/* Copyright (c) Citrix Systems, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, * with or without modification, are permitted provided * that the following conditions are met: * * * Redistributions of source code must retain the above * copyright notice, this list of conditions and the * following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the * following disclaimer in the documentation and/or other * materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND * CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ using System; using System.Collections.Generic; using XenAdmin.Diagnostics.Problems.PoolProblem; using XenAdmin.Network; using XenAPI; using XenAdmin.Diagnostics.Problems; using XenAdmin.Core; using XenAdmin.Diagnostics.Problems.VMProblem; using XenAdmin.Diagnostics.Problems.HostProblem; using System.Linq; using XenAdmin.Wizards.PatchingWizard; namespace XenAdmin.Diagnostics.Checks { public class AssertCanEvacuateCheck : Check { private static readonly log4net.ILog log = log4net.LogManager.GetLogger(System.Reflection.MethodBase.GetCurrentMethod().DeclaringType); private readonly Dictionary livePatchCodesByHost; public AssertCanEvacuateCheck(Host host, Dictionary livePatchCodesByHost) : base(host) { this.livePatchCodesByHost = livePatchCodesByHost; } public AssertCanEvacuateCheck(Host host) : base(host) { } protected List CheckHost() { // when livepatching is available, no restart is expected, so this check is not needed if (livePatchCodesByHost != null && livePatchCodesByHost.ContainsKey(Host.uuid) && livePatchCodesByHost[Host.uuid] == livepatch_status.ok_livepatch_complete) { log.DebugFormat("Check not needed for host {0}, because pool_patch.Precheck() returned PATCH_PRECHECK_LIVEPATCH_COMPLETE for update.", Host); return new List(); } var problems = new List(); var restrictMigration = Helpers.FeatureForbidden(Host.Connection, Host.RestrictIntraPoolMigrate); var VMsWithProblems = new List(); var residentVMs = Host.Connection.ResolveAll(Host.resident_VMs); foreach (var residentVM in residentVMs) { if (residentVM.GetAutoPowerOn()) { problems.Add(new AutoStartEnabled(this, residentVM)); VMsWithProblems.Add(residentVM.opaque_ref); continue; } SR sr = residentVM.FindVMCDROMSR(); if (sr != null && sr.IsToolsSR()) { problems.Add(new ToolsCD(this, residentVM)); VMsWithProblems.Add(residentVM.opaque_ref); } else if (sr != null && sr.content_type == SR.Content_Type_ISO && (!sr.shared || Properties.Settings.Default.EjectSharedIsoOnUpdate)) { problems.Add(new LocalCD(this, residentVM)); VMsWithProblems.Add(residentVM.opaque_ref); } if (restrictMigration && residentVM.is_a_real_vm() && !VMsWithProblems.Contains(residentVM.opaque_ref)) { problems.Add(new CannotMigrateVM(this, residentVM, CannotMigrateVM.CannotMigrateVMReason.LicenseRestriction)); VMsWithProblems.Add(residentVM.opaque_ref); } } // if VM migration is restricted, then we are already forcing all VMs to be shutdown/suspended, so there is not need to call get_vms_which_prevent_evacuation if (restrictMigration) return problems; Session session = Host.Connection.DuplicateSession(); Dictionary, String[]> vms = Host.get_vms_which_prevent_evacuation(session, Host.opaque_ref); foreach (KeyValuePair, String[]> kvp in vms) { String[] exception = kvp.Value; XenRef vmRef = kvp.Key; if (VMsWithProblems.Contains(vmRef)) continue; try { Problem p = GetProblem(Host.Connection, vmRef, exception); if (p != null) problems.Add(p); } catch (Exception e) { log.Debug("Didn't recognise reason", e); log.Debug(exception); log.Debug(e, e); VM vm = Host.Connection.Resolve(kvp.Key); if (vm != null) problems.Add(new CannotMigrateVM(this, vm)); } } return problems; } private Problem GetProblem(IXenConnection connection, XenRef vmRef, string[] exception) { try { System.Diagnostics.Trace.Assert(exception.Length > 0); var vm = connection.Resolve(vmRef); if (vm == null) { throw new NullReferenceException(exception[0]); } switch (exception[0]) { case Failure.VM_REQUIRES_SR: XenRef srRef = new XenRef(exception[2]); SR sr = connection.Resolve(srRef); if (sr == null) throw new NullReferenceException(Failure.VM_REQUIRES_SR); if (sr.content_type == SR.Content_Type_ISO) { return new LocalCD(this, vm); } else if (!sr.shared) { // Only show the problem if it is really local storage // As the pbd-plug checks will pick up broken storage. return new LocalStorage(this, vm); } return null; case Failure.VM_MISSING_PV_DRIVERS: return new NoPVDrivers(this, vm); case Failure.VM_LACKS_FEATURE: return new CannotMigrateVM(this, vm, GetMoreSpecificReasonForCannotMigrateVm(vm, CannotMigrateVM.CannotMigrateVMReason.CannotMigrateVm)); case Failure.VM_LACKS_FEATURE_SUSPEND: return new CannotMigrateVM(this, vm, GetMoreSpecificReasonForCannotMigrateVm(vm, CannotMigrateVM.CannotMigrateVMReason.LacksFeatureSuspend)); case "VM_OLD_PV_DRIVERS": return new PVDriversOutOfDate(this, vm); case Failure.NO_HOSTS_AVAILABLE: //CA-63531: Boston server will come here in case of single host pool or standalone host return new NoHosts(this, vm); case Failure.HOST_NOT_ENOUGH_FREE_MEMORY: Pool pool = Helpers.GetPool(vm.Connection); if (pool == null || pool.Connection.Cache.HostCount == 1) { //CA-63531: Cowley server will come here in case of single host pool or standalone host return new NoHosts(this, vm); } Host host = vm.Connection.Resolve(vm.resident_on); return new NotEnoughMem(this, host); case Failure.VM_REQUIRES_NETWORK: XenRef netRef = new XenRef(exception[2]); XenAPI.Network network = connection.Resolve(netRef); if (network == null) throw new NullReferenceException(Failure.VM_REQUIRES_NETWORK); return new VMCannotSeeNetwork(this, vm, network); case Failure.VM_HAS_VGPU: return new VmHasVgpu(this, vm); default: throw new NullReferenceException(exception[0]); } } catch (Exception e) { log.Debug("Exception parsing exception", e); log.Debug(e, e); throw new Failure(new List(exception)); } } private static CannotMigrateVM.CannotMigrateVMReason GetMoreSpecificReasonForCannotMigrateVm(VM vm, CannotMigrateVM.CannotMigrateVMReason reason) { var gm = vm.Connection.Resolve(vm.guest_metrics); var status = vm.GetVirtualisationStatus(); if (Helpers.DundeeOrGreater(vm.Connection) && vm.IsWindows()) { if (gm != null && !gm.PV_drivers_detected) { reason = CannotMigrateVM.CannotMigrateVMReason.CannotMigrateVmNoTools; } } else if (status == 0 || status.HasFlag(XenAPI.VM.VirtualisationStatus.PV_DRIVERS_OUT_OF_DATE)) { reason = CannotMigrateVM.CannotMigrateVMReason.CannotMigrateVmNoTools; } return reason; } // This function only tests certain host-wide conditions. // Further per-VM conditions are in CheckHost(). // See RunAllChecks() for how we combine them. protected override Problem RunCheck() { if (!Host.IsLive()) return new HostNotLiveWarning(this, Host); Pool pool = Helpers.GetPool(Host.Connection); if (pool != null) { if (pool.ha_enabled) return new HAEnabledWarning(this, pool, Host); if (Helpers.WlbEnabled(pool.Connection)) return new WLBEnabledWarning(this, pool, Host); } return null; } public override List RunAllChecks() { var list = base.RunAllChecks(); if (list.Count > 0) return list; else return CheckHost(); } public override string Description { get { return Messages.ASSERT_CAN_EVACUATE_CHECK_DESCRIPTION; } } } }