/* Copyright (c) 2017 VMware, Inc. All Rights Reserved. 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 simulator import ( "strconv" "strings" "github.com/vmware/govmomi/vim25/methods" "github.com/vmware/govmomi/vim25/mo" "github.com/vmware/govmomi/vim25/soap" "github.com/vmware/govmomi/vim25/types" ) type DistributedVirtualSwitch struct { mo.DistributedVirtualSwitch } func (s *DistributedVirtualSwitch) AddDVPortgroupTask(ctx *Context, c *types.AddDVPortgroup_Task) soap.HasFault { task := CreateTask(s, "addDVPortgroup", func(t *Task) (types.AnyType, types.BaseMethodFault) { f := Map.getEntityParent(s, "Folder").(*Folder) portgroups := s.Portgroup portgroupNames := s.Summary.PortgroupName for _, spec := range c.Spec { pg := &DistributedVirtualPortgroup{} pg.Name = spec.Name pg.Entity().Name = pg.Name // Standard AddDVPortgroupTask() doesn't allow duplicate names, but NSX 3.0 does create some DVPGs with the same name. // Allow duplicate names using this prefix so we can reproduce and test this condition. if !strings.HasPrefix(pg.Name, "NSX-") { if obj := Map.FindByName(pg.Name, f.ChildEntity); obj != nil { return nil, &types.DuplicateName{ Name: pg.Name, Object: obj.Reference(), } } } folderPutChild(ctx, &f.Folder, pg) pg.Key = pg.Self.Value pg.Config = types.DVPortgroupConfigInfo{ Key: pg.Key, Name: pg.Name, NumPorts: spec.NumPorts, DistributedVirtualSwitch: &s.Self, DefaultPortConfig: spec.DefaultPortConfig, Description: spec.Description, Type: spec.Type, Policy: spec.Policy, PortNameFormat: spec.PortNameFormat, Scope: spec.Scope, VendorSpecificConfig: spec.VendorSpecificConfig, ConfigVersion: spec.ConfigVersion, AutoExpand: spec.AutoExpand, VmVnicNetworkResourcePoolKey: spec.VmVnicNetworkResourcePoolKey, LogicalSwitchUuid: spec.LogicalSwitchUuid, BackingType: spec.BackingType, } if pg.Config.LogicalSwitchUuid != "" { if pg.Config.BackingType == "" { pg.Config.BackingType = "nsx" } } if pg.Config.DefaultPortConfig == nil { pg.Config.DefaultPortConfig = &types.VMwareDVSPortSetting{ Vlan: new(types.VmwareDistributedVirtualSwitchVlanIdSpec), UplinkTeamingPolicy: &types.VmwareUplinkPortTeamingPolicy{ Policy: &types.StringPolicy{ Value: "loadbalance_srcid", }, ReversePolicy: &types.BoolPolicy{ Value: types.NewBool(true), }, NotifySwitches: &types.BoolPolicy{ Value: types.NewBool(true), }, RollingOrder: &types.BoolPolicy{ Value: types.NewBool(true), }, }, } } if pg.Config.Policy == nil { pg.Config.Policy = &types.VMwareDVSPortgroupPolicy{ DVPortgroupPolicy: types.DVPortgroupPolicy{ BlockOverrideAllowed: true, ShapingOverrideAllowed: false, VendorConfigOverrideAllowed: false, LivePortMovingAllowed: false, PortConfigResetAtDisconnect: true, NetworkResourcePoolOverrideAllowed: types.NewBool(false), TrafficFilterOverrideAllowed: types.NewBool(false), }, VlanOverrideAllowed: false, UplinkTeamingOverrideAllowed: false, SecurityPolicyOverrideAllowed: false, IpfixOverrideAllowed: types.NewBool(false), } } for i := 0; i < int(spec.NumPorts); i++ { pg.PortKeys = append(pg.PortKeys, strconv.Itoa(i)) } portgroups = append(portgroups, pg.Self) portgroupNames = append(portgroupNames, pg.Name) for _, h := range s.Summary.HostMember { pg.Host = append(pg.Host, h) host := Map.Get(h).(*HostSystem) Map.AppendReference(host, &host.Network, pg.Reference()) parent := Map.Get(*host.HostSystem.Parent) computeNetworks := append(hostParent(&host.HostSystem).Network, pg.Reference()) Map.Update(parent, []types.PropertyChange{ {Name: "network", Val: computeNetworks}, }) } } Map.Update(s, []types.PropertyChange{ {Name: "portgroup", Val: portgroups}, {Name: "summary.portgroupName", Val: portgroupNames}, }) return nil, nil }) return &methods.AddDVPortgroup_TaskBody{ Res: &types.AddDVPortgroup_TaskResponse{ Returnval: task.Run(), }, } } func (s *DistributedVirtualSwitch) ReconfigureDvsTask(req *types.ReconfigureDvs_Task) soap.HasFault { task := CreateTask(s, "reconfigureDvs", func(t *Task) (types.AnyType, types.BaseMethodFault) { spec := req.Spec.GetDVSConfigSpec() members := s.Summary.HostMember for _, member := range spec.Host { h := Map.Get(member.Host) if h == nil { return nil, &types.ManagedObjectNotFound{Obj: member.Host} } host := h.(*HostSystem) switch types.ConfigSpecOperation(member.Operation) { case types.ConfigSpecOperationAdd: if FindReference(s.Summary.HostMember, member.Host) != nil { return nil, &types.AlreadyExists{Name: host.Name} } hostNetworks := append(host.Network, s.Portgroup...) Map.Update(host, []types.PropertyChange{ {Name: "network", Val: hostNetworks}, }) members = append(members, member.Host) parent := Map.Get(*host.HostSystem.Parent) var pgs []types.ManagedObjectReference for _, ref := range s.Portgroup { pg := Map.Get(ref).(*DistributedVirtualPortgroup) pgs = append(pgs, ref) pgHosts := append(pg.Host, member.Host) Map.Update(pg, []types.PropertyChange{ {Name: "host", Val: pgHosts}, }) cr := hostParent(&host.HostSystem) if FindReference(cr.Network, ref) == nil { computeNetworks := append(cr.Network, ref) Map.Update(parent, []types.PropertyChange{ {Name: "network", Val: computeNetworks}, }) } } case types.ConfigSpecOperationRemove: for _, ref := range host.Vm { vm := Map.Get(ref).(*VirtualMachine) if pg := FindReference(vm.Network, s.Portgroup...); pg != nil { return nil, &types.ResourceInUse{ Type: pg.Type, Name: pg.Value, } } } RemoveReference(&members, member.Host) case types.ConfigSpecOperationEdit: return nil, &types.NotSupported{} } } Map.Update(s, []types.PropertyChange{ {Name: "summary.hostMember", Val: members}, }) return nil, nil }) return &methods.ReconfigureDvs_TaskBody{ Res: &types.ReconfigureDvs_TaskResponse{ Returnval: task.Run(), }, } } func (s *DistributedVirtualSwitch) FetchDVPorts(req *types.FetchDVPorts) soap.HasFault { body := &methods.FetchDVPortsBody{} body.Res = &types.FetchDVPortsResponse{ Returnval: s.dvPortgroups(req.Criteria), } return body } func (s *DistributedVirtualSwitch) DestroyTask(ctx *Context, req *types.Destroy_Task) soap.HasFault { task := CreateTask(s, "destroy", func(t *Task) (types.AnyType, types.BaseMethodFault) { f := Map.getEntityParent(s, "Folder").(*Folder) folderRemoveChild(ctx, &f.Folder, s.Reference()) return nil, nil }) return &methods.Destroy_TaskBody{ Res: &types.Destroy_TaskResponse{ Returnval: task.Run(), }, } } func (s *DistributedVirtualSwitch) dvPortgroups(_ *types.DistributedVirtualSwitchPortCriteria) []types.DistributedVirtualPort { // TODO(agui): Filter is not implemented yet var res []types.DistributedVirtualPort for _, ref := range s.Portgroup { pg := Map.Get(ref).(*DistributedVirtualPortgroup) res = append(res, types.DistributedVirtualPort{ DvsUuid: s.Uuid, Key: pg.Key, Config: types.DVPortConfigInfo{ Setting: pg.Config.DefaultPortConfig, }, }) for _, key := range pg.PortKeys { res = append(res, types.DistributedVirtualPort{ DvsUuid: s.Uuid, Key: key, Config: types.DVPortConfigInfo{ Setting: pg.Config.DefaultPortConfig, }, }) } } return res }