xenadmin/XenModel/XenAPI/PIF.cs

/*
 * 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
{
    public partial class PIF : XenObject<PIF>
    {
        public PIF()
        {
        }

        public PIF(string uuid,
            string device,
            XenRef<Network> network,
            XenRef<Host> host,
            string MAC,
            long MTU,
            long VLAN,
            XenRef<PIF_metrics> metrics,
            bool physical,
            bool currently_attached,
            ip_configuration_mode ip_configuration_mode,
            string IP,
            string netmask,
            string gateway,
            string DNS,
            XenRef<Bond> bond_slave_of,
            List<XenRef<Bond>> bond_master_of,
            XenRef<VLAN> VLAN_master_of,
            List<XenRef<VLAN>> VLAN_slave_of,
            bool management,
            Dictionary<string, string> other_config,
            bool disallow_unplug,
            List<XenRef<Tunnel>> tunnel_access_PIF_of,
            List<XenRef<Tunnel>> tunnel_transport_PIF_of,
            ipv6_configuration_mode ipv6_configuration_mode,
            string[] IPv6,
            string ipv6_gateway,
            primary_address_type primary_address_type)
        {
            this.uuid = uuid;
            this.device = device;
            this.network = network;
            this.host = host;
            this.MAC = MAC;
            this.MTU = MTU;
            this.VLAN = VLAN;
            this.metrics = metrics;
            this.physical = physical;
            this.currently_attached = currently_attached;
            this.ip_configuration_mode = ip_configuration_mode;
            this.IP = IP;
            this.netmask = netmask;
            this.gateway = gateway;
            this.DNS = DNS;
            this.bond_slave_of = bond_slave_of;
            this.bond_master_of = bond_master_of;
            this.VLAN_master_of = VLAN_master_of;
            this.VLAN_slave_of = VLAN_slave_of;
            this.management = management;
            this.other_config = other_config;
            this.disallow_unplug = disallow_unplug;
            this.tunnel_access_PIF_of = tunnel_access_PIF_of;
            this.tunnel_transport_PIF_of = tunnel_transport_PIF_of;
            this.ipv6_configuration_mode = ipv6_configuration_mode;
            this.IPv6 = IPv6;
            this.ipv6_gateway = ipv6_gateway;
            this.primary_address_type = primary_address_type;
        }

        /// <summary>
        /// Creates a new PIF from a Proxy_PIF.
        /// </summary>
        /// <param name="proxy"></param>
        public PIF(Proxy_PIF proxy)
        {
            this.UpdateFromProxy(proxy);
        }

        public override void UpdateFrom(PIF update)
        {
            uuid = update.uuid;
            device = update.device;
            network = update.network;
            host = update.host;
            MAC = update.MAC;
            MTU = update.MTU;
            VLAN = update.VLAN;
            metrics = update.metrics;
            physical = update.physical;
            currently_attached = update.currently_attached;
            ip_configuration_mode = update.ip_configuration_mode;
            IP = update.IP;
            netmask = update.netmask;
            gateway = update.gateway;
            DNS = update.DNS;
            bond_slave_of = update.bond_slave_of;
            bond_master_of = update.bond_master_of;
            VLAN_master_of = update.VLAN_master_of;
            VLAN_slave_of = update.VLAN_slave_of;
            management = update.management;
            other_config = update.other_config;
            disallow_unplug = update.disallow_unplug;
            tunnel_access_PIF_of = update.tunnel_access_PIF_of;
            tunnel_transport_PIF_of = update.tunnel_transport_PIF_of;
            ipv6_configuration_mode = update.ipv6_configuration_mode;
            IPv6 = update.IPv6;
            ipv6_gateway = update.ipv6_gateway;
            primary_address_type = update.primary_address_type;
        }

        internal void UpdateFromProxy(Proxy_PIF proxy)
        {
            uuid = proxy.uuid == null ? null : (string)proxy.uuid;
            device = proxy.device == null ? null : (string)proxy.device;
            network = proxy.network == null ? null : XenRef<Network>.Create(proxy.network);
            host = proxy.host == null ? null : XenRef<Host>.Create(proxy.host);
            MAC = proxy.MAC == null ? null : (string)proxy.MAC;
            MTU = proxy.MTU == null ? 0 : long.Parse((string)proxy.MTU);
            VLAN = proxy.VLAN == null ? 0 : long.Parse((string)proxy.VLAN);
            metrics = proxy.metrics == null ? null : XenRef<PIF_metrics>.Create(proxy.metrics);
            physical = (bool)proxy.physical;
            currently_attached = (bool)proxy.currently_attached;
            ip_configuration_mode = proxy.ip_configuration_mode == null ? (ip_configuration_mode) 0 : (ip_configuration_mode)Helper.EnumParseDefault(typeof(ip_configuration_mode), (string)proxy.ip_configuration_mode);
            IP = proxy.IP == null ? null : (string)proxy.IP;
            netmask = proxy.netmask == null ? null : (string)proxy.netmask;
            gateway = proxy.gateway == null ? null : (string)proxy.gateway;
            DNS = proxy.DNS == null ? null : (string)proxy.DNS;
            bond_slave_of = proxy.bond_slave_of == null ? null : XenRef<Bond>.Create(proxy.bond_slave_of);
            bond_master_of = proxy.bond_master_of == null ? null : XenRef<Bond>.Create(proxy.bond_master_of);
            VLAN_master_of = proxy.VLAN_master_of == null ? null : XenRef<VLAN>.Create(proxy.VLAN_master_of);
            VLAN_slave_of = proxy.VLAN_slave_of == null ? null : XenRef<VLAN>.Create(proxy.VLAN_slave_of);
            management = (bool)proxy.management;
            other_config = proxy.other_config == null ? null : Maps.convert_from_proxy_string_string(proxy.other_config);
            disallow_unplug = (bool)proxy.disallow_unplug;
            tunnel_access_PIF_of = proxy.tunnel_access_PIF_of == null ? null : XenRef<Tunnel>.Create(proxy.tunnel_access_PIF_of);
            tunnel_transport_PIF_of = proxy.tunnel_transport_PIF_of == null ? null : XenRef<Tunnel>.Create(proxy.tunnel_transport_PIF_of);
            ipv6_configuration_mode = proxy.ipv6_configuration_mode == null ? (ipv6_configuration_mode) 0 : (ipv6_configuration_mode)Helper.EnumParseDefault(typeof(ipv6_configuration_mode), (string)proxy.ipv6_configuration_mode);
            IPv6 = proxy.IPv6 == null ? new string[] {} : (string [])proxy.IPv6;
            ipv6_gateway = proxy.ipv6_gateway == null ? null : (string)proxy.ipv6_gateway;
            primary_address_type = proxy.primary_address_type == null ? (primary_address_type) 0 : (primary_address_type)Helper.EnumParseDefault(typeof(primary_address_type), (string)proxy.primary_address_type);
        }

        public Proxy_PIF ToProxy()
        {
            Proxy_PIF result_ = new Proxy_PIF();
            result_.uuid = (uuid != null) ? uuid : "";
            result_.device = (device != null) ? device : "";
            result_.network = (network != null) ? network : "";
            result_.host = (host != null) ? host : "";
            result_.MAC = (MAC != null) ? MAC : "";
            result_.MTU = MTU.ToString();
            result_.VLAN = VLAN.ToString();
            result_.metrics = (metrics != null) ? metrics : "";
            result_.physical = physical;
            result_.currently_attached = currently_attached;
            result_.ip_configuration_mode = ip_configuration_mode_helper.ToString(ip_configuration_mode);
            result_.IP = (IP != null) ? IP : "";
            result_.netmask = (netmask != null) ? netmask : "";
            result_.gateway = (gateway != null) ? gateway : "";
            result_.DNS = (DNS != null) ? DNS : "";
            result_.bond_slave_of = (bond_slave_of != null) ? bond_slave_of : "";
            result_.bond_master_of = (bond_master_of != null) ? Helper.RefListToStringArray(bond_master_of) : new string[] {};
            result_.VLAN_master_of = (VLAN_master_of != null) ? VLAN_master_of : "";
            result_.VLAN_slave_of = (VLAN_slave_of != null) ? Helper.RefListToStringArray(VLAN_slave_of) : new string[] {};
            result_.management = management;
            result_.other_config = Maps.convert_to_proxy_string_string(other_config);
            result_.disallow_unplug = disallow_unplug;
            result_.tunnel_access_PIF_of = (tunnel_access_PIF_of != null) ? Helper.RefListToStringArray(tunnel_access_PIF_of) : new string[] {};
            result_.tunnel_transport_PIF_of = (tunnel_transport_PIF_of != null) ? Helper.RefListToStringArray(tunnel_transport_PIF_of) : new string[] {};
            result_.ipv6_configuration_mode = ipv6_configuration_mode_helper.ToString(ipv6_configuration_mode);
            result_.IPv6 = IPv6;
            result_.ipv6_gateway = (ipv6_gateway != null) ? ipv6_gateway : "";
            result_.primary_address_type = primary_address_type_helper.ToString(primary_address_type);
            return result_;
        }

        /// <summary>
        /// Creates a new PIF from a Hashtable.
        /// </summary>
        /// <param name="table"></param>
        public PIF(Hashtable table)
        {
            uuid = Marshalling.ParseString(table, "uuid");
            device = Marshalling.ParseString(table, "device");
            network = Marshalling.ParseRef<Network>(table, "network");
            host = Marshalling.ParseRef<Host>(table, "host");
            MAC = Marshalling.ParseString(table, "MAC");
            MTU = Marshalling.ParseLong(table, "MTU");
            VLAN = Marshalling.ParseLong(table, "VLAN");
            metrics = Marshalling.ParseRef<PIF_metrics>(table, "metrics");
            physical = Marshalling.ParseBool(table, "physical");
            currently_attached = Marshalling.ParseBool(table, "currently_attached");
            ip_configuration_mode = (ip_configuration_mode)Helper.EnumParseDefault(typeof(ip_configuration_mode), Marshalling.ParseString(table, "ip_configuration_mode"));
            IP = Marshalling.ParseString(table, "IP");
            netmask = Marshalling.ParseString(table, "netmask");
            gateway = Marshalling.ParseString(table, "gateway");
            DNS = Marshalling.ParseString(table, "DNS");
            bond_slave_of = Marshalling.ParseRef<Bond>(table, "bond_slave_of");
            bond_master_of = Marshalling.ParseSetRef<Bond>(table, "bond_master_of");
            VLAN_master_of = Marshalling.ParseRef<VLAN>(table, "VLAN_master_of");
            VLAN_slave_of = Marshalling.ParseSetRef<VLAN>(table, "VLAN_slave_of");
            management = Marshalling.ParseBool(table, "management");
            other_config = Maps.convert_from_proxy_string_string(Marshalling.ParseHashTable(table, "other_config"));
            disallow_unplug = Marshalling.ParseBool(table, "disallow_unplug");
            tunnel_access_PIF_of = Marshalling.ParseSetRef<Tunnel>(table, "tunnel_access_PIF_of");
            tunnel_transport_PIF_of = Marshalling.ParseSetRef<Tunnel>(table, "tunnel_transport_PIF_of");
            ipv6_configuration_mode = (ipv6_configuration_mode)Helper.EnumParseDefault(typeof(ipv6_configuration_mode), Marshalling.ParseString(table, "ipv6_configuration_mode"));
            IPv6 = Marshalling.ParseStringArray(table, "IPv6");
            ipv6_gateway = Marshalling.ParseString(table, "ipv6_gateway");
            primary_address_type = (primary_address_type)Helper.EnumParseDefault(typeof(primary_address_type), Marshalling.ParseString(table, "primary_address_type"));
        }

        public bool DeepEquals(PIF other)
        {
            if (ReferenceEquals(null, other))
                return false;
            if (ReferenceEquals(this, other))
                return true;

            return Helper.AreEqual2(this._uuid, other._uuid) &&
                Helper.AreEqual2(this._device, other._device) &&
                Helper.AreEqual2(this._network, other._network) &&
                Helper.AreEqual2(this._host, other._host) &&
                Helper.AreEqual2(this._MAC, other._MAC) &&
                Helper.AreEqual2(this._MTU, other._MTU) &&
                Helper.AreEqual2(this._VLAN, other._VLAN) &&
                Helper.AreEqual2(this._metrics, other._metrics) &&
                Helper.AreEqual2(this._physical, other._physical) &&
                Helper.AreEqual2(this._currently_attached, other._currently_attached) &&
                Helper.AreEqual2(this._ip_configuration_mode, other._ip_configuration_mode) &&
                Helper.AreEqual2(this._IP, other._IP) &&
                Helper.AreEqual2(this._netmask, other._netmask) &&
                Helper.AreEqual2(this._gateway, other._gateway) &&
                Helper.AreEqual2(this._DNS, other._DNS) &&
                Helper.AreEqual2(this._bond_slave_of, other._bond_slave_of) &&
                Helper.AreEqual2(this._bond_master_of, other._bond_master_of) &&
                Helper.AreEqual2(this._VLAN_master_of, other._VLAN_master_of) &&
                Helper.AreEqual2(this._VLAN_slave_of, other._VLAN_slave_of) &&
                Helper.AreEqual2(this._management, other._management) &&
                Helper.AreEqual2(this._other_config, other._other_config) &&
                Helper.AreEqual2(this._disallow_unplug, other._disallow_unplug) &&
                Helper.AreEqual2(this._tunnel_access_PIF_of, other._tunnel_access_PIF_of) &&
                Helper.AreEqual2(this._tunnel_transport_PIF_of, other._tunnel_transport_PIF_of) &&
                Helper.AreEqual2(this._ipv6_configuration_mode, other._ipv6_configuration_mode) &&
                Helper.AreEqual2(this._IPv6, other._IPv6) &&
                Helper.AreEqual2(this._ipv6_gateway, other._ipv6_gateway) &&
                Helper.AreEqual2(this._primary_address_type, other._primary_address_type);
        }

        public override string SaveChanges(Session session, string opaqueRef, PIF 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))
                {
                    PIF.set_other_config(session, opaqueRef, _other_config);
                }
                if (!Helper.AreEqual2(_disallow_unplug, server._disallow_unplug))
                {
                    PIF.set_disallow_unplug(session, opaqueRef, _disallow_unplug);
                }

                return null;
            }
        }

        public static PIF get_record(Session session, string _pif)
        {
            return new PIF((Proxy_PIF)session.proxy.pif_get_record(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static XenRef<PIF> get_by_uuid(Session session, string _uuid)
        {
            return XenRef<PIF>.Create(session.proxy.pif_get_by_uuid(session.uuid, (_uuid != null) ? _uuid : "").parse());
        }

        public static string get_uuid(Session session, string _pif)
        {
            return (string)session.proxy.pif_get_uuid(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static string get_device(Session session, string _pif)
        {
            return (string)session.proxy.pif_get_device(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static XenRef<Network> get_network(Session session, string _pif)
        {
            return XenRef<Network>.Create(session.proxy.pif_get_network(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static XenRef<Host> get_host(Session session, string _pif)
        {
            return XenRef<Host>.Create(session.proxy.pif_get_host(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static string get_MAC(Session session, string _pif)
        {
            return (string)session.proxy.pif_get_mac(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static long get_MTU(Session session, string _pif)
        {
            return long.Parse((string)session.proxy.pif_get_mtu(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static long get_VLAN(Session session, string _pif)
        {
            return long.Parse((string)session.proxy.pif_get_vlan(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static XenRef<PIF_metrics> get_metrics(Session session, string _pif)
        {
            return XenRef<PIF_metrics>.Create(session.proxy.pif_get_metrics(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static bool get_physical(Session session, string _pif)
        {
            return (bool)session.proxy.pif_get_physical(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static bool get_currently_attached(Session session, string _pif)
        {
            return (bool)session.proxy.pif_get_currently_attached(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static ip_configuration_mode get_ip_configuration_mode(Session session, string _pif)
        {
            return (ip_configuration_mode)Helper.EnumParseDefault(typeof(ip_configuration_mode), (string)session.proxy.pif_get_ip_configuration_mode(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static string get_IP(Session session, string _pif)
        {
            return (string)session.proxy.pif_get_ip(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static string get_netmask(Session session, string _pif)
        {
            return (string)session.proxy.pif_get_netmask(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static string get_gateway(Session session, string _pif)
        {
            return (string)session.proxy.pif_get_gateway(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static string get_DNS(Session session, string _pif)
        {
            return (string)session.proxy.pif_get_dns(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static XenRef<Bond> get_bond_slave_of(Session session, string _pif)
        {
            return XenRef<Bond>.Create(session.proxy.pif_get_bond_slave_of(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static List<XenRef<Bond>> get_bond_master_of(Session session, string _pif)
        {
            return XenRef<Bond>.Create(session.proxy.pif_get_bond_master_of(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static XenRef<VLAN> get_VLAN_master_of(Session session, string _pif)
        {
            return XenRef<VLAN>.Create(session.proxy.pif_get_vlan_master_of(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static List<XenRef<VLAN>> get_VLAN_slave_of(Session session, string _pif)
        {
            return XenRef<VLAN>.Create(session.proxy.pif_get_vlan_slave_of(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static bool get_management(Session session, string _pif)
        {
            return (bool)session.proxy.pif_get_management(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static Dictionary<string, string> get_other_config(Session session, string _pif)
        {
            return Maps.convert_from_proxy_string_string(session.proxy.pif_get_other_config(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static bool get_disallow_unplug(Session session, string _pif)
        {
            return (bool)session.proxy.pif_get_disallow_unplug(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static List<XenRef<Tunnel>> get_tunnel_access_PIF_of(Session session, string _pif)
        {
            return XenRef<Tunnel>.Create(session.proxy.pif_get_tunnel_access_pif_of(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static List<XenRef<Tunnel>> get_tunnel_transport_PIF_of(Session session, string _pif)
        {
            return XenRef<Tunnel>.Create(session.proxy.pif_get_tunnel_transport_pif_of(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static ipv6_configuration_mode get_ipv6_configuration_mode(Session session, string _pif)
        {
            return (ipv6_configuration_mode)Helper.EnumParseDefault(typeof(ipv6_configuration_mode), (string)session.proxy.pif_get_ipv6_configuration_mode(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static string[] get_IPv6(Session session, string _pif)
        {
            return (string [])session.proxy.pif_get_ipv6(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static string get_ipv6_gateway(Session session, string _pif)
        {
            return (string)session.proxy.pif_get_ipv6_gateway(session.uuid, (_pif != null) ? _pif : "").parse();
        }

        public static primary_address_type get_primary_address_type(Session session, string _pif)
        {
            return (primary_address_type)Helper.EnumParseDefault(typeof(primary_address_type), (string)session.proxy.pif_get_primary_address_type(session.uuid, (_pif != null) ? _pif : "").parse());
        }

        public static void set_other_config(Session session, string _pif, Dictionary<string, string> _other_config)
        {
            session.proxy.pif_set_other_config(session.uuid, (_pif != null) ? _pif : "", Maps.convert_to_proxy_string_string(_other_config)).parse();
        }

        public static void add_to_other_config(Session session, string _pif, string _key, string _value)
        {
            session.proxy.pif_add_to_other_config(session.uuid, (_pif != null) ? _pif : "", (_key != null) ? _key : "", (_value != null) ? _value : "").parse();
        }

        public static void remove_from_other_config(Session session, string _pif, string _key)
        {
            session.proxy.pif_remove_from_other_config(session.uuid, (_pif != null) ? _pif : "", (_key != null) ? _key : "").parse();
        }

        public static void set_disallow_unplug(Session session, string _pif, bool _disallow_unplug)
        {
            session.proxy.pif_set_disallow_unplug(session.uuid, (_pif != null) ? _pif : "", _disallow_unplug).parse();
        }

        public static XenRef<PIF> create_VLAN(Session session, string _device, string _network, string _host, long _vlan)
        {
            return XenRef<PIF>.Create(session.proxy.pif_create_vlan(session.uuid, (_device != null) ? _device : "", (_network != null) ? _network : "", (_host != null) ? _host : "", _vlan.ToString()).parse());
        }

        public static XenRef<Task> async_create_VLAN(Session session, string _device, string _network, string _host, long _vlan)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_create_vlan(session.uuid, (_device != null) ? _device : "", (_network != null) ? _network : "", (_host != null) ? _host : "", _vlan.ToString()).parse());
        }

        public static void destroy(Session session, string _self)
        {
            session.proxy.pif_destroy(session.uuid, (_self != null) ? _self : "").parse();
        }

        public static XenRef<Task> async_destroy(Session session, string _self)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_destroy(session.uuid, (_self != null) ? _self : "").parse());
        }

        public static void reconfigure_ip(Session session, string _self, ip_configuration_mode _mode, string _ip, string _netmask, string _gateway, string _dns)
        {
            session.proxy.pif_reconfigure_ip(session.uuid, (_self != null) ? _self : "", ip_configuration_mode_helper.ToString(_mode), (_ip != null) ? _ip : "", (_netmask != null) ? _netmask : "", (_gateway != null) ? _gateway : "", (_dns != null) ? _dns : "").parse();
        }

        public static XenRef<Task> async_reconfigure_ip(Session session, string _self, ip_configuration_mode _mode, string _ip, string _netmask, string _gateway, string _dns)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_reconfigure_ip(session.uuid, (_self != null) ? _self : "", ip_configuration_mode_helper.ToString(_mode), (_ip != null) ? _ip : "", (_netmask != null) ? _netmask : "", (_gateway != null) ? _gateway : "", (_dns != null) ? _dns : "").parse());
        }

        public static void reconfigure_ipv6(Session session, string _self, ipv6_configuration_mode _mode, string _ipv6, string _gateway, string _dns)
        {
            session.proxy.pif_reconfigure_ipv6(session.uuid, (_self != null) ? _self : "", ipv6_configuration_mode_helper.ToString(_mode), (_ipv6 != null) ? _ipv6 : "", (_gateway != null) ? _gateway : "", (_dns != null) ? _dns : "").parse();
        }

        public static XenRef<Task> async_reconfigure_ipv6(Session session, string _self, ipv6_configuration_mode _mode, string _ipv6, string _gateway, string _dns)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_reconfigure_ipv6(session.uuid, (_self != null) ? _self : "", ipv6_configuration_mode_helper.ToString(_mode), (_ipv6 != null) ? _ipv6 : "", (_gateway != null) ? _gateway : "", (_dns != null) ? _dns : "").parse());
        }

        public static void set_primary_address_type(Session session, string _self, primary_address_type _primary_address_type)
        {
            session.proxy.pif_set_primary_address_type(session.uuid, (_self != null) ? _self : "", primary_address_type_helper.ToString(_primary_address_type)).parse();
        }

        public static XenRef<Task> async_set_primary_address_type(Session session, string _self, primary_address_type _primary_address_type)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_set_primary_address_type(session.uuid, (_self != null) ? _self : "", primary_address_type_helper.ToString(_primary_address_type)).parse());
        }

        public static void scan(Session session, string _host)
        {
            session.proxy.pif_scan(session.uuid, (_host != null) ? _host : "").parse();
        }

        public static XenRef<Task> async_scan(Session session, string _host)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_scan(session.uuid, (_host != null) ? _host : "").parse());
        }

        public static XenRef<PIF> introduce(Session session, string _host, string _mac, string _device)
        {
            return XenRef<PIF>.Create(session.proxy.pif_introduce(session.uuid, (_host != null) ? _host : "", (_mac != null) ? _mac : "", (_device != null) ? _device : "").parse());
        }

        public static XenRef<Task> async_introduce(Session session, string _host, string _mac, string _device)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_introduce(session.uuid, (_host != null) ? _host : "", (_mac != null) ? _mac : "", (_device != null) ? _device : "").parse());
        }

        public static void forget(Session session, string _self)
        {
            session.proxy.pif_forget(session.uuid, (_self != null) ? _self : "").parse();
        }

        public static XenRef<Task> async_forget(Session session, string _self)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_forget(session.uuid, (_self != null) ? _self : "").parse());
        }

        public static void unplug(Session session, string _self)
        {
            session.proxy.pif_unplug(session.uuid, (_self != null) ? _self : "").parse();
        }

        public static XenRef<Task> async_unplug(Session session, string _self)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_unplug(session.uuid, (_self != null) ? _self : "").parse());
        }

        public static void plug(Session session, string _self)
        {
            session.proxy.pif_plug(session.uuid, (_self != null) ? _self : "").parse();
        }

        public static XenRef<Task> async_plug(Session session, string _self)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_plug(session.uuid, (_self != null) ? _self : "").parse());
        }

        public static XenRef<PIF> db_introduce(Session session, string _device, string _network, string _host, string _mac, long _mtu, long _vlan, bool _physical, ip_configuration_mode _ip_configuration_mode, string _ip, string _netmask, string _gateway, string _dns, string _bond_slave_of, string _vlan_master_of, bool _management, Dictionary<string, string> _other_config, bool _disallow_unplug, ipv6_configuration_mode _ipv6_configuration_mode, string[] _ipv6, string _ipv6_gateway, primary_address_type _primary_address_type)
        {
            return XenRef<PIF>.Create(session.proxy.pif_db_introduce(session.uuid, (_device != null) ? _device : "", (_network != null) ? _network : "", (_host != null) ? _host : "", (_mac != null) ? _mac : "", _mtu.ToString(), _vlan.ToString(), _physical, ip_configuration_mode_helper.ToString(_ip_configuration_mode), (_ip != null) ? _ip : "", (_netmask != null) ? _netmask : "", (_gateway != null) ? _gateway : "", (_dns != null) ? _dns : "", (_bond_slave_of != null) ? _bond_slave_of : "", (_vlan_master_of != null) ? _vlan_master_of : "", _management, Maps.convert_to_proxy_string_string(_other_config), _disallow_unplug, ipv6_configuration_mode_helper.ToString(_ipv6_configuration_mode), _ipv6, (_ipv6_gateway != null) ? _ipv6_gateway : "", primary_address_type_helper.ToString(_primary_address_type)).parse());
        }

        public static XenRef<Task> async_db_introduce(Session session, string _device, string _network, string _host, string _mac, long _mtu, long _vlan, bool _physical, ip_configuration_mode _ip_configuration_mode, string _ip, string _netmask, string _gateway, string _dns, string _bond_slave_of, string _vlan_master_of, bool _management, Dictionary<string, string> _other_config, bool _disallow_unplug, ipv6_configuration_mode _ipv6_configuration_mode, string[] _ipv6, string _ipv6_gateway, primary_address_type _primary_address_type)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_db_introduce(session.uuid, (_device != null) ? _device : "", (_network != null) ? _network : "", (_host != null) ? _host : "", (_mac != null) ? _mac : "", _mtu.ToString(), _vlan.ToString(), _physical, ip_configuration_mode_helper.ToString(_ip_configuration_mode), (_ip != null) ? _ip : "", (_netmask != null) ? _netmask : "", (_gateway != null) ? _gateway : "", (_dns != null) ? _dns : "", (_bond_slave_of != null) ? _bond_slave_of : "", (_vlan_master_of != null) ? _vlan_master_of : "", _management, Maps.convert_to_proxy_string_string(_other_config), _disallow_unplug, ipv6_configuration_mode_helper.ToString(_ipv6_configuration_mode), _ipv6, (_ipv6_gateway != null) ? _ipv6_gateway : "", primary_address_type_helper.ToString(_primary_address_type)).parse());
        }

        public static void db_forget(Session session, string _self)
        {
            session.proxy.pif_db_forget(session.uuid, (_self != null) ? _self : "").parse();
        }

        public static XenRef<Task> async_db_forget(Session session, string _self)
        {
            return XenRef<Task>.Create(session.proxy.async_pif_db_forget(session.uuid, (_self != null) ? _self : "").parse());
        }

        public static List<XenRef<PIF>> get_all(Session session)
        {
            return XenRef<PIF>.Create(session.proxy.pif_get_all(session.uuid).parse());
        }

        public static Dictionary<XenRef<PIF>, PIF> get_all_records(Session session)
        {
            return XenRef<PIF>.Create<Proxy_PIF>(session.proxy.pif_get_all_records(session.uuid).parse());
        }

        private string _uuid;
        public virtual string uuid {
             get { return _uuid; }
             set { if (!Helper.AreEqual(value, _uuid)) { _uuid = value; Changed = true; NotifyPropertyChanged("uuid"); } }
         }

        private string _device;
        public virtual string device {
             get { return _device; }
             set { if (!Helper.AreEqual(value, _device)) { _device = value; Changed = true; NotifyPropertyChanged("device"); } }
         }

        private XenRef<Network> _network;
        public virtual XenRef<Network> network {
             get { return _network; }
             set { if (!Helper.AreEqual(value, _network)) { _network = value; Changed = true; NotifyPropertyChanged("network"); } }
         }

        private XenRef<Host> _host;
        public virtual XenRef<Host> host {
             get { return _host; }
             set { if (!Helper.AreEqual(value, _host)) { _host = value; Changed = true; NotifyPropertyChanged("host"); } }
         }

        private string _MAC;
        public virtual string MAC {
             get { return _MAC; }
             set { if (!Helper.AreEqual(value, _MAC)) { _MAC = value; Changed = true; NotifyPropertyChanged("MAC"); } }
         }

        private long _MTU;
        public virtual long MTU {
             get { return _MTU; }
             set { if (!Helper.AreEqual(value, _MTU)) { _MTU = value; Changed = true; NotifyPropertyChanged("MTU"); } }
         }

        private long _VLAN;
        public virtual long VLAN {
             get { return _VLAN; }
             set { if (!Helper.AreEqual(value, _VLAN)) { _VLAN = value; Changed = true; NotifyPropertyChanged("VLAN"); } }
         }

        private XenRef<PIF_metrics> _metrics;
        public virtual XenRef<PIF_metrics> metrics {
             get { return _metrics; }
             set { if (!Helper.AreEqual(value, _metrics)) { _metrics = value; Changed = true; NotifyPropertyChanged("metrics"); } }
         }

        private bool _physical;
        public virtual bool physical {
             get { return _physical; }
             set { if (!Helper.AreEqual(value, _physical)) { _physical = value; Changed = true; NotifyPropertyChanged("physical"); } }
         }

        private bool _currently_attached;
        public virtual bool currently_attached {
             get { return _currently_attached; }
             set { if (!Helper.AreEqual(value, _currently_attached)) { _currently_attached = value; Changed = true; NotifyPropertyChanged("currently_attached"); } }
         }

        private ip_configuration_mode _ip_configuration_mode;
        public virtual ip_configuration_mode ip_configuration_mode {
             get { return _ip_configuration_mode; }
             set { if (!Helper.AreEqual(value, _ip_configuration_mode)) { _ip_configuration_mode = value; Changed = true; NotifyPropertyChanged("ip_configuration_mode"); } }
         }

        private string _IP;
        public virtual string IP {
             get { return _IP; }
             set { if (!Helper.AreEqual(value, _IP)) { _IP = value; Changed = true; NotifyPropertyChanged("IP"); } }
         }

        private string _netmask;
        public virtual string netmask {
             get { return _netmask; }
             set { if (!Helper.AreEqual(value, _netmask)) { _netmask = value; Changed = true; NotifyPropertyChanged("netmask"); } }
         }

        private string _gateway;
        public virtual string gateway {
             get { return _gateway; }
             set { if (!Helper.AreEqual(value, _gateway)) { _gateway = value; Changed = true; NotifyPropertyChanged("gateway"); } }
         }

        private string _DNS;
        public virtual string DNS {
             get { return _DNS; }
             set { if (!Helper.AreEqual(value, _DNS)) { _DNS = value; Changed = true; NotifyPropertyChanged("DNS"); } }
         }

        private XenRef<Bond> _bond_slave_of;
        public virtual XenRef<Bond> bond_slave_of {
             get { return _bond_slave_of; }
             set { if (!Helper.AreEqual(value, _bond_slave_of)) { _bond_slave_of = value; Changed = true; NotifyPropertyChanged("bond_slave_of"); } }
         }

        private List<XenRef<Bond>> _bond_master_of;
        public virtual List<XenRef<Bond>> bond_master_of {
             get { return _bond_master_of; }
             set { if (!Helper.AreEqual(value, _bond_master_of)) { _bond_master_of = value; Changed = true; NotifyPropertyChanged("bond_master_of"); } }
         }

        private XenRef<VLAN> _VLAN_master_of;
        public virtual XenRef<VLAN> VLAN_master_of {
             get { return _VLAN_master_of; }
             set { if (!Helper.AreEqual(value, _VLAN_master_of)) { _VLAN_master_of = value; Changed = true; NotifyPropertyChanged("VLAN_master_of"); } }
         }

        private List<XenRef<VLAN>> _VLAN_slave_of;
        public virtual List<XenRef<VLAN>> VLAN_slave_of {
             get { return _VLAN_slave_of; }
             set { if (!Helper.AreEqual(value, _VLAN_slave_of)) { _VLAN_slave_of = value; Changed = true; NotifyPropertyChanged("VLAN_slave_of"); } }
         }

        private bool _management;
        public virtual bool management {
             get { return _management; }
             set { if (!Helper.AreEqual(value, _management)) { _management = value; Changed = true; NotifyPropertyChanged("management"); } }
         }

        private Dictionary<string, string> _other_config;
        public virtual Dictionary<string, string> other_config {
             get { return _other_config; }
             set { if (!Helper.AreEqual(value, _other_config)) { _other_config = value; Changed = true; NotifyPropertyChanged("other_config"); } }
         }

        private bool _disallow_unplug;
        public virtual bool disallow_unplug {
             get { return _disallow_unplug; }
             set { if (!Helper.AreEqual(value, _disallow_unplug)) { _disallow_unplug = value; Changed = true; NotifyPropertyChanged("disallow_unplug"); } }
         }

        private List<XenRef<Tunnel>> _tunnel_access_PIF_of;
        public virtual List<XenRef<Tunnel>> tunnel_access_PIF_of {
             get { return _tunnel_access_PIF_of; }
             set { if (!Helper.AreEqual(value, _tunnel_access_PIF_of)) { _tunnel_access_PIF_of = value; Changed = true; NotifyPropertyChanged("tunnel_access_PIF_of"); } }
         }

        private List<XenRef<Tunnel>> _tunnel_transport_PIF_of;
        public virtual List<XenRef<Tunnel>> tunnel_transport_PIF_of {
             get { return _tunnel_transport_PIF_of; }
             set { if (!Helper.AreEqual(value, _tunnel_transport_PIF_of)) { _tunnel_transport_PIF_of = value; Changed = true; NotifyPropertyChanged("tunnel_transport_PIF_of"); } }
         }

        private ipv6_configuration_mode _ipv6_configuration_mode;
        public virtual ipv6_configuration_mode ipv6_configuration_mode {
             get { return _ipv6_configuration_mode; }
             set { if (!Helper.AreEqual(value, _ipv6_configuration_mode)) { _ipv6_configuration_mode = value; Changed = true; NotifyPropertyChanged("ipv6_configuration_mode"); } }
         }

        private string[] _IPv6;
        public virtual string[] IPv6 {
             get { return _IPv6; }
             set { if (!Helper.AreEqual(value, _IPv6)) { _IPv6 = value; Changed = true; NotifyPropertyChanged("IPv6"); } }
         }

        private string _ipv6_gateway;
        public virtual string ipv6_gateway {
             get { return _ipv6_gateway; }
             set { if (!Helper.AreEqual(value, _ipv6_gateway)) { _ipv6_gateway = value; Changed = true; NotifyPropertyChanged("ipv6_gateway"); } }
         }

        private primary_address_type _primary_address_type;
        public virtual primary_address_type primary_address_type {
             get { return _primary_address_type; }
             set { if (!Helper.AreEqual(value, _primary_address_type)) { _primary_address_type = value; Changed = true; NotifyPropertyChanged("primary_address_type"); } }
         }


    }
}