-- Sync Research Enterprise MIB for MFRAP = -- = -- = -- MIB VERSION 4.00 = -- = -- = -- internal version 4.00.17 = -- = -- = -- This file contains MIB Definitions for extended management = -- of Sync MFRAP Product (T1 product with integral agent). = -- = -- This MIB is copyrighted by Sync Research (1998, 1999). = -- Permission is granted to the general public to use this = -- file for management of Sync Research Products. = -- = -- Updates to this Enterprise MIB may be obtained from = -- Sync Customer Service 1-800-828-2780. = -- = MFRAP-MIB DEFINITIONS ::= BEGIN IMPORTS DisplayString FROM SNMPv2-TC Counter, TimeTicks, IpAddress, internet, Gauge FROM RFC1155-SMI TRAP-TYPE FROM RFC-1215 OBJECT-TYPE FROM RFC-1212; -- This MIB module uses the extended OBJECT-TYPE macro. private OBJECT IDENTIFIER ::= { internet 4 } enterprises OBJECT IDENTIFIER ::= { private 1 } sync OBJECT IDENTIFIER ::= { enterprises 485 } mfrap OBJECT IDENTIFIER ::= { sync 8 } -- textual conventions --DisplayString ::= -- OCTET STRING -- This data type is used to model textual information taken -- from the NVT ASCII character set. By convention, objects -- with this syntax are declared as having -- -- SIZE (0..255) -- ********************************************************************* -- MFRAP ENTERPRISE SPECIFIC MIB -- ********************************************************************* -- ====================================================================== -- -- The MFRAP MIB Tree -- This MIB covers the Sync Research MFRAP, a T1 CSU for dedicated -- or switched (T1) applications. This product is managed via an -- integral agent. -- -- The MFRAP MIB Consists of five groups (plus Traps): -- The SYSTEM group -- The CONFIGURATION group -- The DIAGNOSTICS group -- The STATUS group -- The PERFORMANCE group -- -- The SYSTEM group -- This group provides system level attributes of the node. -- -- The group consists of the following tables: -- mfrapSysTable - System level attributes -- mfrapSysFeatureTable - System level features -- -- The CONFIGURATION group -- This group provides for configuration of the node. -- -- The group consists of the following tables: -- mfrapCfgMgmtTable - Configuration of management features -- mfrapCfgIpTable - IP configuration -- mfrapCfgTftpTable - TFTP configuration -- mfrapCfgSnmpTable - SNMP configuration -- mfrapCfgSnmpMgrTable - SNMP managers (TRAP destinations) -- mfrapCfgCommTable - Communication port configuration -- mfrapCfgFrDLCITable - DLCI configuration -- mfrapCfgAppTable - Application level configuration -- mfrapCfgT1Table - T1 port configuration -- mfrapCfgDteTable - DTE port configuration -- mfrapCfgFrTable - Frame Relay configuration -- mfrapCfgVnipTable - VNIP configuration -- mfrapCfgFrPerfTable - Frame Relay performance configuration -- mfrapCfgFrPerfDlciNamesTable - Table of DLCI names -- mfrapCfgFrPerfUserProtocolsTable - User-specified protocols -- mfrapCfgFrPerfLTDlciFilterTable - LT stats: DLCI filter -- mfrapCfgFrPerfLTProtocolFilterTable - LT stats: protocol filter -- mfrapCfgSecurityTable - Security configuration -- mfrapCfgConnectionTable - Connection configuration -- mfrapCfgDandiTable - Drop & Insert port configuration -- -- The DIAGNOSTICS group -- This group provides for run-time control of the node. -- -- The group consists of the following tables: -- mfrapDiagUnitTable - Unit level Diagnostics -- mfrapDiagT1Table - T1 Port Diagnostics -- mfrapDiagDteTable - DTE port diagnostics -- mfrapDiagBertTable - BERT Diagnostics -- mfrapDiagDandiTable - Drop & Insert Port Diagnostics -- -- The STATUS group -- This group provides status information. -- -- The group consists of the following tables: -- mfrapStatusT1Table - T1 status -- mfrapStatusDteTable - DTE status -- mfrapStatusDandiTable - Drop & Insert Status -- mfrapStatusLedTable - LED status -- mfrapVnipTopologyTable - VNIP topology -- mfrapStatusMgmtTable - Status of management channel -- mfrapStatusNestTable - Status of chassis -- -- The PERFORMANCE group -- This group provides statistical information. -- -- The group consists of the following tables: -- mfrapPerfPhysicalIntf - Physical interface statistics -- mfrapPerfT1CurrentTable - T1 current statistics -- mfrapPerfT1IntervalTable - T1 interval statistics -- mfrapPerfT1TotalTable - T1 total statistics -- mfrapT1PerfCmdTypeTable - T1 statistics commands -- mfrapPerfDandiCurrentTable - D&I current statistics -- mfrapPerfDandiIntervalTable - D&I interval statistics -- mfrapPerfDandiTotalTable - D&I total statistics -- mfrapDandiPerfCmdTypeTable - D&I statistics commands -- mfrapPerfMgmtIp - IP protocol stack statistics -- mfrapPerfMgmtIpIFStatsTable - Interface statistics -- mfrapPerfMgmtIpIPStatsTable - IP statistics -- mfrapPerfMgmtIpICMPStatsTable - ICMP statistics -- mfrapPerfMgmtIpUDPStatsTable - UDP statistics -- mfrapPerfMgmtIpTCPStatsTable - TCP statistics -- mfrapPerfThruput - Thruput statistics -- mfrapPerfThruputPerIntfTable - Thruput per interface -- mfrapPerfThruputPerDlciTable - Thruput per DLCI -- mfrapPerfCirPercentUtilization - CIR percentage stats -- mfrapPerfNetworkShortTerm - Short term DLCI statistics -- mfrapPerfNetwProtoPerDlciTable - Network protocol stats per DLCI -- mfrapPerfNetwProtoTotalTable - Total network protocol stats -- mfrapPerfIpPerDlciTable - IP stats per DLCI -- mfrapPerfIpTotalTable - Total IP stats -- mfrapPerfIcmpPerDlciTable - ICMP stats per DLCI -- mfrapPerfIcmpTotalTable - Total ICMP stats -- mfrapPerfApplicationPerDlciTable - Application stats per DLCI -- mfrapPerfApplicationTotalTable - Total application stats -- mfrapPerfRoutingPerDlciTable - Routing stats per DLCI -- mfrapPerfRoutingTotalTable - Total Routing stats -- mfrapPerfIpxPerDlciTable - IPX stats per DLCI -- mfrapPerfIpxTotalTable - Total IPX stats -- mfrapPerfSnaPerDlciTable - SNA stats per DLCI -- mfrapPerfSnaTotalTable - Total SNA stats -- mfrapPerfArpPerDlciTable - ARP stats per DLCI -- mfrapPerfArpTotalTable - Total ARP stats -- mfrapPerfNetworkLongTerm - Long term DLCI statistics -- mfrapPerfNetwLongTermTable - Long term stats -- mfrapPerfNetwLongTermAltTable - Alternate format LTS -- -- The MIB also contains enterprise trap information: -- mfrapTrap -- -- ======================================================================= -- ======================== -- == SYSTEM group == -- ======================== mfrapSystem OBJECT IDENTIFIER ::= { mfrap 1 } -- -- The mfrapSysTable -- This table contains the system attributes of the MFRAP -- CSU with enhanced support for Frame Relay Networking. mfrapSysTable OBJECT IDENTIFIER ::= { mfrapSystem 1 } mfrapSysType OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandatory DESCRIPTION "A textual description of the system model identifier. for example: SYNC-MFRAP" ::= { mfrapSysTable 1 } mfrapSysSoftRev OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Displays the Software Revision of the application code installed in this node." ::= { mfrapSysTable 2 } mfrapSysHardRev OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Displays the Hardware Revision of the node." ::= { mfrapSysTable 3 } mfrapSysNumT1Installed OBJECT-TYPE SYNTAX INTEGER (0..1) ACCESS read-only STATUS mandatory DESCRIPTION "The number of Wide Area Network (T1) ports that are installed. There is 1 on the MFRAP." ::= { mfrapSysTable 4 } mfrapSysNumDteInstalled OBJECT-TYPE SYNTAX INTEGER (0..1) ACCESS read-only STATUS mandatory DESCRIPTION "The number of user serial data channels (DTE) that are installed. There is 1 on the MFRAP." ::= { mfrapSysTable 5 } mfrapSysNumMaintInstalled OBJECT-TYPE SYNTAX INTEGER (0..2) ACCESS read-only STATUS mandatory DESCRIPTION "The number of Async Maintenance/Comm (console ports that are installed. There are 2 on the MFRAP: one for the console interface and one for SLIP management." ::= { mfrapSysTable 6 } mfrapSysName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) ACCESS read-write STATUS mandatory DESCRIPTION "The user supplied name of the node. This object does not affect operation, but may be useful for network management." ::= { mfrapSysTable 7 } mfrapSysSerialNo OBJECT-TYPE SYNTAX DisplayString (SIZE (0..12)) ACCESS read-only STATUS mandatory DESCRIPTION "The serial number of the board." ::= { mfrapSysTable 8 } mfrapSysResetNode OBJECT-TYPE SYNTAX INTEGER { reset-node (321) } ACCESS write-only STATUS mandatory DESCRIPTION "Command to reset the node. NODE WILL BE OFF-LINE AND USER DATA WILL BE INTERRUPTED FOR APPROXIMATELY 15 SECONDS. Full network recovery may take longer. " ::= { mfrapSysTable 9 } mfrapSysAmtMemoryInstalled OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of memory (RAM) installed (in megabytes)." ::= { mfrapSysTable 10 } mfrapSysLocation OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) ACCESS read-write STATUS mandatory DESCRIPTION "The user supplied location of the node. This object does not affect operation, but may be useful for network management." ::= { mfrapSysTable 12 } mfrapSysContact OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) ACCESS read-write STATUS mandatory DESCRIPTION "The user supplied contact information for the node. This object does not affect operation, but may be useful for network management." ::= { mfrapSysTable 13 } mfrapSysPrompt OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS read-write STATUS mandatory DESCRIPTION "Configurable Command Line Interface (CLI) prompt. CLI is the User Interface protocol used for directly attached VT100 terminal access and for remote access via Telnet." ::= { mfrapSysTable 15 } mfrapSysBootRev OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Displays the Software Revision of the Bootstrapping code installed in this node." ::= { mfrapSysTable 16 } mfrapSysNestId OBJECT-TYPE SYNTAX DisplayString (SIZE (0..16)) ACCESS read-write STATUS mandatory DESCRIPTION "The user supplied name of the nest where this card resides. This can be used to group all cards from the same nest together for network management. Note an MFRAP standalone unit will not allow this to be 'set' and will return the string 'standalone'." ::= { mfrapSysTable 17 } mfrapSysFeatureTable OBJECT IDENTIFIER ::= { mfrapSystem 2 } mfrapSysSLIPSupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit has SLIP (Serial Line IP) capability. SLIP is a method for out-of-band management that connects through the asynchronous terminal port." ::= { mfrapSysFeatureTable 1 } mfrapSysPPPSupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit has PPP (Point to Point protocol) capability. PPP is a method for out-of-band management that connects through the asynchronous terminal port." ::= { mfrapSysFeatureTable 2 } mfrapSysRDOSupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit has Remote Dial Out capability." ::= { mfrapSysFeatureTable 3 } mfrapSysETHSupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit has Ethernet capability." ::= { mfrapSysFeatureTable 4 } mfrapSysTKRSupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit has Token Ring capability." ::= { mfrapSysFeatureTable 5 } mfrapSysExtTimSupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit has External Timing capability." ::= { mfrapSysFeatureTable 6 } mfrapSysBRISupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit has BRI (ISDN Basic Rate) capability." ::= { mfrapSysFeatureTable 7 } mfrapSysSelDTESupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit has a Selectable DTE interface." ::= { mfrapSysFeatureTable 8 } mfrapSysMLSupported OBJECT-TYPE SYNTAX DisplayString (SIZE (0..10)) ACCESS read-only STATUS mandatory DESCRIPTION "Shows whether the unit supports MLs (out-of-band management links)." ::= { mfrapSysFeatureTable 9 } mfrapSysNumDlcisSupported OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows how many DLCIs can be monitored for Short Term Statistics." ::= { mfrapSysFeatureTable 10 } mfrapSysLTFNumDlcis OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows how many DLCIs can be specified in the Long Term Statistics Filter." ::= { mfrapSysFeatureTable 11 } mfrapSysLTFNumProtocols OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows how many protocols can be specified in the Long Term Statistics Filter." ::= { mfrapSysFeatureTable 12 } mfrapSysNumUserProtocols OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows how many protocols can be defined by the user. The user configures TCP/UDP ports which can be monitored as protocols. They are available for short term or long term statistics monitoring." ::= { mfrapSysFeatureTable 13 } mfrapSysNumSnmpMgrs OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows how many SNMP managers can be programmed in the table mfrapCfgSnmpMngrTable. These managers are sent TRAPs if configured to do so." ::= { mfrapSysFeatureTable 14 } mfrapSysNumDlciNames OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Shows how many DLCI names can be defined by the user in the table mfrapCfgFrPerfDlciNamesTable." ::= { mfrapSysFeatureTable 15 } -- ========================= -- == CONFIGURATION group == -- ========================= mfrapConfiguration OBJECT IDENTIFIER ::= { mfrap 2 } -- -- The Management Configuration Table -- This table contains the management-related --- Configuration information for the MFRAP T1 DSU. mfrapCfgMgmtTable OBJECT IDENTIFIER ::= { mfrapConfiguration 1 } -- -- The IP Configuration Table -- This table contains the Configuration for Internet Protocol -- parameters for device management. These parameters include -- IP addressing and any configurable IP-based support options -- (such as Telnet). mfrapCfgIpTable OBJECT IDENTIFIER ::= { mfrapCfgMgmtTable 1 } mfrapCfgIpMyIP OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address for this node. This address will be unique to the IP network and is required for in-band or out-of-band ip and SNMP management." ::= { mfrapCfgIpTable 1 } mfrapCfgIpPeerIP OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "This parameter is not used internally by the unit. It is intended to identify either the device directly connected to the SLIP port or, in Frame Relay applications, the address of the primary network management station. This should always be non-zero." ::= {mfrapCfgIpTable 2 } mfrapCfgIpMask OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP Network Mask (eg 255.255.255.0)." ::= { mfrapCfgIpTable 3 } mfrapCfgIpMaxMTU OBJECT-TYPE SYNTAX INTEGER (1..1024) ACCESS read-write STATUS mandatory DESCRIPTION "The Maximum Transmission Unit is the size of the largest IP packet supported. This value should be set to the lowest value supported by any equipment in the transmission path. A size of 1006 (including header) is suggested." ::= { mfrapCfgIpTable 4 } mfrapCfgIpChannel OBJECT-TYPE SYNTAX INTEGER { none (1), slip-port (2), in-band-dlci (3) } ACCESS read-only STATUS mandatory DESCRIPTION "This is the method by which IP traffic is being carried. Either via the SLIP port or a DLCI. This is how your InBand Managenent scheme is set up." ::= { mfrapCfgIpTable 5 } mfrapCfgIpTelnetEnable OBJECT-TYPE SYNTAX INTEGER { enable-telnet (1), disable-telnet (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables/Disables the telnet feature. Valid values are enable-telnet (1) and disable-telnet (2)." ::= { mfrapCfgIpTable 6 } mfrapCfgIpTelnetAutoLogOut OBJECT-TYPE SYNTAX INTEGER { autologout-at-15-minutes (1), disable-autologout (2), autologout-at-3-minutes (3), autologout-at-5-minutes (5), autologout-at-10-minutes (10), autologout-at-30-minutes (30), autologout-at-60-minutes (60) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables/Disables the telnet auto-logout, logging out the user after a certain length of idle time. Valid values are disable-autologout (2), and a number of timeout intervals including autologout-at-15-minutes (1), autologout-at-3-minutes (3), and the default autologout-at-5-minutes (5)." ::= { mfrapCfgIpTable 7 } -- -- The TFTP Configuration Table -- This table contains the Configuration for the TFTP -- (Trivial File Transfer Protocol) support on the unit. -- TFTP is an ip-based protocol used by the unit for -- software upgrades. mfrapCfgTftpTable OBJECT IDENTIFIER ::= { mfrapCfgMgmtTable 2 } mfrapCfgTftpInitiate OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS write-only STATUS mandatory DESCRIPTION "After setting the other TFTP parameters, start the TFTP Flash ROM upgrade by entering the TFTP password." ::= {mfrapCfgTftpTable 1} mfrapCfgTftpIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address of the TFTP host from which to retrieve the Flash ROM image." ::= {mfrapCfgTftpTable 2} mfrapCfgTftpFilename OBJECT-TYPE SYNTAX DisplayString (SIZE (0..80)) ACCESS read-write STATUS mandatory DESCRIPTION "The filename of the new ROM Image on the TFTP host." ::= {mfrapCfgTftpTable 3} mfrapCfgTftpInterface OBJECT-TYPE SYNTAX INTEGER { dte-interface (1), t1-interface (2), slip-interface (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The interface on which TFTP data passes. This is only used for in-band management modes. When a unit is in SLIP mode, this object is not applicable. A 'get'will return a value of '3' and set is ignored. (1) dte-interface (2) t1-interface (3) Not applicable" ::= {mfrapCfgTftpTable 4} mfrapCfgTftpDlci OBJECT-TYPE SYNTAX INTEGER (-1..63487) ACCESS read-write STATUS mandatory DESCRIPTION "The DLCI on which the TFTP host can be found. A value of -1 signifies not-applicable." ::= {mfrapCfgTftpTable 5} mfrapCfgTftpStatus OBJECT-TYPE SYNTAX INTEGER { inactive (1), requested (2), transferring (3), programming (4), transfer-aborted (5), host-no-reply (6), file-not-found (7), invalid-file (8), corrupt-file (9), successful (10) } ACCESS read-write STATUS mandatory DESCRIPTION "The status of current or most recent TFTP operation. Download can be canceled by a Set to inactive." ::= {mfrapCfgTftpTable 6} mfrapCfgTftpNumBytes OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of Bytes from the ROM image that have been TFTP'd to the unit" ::= {mfrapCfgTftpTable 7} -- -- The SNMP Configuration Table -- This table contains the Configuration for the SNMP -- support on the MFRAP T1 DSU. This includes Trap -- destinations and any other Trap-related parameters. mfrapCfgSnmpTable OBJECT IDENTIFIER ::= { mfrapCfgMgmtTable 3 } mfrapCfgSnmpFrTrap OBJECT-TYPE SYNTAX INTEGER { enabled (1), disabled (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Controls whether or not the Frame Relay DLCI status change traps are issued. These traps are dfrapDLCIActiveTrap and dfrapDLCIInactiveTrap. (1) FR Trap enabled - a trap will be sent each time an individual DLCI changes status between active and inactive. (2) FR Trap disabled - DLCI state change traps are not sent." ::= { mfrapCfgSnmpTable 1 } mfrapCfgSnmpTrapMuting OBJECT-TYPE SYNTAX INTEGER (0..10080) ACCESS read-write STATUS mandatory DESCRIPTION "Controls whether TRAPs are sent or muted. A value of 0 allows TRAPs to be sent. If not 0, the value represents the interval (minutes) at which to send the MutingActive trap. It is the only trap sent during muting. The valid range for the interval is 30 to 10080 (a week)." ::= { mfrapCfgSnmpTable 3 } mfrapCfgSnmpNestAlarmTrapEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables or disables the sending of traps for fan and/or power supply alarms. Note an MFRAP standalone unit will not allow this to be 'set' and will return the 'disable'." ::= {mfrapCfgSnmpTable 4 } mfrapCfgSnmpDandIPortTrapEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables or disables the sending of traps for the Drop and Insert port. (1) enable the sending of traps (2) disable the sending of traps" ::= {mfrapCfgSnmpTable 5 } mfrapCfgSnmpUtilTrapEnable OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables or disables the sending of per-DLCI utilization traps. (1) enable utilization traps (2) disable utilization traps " ::= { mfrapCfgSnmpTable 6 } mfrapCfgSnmpMgrClearN OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION " Deletes the number of entries in the mfrapCfgSnmpMgrTable indicated by the value. If the value is a positive number the entries will be deleted starting from the first entry. If the value is negative the entries will be deleted starting from the last entry. " ::= { mfrapCfgSnmpTable 7 } mfrapCfgSnmpMgrTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgSnmpMgrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table of IP addresses of SNMP managers to receive this node's TRAPs." ::= { mfrapCfgSnmpTable 2 } mfrapCfgSnmpMgrEntry OBJECT-TYPE SYNTAX MfrapCfgSnmpMgrEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The IP address of a SNMP manager to receive this node's TRAPs." INDEX { mfrapCfgSnmpMgrIndex } ::= { mfrapCfgSnmpMgrTable 1 } MfrapCfgSnmpMgrEntry ::= SEQUENCE { mfrapCfgSnmpMgrIndex INTEGER, mfrapCfgSnmpMgrIP IpAddress, mfrapCfgSnmpMgrInterface INTEGER, mfrapCfgSnmpMgrDlci INTEGER } mfrapCfgSnmpMgrIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The index to the list of SNMP managers receiving TRAPs." ::= { mfrapCfgSnmpMgrEntry 1 } mfrapCfgSnmpMgrIP OBJECT-TYPE SYNTAX IpAddress ACCESS read-write STATUS mandatory DESCRIPTION "The IP address of a SNMP manager to receive this node's TRAPs. Setting this value to 0.0.0.0 will disable the issuance of traps to the indexed manager." ::= { mfrapCfgSnmpMgrEntry 2 } mfrapCfgSnmpMgrInterface OBJECT-TYPE SYNTAX INTEGER { dte-interface (1), t1-interface (2), slip-interface (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The interface out which the indexed trap manager can be reached. This entry is required in Piggyback and Bi-directional in-band managed applications. In Local, Remote and SLIP-based applications, the interface is known and this parameter is ignored. (1) Traps sent out DTE interface for this manager (2) Traps sent out T1 interface for this manager (3) Traps sent out SLIP interface (async maint port) When the node is configured for SLIP, a GET on this MIB object will return slip-interface(3) and a SET of this MIB object to slip-interface(3) is allowed but unnecessary. When the node is not configured for SLIP, this MIB object can be SET to dte-interface(1) or t1-interface(2); slip-interface(3) would be rejected." ::= { mfrapCfgSnmpMgrEntry 3 } mfrapCfgSnmpMgrDlci OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The DLCI to use to send TRAPs to this SNMP manager." ::= { mfrapCfgSnmpMgrEntry 4 } -- -- The Communication Port Configuration Table -- This table contains the Communications Port Configuration -- information for the MFRAP T1 DSU. mfrapCfgCommTable OBJECT IDENTIFIER ::= { mfrapCfgMgmtTable 4 } -- DESCRIPTION -- "The Communication Port Configuration table contains -- parameters for the RS232/RJ48 Maint/Console port on the -- MFRAP. The User Interface (ASCII) Port is Index=1; mfrapCfgCommMode OBJECT-TYPE SYNTAX INTEGER { vt100 (1), slip (2), modem (3) } ACCESS read-write STATUS mandatory DESCRIPTION "The protocol running on the Maintenance port. VT100 (1), for the User Interface, SLIP (2) for the SNMP support, MODEM(3) for remote VT100 support." ::= { mfrapCfgCommTable 1 } mfrapCfgCommBaud OBJECT-TYPE SYNTAX INTEGER { baud-2400 (2), baud-9600 (4), baud-19200 (5), baud-38400 (6) } ACCESS read-write STATUS mandatory DESCRIPTION "Asynchronous baud rate for the Maintenance/Comm port (Console). This must be configured to match either the VT100 compatible terminal, MODEM support or the SLIP Terminal Server depending upon the Comm port mode. (2) baud-2400 (4) baud-9600 (5) baud-19200 (6) baud-38400" ::= { mfrapCfgCommTable 2 } mfrapCfgCommDataBits OBJECT-TYPE SYNTAX INTEGER { databits-7 (1), databits-8 (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Databits for this Communication port. Values are databits-7 (1) and databits-8 (2)." ::= { mfrapCfgCommTable 3 } mfrapCfgCommStopBits OBJECT-TYPE SYNTAX INTEGER { stopbits-1 (1), stopbits-1-5 (2), stopbits-2 (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Number of Stopbits for this Communication port. Values are stopbits-1 (1), stopbits-1-5 (2), and stopbits-2 (3)." ::= { mfrapCfgCommTable 4 } mfrapCfgCommParity OBJECT-TYPE SYNTAX INTEGER { no-parity (1), odd-parity (2), even-parity (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Parity for this Communication port. Values are no-parity (1), odd-parity (2), even-parity (3)." ::= { mfrapCfgCommTable 5 } mfrapCfgCommFlowCtrl OBJECT-TYPE SYNTAX INTEGER { no-flow-control (1) } ACCESS read-write STATUS mandatory DESCRIPTION "Flow Control for this Communication port. Values are no-flow-control (1)." ::= { mfrapCfgCommTable 6 } mfrapCfgCommModeAutoDetect OBJECT-TYPE SYNTAX INTEGER { enable (1), disable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables or disables the auto detection of RS-232 data on the front MAINT port. When enabled, and data detected, the unit will temporarily convert to VT100 mode to allow a local user access when the unit is in SLIP or MODEM mode. (1) enable COMM-MAINT port auto detect (2) disable COMM-MAINT port auto detect " ::= { mfrapCfgCommTable 7 } -- -- The DLCI Configuration Table -- This table contains the Configuration for in-band -- Frame Relay management. This includes in-band mode, -- the management PVC's local DLCI address, format and -- parameters related to Frame Relay management frame -- format. mfrapCfgFrDLCITable OBJECT IDENTIFIER ::= { mfrapCfgMgmtTable 5 } mfrapCfgFrDLCIMode OBJECT-TYPE SYNTAX INTEGER { inactive (1), local (2), remote (3), bidirectional (4), piggyback (5), fixedDCE (6) } ACCESS read-write STATUS mandatory DESCRIPTION "Shows the mode that DLCI In-band Management is set up for - inactive (1) - Inband management is not enabled; local (2) - Inband managed using a dedicated private PVC with access exclusively through the DTE interface; remote (3) - Inband managed using a dedicated private PVC with access exclusively through the WAN interface; bidirectional (4) - Inband managed using a dedicated private PVC with access supported through either interface; piggyback (5) - Inband managed using any provisioned PVC, statistically multiplexed with user data; fixedDCE (6) - Inband managed mode similar to piggyback mode except for LMI behavior; The unit will always source LMI Responses separately on each interface (emulating a Frame Relay DCE device). A single PVC will be provisioned and is used for both user data and management traffic. This mode of operation is useful in an environment that does not include a Frame Relay switch but does include a pair of interconnected Frame Relay FRADs or Routers which can only be configured as a Frame Relay DTE device." ::= { mfrapCfgFrDLCITable 1 } mfrapCfgFrDLCIValue OBJECT-TYPE SYNTAX INTEGER (16..63487) ACCESS read-write STATUS mandatory DESCRIPTION "The DLCI identifier, the value of the DLCI field in the frame." ::= { mfrapCfgFrDLCITable 2 } mfrapCfgFrDLCIEncap OBJECT-TYPE SYNTAX INTEGER { rfc1490 (1), rfc1490snap (2), auto (3), cisco (4) } ACCESS read-write STATUS mandatory DESCRIPTION "This is the protocol used for enacapsulating and formatting ip data for Frame Relay transmission. This setting is specific to management data to and from the unit. (1) RFC1490 - per IETF standard with Network Level Protocol ID (NLPID) set for IP encapsulation. (2) RFC1490 SNAP/IP - per IETF standard with NLPID set for Sub-Network Access Protocol (SNAP). (3) auto - adjusts to either of these encapsulation techniques as required. (4) Cisco - proprietary encapsulation (4-byte header)." ::= { mfrapCfgFrDLCITable 3 } mfrapCfgFrDLCIMgmtDE OBJECT-TYPE SYNTAX INTEGER { no-DE-bit-0 (1), yes-DE-bit-1 (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Provides user control over the state of the Frame Relay Discard Eligibility bit of all management frames generated by the unit. Frames marked DE=1 are more likely to be dropped in a congested Frame Relay network than those that are DE=0. Heavily congested circumstances can cause both to be dropped. Additionally, frames marked DE=0 may get re-marked to DE=1 by intervening equipment. (1) DE bit cleared to 0: frame is not discard eligible (2) DE bit set to 1: frame is discard eligible" ::= { mfrapCfgFrDLCITable 4 } -- -- The Application Configuration Table -- This table contains the Application (system) Configuration -- information for the MFRAP T1 DSU. This includes system -- timing and user-application type. mfrapCfgAppTable OBJECT IDENTIFIER ::= { mfrapConfiguration 2 } mfrapCfgAppClockSource OBJECT-TYPE SYNTAX INTEGER { internal (1), network (2), dte (3), drop-and-insert (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Default timing, or clock, source. There must be only one source on a T1 line. Node should always be network (2) timed on a point-to-network application. Line Driver applications need one node as internal (1), one as network (2). Options are given to source the clock from the DTE port or the D&I port. " ::= { mfrapCfgAppTable 1 } mfrapCfgAppCircuitId OBJECT-TYPE SYNTAX DisplayString (SIZE (0..30)) ACCESS read-write STATUS mandatory DESCRIPTION "Circuit identifier provided by the service provider." ::= { mfrapCfgAppTable 2 } mfrapCfgAppType OBJECT-TYPE SYNTAX INTEGER { dedicated (1), frame-relay (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Indicates type of service purchased on the attached network line T1. Valid selections are dedicated (1) and Frame Relay (2)." ::= { mfrapCfgAppTable 3 } mfrapCfgAppFormat OBJECT-TYPE SYNTAX INTEGER { cbo (1), hdlc (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Refer to Application Type. Frame Relay is based upon HDLC framing. To operate in a Frame Relay application the Format must be set for HDLC. To operate in a protocol-independent application the Format must be set for Constant Bit Operation (CBO). Note - changing this value will automatically change the Application Type setting and vice versa (1) CBO: protocol-independent transparent DSU/CSU (2) HDLC: Frame and protocol aware DSU/CSU" ::= { mfrapCfgAppTable 4 } mfrapCfgAppLpbkTimeout OBJECT-TYPE SYNTAX INTEGER (0..1440) ACCESS read-write STATUS mandatory DESCRIPTION "The amount of time a loopback may run before timing out and automatically terminating. The timeout is in minutes and a value of 0 means no timeout." ::= { mfrapCfgAppTable 5 } mfrapCfgAppPerfBuffLimit OBJECT-TYPE SYNTAX INTEGER (0..512) ACCESS read-write STATUS mandatory DESCRIPTION "This value represents the throttling mechanism used to determine the optimum level of statistical processing versus managability of the unit. The lower the value (1 - 128), the unit becomes more responsive to management commands during very heavy utilization at the possible expense of statistical accuracy. The larger the value (129 - 512), the more accurate the MFRAP performs statistical analysis of the frames but management may seem slow or unresponsive during periods of very heavy link utilization. NOTE: A value of 0 disables statistical processing entirely." ::= { mfrapCfgAppTable 10 } -- -- The T1 Configuration Table -- This table contains the T1 port Configuration -- information for the MFRAP CSU. mfrapCfgT1Table OBJECT IDENTIFIER ::= { mfrapConfiguration 3 } -- DESCRIPTION -- "The T1 Port Configuration table contains -- parameters for the Framed TDM (T1) port on the -- MFRAP. " mfrapCfgT1Framing OBJECT-TYPE SYNTAX INTEGER { d4 (1), esf-54016 (2), esf-ansi (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Type of Framing on this T1 Line. Check with your service provider to determine value. (1) D4 - also known as Superframe or SF. (2) ESF 54016 - Extended Superframe supporting the Facility Data Link per AT&T pub 54016. ESF provides enhanced performance monitoring capabilities over the FDL. (3) ESF ANSI - Extended SuperFrame supporting the Facility Data Link per ANSI T1.403 standard. ESF provides enhanced performance monitoring capabilities over the FDL." ::= { mfrapCfgT1Table 1 } mfrapCfgT1LineEncoding OBJECT-TYPE SYNTAX INTEGER { ami (1), b8zs (2) } ACCESS read-write STATUS mandatory DESCRIPTION "T1 interface bipolar encoding scheme. Check with your service provider to determine value. B8ZS, which inherently provides ample 'ones-density', is recommended. AMI users must pay special attention to the 'ones-density' requirements of the service provider. (1) B8ZS - intercepts and encodes streams of 8 consecutive zeros and transmits them as a special pattern including Bipolar or Line Code Violations. Function not supported on certain networks. (2) AMI - Alternate Mark Inversion - sends the user data without introducing controlled BPVs." ::= { mfrapCfgT1Table 2 } mfrapCfgT1Density OBJECT-TYPE SYNTAX INTEGER { no-density (1), twelve-half-percent (2), one-in-16 (3), one-in-64 (4) } ACCESS read-write STATUS mandatory DESCRIPTION "CSU 'ones density' monitor. Defines the maximum number of consecutive zeros that can be transmitted to the WAN. If density monitoring is enabled, the composite signal is guaranteed to meet the selected density threshhold at the expense of user data. (1) No Density Monitoring - unit will transparently transmit user data without regard for ones density. Recommended for use in B8ZS applications, in nx56K applications where bit-7 stuffing is configured for DTE Channel Density, and when an external CSU is used. (2) 12.5% - unit will maintain a sliding window and will assure a minumum of 12.5% or an average of 1 in 8 ones. (3) 1 in 16 - unit will guarantee that no more than 15 consecutive zeros will be transmit to the WAN. (4) 1 in 64 - unit will guarantee that no more than 63 consecutive zeros will be transmit to the WAN." ::= { mfrapCfgT1Table 3 } mfrapCfgT1Interface OBJECT-TYPE SYNTAX INTEGER { dsx-1 (1), csu (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables the unit's internal CSU functionality. Typical network access requires a CSU to condition the WAN signal, guard against network hazards, and provide access to service personnel for network maintenance. (1) Disables internal CSU and unit operates as a DSX-1 cross connect device. This should be the setting if the unit is cabled to an external CSU device providing network access. CSU. (2) Enables internal CSU and corresponding feature set which includes density monitoring, line build-out pulse shaping, ESF facility data link, and certain diagnostic functions. This should be the seting if the unit is directly cabled to the service provider's equipment (such as a smart jack). " ::= { mfrapCfgT1Table 4 } mfrapCfgT1LboSetting OBJECT-TYPE SYNTAX INTEGER { zero-db (1), n7-5-db (2), n15-db (3) } ACCESS read-write STATUS mandatory DESCRIPTION "CSU Line Build Out (LBO). This feature provides selectable output signal strength. Consult service provider for proper setting. Signal may require attenuation to equalize it with neighboring equipment or under certain cabled access conditions. Not applicable if CSU functions are diabled (interface type = dsx-1) (1) 0dB - standard output signal (2) -7.5dB - standard output signal attenuated by 7.5dB (3) -15dB - standard output signal attenuated by 15 dB." ::= { mfrapCfgT1Table 5 } -- -- The DTE Configuration Table -- "The Dte Port Configuration table contains -- parameters for the Serial (DTE) port's -- physical link. The DTE port typically connects -- to a customer's equipment such as a Router/FRAD and -- formats this data for appropriate WAN transmission." mfrapCfgDteTable OBJECT IDENTIFIER ::= { mfrapConfiguration 4 } -- DESCRIPTION -- "The Dte Port Configuration table contains -- parameters for the Serial (DTE) port on the -- MFRAP. " mfrapCfgDteIntfType OBJECT-TYPE SYNTAX INTEGER { intf-v35 (3) -- intf-rs449 (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Sets the electrical interface for the DTE port. (3) V.35 interface (4) RS-449 interface (not supported)" ::= { mfrapCfgDteTable 1 } mfrapCfgDteDataMode OBJECT-TYPE SYNTAX INTEGER { data-normal (1), data-invert (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Inverts the DTE data for transfer across the WAN. Can make some applications, particularly HDLC-based protocols, meet density requirements even across clear channel DS0s in AMI mode." ::= { mfrapCfgDteTable 2 } mfrapCfgDteClockMode OBJECT-TYPE SYNTAX INTEGER { clock-normal (1), clock-invert (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This selection controls how the unit internally latches the transmit data from the DTE. Normal will sample data with the rising edge of the selected TX Clock, Invert will sample data with the falling edge of the selected TX Clock. The TX Clock is selected using CfgDteTiming. This clock invertion is most useful when loop-2 timing is used - particularly at higher rates and with long cable runs. Only in rare circumstances will clock-invert be used with loop-1 timing. If the DTE Interface TX statistics are indicating excessive crc errors or aborts then changing this setting may have some benefit. (1) normal (2) invert" ::= { mfrapCfgDteTable 3 } mfrapCfgDteTiming OBJECT-TYPE SYNTAX INTEGER { loop-1 (1), loop-2 (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Serial DTE Transmit Timing mode. Loop-1 (1) uses the clock returned from the DTE (TT/TCE) to sample tx data, Loop-2 (2) uses the clock (ST/TC) generated by the node to sample tx data." ::= { mfrapCfgDteTable 4 } mfrapCfgDteLineRate OBJECT-TYPE SYNTAX INTEGER (0..1536000) ACCESS read-only STATUS mandatory DESCRIPTION "Serial DTE Data Rate in bits per second. Valid rates depend upon channel density selection: nX56K for bit-7-stuffing, and nX64K for clear-channel (n is an integer 1-24 inclusive). This read-only value is the value which was most recently set through CfgDteConnRate; in the event of a connection failure, this field should be examined along with CfgDteChannelDensity and CfgDteStartDso to determine the parameter mismatch that caused the connection failure." ::= { mfrapCfgDteTable 5 } mfrapCfgDteChannelDensity OBJECT-TYPE SYNTAX INTEGER { bit-7-stuff (56), clear-channel (64) } ACCESS read-only STATUS mandatory DESCRIPTION "Packing of serial data into T1 DS0's. Bit-7-stuff supports DTE rates of nX56Kb/s (from 56K to 1344K) and provides sufficient ones-density on any circuit. Clear-channel allows DTE rates of nX64Kb/s (from 64K to 1.536M) and may require an additional means of density enforcement (eg, B8ZS). This read-only value is the value which was most recently set through CfgDteConnDensity; in the event of a connection failure, this field should be examined along with CfgDteLineRate and CfgDteStartDso to determine the parameter mismatch that caused the connection failure." ::= { mfrapCfgDteTable 6 } mfrapCfgDteStartDs0 OBJECT-TYPE SYNTAX INTEGER { ds0-01 (1), ds0-02 (2), ds0-03 (3), ds0-04 (4), ds0-05 (5), ds0-06 (6), ds0-07 (7), ds0-08 (8), ds0-09 (9), ds0-10 (10), ds0-11 (11), ds0-12 (12), ds0-13 (13), ds0-14 (14), ds0-15 (15), ds0-16 (16), ds0-17 (17), ds0-18 (18), ds0-19 (19), ds0-20 (20), ds0-21 (21), ds0-22 (22), ds0-23 (23), ds0-24 (24), no-current-connections (40), non-continuous-ds0s (41) } ACCESS read-only STATUS mandatory DESCRIPTION "T1 WAN includes 24 DS0's available for user data. Each DS0 carries either 56Kbit/sec (bit-7-stuffing) or 64KBit/sec (clear-channel). This value is the starting DS0 used by the node to allocate DS0s to match the DTE's data rate. Sequential, contiguous DS0s are assigned as required. The number of DS0s required is based upon the DTE Data Rate and DTE Channel Mapping. This read-only value is the value which was most recently set through DteCfgConnStartDs0; in the event of a connection failure, this field should be examined along with CfgDteLineRate and CfgDteChanelDensity to determine the parameter mismatch that caused the connection failure." ::= { mfrapCfgDteTable 7 } mfrapCfgDteConnStatus OBJECT-TYPE SYNTAX INTEGER { connections-valid (1), -- incorrect-bandwidth (2), -- bandwidth-conflict (3), no-current-connections (4) } ACCESS read-only STATUS mandatory DESCRIPTION "The current status of the WAN to DTE mappings. (1) connections valid and DS0s allocated to DTE data. (4) no connections configured between WAN and DTE." ::= { mfrapCfgDteTable 8 } mfrapCfgDteConnStartDs0 OBJECT-TYPE SYNTAX INTEGER { ds0-01 (1), ds0-02 (2), ds0-03 (3), ds0-04 (4), ds0-05 (5), ds0-06 (6), ds0-07 (7), ds0-08 (8), ds0-09 (9), ds0-10 (10), ds0-11 (11), ds0-12 (12), ds0-13 (13), ds0-14 (14), ds0-15 (15), ds0-16 (16), ds0-17 (17), ds0-18 (18), ds0-19 (19), ds0-20 (20), ds0-21 (21), ds0-22 (22), ds0-23 (23), ds0-24 (24), no-current-connections (40), non-continuous-ds0s (41) } ACCESS read-write STATUS mandatory DESCRIPTION "T1 WAN includes 24 DS0's available for user data. Each DS0 carries either 56Kbit/sec (bit-7-stuffing) or 64KBit/sec (clear-channel). This value is the starting DS0 used by the node to allocate DS0s to match the DTE's data rate. Sequential, contiguous DS0s are assigned as required. The number of DS0s required is based upon the DTE Data Rate and DTE Channel Mapping. Consult WAN service provider for the appropriate setting here in a fractional T1 application." ::= { mfrapCfgDteTable 9 } mfrapCfgDteConnRate OBJECT-TYPE SYNTAX INTEGER (0..1536000) ACCESS read-write STATUS mandatory DESCRIPTION "Serial DTE Data Rate in bits per second. Valid rates depend upon channel density selection: nX56K for bit-7-stuffing, and nX64K for clear-channel (n is an integer 1-24 inclusive). Rates are entered in bits/sec, for example, 128000 for a 128Kbit/sec DTE data rate." ::= { mfrapCfgDteTable 10 } mfrapCfgDteConnDensity OBJECT-TYPE SYNTAX INTEGER { bit-7-stuff (56), clear-channel (64) } ACCESS read-write STATUS mandatory DESCRIPTION "Packing of serial data into T1 DS0's. Bit-7-stuff supports DTE rates of nX56Kb/s (from 56K to 1344K) and provides sufficient ones-density on any circuit. Clear-channel supports DTE rates of nX64Kb/s (from 64K to 1.536M) and may require an additional means of density enforcement (eg, B8ZS). (56) Bit 7 Stuffing (nx56K data rate, n=1-24) (64) Clear Channel (nx64K data rate, n=1-24)" ::= { mfrapCfgDteTable 11 } mfrapCfgDteConnDs0Required OBJECT-TYPE SYNTAX INTEGER (0..24) ACCESS read-only STATUS mandatory DESCRIPTION "The number of DS0s required by the node's DTE port. This is based upon the DTE data rate and channel density selections." ::= { mfrapCfgDteTable 12 } mfrapCfgDteConnAutoStatus OBJECT-TYPE SYNTAX INTEGER { configuration-valid (1), configuration-invalid (2), valid-config-updated (3), invalid-cfg-no-update (4) } ACCESS read-only STATUS mandatory DESCRIPTION "There's a tight correlation among DTE data rate, starting DS0, and channel density. This read-only parameter reports the status of the most recent change to any of these connection parameters. If the connection request is not valid a mismatch among DteLineRate, DteStartDs0, and DteChannelDensity must be resolved (1) and (3) configuration valid - the previous connections profile is accepted and activated (2) and (4) connections profile invalid, previous configuration remains." ::= { mfrapCfgDteTable 13 } mfrapCfgDteConnAutoUpdate OBJECT-TYPE SYNTAX INTEGER { config-and-connect (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Updates the connection-critical parameters: line rate, channel density and starting ds0; drops the currect connection; and initiate the new connection. Following the issuance of this command, DteAutoStatus should be queried to verify the update was successful. The setting of this object updates the mfrapCfgEditTable. In order for the changes to take effect in the system, the mfrapCfgConnUpdateCmd must subsequently be set." ::= { mfrapCfgDteTable 14 } mfrapCfgDteRts OBJECT-TYPE SYNTAX INTEGER { internal-held-active (1), external-from-dte (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Selects whether the RTS signal is external-from-dte (2) or internal-held-active (1)." ::= { mfrapCfgDteTable 15 } mfrapCfgDteDtr OBJECT-TYPE SYNTAX INTEGER { internal-held-active (1), external-from-dte (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Selects whether the DTR signal is external-from-dte (2) or internal-held-active (1)." ::= { mfrapCfgDteTable 16 } mfrapCfgDteDcdOutput OBJECT-TYPE SYNTAX INTEGER { signal-off (1), signal-on (2), follow-carrier (3), follow-test (4), follow-rts (5), follow-carrier-rts (6), follow-sync-rts (7), follow-lmi-carr-rts (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Specifies the behavior of this control signal generated by the M-FRAP towards the DTE. inactive-always (1) - signal is permanently INACTIVE. active-always (2) - signal is permanently ACTIVE. reflect-carrier (3) - signal echoes the carrier signal status from the WAN. inactive-with-test-mode (4) - signal is ACTIVE during normal data transfer and INACTIVE during diagnostic conditions that interfere with data transfer from the DTE to the WAN. follow-RTS (5) - signal echoes the status of RTS as processed from the DTE. reflect-carrier-and-RTS (6) - signal is a logical AND between RTS processed from the DTE and the carrier signal status from the WAN. No signal from the WAN or RTS INACTIVE will cause this control signal to be asserted INACTIVE. reflect-sync-and-RTS (7) - signal is a logical AND between RTS processed from the DTE and the frame synchronization with the WAN. Red Alarm defines the threshold for declaring synchronization. reflect-LMI-and-carrier-and-RTS (8) - signal is a logical AND between RTS processed from the DTE and the carrier signal status from the WAN and LMI. If the unit is in an LMI passthrough state then LMI is considered Active. LMI Inactivity timer must be non-zero for LMI to be declared Inactive. Note that there is a separate parameter for how the unit processes RTS that is related to this function if options (4), (5), (6), or (7) is selected, see CfgDteRts. " ::= { mfrapCfgDteTable 18 } mfrapCfgDteDsrOutput OBJECT-TYPE SYNTAX INTEGER { signal-off (1), signal-on (2), follow-carrier (3), follow-test (4), follow-rts (5), follow-carrier-rts (6), follow-sync-rts (7), follow-lmi-carr-rts (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Specifies the behavior of this control signal generated by the M-FRAP towards the DTE. inactive-always (1) - signal is permanently INACTIVE. active-always (2) - signal is permanently ACTIVE. reflect-carrier (3) - signal echoes the carrier signal status from the WAN. inactive-with-test-mode (4) - signal is ACTIVE during normal data transfer and INACTIVE during diagnostic conditions that interfere with data transfer from the DTE to the WAN. follow-RTS (5) - signal echoes the status of RTS as processed from the DTE. reflect-carrier-and-RTS (6) - signal is a logical AND between RTS processed from the DTE and the carrier signal status from the WAN. No signal from the WAN or RTS INACTIVE will cause this control signal to be asserted INACTIVE. reflect-sync-and-RTS (7) - signal is a logical AND between RTS processed from the DTE and the frame synchronization with the WAN. Red Alarm defines the threshold for declaring synchronization. reflect-LMI-and-carrier-and-RTS (8) - signal is a logical AND between RTS processed from the DTE and the carrier signal status from the WAN and LMI. If the unit is in an LMI passthrough state then LMI is considered Active. LMI Inactivity timer must be non-zero for LMI to be declared Inactive. Note that there is a separate parameter for how the unit processes RTS that is related to this function if options (4), (5), (6), or (7) is selected, see CfgDteRts. " ::= { mfrapCfgDteTable 19 } mfrapCfgDteCtsOutput OBJECT-TYPE SYNTAX INTEGER { signal-off (1), signal-on (2), follow-carrier (3), follow-test (4), follow-rts (5), follow-carrier-rts (6), follow-sync-rts (7), follow-lmi-carr-rts (8) } ACCESS read-write STATUS mandatory DESCRIPTION "Specifies the behavior of this control signal generated by the M-FRAP towards the DTE. inactive-always (1) - signal is permanently INACTIVE. active-always (2) - signal is permanently ACTIVE. reflect-carrier (3) - signal echoes the carrier signal status from the WAN. inactive-with-test-mode (4) - signal is ACTIVE during normal data transfer and INACTIVE during diagnostic conditions that interfere with data transfer from the DTE to the WAN. follow-RTS (5) - signal echoes the status of RTS as processed from the DTE. reflect-carrier-and-RTS (6) - signal is a logical AND between RTS processed from the DTE and the carrier signal status from the WAN. No signal from the WAN or RTS INACTIVE will cause this control signal to be asserted INACTIVE. reflect-sync-and-RTS (7) - signal is a logical AND between RTS processed from the DTE and the frame synchronization with the WAN. Red Alarm defines the threshold for declaring synchronization. reflect-LMI-and-carrier-and-RTS (8) - signal is a logical AND between RTS processed from the DTE and the carrier signal status from the WAN and LMI. If the unit is in an LMI passthrough state then LMI is considered Active. LMI Inactivity timer must be non-zero for LMI to be declared Inactive. Note that there is a separate parameter for how the unit processes RTS that is related to this function if options (4), (5), (6), or (7) is selected, see CfgDteRts. " ::= { mfrapCfgDteTable 20 } -- -- The FrameRelay Configuration Table -- This table contains the Configuration for Frame Relay -- applications. This includes format, address resolution -- and parameters associated with the unit's support of -- the Link Management Protocol (LMI). mfrapCfgFrTable OBJECT IDENTIFIER ::= { mfrapConfiguration 5 } mfrapCfgFrAddrLen OBJECT-TYPE SYNTAX INTEGER { twobytes (1), threebytes (2), fourbytes (3) } ACCESS read-write STATUS mandatory DESCRIPTION "Defines the size of the DLCI address field of the Frame Relay header. This setting must correspond to the Frame Relay transmission format; typically Two bytes. (1) two byte DLCI address field (2) three byte DLCI address field (3) four byte DLCI address field" ::= { mfrapCfgFrTable 1 } mfrapCfgFrCrcMode OBJECT-TYPE SYNTAX INTEGER { discard (1), passthru (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This defines the manner in which the unit handles HDLC protocol errors (crc errors) in a Frame Relay application. If Discard is selected the unit will respond to an errored frame by aborting the frame if transmission has begun; or simply discarding it if transmission has not begun. If Passthru is selected the unit will transmit the entire frame but will place an incorrect crc in it to preserve the error indication. (1) discard (2) passthru" ::= { mfrapCfgFrTable 2 } mfrapCfgFrLmiType OBJECT-TYPE SYNTAX INTEGER { annexd (1), annexa (2), type1 (3), autosense (4) } ACCESS read-write STATUS mandatory DESCRIPTION "The LMI type used in a Frame Relay application. This setting must match the attached Frame Relay device configuration. Annex-A and Annex-D use DLCI 0, and Type 1 uses DLCI 1023. Type 1 is alternatively referred to as Cisco, Group of four, or simply LMI. Annex-D may be referred to as ANSI T1.617. Annex-A may be referred to as ITU or CCITT Q.933. Auto-sense will either use the most recently detected LMI type or, in the absence of any LMI, will attempt to instigate LMI communications using each protocol. (1) Annnex-A: conforms to ITU (CCITT) Q.933 annex A (2) Annnex-D: conforms to ANSI T1.617 annex D (3) Type 1: conforms to the original LMI as developed by the Group of Four (4) Auto-sense: unit will attempt to detect and synchronize to the LMI type of the attached equipment." ::= { mfrapCfgFrTable 3 } mfrapCfgFrLmiInactivityTimeout OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "Timer used by the unit to determine that an attached device is not participating in the LMI protocol and that the unit should attempt to source LMI. This timer also controls the length of time that the LMI sourcing state machine remains in a particular state as it attempts to locate an LMI peer. (0) LMI Sourcing disabled (2-255) LMI Inactivity timeout" ::= { mfrapCfgFrTable 4 } mfrapCfgFrLmiKeepaliveTimeout OBJECT-TYPE SYNTAX INTEGER (2..255) ACCESS read-write STATUS mandatory DESCRIPTION "Timer used by the unit to determine the frequency at which Status Enquiries are issued during LMI sourcing states where the unit is emulating a Frame Relay DTE device. (2-255) length of time between sending enquiries (in seconds)" ::= { mfrapCfgFrTable 5 } mfrapCfgFrAddrResMode OBJECT-TYPE SYNTAX INTEGER { inactive (1), arp (2), inarp (3), both (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Enable ARP (2), INARP (3), both (4), or neither (1)." ::= { mfrapCfgFrTable 6 } mfrapCfgFrAddrResDlcis OBJECT-TYPE SYNTAX INTEGER { single (1), multiple (2), t1multi (3), dtemulti (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Address Resolution Dlcis determines which dlcis are used for address resolution. Multiple DLCI support only applies to piggyback mode; in other management modes, only the configured default dlci is used (1) Support the configured Address Resolution protocol(s) out both ports on the single configured default DLCI only (CfgFrDLCIValue). (2) Support the configured Address Resolution protocol(s) out both ports on all active DLCIs (per LMI). (3) Support the configured Address Resolution protocol(s) out the WAN on all active DLCIs (per LMI) and out the DTE on only the single default DLCI (CfgFrDLCIValue). (4) Support the configured Address Resolution protocol(s) out the DTE on all active DLCIs (per LMI) and out the WAN on only the single default DLCI (CfgFrDLCIValue)." ::= { mfrapCfgFrTable 9 } mfrapCfgFrAddrResInarpTimer OBJECT-TYPE SYNTAX INTEGER (5..86400) ACCESS read-write STATUS mandatory DESCRIPTION "The frequency at which the unit issues INARP requests (in seconds) from 5 to 86400 (24 hours)." ::= { mfrapCfgFrTable 7 } mfrapCfgFrLmiFullStatus OBJECT-TYPE SYNTAX INTEGER (0..3600) ACCESS read-write STATUS mandatory DESCRIPTION "Timer used by the unit to determine if an LMI Full Status Report is missing. In the absence of a Full Status report for the duration defined by this timer, the unit will declare all DLCI's status INACTIVE and begin logging down time. Data passage is not interfered with. (0) Full Status Timer is disabled (20-3600) Full Status Report Timeout in seconds." ::= { mfrapCfgFrTable 8 } -- -- The VNIP Configuration Table -- This table contains the Configuration for the VNIP -- protocol support on the MFRAP T1 DSU. mfrapCfgVnipTable OBJECT IDENTIFIER ::= { mfrapConfiguration 6 } mfrapCfgVnipMode OBJECT-TYPE SYNTAX INTEGER { inactive (1), dte (2), t1 (3), both (4) } ACCESS read-write STATUS mandatory DESCRIPTION "This setting configures the unit for VNIP topology support on a per-interface basis. Establishing a VNIP topology is a fundamental prerequisite to applying the VNIP feature set which includes PVC-based delay measurement, diagnostics, and congestion monitoring. With VNIP enabled on an interface the unit will attempt to locate VNIP peers out that port. As peers are discovered and logged the unit will report the topology it has learned on its opposite interface. If VNIP is inactive on one interface it will not engage in any VNIP dialog; however it will continue to listen for topology messages on the inactive interface and will reflect these messages out the opposite interface if VNIP is enabled. With VNIP inactive on both interfaces the unit will transparently pass all VNIP messages. The topology database includes ip addresses, DLCI values, and the number of VNIP hops in between. (1) Topology Inactive: VNIP messages pass through unit (2) Topology Enabled on DTE only: unit logs VNIP peers seen out the DTE interface. Unit listens for topology reports from the WAN but doesn't generate any towards the WAN. Will report learned WAN topology towards the DTE. (3) Topology Enabled on WAN only: unit logs VNIP peers seen out the WAN interface. Unit listens for topology reports from the DTE but doesn't generate any towards the DTE. Will report learned DTE topology towards the WAN. (4) Topolgy Enabled on Both DTE and WAN: Unit logs VNIP peers seen out both interfaces and generates DTE topolgy reports towards the WAN and vice versa." ::= { mfrapCfgVnipTable 1 } mfrapCfgVnipInitTimer OBJECT-TYPE SYNTAX INTEGER (5..86400) ACCESS read-write STATUS mandatory DESCRIPTION "The frequency of hello messages sent during initialization in seconds from 5 seconds to 86400 seconds (24 hours)." ::= { mfrapCfgVnipTable 2 } mfrapCfgVnipKeepAliveTimer OBJECT-TYPE SYNTAX INTEGER (5..86400) ACCESS read-write STATUS mandatory DESCRIPTION "This is the frequency that topology reports are issued out any interface that has VNIP enabled. Once a Hello exchange occurs, the unit will periodically issue a VNIP message which reflects the topology it has learned on the opposite interface. This Keep Alive timer must be less than any peer unit's Inactivity timer. (5-86400) VNIP Topology Update frequency (in seconds)" ::= { mfrapCfgVnipTable 3 } mfrapCfgVnipInactivityTimer OBJECT-TYPE SYNTAX INTEGER (5..86400) ACCESS read-write STATUS mandatory DESCRIPTION "The length of time to wait before dropping a VNIP peer from the database and attempting tp reestablish communications by issuing the VNIP Hello message. If this timer expires then the entire topology database is reset. The Inactivity timers of any unit participating in a VNIP topology must be greater than the highest Keep Alive timer in the topology. (5- 86400) VNIP Hello frequency (in seconds)" ::= { mfrapCfgVnipTable 4 } mfrapCfgVnipTransitDelayFrequency OBJECT-TYPE SYNTAX INTEGER (15..86400) ACCESS read-write STATUS mandatory DESCRIPTION "Transit Delay measurements may be enabled between any DLCI peers that have been logged through the topology protocol. Delay messages are issued at this frequency and results are recorded. Transit delay measures the round-trip network delay between two VNIP peers (internal unit latencies are not part of the measurement). Traps may be optionally generated if a delay threshold is exceeded. (15-86400): Transit Delay message frequency (in seconds)" ::= { mfrapCfgVnipTable 5 } mfrapCfgTransitDelayTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgTransitDelayEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table defining the transit delay measurement profile for each of the learned VNIP peers. As peers are located and logged into the topology database, a default transit delay profile is assumed. The default is to enable transit delay to all hops located out the interface. A DLCI's transit delay profile cannot be modified unless the DLCI has been discovered through the VNIP topology protocol." ::= { mfrapCfgVnipTable 20 } mfrapCfgTransitDelayEntry OBJECT-TYPE SYNTAX MfrapCfgTransitDelayEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A VNIP Transit Delay configuration entry for a particular DLCI on a particular interface. A DLCI's transit delay profile cannot be modified unless the DLCI has been discovered through the VNIP topology protocol" INDEX { mfrapCfgTransitDelayInterface, mfrapCfgTransitDelayDlciValue } ::= { mfrapCfgTransitDelayTable 1 } MfrapCfgTransitDelayEntry ::= SEQUENCE { mfrapCfgTransitDelayInterface INTEGER, mfrapCfgTransitDelayDlciValue INTEGER, mfrapCfgTransitDelayNumHops INTEGER, mfrapCfgTransitDelayRcvSummaryCancel INTEGER, mfrapCfgTransitDelayThreshold INTEGER } mfrapCfgTransitDelayInterface OBJECT-TYPE SYNTAX INTEGER { dte-interface (1), t1-interface (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This is the interface being configured for VNIP Transit Delay. If topology is enabled, each interface will contain a database of VNIP peers organized by DLCI value and Number of Hops. (1) DTE Interface (2) DDS Interface" ::= { mfrapCfgTransitDelayEntry 1 } mfrapCfgTransitDelayDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "This is the DLCI being configured for VNIP Transit Delay. If topology is enabled, each interface will contain a database of VNIP peers organized by DLCI value and Number of Hops." ::= { mfrapCfgTransitDelayEntry 2 } mfrapCfgTransitDelayNumHops OBJECT-TYPE SYNTAX INTEGER (0..255) ACCESS read-write STATUS mandatory DESCRIPTION "VNIP topolgy may include multiple units on a given DLCI/interface. The topology logs the number of intermediate VNIP peers between units (Hops). This setting determines which peers on a DLCI are participating in delay measurements. (0) All hops (1-254) individually addressable delay measurement between any two peers. (255) Furthest hop only" ::= { mfrapCfgTransitDelayEntry 4 } mfrapCfgTransitDelayRcvSummaryCancel OBJECT-TYPE SYNTAX INTEGER { enable-rsc (1), disable-rsc (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Controls the Receive Summary Cancellation feature of VNIP Transit Delay on this interface/DLCI. Every Transit Delay measurement exchange includes a follow-up message from the initiator with the delay results. If RSC is enabled, a unit will log results based upon this summary message and will not issue its next scheduled delay measurement. With RSC disabled, the unit will not use the summary message and will always issue its regularly scheduled message based on the delay frequency timer. The purpose of this feature is to reduce traffic introduced by VNIP. In a typical peer-to-peer transit delay measurement where both ends are concurrently conducting transit delay measurements it's recommended that one end have RSC enabled and one end disabled." ::= { mfrapCfgTransitDelayEntry 5 } mfrapCfgTransitDelayThreshold OBJECT-TYPE SYNTAX INTEGER (0..86400000) ACCESS read-write STATUS mandatory DESCRIPTION "Specifies a transit delay threshold for this DLCI/interface. When the transit delay exceeds the threshold, a TRAP is sent. The threshold may be set from one millisecond to 24 hours. A value of 0 will prevent a TRAP from being sent. (0): Transit delay threshold trap disabled for this DLCI/interface (1-86400000): delay threshhold. Any delay measurements exceeding this result will generate a trap." ::= { mfrapCfgTransitDelayEntry 6 } mfrapCfgTDDeleteTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgTDDeleteEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The table allows the user to disable transit delay measurements for a specific DLCI on a particular interface." ::= { mfrapCfgVnipTable 21 } mfrapCfgTDDeleteEntry OBJECT-TYPE SYNTAX MfrapCfgTDDeleteEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Disables VNIP Transit Delay for a particular interface and DLCI." INDEX { mfrapCfgTDDeleteInterface } ::= { mfrapCfgTDDeleteTable 1 } MfrapCfgTDDeleteEntry ::= SEQUENCE { mfrapCfgTDDeleteInterface INTEGER, mfrapCfgTDDeleteDlciValue INTEGER } mfrapCfgTDDeleteInterface OBJECT-TYPE SYNTAX INTEGER { dte-interface (1), t1-interface (2) } ACCESS not-accessible STATUS mandatory DESCRIPTION "Transit delay can be disabled for a given DLCI on either interface. This indexes the interface. Setting this index and the associated DLCI index will disable transit delay on that combination." ::= { mfrapCfgTDDeleteEntry 1 } mfrapCfgTDDeleteDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Transit delay can be disabled for a given DLCI on either interface. This indexes the DLCI. Setting this index and the associated interface index will disable transit delay on that combination." ::= { mfrapCfgTDDeleteEntry 2 } mfrapCfgTransitDelayTableClear OBJECT-TYPE SYNTAX INTEGER { clear-table (1) } ACCESS write-only STATUS mandatory DESCRIPTION " The mfrapCfgTransitDelayTable is cleared. (1) clear the table " ::= { mfrapCfgVnipTable 22 } -- The Frame Relay Performance Configuration -- A group of configuration tables supporting frame relay -- performance measurement on the MFRAP T1 CSU. mfrapCfgFrPerf OBJECT IDENTIFIER ::= { mfrapConfiguration 7 } mfrapCfgFrPerfDlciNamesTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgFrPerfDlciNamesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This table allows the user to configure DLCI specific parameters such as Names, CIR, and EIR. Additionally, any DLCIs configured with these parameters will be added into the Short Term statistics database next time its cleared." ::= { mfrapCfgFrPerf 1 } mfrapCfgFrPerfDlciNamesEntry OBJECT-TYPE SYNTAX MfrapCfgFrPerfDlciNamesEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A table entry indexed by DLCI, containing a DLCI, a DLCI name, a CIR, and how the CIR value was obtained." INDEX { mfrapCfgFrPerfDlciNamesDlciValue } ::= { mfrapCfgFrPerfDlciNamesTable 1 } MfrapCfgFrPerfDlciNamesEntry ::= SEQUENCE { mfrapCfgFrPerfDlciNamesDlciValue INTEGER, mfrapCfgFrPerfDlciNamesDlciName DisplayString (SIZE (0..15)), mfrapCfgFrPerfDlciNamesCirValue INTEGER, mfrapCfgFrPerfDlciNamesCirType INTEGER, mfrapCfgFrPerfDlciNamesUtilThreshold INTEGER, mfrapCfgFrPerfDlciNamesEirValue INTEGER } mfrapCfgFrPerfDlciNamesDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "A DLCI selected for customized configuration and to be added to short term statistics collection (if it wasn't already there)." ::= { mfrapCfgFrPerfDlciNamesEntry 1 } mfrapCfgFrPerfDlciNamesDlciName OBJECT-TYPE SYNTAX DisplayString (SIZE (0..15)) ACCESS read-write STATUS mandatory DESCRIPTION "A user-specifiable name for an individual DLCI." ::= { mfrapCfgFrPerfDlciNamesEntry 2 } mfrapCfgFrPerfDlciNamesCirValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The CIR value for an individual DLCI. This value is used in the calculation utilization as a percentage of CIR. If the CIR is reported in the LMI message then the reported value will override this configured entry. In the absence of LMI CIR and a configured CIR, the unit will assume that the CIR is the DTE Line Rate." ::= { mfrapCfgFrPerfDlciNamesEntry 3 } mfrapCfgFrPerfDlciNamesCirType OBJECT-TYPE SYNTAX INTEGER { cir-acquired-from-lmi (1), cir-configured-by-user (2), cir-is-datarate (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The source of the CIR value for this DLCI. If CIR for a DLCI is part of the LMI message then this LMI supplied CIR will override any defined CIR. If CIR is not part of LMI and has not been explicitly defined by the user it will default to the DTE Line Rate. (1) CIR reported in LMI Full Status message (2) CIR configured by user (3) CIR defaulted to DTE Line Rate" ::= { mfrapCfgFrPerfDlciNamesEntry 4 } mfrapCfgFrPerfDlciNamesUtilThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "The threshold for generating a utilization threshold trap as a percentage of the CIR. If the utilization percentage is above this threshold for more than mfrapCfgFrPerfDlciUtilThreshold number of mfrapCfgFrPerfTimersSTInterval's a mfrapPvc(Rx/Tx)UtilizationExceeded trap will be issued. If the If the utilization percentage falls below this threshold for more than mfrapCfgFrPerfDlciUtilThreshold number of mfrapCfgFrPerfTimersSTInterval's a mfrapPvc(Rx/Tx)UtilizationExceeded trap will be issued." ::= { mfrapCfgFrPerfDlciNamesEntry 5} mfrapCfgFrPerfDlciNamesEirValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The EIR value for an individual DLCI. In the absence of a configured EIR, the unit will assume that the EIR is the DTE Line Rate." ::= { mfrapCfgFrPerfDlciNamesEntry 6 } mfrapCfgFrPerfDlciNamesDelete OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Setting this object with a specific DLCI value will remove the DLCI from the DLCI-specific parameters database." ::= { mfrapCfgFrPerf 2 } mfrapCfgFrPerfTimers OBJECT IDENTIFIER ::= { mfrapCfgFrPerf 3 } mfrapCfgFrPerfTimersSTInterval OBJECT-TYPE SYNTAX INTEGER (3..60) ACCESS read-write STATUS mandatory DESCRIPTION "Short term statistics maintain cumulative counts, and counts for the current and previous short term windows. This value is the window size for the short term statistics intervals. (3-60): short term statistics collection interval" ::= { mfrapCfgFrPerfTimers 1 } mfrapCfgFrPerfTimersLTInterval OBJECT-TYPE SYNTAX INTEGER (4..3600) ACCESS read-write STATUS mandatory DESCRIPTION "Long term statistics maintain 96 contiguous intervals of configurable protocol per DLCI statistics. This value is the window size of each interval. Adjusting this value will change the overall length of time that the 96 intervals will span. (4-3600): long term statsistics collection interval" ::= { mfrapCfgFrPerfTimers 2 } mfrapCfgFrPerfUserProtocolsTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgFrPerfUserProtocolsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This table allows the user to select TCP/UDP ports for statistics collection. Tx and Rx byte counts will collected on the specified ports. These ports are selectable as protocols in the long term statistics filter and are displayed with the other protocols in the short term statistics." ::= { mfrapCfgFrPerf 4 } mfrapCfgFrPerfUserProtocolsEntry OBJECT-TYPE SYNTAX MfrapCfgFrPerfUserProtocolsEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An index and TCP/UDP port number pair." INDEX { mfrapCfgFrPerfUserProtocolsIndex } ::= { mfrapCfgFrPerfUserProtocolsTable 1 } MfrapCfgFrPerfUserProtocolsEntry ::= SEQUENCE { mfrapCfgFrPerfUserProtocolsIndex INTEGER, mfrapCfgFrPerfUserProtocolsPortNum INTEGER } mfrapCfgFrPerfUserProtocolsIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index. Beginning with index 1, the range is defined in SysNumUserProtocols" ::= { mfrapCfgFrPerfUserProtocolsEntry 1 } mfrapCfgFrPerfUserProtocolsPortNum OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Tx and Rx byte counts will be collected on the user-specifiable TCP/UDP port number. (0) port not defined (1-65535): IP TCP/UDP protocol port number." ::= { mfrapCfgFrPerfUserProtocolsEntry 2 } mfrapCfgFrPerfLTDlciFilterTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgFrPerfLTDlciFilterEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Long term statistics can only be collected on a limited number of DLCIs. The value of SysLTFNumDlcis defines the maximum number of DLCIs that can be included in the Long Term Statistics. Once one or more DLCIs are added to Long Term Stats, the user may assign a set of protocols that will be monitored across all of the Long Term DLCIs." ::= { mfrapCfgFrPerf 5 } mfrapCfgFrPerfLTDlciFilterEntry OBJECT-TYPE SYNTAX MfrapCfgFrPerfLTDlciFilterEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An index and DLCI number pair." INDEX { mfrapCfgFrPerfLTDlciFilterIndex } ::= { mfrapCfgFrPerfLTDlciFilterTable 1 } MfrapCfgFrPerfLTDlciFilterEntry ::= SEQUENCE { mfrapCfgFrPerfLTDlciFilterIndex INTEGER, mfrapCfgFrPerfLTDlciFilterDlciNum INTEGER } mfrapCfgFrPerfLTDlciFilterIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index. Beginning with index 1, the maximum is defined by the value of SysLTFNumDlcis." ::= { mfrapCfgFrPerfLTDlciFilterEntry 1 } mfrapCfgFrPerfLTDlciFilterDlciNum OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "Setting a DLCI value here will add that DLCI into the Long term statistics database (associated with its index) and it will be monitored for the protocol activity defined in the Long Term Protocol filter." ::= { mfrapCfgFrPerfLTDlciFilterEntry 2 } mfrapCfgFrPerfLTProtocolFilterTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgFrPerfLTProtocolFilterEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Long term statistics can only be collected on a limited number of protocols. The maximum number of Long Term Protoocls are defined by SysLTFNumProtocols. This table allows the user to configure those protocols." ::= { mfrapCfgFrPerf 6 } mfrapCfgFrPerfLTProtocolFilterEntry OBJECT-TYPE SYNTAX MfrapCfgFrPerfLTProtocolFilterEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An index and protocol pair." INDEX { mfrapCfgFrPerfLTProtocolFilterIndex } ::= { mfrapCfgFrPerfLTProtocolFilterTable 1 } MfrapCfgFrPerfLTProtocolFilterEntry ::= SEQUENCE { mfrapCfgFrPerfLTProtocolFilterIndex INTEGER, mfrapCfgFrPerfLTProtocolFilterProtocol INTEGER } mfrapCfgFrPerfLTProtocolFilterIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "An index. Beginning with index 1, the maximum is defined by the value of SysLTFNumProtocols." ::= { mfrapCfgFrPerfLTProtocolFilterEntry 1 } mfrapCfgFrPerfLTProtocolFilterProtocol OBJECT-TYPE SYNTAX INTEGER { ip-tx-bc (1), ip-rx-bc (2), tcp-ip-tx-bc (3), tcp-ip-rx-bc (4), ftp-tcp-ip-tx-bc (5), ftp-tcp-ip-rx-bc (6), telnet-tcp-ip-tx-bc (7), telnet-tcp-ip-rx-bc (8), smtp-tcp-ip-tx-bc (9), smtp-tcp-ip-rx-bc (10), -- tftp-tcp-ip-tx-bc (11), -- tftp-tcp-ip-rx-bc (12), http-tcp-ip-tx-bc (13), http-tcp-ip-rx-bc (14), netbios-ssn-tcp-ip-tx-bc (15), netbios-ssn-tcp-ip-rx-bc (16), -- snmp-tcp-ip-tx-bc (17), -- snmp-tcp-ip-rx-bc (18), -- snmptrap-tcp-ip-tx-bc (19), -- snmptrap-tcp-ip-rx-bc (20), udp-ip-tx-bc (21), udp-ip-rx-bc (22), -- ftp-udp-ip-tx-bc (23), -- ftp-udp-ip-rx-bc (24), -- telnet-udp-ip-tx-bc (25), -- telnet-udp-ip-rx-bc (26), -- smtp-udp-ip-tx-bc (27), -- smtp-udp-ip-rx-bc (28), tftp-udp-ip-tx-bc (29), tftp-udp-ip-rx-bc (30), -- http-udp-ip-tx-bc (31), -- http-udp-ip-rx-bc (32), netbios-dgm-udp-ip-tx-bc (33), netbios-dgm-udp-ip-rx-bc (34), snmp-udp-ip-tx-bc (35), snmp-udp-ip-rx-bc (36), snmptrap-udp-ip-tx-bc (37), snmptrap-udp-ip-rx-bc (38), rip-udp-ip-tx-bc (39), rip-udp-ip-rx-bc (40), icmp-ip-tx-bc (41), icmp-ip-rx-bc (42), echorep-icmp-ip-tx-bc (43), echorep-icmp-ip-rx-bc (44), dest-unr-icmp-ip-tx-bc (45), dest-unr-icmp-ip-rx-bc (46), src-quench-icmp-ip-tx-bc (47), src-quench-icmp-ip-rx-bc (48), redirect-icmp-ip-tx-bc (49), redirect-icmp-ip-rx-bc (50), echoreq-icmp-ip-tx-bc (51), echoreq-icmp-ip-rx-bc (52), time-excd-icmp-ip-tx-bc (53), time-excd-icmp-ip-rx-bc (54), param-prob-icmp-ip-tx-bc (55), param-prob-icmp-ip-rx-bc (56), timestamp-req-icmp-ip-tx-bc (57), timestamp-req-icmp-ip-rx-bc (58), timestamp-rep-icmp-ip-tx-bc (59), timestamp-rep-icmp-ip-rx-bc (60), addr-mask-req-icmp-ip-tx-bc (61), addr-mask-req-icmp-ip-rx-bc (62), addr-mask-rep-icmp-ip-tx-bc (63), addr-mask-rep-icmp-ip-rx-bc (64), pkt-too-big-icmp-ip-tx-bc (65), pkt-too-big-icmp-ip-rx-bc (66), gp-mem-query-icmp-ip-tx-bc (67), gp-mem-query-icmp-ip-rx-bc (68), gp-mem-report-icmp-ip-tx-bc (69), gp-mem-report-icmp-ip-rx-bc (70), gp-mem-reduct-icmp-ip-tx-bc (71), gp-mem-reduct-icmp-ip-rx-bc (72), ospf-ip-tx-bc (73), ospf-ip-rx-bc (74), other-ip-tx-bc (75), other-ip-rx-bc (76), ipx-tx-bc (77), ipx-rx-bc (78), spx-ipx-tx-bc (79), spx-ipx-rx-bc (80), ncp-ipx-tx-bc (81), ncp-ipx-rx-bc (82), sap-ipx-tx-bc (83), sap-ipx-rx-bc (84), rip-ipx-tx-bc (85), rip-ipx-rx-bc (86), netbios-ipx-tx-bc (87), netbios-ipx-rx-bc (88), other-ipx-tx-bc (89), other-ipx-rx-bc (90), arp-tx-bc (91), arp-rx-bc (92), arp-req-tx-bc (93), arp-req-rx-bc (94), arp-rep-tx-bc (95), arp-rep-rx-bc (96), rarp-req-tx-bc (97), rarp-req-rx-bc (98), rarp-rep-tx-bc (99), rarp-rep-rx-bc (100), inarp-req-tx-bc (101), inarp-req-rx-bc (102), inarp-rep-tx-bc (103), inarp-rep-rx-bc (104), sna-tx-bc (105), sna-rx-bc (106), sna-subarea-tx-bc (107), sna-subarea-rx-bc (108), sna-periph-tx-bc (109), sna-periph-rx-bc (110), sna-appn-tx-bc (111), sna-appn-rx-bc (112), sna-netbios-tx-bc (113), sna-netbios-rx-bc (114), cisco-tx-bc (115), cisco-rx-bc (116), other-tx-bc (117), other-rx-bc (118), user-defined-1-tx-bc (119), user-defined-1-rx-bc (120), user-defined-2-tx-bc (121), user-defined-2-rx-bc (122), user-defined-3-tx-bc (123), user-defined-3-rx-bc (124), user-defined-4-tx-bc (125), user-defined-4-rx-bc (126), thru-byte-tx-bc (127), thru-byte-rx-bc (128), thru-frame-tx-bc (129), thru-frame-rx-bc (130), thru-fecn-tx-bc (131), thru-fecn-rx-bc (132), thru-becn-tx-bc (133), thru-becn-rx-bc (134), thru-de-tx-bc (135), thru-de-rx-bc (136), cir-percent-range1-tx-bc (137), cir-percent-range1-rx-bc (138), cir-percent-range2-tx-bc (139), cir-percent-range2-rx-bc (140), cir-percent-range3-tx-bc (141), cir-percent-range3-rx-bc (142), cir-percent-range4-tx-bc (143), cir-percent-range4-rx-bc (144), cir-percent-range5-tx-bc (145), cir-percent-range5-rx-bc (146), cir-percent-range6-tx-bc (147), cir-percent-range6-rx-bc (148), cir-percent-range7-tx-bc (149), cir-percent-range7-rx-bc (150), cir-percent-range8-tx-bc (151), cir-percent-range8-rx-bc (152), lmi-tx-bc (153), lmi-rx-bc (154), lmi-livo-enq-tx-bc (155), lmi-livo-enq-rx-bc (156), lmi-livo-stat-tx-bc (157), lmi-livo-stat-rx-bc (158), lmi-full-enq-tx-bc (159), lmi-full-enq-rx-bc (160), lmi-full-stat-tx-bc (161), lmi-full-stat-rx-bc (162), lmi-other-tx-bc (163), lmi-other-rx-bc (164), total-uptime (165), total-downtime (166), igrp-tx-bc (167), igrp-rx-bc (168), vnip-tx-bc (169), vnip-rx-bc (170), annex-g-tx-bc (171), annex-g-rx-bc (172), delete-entry (-1) } ACCESS read-write STATUS mandatory DESCRIPTION "Long term statistics will be collected on the user-specifiable protocol. Setting a -1 remove the indexed protocol from the filter." ::= { mfrapCfgFrPerfLTProtocolFilterEntry 2 } mfrapCfgFrPerfDlciDefaultUtilThreshold OBJECT-TYPE SYNTAX INTEGER (0..100) ACCESS read-write STATUS mandatory DESCRIPTION "The default threshold for generating a utilization threshold trap as a percentage of the CIR. This value is used for mfrapCfgFrPerfDlciNamesUtilThreshold when a DLCI is first discovered. " ::= { mfrapCfgFrPerf 7 } mfrapCfgFrPerfDlciUtilDuration OBJECT-TYPE SYNTAX INTEGER (0..65535) ACCESS read-write STATUS mandatory DESCRIPTION "The number of Short Term Intervals that a DLCI's utilization as a percentage of CIR must be above or below the value of mfrapCfgFrPerfDlciUtilThreshold before a mfrapPvc(Rx/Tx)UtilizationExceededTrap or mfrapPvc(Rx/Tx)UtilizationClearedTrap is issued. " ::= { mfrapCfgFrPerf 8 } mfrapCfgFrPerfDlciNamesTableClear OBJECT-TYPE SYNTAX INTEGER { clear-table (1), clear-table-keep-stats (2) } ACCESS write-only STATUS mandatory DESCRIPTION "Clears the smperCfgFrPerfDlciNamesTable (1) clear the table or (2) clear the table but don't remove the dlcis from the short term statistics." ::= { mfrapCfgFrPerf 9 } mfrapCfgFrPerfUserProtocolsTableClear OBJECT-TYPE SYNTAX INTEGER { clear-table (1) } ACCESS write-only STATUS mandatory DESCRIPTION " Clears the mfrapCfgFrPerfUserProtocolsTable (1) clear the table " ::= { mfrapCfgFrPerf 10 } mfrapCfgFrPerfLTDlciFilterTableClear OBJECT-TYPE SYNTAX INTEGER { clear-table (1) } ACCESS write-only STATUS mandatory DESCRIPTION " Clears the mfrapCfgFrPerfLTDlciFilterTable (1) clear the table " ::= { mfrapCfgFrPerf 11 } mfrapCfgFrPerfLTProtocolFilterTableClear OBJECT-TYPE SYNTAX INTEGER { clear-table (1) } ACCESS write-only STATUS mandatory DESCRIPTION " Clears the mfrapCfgFrPerfLTProtocolFilterTable (1) clear the table " ::= { mfrapCfgFrPerf 12 } mfrapCfgFrPerfUnprovDlcisDelete OBJECT-TYPE SYNTAX INTEGER { delete-unprov (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Delete all unprovisioned and Not-In-LMI dlcis (1) delete all unprovisioned " ::= { mfrapCfgFrPerf 13 } mfrapCfgSecurityTable OBJECT IDENTIFIER ::= { mfrapConfiguration 8 } mfrapCfgTelnetCliLcdPassword OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS read-write STATUS mandatory DESCRIPTION "The password needed to start a CLI (Command Line Interface), Telnet or LCD session." ::= { mfrapCfgSecurityTable 1 } mfrapCfgTftpPassword OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS read-write STATUS mandatory DESCRIPTION "The password needed to initiate a TFTP download." ::= { mfrapCfgSecurityTable 2 } mfrapCfgCliPassword OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS read-write STATUS mandatory DESCRIPTION "OBSOLETE: The Telnet, CLI and LCD passwords are one and the same. Use the above mfrapCfgTelnetCliLcdPassword to log into the CLI (Command Line Interface)." ::= { mfrapCfgSecurityTable 3 } mfrapCfgLcdPassword OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS read-write STATUS mandatory DESCRIPTION "OBSOLETE: The Telnet, CLI and LCD passwords are one and the same. Use the above mfrapCfgTelnetCliLcdPassword to log into the LCD Interface." ::= { mfrapCfgSecurityTable 4 } mfrapCfgGetCommunityString OBJECT-TYPE SYNTAX DisplayString (SIZE (0..15)) ACCESS read-write STATUS mandatory DESCRIPTION "The community string for doing SNMP GETs. The unit will respond to GETs that use either this string or the SET community string. All others will be rejected and a trap will be generated. String is case sensitive." ::= { mfrapCfgSecurityTable 5 } mfrapCfgSetCommunityString OBJECT-TYPE SYNTAX DisplayString (SIZE (0..15)) ACCESS read-write STATUS mandatory DESCRIPTION "The community string for doing SNMP SETs. The unit will reject SETs with any other coimmunity string and will generate a trap. String is case sensitive." ::= { mfrapCfgSecurityTable 6 } mfrapCfgLcdPswdEnable OBJECT-TYPE SYNTAX INTEGER { enable-lcd-pswd (1), disable-lcd-pswd (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This selection controls whether a password is necessary to use the LCD interface." ::= { mfrapCfgSecurityTable 7 } mfrapCfgLcdPswdTimeout OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "OBSOLETE." ::= { mfrapCfgSecurityTable 8 } -- -- The Connection Configuration Table -- The Connection Configuration table contains methods for -- assigning T1 network bandwidth to ports. In auto entry mode -- the user provides a starting DS0 and the node assigns -- sequential, contiguous, DS0s; all of the same type. -- In manual entry the user configures each DS0 -- separately. In manual mode the DS0s may be assigned -- discontinuously and could be a mix of voice, -- transparent or frame relay circuits. -- -- DTE connection configuration uses the auto entry mode. -- The objects controlling this configuration can be found -- in the DTE Configuration Table (mfrapCfgDteTable). When -- a valid set of DTE connection parameters exist (the current -- values are used for parameters not set), the -- mfrapCfgEditConnTable must FIRST be updated using the -- mfrapCfgDteConnAutoUpdate object. Thus to effect a change -- in DTE connections, sets of BOTH mfrapCfgDteConnAutoUpdate -- AND mfrapCfgConnUpdateCmd must be done. -- -- Drop & Insert connection configuration uses the manual -- entry mode by directly writing to the mfrapCfgEditConnTable -- below. If a legal set value leads to an invalid configuration, -- the mfrapCfgConnStatus object will return an incorrect-bandwidth -- or bandwidth-conflict indication. -- -- In order to delete a connection, the mfrapCfgEditMode object -- is set to not-connected. The states of the other -- mfrapCfgEditTable objects will be updated automatically. -- -- When the mfrapCfgConnUpdateCmd is set and the configuration is -- valid, the connections will be updated and reads of the -- mfrapCfgCurrentConnTable will reflect the updated connections. mfrapCfgConnectionTable OBJECT IDENTIFIER ::= { mfrapConfiguration 10 } mfrapCfgCurrentConnTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgCurrentConnEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Retrieves node's active connections assignments for display only. To edit connections, use the mfrapCfgDteTable and/or mfrapCfgEditConnTable." ::= { mfrapCfgConnectionTable 1 } mfrapCfgCurrentConnEntry OBJECT-TYPE SYNTAX MfrapCfgCurrentConnEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the Current Connections Table." INDEX { mfrapCfgCurrentConnDestPort, mfrapCfgCurrentConnDestDs0 } ::= { mfrapCfgCurrentConnTable 1 } MfrapCfgCurrentConnEntry ::= SEQUENCE { mfrapCfgCurrentConnDestPort INTEGER, mfrapCfgCurrentConnDestDs0 INTEGER, mfrapCfgCurrentConnSrcPort INTEGER, mfrapCfgCurrentConnSrcDs0 INTEGER, mfrapCfgCurrentConnType INTEGER } mfrapCfgCurrentConnDestPort OBJECT-TYPE SYNTAX INTEGER { port1-t1 (1) -- port2-dani (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Index to Destination port of interest. M-FRAP currently only supports the Network port (1) as the destination" ::= { mfrapCfgCurrentConnEntry 1 } mfrapCfgCurrentConnDestDs0 OBJECT-TYPE SYNTAX INTEGER (1..24) ACCESS read-only STATUS mandatory DESCRIPTION "DS0 number 1 through 24 corresponding to the destination port index " ::= { mfrapCfgCurrentConnEntry 2 } mfrapCfgCurrentConnSrcPort OBJECT-TYPE SYNTAX INTEGER { -- port1-t1 (1), port2-dandi (2), port3-dte (3), not-connected (33) } ACCESS read-only STATUS mandatory DESCRIPTION "DS0 assignment for Destination port. After making any adjustments to the connections, the mfrapCfgConnUpdateCmd must be sent. Node software does not permit a port connection to itself." ::= { mfrapCfgCurrentConnEntry 3 } mfrapCfgCurrentConnSrcDs0 OBJECT-TYPE SYNTAX INTEGER { ds0-01 (1), ds0-02 (2), ds0-03 (3), ds0-04 (4), ds0-05 (5), ds0-06 (6), ds0-07 (7), ds0-08 (8), ds0-09 (9), ds0-10 (10), ds0-11 (11), ds0-12 (12), ds0-13 (13), ds0-14 (14), ds0-15 (15), ds0-16 (16), ds0-17 (17), ds0-18 (18), ds0-19 (19), ds0-20 (20), ds0-21 (21), ds0-22 (22), ds0-23 (23), ds0-24 (24), no-connection (40) } ACCESS read-only STATUS mandatory DESCRIPTION "DS0 number 1 through 24 corresponding to the sourced port" ::= { mfrapCfgCurrentConnEntry 4 } mfrapCfgCurrentConnType OBJECT-TYPE SYNTAX INTEGER { voice (1), transparent(2), frame-relay (3), not-connected (33) } ACCESS read-only STATUS mandatory DESCRIPTION "Defines the type of traffic being transported." ::= { mfrapCfgCurrentConnEntry 5 } mfrapCfgEditConnections OBJECT IDENTIFIER ::= { mfrapCfgConnectionTable 2 } mfrapCfgEditConnCopyCurrtoEdit OBJECT-TYPE SYNTAX INTEGER { copy-current (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Fill the edit buffer with the node's current active connections." ::= { mfrapCfgEditConnections 1 } mfrapCfgEditClearEdit OBJECT-TYPE SYNTAX INTEGER { clear-edit (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Clear all connections from the edit buffer. " ::= { mfrapCfgEditConnections 2 } mfrapCfgEditConnTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapCfgEditConnEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Edits current DS0 assignment. This table is also updated by the mfrapCfgDteTable. After making any adjustments to the connections, the mfrapCfgConnUpdateCmd must be sent." ::= { mfrapCfgEditConnections 3 } mfrapCfgEditConnEntry OBJECT-TYPE SYNTAX MfrapCfgEditConnEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the Edit Connections table." INDEX { mfrapCfgEditConnDestPort, mfrapCfgEditConnDestDs0 } ::= { mfrapCfgEditConnTable 1 } MfrapCfgEditConnEntry ::= SEQUENCE { mfrapCfgEditConnDestPort INTEGER, mfrapCfgEditConnDestDs0 INTEGER, mfrapCfgEditConnSrcPort INTEGER, mfrapCfgEditConnSrcDs0 INTEGER, mfrapCfgEditConnType INTEGER, mfrapCfgEditDisconnect INTEGER } mfrapCfgEditConnDestPort OBJECT-TYPE SYNTAX INTEGER { port1-t1 (1) -- port2-dandi (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Index to destination port of interest. M-FRAP currently only supports the Network port (1) as the destination. " ::= { mfrapCfgEditConnEntry 1 } mfrapCfgEditConnDestDs0 OBJECT-TYPE SYNTAX INTEGER (1..24) ACCESS read-only STATUS mandatory DESCRIPTION "DS0 number 1 through 24 corresponding to the Destination port index" ::= { mfrapCfgEditConnEntry 2 } mfrapCfgEditConnSrcPort OBJECT-TYPE SYNTAX INTEGER { -- port1-t1 (1), port2-dandi (2), port3-dte (3), not-connected (33) } ACCESS read-write STATUS mandatory DESCRIPTION "DS0 assignment for indexed destination port. The value not-connected may not be written; to clear a connection, use the mfrapCfgEditDisconnect table element. Setting mfrapCfgEditDisconnect to disconnect will cause this element to return not-connected for a get. Currently, M-FRAP will not allow setting this value to 3. Connections defined by the mfrapCfgDteTable will be reflected in reads of this object. After making any adjustments to the connections, the mfrapCfgConnUpdateCmd must be sent. Node software does not permit connections between a port and itself." ::= { mfrapCfgEditConnEntry 3 } mfrapCfgEditConnSrcDs0 OBJECT-TYPE SYNTAX INTEGER { ds0-01 (1), ds0-02 (2), ds0-03 (3), ds0-04 (4), ds0-05 (5), ds0-06 (6), ds0-07 (7), ds0-08 (8), ds0-09 (9), ds0-10 (10), ds0-11 (11), ds0-12 (12), ds0-13 (13), ds0-14 (14), ds0-15 (15), ds0-16 (16), ds0-17 (17), ds0-18 (18), ds0-19 (19), ds0-20 (20), ds0-21 (21), ds0-22 (22), ds0-23 (23), ds0-24 (24), no-connection (40) } ACCESS read-write STATUS mandatory DESCRIPTION "DS0 number 1 through 24 corresponding to the sourced port index. The value no-connection may not be written. To clear a connection use the mfrapCfgEditDisconnect table element. Setting mfrapCfgEditDisconnect to disconnect will cause this element to return no-connection for a get." ::= { mfrapCfgEditConnEntry 4 } mfrapCfgEditConnType OBJECT-TYPE SYNTAX INTEGER { voice (1), transparent (2), frame-relay (3), not-connected (33) } ACCESS read-write STATUS mandatory DESCRIPTION "Defines the type of traffic being transported. The value not-connected may not be written. To clear a connection use the mfrapCfgEditDisconnect table element. Setting mfrapCfgEditDisconnect to disconnect will cause this element to return not-connected for a get. " ::= { mfrapCfgEditConnEntry 5 } mfrapCfgEditDisconnect OBJECT-TYPE SYNTAX INTEGER { disconnect (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Setting this object to disconnect will cause the state of the Src and Type objects for this destination port and ds0 to be set to not-connected. When connections are updated, the connection between the source and destination will be terminated. " ::= { mfrapCfgEditConnEntry 6} mfrapCfgEditLastSetStatus OBJECT-TYPE SYNTAX INTEGER { set-valid (1), invalid-dte-bandwidth (2), bandwidth-conflict (3), ds0s-not-ascending (4), illegal-value (8) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the last set of an mfrapCfgEditConnTable object. Invalid-dte-bandwidth is returned if the set reduces the number of ds0's assigned to a DTE port to less than the number required for the port's bandwidth and density. Bandwidth-conflict is returned if an attempt is made to change the source port without first disconnecting the existing connection. Ds0s-not-ascending is returned if the source ds0 being set is not in ascending order with the other ds0's for that source port. " ::= { mfrapCfgEditConnections 4 } mfrapCfgEditConnStatus OBJECT-TYPE SYNTAX INTEGER { connections-valid (1), invalid-dte-bandwidth (2), ds0s-not-ascending (4), incomplete-entry (5), inconsistent-edit-buff (6), bad-connection-type (7), no-current-connections (99) } ACCESS read-only STATUS mandatory DESCRIPTION "Displays the status of the connections in the edit buffer. This object should be read before setting the mfrapCfgConnUpdateCmd. Incorrect-dte-bandwidth is returned if there are not enough DS0's starting with the mfrapCfgDteConnStartDs0 to accommodate the mfrapCfgDteConnDs0Required. Incomplete-entry is returned if the source port, source ds0 and/or connection type has not been set for a connection (and at least one of them has been set for that connection). Inconsistent-edit-buffer is returned if there is an internal inconsistency in the edit buffer; in this case, an mfrapCfgEditConnCopyCurrtoEdit or mfrapCfgEditClearEdit set should be performed before proceeding. Bad-connection-type is returned if the connection type is not consistent with the source and destination ports. " ::= { mfrapCfgEditConnections 5 } mfrapCfgConnUpdateCmd OBJECT-TYPE SYNTAX INTEGER { config-and-connect (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Updates the connections with the edit buffer if the connections are all valid. The edit buffer is comprised of any changes sent (set) from the mfrapCfgEditConnTable or the mfrapCfgDteTable. Note that if changes are made to the mfrapCfgDteTable, the mfrapCfgConnAutoUpdate object must be set before the mfrapCfgConnUpdateCmd in order for the changes to take effect." ::= { mfrapCfgEditConnections 6 } -- -- The Drop & Insert Configuration Table -- This table contains the Drop & Insert port -- Configuration information for the MFRAP CSU/DSU. mfrapCfgDandiTable OBJECT IDENTIFIER ::= { mfrapConfiguration 11 } -- DESCRIPTION -- "The Drop & Insert Port Configuration table contains -- parameters for the Drop & Insert (T1) port on the -- MFRAP. " mfrapCfgDandiFraming OBJECT-TYPE SYNTAX INTEGER { d4 (1), esf (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Type of Framing on this D&I Line. Check with your service provider to determine value. D4 is also known as 'SuperFrame', ESF is 'Extended SuperFrame'. ESF provides enhanced performance monitoring capabilities. " ::= { mfrapCfgDandiTable 1 } mfrapCfgDandiLineEncoding OBJECT-TYPE SYNTAX INTEGER { ami (1), b8zs (2) } ACCESS read-write STATUS mandatory DESCRIPTION "D&I interface bipolar encoding scheme. Check with your service provider to determine value. B8ZS, which inherently provides ample 'ones-density', is recommended. AMI users must pay special attention to the 'ones-density' requirements of the service provider." ::= { mfrapCfgDandiTable 2 } mfrapCfgLock OBJECT-TYPE SYNTAX INTEGER (1..600) ACCESS write-only STATUS mandatory DESCRIPTION " Request to start configuration download and lock out any other means of configuring the unit. The integer passed in represents the time out period in seconds between sets. A set to this object will fail if the unit is already in a configuration locked state." ::= { mfrapConfiguration 12 } mfrapCfgLockID OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION " Returns the IP Address of the management station currently in control of configuration. A unit that is not in a configuration locked state will return 0.0.0.0" ::= { mfrapConfiguration 13 } mfrapCfgID OBJECT-TYPE SYNTAX DisplayString (SIZE (0..8)) ACCESS read-write STATUS mandatory DESCRIPTION " A read of this object returns the Current Configuration ID string. A write sets the Configuration ID string. The string contains a starting character to indicate the last configuration source C = Envisage N = CLI/TELNET L = LCD S= other SNMP management station and a unique 7 integer value to differentiate configurations between common sources. A value of *STARTUP indicates the configuration has been defaulted. A write will only be accepted from the management station that has successfully obtained the configuration lock" ::= { mfrapConfiguration 14 } mfrapCfgStatus OBJECT-TYPE SYNTAX INTEGER { in-progress (1), success (2), datarate-density-conflict (3), bandwidth-allocation-error (4), general-error (5), timeout (6), aborted-by-user (7) } ACCESS read-only STATUS mandatory DESCRIPTION " The status of a configuration install is reported here. On startup, a status of success will be reported. (1) The configuration has been locked and an update or unlock command has not been received. (2) An update command has been received and the configuration has been validated as consistent; . (3) An update command has been received but the DTE port datarate is not compatible with the density. (4) An update command has been received but the number of channels to be allocated will not fit in the available channels. (5) An update command has been received but there is an error in the configuration that is not a datarate-density-conflict or bandwidth-allocation-error. (6) The time between consecutive set requests exceeded the timeout sent with the tfrapCfgLock command. (7) The user sent a tfrapCfgUnlock command before a tfrapCfgUpdate command. This usually means that one of the sets in the configuration failed. " ::= { mfrapConfiguration 15 } mfrapCfgUnlock OBJECT-TYPE SYNTAX INTEGER { un-lock (1) } ACCESS write-only STATUS mandatory DESCRIPTION " The management station sets this variable to complete the configuration install process. Un-lock (1) notifies the agent to remove the lock on configuring the unit without updating the configuration." ::= { mfrapConfiguration 16 } mfrapCfgUpdate OBJECT-TYPE SYNTAX INTEGER { update (1) } ACCESS write-only STATUS mandatory DESCRIPTION " The management station sets this variable to complete the configuration install process. Update (1) notifies the agent to start the update process within the unit." ::= { mfrapConfiguration 17 } -- ========================= -- == DIAGNOSTICS group == -- ========================= mfrapDiagnostics OBJECT IDENTIFIER ::= { mfrap 3 } -- -- The Diagnostics/Unit Table -- This table contains the objects for unit level diagnostics -- on the FRAP T1 DSU. mfrapDiagUnitTable OBJECT IDENTIFIER ::= { mfrapDiagnostics 1 } mfrapDiagUnitLocLoop OBJECT-TYPE SYNTAX INTEGER { enable-loopback-mode (1), disable-loopback-mode (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Controls a bi-directional unit loopback. Data is received from either the DTE or Network interface, processed, and transmitted back towards the same interface. When configured for Frame Relay operation the unit will preserve the LMI path and maintain managed access during this loopback. In Frame Relay mode, only valid HDLC frames are looped back (pseudorandom test patterns will be dropped). Data received on the Drop & Insert is not affected by this loopback mode. (1) enable unit loopback (2) disable unit loopback" ::= { mfrapDiagUnitTable 1 } mfrapDiagUnitReset OBJECT-TYPE SYNTAX INTEGER { reset-unit (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Enables the operator to remotely cause a software reset on the unit. Using this command will cause the unit to terminate all its connections and drop data. (1) Reset Unit." ::= { mfrapDiagUnitTable 2 } mfrapDiagUnitTimeRemaining OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The remaining time on the active loopback before the loopback times out and disables itself. The time is in hundredths of seconds (TimeTicks)." ::= { mfrapDiagUnitTable 3 } -- The mfrapDiagT1Table -- This table contains the T1 level diagnostics of the MFRAP CSU. -- mfrapDiagT1Table OBJECT IDENTIFIER ::= { mfrapDiagnostics 2 } -- DESCRIPTION -- "Network (T1) Diagnostics for the Sync MFRAP. " mfrapDiagT1LocLineLpbk OBJECT-TYPE SYNTAX INTEGER { line-lpbk-disable (1), line-lpbk-enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Controls local network loopback. All data (including framing and line errors) received from the WAN, regardless of format or content, is transmitted back out to the WAN (line interface loopback) while still being passed through to the DTE. In Frame Relay applications the unit will not preserve the LMI path during this diagnostic and in-band management may not operate. (1) disable line loopback (2) enable line loopback " ::= { mfrapDiagT1Table 1 } mfrapDiagT1LocPylLpbk OBJECT-TYPE SYNTAX INTEGER { pyl-lpbk-disable (1), pyl-lpbk-enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Controls network payload loopback. All data received from the WAN is terminated, reframed and sent back towards the WAN. Framing errors and Line Code Violations are corrected. Network contact via ESF Facility Data Link is preserved during this loopback state. All user data regardless of format or content, is transmitted back out while all Ones are sent to the DTE. In Frame Relay applications the unit will not preserve the LMI path during this diagnostic and in-band management may not operate. (1) disable payload loopback (2) enable payload loopback " ::= { mfrapDiagT1Table 2 } mfrapDiagT1LocAggrLpbk OBJECT-TYPE SYNTAX INTEGER { aggr-lpbk-disable (1), aggr-lpbk-enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Controls Local Aggregate Loopback. All data received from the DTE and Drop & Insert ports is framed, formatted and transmitted towards the WAN while being looped back towards the respective port (DTE or Drop & Insert). The loopback path covers the entire digital data path within the device. In Frame Relay mode, only error-free HDLC frames will pass through the loopback path. Additionally, in Frame Relay applications the unit will not preserve the LMI path during this loopback and in-band management may not operate. (1) disable local aggregate (digital) loopback (2) enable local aggregate (digital) loopback " ::= { mfrapDiagT1Table 3 } mfrapDiagT1RmtLpbkStatus OBJECT-TYPE SYNTAX INTEGER { no-remote-lpbks (1), csu-lpbk-from-remote (2), dsu-lpbk-from-remote (3), pyl-lpbk-from-remote (4), csu-lpbk-sent-to-remote (5), dsu-lpbk-sent-to-remote (6) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of Remote Loopback commands sent or received on the WAN. (1) no remote loopbacks are active. (2) csu loopback from remote - indicates the node is in a Network Line Loopback state due to the reception of the standard CSU Loop-up pattern from the WAN. (3) dsu loopback from remote - indicates the node is in a Network Line Loopback state due to the reception of the Sync Research proprietary Loop-up pattern from a remote node. (4) payload loopback from remote - indicates the node is in a Payload Loopback state due to the reception of the ESF Facility Data Link's Loop-up pattern from the network. (5) csu loopback sent to remote - indicates the node has sent a csu loop up pattern towards the WAN. A device terminating the WAN's physical link is expected to enter a Line Loopback. The initating unit doesn't know if the loopback was accepted by the remote unit. (6) dsu loopback sent to remote - indicates the node has sent a dsu loop up pattern to a remote Sync unit out the WAN. A compatible device detecting this pattern is expected to enter a Line Loopback. The initating unit doesn't know if the loopback was accepted by the remote unit." ::= { mfrapDiagT1Table 4 } mfrapDiagT1RmtLpbkCmd OBJECT-TYPE SYNTAX INTEGER { rmt-csu-lpbk-loopup (1), rmt-csu-lpbk-loopdown (2), rmt-dsu-lpbk-loopup (3), rmt-dsu-lpbk-loopdown (4) } ACCESS write-only STATUS mandatory DESCRIPTION "Remote loopback commands are intended to place compatible external equipment into a loopback state. The initiating unit will maintain normal data flows during these tests. (1) csu loop up - commands the node to send a standard in-band csu loop up pattern towards the WAN. This is a repetetive framed T1 signal consisting of four 'zeros' followed by one 'one' persisting for a few seconds in place of all T1 data. A device terminating the WAN's physical link is expected to enter a Line Loopback condition upon recognition of this pattern. The initating unit doesn't know if the command was accepted by the remote unit. (2) csu loop down - commands the node to send a standard in-band csu loop down pattern towards the WAN. This is a repetetive framed T1 signal consisting of two 'zeros' followed by one 'one' persisting for a few seconds in place of all T1 data. A device terminating the WAN's physical link is expected to clear any Line Loopback condition upon recognition of this pattern. The initating unit doesn't know if the commad was accepted by the remote unit. (3) dsu loop up - commands the node to send a proprietary in-band dsu loop up pattern towards the WAN. This is a repetetive framed T1 signal consisting of a pseudorandom pattern persisting for a few seconds in place of all T1 data. A compatible device terminating the WAN's physical link is expected to enter a Line Loopback condition upon recognition of this pattern. The initating unit doesn't know if the command was accepted by the remote unit. (4) dsu loop down - commands the node to send a proprietary in-band dsu loop down pattern towards the WAN. This is a repetetive framed T1 signal consisting of a pseudorandom pattern persisting for a few seconds in place of all T1 data. A compatible device terminating the WAN's physical link is expected to clear any Line Loopback condition upon recognition of this pattern. The initating unit doesn't know if the command was accepted by the remote unit." ::= { mfrapDiagT1Table 5 } mfrapDiagT1TimeRemaining OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The remaining time on the active loopback before the loopback times out and automatically clears itself to restore the unit to normal operation. The time is in hundredths of seconds (TimeTicks)." ::= { mfrapDiagT1Table 6 } -- -- The mfrapDiagDteTable -- This table contains the DTE level diagnostics of the MFRAP CSU. -- mfrapDiagDteTable OBJECT IDENTIFIER ::= { mfrapDiagnostics 3 } mfrapDiagDteSigRTS OBJECT-TYPE SYNTAX INTEGER { rts-signal-on (1), rts-signal-off (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Request to Send (RTS) signal from the DTE port. (1) RTS Active (2) RTS Inactive" ::= { mfrapDiagDteTable 1 } mfrapDiagDteSigDTR OBJECT-TYPE SYNTAX INTEGER { dtr-signal-on (1), dtr-signal-off (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Data Terminal Ready (DTR) signal from the DTE port. (1) DTR Active (2) DTR Inactive" ::= { mfrapDiagDteTable 2 } mfrapDiagDteLclLpbk OBJECT-TYPE SYNTAX INTEGER { enable-loopback-mode (1), disable-loopback-mode (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Controls the DTE loopback state. This is a bi-directional loopback state where both the DTE and WAN ports are placed in line loopback. All data received on each interface is sent back out the respective interface regardless of format or content. In Frame Relay applications the unit will not preserve the LMI path during this diagnostic and in-band management will not operate. (1) enable payload loopback (2) disable payload loopback" ::= { mfrapDiagDteTable 3 } mfrapDiagDteV54Lpbk OBJECT-TYPE SYNTAX INTEGER { loopback-enable (1), loopback-disable (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This reports the status of any local V54 testing initiated by a remote unit. Remote V54 loopback commands are intended to place this unit into a loopback state. The initiating unit will maintain normal data flows during these tests. (1) V54 loop up received - indicates the node has received a standard in-band loop up pattern from the WAN per ITU V.54. This is a framed T1 signal consisting of a pseudorandom signal in place of all user data (that is only in the DS0s assigned to the DTE). This unit has entered a bi-directional DTE Loopback condition. (2) V54 loop down received - indicates the node has received a standard in-band loop down pattern from the WAN per ITU V.54. This is a framed T1 signal consisting of a pseudorandom signal in place of all user data (that is only in the DS0s assigned to the DTE). This unit has cleared the bi-directional DTE Loopback condition." ::= { mfrapDiagDteTable 4 } mfrapDiagDteRmtV54Lpbk OBJECT-TYPE SYNTAX INTEGER { transmit-code-enable (3), transmit-code-disable (4) } ACCESS write-only STATUS mandatory DESCRIPTION "Remote V54 loopback commands are intended to place compatible external equipment into a loopback state. The initiating unit will maintain normal data flows during these tests. (3) Transmit V54 loop up - commands the node to send a standard in-band loop up pattern towards the WAN per ITU V.54. This is a framed T1 signal consisting of a pseudorandom signal in place of all user data (that is only in the DS0s assigned to the DTE). A device terminating the fractional T1 data is expected to enter a bi-directional DTE Loopback condition upon recognition of this pattern. The initating unit doesn't know if the command was accepted by the remote unit. This pattern will not traverse a typical frame relay network and is designed for circuit-switched diagnostics. (4) Transmit V54 loop down - commands the node to send a standard in-band loop down pattern towards the WAN per ITU V.54. This is a framed T1 signal consisting of a pseudorandom signal in place of all user data (that is only in the DS0s assigned to the DTE). A device terminating the fractional T1 data is expected to clear a bi-directional DTE Loopback condition upon recognition of this pattern. The initating unit doesn't know if the command was accepted by the remote unit." ::= { mfrapDiagDteTable 5 } mfrapDiagDteTimeRemaining OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The remaining time on the active loopback before the loopback times out. The time is in hundredths of seconds (TimeTicks)." ::= { mfrapDiagDteTable 13 } -- -- The mfrapDiagBertTable -- This table contains the BERT diagnostics -- mfrapDiagBertTable OBJECT IDENTIFIER ::= { mfrapDiagnostics 5 } -- mfrapDiagBertState OBJECT-TYPE SYNTAX INTEGER { start-bert-test-t1 (1), start-bert-test-dte (2), stop-bert-test (3), inject-error-bert-test (4), clear-error-bert-test (5), start-bert-test-dandi (6), start-bert-test-fractional-t1 (7) } ACCESS write-only STATUS mandatory DESCRIPTION "The unit is capable of sending a pseudorandom test pattern (511 or QRSS) out the WAN and monitoring the WAN received data for the same pattern. The BERT pattern may be selected to occupy the full T1 payload, only the bandwidth allocated to the DTE, only the bandwidth allocated to the Drop & Insert or only the bandwidth allocated to the DTE and the Drop & Insert (fractional T1). When a unit is sending this BERT, the receiver will monitor and characterize the incoming signal for the same BERT pattern. In Frame Relay applications the unit will not preserve the LMI path during this diagnostic and in-band management may not operate. This test may be ineffective in certain frame relay environments as pseudorandom data lacks appropriate framing. Refer to VLOOP and VBERT for PVC-based error-rate testing in a live frame relay network. (1) Start a BERT test on full T1 - replaces entire T1 payload with the configured BERT pattern while monitoring the full T1 bandwidth (1.536M) for the presence of the BERT pattern. (2) Start a BERT test on the DTE bandwidth - replaces only the portion of the T1 payload that has been allocated to the DTE with the configured BERT pattern while monitoring the same T1 bandwidth (DTE Data Rate) for the presence of the BERT pattern. (3) Stop a BERT test. (4) Inject a single bit error into the outgoing pattern. (5) Clear current BERT results. (6) Starts a BERT test on the Drop & Insert bandwidth - replaces only the portion of the T1 payload that has been allocated to the Drop & Insert with the configured BERT pattern while monitoring the same T1 bandwidth (D&I DS0's) for the presence of the BERT pattern. (7) Starts a BERT test on the DTE & D&I bandwidth (fractional T1) - replaces only the portion of the T1 payload that has been allocated to the DTE or the Drop & Insert with the configured BERT pattern while monitoring the same T1 bandwidth for the presence of the BERT pattern." ::= { mfrapDiagBertTable 1 } mfrapDiagBertStatus OBJECT-TYPE SYNTAX INTEGER { bert-off (1), bert-out-of-sync (2), bert-in-sync (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Displays the current BERT test sync status. (1) BERT is not running (2) BERT is running but is not in sync (3) BERT is running and has detected a received BERT" ::= { mfrapDiagBertTable 2 } mfrapDiagBertErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Displays the number of errors detected in Bert Test." ::= { mfrapDiagBertTable 3 } mfrapDiagBertErrSec OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Displays the number of seconds containing 1 or more errors in BERT Test." ::= { mfrapDiagBertTable 4 } mfrapDiagBertTimeElaps OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "Elapsed time since BERT test was started or cleared." ::= { mfrapDiagBertTable 5 } mfrapDiagBertResyncs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Displays the number of times BERT test has synched up on the pattern. The BERT will attempt to resynchronize in response to excessive errors. A running count here indicates that a clean BERT is not being received." ::= { mfrapDiagBertTable 6 } mfrapDiagBertPattern OBJECT-TYPE SYNTAX INTEGER { five11-pattern (1), qrss (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The type of pseudorandom BERT pattern used. (1) 511: 9-bit pseudorandom pattern (2) QRSS: 20-bit pseudorandom pattern with no more than 14 consecutive zeros" ::= { mfrapDiagBertTable 7 } -- The mfrapDiagVnipTable -- This table contains the VNIP level diagnostics of the MFRAP CSU. -- -- mfrapDiagVnipTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapDiagVnipEntry ACCESS not-accessible STATUS mandatory DESCRIPTION " Table of Diagnostics performed with the VNIP protocol" ::= { mfrapDiagnostics 6 } mfrapDiagVnipEntry OBJECT-TYPE SYNTAX MfrapDiagVnipEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "VNIP VLOOP and VBERT diagnostic profile. Initiating these tests require an established and stable VNIP topology on an interface. Once the topology is in place, the user can execute a PVC-based diagnostic between this unit and any indexed entry in the topology table. The index into the topology table for a particular interface is required." INDEX {mfrapDiagVnipInterface, mfrapDiagVnipIndex} ::= { mfrapDiagVnipTable 1 } MfrapDiagVnipEntry ::= SEQUENCE { mfrapDiagVnipInterface INTEGER, mfrapDiagVnipIndex INTEGER, mfrapDiagVnipDlci INTEGER, mfrapDiagVnipIpAddr IpAddress, mfrapDiagVLOOP INTEGER, mfrapDiagVBERT INTEGER, mfrapDiagVBERTRate INTEGER, mfrapDiagVBERTSize INTEGER, mfrapDiagVBERTPktPercent INTEGER, mfrapDiagVBERTTestPeriod INTEGER } mfrapDiagVnipInterface OBJECT-TYPE SYNTAX INTEGER { dte-interface (1), t1-interface (2) } ACCESS read-write STATUS mandatory DESCRIPTION "The interface out which a PVC-based VNIP diagnostic will be run. This must be an interface with a valid and stable VNIP topology for a VNIP Diagnostic." ::= { mfrapDiagVnipEntry 1 } mfrapDiagVnipIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS mandatory DESCRIPTION "The index to the external VNIP peer as presented by the VNIP topology database for the given interface. Refer to VnipTopologyTable to determine the index of the remote peer." ::= { mfrapDiagVnipEntry 2 } mfrapDiagVnipDlci OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is the DLCI value for the given interface/index combination. This comes from the VniptTopologyTable." ::= { mfrapDiagVnipEntry 3 } mfrapDiagVnipIpAddr OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "This is the ip address for the given interface/index combination. This comes from the VniptTopologyTable." ::= { mfrapDiagVnipEntry 4 } mfrapDiagVLOOP OBJECT-TYPE SYNTAX INTEGER { start-test (1), stop-test (2) } ACCESS write-only STATUS mandatory DESCRIPTION "Controls execution of the Vnip Logical Loopback (VLOOP) test. VLOOP is designed as an intrusive test and customer data on the DLCI-under-test will be discarded. The VLOOP test includes a timed VBERT test and is run using the profile configured within this table. (1) start VLOOP test (2) stop VLOOP test (override VBERT test duration)" ::= { mfrapDiagVnipEntry 5 } mfrapDiagVBERT OBJECT-TYPE SYNTAX INTEGER { start (1), stop (2) } ACCESS write-only STATUS mandatory DESCRIPTION "Controls execution of the Vnip Virtual Bit Eror Rate (VBERT) test. VBERT is designed to be a non-intrusive test and will attempt to statistically multiplex VBERT test data and customer data on the DLCI-under-test. However, VBERT data is given priority over customer data when the selected VBERT volume causes internal congestion. The test is run using the profile configured within this table. (1) start test (2) stop test (override VBERT test duration)" ::= { mfrapDiagVnipEntry 6 } mfrapDiagVBERTRate OBJECT-TYPE SYNTAX INTEGER (8000..2048000) ACCESS read-write STATUS mandatory DESCRIPTION "Specifies the throughput bit rate applied by VBERT or VLOOP to the DLCI-under-test. For DTE Rates or configured CIR up to 64K the maximum VBERT rate is either the DTE data rate or 110% of CIR (which ever is less). For DTE Rates or configured CIR greater than 64K, the maximum VBERT rate is 75% of the DTE data rate or 110% of CIR (which ever is less). Note that selecting rates that approach line rate will impact neighboring PVCs. (8000-1152000): VBERT/VLOOP data rate (in bits per second)." ::= { mfrapDiagVnipEntry 7 } mfrapDiagVBERTSize OBJECT-TYPE SYNTAX INTEGER (32..2048) ACCESS read-write STATUS mandatory DESCRIPTION "Specifies the size of framed data that will be used during the VBERT test, measured in Bytes. (64) 64-byte frames (128) 128-byte frames (256) 256-byte frames (512) 512-byte frames (1024) 1024-byte frames (2048) 2048-byte frames" ::= { mfrapDiagVnipEntry 8 } mfrapDiagVBERTPktPercent OBJECT-TYPE SYNTAX INTEGER { zero-percent (0), twentyFive-percent (1), fifty-percent (2), seventyFive-percent (3), oneHundred-percent (4) } ACCESS read-write STATUS mandatory DESCRIPTION "Specifies percentage of VBERT packets that will have the Frame Relay Discard Eligibility bit set. Frames with this bit set may be more likley to get dropped in a congested network. (0) 0% of the test frames are marked discard eligible (25) 25% of the test frames are marked discard eligible (50) 50% of the test frames are marked discard eligible (75) 75% of the test frames are marked discard eligible (100) 100% of the test frames are marked discard eligible" ::= { mfrapDiagVnipEntry 9 } mfrapDiagVBERTTestPeriod OBJECT-TYPE SYNTAX INTEGER (10..1440) ACCESS read-write STATUS mandatory DESCRIPTION "Specifies the duration of a VBERT test. Note that VBERT is subjected to the unit's Loopback Timer and will be terminated by whichever timer expires first. (10-1440): VBERT time duration in seconds" ::= { mfrapDiagVnipEntry 10 } -- -- The mfrapDiagDandiTable -- This table contains the Drop and Insert level diagnostics -- of the MFRAP CSU. -- mfrapDiagDandiTable OBJECT IDENTIFIER ::= { mfrapDiagnostics 8 } mfrapDiagDandiLocLineLpbk OBJECT-TYPE SYNTAX INTEGER { line-lpbk-disable (1), line-lpbk-enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Local Line Loopback on the Drop & Insert port. Data and framing received at the D & I port is transmitted back out the D & I port (1) disable line loopback (2) enable line loopback" ::= { mfrapDiagDandiTable 1 } mfrapDiagDandiLocPylLpbk OBJECT-TYPE SYNTAX INTEGER { pyl-lpbk-disable (1), pyl-lpbk-enable (2) } ACCESS read-write STATUS mandatory DESCRIPTION "Local Payload Loopback on the Drop & Insert port. Data (NOT framing) received at the T1 port is looped back at the D&I port and reframed and transmitted back out the T1 port. (1) disable line loopback (2) enable line loopback" ::= { mfrapDiagDandiTable 2 } mfrapDiagDandiTimeRemaining OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The remaining time on the active loopback before the loopback times out. The time is in hundredths of seconds (TimeTicks)." ::= { mfrapDiagDandiTable 6 } -- ========================= -- == STATUS group == -- ========================= mfrapStatus OBJECT IDENTIFIER ::= { mfrap 4 } -- -- T1 Status -- -- The current status of the T1 port. -- mfrapStatusT1Table OBJECT IDENTIFIER ::= { mfrapStatus 1 } mfrapStatusT1Mode OBJECT-TYPE SYNTAX INTEGER { no-connections (1), active (2), test (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of allocation of T1 bandwidth to the DTE port data. (1) no connections - indicates the DTE port has no connections to the WAN. (2) Active - indicates DTE data rate has been assigned T1 DS0s and is in a normal data mode. (3) Test - indicates DTE data rate has been assigned T1 DS0s but is in a diagnostic condition." ::= { mfrapStatusT1Table 4 } mfrapStatusT1Status OBJECT-TYPE SYNTAX INTEGER { t1-frame-sync-okay (1), t1-frame-sync-with-errors (2), signal-present-without-frame-sync (3), signal-not-present (4), not-applicable (5) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the signal received from the WAN (1) In Sync - unit has detected a properly framed T1 signal and is not experiencing any error conditions. (2) In Sync with Errors - unit has detected a properly framed T1 signal but is experiencing some error conditions. Refer to T1 current performance results for details. (3) Signal Detected without Frame Sync - while a signal is present from the WAN it does not contain the framing pattern defined for this unit. This could be either incorrectly configured T1 Frame type or the presence of an alarm condition on the WAN. (4) No Carrier - there is no signal detected from the WAN. (5) Not Applicable." ::= { mfrapStatusT1Table 5 } mfrapStatusT1Alarms OBJECT-TYPE SYNTAX INTEGER { no-alarms (1), red-alarm-declared (2), yellow-alarm-detected (3), unframed-all-ones-detected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Alarms present at the T1 port. (1) No alarm conditions present. (2) Red Alarm Declared - Unit has experienced loss of frame synchronization with the signal received from the WAN for an extended time and is reporting an alarm condition that severely impairs normal operation. During this Red Alarm condition the unit will transmit Yellow alarm back to the WAN. If this condition persists consult your service provider. (3) Yellow ALarm Detected - Unit is receiving a yellow alarm indication from the wide area network. Detection of yellow alarm implies that the attached device is in a red alarm conditon. Red alarm is declared due to the extended absence of a properly framed signal. If this condition persists consult your service provider. (4) Unframe All Ones Detected - Unit is receiving unframed all ones from the wide area network (AIS, blue alarm). Detection of AIS implies that the attached device is reporting an alarm condition from an upstream device. If this condition persists consult your service provider." ::= { mfrapStatusT1Table 6 } -- -- DTE Status -- -- The current status of the DTE port. -- mfrapStatusDteTable OBJECT IDENTIFIER ::= { mfrapStatus 7 } mfrapStatusDteMode OBJECT-TYPE SYNTAX INTEGER { no-connections (1), active (2), test (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of allocation of T1 bandwidth to the DTE port data. (1) no connections - indicates the DTE port has no connections to the WAN. (2) Active - indicates DTE data rate has been assigned T1 DS0s and is in a normal data mode. (3) Test - indicates DTE data rate has been assigned T1 DS0s but is in a diagnostic condition." ::= { mfrapStatusDteTable 1 } mfrapStatusDteRts OBJECT-TYPE SYNTAX INTEGER { on (1), off (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Request to Send (RTS) signal from the DTE port. (1) RTS Active (2) RTS Inactive" ::= { mfrapStatusDteTable 2 } mfrapStatusDteDtr OBJECT-TYPE SYNTAX INTEGER { on (1), off (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Data Terminal Ready (DTR) signal from the DTE port. (1) DTR Active (2) DTR Inactive" ::= { mfrapStatusDteTable 3 } mfrapStatusDteDcd OBJECT-TYPE SYNTAX INTEGER { on (1), off (2), na (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Data Carrier Detect (DCD) signal driven by this unit towards the DTE port (1) DCD Active (2) DCD Inactive" ::= { mfrapStatusDteTable 4 } mfrapStatusDteDsr OBJECT-TYPE SYNTAX INTEGER { on (1), off (2), na (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Data Set Ready (DSR) signal driven by this unit towards the DTE port. (1) DSR Active (2) DSR Inactive" ::= { mfrapStatusDteTable 5 } mfrapStatusDteCts OBJECT-TYPE SYNTAX INTEGER { on (1), off (2), na (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Clear to Send (CTS) signal driven by this unit towards the DTE port (1) CTS Active (2) CTS Inactive" ::= { mfrapStatusDteTable 6 } -- -- Drop & Insert Status -- -- The current status of the D&I port. -- mfrapStatusDandiTable OBJECT IDENTIFIER ::= { mfrapStatus 15 } mfrapStatusDandiMode OBJECT-TYPE SYNTAX INTEGER { no-connections (1), active (2), test (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of allocation of T1 DS0s to the Drop & Insert port DS0s. (1) no connections - indicates the Drop & Insert port has no connections to the WAN. (2) Active - indicates that at least one Drop & Insert DS0 has been assigned to a T1 DS0. (3) Test - indicates that at least one Drop & Insert DS0 has been assigned to a T1 DS0 but is in a diagnostic condition." ::= { mfrapStatusDandiTable 4 } mfrapStatusDandiStatus OBJECT-TYPE SYNTAX INTEGER { t1-frame-sync-okay (1), t1-frame-sync-with-errors (2), signal-present-without-frame-sync (3), signal-not-present (4), not-applicable (5) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the signal received from the Drop & Insert port. (1) In Sync - unit has detected a properly framed T1 signal and is not experiencing any error conditions. (2) In Sync with Errors - unit has detected a properly framed T1 signal but is experiencing some error conditions. Refer to T1 current performance results for details. (3) Signal Detected without Frame Sync - while a signal is present from the Drop & Insert port, it does not contain the framing pattern defined for this unit. This could be either incorrectly configured T1 Frame type or the presence of an alarm condition on the network. (4) No Carrier - there is no signal detected from the WAN. (5) Not Applicable." ::= { mfrapStatusDandiTable 5 } mfrapStatusDandiAlarms OBJECT-TYPE SYNTAX INTEGER { no-alarms (1), red-alarm-declared (2), yellow-alarm-detected (3), unframed-all-ones-detected (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Alarms present at the T1 port. (1) No alarm conditions present. (2) Red Alarm Declared - Unit has experienced loss of frame synchronization with the signal received from the Drop & Insert port for an extended time and is reporting an alarm condition that severely impairs normal operation. During this Red Alarm condition the unit will transmit Yellow alarm back to the Drop & Insert port. If this condition persists consult your service provider. (3) Yellow ALarm Detected - Unit is receiving a yellow alarm indication from the Drop & Insert port. Detection of yellow alarm implies that the attached device is in a red alarm conditon. Red alarm is declared due to the extended absence of a properly framed signal. If this condition persists consult your service provider. (4) Unframe All Ones Detected - Unit is receiving unframed all ones from the Drop & Insert port (AIS, blue alarm). Detection of AIS implies that the attached device is reporting an alarm condition from an upstream device. If this condition persists consult your service provider." ::= { mfrapStatusDandiTable 6 } -- -- LED Status -- -- The current status of the front-panel LED indicators at -- the MFRAP node. -- mfrapStatusLedTable OBJECT IDENTIFIER ::= { mfrapStatus 4 } mfrapStatusDteModeLED OBJECT-TYPE SYNTAX INTEGER { offLED-DTE-inactive (1), greenLED-normal (2), yellowLED-test-mode (3), redLED-no-active-WAN-connection (4) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the DTE Mode LED. (1) DTE Mode LED off: Missing control signals (2) DTE Mode LED green: Normal (3) DTE Mode LED yellow: Test Mode" ::= { mfrapStatusLedTable 1 } mfrapStatusDteStatusLED OBJECT-TYPE SYNTAX INTEGER { offLED-inactive (1), greenLED-active (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the DTE Status LED. (1) DTE Status LED off: no connections to WAN (2) DTE Status LED green: normal" ::= { mfrapStatusLedTable 2 } mfrapStatusDteTxLED OBJECT-TYPE SYNTAX INTEGER { offLED-inactive (1), greenLED-tx-data-transmitting (2), yellowLED-disabled (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the DTE Tx Data LED. In Frame Relay mode, this LED is ON (green) when the DTE is not sending HDLC Flags and is OFF when HDLC flags are being transmit. In CBO mode, the LED is ON (green) for a SPACE and OFF for a MARK. (1) DTE Transmit LED OFF: inactive (HDLC flags or CBO marks) (2) DTE Transmit LED ON: active (HDLC frames or CBO spaces)" ::= { mfrapStatusLedTable 3 } mfrapStatusDteRxLED OBJECT-TYPE SYNTAX INTEGER { offLED-inactive (1), greenLED-rx-data-receiving (2), yellowLED-disabled (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the DTE Rx Data LED. In Frame Relay mode, this LED is ON (green) when the WAN is receiving HDLC Flags and is OFF when HDLC flags are being received. In CBO mode, the LED is ON (green) for a SPACE and OFF for a MARK. (1) DTE Receive LED OFF: inactive (HDLC flags or CBO marks) (2) DTE Receive LED ON: active (HDLC frames or CBO spaces)" ::= { mfrapStatusLedTable 4 } mfrapStatusT1ModeLED OBJECT-TYPE SYNTAX INTEGER { greenLED-normal (2), yellowLED-test-mode (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the WAN Mode LED. (1) WAN Mode LED is green: normal data mode (2) WAN Mode LED is yellow: test mode" ::= { mfrapStatusLedTable 5 } mfrapStatusT1StatusLED OBJECT-TYPE SYNTAX INTEGER { offLED-T1-no-signal (1), greenLED-normal (2), yellowLED-remote-alarm (3), redLED-red-alarm (4), blinking-redLED-no-carrier-red-alarm (5), blinking-red-greenLED-transient-error (6), blinking-red-yellowLED-AIS (7) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the WAN Status LED. (1) Off - no signal detected from WAN. (2) Green - framed signal detected with no errors (normal operation) (3) Yellow - remote alarm condition detected (yellow or AIS alarms) (4) Red - unit has declared Red Alarm due to the presence of an improperly framed signal from the WAN. (5) Blinking Red and Off - unit has declared Red Alarm due to the absence of a signal from the WAN. (6) Blinking Green and Red - unit is receiving a properly framed signal from the WAN but has detected a transient error condition. Possible Line Code Violations or ESF CRC errors indicating errored data bits. (7) Blinking Red and Yellow - unit is receiving an unframed all ones (AIS) from the WAN. This is indicative of an upstream alarm condition on the WAN." ::= { mfrapStatusLedTable 6 } mfrapStatusAllLEDs OBJECT-TYPE SYNTAX DisplayString (SIZE (0..7)) ACCESS read-only STATUS mandatory DESCRIPTION "Status of all six MFRAP LEDs, encoded in a string. 'F' off '5' green '0' yellow 'A' red '7' blinking green and off '3' blinking yellow and off 'B' blinking red and off '4' blinking green and yellow '6' blinking green and red '8' blinking yellow and red Positionally, the 8 letters are DTE Mode, DTE status, Dte Tx, Dte Rx, PBX Mode, PBX Status, T1 Mode, and T1 Status. For example, '55555556' would mean: DTE in normal mode, active status, transmitting and receiving PBX in normal mode with normal status and T1 normal with transient errors." ::= { mfrapStatusLedTable 7 } mfrapStatusDandiModeLED OBJECT-TYPE SYNTAX INTEGER { greenLED-normal (2), yellowLED-test-mode (3) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Drop & Insert Mode LED. (1) Drop & Insert Mode LED is green: normal data mode (2) Drop & Insert Mode LED is yellow: test mode" ::= { mfrapStatusLedTable 8 } mfrapStatusDandiStatusLED OBJECT-TYPE SYNTAX INTEGER { offLED-Dandi-no-signal (1), greenLED-normal (2), yellowLED-remote-alarm (3), redLED-red-alarm (4), blinking-redLED-no-carrier-red-alarm (5), blinking-red-greenLED-transient-error (6), blinking-red-yellowLED-AIS (7) } ACCESS read-only STATUS mandatory DESCRIPTION "Status of the Drop & Insert Status LED. (1) Off - no signal detected from Drop & Insert port. (2) Green - framed signal detected with no errors (normal operation) (3) Yellow - remote alarm condition detected (yellow or AIS alarms) (4) Red - unit has declared Red Alarm due to the presence of an improperly framed signal from the Drop & Insert port. (5) Blinking Red and Off - unit has declared Red Alarm due to the absence of a signal from the Drop & Insert port. (6) Blinking Green and Red - unit is receiving a properly framed signal from the Drop & Insert port but has detected a transient error condition. Possible Line Code Violations or ESF CRC errors indicating errored data bits. (7) Blinking Red and Yellow - unit is receiving an unframed all ones (AIS) from the Drop & Insert port. This is indicative of an upstream alarm condition on the Drop & Insert port." ::= { mfrapStatusLedTable 9 } -- -- Table of peers discovered by VNIP -- mfrapVnipTopologyTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapVnipTopologyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "VNIP topology is a feature that, for each interface, maps all compatible VNIP peers, their DLCI value, ip address and relative location. The topology is a fundamental prerequisite to applying the VNIP feature set which includes PVC-based delay measurement, diagnostics, and congestion monitoring. With VNIP enabled on an interface the unit will attempt to locate VNIP peers out that port. As peers are discovered and logged the unit will report the topology it has learned on its opposite interface. If VNIP is inactive on one interface it will not engage in any VNIP dialog; however it will continue to listen for topology messages on the inactive interface and will reflect these messages out the opposite interface if VNIP is enabled. With VNIP inactive on both interfaces the unit will transparently pass all VNIP messages. The topology database includes the interface, local DLCI value, remote peer DLCI value, remote peer ip address, and the number of VNIP hops in between. This table also reports the status of other VNIP features as well." ::= { mfrapStatus 2 } mfrapVnipTopologyEntry OBJECT-TYPE SYNTAX MfrapVnipTopologyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The DLCI, IP address, and number of hops for a particular peer, discovered off of an interface (DTE or T1)." INDEX { mfrapVnipTopologyInterface, mfrapVnipTopologyIndex } ::= { mfrapVnipTopologyTable 1 } MfrapVnipTopologyEntry ::= SEQUENCE { mfrapVnipTopologyInterface INTEGER, mfrapVnipTopologyIndex INTEGER, mfrapVnipTopologyDlci INTEGER, mfrapVnipTopologyIpAddr IpAddress, mfrapVnipTopologyNumHops INTEGER, mfrapVnipTopologyLocalDlci INTEGER, mfrapVnipTopoTDNumSamples Counter, mfrapVnipTopoTDAvgDelay Counter, mfrapVnipTopoTDMaxDelay Counter, mfrapVnipTopoTDMinDelay Counter, mfrapVnipTopoTDLastDelay Counter, mfrapVnipTopoVLOOPStatus INTEGER, mfrapVnipTopoVBERTStatus INTEGER, mfrapVnipTopoVBertTxDESetFrames Counter, mfrapVnipTopoVBertRxDESetFrames Counter, mfrapVnipTopoVBertTxDEClrFrames Counter, mfrapVnipTopoVBertRxDEClrFrames Counter, mfrapVnipTopoVBertTransitDelayMax Counter, mfrapVnipTopoVBertTransitDelayAvg Counter, mfrapVnipTopoVBertTimeElapse TimeTicks, mfrapVnipTopoVBertPerUtilCIR INTEGER, mfrapVnipTopoVBertPerUtilEIR INTEGER } mfrapVnipTopologyInterface OBJECT-TYPE SYNTAX INTEGER { dte-interface (1), t1-interface (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The interface off of which the peer was discovered. Topology is discovered by sending VNIP messages out each interface. Units discovered via a particular interface are kept in a list associated with that interface. (1) VNIP peers and status out DTE interface (2) VNIP peers and status out WAN interface" ::= { mfrapVnipTopologyEntry 1 } mfrapVnipTopologyIndex OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of this discovered peer in the list of nodes for this interface. For each interface, the nodes are numbered 1 through n. This index is required when disabling or enabling VBERT/VLOOP to a particular peer." ::= { mfrapVnipTopologyEntry 2 } mfrapVnipTopologyDlci OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI of the discovered neighboring peer. This may be different from the local DLCI." ::= { mfrapVnipTopologyEntry 3 } mfrapVnipTopologyIpAddr OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address for the discovered peer." ::= { mfrapVnipTopologyEntry 4 } mfrapVnipTopologyNumHops OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The discovered peer is this number of hops away. Each hop is a VNIP peer." ::= { mfrapVnipTopologyEntry 5 } mfrapVnipTopologyLocalDlci OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI of this node over which the neighboring peer was discovered." ::= { mfrapVnipTopologyEntry 6 } mfrapVnipTopoTDNumSamples OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transit delay samples collected." ::= { mfrapVnipTopologyEntry 10 } mfrapVnipTopoTDAvgDelay OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The average transit delay between this unit and the remote peer (in milliseconds)." ::= { mfrapVnipTopologyEntry 11 } mfrapVnipTopoTDMaxDelay OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The maximum transit delay between this node and the remote peer (in milliseconds)." ::= { mfrapVnipTopologyEntry 12 } mfrapVnipTopoTDMinDelay OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The minimum transit delay between this node and the remote peer (in milliseconds)." ::= { mfrapVnipTopologyEntry 13 } mfrapVnipTopoTDLastDelay OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The most recent transit delay measured between this node and the remote peer (in milliseconds)." ::= { mfrapVnipTopologyEntry 14 } mfrapVnipTopoVLOOPStatus OBJECT-TYPE SYNTAX INTEGER { loopback-enable (1), loopback-disable (2) } ACCESS read-only STATUS mandatory DESCRIPTION "This selection displays the status of the VNIP PVC Loopback for this entry. This loopback is initiated by the remote node through the VLOOP utility, causing this node to loop data back to the remote node. (1) Virtual Loopback path present on this PVC due to command received from remote unit. All data received on this DLCI will be looped back out the same interface. (2) No active VLOOP test on this" ::= { mfrapVnipTopologyEntry 15 } mfrapVnipTopoVBERTStatus OBJECT-TYPE SYNTAX INTEGER { off (1), testing (2), test-failed (3), test-completed (4), in-test (5) } ACCESS read-only STATUS mandatory DESCRIPTION "Displays the current status of the VBERT/VLOOP test. (1) Off: no test has run or the entry has been cleared (2) Testing: the entry is generating VBERT test frames (3) Test Failed: the request for a test on this entry failed (4) Test Completed: a test has run and is finished results are complete (5) In Test: the entry is on the receiving end of VBERT packets" ::= { mfrapVnipTopologyEntry 16 } mfrapVnipTopoVBertTxDESetFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Displays the number of Frames transmitted during VBERT Test that had the Discard Eligibility indicator bit set." ::= { mfrapVnipTopologyEntry 17 } mfrapVnipTopoVBertRxDESetFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Displays the number of Frames received during VBERT Test that had the Discard Eligibility indicator bit set." ::= { mfrapVnipTopologyEntry 18 } mfrapVnipTopoVBertTxDEClrFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Displays the number of Frames transmitted during VBERT Test that had the Discard Eligibility indicator bit cleared." ::= { mfrapVnipTopologyEntry 19 } mfrapVnipTopoVBertRxDEClrFrames OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "Displays the number of Frames received during VBERT Test that had the Discard Eligibility indicator bit cleared." ::= { mfrapVnipTopologyEntry 20 } mfrapVnipTopoVBertTransitDelayMax OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The maximum transit delay between this node and the remote peer during the VBERT test. This delay measurement will include internal device latencies. This result may differ from the VNIP transit delay measurement which accounts for internal latencies." ::= { mfrapVnipTopologyEntry 21 } mfrapVnipTopoVBertTransitDelayAvg OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The average transit delay between this node and the remote peer during the VBERT test. This delay measurement will include internal device latencies. This result may differ from the VNIP transit delay measurement which accounts for internal latencies" ::= { mfrapVnipTopologyEntry 22 } mfrapVnipTopoVBertTimeElapse OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "Elapsed time since VBERT/VLOOP test was started or cleared (in seconds)." ::= { mfrapVnipTopologyEntry 23 } mfrapVnipTopoVBertPerUtilCIR OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION " The calculated percent of CIR utilization during a VBERT test, this value is only valid after a test is complete not during." ::= { mfrapVnipTopologyEntry 24 } mfrapVnipTopoVBertPerUtilEIR OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION " The calculated percent of EIR utilization during a VBERT test, this value is only valid after a test is complete not during." ::= { mfrapVnipTopologyEntry 25 } mfrapVnipTransitDelayClear OBJECT-TYPE SYNTAX INTEGER { clear-transit-delay (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to clear all the VNIP Transit Delay data collected in the VNIP topology database. (1) Clear entire Transit Delay results database" ::= { mfrapStatus 5 } mfrapLmiSourcing OBJECT-TYPE SYNTAX INTEGER { initializing (1), passthrough (2), user-dte (3), user-t1 (4), network-dte (5), network-t1 (6), disabled (7), both-ports (8) } ACCESS read-only STATUS mandatory DESCRIPTION "If configured for Frame Relay with a non-zero LMI inactivity timer the unit will monitor the status of LMI and, if proper messaging is not detected, will attempt to emulate either Frame Relay DTE or DCE devices in attempt to restore LMI to any attached equipment and provide managed access for diagnostic purposes. Typically frads/routers are Frame Relay DTE while switches are Frame Relay DCE but this model may vary. In the absence of full-duplex LMI, the unit will cycle through various states in attempt to adapt to an LMI partner. The unit will try each state for the duration of the LMI Inactivity timer and then advance to the next one if satisfactory handshaking is not established. While in any of these states if full-duplex LMI handshaking does appear, the unit will immediately revert to the passthrough state. (1) initializing (2) Passthrough: not sourcing any LMI messages. (3) Status Enquiries out DTE interface: unit is emulating a Frame Relay DTE device out the its (physical) DTE interface. (4) Status Enquiries out WAN interface: unit is emulating a Frame Relay DTE device out the its WAN interface. (5) Status Responses out the DTE interface: unit is emulating a Frame Relay DCE device out the its (physical) DTE interface (provisioning the single default management DLCI). (6) Status Responses out the WAN interface: unit is emulating a Frame Relay DCE device out the its WAN interface (provisioning the single default management DLCI). (7) Disabled - LMI Inactivity timer is zero or unit not configured for a Frame Relay application. (8) Status Responses out both DTE and WAN interfaces: unit is configured for Fixed DCE mode of management and emulates a Frame Relay DCE independently on both ports (provisioning the single default management DLCI)." ::= { mfrapStatus 6 } -- -- Management Status -- -- The current status of the InBand Mangement configuration. -- This section is intended to display information of how the MFRAP -- is configured for InBand Management. -- mfrapStatusMgmtTable OBJECT IDENTIFIER ::= { mfrapStatus 3 } mfrapStatusMgmtChannel OBJECT-TYPE SYNTAX INTEGER { none (1), slip (2), private-dlci (3), piggyback-dlci (4) } ACCESS read-only STATUS mandatory DESCRIPTION "This is the method in which the unit is configured for SNMP management access. (1) None: SNMP management disabled (2) SLIP: out-of-band management via asynchronous Serial Line IP (3) Private DLCI: in-band management using a private DLCI that is dedicated solely to this unit's management. (4) Piggyback DLCI: in-band management using any DLCI optionally multiplexing both management and user data." ::= {mfrapStatusMgmtTable 1} mfrapStatusMgmtInterface OBJECT-TYPE SYNTAX INTEGER { comm (1), dte (2), t1 (3), dte-and-t1 (4) } ACCESS read-only STATUS mandatory DESCRIPTION "This is the port(s) on which the management traffic will appear. (1) Async Maintenance(Comm)/Console port - SLIP mode (2) Local DTE interface: unit is configured for Private Local DLCI mode (3) Remote WAN Interface: unit is confiogured for Private Remote DLCI mode (4) DTE and WAN Interfaces: unit is configured for either Piggyback Bidirectional mode." ::= {mfrapStatusMgmtTable 2} mfrapStatusMgmtInterfaceStatus OBJECT-TYPE SYNTAX INTEGER { active (1), inactive (2), alarm (3) } ACCESS read-only STATUS mandatory DESCRIPTION "This is the status of the port(s) on which the management traffic will appear. (1) Active: port or DLCI is configured and status is okay (2) Inactive: port or DLCI is declared out of service (3) Alarm: port or DLCI is experiencing an alarm condition that may interefere with management access " ::= {mfrapStatusMgmtTable 3} mfrapStatusMgmtDefaultDLCINo OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "This is the DLCI for the PVC that is defined for the Management port. All traffic using this DLCI in the Frame Replay packet will be destined for the InBand Management task." ::= {mfrapStatusMgmtTable 4} mfrapStatusMgmtDefaultDLCIStatus OBJECT-TYPE SYNTAX INTEGER { na (1), dlci-active (2), dlci-inactive (3) } ACCESS read-only STATUS mandatory DESCRIPTION "This is the status of the default management DLCI. (1) not applicable: SLIP mode or management is disabled (2) DLCI Active: default DLCI is active in the LMI full status response. (3) DLCI Inactive: default DLCI is not active in the LMI full status response." ::= {mfrapStatusMgmtTable 5} mfrapStatusLmiAutosense OBJECT-TYPE SYNTAX INTEGER { disabled (1), searching (2), learned-annex-d (3), learned-annex-a (4), learned-type1 (5) } ACCESS read-only STATUS mandatory DESCRIPTION "This indicates the current status of LMI Auto Sensing if it's enabled. (1) Disabled: LMI is configured as Type 1, Annex-D, or Annex-A (2) Searching: unit is attempting to determine the LMI type of the attached equipment by issuing LMI messages of each LMI type and searching for responses. (3) Learned Annex-D: unit has successfully detected Annex-D LMI (ANSI T1.617 Annex D) (4) Learned Annex-A: unit has successfully detected Annex-A LMI (ITU/CCITT Q.933 Annex A) (5) Learned Type 1: unit has successfully detected Type 1 LMI (Cisco, Group of four, LMI)" ::= { mfrapStatus 12 } -- -- Nest Status -- The current status of the chasis containing the MFRAP -- mfrapStatusNestTable OBJECT IDENTIFIER ::= { mfrapStatus 14 } mfrapStatusNestFanOne OBJECT-TYPE SYNTAX INTEGER { fan-ok (1), fan-alarm (2), na (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the chasis fan 1. (1) Fan is operating normally (2) Fan is in alarm state (3) Fan alarm is not applicable" ::= {mfrapStatusNestTable 1} mfrapStatusNestFanTwo OBJECT-TYPE SYNTAX INTEGER { fan-ok (1), fan-alarm (2), na (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the chasis fan 2. (1) Fan is operating normally (2) Fan is in alarm state (3) Fan alarm is not applicable" ::= {mfrapStatusNestTable 2} mfrapStatusNestPowerSupply OBJECT-TYPE SYNTAX INTEGER { power-supply-ok (1), power-supply-alarm (2), power-supply-na (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The status of the chasis power supply. (1) The nest power supply is operating normally (2) The nest power supply is in alarm state (3) A standalone unit will return 'na' " ::= {mfrapStatusNestTable 3} mfrapStatusNestSlotId OBJECT-TYPE SYNTAX INTEGER (0..16) ACCESS read-only STATUS mandatory DESCRIPTION "The chassis slot number (1-16) occupied by the MFRAP nest card. A standalone unit will return a '0'. " ::= {mfrapStatusNestTable 4} -- ========================= -- == PERFORMANCE group == -- ========================= mfrapPerformance OBJECT IDENTIFIER ::= { mfrap 5 } mfrapPerfPhysicalIntf OBJECT IDENTIFIER ::= { mfrapPerformance 1 } -- -- T1 Current Performance Table -- The T1 current performance table contains various statistics -- being collected for the current 15 minute interval. mfrapPerfT1CurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapT1CurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The T1 physical layer performance numbers for the current 15 minute interval. These are defined and accumulated per ANSI specification T1.403 and AT&T publication 54016. Depending upon the configured T1 Framing mode, these results may be retrieved via ESF facility data link by service personnel." ::= { mfrapPerfPhysicalIntf 1 } mfrapT1CurrentEntry OBJECT-TYPE SYNTAX MfrapT1CurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the T1 Current Perf table." INDEX { mfrapT1CurrentIndex } ::= { mfrapPerfT1CurrentTable 1 } MfrapT1CurrentEntry ::= SEQUENCE { mfrapT1CurrentIndex INTEGER, mfrapT1CurrentCrc6Events Gauge, mfrapT1CurrentOofEvents Gauge, mfrapT1CurrentESs Gauge, mfrapT1CurrentSESs Gauge, mfrapT1CurrentSEFSs Gauge, mfrapT1CurrentUASs Gauge, mfrapT1CurrentCSSs Gauge, mfrapT1CurrentBESs Gauge, mfrapT1CurrentLCVs Gauge } mfrapT1CurrentIndex OBJECT-TYPE SYNTAX INTEGER (1..4) ACCESS read-only STATUS mandatory DESCRIPTION "The index value which uniquely identifies the T1 interface to which this entry is applicable. The Drop & Index port has its own Current Performance Table, so the index will always be 1." ::= { mfrapT1CurrentEntry 1 } mfrapT1CurrentCrc6Events OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "Count of CRC errors detected on an ESF framed circuit. In ESF framing a CRC is generated at the source, based upon the composite data. A CRC error indicates the presence of at least one bit error in an ESF superframe. This field is a free-running accumulation of CRC errors and IS NOT reset when the current 15 minute interval expires. It can be reset with the performance command mfrapT1PerfClearEvents. Not applicable if D4/SF framing is selcted." ::= { mfrapT1CurrentEntry 2 } mfrapT1CurrentOofEvents OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "Count of Out-of-Frame events on a T1 circuit. An out-of- frame event occurs when the frame synchronization criteria is lost and a resynchronization must occur. Data is interrupted during frame resynchronization. This field is a free-running accumulation of OOF transitions and IS NOT reset when the current 15 minute interval expires. It can be reset with the performance command mfrapT1PerfClearEvents." ::= { mfrapT1CurrentEntry 3 } mfrapT1CurrentESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Errored Seconds, encountered by a T1 interface in the current 15 minute inter- val. An errored second is a one-second interval with CRC errors or a loss of frame sync occurred." ::= { mfrapT1CurrentEntry 4 } mfrapT1CurrentSESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Seconds encountered by a t1 interface in the current 15 minute interval. A severely errored second is a one second interval with more than 320 CRC errors or one or more frame sync losses." ::= { mfrapT1CurrentEntry 5 } mfrapT1CurrentSEFSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Framing Seconds encountered by a t1 interface in the current 15 minute interval. A SEFS is a one second interval with one or more frame sync losses." ::= { mfrapT1CurrentEntry 6 } mfrapT1CurrentUASs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Unavailable Seconds encountered by a t1 interface in the current 15 minute in- terval. A UAS is a one second interval during which the received signal is classified as 'unavailable due to excessive errors'. A signal is unavailable after receiving ten consective severely errored seconds and stays unavailable until ten seconds without a severely errored second occur." ::= { mfrapT1CurrentEntry 7 } mfrapT1CurrentCSSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Controlled Slip Seconds encoun- tered by a t1 interface in the current 15 minute interval. A controlled slip is the replication or deletion of a T1 frame at the receiver. These events often indicate a T1 network timing problem." ::= { mfrapT1CurrentEntry 8 } mfrapT1CurrentBESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Bursty Errored Seconds (BESs) encountered by a DS1 interface in the current 15 minute interval. A BES is a one second interval with more than one and less than 320 CRC errors." ::= {mfrapT1CurrentEntry 9 } mfrapT1CurrentLCVs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Line Code Violations (LCVs) en- countered by a DS1 interface in the current 15 minute interval. LCVs are non-B8ZS related violations of the alternate mark inversion protocol. An excessive count usually indicates a B8ZS/AMI configuration mismatch in the T1 network." ::= {mfrapT1CurrentEntry 10 } -- T1 Performance Intervals -- The T1 Interval Table contains various statistics -- collected by each T1 Interface over the previous 24 hours of -- operation. The past 24 hours are broken into 96 completed -- 15 minute intervals. mfrapPerfT1IntervalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapT1IntervalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The DS1 Interval table. A history of physical layer performance results are maintained and represented as 96 15-minute intervals. These are defined and accumulated per ANSI specification T1.403 and AT&T publication 54016. Depending upon the configured T1 Framing mode, these results may be retrieved via ESF facility data link by service personnel" ::= { mfrapPerfPhysicalIntf 2 } mfrapT1IntervalEntry OBJECT-TYPE SYNTAX MfrapT1IntervalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the DS1 Interval table." INDEX { mfrapT1IntervalIndex, mfrapT1IntervalNumber } ::= { mfrapPerfT1IntervalTable 1 } MfrapT1IntervalEntry ::= SEQUENCE { mfrapT1IntervalIndex INTEGER, mfrapT1IntervalNumber INTEGER, mfrapT1IntervalESs Gauge, mfrapT1IntervalSESs Gauge, mfrapT1IntervalSEFSs Gauge, mfrapT1IntervalUASs Gauge, mfrapT1IntervalCSSs Gauge, mfrapT1IntervalBESs Gauge, mfrapT1IntervalLCVs Gauge } mfrapT1IntervalIndex OBJECT-TYPE SYNTAX INTEGER (1..4) ACCESS read-only STATUS mandatory DESCRIPTION "The index value which uniquely identifies the t1 interface to which this entry is applicable. Since there is a separate Drop & Insert Performance Intervals Table, the value of this index will always be 1, referring to the WAN port." ::= { mfrapT1IntervalEntry 1 } mfrapT1IntervalNumber OBJECT-TYPE SYNTAX INTEGER (1..96) ACCESS read-only STATUS mandatory DESCRIPTION "A number between 1 and 96, where 96 is the most recently completed 15 minute interval and 1 is the least recently completed 15 minutes inter- val which occured 24 hours ago (assuming that all 96 intervals are valid)." ::= { mfrapT1IntervalEntry 2 } mfrapT1IntervalESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Errored Seconds encountered by a t1 interface in one of the previous 96, indi- vidual 15 minute, intervals. An errored second is a one-second interval with CRC errors or a loss of frame sync occurred." ::= { mfrapT1IntervalEntry 3 } mfrapT1IntervalSESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Seconds encoun- tered by a t1 interface in one of the previous 96, individual 15 minute, intervals. A severely errored second is a one second interval with more than 320 CRC errors or one or more frame sync losses." ::= { mfrapT1IntervalEntry 4 } mfrapT1IntervalSEFSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Framing Seconds encountered by a t1 interface in one of the previous 96, individual 15 minute, intervals. A SEFS is a one second interval with one or more frame sync losses." ::= { mfrapT1IntervalEntry 5 } mfrapT1IntervalUASs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Unavailable Seconds encountered by a t1 interface in one of the previous 96, individual 15 minute, intervals. A UAS is a one second interval during which the received signal is classified as 'unavailable due to excessive errors'. A signal is unavailable after receiving ten consective severely errored seconds and stays unavailable until ten seconds without a severely errored second occur." ::= { mfrapT1IntervalEntry 6 } mfrapT1IntervalCSSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Controlled Slip Seconds encoun- tered by a t1 interface in one of the previous 96, individual 15 minute, intervals. A controlled slip is the replication or deletion of a T1 frame at the receiver. These events often indicate a T1 network timing problem." ::= { mfrapT1IntervalEntry 7 } mfrapT1IntervalBESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Bursty Errored Seconds (BESs) encountered by a t1 interface in one of the previous 96, individual 15 minute, intervals. A BES is a one second interval with more than one and less than 320 CRC errors." ::= {mfrapT1IntervalEntry 8 } mfrapT1IntervalLCVs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Line Code Violations (LCVs) en- countered by a DS1 interface in the current 15 minute interval. LCVs are non-B8ZS related violations of the alternate mark inversion protocol. An excessive count usually indicates a B8ZS/AMI configuration mismatch in the T1 network." ::= {mfrapT1IntervalEntry 9 } -- T1 Performance 24 Hour -- The T1 Totals Table contains the cumulative sum of the -- various statistics for the 24 hour period preceding the -- current interval. mfrapPerfT1TotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapT1TotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The T1 Total table cumulative physical layer performance results from the past 24 hours. These are defined and accumulated per ANSI specification T1.403 and AT&T publication 54016. Depending upon the configured T1 Framing mode, these results may be retrieved via ESF facility data link by service personnel." ::= { mfrapPerfPhysicalIntf 3 } mfrapT1TotalEntry OBJECT-TYPE SYNTAX MfrapT1TotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the T1 Physical Layer Measurement Totals table." INDEX { mfrapT1TotalIndex } ::= { mfrapPerfT1TotalTable 1 } MfrapT1TotalEntry ::= SEQUENCE { mfrapT1TotalIndex INTEGER, mfrapT1TotalESs Gauge, mfrapT1TotalSESs Gauge, mfrapT1TotalSEFSs Gauge, mfrapT1TotalUASs Gauge, mfrapT1TotalCSSs Gauge, mfrapT1TotalBESs Gauge, mfrapT1TotalLCVs Gauge } mfrapT1TotalIndex OBJECT-TYPE SYNTAX INTEGER (1..4) ACCESS read-only STATUS mandatory DESCRIPTION "The index value which uniquely identifies the t1 interface to which this entry is applica- ble. Since there is a separate Drop & Insert Performance 24 Hour Table, the value of this index will always be 1, referring to the WAN port. " ::= { mfrapT1TotalEntry 1 } mfrapT1TotalESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Errored Seconds encountered by a t1 interface in the previous 24 hour interval. An errored second is a one-second interval with CRC errors or a loss of frame sync occurred." ::= { mfrapT1TotalEntry 2 } mfrapT1TotalSESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Seconds encoun- tered by a t1 interface in the previous 24 hour interval. A severely errored second is a one second interval with more than 320 CRC errors or one or more frame sync losses." ::= { mfrapT1TotalEntry 3 } mfrapT1TotalSEFSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Framing Seconds 24 hour interval. A SEFS is a one second interval with one or more frame sync losses." ::= { mfrapT1TotalEntry 4 } mfrapT1TotalUASs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Unavailable Seconds encountered by a t1 interface in the previous 24 hour in- terval. A UAS is a one second interval during which the received signal is classified as 'unavailable due to excessive errors'. A signal is unavailable after receiving ten consective severely errored seconds and stays unavailable until ten seconds without a severely errored second occur." ::= { mfrapT1TotalEntry 5 } mfrapT1TotalCSSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Controlled Slip Seconds encoun- tered by a t1 interface in the previous 24 hour interval. A controlled slip is the replication or deletion of a T1 frame at the receiver. These events often indicate a T1 network timing problem." ::= { mfrapT1TotalEntry 6 } mfrapT1TotalBESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Bursty Errored Seconds (BESs) encountered by a t1 interface in the previous 24 hour interval. A BES is a one second interval with more than one and less than 320 CRC errors." ::= { mfrapT1TotalEntry 7 } mfrapT1TotalLCVs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Line Code Violations (LCVs) en- countered by a t1 interface in the current 15 minute interval. LCVs are non-B8ZS related violations of the alternate mark inversion protocol. An excessive count usually indicates a B8ZS/AMI configuration mismatch in the T1 network." ::= {mfrapT1TotalEntry 8 } -- T1 Performance Commands -- A set of commands that affect the (user) bank of T1 performance -- registers mfrapT1PerfCmdTypeTable OBJECT IDENTIFIER ::= { mfrapPerfPhysicalIntf 4 } mfrapT1PerfFreezeState OBJECT-TYPE SYNTAX INTEGER { freeze-reg (1), unfreeze-reg (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This command halts the node's performance monitoring and freezes the current, interval, and total performance register values." ::= { mfrapT1PerfCmdTypeTable 1 } mfrapT1PerfClearEvents OBJECT-TYPE SYNTAX INTEGER { clear-events (1) } ACCESS write-only STATUS mandatory DESCRIPTION "This command resets all of the (user's) error event registers. This includes the CRC6 and Out-of-Frame counts. It does not affect the interval or 24 hour performance totals." ::= { mfrapT1PerfCmdTypeTable 2 } mfrapT1PerfClearAll OBJECT-TYPE SYNTAX INTEGER { clear-all (1) } ACCESS write-only STATUS mandatory DESCRIPTION "This command resets all of the (user's) performance registers." ::= { mfrapT1PerfCmdTypeTable 3 } -- -- Drop & Insert Current Performance Table -- The Drop & Insert current performance table contains -- various statistics being collected for the current -- 15 minute interval. mfrapPerfDandiCurrentTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapDandiCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The T1 physical layer performance numbers for the current 15 minute interval. These are defined and accumulated per ANSI specification T1.403 and AT&T publication 54016. Depending upon the configured T1 Framing mode, these results may be retrieved via ESF facility data link by service personnel." ::= { mfrapPerfPhysicalIntf 5 } mfrapDandiCurrentEntry OBJECT-TYPE SYNTAX MfrapDandiCurrentEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the D&I Current Perf table." INDEX { mfrapDandiCurrentIndex } ::= { mfrapPerfDandiCurrentTable 1 } MfrapDandiCurrentEntry ::= SEQUENCE { mfrapDandiCurrentIndex INTEGER, mfrapDandiCurrentCrc6Events Gauge, mfrapDandiCurrentOofEvents Gauge, mfrapDandiCurrentESs Gauge, mfrapDandiCurrentSESs Gauge, mfrapDandiCurrentSEFSs Gauge, mfrapDandiCurrentUASs Gauge, mfrapDandiCurrentCSSs Gauge, mfrapDandiCurrentBESs Gauge, mfrapDandiCurrentLCVs Gauge } mfrapDandiCurrentIndex OBJECT-TYPE SYNTAX INTEGER { dandi-port1 (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The index value which uniquely identifies the D&I interface to which this entry is applica- ble. " ::= { mfrapDandiCurrentEntry 1 } mfrapDandiCurrentCrc6Events OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "Count of CRC errors detected on an ESF framed circuit. In ESF framing a CRC is generated at the source, based upon the composite data. A CRC error indicates the presence of at least one bit error in an ESF superframe. This field is a free-running accumulation of CRC errors and IS NOT reset when the current 15 minute interval expires. It can be reset with the performance command mfrapDandiPerfClearEvents. Not applicable if D4/SF framing is selcted." ::= { mfrapDandiCurrentEntry 2 } mfrapDandiCurrentOofEvents OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "Count of Out-of-Frame events on a D&I circuit. An out-of- frame event occurs when the frame synchronization criteria is lost and a resynchronization must occur. Data is interrupted during frame resynchronization. This field is a free-running accumulation of OOF transitions and IS NOT reset when the current 15 minute interval expires. It can be reset with the performance command mfrapDandiPerfClearEvents." ::= { mfrapDandiCurrentEntry 3 } mfrapDandiCurrentESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Errored Seconds, encountered by a D&I interface in the current 15 minute inter- val. An errored second is a one-second interval with CRC errors or a loss of frame sync occurred." ::= { mfrapDandiCurrentEntry 4 } mfrapDandiCurrentSESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Seconds encountered by a D&I interface in the current 15 minute interval. A severely errored second is a one second interval with more than 320 CRC errors or one or more frame sync losses." ::= { mfrapDandiCurrentEntry 5 } mfrapDandiCurrentSEFSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Framing Seconds encountered by a D&I interface in the current 15 minute interval. A SEFS is a one second interval with one or more frame sync losses." ::= { mfrapDandiCurrentEntry 6 } mfrapDandiCurrentUASs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Unavailable Seconds encountered by a D&I interface in the current 15 minute in- terval. A UAS is a one second interval during which the received signal is classified as 'unavailable due to excessive errors'. A signal is unavailable after receiving ten consective severely errored seconds and stays unavailable until ten seconds without a severely errored second occur." ::= { mfrapDandiCurrentEntry 7 } mfrapDandiCurrentCSSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Controlled Slip Seconds encoun- tered by a D&I interface in the current 15 minute interval. A controlled slip is the replication or deletion of a D&I frame at the receiver. These events often indicate a D&I network timing problem." ::= { mfrapDandiCurrentEntry 8 } mfrapDandiCurrentBESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Bursty Errored Seconds (BESs) encountered by a DS1 interface in the current 15 minute interval. A BES is a one second interval with more than one and less than 320 CRC errors." ::= {mfrapDandiCurrentEntry 9 } mfrapDandiCurrentLCVs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Line Code Violations (LCVs) en- countered by a DS1 interface in the current 15 minute interval. LCVs are non-B8ZS related violations of the alternate mark inversion protocol. An excessive count usually indicates a B8ZS/AMI configuration mismatch in the D&I network." ::= {mfrapDandiCurrentEntry 10 } -- Drop and Insert Performance Intervals -- The D&I Interval Table contains various statistics -- collected by the D&I Interface over the previous 24 hours of -- operation. The past 24 hours are broken into 96 completed -- 15 minute intervals. mfrapPerfDandiIntervalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapDandiIntervalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The DS1 Interval table. A history of physical layer performance results are maintained and represented as 96 15-minute intervals. These are defined and accumulated per ANSI specification T1.403 and AT&T publication 54016. Depending upon the configured T1 Framing mode, these results may be retrieved via ESF facility data link by service personnel" ::= { mfrapPerfPhysicalIntf 6 } mfrapDandiIntervalEntry OBJECT-TYPE SYNTAX MfrapDandiIntervalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the DS1 Interval table." INDEX { mfrapDandiIntervalIndex, mfrapDandiIntervalNumber } ::= { mfrapPerfDandiIntervalTable 1 } MfrapDandiIntervalEntry ::= SEQUENCE { mfrapDandiIntervalIndex INTEGER, mfrapDandiIntervalNumber INTEGER, mfrapDandiIntervalESs Gauge, mfrapDandiIntervalSESs Gauge, mfrapDandiIntervalSEFSs Gauge, mfrapDandiIntervalUASs Gauge, mfrapDandiIntervalCSSs Gauge, mfrapDandiIntervalBESs Gauge, mfrapDandiIntervalLCVs Gauge } mfrapDandiIntervalIndex OBJECT-TYPE SYNTAX INTEGER { dandi-port1 (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The index value which uniquely identifies the D&I interface to which this entry is applicable. The interface identified by a particular value of this index is the same interface as identified by the same value as a NetwLineIndex object instance." ::= { mfrapDandiIntervalEntry 1 } mfrapDandiIntervalNumber OBJECT-TYPE SYNTAX INTEGER (1..96) ACCESS read-only STATUS mandatory DESCRIPTION "A number between 1 and 96, where 1 is the most recently completed 15 minute interval and 96 is the least recently completed 15 minutes inter- val (assuming that all 96 intervals are valid)." ::= { mfrapDandiIntervalEntry 2 } mfrapDandiIntervalESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Errored Seconds encountered by a D&I interface in one of the previous 96, indi- vidual 15 minute, intervals. An errored second is a one-second interval with CRC errors or a loss of frame sync occurred." ::= { mfrapDandiIntervalEntry 3 } mfrapDandiIntervalSESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Seconds encoun- tered by a D&I interface in one of the previous 96, individual 15 minute, intervals. A severely errored second is a one second interval with more than 320 CRC errors or one or more frame sync losses." ::= { mfrapDandiIntervalEntry 4 } mfrapDandiIntervalSEFSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Framing Seconds encountered by a D&I interface in one of the previous 96, individual 15 minute, intervals. A SEFS is a one second interval with one or more frame sync losses." ::= { mfrapDandiIntervalEntry 5 } mfrapDandiIntervalUASs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Unavailable Seconds encountered by a D&I interface in one of the previous 96, individual 15 minute, intervals. A UAS is a one second interval during which the received signal is classified as 'unavailable due to excessive errors'. A signal is unavailable after receiving ten consective severely errored seconds and stays unavailable until ten seconds without a severely errored second occur." ::= { mfrapDandiIntervalEntry 6 } mfrapDandiIntervalCSSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Controlled Slip Seconds encoun- tered by a D&I interface in one of the previous 96, individual 15 minute, intervals. A controlled slip is the replication or deletion of a D&I frame at the receiver. These events often indicate a D&I network timing problem." ::= { mfrapDandiIntervalEntry 7 } mfrapDandiIntervalBESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Bursty Errored Seconds (BESs) encountered by a D&I interface in one of the previous 96, individual 15 minute, intervals. A BES is a one second interval with more than one and less than 320 CRC errors." ::= {mfrapDandiIntervalEntry 8 } mfrapDandiIntervalLCVs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Line Code Violations (LCVs) en- countered by a DS1 interface in the current 15 minute interval. LCVs are non-B8ZS related violations of the alternate mark inversion protocol. An excessive count usually indicates a B8ZS/AMI configuration mismatch in the D&I network." ::= {mfrapDandiIntervalEntry 9 } -- Drip & Insert Performance 24 Hour -- The D&I Totals Table contains the cumulative sum of the -- various statistics for the 24 hour period preceding the -- current interval. mfrapPerfDandiTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapDandiTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The T1 Total table cumulative physical layer performance results from the past 24 hours. These are defined and accumulated per ANSI specification T1.403 and AT&T publication 54016. Depending upon the configured T1 Framing mode, these results may be retrieved via ESF facility data link by service personnel." ::= { mfrapPerfPhysicalIntf 7 } mfrapDandiTotalEntry OBJECT-TYPE SYNTAX MfrapDandiTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the D&I Total table." INDEX { mfrapDandiTotalIndex } ::= { mfrapPerfDandiTotalTable 1 } MfrapDandiTotalEntry ::= SEQUENCE { mfrapDandiTotalIndex INTEGER, mfrapDandiTotalESs Gauge, mfrapDandiTotalSESs Gauge, mfrapDandiTotalSEFSs Gauge, mfrapDandiTotalUASs Gauge, mfrapDandiTotalCSSs Gauge, mfrapDandiTotalBESs Gauge, mfrapDandiTotalLCVs Gauge } mfrapDandiTotalIndex OBJECT-TYPE SYNTAX INTEGER { dandi-port1 (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The index value which uniquely identifies the D&I interface to which this entry is applica- ble. The interface identified by a particular value of this index is the same interface as identified by the same value as a NetwLineIndex object instance." ::= { mfrapDandiTotalEntry 1 } mfrapDandiTotalESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Errored Seconds encountered by a D&I interface in the previous 24 hour interval. An errored second is a one-second interval with CRC errors or a loss of frame sync occurred." ::= { mfrapDandiTotalEntry 2 } mfrapDandiTotalSESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Seconds encoun- tered by a D&I interface in the previous 24 hour interval. A severely errored second is a one second interval with more than 320 CRC errors or one or more frame sync losses." ::= { mfrapDandiTotalEntry 3 } mfrapDandiTotalSEFSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Severely Errored Framing Seconds 24 hour interval. A SEFS is a one second interval with one or more frame sync losses." ::= { mfrapDandiTotalEntry 4 } mfrapDandiTotalUASs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Unavailable Seconds encountered by a D&I interface in the previous 24 hour in- terval. A UAS is a one second interval during which the received signal is classified as 'unavailable due to excessive errors'. A signal is unavailable after receiving ten consective severely errored seconds and stays unavailable until ten seconds without a severely errored second occur." ::= { mfrapDandiTotalEntry 5 } mfrapDandiTotalCSSs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Controlled Slip Seconds encoun- tered by a D&I interface in the previous 24 hour interval. A controlled slip is the replication or deletion of a D&I frame at the receiver. These events often indicate a D&I network timing problem." ::= { mfrapDandiTotalEntry 6 } mfrapDandiTotalBESs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Bursty Errored Seconds (BESs) encountered by a D&I interface in the previous 24 hour interval. A BES is a one second interval with more than one and less than 320 CRC errors." ::= { mfrapDandiTotalEntry 7 } mfrapDandiTotalLCVs OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The number of Line Code Violations (LCVs) en- countered by a D&I interface in the current 15 minute interval. LCVs are non-B8ZS related violations of the alternate mark inversion protocol. An excessive count usually indicates a B8ZS/AMI configuration mismatch in the D&I network." ::= {mfrapDandiTotalEntry 8 } -- Drop and Insert Performance Commands -- A set of commands that affect the (user) bank of D&I performance -- registers mfrapDandiPerfCmdTypeTable OBJECT IDENTIFIER ::= { mfrapPerfPhysicalIntf 8 } mfrapDandiPerfFreezeState OBJECT-TYPE SYNTAX INTEGER { freeze-reg (1), unfreeze-reg (2) } ACCESS read-write STATUS mandatory DESCRIPTION "This command halts the node's performance monitoring and freezes the current, interval, and total performance register values." ::= { mfrapDandiPerfCmdTypeTable 1 } mfrapDandiPerfClearEvents OBJECT-TYPE SYNTAX INTEGER { clear-events (1) } ACCESS write-only STATUS mandatory DESCRIPTION "This command resets all of the (user's) error event registers. This includes the CRC6 and Out-of-Frame counts. It does not affect the interval or 24 hour performance totals." ::= { mfrapDandiPerfCmdTypeTable 2 } mfrapDandiPerfClearAll OBJECT-TYPE SYNTAX INTEGER { clear-all (1) } ACCESS write-only STATUS mandatory DESCRIPTION "This command resets all of the (user's) performance registers." ::= { mfrapDandiPerfCmdTypeTable 3 } -- -- IP protocol stack statistics - a reflection of some MIB-2 variables -- mfrapPerfMgmtIp OBJECT IDENTIFIER ::= { mfrapPerformance 2 } mfrapPerfMgmtIpIFStatsTable OBJECT IDENTIFIER ::= { mfrapPerfMgmtIp 1 } mfrapPerfMgmtIpIFInOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all octets associated with received frames that are specifically addressed as management packets for this unit. Same as ifInOctets in mib-2." ::= { mfrapPerfMgmtIpIFStatsTable 1 } mfrapPerfMgmtIpIFInErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of packets associated with received frames that are specifically addressed as management packets for this unit which could not be handled because of errors. Same as ifInErrors in mib-2." ::= { mfrapPerfMgmtIpIFStatsTable 2 } mfrapPerfMgmtIpIFOutOctets OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all octets associated with generated frames that are specifically addressed as management packets from this unit. Same as ifOutOctets in mib-2. Same as ifOutOctets in mib-2." ::= { mfrapPerfMgmtIpIFStatsTable 3 } mfrapPerfMgmtIpIFOperStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), testing(3) } ACCESS read-only STATUS mandatory DESCRIPTION "The current operational state of the management interface. Same as ifOperStatus in mib-2. (1) Interface Up (2) Interface Down (3) Interface in Test" ::= { mfrapPerfMgmtIpIFStatsTable 4 } mfrapPerfMgmtIpIPStatsTable OBJECT IDENTIFIER ::= { mfrapPerfMgmtIp 2 } mfrapPerfMgmtIpIPInRcv OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all ip datagrams received which are specifically addressed as management frames for this unit. Same as ipInReceives in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 1 } mfrapPerfMgmtIpIPInHdrErr OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ip datagrams received which are specifically addressed as management frames for this unit that were discarded because of errors in their IP headers. Same as ipInHdrErrors in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 2 } mfrapPerfMgmtIpIPInAddrErr OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ip datagrams received which are specifically addressed as management frames for this unit that were discarded because unexpected or invalid IP addresses in their IP headers. Same as ipInAddrErrors in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 3 } mfrapPerfMgmtIpIPInProtUnk OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ip datagrams received which are specifically addressed as management frames for this unit that were discarded because of unsupported protocols. Same as ipInUnknownProtos in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 4 } mfrapPerfMgmtIpIPInDscrd OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of datagrams received which are specifically addressed as management frames for this unit that were discarded for reasons other than a problem with the datagram. Same as ipInDiscards in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 5 } mfrapPerfMgmtIpIPInDlvrs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count ofip datagrams received which are specifically addressed as management frames for this unit that were delivered to IP client protocols. Same as ipInDelivers in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 6 } mfrapPerfMgmtIpIPOutRqst OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all outgoing datagrams generated by this unit which are specifically addressed as management frames. Same as ipOutRequests in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 7 } mfrapPerfMgmtIpIPOutDscrd OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of outgoing datagrams generated by this unit which are specifically addressed as management frames that were discarded for reasons other than a problem with the datagram. Same as ipOutDiscards in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 8 } mfrapPerfMgmtIpIPOutNoRt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of outgoing datagrams generated by this unit which are specifically addressed as management frames that were discarded because no route could be found for transmission. Same as ipOutNoRoutes in mib-2." ::= { mfrapPerfMgmtIpIPStatsTable 9 } mfrapPerfMgmtIpICMPStatsTable OBJECT IDENTIFIER ::= { mfrapPerfMgmtIp 3 } mfrapPerfMgmtIpICMPInMsgs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all ICMP messages received which are addressed to this unit. Same as icmpInMsgs in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 1 } mfrapPerfMgmtIpICMPInErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ICMP messages received which are addressed to this unit but contain errors. Same as icmpInErrors in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 2 } mfrapPerfMgmtIpICMPInDestUnreachs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ICMP Destination Unreachable messages received which are addressed to this unit. Same as icmpInDestUnreachs in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 3 } mfrapPerfMgmtIpICMPInTimeExcds OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ICMP Time Exceeded messages received which are addressed to this unit. Same as icmpInTimeExcds in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 4 } mfrapPerfMgmtIpICMPInParmProbs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ICMP Parameter Problem messages received which are addressed to this unit. Same as icmpInParmProbs in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 5 } mfrapPerfMgmtIpICMPInRedirects OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ICMP Redirect messages received which are addressed to this unit. Same as icmpInRedirects in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 6 } mfrapPerfMgmtIpICMPInEchos OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ICMP Echo messages received which are addressed to this unit. Same as icmpInEchos in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 7 } mfrapPerfMgmtIpICMPInEchoReps OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of ICMP Echo Reply messages received which are addressed to this unit. Same as icmpInEchoReps in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 8 } mfrapPerfMgmtIpICMPOutMsgs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all outgoing ICMP messages originating from this node. Same as icmpOutMsgs in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 9 } mfrapPerfMgmtIpICMPOutErrors OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of outgoing ICMP messages generated by this unit which are not transmitted due problems found by the ICMP layer. Same as icmpOutErrors in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 10 } mfrapPerfMgmtIpICMPOutDestUnreachs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of outgoing ICMP Destination Unreachable messages generated by this unit. Same as icmpOutDestUnreachs in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 11 } mfrapPerfMgmtIpICMPOutParmProbs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of outgoing ICMP Parameter Problem messages generated by this unit. Same as icmpOutParmProbs in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 12 } mfrapPerfMgmtIpICMPOutRedirects OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of outgoing ICMP Redirect messages generated by this unit. Same as icmpOutRedirects in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 13 } mfrapPerfMgmtIpICMPOutEchos OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of outgoing ICMP Echo messages generated by this unit. Same as icmpOutEchos in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 14 } mfrapPerfMgmtIpICMPOutEchoReps OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of outgoing ICMP Echo Reply messages generated by this unit. Same as icmpOutEchoReps in mib-2." ::= { mfrapPerfMgmtIpICMPStatsTable 15 } mfrapPerfMgmtIpUDPStatsTable OBJECT IDENTIFIER ::= { mfrapPerfMgmtIp 4 } mfrapPerfMgmtIpUDPInDatagrams OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all UDP datagrams received that are addressed as management frames for this unit. Same as udpInDatagrams in mib-2." ::= { mfrapPerfMgmtIpUDPStatsTable 1 } mfrapPerfMgmtIpUDPOutDatagrams OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all UDP datagrams generated by this unit. Same as udpOutDatagrams in mib-2." ::= { mfrapPerfMgmtIpUDPStatsTable 2 } mfrapPerfMgmtIpUDPNoPorts OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all UDP datagrams received that are addressed as management frames for this unit with no application at the destination port. Same as udpNoPorts in mib-2." ::= { mfrapPerfMgmtIpUDPStatsTable 3 } mfrapPerfMgmtIpTCPStatsTable OBJECT IDENTIFIER ::= { mfrapPerfMgmtIp 5 } mfrapPerfMgmtIpTCPActiveOpens OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of the times TCP connections specific to this unit have made a direct state transition from CLOSED to SYN-SENT. Same as tcpActiveOpens in mib-2." ::= { mfrapPerfMgmtIpTCPStatsTable 1 } mfrapPerfMgmtIpTCPPassiveOpens OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of the times TCP connections specific to this unit have made a direct state transition from CLOSED to SYN-RCVD. Same as tcpPassiveOpens in mib-2." ::= { mfrapPerfMgmtIpTCPStatsTable 2 } mfrapPerfMgmtIpTCPAttemptFails OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of the times TCP connections specific to this unit have made a direct state transition from SYN-SENT or SYN-RCVD to CLOSED state, plus the count of the times TCP connections have made a direct state transition from SYN-RCVD to LISTEN. Same as tcpAttemptFails in mib-2." ::= { mfrapPerfMgmtIpTCPStatsTable 3 } mfrapPerfMgmtIpTCPCurrEstab OBJECT-TYPE SYNTAX Gauge ACCESS read-only STATUS mandatory DESCRIPTION "The count of the TCP connections specific to this unit in state ESTABLISHED or CLOSE-WAIT. Same as tcpCurrEstab in mib-2." ::= { mfrapPerfMgmtIpTCPStatsTable 4 } mfrapPerfMgmtIpTCPInSegs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all the segments received that are addressed as management frames for this unit. Same as tcpInSegs in mib-2." ::= { mfrapPerfMgmtIpTCPStatsTable 5 } mfrapPerfMgmtIpTCPOutSegs OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The count of all the segments generated from this unit. Same as tcpOutSegs in mib-2." ::= { mfrapPerfMgmtIpTCPStatsTable 6 } -- -- The MFRAP Performance Thruput Table -- This table contains Thruput statistics for the DTE port -- and the T1 port. This table does NOT contain any PVC -- DLCI thruput statistics. -- mfrapPerfThruput OBJECT IDENTIFIER ::= { mfrapPerformance 3 } mfrapPerfThruputPerIntfTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfThruputPerIntfEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The throughput per interface table. These values are accumulated across all DLCIs." ::= { mfrapPerfThruput 1 } mfrapPerfThruputPerIntfEntry OBJECT-TYPE SYNTAX MfrapPerfThruputPerIntfEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An entry in the throughput per interface table." INDEX { mfrapPerfThruputPerIntfIndex } ::= { mfrapPerfThruputPerIntfTable 1 } MfrapPerfThruputPerIntfEntry ::= SEQUENCE { mfrapPerfThruputPerIntfIndex INTEGER, mfrapPerfThruputPerIntfRxByteCnt Counter, mfrapPerfThruputPerIntfTxByteCnt Counter, mfrapPerfThruputPerIntfRxFrameCnt Counter, mfrapPerfThruputPerIntfTxFrameCnt Counter, mfrapPerfThruputPerIntfRxCrcErrCnt Counter, mfrapPerfThruputPerIntfRxAbortCnt Counter } mfrapPerfThruputPerIntfIndex OBJECT-TYPE SYNTAX INTEGER { dte (1), t1 (2) } ACCESS read-only STATUS mandatory DESCRIPTION "Interface for which the statistics apply. (1) DTE interface (2) T1 interface" ::= { mfrapPerfThruputPerIntfEntry 1 } mfrapPerfThruputPerIntfRxByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes that have been counted on this interface." ::= { mfrapPerfThruputPerIntfEntry 2 } mfrapPerfThruputPerIntfTxByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes that have been counted on this interface." ::= { mfrapPerfThruputPerIntfEntry 3 } mfrapPerfThruputPerIntfRxFrameCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been counted on this interface." ::= { mfrapPerfThruputPerIntfEntry 4 } mfrapPerfThruputPerIntfTxFrameCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been counted on this interface." ::= { mfrapPerfThruputPerIntfEntry 5 } mfrapPerfThruputPerIntfRxCrcErrCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames with CRC errors received on this interface." ::= { mfrapPerfThruputPerIntfEntry 6 } mfrapPerfThruputPerIntfRxAbortCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of aborted frames received on this interface." ::= { mfrapPerfThruputPerIntfEntry 7 } -- -- The DLCI Statistics Table -- This table contains the DLCI Statistics (layer 2). Index ::= INTEGER mfrapPerfThruputPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfThruputPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Layer 2 statistics on a per-DLCI basis. Transmit direction is from DTE to WAN and receive direction is from the WAN towards the DTE." ::= { mfrapPerfThruput 2 } mfrapPerfThruputPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfThruputPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Statistics for a particular Data Link Connection Management Interface (DLCI)." INDEX { mfrapPerfThruputPerDlciIndex, mfrapPerfThruputPerDlciValue } ::= { mfrapPerfThruputPerDlciTable 1 } MfrapPerfThruputPerDlciEntry ::= SEQUENCE { mfrapPerfThruputPerDlciIndex Index, mfrapPerfThruputPerDlciValue INTEGER, mfrapPerfThruputPerDlciCreateTime INTEGER, mfrapPerfThruputPerDlciChangeTime INTEGER, mfrapPerfThruputPerDlciRxByte Counter, mfrapPerfThruputPerDlciTxByte Counter, mfrapPerfThruputPerDlciRxFrame Counter, mfrapPerfThruputPerDlciTxFrame Counter, mfrapPerfThruputPerDlciRxFecn Counter, mfrapPerfThruputPerDlciRxBecn Counter, mfrapPerfThruputPerDlciRxDe Counter, mfrapPerfThruputPerDlciTxDe Counter, mfrapPerfThruputPerDlciRxThruput INTEGER, mfrapPerfThruputPerDlciTxThruput INTEGER, mfrapPerfThruputPerDlciCIR INTEGER, mfrapPerfThruputPerDlciUptime INTEGER, mfrapPerfThruputPerDlciDowntime INTEGER, mfrapPerfThruputPerDlciCirType INTEGER, mfrapPerfThruputPerDlciPvcState INTEGER, mfrapPerfThruputPerDlciOutageCount Counter, mfrapPerfThruputPerDlciAvailability INTEGER, mfrapPerfThruputPerDlciMTBSO INTEGER, mfrapPerfThruputPerDlciMTTSR INTEGER, mfrapPerfThruputPerDlciEncapType INTEGER, mfrapPerfThruputPerDlciRxUtilizationStatus INTEGER, mfrapPerfThruputPerDlciTxUtilizationStatus INTEGER, mfrapPerfThruputPerDlciEIR INTEGER } mfrapPerfThruputPerDlciIndex OBJECT-TYPE SYNTAX Index ACCESS read-only STATUS mandatory DESCRIPTION "This value must be in the range 1-3. Other than that, this value is ignored as all three will return the same result." ::= { mfrapPerfThruputPerDlciEntry 1 } mfrapPerfThruputPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value in which the Statistics are associated." ::= { mfrapPerfThruputPerDlciEntry 2 } mfrapPerfThruputPerDlciCreateTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of time elapsed since this DLCI was first detected through traffic sensing or in an LMI message (in seconds)." ::= { mfrapPerfThruputPerDlciEntry 3 } mfrapPerfThruputPerDlciChangeTime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The amount of elapsed time since this DLCI last changed state from active to inactive or vice versa (in seconds)." ::= { mfrapPerfThruputPerDlciEntry 4 } mfrapPerfThruputPerDlciRxByte OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes that have been received from the WAN towards the DTE on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 5 } mfrapPerfThruputPerDlciTxByte OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes that have been transmit from the DTE towards the WAN on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 6 } mfrapPerfThruputPerDlciRxFrame OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been received from the WAN towards to the DTE on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 7 } mfrapPerfThruputPerDlciTxFrame OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of frames that have been transmit from the DTE towards the WAN on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 8 } mfrapPerfThruputPerDlciRxFecn OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number frames received from the WAN towards the DTE that have had the Forward Explict Congestion Notification (FECN) bit set on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 9 } mfrapPerfThruputPerDlciRxBecn OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number frames received from the WAN towards the DTE that have had the Backward Explict Congestion Notification (BECN) bit set on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 10 } mfrapPerfThruputPerDlciRxDe OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number frames received from the WAN towards the DTE that have had the Discard Eligibility (DE) bit set on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 11 } mfrapPerfThruputPerDlciTxDe OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number frames transmit towards the WAN from the DTE that have had the Discard Eligibility (DE) bit set on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 12 } mfrapPerfThruputPerDlciRxThruput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of bits/sec received from the WAN on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 13 } mfrapPerfThruputPerDlciTxThruput OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of bits/sec transmit to the WAN on this DLCI. This count will include any frames that are terminated by the unit and do not pass through to the opposite interface (management and networking data)." ::= { mfrapPerfThruputPerDlciEntry 14 } mfrapPerfThruputPerDlciCIR OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Committed Information Rate (CIR) for this DLCI. This can come form one of three sources: From the LMI Full Status Response, configured by the user, or the DTE line rate (default)." ::= { mfrapPerfThruputPerDlciEntry 15 } mfrapPerfThruputPerDlciCirType OBJECT-TYPE SYNTAX INTEGER { cir-acquired-from-lmi (1), cir-configured-by-user (2), cir-is-dte-datarate (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The source of the CIR value for this DLCI. (1) CIR acquired from LMI message. Will override user configured CIR. This feature is not supported by all Frame Relay DCE (switches). (2) CIR configured by user. (3) CIR is DTE Line Rate. Default if CIR is not set by one of the other methods." ::= { mfrapPerfThruputPerDlciEntry 18 } mfrapPerfThruputPerDlciUptime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total amount of time that the DLCI has been up as reproted by the LMI Full Status Response (in seconds)." ::= { mfrapPerfThruputPerDlciEntry 16 } mfrapPerfThruputPerDlciDowntime OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The total amount of time that the DLCI has been declared down (in seconds). A DLCI is Down if it's explicitly declared Inactive through LMI or if it's missing from the LMI Full Status message or if there is no Full Status message at all." ::= { mfrapPerfThruputPerDlciEntry 17 } mfrapPerfThruputPerDlciPvcState OBJECT-TYPE SYNTAX INTEGER { pvc-active (1), pvc-inactive (2), pvc-unprovisioned (3), pvc-not-in-lmi (4), pvc-lmi-timeout (5), pvc-undetermined (6) } ACCESS read-only STATUS mandatory DESCRIPTION "The current state of the DLCI: (1) DLCI marked active in last full status LMI (2) DLCI in last full status LMI but not marked active (3) DLCI has never been seen in a full status LMI (4) DLCI was seen at least once in a full status LMI but was not in the last full status LMI (5) the full status LMI has timed out; all previously active or inactive DLCIs are changed to this state (6) DLCI was detected in the traffic stream and a full status LMI has not been received so the state cannot be determined yet. " ::= { mfrapPerfThruputPerDlciEntry 19 } mfrapPerfThruputPerDlciOutageCount OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of times the smperPerfThruputPerDlciPvcState transitions from pvc-active or pvc-undetermined to one of the other (inactive) states. " ::= { mfrapPerfThruputPerDlciEntry 20 } mfrapPerfThruputPerDlciAvailability OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The measure of the percentage time the DLCI is available: UpTime/CreateTime or zero if CreateTime = 0. (in 1/1000 per cent; i.e. availability = 1000 converts to 1%). " ::= { mfrapPerfThruputPerDlciEntry 21 } mfrapPerfThruputPerDlciMTBSO OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Mean Time Between Service Outages: UpTime/OutageCount or zero if OutageCount = 0 (in seconds). " ::= { mfrapPerfThruputPerDlciEntry 22 } mfrapPerfThruputPerDlciMTTSR OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Mean Time to ServiceRestoral: DownTime/OutageCount or zero if OutageCount = 0 (in seconds). " ::= { mfrapPerfThruputPerDlciEntry 23 } mfrapPerfThruputPerDlciEncapType OBJECT-TYPE SYNTAX INTEGER { encap-na (1), encap-1490 (2), encap-cisco (3), encap-annex-g (4), encap-other (5) } ACCESS read-only STATUS mandatory DESCRIPTION "The encapsulation protocol seen in the last frame analyzed on this DLCI: (1) DLCI is the LMI DLCI or no frames have been analyzed (2) The encapsulation is per rfc1490 (3) The encapsulation is per Cisco proprietary (4) The encapsulation is per Annex-G (X.25 over frame relay) (5) The encapsulation is not one of the above. " ::= { mfrapPerfThruputPerDlciEntry 24 } mfrapPerfThruputPerDlciRxUtilizationStatus OBJECT-TYPE SYNTAX INTEGER { clear (1), over-threshold (2), alarm (3), alarm-under-threshold (4) } ACCESS read-only STATUS mandatory DESCRIPTION " The status of the per-DLCI utilization alarm in the receive direction. (1) there is no alarm condition; utilization is under the configured CIR percentage threshold; if traps are enabled and the alarm had been previously triggered, a utilization alarm clear trap will be sent. (2) the utilization has been over the configured CIR percentage threshold for less than the configured duration. (3) the utilization has been over the configured CIR percentage threshold for more than the configured duration; if traps are enabled a utilization exceeded trap will be sent. (4) the utilization has been under the configured CIR percentage threshold for less than the configured duration. " ::= { mfrapPerfThruputPerDlciEntry 25 } mfrapPerfThruputPerDlciTxUtilizationStatus OBJECT-TYPE SYNTAX INTEGER { clear (1), over-threshold (2), alarm (3), alarm-under-threshold (4) } ACCESS read-only STATUS mandatory DESCRIPTION " The status of the per-DLCI utilization alarm in the transmit direction. (1) there is no alarm condition; utilization is under the configured CIR percentage threshold; if traps are enabled and the alarm had been previously triggered, a utilization alarm clear trap will be sent. (2) the utilization has been over the configured CIR percentage threshold for less than the configured duration. (3) the utilization has been over the configured CIR percentage threshold for more than the configured duration; if traps are enabled a utilization exceeded trap will be sent. (4) the utilization has been under the configured CIR percentage threshold for less than the configured duration. " ::= { mfrapPerfThruputPerDlciEntry 26 } mfrapPerfThruputPerDlciEIR OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Excess Information Rate. This is defined to be the maximum rate traffic is (supposed to be) allowed to burst to." ::= { mfrapPerfThruputPerDlciEntry 27 } mfrapPerfThruputCommands OBJECT IDENTIFIER ::= { mfrapPerfThruput 3 } mfrapPerfThruputCmdClearDteStats OBJECT-TYPE SYNTAX INTEGER { clear-statistics (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to zero out all the interface statistics in the DTE portion of the ThruputPerIntf statistics table. (1) Clear DTE interface statistics command." ::= { mfrapPerfThruputCommands 1 } mfrapPerfThruputCmdClearT1Stats OBJECT-TYPE SYNTAX INTEGER { clear-statistics (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to zero out all the interface statistics in the WAN portion of the ThruputPerIntf statistics table. (1) Clear WAN interface statistics command." ::= { mfrapPerfThruputCommands 2 } mfrapPerfThruputCmdClearAllIntfStats OBJECT-TYPE SYNTAX INTEGER { clear-statistics (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to zero out all the statistics in the ThruputPerIntf statistics table. (1) Clear all interface statistics command." ::= { mfrapPerfThruputCommands 3 } mfrapPerfThruputCmdClearDlciStats OBJECT-TYPE SYNTAX INTEGER { clear-statistics (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to zero out all the per-DLCI statistics in the ThruputPerDlci statistics table and the the short term statistics tables. (1) Clear layer 2 per-DLCI statistics command." ::= { mfrapPerfThruputCommands 4 } mfrapPerfThruputCmdClearAllStats OBJECT-TYPE SYNTAX INTEGER { clear-statistics (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to zero out all the statistics in the ThruputPerIntf and ThruputPerDlci statistics tables and in the short term statistics tables. (1) Clear all interface and layer 2 per-DLCI statistics." ::= { mfrapPerfThruputCommands 5 } mfrapPerfThruputCmdRemoveStsDlci OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to remove a Dlci from the short term statistics tables." ::= { mfrapPerfThruputCommands 6 } mfrapPerfThruputCmdReplaceDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfThruputCmdReplaceDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows the user to replace one DLCI in the short-term statistics table with another one." ::= { mfrapPerfThruputCommands 7 } mfrapPerfThruputCmdReplaceDlciEntry OBJECT-TYPE SYNTAX MfrapPerfThruputCmdReplaceDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Allows the user to replace one DLCI in the short-term statistics table with another one." INDEX { mfrapPerfThruputCmdReplaceDlciValue } ::= { mfrapPerfThruputCmdReplaceDlciTable 1 } MfrapPerfThruputCmdReplaceDlciEntry ::= SEQUENCE { mfrapPerfThruputCmdReplaceDlciValue INTEGER, mfrapPerfThruputCmdReplaceDlciNewValue INTEGER } mfrapPerfThruputCmdReplaceDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "A Dlci that is in the short-term stats table. Index by this Dlci value to identify the statistics entry to be replaced." ::= { mfrapPerfThruputCmdReplaceDlciEntry 1 } mfrapPerfThruputCmdReplaceDlciNewValue OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "A Dlci that is to replace another in the short-term stats table. Index by this Dlci value to identify the statistics entry to do the replacing." ::= { mfrapPerfThruputCmdReplaceDlciEntry 2 } mfrapPerfThruputCmdAvailabilityStsDlciReset OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to reset the availability statistics of an individual Dlci within the short-term stats table." ::= { mfrapPerfThruputCommands 8 } mfrapPerfThruputCmdAvailabilityStsDlciResetAll OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to reset the availability statistics of all Dlci's within the short-term stats table." ::= { mfrapPerfThruputCommands 9 } mfrapPerfThruputCmdCountsStsDlciReset OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to reset the count statistics of an individual Dlci within the short-term stats table." ::= { mfrapPerfThruputCommands 10 } mfrapPerfThruputCmdCountsStsDlciResetAll OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to reset the count statistics of all Dlci's within the short-term stats table." ::= { mfrapPerfThruputCommands 11 } mfrapPerfThruputCmdAllStsDlciReset OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to reset both the count and availability statistics of an individual Dlci within the short-term stats table." ::= { mfrapPerfThruputCommands 12 } mfrapPerfThruputCmdAllStsDlciResetAll OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to reset both the count and the availability statistics of all Dlci's within the short-term stats table." ::= { mfrapPerfThruputCommands 13 } mfrapPerfNetworkShortTerm OBJECT IDENTIFIER ::= { mfrapPerformance 4 } -- Network Layer Short Term Statistics for each DLCI. mfrapPerfNetwProtoPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfNetwProtoPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Short Term Statistics on the Network Layer protocol for each DLCI. These are protocol-based per-DLCI statistics. The Short Term model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval)." ::= { mfrapPerfNetworkShortTerm 1 } mfrapPerfNetwProtoPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfNetwProtoPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Network Layer Short Term Statistics for a particular DLCI. This table organizes statistics by high-layer network protocol." INDEX { mfrapPerfNetwProtoPerDlciInterval, mfrapPerfNetwProtoPerDlciValue } ::= { mfrapPerfNetwProtoPerDlciTable 1 } MfrapPerfNetwProtoPerDlciEntry ::= SEQUENCE { mfrapPerfNetwProtoPerDlciInterval INTEGER, mfrapPerfNetwProtoPerDlciValue INTEGER, mfrapPerfNetwProtoPerDlciRxTotal Counter, mfrapPerfNetwProtoPerDlciTxTotal Counter, mfrapPerfNetwProtoPerDlciRxIp Counter, mfrapPerfNetwProtoPerDlciTxIp Counter, mfrapPerfNetwProtoPerDlciRxIpx Counter, mfrapPerfNetwProtoPerDlciTxIpx Counter, mfrapPerfNetwProtoPerDlciRxSna Counter, mfrapPerfNetwProtoPerDlciTxSna Counter, mfrapPerfNetwProtoPerDlciRxArp Counter, mfrapPerfNetwProtoPerDlciTxArp Counter, mfrapPerfNetwProtoPerDlciRxCisco Counter, mfrapPerfNetwProtoPerDlciTxCisco Counter, mfrapPerfNetwProtoPerDlciRxOther Counter, mfrapPerfNetwProtoPerDlciTxOther Counter, mfrapPerfNetwProtoPerDlciRxVnip Counter, mfrapPerfNetwProtoPerDlciTxVnip Counter, mfrapPerfNetwProtoPerDlciRxAnnexG Counter, mfrapPerfNetwProtoPerDlciTxAnnexG Counter } mfrapPerfNetwProtoPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfNetwProtoPerDlciEntry 1 } mfrapPerfNetwProtoPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value with which the Statistics are associated." ::= { mfrapPerfNetwProtoPerDlciEntry 2 } mfrapPerfNetwProtoPerDlciRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of received Network Layer bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 3 } mfrapPerfNetwProtoPerDlciTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of transmitted Network Layer bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 4 } mfrapPerfNetwProtoPerDlciRxIp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received IP bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 5 } mfrapPerfNetwProtoPerDlciTxIp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted IP bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 6 } mfrapPerfNetwProtoPerDlciRxIpx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received IPX bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 7 } mfrapPerfNetwProtoPerDlciTxIpx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted IPX bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 8 } mfrapPerfNetwProtoPerDlciRxSna OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received SNA bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 9 } mfrapPerfNetwProtoPerDlciTxSna OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted SNA bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 10 } mfrapPerfNetwProtoPerDlciRxArp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received ARP bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 11 } mfrapPerfNetwProtoPerDlciTxArp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted ARP bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 12 } mfrapPerfNetwProtoPerDlciRxCisco OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received Cisco protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 13 } mfrapPerfNetwProtoPerDlciTxCisco OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted Cisco protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 14 } mfrapPerfNetwProtoPerDlciRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from protocols that are not counted elsewhere in this table." ::= { mfrapPerfNetwProtoPerDlciEntry 15 } mfrapPerfNetwProtoPerDlciTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from protocols that are not counted elsewhere in this table." ::= { mfrapPerfNetwProtoPerDlciEntry 16 } mfrapPerfNetwProtoPerDlciRxVnip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received VNIP protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 17 } mfrapPerfNetwProtoPerDlciTxVnip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted VNIP protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 18 } mfrapPerfNetwProtoPerDlciRxAnnexG OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received Annex G protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 19 } mfrapPerfNetwProtoPerDlciTxAnnexG OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted Annex G protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoPerDlciEntry 20 } -- Network Layer Short Term Statistics totals. mfrapPerfNetwProtoTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfNetwProtoTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Short Term Statistics on Network Layer protocols summed across all DLCIs." ::= { mfrapPerfNetworkShortTerm 2 } mfrapPerfNetwProtoTotalEntry OBJECT-TYPE SYNTAX MfrapPerfNetwProtoTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Network Layer Short Term Statistics for a particular DLCI." INDEX { mfrapPerfNetwProtoTotalInterval } ::= { mfrapPerfNetwProtoTotalTable 1 } MfrapPerfNetwProtoTotalEntry ::= SEQUENCE { mfrapPerfNetwProtoTotalInterval INTEGER, mfrapPerfNetwProtoTotalRxTotal Counter, mfrapPerfNetwProtoTotalTxTotal Counter, mfrapPerfNetwProtoTotalRxIp Counter, mfrapPerfNetwProtoTotalTxIp Counter, mfrapPerfNetwProtoTotalRxIpx Counter, mfrapPerfNetwProtoTotalTxIpx Counter, mfrapPerfNetwProtoTotalRxSna Counter, mfrapPerfNetwProtoTotalTxSna Counter, mfrapPerfNetwProtoTotalRxArp Counter, mfrapPerfNetwProtoTotalTxArp Counter, mfrapPerfNetwProtoTotalRxCisco Counter, mfrapPerfNetwProtoTotalTxCisco Counter, mfrapPerfNetwProtoTotalRxOther Counter, mfrapPerfNetwProtoTotalTxOther Counter, mfrapPerfNetwProtoTotalRxVnip Counter, mfrapPerfNetwProtoTotalTxVnip Counter, mfrapPerfNetwProtoTotalRxAnnexG Counter, mfrapPerfNetwProtoTotalTxAnnexG Counter } mfrapPerfNetwProtoTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfNetwProtoTotalEntry 1 } mfrapPerfNetwProtoTotalRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of received Network Layer bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 3 } mfrapPerfNetwProtoTotalTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of transmitted Network Layer bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 4 } mfrapPerfNetwProtoTotalRxIp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received IP bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 5 } mfrapPerfNetwProtoTotalTxIp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted IP bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 6 } mfrapPerfNetwProtoTotalRxIpx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received IPX bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 7 } mfrapPerfNetwProtoTotalTxIpx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted IPX bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 8 } mfrapPerfNetwProtoTotalRxSna OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received SNA bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 9 } mfrapPerfNetwProtoTotalTxSna OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted SNA bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 10 } mfrapPerfNetwProtoTotalRxArp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received ARP bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 11 } mfrapPerfNetwProtoTotalTxArp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted ARP bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 12 } mfrapPerfNetwProtoTotalRxCisco OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received Cisco protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 13 } mfrapPerfNetwProtoTotalTxCisco OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted Cisco protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 14 } mfrapPerfNetwProtoTotalRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from protocols that are not counted elsewhere in this table." ::= { mfrapPerfNetwProtoTotalEntry 15 } mfrapPerfNetwProtoTotalTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from protocols that are not counted elsewhere in this table." ::= { mfrapPerfNetwProtoTotalEntry 16 } mfrapPerfNetwProtoTotalRxVnip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received VNIP protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 17 } mfrapPerfNetwProtoTotalTxVnip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted VNIP protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 18 } mfrapPerfNetwProtoTotalRxAnnexG OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received Annex G protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 19 } mfrapPerfNetwProtoTotalTxAnnexG OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted Annex G protocol bytes that have been counted on this DLCI." ::= { mfrapPerfNetwProtoTotalEntry 20 } -- IP Short Term Statistics for each DLCI. mfrapPerfIpPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfIpPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Short Term Statistics on the IP protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 3 } mfrapPerfIpPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfIpPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The IP Short Term Statistics for a particular DLCI." INDEX { mfrapPerfIpPerDlciInterval, mfrapPerfIpPerDlciValue } ::= { mfrapPerfIpPerDlciTable 1 } MfrapPerfIpPerDlciEntry ::= SEQUENCE { mfrapPerfIpPerDlciInterval INTEGER, mfrapPerfIpPerDlciValue INTEGER, mfrapPerfIpPerDlciRxTotal Counter, mfrapPerfIpPerDlciTxTotal Counter, mfrapPerfIpPerDlciRxTcp Counter, mfrapPerfIpPerDlciTxTcp Counter, mfrapPerfIpPerDlciRxUdp Counter, mfrapPerfIpPerDlciTxUdp Counter, mfrapPerfIpPerDlciRxIcmp Counter, mfrapPerfIpPerDlciTxIcmp Counter, mfrapPerfIpPerDlciRxOther Counter, mfrapPerfIpPerDlciTxOther Counter, mfrapPerfIpPerDlciRxIgrp Counter, mfrapPerfIpPerDlciTxIgrp Counter } mfrapPerfIpPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfIpPerDlciEntry 1 } mfrapPerfIpPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value with which the Statistics are associated." ::= { mfrapPerfIpPerDlciEntry 2 } mfrapPerfIpPerDlciRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of received IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 3 } mfrapPerfIpPerDlciTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of transmitted IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 4 } mfrapPerfIpPerDlciRxTcp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received TCP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 5 } mfrapPerfIpPerDlciTxTcp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted TCP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 6 } mfrapPerfIpPerDlciRxUdp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received UDP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 7 } mfrapPerfIpPerDlciTxUdp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted UDP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 8 } mfrapPerfIpPerDlciRxIcmp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received ICMP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 9 } mfrapPerfIpPerDlciTxIcmp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted ICMP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 10 } mfrapPerfIpPerDlciRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from protocols over IP that are not counted elsewhere in this table." ::= { mfrapPerfIpPerDlciEntry 11 } mfrapPerfIpPerDlciTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from protocols over IP that are not counted elsewhere in this table." ::= { mfrapPerfIpPerDlciEntry 12 } mfrapPerfIpPerDlciRxIgrp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received IGRP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 13 } mfrapPerfIpPerDlciTxIgrp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted IGRP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpPerDlciEntry 14 } -- IP Short Term Statistics totals. mfrapPerfIpTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfIpTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Short Term Statistics on the IP protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 4 } mfrapPerfIpTotalEntry OBJECT-TYPE SYNTAX MfrapPerfIpTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The IP Short Term Statistics for a particular DLCI." INDEX { mfrapPerfIpTotalInterval } ::= { mfrapPerfIpTotalTable 1 } MfrapPerfIpTotalEntry ::= SEQUENCE { mfrapPerfIpTotalInterval INTEGER, mfrapPerfIpTotalRxTotal Counter, mfrapPerfIpTotalTxTotal Counter, mfrapPerfIpTotalRxTcp Counter, mfrapPerfIpTotalTxTcp Counter, mfrapPerfIpTotalRxUdp Counter, mfrapPerfIpTotalTxUdp Counter, mfrapPerfIpTotalRxIcmp Counter, mfrapPerfIpTotalTxIcmp Counter, mfrapPerfIpTotalRxOther Counter, mfrapPerfIpTotalTxOther Counter, mfrapPerfIpTotalRxIgrp Counter, mfrapPerfIpTotalTxIgrp Counter } mfrapPerfIpTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfIpTotalEntry 1 } mfrapPerfIpTotalRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of received IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 3 } mfrapPerfIpTotalTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of transmitted IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 4 } mfrapPerfIpTotalRxTcp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received TCP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 5 } mfrapPerfIpTotalTxTcp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted TCP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 6 } mfrapPerfIpTotalRxUdp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received UDP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 7 } mfrapPerfIpTotalTxUdp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted UDP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 8 } mfrapPerfIpTotalRxIcmp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received ICMP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 9 } mfrapPerfIpTotalTxIcmp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted ICMP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 10 } mfrapPerfIpTotalRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from protocols over IP that are not counted elsewhere in this table." ::= { mfrapPerfIpTotalEntry 11 } mfrapPerfIpTotalTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from protocols over IP that are not counted elsewhere in this table." ::= { mfrapPerfIpTotalEntry 12 } mfrapPerfIpTotalRxIgrp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received IGRP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 13 } mfrapPerfIpTotalTxIgrp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted IGRP over IP bytes that have been counted on this DLCI." ::= { mfrapPerfIpTotalEntry 14 } -- ICMP Short Term Statistics for each DLCI. mfrapPerfIcmpPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfIcmpPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the ICMP protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 5 } mfrapPerfIcmpPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfIcmpPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ICMP Short Term Statistics for a particular DLCI." INDEX { mfrapPerfIcmpPerDlciInterval, mfrapPerfIcmpPerDlciValue } ::= { mfrapPerfIcmpPerDlciTable 1 } MfrapPerfIcmpPerDlciEntry ::= SEQUENCE { mfrapPerfIcmpPerDlciInterval INTEGER, mfrapPerfIcmpPerDlciValue INTEGER, mfrapPerfIcmpPerDlciRxTotal Counter, mfrapPerfIcmpPerDlciTxTotal Counter, mfrapPerfIcmpPerDlciRxEchoRep Counter, mfrapPerfIcmpPerDlciTxEchoRep Counter, mfrapPerfIcmpPerDlciRxDestUnr Counter, mfrapPerfIcmpPerDlciTxDestUnr Counter, mfrapPerfIcmpPerDlciRxSrcQuench Counter, mfrapPerfIcmpPerDlciTxSrcQuench Counter, mfrapPerfIcmpPerDlciRxRedirect Counter, mfrapPerfIcmpPerDlciTxRedirect Counter, mfrapPerfIcmpPerDlciRxEchoReq Counter, mfrapPerfIcmpPerDlciTxEchoReq Counter, mfrapPerfIcmpPerDlciRxTimeExcd Counter, mfrapPerfIcmpPerDlciTxTimeExcd Counter, mfrapPerfIcmpPerDlciRxParamProb Counter, mfrapPerfIcmpPerDlciTxParamProb Counter, mfrapPerfIcmpPerDlciRxTimestpReq Counter, mfrapPerfIcmpPerDlciTxTimestpReq Counter, mfrapPerfIcmpPerDlciRxTimestpRep Counter, mfrapPerfIcmpPerDlciTxTimestpRep Counter, mfrapPerfIcmpPerDlciRxAddrMaskReq Counter, mfrapPerfIcmpPerDlciTxAddrMaskReq Counter, mfrapPerfIcmpPerDlciRxAddrMaskRep Counter, mfrapPerfIcmpPerDlciTxAddrMaskRep Counter, mfrapPerfIcmpPerDlciRxPktTooBig Counter, mfrapPerfIcmpPerDlciTxPktTooBig Counter, mfrapPerfIcmpPerDlciRxGmQuery Counter, mfrapPerfIcmpPerDlciTxGmQuery Counter, mfrapPerfIcmpPerDlciRxGmReport Counter, mfrapPerfIcmpPerDlciTxGmReport Counter, mfrapPerfIcmpPerDlciRxGmReduct Counter, mfrapPerfIcmpPerDlciTxGmReduct Counter } mfrapPerfIcmpPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfIcmpPerDlciEntry 1 } mfrapPerfIcmpPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value in which the Statistics are associated." ::= { mfrapPerfIcmpPerDlciEntry 2 } mfrapPerfIcmpPerDlciRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ICMP bytes that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 3 } mfrapPerfIcmpPerDlciTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ICMP bytes that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 4 } mfrapPerfIcmpPerDlciRxEchoRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP ECHO repies that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 5 } mfrapPerfIcmpPerDlciTxEchoRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP ECHO repies that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 6 } mfrapPerfIcmpPerDlciRxDestUnr OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP destination unreachables that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 7 } mfrapPerfIcmpPerDlciTxDestUnr OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP destination unreachables that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 8 } mfrapPerfIcmpPerDlciRxSrcQuench OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP source quenches that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 9 } mfrapPerfIcmpPerDlciTxSrcQuench OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP source quenches that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 10 } mfrapPerfIcmpPerDlciRxRedirect OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP redirects that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 11 } mfrapPerfIcmpPerDlciTxRedirect OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP redirects that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 12 } mfrapPerfIcmpPerDlciRxEchoReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP ECHO requests that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 13 } mfrapPerfIcmpPerDlciTxEchoReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP ECHO requests that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 14 } mfrapPerfIcmpPerDlciRxTimeExcd OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP time exceededs that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 15 } mfrapPerfIcmpPerDlciTxTimeExcd OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP time exceededs that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 16 } mfrapPerfIcmpPerDlciRxParamProb OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP parameter problems that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 17 } mfrapPerfIcmpPerDlciTxParamProb OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP parameter problems that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 18 } mfrapPerfIcmpPerDlciRxTimestpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP timestamp requests that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 19 } mfrapPerfIcmpPerDlciTxTimestpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP timestamp requests that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 20 } mfrapPerfIcmpPerDlciRxTimestpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP timestamp replies that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 21 } mfrapPerfIcmpPerDlciTxTimestpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP timestamp replies that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 22 } mfrapPerfIcmpPerDlciRxAddrMaskReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP address mask requests that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 23 } mfrapPerfIcmpPerDlciTxAddrMaskReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP address mask requests that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 24 } mfrapPerfIcmpPerDlciRxAddrMaskRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP address mask replies that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 25 } mfrapPerfIcmpPerDlciTxAddrMaskRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP address mask replies that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 26 } mfrapPerfIcmpPerDlciRxPktTooBig OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP packet too bigs that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 27 } mfrapPerfIcmpPerDlciTxPktTooBig OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP packet too bigs that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 28 } mfrapPerfIcmpPerDlciRxGmQuery OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership queries that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 29 } mfrapPerfIcmpPerDlciTxGmQuery OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership queries that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 30 } mfrapPerfIcmpPerDlciRxGmReport OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership reports that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 31 } mfrapPerfIcmpPerDlciTxGmReport OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership reports that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 32 } mfrapPerfIcmpPerDlciRxGmReduct OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership reductions that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 33 } mfrapPerfIcmpPerDlciTxGmReduct OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership reductions that have been counted on this DLCI." ::= { mfrapPerfIcmpPerDlciEntry 34 } -- ICMP Short Term Statistics totals. mfrapPerfIcmpTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfIcmpTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the ICMP protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 6 } mfrapPerfIcmpTotalEntry OBJECT-TYPE SYNTAX MfrapPerfIcmpTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ICMP Short Term Statistics for a particular DLCI." INDEX { mfrapPerfIcmpTotalInterval } ::= { mfrapPerfIcmpTotalTable 1 } MfrapPerfIcmpTotalEntry ::= SEQUENCE { mfrapPerfIcmpTotalInterval INTEGER, mfrapPerfIcmpTotalRxTotal Counter, mfrapPerfIcmpTotalTxTotal Counter, mfrapPerfIcmpTotalRxEchoRep Counter, mfrapPerfIcmpTotalTxEchoRep Counter, mfrapPerfIcmpTotalRxDestUnr Counter, mfrapPerfIcmpTotalTxDestUnr Counter, mfrapPerfIcmpTotalRxSrcQuench Counter, mfrapPerfIcmpTotalTxSrcQuench Counter, mfrapPerfIcmpTotalRxRedirect Counter, mfrapPerfIcmpTotalTxRedirect Counter, mfrapPerfIcmpTotalRxEchoReq Counter, mfrapPerfIcmpTotalTxEchoReq Counter, mfrapPerfIcmpTotalRxTimeExcd Counter, mfrapPerfIcmpTotalTxTimeExcd Counter, mfrapPerfIcmpTotalRxParamProb Counter, mfrapPerfIcmpTotalTxParamProb Counter, mfrapPerfIcmpTotalRxTimestpReq Counter, mfrapPerfIcmpTotalTxTimestpReq Counter, mfrapPerfIcmpTotalRxTimestpRep Counter, mfrapPerfIcmpTotalTxTimestpRep Counter, mfrapPerfIcmpTotalRxAddrMaskReq Counter, mfrapPerfIcmpTotalTxAddrMaskReq Counter, mfrapPerfIcmpTotalRxAddrMaskRep Counter, mfrapPerfIcmpTotalTxAddrMaskRep Counter, mfrapPerfIcmpTotalRxPktTooBig Counter, mfrapPerfIcmpTotalTxPktTooBig Counter, mfrapPerfIcmpTotalRxGmQuery Counter, mfrapPerfIcmpTotalTxGmQuery Counter, mfrapPerfIcmpTotalRxGmReport Counter, mfrapPerfIcmpTotalTxGmReport Counter, mfrapPerfIcmpTotalRxGmReduct Counter, mfrapPerfIcmpTotalTxGmReduct Counter } mfrapPerfIcmpTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfIcmpTotalEntry 1 } mfrapPerfIcmpTotalRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ICMP bytes that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 3 } mfrapPerfIcmpTotalTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ICMP bytes that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 4 } mfrapPerfIcmpTotalRxEchoRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP ECHO repies that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 5 } mfrapPerfIcmpTotalTxEchoRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP ECHO repies that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 6 } mfrapPerfIcmpTotalRxDestUnr OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP destination unreachables that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 7 } mfrapPerfIcmpTotalTxDestUnr OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP destination unreachables that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 8 } mfrapPerfIcmpTotalRxSrcQuench OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP source quenches that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 9 } mfrapPerfIcmpTotalTxSrcQuench OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP source quenches that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 10 } mfrapPerfIcmpTotalRxRedirect OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP redirects that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 11 } mfrapPerfIcmpTotalTxRedirect OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP redirects that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 12 } mfrapPerfIcmpTotalRxEchoReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP ECHO requests that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 13 } mfrapPerfIcmpTotalTxEchoReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP ECHO requests that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 14 } mfrapPerfIcmpTotalRxTimeExcd OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP time exceededs that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 15 } mfrapPerfIcmpTotalTxTimeExcd OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP time exceededs that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 16 } mfrapPerfIcmpTotalRxParamProb OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP parameter problems that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 17 } mfrapPerfIcmpTotalTxParamProb OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP parameter problems that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 18 } mfrapPerfIcmpTotalRxTimestpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP timestamp requests that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 19 } mfrapPerfIcmpTotalTxTimestpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP timestamp requests that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 20 } mfrapPerfIcmpTotalRxTimestpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP timestamp replies that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 21 } mfrapPerfIcmpTotalTxTimestpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP timestamp replies that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 22 } mfrapPerfIcmpTotalRxAddrMaskReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP address mask requests that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 23 } mfrapPerfIcmpTotalTxAddrMaskReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP address mask requests that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 24 } mfrapPerfIcmpTotalRxAddrMaskRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP address mask replies that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 25 } mfrapPerfIcmpTotalTxAddrMaskRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP address mask replies that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 26 } mfrapPerfIcmpTotalRxPktTooBig OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP packet too bigs that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 27 } mfrapPerfIcmpTotalTxPktTooBig OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP packet too bigs that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 28 } mfrapPerfIcmpTotalRxGmQuery OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership queries that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 29 } mfrapPerfIcmpTotalTxGmQuery OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership queries that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 30 } mfrapPerfIcmpTotalRxGmReport OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership reports that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 31 } mfrapPerfIcmpTotalTxGmReport OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership reports that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 32 } mfrapPerfIcmpTotalRxGmReduct OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership reductions that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 33 } mfrapPerfIcmpTotalTxGmReduct OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes in ICMP group membership reductions that have been counted on this DLCI." ::= { mfrapPerfIcmpTotalEntry 34 } -- Application-level Short Term Statistics for each DLCI. mfrapPerfApplicationPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfApplicationPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Short Term Statistics on the Application protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 7 } mfrapPerfApplicationPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfApplicationPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Application Short Term Statistics for a particular DLCI." INDEX { mfrapPerfApplicationPerDlciInterval, mfrapPerfApplicationPerDlciValue } ::= { mfrapPerfApplicationPerDlciTable 1 } MfrapPerfApplicationPerDlciEntry ::= SEQUENCE { mfrapPerfApplicationPerDlciInterval INTEGER, mfrapPerfApplicationPerDlciValue INTEGER, mfrapPerfApplicationPerDlciRxSnmp Counter, mfrapPerfApplicationPerDlciTxSnmp Counter, mfrapPerfApplicationPerDlciRxSnmpTrap Counter, mfrapPerfApplicationPerDlciTxSnmpTrap Counter, mfrapPerfApplicationPerDlciRxHttp Counter, mfrapPerfApplicationPerDlciTxHttp Counter, mfrapPerfApplicationPerDlciRxTelnet Counter, mfrapPerfApplicationPerDlciTxTelnet Counter, mfrapPerfApplicationPerDlciRxSmtp Counter, mfrapPerfApplicationPerDlciTxSmtp Counter, mfrapPerfApplicationPerDlciRxFtp Counter, mfrapPerfApplicationPerDlciTxFtp Counter, mfrapPerfApplicationPerDlciRxTftp Counter, mfrapPerfApplicationPerDlciTxTftp Counter, mfrapPerfApplicationPerDlciRxCustom1 Counter, mfrapPerfApplicationPerDlciTxCustom1 Counter, mfrapPerfApplicationPerDlciRxCustom2 Counter, mfrapPerfApplicationPerDlciTxCustom2 Counter, mfrapPerfApplicationPerDlciRxCustom3 Counter, mfrapPerfApplicationPerDlciTxCustom3 Counter, mfrapPerfApplicationPerDlciRxCustom4 Counter, mfrapPerfApplicationPerDlciTxCustom4 Counter } mfrapPerfApplicationPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfApplicationPerDlciEntry 1 } mfrapPerfApplicationPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value with which the Statistics are associated." ::= { mfrapPerfApplicationPerDlciEntry 2 } mfrapPerfApplicationPerDlciRxSnmp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received SNMP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 3 } mfrapPerfApplicationPerDlciTxSnmp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted SNMP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 4 } mfrapPerfApplicationPerDlciRxSnmpTrap OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received SNMP TRAP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 5 } mfrapPerfApplicationPerDlciTxSnmpTrap OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted SNMP TRAP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 6 } mfrapPerfApplicationPerDlciRxHttp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received HTTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 7 } mfrapPerfApplicationPerDlciTxHttp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted HTTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 8 } mfrapPerfApplicationPerDlciRxTelnet OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received Telnet bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 9 } mfrapPerfApplicationPerDlciTxTelnet OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted Telnet bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 10 } mfrapPerfApplicationPerDlciRxSmtp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received SMTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 11 } mfrapPerfApplicationPerDlciTxSmtp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted SMTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 12 } mfrapPerfApplicationPerDlciRxFtp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received FTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 13 } mfrapPerfApplicationPerDlciTxFtp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted FTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 14 } mfrapPerfApplicationPerDlciRxTftp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received TFTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 15 } mfrapPerfApplicationPerDlciTxTftp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted TFTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 16 } mfrapPerfApplicationPerDlciRxCustom1 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes of User Defined Protocol #1 that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 17 } mfrapPerfApplicationPerDlciTxCustom1 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes of User Defined Protocol #1 that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 18 } mfrapPerfApplicationPerDlciRxCustom2 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes of User Defined Protocol #2 that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 19 } mfrapPerfApplicationPerDlciTxCustom2 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes of User Defined Protocol #2 that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 20 } mfrapPerfApplicationPerDlciRxCustom3 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes of User Defined Protocol #3 that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 21 } mfrapPerfApplicationPerDlciTxCustom3 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes of User Defined Protocol #3 that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 22 } mfrapPerfApplicationPerDlciRxCustom4 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes of User Defined Protocol #4 that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 23 } mfrapPerfApplicationPerDlciTxCustom4 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes of User Defined Protocol #4 that have been counted on this DLCI." ::= { mfrapPerfApplicationPerDlciEntry 24 } -- Application-level Short Term Statistics totals. mfrapPerfApplicationTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfApplicationTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Short Term Statistics on the Application protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 8 } mfrapPerfApplicationTotalEntry OBJECT-TYPE SYNTAX MfrapPerfApplicationTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Application Short Term Statistics for a particular DLCI." INDEX { mfrapPerfApplicationTotalInterval } ::= { mfrapPerfApplicationTotalTable 1 } MfrapPerfApplicationTotalEntry ::= SEQUENCE { mfrapPerfApplicationTotalInterval INTEGER, mfrapPerfApplicationTotalRxSnmp Counter, mfrapPerfApplicationTotalTxSnmp Counter, mfrapPerfApplicationTotalRxSnmpTrap Counter, mfrapPerfApplicationTotalTxSnmpTrap Counter, mfrapPerfApplicationTotalRxHttp Counter, mfrapPerfApplicationTotalTxHttp Counter, mfrapPerfApplicationTotalRxTelnet Counter, mfrapPerfApplicationTotalTxTelnet Counter, mfrapPerfApplicationTotalRxSmtp Counter, mfrapPerfApplicationTotalTxSmtp Counter, mfrapPerfApplicationTotalRxFtp Counter, mfrapPerfApplicationTotalTxFtp Counter, mfrapPerfApplicationTotalRxTftp Counter, mfrapPerfApplicationTotalTxTftp Counter, mfrapPerfApplicationTotalRxCustom1 Counter, mfrapPerfApplicationTotalTxCustom1 Counter, mfrapPerfApplicationTotalRxCustom2 Counter, mfrapPerfApplicationTotalTxCustom2 Counter, mfrapPerfApplicationTotalRxCustom3 Counter, mfrapPerfApplicationTotalTxCustom3 Counter, mfrapPerfApplicationTotalRxCustom4 Counter, mfrapPerfApplicationTotalTxCustom4 Counter } mfrapPerfApplicationTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfApplicationTotalEntry 1 } mfrapPerfApplicationTotalRxSnmp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received SNMP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 3 } mfrapPerfApplicationTotalTxSnmp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted SNMP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 4 } mfrapPerfApplicationTotalRxSnmpTrap OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received SNMP TRAP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 5 } mfrapPerfApplicationTotalTxSnmpTrap OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted SNMP TRAP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 6 } mfrapPerfApplicationTotalRxHttp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received HTTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 7 } mfrapPerfApplicationTotalTxHttp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted HTTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 8 } mfrapPerfApplicationTotalRxTelnet OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received Telnet bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 9 } mfrapPerfApplicationTotalTxTelnet OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted Telnet bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 10 } mfrapPerfApplicationTotalRxSmtp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received SMTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 11 } mfrapPerfApplicationTotalTxSmtp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted SMTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 12 } mfrapPerfApplicationTotalRxFtp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received FTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 13 } mfrapPerfApplicationTotalTxFtp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted FTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 14 } mfrapPerfApplicationTotalRxTftp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received TFTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 15 } mfrapPerfApplicationTotalTxTftp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted TFTP bytes that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 16 } mfrapPerfApplicationTotalRxCustom1 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes of User Defined Protocol #1 that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 17 } mfrapPerfApplicationTotalTxCustom1 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes of User Defined Protocol #1 that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 18 } mfrapPerfApplicationTotalRxCustom2 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes of User Defined Protocol #2 that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 19 } mfrapPerfApplicationTotalTxCustom2 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes of User Defined Protocol #2 that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 20 } mfrapPerfApplicationTotalRxCustom3 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes of User Defined Protocol #3 that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 21 } mfrapPerfApplicationTotalTxCustom3 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes of User Defined Protocol #3 that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 22 } mfrapPerfApplicationTotalRxCustom4 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes of User Defined Protocol #4 that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 23 } mfrapPerfApplicationTotalTxCustom4 OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes of User Defined Protocol #4 that have been counted on this DLCI." ::= { mfrapPerfApplicationTotalEntry 24 } -- Routing Short Term Statistics for each DLCI. mfrapPerfRoutingPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfRoutingPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Short Term Statistics on the Routing protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 9 } mfrapPerfRoutingPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfRoutingPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Routing Short Term Statistics for a particular DLCI." INDEX { mfrapPerfRoutingPerDlciInterval, mfrapPerfRoutingPerDlciValue } ::= { mfrapPerfRoutingPerDlciTable 1 } MfrapPerfRoutingPerDlciEntry ::= SEQUENCE { mfrapPerfRoutingPerDlciInterval INTEGER, mfrapPerfRoutingPerDlciValue INTEGER, mfrapPerfRoutingPerDlciRxOspf Counter, mfrapPerfRoutingPerDlciTxOspf Counter, mfrapPerfRoutingPerDlciRxRip Counter, mfrapPerfRoutingPerDlciTxRip Counter, mfrapPerfRoutingPerDlciRxNetbios Counter, mfrapPerfRoutingPerDlciTxNetbios Counter } mfrapPerfRoutingPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfRoutingPerDlciEntry 1 } mfrapPerfRoutingPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value with which the Statistics are associated." ::= { mfrapPerfRoutingPerDlciEntry 2 } mfrapPerfRoutingPerDlciRxOspf OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received OSPF bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingPerDlciEntry 3 } mfrapPerfRoutingPerDlciTxOspf OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted OSPF bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingPerDlciEntry 4 } mfrapPerfRoutingPerDlciRxRip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received RIP bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingPerDlciEntry 5 } mfrapPerfRoutingPerDlciTxRip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted RIP bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingPerDlciEntry 6 } mfrapPerfRoutingPerDlciRxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received Netbios bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingPerDlciEntry 7 } mfrapPerfRoutingPerDlciTxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted Netbios bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingPerDlciEntry 8 } -- Routing Short Term Statistics totals. mfrapPerfRoutingTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfRoutingTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Short Term Statistics on the Routing protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 10 } mfrapPerfRoutingTotalEntry OBJECT-TYPE SYNTAX MfrapPerfRoutingTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Routing Short Term Statistics for a particular DLCI." INDEX { mfrapPerfRoutingTotalInterval } ::= { mfrapPerfRoutingTotalTable 1 } MfrapPerfRoutingTotalEntry ::= SEQUENCE { mfrapPerfRoutingTotalInterval INTEGER, mfrapPerfRoutingTotalRxOspf Counter, mfrapPerfRoutingTotalTxOspf Counter, mfrapPerfRoutingTotalRxRip Counter, mfrapPerfRoutingTotalTxRip Counter, mfrapPerfRoutingTotalRxNetbios Counter, mfrapPerfRoutingTotalTxNetbios Counter } mfrapPerfRoutingTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfRoutingTotalEntry 1 } mfrapPerfRoutingTotalRxOspf OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received OSPF bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingTotalEntry 3 } mfrapPerfRoutingTotalTxOspf OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted OSPF bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingTotalEntry 4 } mfrapPerfRoutingTotalRxRip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received RIP bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingTotalEntry 5 } mfrapPerfRoutingTotalTxRip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted RIP bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingTotalEntry 6 } mfrapPerfRoutingTotalRxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received Netbios bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingTotalEntry 7 } mfrapPerfRoutingTotalTxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted Netbios bytes that have been counted on this DLCI." ::= { mfrapPerfRoutingTotalEntry 8 } -- IPX Short Term Statistics for each DLCI. mfrapPerfIpxPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfIpxPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the IPX protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 11 } mfrapPerfIpxPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfIpxPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The IPX Short Term Statistics for a particular DLCI." INDEX { mfrapPerfIpxPerDlciInterval, mfrapPerfIpxPerDlciValue } ::= { mfrapPerfIpxPerDlciTable 1 } MfrapPerfIpxPerDlciEntry ::= SEQUENCE { mfrapPerfIpxPerDlciInterval INTEGER, mfrapPerfIpxPerDlciValue INTEGER, mfrapPerfIpxPerDlciRxTotal Counter, mfrapPerfIpxPerDlciTxTotal Counter, mfrapPerfIpxPerDlciRxSpx Counter, mfrapPerfIpxPerDlciTxSpx Counter, mfrapPerfIpxPerDlciRxNcp Counter, mfrapPerfIpxPerDlciTxNcp Counter, mfrapPerfIpxPerDlciRxSap Counter, mfrapPerfIpxPerDlciTxSap Counter, mfrapPerfIpxPerDlciRxRip Counter, mfrapPerfIpxPerDlciTxRip Counter, mfrapPerfIpxPerDlciRxNetbios Counter, mfrapPerfIpxPerDlciTxNetbios Counter, mfrapPerfIpxPerDlciRxOther Counter, mfrapPerfIpxPerDlciTxOther Counter } mfrapPerfIpxPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfIpxPerDlciEntry 1 } mfrapPerfIpxPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value in which the Statistics are associated." ::= { mfrapPerfIpxPerDlciEntry 2 } mfrapPerfIpxPerDlciRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 3 } mfrapPerfIpxPerDlciTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 4 } mfrapPerfIpxPerDlciRxSpx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SPX over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 5 } mfrapPerfIpxPerDlciTxSpx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SPX over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 6 } mfrapPerfIpxPerDlciRxNcp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of NCP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 7 } mfrapPerfIpxPerDlciTxNcp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of NCP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 8 } mfrapPerfIpxPerDlciRxSap OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SAP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 9 } mfrapPerfIpxPerDlciTxSap OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SAP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 10 } mfrapPerfIpxPerDlciRxRip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RIP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 11 } mfrapPerfIpxPerDlciTxRip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RIP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 12 } mfrapPerfIpxPerDlciRxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of NETBIOS over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 13 } mfrapPerfIpxPerDlciTxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of NETBIOS over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxPerDlciEntry 14 } mfrapPerfIpxPerDlciRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from protocols over IPX that are not counted elsewhere in this table." ::= { mfrapPerfIpxPerDlciEntry 15 } mfrapPerfIpxPerDlciTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from protocols over IPX that are not counted elsewhere in this table." ::= { mfrapPerfIpxPerDlciEntry 16 } -- IPX Short Term Statistics totals. mfrapPerfIpxTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfIpxTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the IPX protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 12 } mfrapPerfIpxTotalEntry OBJECT-TYPE SYNTAX MfrapPerfIpxTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The IPX Short Term Statistics for a particular DLCI." INDEX { mfrapPerfIpxTotalInterval } ::= { mfrapPerfIpxTotalTable 1 } MfrapPerfIpxTotalEntry ::= SEQUENCE { mfrapPerfIpxTotalInterval INTEGER, mfrapPerfIpxTotalRxTotal Counter, mfrapPerfIpxTotalTxTotal Counter, mfrapPerfIpxTotalRxSpx Counter, mfrapPerfIpxTotalTxSpx Counter, mfrapPerfIpxTotalRxNcp Counter, mfrapPerfIpxTotalTxNcp Counter, mfrapPerfIpxTotalRxSap Counter, mfrapPerfIpxTotalTxSap Counter, mfrapPerfIpxTotalRxRip Counter, mfrapPerfIpxTotalTxRip Counter, mfrapPerfIpxTotalRxNetbios Counter, mfrapPerfIpxTotalTxNetbios Counter, mfrapPerfIpxTotalRxOther Counter, mfrapPerfIpxTotalTxOther Counter } mfrapPerfIpxTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfIpxTotalEntry 1 } mfrapPerfIpxTotalRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 3 } mfrapPerfIpxTotalTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 4 } mfrapPerfIpxTotalRxSpx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SPX over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 5 } mfrapPerfIpxTotalTxSpx OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SPX over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 6 } mfrapPerfIpxTotalRxNcp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of NCP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 7 } mfrapPerfIpxTotalTxNcp OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of NCP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 8 } mfrapPerfIpxTotalRxSap OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SAP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 9 } mfrapPerfIpxTotalTxSap OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SAP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 10 } mfrapPerfIpxTotalRxRip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RIP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 11 } mfrapPerfIpxTotalTxRip OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RIP over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 12 } mfrapPerfIpxTotalRxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of NETBIOS over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 13 } mfrapPerfIpxTotalTxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of NETBIOS over IPX bytes that have been counted on this DLCI." ::= { mfrapPerfIpxTotalEntry 14 } mfrapPerfIpxTotalRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from protocols over IPX that are not counted elsewhere in this table." ::= { mfrapPerfIpxTotalEntry 15 } mfrapPerfIpxTotalTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from protocols over IPX that are not counted elsewhere in this table." ::= { mfrapPerfIpxTotalEntry 16 } -- SNA Short Term Statistics for each DLCI. mfrapPerfSnaPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfSnaPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the SNA protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 13 } mfrapPerfSnaPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfSnaPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The SNA Short Term Statistics for a particular DLCI." INDEX { mfrapPerfSnaPerDlciInterval, mfrapPerfSnaPerDlciValue } ::= { mfrapPerfSnaPerDlciTable 1 } MfrapPerfSnaPerDlciEntry ::= SEQUENCE { mfrapPerfSnaPerDlciInterval INTEGER, mfrapPerfSnaPerDlciValue INTEGER, mfrapPerfSnaPerDlciRxTotal Counter, mfrapPerfSnaPerDlciTxTotal Counter, mfrapPerfSnaPerDlciRxSubarea Counter, mfrapPerfSnaPerDlciTxSubarea Counter, mfrapPerfSnaPerDlciRxPeriph Counter, mfrapPerfSnaPerDlciTxPeriph Counter, mfrapPerfSnaPerDlciRxAppn Counter, mfrapPerfSnaPerDlciTxAppn Counter, mfrapPerfSnaPerDlciRxNetbios Counter, mfrapPerfSnaPerDlciTxNetbios Counter, mfrapPerfSnaPerDlciRxOther Counter, mfrapPerfSnaPerDlciTxOther Counter } mfrapPerfSnaPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfSnaPerDlciEntry 1 } mfrapPerfSnaPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value in which the Statistics are associated." ::= { mfrapPerfSnaPerDlciEntry 2 } mfrapPerfSnaPerDlciRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of SNA bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 3 } mfrapPerfSnaPerDlciTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of SNA bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 4 } mfrapPerfSnaPerDlciRxSubarea OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Subarea bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 5 } mfrapPerfSnaPerDlciTxSubarea OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Subarea bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 6 } mfrapPerfSnaPerDlciRxPeriph OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Periph bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 7 } mfrapPerfSnaPerDlciTxPeriph OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Periph bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 8 } mfrapPerfSnaPerDlciRxAppn OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Appn bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 9 } mfrapPerfSnaPerDlciTxAppn OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Appn bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 10 } mfrapPerfSnaPerDlciRxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Netbios bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 11 } mfrapPerfSnaPerDlciTxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Netbios bytes that have been counted on this DLCI." ::= { mfrapPerfSnaPerDlciEntry 12 } mfrapPerfSnaPerDlciRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from protocols over SNA that are not counted elsewhere in this table." ::= { mfrapPerfSnaPerDlciEntry 13 } mfrapPerfSnaPerDlciTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from protocols over SNA that are not counted elsewhere in this table." ::= { mfrapPerfSnaPerDlciEntry 14 } -- SNA Short Term Statistics totals. mfrapPerfSnaTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfSnaTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the SNA protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 14 } mfrapPerfSnaTotalEntry OBJECT-TYPE SYNTAX MfrapPerfSnaTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The SNA Short Term Statistics for a particular DLCI." INDEX { mfrapPerfSnaTotalInterval } ::= { mfrapPerfSnaTotalTable 1 } MfrapPerfSnaTotalEntry ::= SEQUENCE { mfrapPerfSnaTotalInterval INTEGER, mfrapPerfSnaTotalRxTotal Counter, mfrapPerfSnaTotalTxTotal Counter, mfrapPerfSnaTotalRxSubarea Counter, mfrapPerfSnaTotalTxSubarea Counter, mfrapPerfSnaTotalRxPeriph Counter, mfrapPerfSnaTotalTxPeriph Counter, mfrapPerfSnaTotalRxAppn Counter, mfrapPerfSnaTotalTxAppn Counter, mfrapPerfSnaTotalRxNetbios Counter, mfrapPerfSnaTotalTxNetbios Counter, mfrapPerfSnaTotalRxOther Counter, mfrapPerfSnaTotalTxOther Counter } mfrapPerfSnaTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfSnaTotalEntry 1 } mfrapPerfSnaTotalRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of SNA bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 3 } mfrapPerfSnaTotalTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of SNA bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 4 } mfrapPerfSnaTotalRxSubarea OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Subarea bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 5 } mfrapPerfSnaTotalTxSubarea OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Subarea bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 6 } mfrapPerfSnaTotalRxPeriph OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Periph bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 7 } mfrapPerfSnaTotalTxPeriph OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Periph bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 8 } mfrapPerfSnaTotalRxAppn OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Appn bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 9 } mfrapPerfSnaTotalTxAppn OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Appn bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 10 } mfrapPerfSnaTotalRxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Netbios bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 11 } mfrapPerfSnaTotalTxNetbios OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of SNA Netbios bytes that have been counted on this DLCI." ::= { mfrapPerfSnaTotalEntry 12 } mfrapPerfSnaTotalRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from protocols over SNA that are not counted elsewhere in this table." ::= { mfrapPerfSnaTotalEntry 13 } mfrapPerfSnaTotalTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from protocols over SNA that are not counted elsewhere in this table." ::= { mfrapPerfSnaTotalEntry 14 } -- ARP Short Term Statistics for each DLCI. mfrapPerfArpPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfArpPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the ARP protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 15 } mfrapPerfArpPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfArpPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ARP Short Term Statistics for a particular DLCI." INDEX { mfrapPerfArpPerDlciInterval, mfrapPerfArpPerDlciValue } ::= { mfrapPerfArpPerDlciTable 1 } MfrapPerfArpPerDlciEntry ::= SEQUENCE { mfrapPerfArpPerDlciInterval INTEGER, mfrapPerfArpPerDlciValue INTEGER, mfrapPerfArpPerDlciRxTotal Counter, mfrapPerfArpPerDlciTxTotal Counter, mfrapPerfArpPerDlciRxArpReq Counter, mfrapPerfArpPerDlciTxArpReq Counter, mfrapPerfArpPerDlciRxArpRep Counter, mfrapPerfArpPerDlciTxArpRep Counter, mfrapPerfArpPerDlciRxRarpReq Counter, mfrapPerfArpPerDlciTxRarpReq Counter, mfrapPerfArpPerDlciRxRarpRep Counter, mfrapPerfArpPerDlciTxRarpRep Counter, mfrapPerfArpPerDlciRxInarpReq Counter, mfrapPerfArpPerDlciTxInarpReq Counter, mfrapPerfArpPerDlciRxInarpRep Counter, mfrapPerfArpPerDlciTxInarpRep Counter, mfrapPerfArpPerDlciRxOther Counter, mfrapPerfArpPerDlciTxOther Counter } mfrapPerfArpPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfArpPerDlciEntry 1 } mfrapPerfArpPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value in which the Statistics are associated." ::= { mfrapPerfArpPerDlciEntry 2 } mfrapPerfArpPerDlciRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ARP bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 3 } mfrapPerfArpPerDlciTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ARP bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 4 } mfrapPerfArpPerDlciRxArpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 5 } mfrapPerfArpPerDlciTxArpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 6 } mfrapPerfArpPerDlciRxArpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 7 } mfrapPerfArpPerDlciTxArpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 8 } mfrapPerfArpPerDlciRxRarpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 9 } mfrapPerfArpPerDlciTxRarpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 10 } mfrapPerfArpPerDlciRxRarpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 11 } mfrapPerfArpPerDlciTxRarpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 12 } mfrapPerfArpPerDlciRxInarpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of INARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 13 } mfrapPerfArpPerDlciTxInarpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of INARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 14 } mfrapPerfArpPerDlciRxInarpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of INARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 15 } mfrapPerfArpPerDlciTxInarpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of INARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpPerDlciEntry 16 } mfrapPerfArpPerDlciRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from ARP message types that are not counted elsewhere in this table." ::= { mfrapPerfArpPerDlciEntry 17 } mfrapPerfArpPerDlciTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from ARP message types that are not counted elsewhere in this table." ::= { mfrapPerfArpPerDlciEntry 18 } -- ARP Short Term Statistics totals. mfrapPerfArpTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfArpTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the ARP protocol across all DLCIs." ::= { mfrapPerfNetworkShortTerm 16 } mfrapPerfArpTotalEntry OBJECT-TYPE SYNTAX MfrapPerfArpTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The ARP Short Term Statistics for a particular DLCI." INDEX { mfrapPerfArpTotalInterval } ::= { mfrapPerfArpTotalTable 1 } MfrapPerfArpTotalEntry ::= SEQUENCE { mfrapPerfArpTotalInterval INTEGER, mfrapPerfArpTotalRxTotal Counter, mfrapPerfArpTotalTxTotal Counter, mfrapPerfArpTotalRxArpReq Counter, mfrapPerfArpTotalTxArpReq Counter, mfrapPerfArpTotalRxArpRep Counter, mfrapPerfArpTotalTxArpRep Counter, mfrapPerfArpTotalRxRarpReq Counter, mfrapPerfArpTotalTxRarpReq Counter, mfrapPerfArpTotalRxRarpRep Counter, mfrapPerfArpTotalTxRarpRep Counter, mfrapPerfArpTotalRxInarpReq Counter, mfrapPerfArpTotalTxInarpReq Counter, mfrapPerfArpTotalRxInarpRep Counter, mfrapPerfArpTotalTxInarpRep Counter, mfrapPerfArpTotalRxOther Counter, mfrapPerfArpTotalTxOther Counter } mfrapPerfArpTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfArpTotalEntry 1 } mfrapPerfArpTotalRxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ARP bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 3 } mfrapPerfArpTotalTxTotal OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of ARP bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 4 } mfrapPerfArpTotalRxArpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 5 } mfrapPerfArpTotalTxArpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 6 } mfrapPerfArpTotalRxArpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 7 } mfrapPerfArpTotalTxArpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of ARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 8 } mfrapPerfArpTotalRxRarpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 9 } mfrapPerfArpTotalTxRarpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 10 } mfrapPerfArpTotalRxRarpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 11 } mfrapPerfArpTotalTxRarpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of RARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 12 } mfrapPerfArpTotalRxInarpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of INARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 13 } mfrapPerfArpTotalTxInarpReq OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of INARP request bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 14 } mfrapPerfArpTotalRxInarpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of INARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 15 } mfrapPerfArpTotalTxInarpRep OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of INARP reply bytes that have been counted on this DLCI." ::= { mfrapPerfArpTotalEntry 16 } mfrapPerfArpTotalRxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from ARP message types that are not counted elsewhere in this table." ::= { mfrapPerfArpTotalEntry 17 } mfrapPerfArpTotalTxOther OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from ARP message types that are not counted elsewhere in this table." ::= { mfrapPerfArpTotalEntry 18 } -- LMI Statistics for each DLCI. mfrapPerfLmiPerDlciTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfLmiPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on LMI protocol for each DLCI." ::= { mfrapPerfNetworkShortTerm 17 } mfrapPerfLmiPerDlciEntry OBJECT-TYPE SYNTAX MfrapPerfLmiPerDlciEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The LMI Short Term Statistics for a particular DLCI." INDEX { mfrapPerfLmiPerDlciInterval, mfrapPerfLmiPerDlciValue } ::= { mfrapPerfLmiPerDlciTable 1 } MfrapPerfLmiPerDlciEntry ::= SEQUENCE { mfrapPerfLmiPerDlciInterval INTEGER, mfrapPerfLmiPerDlciValue INTEGER, mfrapPerfLmiPerDlciRxTotalByteCnt Counter, mfrapPerfLmiPerDlciTxTotalByteCnt Counter, mfrapPerfLmiPerDlciRxLivoEnqByteCnt Counter, mfrapPerfLmiPerDlciTxLivoEnqByteCnt Counter, mfrapPerfLmiPerDlciRxLivoStatByteCnt Counter, mfrapPerfLmiPerDlciTxLivoStatByteCnt Counter, mfrapPerfLmiPerDlciRxFullEnqByteCnt Counter, mfrapPerfLmiPerDlciTxFullEnqByteCnt Counter, mfrapPerfLmiPerDlciRxFullStatByteCnt Counter, mfrapPerfLmiPerDlciTxFullStatByteCnt Counter, mfrapPerfLmiPerDlciRxOtherByteCnt Counter, mfrapPerfLmiPerDlciTxOtherByteCnt Counter } mfrapPerfLmiPerDlciInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfLmiPerDlciEntry 1 } mfrapPerfLmiPerDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value with which the Statistics are associated." ::= { mfrapPerfLmiPerDlciEntry 2 } mfrapPerfLmiPerDlciRxTotalByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of received LMI bytes counted on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 3 } mfrapPerfLmiPerDlciTxTotalByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of transmitted LMI bytes counted on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 4 } mfrapPerfLmiPerDlciRxLivoEnqByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes received in Link Integrity Verification Only (LIVO) enquiries on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 5 } mfrapPerfLmiPerDlciTxLivoEnqByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes transmitted in Link Integrity Verification Only (LIVO) enquiries on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 6 } mfrapPerfLmiPerDlciRxLivoStatByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes received in Link Integrity Verification Only (LIVO) statuses on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 7 } mfrapPerfLmiPerDlciTxLivoStatByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes transmitted in Link Integrity Verification Only (LIVO) statuses on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 8 } mfrapPerfLmiPerDlciRxFullEnqByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes received in Full Status enquiries on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 9 } mfrapPerfLmiPerDlciTxFullEnqByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes transmitted in Full Status enquiries on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 10 } mfrapPerfLmiPerDlciRxFullStatByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes received in Full Status messages on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 11 } mfrapPerfLmiPerDlciTxFullStatByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes transmitted in Full Status messages on this DLCI." ::= { mfrapPerfLmiPerDlciEntry 12 } mfrapPerfLmiPerDlciRxOtherByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from LMI protocols that are not counted elsewhere (other than Total) in this table." ::= { mfrapPerfLmiPerDlciEntry 13 } mfrapPerfLmiPerDlciTxOtherByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from LMI protocols that are not counted elsewhere (other than Total) in this table." ::= { mfrapPerfLmiPerDlciEntry 14 } -- LMI Statistics for totals. mfrapPerfLmiTotalTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfLmiTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on LMI protocol across all DLCIs." ::= { mfrapPerfNetworkShortTerm 18 } mfrapPerfLmiTotalEntry OBJECT-TYPE SYNTAX MfrapPerfLmiTotalEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The LMI Short Term Statistics across all DLCIs." INDEX { mfrapPerfLmiTotalInterval } ::= { mfrapPerfLmiTotalTable 1 } MfrapPerfLmiTotalEntry ::= SEQUENCE { mfrapPerfLmiTotalInterval INTEGER, mfrapPerfLmiTotalDlciValue INTEGER, mfrapPerfLmiTotalRxTotalByteCnt Counter, mfrapPerfLmiTotalTxTotalByteCnt Counter, mfrapPerfLmiTotalRxLivoEnqByteCnt Counter, mfrapPerfLmiTotalTxLivoEnqByteCnt Counter, mfrapPerfLmiTotalRxLivoStatByteCnt Counter, mfrapPerfLmiTotalTxLivoStatByteCnt Counter, mfrapPerfLmiTotalRxFullEnqByteCnt Counter, mfrapPerfLmiTotalTxFullEnqByteCnt Counter, mfrapPerfLmiTotalRxFullStatByteCnt Counter, mfrapPerfLmiTotalTxFullStatByteCnt Counter, mfrapPerfLmiTotalRxOtherByteCnt Counter, mfrapPerfLmiTotalTxOtherByteCnt Counter } mfrapPerfLmiTotalInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfLmiTotalEntry 1 } mfrapPerfLmiTotalDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "OBSOLETE." ::= { mfrapPerfLmiTotalEntry 2 } mfrapPerfLmiTotalRxTotalByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of received LMI bytes counted on this DLCI." ::= { mfrapPerfLmiTotalEntry 3 } mfrapPerfLmiTotalTxTotalByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The total number of transmitted LMI bytes counted on this DLCI." ::= { mfrapPerfLmiTotalEntry 4 } mfrapPerfLmiTotalRxLivoEnqByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes received in Link Integrity Verification Only (LIVO) enquiries on this DLCI." ::= { mfrapPerfLmiTotalEntry 5 } mfrapPerfLmiTotalTxLivoEnqByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes transmitted in Link Integrity Verification Only (LIVO) enquiries on this DLCI." ::= { mfrapPerfLmiTotalEntry 6 } mfrapPerfLmiTotalRxLivoStatByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes received in Link Integrity Verification Only (LIVO) statuses on this DLCI." ::= { mfrapPerfLmiTotalEntry 7 } mfrapPerfLmiTotalTxLivoStatByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes transmitted in Link Integrity Verification Only (LIVO) statuses on this DLCI." ::= { mfrapPerfLmiTotalEntry 8 } mfrapPerfLmiTotalRxFullEnqByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes received in Full Status enquiries on this DLCI." ::= { mfrapPerfLmiTotalEntry 9 } mfrapPerfLmiTotalTxFullEnqByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes transmitted in Full Status enquiries on this DLCI." ::= { mfrapPerfLmiTotalEntry 10 } mfrapPerfLmiTotalRxFullStatByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes received in Full Status messages on this DLCI." ::= { mfrapPerfLmiTotalEntry 11 } mfrapPerfLmiTotalTxFullStatByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of bytes transmitted in Full Status messages on this DLCI." ::= { mfrapPerfLmiTotalEntry 12 } mfrapPerfLmiTotalRxOtherByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of received bytes on this DLCI from LMI protocols that are not counted elsewhere (other than Total) in this table." ::= { mfrapPerfLmiTotalEntry 13 } mfrapPerfLmiTotalTxOtherByteCnt OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The number of transmitted bytes on this DLCI from LMI protocols that are not counted elsewhere (other than Total) in this table." ::= { mfrapPerfLmiTotalEntry 14 } mfrapPerfNetworkLongTerm OBJECT IDENTIFIER ::= { mfrapPerformance 5 } -- -- Long Term Statistics by DLCI, protocol, and interval. -- mfrapPerfNetwLongTermTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfNetwLongTermEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Long Term Statistics by DLCI, protocol, and interval. LT statistics are collected on a configurable set of DLCIs and protocols. There are 96 intervals maintained each with a duration defined by the Long Term Timer. Interval 96 is the current window and Interval 1 is furthest back in time (96xLT Timer seconds ago)." ::= { mfrapPerfNetworkLongTerm 1 } mfrapPerfNetwLongTermEntry OBJECT-TYPE SYNTAX MfrapPerfNetwLongTermEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Long Term Statistic for a particular DLCI, protocol and interval." INDEX { mfrapPerfNetwLongTermDlci, mfrapPerfNetwLongTermProtocol, mfrapPerfNetwLongTermInterval } ::= { mfrapPerfNetwLongTermTable 1 } MfrapPerfNetwLongTermEntry ::= SEQUENCE { mfrapPerfNetwLongTermDlci INTEGER, mfrapPerfNetwLongTermProtocol INTEGER, mfrapPerfNetwLongTermInterval INTEGER, mfrapPerfNetwLongTermValue Counter } mfrapPerfNetwLongTermDlci OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI monitored for the statistics. The Long Term DLCI filter must first be configured." ::= { mfrapPerfNetwLongTermEntry 1 } mfrapPerfNetwLongTermProtocol OBJECT-TYPE SYNTAX INTEGER { ip-tx-bc (1), ip-rx-bc (2), tcp-ip-tx-bc (3), tcp-ip-rx-bc (4), ftp-tcp-ip-tx-bc (5), ftp-tcp-ip-rx-bc (6), telnet-tcp-ip-tx-bc (7), telnet-tcp-ip-rx-bc (8), smtp-tcp-ip-tx-bc (9), smtp-tcp-ip-rx-bc (10), -- tftp-tcp-ip-tx-bc (11), -- tftp-tcp-ip-rx-bc (12), http-tcp-ip-tx-bc (13), http-tcp-ip-rx-bc (14), netbios-ssn-tcp-ip-tx-bc (15), netbios-ssn-tcp-ip-rx-bc (16), -- snmp-tcp-ip-tx-bc (17), -- snmp-tcp-ip-rx-bc (18), -- snmptrap-tcp-ip-tx-bc (19), -- snmptrap-tcp-ip-rx-bc (20), udp-ip-tx-bc (21), udp-ip-rx-bc (22), -- ftp-udp-ip-tx-bc (23), -- ftp-udp-ip-rx-bc (24), -- telnet-udp-ip-tx-bc (25), -- telnet-udp-ip-rx-bc (26), -- smtp-udp-ip-tx-bc (27), -- smtp-udp-ip-rx-bc (28), tftp-udp-ip-tx-bc (29), tftp-udp-ip-rx-bc (30), -- http-udp-ip-tx-bc (31), -- http-udp-ip-rx-bc (32), netbios-dgm-udp-ip-tx-bc (33), netbios-dgm-udp-ip-rx-bc (34), snmp-udp-ip-tx-bc (35), snmp-udp-ip-rx-bc (36), snmptrap-udp-ip-tx-bc (37), snmptrap-udp-ip-rx-bc (38), rip-udp-ip-tx-bc (39), rip-udp-ip-rx-bc (40), icmp-ip-tx-bc (41), icmp-ip-rx-bc (42), echorep-icmp-ip-tx-bc (43), echorep-icmp-ip-rx-bc (44), dest-unr-icmp-ip-tx-bc (45), dest-unr-icmp-ip-rx-bc (46), src-quench-icmp-ip-tx-bc (47), src-quench-icmp-ip-rx-bc (48), redirect-icmp-ip-tx-bc (49), redirect-icmp-ip-rx-bc (50), echoreq-icmp-ip-tx-bc (51), echoreq-icmp-ip-rx-bc (52), time-excd-icmp-ip-tx-bc (53), time-excd-icmp-ip-rx-bc (54), param-prob-icmp-ip-tx-bc (55), param-prob-icmp-ip-rx-bc (56), timestamp-req-icmp-ip-tx-bc (57), timestamp-req-icmp-ip-rx-bc (58), timestamp-rep-icmp-ip-tx-bc (59), timestamp-rep-icmp-ip-rx-bc (60), addr-mask-req-icmp-ip-tx-bc (61), addr-mask-req-icmp-ip-rx-bc (62), addr-mask-rep-icmp-ip-tx-bc (63), addr-mask-rep-icmp-ip-rx-bc (64), pkt-too-big-icmp-ip-tx-bc (65), pkt-too-big-icmp-ip-rx-bc (66), gp-mem-query-icmp-ip-tx-bc (67), gp-mem-query-icmp-ip-rx-bc (68), gp-mem-report-icmp-ip-tx-bc (69), gp-mem-report-icmp-ip-rx-bc (70), gp-mem-reduct-icmp-ip-tx-bc (71), gp-mem-reduct-icmp-ip-rx-bc (72), ospf-ip-tx-bc (73), ospf-ip-rx-bc (74), other-ip-tx-bc (75), other-ip-rx-bc (76), ipx-tx-bc (77), ipx-rx-bc (78), spx-ipx-tx-bc (79), spx-ipx-rx-bc (80), ncp-ipx-tx-bc (81), ncp-ipx-rx-bc (82), sap-ipx-tx-bc (83), sap-ipx-rx-bc (84), rip-ipx-tx-bc (85), rip-ipx-rx-bc (86), netbios-ipx-tx-bc (87), netbios-ipx-rx-bc (88), other-ipx-tx-bc (89), other-ipx-rx-bc (90), arp-tx-bc (91), arp-rx-bc (92), arp-req-tx-bc (93), arp-req-rx-bc (94), arp-rep-tx-bc (95), arp-rep-rx-bc (96), rarp-req-tx-bc (97), rarp-req-rx-bc (98), rarp-rep-tx-bc (99), rarp-rep-rx-bc (100), inarp-req-tx-bc (101), inarp-req-rx-bc (102), inarp-rep-tx-bc (103), inarp-rep-rx-bc (104), sna-tx-bc (105), sna-rx-bc (106), sna-subarea-tx-bc (107), sna-subarea-rx-bc (108), sna-periph-tx-bc (109), sna-periph-rx-bc (110), sna-appn-tx-bc (111), sna-appn-rx-bc (112), sna-netbios-tx-bc (113), sna-netbios-rx-bc (114), cisco-tx-bc (115), cisco-rx-bc (116), other-tx-bc (117), other-rx-bc (118), user-defined-1-tx-bc (119), user-defined-1-rx-bc (120), user-defined-2-tx-bc (121), user-defined-2-rx-bc (122), user-defined-3-tx-bc (123), user-defined-3-rx-bc (124), user-defined-4-tx-bc (125), user-defined-4-rx-bc (126), thru-byte-tx-bc (127), thru-byte-rx-bc (128), thru-frame-tx-bc (129), thru-frame-rx-bc (130), thru-fecn-tx-bc (131), thru-fecn-rx-bc (132), thru-becn-tx-bc (133), thru-becn-rx-bc (134), thru-de-tx-bc (135), thru-de-rx-bc (136), cir-percent-range1-tx-bc (137), cir-percent-range1-rx-bc (138), cir-percent-range2-tx-bc (139), cir-percent-range2-rx-bc (140), cir-percent-range3-tx-bc (141), cir-percent-range3-rx-bc (142), cir-percent-range4-tx-bc (143), cir-percent-range4-rx-bc (144), cir-percent-range5-tx-bc (145), cir-percent-range5-rx-bc (146), cir-percent-range6-tx-bc (147), cir-percent-range6-rx-bc (148), cir-percent-range7-tx-bc (149), cir-percent-range7-rx-bc (150), cir-percent-range8-tx-bc (151), cir-percent-range8-rx-bc (152), lmi-tx-bc (153), lmi-rx-bc (154), lmi-livo-enq-tx-bc (155), lmi-livo-enq-rx-bc (156), lmi-livo-stat-tx-bc (157), lmi-livo-stat-rx-bc (158), lmi-full-enq-tx-bc (159), lmi-full-enq-rx-bc (160), lmi-full-stat-tx-bc (161), lmi-full-stat-rx-bc (162), lmi-other-tx-bc (163), lmi-other-rx-bc (164), total-uptime (165), total-downtime (166), igrp-tx-bc (167), igrp-rx-bc (168), vnip-tx-bc (169), vnip-rx-bc (170), annex-g-tx-bc (171), annex-g-rx-bc (172) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of protocol monitored for the statistics." ::= { mfrapPerfNetwLongTermEntry 2 } mfrapPerfNetwLongTermInterval OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The time interval in which the value was collected. Long Term statistis are maintained for 96 intervals with the interval duration defined by (CfgFrPerfTimersLTInterval)." ::= { mfrapPerfNetwLongTermEntry 3 } mfrapPerfNetwLongTermValue OBJECT-TYPE SYNTAX Counter ACCESS read-only STATUS mandatory DESCRIPTION "The statistic collected for the given DLCI and protocol and within the given time interval." ::= { mfrapPerfNetwLongTermEntry 4 } -- -- Long Term Statistics by DLCI: alternative method. -- mfrapPerfNetwLongTermAltTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfNetwLongTermAltEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This is an alternative method to access the database of long term statistics. The statistics are indexed by DLCI and protocol and are returned in an OCTETSTRING." ::= { mfrapPerfNetworkLongTerm 2 } mfrapPerfNetwLongTermAltEntry OBJECT-TYPE SYNTAX MfrapPerfNetwLongTermAltEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Long Term Statistic for a particular DLCI and protocol." INDEX { mfrapPerfNetwLongTermAltDlci, mfrapPerfNetwLongTermAltProtocol } ::= { mfrapPerfNetwLongTermAltTable 1 } MfrapPerfNetwLongTermAltEntry ::= SEQUENCE { mfrapPerfNetwLongTermAltDlci INTEGER, mfrapPerfNetwLongTermAltProtocol INTEGER, mfrapPerfNetwLongTermAltArray OCTET STRING } mfrapPerfNetwLongTermAltDlci OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI monitored for the statistics." ::= { mfrapPerfNetwLongTermAltEntry 1 } mfrapPerfNetwLongTermAltProtocol OBJECT-TYPE SYNTAX INTEGER { ip-tx-bc (1), ip-rx-bc (2), tcp-ip-tx-bc (3), tcp-ip-rx-bc (4), ftp-tcp-ip-tx-bc (5), ftp-tcp-ip-rx-bc (6), telnet-tcp-ip-tx-bc (7), telnet-tcp-ip-rx-bc (8), smtp-tcp-ip-tx-bc (9), smtp-tcp-ip-rx-bc (10), -- tftp-tcp-ip-tx-bc (11), -- tftp-tcp-ip-rx-bc (12), http-tcp-ip-tx-bc (13), http-tcp-ip-rx-bc (14), netbios-ssn-tcp-ip-tx-bc (15), netbios-ssn-tcp-ip-rx-bc (16), -- snmp-tcp-ip-tx-bc (17), -- snmp-tcp-ip-rx-bc (18), -- snmptrap-tcp-ip-tx-bc (19), -- snmptrap-tcp-ip-rx-bc (20), udp-ip-tx-bc (21), udp-ip-rx-bc (22), -- ftp-udp-ip-tx-bc (23), -- ftp-udp-ip-rx-bc (24), -- telnet-udp-ip-tx-bc (25), -- telnet-udp-ip-rx-bc (26), -- smtp-udp-ip-tx-bc (27), -- smtp-udp-ip-rx-bc (28), tftp-udp-ip-tx-bc (29), tftp-udp-ip-rx-bc (30), -- http-udp-ip-tx-bc (31), -- http-udp-ip-rx-bc (32), netbios-dgm-udp-ip-tx-bc (33), netbios-dgm-udp-ip-rx-bc (34), snmp-udp-ip-tx-bc (35), snmp-udp-ip-rx-bc (36), snmptrap-udp-ip-tx-bc (37), snmptrap-udp-ip-rx-bc (38), rip-udp-ip-tx-bc (39), rip-udp-ip-rx-bc (40), icmp-ip-tx-bc (41), icmp-ip-rx-bc (42), echorep-icmp-ip-tx-bc (43), echorep-icmp-ip-rx-bc (44), dest-unr-icmp-ip-tx-bc (45), dest-unr-icmp-ip-rx-bc (46), src-quench-icmp-ip-tx-bc (47), src-quench-icmp-ip-rx-bc (48), redirect-icmp-ip-tx-bc (49), redirect-icmp-ip-rx-bc (50), echoreq-icmp-ip-tx-bc (51), echoreq-icmp-ip-rx-bc (52), time-excd-icmp-ip-tx-bc (53), time-excd-icmp-ip-rx-bc (54), param-prob-icmp-ip-tx-bc (55), param-prob-icmp-ip-rx-bc (56), timestamp-req-icmp-ip-tx-bc (57), timestamp-req-icmp-ip-rx-bc (58), timestamp-rep-icmp-ip-tx-bc (59), timestamp-rep-icmp-ip-rx-bc (60), addr-mask-req-icmp-ip-tx-bc (61), addr-mask-req-icmp-ip-rx-bc (62), addr-mask-rep-icmp-ip-tx-bc (63), addr-mask-rep-icmp-ip-rx-bc (64), pkt-too-big-icmp-ip-tx-bc (65), pkt-too-big-icmp-ip-rx-bc (66), gp-mem-query-icmp-ip-tx-bc (67), gp-mem-query-icmp-ip-rx-bc (68), gp-mem-report-icmp-ip-tx-bc (69), gp-mem-report-icmp-ip-rx-bc (70), gp-mem-reduct-icmp-ip-tx-bc (71), gp-mem-reduct-icmp-ip-rx-bc (72), ospf-ip-tx-bc (73), ospf-ip-rx-bc (74), other-ip-tx-bc (75), other-ip-rx-bc (76), ipx-tx-bc (77), ipx-rx-bc (78), spx-ipx-tx-bc (79), spx-ipx-rx-bc (80), ncp-ipx-tx-bc (81), ncp-ipx-rx-bc (82), sap-ipx-tx-bc (83), sap-ipx-rx-bc (84), rip-ipx-tx-bc (85), rip-ipx-rx-bc (86), netbios-ipx-tx-bc (87), netbios-ipx-rx-bc (88), other-ipx-tx-bc (89), other-ipx-rx-bc (90), arp-tx-bc (91), arp-rx-bc (92), arp-req-tx-bc (93), arp-req-rx-bc (94), arp-rep-tx-bc (95), arp-rep-rx-bc (96), rarp-req-tx-bc (97), rarp-req-rx-bc (98), rarp-rep-tx-bc (99), rarp-rep-rx-bc (100), inarp-req-tx-bc (101), inarp-req-rx-bc (102), inarp-rep-tx-bc (103), inarp-rep-rx-bc (104), sna-tx-bc (105), sna-rx-bc (106), sna-subarea-tx-bc (107), sna-subarea-rx-bc (108), sna-periph-tx-bc (109), sna-periph-rx-bc (110), sna-appn-tx-bc (111), sna-appn-rx-bc (112), sna-netbios-tx-bc (113), sna-netbios-rx-bc (114), cisco-tx-bc (115), cisco-rx-bc (116), other-tx-bc (117), other-rx-bc (118), user-defined-1-tx-bc (119), user-defined-1-rx-bc (120), user-defined-2-tx-bc (121), user-defined-2-rx-bc (122), user-defined-3-tx-bc (123), user-defined-3-rx-bc (124), user-defined-4-tx-bc (125), user-defined-4-rx-bc (126), thru-byte-tx-bc (127), thru-byte-rx-bc (128), thru-frame-tx-bc (129), thru-frame-rx-bc (130), thru-fecn-tx-bc (131), thru-fecn-rx-bc (132), thru-becn-tx-bc (133), thru-becn-rx-bc (134), thru-de-tx-bc (135), thru-de-rx-bc (136), cir-percent-range1-tx-bc (137), cir-percent-range1-rx-bc (138), cir-percent-range2-tx-bc (139), cir-percent-range2-rx-bc (140), cir-percent-range3-tx-bc (141), cir-percent-range3-rx-bc (142), cir-percent-range4-tx-bc (143), cir-percent-range4-rx-bc (144), cir-percent-range5-tx-bc (145), cir-percent-range5-rx-bc (146), cir-percent-range6-tx-bc (147), cir-percent-range6-rx-bc (148), cir-percent-range7-tx-bc (149), cir-percent-range7-rx-bc (150), cir-percent-range8-tx-bc (151), cir-percent-range8-rx-bc (152), lmi-tx-bc (153), lmi-rx-bc (154), lmi-livo-enq-tx-bc (155), lmi-livo-enq-rx-bc (156), lmi-livo-stat-tx-bc (157), lmi-livo-stat-rx-bc (158), lmi-full-enq-tx-bc (159), lmi-full-enq-rx-bc (160), lmi-full-stat-tx-bc (161), lmi-full-stat-rx-bc (162), lmi-other-tx-bc (163), lmi-other-rx-bc (164), total-uptime (165), total-downtime (166), igrp-tx-bc (167), igrp-rx-bc (168), vnip-tx-bc (169), vnip-rx-bc (170), annex-g-tx-bc (171), annex-g-rx-bc (172) } ACCESS read-only STATUS mandatory DESCRIPTION "The protocol monitored for the statistics." ::= { mfrapPerfNetwLongTermAltEntry 2 } mfrapPerfNetwLongTermAltArray OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "The statistic collected for the given DLCI and protocol." ::= { mfrapPerfNetwLongTermAltEntry 3 } mfrapPerfNetworkLongTermCommands OBJECT IDENTIFIER ::= { mfrapPerfNetworkLongTerm 3 } mfrapPerfNetworkLongTermCmdClear OBJECT-TYPE SYNTAX INTEGER { clear-statistics (1) } ACCESS write-only STATUS mandatory DESCRIPTION "Allows the user to zero out all the statistics in the long term statistics tables. (1) Clear all Long Term statistics" ::= { mfrapPerfNetworkLongTermCommands 1 } mfrapPerfCirPercentUtilization OBJECT IDENTIFIER ::= { mfrapPerformance 6 } -- -- CIR Percentage Statistics for each DLCI. -- mfrapPerfCirPercentUtilizationTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfCirPercentUtilizationEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "Short Term Statistics on the percentage of CIR used on each DLCI. Each short term statistics interval, the count of bytes transmitted and received is used to calculate the percentage of CIR used. The byte count is then added to the appropriate bucket for the CIR percentage range." ::= { mfrapPerfCirPercentUtilization 1 } mfrapPerfCirPercentUtilizationEntry OBJECT-TYPE SYNTAX MfrapPerfCirPercentUtilizationEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The CIR Percentage Statistics for a particular DLCI." INDEX { mfrapPerfCirPercentUtilizationInterval, mfrapPerfCirPercentUtilizationDlciValue } ::= { mfrapPerfCirPercentUtilizationTable 1 } MfrapPerfCirPercentUtilizationEntry ::= SEQUENCE { mfrapPerfCirPercentUtilizationInterval INTEGER, mfrapPerfCirPercentUtilizationDlciValue INTEGER, mfrapPerfCirRxPercentUtilizationRange1 INTEGER, mfrapPerfCirRxPercentUtilizationRange2 INTEGER, mfrapPerfCirRxPercentUtilizationRange3 INTEGER, mfrapPerfCirRxPercentUtilizationRange4 INTEGER, mfrapPerfCirRxPercentUtilizationRange5 INTEGER, mfrapPerfCirRxPercentUtilizationRange6 INTEGER, mfrapPerfCirRxPercentUtilizationRange7 INTEGER, mfrapPerfCirRxPercentUtilizationRange8 INTEGER, mfrapPerfCirTxPercentUtilizationRange1 INTEGER, mfrapPerfCirTxPercentUtilizationRange2 INTEGER, mfrapPerfCirTxPercentUtilizationRange3 INTEGER, mfrapPerfCirTxPercentUtilizationRange4 INTEGER, mfrapPerfCirTxPercentUtilizationRange5 INTEGER, mfrapPerfCirTxPercentUtilizationRange6 INTEGER, mfrapPerfCirTxPercentUtilizationRange7 INTEGER, mfrapPerfCirTxPercentUtilizationRange8 INTEGER } mfrapPerfCirPercentUtilizationInterval OBJECT-TYPE SYNTAX INTEGER { current-interval (1), previous-interval (2), cumulative-counts (3) } ACCESS read-only STATUS mandatory DESCRIPTION "The Short Term statistics model maintains three intervals: current, previous, and cumulative totals. Interval duration is defined by the Short Term Timer (CfgFrPerfTimersSTInterval). (1) Currently active short term interval (2) Previously completed short term interval (3) Cumulative total since last cleared." ::= { mfrapPerfCirPercentUtilizationEntry 1 } mfrapPerfCirPercentUtilizationDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value with which the Statistics are associated." ::= { mfrapPerfCirPercentUtilizationEntry 2 } mfrapPerfCirRxPercentUtilizationRange1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which rx data throughput on this DLCI compared to CIR was in range 1 (0% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 21 } mfrapPerfCirRxPercentUtilizationRange2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which rx data throughput on this DLCI compared to CIR was in range 2 (1-10% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 22 } mfrapPerfCirRxPercentUtilizationRange3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which rx data throughput on this DLCI compared to CIR was in range 3 (11-20% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 23 } mfrapPerfCirRxPercentUtilizationRange4 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which rx data throughput on this DLCI compared to CIR was in range 4 (21-50% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 24 } mfrapPerfCirRxPercentUtilizationRange5 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which rx data throughput on this DLCI compared to CIR was in range 5 (51-80% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 25 } mfrapPerfCirRxPercentUtilizationRange6 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which rx data throughput on this DLCI compared to CIR was in range 6 (81-100% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 26 } mfrapPerfCirRxPercentUtilizationRange7 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which rx data throughput on this DLCI compared to CIR was in range 7 (101-150% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 27 } mfrapPerfCirRxPercentUtilizationRange8 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which rx data throughput on this DLCI compared to CIR was in range 8 (> 150% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 28 } mfrapPerfCirTxPercentUtilizationRange1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which tx data throughput on this DLCI compared to CIR was in range 1 (0% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 41 } mfrapPerfCirTxPercentUtilizationRange2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which tx data throughput on this DLCI compared to CIR was in range 2 (1-10% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 42 } mfrapPerfCirTxPercentUtilizationRange3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which tx data throughput on this DLCI compared to CIR was in range 3 (11-20% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 43 } mfrapPerfCirTxPercentUtilizationRange4 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which tx data throughput on this DLCI compared to CIR was in range 4 (21-50% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 44 } mfrapPerfCirTxPercentUtilizationRange5 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which tx data throughput on this DLCI compared to CIR was in range 5 (51-80% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 45 } mfrapPerfCirTxPercentUtilizationRange6 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which tx data throughput on this DLCI compared to CIR was in range 6 (81-100% o0f CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 46 } mfrapPerfCirTxPercentUtilizationRange7 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which tx data throughput on this DLCI compared to CIR was in range 7 (101-150% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 47 } mfrapPerfCirTxPercentUtilizationRange8 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The number of short-term intervals during which tx data throughput on this DLCI compared to CIR was in range 8 (> 150% of CIR)." ::= { mfrapPerfCirPercentUtilizationEntry 48 } -- -- Current Utilization for each DLCI. -- mfrapPerfCurrentPerDlciUtilizationTable OBJECT-TYPE SYNTAX SEQUENCE OF MfrapPerfCurrentPerDlciUtilizationEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The current measurement of utilization as a percentage of CIR on each DLCI. Each short term statistics interval, the count of bytes transmitted and received is used to calculate the percentage of CIR used." ::= { mfrapPerfCirPercentUtilization 2 } mfrapPerfCurrentPerDlciUtilizationEntry OBJECT-TYPE SYNTAX MfrapPerfCurrentPerDlciUtilizationEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The utilization statistics for a particular DLCI." INDEX { mfrapPerfCurrentPerDlciUtilizationDlciValue } ::= { mfrapPerfCurrentPerDlciUtilizationTable 1 } MfrapPerfCurrentPerDlciUtilizationEntry ::= SEQUENCE { mfrapPerfCurrentPerDlciUtilizationDlciValue INTEGER, mfrapPerfCurrentPerDlciRxUtilization INTEGER, mfrapPerfCurrentPerDlciTxUtilization INTEGER, mfrapPerfCurrentPerDlciAggregateUtilization INTEGER } mfrapPerfCurrentPerDlciUtilizationDlciValue OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI value with which the Statistics are associated." ::= { mfrapPerfCurrentPerDlciUtilizationEntry 1 } mfrapPerfCurrentPerDlciRxUtilization OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The receive direction utilization as a percentage of CIR." ::= { mfrapPerfCurrentPerDlciUtilizationEntry 2 } mfrapPerfCurrentPerDlciTxUtilization OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The transmit direction utilization as a percentage of CIR." ::= { mfrapPerfCurrentPerDlciUtilizationEntry 3 } mfrapPerfCurrentPerDlciAggregateUtilization OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The aggregate utilization, the average of the receive and transmit utilization as a percentage of CIR." ::= { mfrapPerfCurrentPerDlciUtilizationEntry 4 } -- -- Current Utilization for each interface and the unit as a whole. -- mfrapPerfCurrentUnitUtilization OBJECT IDENTIFIER ::= { mfrapPerfCirPercentUtilization 3 } mfrapPerfCurrentDteUtilization OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DTE interface utilization as a percentage of line rate." ::= { mfrapPerfCurrentUnitUtilization 2 } mfrapPerfCurrentWanUtilization OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The WAN interface utilization as a percentage of line rate." ::= { mfrapPerfCurrentUnitUtilization 3 } mfrapPerfCurrentAggregateUtilization OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The aggregate utilization of the unit, the average of the DTE and WAN interface utilizations as a percentage of line rate." ::= { mfrapPerfCurrentUnitUtilization 4 } -- ============================= -- == MFRAP EVENT LOG group == -- ============================= mfrapEventTrapLog OBJECT IDENTIFIER ::= { mfrap 10 } mfrapEventTrapLogTable OBJECT-TYPE SYNTAX SEQUENCE OF MFRAPEventTrapLogEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This table contains the Event/Trap log. The entries are indexed by sequence number." ::= { mfrapEventTrapLog 1} mfrapEventTrapLogEntry OBJECT-TYPE SYNTAX MFRAPEventTrapLogEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The event record for a particular event." INDEX {mfrapEventTrapLogSeqNum} ::= { mfrapEventTrapLogTable 1} MFRAPEventTrapLogEntry ::= SEQUENCE { mfrapEventTrapLogSeqNum INTEGER, mfrapEventTrapLogGenericEvent INTEGER, mfrapEventTrapLogSpecificEvent INTEGER, mfrapEventTrapLogTimeStamp TimeTicks, mfrapEventTrapLogVarBind1 INTEGER, mfrapEventTrapLogVarBind2 INTEGER, mfrapEventTrapLogVarBind3 INTEGER } mfrapEventTrapLogSeqNum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The sequence number associated with an event record." ::= {mfrapEventTrapLogEntry 1} mfrapEventTrapLogGenericEvent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The SNMP generic trap or event number." ::= {mfrapEventTrapLogEntry 2} mfrapEventTrapLogSpecificEvent OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The SNMP specific trap or event sub-identifier number." ::= {mfrapEventTrapLogEntry 3} mfrapEventTrapLogTimeStamp OBJECT-TYPE SYNTAX TimeTicks ACCESS read-only STATUS mandatory DESCRIPTION "The SNMP trap timestamp." ::= {mfrapEventTrapLogEntry 4} mfrapEventTrapLogVarBind1 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Variable Binding 1 for this SNMP Trap event." ::= {mfrapEventTrapLogEntry 5} mfrapEventTrapLogVarBind2 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Variable Binding 2 for this SNMP Trap event." ::= {mfrapEventTrapLogEntry 6} mfrapEventTrapLogVarBind3 OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "Variable Binding 3 for this SNMP Trap event." ::= {mfrapEventTrapLogEntry 7} mfrapEventLogAltTable OBJECT-TYPE SYNTAX SEQUENCE OF MFRAPEventLogAltEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "This is an alternative method to access the database of the Event/Trap Log. The database is indexed by Sequence Number and Event/Trap log's are returned in an OCTETSTRING." ::= { mfrapEventTrapLog 2 } mfrapEventLogAltEntry OBJECT-TYPE SYNTAX MFRAPEventLogAltEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "The Event/Trap Log for a particular sequence number." INDEX { mfrapEventLogAltSeqNum } ::= { mfrapEventLogAltTable 1 } MFRAPEventLogAltEntry ::= SEQUENCE { mfrapEventLogAltSeqNum INTEGER, mfrapEventLogAltArray OCTET STRING } mfrapEventLogAltSeqNum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The Sequence Number monitored for the Event Log" ::= { mfrapEventLogAltEntry 1 } mfrapEventLogAltArray OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "The Event / Trap log for the given sequence number." ::= { mfrapEventLogAltEntry 2 } mfrapEventLogCurrentSeqNum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The current index into the Event Log Table." ::= {mfrapEventTrapLog 3} mfrapEventLogFreeze OBJECT-TYPE SYNTAX INTEGER { freeze (1), un-freeze (2) } ACCESS write-only STATUS mandatory DESCRIPTION "This freezes the Event/Trap Log. freeze(1) will prevent Events / Traps from being entered into the database, un-freeze(2) will allow Events / Traps to be logged into the database. An event will be logged indicating a set of this entry" ::= { mfrapEventTrapLog 4} mfrapEventLogClear OBJECT-TYPE SYNTAX INTEGER { clear (1) } ACCESS write-only STATUS mandatory DESCRIPTION "This clears the Event/Trap Log." ::= { mfrapEventTrapLog 5} -- ========================= -- == TRAPS == -- ========================= -- -- The Alarm (Trap) table for the MFRAP. -- This table contains definitions for enterprise specific traps -- associated with the MFRAP T1 DSU. mfrapAlarmType OBJECT-TYPE SYNTAX INTEGER { bad-config-in-set (1), config-local-update (2), t1-netw-carrier-loss (3), t1-netw-carrier-detect (4), t1-netw-sync-loss-declare (5), t1-netw-sync-acquire (6), t1-netw-red-alarm-declare (7), t1-netw-red-alarm-clear (8), t1-netw-yellow-alarm-detect (9), t1-netw-yellow-alarm-clear (10), t1-netw-ais-detect (11), t1-netw-ais-clear (12), t1-controlled-slip (13), local-unit-loopback-enabled (14), local-unit-loopback-disabled (15), local-unit-loopback-failure (16), local-dte-loopback-enabled (17), local-dte-loopback-disabled (18), local-dte-loopback-failure (19), local-aggregate-loopback-enabled (20), local-aggregate-loopback-disabled (21), local-aggregate-loopback-failure (22), local-payload-loopback-enabled (23), local-payload-loopback-disabled (24), local-payload-loopback-failure (25), local-network-loopback-enabled (26), local-network-loopback-disabled (27), local-network-loopback-failure (28), v54-loop-up-initiated (29), v54-loop-down-completed (30), v54-loopback-enabled-by-remote (31), v54-loopback-disabled-by-remote (32), v54-loopback-failure (33), csu-loop-up-initiated (34), csu-loop-down-completed (35), csu-loopback-enabled-by-remote (36), csu-loopback-disabled-by-remote (37), csu-loopback-failure (38), dsu-loop-up-initiated (39), dsu-loop-down-completed (40), dsu-loopback-enabled-by-remote (41), dsu-loopback-disabled-by-remote (42), dsu-loopback-failure (43), bert-test-pattern-initiated (44), bert-test-pattern-completed (45), bert-test-pattern-failure (46), dlci-active (47), dlci-inactive (48), dlci-td-threshold (49), lmi-sourcing-change-passthru (50), lmi-sourcing-change-user-dte (51), lmi-sourcing-change-net-dte (52), lmi-sourcing-change-user-net (53), lmi-sourcing-change-net-net (54), dte-signal-rts-on (55), dte-signal-rts-off (56), dte-signal-dtr-on (57), dte-signal-dtr-off (58), lmi-non-incr-seq-num-dte (59), lmi-non-incr-seq-num-net (60), lmi-seq-num-mismatch-dte (61), lmi-seq-num-mismatch-net (62), trap-muting-active (75), trap-muting-inactive (76), vloop-loop-up (90), vloop-loop-down (91), vloop-up-via-remote (92), vloop-down-via-remote (93), vloop-failed (94), vbert-started (95), vbert-stopped (96), vbert-request-failed (97), dandi-carrier-loss (110), dandi-carrier-detect (111), dandi-sync-loss-declare (112), dandi-sync-acquire (113), dandi-red-alarm-declare (114), dandi-red-alarm-clear (115), dandi-yellow-alarm-detect (116), dandi-yellow-alarm-clear (117), dandi-ais-detect (118), dandi-ais-clear (119), dandi-controlled-slip (120), local-dandi-payload-loopback-enabled (121), local-dandi-payload-loopback-disabled (122), local-dandi-payload-loopback-failure (123), local-dandi-line-loopback-enabled (124), local-dandi-line-loopback-disabled (125), local-dandi-line-loopback-failure (126), nest-fan-one-alarm (130), nest-fan-one-alarm-clear (131), nest-fan-two-alarm (132), nest-fan-two-alarm-clear (133), nest-power-supply-alarm (134), nest-power-supply-alarm-clear (135), local-payload-loopback-via-rmt-enabled (136), local-payload-loopback-via-rmt-disabled (137), pvc-rx-utilization-exceeded (138), pvc-tx-utilization-exceeded (139), pvc-rx-utilization-cleared (140), pvc-tx-utilization-cleared (141), config-install-success (142), tftp-requested (257), tftp-transferring (258), tftp-programming (259), tftp-aborted (260), tftp-success (261), tftp-host-unreachable (262), tftp-no-file (263), tftp-invalid-file (264), tftp-corrupt-file (265) } ACCESS read-only STATUS mandatory DESCRIPTION "The type of alarms that are generated on the node" ::= { mfrap 6 } mfrapDLCINum OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The DLCI number for the DLCI active or inactive trap" ::= { mfrap 7 } mfrapInterface OBJECT-TYPE SYNTAX INTEGER { dte (1), t1 (2) } ACCESS read-only STATUS mandatory DESCRIPTION "The interface most recently reported in a TRAP." ::= { mfrap 8 } mfrapIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address most recently reported in a TRAP." ::= { mfrap 9 } mfrapPercentUtilization OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percent utilization for a DLCI most recently reported in a TRAP." ::= { mfrap 11 } mfrapUtilizationThreshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS mandatory DESCRIPTION "The percent utilization threshold for a DLCI most recently reported in a TRAP." ::= { mfrap 12 } mfrapCfgLockIpAddress OBJECT-TYPE SYNTAX IpAddress ACCESS read-only STATUS mandatory DESCRIPTION "The IP address of the management station locking the configuration most recently reported in a TRAP." ::= { mfrap 13 } mfrapTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "An mfrapTrap trap signifies that the sending node had its `mfrapAlarmType` variable modified." ::= 0 mfrapBadConfigTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received a configuration update request through SNMP but the request was rejected to due an incorrect or inappropriate parameter." ::= 1 mfrapLocalConfigTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit configuration has been updated locally (console port or front panel keypad) or remotely (telnet)." ::= 2 mfrapt1netwcarrierloss TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is not detecting a signal from the wide area network." ::= 3 mfrapt1netwcarrierdetect TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is detecting a signal from the wide area network." ::= 4 mfrapt1netwsynclossdeclare TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is not properly synchronized to the signal received from the wide area network. Frame synchronization is required for normal operation." ::= 5 mfrapt1netwsyncacquire TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is now synchronized with the signal received from the wide area network." ::= 6 mfrapt1netwredalarmdeclare TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has experienced loss of frame synchronization for an extended time and is reporting an alarm condition that severely impairs normal operation. During this Red Alarm condition the unit will transmit Yellow alarm back to the network. If this condition persists consult your service provider." ::= 7 mfrapt1netwredalarmclear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has achieved frame synchronization for a length of time necessary to declare the interface stable and operational." ::= 8 mfrapt1netwyellowalarmdetect TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is receiving a yellow alarm indication from the wide area network. Detection of yellow alarm implies that the attached device is in a red alarm conditon. Red alarm is declared due to the extended absence of a properly framed signal. If this condition persists consult your service provider." ::= 9 mfrapt1netwyellowalarmclear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is no longer receiving a yellow alarm indication from the wide area network. Yellow alarm implies that the attached device is in a red alarm conditon. Red alarm is declared due to the extended absence of a properly framed signal." ::= 10 mfrapt1netwaisdetect TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is receiving unframed all ones from the wide area network (AIS, blue alarm). Detection of AIS implies that the attached device is reporting an alarm condition from an upstream device. If this condition persists consult your service provider." ::= 11 mfrapt1netwaisclear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is no longer receiving unframed all ones from the wide area network (AIS, blue alarm). Detection of AIS implies that the attached device is reporting an alarm condition from an upstream device." ::= 12 mfrapt1controlledslip TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is reporting an occurrence of a timing slip causing either the deletion or repetition of a block of data. This is indicative of a timing problem within the application. Check for multiple clock sources or the absence of a stable clock source." ::= 13 mfrapLocalUnitLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is in a bidirectional unit loopback. Data is received from either interface, processed, and transmitted back towards the same interface. When configured for Frame Relay operation the unit will preserve the LMI path during this loopback. In Frame Relay mode, only valid frames are looped back (pseudorandom test patterns will be dropped)." ::= 14 mfrapLocalUnitLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Bidirectional unit loopback path is removed." ::= 15 mfrapLocalUnitLoopbackFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Bidirectional unit loopback request has been rejected by the unit. Typically, this is due to the presence of another loopback condition." ::= 16 mfrapLocalDteLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is in a bidirectional DTE loopback. All data received at the DTE interface is looped back regardless of format or content (line loopback). When configured for Frame Relay operation the unit will not preserve the LMI path during this loopback. Data received from the WAN is processed and transmitted back out the WAN. In Frame Relay mode, on the WAN interface, only valid frames are looped back (pseudorandom test patterns will be dropped)." ::= 17 mfrapLocalDteLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Bidirectional DTE loopback path is removed." ::= 18 mfrapLocalDteLoopbackFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Bidirectional DTE loopback request has been rejected by the unit. Typically, this is due to the presence of another loopback condition." ::= 19 mfrapLocalAggregateLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is in local aggregate loopback. All data received from the DTE is transmit to the WAN and also looped back towards the DTE at a point just prior to WAN transmission (digital loopback). When configured for Frame Relay operation the unit will not preserve the LMI path during this loopback. In Frame Relay mode only valid frames are looped back (pseudorandom test patterns will be dropped)." ::= 20 mfrapLocalAggregateLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local aggregate loopback path is removed." ::= 21 mfrapLocalAggregateLoopbackFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local aggregate loopback request has been rejected by the unit. Typically, this is due to the presence of another loopback condition." ::= 22 mfrapLocalPayloadLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is in payload loopback. All data received from the WAN, regardless of format or content, is processed at the physical layer before being reframed and transmit back out the WAN. All ones are sent to the DTE during this diagnostic state. When configured for Frame Relay operation the unit will not preserve the LMI path during this loopback." ::= 23 mfrapLocalPayloadLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local payload loopback path is removed." ::= 24 mfrapLocalPayloadLoopbackFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local payload loopback request has been rejected. Typically, this is due to the presence of another loopback condition." ::= 25 mfrapLocalNetLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is in local network loopback. All data received from the WAN, regardless of format or content, is transmitted back out (line interface loopback) while still being sent to the DTE. When configured for Frame Relay operation the unit will not preserve the LMI path during this loopback." ::= 26 mfrapLocalNetLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local network loopback path is removed." ::= 27 mfrapLocalNetLoopbackFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local network loopback request is rejected. Typically, this is due to the presence of another loopback condition." ::= 28 mfrapV54LoopUpInitiatedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has sent the standard V54 loop up pattern out the WAN at the DTE rate. A compatible piece of equipment can sense this pattern and enter a loopback state - typically putting up a bidirectional DTE loopback path. After sending the V54 loop up pattern, the (local) unit returns to normal operation, expecting a loopback condition at the remote device." ::= 29 mfrapV54LoopDownCompletedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has sent the standard V54 loop down pattern out the WAN at the DTE rate. A compatible piece of equipment can sense this pattern remove the loopback state that is entered after receiving a loop up pattern - typically a bidirectional DTE loopback path. After sending the V54 loop down pattern, the unit returns to normal operation." ::= 30 mfrapV54LoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received a V54 loop up pattern from a compatible piece of equipment. A bidirectional DTE loopback is activated. All data received at the DTE interface is looped back regardless of format or content. When configured for Frame Relay operation the unit will not preserve the LMI path during this loopback. Data received from the WAN is processed and transmitted back out the WAN. In Frame Relay mode, on the WAN interface, only valid frames are looped back (pseudorandom test patterns will be dropped)." ::= 31 mfrapV54LoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received a V54 loop down pattern from a compatible piece of equipment. The bidirectional local DTE loopback is removed." ::= 32 mfrapV54LoopbackFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has rejected the request to send a V54 loop up. Typically, this is due to the presence of another loopback condition." ::= 33 mfrapCsuLoopUpInitiatedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has sent a standard CSU loop up pattern at the full WAN rate. A compatible piece of equipment can sense this pattern and enter a loopback state - typically putting up a network line loopback. After sending the CSU loop up pattern, the (local) unit returns to normal operation, expecting a loopback condition at the attached device." ::= 34 mfrapCsuLoopDownCompletedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has sent the standard CSU loop down pattern out the WAN at the full WAN rate. A compatible piece of equipment can sense this pattern and remove the loopback state that is entered after receiving a loop up pattern - typically a network line loopback. After sending the CSU loop down pattern, the unit returns to normal operation." ::= 35 mfrapCsuLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received a standard CSU loop up pattern and will enter a local network loopback state. All data received from the WAN, regardless of format or content, is transmitted back out (line interface loopback) while still being sent to the DTE. When configured for Frame Relay operation the unit will not preserve the LMI path during this loopback." ::= 36 mfrapCsuLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received a standard CSU loop down pattern and will remove the local network loopback path." ::= 37 mfrapCsuLoopbackFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has rejected the request to send a CSU loop up. Typically, this is due to the presence of another loopback condition." ::= 38 mfrapDsuLoopUpInitiatedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has sent a proprietary DSU loop up pattern at the full WAN rate. A compatible piece of equipment can sense this pattern and enter a network line loopback state. After sending the DSU loop up pattern, the (local) unit returns to normal operation, expecting a loopback condition at the remote device." ::= 39 mfrapDsuLoopDownCompletedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has sent the proprietary DSU loop down pattern out the WAN at the full WAN rate. A compatible piece of equipment can sense this pattern and remove a network line loopback condition. After sending the DSU loop down pattern, the unit returns to normal operation." ::= 40 mfrapDsuLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received a proprietary DSU loop up pattern and will enter a local network loopback state. All data received from the WAN, regardless of format or content, is transmitted back out (line interface loopback) while still being sent to the DTE. When configured for Frame Relay operation the unit will not preserve the LMI path during this loopback." ::= 41 mfrapDsuLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received a proprietary DSU loop down pattern and will remove the local network loopback path." ::= 42 mfrapDsuLoopbackFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has rejected the request to send a DSU loop up. Typically, this is due to the presence of another loopback condition." ::= 43 mfrapBertInitiatedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is sending a pseudorandom test pattern (511 or QRSS) out the WAN and monitoring the WAN received data for the same pattern. This test may be ineffective in certain frame relay applications as pseudorandom data lacks appropriate framing." ::= 44 mfrapBertCompletedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has stopped sending a pseudorandom test pattern out the WAN." ::= 45 mfrapBertFailedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has rejected the request to enter a BERT test state. Typically, this is due to the presence of another diagnostic condition." ::= 46 mfrapDLCIActiveTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum } DESCRIPTION "Unit is reporting this DLCI as active and provisioned. An active DLCI is one that is explictly declared ACTIVE in an LMI Full Status Response (typically coming from a frame relay switch)." ::= 47 mfrapDLCIInactiveTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum } DESCRIPTION "Unit is reporting this DLCI as inactive. An inactive DLCI is determined inactive one of two ways: it is either explictly declared inactive in an LMI Full Status Response (typically coming from a frame relay switch) or a Full Status Response is not seen causing a Full Status Timer expiry. Having the unit's full status timer too low could result in the unit falsely declaring DLCIs inactive (then active again). This does not interfere with any data activity on the DLCI but could result in excessive traps." ::= 48 mfrapDLCITDThresholdTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapIpAddress } DESCRIPTION "VNIP has measured a round-trip transit delay on this PVC to this peer which exceeds the user-defined threshold." ::= 49 mfrapLmiSourcingChangePassthruTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is not sourcing any LMI messages. If this state persists then LMI is up and the proper handshaking is occurring independent of the unit. This may also be a transient state if the unit is in an LMI hunt mode. If this trap occurs repeatedly, separated by other LMI sourcing states, the unit is not seeing any of the expected LMI messages from either interface. Check LMI type, connectivity, and configuration of associated equipment." ::= 50 mfrapLmiSourcingChangeUserDteTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is acting as a source of LMI Status Requests (Link Integrity Verification, Keep Alive). If this state persists then the equipment attached to the DTE interface is configured as a Frame Relay DCE but a companion Frame Relay DTE device is not seen out the WAN. This could also be a transient state if the unit is in an LMI hunt mode. If this trap occurs repeatedly, separated by other LMI sourcing states, the unit is not seeing any of the expected LMI messages from either interface. Check LMI type, connectivity, and configuration of associated equipment." ::= 51 mfrapLmiSourcingChangeNetDteTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is acting as a source of LMI Status Responses (Link Intergrity Verification, Keep Alive). If this state persists then the equpiment attached to the DTE interface is configured as a Frame Relay DTE but a companion Frame Relay DCE device is not seen out the WAN. This could also be a transient state if the unit is in an LMI hunt mode. If this trap occurs repeatedly, separated by other LMI sourcing states, the unit is not seeing any of the expected LMI messages from either interface. Check LMI type, connectivity, and configuration of external equipment." ::= 52 mfrapLmiSourcingChangeUserT1Trap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is acting as a source of LMI Status Requests (Link Integrity Verification, Keep Alive). If this state persists then the equipment attached to the WAN interface is configured as a Frame Relay DCE but a companion Frame Relay DTE device is not seen out the DTE interface. This could also be a transient state if the unit is in an LMI hunt mode. If this trap occurs repeatedly, separated by other LMI sourcing states, the unit is not seeing any of the expected LMI messages from either interface. Check LMI type, connectivity, and configuration of associated equipment." ::= 53 mfrapLmiSourcingChangeNetT1Trap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is acting as a source of LMI Status Responses (Link Integrity Verification, Keep Alive). If this state persists then the equipment attached to the WAN interface is configured as a Frame Relay DTE but a companion Frame Relay DCE device is not seen out the DTE interface. This could also be a transient state if the unit is in an LMI hunt mode. If this trap occurs repeatedly, separated by other LMI sourcing states, the unit is not seeing any of the expected LMI messages from either interface. Check LMI type, connectivity, and configuration of associated equipment." ::= 54 mfrapDteSignalRtsOnTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit's DTE Request to Send (RTS) interface control signal is now active (on). This signal is presented by the external DTE device. Unit may be configured to ignore the state of this signal or to require it for data transmission." ::= 55 mfrapDteSignalRtsOffTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit's DTE Request to Send (RTS) interface control signal is now inactive (off). This signal is presented by the external DTE device. Unit may be configured to ignore the state of this signal or to require it for data transmission." ::= 56 mfrapDteSignalDtrOnTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit's DTE Data Terminal Ready (DTR) interface control signal is now active (on). This signal is presented by the external DTE device. The unit may be configured to ignore the state of this signal or to require it for data transmission." ::= 57 mfrapDteSignalDtrOffTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit's DTE Data Terminal Ready (DTR) interface control signal is now inactive (off). This signal is presented by the external DTE device. Unit may be configured to ignore the state of this signal or to require it for data transmission." ::= 58 mfrapNonIncrLmiSeqNumDteTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has detected a non-incrementing LMI sequence number from the DTE. A Status Enquiry or Status Response message has been seen at the DTE interface. The Link Integrity information element's Send Sequence Number was not incremented or was incremented more than once since the last Send Sequence Number seen from the DTE interface." ::= 59 mfrapNonIncrLmiSeqNumT1Trap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has detected a non-incrementing LMI sequence number from the WAN. A Status Enquiry or Status Response message has been seen at the WAN interface. The Link Integrity information element's Send Sequence Number was not incremented or was incremented more than once since the last Send Sequence Number seen from the WAN interface." ::= 60 mfrapLmiSeqNumMismatchDteTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has detetcted an LMI sequence number mismatch from the DTE. A Status Enquiry or Status Response message has been seen at the DTE interface. The Link Inetgrity information element's Receive Sequence Number was not the most recent Send Sequence number sent from the WAN interface. " ::= 61 mfrapLmiSeqNumMismatchT1Trap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has detetcted an LMI sequence number mismatch from the WAN. A Status Enquiry or Status Response message has been seen at the WAN interface. The Link Inetgrity information element's Receive Sequence Number was not the most recent Send Sequence number sent from the DTE interface." ::= 62 mfrapTrapMutingActive TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Trap generation is muted." ::= 75 mfrapTrapMutingInactive TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Trap generation is re-enabled (muting disabled)." ::= 76 mfrapVloopUp TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapInterface } DESCRIPTION "A Vnip PVC loopback (VLOOP) request has been sent to a remote device on this DLCI out this interface. The remote unit should respond by looping all data received on this PVC back towards the unit that initiated this request. A PVC running VLOOP will not be running any user data." ::= 90 mfrapVloopDown TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapInterface } DESCRIPTION "A Vnip PVC loopback (VLOOP) disable request has been sent to a remote device on this DLCI out this interface. The remote unit should respond by tearing down the logical loop on this DLCI." ::= 91 mfrapVloopUpViaRemote TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapInterface } DESCRIPTION "A Vnip PVC loopback (VLOOP) request has been received from a remote device on this DLCI on this interface. The unit will respond by looping all data received on this PVC back out the interface towards the unit that initiated the request." ::= 92 mfrapVloopDownViaRemote TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapInterface } DESCRIPTION "A request to disable a Vnip PVC loopback (VLOOP) on this unit with the indicated DLCI and Interface has been received. Usually this disable request is from the remote device that requested the VLOOP, however the request may also be due to a local event such as expiration of a locally configured loopback timeout. The unit will respond by tearing down the logical loop on this DLCI." ::= 93 mfrapVloopRequestFailed TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapInterface } DESCRIPTION "The request for a PVC loopback (VLOOP) has been rejected or did not complete." ::= 94 mfrapVbertStarted TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapInterface } DESCRIPTION "A Vnip PVC error rate test (VBERT) has been started on this DLCI out this interface to a remote device. The VBERT test data will be statistically multiplexed in with user data, management data, and networking data. The destination peer will echo this test data back to the source producing a full-duplex volume-based timed test." ::= 95 mfrapVbertStopped TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapInterface } DESCRIPTION "A Vnip PVC BERT (VBERT) has been stopped on this DLCI on this interface to a remote device." ::= 96 mfrapVbertRequestFailed TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapInterface } DESCRIPTION "The request for a PVC BERT (VBERT) on this DLCI on this interface has been rejected." ::= 97 mfrapDandiCarrierLoss TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is not detecting a signal from the Drop & Insert port." ::= 110 mfrapDandiCarrierDetect TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is not detecting a signal from the Drop & Insert port." ::= 111 mfrapDandiSyncLossDeclare TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is not properly synchronized to the signal received from the Drop & Insert port. Frame synchronization is required for normal operation." ::= 112 mfrapDandiSyncAcquire TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is now synchronized with the signal received from the Drop & Insert port." ::= 113 mfrapDandiRedAlarmDeclare TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has experienced loss of frame synchronization for an extended time and is reporting an alarm condition that severely impairs normal operation. During this Red Alarm condition the unit will transmit Yellow alarm back to the network. If this condition persists consult your service provider." ::= 114 mfrapDandiRedalArmclear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has achieved frame synchronization for a length of time necessary to declare the interface stable and operational." ::= 115 mfrapDandiYellowAlarmDetect TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is receiving a yellow alarm indication from the Drop & Insert port. Detection of yellow alarm implies that the attached device is in a red alarm conditon. Red alarm is declared due to the extended absence of a properly framed signal. If this condition persists consult your service provider." ::= 116 mfrapDandiYellowAlarmClear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is no longer receiving a yellow alarm indication from the Drop & Insert port. Yellow alarm implies that the attached device is in a red alarm conditon. Red alarm is declared due to the extended absence of a properly framed signal." ::= 117 mfrapDandIaisDetect TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is receiving unframed all ones from the Drop & Insert port (AIS, blue alarm). Detection of AIS implies that the attached device is reporting an alarm condition from an upstream device. If this condition persists consult your service provider." ::= 118 mfrapDandiAisClear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is no longer receiving unframed all ones from the Drop & Insert port (AIS, blue alarm). Detection of AIS implies that the attached device is reporting an alarm condition from an upstream device." ::= 119 mfrapDandiControlledSlip TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is reporting an occurrence of a timing slip causing either the deletion or repetition of a block of data. This is indicative of a timing problem within the application. Check for multiple clock sources or the absence of a stable clock source." ::= 120 mfrapLocalDandiPayloadLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is in local Drop & Insert payload loopback. All Drop & Insert data received from the WAN, regardless of format or content, is processed at the Drop & Insert line interface before being reframed and transmited back out the WAN. DTE data are unaffected." ::= 121 mfrapLocalDandiPayloadLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local Drop & Insert payload loopback path is removed." ::= 122 mfrapLocalDandiPayloadLoopbackFailureTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local Drop & Insert payload loopback request has been rejected. Typically, this is due to the presence of another loopback condition." ::= 123 mfrapLocalDandiLineLoopbackEnabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit is in local Drop & Insert line loopback. All data received from the Drop & Insert port, regardless of format or content, is transmitted back out (line interface loopback) while still being sent to the WAN. DTE data are unaffected." ::= 124 mfrapLocalDandiLineLoopbackDisabledTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local Drop & Insert line loopback path is removed." ::= 125 mfrapLocalDandiLineLoopbackFailureTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local Drop & Insert line loopback request is rejected. Typically, this is due to the presence of another loopback condition." ::= 126 mfrapNestFanOneAlarm TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received an alarm signal from the nest that Fan 1 has malfunctioned." ::= 130 mfrapNestFanOneAlarmClear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "The Fan 1 alarm signal from the nest has been cleared." ::= 131 mfrapNestFanTwoAlarm TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received an alarm signal from the nest that Fan 2 has malfunctioned." ::= 132 mfrapNestFanTwoAlarmClear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "The Fan 2 alarm signal from the nest has been cleared." ::= 133 mfrapNestPowerSupplyAlarm TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received an alarm signal from the nest that the power supply has malfunctioned." ::= 134 mfrapNestPowerSupplyAlarmClear TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "The power supply alarm signal from the nest has been cleared." ::= 135 mfrapLocalPayloadLoopbackEnabledViaRemoteTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local Payload loopback enabled Via Remote unit." ::= 136 mfrapLocalPayloadLoopbackDisabledViaRemoteTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Local Payload loopback disabled Via Remote unit." ::= 137 mfrapPvcRxUtilizationExceededTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapPercentUtilization, mfrapUtilizationThreshold } DESCRIPTION "Percent utilization threshold was exceeded for the defined number of Short Term Intervals in the reception direction on this DLCI. " ::= 138 mfrapPvcTxUtilizationExceededTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapPercentUtilization, mfrapUtilizationThreshold } DESCRIPTION "Percent utilization threshold was exceeded for the defined number of Short Term Intervals in the transmission direction on this DLCI. " ::= 139 mfrapPvcRxUtilizationClearedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapPercentUtilization, mfrapUtilizationThreshold } DESCRIPTION "Percent utilization was below the threshold for the defined number of Short Term Intervals in the reception direction on this DLCI. " ::= 140 mfrapPvcTxUtilizationClearedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapDLCINum, mfrapPercentUtilization, mfrapUtilizationThreshold } DESCRIPTION "Percent utilization was below the threshold for the defined number of Short Term Intervals in the transmission direction on this DLCI. " ::= 141 mfrapConfigInstallSuccess TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType, mfrapCfgLockIpAddress } DESCRIPTION " The configuration install process has successfully completed. " ::= 142 mfrapTftpRequestedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has received a TFTP download request. TFTP is the preferred method for upgrading a unit's software image." ::= 257 mfrapTftpTransferringTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has established a TFTP session, found the file, and begun the transfer. The file must still be qualified as appropriate for this unit." ::= 258 mfrapTftpProgrammingTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit has completed the TFTP transfer of a new software image which will next be programmed into non-volatile flash memory." ::= 259 mfrapTftpAbortedTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit's TFTP session was established but the transfer was aborted by user intervention or an unrecoverable TFTP protocol error." ::= 260 mfrapTftpSuccessTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit's TFTP download completed successfully. Flash devices will be programmed with a new image. Unit will stop passing data during the programming phase (less than a minute) and, upon completion, will reset and return to full operation using the new image." ::= 261 mfrapTftpHostUnreachableTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit could not establish a TFTP session with the designated server. Verify that the correct TFTP ip address, TFTP DLCI and TFTP interface are configured on the unit and also verify the TFTP server confguration." ::= 262 mfrapTftpNoFileTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit could not locate the designated file on the TFTP server. Verify the correct TFTP filename is configured on the unit and verify the location of this file on the server (file name may be case sensitive)." ::= 263 mfrapTftpInvalidFileTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit had established a TFTP session and began transfer of the designated file. The unit aborted the transfer after determining that the specified file is not appropriate for this product (failed header verification)." ::= 264 mfrapTftpCorruptFileTrap TRAP-TYPE ENTERPRISE mfrap VARIABLES { mfrapAlarmType } DESCRIPTION "Unit transferred the designated file but aborted the operation due to a checksum error within the downloaded s-record file." ::= 265 END