/* 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. */ //#define SHOW_CONTROL_DOMAINS using System; using System.Collections.Generic; using System.Linq; using XenAdmin.CustomFields; using XenAdmin.Model; using XenAPI; using XenAdmin.Core; using System.Collections; using XenAdmin.Network; namespace XenAdmin.XenSearch { // // We need to access delegate, i18n and icons via enums // to allow for serialisation // public delegate Icons ImageDelegate(T o); public delegate IComparable PropertyAccessor(IXenObject o); // The order of this enum determines the order of types in the // tree in Folder View (CA-28418). But on the search-for // menu, see SearchFor.PopulateSearchForComboButton(). [Flags] public enum ObjectTypes { None = 0, Pool = 1 << 0, Server = 1 << 1, DisconnectedServer = 1 << 2, VM = 1 << 3, Snapshot = 1 << 4, UserTemplate = 1 << 5, DefaultTemplate = 1 << 6, RemoteSR = 1 << 7, LocalSR = 1 << 8, VDI = 1 << 9, Network = 1 << 10, Folder = 1 << 11, AllIncFolders = (1 << 12) - 1, AllExcFolders = AllIncFolders & ~ObjectTypes.Folder, Appliance = 1 << 13, DockerContainer = 1 << 14, } public enum PropertyNames { [HelpString("The type of the selected object, e.g. VM, Network")] type, [HelpString("The label of the selected object")] label, [HelpString("The UUID of the selected object, or the full pathname of a folder")] uuid, [HelpString("The description of the selected object")] description, [HelpString("Comma-separated list of the tags of the selected object")] tags, [HelpString("The host name")] host, [HelpString("The pool name")] pool, [HelpString("Comma-separated list of the names of the networks attached to the object")] networks, [HelpString("Comma-separated list of the names of the storage attached to the object")] storage, [HelpString("Comma-separated list of the types of the storage attached to the object")] disks, [HelpString("The host memory, in bytes")] memory, [HelpString("The name of the operating system that a VM is running")] os_name, [HelpString("The VM power state, e.g. Halted, Running")] power_state, [HelpString("The state of the pure virtualization drivers installed on a VM")] virtualisation_status, [HelpString("Date and time that the VM was started")] start_time, [HelpString("The HA restart priority of the VM")] ha_restart_priority, [HelpString("The size in bytes of the attached disks")] size, [HelpString("Comma-separated list of IP addresses associated with the selected object")] ip_address, [HelpString("Uptime of the object, in a form such as '2 days, 1 hour, 26 minutes'")] uptime, [HelpString("true if HA is enabled, false otherwise")] ha_enabled, [HelpString("true if at least one of the slaves has different XenServer version from the master, false otherwise")] isNotFullyUpgraded, [HelpString("A logical set of VMs")] appliance, [HelpString("Applicable to storage, true if storage is shared, false otherwise")] shared, [HelpString("Comma-separated list of VM names")] vm, [HelpString("List of Docker host-VM names.")] dockervm, [HelpString("Whether a VM is using read caching")] read_caching_enabled, [HelpString("The immediate parent folder of the selected object")] folder, [HelpString("Comma-separated list of all the ancestor folders of the selected object")] folders, // These properties are used for populating the query panel [HelpString("INTERNAL")] memoryText, [HelpString("INTERNAL")] memoryValue, [HelpString("INTERNAL")] memoryRank, [HelpString("INTERNAL")] cpuText, [HelpString("INTERNAL")] cpuValue, [HelpString("INTERNAL")] diskText, [HelpString("INTERNAL")] networkText, [HelpString("INTERNAL")] haText, // These properties are for plugins and are hidden [HelpString("Comma-separated list of host names")] connection_hostname, [HelpString("Applicable to storage, the storage type")] sr_type, [HelpString("Applicable to pools, a String representation of the license")] license, [HelpString("Whether the object has any custom fields defined")] has_custom_fields, [HelpString("Whether the VM is in any vApp")] in_any_appliance, [HelpString("Windows Update capability")] vendor_device_state, } public enum ColumnNames { name, cpu, memory, disks, network, ha, ip, uptime, } public class PropertyAccessors { private static Dictionary property_types = new Dictionary(); private static Dictionary properties = new Dictionary(); public static readonly Dictionary VM_power_state_i18n = new Dictionary(); public static readonly Dictionary VirtualisationStatus_i18n = new Dictionary(); public static readonly Dictionary ObjectTypes_i18n = new Dictionary(); public static readonly Dictionary HARestartPriority_i18n = new Dictionary(); public static readonly Dictionary SRType_i18n = new Dictionary(); public static readonly Dictionary PropertyNames_i18n = new Dictionary(); public static readonly Dictionary PropertyNames_i18n_false = new Dictionary(); public static readonly Dictionary VM_power_state_images = new Dictionary(); public static readonly Dictionary ObjectTypes_images = new Dictionary(); private static Dictionary column_sort_by = new Dictionary(); static PropertyAccessors() { foreach (vm_power_state p in Enum.GetValues(typeof(vm_power_state))) VM_power_state_i18n[Core.PropertyManager.GetFriendlyName(string.Format("Label-VM.power_state-{0}", p.ToString()))] = p; foreach (SR.SRTypes type in Enum.GetValues(typeof(SR.SRTypes))) SRType_i18n[SR.getFriendlyTypeName(type)] = type; VirtualisationStatus_i18n[Messages.VIRTUALIZATION_STATE_VM_NOT_OPTIMIZED] = 0; VirtualisationStatus_i18n[Messages.OUT_OF_DATE] = VM.VirtualisationStatus.PV_DRIVERS_OUT_OF_DATE; VirtualisationStatus_i18n[Messages.UNKNOWN] = VM.VirtualisationStatus.UNKNOWN; VirtualisationStatus_i18n[Messages.VIRTUALIZATION_STATE_VM_IO_OPTIMIZED_ONLY] = VM.VirtualisationStatus.IO_DRIVERS_INSTALLED; VirtualisationStatus_i18n[Messages.VIRTUALIZATION_STATE_VM_OPTIMIZED] = VM.VirtualisationStatus.IO_DRIVERS_INSTALLED | VM.VirtualisationStatus.MANAGEMENT_INSTALLED; ObjectTypes_i18n[Messages.VMS] = ObjectTypes.VM; ObjectTypes_i18n[Messages.XENSERVER_TEMPLATES] = ObjectTypes.DefaultTemplate; ObjectTypes_i18n[Messages.CUSTOM_TEMPLATES] = ObjectTypes.UserTemplate; ObjectTypes_i18n[Messages.POOLS] = ObjectTypes.Pool; ObjectTypes_i18n[Messages.SERVERS] = ObjectTypes.Server; ObjectTypes_i18n[Messages.DISCONNECTED_SERVERS] = ObjectTypes.DisconnectedServer; ObjectTypes_i18n[Messages.LOCAL_SRS] = ObjectTypes.LocalSR; ObjectTypes_i18n[Messages.REMOTE_SRS] = ObjectTypes.RemoteSR; ObjectTypes_i18n[Messages.NETWORKS] = ObjectTypes.Network; ObjectTypes_i18n[Messages.SNAPSHOTS] = ObjectTypes.Snapshot; ObjectTypes_i18n[Messages.VIRTUAL_DISKS] = ObjectTypes.VDI; ObjectTypes_i18n[Messages.FOLDERS] = ObjectTypes.Folder; ObjectTypes_i18n[Messages.VM_APPLIANCE] = ObjectTypes.Appliance; foreach (VM.HA_Restart_Priority p in VM.GetAvailableRestartPriorities(null)) //CA-57600 - From Boston onwards, the HA restart priorities list contains Restart instead of AlwaysRestartHighPriority and AlwaysRestart { HARestartPriority_i18n[Helpers.RestartPriorityI18n(p)] = p; } // This one is used for grouping and filtering i18n PropertyNames_i18n[PropertyNames.description] = Messages.DESCRIPTION; PropertyNames_i18n[PropertyNames.host] = Messages.SERVER; PropertyNames_i18n[PropertyNames.label] = Messages.NAME; PropertyNames_i18n[PropertyNames.uuid] = Messages.UUID; PropertyNames_i18n[PropertyNames.networks] = Messages.NETWORK; PropertyNames_i18n[PropertyNames.os_name] = Messages.OPERATING_SYSTEM; PropertyNames_i18n[PropertyNames.pool] = Messages.POOL; PropertyNames_i18n[PropertyNames.power_state] = Messages.POWER_STATE; PropertyNames_i18n[PropertyNames.start_time] = Messages.START_TIME; PropertyNames_i18n[PropertyNames.storage] = Messages.SR; PropertyNames_i18n[PropertyNames.disks] = Messages.VIRTUAL_DISK; PropertyNames_i18n[PropertyNames.type] = Messages.TYPE; PropertyNames_i18n[PropertyNames.virtualisation_status] = Messages.TOOLS_STATUS; PropertyNames_i18n[PropertyNames.ha_restart_priority] = Messages.HA_RESTART_PRIORITY; PropertyNames_i18n[PropertyNames.appliance] = Messages.VM_APPLIANCE; PropertyNames_i18n[PropertyNames.tags] = Messages.TAGS; PropertyNames_i18n[PropertyNames.shared] = Messages.SHARED; PropertyNames_i18n[PropertyNames.ha_enabled] = Messages.HA; PropertyNames_i18n[PropertyNames.isNotFullyUpgraded] = Messages.POOL_VERSIONS_LINK_TEXT_SHORT; PropertyNames_i18n[PropertyNames.ip_address] = Messages.ADDRESS; PropertyNames_i18n[PropertyNames.vm] = Messages.VM; PropertyNames_i18n[PropertyNames.dockervm] = "Docker VM"; PropertyNames_i18n[PropertyNames.read_caching_enabled] = Messages.VM_READ_CACHING_ENABLED_SEARCH; PropertyNames_i18n_false[PropertyNames.read_caching_enabled] = Messages.VM_READ_CACHING_DISABLED_SEARCH; PropertyNames_i18n[PropertyNames.memory] = Messages.MEMORY; PropertyNames_i18n[PropertyNames.sr_type] = Messages.STORAGE_TYPE; PropertyNames_i18n[PropertyNames.folder] = Messages.PARENT_FOLDER; PropertyNames_i18n[PropertyNames.folders] = Messages.ANCESTOR_FOLDERS; PropertyNames_i18n[PropertyNames.has_custom_fields] = Messages.HAS_CUSTOM_FIELDS; PropertyNames_i18n[PropertyNames.in_any_appliance] = Messages.IN_ANY_APPLIANCE; PropertyNames_i18n[PropertyNames.vendor_device_state] = Messages.WINDOWS_UPDATE_CAPABLE; PropertyNames_i18n_false[PropertyNames.vendor_device_state] = Messages.WINDOWS_UPDATE_CAPABLE_NOT; VM_power_state_images[vm_power_state.Halted] = Icons.PowerStateHalted; VM_power_state_images[vm_power_state.Paused] = Icons.PowerStateSuspended; VM_power_state_images[vm_power_state.Running] = Icons.PowerStateRunning; VM_power_state_images[vm_power_state.Suspended] = Icons.PowerStateSuspended; VM_power_state_images[vm_power_state.unknown] = Icons.PowerStateUnknown; ObjectTypes_images[ObjectTypes.DefaultTemplate] = Icons.Template; ObjectTypes_images[ObjectTypes.UserTemplate] = Icons.TemplateUser; ObjectTypes_images[ObjectTypes.Pool] = Icons.Pool; ObjectTypes_images[ObjectTypes.Server] = Icons.Host; ObjectTypes_images[ObjectTypes.DisconnectedServer] = Icons.HostDisconnected; ObjectTypes_images[ObjectTypes.LocalSR] = Icons.Storage; ObjectTypes_images[ObjectTypes.RemoteSR] = Icons.Storage; ObjectTypes_images[ObjectTypes.LocalSR | ObjectTypes.RemoteSR] = Icons.Storage; ObjectTypes_images[ObjectTypes.VM] = Icons.VM; ObjectTypes_images[ObjectTypes.Network] = Icons.Network; ObjectTypes_images[ObjectTypes.Snapshot] = Icons.Snapshot; ObjectTypes_images[ObjectTypes.VDI] = Icons.VDI; ObjectTypes_images[ObjectTypes.Folder] = Icons.Folder; ObjectTypes_images[ObjectTypes.Appliance] = Icons.VmAppliance; property_types.Add(PropertyNames.pool, typeof(Pool)); property_types.Add(PropertyNames.host, typeof(Host)); property_types.Add(PropertyNames.os_name, typeof(string)); property_types.Add(PropertyNames.power_state, typeof(vm_power_state)); property_types.Add(PropertyNames.virtualisation_status, typeof(VM.VirtualisationStatus)); property_types.Add(PropertyNames.type, typeof(ObjectTypes)); property_types.Add(PropertyNames.networks, typeof(XenAPI.Network)); property_types.Add(PropertyNames.storage, typeof(SR)); property_types.Add(PropertyNames.ha_restart_priority, typeof(VM.HA_Restart_Priority)); property_types.Add(PropertyNames.read_caching_enabled, typeof(bool)); property_types.Add(PropertyNames.appliance, typeof(VM_appliance)); property_types.Add(PropertyNames.tags, typeof(string)); property_types.Add(PropertyNames.has_custom_fields, typeof(bool)); property_types.Add(PropertyNames.ip_address, typeof(ComparableAddress)); property_types.Add(PropertyNames.vm, typeof(VM)); property_types.Add(PropertyNames.sr_type, typeof(SR.SRTypes)); property_types.Add(PropertyNames.folder, typeof(Folder)); property_types.Add(PropertyNames.folders, typeof(Folder)); property_types.Add(PropertyNames.in_any_appliance, typeof(bool)); property_types.Add(PropertyNames.disks, typeof(VDI)); properties[PropertyNames.os_name] = delegate(IXenObject o) { return GetForRealVM(o, delegate(VM vm, IXenConnection conn) { return vm.GetOSName(); }); }; properties[PropertyNames.power_state] = delegate(IXenObject o) { return GetForRealVM(o, delegate(VM vm, IXenConnection _) { return vm.power_state; }); }; properties[PropertyNames.vendor_device_state] = delegate(IXenObject o) { return GetForRealVM(o, delegate(VM vm, IXenConnection conn) { return (bool?)vm.WindowsUpdateCapable; }); }; properties[PropertyNames.virtualisation_status] = delegate(IXenObject o) { return GetForRealVM(o, delegate(VM vm, IXenConnection conn) { var status = vm.GetVirtualisationStatus; if (!status.HasFlag(VM.VirtualisationStatus.IO_DRIVERS_INSTALLED) && status.HasFlag(VM.VirtualisationStatus.MANAGEMENT_INSTALLED)) return null; return status; }); }; properties[PropertyNames.start_time] = delegate(IXenObject o) { return GetForRealVM(o, delegate(VM vm, IXenConnection conn) { return vm.GetStartTime(); }); }; properties[PropertyNames.label] = delegate(IXenObject o) { return o == null ? null : Helpers.GetName(o); }; properties[PropertyNames.pool] = delegate(IXenObject o) { return o == null ? null : Helpers.GetPool(o.Connection); }; properties[PropertyNames.host] = HostProperty; properties[PropertyNames.vm] = VMProperty; properties[PropertyNames.dockervm] = DockerVMProperty; properties[PropertyNames.networks] = NetworksProperty; properties[PropertyNames.storage] = StorageProperty; properties[PropertyNames.disks] = DisksProperty; properties[PropertyNames.has_custom_fields] = delegate(IXenObject o) { // this needs to be tidied up so that CustomFields calls don't require the event thread. bool ret = false; InvokeHelper.Invoke(delegate { ret = CustomFieldsManager.HasCustomFields(o); }); return ret; }; properties[PropertyNames.memory] = delegate(IXenObject o) { return GetForRealVM(o, delegate(VM vm, IXenConnection conn) { VM_metrics metrics = conn.Resolve(vm.metrics); return metrics == null ? null : (IComparable)metrics.memory_actual; }); }; properties[PropertyNames.ha_restart_priority] = delegate(IXenObject o) { return GetForRealVM(o, delegate(VM vm, IXenConnection conn) { Pool pool = Helpers.GetPool(conn); if (pool == null || !pool.ha_enabled) return null; //CA-57600 - From Boston onwards, the HA restart priority list contains Restart instead of AlwaysRestartHighPriority and AlwaysRestart // when searching in a pre-Boston pool for VMs with HA restart priority = Restart, the search will return VMs with restart priority = AlwaysRestartHighPriority or AlwaysRestart if (vm.HaPriorityIsRestart()) return VM.HA_Restart_Priority.Restart; return vm.HARestartPriority; }); }; properties[PropertyNames.appliance] = delegate(IXenObject o) { if (o is VM_appliance) return (VM_appliance)o; return GetForRealVM(o, (vm, conn) => { if (vm.appliance == null || vm.Connection == null) return null; var appl = vm.Connection.Resolve(vm.appliance); return appl; }); }; properties[PropertyNames.in_any_appliance] = delegate(IXenObject o) { if (o is VM_appliance) return o != null; return GetForRealVM(o, (vm, conn) => { if (vm.appliance == null || vm.Connection == null) return false; var appl = vm.Connection.Resolve(vm.appliance); return appl != null; }); }; properties[PropertyNames.read_caching_enabled] = delegate(IXenObject o) { return GetForRealVM(o, delegate(VM vm, IXenConnection conn) { return Helpers.CreamOrGreater(conn) ? (bool?)vm.ReadCachingEnabled : null; }); }; properties[PropertyNames.connection_hostname] = ConnectionHostnameProperty; properties[PropertyNames.cpuText] = CPUTextProperty; properties[PropertyNames.cpuValue] = CPUValueProperty; properties[PropertyNames.description] = DescriptionProperty; properties[PropertyNames.diskText] = DiskTextProperty; properties[PropertyNames.folder] = Folders.GetFolder; properties[PropertyNames.folders] = Folders.GetAncestorFolders; properties[PropertyNames.haText] = HATextProperty; properties[PropertyNames.ha_enabled] = HAEnabledProperty; properties[PropertyNames.isNotFullyUpgraded] = IsNotFullyUpgradedProperty; properties[PropertyNames.ip_address] = IPAddressProperty; properties[PropertyNames.license] = LicenseProperty; properties[PropertyNames.memoryText] = MemoryTextProperty; properties[PropertyNames.memoryValue] = MemoryValueProperty; properties[PropertyNames.memoryRank] = MemoryRankProperty; properties[PropertyNames.networkText] = NetworkTextProperty; properties[PropertyNames.shared] = SharedProperty; properties[PropertyNames.size] = SizeProperty; properties[PropertyNames.sr_type] = SRTypeProperty; properties[PropertyNames.tags] = Tags.GetTagList; properties[PropertyNames.type] = TypeProperty; properties[PropertyNames.uptime] = UptimeProperty; properties[PropertyNames.uuid] = UUIDProperty; column_sort_by[ColumnNames.name] = PropertyNames.label; column_sort_by[ColumnNames.cpu] = PropertyNames.cpuValue; column_sort_by[ColumnNames.memory] = PropertyNames.memoryValue; column_sort_by[ColumnNames.disks] = PropertyNames.diskText; column_sort_by[ColumnNames.network] = PropertyNames.networkText; column_sort_by[ColumnNames.ha] = PropertyNames.haText; column_sort_by[ColumnNames.ip] = PropertyNames.ip_address; column_sort_by[ColumnNames.uptime] = PropertyNames.uptime; } private static IComparable DescriptionProperty(IXenObject o) { VM vm = o as VM; if (vm != null && vm.DescriptionType == VM.VmDescriptionType.None) { //return string.Empty instead of null, or it prints hyphens and looks ugly return string.Empty; } return o.Description; } private static IComparable SizeProperty(IXenObject o) { if (o is VDI) { VDI vdi = o as VDI; return vdi.virtual_size; } return null; } private static IComparable UptimeProperty(IXenObject o) { VM vm = o as VM; if (vm != null && vm.is_a_real_vm) return vm.RunningTime; Host host = o as Host; if (host != null) return host.Uptime; return null; } private static IComparable CPUTextProperty(IXenObject o) { VM vm = o as VM; if (vm != null && vm.is_a_real_vm) { if (vm.power_state != vm_power_state.Running) return null; return PropertyAccessorHelper.vmCpuUsageString(vm); } Host host = o as Host; if (host != null) { if (!host.Connection.IsConnected) return null; return PropertyAccessorHelper.hostCpuUsageString(host); } return null; } private static IComparable CPUValueProperty(IXenObject o) { VM vm = o as VM; if (vm != null && vm.is_a_real_vm) { if (vm.power_state != vm_power_state.Running) return null; return PropertyAccessorHelper.vmCpuUsageRank(vm); } Host host = o as Host; if (host != null) { if (!host.Connection.IsConnected) return null; return PropertyAccessorHelper.hostCpuUsageRank(host); } return null; } private static IComparable MemoryTextProperty(IXenObject o) { return Switch(o, delegate(VM vm) { if (vm.not_a_real_vm || vm.power_state != vm_power_state.Running) return null; if (!vm.GetVirtualisationStatus.HasFlag(VM.VirtualisationStatus.MANAGEMENT_INSTALLED)) return null; return PropertyAccessorHelper.vmMemoryUsageString(vm); }, delegate(Host host) { if (!host.Connection.IsConnected) return null; return PropertyAccessorHelper.hostMemoryUsageString(host); }, null, null, delegate(VDI vdi) { return PropertyAccessorHelper.vdiMemoryUsageString(vdi); }, delegate(Folder folder) { return String.Empty; } ); } private static IComparable MemoryRankProperty(IXenObject o) { return Switch(o, delegate(VM vm) { if (vm.not_a_real_vm || vm.power_state != vm_power_state.Running) return null; if (!vm.GetVirtualisationStatus.HasFlag(VM.VirtualisationStatus.MANAGEMENT_INSTALLED)) return null; return PropertyAccessorHelper.vmMemoryUsageRank(vm); }, delegate(Host host) { if (!host.Connection.IsConnected) return null; return PropertyAccessorHelper.hostMemoryUsageRank(host); }, null, null, delegate(VDI vdi) { if (vdi.virtual_size == 0) return 0; return (int)((vdi.physical_utilisation * 100) / vdi.virtual_size); }, null); } private static IComparable MemoryValueProperty(IXenObject o) { return Switch(o, delegate(VM vm) { if (vm.not_a_real_vm || vm.power_state != vm_power_state.Running) return null; if (!vm.GetVirtualisationStatus.HasFlag(VM.VirtualisationStatus.MANAGEMENT_INSTALLED)) return null; return PropertyAccessorHelper.vmMemoryUsageValue(vm); }, delegate(Host host) { if (!host.Connection.IsConnected) return null; return PropertyAccessorHelper.hostMemoryUsageValue(host); }, null, null, delegate(VDI vdi) { if (vdi.virtual_size == 0) return 0.0; return (double)vdi.physical_utilisation; }, null); } private static IComparable NetworkTextProperty(IXenObject o) { VM vm = o as VM; if (vm != null) { if (vm.not_a_real_vm || vm.power_state != vm_power_state.Running) return null; if (!vm.GetVirtualisationStatus.HasFlag(VM.VirtualisationStatus.IO_DRIVERS_INSTALLED)) return null; return PropertyAccessorHelper.vmNetworkUsageString(vm); } Host host = o as Host; if (host != null) { if (!host.Connection.IsConnected) return null; return PropertyAccessorHelper.hostNetworkUsageString(host); } return null; } private static IComparable DiskTextProperty(IXenObject o) { VM vm = o as VM; if (vm == null || vm.not_a_real_vm) return null; if (vm.power_state != vm_power_state.Running) return null; if (!vm.GetVirtualisationStatus.HasFlag(VM.VirtualisationStatus.IO_DRIVERS_INSTALLED)) return null; return PropertyAccessorHelper.vmDiskUsageString(vm); } private static IComparable HATextProperty(IXenObject o) { return Switch(o, PropertyAccessorHelper.GetVMHAStatus, null, PropertyAccessorHelper.GetPoolHAStatus, PropertyAccessorHelper.GetSRHAStatus, null, delegate(Folder folder) { return ""; }); } private static IComparable UUIDProperty(IXenObject o) { if (o == null) return null; // A folder has no UUID, so we return the pathname in that case if (o is Folder) return o.opaque_ref; return Helpers.GetUuid(o); } private static IComparable ConnectionHostnameProperty(IXenObject o) { if (o == null) return null; IXenConnection xc = o.Connection; if (xc != null && xc.IsConnected) return xc.Hostname; return null; } private static IComparable SRTypeProperty(IXenObject o) { if (!(o is SR)) return null; SR sr = (SR)o; return sr.GetSRType(false); } private static IComparable LicenseProperty(IXenObject o) { Pool pool = Helpers.GetPool(o.Connection); if (pool == null) return null; Host master = Helpers.GetMaster(pool.Connection); if (master == null) return null; return Helpers.GetFriendlyLicenseName(master); } private static IComparable SharedProperty(IXenObject o) { SR sr = o as SR; if (sr != null) return sr.shared; VDI vdi = o as VDI; if (vdi != null) { int vms = 0; foreach (VBD vbd in vdi.Connection.ResolveAll(vdi.VBDs)) { VM vm = vbd.Connection.Resolve(vbd.VM); if (vm != null) { if (++vms >= 2) return true; } } return false; } return null; } private static IComparable HAEnabledProperty(IXenObject o) { Pool pool = o as Pool; return pool == null ? null : (IComparable)pool.ha_enabled; } private static IComparable IsNotFullyUpgradedProperty(IXenObject o) { Pool pool = o as Pool; return pool == null ? null : (IComparable)(!pool.IsPoolFullyUpgraded); } private static IComparable TypeProperty(IXenObject o) { if (o is VM) { VM vm = o as VM; if (vm.is_a_snapshot) { return ObjectTypes.Snapshot; } else if (vm.is_a_template) { return vm.DefaultTemplate ? ObjectTypes.DefaultTemplate : ObjectTypes.UserTemplate; } else if (vm.is_control_domain) { return null; } else { return ObjectTypes.VM; } } else if (o is VM_appliance) { return ObjectTypes.Appliance; } else if (o is Host) { return o.Connection.IsConnected ? ObjectTypes.Server : ObjectTypes.DisconnectedServer; } else if (o is Pool) { return ObjectTypes.Pool; } else if (o is SR) { SR sr = o as SR; return sr.IsLocalSR ? ObjectTypes.LocalSR : ObjectTypes.RemoteSR; } else if (o is XenAPI.Network) { return ObjectTypes.Network; } else if (o is VDI) { return ObjectTypes.VDI; } else if (o is Folder) { return ObjectTypes.Folder; } else if (o is DockerContainer) { return ObjectTypes.DockerContainer; } return null; } private static ComparableList NetworksProperty(IXenObject o) { ComparableList networks = new ComparableList(); if (o is VM) { VM vm = o as VM; if (vm.not_a_real_vm) return null; foreach (VIF vif in vm.Connection.ResolveAll(vm.VIFs)) { XenAPI.Network network = vm.Connection.Resolve(vif.network); if (network == null) continue; networks.Add(network); } } else if (o is XenAPI.Network) { networks.Add((XenAPI.Network)o); } return networks; } private static ComparableList VMProperty(IXenObject o) { ComparableList vms = new ComparableList(); if (o is Pool) { vms.AddRange(o.Connection.Cache.VMs); } else if (o is Host) { Host host = o as Host; vms.AddRange(host.Connection.ResolveAll(host.resident_VMs)); } else if (o is SR) { SR sr = o as SR; foreach (VDI vdi in sr.Connection.ResolveAll(sr.VDIs)) foreach (VBD vbd in vdi.Connection.ResolveAll(vdi.VBDs)) { VM vm = vbd.Connection.Resolve(vbd.VM); if (vm == null) continue; vms.Add(vm); } } else if (o is XenAPI.Network) { XenAPI.Network network = o as XenAPI.Network; foreach (VIF vif in network.Connection.ResolveAll(network.VIFs)) { VM vm = vif.Connection.Resolve(vif.VM); if (vm == null) continue; vms.Add(vm); } } else if (o is VDI) { VDI vdi = o as VDI; foreach (VBD vbd in vdi.Connection.ResolveAll(vdi.VBDs)) { VM vm = vbd.Connection.Resolve(vbd.VM); if (vm == null) continue; vms.Add(vm); } } else if (o is VM) { VM vm = o as VM; if (vm.is_a_snapshot) { VM from = vm.Connection.Resolve(vm.snapshot_of); if (from != null) // Can be null if VM has been deleted: CA-29249 vms.Add(from); } else vms.Add(vm); } else if (o as DockerContainer != null) { vms.Add(((DockerContainer)o).Parent); } vms.RemoveAll(new Predicate(delegate(VM vm) { return vm.not_a_real_vm; } )); return vms; } private static ComparableList DockerVMProperty(IXenObject o) { ComparableList vms = new ComparableList(); if (o as DockerContainer != null) { vms.Add(((DockerContainer)o).Parent); } return vms; } private static ComparableList HostProperty(IXenObject o) { ComparableList hosts = new ComparableList(); // If we're not in a pool then just group everything under the same host Pool pool = Helpers.GetPool(o.Connection); if (pool == null) { // If pool == null there should only be one host foreach (Host host in o.Connection.Cache.Hosts) { hosts.Add(host); } } else if (o is VM) { Host host = ((VM)o).Home(); if (host != null) hosts.Add(host); } else if (o is SR) { Host host = ((SR)o).Home; if (host != null) hosts.Add(host); } else if (o is XenAPI.Network) { XenAPI.Network network = o as XenAPI.Network; if (network.PIFs.Count == 0) hosts.AddRange(network.Connection.Cache.Hosts); } else if (o is Host) { hosts.Add(o as Host); } else if (o is VDI) { VDI vdi = o as VDI; SR sr = vdi.Connection.Resolve(vdi.SR); if (sr == null) return null; hosts.Add(sr.Home); } else if (o is DockerContainer) { VM vm = (o as DockerContainer).Parent; Host host = vm.Home(); if (host != null) hosts.Add(host); } return hosts; } private static ComparableList StorageProperty(IXenObject o) { ComparableList srs = new ComparableList(); if (o is VM) { VM vm = o as VM; if (vm.not_a_real_vm) return null; foreach (VBD vbd in vm.Connection.ResolveAll(vm.VBDs)) { VDI vdi = vbd.Connection.Resolve(vbd.VDI); if (vdi == null) continue; SR sr = vdi.Connection.Resolve(vdi.SR); if (sr == null) continue; if (!srs.Contains(sr)) srs.Add(sr); } } else if (o is SR) { srs.Add((SR)o); } else if (o is VDI) { VDI vdi = o as VDI; SR sr = vdi.Connection.Resolve(vdi.SR); if (sr == null) return null; srs.Add(sr); } return srs; } private static ComparableList DisksProperty(IXenObject o) { ComparableList vdis = new ComparableList(); if (o is VDI) { vdis.Add(o as VDI); } else if (o is VM) { VM vm = o as VM; if (vm.not_a_real_vm) return null; foreach (VBD vbd in vm.Connection.ResolveAll(vm.VBDs)) { VDI vdi = vbd.Connection.Resolve(vbd.VDI); if (vdi != null && !vdis.Contains(vdi)) vdis.Add(vdi); } } return vdis; } private static ComparableList IPAddressProperty(IXenObject o) { ComparableList addresses = new ComparableList(); if (o is VM) { VM vm = o as VM; if (vm.not_a_real_vm) return null; VM_guest_metrics metrics = vm.Connection.Resolve(vm.guest_metrics); if (metrics == null) return null; List vifs = vm.Connection.ResolveAll(vm.VIFs); foreach (VIF vif in vifs) { // PR-1373 - VM_guest_metrics.networks is a dictionary of IP addresses in the format: // [["0/ip", ], // ["0/ipv4/0", ], ["0/ipv4/1", ], // ["0/ipv6/0", ], ["0/ipv6/1", ]] foreach (var network in metrics.networks.Where(n => n.Key.StartsWith(String.Format("{0}/ip", vif.device)))) { ComparableAddress ipAddress; if (!ComparableAddress.TryParse(network.Value, false, true, out ipAddress)) continue; addresses.Add(ipAddress); } } addresses =new ComparableList(addresses.Distinct()); } else if (o is Host) { Host host = o as Host; foreach (PIF pif in host.Connection.ResolveAll(host.PIFs)) { ComparableAddress ipAddress; if (!ComparableAddress.TryParse(pif.IP, false, true, out ipAddress)) continue; addresses.Add(ipAddress); } } else if (o is SR) { SR sr = (SR)o; string target = sr.Target; if (!string.IsNullOrEmpty(target)) { ComparableAddress ipAddress; if (ComparableAddress.TryParse(target, false, true, out ipAddress)) addresses.Add(ipAddress); } } return (addresses.Count == 0 ? null : addresses); // CA-28300 } private delegate IComparable VMGetter(VM vm, IXenConnection conn); private static IComparable GetForRealVM(IXenObject o, VMGetter getter) { VM vm = o as VM; if (vm == null || vm.not_a_real_vm) return null; return getter(vm, vm.Connection); } public static PropertyAccessor Get(PropertyNames p) { return properties[p]; } public static Type GetType(PropertyNames p) { return property_types[p]; } public static IDictionary Geti18nFor(PropertyNames p) { switch (p) { case PropertyNames.type: return ObjectTypes_i18n; case PropertyNames.virtualisation_status: return VirtualisationStatus_i18n; case PropertyNames.power_state: return VM_power_state_i18n; case PropertyNames.ha_restart_priority: return HARestartPriority_i18n; case PropertyNames.sr_type: return SRType_i18n; default: return null; } } public static Object GetImagesFor(PropertyNames p) { switch (p) { case PropertyNames.type: return (ImageDelegate)delegate(ObjectTypes type) { return ObjectTypes_images[type]; }; case PropertyNames.power_state: return (ImageDelegate)delegate(vm_power_state type) { return VM_power_state_images[type]; }; case PropertyNames.networks: return (ImageDelegate)delegate { return Icons.Network; }; case PropertyNames.appliance: return (ImageDelegate)delegate { return Icons.VmAppliance; }; case PropertyNames.os_name: return (ImageDelegate)delegate(String os_name) { String os = os_name.ToLowerInvariant(); if (os.Contains("debian")) return Icons.Debian; if (os.Contains("linx")) return Icons.Linx; if (os.Contains("red")) return Icons.RHEL; if (os.Contains("cent")) return Icons.CentOS; if (os.Contains("oracle")) return Icons.Oracle; if (os.Contains("suse")) return Icons.SUSE; if (os.Contains("ubuntu")) return Icons.Ubuntu; if (os.Contains("scientific")) return Icons.SciLinux; if (os.Contains("yinhe")) return Icons.YinheKylin; if (os.Contains("kylin")) return Icons.NeoKylin; if (os.Contains("asianux")) return Icons.Asianux; if (os.Contains("turbo")) return Icons.Turbo; if (os.Contains("windows")) return Icons.Windows; if (os.Contains("coreos")) return Icons.CoreOS; return Icons.XenCenter; }; case PropertyNames.virtualisation_status: return (ImageDelegate)delegate(VM.VirtualisationStatus status) { if (status.HasFlag(VM.VirtualisationStatus.IO_DRIVERS_INSTALLED | VM.VirtualisationStatus.MANAGEMENT_INSTALLED)) return Icons.ToolInstalled; if (status.HasFlag(VM.VirtualisationStatus.PV_DRIVERS_OUT_OF_DATE)) return Icons.ToolsOutOfDate; return Icons.ToolsNotInstalled; }; case PropertyNames.sr_type: return (ImageDelegate)delegate(SR.SRTypes type) { return Icons.Storage; }; case PropertyNames.tags: return (ImageDelegate)delegate(string tag) { return Icons.Tag; }; case PropertyNames.ha_restart_priority: return (ImageDelegate)delegate(VM.HA_Restart_Priority _) { return Icons.HA; }; case PropertyNames.read_caching_enabled: return (ImageDelegate)delegate(bool _) { return Icons.VDI; }; default: return null; } } public delegate S WithDelegate(T t) where T : XenObject; public static Object With(IXenObject o, WithDelegate withDelegate) where T : XenObject { T t = o as T; if (t != null) return withDelegate(t); return default(S); } public static S Switch(IXenObject o, WithDelegate vmDelegate, WithDelegate hostDelegate, WithDelegate poolDelegate, WithDelegate srDelegate, WithDelegate vdiDelegate, WithDelegate folderDelegate) { VM vm = o as VM; if (vm != null && vmDelegate != null) return vmDelegate(vm); Host host = o as Host; if (host != null && hostDelegate != null) return hostDelegate(host); Pool pool = o as Pool; if (pool != null && poolDelegate != null) return poolDelegate(pool); SR sr = o as SR; if (sr != null && srDelegate != null) return srDelegate(sr); VDI vdi = o as VDI; if (vdi != null && vdiDelegate != null) return vdiDelegate(vdi); Folder folder = o as Folder; if (folder != null && folderDelegate != null) return folderDelegate(folder); return default(S); } public static PropertyNames GetSortPropertyName(ColumnNames c) { return column_sort_by[c]; } } public class PropertyWrapper { private readonly PropertyAccessor property; private readonly IXenObject o; public PropertyWrapper(PropertyNames property, IXenObject o) { this.property = PropertyAccessors.Get(property); this.o = o; } public override String ToString() { Object obj = property(o); return obj != null ? obj.ToString() : Messages.HYPHEN; } } }