/* 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 System.Globalization; using System.Threading; using Citrix.XenCenter; using XenAdmin; using XenAdmin.Core; using XenAdmin.Network; namespace XenAPI { public partial class Host : IComparable, IEquatable { public enum Edition { Free, Advanced, Enterprise, Platinum, EnterpriseXD, PerSocket, //Added in Clearwater (PR-1589) XenDesktop //Added in Clearwater (PR-1589) and is new form of "EnterpriseXD" } public override string Name { get { return name_label; } } public static Edition GetEdition(string editionText) { switch (editionText) { case "advanced": return Edition.Advanced; case "enterprise": return Edition.Enterprise; case "enterprise-xd": return Edition.EnterpriseXD; case "platinum": return Edition.Platinum; case "xendesktop": return Edition.XenDesktop; case "per-socket": return Edition.PerSocket; default: return Edition.Free; } } public bool CanSeeNetwork(XenAPI.Network network) { System.Diagnostics.Trace.Assert(network != null); // Special case for local networks. if (network.PIFs.Count == 0) return true; foreach (PIF pif in network.Connection.ResolveAll(network.PIFs)) { if (pif.host != null && pif.host.opaque_ref == opaque_ref) return true; } return false; } public static string GetEditionText(Edition edition) { switch (edition) { case Edition.Advanced: return "advanced"; case Edition.Enterprise: return "enterprise"; case Edition.Platinum: return "platinum"; case Edition.EnterpriseXD: return "enterprise-xd"; case Edition.XenDesktop: return "xendesktop"; case Edition.PerSocket: return "per-socket"; default: return "free"; } } public string iscsi_iqn { get { return Get(other_config, "iscsi_iqn") ?? ""; } set { if (iscsi_iqn != value) { Dictionary new_other_config = other_config == null ? new Dictionary() : new Dictionary(other_config); new_other_config["iscsi_iqn"] = value; other_config = new_other_config; } } } public override string ToString() { return this.name_label; } public override string Description { get { if (name_description == "Default install of XenServer") // i18n: CA-30372 return Messages.DEFAULT_INSTALL_OF_XENSERVER; else if (name_description == null) return ""; else return name_description; } } /// /// The expiry date of this host's license in UTC. /// public virtual DateTime LicenseExpiryUTC { get { if (license_params.ContainsKey("expiry")) return TimeUtil.ParseISO8601DateTime(license_params["expiry"]); return new DateTime(2030, 1, 1); } } private bool _RestrictRBAC { get { return BoolKeyPreferTrue(license_params, "restrict_rbac"); } } public static bool RestrictRBAC(Host h) { return h._RestrictRBAC; } private bool _RestrictDMC { get { return BoolKeyPreferTrue(license_params, "restrict_dmc"); } } public static bool RestrictDMC(Host h) { return h._RestrictDMC; } private bool _RestrictHotfixApply { get { return BoolKeyPreferTrue(license_params, "restrict_hotfix_apply"); } } /// /// Added for Clearwater /// /// /// public static bool RestrictHotfixApply(Host h) { return h._RestrictHotfixApply; } private bool _RestrictCheckpoint { get { return BoolKeyPreferTrue(license_params, "restrict_checkpoint"); } } public static bool RestrictCheckpoint(Host h) { return h._RestrictCheckpoint; } private bool _RestrictWLB { get { return BoolKeyPreferTrue(license_params, "restrict_wlb"); } } public static bool RestrictWLB(Host h) { return h._RestrictWLB; } private bool _RestrictVSwitchController { get { return BoolKeyPreferTrue(license_params, "restrict_vswitch_controller"); } } public static bool RestrictVSwitchController(Host h) { return h._RestrictVSwitchController; } public bool RestrictPooling { get { return BoolKeyPreferTrue(license_params, "restrict_pooling"); } } public bool RestrictConnection { get { return BoolKeyPreferTrue(license_params, "restrict_connection"); } } public bool RestrictQoS { get { return BoolKeyPreferTrue(license_params, "restrict_qos"); } } public bool RestrictVLAN { get { return BoolKeyPreferTrue(license_params, "restrict_vlan"); } } public static bool RestrictVMProtection(Host h) { return h._RestrictVMProtection; } private bool _RestrictVMProtection { get { return BoolKeyPreferTrue(license_params, "restrict_vmpr"); } } public static bool RestrictVMAppliances(Host h) { return h._RestrictVMAppliances; } private bool _RestrictVMAppliances { get { return false; } } public static bool RestrictDR(Host h) { return h._RestrictDR; } private bool _RestrictDR { get { return BoolKeyPreferTrue(license_params, "restrict_dr"); } } public static bool RestrictCrossPoolMigrate(Host h) { return h._RestrictCrossPoolMigrate; } private bool _RestrictCrossPoolMigrate { get { return BoolKeyPreferTrue(license_params, "restrict_storage_xen_motion"); } } public bool RestrictPoolAttachedStorage { get { return BoolKeyPreferTrue(license_params, "restrict_pool_attached_storage"); } } public bool IsFloodgateOrLater() { return (XenCenterMax >= (int)API_Version.API_1_5); } public virtual bool IsFreeLicense() { if (Helpers.MidnightRideOrGreater(this)) { return edition == "free"; } return license_params.ContainsKey("sku_type") && license_params["sku_type"].Replace(" ", "_").ToLowerInvariant().EndsWith("xe_express"); } private bool _RestrictHA { get { return !BoolKey(license_params, "enable_xha"); } } public bool RestrictHA { get { return _RestrictHA; } } public bool RestrictHAOrlando { get { return _RestrictHA && !IsFloodgateOrLater(); } } private bool _RestrictHAFloodgate { get { return _RestrictHA && IsFloodgateOrLater(); } } public static bool RestrictHAFloodgate(Host h) { return h._RestrictHAFloodgate; } private bool _RestrictAlerts { get { return BoolKeyPreferTrue(license_params, "restrict_email_alerting"); } } public static bool RestrictAlerts(Host h) { return h._RestrictAlerts; } private bool _RestrictStorageChoices { get { return BoolKeyPreferTrue(license_params, "restrict_netapp"); } } public static bool RestrictStorageChoices(Host h) { return h._RestrictStorageChoices; } private bool _RestrictPerformanceGraphs { get { return BoolKeyPreferTrue(license_params, "restrict_historical_performance"); } } public static bool RestrictPerformanceGraphs(Host h) { return h._RestrictPerformanceGraphs; } private bool _RestrictCpuMasking { get { return BoolKeyPreferTrue(license_params, "restrict_cpu_masking"); } } public static bool RestrictCpuMasking(Host h) { return h._RestrictCpuMasking; } private bool _RestrictGpu { get { return BoolKeyPreferTrue(license_params, "restrict_gpu"); } } public static bool RestrictGpu(Host h) { return h._RestrictGpu; } private bool _RestrictVgpu { get { return BoolKeyPreferTrue(license_params, "restrict_vgpu"); } } public static bool RestrictVgpu(Host h) { return h._RestrictVgpu; } public bool HasPBDTo(SR sr) { foreach (XenRef pbd in PBDs) { PBD thePBD = sr.Connection.Resolve(pbd); if (thePBD != null && thePBD.SR.opaque_ref == sr.opaque_ref) { return true; } } return false; } public PBD GetPBDTo(SR sr) { foreach (XenRef pbd in PBDs) { PBD thePBD = sr.Connection.Resolve(pbd); if (thePBD != null && thePBD.SR.opaque_ref == sr.opaque_ref) { return thePBD; } } return null; } // Constants for other-config from CP-329 public const String MULTIPATH = "multipathing"; public const String MULTIPATH_HANDLE = "multipathhandle"; public const String DMP = "dmp"; public bool MultipathEnabled { get { return BoolKey(other_config, MULTIPATH); } } public String MultipathHandle { get { return Get(other_config, MULTIPATH_HANDLE); } } public override int CompareTo(Host other) { // CA-20865 Sort in the following order: // * Masters first // * Then connected slaves // * Then disconnected servers // Within each group, in NaturalCompare order bool thisConnected = (Connection.IsConnected && Helpers.GetMaster(Connection) != null); bool otherConnected = (other.Connection.IsConnected && Helpers.GetMaster(other.Connection) != null); if (thisConnected && !otherConnected) return -1; else if (!thisConnected && otherConnected) return 1; else if (thisConnected) { bool thisIsMaster = IsMaster(); bool otherIsMaster = other.IsMaster(); if (thisIsMaster && !otherIsMaster) return -1; else if (!thisIsMaster && otherIsMaster) return 1; } return base.CompareTo(other); } public virtual bool IsMaster() { Pool pool = Helpers.GetPoolOfOne(Connection); if (pool == null) return false; Host master = Connection.Resolve(pool.master); return master == null ? false : master.uuid == this.uuid; } /// /// Return this host's product version triplet (e.g. 5.6.100), or null if it can't be found. /// public virtual string ProductVersion { get { return Get(software_version, "product_version"); } } private string MarketingVersion(string field) { string s = Get(software_version, field); return string.IsNullOrEmpty(s) ? ProductVersion : s; } /// /// Return this host's marketing version number (e.g. 5.6 Feature Pack 1), /// or ProductVersion (which can still be null) if it can't be found, including pre-Cowley hosts. /// public string ProductVersionText { get { return MarketingVersion("product_version_text"); } } /// /// Return this host's marketing version number in short form (e.g. 5.6 FP1), /// or ProductVersion (which can still be null) if it can't be found, including pre-Cowley hosts. /// public string ProductVersionTextShort { get { return MarketingVersion("product_version_text_short"); } } /// /// Return this host's XCP version triplet (e.g. 1.0.50), or null if it can't be found, /// including all pre-Tampa hosts. /// public virtual string PlatformVersion { get { return Get(software_version, "platform_version"); } } /// /// Return the build number of this host, or -1 if none can be found. This will often be /// 0 or -1 for developer builds, so comparisons should generally treat those numbers as if /// they were brand new. /// public int BuildNumber { get { string bn = BuildNumberRaw; if (bn == null) return -1; while (bn.Length > 0 && !char.IsDigit(bn[bn.Length - 1])) { bn = bn.Substring(0, bn.Length - 1); } int result; if (int.TryParse(bn, out result)) return result; else return -1; } } /// /// Return the build number of this host, without stripping off the final letter etc.; or null if none can be found. /// public virtual string BuildNumberRaw { get { return Get(software_version, "build_number"); } } /// /// Return this host's product version and build number (e.g. 5.6.100.72258), or null if product version can't be found. /// public virtual string LongProductVersion { get { string productVersion = ProductVersion; return productVersion != null ? string.Format("{0}.{1}", productVersion, BuildNumber) : null; } } /// /// Return the hg_id (Mercurial changeset number) of xapi on this host, or null if none can be found. /// public string hg_id { get { return Get(software_version, "hg_id"); } } /// /// Return the product_brand of this host, or null if none can be found. /// public string ProductBrand { get { return Get(software_version, "product_brand"); } } /// /// Whether this host is an XCP host /// public bool IsXCP { get { return ProductVersion == null && PlatformVersion != null || // for Tampa and later ProductBrand == "XCP"; // for Boston and earlier } } /// /// The remote syslog target. May return null if not set on the server. Set to null to unset. /// public string SysLogDestination { get { return logging != null && logging.ContainsKey("syslog_destination") ? logging["syslog_destination"] : null; } set { if (SysLogDestination != value) { Dictionary new_logging = logging == null ? new Dictionary() : new Dictionary(logging); if (value == null) { new_logging.Remove("syslog_destination"); } else { new_logging["syslog_destination"] = value; } logging = new_logging; } } } public static bool IsFullyPatched(Host host,IEnumerable connections) { List patches = Pool_patch.GetAllThatApply(host,connections); List appliedPatches = host.AppliedPatches(); if (appliedPatches.Count == patches.Count) return true; foreach (Pool_patch patch in patches) { Pool_patch patch1 = patch; if (!appliedPatches.Exists(otherPatch => patch1.uuid == otherPatch.uuid)) return false; } return true; } public virtual List AppliedPatches() { List patches = new List(); foreach (Host_patch hostPatch in Connection.ResolveAll(this.patches)) { Pool_patch patch = Connection.Resolve(hostPatch.pool_patch); if (patch != null) patches.Add(patch); } return patches; } public string XAPI_version { get { return Get(software_version, "xapi"); } } public bool LinuxPackPresent { get { if (Helpers.MidnightRideOrGreater(this)) return software_version.ContainsKey("xs:linux"); else return Get(software_version, "package-linux") == "installed"; } } public bool isOEM { get { return software_version.ContainsKey("oem_build_number"); } } public bool HasCrashDumps { get { return crashdumps != null && crashdumps.Count > 0; } } public bool IsLive { get { if (Connection == null) return false; Host_metrics hm = Connection.Resolve(metrics); return hm == null ? false : hm.live; } } public const string MAINTENANCE_MODE = "MAINTENANCE_MODE"; public bool MaintenanceMode { get { return BoolKey(other_config, MAINTENANCE_MODE); } } public const string BOOT_TIME = "boot_time"; public double BootTime { get { if (other_config == null) return 0.0; if (!other_config.ContainsKey(BOOT_TIME)) return 0.0; double bootTime; if (!double.TryParse(other_config[BOOT_TIME], NumberStyles.Number, CultureInfo.InvariantCulture, out bootTime)) return 0.0; return bootTime; } } public PrettyTimeSpan Uptime { get { double bootTime = BootTime; if (bootTime == 0.0) return null; return new PrettyTimeSpan(DateTime.UtcNow - Util.FromUnixTime(bootTime) - Connection.ServerTimeOffset); } } public const string AGENT_START_TIME = "agent_start_time"; public double AgentStartTime { get { if (other_config == null) return 0.0; if (!other_config.ContainsKey(AGENT_START_TIME)) return 0.0; double agentStartTime; if (!double.TryParse(other_config[AGENT_START_TIME], System.Globalization.NumberStyles.Any, CultureInfo.InvariantCulture, out agentStartTime)) return 0.0; return agentStartTime; } } public PrettyTimeSpan AgentUptime { get { double startTime = AgentStartTime; if (startTime == 0.0) return null; return new PrettyTimeSpan(DateTime.UtcNow - Util.FromUnixTime(startTime) - Connection.ServerTimeOffset); } } // Get the path counts from the Multipath Boot From SAN feature (see PR-1034 and CP-1696). // Returns true if the Host.other_config contains the multipathed and mpath-boot keys, // and the mpath-boot key is parseable. In this case, current and max will contain the result; // otherwise they will contain zero. public bool GetBootPathCounts(out int current, out int max) { current = max = 0; return (BoolKey(other_config, "multipathed") && other_config.ContainsKey("mpath-boot") && PBD.ParsePathCounts(other_config["mpath-boot"], out current, out max)); } #region Save Evacuated VMs for later public const String MAINTENANCE_MODE_EVACUATED_VMS_MIGRATED = "MAINTENANCE_MODE_EVACUATED_VMS_MIGRATED"; public const String MAINTENANCE_MODE_EVACUATED_VMS_SUSPENDED = "MAINTENANCE_MODE_EVACUATED_VMS_SUSPENDED"; public const String MAINTENANCE_MODE_EVACUATED_VMS_HALTED = "MAINTENANCE_MODE_EVACUATED_VMS_HALTED"; /// /// Save the list of VMs on this host, so we can try and put them back when finished. /// This may get run multiple times, after which some vms will have been suspended / shutdown. /// /// Pass in the session you wish to use for the other config writing public void SaveEvacuatedVMs(Session session) { //Program.AssertOffEventThread(); XenRef opaque_ref = get_by_uuid(session, uuid); List migratedVMs = GetVMs(MAINTENANCE_MODE_EVACUATED_VMS_MIGRATED); List suspendedVMs = GetVMs(MAINTENANCE_MODE_EVACUATED_VMS_SUSPENDED); List haltedVMs = GetVMs(MAINTENANCE_MODE_EVACUATED_VMS_HALTED); List allVMs = new List(); allVMs.AddRange(migratedVMs); allVMs.AddRange(suspendedVMs); allVMs.AddRange(haltedVMs); // First time round there will be no saved VMs, // (or less saved VMs than currently resident) // so just save them all as migrated // don't forget the control domain if (allVMs.Count < resident_VMs.Count - 1) { SaveVMList(session, opaque_ref, MAINTENANCE_MODE_EVACUATED_VMS_MIGRATED, Connection.ResolveAll(resident_VMs)); return; } // We've been round once, so just make sure all the vms are in the correct list // and then save the lists again migratedVMs.Clear(); suspendedVMs.Clear(); haltedVMs.Clear(); foreach (VM vm in allVMs) { switch (vm.power_state) { case vm_power_state.Halted: haltedVMs.Add(vm); break; case vm_power_state.Running: migratedVMs.Add(vm); break; case vm_power_state.Suspended: suspendedVMs.Add(vm); break; } } SaveVMList(session, opaque_ref, MAINTENANCE_MODE_EVACUATED_VMS_MIGRATED, migratedVMs); SaveVMList(session, opaque_ref, MAINTENANCE_MODE_EVACUATED_VMS_HALTED, haltedVMs); SaveVMList(session, opaque_ref, MAINTENANCE_MODE_EVACUATED_VMS_SUSPENDED, suspendedVMs); } private static void SaveVMList(Session session, String serverOpaqueRef, String key, List vms) { //Program.AssertOffEventThread(); List vmUUIDs = new List(); foreach (VM vm in vms) { if (vm.is_control_domain) continue; vmUUIDs.Add(vm.uuid); } Host.remove_from_other_config(session, serverOpaqueRef, key); Host.add_to_other_config(session, serverOpaqueRef, key, String.Join(",", vmUUIDs.ToArray())); } private List GetVMs(String key) { List vms = new List(); if (other_config == null || !other_config.ContainsKey(key)) return vms; String vmUUIDs = other_config[key]; if (String.IsNullOrEmpty(vmUUIDs)) return vms; foreach (String vmUUID in vmUUIDs.Split(new char[] { ',' })) foreach (VM vm in Connection.Cache.VMs) if (vm.uuid == vmUUID) { if (!vms.Contains(vm)) vms.Add(vm); break; } return vms; } public void ClearEvacuatedVMs(Session session) { //Program.AssertOffEventThread(); XenRef serverOpaqueRef1 = get_by_uuid(session, uuid); remove_from_other_config(session, serverOpaqueRef1, MAINTENANCE_MODE_EVACUATED_VMS_MIGRATED); remove_from_other_config(session, serverOpaqueRef1, MAINTENANCE_MODE_EVACUATED_VMS_HALTED); remove_from_other_config(session, serverOpaqueRef1, MAINTENANCE_MODE_EVACUATED_VMS_SUSPENDED); } public List GetMigratedEvacuatedVMs() { return GetEvacuatedVMs(MAINTENANCE_MODE_EVACUATED_VMS_MIGRATED, vm_power_state.Running); } public List GetSuspendedEvacuatedVMs() { return GetEvacuatedVMs(MAINTENANCE_MODE_EVACUATED_VMS_SUSPENDED, vm_power_state.Suspended); } public List GetHaltedEvacuatedVMs() { return GetEvacuatedVMs(MAINTENANCE_MODE_EVACUATED_VMS_HALTED, vm_power_state.Halted); } private List GetEvacuatedVMs(String key, vm_power_state expectedPowerState) { List vms = GetVMs(key); foreach (VM vm in vms.ToArray()) if (vm.power_state != expectedPowerState) vms.Remove(vm); return vms; } #endregion /// /// Will return null if cannot find connection or any control domain in list of vms /// public VM ControlDomain { get { if (Connection == null) return null; foreach (VM vm in Connection.ResolveAll(resident_VMs)) { if (vm.is_control_domain) return vm; } return null; } } /// /// Interpret a value from the software_version dictionary as a int, or 0 if we couldn't parse it. /// private int GetSVAsInt(string key) { string s = Get(software_version, key); if (s == null) return 0; return (int)Helper.GetAPIVersion(s); } /// /// The xencenter_min as a int, or 0. if we couldn't parse it. /// public int XenCenterMin { get { return GetSVAsInt("xencenter_min"); } } /// /// The xencenter_max as a int, or 0 if we couldn't parse it. /// public int XenCenterMax { get { return GetSVAsInt("xencenter_max"); } } /// /// The amount of memory free on the host. For George and earlier hosts, we simply use /// the obvious Host_metrics.memory_free. For Midnight Ride and later, however, we use /// the same calculation as xapi, adding the used memory and the virtualisation overheads /// on each of the VMs. This is a more conservative estimate (i.e., it reports less memory /// free), but it's the one we need to make the memory go down to zero when ballooning /// takes place. /// public long memory_free_calc { get { Host_metrics host_metrics = Connection.Resolve(this.metrics); if (host_metrics == null) return 0; if (!Helpers.MidnightRideOrGreater(Connection)) return host_metrics.memory_free; long used = memory_overhead; foreach (VM vm in Connection.ResolveAll(resident_VMs)) { used += vm.memory_overhead; VM_metrics vm_metrics = vm.Connection.Resolve(vm.metrics); if (vm_metrics != null) used += vm_metrics.memory_actual; } // This hack is needed because of bug CA-32509. xapi uses a deliberately generous // estimate of VM.memory_overhead: but the low-level squeezer code doesn't (and can't) // know about the same calculation, and so uses some of this memory_overhead for the // VM's memory_actual. This causes up to 1MB of double-counting per VM. return ((host_metrics.memory_total > used) ? (host_metrics.memory_total - used) : 0); } } /// /// The total of all the dynamic_minimum memories of all resident VMs other than the control domain. /// For non-ballonable VMs, we use the static_maximum instead, because the dynamic_minimum has no effect. /// public long tot_dyn_min { get { long ans = 0; foreach (VM vm in Connection.ResolveAll(resident_VMs)) { if (!vm.is_control_domain) ans += vm.has_ballooning ? vm.memory_dynamic_min : vm.memory_static_max; } return ans; } } /// /// The total of all the dynamic_maximum memories of all resident VMs other than the control domain. /// For non-ballonable VMs, we use the static_maximum instead, because the dynamic_maximum has no effect. /// public long tot_dyn_max { get { long ans = 0; foreach (VM vm in Connection.ResolveAll(resident_VMs)) { if (!vm.is_control_domain) ans += vm.has_ballooning ? vm.memory_dynamic_max : vm.memory_static_max; } return ans; } } /// /// The amount of available memory on the host. This is not the same as the amount of free memory, because /// it includes the memory that could be freed by reducing balloonable VMs to their dynamic_minimum memory. /// public long memory_available_calc { get { Host_metrics host_metrics = Connection.Resolve(this.metrics); if (host_metrics == null) return 0; long avail = host_metrics.memory_total - tot_dyn_min - xen_memory_calc; if (avail < 0) avail = 0; // I don't think this can happen, but I'm nervous about CA-32509: play it safe return avail; } } /// /// The amount of memory used by Xen, including the control domain plus host and VM overheads. /// Used to calculate this as total - free - tot_vm_mem, but that caused xen_mem to jump around /// during VM startup/shutdown because some changes happen before others. /// public long xen_memory_calc { get { if (!Helpers.MidnightRideOrGreater(Connection)) { Host_metrics host_metrics = Connection.Resolve(this.metrics); if (host_metrics == null) return 0; long totalused = 0; foreach (VM vm in Connection.ResolveAll(resident_VMs)) { VM_metrics vmMetrics = vm.Connection.Resolve(vm.metrics); if (vmMetrics != null) totalused += vmMetrics.memory_actual; } return host_metrics.memory_total - totalused - host_metrics.memory_free; } long xen_mem = memory_overhead; foreach (VM vm in Connection.ResolveAll(resident_VMs)) { xen_mem += vm.memory_overhead; if (vm.is_control_domain) { VM_metrics vmMetrics = vm.Connection.Resolve(vm.metrics); if (vmMetrics != null) xen_mem += vmMetrics.memory_actual; } } return xen_mem; } } /// /// Friendly string showing memory usage on the host /// public string HostMemoryString { get { Host_metrics m = Connection.Resolve(metrics); if (m == null) return Messages.GENERAL_UNKNOWN; long ServerMBAvail = memory_available_calc; long ServerMBTotal = m.memory_total; return string.Format(Messages.GENERAL_MEMORY_SERVER_FREE, Util.MemorySizeString(ServerMBAvail), Util.MemorySizeString(ServerMBTotal)); } } /// /// A friendly string for the XenMemory on this host /// public string XenMemoryString { get { if (Connection.Resolve(metrics) == null) return Messages.GENERAL_UNKNOWN; return Util.MemorySizeString(xen_memory_calc); } } /// /// A friendly string of the resident VM's memory usage, with each entry separated by a line break /// public string ResidentVMMemoryUsageString { get { Host_metrics m = Connection.Resolve(metrics); if (m == null) return Messages.GENERAL_UNKNOWN; else { List lines = new List(); foreach (VM vm in Connection.ResolveAll(resident_VMs)) { if (vm.is_control_domain) continue; VM_metrics VMMetrics = Connection.Resolve(vm.metrics); if (VMMetrics == null) continue; string message = string.Format(Messages.GENERAL_MEMORY_VM_USED, vm.Name, Util.MemorySizeString(VMMetrics.memory_actual)); lines.Add(message); } return string.Join("\n", lines.ToArray()); } } } /// /// Wait about two minutes for all the PBDs on this host to become plugged: /// if they do not, try and plug them. (Refs: CA-41219, CA-41305, CA-66496). /// public void CheckAndPlugPBDs() { bool allPBDsReady = false; int timeout = 120; do { if (this.enabled) // if the Host is not yet enabled, pbd.currently_attached may not be accurate: see CA-66496. { allPBDsReady = true; foreach (PBD pbd in Connection.ResolveAll(PBDs)) { if (!pbd.currently_attached) { allPBDsReady = false; break; } } } if (!allPBDsReady) { Thread.Sleep(1000); timeout--; } } while (!allPBDsReady && timeout > 0); if (!allPBDsReady) { foreach (var pbd in Connection.ResolveAll(PBDs)) { if (!pbd.currently_attached) { Session session = Connection.DuplicateSession(); // If we still havent plugged, then try and plug it - this will probably // fail, but at least we'll get a better error message. PBD.NonchalantPlug(session, pbd.opaque_ref); } } } } /// /// Whether the host is running the vSwitch network stack /// public bool vSwitchNetworkBackend { get { return software_version.ContainsKey("network_backend") && software_version["network_backend"] == "openvswitch"; } } /// /// The number of CPU sockets the host has /// Return 0 if a problem is found /// public virtual int CpuSockets { get { const string key = "socket_count"; const int defaultSockets = 0; if (cpu_info == null || !cpu_info.ContainsKey(key)) return defaultSockets; int sockets; bool parsed = int.TryParse(cpu_info[key], out sockets); if (!parsed) return defaultSockets; return sockets; } } /// /// Is the host allowed to install hotfixes or are they restricted? /// public virtual bool CanApplyHotfixes { get { if(!Helpers.ClearwaterOrGreater(Connection)) return true; return !Helpers.FeatureForbidden(Connection, RestrictHotfixApply); } } /// /// Grace is either upgrade or regular /// public virtual bool InGrace { get { return license_params.ContainsKey("grace"); } } #region Supplemental Packs // From http://scale.uk.xensource.com/confluence/display/engp/Supplemental+Pack+product+design+notes#SupplementalPackproductdesignnotes-XenAPI: // The supplemental packs that are installed on a host are listed in the host's Host.software_version field in the data model. // The keys of the entries have the form ":", the value is ", version ", appended by // ", build " if the build number is present in the XML file, and further appended by ", homogeneous" if the // enforce-homogeneity attribute is present and set to true. // // Examples: // xs:main: Base Pack, version 5.5.900, build 19689c // xs:linux: Linux Pack, version 5.5.900, build 19689c, homogeneous public class SuppPack { private string originator, name, description, version, build; private bool homogeneous; public string Originator { get { return originator; } } public string Name { get { return name; } } public string Description { get { return description; } } public string Version { get { return version; } } public string Build { get { return build; } } public bool Homogeneous { get { return homogeneous; } } public string OriginatorAndName { get { return originator + ":" + name; } } private bool parsed = false; public bool IsValid { get { return parsed; } } /// /// Try to parse the supp pack information from one key of software_version /// public SuppPack(string key, string value) { // Parse the key string[] splitKey = key.Split(':'); if (splitKey.Length != 2) return; originator = splitKey[0]; name = splitKey[1]; // Parse the value. The description may contain arbitrary text, so we have to be a bit subtle: // we first search from the end to find where the description ends. int x = value.LastIndexOf(", version "); if (x <= 0) return; description = value.Substring(0, x); string val = value.Substring(x + 10); string[] delims = new string[] {", "}; string[] splitValue = val.Split(delims, StringSplitOptions.None); if (splitValue.Length == 0 || splitValue.Length > 3) return; version = splitValue[0]; if (splitValue.Length >= 2) { if (!splitValue[1].StartsWith("build ")) return; build = splitValue[1].Substring(6); } if (splitValue.Length >= 3) { if (splitValue[2] != "homogeneous") return; homogeneous = true; } else homogeneous = false; parsed = true; } } /// /// Return a list of the supplemental packs /// public List SuppPacks { get { List packs = new List(); foreach (string key in software_version.Keys) { SuppPack pack = new SuppPack(key, software_version[key]); if (pack.IsValid) packs.Add(pack); } return packs; } } #endregion #region IEquatable Members /// /// Indicates whether the current object is equal to the specified object. This calls the implementation from XenObject. /// This implementation is required for ToStringWrapper. /// public bool Equals(Host other) { return base.Equals(other); } #endregion } }