Motorola 68338 User Guide

Motorola 68338 - Vanguard 6430 Router Manual

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  • Motorola 68338 | User Guide - Page 1
    Motorola POWER STATUS SERVICE RESET Vanguard Applications Ware IP and LAN Feature Protocols Vanguard Router Basics
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    Notice ©1999 Motorola, Inc. 20 Cabot Boulevard Mansfield, Massachusetts 02048 (508) 261-4000 All rights reserved Printed in U.S.A. Restricted Rights Notification for U.S. Government Users The software (including firmware) addressed in this manual is provided to the U.S. Government under agreement
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    in this document is subject to the terms and conditions of the Motorola Software License Agreement. This document is for information purposes only and is First Printing: November 1998 Manual is current for Release 5.4 of Vanguard Applications Ware. To comment on this manual, please send e-mail to
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    Vanguard Router Basics Contents Chapter 1. Introduction to Vanguard IP and LAN Feature Protocols IP and LAN Protocol Support 1-2 Physical LAN Connectivity 1-3 LAN Forwarding Options 1-4 Network Layer - Routing 1-5 RFC ...1-7 Chapter 2. Vanguard Routing Model Functional Overview
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    Contents (continued) Chapter 4. LAN Connection Statistics Using LAN Connection Statistics 4-2 LAN Connection Statistics 4-3 LAN Connection Summary Statistics 4-8 RTP/UDP/IP Compression Statistics 4-9 LAN Connection Group Statistics 4-12 Index vi
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    IP and LAN Feature Protocols This chapter introduces the key features and protocols supported by the Vanguard IP Applications Ware. You will find a summary of the major Request for Comments (RFCs) supported by Vanguard IP Applications Ware. Introduction to Vanguard IP and LAN Feature Protocols
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    IP and LAN Protocol Support IP and LAN Protocol Support Introduction Motorola's Vanguard Applications Ware support a wide option of LAN and Internet Protocol functionality and options. Figure 1-1 lists some of the functionality supported by the Vanguard IP Applications Ware. Application Layer
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    protocols over the Wide Area Network (WAN) to remote destinations. Supported protocols include: • Novell Netware • DECnet • Banyan Vines over the Wide Area Network (WAN) to a remote destination. Some of the supported protocols include: • Novell NetWare • SDLC Cluster Controller • IBM PC LAN •
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    Vanguard can act as a: • Bridge • Router • Bridge Router (BRouter) Bridging Bridges work at the Data Link layer providing connectionless service. Vanguard products support bridging of data traffic for Token Ring and Ethernet LANs. Bridging LAN traffic minimizes your networking costs by eliminating
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    control for transporting data packets over a network. Motorola's implementation of IP Routing supports these protocol and features: • ARP (Address implementation of OSPF offers: • TOS routing - Packet routing based on Type of Service (TOS) • Variable Length Subnet Masks - Lets you break an IP address
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    products can serve as IPX routers to interconnect PC workstations with any Novell server in a LAN/WAN internetwork. Appletalk The Vanguard supports AppleTalk routing over Ethernet LANs. AppleTalk is a routable protocol that comprises several protocols developed by Apple Computer for intercomputer
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    RFC RFC Introduction The Vanguard IP Applications Ware adheres to global industry standards defined by IETF and IEEE. RFCs Supported by This table lists some of the RFCs supported by Vanguard IP Applications Ware. Vanguard RFC 768 791 792 793 826 877 919 922 950 951 1042 1058 Description User
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    Network Management Protocol (SNMP). J.D. Case, M. Fedor, M.L. Schoffstall, C. Davin. May-01-1990. Transmission Of IP Datagrams Over The SMDS Service. D.m. Piscitello, J. Lawrence. Mar-01-1991. Concise MIB Definitions. M.t. Rose, K. Mccloghrie. Mar-01-1991. Management Information Base For Network
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    RFC RFC 1534 1542 1631 1812 1918 2131 Description Interoperation Between DHCP and BOOTP. R. Droms. October 1993. Clarifications and Extensions for BOOTP. W. Wimer. October 1993 The Network Address Translation (NAT). K. Egevang, P. Francis. May 1994. Requirements for IP Version 4 Routers. F. Baker.
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    it means and why is it used. • LANview and WANview models • provide basics configuration examples The configuration examples provided in this manual highlight the important parameters that should be configured and do not detail all configurable parameters. In addition, these examples may not work
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    . LCONs uses X.25 based addressing to establish virtual circuits. The WAN Adaptor encapsulates IP traffic for transport over the WAN. The WAN Adaptor supports RFC 887, RFC 1294, RFC 1356, RFC 1490 multiprotocol encapsulation. WAN Port The Vanguard can connect to Frame Relay, X.25, MX25, ISDN, Sync
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    IP Forwarder IP Forwarder Introduction The IP Forwarder provides the Routing, Bridge, or Bridge-Routing function in the Vanguard. Note For more information on Bridge-Router functions refer to "Using Bridging Routers to Connect LANs and Networks" section on page 2-31. Virtual Circuits Defined by
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    network that the LAN routing functions see is superimposed on top of the actual virtual circuit network and physical network implemented by the Motorola access devices. WAN Adaptor Figure 2-2 shows how the WAN Adapter is used to provide a LAN overlay network. Interconnections PVC SVC X.25 Stack
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    WAN Adapter Flow Control Data passed from the LAN protocol stacks to the WAN Adapter may be queued inside the WAN module. This is due to the relatively low bandwidth of the WAN port(s) compared with a LAN port and to competition for that limited WAN port bandwidth with serial data access ports.
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    WAN Adapter LCON Encapsulation Introduction The WAN Adapter encapsulates protocol-specific information in the data packet that is needed at the remote end of the connection. The following encapsulation methods are used: • Codex Proprietary encapsulation • RFC 1294 Multiprotocol encapsulation •
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    type of the LAN forwarder, such as SR, STPE, and IP. The key Protocol IDs are: IP=00, IPX = 07, Motorola Codex SR=64, Motorola Codex STPE=65, and Motorola Codex TB=66. • Byte 2: Indicates other packet-specific information. This byte contains information that is copied from the Control field portion
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    is passed to the Routing forwarder. Note The Vanguard does not support the RFC1294 encapsulation of bridge data. If a WAN Adapter LAN encapsulation to a Bypass FR station is used for interoperability with non-Motorola routers. Figure 2-3. Packet Formats Codex Encapsulation Annex G Station Flag Q9
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    is derived via WAN packet size negotiation at the X.25 layer. Instead, the Vanguard Router supports a configurable MTU size as specified in RFC1356, described below. Otherwise, the Motorola version complies with all RFC877 requirements. Refer to the IP Interface Configuration Table menu for more
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    the same. The Vanguard Router complies with RFC1356 encapsulation over X.25 with the following exceptions: • While RFC1356 specifies multi-protocol support, only the IP protocol is supported. • The NLPID encapsulation of RFC1356 is supported; SNAP encapsulation is not. 2-10 Vanguard Routing Model
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    site a Vanguard connects with up to 254 branch sites over X.25. The encapsulation type should be Codex Proprietary due to the RFC limitation of supporting only a single call. The LCONs can be connected in any combination of Router Interfaces (On Demand or Permanent SVCs) and Bridge Links (Permanent
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    the Relay using RFC regional site is a Vanguard that needs to connect with up to 254 branch sites over 1490 Encapsulation Frame Relay. Frame Relay supports a 254 DLCI maximum per node and permanent SVCs only. These LCONs can be connected in any combination of router interfaces and bridge links as
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    WAN Port Types of WAN Virtual Circuits Configuring the WAN Port The Vanguard supports the following types of WAN virtual circuits: • Frame Relay DLCI ( WAN port, refer to the Vanguard Basic Configuration Manual (Part Number, T0113). Vanguard Routing Model T0100-01, Revision B 2-13 Release 5.4
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    WANView and LANView WANView and LANView Introduction The Vanguard provides two types of interconnection of LANs over a WAN, LANView and WANView. This section provides a brief description of each and example functional diagrams. WANView and The following table describes WANView and LANView.
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    WANView and LANView Node A 10.1.0.2 10.2.0.2 Node B 10.3.0.2 Node C WAN FRI Port 1 Node D Router Interfaces 10.1.0.1 FRI-1 S-1 FRI-1 S-2 FRI-1 S-3 LCON 1 A LCON 2 B C LCON 3 51 6 Router 7 Network 10.2.0.1 10.3.0.1 WAN Adapter Router Note: FRI = Frame Relay Interface S = Station Note
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    • better manageability - each WAN link has a unique IP subnetwork number When interoperating with non-Motorola routers it may not be possible to use WANView. For interoperability with non-Motorola routers use LANView. Example: WANView over Frame Relay Figure 2-8 illustrates an example of WANView
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    LANView of the WAN - Group LCONs LANView of the WAN - Group LCONs What is a LANView The LANView feature provides flexible configuration of all virtual circuits over the of the WAN? WAN port for either single or multiple IP interface addresses. The connection point of any IP forwarder to a
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    over SVCs/PVCs that are part of a LANView • Disabling of IP RIP or IPX RIP Split Horizon for LANView full mesh networks Support The LANView feature supports the following: • Frame Relay and X.25 networks • IP and IPX protocols • Existing point-to-point view configuration (one IP Network Address
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    . For example, in an X.25 network, one SVC can have encapsulation Type RFC877 while another is CODEX. Mixed SVCs/PVCs Each LAN Connection Group can support mixed types of SVCs, as allowed by the network type. You can mix permanent SVCs, On Demand SVCs, and Dial On Demand SVCs. You can
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    3-11. Configuration parameters are also described in the Vanguard Configuration Basics Manual. LANView configuration is similar to LAN Connection configuration. Entering the same that are part of LANView. • X.25 PVCs are not supported as part of a LAN Connection Group. 2-20 Vanguard Routing Model
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    LANView of the WAN - Group LCONs LANView Examples LANView over X.25 Figure 2-12 is a common application for LANView over X.25. At the HQ site is a router (Node D) that needs to connect to three other branch nodes (Nodes A to C). The solid line denotes a permanent SVC. The dotted lines denote On
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    LANView of the WAN - Group LCONs LANView for IPX over Frame Relay Figure 2-13 is a similar application to the one shown in Figure 2-12 for IPX. Node 10000000 has a LANView of the WAN. The WAN is really a logical LAN with an IPX network address of 12, where each router is a different node number on
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    LANView of the WAN - Group LCONs LANView over Frame Relay Figure 2-14 shows LANView in a Frame Relay Network. This is an example of full mesh connectivity between the branches. At both the headquarters and the branches, a single Router interface, with IP Network address 10.0.0.0 is used. Token
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    between the routers and other RFC877-compliant Cisco Backbone routers, connectivity between the routers uses the CODEX encapsulation. This demonstrates support for multiple encapsulations within the same LANView. Token Ring 56 Kbps Node A Token Ring Vanguard 10.0.0.1 Codex Prop. Node B 10
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    IP Header? packet delivery on top of IP. As it is best effort service, UDP does not guarantee reliable delivery. The Real Time Protocol (RTP) resides UDP/IP and provides fast delivery of real time traffic such as voice. Motorola's implementation of VoIP uses UDP/IP or RTP/UDP/IP protocols to
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    Bytes IP UDP RTP Packet Voice/Data IP UDP RTP Packet Voice/Data 2 to 4 Bytes Figure 2-17. RTP/UDP/IP Header Compression Motorola's Vanguard products support: • header compression by traffic type - RTP/UDP/IP, UDP/IP, or both • header compression on a link-by-link basis • header compression of
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    before transmission of the WAN link, it must Decompression be decompressed at the receiving end. Each Vanguard supporting header compression, has a compressor and decompressor function. Vanguard Compression Function Compressor Decompressor Vanguard Compression Function Decompressor Compressor
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    RTP/UDP/IP Header Compression How RTP/UDP/IP Compression and Decompression Occurs Introduction This section describes how the Vanguard RTP/UDP/IP compression and decompression occurs. Determining if the When the Vanguard receive a packet, the first step is to determine if the packet can Packet
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    RTP/UDP/IP Header Compression Compressing the If the Vanguard determines that the packet can be compressed, it compresses the RTP/UDP/IP Header packet's RTP/UDP/IP header as shown in Figure 2-19 and the table: Router A Router B 1st Packet Voice/Data RTP/UDP/IP Packet header 2nd Packet Voice
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    RTP/UDP/IP Header Compression 4-bit Sequence Number Each packet is numbered sequentially from 0 to 15. The decompressor on the receiving Vanguard uses the sequence number to determine if packets are received out of sequence or if there is packet loss. The decompressor recomputes the UDP checksum of
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    to the Bridging Manual (Part Number T0100 destination MAC address. Note that Vanguard support both bridging and routing within the choosing several network level services. How Vanguard Bridging Link address may be: • Addressed to the Motorola internetworking node itself (case 1) • Addressed to some
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    described. • An additional copy of the packet is given to the routing forwarder for processing. Although bridging and routing for the same protocol is supported within the same Vanguard node, there is a basic limitation that these functions cannot occur for end stations both using the same LANs. If
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    Using Bridging Routers to Connect LANs and Networks Using Bridge and Figure 2-20 shows an example of a network where filtering is used. Router Filters Router Router S5 S1 Router N1 Bridge, Router LAN 1 N2 Bridge, Router LAN 2 N3 Bridge, Router LAN 3 N4 Bridge, Router LAN 4 S2 S3 S4
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    address from response to the router discovery frame. If the sender forwards the packet to a host, depending on the type of Transport layer service the host uses, the host transmits an acknowledgment to the sender. How Addressing Schemes Affect MAC Bridging and IP Routing The following table
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    Chapter 3 Configuring a Vanguard Router Introduction This section highlights the basic configuration parameters that are required to configure the Vanguard device to carry LAN traffic over a WAN as shown in Figure 3-1. LAN LAN Port Ethernet Token Ring WAN Port Frame Relay X.25 MX25 ISDN PPP
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    configure other WAN records or parameters. Refer to the specific feature or protocol manual for more information on configuring parameters for the WAN port. 3 Configure the Configure the Mnemonic Table Configure -> Configure Network Services -> Mnemonic Table 7 Configure the Route Selection
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    parameter to BRID or BROUT. This parameter is configurable under Configure -> LAN Connection Table. Configure these additional parameters or table records to support Apple Talk routing over the Ethernet LAN: • Apple Talk Parameter • Zone Seed Table • Apple Talk Interface Note Apple Talk can only be
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    Configuration IPX IP Routing Configure these additional parameter or table records to support IPX routing over a Novell network: • IPX Parameters • IPX Interfaces Configure features available for IP Routing refer to the IP Routing Manual (Part Number T0100-03). 3-4 Configuring a Vanguard Router
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    Node Name: Node 200 Node Address: 200 Port Number: 1 Port Type: FRI Connection Type: SIMP Clock Source:EXT Highest Station Number: 1 Control Protocol Support:LMI Port Number: 1 Station Number: 1 Station Type: Annex G DLCI: 16 Port Number: 5 Port Type: ETH Node Name: Node 300 Node Address: 300 Port
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    33.6.10 Entry Number: 2 Interface: 5 IP Address: 10.33.1.1 Entry Number: 2 Interface: 6 IP Address: 10.33.2.1 Configure --> Configure Network Services --> Route Selection Table Entry Number:1 Address: 10094 Destination: LCON Maximum Number of LAN Connections: 32 (Default) Maximum Number of LAN
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    Configuration Example LAN View Configuration - Group LCONs Introduction This example highlights how to configure a Vanguard Router to carry LAN traffic over a WAN using LANView. Group LCON will be used. Example Configuration Parameters and Tables Figure 3-3 below illustrates the functional
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    Port Type: FRI Connection Type: SIMP Clock Source:EXT Highest Station Number: 2 Control Protocol Support:LMI Port Number: 1 Station Number: 1 Station Type: Annex G DLCI: 16 Station Number the Mnemonic Table Configure --> Configure Network Service --> Configure Mnemonic Table Configure the Router
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    Configure LAN Connections Configure LAN Connections Introduction The Configure LAN Connection menu provides access to the LAN Connection Table and LAN Connection Parameters records. Figure 3-4 shows the Configure LAN Connection Menu. Node: Address: Menu: Configure LAN Connections LAN
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    be both Router Interfaces and Bridge links. Note that since four Bridge links are assigned for LAN Bridge links, the number of WAN Bridge Links supported is 250. What You See in This Record Figure 3-5 shows the LAN Connection Parameters menu. Node: Address: Menu: Configure LAN Connections 1. LAN
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    Configure LAN Connections Configuring LAN Connection Table What You See in This Record Figure 3-6 shows the LAN Connection Table Record. Node: Address: Date: Menu: Configure LAN Connections LAN Connection Parameters LAN Connection Table Time: Path: Entry Number LAN Forwarder Type Bridge
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    Configure LAN Connections Configuration Guidelines Configuration Matrix When you configure the LAN Connection Table Record, use the following guidelines: • The Bridge Link Number must reference a configured Bridge Link. • If an Autocall Mnemonic is specified, then the entry must exist in the
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    Configure LAN Connections LANView Configuration Matrix (continued) Parameter Displayed For ROUT LAN Forwarder Type Autocall Mnemonic 0 to 8 alphanumeric Must be configured if Encapsulation Type of RFC877 Autocall Timeout 5 to 255 seconds For BRID LAN Forwarder Type 0 to 8 alphanumeric 5 to
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    Configure LAN Connections LANView Configuration Matrix (continued) Parameter Displayed For ROUT LAN Forwarder Type For BRID LAN Forwarder Type On Demand ENABLED, DISABLED X For BROUT LAN Forwarder Type X Appears if Autocall Mnemonic configured and Encapsulation Type is CODEX Idle Timeout 0
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    Configure LAN Connections LANView Configuration Matrix (continued) Parameter Displayed For ROUT LAN Forwarder Type IP Precedence for Voice Traffic 0 to 7 Appears if Traffic Priority is configured as LOW-ANDPROTOCOL, MEDAND-PROTOCOL, HIGH-ANDPROTOCOL, or EXPAND-PROTOCOL For BRID LAN Forwarder
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    Configure LAN Connections LAN Connection Table Record Parameters Introduction This section describes the LAN Connection Record parameters. Any parameter with an asterisk (*) requires a Node boot; changes to other parameters require a Table Record boot. Parameters From the LAN Connection Table
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    range of values reflects the maximum number of bridge links set in the Bridge Parameters Menu. For more information, refer to the Bridging Manual (Part Number T0100-04). Guidelines: Appears only with the LAN Forwarder Type = BRID or BROUT. Boot Type: Changes to this parameter require a Table
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    (if LAN Forwarder Type = BROUT) Default: CODEX Description: Specifies the type of encapsulation used over this LAN connection. Encapsulation types supported include: • CODEX: Codex Proprietary Encapsulation • RFC 877/1356: RFC 877/1356 X.25 protocol encapsulation for IP • RFC 1294/1490: RFC
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    Configure LAN Connections Next Hop IP Address Range: A valid IP address in dotted decimal notation Default: 0.0.0.0 Description: Specifies the IP address of the Router Interface on the other end of this LAN Connection, which is the next hop on the path to the final destination. This LAN
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    Configure LAN Connections Autocall Mnemonic Range: 0 to 8 alphanumeric characters Default: If (blank), this means autocalling is not initiated by this LAN connection entry; the LAN Connection Table entry at the remote device must initiate the call. Description: Used when this LAN Connection
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    compared to the configured thresholds to determine when to activate or deactivate a second link. Guidelines: If using the PORT_CONGEST value, you must configure the Network Services BoD Table parameters. Configuring a Vanguard Router T0100-01, Revision B 3-21 Release 5.4
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    over port 8: a) Enter the string X25-8. The other form is a Switched Services Table destination name. For example, if the port that the Parallel SVCs come Enter the string "New York". b) In the corresponding entry in the Switched Services Table, map "New York" to any port string, for example, X25-8.
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    CODEX. On when Encapsulation Type = RFC 877. Specifies whether a circuit is established at system startup, or upon receiving data to pass. On Demand SVCs can support IP, IPX, and Asynchronous traffic over X.25 by becoming active when there is data to send and deactivating once all data has been sent
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    Configure LAN Connections LCON Queue Limit Range: 0 to 65536 Default: 16000 Description: The LCON Queue Limit parameter specifies the maximum number of bytes that are queued for this LAN before transmission on the WAN link. Set this parameter for two seconds of data on the WAN link. Billing
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    by a comma (,) as shown: 1, 2 or 1 , 2 , 3 These profiles correspond to the entry numbers of the Protocol Priority Profile table configured under Configure Network Services. The order in which the profiles are specified indicates the order of priority among the profiles. These profiles are used for
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    Priority 2 - Immediate 3 - Flash 4 - Flash Override 5- Critical/ECP 6 - Internetwork Control 7 - Network Control Description Specifies the IP Precedence for provided FAST PATH service for voice packets. Enter a non-zero value to enable. If the voice module in the Vanguard has already classified an
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    Configure LAN Connections Compression Type Default RTP Range RTP, UDP, RTP+UDP Description Specifies the compression type: • RTP - This option compresses RTP/UPD/IP packet headers only. The Vanguard only tries to compress packets with even number UDP ports and UDP header packet size greater
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    RTP/UDP/IP Header Compression DEBUG parameters. Unless you are a thoroughly experienced network professional, operating in the DEBUG Mode is not recommended. Please contact your Motorola Service Representative for additional information. 3-28 Configuring a Vanguard Router
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    Overview Introduction Chapter 4 LAN Connection Statistics This chapter describes how to monitor the performance and operation of the Vanguard using LAN Connection statistics. LAN Connection Statistics 4-1
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    Using LAN Connection Statistics Using LAN Connection Statistics Function The LAN Connection Statistics menu s provides options for viewing various LAN Connection statistics. What You See in This Screen Figure 4-1 shows the LAN Connection Statistics menu. Select the appropriate number to view a
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    Using LAN Connection Statistics LAN Connection Statistics Function When you select LAN Connection Statistics, the Detailed LAN Connection Statistics screen provides three pages of detailed information about all current LAN Connections and LAN Connection Groups. What You See in This Screen An
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    Using LAN Connection Statistics Node: Address: Date: Detailed LAN Connection Statistics: LCON-1 Time: Page: 3 of 3 Outbound TX Pck Avg TX TX Bytes RX Pck Avg RX Channel Count Pck Size Outstanding Count Pck Size FRI-3S1(1) 9 18 1 6 31 X25-4 (1) 100 64 2000 150 56
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    Using LAN Connection Statistics Screen Terms The Detailed LAN Connection Statistics screen provides the following information: Term Call Summary Indicates... This field provides information about the following: • Connection Type: Specifies whether the connection is point-topoint (PT_to_PT) or
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    Using LAN Connection Statistics Term Indicates... Packet Summary • Data: Summary of each packet sent on the WAN and received from the WAN bridge link. • Call Request: Specifies the total number of Call Request Packets sent on the WAN and received from the WAN. • Call Accept: Specifies the total
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    Using LAN Connection Statistics Term Tx Bytes Outstanding Rx Pck Count Avg Rx Pck Size Indicates... Total number of transmit bytes outstanding. Number of packets received. Average receive packet size. LAN Connection Statistics T0100-01, Revision B 4-7 Release 5.4
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    Using LAN Connection Statistics LAN Connection Summary Statistics Function The LAN Connection Summary Statistics screen provides an overall picture of the LANView indicating which connections are currently active. What You See in This Screen Figure 4-5 shows an example of the LAN Connection
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    Using LAN Connection Statistics RTP/UDP/IP Compression Statistics Function The RTP/UDP/IP Compression statistics provide detailed information on compression applied to packets received or transmitted on a particular LCON. When you access the RTP/UDP/IP Compression statistics menu you will be
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    Using LAN Connection Statistics Node: Address: RTP/UDP/IP Compression Statistics Context Entries Type SourceIPAddr Transmit 217.1.84.1 Transmit 84.1.34.2 Receive 3.3.3.3 DestIPAddr 2.2.2.2 3.3.3.3 5.5.5.5 Date: ScrUDPPort 5005 5006 6006 Time: Page: 2 of 2 DestUDPPort 5005 6005 6000 SSRC 1 1
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    Using LAN Connection Statistics Term Negative Cache Entries UDP Checksum Errors detected by receiver Synchronization Lost packets received Synchronization Lost packets transmitted Indicates... Number of negative cache entries. Number of UDP checksum errors detected by the receiver (decompressor).
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    Using LAN Connection Statistics LAN Connection Group Statistics Function When you select LAN Connection Group Statistics, the Vanguard CTP menu prompts for: • A Router Interface number corresponding to the LAN Connection Group • Which Group to display, if multiple Groups exist on this Router
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    Using LAN Connection Statistics Screen Terms The LAN Connection Group Statistics screen contains the following information: Term LAN Connection Next Hop Address Remote Destination Parallel SVCs Indicates... The activity state of LAN Connections. This can be Idle, Connected, or Calling. An IP
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    LCON 2-14 Grouping LAN Connections 2-19 MTU Size 2-19 I Interfaces Ethernet 1-3 Token Ring 1-3 IP Applications Ware protocol supported 1-2 IP Forwarder 2-2, 2-3 IP routing features supported 1-5 IPX 1-6 L LAN connection using LCON 3-12 LAN Connection Group 2-17, 2-19 Booting 2-20 Mixed SVCs/PVCs
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    Proprietary Encapsulation 2-7 Flow control 2-5 RFC 1294 Multiprotocol Encapsulation 2-8 WAN adaptor Call disconnection 2-5 WAN Port 2-2, 2-13 port types supported 2-13 WANView 2-14 comparison with LANView 2-14 configuration example 3-5 configuration tips 3-6 WANview Internal Data Connections 2-15
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Motorola
Vanguard Applications Ware
IP and LAN Feature Protocols
Vanguard Router Basics
POWER
STATUS
SERVICE
RESET