mibs/MIBS/zyxel/ZYXEL-PRESTIGE-MIB

--
-- $Id: zyxel-prestige.mib version 1.00 2001/10/05
--

--	Copyright (C) 1994 - 2001 Zyxel Communications, Inc.
--	All Rights Reserved.
--
-- Stagecoach Confidential; Need to Know only.
-- Protected as an unpublished work.
--
-- The computer program listings, specifications and documentation
-- herein are the property of Stagecoach Communications, Inc. and
-- shall not be reproduced, copied, disclosed, or used in whole or
-- in part for any reason without the prior express written permission of
-- Stagecoach Communications, Inc.

-- ZyXEL Communications Corporation
-- Private Enterprise MIB definition

ZYXEL-PRESTIGE-MIB DEFINITIONS ::= BEGIN

    IMPORTS
           enterprises, Counter, Gauge, IpAddress,
           NetworkAddress, TimeTicks
	           FROM RFC1155-SMI
            ifIndex, ipRouteDest, ipAdEntAddr, egpNeighAddr
	           FROM RFC1213-MIB
            atportIndex
					FROM APPLETALK-MIB
            OBJECT-TYPE
               FROM RFC-1212        
			TRAP-TYPE				
			   FROM RFC-1215
			prestigeCommon
				FROM ZYXEL-MIB;


	-- PRESTIGE common managed objects
	prestigeSystem			OBJECT IDENTIFIER ::= { prestigeCommon 1 }
	prestigeDynDns			OBJECT IDENTIFIER ::= { prestigeCommon 2 }
	prestigeLAN				OBJECT IDENTIFIER ::= { prestigeCommon 3 }
	prestigeStaticRoute		OBJECT IDENTIFIER ::= { prestigeCommon 4 }
	prestigeFilterConfig	OBJECT IDENTIFIER ::= { prestigeCommon 5 }
	prestigeXDSL			OBJECT IDENTIFIER ::= { prestigeCommon 6 }
	prestigeTraps			OBJECT IDENTIFIER ::= { prestigeCommon 99 }
	
	

	-- The system group
	sysRasFWVersion OBJECT-TYPE
		SYNTAX  DisplayString
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"Current ras firmware version, N/A means information 
			not available."
		::= { prestigeSystem 1 }

	sysHWVersion OBJECT-TYPE
		SYNTAX  DisplayString
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"Current hardware version, N/A means information 
			not available."
		::= { prestigeSystem 2 }

	sysModemVersion OBJECT-TYPE
		SYNTAX  DisplayString
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"Current modem code version, N/A means information 
			not available."
		::= { prestigeSystem 3 }

	sysSysName OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..29))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"Choose a descriptive name for identification purposes. 
			This name can be up to 30 alphanumeric characters long. 
			Spaces are not allowed, but dashes '-' and underscores 
			'_' are accepted."
		::= { prestigeSystem 4 }
	
	sysLocation OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..29))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The geographic location (up to 30 characters) of your 
			Prestige."
		::= { prestigeSystem 5 }

	sysConatctPersion OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..29))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The name (up to 30 characters) of the person in charge 
			of this Prestige."
		::= { prestigeSystem 6 }

	sysProtocolRouteIp OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"Set this object to Yes to enable IP routing.  You must 
			enable IP routing for Internet access."
		::= { prestigeSystem 7 }

	sysProtocolBridge OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"Turn on/off bridging for protocols not supported (e.g., 
			SNA) or not turned on in the previous Route fields."
		::= { prestigeSystem 8 }
	

	sysDomainName OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..29))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The domain name of the LAN. If this object is empty,
			the ISP may assign a domain name via DHCP."
		::= { prestigeSystem 9 }

	sysReset OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"If yes reset prestige."
		::= { prestigeSystem 10 }

	-- The DynDns group
	-- Dynamic DNS allows you to update your current dynamic
	-- IP address with one or many dynamic DNS services so 
	-- that any one can conatct you (in NetMeeting, CU-SeeMe,
	-- etc.) or access your FTP server or Web site on your own
	-- computer using a DNS-like address (e.g. myhost.dnynds.org
	-- where myhost is a name of your choice) which will never 
	-- change instead of using your IP address that changes each
	-- time you reconnect.
	
	ddnsActiveStatus OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"Enable or disable the Dynamic DNS service."
		::= { prestigeDynDns 1 }

	ddnsServiceProvider OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			dyndns(2)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The choice of your dynamic DNS client."
		::= { prestigeDynDns 2 }

	ddnsHost OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..29))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The domain name assigned to your prestige by
			your Dyanmic DNS provider."
		::= { prestigeDynDns 3 }

	ddnsEmail OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..29))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"Your e-mail address."
		::= { prestigeDynDns 4 }

	ddnsUser OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..29))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The user name assigned to you."
		::= { prestigeDynDns 5 }

	ddnsPassword OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..29))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The password assigned to you."
		::= { prestigeDynDns 6 }

	ddnsEnableWildcard OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"Enabling the wildcard feature for your host 
			causes *.yourhost.dyndns.org to be aliased to 
			the same IP address as yourhost.dyndns.org.
			This feature is useful if you want to be able
			to use for example www.yourhost.dyndns.org
			and still reach your hostname."
		::= { prestigeDynDns 7 }


	-- the LAN group
	lanFilter		OBJECT IDENTIFIER ::= { prestigeLAN 1 }
	lanDHCP			OBJECT IDENTIFIER ::= { prestigeLAN 2 }
	lanTcpIp		OBJECT IDENTIFIER ::= { prestigeLAN 3 }
	lanWireless		OBJECT IDENTIFIER ::= { prestigeLAN 4 }

	-- the LAN filter group
	-- This group allows you to specify filter set(s) that you 
	-- wish to apply to the Ethernet traffic. You seldom need to 
	-- filter Ethernet traffic; however, the filter sets may be 
	-- useful to block certain packets, reduce traffic and 
	-- prevent security breaches. 

	-- If you need to define filters, please read the Filter Config Group
	-- description first, then return to this group to define the filter sets.
	
	inProtocolFilterSet OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..8))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specified the protocol filter set for
			incoming ethernet traffic."
		::= { lanFilter 1 }
	
	inDeviceFilterSet OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..8))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specified the device filter set for
			incoming ethernet traffic."
		::= { lanFilter 2 }
	
	outProtocolFilterSet OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..8))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specified the protocol filter set for
			outgoing ethernet traffic."
		::= { lanFilter 3 }
	
	outDeviceFilterSet OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..8))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specified the device filter set for
			outgoing ethernet traffic."
		::= { lanFilter 4 }
	
	
	-- the LAN DHCP group
	-- DHCP (Dynamic Host Configuration Protocol) allows the 
	-- individual clients (workstations) to obtain the TCP/IP
	-- configuration at start-up from a centralized DHCP server. 
	-- The Prestige has built-in DHCP server capability, 
	-- enabled by default, which means it can assign IP 
	-- addresses, an IP default gateway and DNS servers to 
	-- Windows 95, Windows NT and other systems that support 
	-- the DHCP client. The Prestige can also act as a surrogate 
	-- DHCP server where it relays IP address assignment from 
	-- the actual DHCP server to the clients.

	-- IP Pool Setup
	-- The Prestige is pre-configured with a pool of 32 IP addresses 
	-- starting from 192.168.1.33 to 192.168.1.64 for the client 
	-- machines. This leaves 31 IP addresses, 192.168.1.2 to 
	-- 192.168.1.32 (excluding the Prestige itself which has a 
	-- default IP of 192.168.1.1) for other server machines, e.g., 
	-- server for mail, FTP, telnet, web, etc., that you may have.

	dhcpStatus OBJECT-TYPE
		SYNTAX  INTEGER {
			none(1),          -- none of the following
			server(2),
			relay(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"If it is set to Server, your Prestige can assign 
			IP addresses, an IP default gateway and DNS servers 
			to Windows 95, Windows NT and other systems that 
			support the DHCP client. If set to None, the DHCP 
			server will be disabled. If set to Relay, the 
			Prestige acts as a surrogate DHCP server and relays 
			DHCP requests and responses between the remote 
			server and the clients. Enter the IP address of the 
			actual, remote DHCP server in the Remote DHCP 
			Server in this case."
		::= { lanDHCP 1 }


	dhcpStartIpAddr OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specifies the first of the contiguous 
			addresses in the IP address pool."
		::= { lanDHCP 2 }

	dhcpPoolSize OBJECT-TYPE
		SYNTAX  INTEGER 
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specifies the size, or count, of the IP 
			address pool."
		::= { lanDHCP 3 }

	dhcpPrimaryDnsServer OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The DNS server addresses that you enter in this
			object are passed to the client machines along 
			with the assigned IP address and subnet mask."
		::= { lanDHCP 4 }

	dhcpSecondaryDnsServer OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The DNS server addresses that you enter in this
			object are passed to the client machines along 
			with the assigned IP address and subnet mask."
		::= { lanDHCP 5 }


	dhcpRemoteDhcpServer OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"If Relay is selected in the dhcpStatus pbject above, 
			then this object should be the IP address of the 
			actual, remote DHCP server."
		::= { lanDHCP 6 }


	-- the LAN TCP/IP group
	lanIpAddress OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"IP address of your Prestige in dotted decimal notation"
		::= { lanTcpIp 1 }

	lanIpSubnetMask OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The subnet mask specifies the network number 
			portion of the LAN IP address."
		::= { lanTcpIp 2 }

	lanIpRipDirection OBJECT-TYPE
		SYNTAX  INTEGER {
			none(1),          -- none of the following
			both(2),
			in(3),
			out(4)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"RIP (Routing Information Protocol) allows a router 
			to exchange routing information with other routers. 
			This object controls the sending and receiving of 
			RIP packets. When set to Both, the Prestige will 
			broadcast its routing table periodically and 
			incorporate the RIP information that it receives; 
			when set to None, it will not send any RIP packets 
			and will ignore any RIP packets received."
		::= { lanTcpIp 3 }

	lanIpRipVersion OBJECT-TYPE
		SYNTAX  INTEGER {
			ohter(1),          -- none of the following
			rip1(2),
			rip2B(3),
			rip2M(4)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object controls the format and the broadcasting 
			method of the RIP packets that the Prestige sends (it 
			recognizes both formats when receiving). RIP-1 is 
			universally supported; but RIP-2 carries more 
			information. RIP-1 is probably adequate for most 
			networks, unless you have a unusual network topology.
			Both RIP-2B and RIP-2M sends the routing data in 
			RIP-2 format; the difference being that RIP-2B uses
			subnet broadcasting while RIP-2M uses multicasting."
		::= { lanTcpIp 4 }

	lanIpMulticast OBJECT-TYPE
		SYNTAX  INTEGER {
			none(1),          -- none of the following
			igmpv1(2),
			igmpv2(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The Prestige supports both IGMP version 1 (IGMP-v1) 
			and version 2 (IGMP-v2). At start up, the Prestige
			queries all directly connected networks to gather 
			group membership. After that, the Prestige periodically
			updates this information. Select None to disable IP 
			Multicasting."
		::= { lanTcpIp 5 }

	-- the Wireless LAN group
	-- the Wireless LAN table
 	wlanTable OBJECT-TYPE
		SYNTAX  SEQUENCE OF LanWirelessEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
			"A list of ip static route entries."
		::= { lanWireless 1 }

	wlanEntry OBJECT-TYPE
		SYNTAX  LanWirelessEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
        	"An wireless lan entry containing comment 
        	object for a particular ESS."
		INDEX   { wlanCardID, wlanESSID}
		::= { wlanTable 1 }

	LanWirelessEntry ::=
		SEQUENCE {
			wlanEssStatus
				INTEGER,
			wlanCardID
				INTEGER,
			wlanESSID
				DisplayString,
			wlanHideESSID
				INTEGER,
			wlanChannelID
				INTEGER,
			wlanRTSThreshold
				INTEGER,
			wlanFragThreshold
				INTEGER,
			wlanWEPStatus
				INTEGER,
			wlanDefaultKey
				INTEGER,
			wlanWepKey1
				DisplayString,
			wlanWepKey2
				DisplayString,
			wlanWepKey3
				DisplayString,
			wlanWepKey4
				DisplayString
		}	

	wlanEssStatus OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			active(2),
			inactive(3)			
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object allows you to activate/deactivate this 
			ESS."
		::= { wlanEntry 1 }
						
	wlanCardID OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The Card ID indicates the wireless lan card number."
		::= { wlanEntry 2 }
		
	wlanESSID OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..31))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The ESSID(Extended Service Set Identification) is a 
			unique name to identify the Prestige in the wireless LAN. 
			Wireless clients associating to the Prestige must have 
			the same ESSID. "
		::= { wlanEntry 3 }

	wlanHideESSID OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"Select Yes to hide the ESSID in so a station can not obtain 
			the ESSID through passive scanning. Select No to make the 
			ESSID visible so a station can obtain the ESSID through
			 passive scanning. "
		::= { wlanEntry 4 }

	wlanChannelID OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The range of radio frequencies used by IEEE 802.11b wireless 
			devices is called a channel."
		::= { wlanEntry 5 }

	wlanRTSThreshold OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"Select this option to enable RTS/CTS handshake. Data with its 
			rame size larger than this value will perform the RTS/CTS handshake.
			 Setting this attribute to be larger than the maximum MSDU 
			 (MAC service data unit) size turns off the RTS/CTS handshake. 
			 Setting this attribute to zero turns on the RTS/CTS handshake. "
		::= { wlanEntry 6 }
		
	wlanFragThreshold OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The threshold (number of bytes) for the fragmentation boundary for
			 directed messages. It is the maximum data fragment size that can be sent."
		::= { wlanEntry 7 }

	wlanWEPStatus OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			disable(2),
			WEP-64-bit(3),
			WEP-128-bit(4)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"WEP (Wired Equivalent Privacy) encrypts data frames before transmitting 
			over the wireless network. Select Disable allows all wireless computers 
			to communicate with the access points without any data encryption. 
			Select 64-bit WEP or 128-bit WEP to allow data encryption. "
		::= { wlanEntry 8 }
		
	wlanDefaultKey OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The default transmit WEP key."
		::= { wlanEntry 9 }
		
	wlanWepKey1 OBJECT-TYPE
		SYNTAX  DisplayString (SIZE(0..26))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The WEP key #1 value for WEP encryption.  If you chose WepKey-64-bit, 
			then enter any 10 hexadecimal digits ('0-9', 'A-F') or 5 ASCII characters.  
			If you chose WepKey-128-bit, then enter 26 hexadecimal 
			digits ('0-9', 'AF') or 10 ASCII characters. "
		::= { wlanEntry 10 }

	wlanWepKey2 OBJECT-TYPE
		SYNTAX  DisplayString (SIZE(0..26))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The WEP key #2 value for WEP encryption. If you chose WepKey-64-bit, 
			then enter any 10 hexadecimal digits ('0-9', 'A-F') or 5 ASCII characters.  
			If you chose WepKey-128-bit, then enter 26 hexadecimal 
			digits ('0-9', 'AF') or 10 ASCII characters. "
		::= { wlanEntry 11 }

	wlanWepKey3 OBJECT-TYPE
		SYNTAX  DisplayString (SIZE(0..26))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The WEP key #3 value for WEP encryption.If you chose WepKey-64-bit, 
			then enter any 10 hexadecimal digits ('0-9', 'A-F') or 5 ASCII characters.  
			If you chose WepKey-128-bit, then enter 26 hexadecimal 
			digits ('0-9', 'AF') or 10 ASCII characters. "
		::= { wlanEntry 12 }										

	wlanWepKey4 OBJECT-TYPE
		SYNTAX  DisplayString (SIZE(0..26))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The WEP key #4 value for WEP encryption. If you chose WepKey-64-bit, 
			then enter any 10 hexadecimal digits ('0-9', 'A-F') or 5 ASCII characters.  
			If you chose WepKey-128-bit, then enter 26 hexadecimal 
			digits ('0-9', 'AF') or 10 ASCII characters. "
		::= { wlanEntry 13 }										




	-- the static route group
	-- Static routes tell the Prestige routing information that it 
	-- cannot learn automatically through other means. This can 
	-- arise in cases where RIP is disabled on the LAN or a remote 
	-- network is beyond the one that is directly connected to a 
	-- remote node. Each remote node specifies only the network to 
	-- which the gateway is directly connected and the Prestige 
	-- has no knowledge of the networks beyond it.  The static 
	-- routes are for you to tell the Prestige about the networks 
	-- beyond the remote nodes.
	
	-- the IP static route group
	-- the IP static table
	ipStaticRouteTable OBJECT-TYPE
		SYNTAX  SEQUENCE OF IpStaticRouteEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
			"A list of ip static route entries."
		::= { prestigeStaticRoute 1 }

	ipStaticRouteEntry OBJECT-TYPE
		SYNTAX  IpStaticRouteEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
        	"An ip static route entry containing comment object for a 
        	particular ip static route."
		INDEX   { ipStaticRouteIndex }
		::= { ipStaticRouteTable 1 }

	IpStaticRouteEntry ::=
		SEQUENCE {
			ipStaticRouteIndex
				INTEGER,
			ipStaticRouteName
				DisplayString,
			ipStaticRouteActiveStatus
				INTEGER,
			ipStaticRouteDestIpAddr
				IpAddress,
			ipStaticRouteSubnetMask
				IpAddress,
			ipStaticRouteGatewayIpAddr
				IpAddress,
			ipStaticRouteMetric
				INTEGER,
			ipStaticRoutePirvate
				INTEGER
		}
	ipStaticRouteIndex OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"The index of ip static route entry."
		::= { ipStaticRouteEntry 1 }
	
	ipStaticRouteName OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..10))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The descriptive name for this route. This is for 
			identification purpose only."
		::= { ipStaticRouteEntry 2 }

	ipStaticRouteActiveStatus OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object allows you to activate/deactivate this 
			static route."
		::= { ipStaticRouteEntry 3 }

	ipStaticRouteDestIpAddr OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specifies the IP network address of the 
			final destination. Routing is always based on network 
			number. If you need to specify a route to a single 
			host, use a subnet mask of 255.255.255.255 in the 
			ipStaticRouteSubnetMask object to force the network 
			number to be identical to the host ID."
		::= { ipStaticRouteEntry 4 }

	ipStaticRouteSubnetMask OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The subnet mask specifies the network number 
			portion of the ipStaticRouteDestIpAddr."
		::= { ipStaticRouteEntry 5 }

	ipStaticRouteGatewayIpAddr OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The gateway is an immediate neighbor of your Prestige 
			that will forward the packet to the destination. On 
			the LAN, the gateway must be a router on the same 
			segment as your Prestige; over WAN, the gateway must 
			be the IP address of one of the remote nodes."
		::= { ipStaticRouteEntry 6 }

	ipStaticRouteMetric OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"Metric represents the 'cost' of transmission for 
			routing purposes. IP routing uses hop count as 
			the measurement of cost, with a minimum of 1 for 
			directly connected networks. Enter a number that 
			approximates the cost for this link. The number 
			need not be precise, but it must be between 1 and 
			15. In practice, 2 or 3 is usually a good number."
		::= { ipStaticRouteEntry 7 }

	ipStaticRoutePirvate OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"This parameter determines if the Prestige will 
			include the route to this remote node in its RIP 
			broadcasts. If set to Yes, this route is kept 
			private and is not included in RIP broadcast. 
			If No, the route to this remote node will be 
			propagated to other hosts through RIP broadcasts."
		::= { ipStaticRouteEntry 8 }
			

	-- the Bridge static route group
	-- Similar to network layer static routes, a bridging static 
	-- route tells the Prestige the route to a node before a 
	-- connection is established.

	-- the Bridge static table
	bridgeStaticRouteTable OBJECT-TYPE
		SYNTAX  SEQUENCE OF BridgeStaticRouteEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
			"A list of bridge static route entries."
		::= { prestigeStaticRoute 2 }

	bridgeStaticRouteEntry OBJECT-TYPE
		SYNTAX  BridgeStaticRouteEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
        	"An bridge static route entry containing comment 
        	object for a particular bridge static route."
		INDEX   { bridgeStaticRouteIndex }
		::= { bridgeStaticRouteTable 1 }

	BridgeStaticRouteEntry ::=
		SEQUENCE {
			bridgeStaticRouteIndex
				INTEGER,
			bridgeStaticRouteName
				DisplayString,
			bridgeStaticRouteActiveStatus
				INTEGER,
			bridgeStaticRouteEtherAddr
				PhysAddress,
			bridgeStaticRouteIpAddr
				IpAddress,
			bridgeStaticRouteGatewayNode
				INTEGER
		}

	bridgeStaticRouteIndex OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"The index of bridge static route entry."
		::= { bridgeStaticRouteEntry 1 }
	
	bridgeStaticRouteName OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..10))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The descriptive name for this route. This is for 
			identification purpose only."
		::= { bridgeStaticRouteEntry 2 }

	bridgeStaticRouteActiveStatus OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object allows you to activate/deactivate this 
			static route."
		::= { bridgeStaticRouteEntry 3 }

	bridgeStaticRouteEtherAddr OBJECT-TYPE
		SYNTAX  PhysAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specifies the the MAC address of the 
			destination machine that you wish to bridge the 
			packets to."
		::= { bridgeStaticRouteEntry 4 }

	bridgeStaticRouteIpAddr OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"If available, this object specifies the IP address 
			of the destination machine that you wish to bridge 
			the packets to."
		::= { bridgeStaticRouteEntry 5 }

	bridgeStaticRouteGatewayNode OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object specifies the number of the remote node 
			that is the gateway of this static route."
		::= { bridgeStaticRouteEntry 6 }


	-- the filter config group
	-- Your Prestige uses filters to decide whether or not to allow 
	-- passage of a packet. Data filters are divided into incoming 
	-- and outgoing filters, depending on the direction of the 
	-- packet relative to a port. These filters are further 
	-- subdivided into device and protocol filters.

	-- the filter set table
	filterSetTable OBJECT-TYPE
		SYNTAX  SEQUENCE OF FilterSetEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
			"A list of filter set entries.  The number of
			entries is 12"
		::= { prestigeFilterConfig 1 }

	filterSetEntry OBJECT-TYPE
		SYNTAX  FilterSetEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
        	"An filter set entry containing comment object for a 
        	particular filter set."
		INDEX   { filterSetIndex }
		::= { filterSetTable 1 }

	FilterSetEntry ::=
		SEQUENCE {
			filterSetIndex
				INTEGER,
			filterSetComment
				DisplayString
		}
	
	filterSetIndex OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"The index of filter set."
		::= { filterSetEntry 1 }

	filterSetComment OBJECT-TYPE
		SYNTAX  DisplayString (SIZE (0..15))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"The descriptive name or comment of filter set"
		::= { filterSetEntry 2 }


	-- the filter rule table
	filterRuleTable OBJECT-TYPE
		SYNTAX  SEQUENCE OF FilterRuleEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
			"A list of filter rule entries.  The number of
			entries is (number of filter set) * 
			(number of rule set per filter set)"
		::= { prestigeFilterConfig 2 }

	filterRuleEntry OBJECT-TYPE
		SYNTAX  FilterRuleEntry
		ACCESS  not-accessible
		STATUS  mandatory
		DESCRIPTION
        	"An filter rule entry containing TCP/IP and/or generic
        	filter rules for a particular filter set."
		INDEX   { filterSetIndex, filterRuleIndex }
		::= { filterRuleTable 1 }

	FilterRuleEntry ::=
		SEQUENCE {
			filterRuleIndex
				INTEGER,
			filterRuleActiveStatus
				INTEGER,
			filterRuleType
				INTEGER,
			filterRuleIpProtocol
				INTEGER,
			filterRuleIpSourceRoute
				INTEGER,
			filterRuleDestIpAddr
				IpAddress,
			filterRuleDestIpMask
				IpAddress,
			filterRuleDestPort
				INTEGER,
			filterRuleDestPortComp
				INTEGER,
			filterRuleSourceIpAddr
				IpAddress,
			filterRuleSourceIpMask
				IpAddress,
			filterRuleSourcePort
				INTEGER,
			filterRuleSourcePortComp
				INTEGER,
			filterRuleTcpEstab
				INTEGER,
			filterRuleGenericOffset
				INTEGER,
			filterRuleGenericLength
				INTEGER,
			filterRuleGenericMask
				OCTET STRING,
			filterRuleGenericValue
				OCTET STRING,
			filterRuleMore
				INTEGER,
			filterRuleLog
				INTEGER,
			filterRuleActMatched
				INTEGER,
			filterRuleActNotMatched
				INTEGER
		}

	filterRuleIndex OBJECT-TYPE
		SYNTAX  INTEGER
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"The index of rule set."
		::= { filterRuleEntry 1 }

	filterRuleActiveStatus OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object activates/deactivates the filter rule."
		::= { filterRuleEntry 2 }

	filterRuleType OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			tcpIp(2),
			generic(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"There are two types of filter rules: TCP/IP and Generic.
			TCP/IP rules allow you to base the rule on the fields in 
			the IP and the upper layer protocol, e.g., UDP and TCP, 
			headers. 
			The purpose of generic rules is to allow you to filter 
			non-IP packets. For IP, it is generally easier to use the 
			IP rules directly. For generic rules, the Prestige treats 
			a packet as a byte stream as opposed to an IP packet. You
			specify the portion of the packet to check with the Offset 
			(from 0) and the Length fields, both in bytes. The Prestige 
			applies the Mask (bit-wise ANDing) to the data portion 
			before comparing the result against the Value to determine 
			a match. The Mask and Value are specified in hexadecimal 
			numbers. Note that it takes two hexadecimal digits to 
			represent a byte, so if the length is 4, the value in 
			either field will take 8 digits, e.g., FFFFFFFF."
		::= { filterRuleEntry 3 }

	filterRuleIpProtocol OBJECT-TYPE
		SYNTAX  INTEGER (0..255)
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, protocol refers to the upper layer 
			protocol, e.g., TCP is 6, UDP is 17 and ICMP is 1. 
			For	generic filter this object is disregarded."
		::= { filterRuleEntry 4 }

	filterRuleIpSourceRoute OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, If Yes, the rule applies to packet 
			with IP source route option; else the packet must not 
			have source route option. The majority of IP packets 
			do not have source route. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 5 }

	filterRuleDestIpAddr OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, it's the destination IP Address of 
			the packet you wish to filter. This object is 
			disregarded if it is 0.0.0.0. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 6 }

	filterRuleDestIpMask OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, it's the IP mask apply to the 
			Destination IP Addr. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 7 }

	filterRuleDestPort OBJECT-TYPE
		SYNTAX  INTEGER (0..65535)
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, it's the destination port of 
			the packets that you wish to filter. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 8 }

	filterRuleDestPortComp OBJECT-TYPE
		SYNTAX  INTEGER {
			none(1),          -- none of the following
			equal(2),
			notequal(3),
			less(4),
			greater(5)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, this object select the comparison
			to apply to the filterRuleDestPortComp in the packet 
			against the value given in filterRuleDestPortComp. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 9 }

	filterRuleSourceIpAddr OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, it's the source IP Address of 
			the packet you wish to filter. This object is 
			disregarded if it is 0.0.0.0. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 10 }

	filterRuleSourceIpMask OBJECT-TYPE
		SYNTAX  IpAddress
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, it's the IP mask apply to the 
			source IP Addr. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 11 }

	filterRuleSourcePort OBJECT-TYPE
		SYNTAX  INTEGER (0..65535)
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, it's the source port of the 
			packets that you wish to filter.
			For generic filter this object is disregarded."
		::= { filterRuleEntry 12 }

	filterRuleSourcePortComp OBJECT-TYPE
		SYNTAX  INTEGER {
			none(1),          -- none of the following
			equal(2),
			notequal(3),
			less(4),
			greater(5)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, this object select the comparison
			to apply to the filterRuleSourcePort in the packet 
			against the value given in filterRuleSourcePort. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 13 }

	filterRuleTcpEstab OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For TCP/IP filter, this object is applicable only when 
			filterRuleIpProtocol is 6, TCP. If yes, the rule matches 
			only established TCP connections; else the rule matches 
			all TCP packets. 
			For generic filter this object is disregarded."
		::= { filterRuleEntry 14 }

	filterRuleGenericOffset OBJECT-TYPE
		SYNTAX  INTEGER (0..255)
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For generic filter, this object is the starting byte of 
			the data portion in the packet that you wish to compare. 
			For TCP/IP filter this object is disregarded."
		::= { filterRuleEntry 15 }

	filterRuleGenericLength OBJECT-TYPE
		SYNTAX  INTEGER (0..8)
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For generic filter, this object is byte count of the data 
			portion in the packet that you wish to compare. 
			For TCP/IP filter this object is disregarded."
		::= { filterRuleEntry 16 }

	filterRuleGenericMask OBJECT-TYPE
		SYNTAX  OCTET STRING (SIZE (6))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For generic filter, this object is the Mask apply to the 
			data portion before comparison. 
			For TCP/IP filter this object is disregarded."
		::= { filterRuleEntry 17 }

	filterRuleGenericValue OBJECT-TYPE
		SYNTAX  OCTET STRING (SIZE (6))
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"For generic filter, this object is the value to compare 
			with the data portion. 
			For TCP/IP filter this object is disregarded."
		::= { filterRuleEntry 18 }

	filterRuleMore OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			yes(2),
			no(3)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"If yes, a matching packet is passed to the next filter 
			rule before an action is taken; if no, the packet is 
			disposed of according to the action fields."
		::= { filterRuleEntry 19 }

	filterRuleLog OBJECT-TYPE
		SYNTAX  INTEGER {
			none(1),          -- none of the following
			actMatched(2),
			atcNotMatch(3),
			both(4)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"* None : 
				No packets will be logged.
  			 * Action Matched : 
  			 	Only packets that match the rule parameters will be logged.
			 * Action Not Matched : 
			 	Only packets that do not match the rule parameters 
			 	will be logged.
			 * Both : 
			 	All packets will be logged."
		::= { filterRuleEntry 20 }

	filterRuleActMatched OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			checkNextRule(2),
			forward(3),
			drop(4)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object select the action for a matching packet. If 
			filterRuleMore is Yes, this object is disregarded.
			"
		::= { filterRuleEntry 21 }

	filterRuleActNotMatched OBJECT-TYPE
		SYNTAX  INTEGER {
			other(1),          -- none of the following
			checkNextRule(2),
			forward(3),
			drop(4)
		}
		ACCESS  read-write
		STATUS  mandatory
		DESCRIPTION
			"This object select the action for a packet not matching
			the rule. If filterRuleMore is Yes, this object is 
			disregarded."
		::= { filterRuleEntry 22 }


	-- Prestige common traps related managed objects
	
	whyReboot       OBJECT-TYPE
		SYNTAX	DisplayString 
		ACCESS  read-only
		STATUS  mandatory
		DESCRIPTION
			"Send a message to the manager that the system is going to reboot.
			The variable is the reason of rebooting."
		::= { prestigeTraps 1 }
    	

   -- Prestige common traps
   
 	reboot	TRAP-TYPE
	ENTERPRISE	prestigeCommon
        VARIABLES       { 
                        whyReboot
                        }
	DESCRIPTION	"Send a message to the manager that the system is going to reboot.
	                 The variable is the reason why the system reboots."
	::= 1
		
END