// ListPredicate returns a list of all the items matching m.
func (e *Etcd) ListPredicate(ctx api.Context, m generic.Matcher) (runtime.Object, error) {
list := e.NewListFunc()
trace := util.NewTrace("List " + reflect.TypeOf(list).String())
defer trace.LogIfLong(600 * time.Millisecond)
if name, ok := m.MatchesSingle(); ok {
trace.Step("About to read single object")
key, err := e.KeyFunc(ctx, name)
if err != nil {
return nil, err
}
err = e.Storage.GetToList(key, list)
trace.Step("Object extracted")
if err != nil {
return nil, err
}
} else {
trace.Step("About to list directory")
err := e.Storage.List(e.KeyRootFunc(ctx), list)
trace.Step("List extracted")
if err != nil {
return nil, err
}
}
defer trace.Step("List filtered")
return generic.FilterList(list, m, generic.DecoratorFunc(e.Decorator))
}
// ListPredicate returns a list of all the items matching m.
func (e *Etcd) ListPredicate(ctx api.Context, m generic.Matcher, options *api.ListOptions) (runtime.Object, error) {
list := e.NewListFunc()
trace := util.NewTrace("List " + reflect.TypeOf(list).String())
filterFunc := e.filterAndDecorateFunction(m)
defer trace.LogIfLong(600 * time.Millisecond)
if name, ok := m.MatchesSingle(); ok {
if key, err := e.KeyFunc(ctx, name); err == nil {
trace.Step("About to read single object")
err := e.Storage.GetToList(ctx, key, filterFunc, list)
trace.Step("Object extracted")
return list, etcderr.InterpretListError(err, e.EndpointName)
}
// if we cannot extract a key based on the current context, the optimization is skipped
}
trace.Step("About to list directory")
if options == nil {
options = &api.ListOptions{ResourceVersion: "0"}
}
version, err := storage.ParseWatchResourceVersion(options.ResourceVersion, e.EndpointName)
if err != nil {
return nil, err
}
err = e.Storage.List(ctx, e.KeyRootFunc(ctx), version, filterFunc, list)
trace.Step("List extracted")
return list, etcderr.InterpretListError(err, e.EndpointName)
}
// GetResource returns a function that handles retrieving a single resource from a rest.Storage object.
func GetResource(r rest.Getter, e rest.Exporter, scope RequestScope) restful.RouteFunction {
return getResourceHandler(scope,
func(ctx api.Context, name string, req *restful.Request) (runtime.Object, error) {
// For performance tracking purposes.
trace := util.NewTrace("Get " + req.Request.URL.Path)
defer trace.LogIfLong(250 * time.Millisecond)
// check for export
if values := req.Request.URL.Query(); len(values) > 0 {
// TODO: this is internal version, not unversioned
exports := unversioned.ExportOptions{}
if err := scope.ParameterCodec.DecodeParameters(values, unversioned.GroupVersion{Version: "v1"}, &exports); err != nil {
return nil, err
}
if exports.Export {
if e == nil {
return nil, errors.NewBadRequest(fmt.Sprintf("export of %q is not supported", scope.Resource.Resource))
}
return e.Export(ctx, name, exports)
}
}
return r.Get(ctx, name)
})
}
// Implements storage.Interface.
func (h *etcdHelper) GetToList(key string, listObj runtime.Object) error {
trace := util.NewTrace("GetToList " + getTypeName(listObj))
listPtr, err := runtime.GetItemsPtr(listObj)
if err != nil {
return err
}
key = h.prefixEtcdKey(key)
startTime := time.Now()
trace.Step("About to read etcd node")
response, err := h.client.Get(key, false, false)
metrics.RecordEtcdRequestLatency("get", getTypeName(listPtr), startTime)
trace.Step("Etcd node read")
if err != nil {
if IsEtcdNotFound(err) {
return nil
}
return err
}
nodes := make([]*etcd.Node, 0)
nodes = append(nodes, response.Node)
if err := h.decodeNodeList(nodes, listPtr); err != nil {
return err
}
trace.Step("Object decoded")
if h.versioner != nil {
if err := h.versioner.UpdateList(listObj, response.EtcdIndex); err != nil {
return err
}
}
return nil
}
// Implements storage.Interface.
func (h *etcdHelper) List(ctx context.Context, key string, resourceVersion string, filter storage.FilterFunc, listObj runtime.Object) error {
if ctx == nil {
glog.Errorf("Context is nil")
}
trace := util.NewTrace("List " + getTypeName(listObj))
defer trace.LogIfLong(time.Second)
listPtr, err := meta.GetItemsPtr(listObj)
if err != nil {
return err
}
key = h.prefixEtcdKey(key)
startTime := time.Now()
trace.Step("About to list etcd node")
nodes, index, err := h.listEtcdNode(ctx, key)
metrics.RecordEtcdRequestLatency("list", getTypeName(listPtr), startTime)
trace.Step("Etcd node listed")
if err != nil {
return err
}
if err := h.decodeNodeList(nodes, filter, listPtr); err != nil {
return err
}
trace.Step("Node list decoded")
if err := h.versioner.UpdateList(listObj, index); err != nil {
return err
}
return nil
}
// Implements storage.Interface.
func (h *etcdHelper) List(key string, listObj runtime.Object) error {
trace := util.NewTrace("List " + getTypeName(listObj))
defer trace.LogIfLong(time.Second)
listPtr, err := runtime.GetItemsPtr(listObj)
if err != nil {
return err
}
key = h.prefixEtcdKey(key)
startTime := time.Now()
trace.Step("About to list etcd node")
nodes, index, err := h.listEtcdNode(key)
metrics.RecordEtcdRequestLatency("list", getTypeName(listPtr), startTime)
trace.Step("Etcd node listed")
if err != nil {
return err
}
if err := h.decodeNodeList(nodes, listPtr); err != nil {
return err
}
trace.Step("Node list decoded")
if h.versioner != nil {
if err := h.versioner.UpdateList(listObj, index); err != nil {
return err
}
}
return nil
}
// Implements storage.Interface.
func (c *Cacher) List(ctx context.Context, key string, resourceVersion string, pred SelectionPredicate, listObj runtime.Object) error {
if resourceVersion == "" {
// If resourceVersion is not specified, serve it from underlying
// storage (for backward compatibility).
return c.storage.List(ctx, key, resourceVersion, pred, listObj)
}
// If resourceVersion is specified, serve it from cache.
// It's guaranteed that the returned value is at least that
// fresh as the given resourceVersion.
listRV, err := ParseListResourceVersion(resourceVersion)
if err != nil {
return err
}
trace := util.NewTrace(fmt.Sprintf("cacher %v: List", c.objectType.String()))
defer trace.LogIfLong(500 * time.Millisecond)
c.ready.wait()
trace.Step("Ready")
// List elements with at least 'listRV' from cache.
listPtr, err := meta.GetItemsPtr(listObj)
if err != nil {
return err
}
listVal, err := conversion.EnforcePtr(listPtr)
if err != nil || listVal.Kind() != reflect.Slice {
return fmt.Errorf("need a pointer to slice, got %v", listVal.Kind())
}
filter := filterFunction(key, pred)
objs, readResourceVersion, err := c.watchCache.WaitUntilFreshAndList(listRV, trace)
if err != nil {
return fmt.Errorf("failed to wait for fresh list: %v", err)
}
trace.Step(fmt.Sprintf("Listed %d items from cache", len(objs)))
if len(objs) > listVal.Cap() && pred.Label.Empty() && pred.Field.Empty() {
// Resize the slice appropriately, since we already know that none
// of the elements will be filtered out.
listVal.Set(reflect.MakeSlice(reflect.SliceOf(c.objectType.Elem()), 0, len(objs)))
trace.Step("Resized result")
}
for _, obj := range objs {
elem, ok := obj.(*storeElement)
if !ok {
return fmt.Errorf("non *storeElement returned from storage: %v", obj)
}
if filter(elem.Key, elem.Object) {
listVal.Set(reflect.Append(listVal, reflect.ValueOf(elem.Object).Elem()))
}
}
trace.Step(fmt.Sprintf("Filtered %d items", listVal.Len()))
if c.versioner != nil {
if err := c.versioner.UpdateList(listObj, readResourceVersion); err != nil {
return err
}
}
return nil
}
// ListPredicate returns a list of all the items matching m.
func (e *Etcd) ListPredicate(ctx api.Context, m generic.Matcher) (runtime.Object, error) {
list := e.NewListFunc()
trace := util.NewTrace("List " + reflect.TypeOf(list).String())
filterFunc := e.filterAndDecorateFunction(m)
defer trace.LogIfLong(600 * time.Millisecond)
if name, ok := m.MatchesSingle(); ok {
if key, err := e.KeyFunc(ctx, name); err == nil {
trace.Step("About to read single object")
err := e.Storage.GetToList(key, filterFunc, list)
trace.Step("Object extracted")
if err != nil {
return nil, err
}
return list, nil
}
// if we cannot extract a key based on the current context, the optimization is skipped
}
trace.Step("About to list directory")
err := e.Storage.List(e.KeyRootFunc(ctx), filterFunc, list)
trace.Step("List extracted")
if err != nil {
return nil, err
}
return list, nil
}
// Schedule tries to schedule the given pod to one of node in the node list.
// If it succeeds, it will return the name of the node.
// If it fails, it will return a Fiterror error with reasons.
func (g *genericScheduler) Schedule(pod *api.Pod, nodeLister algorithm.NodeLister) (string, error) {
var trace *util.Trace
if pod != nil {
trace = util.NewTrace(fmt.Sprintf("Scheduling %s/%s", pod.Namespace, pod.Name))
} else {
trace = util.NewTrace("Scheduling <nil> pod")
}
defer trace.LogIfLong(20 * time.Millisecond)
nodes, err := nodeLister.List()
if err != nil {
return "", err
}
if len(nodes) == 0 {
return "", ErrNoNodesAvailable
}
// Used for all fit and priority funcs.
err = g.cache.UpdateNodeNameToInfoMap(g.cachedNodeInfoMap)
if err != nil {
return "", err
}
trace.Step("Computing predicates")
filteredNodes, failedPredicateMap, err := findNodesThatFit(pod, g.cachedNodeInfoMap, nodes, g.predicates, g.extenders)
if err != nil {
return "", err
}
if len(filteredNodes) == 0 {
return "", &FitError{
Pod: pod,
FailedPredicates: failedPredicateMap,
}
}
trace.Step("Prioritizing")
meta := g.priorityMetaProducer(pod)
priorityList, err := PrioritizeNodes(pod, g.cachedNodeInfoMap, meta, g.prioritizers, filteredNodes, g.extenders)
if err != nil {
return "", err
}
trace.Step("Selecting host")
return g.selectHost(priorityList)
}
// GetResource returns a function that handles retrieving a single resource from a rest.Storage object.
func GetResource(r rest.Getter, scope RequestScope) restful.RouteFunction {
return getResourceHandler(scope,
func(ctx api.Context, name string, req *restful.Request) (runtime.Object, error) {
// For performance tracking purposes.
trace := util.NewTrace("Get " + req.Request.URL.Path)
defer trace.LogIfLong(250 * time.Millisecond)
return r.Get(ctx, name)
})
}
// Implements storage.Interface.
func (c *Cacher) GetToList(ctx context.Context, key string, resourceVersion string, pred SelectionPredicate, listObj runtime.Object) error {
if resourceVersion == "" {
// If resourceVersion is not specified, serve it from underlying
// storage (for backward compatibility).
return c.storage.GetToList(ctx, key, resourceVersion, pred, listObj)
}
// If resourceVersion is specified, serve it from cache.
// It's guaranteed that the returned value is at least that
// fresh as the given resourceVersion.
listRV, err := ParseListResourceVersion(resourceVersion)
if err != nil {
return err
}
trace := util.NewTrace(fmt.Sprintf("cacher %v: List", c.objectType.String()))
defer trace.LogIfLong(500 * time.Millisecond)
c.ready.wait()
trace.Step("Ready")
// List elements with at least 'listRV' from cache.
listPtr, err := meta.GetItemsPtr(listObj)
if err != nil {
return err
}
listVal, err := conversion.EnforcePtr(listPtr)
if err != nil || listVal.Kind() != reflect.Slice {
return fmt.Errorf("need a pointer to slice, got %v", listVal.Kind())
}
filter := filterFunction(key, pred)
obj, exists, readResourceVersion, err := c.watchCache.WaitUntilFreshAndGet(listRV, key, trace)
if err != nil {
return fmt.Errorf("failed to wait for fresh get: %v", err)
}
trace.Step("Got from cache")
if exists {
elem, ok := obj.(*storeElement)
if !ok {
return fmt.Errorf("non *storeElement returned from storage: %v", obj)
}
if filter(elem.Key, elem.Object) {
listVal.Set(reflect.Append(listVal, reflect.ValueOf(elem.Object).Elem()))
}
}
if c.versioner != nil {
if err := c.versioner.UpdateList(listObj, readResourceVersion); err != nil {
return err
}
}
return nil
}
// decodeNodeList walks the tree of each node in the list and decodes into the specified object
func (h *etcdHelper) decodeNodeList(nodes []*etcd.Node, filter storage.FilterFunc, slicePtr interface{}) error {
trace := util.NewTrace("decodeNodeList " + getTypeName(slicePtr))
defer trace.LogIfLong(500 * time.Millisecond)
v, err := conversion.EnforcePtr(slicePtr)
if err != nil || v.Kind() != reflect.Slice {
// This should not happen at runtime.
panic("need ptr to slice")
}
for _, node := range nodes {
if node.Dir {
trace.Step("Decoding dir " + node.Key + " START")
if err := h.decodeNodeList(node.Nodes, filter, slicePtr); err != nil {
return err
}
trace.Step("Decoding dir " + node.Key + " END")
continue
}
if obj, found := h.getFromCache(node.ModifiedIndex, filter); found {
// obj != nil iff it matches the filter function.
if obj != nil {
v.Set(reflect.Append(v, reflect.ValueOf(obj).Elem()))
}
} else {
obj, _, err := h.codec.Decode([]byte(node.Value), nil, reflect.New(v.Type().Elem()).Interface().(runtime.Object))
if err != nil {
return err
}
if h.versioner != nil {
// being unable to set the version does not prevent the object from being extracted
_ = h.versioner.UpdateObject(obj, node.Expiration, node.ModifiedIndex)
}
if filter(obj) {
v.Set(reflect.Append(v, reflect.ValueOf(obj).Elem()))
}
if node.ModifiedIndex != 0 {
h.addToCache(node.ModifiedIndex, obj)
}
}
}
trace.Step(fmt.Sprintf("Decoded %v nodes", len(nodes)))
return nil
}
// Delete removes the item from etcd.
func (e *Etcd) Delete(ctx api.Context, name string, options *api.DeleteOptions) (runtime.Object, error) {
key, err := e.KeyFunc(ctx, name)
if err != nil {
return nil, err
}
obj := e.NewFunc()
trace := util.NewTrace("Delete " + reflect.TypeOf(obj).String())
defer trace.LogIfLong(time.Second)
trace.Step("About to read object")
if err := e.Storage.Get(key, obj, false); err != nil {
return nil, etcderr.InterpretDeleteError(err, e.EndpointName, name)
}
// support older consumers of delete by treating "nil" as delete immediately
if options == nil {
options = api.NewDeleteOptions(0)
}
graceful, pendingGraceful, err := rest.BeforeDelete(e.DeleteStrategy, ctx, obj, options)
if err != nil {
return nil, err
}
if pendingGraceful {
return e.finalizeDelete(obj, false)
}
if graceful && *options.GracePeriodSeconds != 0 {
trace.Step("Graceful deletion")
out := e.NewFunc()
if err := e.Storage.Set(key, obj, out, uint64(*options.GracePeriodSeconds)); err != nil {
return nil, etcderr.InterpretUpdateError(err, e.EndpointName, name)
}
return e.finalizeDelete(out, true)
}
// delete immediately, or no graceful deletion supported
out := e.NewFunc()
trace.Step("About to delete object")
if err := e.Storage.Delete(key, out); err != nil {
return nil, etcderr.InterpretDeleteError(err, e.EndpointName, name)
}
return e.finalizeDelete(out, true)
}
// Get retrieves the item from etcd.
func (e *Etcd) Get(ctx api.Context, name string) (runtime.Object, error) {
obj := e.NewFunc()
trace := util.NewTrace("Get " + reflect.TypeOf(obj).String())
defer trace.LogIfLong(time.Second)
key, err := e.KeyFunc(ctx, name)
if err != nil {
return nil, err
}
trace.Step("About to read object")
if err := e.Storage.Get(ctx, key, obj, false); err != nil {
return nil, etcderr.InterpretGetError(err, e.EndpointName, name)
}
trace.Step("Object read")
if e.Decorator != nil {
if err := e.Decorator(obj); err != nil {
return nil, err
}
}
return obj, nil
}
func (c *cacheWatcher) add(event *watchCacheEvent) {
// Try to send the event immediately, without blocking.
select {
case c.input <- *event:
return
default:
}
// OK, block sending, but only for up to 5 seconds.
// cacheWatcher.add is called very often, so arrange
// to reuse timers instead of constantly allocating.
trace := util.NewTrace(
fmt.Sprintf("cacheWatcher %v: waiting for add (initial result size %v)",
reflect.TypeOf(event.Object).String(), len(c.result)))
defer trace.LogIfLong(50 * time.Millisecond)
const timeout = 5 * time.Second
t, ok := timerPool.Get().(*time.Timer)
if ok {
t.Reset(timeout)
} else {
t = time.NewTimer(timeout)
}
defer timerPool.Put(t)
select {
case c.input <- *event:
stopped := t.Stop()
if !stopped {
// Consume triggered (but not yet received) timer event
// so that future reuse does not get a spurious timeout.
<-t.C
}
case <-t.C:
// This means that we couldn't send event to that watcher.
// Since we don't want to block on it infinitely,
// we simply terminate it.
c.forget(false)
c.stop()
}
}
// Implements storage.Interface.
func (h *etcdHelper) GetToList(ctx context.Context, key string, filter storage.FilterFunc, listObj runtime.Object) error {
if ctx == nil {
glog.Errorf("Context is nil")
}
trace := util.NewTrace("GetToList " + getTypeName(listObj))
listPtr, err := meta.GetItemsPtr(listObj)
if err != nil {
return err
}
key = h.prefixEtcdKey(key)
startTime := time.Now()
trace.Step("About to read etcd node")
opts := &etcd.GetOptions{
Quorum: h.quorum,
}
response, err := h.client.Get(ctx, key, opts)
metrics.RecordEtcdRequestLatency("get", getTypeName(listPtr), startTime)
trace.Step("Etcd node read")
if err != nil {
if etcdutil.IsEtcdNotFound(err) {
return nil
}
return err
}
nodes := make([]*etcd.Node, 0)
nodes = append(nodes, response.Node)
if err := h.decodeNodeList(nodes, filter, listPtr); err != nil {
return err
}
trace.Step("Object decoded")
if h.versioner != nil {
if err := h.versioner.UpdateList(listObj, response.Index); err != nil {
return err
}
}
return nil
}
// GetResource returns a function that handles retrieving a single resource from a rest.Storage object.
func GetResource(r rest.Getter, e rest.Exporter, scope RequestScope) restful.RouteFunction {
return getResourceHandler(scope,
func(ctx api.Context, name string, req *restful.Request) (runtime.Object, error) {
// For performance tracking purposes.
trace := util.NewTrace("Get " + req.Request.URL.Path)
defer trace.LogIfLong(250 * time.Millisecond)
opts := v1.ExportOptions{}
if err := scope.Codec.DecodeParametersInto(req.Request.URL.Query(), &opts); err != nil {
return nil, err
}
internalOpts := unversioned.ExportOptions{}
scope.Convertor.Convert(&opts, &internalOpts)
if internalOpts.Export {
if e == nil {
return nil, errors.NewBadRequest("export unsupported")
}
return e.Export(ctx, name, internalOpts)
}
return r.Get(ctx, name)
})
}
// Implements storage.Interface.
func (h *etcdHelper) Create(ctx context.Context, key string, obj, out runtime.Object, ttl uint64) error {
trace := util.NewTrace("etcdHelper::Create " + getTypeName(obj))
defer trace.LogIfLong(250 * time.Millisecond)
if ctx == nil {
glog.Errorf("Context is nil")
}
key = h.prefixEtcdKey(key)
data, err := runtime.Encode(h.codec, obj)
trace.Step("Object encoded")
if err != nil {
return err
}
if h.versioner != nil {
if version, err := h.versioner.ObjectResourceVersion(obj); err == nil && version != 0 {
return errors.New("resourceVersion may not be set on objects to be created")
}
}
trace.Step("Version checked")
startTime := time.Now()
opts := etcd.SetOptions{
TTL: time.Duration(ttl) * time.Second,
PrevExist: etcd.PrevNoExist,
}
response, err := h.client.Set(ctx, key, string(data), &opts)
metrics.RecordEtcdRequestLatency("create", getTypeName(obj), startTime)
trace.Step("Object created")
if err != nil {
return err
}
if out != nil {
if _, err := conversion.EnforcePtr(out); err != nil {
panic("unable to convert output object to pointer")
}
_, _, err = h.extractObj(response, err, out, false, false)
}
return err
}
// Implements storage.Interface.
func (h *etcdHelper) GetToList(ctx context.Context, key string, resourceVersion string, pred storage.SelectionPredicate, listObj runtime.Object) error {
if ctx == nil {
glog.Errorf("Context is nil")
}
trace := util.NewTrace("GetToList " + getTypeName(listObj))
listPtr, err := meta.GetItemsPtr(listObj)
if err != nil {
return err
}
key = path.Join(h.pathPrefix, key)
startTime := time.Now()
trace.Step("About to read etcd node")
opts := &etcd.GetOptions{
Quorum: h.quorum,
}
response, err := h.etcdKeysAPI.Get(ctx, key, opts)
trace.Step("Etcd node read")
metrics.RecordEtcdRequestLatency("get", getTypeName(listPtr), startTime)
if err != nil {
if etcdutil.IsEtcdNotFound(err) {
return nil
}
return toStorageErr(err, key, 0)
}
nodes := make([]*etcd.Node, 0)
nodes = append(nodes, response.Node)
if err := h.decodeNodeList(nodes, storage.SimpleFilter(pred), listPtr); err != nil {
return err
}
trace.Step("Object decoded")
if err := h.versioner.UpdateList(listObj, response.Index); err != nil {
return err
}
return nil
}
// Create inserts a new item according to the unique key from the object.
func (e *Etcd) Create(ctx api.Context, obj runtime.Object) (runtime.Object, error) {
trace := util.NewTrace("Create " + reflect.TypeOf(obj).String())
defer trace.LogIfLong(time.Second)
if err := rest.BeforeCreate(e.CreateStrategy, ctx, obj); err != nil {
return nil, err
}
name, err := e.ObjectNameFunc(obj)
if err != nil {
return nil, err
}
key, err := e.KeyFunc(ctx, name)
if err != nil {
return nil, err
}
ttl, err := e.calculateTTL(obj, 0, false)
if err != nil {
return nil, err
}
trace.Step("About to create object")
out := e.NewFunc()
if err := e.Storage.Create(ctx, key, obj, out, ttl); err != nil {
err = etcderr.InterpretCreateError(err, e.EndpointName, name)
err = rest.CheckGeneratedNameError(e.CreateStrategy, err, obj)
return nil, err
}
trace.Step("Object created")
if e.AfterCreate != nil {
if err := e.AfterCreate(out); err != nil {
return nil, err
}
}
if e.Decorator != nil {
if err := e.Decorator(obj); err != nil {
return nil, err
}
}
return out, nil
}
// Update performs an atomic update and set of the object. Returns the result of the update
// or an error. If the registry allows create-on-update, the create flow will be executed.
// A bool is returned along with the object and any errors, to indicate object creation.
func (e *Etcd) Update(ctx api.Context, obj runtime.Object) (runtime.Object, bool, error) {
trace := util.NewTrace("Update " + reflect.TypeOf(obj).String())
defer trace.LogIfLong(time.Second)
name, err := e.ObjectNameFunc(obj)
if err != nil {
return nil, false, err
}
key, err := e.KeyFunc(ctx, name)
if err != nil {
return nil, false, err
}
// If AllowUnconditionalUpdate() is true and the object specified by the user does not have a resource version,
// then we populate it with the latest version.
// Else, we check that the version specified by the user matches the version of latest etcd object.
resourceVersion, err := e.Storage.Versioner().ObjectResourceVersion(obj)
if err != nil {
return nil, false, err
}
doUnconditionalUpdate := resourceVersion == 0 && e.UpdateStrategy.AllowUnconditionalUpdate()
// TODO: expose TTL
creating := false
out := e.NewFunc()
err = e.Storage.GuaranteedUpdate(ctx, key, out, true, func(existing runtime.Object, res storage.ResponseMeta) (runtime.Object, *uint64, error) {
version, err := e.Storage.Versioner().ObjectResourceVersion(existing)
if err != nil {
return nil, nil, err
}
if version == 0 {
if !e.UpdateStrategy.AllowCreateOnUpdate() {
return nil, nil, kubeerr.NewNotFound(e.EndpointName, name)
}
creating = true
if err := rest.BeforeCreate(e.CreateStrategy, ctx, obj); err != nil {
return nil, nil, err
}
ttl, err := e.calculateTTL(obj, 0, false)
if err != nil {
return nil, nil, err
}
return obj, &ttl, nil
}
creating = false
if doUnconditionalUpdate {
// Update the object's resource version to match the latest etcd object's resource version.
err = e.Storage.Versioner().UpdateObject(obj, res.Expiration, res.ResourceVersion)
if err != nil {
return nil, nil, err
}
} else {
// Check if the object's resource version matches the latest resource version.
newVersion, err := e.Storage.Versioner().ObjectResourceVersion(obj)
if err != nil {
return nil, nil, err
}
if newVersion != version {
return nil, nil, kubeerr.NewConflict(e.EndpointName, name, fmt.Errorf("the object has been modified; please apply your changes to the latest version and try again"))
}
}
if err := rest.BeforeUpdate(e.UpdateStrategy, ctx, obj, existing); err != nil {
return nil, nil, err
}
ttl, err := e.calculateTTL(obj, res.TTL, true)
if err != nil {
return nil, nil, err
}
if int64(ttl) != res.TTL {
return obj, &ttl, nil
}
return obj, nil, nil
})
if err != nil {
if creating {
err = etcderr.InterpretCreateError(err, e.EndpointName, name)
err = rest.CheckGeneratedNameError(e.CreateStrategy, err, obj)
} else {
err = etcderr.InterpretUpdateError(err, e.EndpointName, name)
}
return nil, false, err
}
if creating {
if e.AfterCreate != nil {
if err := e.AfterCreate(out); err != nil {
return nil, false, err
}
}
} else {
if e.AfterUpdate != nil {
if err := e.AfterUpdate(out); err != nil {
return nil, false, err
}
}
}
if e.Decorator != nil {
if err := e.Decorator(obj); err != nil {
return nil, false, err
}
}
return out, creating, nil
}
// DeleteResource returns a function that will handle a resource deletion
func DeleteResource(r rest.GracefulDeleter, checkBody bool, scope RequestScope, admit admission.Interface) restful.RouteFunction {
return func(req *restful.Request, res *restful.Response) {
// For performance tracking purposes.
trace := util.NewTrace("Delete " + req.Request.URL.Path)
defer trace.LogIfLong(250 * time.Millisecond)
w := res.ResponseWriter
// TODO: we either want to remove timeout or document it (if we document, move timeout out of this function and declare it in api_installer)
timeout := parseTimeout(req.Request.URL.Query().Get("timeout"))
namespace, name, err := scope.Namer.Name(req)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
ctx := scope.ContextFunc(req)
ctx = api.WithNamespace(ctx, namespace)
options := &api.DeleteOptions{}
if checkBody {
body, err := readBody(req.Request)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
if len(body) > 0 {
s, err := negotiateInputSerializer(req.Request, scope.Serializer)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
defaultGVK := scope.Kind.GroupVersion().WithKind("DeleteOptions")
obj, _, err := scope.Serializer.DecoderToVersion(s, defaultGVK.GroupVersion()).Decode(body, &defaultGVK, options)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
if obj != options {
scope.err(fmt.Errorf("decoded object cannot be converted to DeleteOptions"), res.ResponseWriter, req.Request)
return
}
}
}
if admit != nil && admit.Handles(admission.Delete) {
userInfo, _ := api.UserFrom(ctx)
err = admit.Admit(admission.NewAttributesRecord(nil, scope.Kind, namespace, name, scope.Resource, scope.Subresource, admission.Delete, userInfo))
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
}
trace.Step("About do delete object from database")
result, err := finishRequest(timeout, func() (runtime.Object, error) {
return r.Delete(ctx, name, options)
})
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Object deleted from database")
// if the rest.Deleter returns a nil object, fill out a status. Callers may return a valid
// object with the response.
if result == nil {
result = &unversioned.Status{
Status: unversioned.StatusSuccess,
Code: http.StatusOK,
Details: &unversioned.StatusDetails{
Name: name,
Kind: scope.Kind.Kind,
},
}
} else {
// when a non-status response is returned, set the self link
if _, ok := result.(*unversioned.Status); !ok {
if err := setSelfLink(result, req, scope.Namer); err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
}
}
write(http.StatusOK, scope.Kind.GroupVersion(), scope.Serializer, result, w, req.Request)
}
}
// syncReplicationController will sync the rc with the given key if it has had its expectations fulfilled, meaning
// it did not expect to see any more of its pods created or deleted. This function is not meant to be invoked
// concurrently with the same key.
func (rm *ReplicationManager) syncReplicationController(key string) error {
trace := util.NewTrace("syncReplicationController: " + key)
defer trace.LogIfLong(250 * time.Millisecond)
startTime := time.Now()
defer func() {
glog.V(4).Infof("Finished syncing controller %q (%v)", key, time.Now().Sub(startTime))
}()
if !rm.podStoreSynced() {
// Sleep so we give the pod reflector goroutine a chance to run.
time.Sleep(PodStoreSyncedPollPeriod)
glog.Infof("Waiting for pods controller to sync, requeuing rc %v", key)
rm.queue.Add(key)
return nil
}
obj, exists, err := rm.rcStore.Indexer.GetByKey(key)
if !exists {
glog.Infof("Replication Controller has been deleted %v", key)
rm.expectations.DeleteExpectations(key)
return nil
}
if err != nil {
return err
}
rc := *obj.(*api.ReplicationController)
// Check the expectations of the rc before counting active pods, otherwise a new pod can sneak in
// and update the expectations after we've retrieved active pods from the store. If a new pod enters
// the store after we've checked the expectation, the rc sync is just deferred till the next relist.
rcKey, err := controller.KeyFunc(&rc)
if err != nil {
glog.Errorf("Couldn't get key for replication controller %#v: %v", rc, err)
return err
}
trace.Step("ReplicationController restored")
rcNeedsSync := rm.expectations.SatisfiedExpectations(rcKey)
trace.Step("Expectations restored")
// NOTE: filteredPods are pointing to objects from cache - if you need to
// modify them, you need to copy it first.
// TODO: Do the List and Filter in a single pass, or use an index.
var filteredPods []*api.Pod
if rm.garbageCollectorEnabled {
// list all pods to include the pods that don't match the rc's selector
// anymore but has the stale controller ref.
pods, err := rm.podStore.Pods(rc.Namespace).List(labels.Everything())
if err != nil {
glog.Errorf("Error getting pods for rc %q: %v", key, err)
rm.queue.Add(key)
return err
}
cm := controller.NewPodControllerRefManager(rm.podControl, rc.ObjectMeta, labels.Set(rc.Spec.Selector).AsSelectorPreValidated(), getRCKind())
matchesAndControlled, matchesNeedsController, controlledDoesNotMatch := cm.Classify(pods)
for _, pod := range matchesNeedsController {
err := cm.AdoptPod(pod)
// continue to next pod if adoption fails.
if err != nil {
// If the pod no longer exists, don't even log the error.
if !errors.IsNotFound(err) {
utilruntime.HandleError(err)
}
} else {
matchesAndControlled = append(matchesAndControlled, pod)
}
}
filteredPods = matchesAndControlled
// remove the controllerRef for the pods that no longer have matching labels
var errlist []error
for _, pod := range controlledDoesNotMatch {
err := cm.ReleasePod(pod)
if err != nil {
errlist = append(errlist, err)
}
}
if len(errlist) != 0 {
aggregate := utilerrors.NewAggregate(errlist)
// push the RC into work queue again. We need to try to free the
// pods again otherwise they will stuck with the stale
// controllerRef.
rm.queue.Add(key)
return aggregate
}
} else {
pods, err := rm.podStore.Pods(rc.Namespace).List(labels.Set(rc.Spec.Selector).AsSelectorPreValidated())
if err != nil {
glog.Errorf("Error getting pods for rc %q: %v", key, err)
rm.queue.Add(key)
return err
}
filteredPods = controller.FilterActivePods(pods)
}
var manageReplicasErr error
if rcNeedsSync && rc.DeletionTimestamp == nil {
manageReplicasErr = rm.manageReplicas(filteredPods, &rc)
}
trace.Step("manageReplicas done")
// Count the number of pods that have labels matching the labels of the pod
// template of the replication controller, the matching pods may have more
// labels than are in the template. Because the label of podTemplateSpec is
// a superset of the selector of the replication controller, so the possible
// matching pods must be part of the filteredPods.
fullyLabeledReplicasCount := 0
readyReplicasCount := 0
availableReplicasCount := 0
templateLabel := labels.Set(rc.Spec.Template.Labels).AsSelectorPreValidated()
for _, pod := range filteredPods {
if templateLabel.Matches(labels.Set(pod.Labels)) {
fullyLabeledReplicasCount++
}
if api.IsPodReady(pod) {
readyReplicasCount++
if api.IsPodAvailable(pod, rc.Spec.MinReadySeconds, unversioned.Now()) {
availableReplicasCount++
}
}
}
// Always updates status as pods come up or die.
if err := updateReplicaCount(
rm.kubeClient.Core().ReplicationControllers(rc.Namespace),
rc,
len(filteredPods),
fullyLabeledReplicasCount,
readyReplicasCount,
availableReplicasCount,
); err != nil {
// Multiple things could lead to this update failing. Returning an error causes a requeue without forcing a hotloop
return err
}
return manageReplicasErr
}
// UpdateResource returns a function that will handle a resource update
func UpdateResource(r rest.Updater, scope RequestScope, typer runtime.ObjectTyper, admit admission.Interface) restful.RouteFunction {
return func(req *restful.Request, res *restful.Response) {
// For performance tracking purposes.
trace := util.NewTrace("Update " + req.Request.URL.Path)
defer trace.LogIfLong(250 * time.Millisecond)
w := res.ResponseWriter
// TODO: we either want to remove timeout or document it (if we document, move timeout out of this function and declare it in api_installer)
timeout := parseTimeout(req.Request.URL.Query().Get("timeout"))
namespace, name, err := scope.Namer.Name(req)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
ctx := scope.ContextFunc(req)
ctx = api.WithNamespace(ctx, namespace)
body, err := readBody(req.Request)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
s, err := negotiateInputSerializer(req.Request, scope.Serializer)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
defaultGVK := scope.Kind
original := r.New()
trace.Step("About to convert to expected version")
obj, gvk, err := scope.Serializer.DecoderToVersion(s, defaultGVK.GroupVersion()).Decode(body, &defaultGVK, original)
if err != nil {
err = transformDecodeError(typer, err, original, gvk, body)
scope.err(err, res.ResponseWriter, req.Request)
return
}
if gvk.GroupVersion() != defaultGVK.GroupVersion() {
err = errors.NewBadRequest(fmt.Sprintf("the API version in the data (%s) does not match the expected API version (%s)", gvk.GroupVersion(), defaultGVK.GroupVersion()))
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Conversion done")
if err := checkName(obj, name, namespace, scope.Namer); err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
if admit != nil && admit.Handles(admission.Update) {
userInfo, _ := api.UserFrom(ctx)
err = admit.Admit(admission.NewAttributesRecord(obj, scope.Kind, namespace, name, scope.Resource, scope.Subresource, admission.Update, userInfo))
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
}
trace.Step("About to store object in database")
wasCreated := false
result, err := finishRequest(timeout, func() (runtime.Object, error) {
obj, created, err := r.Update(ctx, obj)
wasCreated = created
return obj, err
})
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Object stored in database")
if err := setSelfLink(result, req, scope.Namer); err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Self-link added")
status := http.StatusOK
if wasCreated {
status = http.StatusCreated
}
write(status, scope.Kind.GroupVersion(), scope.Serializer, result, w, req.Request)
}
}
func createHandler(r rest.NamedCreater, scope RequestScope, typer runtime.ObjectTyper, admit admission.Interface, includeName bool) restful.RouteFunction {
return func(req *restful.Request, res *restful.Response) {
// For performance tracking purposes.
trace := util.NewTrace("Create " + req.Request.URL.Path)
defer trace.LogIfLong(250 * time.Millisecond)
w := res.ResponseWriter
// TODO: we either want to remove timeout or document it (if we document, move timeout out of this function and declare it in api_installer)
timeout := parseTimeout(req.Request.URL.Query().Get("timeout"))
var (
namespace, name string
err error
)
if includeName {
namespace, name, err = scope.Namer.Name(req)
} else {
namespace, err = scope.Namer.Namespace(req)
}
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
ctx := scope.ContextFunc(req)
ctx = api.WithNamespace(ctx, namespace)
gv := scope.Kind.GroupVersion()
s, err := negotiateInputSerializer(req.Request, scope.Serializer)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
decoder := scope.Serializer.DecoderToVersion(s, unversioned.GroupVersion{Group: gv.Group, Version: runtime.APIVersionInternal})
body, err := readBody(req.Request)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
defaultGVK := scope.Kind
original := r.New()
trace.Step("About to convert to expected version")
obj, gvk, err := decoder.Decode(body, &defaultGVK, original)
if err != nil {
err = transformDecodeError(typer, err, original, gvk, body)
scope.err(err, res.ResponseWriter, req.Request)
return
}
if gvk.GroupVersion() != gv {
err = errors.NewBadRequest(fmt.Sprintf("the API version in the data (%s) does not match the expected API version (%v)", gvk.GroupVersion().String(), gv.String()))
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Conversion done")
if admit != nil && admit.Handles(admission.Create) {
userInfo, _ := api.UserFrom(ctx)
err = admit.Admit(admission.NewAttributesRecord(obj, scope.Kind, namespace, name, scope.Resource, scope.Subresource, admission.Create, userInfo))
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
}
trace.Step("About to store object in database")
result, err := finishRequest(timeout, func() (runtime.Object, error) {
out, err := r.Create(ctx, name, obj)
if status, ok := out.(*unversioned.Status); ok && err == nil && status.Code == 0 {
status.Code = http.StatusCreated
}
return out, err
})
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Object stored in database")
if err := setSelfLink(result, req, scope.Namer); err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Self-link added")
write(http.StatusCreated, scope.Kind.GroupVersion(), scope.Serializer, result, w, req.Request)
}
}
// ListResource returns a function that handles retrieving a list of resources from a rest.Storage object.
func ListResource(r rest.Lister, rw rest.Watcher, scope RequestScope, forceWatch bool, minRequestTimeout time.Duration) restful.RouteFunction {
return func(req *restful.Request, res *restful.Response) {
// For performance tracking purposes.
trace := util.NewTrace("List " + req.Request.URL.Path)
w := res.ResponseWriter
namespace, err := scope.Namer.Namespace(req)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
// Watches for single objects are routed to this function.
// Treat a /name parameter the same as a field selector entry.
hasName := true
_, name, err := scope.Namer.Name(req)
if err != nil {
hasName = false
}
ctx := scope.ContextFunc(req)
ctx = api.WithNamespace(ctx, namespace)
opts := api.ListOptions{}
if err := scope.ParameterCodec.DecodeParameters(req.Request.URL.Query(), scope.Kind.GroupVersion(), &opts); err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
// transform fields
// TODO: DecodeParametersInto should do this.
if opts.FieldSelector != nil {
fn := func(label, value string) (newLabel, newValue string, err error) {
return scope.Convertor.ConvertFieldLabel(scope.Kind.GroupVersion().String(), scope.Kind.Kind, label, value)
}
if opts.FieldSelector, err = opts.FieldSelector.Transform(fn); err != nil {
// TODO: allow bad request to set field causes based on query parameters
err = errors.NewBadRequest(err.Error())
scope.err(err, res.ResponseWriter, req.Request)
return
}
}
if hasName {
// metadata.name is the canonical internal name.
// generic.SelectionPredicate will notice that this is
// a request for a single object and optimize the
// storage query accordingly.
nameSelector := fields.OneTermEqualSelector("metadata.name", name)
if opts.FieldSelector != nil && !opts.FieldSelector.Empty() {
// It doesn't make sense to ask for both a name
// and a field selector, since just the name is
// sufficient to narrow down the request to a
// single object.
scope.err(errors.NewBadRequest("both a name and a field selector provided; please provide one or the other."), res.ResponseWriter, req.Request)
return
}
opts.FieldSelector = nameSelector
}
if (opts.Watch || forceWatch) && rw != nil {
watcher, err := rw.Watch(ctx, &opts)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
// TODO: Currently we explicitly ignore ?timeout= and use only ?timeoutSeconds=.
timeout := time.Duration(0)
if opts.TimeoutSeconds != nil {
timeout = time.Duration(*opts.TimeoutSeconds) * time.Second
}
if timeout == 0 && minRequestTimeout > 0 {
timeout = time.Duration(float64(minRequestTimeout) * (rand.Float64() + 1.0))
}
serveWatch(watcher, scope, req, res, timeout)
return
}
// Log only long List requests (ignore Watch).
defer trace.LogIfLong(500 * time.Millisecond)
trace.Step("About to List from storage")
result, err := r.List(ctx, &opts)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Listing from storage done")
numberOfItems, err := setListSelfLink(result, req, scope.Namer)
if err != nil {
scope.err(err, res.ResponseWriter, req.Request)
return
}
trace.Step("Self-linking done")
write(http.StatusOK, scope.Kind.GroupVersion(), scope.Serializer, result, w, req.Request)
trace.Step(fmt.Sprintf("Writing http response done (%d items)", numberOfItems))
}
}
// syncReplicationController will sync the rc with the given key if it has had its expectations fulfilled, meaning
// it did not expect to see any more of its pods created or deleted. This function is not meant to be invoked
// concurrently with the same key.
func (rm *ReplicationManager) syncReplicationController(key string) error {
trace := util.NewTrace("syncReplicationController: " + key)
defer trace.LogIfLong(250 * time.Millisecond)
startTime := time.Now()
defer func() {
glog.V(4).Infof("Finished syncing controller %q (%v)", key, time.Now().Sub(startTime))
}()
if !rm.podStoreSynced() {
// Sleep so we give the pod reflector goroutine a chance to run.
time.Sleep(PodStoreSyncedPollPeriod)
glog.Infof("Waiting for pods controller to sync, requeuing rc %v", key)
rm.queue.Add(key)
return nil
}
obj, exists, err := rm.rcStore.Indexer.GetByKey(key)
if !exists {
glog.Infof("Replication Controller has been deleted %v", key)
rm.expectations.DeleteExpectations(key)
return nil
}
if err != nil {
glog.Infof("Unable to retrieve rc %v from store: %v", key, err)
rm.queue.Add(key)
return err
}
rc := *obj.(*api.ReplicationController)
// Check the expectations of the rc before counting active pods, otherwise a new pod can sneak in
// and update the expectations after we've retrieved active pods from the store. If a new pod enters
// the store after we've checked the expectation, the rc sync is just deferred till the next relist.
rcKey, err := controller.KeyFunc(&rc)
if err != nil {
glog.Errorf("Couldn't get key for replication controller %#v: %v", rc, err)
return err
}
trace.Step("ReplicationController restored")
rcNeedsSync := rm.expectations.SatisfiedExpectations(rcKey)
trace.Step("Expectations restored")
podList, err := rm.podStore.Pods(rc.Namespace).List(labels.Set(rc.Spec.Selector).AsSelector())
if err != nil {
glog.Errorf("Error getting pods for rc %q: %v", key, err)
rm.queue.Add(key)
return err
}
trace.Step("Pods listed")
// TODO: Do this in a single pass, or use an index.
filteredPods := controller.FilterActivePods(podList.Items)
if rcNeedsSync {
rm.manageReplicas(filteredPods, &rc)
}
trace.Step("manageReplicas done")
// Count the number of pods that have labels matching the labels of the pod
// template of the replication controller, the matching pods may have more
// labels than are in the template. Because the label of podTemplateSpec is
// a superset of the selector of the replication controller, so the possible
// matching pods must be part of the filteredPods.
fullyLabeledReplicasCount := 0
templateLabel := labels.Set(rc.Spec.Template.Labels).AsSelector()
for _, pod := range filteredPods {
if templateLabel.Matches(labels.Set(pod.Labels)) {
fullyLabeledReplicasCount++
}
}
// Always updates status as pods come up or die.
if err := updateReplicaCount(rm.kubeClient.Core().ReplicationControllers(rc.Namespace), rc, len(filteredPods), fullyLabeledReplicasCount); err != nil {
// Multiple things could lead to this update failing. Requeuing the controller ensures
// we retry with some fairness.
glog.V(2).Infof("Failed to update replica count for controller %v/%v; requeuing; error: %v", rc.Namespace, rc.Name, err)
rm.enqueueController(&rc)
}
return nil
}
// UpdateResource returns a function that will handle a resource update
func UpdateResource(r rest.Updater, scope RequestScope, typer runtime.ObjectTyper, admit admission.Interface) restful.RouteFunction {
return func(req *restful.Request, res *restful.Response) {
// For performance tracking purposes.
trace := util.NewTrace("Update " + req.Request.URL.Path)
defer trace.LogIfLong(250 * time.Millisecond)
w := res.ResponseWriter
// TODO: we either want to remove timeout or document it (if we document, move timeout out of this function and declare it in api_installer)
timeout := parseTimeout(req.Request.URL.Query().Get("timeout"))
namespace, name, err := scope.Namer.Name(req)
if err != nil {
errorJSON(err, scope.Codec, w)
return
}
ctx := scope.ContextFunc(req)
ctx = api.WithNamespace(ctx, namespace)
body, err := readBody(req.Request)
if err != nil {
errorJSON(err, scope.Codec, w)
return
}
obj := r.New()
trace.Step("About to convert to expected version")
if err := scope.Codec.DecodeIntoWithSpecifiedVersionKind(body, obj, scope.Kind); err != nil {
err = transformDecodeError(typer, err, obj, body)
errorJSON(err, scope.Codec, w)
return
}
trace.Step("Conversion done")
if err := checkName(obj, name, namespace, scope.Namer); err != nil {
errorJSON(err, scope.Codec, w)
return
}
if admit != nil && admit.Handles(admission.Update) {
userInfo, _ := api.UserFrom(ctx)
err = admit.Admit(admission.NewAttributesRecord(obj, scope.Kind.GroupKind(), namespace, name, scope.Resource.GroupResource(), scope.Subresource, admission.Update, userInfo))
if err != nil {
errorJSON(err, scope.Codec, w)
return
}
}
trace.Step("About to store object in database")
wasCreated := false
result, err := finishRequest(timeout, func() (runtime.Object, error) {
obj, created, err := r.Update(ctx, obj)
wasCreated = created
return obj, err
})
if err != nil {
errorJSON(err, scope.Codec, w)
return
}
trace.Step("Object stored in database")
if err := setSelfLink(result, req, scope.Namer); err != nil {
errorJSON(err, scope.Codec, w)
return
}
trace.Step("Self-link added")
status := http.StatusOK
if wasCreated {
status = http.StatusCreated
}
writeJSON(status, scope.Codec, result, w, isPrettyPrint(req.Request))
}
}
// Delete removes the item from etcd.
func (e *Etcd) Delete(ctx api.Context, name string, options *api.DeleteOptions) (runtime.Object, error) {
key, err := e.KeyFunc(ctx, name)
if err != nil {
return nil, err
}
obj := e.NewFunc()
trace := util.NewTrace("Delete " + reflect.TypeOf(obj).String())
defer trace.LogIfLong(time.Second)
trace.Step("About to read object")
if err := e.Storage.Get(ctx, key, obj, false); err != nil {
return nil, etcderr.InterpretDeleteError(err, e.EndpointName, name)
}
// support older consumers of delete by treating "nil" as delete immediately
if options == nil {
options = api.NewDeleteOptions(0)
}
graceful, pendingGraceful, err := rest.BeforeDelete(e.DeleteStrategy, ctx, obj, options)
if err != nil {
return nil, err
}
if pendingGraceful {
return e.finalizeDelete(obj, false)
}
if graceful {
trace.Step("Graceful deletion")
out := e.NewFunc()
lastGraceful := int64(0)
err := e.Storage.GuaranteedUpdate(
ctx, key, out, false,
storage.SimpleUpdate(func(existing runtime.Object) (runtime.Object, error) {
graceful, pendingGraceful, err := rest.BeforeDelete(e.DeleteStrategy, ctx, existing, options)
if err != nil {
return nil, err
}
if pendingGraceful {
return nil, errAlreadyDeleting
}
if !graceful {
return nil, errDeleteNow
}
lastGraceful = *options.GracePeriodSeconds
return existing, nil
}),
)
switch err {
case nil:
if lastGraceful > 0 {
return out, nil
}
// fall through and delete immediately
case errDeleteNow:
// we've updated the object to have a zero grace period, or it's already at 0, so
// we should fall through and truly delete the object.
case errAlreadyDeleting:
return e.finalizeDelete(obj, true)
default:
return nil, etcderr.InterpretUpdateError(err, e.EndpointName, name)
}
}
// delete immediately, or no graceful deletion supported
out := e.NewFunc()
trace.Step("About to delete object")
if err := e.Storage.Delete(ctx, key, out); err != nil {
return nil, etcderr.InterpretDeleteError(err, e.EndpointName, name)
}
return e.finalizeDelete(out, true)
}
func createHandler(r rest.NamedCreater, scope RequestScope, typer runtime.ObjectTyper, admit admission.Interface, includeName bool) restful.RouteFunction {
return func(req *restful.Request, res *restful.Response) {
// For performance tracking purposes.
trace := util.NewTrace("Create " + req.Request.URL.Path)
defer trace.LogIfLong(250 * time.Millisecond)
w := res.ResponseWriter
// TODO: we either want to remove timeout or document it (if we document, move timeout out of this function and declare it in api_installer)
timeout := parseTimeout(req.Request.URL.Query().Get("timeout"))
var (
namespace, name string
err error
)
if includeName {
namespace, name, err = scope.Namer.Name(req)
} else {
namespace, err = scope.Namer.Namespace(req)
}
if err != nil {
errorJSON(err, scope.Codec, w)
return
}
ctx := scope.ContextFunc(req)
ctx = api.WithNamespace(ctx, namespace)
body, err := readBody(req.Request)
if err != nil {
errorJSON(err, scope.Codec, w)
return
}
obj := r.New()
trace.Step("About to convert to expected version")
// TODO this cleans up with proper typing
if err := scope.Codec.DecodeIntoWithSpecifiedVersionKind(body, obj, scope.Kind); err != nil {
err = transformDecodeError(typer, err, obj, body)
errorJSON(err, scope.Codec, w)
return
}
trace.Step("Conversion done")
if admit != nil && admit.Handles(admission.Create) {
userInfo, _ := api.UserFrom(ctx)
err = admit.Admit(admission.NewAttributesRecord(obj, scope.Kind.GroupKind(), namespace, name, scope.Resource.GroupResource(), scope.Subresource, admission.Create, userInfo))
if err != nil {
errorJSON(err, scope.Codec, w)
return
}
}
trace.Step("About to store object in database")
result, err := finishRequest(timeout, func() (runtime.Object, error) {
out, err := r.Create(ctx, name, obj)
if status, ok := out.(*unversioned.Status); ok && err == nil && status.Code == 0 {
status.Code = http.StatusCreated
}
return out, err
})
if err != nil {
errorJSON(err, scope.Codec, w)
return
}
trace.Step("Object stored in database")
if err := setSelfLink(result, req, scope.Namer); err != nil {
errorJSON(err, scope.Codec, w)
return
}
trace.Step("Self-link added")
write(http.StatusCreated, scope.Kind.GroupVersion(), scope.Codec, result, w, req.Request)
}
}