// +build !providerless /* Copyright 2018 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 azure import ( "context" "fmt" "strings" "sync" "time" "github.com/Azure/azure-sdk-for-go/services/compute/mgmt/2019-07-01/compute" "github.com/Azure/go-autorest/autorest/to" "k8s.io/apimachinery/pkg/util/sets" "k8s.io/klog" azcache "k8s.io/legacy-cloud-providers/azure/cache" ) var ( vmssNameSeparator = "_" vmssKey = "k8svmssKey" availabilitySetNodesKey = "k8sAvailabilitySetNodesKey" availabilitySetNodesCacheTTLDefaultInSeconds = 900 vmssCacheTTLDefaultInSeconds = 600 vmssVirtualMachinesCacheTTLDefaultInSeconds = 600 ) type vmssVirtualMachinesEntry struct { resourceGroup string vmssName string instanceID string virtualMachine *compute.VirtualMachineScaleSetVM lastUpdate time.Time } type vmssEntry struct { vmss *compute.VirtualMachineScaleSet resourceGroup string lastUpdate time.Time } func (ss *scaleSet) newVMSSCache() (*azcache.TimedCache, error) { getter := func(key string) (interface{}, error) { localCache := &sync.Map{} // [vmssName]*vmssEntry allResourceGroups, err := ss.GetResourceGroups() if err != nil { return nil, err } for _, resourceGroup := range allResourceGroups.List() { allScaleSets, rerr := ss.VirtualMachineScaleSetsClient.List(context.Background(), resourceGroup) if rerr != nil { klog.Errorf("VirtualMachineScaleSetsClient.List failed: %v", rerr) return nil, rerr.Error() } for i := range allScaleSets { scaleSet := allScaleSets[i] if scaleSet.Name == nil || *scaleSet.Name == "" { klog.Warning("failed to get the name of VMSS") continue } localCache.Store(*scaleSet.Name, &vmssEntry{ vmss: &scaleSet, resourceGroup: resourceGroup, lastUpdate: time.Now().UTC(), }) } } return localCache, nil } if ss.Config.VmssCacheTTLInSeconds == 0 { ss.Config.VmssCacheTTLInSeconds = vmssCacheTTLDefaultInSeconds } return azcache.NewTimedcache(time.Duration(ss.Config.VmssCacheTTLInSeconds)*time.Second, getter) } func extractVmssVMName(name string) (string, string, error) { split := strings.SplitAfter(name, vmssNameSeparator) if len(split) < 2 { klog.V(3).Infof("Failed to extract vmssVMName %q", name) return "", "", ErrorNotVmssInstance } ssName := strings.Join(split[0:len(split)-1], "") // removing the trailing `vmssNameSeparator` since we used SplitAfter ssName = ssName[:len(ssName)-1] instanceID := split[len(split)-1] return ssName, instanceID, nil } // getVMSSVMCache returns an *azcache.TimedCache and cache key for a VMSS (creating that cache if new). func (ss *scaleSet) getVMSSVMCache(resourceGroup, vmssName string) (string, *azcache.TimedCache, error) { cacheKey := strings.ToLower(fmt.Sprintf("%s/%s", resourceGroup, vmssName)) if entry, ok := ss.vmssVMCache.Load(cacheKey); ok { cache := entry.(*azcache.TimedCache) return cacheKey, cache, nil } cache, err := ss.newVMSSVirtualMachinesCache(resourceGroup, vmssName, cacheKey) if err != nil { return "", nil, err } ss.vmssVMCache.Store(cacheKey, cache) return cacheKey, cache, nil } // gcVMSSVMCache delete stale VMSS VMs caches from deleted VMSSes. func (ss *scaleSet) gcVMSSVMCache() error { cached, err := ss.vmssCache.Get(vmssKey, azcache.CacheReadTypeUnsafe) if err != nil { return err } vmsses := cached.(*sync.Map) removed := map[string]bool{} ss.vmssVMCache.Range(func(key, value interface{}) bool { cacheKey := key.(string) vlistIdx := cacheKey[strings.LastIndex(cacheKey, "/")+1:] if _, ok := vmsses.Load(vlistIdx); !ok { removed[cacheKey] = true } return true }) for key := range removed { ss.vmssVMCache.Delete(key) } return nil } // newVMSSVirtualMachinesCache instanciates a new VMs cache for VMs belonging to the provided VMSS. func (ss *scaleSet) newVMSSVirtualMachinesCache(resourceGroupName, vmssName, cacheKey string) (*azcache.TimedCache, error) { if ss.Config.VmssVirtualMachinesCacheTTLInSeconds == 0 { ss.Config.VmssVirtualMachinesCacheTTLInSeconds = vmssVirtualMachinesCacheTTLDefaultInSeconds } vmssVirtualMachinesCacheTTL := time.Duration(ss.Config.VmssVirtualMachinesCacheTTLInSeconds) * time.Second getter := func(key string) (interface{}, error) { localCache := &sync.Map{} // [nodeName]*vmssVirtualMachinesEntry oldCache := make(map[string]vmssVirtualMachinesEntry) if vmssCache, ok := ss.vmssVMCache.Load(cacheKey); ok { // get old cache before refreshing the cache cache := vmssCache.(*azcache.TimedCache) entry, exists, err := cache.Store.GetByKey(cacheKey) if err != nil { return nil, err } if exists { cached := entry.(*azcache.AzureCacheEntry).Data if cached != nil { virtualMachines := cached.(*sync.Map) virtualMachines.Range(func(key, value interface{}) bool { oldCache[key.(string)] = *value.(*vmssVirtualMachinesEntry) return true }) } } } vms, err := ss.listScaleSetVMs(vmssName, resourceGroupName) if err != nil { return nil, err } for i := range vms { vm := vms[i] if vm.OsProfile == nil || vm.OsProfile.ComputerName == nil { klog.Warningf("failed to get computerName for vmssVM (%q)", vmssName) continue } computerName := strings.ToLower(*vm.OsProfile.ComputerName) vmssVMCacheEntry := &vmssVirtualMachinesEntry{ resourceGroup: resourceGroupName, vmssName: vmssName, instanceID: to.String(vm.InstanceID), virtualMachine: &vm, lastUpdate: time.Now().UTC(), } // set cache entry to nil when the VM is under deleting. if vm.VirtualMachineScaleSetVMProperties != nil && strings.EqualFold(to.String(vm.VirtualMachineScaleSetVMProperties.ProvisioningState), string(compute.ProvisioningStateDeleting)) { klog.V(4).Infof("VMSS virtualMachine %q is under deleting, setting its cache to nil", computerName) vmssVMCacheEntry.virtualMachine = nil } localCache.Store(computerName, vmssVMCacheEntry) delete(oldCache, computerName) } // add old missing cache data with nil entries to prevent aggressive // ARM calls during cache invalidation for name, vmEntry := range oldCache { // if the nil cache entry has existed for vmssVirtualMachinesCacheTTL in the cache // then it should not be added back to the cache if vmEntry.virtualMachine == nil && time.Since(vmEntry.lastUpdate) > vmssVirtualMachinesCacheTTL { klog.V(5).Infof("ignoring expired entries from old cache for %s", name) continue } lastUpdate := time.Now().UTC() if vmEntry.virtualMachine == nil { // if this is already a nil entry then keep the time the nil // entry was first created, so we can cleanup unwanted entries lastUpdate = vmEntry.lastUpdate } klog.V(5).Infof("adding old entries to new cache for %s", name) localCache.Store(name, &vmssVirtualMachinesEntry{ resourceGroup: vmEntry.resourceGroup, vmssName: vmEntry.vmssName, instanceID: vmEntry.instanceID, virtualMachine: nil, lastUpdate: lastUpdate, }) } return localCache, nil } return azcache.NewTimedcache(vmssVirtualMachinesCacheTTL, getter) } func (ss *scaleSet) deleteCacheForNode(nodeName string) error { node, err := ss.getNodeIdentityByNodeName(nodeName, azcache.CacheReadTypeUnsafe) if err != nil { klog.Errorf("deleteCacheForNode(%s) failed with error: %v", nodeName, err) return err } cacheKey, timedcache, err := ss.getVMSSVMCache(node.resourceGroup, node.vmssName) if err != nil { klog.Errorf("deleteCacheForNode(%s) failed with error: %v", nodeName, err) return err } vmcache, err := timedcache.Get(cacheKey, azcache.CacheReadTypeUnsafe) if err != nil { klog.Errorf("deleteCacheForNode(%s) failed with error: %v", nodeName, err) return err } virtualMachines := vmcache.(*sync.Map) virtualMachines.Delete(nodeName) if err := ss.gcVMSSVMCache(); err != nil { klog.Errorf("deleteCacheForNode(%s) failed to gc stale vmss caches: %v", nodeName, err) } return nil } func (ss *scaleSet) newAvailabilitySetNodesCache() (*azcache.TimedCache, error) { getter := func(key string) (interface{}, error) { localCache := sets.NewString() resourceGroups, err := ss.GetResourceGroups() if err != nil { return nil, err } for _, resourceGroup := range resourceGroups.List() { vmList, err := ss.Cloud.ListVirtualMachines(resourceGroup) if err != nil { return nil, err } for _, vm := range vmList { if vm.Name != nil { localCache.Insert(*vm.Name) } } } return localCache, nil } if ss.Config.AvailabilitySetNodesCacheTTLInSeconds == 0 { ss.Config.AvailabilitySetNodesCacheTTLInSeconds = availabilitySetNodesCacheTTLDefaultInSeconds } return azcache.NewTimedcache(time.Duration(ss.Config.AvailabilitySetNodesCacheTTLInSeconds)*time.Second, getter) } func (ss *scaleSet) isNodeManagedByAvailabilitySet(nodeName string, crt azcache.AzureCacheReadType) (bool, error) { // Assume all nodes are managed by VMSS when DisableAvailabilitySetNodes is enabled. if ss.DisableAvailabilitySetNodes { klog.V(2).Infof("Assuming node %q is managed by VMSS since DisableAvailabilitySetNodes is set to true", nodeName) return false, nil } cached, err := ss.availabilitySetNodesCache.Get(availabilitySetNodesKey, crt) if err != nil { return false, err } availabilitySetNodes := cached.(sets.String) return availabilitySetNodes.Has(nodeName), nil }