// +build !providerless /* 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 vsphere import ( "context" "fmt" "strings" "sync" "github.com/vmware/govmomi/object" v1 "k8s.io/api/core/v1" k8stypes "k8s.io/apimachinery/pkg/types" cloudprovider "k8s.io/cloud-provider" "k8s.io/klog/v2" "k8s.io/legacy-cloud-providers/vsphere/vclib" ) // Stores info about the kubernetes node type NodeInfo struct { dataCenter *vclib.Datacenter vm *vclib.VirtualMachine vcServer string vmUUID string zone *cloudprovider.Zone } func (n NodeInfo) String() string { return fmt.Sprintf("{datacenter: %v, vm: %v, vcServer: %s, vmUUID: %s, zone: %v}", *n.dataCenter, n.vm.Reference(), n.vcServer, n.vmUUID, *n.zone) } type NodeManager struct { // TODO: replace map with concurrent map when k8s supports go v1.9 // Maps the VC server to VSphereInstance vsphereInstanceMap map[string]*VSphereInstance // Maps node name to node info. nodeInfoMap map[string]*NodeInfo // Maps node name to node structure registeredNodes map[string]*v1.Node //CredentialsManager credentialManager *SecretCredentialManager // Mutexes registeredNodesLock sync.RWMutex nodeInfoLock sync.RWMutex credentialManagerLock sync.Mutex } type NodeDetails struct { NodeName string vm *vclib.VirtualMachine VMUUID string Zone *cloudprovider.Zone } // TODO: Make it configurable in vsphere.conf const ( POOL_SIZE = 8 QUEUE_SIZE = POOL_SIZE * 10 ) func (nm *NodeManager) DiscoverNode(node *v1.Node) error { type VmSearch struct { vc string datacenter *vclib.Datacenter } var mutex = &sync.Mutex{} var globalErrMutex = &sync.Mutex{} var queueChannel chan *VmSearch var wg sync.WaitGroup var globalErr *error queueChannel = make(chan *VmSearch, QUEUE_SIZE) nodeUUID, err := GetNodeUUID(node) if err != nil { klog.Errorf("Node Discovery failed to get node uuid for node %s with error: %v", node.Name, err) return err } klog.V(4).Infof("Discovering node %s with uuid %s", node.ObjectMeta.Name, nodeUUID) vmFound := false globalErr = nil setGlobalErr := func(err error) { globalErrMutex.Lock() globalErr = &err globalErrMutex.Unlock() } setVMFound := func(found bool) { mutex.Lock() vmFound = found mutex.Unlock() } getVMFound := func() bool { mutex.Lock() found := vmFound mutex.Unlock() return found } go func() { var datacenterObjs []*vclib.Datacenter for vc, vsi := range nm.vsphereInstanceMap { found := getVMFound() if found == true { break } // Create context ctx, cancel := context.WithCancel(context.Background()) defer cancel() err := nm.vcConnect(ctx, vsi) if err != nil { klog.V(4).Info("Discovering node error vc:", err) setGlobalErr(err) continue } if vsi.cfg.Datacenters == "" { datacenterObjs, err = vclib.GetAllDatacenter(ctx, vsi.conn) if err != nil { klog.V(4).Info("Discovering node error dc:", err) setGlobalErr(err) continue } } else { datacenters := strings.Split(vsi.cfg.Datacenters, ",") for _, dc := range datacenters { dc = strings.TrimSpace(dc) if dc == "" { continue } datacenterObj, err := vclib.GetDatacenter(ctx, vsi.conn, dc) if err != nil { klog.V(4).Info("Discovering node error dc:", err) setGlobalErr(err) continue } datacenterObjs = append(datacenterObjs, datacenterObj) } } for _, datacenterObj := range datacenterObjs { found := getVMFound() if found == true { break } klog.V(4).Infof("Finding node %s in vc=%s and datacenter=%s", node.Name, vc, datacenterObj.Name()) queueChannel <- &VmSearch{ vc: vc, datacenter: datacenterObj, } } } close(queueChannel) }() for i := 0; i < POOL_SIZE; i++ { wg.Add(1) go func() { for res := range queueChannel { ctx, cancel := context.WithCancel(context.Background()) vm, err := res.datacenter.GetVMByUUID(ctx, nodeUUID) if err != nil { klog.V(4).Infof("Error while looking for vm=%+v in vc=%s and datacenter=%s: %v", vm, res.vc, res.datacenter.Name(), err) if err != vclib.ErrNoVMFound { setGlobalErr(err) } else { klog.V(4).Infof("Did not find node %s in vc=%s and datacenter=%s", node.Name, res.vc, res.datacenter.Name()) } cancel() continue } if vm != nil { klog.V(4).Infof("Found node %s as vm=%+v in vc=%s and datacenter=%s", node.Name, vm, res.vc, res.datacenter.Name()) // Get the node zone information nodeFd := node.ObjectMeta.Labels[v1.LabelFailureDomainBetaZone] nodeRegion := node.ObjectMeta.Labels[v1.LabelFailureDomainBetaRegion] nodeZone := &cloudprovider.Zone{FailureDomain: nodeFd, Region: nodeRegion} nodeInfo := &NodeInfo{dataCenter: res.datacenter, vm: vm, vcServer: res.vc, vmUUID: nodeUUID, zone: nodeZone} nm.addNodeInfo(node.ObjectMeta.Name, nodeInfo) for range queueChannel { } setVMFound(true) cancel() break } } wg.Done() }() } wg.Wait() if vmFound { return nil } if globalErr != nil { return *globalErr } klog.V(4).Infof("Discovery Node: %q vm not found", node.Name) return vclib.ErrNoVMFound } func (nm *NodeManager) RegisterNode(node *v1.Node) error { nm.addNode(node) return nm.DiscoverNode(node) } func (nm *NodeManager) UnRegisterNode(node *v1.Node) error { nm.removeNode(node) return nil } func (nm *NodeManager) RediscoverNode(nodeName k8stypes.NodeName) error { node, err := nm.GetNode(nodeName) if err != nil { return err } return nm.DiscoverNode(&node) } func (nm *NodeManager) GetNode(nodeName k8stypes.NodeName) (v1.Node, error) { nm.registeredNodesLock.RLock() node := nm.registeredNodes[convertToString(nodeName)] nm.registeredNodesLock.RUnlock() if node == nil { return v1.Node{}, vclib.ErrNoVMFound } return *node, nil } func (nm *NodeManager) getNodes() map[string]*v1.Node { nm.registeredNodesLock.RLock() defer nm.registeredNodesLock.RUnlock() registeredNodes := make(map[string]*v1.Node, len(nm.registeredNodes)) for nodeName, node := range nm.registeredNodes { registeredNodes[nodeName] = node } return registeredNodes } func (nm *NodeManager) addNode(node *v1.Node) { nm.registeredNodesLock.Lock() nm.registeredNodes[node.ObjectMeta.Name] = node nm.registeredNodesLock.Unlock() } func (nm *NodeManager) removeNode(node *v1.Node) { nm.registeredNodesLock.Lock() delete(nm.registeredNodes, node.ObjectMeta.Name) nm.registeredNodesLock.Unlock() nm.nodeInfoLock.Lock() delete(nm.nodeInfoMap, node.ObjectMeta.Name) nm.nodeInfoLock.Unlock() } // GetNodeInfo returns a NodeInfo which datacenter, vm and vc server ip address. // This method returns an error if it is unable find node VCs and DCs listed in vSphere.conf // NodeInfo returned may not be updated to reflect current VM location. // // This method is a getter but it can cause side-effect of updating NodeInfo object. func (nm *NodeManager) GetNodeInfo(nodeName k8stypes.NodeName) (NodeInfo, error) { return nm.getRefreshedNodeInfo(nodeName) } // GetNodeDetails returns NodeDetails for all the discovered nodes. // // This method is a getter but it can cause side-effect of updating NodeInfo objects. func (nm *NodeManager) GetNodeDetails() ([]NodeDetails, error) { var nodeDetails []NodeDetails for nodeName, nodeObj := range nm.getNodes() { nodeInfo, err := nm.GetNodeInfoWithNodeObject(nodeObj) if err != nil { return nil, err } klog.V(4).Infof("Updated NodeInfo %v for node %q.", nodeInfo, nodeName) nodeDetails = append(nodeDetails, NodeDetails{nodeName, nodeInfo.vm, nodeInfo.vmUUID, nodeInfo.zone}) } return nodeDetails, nil } func (nm *NodeManager) refreshNodes() (errList []error) { for nodeName := range nm.getNodes() { nodeInfo, err := nm.getRefreshedNodeInfo(convertToK8sType(nodeName)) if err != nil { errList = append(errList, err) continue } klog.V(4).Infof("Updated NodeInfo %v for node %q.", nodeInfo, nodeName) } return errList } func (nm *NodeManager) getRefreshedNodeInfo(nodeName k8stypes.NodeName) (NodeInfo, error) { nodeInfo := nm.getNodeInfo(nodeName) var err error if nodeInfo == nil { // Rediscover node if no NodeInfo found. klog.V(4).Infof("No VM found for node %q. Initiating rediscovery.", convertToString(nodeName)) err = nm.RediscoverNode(nodeName) if err != nil { klog.Errorf("Error %q node info for node %q not found", err, convertToString(nodeName)) return NodeInfo{}, err } nodeInfo = nm.getNodeInfo(nodeName) } else { // Renew the found NodeInfo to avoid stale vSphere connection. klog.V(4).Infof("Renewing NodeInfo %+v for node %q", nodeInfo, convertToString(nodeName)) nodeInfo, err = nm.renewNodeInfo(nodeInfo, true) if err != nil { klog.Errorf("Error %q occurred while renewing NodeInfo for %q", err, convertToString(nodeName)) return NodeInfo{}, err } nm.addNodeInfo(convertToString(nodeName), nodeInfo) } return *nodeInfo, nil } func (nm *NodeManager) addNodeInfo(nodeName string, nodeInfo *NodeInfo) { nm.nodeInfoLock.Lock() nm.nodeInfoMap[nodeName] = nodeInfo nm.nodeInfoLock.Unlock() } func (nm *NodeManager) getNodeInfo(nodeName k8stypes.NodeName) *NodeInfo { nm.nodeInfoLock.RLock() nodeInfo := nm.nodeInfoMap[convertToString(nodeName)] nm.nodeInfoLock.RUnlock() return nodeInfo } func (nm *NodeManager) GetVSphereInstance(nodeName k8stypes.NodeName) (VSphereInstance, error) { nodeInfo, err := nm.GetNodeInfo(nodeName) if err != nil { klog.V(4).Infof("node info for node %q not found", convertToString(nodeName)) return VSphereInstance{}, err } vsphereInstance := nm.vsphereInstanceMap[nodeInfo.vcServer] if vsphereInstance == nil { return VSphereInstance{}, fmt.Errorf("vSphereInstance for vc server %q not found while looking for node %q", nodeInfo.vcServer, convertToString(nodeName)) } return *vsphereInstance, nil } // renewNodeInfo renews vSphere connection, VirtualMachine and Datacenter for NodeInfo instance. func (nm *NodeManager) renewNodeInfo(nodeInfo *NodeInfo, reconnect bool) (*NodeInfo, error) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() vsphereInstance := nm.vsphereInstanceMap[nodeInfo.vcServer] if vsphereInstance == nil { err := fmt.Errorf("vSphereInstance for vSphere %q not found while refershing NodeInfo for VM %q", nodeInfo.vcServer, nodeInfo.vm) return nil, err } if reconnect { err := nm.vcConnect(ctx, vsphereInstance) if err != nil { return nil, err } } vm := nodeInfo.vm.RenewVM(vsphereInstance.conn.Client) return &NodeInfo{ vm: &vm, dataCenter: vm.Datacenter, vcServer: nodeInfo.vcServer, vmUUID: nodeInfo.vmUUID, zone: nodeInfo.zone, }, nil } func (nodeInfo *NodeInfo) VM() *vclib.VirtualMachine { if nodeInfo == nil { return nil } return nodeInfo.vm } // vcConnect connects to vCenter with existing credentials // If credentials are invalid: // 1. It will fetch credentials from credentialManager // 2. Update the credentials // 3. Connects again to vCenter with fetched credentials func (nm *NodeManager) vcConnect(ctx context.Context, vsphereInstance *VSphereInstance) error { err := vsphereInstance.conn.Connect(ctx) if err == nil { return nil } credentialManager := nm.CredentialManager() if !vclib.IsInvalidCredentialsError(err) || credentialManager == nil { klog.Errorf("Cannot connect to vCenter with err: %v", err) return err } klog.V(4).Infof("Invalid credentials. Cannot connect to server %q. Fetching credentials from secrets.", vsphereInstance.conn.Hostname) // Get latest credentials from SecretCredentialManager credentials, err := credentialManager.GetCredential(vsphereInstance.conn.Hostname) if err != nil { klog.Errorf("Failed to get credentials from Secret Credential Manager with err: %v", err) return err } vsphereInstance.conn.UpdateCredentials(credentials.User, credentials.Password) return vsphereInstance.conn.Connect(ctx) } // GetNodeInfoWithNodeObject returns a NodeInfo which datacenter, vm and vc server ip address. // This method returns an error if it is unable find node VCs and DCs listed in vSphere.conf // NodeInfo returned may not be updated to reflect current VM location. // // This method is a getter but it can cause side-effect of updating NodeInfo object. func (nm *NodeManager) GetNodeInfoWithNodeObject(node *v1.Node) (NodeInfo, error) { return nm.getRefreshedNodeInfo(convertToK8sType(node.Name)) } func (nm *NodeManager) CredentialManager() *SecretCredentialManager { nm.credentialManagerLock.Lock() defer nm.credentialManagerLock.Unlock() return nm.credentialManager } func (nm *NodeManager) UpdateCredentialManager(credentialManager *SecretCredentialManager) { nm.credentialManagerLock.Lock() defer nm.credentialManagerLock.Unlock() nm.credentialManager = credentialManager } func (nm *NodeManager) GetHostsInZone(ctx context.Context, zoneFailureDomain string) ([]*object.HostSystem, error) { klog.V(9).Infof("GetHostsInZone called with registeredNodes: %v", nm.registeredNodes) nodeDetails, err := nm.GetNodeDetails() if err != nil { return nil, err } klog.V(4).Infof("Node Details: %v", nodeDetails) // Build a map of Host moRef to HostSystem hostMap := make(map[string]*object.HostSystem) for _, n := range nodeDetails { // Match the provided zone failure domain with the node. klog.V(9).Infof("Matching provided zone %s with node %s zone %s", zoneFailureDomain, n.NodeName, n.Zone.FailureDomain) if zoneFailureDomain == n.Zone.FailureDomain { host, err := n.vm.HostSystem(ctx) if err != nil { klog.Errorf("Failed to get host system for VM %s. err: %+v", n.vm, err) continue } hostMap[host.Reference().Value] = host } } // Build the unique list of hosts. hosts := make([]*object.HostSystem, 0) for _, value := range hostMap { hosts = append(hosts, value) } klog.V(4).Infof("GetHostsInZone %v returning: %v", zoneFailureDomain, hosts) return hosts, nil }