® Miscellaneous Applications
Summary of Changes Version E1 Date 3/16/98 Reason/Rational Update for 5.
Notice Cabletron Systems reserves the right to make changes in specifications and other information contained in this document without prior notice. The reader should in all cases consult Cabletron Systems to determine whether any such changes have been made. The hardware, firmware, or software described in this manual is subject to change without notice.
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Contents Chapter 1 FDDI Application FDDI Views ......................................................................................................................... 1-2 FDDI Station List View......................................................................................... 1-3 FDDI App Views ................................................................................................................. 1-4 SMT Device Configuration View ..........................................................
Chapter 5 WAN Application WAN Views ..........................................................................................................................5-1 WAN Connection Table View .................................................................................5-2 WAN Connection Physical Ports View ..................................................................5-3 WAN Connection Interface Table View .................................................................
Node Port DLC Trace View ................................................................................. 9-13 Node Link Station View ...................................................................................... 9-15 Node Link Station IP View.................................................................................. 9-20 Node Link Station DLS View .............................................................................. 9-21 Node Link Station TokenRing View.............................
Miscellaneous Applications iv
Figures Chapter 1 Figure 1-1. Figure 1-2. Chapter 2 Figure 2-1. Figure 2-2. Figure 2-3. Figure 2-4. Chapter 3 Figure 3-1. Chapter 4 Figure 4-1. Figure 4-2. Figure 4-3. Chapter 5 Figure 5-1. Chapter 6 Figure 6-1. Figure 6-2. Figure 6-3. FDDI Application FDDI Station List View ........................................................................................ 1-2 SMT Device Configuration View ..........................................................................
Chapter 9 Figure 9-1. Figure 9-2. Figure 9-3. Figure 9-4. Figure 9-5. Figure 9-6. APPN Application APPN Information View .......................................................................................9-2 APPN Global Topology View ...............................................................................9-25 Class of Service Tables View ...............................................................................9-40 APPN Directory Performance View ............................................
Chapter 1 FDDI Application FDDI provides speed and reliability to a LAN and is often used as a backbone technology as well as a means of connecting high-speed computers in a local area. This chapter describes the views available for the FDDI application. ANSI developed the Fiber Data Distributed Interface (FDDI) as a standard for fiber-optic data transmission. FDDI is a token-passing ring architecture that operates at 100 Mbps.
FDDI Views There are two FDDI Applications: • FddiSMT • FDDI App (RFC 1512App) FDDI Views There is one application-specific subview available for the FDDI application from the FddiSMT Icon Subviews menu, the FDDI Station List View. The FDDI Station List View, shown in Figure 1-1, displays the configuration of the FDDI ring and basic information about the devices in the ring. Figure 1-1.
FDDI Views FDDI Station List View This view displays the configuration of the FDDI ring. To access: Select Station List from the FddiSMT Icon Subviews Menu. Station Address The address of the ring node. You select canonical or MAC presentation. Node Class The type of FDDI ring device. Types of Node Classes are: Station - An FDDI node capable of receiving, transmitting, and repeating data.
FDDI App Views FDDI App Views There is one application-specific subview available for the FDDI App application from the RFC1512App Icon Subviews menu, the SMT Device Configuration View. The SMT Device Configuration View is shown in Figure 1-2. Figure 1-2.
FDDI App Views SMT Device Configuration View This view provides two tables displaying FDDI information. The Station Table and the MAC Table. Both tables have double-click zones to access subviews that allow selected entries to be modified. To access: Select Configuration from the Icon Subviews menu or double-click on the text label of the FDDI App Application View icon. Station Table This table provides a list of the SMT entries.
FDDI App Views SMT Device Configuration View (Continued) Non Master Cts The number of A, B, or S ports on this station or concentrator. Master Cts The number of M Ports in a node. If the node is not a concentrator, the value of the variable is zero. An M port is a port that provides a connection for Single Attachment Station (SAS) devices to the FDDI framework. Notify The timer, in seconds, used in the Neighbor Notification protocol.
FDDI App Views SMT Device Configuration View (Continued) Leave Used to allow sufficient time to break any existing connections. Path_Test Used upon the completion of the Trace function. In this state, the station or concentrator performs a test of its entities and data paths. Insert Allows for the switching time of the optical bypass switch. In this state, an insert request is sent to the optical bypass switch. The ECM state remains as Insert until the optical bypass switch has completed switching.
FDDI App Views SMT Device Configuration View (Continued) Wrap_ab The primary path is wrapped to the B port and the secondary path is wrapped to the A port. Thru The primary path enters the A port and emerges from the B port. The secondary path enters the B port and emerges from the A port. Local_s The S port is inserted into a local path. Wrap_s The primary path is wrapped to the S port. C_wrap_s The primary path and secondary paths are joined internal to the node and wrapped to the S port.
FDDI App Views SMT Device Configuration View (Continued) Connect Generates a Connect signal to ECM to begin a connection sequence. Disconnect Generates a Disconnect signal to ECM. Path-Test Initiates a station Path_Test. Self-Test Initiates a station Self_Test. Disable-a Disables the A port if the A port mode is peer. Disable-b Disables the B port if the B port mode is peer. Disable-m Disables all M ports. MAC Table This table provides a list of the MAC entries.
FDDI App Views SMT Device Configuration View (Continued) Secondary Indicates that the secondary FDDI ring is being used. Primary Indicates that the primary FDDI ring is being used. Concatenated Indicates the port is inserted in both the primary and secondary paths in a concatenated wrap configuration. Thru Indicates that the port is inserted in both the primary path and secondary paths in a thru configuration.
FDDI App Views SMT Device Configuration View (Continued) Threshold A threshold which, when exceeded, causes the generation of a MAC Condition report. Stations not supporting variable thresholds will have a value of 0. This field can be modified. RMT State The current state of the Ring Management (RMT) State Machine. The possible states are Ring-Op, Isolated, Non-Op, Detect, Non-Op-Dup, RingOp-Dup, Directed, and Trace. These states are defined below. Ring-Op The ring is functioning normally.
FDDI App Views SMT Device Configuration View (Continued) Dup Address Indicates the current status of the duplicate address detection function. None indicates the duplicate address test has not been completed. Pass indicates the duplicate address test has completed and has not detected a duplicate address. Fail indicates the duplicate address test has completed and has detected a duplicate address.
Chapter 2 PPP Application The Point-to-Point Protocol (PPP) Application provides a method for transmitting datagrams over serial point-to-point links. This chapter provides access information for the PPP Application views and describes the view fields available for the PPP application. The Point-to-Point Protocol (PPP) consists of a large family of complex protocols. PPP Application Protocols The PPP protocols may be divided into three categories, described below.
PPP Application Views Network Protocols Network Protocols The Network Protocols are used to move the network traffic over the PPP interface. A Network Protocol encapsulates the datagrams of a specific higherlayer protocol that is using the PPP as a data link. Note that within the context of PPP, the term “Network Protocol” does not imply an OSI Layer-3 protocol; for instance, there is a Bridging network protocol.
PPP Application Views Figure 2-1.
PPP Application Views PPP LCP Application Configuration View The PPP LCP Application Configuration View identifies the LCP (Link Control Protocol) configuration parameters for this PPP Link. These variables represent the initial configuration of the PPP Link. The actual values of the parameters may be changed when the link is brought up via the LCP options negotiation mechanism. Double-clicking on an entry in the PPP Link Configuration Table brings up the PPP LCP Application Configuration View.
PPP Application Views Figure 2-2. Local to Remote Configuration Table.
PPP Application Views PPP Link Status Configuration View Local to Remote Configuration Table The PPP protocol indicates whether the local PPP entity will use Protocol Compression when transmitting packets to the remote PPP entity. The value of this object is meaningful only when the link has reached the open state. This view allows you to update, sort, or search the table for specific information. To access: Physical Index Select Local to Remote Configuration from the Icon Subviews menu.
PPP Application Views Remote to Local Configuration Table Figure 2-3.
PPP Application Views PPP Link Status Configuration Table View Remote to Local Configuration View The PPP protocol indicates whether the remote PPP entity will use Protocol Compression when transmitting packets to the local PPP entity. The value of this object is meaningful only when the link has reached the open state. This view allows you to update, sort, or search the table for specific information. To access: Select Remote to Local Configuration from the Icon Subviews menu.
PPP Application Views Figure 2-4.
PPP Application Views PPP Link Status Table View (Continued) Physical Index The unique value assigned to identify the low-level interface over which this PPP Link is operating. This interface would usually be an HDLC or Rs-232 type of interface. If there is no other element that can be identified, then the value of this object is 0. For example, if PPP operates over a serial port there will be two entries in the Table.
Chapter 3 DS1 Application DS1 is a high-speed baseband transmission link. This chapter provides access information to the DS1 Application views. DS1, or Digital Signal 1, operates at 1.544-Mbps (Megabits per second) over a packet-switched datagram delivery service known as Switched Multimegabit Data Service (SMDS). This delivery service is designed for high speed wide-area data communications.
DS1 Views Figure 3-1. DSI Configuration Table View Primary Landscape 0x00400000 - VNM Host - DS1 of type CtWAN_AppDS1 * File View Name Help? DS 1 Configuration Table WAN Connection Table Sys Up Time Net Addr DS1 Contact Description Location CabletronETWMIMRevision01.20.
DS1 Views DS1 Configuration View The DS1 Configuration View provides the same information as the DS1 Configuration Table for the selected interface and allows you to modify field values. To access: Double-click on a DS1 Configuration Table entry to access the DS1 Configuration View. Index This field displays the index value which uniquely identifies the CSU (a single DS1 physical interface) to which the entry is applicable.
DS1 Views DS1 Configuration View (Continued) Line Coding This field displays the type of Zero Code Suppression used on the link, which in turn affects a number of its characteristics. Possible Zero Coding options are: JBZS - Refers to the Jammed Bit Zero Encoding, in which the AT&T specification of at least one bit every 8 periods is literally implemented by forcing a pulse in bit 8 of each channel.
DS1 Views DS1 Configuration View (Continued) Signal Mode This field displays the signal mode of the interface. Possible signal modes are: None - Indicates that no bits are reserved for signaling on this channel. RobbedBit - Indicates that T1 Robbed Bit Signaling is used. BitOriented - Indicates that E1 Channel Associated Signaling is used. MsgOriented - Indicates that Common Channel Signaling is in use on channel 16 of an E1 link or channel 24 of a T1.
DS1 Views DS1 Configuration View (Continued) Line Status This field displays the line status of the interface. It contains loopback, failure, received alarm and transmitted alarm information. Possible line statuses are: NoAlarm - No alarm present. RcvFarEndLOF - Far end LOF (e.g., yellow alarm). XmtFarEndLOF - Near end sending LOF Indication. RcvAIS - Far end sending AIS. XmtAIS - Near end sending AIS. LossOfFrame - Near end LOF (e.g., red alarm). LossOfSignal - Near end Loss of Signal.
DS1 Views DS1 Fractional Table Config View The DS1 Fractional Table identifies which channels associated with a CSU are being used to support a logical interface, i.e., an entry in the interfaces table from the Internet-standard MIB. This view describes the different DS1 fractional states. To access: Double-click on an entry in the DS1 Fractional Table in the DS1 Configuration Table View. Channel Number The channel number for this entry.
DS1 Views DS1 Application 3-8 Miscellaneous Applications
Chapter 4 RS-232 Application RS-232 is one of several common data terminal equipment (DTE)/data circuit-terminating equipment (DCE) interface standards. This chapter describes the views available from the RS-232 applications. The RS-232-like Hardware Port MIB includes RS-232, RS-422, RS-423, V.35, and other asynchronous or synchronous serial physical links with a similar set of control signals.
RS-232 Views RS-232 Views There is one application-specific subview available for the RS-232 application from the CtWANAppRS232 Icon Subviews menu, the RS232 Port Table View. The RS232 Port Table View is shown in Figure 4-1. Further subviews are opened by double-clicking table entries and/or clicking buttons. Figure 4-1. RS232 Port Table View Primary Landscape 0x00400000 - VNM Host - RS-232 of type CtWAN_AppRS232 * File Name View Help? RS232 Port Table WAN Connection 134.141.23.
RS-232 Views RS232 Port Table View (Continued) Port Type The port’s hardware type. Possible entries are: RS232, RS422, RS423, v35, or other. In Speed The port’s input speed in bits per second. Out Speed The port’s output speed in bits per second. In Signals The number of input signals for this port in the input signal table. Out Signals The number of output signals for this port in the output signal table. CTS When enabled, this field indicates that a CTS (Clear to Send) signal is generated.
RS-232 Views RS232 Port Input Signals Table View This view provides the number of input signals for the port. The table contains entries only for those signals the software can detect. To access: Click on the Input Signals Detail button in the RS232 Port Table Configuration View. Port ID The unique numeric identifier for the port corresponding to the table entry. Signal Name Indicates the hardware signal.
RS-232 Views RS232 Port Output Signals Table View The view provides the number of output signals for the port. The table contains entries only for those signals the software can detect. To access: Click on the Output Signals Detail button in the RS232 Port Table Configuration View. Port ID The unique numeric identifier for the port corresponding to the table entry. Signal Name Indicates the hardware signal.
RS232 Synchronous Views RS232 Synchronous Views There is one application-specific subview available for the RS232 Sync application from the RFC1317sync Icon Subviews menu, the RS232 Synchronous Port Table View. The RS232 Synchronous Port Table View is shown in Figure 4-2. Further subviews are opened by double-clicking table entries. Figure 4-2.
RS232 Synchronous Views RS232 Synchronous Port Table View (Continued) ClockSrc The source of the port’s bit rate clock. Split means the transmit clock is internal and the receive clock is external. Frame Check Errors The total number of frames with an invalid frame check sequence, input from the port since system re-initialization and while the port state was Up or Test.
RS232 Asynchronous Views RS232 Asynchronous Views There is one application-specific subview available for the RS232 Asynchronous application from the RFC1317async Icon Subviews menu, the RS232 Asynchronous Port Table View. The RS232 Asynchronous Port Table View is shown in Figure 4-3. Other subviews are opened by double-clicking table entries. Figure 4-3.
RS232 Asynchronous Views RS232 Asynchronous Port Table View (Continued) Data Bits The number of bits allowed in a character. Stop Bits The number of stop bits. In the RS232 Asynchronous Port Detail View, you may alter this value. Possible options are One, Two, One-and-Half, and Dynamic. Parity The character parity bit. In the RS232 Asynchronous Port Detail View, you may alter this value. Possible options are None, Odd, Even, Mark, and Space.
RS232 Asynchronous Views RS232 Asynchronous Port Detail View This view provides configuration information on a selected entry from the RS232 Asynchronous Port Table, and allows you to modify the configuration values. Three buttons can be toggled to change the Stop Bits, Parity and Autobaud settings. This view also provides a color-coded pie chart displaying error breakdown statistical information.
Chapter 5 WAN Application Wide Area Network (WAN) data link technology is generally used to implement point-to-point connections between devices. This chapter describes the views accessed from the WAN application. WANs, or wide area networks, connect networks or devices separated by long distances. A phone company, or similar common communications service with analog telecommunications circuit equipment, usually provides the interconnection.
WAN Views Figure 5-1. WAN Connection Table Primary Landscape 0x00400000 - VNM Host - WAN App of type CtWAN_App * File View Name Contact Description Location Help? WAN Connection Table WAN 134.141.23.23 Table Sys Up Time Net Addr Connection WAN App CabletronEMM-E6Revision3.01.
WAN Views WAN Connection Table View (Continued) Primary Port This field displays the port number to which a WAN connection would default. When redundancy is disabled this physical port will always be used. When redundancy is enabled this physical port will be the primary port. Active Port This field displays the physical port number which is active for the WAN connection.
WAN Views The WAN Connection Interface Table View is accessed from the WAN Connections Physical Ports View and is described below. WAN Connection Interface Table View This table view provides information about the physical port’s interfaces. You can print the results of the table. Double-clicking a table entry opens the WAN Interface View, which provides similar information to the table in the WAN Connection Interface Table View for the selected interface. You can modify field values in this table.
Chapter 6 Frame Relay Application Frame Relay is viewed as a multi-access media and not as a group of point-to-point connections. Frame Relay acts as a single interface (or physical connection) to the network with many destinations. The resulting view allows a network manager to group the destinations or virtual connections with corresponding physical connections, permitting the ability to troubleshoot the network.
Frame Relay Views Figure 6-1.
Frame Relay Views Virtual Circuit Table View (Continued) Dlci Frame relay “address” of the virtual circuit. State State of this virtual circuit. Possible states are Invalid, Active, Inactive, Xoff and Control. Multicast Indicates whether this Dlcmi is used for multicast or single destination. Type Indicates whether the virtual circuit was manually created (Static) or created by the Data Link Control Management interface (Dynamic).
Frame Relay Views Figure 6-2. Frame Relay Virtual Circuit Error Table View Primary Landscape 0x50180000 - VNM Host - of type FrameRelay Frame Relay Circuit Error Table View Net Addr Model Name Sys Up Time Contact Manufacturer Description Device Type Location Prime-App Sort Find Serial Number Update Circuit 0 Drops 0 Discards 0 Virtual Circuit Error Table View The Frame Relay Virtual Circuit Table View provides statistical information on frame relay virtual circuits.
Frame Relay Views Figure 6-3 provides an example of the Frame Relay Interface DLCMI Table View. Figure 6-3.
Frame Relay Views Interface Dlcmi Table View (Continued) LL Index Identifies the lower layer in cases where the lower layer may be something other than the physical layer. For example, if Frame Relay is running over an ATM virtual circuit, the LL Index identifies the ATM virtual circuit. Circuit (or Number) Circuit number representing this interface. Mngmnt Type Indicates which Data Link Connection Management Scheme is active, and implies what DLCMI it uses.
Frame Relay Views Interface Dlcmi Table View (Continued) 9032563 E1 Type Indicates whether the virtual circuit was manually created (Static) or created by the Data Link Control Management interface (Dynamic).
Frame Relay Views Frame Relay Application 6-8 Miscellaneous Applications
Chapter 7 Token Ring Application Token Ring and IEEE 802.5 are the primary examples of networks that use a ring-structured topology and token-passing as the means of data transmission. This section describes the views available for the Token Ring applications. Token-passing networks use a small frame or token that moves around the network. In order for a station to transmit it must have possession of the token.
Token Ring Views Token Ring Detail View This view provides three color-coded pie charts displaying Token Ring statistical information. Each statistic is presented as a total amount since the device was initialized and as a percentage of overall traffic. To access: Select Detail from the Icon Subviews menu. Transmitted Beacon Count The number of times this interface has transmitted a beacon frame.
Token Ring IF Views Token Ring Detail View (Continued) Recoveries The number of Claim Token MAC frames received or transmitted after the ring has received a Ring Purge MAC frame. Token The number of times the station acting as active monitor recognizes an error condition requiring a token be transmitted. Hard Errors Breakdown This pie chart displays the breakdown of the following statistics: Abort Trans, Internal, Signal Loss, Lobe Wire, and Frequency.
Token Ring IF Views Token Ring IF Configuration View To access: Select Configuration from the TokenRingIfApp Icon Subviews menu. Commands This field provides a button that allows you to send the following commands to the device: None, Open, Reset and Close. None No command is sent to the device. This is the default setting. Open Inserts the device into the Token Ring network. Reset Resets the device with all counters retaining their original state.
Token Ring IF Views Token Ring IF Configuration View (Continued) RingRecovery The ring purge command has not yet been issued to restart communications. SingleStation The device has detected itself as the only station on the ring. RemoveReceived A station is removing itself from the ring. Auto-RemovalError The device has removed itself due to the beaconing auto-removal process. LobeWireFault The device has detected an error condition on the lobe wires.
Token Ring IF Views Token Ring Application 7-6 Miscellaneous Applications
Chapter 8 DLSw Application Data Link Switching (DLSw) is an IBM extension to source route bridging that allows otherwise unroutable Systems Network Architecture (SNA) and NetBIOS frames to be routed. DLSw, running on an IBM 6611 network processor, is the transport of data at the LPDU layer across a transparent transport network. There are two types of data link switching: Local and Remote. In local data link switching, the data link switching function is performed within a single 6611.
DLSw Views Information View To access: Select Configuration from the Icon Subviews menu. VirtualRingSegNo The Token Ring segment number (0 through 4095) used in all frames passed to or from the IBM 6611 Data Link Switching function. FrameFilterType The type of filtering applied using the Local Frame Filter Table and the Remote Frame Filter Table. If this field has the value: NameFilterType Permit Frames will be forwarded if they meet the filter criteria of any filter definition in these tables.
DLSw Views Information View (Continued) Remote Name Filter Clicking on the Remote Name Filter Table button displays the Remote NetBIOS Filter View described later in this section. SNA Default Dest Clicking on the SNA Default Dest Table button displays the SNA Default Destination View described later in this section. NetBIOS Default Dest Clicking on the NetBIOS Default Dest Table button displays the NetBIOS Default Destination View described later in this section.
DLSw Views DLS Participating Routers View To access: Click the Router Table button in the DLSw Information View. This view contains the Router Table which provides the following information regarding all routers (other 6611s) participating in Data Link Switching. Router Address The IP address of the router this entry describes. RouterStatus The current state of the remote connection, Active or NotActive. RouterConfig The origin of this table entry.
DLSw Views Station View (Continued) ReTxThold The number of information frame retransmissions allowed expressed as a percentage of the total information frame transmissions. This is the maximum rate of retransmissions allowed before an error log entry is made. FrcDiscTmout The number of seconds that the 6611 will wait after requesting a disconnect from the link (DISC) before forcing a disconnect (1 through 600).
DLSw Views Local SNA Frame Filter View To access: Click on the Local Frame Filter Table button in the DLSw Information View. The Local Frame Filter Table displays filters definitions that can be applied to SNA frames received from local LAN segments. Each entry shows one filter definition. FilterID A unique identifier for this filter (1 through 100). SourceAddress The source MAC address to which this filter is applied.
DLSw Views Local NetBIOS Filter View To access: Click on the Local Name Filter Table button in the DLSw Information View. This view provides information regarding the filtering of NetBIOS frames received from local LAN segments. Each entry shows one filter definition. FilterID A unique identifier for this filter (1 through 100). SourceAddress The source NetBIOS name that the source address in the incoming frame is compared with.
DLSw Views Remote NetBIOS Filter View To access: Click on the Remote Name Filter Table button in the DLSw Information View. This view provides the filtering information for NetBIOS frames received from DLS participating routers other than those from local LAN segments (which are described in the Local NetBIOS Filter View). The fields are identical to those in the Local NetBIOS Filter View described earlier.
DLSw Views NetBIOS Default Destination View To access: Click on the NetBIOS Default Dest Table button in the DLSw Information View. This view contains the table of default routers for NetBIOS names. DestName The destination NetBIOS name for which the corresponding RouterIpAddr is applied. RouterIpAddr The default router used to reach the destination name in the DestName field. Circuit Diagnostic View To access: Click on the Circuit Diagnostics button in the DLSw Information View.
DLSw Views Circuit Diagnostic View (Continued) LLTstCmdsRcv The number of test commands received by the local link station using this circuit. LLInvPktRcv The number of invalid packets received by the local link station using this circuit. LLAdpRcvErr The number of data-detected receive errors by the local link station using this circuit. LLAdpSndErr The number of data-detected transmit errors by the local link station using this circuit.
DLSw Views Poll and Status View (Continued) DestAddress The MAC address of the destination of this circuit. DestSAP The SAP identifier of the destination of this circuit. PrtnrRtrAddr The IP address of the partner router (remote IBM 6611) used by this circuit. LocLnkState The state of the local link station used by this circuit: Opening, Opened, Closing or Inactive. LocLnkSubState The sub-state of the local link station used by this circuit: Calling, Listening, Contacted, LocalBusy or RemoteBusy.
DLSw Views Circuit Data Transfer View To access: Click on the Data Transfer Information button in the DLSw Information View. This view contains the Circuit Data Table with the following information. IfIndex The interface supporting this circuit. SourceAddr The MAC address of the source of this circuit. SourceSAP The SAP identifier of the source of this circuit. DestAddress The MAC address of the destination of this circuit. DestSAP The SAP identifier of the destination of this circuit.
Chapter 9 APPN Application Advanced Peer-to-Peer Networking (APPN) is a significant extension to IBM’s Systems Network Architecture (SNA). APPN builds upon the strengths of traditional SNA networks, which include reliability, predictability and performance, and adds the necessary network functions to aid the construction of complex networks of peer SNA nodes.
APPN Views A variety of other informational views are accessed from buttons contained within these views, and are described in the following pages. Figure 9-1 shows the first APPN subview available from the ibmAppnApp icon, the APPN Information View. Figure 9-1.
APPN Views APPN Information View To access: Select Configuration from the Icon Subviews menu. This view contains twelve fields and five buttons leading to more detailed views. The twelve fields provide global information for APPN nodes that applies to both network nodes and end nodes. Node CntlPtName The administratively assigned network CP (control point) name for this node in the format NETID.CPNAME. Node NetId The administratively assigned APPN network identification, one to eight characters long.
APPN Views APPN Information View (Continued) Node Service This field indicates whether the node allows call-in from nodes not defined locally. Adapt BindPacing This field indicates whether the node supports adaptive bind pacing. Network Node Info Clicking on the Network Node Information button displays the Network Node View described later in this section. End Node Info Clicking on the End Node Information button displays the End Node View described later in this section.
APPN Views Network Node View To access: Click on the Network Node Information button in the APPN Information View. This view contains global information about the APPN network node. Rcv Registered Char Indicates whether the node supports receiving registered characteristics. Gateway Node Indicates whether the node is a gateway node. Central Dir Cache Indicates whether the node supports central directory cache. Route Tree Cache Indicates whether the node supports route tree cache.
APPN Views End Node View To access: Click on the End Node Information button in the APPN Information View. This view contains the following information for the end node. Segment Generation Indicates whether the end node supports segment generation. Mode-COS Mapping Indicates whether the end node supports mode-name to COS-name mapping. Locate Cdinit Indicates whether the end node supports Locate Cdinit.
APPN Views SNMP Information View (Continued) Total VARIABLES In The number of VARIABLES included in both GET and GETNEXT requests delivered to the APPN SNMP sub-agent. Get VARIABLES In The number of VARIABLES included in all GET requests delivered to the APPN SNMP sub-agent. GetNxt VARIABLES In The number of VARIABLES in GETNEXT requests delivered to the APPN SNMP sub-agent. Set VARIABLES In The number of VARIABLES in SET requests delivered to the APPN SNMP sub-agent.
APPN Views Memory & XID Information View (Continued) Allocation Threshold The allocation threshold above which the storage management considers the storage resources to be constrained. Critical Threshold The allocation threshold above which the storage management considers the storage resources to be critically constrained. Exchange Identifier XID This table shows the counters, maintained by the APPN CS component, that Information Table relate to overall exchange identifier activity.
APPN Views Link Station & Port Information View To access: Click on the Link Station & Port Tables button in the APPN Information View. This view contains ten buttons in two groups, Node Port Information and Link Station Information, leading to more detailed tables. Node Port Information Provides five buttons that lead to tables containing node port information. Node Port Table Clicking on the Node Port Table button displays the Node Port View described later in this section.
APPN Views Link Station & Port Information View (Continued) LS Node DLS Table LS Node Token Ring Table LS Status and Exceptions Table Clicking on the LS Node DLS Table button displays the Node Link Station DLS View described later in this section. Clicking on the LS Node Token Ring Table button displays the Node Link Station TokenRing View described later in this section. Clicking on the LS Status and Exceptions Table button opens the APPN Node Link Status/Error View described later in this section.
APPN Views Node Port View (Continued) NdPrtDlcType The type of DLC interface, according to the protocol immediately “below” this layer; Other (none of the following), SDLC, DLS, Socket, Ethernet or Token Ring. NdPrtPortType The type of line used by this port; Leased, Switched or SharedAccessFacilities. NdPrtSIMRIM This field indicates whether the Set Initialization Mode (SIM) and Receive Initialization Mode (RIM) are supported.
APPN Views Node Port IP View To access: Click on the Node Port IP Table button in the Link Station & Port Information View. This view displays the following information in the Node Port IP Table (the TCP/IP-specific table). PortIpName The administratively assigned name for this port (up to 8 characters). Also the index for the table. PortIpPortNum The local TCP/IP port number of this port.
APPN Views Node Port Token Ring View To access: Click on the Token Ring Port Table button in the Link Station & Port Information View. This view displays the following information in the Node Port TR Table. PortTrName The administratively assigned name for this port (up to 8 characters). Also the index for the table. PortTrMac The local Token Ring MAC address. PortTrSap The local Token Ring SAP address.
APPN Views Node Port DLC Trace View (Continued) LocalAddress The local address in the format described below: other ip tr dlsw ethernet RemoteAddress = free form DisplayString = 1d.1d.1d.1d/2d = 1x:1x:1x:1x:1x:1x:1x = 1x:1x:1x:1x:1x:1x:1x = 1x:1x:1x:1x:1x:1x:1x The remote address in the formats described below: other ip tr dlsw ethernet = free form DisplayString = 1d.1d.1d.
APPN Views Node Link Station View To access: Node Link Station General Info Click on the LS Node Tables button in the Link Station & Port Information View. The Node Link Station Tables contain three buttons leading to further views and detailed information about the link station configuration. Clicking this button opens the APPN Node Link Station General View, which contains two fields: General & Common LS Info, and LS_Defined Data/Xid Info. The information in these fields is detailed below.
APPN Views Node Link Station View (Continued) TgtPaceCnt A value between zero and 32767 inclusive indicating the desired pacing window size for BINDs on this TG. The number is significant only when fixed bind pacing is being performed. MaxSndBTU An administratively assigned value between zero and 32767 inclusive indicating the desired number of bytes in a Basic Transmission Unit (BTU) sent on this TG. LS_Defined Data/Xid Info This table contains the link information defined below.
APPN Views Node Link Station View (Continued) LsName The administratively assigned name for this link station. EffectCapa The effective capacity (integer between 0 and 603,979,776) that indicates the kilobits per second. It is derived from the link bandwidth and maximum load factor. This is an administratively assigned value associated with the TG using this link station. ConnCost The cost per connect time (0 through 255), representing the relative cost per unit of time to use the TG.
APPN Views Node Link Station View (Continued) LsDelay The amount of time, in microseconds, that it takes the signal to travel the length of the logical link. This is an administratively assigned value associated with the TG using this link station. The most common values are represented as follows: 0 Minimum 384 Negligible 9216 Terrestrial 147456 Packet 294912 Long 2013265920 Maximum LsUsr1/2/3 First/second/third user-defined TG characteristic for this TG (0 through 255).
APPN Views Node Link Station View (Continued) Performance Data This table contains the information defined below. InXidBytes The number of XID bytes received. InMsgBytes The number of message (I-frame) bytes received. InXidFrames The number of XID frames received. InMsgFrames The number of message (I-frame) frames received. OutXidBytes The number of XID bytes sent. OutMsgBytes The number of message (I-frame) bytes sent. OutXidFrames The number of XID frames sent.
APPN Views Node Link Station View (Continued) LsGoodXids The number of successful XIDs that have occurred on this link station since it was started. LsBadXids The number of unsuccessful XIDs that have occurred on this link station since it was started. NOTES Test frames are sent to adjacent nodes periodically to verify connectivity and to measure the actual round trip time (from the time the test frame is sent until the response is received).
APPN Views Node Link Station IP View (Continued) LsLocIpPrtNo The local TCP/IP port number. The default listening port is administratively assigned and will change dynamically if this node initiates a session with an adjacent node. LsRemoteIpAddr The remote IP address. LsRemIpPrtNo The remote TCP/IP port number. Node Link Station DLS View To access: Click on the LS Node DLS Table button in the Link Station & Port Information View.
APPN Views Node Link Station TokenRing View To access: Click on the LS Node Token Ring Table button in the Link Station & Port Information View. This view displays the following information in the Node LS TR Table. LsTrName The administratively assigned name for this link station (up to 8 characters). Also the index for the table. LsTrState The current state of this station: Inactive The station is disabled. Pendactive Activation is in progress. Active The station is enabled.
APPN Views APPN Node Link Status/Error View To access: Click on the LS Status & Exceptions Table button in the Link Station and Port Information view. This view displays the following information in the Node Link Station Status Table. StatusIndex The continuous index to this table. The value of the index begins at zero and is incremented up to a maximum value of 2**31-1 (2,147,483,647) before wrapping. StatusTime Time, in hundredths of a second, since this node was last initialized.
APPN Views APPN Node Link Status/Error View (Continued) XidRemoteSense The error sense code adjacent node returned to this node indicating the reason the XID was rejected. XidByteInErr Identifies the actual byte in the XID that caused the error. The value of zero (0) indicates that the variable has no meaning. XidBitInErr Identifies the actual bit within the error byte of the XID. This only has meaning when the byte in error is greater than zero.
APPN Views Figure 9-2.
APPN Views APPN Global Topology View (Continued) Curr Num Nodes The number of nodes currently in this node’s topology database. If this value exceeds the maximum number of nodes allowed (the value in Max Num Nodes), APPN issues the CPDB002 alert. Total TDUs In The number of TDUs received from all adjacent network nodes since the last initialization. Total TDUs Out The number of TDUs built by this node to be sent to all adjacent network nodes since the last initialization.
APPN Views APPN Global Topology View (Continued) Num Timer Updates The number of topology node records built for this node’s resource due to timer updates. Updates are sent via TDUs to all adjacent network nodes. These updates ensure other network nodes do not delete these resources from their topology databases. Num Node Purges The number of topology node records purged from this node’s topology database. Purges occur when a node has not been updated during a specified time span.
APPN Views APPN Global Topology View (Continued) TG Timer Updates The number of topology TG records built for this node’s resource due to timer updates. Updates are sent via TDUs to all adjacent network nodes. These updates ensure other network nodes do not delete these resources from their topology databases. TG Purges The number of topology TG records purged from this node’s topology database. Purges occur when a TG has not been updated during a specified time span.
APPN Views Node Topology Tables View To access: Node Topology Route Table Adjacent Node Table Nwk & Virtual Node Topo Table Click on the Topology Info Tables button in the APPN Topology Information View. This view is a menu of buttons leading to more detailed topology tables. Clicking on the Node Topology Route Table button displays the Topology Route View described later in this section. Clicking on the Adjacent Node Table button displays the Adjacent Node View described later in this section.
APPN Views Topology Route View To access: Click on the Node Topology Route Table button in the Node Topology Tables View. This view contains an entry for every Class of Service that a route has been calculated for. RtClassOfSrvc The Class of Service for the route. Also the index for the table. RtTreeCaches The number of route tree caches built for this Class of Service since the last initialization. RouteCalcs The number of route calculated since the last initialization.
APPN Views Adjacent Node View To access: Click on the Adjacent Node Table button in the Node Topology Tables View. This view contains information about every adjacent node. AdjNodeName An administratively assigned fully-qualified name of the adjacent network node. Also the index for the table. CpCpSessStatus The state of CP-CP sessions between this node and adjacent network and end nodes. Possible states are as follows: Active CP-CP sessions are active using both the ConWinner and ConLoser sessions.
APPN Views Topology Node View To access: Click on the Nwk & Virtual Node Topo Table button in the Node Topology Tables View. The Topology Node Table contains an entry for every APPN network node and Virtual node in the APPN network. Each entry occupies two lines; the NodeName is repeated on the second line. NodeName Administratively assigned network name that is locally defined at each network node. The name is in the format NETID.CPNAME and is the index for the table.
APPN Views Topology Node View (Continued) NdQuiescing Whether the node is quiescing (dormant) or not. When the node is quiescing (Yes), this node is not included in route selection by other nodes. NdGateway Whether the node provides gateway functions. CentralDir Whether the node acts as a central directory. NodeISR Whether the node supports ISR (Intermediate Session Routing). ChainSupport Whether the node supports chaining.
APPN Views Transmission Group Topology Node View (Continued) TgFRSN A TDU can be associated with multiple APPN resources and FRSNs are associated with TDUs. This field shows the FRSN that indicates the last time this resource was updated at this node. (FRSNs are unique only within each APPN network node and have a value 0 through 65535.) EntTimeLeft The number of days left before this network node TG entry will be deleted (0 through 31).
APPN Views Transmission Group Topology Node View (Continued) TgSecurity TgDelay The security is represented as an integer with a range of 1 through 255. This is an administratively assigned value associated with this TG.
APPN Views Flow Reduction Sequence Number Topology Node View To access: Click on the FRSN Topology Node Table button in the Node Topology Tables View. Each entry in the table occupies two lines; the FRName and NodeFRSN are repeated on the second line. FRName Administratively assigned network name that is locally defined at each network node. The name is in the format NETID.CPNAME and is the index for the table. NodeFRSN An FRSN indicating the last time this resource was updated at this node.
APPN Views Flow Reduction Sequence Number Topology Node View (Continued) CentralDir Whether the node acts as a central directory. IntSessRtg Whether the node supports Intermediate Session Routing (ISR). ChainSupport Whether the node supports chaining. Transmission Group FRSN Topology Node View To access: Click on the Txn Grp FRSN Topology Table button in the Node Topology Tables View.
APPN Views Transmission Group FRSN Topology Node View (Continued) DestVirt Indicates whether the destination node is a virtual node. FRDlcData This field contains DLC specific data, related to the link connection network; TokenRing (MAC/SAP), X.25, X.21 or CircuitSwtch. TgFrResSeqNo The current owning node’s RSN (Resource Sequence Number) for this resource. TgFrOptnl Indicates whether the transmission group is operational. Quiescing Indicates whether the transmission group is quiescing (dormant).
APPN Views Transmission Group FRSN Topology Node View (Continued) Security Delay The security is represented as an integer with a range of 1 through 255. This is an administratively assigned value associated with this TG.
APPN Views Figure 9-3 shows the Class of Service Tables View with its corresponding buttons. Figure 9-3. Class of Service Tables View Model of type ibmAppnApp of Landscape pogo: Primary File View Help? IBM APPN Class of Service Tables Class of Service Information Class of Service Mode Table Class of Service Name Table C of S Node Row Table C of S Trans Group Row Table Class of Service Tables View To access: Select Class of Service from the Icon Subviews menu.
APPN Views Class of Service Tables View C of S Node Row Table C of S Trans Group Row Table Clicking on the C of S Node Row Table button displays the Class of Service Node Row View described later in this section. Clicking on the C of S Trans Group Row Table button displays the Class of Service Transmission Group Row View described later in this section. Class of Service Mode View To access: Click on the Class of Service Mode button in the Class of Service Tables View.
APPN Views Class of Service Node Row View To access: Click on the C of S Node Row Table button in the Class of Service Tables View. This view contains all node-row information for all Class of Services defined for this node. At least one node row must be specified; the default Class of Service tables specify eight rows. The index for this table comprises two fields; NodeRowName and NdRowIndex. NodeRowName The administratively assigned Class of Service name up to eight characters in length.
APPN Views Class of Service Transmission Group Row View To access: Click on the C of S Trans Group Row Table button in the Class of Service Tables View. This view contains all the transmission group row information for all Class of Services defined for this node. The first two field comprise the index for this table; RowName and RowIndex. At least one row must be specified; the default tables specify eight rows.
APPN Views Class of Service Transmission Group Row View (Continued) MinSecurity MaxSecurity MinDelay APPN Application 9-44 The minimum acceptable security for this Class of Service: 1 NonSecure 32 PublicSwitchedNetwork 64 UndergroundCable 96 SecureConduit 128 GuardedConduit 160 Encrypted 192 GuardedRadiation The maximum acceptable security for this Class of Service: 1 NonSecure 32 PublicSwitchedNetwork 64 UndergroundCable 96 SecureConduit 128 GuardedConduit 160 Encrypted 192
APPN Views Class of Service Transmission Group Row View (Continued) MaxDelay The maximum acceptable propagation delay for this Class of Service in microseconds. The relative amount of time that it takes the signal to travel the length of the logical link. The most common values are represented as follows: 0 Minimum 384 Negligible 9216 Terrestrial 147456 Packet 294912 Long 2013265920 Maximum MinUsr1/2/3 The minimum acceptable value for this user-defined characteristic (0 through 255).
APPN Views Figure 9-4.
APPN Views Directory Performance View (Continued) Registered Entries The number of registered entries. Direct Locates Rxd The number of directed locates received. Bcast Locates Rxd The number of broadcast locates received. Direct Locates Txd The number of directed locates sent. Bcast Locates Txd The number of broadcast locates sent. Not Found Locates The number of directed locates returned with a “not found”. NotFnd BcastLocates The number of broadcast locates returned with a “not found”.
APPN Views Directory View To access: Click the Directory Table Information button in the Directory Performance View. The Directory View contains information about all known LUs (applications) and TPs. LU Name The fully-qualified network application name in the domain of the serving network node. Also the index for the table. ServerName The fully-qualified control point (CP) name of the network node server. For unassociated end node entries, the end node fully-qualified name is shown.
APPN Views Figure 9-5.
APPN Views APPN Local Topology Information View (Continued) General Information Information in this table applies whether the node is a network node or an end node. Local Node Name The administratively assigned fully-qualified name for this node in the format NETID.CPNAME. Local Node Type The type of APPN node; NetworkNode, EndNode or Len. Node-Specific Information This table only applies to network nodes. Resource Seq Num The Resource Sequence Number for this node.
APPN Views APPN Local Topology Information View (Continued) Chain Support Indicates whether the node supports chaining. Flow Reduc Seq Num A TDU can be associated with multiple APPN resources and FRSNs are associated with TDUs. This field shows the FRSN that indicates the last time this resource was updated at this node. (FRSNs are unique only within each APPN network node.) Local End Node Clicking on the Local End Node Info button displays the Local End Node View described later in this section.
APPN Views Local End Node View To access: Click on the Local End Node Info button in the APPN Local Topology Information View. This view only applies to network nodes and describes all the end nodes known to this network node. EndNodeName The administratively assigned fully-qualified name for this end node in the format NETID.CPNAME. TimeLeft The number of days left before this end node entry will be deleted (0 through 31). End Node Type The type of APPN node; EndNode or LEN.
APPN Views Local End Node Transmission Group Node View (Continued) TimeLeft The number of days remaining before this end node TG entry will be deleted. TgDstVirt Whether the destination node is a virtual node (Yes) or not. TgDlcData This field contains DLC specific data, related to the link connection network; TokenRing (MAC/SAP), X.25, X.21 or CircuitSwtch. TgOptnl Whether the transmission group is operational. TgCpCpSess Whether CP-CP sessions are supported on this TG.
APPN Views Local End Node Transmission Group Node View (Continued) TgDelay The amount of time, in microseconds, that it takes the signal to travel the length of the logical link. This is an administratively assigned value associated with this TG. The most common values are represented as follows: 0 Minimum 384 Negligible 9216 Terrestrial 147456 Packet 294912 Long 2013265920 Maximum ModemClass This field allows multiple images for a connection network.
APPN Views Local Transmission Group Topology (Continued) TgDstVirt Whether the destination node is a virtual node (Yes) or not. TgDlcData This field contains DLC specific data, related to the link connection network; TokenRing (MAC/SAP), X.25, X.21 or CircuitSwtch. TgRSN The current owning node’s RSN (Resource Sequence Number) for this resource. This is always an even unsigned number unless an error has occurred. TgQuiescing Whether the transmission group is quiescing (dormant).
APPN Views Local Transmission Group Topology (Continued) TgSecurity TgDelay The security is represented as an integer with a range of 1 through 255. This is an administratively assigned value associated with this TG.
APPN Session Views APPN Session Views There is one application-specific subview for the APPN Session application from the AppnSessApp Icon Subviews menu, the APPN Session Information View. This view contains five fields and four buttons that open further views. The APPN Session Information View is shown in Figure 9-6. Figure 9-6.
APPN Session Views APPN Session Information View To access: Global Status Global RSCV Options Select Configuration from the Icon Subviews menu. This opens the APPN Session Information View, which contains several fields and four buttons. These are described below. Indicates the current collection options in effect. Possible states are: notActive - collection of counters and some names are not active. active - collection of counters and some names is active.
APPN Session Views APPN Session Information View (Continued) ProCorrID The procedure correlation identifier (pcid) of a session. It is an 8-octet value assigned by the primary LU. PriLuName The primary LU name of the session. SecLuName The secondary LU name of the session. InModeName The Mode Name name used for this session. This is a 1-8 character name. COSName The Class of Service (COS) name used for this session. This is a 1-8 character name.
APPN Session Views APPN Session Information View (Continued) SsAdjCpName The secondary stage adjacent CP name of this session. SsAdjTgNum The secondary stage adjacent transmission group (TG) number associated with this session. InRouteInfo The route selection control vector (RSCV x’2B’) used for this session. It is present for APPN nodes; but is not present for LEN nodes. The format of this vector is described in SNA Formats.
APPN Session Views APPN Session Information View (Continued) S2PFmdBytes The number of FMD Bytes sent from the Secondary LU to the Primary LU. P2SNonFmdBytes The number of non-FMD Bytes sent from the Primary LU to the Secondary LU. S2PNonFmdBytes The number of non-FMD Bytes sent from the Secondary LU to the Primary LU. Send Information Clicking this button opens the APPN Session Tx View, which contains the Send Session Table and the fields described below.
APPN Session Views APPN Session Information View (Continued) SsSndNxWinSz Receive Information The secondary stage size of the next window which will be used to send data. Clicking on this button opens the Session Rx View, which contains the Receive Session Table and the fields described below. FqLuName The network-qualified CP name or PU name of the node at which the session and cid originated.
Chapter 10 ATM Client Application The ATM Client Application allows you to monitor virtual channel links and change channel statistics. This chapter describes the views and subviews available for the application. The ATM (Asynchronous Transfer Mode) Client Application provides detailed information about this ATM Client application’s virtual channels. ATM Client Application Views The ATM Client Application Virtual Channel Link view shows the Virtual Channel Link table.
ATM Client Application Views Table 10-1. ATM Client Application Views Icon Subviews Menu Choice View Accessed Information Provided ATMConfig AToM MIB For more information, refer to the SPMA guide for the device you are monitoring. ATM Lec Config ATM Administrator For more information, refer to the SPMA Modules Guide. VCL Table ATM Client Refer to Virtual Channel Link Application Virtual Table View, on page 10-4.
ATM Client Application Views Figure 10-1.
ATM Client Application Views Virtual Channel Link Table View You can update, sort, or search the table for specific information. Double-clicking a column entry accesses the interface-specific ATM Switch Application Virtual Channel Link view, in which you can modify some field values. To access: Select VCL Table from the Icon Subviews menu with the highlighted ATM_Client App icon. IF Index Displays the interface index for this Virtual Channel link.
ATM Client Application Views Virtual Channel Link Table View (Continued) 9032563 E1 Xmit Desc. Index The value of this field identifies the row of the ATM Traffic Descriptor Table that applies to the transmit traffic direction of this VCL. AAL Type An instance of this field only exists when the local VCL endpoint is also the VCC endpoint, and AAL (ATM Adaptation Layer) is in use. The field indicates the type of AAL used on this VCC, which includes AAL1, AAL3/4, and AAL5.
ATM Client Application Views Virtual Channel Link Table View (Continued) Row Status To create a new VCL, this field is initially set to “createAndWait” or “createAndGo.
Chapter 11 Fast Ethernet Application The Fast Ethernet application allows you to configure Fast Ethernet ports for high performance Fast Ethernet switching modules. This chapter describes the views and subviews available for the Fast Ethernet Application. You can use the Fast Ethernet application to determine if the Ethernet uplink between the device and a given port is 10Base or 100Base.
Fast Ethernet Application Views Figure 11-1. Fast Ethernet Port Table View Landscape of type FastEnetApp of Landscape Machine: Primary *File View Help? Fast Ethernet Port Table Sort Find Update Interface Port Group 7 25 1 1 Port 1 1 Operational Mode NoLink (Auto) 10Base-T (Auto) Fast Ethernet Port Table View You can update this table, and sort or search the table for specific port information. The SPMA Port Configuration window is accessed by double-clicking any table entry.
Fast Ethernet Application Views (Continued)Fast Ethernet Port Table View Operational Mode The current (Ethernet or Fast Ethernet) operational mode of this port. The mode values are listed below.
Fast Ethernet Application Views Fast Ethernet Application 11-4 Miscellaneous Applications
Index Numerics A (continued) 100Base-FX 11-3 100Base-FXFD 11-3 100BaseT4 11-3 100Base-TX 11-3 100Base-TXFD 11-3 10Base-T 11-3 10Base-TFD 11-3 APPN Views Local End Node Transmission Group Node View 9-52 Local End Node View 9-52 Local Transmission Group Topology 9-54 Memory & XID Information View 9-7 Network Node View 9-5 Node Link Station DLS View 9-21 Node Link Station IP View 9-20 Node Link Station Token Ring View 9-22 Node Link Station View 9-15 Node Port DLS View 9-12 Node Port IP View 9-12 Node Port
B D B8ZS 3-4 Bad Addresses 2-10 Bad Controls 2-10 Bad FCSs 2-10 Bandwidth 3-7 BitOriented 3-5 Burst 7-2 data 4-1 Data Bits 4-9 data circuit-terminating 4-1 Data Set Ready 4-3, 4-5 data terminal equipment 4-1 DCE 4-1 Deinsert 1-7 Detect 1-11 Digital Signal 1 3-1 Directed 1-11 Disable-a 1-9 Disable-b 1-9 Disable-m 1-9 Disconnect 1-9 DLSw Application 8-1 DLSw Views 8-1 Circuit Data Transfer View 8-12 Circuit Diagnostic View 8-9 DLS Participating Routers View 8-4 Information View 8-2 Local NetBOIS Filter Vie
F I Fast Ethernet application 11-1 Fast Ethernet Port Table view 11-1 Fast Ethernet switching modules 11-1 FastEnetApp 11-1 Fault Isolation and Recovery 1-1 FCS Size 2-6, 2-8 FDDI App 1-2 FDDI App Views 1-4 FDDI Application 1-1 FDDI Station List View 1-2, 1-3 FddiSMT 1-2 Fiber Data Distributed Interface 1-1 Format Errors 1-10 Fractional Table 3-6 Frame Check Errors 4-7 Frame Check Sequence 2-6, 2-8 Frame Copied 7-2 Frame Relay 5-1, 6-1 Application Views 6-1 Circuit Detail View 6-1 Frames Copied 1-10 Disca
M P MAC Cts 1-5 If Index 1-9 Index 1-9 Path 1-9 Table View 1-9 MAC/Canonical 1-3 Master Cts 1-6 Master Ports 1-3 Maximum Receive Unit (MRU) 2-8 modem signals 4-1 MsgOriented 3-5 MTU 5-4 Multicast 6-3, 6-6 multimode 1-1 Packet Too Longs 2-10 PAP 2-1 Parallel-printer-like MIB 4-1 Parity 4-9, 4-10 Errors 4-9, 4-10 Password Authentication Protocol 2-1 Path_Test 1-7 Path-Test 1-9 PayloadLoop 3-4 Peer Wrap 1-8 Physical Index 2-6, 2-8 Physical Port 5-4 Physical Ports 5-2 Point-to-Point Protocol (PPP) 2-1 Port I
R (continued) S (continued) Ring Scheduling 1-1 Ring Speed 7-4 Ring State 7-4 Ring Status 7-4 Ring Topology 1-3 Ring-Op 1-11 Ring-Op-Dup 1-11 RingRecovery 7-5 RobbedBit 3-5 RS232 Views Asynchronous Port Detail 4-10 Port Input Signals Table 4-4 Port Output Signals Table 4-5 Port Table 4-2 Port Table Configuration 4-3 Synchronous 4-6 Synchronous Port Table 4-6 RS-232 Applications.
U Up Stream Neighbor 7-4 Update 1-3 Upstream Neighbor 1-3 V VCL Table 10-2 Virtual Channel Link table 10-1 Virtual Channel Link view 10-1 virtual channel statistics 10-1 Virtual Circuit Address 6-6 Mode 6-3, 6-7 State 6-6 Type 6-3, 6-7 W WAN 5-1 Views 5-1 Connection Interface Table 5-4 Connection Physical Ports 5-3 Connection Table 5-1 WAN Connection 5-2, 5-4 Wide Area Network 5-1 Wrap_a 1-7 Wrap_ab 1-8 Wrap_b 1-7 Wrap_s 1-8 X X.25 5-1 Xmt.
