequestTimeout,
}
}
// experimental returns the resources and codec for the experimental api
func (m *Master) experimental(c *Config) *apiserver.APIGroupVersion {
// All resources except these are disabled by default.
enabledResources := utilSets.NewString("jobs", "horizontalpodautoscalers", "ingresses")
resourceOverrides := m.apiGroupVersionOverrides["extensions/v1beta1"].ResourceOverrides
isEnabled := func(resource string) bool {
// Check if the resource has been overriden.
enabled, ok := resourceOverrides[resource]
if !ok {
return enabledResources.Has(resource)
}
return enabled
}
dbClient := func(resource string) storage.Interface {
return c.StorageDestinations.get("extensions", resource)
}
storage := map[string]rest.Storage{}
if isEnabled("horizontalpodautoscalers") {
autoscalerStorage, autoscalerStatusStorage := horizontalpodautoscaleretcd.NewREST(dbClient("horizonalpodautoscalers"))
storage["horizontalpodautoscalers"] = autoscalerStorage
storage["horizontalpodautoscalers/status"] = autoscalerStatusStorage
controllerStorage := expcontrolleretcd.NewStorage(c.StorageDestinations.get("", "replicationControllers"))
storage["replicationcontrollers"] = controllerStorage.ReplicationController
storage["replicationcontrollers/scale"] = controllerStorage.Scale
}
if isEnabled("thirdpartyresources") {
thirdPartyResourceStorage := thirdpartyresourceetcd.NewREST(dbClient("thirdpartyresources"))
thirdPartyControl := ThirdPartyController{
master: m,
thirdPartyResourceRegistry: thirdPartyResourceStorage,
}
go func() {
util.Forever(func() {
if err := thirdPartyControl.SyncResources(); err != nil {
glog.Warningf("third party resource sync failed: %v", err)
}
}, 10*time.Second)
}()
storage["thirdpartyresources"] = thirdPartyResourceStorage
}
if isEnabled("daemonsets") {
daemonSetStorage, daemonSetStatusStorage := daemonetcd.NewREST(dbClient("daemonsets"))
storage["daemonsets"] = daemonSetStorage
storage["daemonsets/status"] = daemonSetStatusStorage
}
if isEnabled("deployments") {
deploymentStorage := deploymentetcd.NewStorage(dbClient("deployments"))
storage["deployments"] = deploymentStorage.Deployment
storage["deployments/scale"] = deploymentStorage.Scale
}
if isEnabled("jobs") {
jobStorage, jobStatusStorage := jobetcd.NewREST(dbClient("jobs"))
storage["jobs"] = jobStorage
storage["jobs/status"] = jobStatusStorage
}
if isEnabled("ingresses") {
ingressStorage, ingressStatusStorage := ingressetcd.NewREST(dbClient("ingresses"))
storage["ingresses"] = ingressStorage
storage["ingresses/status"] = ingressStatusStorage
}
extensionsGroup := latest.GroupOrDie("extensions")
return &apiserver.APIGroupVersion{
Root: m.apiGroupPrefix,
Creater: api.Scheme,
Convertor: api.Scheme,
Typer: api.Scheme,
Mapper: extensionsGroup.RESTMapper,
Codec: extensionsGroup.Codec,
Linker: extensionsGroup.SelfLinker,
Storage: storage,
Version: extensionsGroup.GroupVersion,
ServerVersion: latest.GroupOrDie("").GroupVersion,
Admit: m.admissionControl,
Context: m.requestContextMapper,
MinRequestTimeout: m.minRequestTimeout,
}
}
// findExternalAddress returns ExternalIP of provided node with fallback to LegacyHostIP.
func findExternalAddress(node *api.Node) (string, error) {
var fallback string
for ix := range node.Status.Addresses {
addr := &node.Status.Addresses[ix]
if addr.Type == api.NodeExternalIP {
return addr.Address, nil
}
if fallback == "" && addr.Type == api.NodeLegacyHostIP {
fallback = addr.Address
}
}
if fallback != "" {
return fallback, nil
}
return "", fmt.Errorf("Couldn't find external address: %v", node)
}
func (m *Master) getNodeAddresses() ([]string, error) {
nodes, err := m.nodeRegistry.ListNodes(api.NewDefaultContext(), labels.Everything(), fields.Everything())
if err != nil {
return nil, err
}
addrs := []string{}
for ix := range nodes.Items {
node := &nodes.Items[ix]
addr, err := findExternalAddress(node)
if err != nil {
return nil, err
}
addrs = append(addrs, addr)
}
return addrs, nil
}
func (m *Master) IsTunnelSyncHealthy(req *http.Request) error {
if m.tunneler == nil {
return nil
}
lag := m.tunneler.SecondsSinceSync()
if lag > 600 {
return fmt.Errorf("Tunnel sync is taking to long: %d", lag)
}
return nil
}
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