// +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 ( "net/http" "strings" "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/types" "k8s.io/klog" azcache "k8s.io/legacy-cloud-providers/azure/cache" ) // AttachDisk attaches a vhd to vm // the vhd must exist, can be identified by diskName, diskURI, and lun. func (ss *scaleSet) AttachDisk(isManagedDisk bool, diskName, diskURI string, nodeName types.NodeName, lun int32, cachingMode compute.CachingTypes, diskEncryptionSetID string, writeAcceleratorEnabled bool) error { vmName := mapNodeNameToVMName(nodeName) ssName, instanceID, vm, err := ss.getVmssVM(vmName, azcache.CacheReadTypeDefault) if err != nil { return err } nodeResourceGroup, err := ss.GetNodeResourceGroup(vmName) if err != nil { return err } disks := []compute.DataDisk{} if vm.StorageProfile != nil && vm.StorageProfile.DataDisks != nil { disks = make([]compute.DataDisk, len(*vm.StorageProfile.DataDisks)) copy(disks, *vm.StorageProfile.DataDisks) } if isManagedDisk { managedDisk := &compute.ManagedDiskParameters{ID: &diskURI} if diskEncryptionSetID == "" { if vm.StorageProfile.OsDisk != nil && vm.StorageProfile.OsDisk.ManagedDisk != nil && vm.StorageProfile.OsDisk.ManagedDisk.DiskEncryptionSet != nil && vm.StorageProfile.OsDisk.ManagedDisk.DiskEncryptionSet.ID != nil { // set diskEncryptionSet as value of os disk by default diskEncryptionSetID = *vm.StorageProfile.OsDisk.ManagedDisk.DiskEncryptionSet.ID } } if diskEncryptionSetID != "" { managedDisk.DiskEncryptionSet = &compute.DiskEncryptionSetParameters{ID: &diskEncryptionSetID} } disks = append(disks, compute.DataDisk{ Name: &diskName, Lun: &lun, Caching: compute.CachingTypes(cachingMode), CreateOption: "attach", ManagedDisk: managedDisk, WriteAcceleratorEnabled: to.BoolPtr(writeAcceleratorEnabled), }) } else { disks = append(disks, compute.DataDisk{ Name: &diskName, Vhd: &compute.VirtualHardDisk{ URI: &diskURI, }, Lun: &lun, Caching: compute.CachingTypes(cachingMode), CreateOption: "attach", }) } newVM := compute.VirtualMachineScaleSetVM{ Sku: vm.Sku, Location: vm.Location, VirtualMachineScaleSetVMProperties: &compute.VirtualMachineScaleSetVMProperties{ HardwareProfile: vm.HardwareProfile, StorageProfile: &compute.StorageProfile{ OsDisk: vm.StorageProfile.OsDisk, DataDisks: &disks, }, }, } ctx, cancel := getContextWithCancel() defer cancel() // Invalidate the cache right after updating defer ss.deleteCacheForNode(vmName) klog.V(2).Infof("azureDisk - update(%s): vm(%s) - attach disk(%s, %s) with DiskEncryptionSetID(%s)", nodeResourceGroup, nodeName, diskName, diskURI, diskEncryptionSetID) rerr := ss.VirtualMachineScaleSetVMsClient.Update(ctx, nodeResourceGroup, ssName, instanceID, newVM, "attach_disk") if rerr != nil { klog.Errorf("azureDisk - attach disk(%s, %s) on rg(%s) vm(%s) failed, err: %v", diskName, diskURI, nodeResourceGroup, nodeName, rerr) if rerr.HTTPStatusCode == http.StatusNotFound { klog.Errorf("azureDisk - begin to filterNonExistingDisks(%s, %s) on rg(%s) vm(%s)", diskName, diskURI, nodeResourceGroup, nodeName) disks := ss.filterNonExistingDisks(ctx, *newVM.VirtualMachineScaleSetVMProperties.StorageProfile.DataDisks) newVM.VirtualMachineScaleSetVMProperties.StorageProfile.DataDisks = &disks rerr = ss.VirtualMachineScaleSetVMsClient.Update(ctx, nodeResourceGroup, ssName, instanceID, newVM, "attach_disk") } } klog.V(2).Infof("azureDisk - update(%s): vm(%s) - attach disk(%s, %s) returned with %v", nodeResourceGroup, nodeName, diskName, diskURI, rerr) if rerr != nil { return rerr.Error() } return nil } // DetachDisk detaches a disk from host // the vhd can be identified by diskName or diskURI func (ss *scaleSet) DetachDisk(diskName, diskURI string, nodeName types.NodeName) error { vmName := mapNodeNameToVMName(nodeName) ssName, instanceID, vm, err := ss.getVmssVM(vmName, azcache.CacheReadTypeDefault) if err != nil { return err } nodeResourceGroup, err := ss.GetNodeResourceGroup(vmName) if err != nil { return err } disks := []compute.DataDisk{} if vm.StorageProfile != nil && vm.StorageProfile.DataDisks != nil { disks = make([]compute.DataDisk, len(*vm.StorageProfile.DataDisks)) copy(disks, *vm.StorageProfile.DataDisks) } bFoundDisk := false for i, disk := range disks { if disk.Lun != nil && (disk.Name != nil && diskName != "" && strings.EqualFold(*disk.Name, diskName)) || (disk.Vhd != nil && disk.Vhd.URI != nil && diskURI != "" && strings.EqualFold(*disk.Vhd.URI, diskURI)) || (disk.ManagedDisk != nil && diskURI != "" && strings.EqualFold(*disk.ManagedDisk.ID, diskURI)) { // found the disk klog.V(2).Infof("azureDisk - detach disk: name %q uri %q", diskName, diskURI) disks[i].ToBeDetached = to.BoolPtr(true) bFoundDisk = true break } } if !bFoundDisk { // only log here, next action is to update VM status with original meta data klog.Errorf("detach azure disk: disk %s not found, diskURI: %s", diskName, diskURI) } newVM := compute.VirtualMachineScaleSetVM{ Sku: vm.Sku, Location: vm.Location, VirtualMachineScaleSetVMProperties: &compute.VirtualMachineScaleSetVMProperties{ HardwareProfile: vm.HardwareProfile, StorageProfile: &compute.StorageProfile{ OsDisk: vm.StorageProfile.OsDisk, DataDisks: &disks, }, }, } ctx, cancel := getContextWithCancel() defer cancel() // Invalidate the cache right after updating defer ss.deleteCacheForNode(vmName) klog.V(2).Infof("azureDisk - update(%s): vm(%s) - detach disk(%s, %s)", nodeResourceGroup, nodeName, diskName, diskURI) rerr := ss.VirtualMachineScaleSetVMsClient.Update(ctx, nodeResourceGroup, ssName, instanceID, newVM, "detach_disk") if rerr != nil { klog.Errorf("azureDisk - detach disk(%s, %s) on rg(%s) vm(%s) failed, err: %v", diskName, diskURI, nodeResourceGroup, nodeName, rerr) if rerr.HTTPStatusCode == http.StatusNotFound { klog.Errorf("azureDisk - begin to filterNonExistingDisks(%s, %s) on rg(%s) vm(%s)", diskName, diskURI, nodeResourceGroup, nodeName) disks := ss.filterNonExistingDisks(ctx, *newVM.VirtualMachineScaleSetVMProperties.StorageProfile.DataDisks) newVM.VirtualMachineScaleSetVMProperties.StorageProfile.DataDisks = &disks rerr = ss.VirtualMachineScaleSetVMsClient.Update(ctx, nodeResourceGroup, ssName, instanceID, newVM, "detach_disk") } } klog.V(2).Infof("azureDisk - update(%s): vm(%s) - detach disk(%s, %s) returned with %v", nodeResourceGroup, nodeName, diskName, diskURI, rerr) if rerr != nil { return rerr.Error() } return nil } // GetDataDisks gets a list of data disks attached to the node. func (ss *scaleSet) GetDataDisks(nodeName types.NodeName, crt azcache.AzureCacheReadType) ([]compute.DataDisk, error) { _, _, vm, err := ss.getVmssVM(string(nodeName), crt) if err != nil { return nil, err } if vm.StorageProfile == nil || vm.StorageProfile.DataDisks == nil { return nil, nil } return *vm.StorageProfile.DataDisks, nil }