Motorola 68390 - Vanguard 320 Router, Vanguard 320 User Manual

Motorola Vanguard

Device Management

Supports Management Module SM-MOT1000

Titlepae

Device Management Page 2 Motorola Vanguard

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Device Management Page 3 Motorola Vanguard

Contents

INTRODUCTION 7

Purpose and Scope ........................................................7

Required Reading...........................................................7

Supported Devices..........................................................8

The SPECTRUM Model..................................................9

DEVICE VIEWS 10

Interface Device View ...................................................10

Interface Icons...........................................................11

Interface Icon Subviews Menu Options..............12

Interface Status View.................................................13

Secondary Address Panel.........................................13

Port Icons ..................................................................13

Port Labels.............................................................14

Port Label Icon Subviews Menu.........................14

APPLICATION VIEWS 15

Supported Applications.................................................16

Common Applications................................................16

Device-Specific Applications .....................................16

Motorola Bandwidth Management Applications

(MotBWMgmtApps)............................................17

Data Compression General Statistics View...........17

Queue Statistics View............................................18

DC Controls View...................................................19

Data Compression Channel Statistics View...........19

Encoder Queue Statistics View .............................21

Decoder Queue Statistics View.............................22

Motorola Configuration Applications

(MotConfigApps) ................................................22

CSIS Software Key and NUI Password

Tables View....................................................23

Software Key Table............................................23

NUI Password Table ..........................................23

Authorization Tables View.....................................23

Software Authorization Table.............................23

Port Authorization Table.....................................24

NS Channel Information View................................24

Channel Configuration........................................24

Channel Statistics...............................................25

Switched Service Configuration Table View..........25

Call ID Statistics.................................................28

Backup Port Statistics Table View.........................28

Port Statistics Table View......................................29

Monitored Port....................................................29

Calling ID ............................................................30

TFTP Statistics View..............................................30

TFTP Download .................................................30

Last TFTP Transfer Status.................................31

SVC Calls Table View............................................31

PVC Setup Configuration Table View....................32

Route Selection Configuration Table View ............32

LAN Connection Configuration Table View ...........33

Contents Contents

Device Management Page 4 Motorola Vanguard

Data Summary Statistics View...............................36

Call Information......................................................37

Packet Information.................................................38

Adaptor Control Table View...................................39

Motorola LAN Applications (MotLANApps)................40

Bridge Statistics View ............................................40

Port Stats............................................................40

Link Stats............................................................41

Base Port Stats Table ........................................41

Transparent Bridge Link Stats Table View.............42

Transparent Bridge Port Stats Table View.............44

Spanning Tree Bridge Link Stats Table View ........45

SRB Port Statistics Table View..............................46

SRB WAN Bridge Link Stats View.........................46

MAC Address & Protocol Filtering

Stats Table View.............................................48

WAN Bridge Link Stats Table View........................49

Local Termination Stats Table View ......................49

ARP Cache Table View .........................................50

IP Access Control Table View................................51

IP Interface Table View..........................................52

Advertise Routes....................................................54

Bridge Configuration Information View ..................54

Base Port Info.....................................................55

STP Port Info......................................................55

Base Port Configurables ....................................55

Local Termination Table View................................57

Filtering Information View ......................................58

MAC Address Filter Table ..................................58

Protocol Filter Table ...........................................59

WAN Bridge Link Info View................................... 59

Address Table Parameters View........................... 60

802.1d Static Link Table View............................... 61

SRB WAN Bridge Link Table View........................ 62

Static Routes Info View......................................... 62

Static Route Table ............................................. 62

Dynamic Route Table........................................ 63

RIP Information.................................................. 63

IP Interchange Table View.................................... 64

Output Table...................................................... 64

Input Table......................................................... 65

Filter/Gateway/Priority Info View........................... 65

Traffic Info.......................................................... 66

Filter Table......................................................... 66

Default Gateway Table...................................... 66

IP BOOTP Server Info View.................................. 67

Motorola Node Management Application

(MotNodeMgmtApp) .......................................... 67

SNMP Agent Details View..................................... 67

Node Configuration View....................................... 68

General Node Information ................................. 68

Thresholds......................................................... 70

Alarms................................................................ 70

Billing................................................................. 71

Traffic................................................................. 71

Codex Proprietary Information........................... 72

Node Statistics View.............................................. 72

Last Occurrences............................................... 73

PVC Connections .............................................. 73

Reset Buttons.................................................... 73

Contents Contents

Device Management Page 5 Motorola Vanguard

Board Statistics View.............................................74

Port Statistics View................................................75

Board Table View...................................................76

Voice Application (MotVoiceApp)..............................77

Voice Port Configuration Table View.....................77

Voice Switch Configuration Table View.................90

Port Statistics Table View......................................92

Motorola WAN Applications (MotWANApps).............96

Virtual Port Mapping Table ....................................96

X.25 Configuration Table View ..............................98

PDN Information View..........................................101

Call Statistics View...............................................103

Packet/Frame Statistics View ..............................104

Channel Statistics View .......................................105

Logical Channel Statistics................................105

Timer Statistics.................................................105

X.25 Statistics Table View ...................................106

ISDN Call Statistics Table View...........................107

Data Statistics View.............................................108

Char Info...........................................................109

Packet Info .......................................................109

Frame Info........................................................110

Translation Configuration Table View..................110

Inbound ............................................................110

Outbound..........................................................111

Address ............................................................111

Motorola Vanguard Frame Relay Applications

(MotFRDTEApp and MotFRDCEApp)..............111

Frame Relay DTE Application..............................111

Port Configuration ............................................111

Port Statistics................................................... 112

Station Configuration ....................................... 112

Station Statistics.............................................. 112

Model Information............................................ 112

Frame Relay DCE Application............................. 112

Port Configuration Table.................................. 112

Port Statistics Table......................................... 112

Station Configuration Table ............................. 112

Station Statistics Table.................................... 113

Model Information............................................ 113

CONFIGURATION VIEWS 114

Device Configuration View ......................................... 114

Interface Configuration View ...................................... 115

TRAPS, EVENTS, AND ALARMS 116

Standard Trap Support............................................... 116

Vanguard 300/320 Trap Support................................ 116

Vanguard 6400 and 6500 Trap Support..................... 118

ADVANCED APPLICATION INTEGRATIONS 119

Motorola Vanguard Frame Relay Integration............. 119

Motorola Vanguard Frame Relay

DTE DLCI Port Model...................................... 120

Information .......................................................... 120

Port Performance................................................ 120

Port Configuration ............................................... 121

Port Threshold..................................................... 121

Service Information ............................................. 121

Contents Contents

Device Management Page 6 Motorola Vanguard

Port Statistics.......................................................121

Motorola Vanguard Frame Relay DCE

DLCI Port Model...............................................121

Information...........................................................122

Port Configuration................................................122

Port Threshold .....................................................122

Service Information..............................................122

Port Statistics.......................................................122

INDEX 123

Device Management Page 7 Motorola Vanguard

Introduction

This section introduces the SPECTRUM Device Management documentation for Motorola Vanguard devices.

This introduction to the Device Management
documentation for Motorola Vanguard devices
contains the following information:

• Purpose and Scope (Page 7)

• Required Reading (Page 7)

• Supported Devices (Page 8)

• The SPECTRUM Model (Page 9)

Purpose and Scope

Use this documentation as a guide for managing
Motorola Vanguard devices with the SPECTRUM
management module SM-MOT1000. The
documentation describes the icons, menus, and
views that enable you to remotely monitor,
configure, and troubleshoot Motorola Vanguard
devices through software models in your
SPECTRUM database.

Only information specific to the supported
management module is included under this
documentation topic. For general information

about device management using SPECTRUM and
for explanations of basic SPECTRUM functionality
and navigation techniques, refer to the topics
listed under Required Reading (Page 7).

Required Reading

To use this documentation effectively, you must
be familiar with the information covered by the
other SPECTRUM online documentation topics
listed below.

• Getting Started with SPECTRUM for

Operators

• Getting Started with SPECTRUM for
Administrators

• How To Manage Your Network with
SPECTRUM

• SPECTRUM Views

• SPECTRUM Menus

• SPECTRUM Icons

• SPECTRUM Software Release Notice

Introduction Supported Devices

Device Management Page 8 Motorola Vanguard

Supported Devices

The SPECTRUM management module SM­MOT1000 currently lets you model the Motorola
Vanguard devices described below.

Vanguard 6435 Multiservice Access Router.

A compact, desktop router with an Ethernet
interface and three expansion slots. Two
slots can be used for Enhanced Daughter
Cards for high bandwidth applications.

Vanguard 6455 Multiservice Access Router.

A desktop or rack-mountable router with an
Ethernet interface and five expansion slots.
Two slots can be used for Enhanced Daugh­ter Cards for high bandwidth applications.

Motorola Vanguard 6520 Multimedia
Periphery Router (MPRouter). A WAN

access product optimized for branch offices
that require consolidation of legacy traffic
with LAN traffic over dedicated or switched
X.25, Frame Relay, point-to-point, multipoint,
and ISDN circuits.

Motorola Vanguard 6560 MPRouter PRO.

This device extends the 6520 MPRouter capa­bilities for large branch offices with higher
throughput needs, offering voice relay
options for analog and digital voice applica­tions as well as all the features and options
of the 6520.

Motorola Vanguard 300/320. A network
access device that allows Ethernet LANs and
a combination of terminals, PCs, worksta­tions, and controllers to access public or pri­vate network services such as ISDN, Frame
Relay, and X.25. The Vanguard 320 is the new
and improved, next generation of the Van­guard 300 and is fully compatible with the
Vanguard 300.

Note:

Note:

Support for the Vanguard 6400 series
of devices does not include complete
proprietary MIB support as of
SPECTRUM 6.6 SP4.

Introduction The SPECTRUM Model

Device Management Page 9 Motorola Vanguard

The SPECTRUM Model

SPECTRUM uses a single device model type,
MotMPRouter, for modeling any of the supported
Motorola Vanguard devices. MotMPRouter models
are represented in SpectroGRAPH views by Device
icons. As Figure 1 shows, the appearance of the
Device icon varies slightly depending on the kind
of view it appears in.

Figure 1: Small and Large Device Icons

The device-specific Icon Subviews menu options
available from the Device icon are listed below.

The rest of this document covering management
module SM-MOT1000 is organized as follows:

• Device Views (Page 10)

• Application Views (Page 15)

• Configuration Views (Page 114)

Large Device icon

Model Name

Model Name

Vanguard6455

Small Device icon appears in
Topology, Device Topology,

appears in Device Topology,

Location, and
Interface Device views.

Application, and Container views.

Vanguard6455

Option Accesses the...

Fault
Management

Fault Management view, which is
described in the How to Manage Your

Network with SPECTRUM

documentation.

Device Device Views (Page 10)

Application Application Views (Page 15)

Configuration Configuration Views (Page 114)

Primary
Application

Menu options that let you select either
Gen Bridge App or MIB-II as the primary
application.

Device Management Page 10 Motorola Vanguard

Device Views

This section describes the Device views and subviews available for models of Motorola Vanguard devices in
SPECTRUM.

Device views use icons and labels to represent the
modeled device and its components, such as
modules, ports, and applications. There are two
types of Device views for MotMPRouter models.

• Interface Device View (Page 10)

• Port Icons (Page 13)

Interface Device View

Access: From the Icon Subviews menu for the

MotMPRouter Device icon, select Device > Interface.

This view provides dynamic configuration and
performance information for each of the device’s
serial/network I/O ports, which are represented
by Interface icons in the bottom panel of the view,
as shown in Figure 2. The middle panel of the
view also displays a Device icon, which allows you
to monitor device operation and access other
device-specific views.

Figure 2: Interface Device View

Device Views Interface Device View

Device Management Page 11 Motorola Vanguard

Interface Icons

Figure 3 shows a close-up of an Interface icon

from an Interface Device view. Most of the
informational labels on the icon also provide
double-click access to other views, as explained in
the following label descriptions.

Figure 3: Interface Icon

Interface Number Label

This label displays the interface number.

IF Status Label

This label displays the current Operational Status
of the interface (see Table 1). Note that the
background color of the label also depends on the
interface’s current Administrative Status, which
is set by the user (see Interface Status View on
Page 13). This view can be accessed by double­clicking this label.

Interface Type Label

This label identifies the type of interface—e.g.,
Ethernet, FDDI, Other, etc. Double-click this label
to access the Secondary Address Panel (Page 13).

ISO88023

Motorola 65

1

ON

0:0:30:68:6F:1B

0:0:0:0

a Interface Num b er Lab e l
b IF Status Label
c Interface Type Label
d Network Type Label
e Physical Address Label
f IP Address Label

(a)

(b)

(c)
(d)
(e)

(f)

Table 1: Interface Status Label Colors

Color

Operational

Status

Administrative

Status

Label

Text

Green ON ON ON

Blue OFF OFF OFF

Yellow OFF ON OFF

Red Testing Test TST

Device Views Interface Device View

Device Management Page 12 Motorola Vanguard

Network Type Label

This label identifies the type of network to which
the interface is connected. Double-click this label
to open the Model Information view for the
interface.

Physical Address Label

This label displays the physical (MAC) address of
the interface. Double-click the label to open the
Interface Address Translation table, which cross­references network addresses (IP addresses) to
physical (MAC) addresses for selected nodes
between networks. Double-clicking on any
column entry opens an address-specific Address
Translation Table Information view. This view
provides the same information as the
corresponding row for the IF Address Translation
table, but allows you to modify field values.

IP Address Label

This label displays the IP address for the
interface. Double-click this label to open the

Secondary Address Panel (Page 13), which allows

you to change the address and mask for this
interface.

Interface Icon Subviews Menu Options

Table 2 lists the Icon Subviews menu options

available for the Interface icon.

Table 2: Interface Icon Subviews Menu

Option Opens the . . .

Detail Interface Detail view, which displays

Packet, Error, and Discard
Breakdown pie charts.

IF Status Interface Status View (Page 13).

IF Configuration Interface Configuration View

(Page 115).

Model Information Associated Model Information views

for the selected interface.

IF Address
Translation Table

Interface Address Translation Table
view, which shows the Physical and
Network address for each interface.

Secondary Address
Panel

Secondary Address Panel (Page 13).

Thresholds Interface Threshold view, which allows

you to set the on/off alarm thresholds
for load, packet rate, error rate, and %
discarded.

Device Views Interface Device View

Device Management Page 13 Motorola Vanguard

Interface Status View

Access: From the Icon Subviews menu for the Interface

icon in the Interface Device view, select IF Status.

This view provides information on the operational
status of the interface and allows you to enable or
disable the port.

Operational Status

The current state of the interface. Valid values
are: On, Off, or Testing.

Administrative Status

This button allows you to select the desired
operational state of the interface. Valid values are:
On, Off, or Testing.

Secondary Address Panel

Access: From the Icon Subviews menu for the Interface

icon in the Interface Device view, select Secondary
Address Panel.

This panel provides a table of IP addresses and
masks obtained from the Address Translation
table within the device’s firmware. You can
change the current address displayed in the IP
Address field by selecting an entry from the table
in this panel and clicking the Update button.

P o rt Icons

Figure 4 shows a close-up of a Port icon from a

Chassis Device view.

Figure 4: Port Icon

Port Labels

Port Number

0

6

Up

Port Status

Port Statistics

Device Views Interface Device View

Device Management Page 14 Motorola Vanguard

Port Labels

As shown in Figure 4, each selectable port label is
comprised of three smaller labels as described
below. Clicking on any of these labels highlights
the whole port label so that you can access the
port-specific Icon Subviews menu options listed
in Table 3.

• Por t Nu mb er - Identifies a particular port.
Double-click this label to open a Port Notes
view that allows you make, revise, save,
retrieve, and mail annotations about the port.

• Port Status - Displays the current operating
status of the port and the corresponding color
for that status (green if the port is up, red if
the port is down or in test mode). Double-click
this label to open the Traps, Events, and

Alarms (Page 116).

• Port Statistics - Displays the number of
frames (packets) transmitted or received by
this port since the last reset. Double-click this
label to open the Port Performance View.

Port Label Icon Subviews Menu

Table 3 lists the Icon Subviews menu options for

the Port icon.

Table 3: Port Label Icon Subviews Menu

Option Opens the . . .

Port Notes Notes view, which allows you to make,

revise, save, retrieve, and mail
annotations about the selected port.

Port Configuration Traps, Events, and Alarms (Page 116),

which provides more detailed
configuration information about the
selected port.

Port Performance Provides statistical information about

packet traffic through the selected port.

Device Management Page 15 Motorola Vanguard

Application Views

This section describes the main Application view and the associated application-specific subviews available for
models of Motorola Vanguard devices in SPECTRUM.

Access: From the Icon Subviews menu for the Device

icon, select Application.

When a device model is created, SPECTRUM
automatically creates models for each of the
major and minor applications supported by the
device. The main Application view identifies all of
these application models, shows their current
condition status, and provides access to
application-specific subviews. Figure 5 shows this
view in the Icon mode. If you prefer the List mode,
which displays applications as text labels, select
View > Mode > List.

For more information on this view, refer to the
MIBs and the Application View documentation.

Figure 5: Application View

Application Views Supported Applications

Device Management Page 16 Motorola Vanguard

Supported Applications

SPECTRUM’s applications can be grouped within
two general categories as follows:

• Applications associated with non proprietary
MIBs. See Common Applications (Page 16)
below.

• Applications associated with device-specific
MIBs. See Device-Specific Applications
(Page 16).

Common Applications

In general, common applications represent the
non-proprietary MIBs supported by SPECTRUM.
The SPECTRUM common applications documents
are listed below.

• Routing Applications

• Bridging Applications

• Transmission Applications

• MIB II Applications

• Technology Applications

Device-Specific Applications

SPECTRUM imports the following device-level
proprietary MIBs into its database:

• BCST-OPT-MIB

• BRIDGE-OPT-MIB

• CDX-6500-COMMON-MIB

• DC-OPT-MIB

• DCP-OPT-MIB

• DSD-OPT-MIB

• FRDCE-OPT-MIB

• FRDCTE-OPT-MIB

• ISDN-OPT-MIB

• MX25-OPT-MIB

• NS-OPT-MIB

• ROUTER-OPT-MIB

• SS-OPT-MIB

• T1E1-OPT-MIB

• TBOP-OPT-MIB

• TFTP-OPT-MIB

• WAN-OPT-MIB

• X25_OPT-MIB

These MIBs can be used in conjunction with
SPECTRUM’s optional customization products
(referred to as the Level I Tool Kits) to create views
that display the condition of selected MIB objects.

Note:

Note:

These documents are available for
viewing at:

www.aprisma.com/manuals/

Application Views Supported Applications

Device Management Page 17 Motorola Vanguard

The views and subviews available for Motorola
Vanguard device-specific applications are
described in the rest of this section, grouped by
major application as listed below:

• Motorola Bandwidth Management Applications

(MotBWMgmtApps) (Page 17)

• Motorola Configuration Applications

(MotConfigApps) (Page 22)

• Motorola LAN Applications (MotLANApps)
(Page 40)

• Motorola Node Management Application

(MotNodeMgmtApp) (Page 67)

• Voice Application (MotVoiceApp) (Page 77)

• Motorola WAN Applications (MotWANApps)
(Page 96)

• Motorola Vanguard Frame Relay Applications

(MotFRDTEApp and MotFRDCEApp) (Page 111)

Motorola Bandwidth Management
Applications (MotBWMgmtApps)

This major application (model type
MotBWMgmtApps) has a single minor application:
the Motorola Data Compression Application
(model typeMotDCApp). The Icon Subviews menu
for this application provides access to the
following application-specific subviews:

• Data Compression General Statistics View
(Page 17)

• Data Compression Channel Statistics View
(Page 19)

Data Compression General Statistics
View

Access: From the Icon Subviews menu for the

MotBWMgmtApp Application icon, select General

Statistics.

This view provides descriptive information about
the data compression (DC) module installed in the
modeled device’s motherboard and general
statistical information applicable to all DC
channels. Buttons at the bottom of the view
provide access to subviews for Encoder/Decoder
Queue Statistics and DC Channel Controls. The
DC general statistics are displayed in the
following read-only fields:

Note:

Note:

Aprisma Management Technologies
can provide training, technical
assistance, and custom engineering
support services for creating
application models and their
associated views.

Application Views Supported Applications

Device Management Page 18 Motorola Vanguard

DSPStatus

Indicates whether there is a DC SIMM DSP
installed in the motherboard and, if so, the
current status (up = installed and operational;
down = installed but non-functional; missing =
no DC SIMM DSP is installed).

Soft-Rev

The revision number of the DC handler software.

Firm-Rev

The DC function revision number (e.g., the DSP
firmware revision number).

DCChan

The maximum number of DC channels
supported.

ChanInUse

The number of DC channels currently in use.

SmltChanUse

The highest number of DC channels in use at any
one time since the last stats reset.

ConnRejects

Number of call requests rejected due to the
unavailability of DC channels.

AggCRatio

Ratio of incoming characters to outgoing
characters for all DC channels over the past
minute.

The following two buttons are located at the
bottom of the Data Compression General
Statistics view:

This button accesses both current and historical
information about the encoder and decoder
queues— see Queue Statistics View (Page 18).

This button accesses a view that lets you control
statistics and history buffer reset parameters for
individual DC channels—see DC Controls View
(Page 19).

Queue Statistics View

Access: In the Data Compression General Statistics view,

click the Encoder and Decoder Queue Statistics button.

This view provides the following information
about the encoder and decoder queues.

EncFrames

Current number of frames in the encoder queue,
waiting to be compressed.

Encoder and Decoder Queue Statistics

DC Channel Controls

Application Views Supported Applications

Device Management Page 19 Motorola Vanguard

MaxEncQueue

Highest number of frames that were in the
encoder queue at any one time since the last stats
reset.

TimeOfMaxEnc

Time when the current MaxEncQueue value was
registered.

DecFrames

Current number of frames in the decoder queue,
waiting to be decompressed.

MaxDecQueue

Highest number of frames that were in the
decoder queue at any one time since the last stats
reset.

TimeOfMaxDec

Time when the current MaxDecQueue value was
registered.

DC Controls View

Access: In the Data Compression General Statistics view,

click the Encoder and Decoder Queue Statistics button.

This view contains a table that lets you determine
whether the statistics and the vocabulary/history
buffer for each channel will be automatically reset
when the channel is active. Column headings are
described below:

Channel Number

Index number identifying a particular channel.

Channel Status

Indicates whether DC statistics will be
automatically reset for this channel when it is
active. Possible values are: reset or noreset.

History Buffer

Indicates whether the vocabulary/history buffer
will be automatically reset for this channel when
it is active. Possible values are: reset or
noreset.

Data Compression Channel Statistics
View

Access: From the Icon Subviews menu for the

MotBWMgmtApp Application icon, select Channel

Statistics.

This view provides the data compression (DC)
statistics listed below for individual channels.
Buttons at the bottom of the view provide access
to subviews for Encoder/Decoder Queue
Statistics and DC Channel Controls. Column
headings are as follows:

Number

Index number identifying a particular channel.

Application Views Supported Applications

Device Management Page 20 Motorola Vanguard

Time Reset

Time when node was restarted or statistics were
reset by a CTP/SNMP Manager command.

State

Current activity state of the channel. See Table 4
for expanded descriptions of possible states.

Table 4: Channel State Descriptions

State Description

dsp-down DSP is down.

idle DSP is ready to be assigned to a

connection.

negotiating Source has accepted the Call Request

and is waiting for a Call Accept from
the destination node.

data-passing Normal data passing state.

ap-clearing Call Clear request arrived from access

side.

np-clearing Call Clear request arrived from

network side.

clearing-call A call collision or a Call Clear along

with an X.25 reset or a “start buffer
discarding.”

flushing-on-clr Call has been cleared with FLUSH;

waiting for packets to flush from DC
Handler rings.

flushing-data Waiting for x.25 confirm.

flushing-dc-ring Waiting for the data on the DC Handler

ring to be flushed after an x.25 confirm
or stop discard.

clearing Call has been cleared.

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SourceChan

Access Protocol’s identity string.

DestChan

Network Protocol’s identity string.

XmitRatio

Actual compression ratio for outgoing data. This
is a 60 second snapshot. Range is 1 - 9.2.

The following three buttons are located at the
bottom of the Data Compression Channel
Statistics view.

This button accesses a view providing encoder
queue information for individual DC channels—
see Encoder Queue Statistics View (Page 21).

This button accesses a view providing decoder
queue information for individual DC channels—
see Decoder Queue Statistics View (Page 22).

This button accesses a view that lets you control
statistics and history buffer reset parameters for
individual DC channels—see DC Controls View
(Page 19).

Encoder Queue Statistics View

Access: In the Data Compression Channel Statistics view,

click the Encoder Queue Statistics button.

This view contains a table of encoder queue
statistics for individual DC channels. Column
headings are described below:

ChanNo

Index number identifying a particular channel.

EncFrames

Number of frames received from the Access
Protocol to be compressed.

CharIN

Number of bytes pushed into the encoder to be
compressed.

CharOUT

Number of compressed bytes produced by the
encoder.

AEChange

Number of times the encoder switched from
compressed mode to anti-expansion mode.

AEFrames

Number of anti-expansion frames sent by the
encoder.

AEstatus

Indicates whether anti-expansion mode is on.

Encoder Queue Statistics

Decoder Queue Statistics

DC Channel Controls

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Decoder Queue Statistics View

Access: In the Data Compression Channel Statistics view,

click the Decoder Queue Statistics button.

This view contains a table of decoder queue
statistics for individual DC channels. Column
headings are described below:

ChanNo

Index number identifying a particular channel.

DecFrames

Number of frames received from the Network
Protocol to be decompressed.

CharIN

Number of bytes pushed into the decoder to be
decompressed.

CharOUT

Number of decompressed bytes produced by the
decoder.

AEChange

Number of times the decoder switched from
compressed mode to anti-expansion mode.

AEFrames

Number of anti-expansion frames received.

AEstatus

Indicates whether anti-expansion mode is on or
off.

BadFrames

Number of decoded frames detected by the
decoder that have been corrupted. This includes
frames with bad headers.

BadHeaders

Number of decoded frames detected by the
decoder that have a bad header.

PktDiscard

Number of packets discarded while processing an
X.25 reset or during node congestion.

Motorola Configuration
Applications (MotConfigApps)

This major application (model type
MotConfigApps) has six minor applications (model
types MotCSISApp, MotNSApp, MotSSApp,
MotTFTPApp, MotVCApp, and MotWANApp). The
Icon Subviews menus associated with these
applications provide access to the following
application-specific views:

• MotCSISApp

- CSIS Software Key and NUI Password

Tables View (Page 23)

- Authorization Tables View (Page 23)

• MotNSApp

- NS Channel Information View (Page 24)

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• MotSSApp

- Switched Service Configuration Table View
(Page 25)

- Backup Port Statistics Table View (Page 28)

- Port Statistics Table View (Page 29)

• MotTFTPApp

- TFTP Statistics View (Page 30)

• MotVCApp

- SVC Calls Table View (Page 31)

- PVC Setup Configuration Table View
(Page 32)

- Route Selection Configuration Table View
(Page 32)

• MotWANApp

- LAN Connection Configuration Table View
(Page 33)

- Data Summary Statistics View (Page 36)

CSIS Software Key and NUI Password
Tables View

Access: From the Icon Subviews menu for the

MotCSISApp Application icon, select Key/NUI Table.

This view provides software key and password
configuration information for optional software
installed on the modeled device. It contains the
following two tables:

• Software Key Table (Page 23)

• NUI Password Table (Page 23)

Software Key Table

This table displays key values for optional
software. Entries are numbered sequentially
starting with 1.

NUI Password Table

This table lists the Network User Identification
(NUI) password for each user account and
specifies which entry in the PAD Prompt Table is
used as a PAD prompt after the user has entered
a valid password. “0” indicates the standard
asterisk prompt.

Authorization Tables View

Access: From the Icon Subviews menu for the

MotCSISApp Application icon, select Authorization Tables.

This view provides port-specific information about
optional software installed on the modeled device.
It contains the following two tables:

• Software Authorization Table (Page 23)

• Port Authorization Table (Page 24)

Software Authorization Table

For each software option installed, this table
indicates the maximum number of ports
supported (or the value 65535 if unlimited), the

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Device Management Page 24 Motorola Vanguard

number of ports actually being used, and whether
all use of the option was authorized or any use
was unauthorized. Any attempts to use the option
on more than the number of supported ports
constitutes unauthorized usage.

Port Authorization Table

For each port (1 through 54), this table indicates
whether usage has been authorized or
unauthorized. Any attempted use of the port for a
particular software option that would exceed the
port limit listed in the Option column of the
Software Authorization table constitutes
unauthorized usage.

NS Channel Information View

Access: From the Icon Sub v ie ws menu for the MotNSApp

Application icon, select NS Channel.

This view lets you initiate and monitor channel
information for the modeled device. The view has
the following two defined areas:

• Channel Configuration (Page 24)

• Channel Statistics (Page 25)

Channel Configuration

This section displays the following information:

Number

The Network Services Configuration Table entry
being configured by the other parameters in the
record.

PortStnId

The port and station on which the Network
Services Data Compression feature will be
enabled. The wild card (match anything)
character is * and can also be part of the entry.
Valid port types are: X25, FRA, LCON, TCOP, and
TBOP.

Used

This parameter specifies the Network Services
features level. Table 5 displays the valid
parameters and descriptions:

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Channel Statistics

This section displays the following information:

UsedChan

The number of NS Channels in use.

MaxChan

The maximum number of NS Channels used.

UnavailChan

The number of NS Channels not available for
allocation.

Switched Service Configuration Table
View

Access: From the Icon Su bviews menu for the MotSSApp

Application icon, select Configuration Table.

This view lists the Configuration parameters that
makeup the Switched Service/LBU Table.
Column headings are as follows:

Number

The particular Switched Service/LBU Table entry
being configured. The number of instances
defined by this entry depends on the configured
value of the Maximum Switch Service Entry
parameter in the Node record (up to a maximum
of 1024 entries). If this value is 0, no switched
Service/backup links may be configured i.e. this
table will be empty.

Destination

A unique name that identifies this entry.

Monitored Port

The X.25 port to be monitored for link failure.
This is the port whose calls are rerouted in the
event of port failure. The format must be the
following: X25-n, FRI-nSm OR BRI-nCp where n
is the port number, m is the station number and
p is BRI channel number.

Table 5: NS Features

Parameter Description

disable The feature is not requested.

negotiate Negotiate for the feature. The feature is

desired, but if not available bring up the
virtual circuit anyway, without the
feature.

required Required for call. Bring up the

connection only if the feature is available
on both ends.

forceOn The feature is required for the circuit to

come up.

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Backup Port

The port or channel that acts as the backup when
there is a port failure on the port specified by the
parameter Monitored port, or primary destination
port (activated by call). The format must be the
following: X25-n or BRI-nCm, where n is the port
number and m is the channel number.

Dialed No.

The telephone numbers that will be dialed when
the backup port is activated. To enter your own
telephone number, use any combination of the
following characters:

0-9 Decimal
: Wait Tone
< Pause
= Separator 3
> Separator 4
P or p Dialing to be continued in PULSE
mode.
T or t Dialing to be continued in DTMF mode.
& Flash

To have the modem dial one of its pre­programmed telephone numbers, enter:

#n where ’n’ identifies the pre-programmed
telephone number stored in the modem.

Act Mode

This specifies how the switched service/backup
port will be activated. Table 6 displays the
activation modes and descriptions:

Deact Mode

This specifies how the switched service/backup
port is deactivated after the original link is up.

Table 7 displays the deactivation modes and

descriptions:

Table 6: Activation Mode

Mode Description

fail Activate the backup port upon

link failure.

call Activate the backup port upon a

call request.

either Activate the backup port upon

link failure or a call request.

newvalFail Same functionality as ’fail,’ new

enumeration added for RFC1155
compatibility.

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Hold Time

This replaces the value of the parameter Idle
Disconnect Timer in the X.25 Port Record and
specifies how long (in seconds) the backup link
remains active after the original link is back up.

Password

The password used by the remote station to
determine if dial access is authorized.

Redial Time

The time in seconds between dial attempts when
bringing up a switched service call.

Redial Counter

The number of times that the Switched Service
will attempt to redial when redial timer is expired.
A value of zero will allow unlimited attempts.

Security

This specifies under what conditions the
port/channel authorizes call request. Table 8
displays the security channel and descriptions:

Table 7: Deactivation Modes

Mode Description

none Backup port can only be deactivated by

operator intervention.

busyout The backup port is deactivated after all

the calls on that port are cleared for a
predetermined amount of time. This
substitutes the value assigned to the
parameter Link Hold Time with the
value assigned to the parameter Idle
Disconnect Time in the X.25 Port
Record. The Idle Disconnect Time will
then work as described in the
Operators Guide. When Deactivation
Mode = BUSY OUT and Link Hold Time
= 0 (zero) the overall effect is the same
as setting this entry to NONE.

imm The backup link is terminated

immediately when the monitored port is
restored regardless of how many calls
are present.

newvalNone Same functionality as ’none.’

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This button accesses a view containing the call ID
statistics—see Call ID Statistics (Page 28).

Call ID Statistics

Access: From the Switched Service Configuration Table

View, select the Call ID Statistics Table button.

This view lists the Configuration calling IDs that
makeup the Calling ID Table. Column headings
are as follows:

Call Number

The particular calling ID Table entry being
configured by the other parameters in the record.

Call String

Each calling id entry is a numeric value which
may contain periods or dashes. Only calls
matching these ids will be allowed when calling id
security is enabled.

Backup Port Statistics Table View

Access: From the Icon Su bviews menu for the MotSSApp

Application icon, select Restoral Port Statistics.

This view lists the statistics parameters for the
Switch Service/Link Backup port, station, and
channel. Column headings are as follows:

Port No.

The backup port number, used as an index to
access Switched Service/LBU statistics.

Port Type

The port type of the backup port.

Table 8: Security Channels

Channel Description

none A call request cannot be rejected based

on password of calling party id
validation.

password A call request will only be accepted if

the password it provides matches the
switched services password configured
in the node record

callingId A call request will only be accepted if

the calling party id of the caller
matches one of the entries found in the
calling party id table.

both A call request is accepted only if both

the password and the calling party id
are valid.

newvalNone Same functionality as ’none.’

Call ID Statistics Table

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Conn. Type

The connection type of the backup port.

Status

The status of the backup port. Valid values are:

down, up, activating, redial, idle,
deactivating, and newvalDown.

Reason

The reason that the backup port is active. Table 9
displays the valid reasons and descriptions:

Redial

The number of times that the Switched Service
will attempt to redial when the redial timer is
expired. A value of zero will allow unlimited
attempts.

LastActivate

The last time the backup port was activated.

LastDialedNo

The phone number dialed the last time the
backup port was activated.

Port Statistics Table View

Access: From the Icon Su bviews menu for the MotSSApp

Application icon, select Link Statistics.

This view lists the statistics parameters for the
Link Backup’s monitored port. The view has the
following two defined areas:

• Monitored Port (Page 29)

• Calling ID (Page 30)

Monitored Port

This section displays the following information:

Index Port

The backup port number, used as a primary
index to access monitored port statistics.

Table 9: Reasons

Reason Description

none Backup port is deactivated.

call A call request was made on the backup

port.

fail Due to a link failure on the monitored

port.

remote A call request was made to the backup

port.

cto Backup port was activated from the

control terminal.

newvalNone Same functionality as ’none’.

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Monitored Port

The port being monitored by the backup port,
used as a secondary index to access monitored
port statistics.

Port State

State of the monitored port. Valid values are:

down, up, activating, redial, idle,
deactivating and newvalDown.

Dial No.

Phone number that the backup port will dial
when a monitored port has a link failure.

Calling ID

This section displays the following information:

Call Number

The particular calling ID Table entry being
configured by the other parameters in the record.

Call String

Each calling id entry is a numeric value which
may contain periods or dashes. Only calls
matching these ids will be allowed when calling id
security is enabled.

TFTP Statistics View

Access: From the Icon Subviews menu for the

MotTFTPApp Application icon, select Statistics.

This view lets you initiate and monitor TFTP file
transfers to and from the modeled device. The
view has the following two areas:

• TFTP Download (Page 30)

• Last TFTP Transfer Status (Page 31)

TFTP Download

This area of the TFTP Statistics view lets you
define and initiate a file transfer using the
following fields and buttons:

IPAddress

Enter the IP address of the remote TFTP
application.

FileName

Enter the file name to be used in the TFTP RRQ or
WRQ message.

Operation

The desired type of transfer.

Initiate

Initiates the transfer operation.

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Last TFTP Transfer Status

This area of the TFTP Statistics view displays the
following information about the last completed
transfer or the transfer currently in progress:

IPAddress

The IP address of the remote TFTP application.

FileName

The file name to be used in the TFTP RRQ or WRQ
message.

Operation

The type of transfer.

TimeStamp

The starting time of the transfer in progress (or
the ending time of the last completed transfer) in
dd-mm-yyyy hh:mm:ss format.

ByteCount

The total number of bytes transferred. This value
is dynamically updated during a transfer.

Status

The current or final status of the transfer
operation.

SVC Calls Table View

Access: From the Icon Sub vie ws men u for the MotVCApp

Application icon, select SVC Calls Table.

This view lets you view the Switched Virtual
Circuit (SVC) calls. Column headings are as
follows:

Index

Position in the list of SVCs.

Calling Channel

Calling channel of the SVC.

Called Channel

Called channel of the SVC.

Rev Charge

Reverse charge facility condition. Valid values are:

refuse, accept, and newvalRefuse (same as
refuse).

Fast Select

Fast select facility condition. Valid values are:

noFastSelect, fastSelect, and
newvalNoFastSelect (same as noFastSelect).

NetUserId

Net user identification facility condition. Valid
values are: notRequested, requested, and
newvalNotRequested (same as NotRequested).

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CUG

Closed User Group facility on/off. Valid values
are: notRequested, requested, and
newvalNotRequested (same as notRequested).

Conn_UpTime

Time at which the connection was up.

PVC Setup Configuration Table View

Access: From the Icon Sub v ie ws menu for the MotVCApp

Application icon, select PVC Setup Configuration.

This view allows you to set-up the PVC
configuration. Column headings are as follows:

Index

The particular PVC Table entry being configured
by other parameters in the record.

PVC Source

The PVC source channel identifier. See Table 10
for codes and descriptions:

PVC Destination

The PVC destination channel identifier.

Route Selection Configuration Table
View

Access: From the Icon Sub vie ws men u for the MotVCApp

Application icon, select Route Selection Table.

This view allows you to set-up the route selection
configuration. Column headings are as follows:

Num

The particular Route Selection Table entry being
configured.

Table 10: PVC Source Codes

PVC Source Description

BCST Route calls to the broadcast module.

MX25-2s3(2) Route calls to MX25 port 2, station 3,

channel 2.

PAD-5 Route calls to PAD port 5.

P54S9(22) Route calls to port 54, station 9,

channel 22.

SDLC-4s5 Route calls to SDLC port 4, station 5.

X25-1(5) Route calls to X25 port 1, channel 5.

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SVC Addr

Network address for calls routed beyond this
node. A route selection entry is not needed for
calls destined within this node: PAD port or node
resource (for example, control port) calls. The wild
card (match anything) character is *, and can also
be part of the entry. When set to (blank), this
parameter is ignored.

Destn 1 through 8

The network address to which calls are routed.

Priority 1 through 8

The priority for call forwarding to ports within the
Route Selection Table. Call forwarding is
determined by a combination of priority and load
conditions. 0 is the backup port. Values 1-15 are
also valid, 1 being the highest priority, and 15 the
lowest.

LAN Connection Configuration Table
View

Access: From the Icon Subviews menu for the

MotWANApp Application icon, select LAN Configuration.

This view contains the Configuration parameters
for each LAN Connection. Column headings are
as follows:

ConnNo

A specific LAN Connection Record within the
table.

Forwarder

This parameter specifies the type of forwarders
communicating over this LAN Connection.

BridgeLnk

The Bridge-Link that is using this LAN
Connection.

RouterIf

The Router Interface that is using this LAN
Connection.

Table 11: Type of Forwarders

Forwarder Description

brid Bridging Forwarders.

rout Routing Forwarders.

brout Bridging and Routing Forwarders.

nc Skipped during configuration.

newvalBrid Same as ‘brid’.

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AutocallAdd

If configured, the Autocall Mnemonic references a
remote address which will be called by the LAN
Connection.

AutocallTime

The time interval in seconds between call
attempts when auto calling.

AutocallAttempt

The number of times that the LAN Connection will
attempt to autocall a remote destination. A value
of zero will allow unlimited attempts.

ConnectionID

The number of the remote LAN Connection or the
FRA Station number that this LAN connection will
attempt to connect to if configured for autocall.

Billing

This controls whether billing (accounting) records
will be created for calls on this LAN Connection.

Table 12 displays the valid options and

descriptions:

TrafficPriority

The Traffic Priority of this LAN Connection. Valid
values are: low, med, high, exp (Expedite
Priority), nc, and newvalLow (same as low).

ConnQueue

The maximum number of bytes that will be
queued for this LCON before transmission on the
WAN link. It is recommended that this parameter
be set for two seconds of data on the WAN link.

Encap

The data encapsulation type used over this LAN
Connection. Valid values are: codex, rfc1294,
rfc877, nc, and newvalCodex (same functionality
as codex).

StartupConn

Controls whether the circuit is established at
startup or established when required for data

Table 12: Billing

Billing Description

off Billing records will not be created.

on Billing records will be created.

nc Skipped during configuration.

newvalOff Same functionality as “off”.

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passing. Valid values are: disabled, enabled, nc
and newvalDisabled (same as disabled).

ConnTime

The amount of time in seconds the circuit will
remain connected without passing any data
before being brought down. Setting this
parameter to zero keeps the circuit up
indefinitely.

Conntype

Specifies whether the LAN Connection defines a
point to point connection across the WAN, or is
part of a group of LAN Connections. Valid options
are: ptToPt, group, nc, and newvalPtToPt (same
functionality as ptToPt).

NextHopIp

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. A
setting of 0.0.0.0 causes this parameter to be
ignored.

NextHopIpx

The IPX node number of the Router on the other
end of this LAN Connection, which is the next hop
on the path to the final destination. A setting of 0
causes this parameter to be ignored.

MaxSVC

The maximum number of parallel connections
that can be established to the remote destination.
Parallel SVCs are established when congestion
thresholds are reached on active connections.

Threshold

The number of outstanding data bytes that will
trigger the establishment of a Parallel SVC. If this
number of data bytes has been transmitted
without acknowledgment, the receipt of additional
data for transmission will trigger Parallel SVC
establishment. Note that this parameter must be
configured with a value less than the LCON
Queue Limit parameter.

ParallelPort

The port that Parallel SVCs should be brought up
over. The parameter can be in two forms. It can be
in the form of a port identifier string. It can also
be in the form of a Switched Services Table
destination name, if the port that the Parallel
SVCs are to come up over is a dial on demand
port. A value of (blank) will cause Parallel SVCs to
be brought up over the same port as the main
connection.

BroadCast

This parameter specifies whether broadcast
datagrams should be transmitted over this LAN
connection to the remote destination. Valid values

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are: disabled, enabled, nc, and
newvalDisabled (same as disabled’).

Data Summary Statistics View

Access: From the Icon Subviews menu for the

MotWANApp Application icon, select DATA Statistics.

This view provides information on data packets
transmitted, received, queued and discarded.
Column headings are described below.

ConnNo

A specific LAN Connection Record.

LastReset

The date and time of the last statistics reset.

AvgPktSizeTx

The average size of the packets sent on the WAN,
in bytes.

PktQueued

The current number of packets queued awaiting
transmission on the WAN.

MaxQueue

The maximum number of packets queued
awaiting transmission on the WAN.

TimeMaxQueue

The date and time when the number of packets
queued awaiting transmission on the WAN
reached its maximum.

AvgPktSizeRcv

The average size of the packets received on the
WAN.

PktDisDelay

The number of packets discarded due to packets
exceeding the maximum allowed delay through
the node.

PktDisCong

The number of packets discarded due to severe
congestion.

PktDisMaxFrm

The number of packets discarded due to packets
exceeding the maximum allowed frame size.

PktDisCLrReq

The number of packets discarded due to Clear
Requests Received.

PktDisCallFail

The number of packets discarded due to Call
Establishment Failure.

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OutstandingTxBy

Count of outstanding transmit bytes.

This button accesses a view containing the call
statistics—see Call Information (Page 37).

This button accesses a view containing packet
information—see Packet Information (Page 38).

This button accesses a view for WAN adaptor
controls for LAN Connection—see Adaptor Control

Table View (Page 39).

Call Information

Access: In the Data Summary Statistics view , clic k the Call

Statistics button.

This view contains a table of call statistics for
individual LAN connections. Column headings are
described below:

ConnNo

A specific LAN Connection Record.

ConnType

Specifies whether the connection is a Permanent
Virtual Circuit (PVC) or a Switched Virtual Circuit
(SVC).

Encap

This parameter specifies the data encapsulation
type used over this LAN Connection. Valid values
are: codex, rfc1294, rfc877, and newvalCodex
(same as codex).

ConnStat

The current state of the PVC or a SVC. Table 13
displays the valid options and descriptions:

Call Statistics

Packet Statistics

Adaptor Control Tables

Table 13: Connection States

State Description

unconfigured Initialization state.

backinHeap LCONCB has been returned to

memory heap.

notConnected Completed Init, waiting for startup,

or failed autocall SVC.

disabled Connection is Disabled.

calling Autocall SVC trying to complete

call.

waitForCall Non-autocall SVC waiting for call.

handshaking PVC in reset handshake process.

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Forwarder

Specifies which forwarders are currently
connected to this LAN Connection.

RemoteAddr

Specifies the called address of the remote WAN
Adaptor LAN Connection for connected SVCs.

CallAttempt

Specifies the number of times autocall was
attempted before either succeeding or failing in
establishing the connection.

CauseCode

The cause code in the call clear packet last
received by the LAN connection and explains why
the last call was cleared.

DiagCode

The diagnostic code in the call clear packet last
received by the LAN connection and explains why
the last call was cleared.

SVCEstab

Count of parallel SVCs with calls established.

MaxSVCNo

Number of Parallel SVCs.

Packet Information

Access: In the Data Summary Statistics view, click the

Packet Statistics button.

This view contains a table of packet statistics for
LAN Connections. Column headings are described
below:

ConnNo

A specific LAN Connection Record.

DataTx

The total number of Data Packets sent on the
WAN.

connected Connection is established.

connectedCongested Connection has reached congestion

thresh.

wfccRecall Wait for Clr Conf Re-Call, autocall

SVC.

wfccWaitForCall Wait for Clr Conf Wait for Call non-

auto calling SVC.

wfccDisabled Wait for Clr Conf go to Disabled.

newvalUnconfigured Same functionality as

unconfigured.

Table 13: Connection States

State Description

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DataRcv

The total number of Data Packets received from
the WAN.

CallReqTx

The total number of Call Request Packets sent on
the WAN.

CallReqRcv

The total number of Call Request Packets received
from the WAN.

CallAcceptT

The total number of Call Accept Packets sent on
the WAN.

CallAcceptR

The total number of Call Accept Packets received
from the WAN.

ClearReqTx

The total number of Clear Request Packets sent
on the WAN.

ClearReqRc

The total number of Clear Request Packets
received from the WAN.

ClearConfTx

The total number of Clear Confirm Packets sent
on the WAN.

ClearConfRcv

The total number of Clear Confirm Packets
received from the WAN.

ResetReqTx

The total number of Reset Request Packets sent
on the WAN.

ResetReqRcv

The total number of Reset Request Packets
received from the WAN.

ResetConfTx

The total number of Reset Confirm Packets sent
on the WAN.

ResetConfRcv

The total number of Reset Confirm Packets
received from the WAN.

Adaptor Control Table View

Access: In the Data Summary Statistics view, click the

Adaptor Control Tables button.

This view contains the Wan Adaptor control
tables for LAN Connection. Column headings are
described below:

LanConnN

A specific LAN Connection Record.

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LanConn

This command enables or disables a specified
LAN connection. Valid values are: enable,
disable, newvalEnable (same functionality as
’enable’).

ConnBoot

Writing to this causes the LAN connection record
to be booted.

ResetStat

When this command is entered, the resettable
statistics parameters are reset for the specified
LAN Connection Number.

Motorola LAN Applications
(MotLANApps)

This major application (model type MotLANApps)
has two minor applications (model types
MotBridgeApp and MotRouterApp). The Icon
Subviews menus associated with these
applications provide access to the following
application-specific views:

• MotBridgeApp

- Bridge Statistics View (Page 40)

- Bridge Configuration Information View
(Page 54)

• MotRouterApp

- ARP Cache Table View (Page 50)

- IP Access Control Table View (Page 51)

- IP Interface Table View (Page 52)

- Static Routes Info View (Page 62)

- IP Interchange Table View (Page 64)

- Filter/Gateway/Priority Info View (Page 65)

- IP BOOTP Server Info View (Page 67)

Bridge Statistics View

Access: From the Icon Subviews menu for the

MotBridgeApp Application icon, select Bridge Statistics.

In addition to providing button access to a
number of subviews, the Bridge Statistics view
contains the following three areas:

• Port Stats (Page 40)

• Link Stats (Page 41)

• Base Port Stats Table (Page 41)

Port Stats

This area of the Bridge Statistics view displays the
following totals for all ports associated with the
device’s transparent bridging function:

• The number of end station addresses learned.

• The number of available entries in the
Forwarding Table.

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• The maximum number of entries being used
in the Forwarding Table since the last node
boot.

Link Stats

This area of the Bridge Statistics view displays the
total number of WAN Bridge Links that have been
configured.

Base Port Stats Table

This area of the Bridge Statistics view identifies
the current Link Status and time of the last LAN
port statistics reset for each port associated with
the transparent, source-route, or srt bridging
functions of this device. See Table 14 for
expanded descriptions of possible Link Status
values:

The following eight buttons are located at the
bottom of the Bridge Statistics view:

This button accesses a table providing statistical
information for each bridge link associated with
the device’s transparent bridging function—see

Transparent Bridge Link Stats Table View

(Page 42).

This button accesses a table providing statistical
information for each port associated with the
device’s transparent bridging function—see

Transparent Bridge Port Stats Table View

(Page 44).

This button accesses a table containing bridge­Link-specific information for the Spanning Tree

Table 14: Link Status Descriptions

Status Description

unconfig Not configured.

configerr Configuration error on link.

swDisabled Physical errors on link.

userDisabled User shut down link.

congested WAN congested condition.

inactive Configured link - ready for use but

not active.

active Configured and active.

Transparent Bridge Link Stats

Transparent Bridge Port Stats

Spanning Tree Bridge Link Stats

Table 14: Link Status Descriptions

Status Description

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Protocol—see Spanning Tree Bridge Link Stats

Table View (Page 45).

This button accesses a table providing statistical
information for each port associated with the
device’s source route bridging function—see SRB

Port Statistics Table View (Page 46).

This button accesses a table providing statistical
information for each WAN Bridge Link associated
with the device’s source route bridging function—
see SRB WAN Bridge Link Stats View (Page 46).

This button accesses a table providing MAC
address and protocol filtering information broken
down by port—see MAC Address & Protocol

Filtering Stats Table View (Page 48).

This button accesses a table providing statistical
information for each of the device’s WAN Bridge
Links—see WAN Bridge Link Stats Table View
(Page 49).

This button accesses a table providing traffic
statistics broken down by frame type for Local
Termination sessions—see Local Termination

Stats Table View (Page 49).

Transparent Bridge Link Stats Table
View

Access: In the Bridge Statistics view , click the Transparent

Bridge Link Stats button.

This view contains a table providing statistical
information for each bridge link associated with
the device’s transparent bridging function.
Column headings are as follows:

LinkNo

Number identifying a particular bridge link.

MaxInfo

The maximum size of the INFO (non-MAC) field
that this port will receive or transmit.

InFrames

The number of frames that have been received by
this bridge link from its segment. Note that a
frame received on the interface corresponding to
this bridge link is only counted by this field if it is

SRB Port Statistics

SRB WAN Bridge Link Stats

MAC Addr and Protocol Filtering

WAN Bridge Links Stats

Local Termination Stats

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for a protocol being processed by the local
bridging function.

OutFrames

The number of frames that have been transmitted
by this bridge link to its segment. Note that a
frame transmitted on the interface corresponding
to this bridge link is only counted by this field if it
is for a protocol being processed by the local
bridging function.

Discards

Count of valid frames received that were
discarded (i.e., filtered) by the Forwarding
Process.

UnicastRx

The number of Unicast Frames received on this
WAN Bridge Link.

UnicastTx

The number of Unicast Frames transmitted on
this WAN Bridge Link.

MulticastRx

The number of Multicast Frames received on this
WAN Bridge Link.

MulticastTx

The number of Multicast Frames transmitted on
this WAN Bridge Link.

BroadcastRx

The number of Broadcast Frames received on this
WAN Bridge Link.

BroadcastTx

The number of Broadcast Frames transmitted on
this WAN Bridge Link.

InBoundDisc

The number of frames discarded due to receive
Link State not being set to “forwarding.”

OutBoundDisc

The number of frames discarded due to transmit
Link State not being set to “forwarding.”

ULPInBoundDisc

The number of frames discarded due to “Unicast
Link Protect” being set on the incoming link.

ULPOutBoundDisc

The number of frames discarded due to “Unicast
Link Protect” being set on the outgoing link.

MLPInBoundDisc

The number of frames discarded due to “Multicast
Link Protect” being set on the incoming link.

MLPOutBoundDisc

The number of frames discarded due to “Multicast
Link Protect” being set on the outgoing link.

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Transparent Bridge Port Stats Table
View

Access: In the Bridge Statistics view , clic k the Transparent

Bridge Port Stats button.

This view contains a table providing statistical
information for each port associated with this
device’s transparent bridging function. Column
headings are as follows:

PortNo

Number identifying a particular port.

UnicastRx

The number of Unicast Frames received on this
LAN link.

UnicastTx

The number of Unicast Frames transmitted on
this LAN link.

MulticastRx

The number of Multicast Frames received on this
LAN link.

MulticastTx

The number of Multicast Frames transmitted on
this LAN link.

BroadcastRx

The number of Broadcast Frames received on this
LAN link.

BroadcastTx

The number of Broadcast Frames transmitted on
this LAN link.

InboundDisc

The number of frames discarded due to “Receive
Link State” not being set to “forwarding.”

OutboundDisc

The number of frames discarded due to “Receive
Link State” not being set to “forwarding.”

ULPInboundDisc

The number of frames discarded due to “Unicast
Link Protect” being set on the incoming link.

ULPOutboundDisc

The number of frames discarded due to “Unicast
Link Protect” being set on the outgoing link.

MLPInBoundDisc

The number of frames discarded due to “Multicast
Link Protect” being set on the incoming link.

MLPOutBoundDisc

The number of frames discarded due to “Multicast
Link Protect” being set on the outgoing link.

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Spanning Tree Bridge Link Stats Table
View

Access: In the Bridge Statistics view, click the Spanning

Tree Bridge Link Stats button.

This view contains a table providing statistical
information for individual Spanning Tree bridge
links. Column headings are as follows:

LinkNo

Number identifying a particular bridge link.

Priority

Port priority value (as derived from second octet of
Port ID object).

LinkState

The bridge link’s current state as defined by
application of the Spanning Tree Protocol. When
LinkStatus is “disabled,” the Link State value is
also “disabled.” When LinkStatus is “enabled,”
the Link State value determines what action a
bridge link takes upon receiving a frame. Possible
values are: blocking, listening, learning,
forwarding, and broken.

LinkStatus

The status of the bridge link. Valid values are:
enable, or disable.

PathCost

The contribution of this bridge link to the path
cost towards the spanning tree root that includes
this bridge link.

DesignatedRoot

The unique Bridge Identifier of the Bridge
recorded as the Root in the Configuration BPDUs
transmitted by the Designated Bridge for the
segment to which the bridge link is attached.

DesignatedCost

The path cost of the Designated Port of the
segment connected to this bridge link.

DesignatedBridge

The Bridge Identifier of the bridge which this
bridge link considers to be the Designated Bridge
for this bridge link’s segment.

DesignatedPort

The Port Identifier of the bridge link on the
Designated Bridge for this bridge link’s segment.

FwdTransition

The number of times this port has transitioned
from the “Learning” state to the “Forwarding”
state.

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SRB Port Statistics Table View

Access: In the Bridge Statistics view, click the SRB Port

Statistics button.

This view contains a table providing statistical
information for each port associated with the
device’s source route bridging function. Column
headings are as follows:

Port Index

The Bridge Identifier of the bridge which this
bridge link considers to be the Designated Bridge
for this bridge link’s segment.

FramesRx

The Port Identifier of the bridge link on the
Designated Bridge for this bridge link’s segment.

FramesTx

The number of times this port has transitioned
from the “Learning” state to the “Forwarding”
state.

RingNo.

The number of times this port has transitioned
from the “Learning” state to the “Forwarding”
state.

SRB WAN Bridge Link Stats View

Access: In the Bridge Statistics view, click the SRB WAN

Bridge Link Stats button.

This view contains a table that provides statistical
information about every WAN Bridge Link
associated with this source route bridge. Column
headings are as follows:

LinkNo

Identifies a particular WAN bridge link.

STESpanMode

Indicates how the link port deals with Spanning
Tree Explorer (STE) frames. Table 15 displays
possible values and descriptions:

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SpecInFrms

The number of specifically routed frames that
have been received from this bridge link’s
segment.

SpecOutFrms

The number of specifically routed frames that this
bridge link has transmitted on its segment.

APEInFrms

The number of All Paths Explorer (APE) frames
that have been received by this bridge link from
its segment.

APEOutFrms

The number of APE frames that have been
transmitted by this bridge link on its segment.

STEOutFrms

The number of Spanning Tree Explorer (STE)
frames that have been transmitted by this bridge
link on its segment.

STEInFrms

The number of STE frames that have been
received by this bridge link on its segment.

SegMisDisc

The number of explorer frames that have been
discarded by this bridge link because the routing
descriptor field contained an invalid adjacent
segment value.

DupSegDisc

The number of frames that have been discarded
by this bridge link because the routing descriptor
field contained a duplicate segment identifier.

HopCountExcDisc

The number of explorer frames that have been
discarded by this bridge link because the Routing

Table 15: Spanning Modes

Spanning Mode Description

disabled The port will not accept or send STE

frames; any STE frames received will
be discarded.

forced Indicates the port will always accept

and propagate STE frames. This allows
a Spanning Tree to be manually
configured for this class of packet.
Unlike transparent bridging, this is
not catastrophic to the network if there
are loops.

auto-span Indicates that the bridge implements

the Spanning Tree Protocol and has it
enabled on this port. However,
handling of STE frames still depends
on the Link State setting. If the port is
in the “forwarding” state, the frame
will be accepted or propagated.
Otherwise it will be discarded.

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Information Field has exceeded the maximum
route descriptor length.

TotFrmsRx

The sum of ARE, STE and SRF frames received on
this bridge link.

TotFrmsTx

The sum of ARE, STE and SRF frames
transmitted on this bridge link.

NextRingNo

The Next Ring number of the WAN bridge link to
which the bridge route is bridging. This is the ring
number to which the Codex remote bridge half is
attached.

MAC Address & Protocol Filtering
Stats Table View

Access: In the Bridge Statistics view , click the MA C Addr &

Protocol Filtering button.

This view contains a table that provides MAC
address and protocol filtering information on a
port-by-port basis. Column headings are as
follows:

Port No

Number identifying a particular port.

SrcAddrFiltIn

The number of inbound frames on this port that
were not forwarded because of Source MAC
Address filtering.

SrcAddrFiltOut

The number of outbound frames on this port that
were not forwarded because of Source MAC
Address filtering.

DestAddrFiltIn

The number of inbound frames on this port that
were not forwarded because of Destination MAC
Address filtering.

DestAddrFiltOut

The number of outbound frames on this port that
were not forwarded because of Destination MAC
Address filtering.

ProtFiltIn

The number of inbound frames on this port that
were not forwarded because of Protocol filtering.

ProtFiltOut

The number of outbound frames on this port that
were not forwarded because of Protocol filtering.

TotFiltIn

The sum of Source MAC Address, Destination
MAC Address, and Protocol inbound frames on
this port not forwarded because of filtering.

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TotFiltOut

The sum of Source MAC Address, Destination
MAC Address, and Protocol outbound frames on
this port not forwarded because of filtering.

WAN Bridge Link Stats Table View

Access: In the Bridge Statistics view , clic k the W AN Bridge

Links Stats button.

This view contains a table that provides statistical
information for each of the device’s WAN Bridge
Links. Column headings are as follows:

LinkNo

Number identifying a particular WAN Bridge Link.

IFIndex

The index number of the interface corresponding
to this WAN Bridge Link.

LinkCkt

A unique value distinguishing a WAN Bridge Link
from others on the same bridge that might share
the same IFIndex. For example, in the case where
multiple ports correspond one-to-one with
multiple X.25 virtual circuits, this value might
identify an (e.g., the first) object instance
associated with the X.25 virtual circuit
corresponding to this port.

LinkStatus

Current status of the WAN Bridge Link. Possible
values are listed in Table 14, Link Status

Descriptions, on Page 41.

LastStatReset

The time of the last LAN port statistics reset.

Local Termination Stats Table View

Access: In the Bridge Statistics view, click the Local

Termination Stats button.

This view contains a table of Local Termination
session statistics. Column headings are as
follows:

Index

Number (1-64) identifying a particular session.

DataCharIn

The number of data bytes received.

DataCharOut

The number of data bytes transmitted.

DataFrIn

The number of data frames received.

DataFrOut

The number of data frames transmitted.

FrRrIn

The number of Receiver Ready frames received.

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FrRrOut

The number of Receiver Ready frames
transmitted.

FrRnrIn

The number of Receiver Not Ready frames
received.

FrRnrOut

The number of Receiver Not Ready frames
transmitted.

FrXidIn

The number of ID Exchange frames received.

FrXidOut

The number of ID Exchange frames transmitted.

FrRejIn

The number of Reject frames received.

FrRejOut

The number of Reject frames transmitted.

FrSabmeIn

The number of SABME frames received.

FrSabmeOut

The number of SABME frames transmitted.

TotFrInData

The sum of Data Frames, Receiver Ready,
Receiver Not Ready, Reject, SABME and ID
Exchange frames received.

TotFrOutData

The sum of Data Frames, Receiver Ready,
Receiver Not Ready, Reject, SABME and ID
Exchange frames transmitted.

StatsBoot

This command is used to boot a Local
Termination session when set to “Boot.”

ARP Cache Table View

Access: From the Icon Subviews menu for the

MotRouterApp Application icon, select ARP Cache.

This view contains a table of Address Resolution
Protocol configuration information. Column
headings are as follows:

TableIndex

Number (1-256) identifying a particular table
entry.

InterfaceNo.

Number (1-36) identifying a particular router
Interface Number as assigned in the Interface
Configuration Table.

ProtocolType

Identifies the type of routing protocol in effect for
this interface.

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IPAddr

The IP address of a particular node on the
network attached to the indicated interface.

MacAddr

The hardware MAC address of the node with the
indicated IP address.

IP Access Control Table View

Access: From the Icon Subviews menu for the

MotRouterApp Application icon, select IP Access Control

Table.

This view contains a table of IP Access Control
information. Column headings are as follows:

TableIndex

Number (1-256) identifying a particular table
entry.

AccessType

Each received IP packet is compared with all
Access Control list entries in order of TableIndex
number. If the value of the first matching entry is

included, the packet is forwarded. If the value is
excluded, or if no matching entry is found, the

packet is dropped. An entry matches a packet
when the source IP address, destination IP
address, IP Protocol number range, and TCP/UDP
port number range all match the packet.

SourceAddr

IP source address to compare against a received
packet’s source IP address field. Matches are
determined in conjunction with SourceAddMask.

SourceAddrMask

This value is logically AND-ed with SourceAddr
and compared with the Source Address of a
received packet. For example, a mask of 255.0.0.0
with a result of 129.0.0.0 will match any address
with 129 in the first byte. A mask of

255.255.255.255 with a result of 129.122.3.26
matches only the IP host 129.122.3.26. A mask of

0.0.0.0 with a result of 0.0.0.0 is a wild card, and
matches any IP address.

DestAddr

IP destination address to compare against a
received packet’s source IP address field. Matches
are determined in conjunction with
DestAddMask.

DestAddrMask

This value is logically AND-ed with SourceAddr
and compared with the DestAddr of a received
packet. For example, a mask of 255.0.0.0 with a
result of 129.0.0.0 will match any address with
129 in the first byte. A mask of 255.255.255.255
with a result of 129.122.3.26 matches only the IP
host 129.122.3.26. A mask of 0.0.0.0 with a

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result of 0.0.0.0 is a wild card, and matches any
IP address.

FirstProtocol/LastProtocol

A received packet’s IP protocol byte must fall
within the range described by these two column
entries in order to be considered a match. The
FirstProtocol value must be less than or equal to
the Last Protocol field value. A First Protocol of 0
and a Last Protocol of 255 will match all IP
packets. Commonly used IP protocol numbers are
1 for ICMP, 6 for TCP, 8 for EGP, 17 for UDP and
89 for OSPF.

FirstPort/LastPort

A received packet’s UDP or TCP port number
must fall within the range described by these two
column entries in order to be considered a match.
An entry with a First Port value of 0 and a Last
Port value of 65535 will match all packets.
Commonly used port numbers are 21 for FTP, 23
for Telnet, 25 for SMTP, 513 for rlogin, 520 for RIP
(Routing Information Protocol), and 600 for X.

IP Interface Table View

Access: From the Icon Subviews menu for the

MotRouterApp Application icon, select IP Interface Table.

This view contains a table of IP router interface
information. Column headings are described
below. Heading names prefixed by “Advt” are
contained in a subview accessed via the Advertise
Routes button at the bottom of this view.

TableIndex

Identifies the type of routing protocol in effect for
this interface.

I/FNo.

Number identifying a particular routing interface.
Number 1 is for the LAN port. Numbers 5 through
36 are reserved for Lan connections, which are
virtual circuit links over WAN networks such as
X.25 or Frame Relay to other routers.

IPAddr

The 32-bit IP host address of the router on the
associated interface.

AddrMask

This parameter is entered in dotted notation and
configures the 32-bit IP Subnetwork Address
Mask associated with network to which the
interfaces attaches. The subnetwork address
mask has 1 bit for the bits which form the
network and subnetwork portions of the IP

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address. For example, if the interface is on a class
B network such as 128.185.0.0, and the third
byte is used to select a subnet (such as

128.185.100.0), the mask should be set to

255.255.255.0. All IP devices on a subnetted
network must be configured with the same
subnetwork address mask.

OverrideDefRte

When set to enabled, this parameter allows the
router to override the configured Default Gateway
when it receives a RIP update from another router
advertising the default route of 0.0.0.0 with a
cheaper metric.

OverrideStaticRte

When set to enabled, this parameter allows the
router to override statically configured routing
information with less costly RIP information
received on this interface.

LearnNetworkRte

This setting enables/disables the learning of new
network-level routes received from neighboring
routers on this interface’s network.

LearnSubnetRte

This setting enables/disables the learning of new
subnet-level routes received from neighboring
routers on this interface’s network.

AcceptRIP.

This setting enables/disables the processing of
RIP updates received on this interface.

ASNo.

The Autonomous System (AS) number to be used
as a tag for RIP information received on this
interface. Tags are used to group routes together
for later readvertisement via EGP, where the tag is
treated as if it were a route’s source Autonomous
System. Tags are also propagated by the OSPF
routing protocol.

BcastStyle

Specifies the convention for addressing IP
broadcasts to all other hosts on the attached
network. If style value is local, the Broadcast Fill
Pattern (BcastFillPattern, described below) fills all
32 bits of the IP broadcast address. If the Stle
value is network, the network and subnetwork
portions of the IP broadcast address is set to the
interface’s network number, and the Broadcast
Fill pattern fills only the host portion. Examples:
“local” 1-fill = 255.255.255.255; “local” 0-fill =

0.0.0.0; “network”1-fill = 128.185.255.255;
“network” 0-fill =128.185.0.0. All IP devices on a
network must be configured with the same IP
broadcast address convention.

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BcastFillPattern

Specifies the IP broadcast fill pattern (either ones
or zeroes) that the router will use when
broadcasting on this interface.

MTUsize

Specifies the Maximum Transmission Unit to be
used.

RIPSplitHorizon

Enables/disables the IP RIP split horizon.

RIFfield

Enables/disables the IP use of a RIF field in
Token Ring networks for ARPs and RIPs.

This button accesses a table providing advertise
routes —see Advertise Routes (Page 54).

Advertise Routes

Access: From the IP Interface Table view, click the

Advertise Routes button.

Column headings are as follows:

AdvtDefRte

Enables/disables advertising the default route of

0.0.0.0 on this interface.

AdvtNetworkRte

Enables/disables advertising directly-attached
networks and learned IP network routes on RIP
updates transmitted on this interface.

AdvtSubnetRte

Enables/disables the inclusion of all subnet
routes within RIP updates sent on this interface.

AdvtStatic/DirectRte

Enables/disables the inclusion of all statically
configured and directly connected routes within
RIP updates sent on this interface.

Bridge Configuration Information View

Access: From the Icon Subviews menu for the

MotBridgeApp Application icon, select Bridge

Configuration.

In addition to providing button access to a
number of subviews, the Bridge Configuration
Information view contains the following three
defined areas:

• Base Port Info (Page 55)

• STP Port Info (Page 55)

• Base Port Configurables (Page 55)

Advertise Routes

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Base Port Info

This area of the Bridge Configuration Information
view includes the following user-configurable
settings:

Wan Data Priority

This menu button lets you set the transmission
priority for bridged data over the WAN as low,
medium, or high.

Learn Period (Sec)

The time, in seconds, that a bridge will be
prevented from forwarding frames after the
forwarding is cleared due to node boot.

Bridged Protocols

This menu button lets you specify the routable
protocols that are allowed to be bridged. Valid
values are: IP, IPX, IPIPX, or None.

Virtual Ring Number

Number identifying a virtual ring (used to support
the LSS in its path trace function and in IP
tunneling for Token Ring networks.)

Max Bridge Links

The maximum number of bridge links that will be
allowed.

STP Port Info

This area of the Bridge Configuration Information
view displays the following settings:

Stp Control

Auto indicates that the bridge participates in STP
and automatically calculates the STE (Single
Route Broadcast) frame path. Man indicates the
spanning tree is manually configured via the
Configure Bridge Link parameter.

Bad Hello Threshold

If the Stp Control value described above is set to
Man, an event (report) is generated when the
number of Bad Hellos exceeds this value.

Bad Hello Timeout

The amount of time in minutes between Bad Hello
counter resets.

Base Port Configurables

This area of the Bridge Configuration Information
view is a table of user-configurable settings for
each port associated with the device’s bridging
functions. Column headings are as follows:

BaseIndex

Number identifying a particular port.

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AddFiltAction

Determines whether the link will pass or block
frames with a MAC address that are not listed in
the MAC Address Filter Table. A setting of none
indicates no MAC address filtering will be
performed for this link.

PortFiltAction

Determines whether the link will pass or block
frames with a Protocol value that are not listed in
the Protocol Filter Table. A setting of none
indicates no MAC address filtering will be
performed for this link.

StpState

Determines whether to forward or block an STE
(or Single Route Broadcast) frame when Stp
Control is set to Man.

The following six buttons are located at the
bottom of the Bridge Configuration Information
view.

This button accesses a table providing traffic
statistics broken down by frame type for Local

Termination sessions—see Local Termination

Table View (Page 57).

This button accesses a table providing traffic
statistics broken down by frame type for Local
Termination sessions—see Filtering Information

View (Page 58).

This button accesses a table providing traffic
statistics broken down by frame type for Local
Termination sessions—see WAN Bridge Link Info

View (Page 59).

This button accesses a table providing traffic
statistics broken down by frame type for Local
Termination sessions—see Address Table

Parameters View (Page 60).

This button accesses a table providing traffic
statistics broken down by frame type for Local

Local Termination Config

MAC Address Filtering

WAN Bridge/Link Info

Permanent Address Table

802.1d Static Link Table

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Termination sessions—see 802.1d Static Link

Table View (Page 61).

This button accesses a table providing traffic
statistics broken down by frame type for Local
Termination sessions—see SRB WAN Bridge Link

Table View (Page 62).

Local Termination Table View

Access: In the Bridge Configuration Information view, click

the Local Termination Config button.

This view contains two tables of local termination
information. The upper table lists up to 64
stations. Column headings are as follows:

StnNumber

Number (1-64) identifying a particular station.

MacAddr

The MAC address of the station; this value must
match the source MAC address of the frame
received from the LAN port or the destination
MAC address of a frame received from the WAN
for the session to be spoofed.

SAP

The SAP (Service Access Point) of the station. This
value must match the source SAP of the frame

received from the LAN port or destination SAP of a
frame received from the WAN for the session to be
spoofed.

ProfileName

The name of the local termination profile
configured for this station (see LIcName below).
This name is used to obtain the associated
timeout and count values.

The lower table defines up to 8 local termination
profiles that may apply to link stations listed in
the upper table. Column headings are as follows:

Number

Number (1-8) identifying a particular local
termination profile.

LIcName

The name of the local termination profile
configured for this station (see ProfileName
above). This name is used to obtain the associated
time-out and count values.

AckTimer

The length of time in seconds after which the link
station will determine that a remote station has
failed to acknowledge an outstanding I frame or
supervisory frame with poll bit set to 1.

SRB Wan Bridge Links

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RcvAckTimer

The length of time in tenths of seconds that the
link station will wait to acknowledgment a frame
from a remote station. (This is a method of
reducing the amount of acknowledgments
generated by a link station.)

IdleTime

The length of time, in tenths of seconds, that the
station will wait after detecting an idle link (no
data to pass and no outstanding
acknowledgments) before sending a supervisory
frame with the poll bit set to 1.

ProfN2

The number of times an I frame or supervisory
frame with poll bit set to 1 will be transmitted due
to acknowledgment time-out, before the logical
link will be declared down (inoperative).

ProfN3

The number of times an I frame or supervisory
frame with poll bit set to 1 will be transmitted due
to acknowledgment time-out, before the logical
link will be declared down (inoperative).

TxWindSize

The maximum number of I frames a station may
transmit without acknowledgment.

Filtering Information View

Access: In the Bridge Configuration Information view, click

the MAC Address Filtering button.

This view contains the following two tables:

• MAC Address Filter Table (Page 58)

• Protocol Filter Table (Page 59)

MAC Address Filter Table

This table appears in the upper half of the
Filtering Information view. For each of up to 300
MAC address entries, there are four “action”
columns and four “list” columns. The “action”
columns display the filtering action (see Table 16)
that will be taken depending on whether the
address is the source of an incoming frame
(InSrcLkAct), the source of an outgoing frame
(OutSrcLkAct), the destination for an incoming
frame (IncDestLkAct), or the destination for an
outgoing frame (OutDestLkAct). In cases where
the filtering action is PASSLIST or BLOCKLIST, the
associated “list” column (InSrcLkList,
OutSrcLkList, OutDestList, or OutDestList)
identifies the individual links that will pass or
block frames in that category. Links are specified
by number and may contain a range (e.g., “1, 3, 4,
7-10” means links 1,3,4,7,8,9, and 10).

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Protocol Filter Table

This table appears in the lower half of the
Filtering Information view and is set up similarly
to the MAC Address Filter table in the same view.
For each of up to 100 protocol type/value entries,
there are two “action” columns (IncProtLkAct
and OutProtLkAct) and two “list” columns
(IncProtList and OutProtList). Possible values
for the “action” columns are the same as listed in

Table 16. When the filtering action is PASSLIST or

BLOCKLIST, the associated “list” column identifies
the individual links that will pass or block all
frames with the specified protocol type and value.

WAN Bridge Link Info View

Access: In the Bridge Configuration Information view, click

the WAN Bridge/Link Info button.

The top upper right portion of this view lists the
following link station configuration settings that
apply to all bridge links:

Acknowledge Timer

The length of time, in seconds, after which the
link station will determine a remote station has
failed to acknowledge an outstanding I frame or
supervisory frame with poll bit set to 1.

Receive Ack Timer

The length of time, in tenths of seconds, that the
link station will wait to acknowledgment a frame
from a remote station. (This is a method of
reducing the amount of acknowledgments
generated by a link station.)

IDLE Timer

The length of time, in tenths of seconds, that the
link station will wait after detecting an idle link
(no data to pass and no outstanding
acknowledgments) before sending a supervisory
frame with the poll bit set to 1.

Transmit Ack Count

The number of times an I frame or supervisory
frame with poll bit set to 1 will be transmitted due

Table 16: Filtering Action Descriptions

Action Description

PASS All links will pass frames with the indi-

cated MAC address.

BLOCK All links will block frames with the indi-

cated MAC address.

PASSLIST Only links on the associated list will pass

frames with this MAC address.

BLOCKLIST Only links on the associated list will block

frames with this MAC address.

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to acknowledgment time-out, before the logical
link will be declared down (inoperative).

Receive Ack Count

The number of frames the link station will receive
from the remote station before acknowledging
receipt.

Tx Window Size

The maximum number of I frames a station may
transmit without acknowledgment.

Tx Data Priority

The transmission priority of the LLC LT data over
WAN.

The bottom portion of the WAN Bridge Link Info
view is the 802.1d Base Link Group table, which
lists settings for individual bridge links. Column
headings are as follows:

LnkIndex

Number (5-36) identifying a particular WAN
bridge link.

LnkType

Identifies the type of bridging employed on this
link.

AddrFiltAction

Determines whether the link will pass or block
frames with a MAC address that are not listed in
the MAC Address Filter Table. A setting of “none”

indicates no MAC address filtering will be
performed for this link.

ProtFiltAction

Determines whether the link will pass or block
frames with a Protocol value that are not listed in
the Protocol Filter Table. A setting of none
indicates no MAC address filtering will be
performed for this link.

LnkManState

Determines whether to forward or block an STE
(or Single Route Broadcast ) frame when the Stp
Control parameter is set to Man.

Address Table Parameters View

Access: In the Bridge Configuration Information view, click

the Permanent Address Table button.

This view contains a table with entries for up to
8000 permanent MAC addresses that are loaded
into the Forwarding Table after a table or node
boot. Each entry identifies the bridge link
(LinkNum) to which frames with the given MAC
address will be forwarded.

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802.1d Static Link Table View

Access: In the Bridge Configuration Information view, click

the 802.1d Static Link Table button.

This view contains a table of filtering information
configured into the bridge by local or network
management specifying the set of WAN bridge
links to which frames received from a specific
bridge link and containing a specific destination
address are allowed to be forwarded. Column
headings are as follows:

DestMACAddr

The destination MAC address in a frame to which
this entry’s filtering information applies. This field
can take the value of a unicast address, a group
address, or the broadcast address.

RxPort

The number of the WAN bridge link from which a
frame must be received in order for this entry’s
filtering information to apply. A value of zero
indicates that this entry applies on all of the
device’s bridge links for which there is no other
applicable entry.

FwdFrmToLnk

The set of WAN bridge links to which frames
received from the specified port and destined for
the specified MAC address can be forwarded.

EntryStatus

The current status of the entry. See Table 17 for
expanded descriptions of possible status values.

Table 17: Entry Status Descriptions

Status Description

other Entry is currently in use, but the

conditions under which it will remain
so are different from each of the
following status values.

invalid Entries will be removed from table if

this value is written to the corre­sponding field.

permanent Entry is currently in use and will

remain so after the next reset of the
bridge.

deleteOnReset Entry is currently in use and will

remain so until the next reset of the
bridge.

deleteOnTimeout Entry is currently in use and will

remain so until it is aged out.

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SRB WAN Bridge Link Table View

Access: In the Bridge Configuration Information view, click

the SRB Wan Bridge Links button.

This table contains configuration information
about each WAN bridge link that is associated
with the device’s source route bridging function.
Column headings are as follows:

LinkNo

Number identifying a particular WAN bridge link.

HopCount

The maximum number of routing descriptors
allowed in an All Paths or Spanning Tree Explorer
frame.

BridgeNo

Number (0-15) uniquely identifying a particular
bridge when more than one bridge is used to span
the same two segments. A value of 65535 signifies
that no bridge number is assigned to this bridge.

TargetSeg

Number (0-4095) identifying the target segment
this link port is considered to be connected to by
the bridge. A value of 65535 signifies that no
target segment is assigned to this port.

LargestFrame

The maximum size of the INFO field (LLC and
above) that this port can send/receive.

Static Routes Info View

Access: From the Icon Subviews menu for the

MotRouterApp Application icon, select Routing

Information.

This view contains the following three areas:

• Static Route Table (Page 62)

• Dynamic Route Table (Page 63)

• RIP Information (Page 63)

Static Route Table

This area of the Static Routes Info view provides
configuration information about static routes
known to the device’s routing function. Column
headings are as follows:

Index

Value identifying a particular table entry.

IpNetwork

The IP address of a destination network or sub­network (Host addresses are not included in the
route table).

IpMask

The mask associated with the IP Network/Subnet
address. For example: if the destination is a
subnet of a class B network and the third byte of
the IP address is used as the subnet portion, the
address mask would be set to 255.255.255.0.

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NextHop

The IP address of the next hop to the destination.
The next hop itself must be on an IP network
directly connected to the router.

Metrics

Enables/disables the inclusion of all subnet
routes within RIP updates sent on this interface.

Dynamic Route Table

This area of the Static Routes Info view lists IP
addresses of destination networks/subnetworks
for dynamic routes. Host addresses are not
included.

RIP Information

This area of the Static Routes Info view displays
the following RIP configuration settings:

RIP Status

Indicates whether RIP processing is globally
enabled/disabled for the router.

Directed Broadcast

Indicates whether forwarding of IP packets whose
destination is a non-local (remote LAN) broadcast
address is enabled/disabled.

IP Access Control

Globally enables/ disables operation of the IP
Access Control table for this router.

Internal NetMask

This IP Address overrides the Router ID to become
the default IP address for the router. The default
IP address is used as the IP source address of
PING and ICMP frames originated from the router.
IP address is reported in SNMP trap frames. If
both Router ID and this internal IP address are
left undefined (as 0.0.0.0), the default IP address
is the IP address of the lowest numbered
operational interface of the router.

Route Cache Size

The maximum number of entries that may be
stored in the IP route cache. The IP route cache
holds the destination addresses of recently
received packets and for each entry maintains a
count of packets forwarded to that destination.

Originate Default Route

Indicates whether origination and RIP
advertisement of the default IP route 0.0.0.0. are
enabled/disabled for the router. Default route
advertisements must also be explicitly enabled for
each interface. The router will originate the
default route only when it has EGP-derived or
external OSPF routes in its routing table.

Reassembly Buffer Size

The size (in bytes) of the IP fragment reassembly
buffers. The setting must be greater than the size

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of the largest IP packet to be transmitted on the
organization’s network.

Routing Table Size

The maximum number of routes that may be
stored in the IP routing table.

Default Gateway

The IP address of the default gateway this router
will use when a packet’s destination route is
otherwise unknown. The next hop must be to a
router on a directly attached network.

Default Gateway Metric

The cost metric for a transmission to this router’s
default gateway, usually given as the number of
network hops.

Default IPAddress

Unless overridden by the Internal NetMask, the
Router ID is used as the default IP address of the
router. This is the principal management address
of the router, and is the IP source address of
SNMP Trap, PING and other ICMP frames
originated from the router. If both the Router ID
and Internal NetMask are left undefined (as

0.0.0.0), the default IP address is the IP address
of the lowest numbered operational interface of
the router.

Advertised Default Hops

The cost metric (usually the number of hops) that
RIP will advertise for the default route of 0.0.0.0.
A metric of 16 advertises that the default route is
unreachable.

IP Interchange Table View

Access: From the Icon Subviews menu for the

MotRouterApp Application icon, select IP Interchange

Table.

This view contains the following two tables on
routing interchange information:

• Output Table (Page 64)

• Input Table (Page 65)

Output Table

This area of the IP Interchange Table view has the
following column headings:

Index

Number identifying a particular output route.

NeighAS

The AS number assigned to an EGP neighbor. If
nonzero, the value must match a Neighboring AS
number entered in the IP EGP AS Information
Table. A value of 0 adds the route to the default
Output Exchange Table, which is reported to all

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new EGP neighbors learned and not otherwise
entered in the IP EGP AS Information table.

SourceAS

A value of 0 indicates the route should be
advertised regardless of the Autonomous System
(AS) it was received from. A value other than 0
indicates the route should only be advertised if
the route was received from the specified AS.

IPNetwork

The address of the local IP network for which
routing information will be advertised.

IGPMetric

This value, along with Metric, determines the
cost reported to EGP of accessing the internal IP
network. If this value is on, the cost advertised to
EGP will be identical to the locally reported
routing table cost (from RIP or OSPF). If this value
is off, Metric is reported.

Metric

A configured cost of the route to the interior
network, interpreted as a hop count. This cost is
reported to EGP if IGPMetric is off.

Input Table

This area of the IP Interchange Table view has the
following column headings:

Index

Number identifying a particular input route.

NeighAS

A neighboring AS to which route information will
be readvertised via OSPF and RIP. A value of 0
adds the route to the default Input Exchange
Table.

IPNetwork

The IP address of a network for which EGP
received routing information.

EGPMetric

Defines the source of the internally readvertised
costs of reaching the external IP network for this
entry. If value is on, the readvertised cost will be
identical to the cost received by the EGP protocol.
If value is off, Metric is reported.

Metric

A configured cost of the route.

Filter/Gateway/Priority Info View

Access: From the Icon Subviews menu for the

MotRouterApp Application icon, select Filter/Gateway Info.

This view has the following three defined areas:

• Traffic Info (Page 66)

• Filter Table (Page 66)

• Default Gateway Table (Page 66)

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Traffic Info

This area of the Filter/Gateway/Priority Info view
provides the following information:

Ip Traffic Priority

The priority for IP traffic relative to the rest of the
traffic transmitted over WAN virtual circuits.
Default value is high. Other possible values are
low, medium, and expedite.

Ipx Traffic Priority

The priority for IPX traffic relative to the rest of
the traffic transmitted over WAN virtual circuits.
Default value is high. Other possible values are
low, medium, and expedite.

Max Ip Interfaces

The maximum number of IP interfaces that can
be supported by the router.

Filter Table

This table within the Filter/Gateway/Priority Info
view has the following column headings:

Index

Number identifying a particular filter.

DestIPAddr

IP address of a network/subnet to filter. All
packets destined for a filtered network are

discarded, and no route to the filtered network is
advertised.

AddrMasks

Network (or subnetwork) address mask
associated with the network/subnet address to
filter.

Default Gateway Table

This table within the Filter/Gateway/Priority Info
view has the following column headings:

Index

Number identifying a particular default subnet
gateway.

SubnetAddr

The top-level IP address for the gateway. This
must be a class A, B, or C IP address. If this
router receives a packet destined to an unknown
subnet of that top-level net, it will forward the
packet to the default subnet router for that net.

NextHopAddr

The IP address of the next hop towards a router
performing subnet routing for the top-level net of
this record. This next hop must be to an IP
address on a network directly connected to this
router.

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Metric

The cost metric for a transmission to the default
subnet gateway, usually the number of network
hops to reach that other router.

IP BOOTP Server Info View

Access: From the Icon Subviews menu for the

MotRouterApp Application icon, select IP BOOTP Server

Table.

This view contains a table that lists IP addresses
for BootP servers to which the router will forward
BootP requests if BootpForwarding is enabled for
the router. The view also displays the following
three settings.

BOOTPServerAddr

The BootP server address.

BootpForwarding

Indicates whether BootP forwarding is
enabled/disabled for this router. BOOTP (Boot
Parameters) is a protocol that allows workstations
to obtain their startup operating system software
and other parameters from a BOOTP server host
on the IP network.

Bootp Max Hops

The maximum cost metric (hop count) a BootP
request is allowed to attain before being
discarded.

Bootp Idle Time (sec)

The number of seconds the router will wait for a
BOOT request to be repeated before forwarding
the request to BOOTP Server.

Motorola Node Management
Application (MotNodeMgmtApp)

This major application (model type MotNode
MgmtApp) provides the following application­specific subviews:

• SNMP Agent Details View (Page 67)

• Node Configuration View (Page 68)

• Node Statistics View (Page 72)

• Board Statistics View (Page 74)

• Port Statistics View (Page 75)

• Board Table View (Page 76)

SNMP Agent Details View

Access: From the Icon Subviews menu for the

MotNodeMgmtApp Application icon, select SNMP Agent

Details.

This view provides the following information
about the device’s SNMP agent:

Primary UDP Port

The primary User Datagram Protocol (UDP) port
used by the SNMP Agent. Default value is 161.

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Secondary UDP Port

The secondary UDP port used by the SNMP Agent.
Default value of 162.

Trap Send

Enables/disables the SNMP agent’s trap send
capability.

SNMP Agent Timer

An internal timer used by the SNMP agent, in
units of 20 ms.

Boot Agent

This menu button lets you determine whether the
SNMP agent will boot. Valid values are: boot,
noboot.

Reset Statistics

This menu button lets you determine whether the
SNMP agent will reset all its statistics. Valid
values are reset, noreset.

Generic Traps Type

This menu button lets you select a type of generic
trap.

Last Trap Info

The interesting information portion of the last
trap PDU issued by the SNMP Agent.

Node Configuration View

Access: From the Icon Subviews menu for the

MotNodeMgmtApp Application icon, select Node

Configuration.

This view (and a continuation accessed via the
More button at the bottom of the view) provides
node configuration information in the following
areas:

• General Node Information (Page 68)
(unlabeled)

• Thresholds (Page 70)

• Alarms (Page 70)

• Billing (Page 71)

• Traffic (Page 71)

• Codex Proprietary Information (Page 72)

General Node Information

This area (located just below the banner of Node
Configuration View) contains the following
information:

Node Name

Up to 8 alphanumeric characters identifying the
modeled node. This name appears at the top of
control terminal menus and reports.

Node Number

Number identifying the node for X.25 routing
purposes to prevent routing loops.

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Node Address

The main part of the X.25 network address for
this node. Incoming calls with this value as the
first part of the network address are routed to this
node. The subaddress portion of the network
address (Control Port Subaddress, etc.) routes the
incoming call to a specific destination in the node.

Node Date Stamp

Date used for date stamps of events and traps, in
yyyymmmdd format.

Chassis Type

Identifies the chassis type of the node. Valid
values are: standalone, modulus8, modulus18,
modulus9, modulus19, and chassis6520.

Maximum Routing Hops

The maximum number of nodes a call may pass
through before reaching its destination.

Max simultaneous calls

The maximum number of simultaneous calls that
can be handled. Limiting the number of calls
eliminates data loss in extreme traffic conditions.
A value of zero indicates unlimited calls.

Time Stamp

The node time, in hh:mm:ss format, used for time
stamps of events and traps.

No. of Broadcast Networks

The number of Broadcast Networks to which this
node can send broadcast messages. A value of
zero means the broadcast function is disabled for
this node.

Broadcast Port Subaddress

The broadcast subaddress for this node. Incoming
broadcast messages with a network address
consisting of the Node Address and this
Broadcast Port Subaddress arrive at this port in
this node. No Routing Table entry is needed.

No. of Broadcast Input Chans

The number of simultaneous broadcast messages
that can be received.

Ctrl Port Idle DisconnectTime

The number of minutes of inactivity that can
occur before the control terminal is automatically
disconnected.

Control Port Subaddress

The Control Terminal Port (CTP) subaddress for
this node. Incoming calls with a network address
consisting of the node address for this node and
this Control Port Subaddress arrive at this node’s
CTP.

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Thresholds

This area of the Node Configuration view displays
the following threshold settings:

Port Utilization Threshold

Sets the alarm level for traffic on every port in a
node. The traffic is checked over a 64-second
interval to determine average characters per
second, which is compared to the port’s clock rate
to determine this threshold. If the percent of
utilization exceeds the setting, an alarm is
generated. Port utilization records are kept for
each port, and the port in question is noted in the
report.

Buffer Utilization Threshold

The percentage of temporary storage buffer usage
above which an alarm will be generated.

CPU Utilization Threshold

The percentage of CPU time spent performing
non-diagnostic functions above which an alarm
will be generated.

Port Error Threshold

The number of port errors (such as parity or
framing errors) that can be detected before a
medium severity alarm is generated.

Alarms

This area of the Node Configuration view displays
the following alarms settings:

Alarm Distribution

Specifies where alarm and event reports will be
sent. Possible values are: none (if no reports are
to be sent) or any combination of ctp (control
terminal port), prin (printer—see Alarm Printer
Mnemonic, described below), or log (the node’s
log, which may save up to 60 alarms).

Alarm Printer Mnemonic

The mnemonic name for the destination of alarms
sent by the node if Alarm Distribution is set to
“prin.”

Alarm Threshold Timer

The amount of time that must elapse after
generation of an alarm before the node can
generate that alarm again.

Alarm Selection

The types of alarms and events that are reported
by the node. Possible values are: none, low,

medium, high, conn (connection events), and
code (alarms from Codex 6000 Statistical

Multiplexer devices).

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Billing

This area of the Node Configuration view displays
the following billing settings:

Billing Printer Mnemonic

The mnemonic name of the logging device port to
which the node sends billing records.

Billing Record Call Threshold

The maximum number of billing records that can
be stored in an internal buffer before they are
sent to the logging device.

Max Billing Records

The maximum number of billing records the node
stores if the logging device cannot receive the
records for printing. After the number of records
exceeds this value, old records are deleted from
the buffer as new records are stored.

Billing Record Timer (minutes)

The number of minutes billing records are stored
before they are automatically sent to a logging
device for printing.

PVC Billing Record Timer (minutes)

The number of minutes billing records for PVCs
(with billing activated) are stored before they are
automatically sent to a logging device for printing.

General Product Feature Set

Identifies a general class of feature set for the
product.

PAD Bulletin Message

Specifies the message that appears when a
terminal connects to a PAD port and enters
command mode. A value of blank indicates no
message will appear.

PAD Banner Message

Specifies the message that PAD ports send to
attached terminals that enter command mode.

Traffic

This area of the Node Configuration view displays
the following traffic settings:

Traffic Priority

The default traffic priority for the node. Possible
settings are: low, medium, high, and exp.

Traffic Priority Step

The number of packets to be transmitted for each
lower priority packet transmitted.

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Codex Proprietary Information

This area of the Node Configuration view displays
the following Codex proprietary information:

Codex Group Facility

The facility used in call packets on Codex 6500
links for passing CODEX PRIVATE facilities other
than Hop Count and DCP facilities between 4.xx
nodes. This should be the same on all nodes in
the network. It only needs to be changed if it
interferes with some other private network
facility.

Codex Proprietary Protocol ID

This value is put in the first byte of the Protocol
Identifier field of the CUD in the Call Request
packets for protocols that have not been assigned
a standardized value by the CCITT.

Link - Max Frame Size

The largest datalink level frame that will ever be
received on any link. On WAN links, this does not
include space that is reserved internally for
trailers.

Hop Count Facility

The facility used in call packets on X.25 links
with the INL option for network routing. This
should be the same in all nodes in the network. It
need only be changed if it interferes with some
other private network facility.

DCP Facility Code

This value is used in call request and call accept
packets on X.25 links to carry DCP information at
call setup and reconnection time. The code must
be the same for all nodes in the network. The
default value should be changed only when it
interferes with some other facility. This value
must not be the same as Hop Count Facility.

RouteLanSubaddr

Calls with network address composed of the node
address and this subaddress will be routed to a
LAN connection in this node.

Alarm Selection

Specifies the types of alarms and events that are
reported by the node. Possible values are: none,

low, medium, high, conn (connection events), and
code (alarms from Codex 6000 Statistical

Multiplexer devices).

Node Statistics View

Access: From the Icon Subviews menu for the

MotNodeMgmtApp Application icon, select Node Statistics.

In addition to providing button access to a
number of subviews, the Node Statistics view
contains the following three defined areas:

• Last Occurrences (Page 73)

• PVC Connections (Page 73)

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• Reset Buttons (Page 73)

Last Occurrences

This area of the Node Statistics view provides the
following information:

Node Turn-on

The last time the node was turned on.

Reset Time

The last time the reset button was pressed.

Watchdog Timer Expiry

The last time the watchdog timer expired.

Node Reboot

The last time the configuration memory was
changed or downloaded.

Fan Status

The operational status of the cooling fan. Possible
values are: notmonitored, operational, and
impaired.

PVC Connections

This area of the Node Statistics view displays the
following information:

Current number of PVC connections

The number of permanent virtual circuit
connections currently in place.

Max PVC connections since last reset

The highest number of permanent virtual circuit
connections in place since the last reset.

Reset Buttons

This area of the Node Statistics view contains the
following information:

Reset All Statistics

Toggling this menu button to reset resets all
statistics for the node. The noreset setting has
no effect.

Set Default Node

This menu button lets you keep the current
configuration of the entire node (nodefault) or
change back to the default settings (default).

Caution:

Caution:

If you change this setting to
“default,” communications are
disrupted and data could be lost after
a boot. In addition, configuration
settings are lost unless they have
been saved to an external device.

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The following four access buttons are located at
the bottom of the Node Statistics view.

This button accesses a subview providing the
following memory statistics:

• Compressed Config Memory Available

• Compressed Config Memory in use

• Uncompressed Config Memory Available

• Uncompressed Config Memory in use

• Last Occurrence of Config Memory change

This button accesses a subview providing the
following x.25 statistics:

• Number of Calls currently in place

• Number of Calls since last reset

• Number of Calls/sec

• Max no. of calls/sec

This button accesses a table that lists all of the
node’s ports and allows statistics to be reset on a
port-by-port basis.

This button accesses a subview providing the
following throughput statistics for the node:

• Current characters/sec

• Current packets/sec

• Max characters/sec since last reset

• Max packets/sec since last reset

Board Statistics View

Access: From the Icon Subviews menu for the

MotNodeMgmtApp Application icon, select Board

Statistics.

This view contains a table of statistical
information about the boards installed in the
modeled device. Column headings are as follows:

Board No.

Identifies a particular board in the modeled
device.

DataBuffAvail

The number of data buffers available.

Memory Statistics

X25 specific statistics

Reset Node Stats Table

Node Throughput Statistics

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DataBuffInUse

The number of data buffers in use.

DataBuffGauge

The maximum number of data buffers in use
since last reset.

MemAvailOnCard

Amount of memory available on the processor
card in bytes.

MemUsedForDataBuff

Amount of memory used for data buffers in bytes.

FlashModuleSize

The size of the flash module in bytes. This refers
to the currently selected bank of flash when there
is an alternate bank of flash installed.

CPUutil

Percentage of time the CPU processed traffic data
(as opposed to performing diagnostic tests or
processing node-control data) in the last 64
seconds.

Port Statistics View

Access: From the Icon Subviews menu for the

MotNodeMgmtApp Application icon, select Port Statistics.

This view contains a table of statistical
information about the modeled device’s ports.
Three buttons at the bottom of the view access

separate tables for receive, transmit, and error
statistics. Column headings for the main table are
as follows:

PortNo.

Identifies a particular port on the modeled device.

PortType

The type of port. Valid values are: illegal, null,
pad, x25, mux, test, spare2, spare3, spare4,
mx25, spare, bsc2780, bsc3270, vip, pos, sdlc,
ncrbsc, fri, xdlc, bstd, rs366, spare5, spare6,
ibm2260, vap, tbop, n270, tcop, tr, sl, and eth.

PortStatus

Current status of the port. Valid values are:
disabled, enabled, busyOut, up, and down.

PortState

Current state of the port. The value x28 indicates
command mode; pad indicates data mode.

PortSpeed

This is the speed of the port when Clock=Int; this
is detected clock speed if Clock=Ext. If Port Speed
is 0, Clock=Ext but clocking is not being received
from attached device.

PktsQueued

Number of packets currently queued for output.

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This button at the bottom of the Port Statistics
view accesses the Port Receive Statistics table,
which provides the following statistics for each
port:

• Port Utilization (% of bandwidth being used)

• Total Characters Received

• Total Packets Received

• Total Frames Received

• Average Characters Received per second

• Average Packets Received per second

• Average Frames Received per second

This button at the bottom of the Port Statistics
view accesses the Port Transmit Statistics table,
which provides the following statistics for each
port:

• Port Utilization (% of bandwidth being used)

• Total Characters Sent

• Total Packets Sent

• Total Frames Sent

• Average Characters Sent per second

• Average Packets Sent per second

• Average Frames Sent per second

This button at the bottom of the Port Statistics
view accesses the Port Errors table, which
provides the following statistics for each port:

• Overrun Errors

• Underrun Errors

• CRC Errors

• Parity Errors

• Framing Errors

Board Table View

Access: From the Icon Subviews menu for the

MotNodeMgmtApp Application icon, select Board Table.

This view contains a table that provides
configuration and status information about the
boards installed in the modeled device. Column
headings are as follows:

BoardNo.

Identifies a particular board in the modeled
device.

BoardType

Describes the type of board (e.g., motherboard,
ethernet, modem, etc.).

Receive

Transmit

Errors

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No.of I/OPort

The number of I/O ports for this board.

BoardStatus

Describes the current status of the board.

SerialNo.

The serial number of the board.

I/FType(DIM1)

The type of interface specified by DIM 1.

I/FType(DIM2)

The type of interface specified by DIM 2.

Voice Application (MotVoiceApp)

This major application (model type MotVoiceApp)
provides the following application-specific
subviews:

• Voice Port Configuration Table View (Page 77)

• Voice Switch Configuration Table View
(Page 90)

• Port Statistics Table View (Page 92)

Voice Port Configuration Table View

Access: From the Icon Subviews menu for the

MotVoiceApp Application icon, select Port Configuration.

This table contains the port configuration
parameters to configure the DSPM/E&M,

DSPM/FXS, DSPM/HC, and DSPM/SM. The
following column headings are displayed:

PortNumber

The voice port number.

PortType

The port type. A value of voice signifies this is a
voice port.

InterfaceType

The physical interfaces being used for this port.
The entry must match the hardware. Table 18
lists possible Interface Types:

Table 18: Interface Types

Interface Type Description

eAndM2 2 wire E&M (Ear and Mouth)

Interface. Only displayed for
port numbers 1..54.

eAndM4 4 wire E&M (Ear and Mouth)

Interface.

fxo FXO (Foreign Exchange Office)

Interface.

fxs FXS (Foreign Exchange

Station) Interface.

nc Skipped during configuration.

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signallingType

Select the E&M signalling type. Valid values are:
i, ii, iii, v, and nc. This parameter is displayed

for DSPM/E&M and skipped for FXS, FXO, and
all virtual port types.

ELeadFilter

Selection for E lead filter enable or disable option.
This parameter is displayed for DSPM/E&M and
skipped for FXS, FXO, and all virtual port types.
Valid values are: enabled, disabled, and nc.

HybridFXS

Hybrid balance filters and termination type based
on country. Table 19 displays the valid filters:

This parameter is displayed for DSPM/FXS and
skipped for DSPM/E&M, DSPM/HC(FXO) and all
virtual port types.

HybridEAndM2

Hybrid balance filters and termination type based
on country. (Only for E&M-2wire interfaces.)

Table 20 displays valid filters and descriptions:

Table 19: Hybrid FXS Filters

Filter Description

sixHundred 600 ohm interface for USA, Japan and

Ireland.

Canada 600 ohms with 2.16 uF.

Germany 220 ohms in series with (820 ohms in

parallel with 115nF).

UK 300 ohms in series with (1K ohms in

parallel with 220nF).

Belgium 150 ohms in series with (830 ohms in

parallel with 72nF).

France 215 ohms in series with (1K ohms in

parallel with 137nF).

nc Skipped during configuration.

Table 19: Hybrid FXS Filters

Filter Description

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signallingMode

Select the voice signalling mode. Table 21
displays the valid signalling modes:

signallingContro

Select signalling control transmission mode in
E&M interface type. Table 22 displays valid
signalling control modes:

This value will be nc for FXO & FXS type
interface.

Table 20: HybridEAndM2 Filters

Filter Description

sixHundred 600 ohm interface for USA, Japan and

Ireland.

Germany 220 ohms in series with (820 ohms in

parallel with 115nF).

UK 370 ohms in series with (620 ohms in

parallel with 310nF).

nc Skipped during configuration.

Table 21: Signalling Mode

signalling Mode Description

normal Allows signalling to pass end to end

and signalling will be used to control
circuit state and packet flow.

node A permanent voice path is established

and packet flow is always enabled, but
no signalling will be passed through.

nc Skipped during configuration.

Table 22: Signalling Control Transmission

Mode Description

immediate Digits are transmitted immediately.

wink Digits are transmitted after the

WINK pulse.

transparent The voice signalling states are

transmitted end to end without
interpreting the signalling state.

delay Digits are transmitted after the end

of the Delay Dial signal.

masterColisee 65xx is simulating Colisee master

mode.

slaveColisee 65xx is simulating Colisee slave

mode.

seizureAcknowledge Transmit Seizure acknowledge

immediately after receiving a
Seizure signal from the PBX.

nc Skipped during configuration.

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NoOfDigitsToCol

Select number of digits to collect before making a
call.

NoOfRings

Number of rings to be received before a call can be
accepted. This parameter is displayed for FXO
and skipped for E&M and FXS interface types. A
value of 0 implies that this parameter was
skipped during configuration.

PCMMode

Select the PCM encoder/decoder mode. Valid
values are: aLaw and muLAW.

CompressionRate

Select the voice compression rate to be used by
the DSP. Valid values are: cD8K, c16k, cBD8K,
cB16k, cE8Kb, cE16Kb, and nc.

DSIControl

Select if the Digital Speech Interpolation (Silence
Detector) will be used with this channel. Valid
values are: enabled, disabled, and nc.

SmoothingDelay

Select maximum inter packet arrival jitter due to
network in milliseconds.

EchoControl

Select echo control. Valid values are: disabled,
enabled, and nc. This parameter will be skipped

in normal mode and only displayed when DEBUG
is turned on.

EchoReturnsLoss

Select echo return loss in dBm. Valid values are:
minus3, minus6, minus9, minus12, and nc.

TxInputSignalLe

Enter the input signal level. To be specified in
steps of 0.5 dBm.

Table 23: FXO Interface Type

Type Input Signal Level

600 Ohms +6.0 to -2.5dbm

600 Ohms
Adaptive

+6.0 to -2.5dbm

Table 24: FXS Interface Type]

Type Input Signal Level

600 Ohms +6.0 to -6.0dbm

Canada +6.0 to -5.5dbm

UK +4.5 to -7.5dbm

Germany +4.0 to -8.0dbm

France -2.0 to -9.0dbm

Belgium +4.0 to -8.0dbm

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Entering a negative number for the “Input Signal
Level” will result in the DSPM card amplifying the
signal by that many dB. Level will result in the
DSPM card attenuating the signal by that many
dB.

RxOutputSingalL

Enter the output signal level. To be selected in
steps of 0.5 dBm.

Entering a negative number for the “Output
Signal Level” will result in the DSPM card
attenuating the signal by that many dB. Entering

Table 25: E&M Interface Type

Type Input Signal Level

4-Wire/600 +7.0 to -16.0dbm

2-Wire/600 +7.0 to -16.0dbm

2-Wire/UK +5.0 to -16.0dbm

2-Wire/Germany +5.0 to -16.0dbm

Virtual Ports(100
and above)

+8.0 to -6.0dbm

Table 26: FXO Interface Type

Type Input Signal Level

600 Ohms +0.0 to -8.0dbm

600 Ohms
Adaptive

+0.0 to -8.0dbm

Table 27: FXS Interface Type

Type Input Signal Level

600 Ohms +0.0 to -9.0dbm

Canada +0.0 to -9.0dbm

UK -1.5 to -9.0dbm

Germany -2.0 to -9.0dbm

France -1.5 to -9.0dbm

Belgium 1.5 to -9.0dbm

Table 28: E&M Interface Type

Type Input Signal Level

4-Wire/600 +7.0 to -16.0dbm

2-Wire/600 +3.0 to -16.0dbm

2-Wire/UK +1.0 to -16.0dbm

2-Wire/Germany +0.0 to -16.0dbm

Virtual Ports(100
and above)

6.0 to -8.0dbm

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a positive number for the “Output Signal Level”
will result in the DSPM card amplifying the signal
by that many dB.

FaxSupport

Selects whether the FAX data is to be supported.
Valid values are: disabled, enabled, and nc.

FaxRates

The speed to switch to, when FAX data is
detected. This parameter is ignored if Fax support
was disabled. Valid values are: fr9600, fr4800,
and nc.

BandDetect

Modem data detection. Valid values are: yes, no,
and nc. This parameter will be skipped in normal
mode, and displayed only when DEBUG is turned
on.

AutoCallMnemoni

This mnemonic name is used to originate the call.
It consists of 0 - 8 alphanumeric characters.

CallControl

Select calling method. Table 29 displays the valid
methods and descriptions:

AutoCallTimeout

Time interval between two successive calls in case
of failure of previous call. Used only in “Auto” call
control mode. This parameter will be skipped if
CallControl is “Offhook” or “Switched.”

CallRetries

Enter maximum number of call retries when
previous call failed. Used only in Auto Call
Control mode. The value 0 means try forever. This
parameter will be skipped if CallControl is
“Offhook” or “Switched.”

Table 29: Calling Methods

Method Description

offhook Call only when Offhook. Disconnect on

Onhook.

auto SVC does not depend on On/Offhook

condition. It remains established
permanently after the power-up.

switched Call only when interface goes offhook

and disconnect call when interface goes
onhook. Destination is determined by
the DTMF digits received.

nc Skipped during configuration.

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GroupSubaddress

Specifies a port subaddress that is shared by
several Voice ports. Incoming calls with this
subaddress are routed to one of several ports
sharing this subaddress. Another name for the
group of ports with the same Group Subaddress
is Hunt Group.

Billing

This controls whether billing (accounting) records
will be created for calls on this port. Valid values
are: enabled, disabled, and nc.

RxsignallingStat

The amount of time to declare a valid supervisory
signalling state change. The granularity is 10
milliseconds.

T1E1RxIdleOnhoo

The signalling state that represents the idle state.
For E1 ports and T1 ESF ports, these bits
represent the ABCD signalling bits on the
interface. For T1 SF ports these bits represent
ABAB signalling bits. The value X means don’t
care. The range is from 0000 to 1111.

T1E1TxIdleOnhoo

The signalling state that represents the idle state.
For E1 ports and T1 ESF ports, these bits
represent the ABCD signalling bits on the
interface. For T1 SF ports these bits represent

ABAB signalling bits. The range is from 0000 to

1111.

T1E1RxActiveOff

The signalling state that represents the active
state. For E1 ports and T1 ESF ports, these bits
represent the ABCD signalling bits on the
interface. For T1 SF ports these bits represent
ABAB signalling bits.The value X means don’t
care. The range is from 0000 to 1111.

T1E1TxActiveOff

The signalling state that represents the active
state. For E1 ports and T1 ESF ports, these bits
represent the ABCD signalling bits on the
interface. The range is from 0000 to 1111.

T1E1RingingStat

The signalling state that represents the ringing
state. For E1 ports and T1 ESF ports, these bits
represent the ABCD signalling bits on the
interface. For T1 SF ports, these bits represent
ABAB signalling bits.The value X means don’t
care. The range is from 0000 to 1111.

T1E1NoRingingSt

The signalling state that represents the no ringing
state. For E1 ports and T1 ESF ports, these bits
represent the ABCD signalling bits on the
interface. For T1 SF ports these bits represent

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ABAB signalling bits. The value X means don’t
care. The range is from 0000 to 1111.

RxWinkStartTime

The maximum time to wait for the beginning of
the wink signal from the PBX before declaring a
wink start malfunction. Granularity is 50
milliseconds.

RxMinimumReceiv

The amount of time required to declare a valid
wink. Granularity is 10 milliseconds.

RxCalledEndGlar

The length of time when a wink pulse will be
detected as a glare condition. Granularity is 50
milliseconds.

RxFirstDigitTim

The maximum time (in seconds) to wait for the
first DTMF digit before declaring a “busyout”
state. Granularity is 1 second.

RxInterdigitTim

This is the maximum time (in seconds) to wait for
a subsequent receive digit before declaring a
misdial. Granularity is 1 second.

TxWinkDelay

The time delay from receiving a valid Offhook
state to start transmitting a wink. Granularity is
10 milliseconds.

TxWinkWidth

The width of the transmitted wink pulse.
Granularity is 10 milliseconds.

TxDigitDelay

The time delay before transmitting the first DTMF
digit after a wink is received. Granularity is 10
milliseconds.

TxDigitOn

The time DTMF digits are transmitted.
Granularity is 10 milliseconds.

TxInterdigitTim

The time between transmitting DTMF digits.
Granularity is 10 milliseconds.

RxInterringWait

The maximum time to wait for subsequent receive
rings before declaring a call abandoned condition.
Granularity is 1 second.

RxRingStateChan

The amount of time to declare the change in the
ring state. Granularity is 50 milliseconds.

TxRingerOffLong

This timer is the “long off” period for ringer
cadences that have a short and long off period.
For the cases where the ring cadence defines one
off period, the Tx Ringer Off Long must be equal

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to Tx Ringer Off Short. Granularity is 50
milliseconds.

TxRingerOffShor

This timer is the “short off” period for ringer
cadences that have a short and long off period.
For the cases where the ring cadence defines one
off period, the Tx Ringer Off Long must be equal
to Tx Ringer Off Short. Granularity is 50
milliseconds.

TxRingerOn

The time of the ringer on pulse. Granularity is 50
milliseconds.

RxDisconnectTim

The amount of time required to receive idle
signalling to disconnect a call. For an analog FXO
port, RX idle signalling is the loss of loop current.
For a FXS port, RX idle signalling is when the
interface goes onhook. For an analog E&M port,
RX idle signalling is when the “M” lead goes idle.
For digital interfaces, the RX idle state is defined
by the ’T1/E1 Rx Idle (on-hook) State’ parameter.

RxCalledEndDisc

The additional amount of time beyond the Rx
Disconnect filter the calling end must be Onhook
to disconnect a call. Granularity is 1 second.

LineErrorRecove

The length of time voice will be suppressed after
LOS or OF condition clears. Granularity is 10
milliseconds. This parameter will be displayed for
virtual ports only.

signallingSample

The time between sampling received signalling
states and line states. Granularity is 1
millisecond. This parameter will be displayed only
when the DEBUG flag is set.

WaitForParams

The amount of time to wait for a message to set
the parameters after receiving a disconnect
message (messages occur in the form of an event)
before busying out the port. Granularity is 1
second. This parameter will be displayed only
when the DEBUG flag is set.

SpareTimer1

Spare timer number 1. Granularity is 1
millisecond. This parameter will be displayed only
when the DEBUG flag is set.

SpareTimer2

Spare timer number 2. Granularity is 1
millisecond. This parameter will be displayed only
when the DEBUG flag is set.

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TxInterdigitPau

The time between transmitting DTMF digits.
Enter in steps of 10 msec.

RxMinimumFlashH

The shortest length of time required to be onhook
to be recognized as a flash-hook. This value must
be less than RxMaximumFlashH for flash-hook
to be recognized.

RxMaximumFlashH

The longest length of time required to be onhook
to be recognized as a flash-hook. This value must
be greater than RxMinimumFlashH for flash­hook to be recognized.

TransparentSign

The received signalling state that represents the
idle state. For E1 ports and T1 ESF ports, these
bits represent the ABCD signalling bits on the
interface. The value X means don’t care. For E&M
analog ports, Onhook is assumed for the idle
state. The range is 0000 to 1111.

TransparentRxDi

The time the received signalling state must be
equal to the idle state to disconnect the voice call.
Zero value disables idle state disconnect and
maintains the voice call in the answered state.
Time is entered in minutes.

TrsprntSingalin

The received signalling state that represents the
Busyout state. For E1 ports and T1 ESF ports,
these bits represent the ABCD signalling bits on
the interface. For E&M analog ports, Offhook is
assumed for the busyout/alarm state. The range
is 0000 to 1111.

XlateSig0000Fro - XlateSig1111Fro

Translate the signalling information received from
the remote end to a value to be transmitted out
the local port. If the local port is a T1/ESF or E1
port enter the ABCD values, for a T1/SF port,
enter the AB(AB) value. If the local port is an
analog E&M port, enter 0000 for idle (Onhook)
and 1111 for active (Offhook). The range is 0000
to 1111.

XlateSig1000Fro

Translate the signalling information received from
the remote end to a value to be transmitted out
the local port. If the local port is a T1/ESF or E1
port enter the ABCD values, for a T1/SF port,
enter the AB(AB) value. If the local port is an
analog E&M port, enter 0000 for idle (Onhook)
and 1111 for active (Offhook). The range is 0000
to 1111.

XlateSig0100Fro

Translate the signalling information received from
the remote end to a value to be transmitted out

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the local port. If the local port is a T1/ESF or E1
port enter the ABCD values, for a T1/SF port,
enter the AB(AB) value. If the local port is an
analog E&M port, enter 0000 for idle (Onhook)
and 1111 for active (Offhook). The range is 0000
to 1111.

XlateSig1100Fro

Translate the signalling information received from
the remote end to a value to be transmitted out
the local port. If the local port is a T1/ESF or E1
port enter the ABCD values, for a T1/SF port,
enter the AB(AB) value. If the local port is an
analog E&M port, enter 0000 for idle (Onhook)
and 1111 for active (Offhook). The range is 0000
to 1111.

DialLwFre

The lower of the two frequencies needed to
generate the dial tone.

DialLwFreAmplit

The amplitude of the lower frequency to generate
the dial tone. To be specified in steps of 0.5dB, ­30dB turn off output. The range is from -30dBm
to -3dBm.

DialupoFre

The higher of the two frequencies needed to
generate the dial tone.

DialUpFreAmplit

The amplitude of the upper frequency to generate
the dial tone. To be specified in steps of 0.5dB, ­30dB turn off output. The range is from -30dBm
to -3dBm.

RingBackLwFre

The lower of the two frequencies needed to
generate the Ringback tone.

RingBackLwFreAm

The amplitude of the lower frequency to generate
the Ringback tone. To be specified in steps of

0.5dB, -30dB turn off output. The range is from ­30dBm to -3dBm.

RingBackUpFre

The higher of the two frequencies needed to
generate the Ring-back tone.

RingBackUpFreAm

The amplitude of the upper frequency to generate
the Ringback tone. To be specified in steps of

0.5dB, -30dB turn off output. The range is from ­30dBm to -3dBm.

BusyLwFre

The lower of the two frequencies needed to
generate the Busy tone.

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BusyLwFreAmplit

The amplitude of the lower frequency to generate
the Busy tone. To be specified in steps of 0.5dB, ­30dB turn off output. The range is from -30dBm
to -3dBm.

BusyUpFre

The higher of the two frequencies needed to
generate the Busy tone.

BusyUpFreAmplit

The amplitude of the upper frequency to generate
the Busy tone. To be specified in steps of 0.5dB, ­30dB turn off output. The range is from -30dBm
to -3dBm.

TxBusyOffTime

Timer for the Busy tone off state. Granularity is
50 milliseconds.

TxBusyOnTime

Timer for the busy tone on state. Granularity is
50 milliseconds.

FastBusyLwFre

The lower of the two frequencies needed to
generate the Fast Busy tone.

FastBusyLwFreAm

The amplitude of the lower frequency to generate
the Fast Busy tone. To be specified in steps of

0.5dB, -30dB turn off output. The range is from ­30dBm to -3dBm.

FastBusyUpFre

The higher of the two frequencies needed to
generate the Fast Busy tone.

FastBusyUpFreAm

The amplitude of the upper frequency to generate
the Fast Busy tone. To be specified in steps of

0.5dB, -30dB turn off output. The range is from ­30dBm to -3dBm.

TxFastBusyOffTi

Timer for the Fast Busy tone off state.
Granularity is 50 milliseconds.

TxFastBusyOnTime

Timer for the Fast Busy tone on state. Granularity
is 50 milliseconds.

HybridFXO

Hybrid balance filters. Valid values are:
sixHundred, adaptive, and nc. This parameter
is displayed for DSPM/HC (FXO) and skipped for
DSPM/E&M, DSPM/FXS and all virtual port
types.

TxPulse

The width of the transmitted Seizure, PTS, or
Answer pulse in msec.

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RxMinPulse

The minimum pulse width to declare a valid
received Seizure, PTS, or Answer pulse.

RxMaxPulse

The maximum pulse width to declare a valid
received Seizure, PTS, or Answer.

TxMasterClear

The width of the transmitted Master Clear­Forward, Clear-Back, or Release Guard pulse in
msec.

RxMinMasterClea

The minimum pulse width to declare a valid
received Master Clear-Forward, Clear-Back, or
Release Guard.

RxMasMasterClea

The maximum pulse width to declare a valid
received Master Clear-Forward, Clear-Back, or
Release Guard.

TxSlaveClear

The width of the transmitted Slave Clear-Forward
or Clear-Back pulse in msec.

RxMinSlaveClear

The minimum pulse width to declare a valid
received Slave Clear-Forward or Clear-Back.

RxMaxSlaveClear

The maximum pulse width to declare a valid
received Slave Clear-Forward or Clear-Back.

TxSlaveRelease

The width of the transmitted Slave Release Guard
pulse in msec.

RxMinSlaveRelea

The minimum pulse width to declare a valid
received Slave Release Guard.

RxMaxSaveRelea

The maximum pulse width to declare a valid
received Slave Release Guard.

TxPTSTime

The time delay from receiving a valid Seizure from
the PBX to start transmitting a PTS pulse.

RxPTSTime

The maximum time to wait for a PTS pulse from
the PBX after sending a Seizure before giving up
and clearing the trunk.

MasterGuard

The time the master side waits in the guard state
after transmitting a clear pulse.

SlaveGuard

The time the slave side waits in the guard state
after transmitting a clear pulse.

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TxFlashHookTime

The length of time a flash signal will be
transmitted as a result of a flash-hook from the
remote interface.

DtmfAmplitude

The amplitude of the DTMF digits. To be specified
in steps of 0.5dB, -30.0 turn off output. The
range is from -30dBm to -3dBm.

FXSOffhookFilte

This is the amount of time a valid OFFHOOK
condition must be present before an analog FXS
will declare OFFHOOK.

Voice Switch Configuration Table View

Access: From the Icon Subviews menu for the

MotVoiceApp Application icon, select Switch

Configuration.

This view contains the following information:

RxDTMFDigitS

Select the voice number plans for the 6520/6560
network.

The received DTMF digits received by the voice
interface is compared to this parameter. Enter a
trailing asterisk (*) as a wild-card. Use the space
bar to blank the parameter. Range: 1 to 20
characters (valid characters are 0 through 9, ’-’,
’,’, ’/’, and ’*’). The characters ’-’, ’,’, and ’/’ are

allowed only for ease of reading. They are not sent
to the remote port.

Note: The maximum number of digits that can be
sent to the remote end is 16.

NumRxDigitTo

Select the number of DTMF digits to be received
before making the call request.

CallParam

Define the network address of the called node and
the port or Hunt Group number of the desired
destination port.

AlternateDes

The alternate destination.

CompressionO

Select the voice compression override algorithm.

Table 30 displays the compression overrides and

descriptions:

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NumLeadingDi

Select the number of leading digits to be stripped
off the received digits stream before sending the
digits stream to the remote port.

PreFixDigits

Select digits to be added in front of or at the end
of the received stream (after the stripped digits
are removed) before sending the digit stream to
the remote port. Range: 1 to 20 characters (valid
characters are 0 through 9, ’*’, ’#’, ’R’, ’P’, and ’-’).
The character ’-’ is allowed only for ease of

reading. It is not sent to the remote port. The ’P’
character is used to indicate a pause is required
in the playout of the digits at the remote end. The
length of the pause is equal to “Tx Interdigit
Pause Time” as defined at the called port
(destination port). Leading ’P’ characters are not
supported. The character ’R’ is used to separate
the prefix digit string from the postfix digit string.
The maximum number of digits that can be sent
to the remote end is 16.

PostFixDigits

Select DTMF digits to be added at the end of the
received DTMF stream before sending the digit
stream to the remote port. Range: 1 to 20
characters (valid characters are 0 through 9, ’-’,
’,’, ’/’, ’*’, ’#’, and ’P’). The characters ’-’, ’,’, and ’/’
are allowed only for ease of reading. They are not
sent to the remote port. The ’P’ character is used
to indicate a pause is required in the playout of
the digits at the remote end. The length of the
pause is equal to “Tx Interdigit Pause Time” as
defined at the called port (destination port). The
maximum number of digits that can be sent to
the remote end is 16.

EntryNumber

The entry number in the Voice Switch Table.

Table 30: Compression Overrides

Compression OR Description

none No override, use port configured

value.

c8k 8k CVSELP.

c16k 16k CVSELP.

cB8k Bundled 8k CVSELP.

cB16k Bundled 16k CVSELP.

cE8Kb Enhanced Bundled 8k CVSELP.

cE8Kb Enhanced Bundled 16k

CVSELP.

nc Skipped during configuration.

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Port Statistics Table View

Access: From the Icon Subviews menu for the

MotVoiceApp Application icon, select Port Statistics Table.

This view provides the voice port statistics.
Column headings are as follows:

PortNumber

Port number of the Voice Port.

PortInterface

The type of DPSM card used.

HWRevAndPartN

Hardware revision and part number of the main
card. The revision number has format n.n and the
part number is an 8-digit number of the form
nnnnnnnn.

FortyEightVol

This parameter indicates whether the 48 volt
power supply is installed in the node. Valid values
are: none, present, and na. This parameter will
not be displayed for DSPM/HC.

PortState

The status of the port. Valid values are: enable
and disable.

CircuitState

The state of the SVC associated with this port.
Valid values are: connected and disconnected.

CurrentMode

The current operating mode of the DSP. Valid
values are: voice, pcm, and fax.

TimeOfLastSta

The time since the last statistic reset using the
format (mm:dd:yyyy:hh:mm:ss).

CallDuration

The duration of the current (last) call using the
format (hh:mm:ss).

TotalCallDura

The total time of all calls since last reset. It is
measured from Offhook to Onhook and uses the
format (hh:mm:ss).

Table 31: Port Interfaces

Parameter Type of DPSM Card

eAndM2 DPSM/E&M

eAndM4 DPSM/E&M

fxo DPSM/HC(FXO)

fxs DPSM/FXS

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PortUtilizati

This parameter is calculated as the ratio of “Total
Call Duration” to “Time Of Last Reset.” It is a
percentage value of the form nnn%.

NumberOfCalls

The total number of calls since the last reset.

LastDigitsTra

The last DTMF digits transmitted to the voice
interface. Not supported at this time.

DigitsRec

The last DTMF digits received from the voice
interface. Not supported at this time.

TxPacketDropp

The number of times transmit packets were
dropped due to DSPM congestion.

RxPacketDropp

The number of times receive packets were
dropped due to network overload or processor
loading.

DroppedPacket

The estimate of packets dropped “end to end” in
the network.

DSPInternalFa

The number of recoverable software faults. It is
displayed only when the DEBUG flag is set.

TxPackets

The number of packets received from the network
port since the last reset.

RxPackets

The number of packets sent to the network port
since the last reset.

TxPacketPerS

The average number of packets transmitted per
second. It is calculated as the ratio of “Tx
Packets” to “Total Call Duration.”

RxPacketPerS

The average number of packets received per
second. It is calculated as the ratio of “Rx
Packets” to “Total Call Duration.”

DSIEfficiency

This parameter is calculated by dividing “Rx
Packets/sec” by the packet rate. It is a percentage
value.

CurrentRate

The current compression rate being used.

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InputPower

The input power level in dBm.

OutputPower

The output power level in dBm.

FAXTransmissi

The number of FAX transmissions spoofed.

UnsupportedFm

The number of FAX transmissions requesting
unsupported formats but transmitted using ISG
formats.

PPSTsignallingSeqTrapTxS

The transmitting voice signalling state is
displayed as ABCD (i.e. 1010).

PPSTsignallingSeqTrapRxS

The receiving voice signalling state is displayed as
ABCD (i.e. 1010).

PPSTsignallingSeqTrapMac

The voice signalling state machine state is an 11
character field representing the state of the
signalling software.

PPSTsignallingSeqTrapTim

The time from the previous state to this state,
measured in milliseconds.

PPSTsignallingSeqTrapCom

The comment field is an ASCII string up to 16
characters long.

CurrentStatus

This is the call processing state machine status.
Valid values are: inhibited, disconnected,
calling, called, connected, and null.

Table 32: Current Rate

Current Rate Description

cD8K Compression rate is 8K.

cBD8K Compression rate is

bundled 8K.

cE8Kb Compression rate is

Enhanced bundled D8K.

cD16K Compression rate is 16K.

cBD16K Compression rate is

bundled 16K.

cE16Kb Compression rate is

Enhanced bundled D16K.

cPcm Compression rate is PCM.

cFax Compression rate is FAX.

na Value not available.

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ClearCauseCod

The last “clear cause code” received. Every code
corresponds to an integer value followed by its
text description in parenthesis. e.g. - Consider the
clear cause code for “number busy” which is
CAUSE_CLR_NUM_BSY.

ClearDiagnost

The last clear diagnostic received. Every code
corresponds to an integer value followed by its
text description in parenthesis. e.g. - Consider the
diagnostic code for ‘invalid bits in packet’ which is
DIAG_INV_PKT_BITS. This corresponds to :041
(invalid bits in packet).

InCallPxkCall

The called address present in the last inbound
call packet.

InPckCallingA

The calling address present in the last inbound
call packet.

InCallPckFaci

The facilities present in the last inbound call
packet.

InCallPckCUD

The call user data present in the last inbound call
packet.

OutCallPckCal

The called address present in the last outbound
call packet.

OutPckCalling

The calling address present in the last outbound
call packet.

OutCallPckFac

The facilities present in the last outbound call
packet.

OutCallPckCUD

The call user data present in the last outbound
call packet.

RingerStatus

The Ringer status on the board. It is displayed
only for DSPM/FXS interfaces. Valid values are:
rs25Hz, rs50Hz, and na.

DSPMSMSlotNum

The slot of the DSPM/SM. It is displayed only for
DSPM/SM interfaces. A value of 0 indicates that
this parameter is not available.

DSPMNumber

The DSP used for the virtual port. It is displayed
only for DSPM/SM interfaces. A value of 0
indicates that this parameter is not available.

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T1E1PortNumbe

The port number of the T1 or E1 port this voice
channel is on. It is displayed only for DSPM/SM
interfaces. A value of 0 indicates that this
parameter is not available.

TimeSlotNumbe

The time slot number. It is displayed only for
DSPM/SM interfaces.

DaughterCardR

Hardware revision and part number of the
daughter card. The revision number has format
n.n and the part number is an 8 digit number. It
is displayed only for DSPM/HC interfaces.

Motorola WAN Applications
(MotWANApps)

This major application (model type MotWANApps)
has two minor applications: (model types
MotT1E1App and MotX25App). The Icon
Subviews menu associated with this application
provides access to the following application­specific views:

• MotT1E1App

- Virtual Port Mapping Table (Page 96)

• MotX25App

- X.25 Configuration Table View (Page 98)

- X.25 Statistics Table View (Page 106)

- Translation Configuration Table View
(Page 110)

Virtual Port Mapping Table

Access: From the Icon Subviews menu for the MotT1E1

App Application icon, select Port Mapping.

This table contains the T1/E1 Virtual Port
Mapping Table parameters. Column headings are
as follows:

PortNo.

A T1/E1 virtual port number this channel is
associated with. A value of 0 implies that this
parameter was skipped during configuration.

PortType

The type of virtual port. displays the port types
and descriptions:

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PhyPortNo

The E1 or T1 port number this channel is
associated with. A value of 0 implies that this
parameter was skipped during configuration.

TimeSlotNo

Time slot assignment for the logical channel. T1
ports have time slots in the range (1..24) while E1
ports have time slots in the range (1..31). In
addition, Time Slot 16 is not allowed (invalid) for
E1 ports. A value of 0 implies that this parameter
was skipped during configuration.

DSORate

The number of valid data bits within each DS0 for
this port. Valid values are: ds056k (7 bits of the
DS0 contains data information, the 8th bit is
used for 1’s density), ds064k (All 8 bits of the DS0
contain data information. DS0 Rate for ports
configured with port type ‘voice’ is always 64K,
while for ports configured with port type ‘data’, it
is 56K or 64K, the default being 56K.) and nc.

PhyIntfact

Selects the type of physical interface for the
Virtual Port. Valid values are: t1e1 (the physical
interface is a T1 or E1 card), so (the physical
interface is a SO card), and nc.

SOPortNo

The port number of the SO interface this virtual
port is associated with. A value of 0 implies that
this parameter was skipped during configuration.

B-Chan

The B-channel on the SO interface this virtual
port is associated with. A value of 0 implies that
this parameter was skipped during configuration.

SubscribAddr

The Local Subscriber Address for this virtual port.

For Incoming Calls: The Called Party number
received by the aggregate interface is com­pared to this parameter.

Table 33: Port Types

Port Type Description

voice The virtual voice port operates on a

configured DS0.

data The virtual data port operates on a

configured DS0.

switchedVoice The virtual voice port operates on a

DS0 determined by the ISDN/QSIG D
Channel.

switchedData The virtual data port operates on a

DS0 determined by the ISDN/QSIG D
Channel.

nc Skipped during configuration.

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For Outgoing Calls: This will be passed as the
outgoing Calling Party number. Enter a trail­ing asterisk(*) as a wild-card. Use the space
bar to blank the parameter. 1 to 20 characters
(valid characters are 0 through 9, ’-’, ’,’, ’/’, ’(’,
’)’, and ’*’). The characters ’-’, ’,’, ’(’, ’)’, and ’/’
are allowed only for ease of reading.

NetSpecCall

Select the network specific call-by-call feature.

Table 34 displays the features and descriptions:

PtyNoCCITT

This is the Calling/Called party Number Type as
defined by ITU-T. Valid values are: unknown,

international, national, subscriber,
abbreviated, and nc.

PtyNoAT&T

The Calling/Called party Numbering Plan as
defined by ITU-T. Table 35 displays the valid
types:

X.25 Configuration Table View

Access: From the Icon Subviews menu for the

MotX25App Application icon, select Configuration Table.

This view contains a table that displays general
configuration information about the device’s X.25
ports. Buttons at the bottom of the view access
separate tables for PDN information and statistics

Table 34: Network Specific Calls

Feature Description

none No network-specific facility.

attSdn AT&T Software Defined Network or

Northern Tel Private Net.

attMc800 AT&T Megacom800 or Northern Tel

InWats.

attMc AT&T Megcom or Northern Tel OutWats.

ntFx Northern Tel Foreign Exchange.

ntTieTrunk Northern Tel Tie Trunk.

attAccunet AT&T Accunet.

attInt800 AT&T International 800 Service.

attMq AT&T MultiQuest or NT TRO call.

nc Skipped during configuration.

Table 35: Numbering Plan

Type Description

unknown Unknown numbering plan.

isdn Recommendation E.164/E.163.

telephony Telephony numbering plan.

private Private numbering plan.

nc Skipped during configuration.

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on calls, packets/frames, and logical
links/timers. Column headings are as follows:

PortNo.

Identifies a particular port on the modeled device.

ConnType

Numeric code indicating the control signal
handshake and clocking requirements for a
connection to this port. Table 36 lists the possible
code values and their meanings.

PortCont

Possible Port Control values are NONE (no option
specified) or MB (raise Pin 22 when the port
becomes disabled).

ClockSource

Indicates whether the clock source for the port is
internal or external.

ClockSpeed

The speed of the port in bits per second, when
using internal clocking. The highest available
speed is dependent on the card type and the
interface type. Default value is 9600.

Options

Identifies any options in effect for this port.
Applicable codes and descriptions for X.25 ports

Table 36: ConnType Codes

Code Description

simp Simple, no control signals required.

dtr Dedicated, requires the data terminal ready

signal (DTR).

dtrd Same as DTR, except data set ready (DSR)

drops between calls.

emri Port emulates a dial modem with ring

indicator (RI).

emdc Port emulates a dial modem with data carrier

detect (DCD).

dimo Port handshakes with attached dial modem.

dimoan Same as DIMO except DSR never raised on

incoming call from modem.

dimob Same as DIMO except DSR follows DTR on

incoming call from modem.

dimov Port handshakes with attached V.25 bis dial

modem.

simpv SIMP/DIMOv, modem will switch from Leased

to Dial-only mode when leased line goes down
(used with Link Backup only).

Table 36: ConnType Codes

Code Description

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are listed in the following table. Table 37 lists the
port option codes and descriptions:

Table 37: X.25 Port Option Codes

Code Description

NONE No option specified.

1980 Use X.25 1980.

NUI Perform network user ID validation check.

PDN Connected to Public Data Network.

CUD Use call user data sub-addressing.

IBAR Bar all calls coming in from X.25 port user.

OBAR Bar all calls going out to X.25 port user.

CBCK Allow routing inbound calls back out this

port.

CUG Check closed user group; otherwise, CUG

passes transparently.

CAUSE Pass cause, diagnostic, code in outbound

packets.

DEDO Delete called address from outbound calls.

DEGO Delete calling address from outbound calls.

REGI Replace calling address with configured Port

Address in inbound calls.

REGO Replace calling address with configured Port

Address in outbound calls.

HOLD Hold calls over link restart.

NRST Do not send restart packet on link-up.

BKUP This is a backup port to be activated if other

ports are down.

SRGI Select route by the calling address in

inbound calls.

INL Inter-node link. Link goes to another 6500

device.

INLA Set with INL option when an X.25 link con-

nection is to a 6500 node using 2.12.04 or
earlier.

DADA Delete called address in inbound/outbound

call accept packets.

DAGA Delete calling address in inbound/outbound

call accept packets.

IADD Include called and calling addresses in call

accepted/connected packet.

DELAY Enable Delay and Path trace on this link

(link must connected to Rel. 4.xx node).

Table 37: X.25 Port Option Codes

Code Description