/* * 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: * * 1) Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2) 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; using System.Collections.Generic; using CookComputing.XmlRpc; namespace XenAPI { /// /// The metrics associated with a VM /// First published in XenServer 4.0. /// public partial class VM_metrics : XenObject { public VM_metrics() { } public VM_metrics(string uuid, long memory_actual, long VCPUs_number, Dictionary VCPUs_utilisation, Dictionary VCPUs_CPU, Dictionary VCPUs_params, Dictionary VCPUs_flags, string[] state, DateTime start_time, DateTime install_time, DateTime last_updated, Dictionary other_config, bool hvm, bool nested_virt, bool nomigrate) { this.uuid = uuid; this.memory_actual = memory_actual; this.VCPUs_number = VCPUs_number; this.VCPUs_utilisation = VCPUs_utilisation; this.VCPUs_CPU = VCPUs_CPU; this.VCPUs_params = VCPUs_params; this.VCPUs_flags = VCPUs_flags; this.state = state; this.start_time = start_time; this.install_time = install_time; this.last_updated = last_updated; this.other_config = other_config; this.hvm = hvm; this.nested_virt = nested_virt; this.nomigrate = nomigrate; } /// /// Creates a new VM_metrics from a Proxy_VM_metrics. /// /// public VM_metrics(Proxy_VM_metrics proxy) { this.UpdateFromProxy(proxy); } public override void UpdateFrom(VM_metrics update) { uuid = update.uuid; memory_actual = update.memory_actual; VCPUs_number = update.VCPUs_number; VCPUs_utilisation = update.VCPUs_utilisation; VCPUs_CPU = update.VCPUs_CPU; VCPUs_params = update.VCPUs_params; VCPUs_flags = update.VCPUs_flags; state = update.state; start_time = update.start_time; install_time = update.install_time; last_updated = update.last_updated; other_config = update.other_config; hvm = update.hvm; nested_virt = update.nested_virt; nomigrate = update.nomigrate; } internal void UpdateFromProxy(Proxy_VM_metrics proxy) { uuid = proxy.uuid == null ? null : (string)proxy.uuid; memory_actual = proxy.memory_actual == null ? 0 : long.Parse((string)proxy.memory_actual); VCPUs_number = proxy.VCPUs_number == null ? 0 : long.Parse((string)proxy.VCPUs_number); VCPUs_utilisation = proxy.VCPUs_utilisation == null ? null : Maps.convert_from_proxy_long_double(proxy.VCPUs_utilisation); VCPUs_CPU = proxy.VCPUs_CPU == null ? null : Maps.convert_from_proxy_long_long(proxy.VCPUs_CPU); VCPUs_params = proxy.VCPUs_params == null ? null : Maps.convert_from_proxy_string_string(proxy.VCPUs_params); VCPUs_flags = proxy.VCPUs_flags == null ? null : Maps.convert_from_proxy_long_string_array(proxy.VCPUs_flags); state = proxy.state == null ? new string[] {} : (string [])proxy.state; start_time = proxy.start_time; install_time = proxy.install_time; last_updated = proxy.last_updated; other_config = proxy.other_config == null ? null : Maps.convert_from_proxy_string_string(proxy.other_config); hvm = (bool)proxy.hvm; nested_virt = (bool)proxy.nested_virt; nomigrate = (bool)proxy.nomigrate; } public Proxy_VM_metrics ToProxy() { Proxy_VM_metrics result_ = new Proxy_VM_metrics(); result_.uuid = (uuid != null) ? uuid : ""; result_.memory_actual = memory_actual.ToString(); result_.VCPUs_number = VCPUs_number.ToString(); result_.VCPUs_utilisation = Maps.convert_to_proxy_long_double(VCPUs_utilisation); result_.VCPUs_CPU = Maps.convert_to_proxy_long_long(VCPUs_CPU); result_.VCPUs_params = Maps.convert_to_proxy_string_string(VCPUs_params); result_.VCPUs_flags = Maps.convert_to_proxy_long_string_array(VCPUs_flags); result_.state = state; result_.start_time = start_time; result_.install_time = install_time; result_.last_updated = last_updated; result_.other_config = Maps.convert_to_proxy_string_string(other_config); result_.hvm = hvm; result_.nested_virt = nested_virt; result_.nomigrate = nomigrate; return result_; } /// /// Creates a new VM_metrics from a Hashtable. /// /// public VM_metrics(Hashtable table) { uuid = Marshalling.ParseString(table, "uuid"); memory_actual = Marshalling.ParseLong(table, "memory_actual"); VCPUs_number = Marshalling.ParseLong(table, "VCPUs_number"); VCPUs_utilisation = Maps.convert_from_proxy_long_double(Marshalling.ParseHashTable(table, "VCPUs_utilisation")); VCPUs_CPU = Maps.convert_from_proxy_long_long(Marshalling.ParseHashTable(table, "VCPUs_CPU")); VCPUs_params = Maps.convert_from_proxy_string_string(Marshalling.ParseHashTable(table, "VCPUs_params")); VCPUs_flags = Maps.convert_from_proxy_long_string_array(Marshalling.ParseHashTable(table, "VCPUs_flags")); state = Marshalling.ParseStringArray(table, "state"); start_time = Marshalling.ParseDateTime(table, "start_time"); install_time = Marshalling.ParseDateTime(table, "install_time"); last_updated = Marshalling.ParseDateTime(table, "last_updated"); other_config = Maps.convert_from_proxy_string_string(Marshalling.ParseHashTable(table, "other_config")); hvm = Marshalling.ParseBool(table, "hvm"); nested_virt = Marshalling.ParseBool(table, "nested_virt"); nomigrate = Marshalling.ParseBool(table, "nomigrate"); } public bool DeepEquals(VM_metrics other) { if (ReferenceEquals(null, other)) return false; if (ReferenceEquals(this, other)) return true; return Helper.AreEqual2(this._uuid, other._uuid) && Helper.AreEqual2(this._memory_actual, other._memory_actual) && Helper.AreEqual2(this._VCPUs_number, other._VCPUs_number) && Helper.AreEqual2(this._VCPUs_utilisation, other._VCPUs_utilisation) && Helper.AreEqual2(this._VCPUs_CPU, other._VCPUs_CPU) && Helper.AreEqual2(this._VCPUs_params, other._VCPUs_params) && Helper.AreEqual2(this._VCPUs_flags, other._VCPUs_flags) && Helper.AreEqual2(this._state, other._state) && Helper.AreEqual2(this._start_time, other._start_time) && Helper.AreEqual2(this._install_time, other._install_time) && Helper.AreEqual2(this._last_updated, other._last_updated) && Helper.AreEqual2(this._other_config, other._other_config) && Helper.AreEqual2(this._hvm, other._hvm) && Helper.AreEqual2(this._nested_virt, other._nested_virt) && Helper.AreEqual2(this._nomigrate, other._nomigrate); } public override string SaveChanges(Session session, string opaqueRef, VM_metrics server) { if (opaqueRef == null) { System.Diagnostics.Debug.Assert(false, "Cannot create instances of this type on the server"); return ""; } else { if (!Helper.AreEqual2(_other_config, server._other_config)) { VM_metrics.set_other_config(session, opaqueRef, _other_config); } return null; } } /// /// Get a record containing the current state of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static VM_metrics get_record(Session session, string _vm_metrics) { return new VM_metrics((Proxy_VM_metrics)session.proxy.vm_metrics_get_record(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse()); } /// /// Get a reference to the VM_metrics instance with the specified UUID. /// First published in XenServer 4.0. /// /// The session /// UUID of object to return public static XenRef get_by_uuid(Session session, string _uuid) { return XenRef.Create(session.proxy.vm_metrics_get_by_uuid(session.uuid, (_uuid != null) ? _uuid : "").parse()); } /// /// Get the uuid field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static string get_uuid(Session session, string _vm_metrics) { return (string)session.proxy.vm_metrics_get_uuid(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse(); } /// /// Get the memory/actual field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static long get_memory_actual(Session session, string _vm_metrics) { return long.Parse((string)session.proxy.vm_metrics_get_memory_actual(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse()); } /// /// Get the VCPUs/number field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static long get_VCPUs_number(Session session, string _vm_metrics) { return long.Parse((string)session.proxy.vm_metrics_get_vcpus_number(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse()); } /// /// Get the VCPUs/utilisation field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static Dictionary get_VCPUs_utilisation(Session session, string _vm_metrics) { return Maps.convert_from_proxy_long_double(session.proxy.vm_metrics_get_vcpus_utilisation(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse()); } /// /// Get the VCPUs/CPU field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static Dictionary get_VCPUs_CPU(Session session, string _vm_metrics) { return Maps.convert_from_proxy_long_long(session.proxy.vm_metrics_get_vcpus_cpu(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse()); } /// /// Get the VCPUs/params field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static Dictionary get_VCPUs_params(Session session, string _vm_metrics) { return Maps.convert_from_proxy_string_string(session.proxy.vm_metrics_get_vcpus_params(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse()); } /// /// Get the VCPUs/flags field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static Dictionary get_VCPUs_flags(Session session, string _vm_metrics) { return Maps.convert_from_proxy_long_string_array(session.proxy.vm_metrics_get_vcpus_flags(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse()); } /// /// Get the state field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static string[] get_state(Session session, string _vm_metrics) { return (string [])session.proxy.vm_metrics_get_state(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse(); } /// /// Get the start_time field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static DateTime get_start_time(Session session, string _vm_metrics) { return session.proxy.vm_metrics_get_start_time(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse(); } /// /// Get the install_time field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static DateTime get_install_time(Session session, string _vm_metrics) { return session.proxy.vm_metrics_get_install_time(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse(); } /// /// Get the last_updated field of the given VM_metrics. /// First published in XenServer 4.0. /// /// The session /// The opaque_ref of the given vm_metrics public static DateTime get_last_updated(Session session, string _vm_metrics) { return session.proxy.vm_metrics_get_last_updated(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse(); } /// /// Get the other_config field of the given VM_metrics. /// First published in XenServer 5.0. /// /// The session /// The opaque_ref of the given vm_metrics public static Dictionary get_other_config(Session session, string _vm_metrics) { return Maps.convert_from_proxy_string_string(session.proxy.vm_metrics_get_other_config(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse()); } /// /// Get the hvm field of the given VM_metrics. /// First published in . /// /// The session /// The opaque_ref of the given vm_metrics public static bool get_hvm(Session session, string _vm_metrics) { return (bool)session.proxy.vm_metrics_get_hvm(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse(); } /// /// Get the nested_virt field of the given VM_metrics. /// First published in . /// /// The session /// The opaque_ref of the given vm_metrics public static bool get_nested_virt(Session session, string _vm_metrics) { return (bool)session.proxy.vm_metrics_get_nested_virt(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse(); } /// /// Get the nomigrate field of the given VM_metrics. /// First published in . /// /// The session /// The opaque_ref of the given vm_metrics public static bool get_nomigrate(Session session, string _vm_metrics) { return (bool)session.proxy.vm_metrics_get_nomigrate(session.uuid, (_vm_metrics != null) ? _vm_metrics : "").parse(); } /// /// Set the other_config field of the given VM_metrics. /// First published in XenServer 5.0. /// /// The session /// The opaque_ref of the given vm_metrics /// New value to set public static void set_other_config(Session session, string _vm_metrics, Dictionary _other_config) { session.proxy.vm_metrics_set_other_config(session.uuid, (_vm_metrics != null) ? _vm_metrics : "", Maps.convert_to_proxy_string_string(_other_config)).parse(); } /// /// Add the given key-value pair to the other_config field of the given VM_metrics. /// First published in XenServer 5.0. /// /// The session /// The opaque_ref of the given vm_metrics /// Key to add /// Value to add public static void add_to_other_config(Session session, string _vm_metrics, string _key, string _value) { session.proxy.vm_metrics_add_to_other_config(session.uuid, (_vm_metrics != null) ? _vm_metrics : "", (_key != null) ? _key : "", (_value != null) ? _value : "").parse(); } /// /// Remove the given key and its corresponding value from the other_config field of the given VM_metrics. If the key is not in that Map, then do nothing. /// First published in XenServer 5.0. /// /// The session /// The opaque_ref of the given vm_metrics /// Key to remove public static void remove_from_other_config(Session session, string _vm_metrics, string _key) { session.proxy.vm_metrics_remove_from_other_config(session.uuid, (_vm_metrics != null) ? _vm_metrics : "", (_key != null) ? _key : "").parse(); } /// /// Return a list of all the VM_metrics instances known to the system. /// First published in XenServer 4.0. /// /// The session public static List> get_all(Session session) { return XenRef.Create(session.proxy.vm_metrics_get_all(session.uuid).parse()); } /// /// Get all the VM_metrics Records at once, in a single XML RPC call /// First published in XenServer 4.0. /// /// The session public static Dictionary, VM_metrics> get_all_records(Session session) { return XenRef.Create(session.proxy.vm_metrics_get_all_records(session.uuid).parse()); } /// /// Unique identifier/object reference /// public virtual string uuid { get { return _uuid; } set { if (!Helper.AreEqual(value, _uuid)) { _uuid = value; Changed = true; NotifyPropertyChanged("uuid"); } } } private string _uuid; /// /// Guest's actual memory (bytes) /// public virtual long memory_actual { get { return _memory_actual; } set { if (!Helper.AreEqual(value, _memory_actual)) { _memory_actual = value; Changed = true; NotifyPropertyChanged("memory_actual"); } } } private long _memory_actual; /// /// Current number of VCPUs /// public virtual long VCPUs_number { get { return _VCPUs_number; } set { if (!Helper.AreEqual(value, _VCPUs_number)) { _VCPUs_number = value; Changed = true; NotifyPropertyChanged("VCPUs_number"); } } } private long _VCPUs_number; /// /// Utilisation for all of guest's current VCPUs /// public virtual Dictionary VCPUs_utilisation { get { return _VCPUs_utilisation; } set { if (!Helper.AreEqual(value, _VCPUs_utilisation)) { _VCPUs_utilisation = value; Changed = true; NotifyPropertyChanged("VCPUs_utilisation"); } } } private Dictionary _VCPUs_utilisation; /// /// VCPU to PCPU map /// public virtual Dictionary VCPUs_CPU { get { return _VCPUs_CPU; } set { if (!Helper.AreEqual(value, _VCPUs_CPU)) { _VCPUs_CPU = value; Changed = true; NotifyPropertyChanged("VCPUs_CPU"); } } } private Dictionary _VCPUs_CPU; /// /// The live equivalent to VM.VCPUs_params /// public virtual Dictionary VCPUs_params { get { return _VCPUs_params; } set { if (!Helper.AreEqual(value, _VCPUs_params)) { _VCPUs_params = value; Changed = true; NotifyPropertyChanged("VCPUs_params"); } } } private Dictionary _VCPUs_params; /// /// CPU flags (blocked,online,running) /// public virtual Dictionary VCPUs_flags { get { return _VCPUs_flags; } set { if (!Helper.AreEqual(value, _VCPUs_flags)) { _VCPUs_flags = value; Changed = true; NotifyPropertyChanged("VCPUs_flags"); } } } private Dictionary _VCPUs_flags; /// /// The state of the guest, eg blocked, dying etc /// public virtual string[] state { get { return _state; } set { if (!Helper.AreEqual(value, _state)) { _state = value; Changed = true; NotifyPropertyChanged("state"); } } } private string[] _state; /// /// Time at which this VM was last booted /// public virtual DateTime start_time { get { return _start_time; } set { if (!Helper.AreEqual(value, _start_time)) { _start_time = value; Changed = true; NotifyPropertyChanged("start_time"); } } } private DateTime _start_time; /// /// Time at which the VM was installed /// public virtual DateTime install_time { get { return _install_time; } set { if (!Helper.AreEqual(value, _install_time)) { _install_time = value; Changed = true; NotifyPropertyChanged("install_time"); } } } private DateTime _install_time; /// /// Time at which this information was last updated /// public virtual DateTime last_updated { get { return _last_updated; } set { if (!Helper.AreEqual(value, _last_updated)) { _last_updated = value; Changed = true; NotifyPropertyChanged("last_updated"); } } } private DateTime _last_updated; /// /// additional configuration /// First published in XenServer 5.0. /// public virtual Dictionary other_config { get { return _other_config; } set { if (!Helper.AreEqual(value, _other_config)) { _other_config = value; Changed = true; NotifyPropertyChanged("other_config"); } } } private Dictionary _other_config; /// /// hardware virtual machine /// First published in . /// public virtual bool hvm { get { return _hvm; } set { if (!Helper.AreEqual(value, _hvm)) { _hvm = value; Changed = true; NotifyPropertyChanged("hvm"); } } } private bool _hvm; /// /// VM supports nested virtualisation /// First published in . /// public virtual bool nested_virt { get { return _nested_virt; } set { if (!Helper.AreEqual(value, _nested_virt)) { _nested_virt = value; Changed = true; NotifyPropertyChanged("nested_virt"); } } } private bool _nested_virt; /// /// VM is immobile and can't migrate between hosts /// First published in . /// public virtual bool nomigrate { get { return _nomigrate; } set { if (!Helper.AreEqual(value, _nomigrate)) { _nomigrate = value; Changed = true; NotifyPropertyChanged("nomigrate"); } } } private bool _nomigrate; } }