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Jacklull
k3s
Commits
c9e771a7
Commit
c9e771a7
authored
Oct 05, 2016
by
Marcin Wielgus
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Federated deployment controller - part 1
parent
350fafe0
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8 changed files
with
735 additions
and
6 deletions
+735
-6
controllermanager.go
...md/federation-controller-manager/app/controllermanager.go
+6
-0
deploymentcontroller.go
.../federation-controller/deployment/deploymentcontroller.go
+555
-0
deploymentcontroller_test.go
...ration-controller/deployment/deploymentcontroller_test.go
+168
-0
planner.go
...n/pkg/federation-controller/replicaset/planner/planner.go
+1
-1
planner_test.go
.../federation-controller/replicaset/planner/planner_test.go
+1
-1
pod_helper.go
...ration/pkg/federation-controller/replicaset/pod_helper.go
+2
-2
pod_helper_test.go
...n/pkg/federation-controller/replicaset/pod_helper_test.go
+1
-1
replicasetcontroller.go
.../federation-controller/replicaset/replicasetcontroller.go
+1
-1
No files found.
federation/cmd/federation-controller-manager/app/controllermanager.go
View file @
c9e771a7
...
...
@@ -30,6 +30,7 @@ import (
"k8s.io/kubernetes/federation/cmd/federation-controller-manager/app/options"
"k8s.io/kubernetes/federation/pkg/dnsprovider"
clustercontroller
"k8s.io/kubernetes/federation/pkg/federation-controller/cluster"
deploymentcontroller
"k8s.io/kubernetes/federation/pkg/federation-controller/deployment"
ingresscontroller
"k8s.io/kubernetes/federation/pkg/federation-controller/ingress"
namespacecontroller
"k8s.io/kubernetes/federation/pkg/federation-controller/namespace"
replicasetcontroller
"k8s.io/kubernetes/federation/pkg/federation-controller/replicaset"
...
...
@@ -160,6 +161,11 @@ func StartControllers(s *options.CMServer, restClientCfg *restclient.Config) err
replicaSetController
:=
replicasetcontroller
.
NewReplicaSetController
(
replicaSetClientset
)
go
replicaSetController
.
Run
(
s
.
ConcurrentReplicaSetSyncs
,
wait
.
NeverStop
)
deploymentClientset
:=
federationclientset
.
NewForConfigOrDie
(
restclient
.
AddUserAgent
(
restClientCfg
,
deploymentcontroller
.
UserAgentName
))
deploymentController
:=
deploymentcontroller
.
NewDeploymentController
(
deploymentClientset
)
// TODO: rename s.ConcurentReplicaSetSyncs
go
deploymentController
.
Run
(
s
.
ConcurrentReplicaSetSyncs
,
wait
.
NeverStop
)
glog
.
Infof
(
"Loading client config for ingress controller %q"
,
"ingress-controller"
)
ingClientset
:=
federationclientset
.
NewForConfigOrDie
(
restclient
.
AddUserAgent
(
restClientCfg
,
"ingress-controller"
))
ingressController
:=
ingresscontroller
.
NewIngressController
(
ingClientset
)
...
...
federation/pkg/federation-controller/deployment/deploymentcontroller.go
0 → 100644
View file @
c9e771a7
/*
Copyright 2016 The Kubernetes Authors.
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
deployment
import
(
"bytes"
"encoding/json"
"fmt"
"reflect"
"sort"
"time"
"github.com/golang/glog"
fed
"k8s.io/kubernetes/federation/apis/federation"
fedv1
"k8s.io/kubernetes/federation/apis/federation/v1beta1"
fedclientset
"k8s.io/kubernetes/federation/client/clientset_generated/federation_release_1_5"
"k8s.io/kubernetes/federation/pkg/federation-controller/replicaset"
"k8s.io/kubernetes/federation/pkg/federation-controller/replicaset/planner"
fedutil
"k8s.io/kubernetes/federation/pkg/federation-controller/util"
"k8s.io/kubernetes/federation/pkg/federation-controller/util/eventsink"
"k8s.io/kubernetes/pkg/api"
apiv1
"k8s.io/kubernetes/pkg/api/v1"
extensionsv1
"k8s.io/kubernetes/pkg/apis/extensions/v1beta1"
"k8s.io/kubernetes/pkg/client/cache"
kubeclientset
"k8s.io/kubernetes/pkg/client/clientset_generated/release_1_5"
"k8s.io/kubernetes/pkg/client/record"
"k8s.io/kubernetes/pkg/controller"
"k8s.io/kubernetes/pkg/runtime"
"k8s.io/kubernetes/pkg/util/flowcontrol"
"k8s.io/kubernetes/pkg/util/wait"
"k8s.io/kubernetes/pkg/util/workqueue"
"k8s.io/kubernetes/pkg/watch"
)
const
(
FedDeploymentPreferencesAnnotation
=
"federation.kubernetes.io/deployment-preferences"
allClustersKey
=
"THE_ALL_CLUSTER_KEY"
UserAgentName
=
"Federation-Deployment-Controller"
)
var
(
deploymentReviewDelay
=
10
*
time
.
Second
clusterAvailableDelay
=
20
*
time
.
Second
clusterUnavailableDelay
=
60
*
time
.
Second
allDeploymentReviewDelay
=
2
*
time
.
Minute
updateTimeout
=
30
*
time
.
Second
)
func
parseFederationDeploymentPreference
(
fd
*
extensionsv1
.
Deployment
)
(
*
fed
.
FederatedReplicaSetPreferences
,
error
)
{
if
fd
.
Annotations
==
nil
{
return
nil
,
nil
}
fdPrefString
,
found
:=
fd
.
Annotations
[
FedDeploymentPreferencesAnnotation
]
if
!
found
{
return
nil
,
nil
}
var
fdPref
fed
.
FederatedReplicaSetPreferences
if
err
:=
json
.
Unmarshal
([]
byte
(
fdPrefString
),
&
fdPref
);
err
!=
nil
{
return
nil
,
err
}
return
&
fdPref
,
nil
}
type
DeploymentController
struct
{
fedClient
fedclientset
.
Interface
deploymentController
*
cache
.
Controller
deploymentStore
cache
.
Store
fedDeploymentInformer
fedutil
.
FederatedInformer
fedPodInformer
fedutil
.
FederatedInformer
deploymentDeliverer
*
fedutil
.
DelayingDeliverer
clusterDeliverer
*
fedutil
.
DelayingDeliverer
deploymentWorkQueue
workqueue
.
Interface
// For updating members of federation.
fedUpdater
fedutil
.
FederatedUpdater
deploymentBackoff
*
flowcontrol
.
Backoff
eventRecorder
record
.
EventRecorder
defaultPlanner
*
planner
.
Planner
}
// NewclusterController returns a new cluster controller
func
NewDeploymentController
(
federationClient
fedclientset
.
Interface
)
*
DeploymentController
{
broadcaster
:=
record
.
NewBroadcaster
()
broadcaster
.
StartRecordingToSink
(
eventsink
.
NewFederatedEventSink
(
federationClient
))
recorder
:=
broadcaster
.
NewRecorder
(
api
.
EventSource
{
Component
:
"federated-deployment-controller"
})
fdc
:=
&
DeploymentController
{
fedClient
:
federationClient
,
deploymentDeliverer
:
fedutil
.
NewDelayingDeliverer
(),
clusterDeliverer
:
fedutil
.
NewDelayingDeliverer
(),
deploymentWorkQueue
:
workqueue
.
New
(),
deploymentBackoff
:
flowcontrol
.
NewBackOff
(
5
*
time
.
Second
,
time
.
Minute
),
defaultPlanner
:
planner
.
NewPlanner
(
&
fed
.
FederatedReplicaSetPreferences
{
Clusters
:
map
[
string
]
fed
.
ClusterReplicaSetPreferences
{
"*"
:
{
Weight
:
1
},
},
}),
eventRecorder
:
recorder
,
}
deploymentFedInformerFactory
:=
func
(
cluster
*
fedv1
.
Cluster
,
clientset
kubeclientset
.
Interface
)
(
cache
.
Store
,
cache
.
ControllerInterface
)
{
return
cache
.
NewInformer
(
&
cache
.
ListWatch
{
ListFunc
:
func
(
options
api
.
ListOptions
)
(
runtime
.
Object
,
error
)
{
versionedOptions
:=
fedutil
.
VersionizeV1ListOptions
(
options
)
return
clientset
.
Extensions
()
.
Deployments
(
apiv1
.
NamespaceAll
)
.
List
(
versionedOptions
)
},
WatchFunc
:
func
(
options
api
.
ListOptions
)
(
watch
.
Interface
,
error
)
{
versionedOptions
:=
fedutil
.
VersionizeV1ListOptions
(
options
)
return
clientset
.
Extensions
()
.
Deployments
(
apiv1
.
NamespaceAll
)
.
Watch
(
versionedOptions
)
},
},
&
extensionsv1
.
Deployment
{},
controller
.
NoResyncPeriodFunc
(),
fedutil
.
NewTriggerOnAllChanges
(
func
(
obj
runtime
.
Object
)
{
fdc
.
deliverLocalDeployment
(
obj
,
deploymentReviewDelay
)
},
),
)
}
clusterLifecycle
:=
fedutil
.
ClusterLifecycleHandlerFuncs
{
ClusterAvailable
:
func
(
cluster
*
fedv1
.
Cluster
)
{
fdc
.
clusterDeliverer
.
DeliverAfter
(
allClustersKey
,
nil
,
clusterAvailableDelay
)
},
ClusterUnavailable
:
func
(
cluster
*
fedv1
.
Cluster
,
_
[]
interface
{})
{
fdc
.
clusterDeliverer
.
DeliverAfter
(
allClustersKey
,
nil
,
clusterUnavailableDelay
)
},
}
fdc
.
fedDeploymentInformer
=
fedutil
.
NewFederatedInformer
(
federationClient
,
deploymentFedInformerFactory
,
&
clusterLifecycle
)
podFedInformerFactory
:=
func
(
cluster
*
fedv1
.
Cluster
,
clientset
kubeclientset
.
Interface
)
(
cache
.
Store
,
cache
.
ControllerInterface
)
{
return
cache
.
NewInformer
(
&
cache
.
ListWatch
{
ListFunc
:
func
(
options
api
.
ListOptions
)
(
runtime
.
Object
,
error
)
{
versionedOptions
:=
fedutil
.
VersionizeV1ListOptions
(
options
)
return
clientset
.
Core
()
.
Pods
(
apiv1
.
NamespaceAll
)
.
List
(
versionedOptions
)
},
WatchFunc
:
func
(
options
api
.
ListOptions
)
(
watch
.
Interface
,
error
)
{
versionedOptions
:=
fedutil
.
VersionizeV1ListOptions
(
options
)
return
clientset
.
Core
()
.
Pods
(
apiv1
.
NamespaceAll
)
.
Watch
(
versionedOptions
)
},
},
&
apiv1
.
Pod
{},
controller
.
NoResyncPeriodFunc
(),
fedutil
.
NewTriggerOnAllChanges
(
func
(
obj
runtime
.
Object
)
{
fdc
.
clusterDeliverer
.
DeliverAfter
(
allClustersKey
,
nil
,
allDeploymentReviewDelay
)
},
),
)
}
fdc
.
fedPodInformer
=
fedutil
.
NewFederatedInformer
(
federationClient
,
podFedInformerFactory
,
&
fedutil
.
ClusterLifecycleHandlerFuncs
{})
fdc
.
deploymentStore
,
fdc
.
deploymentController
=
cache
.
NewInformer
(
&
cache
.
ListWatch
{
ListFunc
:
func
(
options
api
.
ListOptions
)
(
runtime
.
Object
,
error
)
{
versionedOptions
:=
fedutil
.
VersionizeV1ListOptions
(
options
)
return
fdc
.
fedClient
.
Extensions
()
.
Deployments
(
apiv1
.
NamespaceAll
)
.
List
(
versionedOptions
)
},
WatchFunc
:
func
(
options
api
.
ListOptions
)
(
watch
.
Interface
,
error
)
{
versionedOptions
:=
fedutil
.
VersionizeV1ListOptions
(
options
)
return
fdc
.
fedClient
.
Extensions
()
.
Deployments
(
apiv1
.
NamespaceAll
)
.
Watch
(
versionedOptions
)
},
},
&
extensionsv1
.
Deployment
{},
controller
.
NoResyncPeriodFunc
(),
fedutil
.
NewTriggerOnMetaAndSpecChanges
(
func
(
obj
runtime
.
Object
)
{
fdc
.
deliverFedDeploymentObj
(
obj
,
deploymentReviewDelay
)
},
),
)
fdc
.
fedUpdater
=
fedutil
.
NewFederatedUpdater
(
fdc
.
fedDeploymentInformer
,
func
(
client
kubeclientset
.
Interface
,
obj
runtime
.
Object
)
error
{
rs
:=
obj
.
(
*
extensionsv1
.
Deployment
)
_
,
err
:=
client
.
Extensions
()
.
Deployments
(
rs
.
Namespace
)
.
Create
(
rs
)
return
err
},
func
(
client
kubeclientset
.
Interface
,
obj
runtime
.
Object
)
error
{
rs
:=
obj
.
(
*
extensionsv1
.
Deployment
)
_
,
err
:=
client
.
Extensions
()
.
Deployments
(
rs
.
Namespace
)
.
Update
(
rs
)
return
err
},
func
(
client
kubeclientset
.
Interface
,
obj
runtime
.
Object
)
error
{
rs
:=
obj
.
(
*
extensionsv1
.
Deployment
)
err
:=
client
.
Extensions
()
.
Deployments
(
rs
.
Namespace
)
.
Delete
(
rs
.
Name
,
&
apiv1
.
DeleteOptions
{})
return
err
})
return
fdc
}
func
(
fdc
*
DeploymentController
)
Run
(
workers
int
,
stopCh
<-
chan
struct
{})
{
go
fdc
.
deploymentController
.
Run
(
stopCh
)
fdc
.
fedDeploymentInformer
.
Start
()
fdc
.
fedPodInformer
.
Start
()
fdc
.
deploymentDeliverer
.
StartWithHandler
(
func
(
item
*
fedutil
.
DelayingDelivererItem
)
{
fdc
.
deploymentWorkQueue
.
Add
(
item
.
Key
)
})
fdc
.
clusterDeliverer
.
StartWithHandler
(
func
(
_
*
fedutil
.
DelayingDelivererItem
)
{
fdc
.
reconcileDeploymentsOnClusterChange
()
})
// Wait until the cluster is synced to prevent the update storm at the very beginning.
for
!
fdc
.
isSynced
()
{
time
.
Sleep
(
5
*
time
.
Millisecond
)
glog
.
Infof
(
"Waiting for controller to sync up"
)
}
for
i
:=
0
;
i
<
workers
;
i
++
{
go
wait
.
Until
(
fdc
.
worker
,
time
.
Second
,
stopCh
)
}
go
func
()
{
for
{
// Perform backof registry cleanup from time to time.
select
{
case
<-
time
.
After
(
time
.
Minute
)
:
fdc
.
deploymentBackoff
.
GC
()
case
<-
stopCh
:
return
}
}
}()
<-
stopCh
glog
.
Infof
(
"Shutting down DeploymentController"
)
fdc
.
deploymentDeliverer
.
Stop
()
fdc
.
clusterDeliverer
.
Stop
()
fdc
.
deploymentWorkQueue
.
ShutDown
()
fdc
.
fedDeploymentInformer
.
Stop
()
fdc
.
fedPodInformer
.
Stop
()
}
func
(
fdc
*
DeploymentController
)
isSynced
()
bool
{
if
!
fdc
.
fedDeploymentInformer
.
ClustersSynced
()
{
glog
.
V
(
2
)
.
Infof
(
"Cluster list not synced"
)
return
false
}
clustersFromDeps
,
err
:=
fdc
.
fedDeploymentInformer
.
GetReadyClusters
()
if
err
!=
nil
{
glog
.
Errorf
(
"Failed to get ready clusters: %v"
,
err
)
return
false
}
if
!
fdc
.
fedDeploymentInformer
.
GetTargetStore
()
.
ClustersSynced
(
clustersFromDeps
)
{
return
false
}
if
!
fdc
.
fedPodInformer
.
ClustersSynced
()
{
glog
.
V
(
2
)
.
Infof
(
"Cluster list not synced"
)
return
false
}
clustersFromPods
,
err
:=
fdc
.
fedPodInformer
.
GetReadyClusters
()
if
err
!=
nil
{
glog
.
Errorf
(
"Failed to get ready clusters: %v"
,
err
)
return
false
}
// This also checks whether podInformer and deploymentInformer have the
// same cluster lists.
if
!
fdc
.
fedPodInformer
.
GetTargetStore
()
.
ClustersSynced
(
clustersFromDeps
)
{
glog
.
V
(
2
)
.
Infof
(
"Pod informer not synced"
)
return
false
}
if
!
fdc
.
fedPodInformer
.
GetTargetStore
()
.
ClustersSynced
(
clustersFromPods
)
{
glog
.
V
(
2
)
.
Infof
(
"Pod informer not synced"
)
return
false
}
if
!
fdc
.
deploymentController
.
HasSynced
()
{
glog
.
V
(
2
)
.
Infof
(
"federation deployment list not synced"
)
return
false
}
return
true
}
func
(
fdc
*
DeploymentController
)
deliverLocalDeployment
(
obj
interface
{},
duration
time
.
Duration
)
{
key
,
err
:=
controller
.
KeyFunc
(
obj
)
if
err
!=
nil
{
glog
.
Errorf
(
"Couldn't get key for object %v: %v"
,
obj
,
err
)
return
}
_
,
exists
,
err
:=
fdc
.
deploymentStore
.
GetByKey
(
key
)
if
err
!=
nil
{
glog
.
Errorf
(
"Couldn't get federation deployment %v: %v"
,
key
,
err
)
return
}
if
exists
{
// ignore deployments exists only in local k8s
fdc
.
deliverDeploymentByKey
(
key
,
duration
,
false
)
}
}
func
(
fdc
*
DeploymentController
)
deliverFedDeploymentObj
(
obj
interface
{},
delay
time
.
Duration
)
{
key
,
err
:=
controller
.
KeyFunc
(
obj
)
if
err
!=
nil
{
glog
.
Errorf
(
"Couldn't get key for object %+v: %v"
,
obj
,
err
)
return
}
fdc
.
deliverDeploymentByKey
(
key
,
delay
,
false
)
}
func
(
fdc
*
DeploymentController
)
deliverDeploymentByKey
(
key
string
,
delay
time
.
Duration
,
failed
bool
)
{
if
failed
{
fdc
.
deploymentBackoff
.
Next
(
key
,
time
.
Now
())
delay
=
delay
+
fdc
.
deploymentBackoff
.
Get
(
key
)
}
else
{
fdc
.
deploymentBackoff
.
Reset
(
key
)
}
fdc
.
deploymentDeliverer
.
DeliverAfter
(
key
,
nil
,
delay
)
}
func
(
fdc
*
DeploymentController
)
worker
()
{
for
{
item
,
quit
:=
fdc
.
deploymentWorkQueue
.
Get
()
if
quit
{
return
}
key
:=
item
.
(
string
)
status
,
err
:=
fdc
.
reconcileDeployment
(
key
)
fdc
.
deploymentWorkQueue
.
Done
(
item
)
if
err
!=
nil
{
glog
.
Errorf
(
"Error syncing cluster controller: %v"
,
err
)
fdc
.
deliverDeploymentByKey
(
key
,
0
,
true
)
}
else
{
switch
status
{
case
statusAllOk
:
break
case
statusError
:
fdc
.
deliverDeploymentByKey
(
key
,
0
,
true
)
case
statusNeedRecheck
:
fdc
.
deliverDeploymentByKey
(
key
,
deploymentReviewDelay
,
false
)
case
statusNotSynced
:
fdc
.
deliverDeploymentByKey
(
key
,
clusterAvailableDelay
,
false
)
default
:
glog
.
Errorf
(
"Unhandled reconciliation status: %s"
,
status
)
fdc
.
deliverDeploymentByKey
(
key
,
deploymentReviewDelay
,
false
)
}
}
}
}
func
(
fdc
*
DeploymentController
)
schedule
(
fd
*
extensionsv1
.
Deployment
,
clusters
[]
*
fedv1
.
Cluster
,
current
map
[
string
]
int64
,
estimatedCapacity
map
[
string
]
int64
)
map
[
string
]
int64
{
// TODO: integrate real scheduler
plannerToBeUsed
:=
fdc
.
defaultPlanner
fdPref
,
err
:=
parseFederationDeploymentPreference
(
fd
)
if
err
!=
nil
{
glog
.
Info
(
"Invalid Deployment specific preference, use default. deployment: %v, err: %v"
,
fd
.
Name
,
err
)
}
if
fdPref
!=
nil
{
// create a new planner if user specified a preference
plannerToBeUsed
=
planner
.
NewPlanner
(
fdPref
)
}
replicas
:=
int64
(
*
fd
.
Spec
.
Replicas
)
var
clusterNames
[]
string
for
_
,
cluster
:=
range
clusters
{
clusterNames
=
append
(
clusterNames
,
cluster
.
Name
)
}
scheduleResult
,
overflow
:=
plannerToBeUsed
.
Plan
(
replicas
,
clusterNames
,
current
,
estimatedCapacity
,
fd
.
Namespace
+
"/"
+
fd
.
Name
)
// make sure the result contains all clusters that currently have some replicas.
result
:=
make
(
map
[
string
]
int64
)
for
clusterName
:=
range
current
{
result
[
clusterName
]
=
0
}
for
clusterName
,
replicas
:=
range
scheduleResult
{
result
[
clusterName
]
=
replicas
}
for
clusterName
,
replicas
:=
range
overflow
{
result
[
clusterName
]
+=
replicas
}
if
glog
.
V
(
4
)
{
buf
:=
bytes
.
NewBufferString
(
fmt
.
Sprintf
(
"Schedule - Deployment: %s/%s
\n
"
,
fd
.
Namespace
,
fd
.
Name
))
sort
.
Strings
(
clusterNames
)
for
_
,
clusterName
:=
range
clusterNames
{
cur
:=
current
[
clusterName
]
target
:=
scheduleResult
[
clusterName
]
fmt
.
Fprintf
(
buf
,
"%s: current: %d target: %d"
,
clusterName
,
cur
,
target
)
if
over
,
found
:=
overflow
[
clusterName
];
found
{
fmt
.
Fprintf
(
buf
,
" overflow: %d"
,
over
)
}
if
capacity
,
found
:=
estimatedCapacity
[
clusterName
];
found
{
fmt
.
Fprintf
(
buf
,
" capacity: %d"
,
capacity
)
}
fmt
.
Fprintf
(
buf
,
"
\n
"
)
}
glog
.
V
(
4
)
.
Infof
(
buf
.
String
())
}
return
result
}
type
reconciliationStatus
string
const
(
statusAllOk
=
reconciliationStatus
(
"ALL_OK"
)
statusNeedRecheck
=
reconciliationStatus
(
"RECHECK"
)
statusError
=
reconciliationStatus
(
"ERROR"
)
statusNotSynced
=
reconciliationStatus
(
"NOSYNC"
)
)
func
(
fdc
*
DeploymentController
)
reconcileDeployment
(
key
string
)
(
reconciliationStatus
,
error
)
{
if
!
fdc
.
isSynced
()
{
return
statusNotSynced
,
nil
}
glog
.
V
(
4
)
.
Infof
(
"Start reconcile deployment %q"
,
key
)
startTime
:=
time
.
Now
()
defer
glog
.
V
(
4
)
.
Infof
(
"Finished reconcile deployment %q (%v)"
,
key
,
time
.
Now
()
.
Sub
(
startTime
))
obj
,
exists
,
err
:=
fdc
.
deploymentStore
.
GetByKey
(
key
)
if
err
!=
nil
{
return
statusError
,
err
}
if
!
exists
{
// don't delete local deployments for now. Do not reconcile it anymore.
return
statusAllOk
,
nil
}
fd
:=
obj
.
(
*
extensionsv1
.
Deployment
)
clusters
,
err
:=
fdc
.
fedDeploymentInformer
.
GetReadyClusters
()
if
err
!=
nil
{
return
statusError
,
err
}
// collect current status and do schedule
allPods
,
err
:=
fdc
.
fedPodInformer
.
GetTargetStore
()
.
List
()
if
err
!=
nil
{
return
statusError
,
err
}
podStatus
,
err
:=
replicaset
.
AnalysePods
(
fd
.
Spec
.
Selector
,
allPods
,
time
.
Now
())
current
:=
make
(
map
[
string
]
int64
)
estimatedCapacity
:=
make
(
map
[
string
]
int64
)
for
_
,
cluster
:=
range
clusters
{
ldObj
,
exists
,
err
:=
fdc
.
fedDeploymentInformer
.
GetTargetStore
()
.
GetByKey
(
cluster
.
Name
,
key
)
if
err
!=
nil
{
return
statusError
,
err
}
if
exists
{
ld
:=
ldObj
.
(
*
extensionsv1
.
Deployment
)
current
[
cluster
.
Name
]
=
int64
(
podStatus
[
cluster
.
Name
]
.
RunningAndReady
)
// include pending as well?
unschedulable
:=
int64
(
podStatus
[
cluster
.
Name
]
.
Unschedulable
)
if
unschedulable
>
0
{
estimatedCapacity
[
cluster
.
Name
]
=
int64
(
*
ld
.
Spec
.
Replicas
)
-
unschedulable
}
}
}
scheduleResult
:=
fdc
.
schedule
(
fd
,
clusters
,
current
,
estimatedCapacity
)
glog
.
V
(
4
)
.
Infof
(
"Start syncing local deployment %s: %v"
,
key
,
scheduleResult
)
fedStatus
:=
extensionsv1
.
DeploymentStatus
{
ObservedGeneration
:
fd
.
Generation
}
operations
:=
make
([]
fedutil
.
FederatedOperation
,
0
)
for
clusterName
,
replicas
:=
range
scheduleResult
{
ldObj
,
exists
,
err
:=
fdc
.
fedDeploymentInformer
.
GetTargetStore
()
.
GetByKey
(
clusterName
,
key
)
if
err
!=
nil
{
return
statusError
,
err
}
ld
:=
&
extensionsv1
.
Deployment
{
ObjectMeta
:
fedutil
.
CopyObjectMeta
(
fd
.
ObjectMeta
),
Spec
:
fd
.
Spec
,
}
specReplicas
:=
int32
(
replicas
)
ld
.
Spec
.
Replicas
=
&
specReplicas
if
!
exists
{
if
replicas
>
0
{
fdc
.
eventRecorder
.
Eventf
(
fd
,
api
.
EventTypeNormal
,
"CreateInCluster"
,
"Creating deployment in cluster %s"
,
clusterName
)
operations
=
append
(
operations
,
fedutil
.
FederatedOperation
{
Type
:
fedutil
.
OperationTypeAdd
,
Obj
:
ld
,
ClusterName
:
clusterName
,
})
}
}
else
{
// TODO: Update only one deployment at a time if update strategy is rolling udpate.
currentLd
:=
ldObj
.
(
*
extensionsv1
.
Deployment
)
// Update existing replica set, if needed.
if
!
fedutil
.
ObjectMetaEquivalent
(
ld
.
ObjectMeta
,
currentLd
.
ObjectMeta
)
||
!
reflect
.
DeepEqual
(
ld
.
Spec
,
currentLd
.
Spec
)
{
fdc
.
eventRecorder
.
Eventf
(
fd
,
api
.
EventTypeNormal
,
"UpdateInCluster"
,
"Updating deployment in cluster %s"
,
clusterName
)
operations
=
append
(
operations
,
fedutil
.
FederatedOperation
{
Type
:
fedutil
.
OperationTypeUpdate
,
Obj
:
ld
,
ClusterName
:
clusterName
,
})
glog
.
Infof
(
"Updating %s in %s"
,
currentLd
.
Name
,
clusterName
)
}
fedStatus
.
Replicas
+=
currentLd
.
Status
.
Replicas
fedStatus
.
AvailableReplicas
+=
currentLd
.
Status
.
AvailableReplicas
fedStatus
.
UnavailableReplicas
+=
currentLd
.
Status
.
UnavailableReplicas
}
}
if
fedStatus
.
Replicas
!=
fd
.
Status
.
Replicas
||
fedStatus
.
AvailableReplicas
!=
fd
.
Status
.
AvailableReplicas
||
fedStatus
.
UnavailableReplicas
!=
fd
.
Status
.
UnavailableReplicas
{
fd
.
Status
=
fedStatus
_
,
err
=
fdc
.
fedClient
.
Extensions
()
.
Deployments
(
fd
.
Namespace
)
.
UpdateStatus
(
fd
)
if
err
!=
nil
{
return
statusError
,
err
}
}
if
len
(
operations
)
==
0
{
// Everything is in order
return
statusAllOk
,
nil
}
err
=
fdc
.
fedUpdater
.
UpdateWithOnError
(
operations
,
updateTimeout
,
func
(
op
fedutil
.
FederatedOperation
,
operror
error
)
{
fdc
.
eventRecorder
.
Eventf
(
fd
,
api
.
EventTypeNormal
,
"FailedUpdateInCluster"
,
"Deployment update in cluster %s failed: %v"
,
op
.
ClusterName
,
operror
)
})
if
err
!=
nil
{
glog
.
Errorf
(
"Failed to execute updates for %s: %v"
,
key
,
err
)
return
statusError
,
err
}
// Some operations were made, reconcile after a while.
return
statusNeedRecheck
,
nil
}
func
(
fdc
*
DeploymentController
)
reconcileDeploymentsOnClusterChange
()
{
if
!
fdc
.
isSynced
()
{
fdc
.
clusterDeliverer
.
DeliverAfter
(
allClustersKey
,
nil
,
clusterAvailableDelay
)
}
deps
:=
fdc
.
deploymentStore
.
List
()
for
_
,
dep
:=
range
deps
{
key
,
_
:=
controller
.
KeyFunc
(
dep
)
fdc
.
deliverDeploymentByKey
(
key
,
0
,
false
)
}
}
federation/pkg/federation-controller/deployment/deploymentcontroller_test.go
0 → 100644
View file @
c9e771a7
/*
Copyright 2016 The Kubernetes Authors.
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
deployment
import
(
"flag"
"fmt"
"testing"
"time"
fedv1
"k8s.io/kubernetes/federation/apis/federation/v1beta1"
fake_fedclientset
"k8s.io/kubernetes/federation/client/clientset_generated/federation_release_1_5/fake"
.
"k8s.io/kubernetes/federation/pkg/federation-controller/util/test"
"k8s.io/kubernetes/pkg/api/meta"
apiv1
"k8s.io/kubernetes/pkg/api/v1"
extensionsv1
"k8s.io/kubernetes/pkg/apis/extensions/v1beta1"
kubeclientset
"k8s.io/kubernetes/pkg/client/clientset_generated/release_1_5"
fake_kubeclientset
"k8s.io/kubernetes/pkg/client/clientset_generated/release_1_5/fake"
"k8s.io/kubernetes/pkg/runtime"
"github.com/stretchr/testify/assert"
)
func
TestParseFederationDeploymentPreference
(
t
*
testing
.
T
)
{
successPrefs
:=
[]
string
{
`{"rebalance": true,
"clusters": {
"k8s-1": {"minReplicas": 10, "maxReplicas": 20, "weight": 2},
"*": {"weight": 1}
}}`
,
}
failedPrefes
:=
[]
string
{
`{`
,
// bad json
}
rs
:=
newDeploymentWithReplicas
(
"d-1"
,
100
)
accessor
,
_
:=
meta
.
Accessor
(
rs
)
anno
:=
accessor
.
GetAnnotations
()
if
anno
==
nil
{
anno
=
make
(
map
[
string
]
string
)
accessor
.
SetAnnotations
(
anno
)
}
for
_
,
prefString
:=
range
successPrefs
{
anno
[
FedDeploymentPreferencesAnnotation
]
=
prefString
pref
,
err
:=
parseFederationDeploymentPreference
(
rs
)
assert
.
NotNil
(
t
,
pref
)
assert
.
Nil
(
t
,
err
)
}
for
_
,
prefString
:=
range
failedPrefes
{
anno
[
FedDeploymentPreferencesAnnotation
]
=
prefString
pref
,
err
:=
parseFederationDeploymentPreference
(
rs
)
assert
.
Nil
(
t
,
pref
)
assert
.
NotNil
(
t
,
err
)
}
}
func
TestDeploymentController
(
t
*
testing
.
T
)
{
flag
.
Set
(
"logtostderr"
,
"true"
)
flag
.
Set
(
"v"
,
"5"
)
flag
.
Parse
()
deploymentReviewDelay
=
500
*
time
.
Millisecond
clusterAvailableDelay
=
100
*
time
.
Millisecond
clusterUnavailableDelay
=
100
*
time
.
Millisecond
allDeploymentReviewDelay
=
500
*
time
.
Millisecond
cluster1
:=
NewCluster
(
"cluster1"
,
apiv1
.
ConditionTrue
)
cluster2
:=
NewCluster
(
"cluster2"
,
apiv1
.
ConditionTrue
)
fakeClient
:=
&
fake_fedclientset
.
Clientset
{}
RegisterFakeList
(
"clusters"
,
&
fakeClient
.
Fake
,
&
fedv1
.
ClusterList
{
Items
:
[]
fedv1
.
Cluster
{
*
cluster1
}})
deploymentsWatch
:=
RegisterFakeWatch
(
"deployments"
,
&
fakeClient
.
Fake
)
clusterWatch
:=
RegisterFakeWatch
(
"clusters"
,
&
fakeClient
.
Fake
)
cluster1Client
:=
&
fake_kubeclientset
.
Clientset
{}
cluster1Watch
:=
RegisterFakeWatch
(
"deployments"
,
&
cluster1Client
.
Fake
)
_
=
RegisterFakeWatch
(
"pods"
,
&
cluster1Client
.
Fake
)
RegisterFakeList
(
"deployments"
,
&
cluster1Client
.
Fake
,
&
extensionsv1
.
DeploymentList
{
Items
:
[]
extensionsv1
.
Deployment
{}})
cluster1CreateChan
:=
RegisterFakeCopyOnCreate
(
"deployments"
,
&
cluster1Client
.
Fake
,
cluster1Watch
)
cluster1UpdateChan
:=
RegisterFakeCopyOnUpdate
(
"deployments"
,
&
cluster1Client
.
Fake
,
cluster1Watch
)
cluster2Client
:=
&
fake_kubeclientset
.
Clientset
{}
cluster2Watch
:=
RegisterFakeWatch
(
"deployments"
,
&
cluster2Client
.
Fake
)
_
=
RegisterFakeWatch
(
"pods"
,
&
cluster2Client
.
Fake
)
RegisterFakeList
(
"deployments"
,
&
cluster2Client
.
Fake
,
&
extensionsv1
.
DeploymentList
{
Items
:
[]
extensionsv1
.
Deployment
{}})
cluster2CreateChan
:=
RegisterFakeCopyOnCreate
(
"deployments"
,
&
cluster2Client
.
Fake
,
cluster2Watch
)
deploymentController
:=
NewDeploymentController
(
fakeClient
)
clientFactory
:=
func
(
cluster
*
fedv1
.
Cluster
)
(
kubeclientset
.
Interface
,
error
)
{
switch
cluster
.
Name
{
case
cluster1
.
Name
:
return
cluster1Client
,
nil
case
cluster2
.
Name
:
return
cluster2Client
,
nil
default
:
return
nil
,
fmt
.
Errorf
(
"Unknown cluster"
)
}
}
ToFederatedInformerForTestOnly
(
deploymentController
.
fedDeploymentInformer
)
.
SetClientFactory
(
clientFactory
)
ToFederatedInformerForTestOnly
(
deploymentController
.
fedPodInformer
)
.
SetClientFactory
(
clientFactory
)
stop
:=
make
(
chan
struct
{})
go
deploymentController
.
Run
(
5
,
stop
)
// Create deployment. Expect to see it in cluster1.
dep1
:=
newDeploymentWithReplicas
(
"depA"
,
6
)
deploymentsWatch
.
Add
(
dep1
)
createdDep1
:=
GetDeploymentFromChan
(
cluster1CreateChan
)
assert
.
NotNil
(
t
,
createdDep1
)
assert
.
Equal
(
t
,
dep1
.
Namespace
,
createdDep1
.
Namespace
)
assert
.
Equal
(
t
,
dep1
.
Name
,
createdDep1
.
Name
)
assert
.
Equal
(
t
,
dep1
.
Spec
.
Replicas
,
createdDep1
.
Spec
.
Replicas
)
// Increase replica count. Expect to see the update in cluster1.
newRep
:=
int32
(
8
)
dep1
.
Spec
.
Replicas
=
&
newRep
deploymentsWatch
.
Modify
(
dep1
)
updatedDep1
:=
GetDeploymentFromChan
(
cluster1UpdateChan
)
assert
.
NotNil
(
t
,
updatedDep1
)
assert
.
Equal
(
t
,
dep1
.
Namespace
,
updatedDep1
.
Namespace
)
assert
.
Equal
(
t
,
dep1
.
Name
,
updatedDep1
.
Name
)
assert
.
Equal
(
t
,
dep1
.
Spec
.
Replicas
,
updatedDep1
.
Spec
.
Replicas
)
// Add new cluster. Although rebalance = false, no pods have been created yet so it should
// rebalance anyway.
clusterWatch
.
Add
(
cluster2
)
updatedDep1
=
GetDeploymentFromChan
(
cluster1UpdateChan
)
createdDep2
:=
GetDeploymentFromChan
(
cluster2CreateChan
)
assert
.
NotNil
(
t
,
updatedDep1
)
assert
.
NotNil
(
t
,
createdDep2
)
assert
.
Equal
(
t
,
dep1
.
Namespace
,
createdDep2
.
Namespace
)
assert
.
Equal
(
t
,
dep1
.
Name
,
createdDep2
.
Name
)
assert
.
Equal
(
t
,
*
dep1
.
Spec
.
Replicas
/
2
,
*
createdDep2
.
Spec
.
Replicas
)
assert
.
Equal
(
t
,
*
dep1
.
Spec
.
Replicas
/
2
,
*
updatedDep1
.
Spec
.
Replicas
)
}
func
GetDeploymentFromChan
(
c
chan
runtime
.
Object
)
*
extensionsv1
.
Deployment
{
secret
:=
GetObjectFromChan
(
c
)
.
(
*
extensionsv1
.
Deployment
)
return
secret
}
func
newDeploymentWithReplicas
(
name
string
,
replicas
int32
)
*
extensionsv1
.
Deployment
{
return
&
extensionsv1
.
Deployment
{
ObjectMeta
:
apiv1
.
ObjectMeta
{
Name
:
name
,
Namespace
:
apiv1
.
NamespaceDefault
,
SelfLink
:
"/api/v1/namespaces/default/deployments/name"
,
},
Spec
:
extensionsv1
.
DeploymentSpec
{
Replicas
:
&
replicas
,
},
}
}
federation/pkg/federation-controller/replicaset/planner/planner.go
View file @
c9e771a7
...
...
@@ -14,7 +14,7 @@ See the License for the specific language governing permissions and
limitations under the License.
*/
package
planer
package
plan
n
er
import
(
"hash/fnv"
...
...
federation/pkg/federation-controller/replicaset/planner/planner_test.go
View file @
c9e771a7
...
...
@@ -14,7 +14,7 @@ See the License for the specific language governing permissions and
limitations under the License.
*/
package
planer
package
plan
n
er
import
(
"testing"
...
...
federation/pkg/federation-controller/replicaset/pod_helper.go
View file @
c9e771a7
...
...
@@ -47,8 +47,8 @@ const (
// A function that calculates how many pods from the list are in one of
// the meaningful (from the replica set perspective) states. This function is
// a temporary workaround against the current lack of ownerRef in pods.
func
AnalysePods
(
replicaSet
*
v1beta1
.
ReplicaSet
,
allPods
[]
util
.
FederatedObject
,
currentTime
time
.
Time
)
(
map
[
string
]
PodAnalysisResult
,
error
)
{
selector
,
err
:=
labelSelectorAsSelector
(
replicaSet
.
Spec
.
Selector
)
func
AnalysePods
(
selectorv1
*
v1beta1
.
LabelSelector
,
allPods
[]
util
.
FederatedObject
,
currentTime
time
.
Time
)
(
map
[
string
]
PodAnalysisResult
,
error
)
{
selector
,
err
:=
labelSelectorAsSelector
(
selectorv1
)
if
err
!=
nil
{
return
nil
,
fmt
.
Errorf
(
"invalid selector: %v"
,
err
)
}
...
...
federation/pkg/federation-controller/replicaset/pod_helper_test.go
View file @
c9e771a7
...
...
@@ -75,7 +75,7 @@ func TestAnalyze(t *testing.T) {
{
ClusterName
:
"c2"
,
Object
:
podOtherRS
},
}
raport
,
err
:=
AnalysePods
(
replicaSet
,
federatedObjects
,
now
)
raport
,
err
:=
AnalysePods
(
replicaSet
.
Spec
.
Selector
,
federatedObjects
,
now
)
assert
.
NoError
(
t
,
err
)
assert
.
Equal
(
t
,
2
,
len
(
raport
))
c1Raport
:=
raport
[
"c1"
]
...
...
federation/pkg/federation-controller/replicaset/replicasetcontroller.go
View file @
c9e771a7
...
...
@@ -439,7 +439,7 @@ func (frsc *ReplicaSetController) reconcileReplicaSet(key string) (reconciliatio
if
err
!=
nil
{
return
statusError
,
err
}
podStatus
,
err
:=
AnalysePods
(
frs
,
allPods
,
time
.
Now
())
podStatus
,
err
:=
AnalysePods
(
frs
.
Spec
.
Selector
,
allPods
,
time
.
Now
())
current
:=
make
(
map
[
string
]
int64
)
estimatedCapacity
:=
make
(
map
[
string
]
int64
)
for
_
,
cluster
:=
range
clusters
{
...
...
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