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BBSMAJOR.MSG
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1994-05-11
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283KB
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6,609 lines
LANGUAGE {English/ANSI},{English/RIP}
At level 1 of system configuration, you have all options associated with the
hardware configuration of your system.
LEVEL1 {}
▄▀▀▀ █▄ █ █▀▀▀
█ █▀█▄█ █▄▄
█ █ ▀█ █
▀▀▀ ▀ ▀ ▀
The Major BBS Configuration Facility
Copyright 1990-1994 Galacticomm, Inc.
The CRT configuration option identifies your system video
hardware as either color or monochrome. Usually the BBS
can tell by itself (F5=AUTO). But if your screen appears
hard to read, press F3 for color or F4 for black & white.
CRT {Display type: AUTO} E COLOR MONO AUTO
What type of hardware have you installed on the
first group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP1 {Channel group #1: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP1 { Local Area Network communication type: IPXD} (GROUP1=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #1?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START1 { Starting channel number (hexadecimal): 1} (GROUP1#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR1 { Number of channels (decimal): 1} (GROUP1#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR1 { I/O base address: 3E8} (GROUP1#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD1 { Maximum baud rate: 57600} (GROUP1#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK1 { "Lock" these ports at this baud rate? YES} (GROUP1=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX1 { Echo keystrokes to these channels? YES} (GROUP1#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI1 { Use multi-port hardware for this group? NO} (GROUP1#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF1 { Offset between channels (hexadecimal): 400} (MULTI1#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT1 {AT&FE0S0=0S2=255X6&R0B1} (GROUP1#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD1 { X.25 card number: 0} (GROUP1=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE1 { X.25 card line number: 0} (GROUP1=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN1 { X.25 starting Logical Channel Number: 1} (GROUP1=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO1 { Echo method: PLEX} (GROUP1=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR1 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP1=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR1 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP1=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR1 { Credits consumed per Kilo-character: 0} (GROUP1=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK1 { Credits consumed per Kilo-packet: 0} (GROUP1=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC1 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP1=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR1 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP1=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM1 {THEMAJORBBS1} (LANTYP1=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB1 { Number of ECB's per channel for this group: 2} (GROUP1=LAN) N 0 32767
What type of hardware have you installed on the
second group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP2 {Channel group #2: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP2 { Local Area Network communication type: IPXV} (GROUP2=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #2?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START2 { Starting channel number (hexadecimal): 2} (GROUP2#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR2 { Number of channels (decimal): 1} (GROUP2#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR2 { I/O base address: 2F0} (GROUP2#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD2 { Maximum baud rate: 2400} (GROUP2#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK2 { "Lock" these ports at this baud rate? NO} (GROUP2=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX2 { Echo keystrokes to these channels? YES} (GROUP2#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI2 { Use multi-port hardware for this group? NO} (GROUP2#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF2 { Offset between channels (hexadecimal): 400} (MULTI2#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT2 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP2#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD2 { X.25 card number: 0} (GROUP2=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE2 { X.25 card line number: 1} (GROUP2=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN2 { X.25 starting Logical Channel Number: 1} (GROUP2=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO2 { Echo method: PLEX} (GROUP2=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR2 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP2=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR2 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP2=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR2 { Credits consumed per Kilo-character: 0} (GROUP2=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK2 { Credits consumed per Kilo-packet: 0} (GROUP2=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC2 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP2=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR2 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP2=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM2 {THEMAJORBBS2} (LANTYP2=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB2 { Number of ECB's per channel for this group: 2} (GROUP2=LAN) N 0 32767
What type of hardware have you installed on the
third group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP3 {Channel group #3: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP3 { Local Area Network communication type: SPX} (GROUP3=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #3?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START3 { Starting channel number (hexadecimal): 3} (GROUP3#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR3 { Number of channels (decimal): 1} (GROUP3#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR3 { I/O base address: 2F0} (GROUP3#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD3 { Maximum baud rate: 2400} (GROUP3#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK3 { "Lock" these ports at this baud rate? NO} (GROUP3=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX3 { Echo keystrokes to these channels? YES} (GROUP3#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI3 { Use multi-port hardware for this group? NO} (GROUP3#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF3 { Offset between channels (hexadecimal): 400} (MULTI3#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT3 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP3#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD3 { X.25 card number: 1} (GROUP3=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE3 { X.25 card line number: 0} (GROUP3=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN3 { X.25 starting Logical Channel Number: 1} (GROUP3=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO3 { Echo method: PLEX} (GROUP3=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR3 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP3=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR3 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP3=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR3 { Credits consumed per Kilo-character: 0} (GROUP3=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK3 { Credits consumed per Kilo-packet: 0} (GROUP3=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC3 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP3=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR3 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP3=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM3 {THEMAJORBBS3} (LANTYP3=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB3 { Number of ECB's per channel for this group: 2} (GROUP3=LAN) N 0 32767
What type of hardware have you installed on the
fourth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP4 {Channel group #4: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP4 { Local Area Network communication type: SPX} (GROUP4=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #4?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START4 { Starting channel number (hexadecimal): 4} (GROUP4#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR4 { Number of channels (decimal): 1} (GROUP4#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR4 { I/O base address: 2F2} (GROUP4#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD4 { Maximum baud rate: 1200} (GROUP4#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK4 { "Lock" these ports at this baud rate? NO} (GROUP4=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX4 { Echo keystrokes to these channels? YES} (GROUP4#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI4 { Use multi-port hardware for this group? NO} (GROUP4#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF4 { Offset between channels (hexadecimal): 400} (MULTI4#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT4 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP4#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD4 { X.25 card number: 1} (GROUP4=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE4 { X.25 card line number: 1} (GROUP4=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN4 { X.25 starting Logical Channel Number: 1} (GROUP4=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO4 { Echo method: PLEX} (GROUP4=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR4 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP4=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR4 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP4=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR4 { Credits consumed per Kilo-character: 0} (GROUP4=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK4 { Credits consumed per Kilo-packet: 0} (GROUP4=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC4 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP4=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR4 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP4=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM4 {THEMAJORBBS4} (LANTYP4=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB4 { Number of ECB's per channel for this group: 2} (GROUP4=LAN) N 0 32767
What type of hardware have you installed on the
fifth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP5 {Channel group #5: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP5 { Local Area Network communication type: IPXD} (GROUP5=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #5?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START5 { Starting channel number (hexadecimal): 5} (GROUP5#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR5 { Number of channels (decimal): 1} (GROUP5#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR5 { I/O base address: 2E2} (GROUP5#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD5 { Maximum baud rate: 2400} (GROUP5#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK5 { "Lock" these ports at this baud rate? NO} (GROUP5=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX5 { Echo keystrokes to these channels? YES} (GROUP5#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI5 { Use multi-port hardware for this group? NO} (GROUP5#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF5 { Offset between channels (hexadecimal): 400} (MULTI5#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT5 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP5#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD5 { X.25 card number: 2} (GROUP5=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE5 { X.25 card line number: 0} (GROUP5=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN5 { X.25 starting Logical Channel Number: 1} (GROUP5=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO5 { Echo method: PLEX} (GROUP5=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR5 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP5=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR5 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP5=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR5 { Credits consumed per Kilo-character: 0} (GROUP5=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK5 { Credits consumed per Kilo-packet: 0} (GROUP5=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC5 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP5=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR5 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP5=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM5 {THEMAJORBBS5} (LANTYP5=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB5 { Number of ECB's per channel for this group: 2} (GROUP5=LAN) N 0 32767
What type of hardware have you installed on the
sixth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP6 {Channel group #6: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP6 { Local Area Network communication type: IPXV} (GROUP6=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #6?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START6 { Starting channel number (hexadecimal): 6} (GROUP6#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR6 { Number of channels (decimal): 4} (GROUP6#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR6 { I/O base address: 2E4} (GROUP6#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD6 { Maximum baud rate: 2400} (GROUP6#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK6 { "Lock" these ports at this baud rate? NO} (GROUP6=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX6 { Echo keystrokes to these channels? YES} (GROUP6#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI6 { Use multi-port hardware for this group? NO} (GROUP6#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF6 { Offset between channels (hexadecimal): 400} (MULTI6#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT6 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP6#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD6 { X.25 card number: 2} (GROUP6=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE6 { X.25 card line number: 1} (GROUP6=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN6 { X.25 starting Logical Channel Number: 1} (GROUP6=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO6 { Echo method: PLEX} (GROUP6=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR6 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP6=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR6 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP6=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR6 { Credits consumed per Kilo-character: 0} (GROUP6=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK6 { Credits consumed per Kilo-packet: 0} (GROUP6=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC6 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP6=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR6 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP6=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM6 {THEMAJORBBS6} (LANTYP6=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB6 { Number of ECB's per channel for this group: 2} (GROUP6=LAN) N 0 32767
What type of hardware have you installed on the
seventh group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP7 {Channel group #7: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP7 { Local Area Network communication type: SPX} (GROUP7=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #7?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START7 { Starting channel number (hexadecimal): 7} (GROUP7#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR7 { Number of channels (decimal): 1} (GROUP7#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR7 { I/O base address: 2E6} (GROUP7#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD7 { Maximum baud rate: 2400} (GROUP7#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK7 { "Lock" these ports at this baud rate? NO} (GROUP7=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX7 { Echo keystrokes to these channels? YES} (GROUP7#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI7 { Use multi-port hardware for this group? NO} (GROUP7#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF7 { Offset between channels (hexadecimal): 400} (MULTI7#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT7 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP7#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD7 { X.25 card number: 3} (GROUP7=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE7 { X.25 card line number: 0} (GROUP7=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN7 { X.25 starting Logical Channel Number: 1} (GROUP7=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO7 { Echo method: PLEX} (GROUP7=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR7 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP7=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR7 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP7=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR7 { Credits consumed per Kilo-character: 0} (GROUP7=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK7 { Credits consumed per Kilo-packet: 0} (GROUP7=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC7 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP7=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR7 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP7=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM7 {THEMAJORBBS7} (LANTYP7=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB7 { Number of ECB's per channel for this group: 2} (GROUP7=LAN) N 0 32767
What type of hardware have you installed on the
eighth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP8 {Channel group #8: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP8 { Local Area Network communication type: SPX} (GROUP8=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #8?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START8 { Starting channel number (hexadecimal): 8} (GROUP8#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR8 { Number of channels (decimal): 1} (GROUP8#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR8 { I/O base address: 260} (GROUP8#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD8 { Maximum baud rate: 2400} (GROUP8#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK8 { "Lock" these ports at this baud rate? NO} (GROUP8=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX8 { Echo keystrokes to these channels? YES} (GROUP8#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI8 { Use multi-port hardware for this group? NO} (GROUP8#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF8 { Offset between channels (hexadecimal): 400} (MULTI8#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT8 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP8#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD8 { X.25 card number: 3} (GROUP8=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE8 { X.25 card line number: 1} (GROUP8=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN8 { X.25 starting Logical Channel Number: 1} (GROUP8=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO8 { Echo method: PLEX} (GROUP8=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR8 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP8=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR8 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP8=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR8 { Credits consumed per Kilo-character: 0} (GROUP8=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK8 { Credits consumed per Kilo-packet: 0} (GROUP8=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC8 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP8=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify",
12-digit node > "zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR8 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP8=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM8 {THEMAJORBBS8} (LANTYP8=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB8 { Number of ECB's per channel for this group: 2} (GROUP8=LAN) N 0 32767
What type of hardware have you installed on the
ninth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP9 {Channel group #9: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP9 { Local Area Network communication type: IPXD} (GROUP9=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #9?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START9 { Starting channel number (hexadecimal): 9} (GROUP9#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR9 { Number of channels (decimal): 1} (GROUP9#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR9 { I/O base address: 3F8} (GROUP9#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD9 { Maximum baud rate: 2400} (GROUP9#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK9 { "Lock" these ports at this baud rate? NO} (GROUP9=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX9 { Echo keystrokes to these channels? YES} (GROUP9#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI9 { Use multi-port hardware for this group? NO} (GROUP9#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF9 { Offset between channels (hexadecimal): 400} (MULTI9#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT9 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP9#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD9 { X.25 card number: 0} (GROUP9=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE9 { X.25 card line number: 0} (GROUP9=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN9 { X.25 starting Logical Channel Number: 1} (GROUP9=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO9 { Echo method: PLEX} (GROUP9=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR9 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP9=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR9 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP9=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR9 { Credits consumed per Kilo-character: 0} (GROUP9=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK9 { Credits consumed per Kilo-packet: 0} (GROUP9=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC9 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP9=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR9 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP9=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM9 {THEMAJORBBS9} (LANTYP9=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB9 { Number of ECB's per channel for this group: 2} (GROUP9=LAN) N 0 32767
What type of hardware have you installed on the
tenth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP10 {Channel group #10: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP10 { Local Area Network communication type: IPXV} (GROUP10=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #10?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START10 { Starting channel number (hexadecimal): 0A} (GROUP10#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR10 { Number of channels (decimal): 1} (GROUP10#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR10 { I/O base address: 2F8} (GROUP10#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD10 { Maximum baud rate: 2400} (GROUP10#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK10 { "Lock" these ports at this baud rate? NO} (GROUP10=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX10 { Echo keystrokes to these channels? YES} (GROUP10#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI10 { Use multi-port hardware for this group? NO} (GROUP10#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF10 { Offset between channels (hexadecimal): 400} (MULTI10#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT10 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP10#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD10 { X.25 card number: 0} (GROUP10=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE10 { X.25 card line number: 1} (GROUP10=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN10 { X.25 starting Logical Channel Number: 1} (GROUP10=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO10 { Echo method: PLEX} (GROUP10=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR10 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP10=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR10 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP10=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR10 { Credits consumed per Kilo-character: 0} (GROUP10=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK10 { Credits consumed per Kilo-packet: 0} (GROUP10=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC10 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP10=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR10 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP10=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM10 {THEMAJORBBS10} (LANTYP10=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB10 { Number of ECB's per channel for this group: 2} (GROUP10=LAN) N 0 32767
What type of hardware have you installed on the
eleventh group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP11 {Channel group #11: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP11 { Local Area Network communication type: SPX} (GROUP11=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #11?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START11 { Starting channel number (hexadecimal): 0B} (GROUP11#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR11 { Number of channels (decimal): 1} (GROUP11#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR11 { I/O base address: 2F0} (GROUP11#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD11 { Maximum baud rate: 2400} (GROUP11#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK11 { "Lock" these ports at this baud rate? NO} (GROUP11=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX11 { Echo keystrokes to these channels? YES} (GROUP11#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI11 { Use multi-port hardware for this group? NO} (GROUP11#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF11 { Offset between channels (hexadecimal): 400} (MULTI11#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT11 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP11#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD11 { X.25 card number: 1} (GROUP11=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE11 { X.25 card line number: 0} (GROUP11=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN11 { X.25 starting Logical Channel Number: 1} (GROUP11=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO11 { Echo method: PLEX} (GROUP11=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR11 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP11=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR11 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP11=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR11 { Credits consumed per Kilo-character: 0} (GROUP11=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK11 { Credits consumed per Kilo-packet: 0} (GROUP11=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC11 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP11=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR11 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP11=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM11 {THEMAJORBBS11} (LANTYP11=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB11 { Number of ECB's per channel for this group: 2} (GROUP11=LAN) N 0 32767
What type of hardware have you installed on the
twelfth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP12 {Channel group #12: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP12 { Local Area Network communication type: SPX} (GROUP12=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #12?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START12 { Starting channel number (hexadecimal): 0C} (GROUP12#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR12 { Number of channels (decimal): 1} (GROUP12#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR12 { I/O base address: 2F2} (GROUP12#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD12 { Maximum baud rate: 1200} (GROUP12#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK12 { "Lock" these ports at this baud rate? NO} (GROUP12=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX12 { Echo keystrokes to these channels? YES} (GROUP12#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI12 { Use multi-port hardware for this group? NO} (GROUP12#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF12 { Offset between channels (hexadecimal): 400} (MULTI12#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT12 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP12#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD12 { X.25 card number: 1} (GROUP12=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE12 { X.25 card line number: 1} (GROUP12=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN12 { X.25 starting Logical Channel Number: 1} (GROUP12=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO12 { Echo method: PLEX} (GROUP12=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR12 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP12=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR12 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP12=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR12 { Credits consumed per Kilo-character: 0} (GROUP12=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK12 { Credits consumed per Kilo-packet: 0} (GROUP12=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC12 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP12=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR12 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP12=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM12 {THEMAJORBBS12} (LANTYP12=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB12 { Number of ECB's per channel for this group: 2} (GROUP12=LAN) N 0 32767
What type of hardware have you installed on the
thirteenth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP13 {Channel group #13: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP13 { Local Area Network communication type: IPXD} (GROUP13=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #13?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START13 { Starting channel number (hexadecimal): 0D} (GROUP13#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR13 { Number of channels (decimal): 1} (GROUP13#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR13 { I/O base address: 2E2} (GROUP13#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD13 { Maximum baud rate: 2400} (GROUP13#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK13 { "Lock" these ports at this baud rate? NO} (GROUP13=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX13 { Echo keystrokes to these channels? YES} (GROUP13#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI13 { Use multi-port hardware for this group? NO} (GROUP13#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF13 { Offset between channels (hexadecimal): 400} (MULTI13#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT13 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP13#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD13 { X.25 card number: 2} (GROUP13=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE13 { X.25 card line number: 0} (GROUP13=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN13 { X.25 starting Logical Channel Number: 1} (GROUP13=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO13 { Echo method: PLEX} (GROUP13=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR13 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP13=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR13 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP13=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR13 { Credits consumed per Kilo-character: 0} (GROUP13=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK13 { Credits consumed per Kilo-packet: 0} (GROUP13=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC13 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP13=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR13 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP13=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM13 {THEMAJORBBS13} (LANTYP13=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB13 { Number of ECB's per channel for this group: 2} (GROUP13=LAN) N 0 32767
What type of hardware have you installed on the
fourteenth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP14 {Channel group #14: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP14 { Local Area Network communication type: IPXV} (GROUP14=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #14?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START14 { Starting channel number (hexadecimal): 0E} (GROUP14#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR14 { Number of channels (decimal): 1} (GROUP14#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR14 { I/O base address: 2E4} (GROUP14#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD14 { Maximum baud rate: 2400} (GROUP14#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK14 { "Lock" these ports at this baud rate? NO} (GROUP14=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX14 { Echo keystrokes to these channels? YES} (GROUP14#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI14 { Use multi-port hardware for this group? NO} (GROUP14#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF14 { Offset between channels (hexadecimal): 400} (MULTI14#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT14 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP14#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD14 { X.25 card number: 2} (GROUP14=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE14 { X.25 card line number: 1} (GROUP14=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN14 { X.25 starting Logical Channel Number: 1} (GROUP14=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO14 { Echo method: PLEX} (GROUP14=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR14 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP14=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR14 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP14=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR14 { Credits consumed per Kilo-character: 0} (GROUP14=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK14 { Credits consumed per Kilo-packet: 0} (GROUP14=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC14 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP14=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR14 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP14=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM14 {THEMAJORBBS14} (LANTYP14=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB14 { Number of ECB's per channel for this group: 2} (GROUP14=LAN) N 0 32767
What type of hardware have you installed on the
fifteenth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP15 {Channel group #15: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP15 { Local Area Network communication type: SPX} (GROUP15=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #15?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START15 { Starting channel number (hexadecimal): 0F} (GROUP15#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR15 { Number of channels (decimal): 1} (GROUP15#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR15 { I/O base address: 2E6} (GROUP15#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD15 { Maximum baud rate: 2400} (GROUP15#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK15 { "Lock" these ports at this baud rate? NO} (GROUP15=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX15 { Echo keystrokes to these channels? YES} (GROUP15#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI15 { Use multi-port hardware for this group? NO} (GROUP15#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF15 { Offset between channels (hexadecimal): 400} (MULTI15#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT15 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP15#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD15 { X.25 card number: 3} (GROUP15=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE15 { X.25 card line number: 0} (GROUP15=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN15 { X.25 starting Logical Channel Number: 1} (GROUP15=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO15 { Echo method: PLEX} (GROUP15=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR15 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP15=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR15 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP15=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR15 { Credits consumed per Kilo-character: 0} (GROUP15=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK15 { Credits consumed per Kilo-packet: 0} (GROUP15=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC15 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP15=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify,
12-digit node > zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR15 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP15=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM15 {THEMAJORBBS15} (LANTYP15=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB15 { Number of ECB's per channel for this group: 2} (GROUP15=LAN) N 0 32767
What type of hardware have you installed on the
sixteenth group of channels? Your choices are:
MODEM Any modem. Includes modems in a GalactiBox
or connected to a GalactiBoard.
SERIAL RS-232 channels with no modems.
X.25 For logical channels on OST's PC XNet interface
card (requires special "/X25" software option).
LAN For connection to computers on your Novell LAN.
<NONE> This channel group is unused.
GROUP16 {Channel group #16: <NONE>} E MODEM SERIAL X.25 LAN <NONE>
You have the following alternatives for connecting your BBS
to terminals over your Novell LAN (Local Area Network):
IPX Direct Assign specific machines to channels
IPX Virtual Channels accept calls from any machine
SPX Has automatic "error correction"
IPXV and SPX are only available with the Advanced LAN
version of The Major BBS.
LANTYP16 { Local Area Network communication type: SPX} (GROUP16=LAN) E IPXD IPXV SPX
The Major BBS can control up to 256 users simultaneously.
Channels are numbered 01 through FF hexadecimal. What is
the starting channel number for Channel group #16?
The starting channel number controls where these channels
will be represented in the user matrix portion of the
summary screen of The Major BBS.
START16 { Starting channel number (hexadecimal): 10} (GROUP16#<NONE>) H 1 FF
How many channels are there in this channel group? If you
are using multi-port hardware such as a GalactiBoard or
GalactiBox, enter the consecutive number of channels that
use the same configuration. If this group is being defined
for a COM1, 2, 3, or 4 type port, then answer 1.
NUMBR16 { Number of channels (decimal): 1} (GROUP16#<NONE>) N 1 256
Galacticomm GalactiBoard examples: (X is on, - is off):
Mode DIP sw. Port 0 Addr Mode DIP sw. Port 0 Addr
0 ---- 0240 4 -X-- 0260
1 ---X 2240 5 -X-X 2260
2 --X- 0250 6 -XX- 0270
3 --XX 2250
DOS port examples:
COM1: 3F8 COM2: 2F8 COM3: 3E8 COM4: 2E8
ADDR16 { I/O base address: 3E8} (GROUP16#<NONE>,X.25,LAN) H 0 FFFF
This parameter specifies the maximum baud rate of all
channels in this group. For all models of the Galacticomm
Breakthrough card, you should leave the value at 2400. If
you have a modem or a serial port with a larger baud rate,
then specify that rate here, up to 57600.
BAUD16 { Maximum baud rate: 2400} (GROUP16#<NONE>,X.25,LAN) L 300 57600
Answer YES here if your modem is capable of error
correction or data compression. These features are
usually referred to as V.42, V.42bis, or MNP-4 or higher.
You must also configure your modem to enable correction
and compression, lock at the DTE rate, enable hardware
(RTS/CTS) flow control, and to report the DCE rate in
CONNECT messages. These options are usually configured
in the modem's init string.
LOCK16 { "Lock" these ports at this baud rate? NO} (GROUP16=MODEM) B
This question relates to "duplex" operation... answering
YES calls for "full duplex", whereas an answer of NO
calls for "half duplex". "Half duplex" is only intended
for use with TELENET and other packet-switched networks,
in which considerable cost savings can result from the
use of the "echo-plex", or local echo, feature.
For most modem and serial connections, set this to YES.
DUPLX16 { Echo keystrokes to these channels? YES} (GROUP16#<NONE>,X.25,LAN) B
Answer YES if this channel group uses multi-port hard-
ware such as a GalactiBoard or GalactiBox. Otherwise,
answer NO.
MULTI16 { Use multi-port hardware for this group? NO} (GROUP16#<NONE>,X.25,LAN) B
To address more than one channel with multi-port hard-
ware, the BBS needs to have the I/O Base Address (the
address of the first channel), and the offset between
channels. Enter the offset between channels here.
For Galacticomm hardware, make sure this option is set
to 400. For non-Galacticomm hardware, subtract the base
address of the first channel (in hex) from the base
address of the second channel. That will be the offset
between channels (usually 8).
CHOFF16 { Offset between channels (hexadecimal): 400} (MULTI16#NO) H 1 1000
Some devices require specific initialization procedures.
This string will be transmitted to each channel in the
group when the channel is reset. Please choose BBSMREF
from the Basic Utilities menu for information on the
correct settings for various modems.
INIT16 {AT&FE0S0=0S2=255X1&C1&D2} (GROUP16#<NONE>,X.25,LAN) S 44 Init string
You can have up to eight PC XNet interface cards in your
system. You must use OST's XNETCFIG utility to set this
up. Which card number (0 to 7) applies to this channel
group?
CARD16 { X.25 card number: 3} (GROUP16=X.25) N 0 7
Each PC XNet interface card can have up to two X.25 lines
on it. The 25-socket connector is line 0, and the
15-socket connector is line 1. You must use OST's XNETCFIG
utility to set this up. Which line number (0 or 1) applies
to this channel group?
LINE16 { X.25 card line number: 1} (GROUP16=X.25) N 0 1
Each logical channel (or virtual circuit) is a separate
connection between one user and the BBS. Logical Channel
Numbers can run from 0 to 255.
All of the "virtual circuits" in this channel group will be
connected over the same physical connection. The number
that you specify here is the lowest Logical Channel Number
(LCN) for this group. The remaining channels will have
consecutive LCN's.
LCN16 { X.25 starting Logical Channel Number: 1} (GROUP16=X.25) N 0 255
PLEX - The PAD on the user's end of the X.25 network echos
his keystrokes (the BBS does not)
BBS - The BBS echos the user's keystrokes (the user's PAD
does not echo his keystrokes).
NONE - Neither the BBS nor the user's PAD echos keystrokes.
Use this when the user's terminal does the echoing.
ECHO16 { Echo method: PLEX} (GROUP16=X.25) E PLEX BBS NONE
This string may be used to specify parameters for your
user's PAD (the Packet Assembler/Disassembler interface
between the user and the packet switching network). CCITT
recommendation X.3 specifies the parameter meanings.
Recommended settings (for this and the next option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0 <--(type this now)
13:4 14:0 15:0 16:0 17:0 18:0 21:0
X3PAR16 {1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0} (GROUP16=X.25) S 40 X.3 parameters:
This option is an extension of the above option, in case
you don't have enough room to specify your X.3 parameters
on one line. Type F1 for more information on X.3
parameters.
Recommended settings (for above option and this option):
1:0 2:0 3:0 4:1 5:0 9:0 10:0 12:0
13:4 14:0 15:0 16:0 17:0 18:0 21:0 <--(type this now)
X3MOR16 {13:4 14:0 15:0 16:0 17:0 18:0 21:0} (GROUP16=X.25) S 40 More X.3 parms:
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the characters input and output
during their session. A value of 1000 deducts 1 credit
per character, for example.
KCHAR16 { Credits consumed per Kilo-character: 0} (GROUP16=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to the number of data packets that
are exchanged during their session. A value of 10000
deducts 10 credits per packet, for example.
KPAK16 { Credits consumed per Kilo-packet: 0} (GROUP16=X.25) L -1000000 1000000
You may want to charge your users for use of the BBS in
proportion to the amount that they use it (and, perhaps,
in proportion to the amount that you are charged by your
packet-switching network provider).
With this option, you can deduct credits from users'
accounts in proportion to their connect time. This
deduction is in addition to that specified by the MMUCRR
option, below, and other connect time deductions.
KSEC16 { Credits consumed per minute (on top of MMUCRR): 0} (GROUP16=X.25) L -1000000 1000000
Please enter a list of Novell Netware network addresses
that will be communicating with this group of channels.
8-digit network \ Be sure to "right-justify",
12-digit node > "zero-fill" these fields
4-digit socket /
Here's an example for a 24-digit hexadecimal net address:
_net__ ___node___ socket
/ \/ \/ \
000000010000C0A610184018
IPXADR16 {Here's an example for the first channel of this group:
_net__ ___node___ sk
/ \/ \/ \
000000010000C0D64E1B4007
This means network 1, node C0D64E1B, socket 4007. You can fit up to 64 of
these 24-digit network addresses here, but you will need to delete some of
this text to do that! That's OK because when the BBS runs, it only looks at
whatever 24-hex-digit strings appear here (including the above example!)
WARNING: USING A NONEXISTENT NETWORK NUMBER WILL HANG YOUR BBS!
Here are examples for the 2nd thru the 16th channel in this channel group:
_net__ ___node___ sk _net__ ___node___ sk _net__ ___node___ sk
/ \/ \/ \ / \/ \/ \ / \/ \/ \
000000010000C00F4A1B4007 C04AB61A0000C0CA23194007 C04AB61A0000C013B21A4007
C030F1170000C0CE00184007 C04AB61A0000C0B2FC174007 000000010000C04BBF1A4007
C04AB61A0000C0AAA9194007 000000010000C0B902184007 C030F1170000C0D0F6194007
C04AB61A0000C0441F1B4007 C030F1170000C0574F1B4007 C04AB61A0000C0B2141B4007
C04AB61A0000C064531B4007 C04AB61A0000C0A610184007 C04AB71A0000C099501B4007
C030F1170000C0F42D3B4007} (LANTYP16=IPXD) T IPX Direct list of net addresses for this group (hit F2)
The Novell Server Advertising Protocol (S.A.P.) allows this
channel group to advertise itself on the network. If this
option is blank, this channel group will not be advertised
by S.A.P. Otherwise, be sure the name here is a unique
server name on your network.
SAPNAM16 {THEMAJORBBS16} (LANTYP16=IPXV,SPX) S 43 Server name:
Each channel group has a set of Event Control Blocks to
listen for and to capture incoming packets. ECB's are
shared communally within a group. More ECB's mean less
chance of missing incoming IPX packets, or quicker SPX
reception. Less ECB's saves memory.
2 is recommended, but other values may be appropriate.
0 means non-hardware channel -- handy for local emulation.
How many ECB's per channel do you want to reserve for
the channels in this group?
NUMECB16 { Number of ECB's per channel for this group: 2} (GROUP16=LAN) N 0 32767
We recommend that you turn off the "auto-answer" feature
in your modems (by setting "S0=0" in your init strings),
and that the BBS issue "ATA" commands to the modems to
answer incoming calls. If you have set "S0=0" in your
modems, as recommended, then answer YES to this question.
If, on the other hand, you prefer to set S0 to some non-
zero value in your modem init strings, then be sure to
answer this question NO -- otherwise the BBS will appear
to disconnect each caller spontaneously when answering.
OUTATA {Send "ATA" command to modems to answer calls? YES} B
The Major BBS can support both a color and monochrome
video adapter simultaneously to allow two full screens of
information to be displayed at once. If you answer YES
to this option, you can use the F3 softkey to select
what is shown on the second CRT. Do not answer YES if
you have only one video card in your system!
AUXIST {Activate secondary CRT support: NO} B
Your 386 or higher CPU has the ability to check all
code for possible errors. If a possible error is
detected and this option is set to NO, the BBS shuts
down. If this option is set to YES, the BBS
generates an Audit Trail record indicating when and
where the error occurred, and it continues to service
users as best it can.
GPHDLR {Continue operation after "GP" errors? NO} B
If your computer detects a possible error, it may
not be able to recover from the error on the first
attempt. This option will determine how many times
the BBS will attempt to recover from a GP before
stopping and generating a GP.OUT file.
The larger the number, the longer the system will
appear to be stopped while attempting to recover
from the GP, but the better the chance a recovery
can occur.
GPSLMT {Number of attempts to recover from a "GP": 2000} (GPHDLR=YES) L 1 50000
Should the BBS encounter an unrecoverable "GP" this
option will determine whether your system should
attempt to reboot itself. A YES response will cause
the system to reboot after generating the file GP.OUT.
The system will generate E-mail to Sysop with GP.OUT
attached. A NO response will halt your system after
generating GP.OUT. The system must then be rebooted
manually.
GPBOOT {Reboot computer after unrecoverable "GP"? YES} B
Channel 0 in your grid of channels on the Sysop summary
screen is always a non-hardware channel used for local
logons. It's important to pick an I/O base address for
this channel which does not conflict with any other
hardware in your machine. If you don't have a strong
reason to change this value, please leave it at 2F6.
If you must change it, try a value such as C240 or C270.
LOCALP {I/O base address for local session: 2F6} H 0 FFFF
Leave this option YES to insure fast accurate polling of
the UARTs in your serial ports and internal modems,
especially if you are using GalactiBoards on a very fast
computer.
Set this option to NO for a more conservative UART polling
method. This may be required with some older brands of
UARTs, or devices with non-standard interrupt methods.
For technical types: YES means LSR bit 0 polling (data
ready), and NO means IIR bit 0 polling (interrupt pending).
USPMOD {Special UART polling mode? YES} B
Set this option to AUTO to let The Major BBS determine
the optimum polling rate for the modem and serial hardware
on your system.
For faster local sessions, but a greater burden on your
computer, choose a polling rate of 4800 to 38,400 bps.
Set this option to at least 19200 if you have a Model 16
or Model 4 multi-modem card, or 38400 for a Model 2408.
POLRATE {System polling rate: 19200} E AUTO 4800 9600 19200 38400
The Major BBS has a limited ability to run under a
multitasking DOS overlay such as Microsoft Windows or
Quarterdeck's DESQview. If you plan to run under either
one of these environments set this option to YES. The
next option will permit you to select which method the BBS
should use to deal with the multitasker.
MULTSK {Need to run BBS under Windows, DESQview, etc.? NO} B
The Major BBS is able to support two methods of
facilitating I/O when running under a multitasking DOS
overlay. The TIMER method requires that you dedicate
a COM port to provide a timing source. This is provided
for compatibility with earlier versions of The Major BBS.
The INTER method uses interrupts directly from each COM
port you have defined in the channel group configuration.
MLTMTH { Method to use when using a multitasker: INTER} (MULTSK=YES) E TIMER INTER
You have specified the TIMER method for facilitating
I/O when running under a multitasking DOS overlay.
You will need to set aside a spare COM port for use as
a system timer. This port must not be used for anything
else in the system, and it does not count toward the user
count limit in your license. The COM port will be strictly
used as a timer.
Select the COM port that you wish to set aside for use
as a system timer. There must be an actual serial port
or modem at this address in your system.
ALTTMR { COM port number to use as a system timer: 4} (MLTMTH=TIMER) E 1 2 3 4
You have specified the INTER method for facilitating
I/O when running in a multitasking DOS environment.
You will need to specify the interrupts that are associated
with the COM ports you have defined in your channel group
settings.
Specify the first interrupt you wish to use. Valid
interrupts are 2 through 7. Any other values will be
ignored. Normal settings include:
4 - for interrupt 4 with COM1 or COM3
3 - for interrupt 3 with COM2 or COM4
IRPSRC1 { First communications interrupt: 4} (MLTMTH=INTER) N 2 7
You have specified the INTER method for facilitating
I/O when running in a multitasking DOS environment.
You will need to specify the interrupts that are associated
with the COM ports you have defined in your channel group
settings.
Specify the second interrupt you wish to use. Valid
interrupts are 2 through 7. Specify 0 if you are using
a single interrupt. Normal settings include:
4 - for interrupt 4 with COM1 or COM3
3 - for interrupt 3 with COM2 or COM4
IRPSRC2 { Second communications interrupt: 0} (MLTMTH=INTER) N 0 7
Normally this option should be set to YES. When set
to YES, this will generally improve system performance.
However, on a small number of systems, when this option
is set to YES the BBS will not load or may lock up.
RNG3HD {Should software accelerator routine be activated? YES} (MULTSK=NO) B
At level 3 of system configuration, you have all options associated with the
accounting and security aspects of your system. Contained within should be
locks placed on options (keys required for certain options) as well as credit
charges for time and services.
LEVEL3 {}
▄▀▀▀ █▄ █ █▀▀▀
█ █▀█▄█ █▄▄
█ █ ▀█ █
▀▀▀ ▀ ▀ ▀
The Major BBS Configuration Facility
Copyright 1990-1994 Galacticomm, Inc.
The first configurable option at this level determines
how quickly your users will consume "credits", by
default. Typically, "credits" are consumed at a rate
of 1 per second, or 60 per minute.
MMUCRR {Credits per minute consumed at the Main menu 60} N 0 32767
You have the option to restrict your "demo" or "prospect"
class of users to the low end of your telephone rotary,
if you wish. Your more privileged classes of users will
be able to call in on any lines they like. The name of
the key that distinguishes these users from each other is
defined in the next option (SAMPKY).
What this option controls is the number of lines on which
you want to accept new signups and nonprivileged users.
Enter 256 to enable free use of all lines.
SAMPLN {Number of lines on which to allow anyone to log on 256} N 0 256
The above option (SAMPLN) defines the number of lines on
which to allow anyone to log on. Lines above that number
are reserved (meaning that not just anyone can log on to
them).
This option defines the name of the key the user will need
in order to log on to lines above the number given in
SAMPLN.
SAMPKY {NORMAL} S 15 Key required to log on reserved channels
When a user chooses to log off the system, they are always
prompted for whether or not they are sure. Only users that
hold the key named in this option will have the additional
choice to re-logon -- to actually go back to the logon
prompt, and log on as another User-ID.
To allow all users to re-logon, leave this option blank.
RLGKEY {NORMAL} S 15 Key required to re-logon at logoff
There are two global commands offered to Sysops only:
/l (looking up another account) and /invis (turning
invisible). This option should contain the name of
the key required to use these global commands.
Anyone holding this key will be able to look up any-
one else's account and run about your system invisible
to all users, so beware whom you give this key to.
GLBKEY {SYSOP} S 15 Key required to use Sysop global commands
Normally, the option IDLZAP limits the amount of time a
user can remain online without typing anything, and the
option PFCEIL limits the wording a user may use. Users
that possess the key you name here will not be affected
by these restrictions.
SYSKEY {SUPER} S 10 Key required to be exempt from rules
You may not wish to have user passwords visible in the
"detail account" display on the master console, or when
using the DETAIL command from the Remote Sysop Menu.
Answer NO to this question to suppress the display of
user passwords in both of these places.
NOTE: USER PASSWORDS WILL ALWAYS BE VISIBLE IN THE
"USER REPORT" WHICH IS GENERATED IN AN OFFLINE UTILITY
VISPSW {Make passwords visible in "detail info" displays? YES} B
How much are you going to charge users for each hour of
connect time -- that is, for 3600 credits?
(If you will not be charging your users for connect time
then the setting of this option does not matter.)
CHGHOUR {$0.75} S 22 Connect time charge per hour, if any
What is the minimum amount of connect time that users
may purchase?
(If you will not be charging your users for connect time
then the setting of this option does not matter.)
CHGTIME {10 hours} (CHGHOUR#$0.00) S 29 Minimum connect time purchase
What is the charge for the minimum amount of connect time
that users may purchase? This figure should be the
product of the previous two.
(If you will not be charging your users for connect time
then the setting of this option does not matter.)
CHGMIN {$7.50} (CHGHOUR#$0.00) S 31 Charge for minimum purchase
At level 4 of system configuration, you have all the miscellaneous options
available to you, ranging from the size of port output buffers to whether
or not to report certain activities to the Audit Trail.
LEVEL4 {}
▄▀▀▀ █▄ █ █▀▀▀
█ █▀█▄█ █▄▄
█ █ ▀█ █
▀▀▀ ▀ ▀ ▀
The Major BBS Configuration Facility
Copyright 1990-1994 Galacticomm, Inc.
This facility can operate in two modes: expert mode, or
"continuous help" mode. To toggle between the two modes
at any time, press the F1 key. To default to expert mode,
enter 'Y', or hit F4. Otherwise enter 'N', or hit F3 now.
EXPMODE {Default to expert mode each time CNF comes up? YES} B
This is the title of your BBS (Bulletin Board System).
This title will be presented to users when they connect
with your system.
Please hit F2, type in the name of your BBS, and hit the
─┘ key.
BBSTTL {YOUR SYSTEM NAME HERE} S 50 BBS name
Your company name and address are presented to users when
they are instructed as to how to purchase system credits,
allowing them live connect time.
Please hit F2, type your company name, and hit the ─┘ key.
COMPANY {Your Company Name} S 46 Company name
Your company name and address are presented to users when
they are instructed as to how to purchase system credits,
allowing them live connect time.
Please hit F2, type your company's street address, and hit
the ─┘ key.
ADDRES1 {Your Company Address, Line 1} S 44 Address Line 1
Your company name and address are presented to users when
they are instructed as to how to purchase system credits,
allowing them live connect time.
Please hit F2, type your company's city, state, and zip
code, and hit the ─┘ key.
ADDRES2 {Your Company Address, Line 2} S 44 Address Line 2
You may allocate some of your phone lines for demonstration
purposes, while reserving others for members only.
Users will be told to dial this number with their modem
when their account does not have member status, or when
they are signing up for the first time.
By default, all BBS lines are available for anyone to
use. See the configuration variable SAMPLN to
limit your demo lines.
DATAPH {YOUR MAIN NUMBER} S 32 Your main BBS phone number
You may allocate some of your phone lines for demonstration
purposes, while reserving others for special users only
(see the option SAMPKY). When doing this, you will
typically have two separate phone line "rotaries": one for
everybody (your main BBS number) and one for special users
only (which you can specify here).
Users will be told that they can only use this phone number
to dial up your BBS when their account has upgraded status.
LIVEPH {YOUR RESERVED NUMBER} S 31 Reserved usage phone number
Each port has a "circular buffer" for output bytes, so
that the main program can dump batches of text into the
buffer all at once, and the bytes can then be transmitted
to the user one at a time, as the communications device is
ready for them.
The size of this buffer is used for, among other things,
determining the maximum size of E-Mail messages, Forum
messages.
OUTBSZ {Size in bytes of each port's output buffer: 8192} E 4096 8192 16384
Do you want to ask users what language/protocol they want
to use every time they log on?
If you have a suite of initial welcome messages that are
custom designed for each language, answer ASK, to make sure
users get the right language from the very start. (The
question is skipped if the auto-sensing phase produces one
best choice.)
Answer AUTO to always avoid this question and move right
into asking for their User-ID.
LANGOP {Ask users their language/protocol before logging on? ASK} E AUTO ASK
Once a user logs on, the BBS knows whether to enable ANSI
graphics to that user. However, when the modem connection
is first made, the system may have to make an assumption
about whether or not the user supports ANSI. There are
four ways you can configure this initial assumption:
ON ...assumes every user supports ANSI
OFF ...assumes no user supports ANSI
ASK ...asks each user, first thing, if they do or not
AUTO ...determines automatically if a user does or not
ANSIOP {Initial ANSI setting at start of session: AUTO} E AUTO ASK ON OFF
Both during the auto-cleanup and when the BBS is shut down,
the phones lines are not active... the question here is,
do you want the lines "busied out" or simply not answered
when they ring? Select BUSY to force the lines off-hook
during the auto-cleanup and at shutdown, or NO-ANS to let
them just ring if they must, without being answered.
RSETOP {Status of phone lines when BBS is down: BUSY} E BUSY NO-ANS
In the U.S., you will probably want to ignore the parity
bit of each received data character, so that callers will
not be bothered by incorrect parity/data-bit settings
such as 7-E-1 or 7-N-2 (the recommended setting is 8-N-1).
Answer NO here for greatest convenience of U.S.A. callers.
However for various European character sets and other
special symbols, it is vital to treat the high-order bit
of each incoming byte as a data bit. If you answer YES
here, it means that callers MUST use the correct setting
of 8 data bits, no parity, 1 stop bit.
ENAEUR {Enable receipt of European character set data? YES} B
The BBS can be told to periodically reset all modems not
in use, providing them with fresh init strings, etc.
This is handy in case a modem loses power momentarily or
gets clobbered by a power line fluctuation, etc.
This variable is the number of seconds between automatic
refresh checks of all vacant modems. To disable this
feature, set this number to 0.
MODZAP {Seconds between resetting inactive modems (0=off) 300} N 0 32767
When a user walks away from his session without hanging
up or logging off, he is tying up a valuable phone line.
How many seconds do you want to give him before The
Major BBS hangs up on him? Type 0 if you wish never to
hang up on a user due to idleness.
(Note: the following options, ZAPSER, ZAPDLAN, & ZAPVLAN,
control whether various types of hardware are exempt
from the no-activity logoff. Any user with the MASTER key
is always exempt.)
IDLZAP {Seconds of live user inactivity before hangup (0=off) 1200} N 0 32767
It may be desirable to leave your SERIAL channels online
semi-permanently in some cases, and not to have to worry
about more than IDLZAP seconds going by without input
activity before they get automatically logged off or
reset. If you want your SERIAL channels to be treated
just like MODEM channels as far as the IDLZAP parameter
is concerned, answer YES here. But if you want them
protected against the automatic "hangup" due to absence
of input activity, answer NO.
ZAPSER {Apply inactivity-logoff to SERIAL channels? NO} B
It may be desirable to leave your Direct Circuit LAN
channels online semi-permanently in some cases, and not to
have to worry about IDLZAP seconds going by without input
activity before they get automatically logged off.
If you want sessions on your IPX Direct Circuit LAN
channels to be automatically terminated after IDLZAP
seconds, answer YES here. If you want them to stay online
indefinitely, answer NO.
ZAPDLAN {Apply inactivity-logoff to Direct LAN channels? NO} B
It may be desirable to leave your Virtual Circuit LAN
channels online semi-permanently in some cases, and not to
have to worry about IDLZAP seconds going by without input
activity before they get automatically logged off.
If you want sessions on your IPX Virtual Circuit and SPX
LAN channels to be automatically terminated after IDLZAP
seconds, answer YES here. If you want them to stay online
indefinitely, answer NO.
ZAPVLAN {Apply inactivity-logoff to Virtual LAN channels? YES} B
The "system variables" include many time measurements for
accounting and statistical purposes. In case of power-loss
or other catastrophes, the system variables are
periodically saved to disk. This save takes a little chunk
of time, so you will not want to do it constantly. How
often (in seconds) do you wish to save the system
variables?
SVRATE {Seconds between saving system variables (0 disables) 300} N 0 32767
The Major BBS requires time "off the air" to take care of
certain internal accounting and housekeeping functions.
You may choose the hour of the day when this is to take
place. Here are some sample values for this option:
0 12:00 midnight
3 3:00 AM
12 12:00 noon
23 11:00 PM
-1 never (not recommended)
MCUHR {Hour of day for auto-cleanup 3} N -1 23
You may configure The Major BBS to automatically shut
down at certain times every day, above and beyond the
"auto-cleanup" time mentioned above. This is handy for
inter-system mail utilities such as RelayNetMail, etc.
Here are some sample values for these options:
0 12:00 midnight
3 3:00 AM
12 12:00 noon
23 11:00 PM
-1 never
MSHHR1 {Hour of day for timed event auto-shutdown #1 -1} N -1 23
You may configure The Major BBS to automatically shut
down at certain times every day, above and beyond the
"auto-cleanup" time mentioned above. This is handy for
inter-system mail utilities such as RelayNetMail, etc.
Here are some sample values for these options:
0 12:00 midnight
3 3:00 AM
12 12:00 noon
23 11:00 PM
-1 never
MSHHR2 {Hour of day for timed event auto-shutdown #2 -1} N -1 23
You may configure The Major BBS to automatically shut
down at certain times every day, above and beyond the
"auto-cleanup" time mentioned above. This is handy for
inter-system mail utilities such as RelayNetMail, etc.
Here are some sample values for these options:
0 12:00 midnight
3 3:00 AM
12 12:00 noon
23 11:00 PM
-1 never
MSHHR3 {Hour of day for timed event auto-shutdown #3 -1} N -1 23
You may configure The Major BBS to automatically shut
down at certain times every day, above and beyond the
"auto-cleanup" time mentioned above. This is handy for
inter-system mail utilities such as RelayNetMail, etc.
Here are some sample values for these options:
0 12:00 midnight
3 3:00 AM
12 12:00 noon
23 11:00 PM
-1 never
MSHHR4 {Hour of day for timed event auto-shutdown #4 -1} N -1 23
If people are using your system at any of the appointed
hours for auto-shutdown (see the last several options),
then The Major BBS will wait. It will wait for up to
59 minutes (as you specify here), for all users to
voluntarily finish and log off. After the grace
period, users are forced to log off. (The next option
will specify warnings issued toward the end of the
grace period).
MCUMIN {Grace period before auto-shutdown (minutes) 20} N 0 59
Toward the end of the grace period associated with an
auto-shutdown, you may wish to begin warning any users
still online that a shutdown is about to take place.
The warnings happen at a rate of once per minute. The
setting of this parameter determines how many minutes
the warnings will go on for. If this setting is equal
to MCUMIN above, then the warnings will start as soon
as the hour begins.
MCUWRN {Minutes of explicit warnings before auto-shutdown 5} N 0 59
The Audit Trail is a database that records important events
on The Major BBS. Audit Trail entries can be viewed on
the main console of the BBS, or even searched through
offline (select the "Reports" option from the introductory
menu of The Major BBS).
Do you wish to make an Audit Trail entry each time a user
logs on -- that is connects with The Major BBS and is
recognized?
LONAUD {Make Audit Trail entry for each Log-on? NO} B
The Audit Trail is a database that records important events
on The Major BBS. Audit Trail entries can be viewed on
the main console of the BBS, or even searched through
offline (select the "Reports" option from the introductory
menu of The Major BBS).
Do you wish to make an Audit Trail entry each time a user
logs off -- that is, when a user's session ends due to:
exiting from the main menu, excess profanity, or simply
hanging up the phone line?
LOFAUD {Make Audit Trail entry for each Log-off? NO} B
The Audit Trail is a database that records important events
on The Major BBS. Audit Trail entries can be viewed on
the main console of the BBS, or even searched through
offline (select the "Reports" option from the introductory
menu of The Major BBS).
Do you wish to make an Audit Trail entry each time a user
selects an option from the main Menu Tree of The Major
BBS? If so, the User-ID and letter of the menu option will
be recorded in the Audit Trail.
MMUAUD {Record all user Menu Tree choices in Audit Trail? NO} B
Users will use your system by making menu selections and by
answering questions. After a while, users may become
proficient enough to know the answers before the questions
are asked. Command concatenation is a feature that allows
users to answer a series of questions in one statement.
For example "ERT" from the Main Menu may mean: Electronic
mail (E); Read (R); messages To you (T).
You may want to limit the number of commands that can be
strung together for simplification.
MAXCAT {Maximum number of concatenated commands allowed: 7} N 1 999
When returning to a menu from either a module or
another menu, do you want the short form or the
long form of the menu displayed? The Major BBS
standard method is to display the long form only
when entering the menu "from above", but you may
want the long form displayed each time the menu
is reached, regardless of whether it is reached
by exiting to it "from below", or not. Answer
SHORT to use The Major BBS standard method, or
LONG to use the long form all the time.
SHORTM {When exiting to a menu, use short form or long? SHORT} E SHORT LONG
The Major BBS has a built-in ability to detect cussing,
and to take various levels of action in response. If
you want cussing fully permitted on your system, across
the board, set this variable to 0. For very limited
monitoring and denial of word use, set this variable to
1. A value of 2 leads to more vigorous prosecution of
cussers, and a value of 3 yields the most severe
restrictions on "colorful" language available.
PFCEIL {Severity level of profanity suppression 0} N 0 3
This number controls both the pitch and the duration of
the beep character at the main console when actively
emulating a user channel. Increasing this number both
lowers the pitch of the tone and makes it take longer.
To disable this beep, set the period to a value of 0.
VISBEL {Period (inverse pitch) of emulation beep 800} N 0 2000
This number controls both the pitch and the duration of
the beep character at the main console when a user channel
has been emulated, but the emulation screen is not
visible.
Increasing this number both lowers the pitch of the tone
and makes it take longer.
To disable this beep, set the period to a value of 0.
INVBEL {Period of emulation beep when not monitoring 0} N 0 2000
Each time an Audit Trail record is created, the BBS can
search the list of online users, and, if it finds any user
with the MASTER key, it will dump a copy of the Audit
Trail record to that user's display.
If you want this feature enabled, answer YES to this
question. If you would rather not have your sessions
interrupted with this type of data while you are online,
answer NO.
SOPAUD {Output Audit Trail postings to remote Sysops? NO} B
This is a difficult option to explain. The issue is:
when a user exits from a point "inside" a module, such
that they would normally be presented with that module's
primary menu, do you want a special test made that says,
"IF this user entered the module most recently from a
module page with a nonblank command string, THEN they
should exit the module altogether, and never see the
module's primary menu"?
EXICNC {Make "concatenated commands" bypass menu upon exit? YES} B
Certain systems, especially those systems which are
overloaded or have heavy CD-ROM use, may experience
their DOS clock "losing" time. An internal mechanism
was built into The Major BBS to periodically update
the DOS clock to avoid this problem. However, a few
systems have been observed not updating their DOS
date at midnight if this feature is enabled. If your
system is NOT updating its DOS date properly you should
set this option to NO, otherwise set it to YES.
UPDCLK {Enable automatic DOS clock synchronization? YES} B
At certain prompts, if a user enters a partial User-ID
they may be given a list of possible User-IDs, based on
the partial ID they entered. This option allows you to
alter the number of possible User-IDs displayed to the
user in these cases.
The higher this number is, the more overhead is generated
on the system whenever a user gets one of these lists. It
is recommended that this be left at its default of 6.
NUMXRF {Number of "possible UIDs" to display in list: 6} N 0 16
This is the text that is displayed to the user when more
than a page of text has been displayed, or their screen
is about to be cleared. The options the user will have
will be 'N' to not pause any more, 'Q' to abort what-
ever is being listed, and 'C' to just continue on to the
next page.
SCNPAUS {(N)onstop, (Q)uit, or (C)ontinue?},{|#|#|#
Click text area to continue, CTRL-X to quit, or CTRL-N for nonstop...} T One-line prompt when screen pauses (hit F2 to see it)
The Major BBS allows add-on modules to have their own
display screens, using this option you can control how
many screens room is allocated for. You should only
change this option if you get an error message telling
you to increase this option.
MAXSCNS {Maximum number of display screens: 15} N 10 50
This is the ANSI sequence that represents the attribute
for any default menus that are displayed.
MMUATR {
} S 15 ANSI attribute for menu options
When creating a menu, you are given the choice of showing,
hiding, or dimming options that users don't have access
to. When a user is shown an option on a menu that they
don't have access to, and you've specified the option to
be dimmed in that case, this ANSI sequence dims the
option.
ANSDIM {
} S 15 ANSI sequence to dim menu options
At level 6 of system configuration, you have all options associated with the
text messages displayed to users when online your BBS.
LEVEL6 {}
▄▀▀▀ █▄ █ █▀▀▀
█ █▀█▄█ █▄▄
█ █ ▀█ █
▀▀▀ ▀ ▀ ▀
The Major BBS Configuration Facility
Copyright 1990-1994 Galacticomm, Inc.
The first configuration option tells users that automatic
protocol sensing is in progress. This would occur if you
set ANSIOP to AUTO, or if some other automatic sensing is
taking place. Hit F2 or ─┘ to edit this text option.
AUTOSENS {Auto-sensing...
} T Auto sensing protocols
When connecting to your BBS, if users have a choice of
languages and protocols, the list is preceded by this
header message. (You can use the <F8> key to search for
the "LALINE" and "LAFOOT" text blocks that are used to
construct the rest of this list.)
This message can only be displayed if the offline
Configuration option LANGOP is set to ASK.
LONLANGS {
Please choose one of these languages/protocols:
} T Choose among languages and protocols at log-on
This question is only used if you have answered "ASK" as
the value of parameter ANSIOP: "Initial ANSI setting at
start of session". The question is asked before the
logon message even appears, so that you can conditionally
display ANSI graphics as part of your system-ID, if you
like. (Note that the preferred method for determining
this is to set ANSIOP to AUTO, however.)
QANSI {
Display ANSI graphics (Y/N)? } T Display ANSI graphics question
This message is given to users when they first connect to
The Major BBS. It tells them the title of your BBS, your
registration number, their baud rate, and the time and
date. This message comes immediately BEFORE any special
log-on message that may have been set from the Sysop
console of The Major BBS.
HELLO {
THE MAJOR BBS TEST DRIVE
Galacticomm, Inc.
4101 S.W. 47th Ave., Ste. 101
Fort Lauderdale, FL 33314
┌────────────────────────────────────────────────────────────────────────────┐
│
Welcome new System Operator!
You are taking a "test drive" of the
│
│
world's most advanced multi-user bulletin board system, The Major BBS.
│
│
This is a sample of the opening screen your users will see when they
│
│
first connect to your system. You can personalize your welcome screen to
│
│
give your users a memorable impression from the moment they log on. You
│
│
can design your own colorful menus with flashing words and creative
│
│
pictures and patterns.
│
│ │
│
The Test Drive is limited in the number of user accounts and messages
│
│
it can have, and the number of outside calls it receives. But feel free
│
│
to experiment and practice with the menus, prompts, and other configur-
│
│
ation options. As soon as you're ready to place your order, we'll be
│
│
happy to provide you with a fully working version that you can set up
│
│
right away and bring online. We look forward to having you as a customer!
│
└────────────────────────────────────────────────────────────────────────────┘
},{
!|1K|*|w0000000000|1I000000110WORLD-1.ICN|1I003200110WORLD-2.ICN
!|1I006700110WORLD-3.ICN|S0109|B008WHR99|c00|R0C0AHE19|R1T1SG23I|R3I4KEE8M
!|S0108|F6G0T00|F4M0G00|F3T0L00|F471000|F3Z1800|F461800|F4E1800|F3Q1700
!|F3E1800|F3M1100|F3F0Y00|F3K0V00|F3J0Q00|F3H0P00|F390O00|F2Y0Z00|F2O0Y00
!|F2D0V00|F2R0S00|F950N00|F8W0M00|F9D0Q00|F9G0J00|F990J00|FB70Y00|FD91200
!|FDD0N00|FD20K00|FD00G00|FDR1800|FDY1800|FEF1800|FEK1800|FF70Y00|FFF0Z00
!|FFM1000|F2C1700|F2S2500|F2V3900|F443G00|F4U3D00|F513900|F4D3H00|F4D3H00
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!|F563100|F5J3400|F4R1V00|F421Z00|F472300|F472300|F472400|F4C2600|F551U00
!|F5Y1W00|F7D1Y00|F7X2T00|F7Z3H00|F8E3700|F862S00|F832K00|F822H00|F832H00
!|F7Z2P00|F842Y00|F842Z00|F8K2Y00|F8K2W00|F8S2M00|F8Q2700|F941W00|F8W2N00
!|F8X2V00|F8Q3100|F9M2100|F9A2V00|F923100|F8Q3800|F8Q3B00|F8W3B00|F903700
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!|FA61T00|FEX3600|F9D3400|F8M2X00|F3P4V00|F3W4R00|F3U4Z00|F3X4W00|F494M00
!|F4E4O00|F4I4Q00|F4S4S00|F434Z00|F435300|F445800|F495B00|F4C5A00|F4F5B00
!|F4N5I00|F525E00|F4Q5900|F5D5I00|F5I5J00|F5O5K00|F4F5S00|F5U5S00|F5G5W00
!|F4N6400|F566K00|F4U7100|F4R7P00|F4P8800|F4Q8K00|F4P8J00|F4V8A00|F5H7G00
!|F5D6W00|F5L7300|F5K7400|F7M4M00|F7T4Q00|F7L4Z00|F7K5500|F7P5700|F7Q5C00
!|F7T5G00|F825D00|F7Y5200|F8K4N00|F895400|F895C00|F8D5D00|F8C5900|F8G5800
!|F8Q4W00|F8P5800|F9A4X00|F9F4N00|F9T4M00|F9U5000|F8Y5G00|F905900|F9F5E00
!|F8W5R00|F8T5O00|F945Q00|F9E5R00|FAB5C00|FAF5600|FAM5A00|F9X5O00|FA85O00
!|F9S5T00|F9T5X00|F946B00|F9N6H00|F9Q6D00|F9Z5Z00|FA66D00|FA16H00|F9R6M00
!|F9I6U00|F946W00|F9K7400|F9V7200|F9Q7900|FAM6P00|FAO4N00|FAJ4Z00|FAU4V00
!|FB34P00|FAZ4L00|FC64P00|FCB5C00|FD44O00|F4Q8100|FCR4M00|FCV4M00|FDB4M00
!|FDJ4L00|FDR4M00|FDY4L00|FDJ4N00|FDE4Q00|FDI4R00|FDA4X00|FD85D00|FDH5400
!|FDL4Y00|FDJ5000|FDN4X00|FDQ4S00|FE94L00|FEA4W00|FDO5200|FDI5A00|FDJ5900
!|FDC5G00|FDC5K00|FDA5H00|FDA5P00|FD55P00|FDZ5R00|FDX5N00|FE25I00|FE45B00
!|FE95500|FDN6300|FDU6500|FE36700|FE85Z00|FE85V00|FEC5W00|FEB5T00|FE77600
!|S0101|F1N0M00|F440N00|F410H00|F560D00|F510F00|F880R00|F780B00|F720B00
!|F213800|F253300|F202Z00|F1S2Q00|F1R2S00|F3Z3600|F483C00|F403D00|F403C00
!|F4H3F00|F3Z2700|F982H00|F9O2B00|FA23F00|F8P3G00|F913F00|FA23A00|F9H2H00
!|FA61V00|FAC1T00|FAQ3E00|FF43D00|F4W3400|F4X3200|F4Z3100|F533000|F462500
!|F411V00|F411V00|F8X2P00|F8T2P00|F8Z0P00|F7B1100|FFB1600|F3U6L00|F4H5200
!|F4H4N00|FAB4V00|FDO5B00|FE65W00|FE95W00|FAG5400|FE95R00|FEC5R00|FED5U00
!|c0F|R0C0AHE19|R1T1SG23I|R3I4KEE8M|c07|R0B09HF1A|R1S1RG33J|R3H4JEF8N
!|1C0D0BHD180|1B000002000X030B000F080700000F07000000|Y01000200
!|1U0D0B00000000<> CRSYSTEM_NAME<>|c00|@7R1VWelcome\!|c0E|@7Q1UWelcome\!
!|Y00000100|c00|@3F2NRunning The Major BBS by GALACTICOMM (#L(REG_NUMBER)
!|@5532Online R%BAUD baud at L%TIME L/DATE
!|c0A|@3E2MRunning The Major BBS by GALACTICOMM (#L(REG_NUMBER)
!|@5431Online R%BAUD baud at L%TIME L/DATE
!|1C3J4LED8L0|#|#|#
} T Greeting message when user first connects to The Major BBS
This message is given to users when they first connect to
The Major BBS via an X.25 packet-switching network. It
tells them the title of your BBS, your registration number,
and the time and date. This message comes immediately
BEFORE any special log-on message that may have been set
from the Sysop console of The Major BBS.
HELLO25 {
THE MAJOR BBS TEST DRIVE
Galacticomm, Inc.
4101 S.W. 47th Ave., Ste. 101
Fort Lauderdale, FL 33314
┌────────────────────────────────────────────────────────────────────────────┐
│
Welcome new System Operator!
You are taking a "test drive" of the
│
│
world's most advanced multi-user bulletin board system, The Major BBS.
│
│
This is a sample of the opening screen your users will see when they
│
│
first connect to your system. You can personalize your welcome screen to
│
│
give your users a memorable impression from the moment they log on. You
│
│
can design your own colorful menus with flashing words and creative
│
│
pictures and patterns.
│
│ │
│
The Test Drive is limited in the number of user accounts and messages
│
│
it can have, and the number of outside calls it receives. But feel free
│
│
to experiment and practice with the menus, prompts, and other configur-
│
│
ation options. As soon as you're ready to place your order, we'll be
│
│
happy to provide you with a fully working version that you can set up
│
│
right away and bring online. We look forward to having you as a customer!
│
└────────────────────────────────────────────────────────────────────────────┘
},{
!|1K|*|w0000000000|1I000000110WORLD-1.ICN|1I003200110WORLD-2.ICN
!|1I006700110WORLD-3.ICN|S0109|B008WHR99|c00|R0C0AHE19|R1T1SG23I|R3I4KEE8M
!|S0108|F6G0T00|F4M0G00|F3T0L00|F471000|F3Z1800|F461800|F4E1800|F3Q1700
!|F3E1800|F3M1100|F3F0Y00|F3K0V00|F3J0Q00|F3H0P00|F390O00|F2Y0Z00|F2O0Y00
!|F2D0V00|F2R0S00|F950N00|F8W0M00|F9D0Q00|F9G0J00|F990J00|FB70Y00|FD91200
!|FDD0N00|FD20K00|FD00G00|FDR1800|FDY1800|FEF1800|FEK1800|FF70Y00|FFF0Z00
!|FFM1000|F2C1700|F2S2500|F2V3900|F443G00|F4U3D00|F513900|F4D3H00|F4D3H00
!|F4E3H00|F4U3700|F4T3800|F513E00|F533E00|F563C00|F553800|F553900|F563900
!|F563100|F5J3400|F4R1V00|F421Z00|F472300|F472300|F472400|F4C2600|F551U00
!|F5Y1W00|F7D1Y00|F7X2T00|F7Z3H00|F8E3700|F862S00|F832K00|F822H00|F832H00
!|F7Z2P00|F842Y00|F842Z00|F8K2Y00|F8K2W00|F8S2M00|F8Q2700|F941W00|F8W2N00
!|F8X2V00|F8Q3100|F9M2100|F9A2V00|F923100|F8Q3800|F8Q3B00|F8W3B00|F903700
!|F993F00|F993800|F9M3A00|F9L3H00|FAH2K00|FA03C00|FCN3D00|FDG3900|FEC3900
!|FFD3000|FFD3800|FFB3G00|FG12N00|F5O3800|F233200|F243200|F1U2O00|F461T00
!|FA61T00|FEX3600|F9D3400|F8M2X00|F3P4V00|F3W4R00|F3U4Z00|F3X4W00|F494M00
!|F4E4O00|F4I4Q00|F4S4S00|F434Z00|F435300|F445800|F495B00|F4C5A00|F4F5B00
!|F4N5I00|F525E00|F4Q5900|F5D5I00|F5I5J00|F5O5K00|F4F5S00|F5U5S00|F5G5W00
!|F4N6400|F566K00|F4U7100|F4R7P00|F4P8800|F4Q8K00|F4P8J00|F4V8A00|F5H7G00
!|F5D6W00|F5L7300|F5K7400|F7M4M00|F7T4Q00|F7L4Z00|F7K5500|F7P5700|F7Q5C00
!|F7T5G00|F825D00|F7Y5200|F8K4N00|F895400|F895C00|F8D5D00|F8C5900|F8G5800
!|F8Q4W00|F8P5800|F9A4X00|F9F4N00|F9T4M00|F9U5000|F8Y5G00|F905900|F9F5E00
!|F8W5R00|F8T5O00|F945Q00|F9E5R00|FAB5C00|FAF5600|FAM5A00|F9X5O00|FA85O00
!|F9S5T00|F9T5X00|F946B00|F9N6H00|F9Q6D00|F9Z5Z00|FA66D00|FA16H00|F9R6M00
!|F9I6U00|F946W00|F9K7400|F9V7200|F9Q7900|FAM6P00|FAO4N00|FAJ4Z00|FAU4V00
!|FB34P00|FAZ4L00|FC64P00|FCB5C00|FD44O00|F4Q8100|FCR4M00|FCV4M00|FDB4M00
!|FDJ4L00|FDR4M00|FDY4L00|FDJ4N00|FDE4Q00|FDI4R00|FDA4X00|FD85D00|FDH5400
!|FDL4Y00|FDJ5000|FDN4X00|FDQ4S00|FE94L00|FEA4W00|FDO5200|FDI5A00|FDJ5900
!|FDC5G00|FDC5K00|FDA5H00|FDA5P00|FD55P00|FDZ5R00|FDX5N00|FE25I00|FE45B00
!|FE95500|FDN6300|FDU6500|FE36700|FE85Z00|FE85V00|FEC5W00|FEB5T00|FE77600
!|S0101|F1N0M00|F440N00|F410H00|F560D00|F510F00|F880R00|F780B00|F720B00
!|F213800|F253300|F202Z00|F1S2Q00|F1R2S00|F3Z3600|F483C00|F403D00|F403C00
!|F4H3F00|F3Z2700|F982H00|F9O2B00|FA23F00|F8P3G00|F913F00|FA23A00|F9H2H00
!|FA61V00|FAC1T00|FAQ3E00|FF43D00|F4W3400|F4X3200|F4Z3100|F533000|F462500
!|F411V00|F411V00|F8X2P00|F8T2P00|F8Z0P00|F7B1100|FFB1600|F3U6L00|F4H5200
!|F4H4N00|FAB4V00|FDO5B00|FE65W00|FE95W00|FAG5400|FE95R00|FEC5R00|FED5U00
!|c0F|R0C0AHE19|R1T1SG23I|R3I4KEE8M|c07|R0B09HF1A|R1S1RG33J|R3H4JEF8N
!|1C0D0BHD180|1B000002000X030B000F080700000F07000000|Y01000200
!|1U0D0B00000000<> CRSYSTEM_NAME<>|c00|@7R1VWelcome\!|c0E|@7Q1UWelcome\!
!|Y00000100|c00|@3F2NRunning The Major BBS by GALACTICOMM (#L(REG_NUMBER)
!|@5532Online R%BAUD baud at L%TIME L/DATE
!|c0A|@3E2MRunning The Major BBS by GALACTICOMM (#L(REG_NUMBER)
!|@5431Online R%BAUD baud at L%TIME L/DATE
!|1C3J4LED8L0|#|#|#
} T Greeting when user first connects to The Major BBS via X.25
This message is given to users when they first connect to
The Major BBS via a Local Area Network. It tells them the
title of your BBS, your registration number, and the time
and date. This message comes immediately BEFORE any
special log-on message that may have been set from the
Sysop console of The Major BBS.
HELLOGN {
THE MAJOR BBS TEST DRIVE
Galacticomm, Inc.
4101 S.W. 47th Ave., Ste. 101
Fort Lauderdale, FL 33314
┌────────────────────────────────────────────────────────────────────────────┐
│
Welcome new System Operator!
You are taking a "test drive" of the
│
│
world's most advanced multi-user bulletin board system, The Major BBS.
│
│
This is a sample of the opening screen your users will see when they
│
│
first connect to your system. You can personalize your welcome screen to
│
│
give your users a memorable impression from the moment they log on. You
│
│
can design your own colorful menus with flashing words and creative
│
│
pictures and patterns.
│
│ │
│
The Test Drive is limited in the number of user accounts and messages
│
│
it can have, and the number of outside calls it receives. But feel free
│
│
to experiment and practice with the menus, prompts, and other configur-
│
│
ation options. As soon as you're ready to place your order, we'll be
│
│
happy to provide you with a fully working version that you can set up
│
│
right away and bring online. We look forward to having you as a customer!
│
└────────────────────────────────────────────────────────────────────────────┘
},{
!|1K|*|w0000000000|1I000000110WORLD-1.ICN|1I003200110WORLD-2.ICN
!|1I006700110WORLD-3.ICN|S0109|B008WHR99|c00|R0C0AHE19|R1T1SG23I|R3I4KEE8M
!|S0108|F6G0T00|F4M0G00|F3T0L00|F471000|F3Z1800|F461800|F4E1800|F3Q1700
!|F3E1800|F3M1100|F3F0Y00|F3K0V00|F3J0Q00|F3H0P00|F390O00|F2Y0Z00|F2O0Y00
!|F2D0V00|F2R0S00|F950N00|F8W0M00|F9D0Q00|F9G0J00|F990J00|FB70Y00|FD91200
!|FDD0N00|FD20K00|FD00G00|FDR1800|FDY1800|FEF1800|FEK1800|FF70Y00|FFF0Z00
!|FFM1000|F2C1700|F2S2500|F2V3900|F443G00|F4U3D00|F513900|F4D3H00|F4D3H00
!|F4E3H00|F4U3700|F4T3800|F513E00|F533E00|F563C00|F553800|F553900|F563900
!|F563100|F5J3400|F4R1V00|F421Z00|F472300|F472300|F472400|F4C2600|F551U00
!|F5Y1W00|F7D1Y00|F7X2T00|F7Z3H00|F8E3700|F862S00|F832K00|F822H00|F832H00
!|F7Z2P00|F842Y00|F842Z00|F8K2Y00|F8K2W00|F8S2M00|F8Q2700|F941W00|F8W2N00
!|F8X2V00|F8Q3100|F9M2100|F9A2V00|F923100|F8Q3800|F8Q3B00|F8W3B00|F903700
!|F993F00|F993800|F9M3A00|F9L3H00|FAH2K00|FA03C00|FCN3D00|FDG3900|FEC3900
!|FFD3000|FFD3800|FFB3G00|FG12N00|F5O3800|F233200|F243200|F1U2O00|F461T00
!|FA61T00|FEX3600|F9D3400|F8M2X00|F3P4V00|F3W4R00|F3U4Z00|F3X4W00|F494M00
!|F4E4O00|F4I4Q00|F4S4S00|F434Z00|F435300|F445800|F495B00|F4C5A00|F4F5B00
!|F4N5I00|F525E00|F4Q5900|F5D5I00|F5I5J00|F5O5K00|F4F5S00|F5U5S00|F5G5W00
!|F4N6400|F566K00|F4U7100|F4R7P00|F4P8800|F4Q8K00|F4P8J00|F4V8A00|F5H7G00
!|F5D6W00|F5L7300|F5K7400|F7M4M00|F7T4Q00|F7L4Z00|F7K5500|F7P5700|F7Q5C00
!|F7T5G00|F825D00|F7Y5200|F8K4N00|F895400|F895C00|F8D5D00|F8C5900|F8G5800
!|F8Q4W00|F8P5800|F9A4X00|F9F4N00|F9T4M00|F9U5000|F8Y5G00|F905900|F9F5E00
!|F8W5R00|F8T5O00|F945Q00|F9E5R00|FAB5C00|FAF5600|FAM5A00|F9X5O00|FA85O00
!|F9S5T00|F9T5X00|F946B00|F9N6H00|F9Q6D00|F9Z5Z00|FA66D00|FA16H00|F9R6M00
!|F9I6U00|F946W00|F9K7400|F9V7200|F9Q7900|FAM6P00|FAO4N00|FAJ4Z00|FAU4V00
!|FB34P00|FAZ4L00|FC64P00|FCB5C00|FD44O00|F4Q8100|FCR4M00|FCV4M00|FDB4M00
!|FDJ4L00|FDR4M00|FDY4L00|FDJ4N00|FDE4Q00|FDI4R00|FDA4X00|FD85D00|FDH5400
!|FDL4Y00|FDJ5000|FDN4X00|FDQ4S00|FE94L00|FEA4W00|FDO5200|FDI5A00|FDJ5900
!|FDC5G00|FDC5K00|FDA5H00|FDA5P00|FD55P00|FDZ5R00|FDX5N00|FE25I00|FE45B00
!|FE95500|FDN6300|FDU6500|FE36700|FE85Z00|FE85V00|FEC5W00|FEB5T00|FE77600
!|S0101|F1N0M00|F440N00|F410H00|F560D00|F510F00|F880R00|F780B00|F720B00
!|F213800|F253300|F202Z00|F1S2Q00|F1R2S00|F3Z3600|F483C00|F403D00|F403C00
!|F4H3F00|F3Z2700|F982H00|F9O2B00|FA23F00|F8P3G00|F913F00|FA23A00|F9H2H00
!|FA61V00|FAC1T00|FAQ3E00|FF43D00|F4W3400|F4X3200|F4Z3100|F533000|F462500
!|F411V00|F411V00|F8X2P00|F8T2P00|F8Z0P00|F7B1100|FFB1600|F3U6L00|F4H5200
!|F4H4N00|FAB4V00|FDO5B00|FE65W00|FE95W00|FAG5400|FE95R00|FEC5R00|FED5U00
!|c0F|R0C0AHE19|R1T1SG23I|R3I4KEE8M|c07|R0B09HF1A|R1S1RG33J|R3H4JEF8N
!|1C0D0BHD180|1B000002000X030B000F080700000F07000000|Y01000200
!|1U0D0B00000000<> CRSYSTEM_NAME<>|c00|@7R1VWelcome\!|c0E|@7Q1UWelcome\!
!|Y00000100|c00|@3F2NRunning The Major BBS by GALACTICOMM (#L(REG_NUMBER)
!|@5532Online R%BAUD baud at L%TIME L/DATE
!|c0A|@3E2MRunning The Major BBS by GALACTICOMM (#L(REG_NUMBER)
!|@5431Online R%BAUD baud at L%TIME L/DATE
!|1C3J4LED8L0|#|#|#
} T Greeting when user first connects to The Major BBS via LAN
This is the first question asked of any user accessing
your BBS on one of your "demo" channels (right after the
logon message set at the main console). This is a channel
among the first SAMPLN channels defined. These channels
allow new and demo users to log on. See also LOGUID.
To display a file instead of this message, put a $
followed immediately by a file name with no extension
(don't worry about BBSDRAW's colors -- they'll be stripped
out), and erase the rest of the message. The extension
will be ".ANS" for ANSI users or ".ASC" for non-ANSI users.
ENTUSID {
Please enter your User-ID (or "new"): },{
!|1K|10$MKILL$|1P3J4L000|w0Q0R1I0R00|Y00000100|c00|@8953Hello\!
!|@5L5KPlease enter your User-ID here:|@5H75Now, please enter your password:
!|c0F|@8852Hello\!|@5K5JPlease enter your User-ID here:|c07
!|@5G74Now, please enter your password:
!|1B0000020W740100000F080000000F07000000|1U5O5ZCA6B0000<><>
!|1B0000020W7401000007080800000F07000000|1U5O7QCA820000<><>|#|#|#
} T Asking for User-ID, demo
This is the first question asked of any user accessing your
BBS on one of your reserved channels (after the logon
set at the main console). This is a channel whose channel
number is greater than or equal to the value of the
SAMPLN option. These channels only allow users to log on
who already have an account and who hold the key named in
the option SAMPKY. To display a file instead of this
message, put a $ followed immediately by a file name with
no extension (and erase the rest of the message). The
extension will be ".ANS" for ANSI users and ".ASC" for
non-ANSI users.
LOGUID {
Please enter your User-ID (or "new"): },{
!|1K|10$MKILL$|1P3J4L000|w0Q0R1I0R00|Y00000100|c00|@8953Hello\!
!|@5L5KPlease enter your User-ID here:|@5H75Now, please enter your password:
!|c0F|@8852Hello\!|@5K5JPlease enter your User-ID here:|c07
!|@5G74Now, please enter your password:
!|1B0000020W740100000F080000000F07000000|1U5O5ZCA6B0000<><>
!|1B0000020W7401000007080800000F07000000|1U5O7QCA820000<><>|#|#|#
} T Asking for User-ID, reserved channel
When a user on one of the demo channels enters a User-ID
that your BBS does not recognize, he is asked for his
User-ID again with this message.
UIDNOG {
Sorry, no such User-ID exists in our
database. Maybe you mistyped it?
If you already have a User-ID on this
system, type it in and press RETURN.
Otherwise type "
new
": },{
!|1K|Y00000100|10$MKILL$|1P3J4L000|w0Q0R1I0R00|c00
!|@4953Invalid User-ID\! Perhaps you mistyped it?
!|@5U5KPlease re-enter your User-ID:
!|@3Z6NOtherwise, if you'd like to create a new one,|@7R75click here:|c0F
!|@4852Invalid User-ID\! Perhaps you mistyped it?
!|@5T5JPlease re-enter your User-ID:
!|@3Y6MOtherwise, if you'd like to create a new one,|@7Q74click here:
!|1B0000020W740100000F080000000F07000000|1U5O5ZCA6B0000<><>
!|1B00000207QQ020F010F080700000F07000000
!|1U5O7OCA800000<>Create New Account<>NEW`M|#|#|#
} T Bad User-ID, demo channel
When a user on one of the reserved channels enters a
User-ID that your BBS does not recognize, he is asked
for his User-ID again with this message. He is told
to call your demo phone line (option DATAPH) if he
does not already have an account.
LOGNOG {
Sorry, no such User-ID exists in our
database.
If you don't already have an account
on this system, please hang up and
call N,SYSTEM_PHONE with your modem,
so that you can create an account for
yourself. Otherwise enter your
User-ID: },{
!|1K|10$MKILL$|1P3J4L000|w0Q0R1I0R00|c00
!|@4953Invalid User-ID\! Perhaps you mistyped it?
!|@5U5KPlease re-enter your User-ID:|@5H75Now, please enter your password:
!|c0F|@4852Invalid User-ID\! Perhaps you mistyped it?
!|@5T5JPlease re-enter your User-ID:|c07
!|@5G74Now, please enter your password:
!|1B0000020W740100000F080000000F07000000|1U5O5ZCA6B0000<><>
!|1B0000020W7401000007080800000F07000000|1U5O7QCA820000<><>|#|#|#
} T Bad User-ID, reserved channel
This user has entered a User-ID that is already online
and using your BBS at this moment. He is connected on a
demo channel, so we can tell him to type "new" if he
does not already have an account.
ALRDON {
Sorry, that User-ID is already in use
on the system at the moment.
If you want to create another User-ID
for yourself, type "
new
". Otherwise
enter an alternate User-ID: },{
!|1K|Y00000100|10$MKILL$|1P3J4L000|w0Q0R1I0R00|c00
!|@5L53That User-ID is already online\!|@5U5KPlease re-enter your User-ID:
!|@3Z6NOtherwise, if you'd like to create a new one,|@7R75click here:|c0F
!|@5K52That User-ID is already online\!|@5T5JPlease re-enter your User-ID:
!|@3Y6MOtherwise, if you'd like to create a new one,|@7Q74click here:
!|1B0000020W740100000F080000000F07000000|1U5O5ZCA6B0000<><>
!|1B00000207QQ020F010F080700000F07000000
!|1U5O7OCA800000<>Create New Account<>NEW`M|#|#|#
} T User-ID already online, demo channel
This user has entered a User-ID that is already online
and using your BBS at this moment. He is connected on a
reserved channel, so we cannot tell him to type "new" if
he does not have an account.
LOGDON {
Sorry, that User-ID is already in use
on the system at the moment. Want to
try another one? },{
!|1K|10$MKILL$|1P3J4L000|w0Q0R1I0R00|c00
!|@5L53That User-ID is already online\!|@5U5IPlease re-enter your User-ID:
!|@5H74Now, please enter your password:|c0F
!|@5K52That User-ID is already online\!|@5T5HPlease re-enter your User-ID:
!|c07|@5G73Now, please enter your password:
!|1B0000020W740100000F080000000F07000000|1U5O5ZCA6B0000<><>
!|1B0000020W7401000007080800000F07000000|1U5O7QCA820000<><>|#|#|#
} T User-ID already online, reserved channel
This user has tried to enter a User-ID or a password three
times already with no success (either there was no such
User-ID, or it was already online, or the password was
incorrect). He is disconnected at the end of this message.
STRUKO {
Sorry, three strikes and you're out.
Please call back if you want to try
again. Have a nice day...
},{
!|1K|*|=00000001|c09|R008DHR99|R0076HR8D|R0067HR76|R005EHR67|R004OHR5E
!|R0042HR4O|R003LHR42|R0037HR3L|R002VHR37|R002KHR2V|R002BHR2K|R0023HR2B
!|R001XHR23|R001SHR1X|R001PHR1S|R001MHR1P|R001KHR1I|s0K3M29162C3S1X1409
!|F7R8W09|s0K3M29022C3S1X1409|F6P7Y09|s0K3M290228081X1409|F5B6T09
!|s0K3M1T022808051409|F6B5U09|s0K3M1S022800051409|F5P5609
!|s0K3K1S022800011409|F6J4G09|s043K1S020G00011409|F593X09
!|s043K1S020G00010W09|F5C3H09|s043K00020G00010W09|F663109
!|s003K00040G00010W09|F5T2Q09|s003K00040000010W09|F602E09
!|s00001S000200000W09|F6Y2809|s000000020000000W09|F6X2009
!|s00001S000200000W09|F7J2009|F9T1U09|s003K00040000010W09|F8H2709
!|s00001S000200000W09|F7U1Q09|F7V1N09|F811L09|s000200000000000009|F7V1L09
!|a0D17|c0D|L8Z1I7499|L8Z1I3499|L8Y1I009B|L8X1I0075|L8U1I005T|L8R1I004T
!|L8R1I0044|L8M1I003N|L8H1I003A|L8A1I002Y|L841I002N|L7X1I002F|L7P1I0026
!|L7A1I0020|L6V1I001V|L731I001S|L6Q1I001P|L5E1I001N|L431I001L|L3U1I001J
!|L8Z1I8Z1I|L8Z1IBA99|L901IFB99|L931IHR94|L931IHR73|L951IHR5U|L971IHR4U
!|L991IHR44|L9C1IHR3N|L9H1IHR3A|L9N1IHR2Y|L9V1IHR2N|LA31IHR2F|LAD1IHR26
!|LAS1IHR20|LBB1IHR1V|LBS1IHR1S|LCG1IHR1Q|LCG1IHR1N|LDU1IHR1J|LCH1IHR1L
!|a0C12|a040W|1B0000020080030B060F080000000F07000000|Y01000200
!|1U0D06HD0X0000<> CRSYSTEM_NAME<>|w050Y2D1311|c07|R0R7IGZ8X
!|s000200000000000000|B0S7JGY8W|Y00000200|c04
!|@0X3OSorry, three strikes and you're out\!
!|@0P48Thanks for calling - please call back
!|@094Swhen you have your User-ID and password|@7L5Chandy.|c0C
!|@0W3NSorry, three strikes and you're out\!
!|@0O47Thanks for calling - please call back
!|@084Rwhen you have your User-ID and password|@7K5Bhandy.|#|#|#
} T Disconnect message after 3 bad User-ID's
When a user does not hold the key named in the option
SAMPKY tries to call on one of the reserved lines, he
is told to call back on one of the demo lines. He is
bumped off after this message.
MEMONL {
Sorry, due to overwhelming demand, only members can access
the system through N.RESTRICTED_PHO. For demo use, please call N,SYSTEM_PHONE.
But come on, for only N/CHARGE_PER_HOUR per hour, don't you think you
might as well maintain your member status, so that you can
call either number?
See you later, we hope you understand...
},{
!|1K|*|=00000001|c09|R008DHR99|R0076HR8D|R0067HR76|R005EHR67|R004OHR5E
!|R0042HR4O|R003LHR42|R0037HR3L|R002VHR37|R002KHR2V|R002BHR2K|R0023HR2B
!|R001XHR23|R001SHR1X|R001PHR1S|R001MHR1P|R001KHR1I|s0K3M29162C3S1X1409
!|F7R8W09|s0K3M29022C3S1X1409|F6P7Y09|s0K3M290228081X1409|F5B6T09
!|s0K3M1T022808051409|F6B5U09|s0K3M1S022800051409|F5P5609
!|s0K3K1S022800011409|F6J4G09|s043K1S020G00011409|F593X09
!|s043K1S020G00010W09|F5C3H09|s043K00020G00010W09|F663109
!|s003K00040G00010W09|F5T2Q09|s003K00040000010W09|F602E09
!|s00001S000200000W09|F6Y2809|s000000020000000W09|F6X2009
!|s00001S000200000W09|F7J2009|F9T1U09|s003K00040000010W09|F8H2709
!|s00001S000200000W09|F7U1Q09|F7V1N09|F811L09|s000200000000000009|F7V1L09
!|a0D17|c0D|L8Z1I7499|L8Z1I3499|L8Y1I009B|L8X1I0075|L8U1I005T|L8R1I004T
!|L8R1I0044|L8M1I003N|L8H1I003A|L8A1I002Y|L841I002N|L7X1I002F|L7P1I0026
!|L7A1I0020|L6V1I001V|L731I001S|L6Q1I001P|L5E1I001N|L431I001L|L3U1I001J
!|L8Z1I8Z1I|L8Z1IBA99|L901IFB99|L931IHR94|L931IHR73|L951IHR5U|L971IHR4U
!|L991IHR44|L9C1IHR3N|L9H1IHR3A|L9N1IHR2Y|L9V1IHR2N|LA31IHR2F|LAD1IHR26
!|LAS1IHR20|LBB1IHR1V|LBS1IHR1S|LCG1IHR1Q|LCG1IHR1N|LDU1IHR1J|LCH1IHR1L
!|a0C12|a040W|1B0000020080030B060F080000000F07000000|Y01000200
!|1U0D0GHD0X0000<> CRSYSTEM_NAME<>|w050Y2D1311|c07|R0R7IGZ8X
!|s000200000000000000|B0S7JGY8W|Y00000200|c04
!|@0X3OSorry, but this line is reserved for
!|@1548members only. Please call back on:|@5T4UN/SYSTEM_PHONE
!|@495GWe hope you understand...|c0C
!|@0W3NSorry, but this line is reserved for
!|@1447members only. Please call back on:|@5S4TN/SYSTEM_PHONE
!|@485FWe hope you understand...|#|#|#
} T Demo user calling on a reserved line
When a user whose account has been suspended tries to
log on, they are notified of the suspension and told
that they can write you at your stated address to find
out why their account was suspended.
ACCSUS {
The system operator has temporarily suspended
your account. To clarify this matter, please
write to us at:
N.SYSTEM_COMPANY
N/SYSTEM_ADDRESS1
N/SYSTEM_ADDRESS2
Be sure to include your User-ID with the
letter, so we can respond quickly.
Thank you for calling...
},{
!|1K|*|=00000001|c09|R008DHR99|R0076HR8D|R0067HR76|R005EHR67|R004OHR5E
!|R0042HR4O|R003LHR42|R0037HR3L|R002VHR37|R002KHR2V|R002BHR2K|R0023HR2B
!|R001XHR23|R001SHR1X|R001PHR1S|R001MHR1P|R001KHR1I|s0K3M29162C3S1X1409
!|F7R8W09|s0K3M29022C3S1X1409|F6P7Y09|s0K3M290228081X1409|F5B6T09
!|s0K3M1T022808051409|F6B5U09|s0K3M1S022800051409|F5P5609
!|s0K3K1S022800011409|F6J4G09|s043K1S020G00011409|F593X09
!|s043K1S020G00010W09|F5C3H09|s043K00020G00010W09|F663109
!|s003K00040G00010W09|F5T2Q09|s003K00040000010W09|F602E09
!|s00001S000200000W09|F6Y2809|s000000020000000W09|F6X2009
!|s00001S000200000W09|F7J2009|F9T1U09|s003K00040000010W09|F8H2709
!|s00001S000200000W09|F7U1Q09|F7V1N09|F811L09|s000200000000000009|F7V1L09
!|a0D17|c0D|L8Z1I7499|L8Z1I3499|L8Y1I009B|L8X1I0075|L8U1I005T|L8R1I004T
!|L8R1I0044|L8M1I003N|L8H1I003A|L8A1I002Y|L841I002N|L7X1I002F|L7P1I0026
!|L7A1I0020|L6V1I001V|L731I001S|L6Q1I001P|L5E1I001N|L431I001L|L3U1I001J
!|L8Z1I8Z1I|L8Z1IBA99|L901IFB99|L931IHR94|L931IHR73|L951IHR5U|L971IHR4U
!|L991IHR44|L9C1IHR3N|L9H1IHR3A|L9N1IHR2Y|L9V1IHR2N|LA31IHR2F|LAD1IHR26
!|LAS1IHR20|LBB1IHR1V|LBS1IHR1S|LCG1IHR1Q|LCG1IHR1N|LDU1IHR1J|LCH1IHR1L
!|a0C12|a040W|1B0000020080030B060F080000000F07000000|Y01000200
!|1U0D0GHD0X0000<> CRSYSTEM_NAME<>|w050Y2D1311|c07|R0R7IGZ8X
!|s000200000000000000|B0S7JGY8W|1B00000200LC010F000F080100000F07000000
!|1U083AHF640000<><>|Y00000100|c04
!|@0L3KSorry, but the Sysop has temporarily suspended your account on this \
system.
!|@3X3WTo clarify the matter, please write to us at:|@5148N/SYSTEM_COMPANY
!|@514JN/SYSTEM_ADDRESS1|@514UN/SYSTEM_ADDRESS2
!|@2D56Be sure to include your User-ID, so we can respond quickly.
!|@715QThanks for calling...|c0C
!|@0K3JSorry, but the Sysop has temporarily suspended your account on this \
system.
!|@3W3VTo clarify the matter, please write to us at:|@5047N/SYSTEM_COMPANY
!|@504IN/SYSTEM_ADDRESS1|@504TN/SYSTEM_ADDRESS2
!|@2C55Be sure to include your User-ID, so we can respond quickly.
!|@705PThanks for calling...|#|#|#
} T User's account has been suspended
When a user whose time has already run out for the day
tries to logon again, they are given this message.
NOTIME {
Sorry, you've already used up all your time for the day. Please
feel free to call back tomorrow...
},{
!|1K|*|=00000001|c09|R008DHR99|R0076HR8D|R0067HR76|R005EHR67|R004OHR5E
!|R0042HR4O|R003LHR42|R0037HR3L|R002VHR37|R002KHR2V|R002BHR2K|R0023HR2B
!|R001XHR23|R001SHR1X|R001PHR1S|R001MHR1P|R001KHR1I|s0K3M29162C3S1X1409
!|F7R8W09|s0K3M29022C3S1X1409|F6P7Y09|s0K3M290228081X1409|F5B6T09
!|s0K3M1T022808051409|F6B5U09|s0K3M1S022800051409|F5P5609
!|s0K3K1S022800011409|F6J4G09|s043K1S020G00011409|F593X09
!|s043K1S020G00010W09|F5C3H09|s043K00020G00010W09|F663109
!|s003K00040G00010W09|F5T2Q09|s003K00040000010W09|F602E09
!|s00001S000200000W09|F6Y2809|s000000020000000W09|F6X2009
!|s00001S000200000W09|F7J2009|F9T1U09|s003K00040000010W09|F8H2709
!|s00001S000200000W09|F7U1Q09|F7V1N09|F811L09|s000200000000000009|F7V1L09
!|a0D17|c0D|L8Z1I7499|L8Z1I3499|L8Y1I009B|L8X1I0075|L8U1I005T|L8R1I004T
!|L8R1I0044|L8M1I003N|L8H1I003A|L8A1I002Y|L841I002N|L7X1I002F|L7P1I0026
!|L7A1I0020|L6V1I001V|L731I001S|L6Q1I001P|L5E1I001N|L431I001L|L3U1I001J
!|L8Z1I8Z1I|L8Z1IBA99|L901IFB99|L931IHR94|L931IHR73|L951IHR5U|L971IHR4U
!|L991IHR44|L9C1IHR3N|L9H1IHR3A|L9N1IHR2Y|L9V1IHR2N|LA31IHR2F|LAD1IHR26
!|LAS1IHR20|LBB1IHR1V|LBS1IHR1S|LCG1IHR1Q|LCG1IHR1N|LDU1IHR1J|LCH1IHR1L
!|a0C12|a040W|1B0000020080030B060F080000000F07000000|Y01000200
!|1U0D0GHD0X0000<> CRSYSTEM_NAME<>|w050Y2D1311|c07|R0R7IGZ8X
!|s000200000000000000|B0S7JGY8W|Y00000200|c04
!|@0P3OSorry, but you've already used up all|@3T48of your time for today.
!|@014SPlease feel free to call again tomorrow.|@4P5CThanks for calling\!|c\
0C
!|@0O3NSorry, but you've already used up all|@3S47of your time for today.
!|@004RPlease feel free to call again tomorrow.|@4O5BThanks for calling\!|#\
|#
!|#
} T Already out of time for the day message
After a user has correctly entered his User-ID, he is asked
for his password with this prompt. Echo is disabled after
this prompt to hide the password from observers.
ENTPSW {
Enter your password: },{
!|1K|Y00000100|10$MKILL$|1P3J4L000|w0Q0Z1I0Z00|c00|@7L6NThank you...\!
!|@5H74Now, please enter your password:|c0F|@7K6MThank you...\!
!|@5G73Now, please enter your password:
!|1B0000020W740100000F080000000F07000000|1U5O7QCA820000<><>
!|1B0000020W8001070007080800080F07000000|1U5O5HCA5T0000<>L=USERID<>|#|#|#
} T Asking for password
When the user enters an incorrect password he is given this
message, and another chance to enter his password.
PSWNOG {
Sorry, the password you have given is
incorrect. Maybe you mistyped it?
Enter your password: },{
!|1K|Y00000100|10$MKILL$|1P3J4L000|w0Q0Z1I0Z00|c00
!|@476NInvalid password\! Perhaps you mistyped it?
!|@5P74Please re-enter your password:|c0F
!|@466MInvalid password\! Perhaps you mistyped it?
!|@5O73Please re-enter your password:|1B0000020W740100000F080000000F07000000
!|1U5O7QCA820000<><>|1B0000020W8001070007080800080F07000000
!|1U5O5HCA5T0000<>L=USERID<>|#|#|#
} T Bad password
If a user's account is set for a language different from
his current language, the BBS will change his language
just after he enters his password. In that case, this
message informs the user.
LNGSWT {
Switching to your chosen language, %s...},{
!|1K|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z3ISwitching to your chosen language,|c0E
!|@2Z3S%s...
!|#|#|#
} T Language switched at logon
This message is given to all users when they log onto The
Major BBS. A user has logged on when he has correctly
entered his User-ID and his password.
HITHAR {
Greetings, N&USERID, glad to see you back again.
},{
!|1K|*|1B0000020W8003010F0F080700000F00000000|Y000001LD|1U0A7KHI940000<><>
!|1B00000200LC030F000F080700000F07000000|1U0A08HI740000<><>
!|1B00000200LC020F00080F0000000F07000000|1U0K0FH86X0000<><>|w04022F0U11|W00
!|c0F|Y00000200|@6G83Logging on...|c01|@6F82Logging on...
!|1M0705048T3J0000000 `H|1M08043I8T780000000 `H|1M098Q04HN3J0000000 `H
!|1M0A8T3JHN780000000 `H|#|#|#
Greetings, N&USERID, glad to see you back again.
} T Log-on greeting message
This message goes to a user who is logging on and had
his/her invisible flag set in their previous session.
URINVIS {
Sysop "invisible mode" is currently active... Type /invis to toggle.
} T Log-on "you're invisible" message
This message goes to a user who has made an incorrect
selection from a Main Menu. The short menu (letters
only) is given after this message.
NOTINL2 {
The option you have selected, "
%c
", is not in the above list.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z3II'm sorry, I don't understand that command.|#|#|#
} T Bad Main Menu selection
This message goes to a user who has selected an option
they don't have access to (from one of your menus). The
short menu is given after this message.
Note: this message only appears if, in your menu tree,
you have specified to show (or dim) options users don't
have access to. If a user selects an option they don't
have access to, and that option is hidden, they will be
given the "No such option exists" message, not this one.
NOAXSS {
Sorry, you don't have access to the "
%c
" option.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@3W3ISorry, you don't have access to that option. |#|#|#
} T No access for menu selection message
This message is shown when a menu selection is configured
to either 1) jump to a page that has not been configured
yet or 2) jump to a module that is not online (has been
expressly disabled with the DSAMODS utility or 3) jump to
a page that's been disabled online with the DISABLE
command.
NOPAGE {
Sorry, that option is temporarily unavailable.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@3Q3ISorry, that option is temporarily unavailable.|#|#|#
} T Menu option leads to nothing error message
This is the help message a user will get if they type
"/GO" from anywhere on the system without specifing
a page name.
GOHELP {
The correct syntax for the "
/GO
" command is:
/GO <page>
(Use the "
FIND
" command to find a page to go to.)
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000010|10$MKILL$|1C2D1WFF6M0
!|Y00000100|1B00000200LC030F000F080700000F07005L00|1U2I22FA6H0000<><>|Y00000200
!|c0F|@5T2D/GO <PAGE> HELP|c01|@5S2C/GO <PAGE> HELP|Y00000100|c00
!|@3X36The correct syntax for the "/GO" command is:|@7O3V/GO <PAGE>
!|@3N4K(Use the FIND command to find a page to go to.)|c0F
!|@3W35The correct syntax for the command is:
!|@3M4J(Use the command to find a page to go to.)|c0B|@9W35"/GO"
!|@7N3U/GO <PAGE>|@5M4JFIND|1B00000207QQ020F000F080100000F07005L00
!|1U7Z5B9W5X7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|#|#|#
} T Help message for "/GO" command
This message is given to users who attempt to "/GO" to
a page, but the system is unable to exit them from the
current module they are in.
NGONOW {
Sorry, but you can't use the "
/GO
" command at this time.
(You must first exit out of what you are currently doing.)
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z37Sorry, but you can't use the "/GO" command at this|@2Z3Htime.
!|@2Z3R(You must first exit out of what you are currently|@3241doing.)|#|#|#
} T Someone tried to "/GO", but couldn't right then
This message is given to users who attempt to "/GO" to
a page that they do not have access to.
NOGOPG {
Sorry, you don't have access to that page.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@463ISorry, you don't have access to that page.|#|#|#
} T Someone tried to "/GO" to a page they didn't have access to
This is the message that a user gets when they try to "/GO"
to a page that doesn't exist.
NOSUCH {
Sorry, no page was found by that name. Maybe you mistyped it?
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z3ISorry, no page was found by that name.|@2Z3SMaybe you mistyped it?|#|#|#
} T Someone tried to "/GO" to a nonexistent page
This message is shown when a user attempts to "/GO" to a
page that can not be accessed through the "/GO" command.
BADPAG {
Sorry, that page can't be accessed through the "
/GO
" command.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z3ISorry, that page can't be accessed through the "/GO"|@2Z3Scommand.|#|#|#
} T Someone tried to "/GO" to a page that wasn't "go"able
This is the header for any menu that does not have a menu
file associated with it. This is displayed to the user at
the top of the default long menu.
DFLHDR {
Please select one of the following:
},{
!|1K|*|1I000000010WORLD-1.ICN|1I003200010WORLD-2.ICN|1I006700010WORLD-3.ICN
!|S0109|B008WHR99|1B0000020W80030B000F080700000F07000000|Y01000200
!|1U2G06FA0Z0000<> CRTITLE<>|w0000000000|#|#|#
} T Default long menu header
SWINVI {
Sysop "invisible mode" is now %sactivated!
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000010|10$MKILL$|1C2D32FF6M0
!|Y00000100|1B00000200LC030F000F080700000F07005L00|1U2I38FA6H0000<><>
!|1B00000207QQ020F000F080100000F07005L00
!|1U7Z5B9W5X7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$
!|1B00000206JK020B000F080700000F07000000
!|1U2K3VF64E0000<>Sysop "invisible" mode is now %sactivated\!<>
!|#|#|#
} T Invisible mode status
UNOTEX {
Sorry, no such user account exists.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@4V3ISorry, no such user account exists.|#|#|#
} T Rebuff request for nonexistent user
This is the format for each line in the default long menu.
The beginning "%c" is the select character for the option,
and the "%s" is the short description. Feel free to edit
this however you like, but do NOT change the order of the
"%c" and the "%s": the "%c" must be first.
DFLLIN {
%c
... %s
} T Default long menu option line
This is the beginning of the default short menu line.
This line is simply a prompt with a list of possible
selections. Immediately after this message, a list
of possible select characters is shown (each separated
by a comma). After that, the message DFSEND is shown.
The "%s" will be replaced by the page name that the
user is on when the message is displayed. You may put
this page name anywhere in the message you like, or
take it out if you wish.
DFSBGN2 {
N%TITLE (N$PAGE)
Make your selection (} T Default short menu beginning
This is the end of the short menu line. This immediately
follows a list of options (separated by commas).
DFSEND {
? for help, or X to exit): },{
!|c0F|R0A78HI8J|S0100|B0B79HH8I|Y000001LD
!|1B00000207QQ02000F0F080700000F07005L00|1U0B8R1F930000<>Help<>?`M
!|1UCZ8RFO930000<>Info Menu<>/go info`M|1U1N8R49930000<>Page Sysop<>/p sysop:`M
!|1U4H8R7O930000<>Users Online<>/#`M|1U7W8RA1930000<>Exit<>X`M
!|1UA98RCR930000<>TOP Menu<>/go top`M|1B00000207QQ02040F0F080700000F07005L00
!|1UFW8RHH930000<>Logoff<>/go exit`M|w030X2F1111|1M070B79HH8I0000000 `H|#|#|#
Click on any button to make your selection: } T Default short menu ending
This is the header message that is displayed whenever
a user selects a module page from a menu tree menu.
You might put text in this option if, for instance,
you'd like to clear the screen every time a user goes
into a module.
MPGHDR {},{
!|1K|*|1B00000200LC030F000F080700000F07000000|Y000001LD|1U0A08HI740000<><>
!|1B00000200LC020F000F080700000F07000000|1U067EHM820000<><>
!|1B00000200LC030F000F080700000F07000000|1U068CHM8Z0000<><>
!|1B00000201DS020F00080F0000000F07000000|1U0K0FH86X0000<><>`M|w04022F0U11
!|1B00000207QQ02000F0F080700000F07005L00|1U0B8I1F8U0000<>Help<>?`M
!|1U1N8I498U0000<>Page Sysop<>/p sysop:`M|1U4H8I7O8U0000<>Users Online<>/#`M
!|1U7W8IA18U0000<>Exit<>X`M|1UA98ICR8U0000<>TOP Menu<>/go top`M
!|1UCZ8IFO8U0000<>Info Menu<>/go info`M|1B00000207QQ02040F0F080700000F07005L00
!|1UFX8IHH8U0000<>Logoff<>/go exit`M|#|#|#
} T Transition between menuing system and module pages
This is the header message that is displayed whenever
a user selects a file page from a menu tree menu.
You might put text in this option if, for instance,
you'd like to clear the screen every time a user
selects to look at a file from a menu tree menu.
FPGHDR {},{
!|1K|*|1B00000200LC030F000F080700000F07000000|Y000002LD|1U0A7FHI960000<><>
!|1U0A08HI740000<><>|1B00000200LC020F00080F0000000F07000000
!|1U0K0FH86X0000<><>|w04022F0U11|W00|Y000001LD
!|1B00000207QQ03010F0F080700020407000000|1U948HGX8Y1V00<>Continue<>`M
!|1U947NCS842600<>Nonstop<>`N|1UD77NGX842900<>Quit<>`X|c0F|Y00000300
!|@0V80File Viewer|c01|@0U7ZFile Viewer|1M0705048T3J0000000 `H
!|1M08043I8T780000000 `H|1M098Q04HN3J0000000 `H|1M0A8T3JHN780000000 `H|#|#|#
} T Transition between menuing system and file pages
When a user types '?' at any main menu, they are given
this message followed by the long form of the menu.
HLPMSG {
You are logged in to N+SYSTEM_NAME.
You are looking at the
N$PAGE
menu page. Please type in your
selection from the choices below and press
RETURN
. You may also
type "
/GO
" at any time for help on jumping directly to another
page. (Type "
FIND
" to get help on finding a page to go to.)
},{
!|1K|Y00000100|1B00000200LC030F000F080700000F07005L00|1U2I22FA6H0000<><>
!|Y00000200|c0F|@4R27Menuing System Help|c01|@4Q26Menuing System Help
!|w0000000010|Y00000100|c00|@2W2WYou're logged on to:|@2W36NRSYSTEM_NAME.
!|@2W3LYou're on the menu N/PAGE.
!|@2W40You can click on any of the buttons on the screen to
!|@2W4Aexplore the services available online. Also, you can
!|@2W4Kenter /GO <page name> followed by RETURN to jump right
!|@2W4Uto a specific menu page. You can also enter FIND in
!|@2W54order to search for a menu page you'd like to go to.|c0F
!|@2V2VYou're logged on to:|c0B|@2V35NRSYSTEM_NAME.|c0F
!|@2V3KYou're on the menu|c0B|@733KN/PAGE.|c0F
!|@2V3ZYou can click on any of the buttons on the screen to
!|@2V49explore the services available online. Also, you can
!|@2V4Jenter followed by to jump right|c0B
!|@474J/GO <page name>|@AF4JRETURN|c0F
!|@2V4Tto a specific menu page. You can also enter in|c0B|@CV4TFIND|c0F
!|@2V53order to search for a menu page you'd like to go to.
!|1B00000207QQ020F000F080100000F07005L00|1U805N9X697320<>OK<>`H|#|#|#
} T Header for redisplay of a main menu (for help)
This is the message a MASTER key holder gets
immediately after being displayed the above
help message.
SYSHLP {
As a Sysop, you may use the "
ENABLE
" and "
DISABLE
" commands to enable
or disable select characters and/or pages. Just type "
ENABLE
" or
"
DISABLE
" followed by a
RETURN
to get more help on these commands.
},{} T Addition to above msg for MASTER key holders
This is the help message a user holding the MASTER key
gets if they type "enable" at a main menu.
ENAHLP {
The ENABLE command will allow you to enable a menu option
or page that was previously disabled using the DISABLE
command. Type "
ENABLE
" followed by a
select character
to
enable an option on this menu, otherwise type "
ENABLE
"
followed by a
page name
to enable any page on your
system.
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000010|10$MKILL$|1C2D1WFF6M0
!|Y00000100|1B00000200LC030F000F080700000F07005L00|1U2I22FA6H0000<><>|Y00000200
!|c0F|@4O2DENABLE COMMAND HELP|c01|@4N2CENABLE COMMAND HELP|Y00000100|c00
!|@2T36The ENABLE command will allow you to enable a menu
!|@2T3Loption or page that was previously disabled using the
!|@2T40DISABLE command. Type ENABLE followed by a select
!|@2T4Fcharacter to enable an option on this menu, otherwise
!|@2T4Utype ENABLE followed by a page name to enable any page
!|@2T59on your system.|c0F
!|@2S35The ENABLE command will allow you to enable a menu
!|@2S3Koption or page that was previously disabled using the
!|@2S3ZDISABLE command. Type followed by a
!|@2S4E to enable an option on this menu, otherwise
!|@2S4Ttype followed by a to enable any page
!|@2S58on your system.|c0B|@7W3ZENABLE|@CK3Zselect|@2S4Echaracter|@3W4TENABLE
!|@8K4Tpage name|1B00000207QQ020F000F080100000F07005L00
!|1U7Y5L9V677320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|#|#|#
} T Help message for "enable" command
This is the help message a user holding the MASTER key
gets if they type "disable" at a main menu.
DISHLP {
The DISABLE command will allow you to disable a menu
option or page so that no one can get into it. Use
the ENABLE command to enable it again. Just type
"
DISABLE
" followed by a
select character
to disable
an option on this menu, otherwise, type "
DISABLE
"
followed by a
page name
to disable any page on your
system.
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000010|10$MKILL$|1C2D1WFF6M0
!|Y00000100|1B00000200LC030F000F080700000F07005L00|1U2I22FA6H0000<><>|Y00000200
!|c0F|@4O2DDISABLE COMMAND HELP|c01|@4N2CDISABLE COMMAND HELP|Y00000100|c00
!|@2T32The DISABLE command will allow you to disable a menu
!|@2T3Hoption or page so that no one can get into it. Use the
!|@2T3WENABLE command to enable it again. Just type DISABLE
!|@2T4Bfollowed by a select character to disable an option on
!|@2T4Qthis menu, otherwise, type DISABLE followed by a page
!|@2T55to disable any page on your system.|c0F
!|@2S31The DISABLE command will allow you to disable a menu
!|@2S3Goption or page so that no one can get into it. Use the
!|@2S3VENABLE command to enable it again. Just type
!|@2S4Afollowed by a to disable an option on
!|@2S4Pthis menu, otherwise, type followed by a
!|@2S54to disable any page on your system.|c0B|@D03VDISABLE
!|@5W4Aselect character|@8S4PDISABLE|@DN4Ppage
!|1B00000207QQ020F000F080100000F07005L00
!|1U7Y5N9V697320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|#|#|#
} T Help message for "disable" command
This is the message a MASTER key holder hets when
trying to enable or disable a page when there is
another user downloading the BBSMNU.DAT file from
the Remote Sysop Menu.
CNTEOD {
Sorry, %s is currently downloading BBSMNU.DAT. You'll have to
wait until he's done before you can enable or disable any pages.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z3ESorry, %s is currently
!|@2Y3Odownloading BBSMNU.DAT. You'll have to wait until
!|@2Y3Yhe's done before you can enable or disable any pages.|#|#|#
} T Can't enable/disable pages right now
This is the message a MASTER key holder gets after
enabling a page or menu selection with the ENABLE
command.
OKENBL {
Ok, the "%s" page has been enabled again!
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000010|10$MKILL$|1C2D32FF6M0
!|Y00000100|1B00000200LC030F000F080700000F07005L00|1U2I38FA6H0000<><>
!|1B00000207QQ020F000F080100000F07005L00
!|1U7Z5B9W5X7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$
!|1B00000206JK020B000F080700000F07000000
!|1U2K3VF64E0000<>Ok, the "%s" page has been enabled again\!<>
!|#|#|#
} T Ok, page name enabled message
This is the message a MASTER key holder gets after
trying to enable a page that wasn't disabled.
NOENBL {
The "%s" page wasn't disabled! There's no need to enable it...
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|10$MKILL$|1K
!|1C2F2AFD5Y0|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z3IThe "%s" page wasn't disable\! There's no
!|@303Sneed to enable it...|#|#|#
} T Page name already enabled message
This is the message a MASTER key holder gets after
disabling a page or menu selection with the DISABLE
command.
OKDSBL {
Ok, the "%s" page has been disabled (use the ENABLE command to enable it)...
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000010|10$MKILL$|1C2D32FF6M0
!|Y00000100|1B00000200LC030F000F080700000F07005L00|1U2I38FA6H0000<><>
!|1B00000207QQ020F000F080100000F07005L00
!|1U7Z5B9W5X7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$
!|1B00000206JK020B000F080700000F07000000
!|1U2K3LF6440000<>Ok, the "%s" page has been disabled<>
!|c00|@4M4F(Use the ENABLE command to enable it)...|c0B|W00
!|@4L4E(Use the ENABLE command to enable it)...|#|#|#
} T Ok, page name disabled message
This is the message a MASTER key holder gets after
trying to disable a page that was already disabled.
NODSBL {
The "%s" page was already disabled!
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@3M3IThe "%s" page was already disabled\!
!|#|#|#
} T Page name already disabled message
This is the message a MASTER key holder gets when
they try to disable the "TOP" page.
NODTOP {
You can not disable the "TOP" page.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@4V3IYou can not disable the "TOP" page.|#|#|#
} T Can not disable "TOP" page rebuff
This is the message a MASTER key holder gets when
they try to disable the current page.
NODCUR {
You can not disable the current page. First switch to another page,
then retry the command.
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z3IYou can not disable the current page. First switch
!|@2Z3Sto another page, then retry the command.|#|#|#
} T Can not disable the current page rebuff
This is the help message a user will get if they type
"find" at a main system menu without specifying a string
to search for.
FNDHLP {
Typing "
FIND
" followed by a
string to search for
will search
all pages that you can jump to (with the "
/GO
" command) for
the string you specified. If the string is found among the
short descriptions in any option, the page name you can "
/GO
"
to will be displayed to you.
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000010|1C2D1WFF6M0|10$MKILL$
!|Y00000100|1B00000200LC030F000F080700000F07005L00|1U2I22FA6H0000<><>|Y00000200
!|c0F|@4P2D"FIND" COMMAND HELP|c01|@4O2C"FIND" COMMAND HELP|Y00000100|c00
!|@2T36Typing "find" followed by a string to search for will
!|@2T3Lsearch all pages that you can jump to (with the "/GO"
!|@2T40command) for the string you specified. If the string
!|@2T4Fis found among the short descriptions in any option,
!|@2T4Uthe page name you can "/GO" to will be displayed to you.|c0F
!|@2S35Typing " " followed by a will
!|@2S3Ksearch all pages that you can jump to (with the "/GO"
!|@2S3Zcommand) for the string you specified. If the string
!|@2S4Eis found among the short descriptions in any option,
!|@2S4Tthe page name you can "/GO" to will be displayed to you.|c0B
!|@4K35find string to search for
!|1B00000207QQ020F000F080100000F07005L00
!|1U7Z5H9W630020<>OK<>`H$RTW$$RMF$$PCB$$RCB$|#|#|#
} T Help message for "find" commands
When a user types "find" followed by a string at any of
the main system menus, they first get this header message
before the system displays to them the pages that have
the string they were searching for.
BGNFND {
Pages you can "
/GO
" to that contain your search string:
Page Name
...
Description of Page
--------------- ----------------------------------------
},{
!|1K|Y01000200|10$STW$|10$SMF$|10$SCB$|1K
!|1B00000200LC030F000F080700000F07005L00|1U2I03FA940000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2R0WEZ840000<><>|w0F04230Z01|c0F
!|@5004PAGES YOU CAN "/GO" TO|c01|@4Z03PAGES YOU CAN "/GO" TO|#|#|#
Page Name
...
Description of Page
--------------- ----------------------------------------
} T Header for find command search
When a user types "find" followed by a string at any of
the main system menus, they get the above-configurable
header followed by a list of pages they can /GO to.
Each page that is found is displayed with this message.
The first %__s is the page name, and the second one is
the description of the page.
FNDLIN {
%-16.16s... %s
} T One line for find command listing
This is the message displayed to users after the system
has completed searching menu pages for a string specified
in a "find" command.
ENDFND {
<End of search>
},{
!|1K|Y00000100|1B00000207QQ020F000F080100000F07005L00
!|1U808C9X8Y7320<>OK<>`H$RTW$$RMF$$RCB$|w0000000000|#|#|#
} T End of find command search message
If you've entered a special logon message (from the main
console or Remote Sysop Menu), this message will appear
just before it's displayed at logon. This message won't
appear at all if you don't have a logon message set.
LONHDR {},{
!|1K|Y00000100|10$SAVE$|10$STW$|10$SMF$|10$SCB$|1K
!|1B00000200LC030F000F080700000F07005L00|1U0G0OHC7Q0000<><>
!|1B00000201DS020F00080F0000000F07000000|1U0Q1BGY6Q0000<><>`M|c0F|Y01000200
!|@2Q0MS P E C I A L L O G O N M E S S A G E|c01
!|@2P0LS P E C I A L L O G O N M E S S A G E|w05062C0T11|#|#|#
} T Header before special logon message
If you've entered a special logon message (from the main
console or Remote Sysop Menu), this message will appear
just after it's displayed at logon. This message won't
appear at all if you don't have a logon message set.
LONTRL {},{
!|1K|Y00000100|1B00000207QQ020F000F080100000F07005L00
!|1U806Y9X7K7320<>OK<>$RESTORE$$RTW$$RMF$$RCB$`M|w0000000000
!|1M010Q1BGY6Q0000000$RESTORE$$RTW$$RMF$$RCB$`M|#|#|#
} T Trailer after special logon message
When a user makes the appropriate selection from the main
menuing system to logoff, his request is confirmed with
this message. If he types 'Y' in response, he is logged
off. If he types anything else, he is returned to the
short main menu (letters only).
This text applies to users who do not have access to the
option R for "re-logon".
RUSXITN {
You are about to terminate this connection!
Are you sure (Y/N)? },{
!|1K|*|1B0000020W8003010F0F080700000F07000000|1U482LDE5T0000<><>|Y01000400
!|c00|@7K2SLogoff|c04|@7J2RLogoff|Y02000600|c01
!|@4J3ZAre you sure you want to logoff?|Y00000100
!|1B00000207QQ03010F0F080700020400000000|1U4M526F5J2H00<>Yes<>Y^M
!|1UB852D05J2620<>No<>N^M|w0000000011|#|#|#
} T Main menu exit: confirm logoff
When a user makes the "logoff" selection from one of your
main menus, we confirm his request with this message. If
he types 'Y' in response, he is logged off. If he types
'R', he is re-logged on, as if he logged off and called
right back. Otherwise, by typing anything else, he is
returned to the short main menu.
This text only applies to users who have access to the
"re-logon" option (user must have the key named in the
RLGKEY option in Level 3 CNF).
RUSXITL {
You are about to terminate this connection!
Are you sure (Y/N, or R to re-logon)? },{
!|1K|*|Y00000100|1B0000020W8003010F0F080700000F07000000|1U482LDE5T0000<><>
!|Y01000400|c00|@7K2SLogoff|c04|@7J2RLogoff|Y02000600|c01
!|@4J3ZAre you sure you want to logoff?|Y00000100
!|1B00000207QQ03010F0F080700020400000000|1U4M526F5J2H00<>Yes<>Y^M
!|1B00000207QU03010F0F080700020400000000|1U7G52A85J2A00<>Re-logon<>R^M
!|1B00000207QQ03010F0F080700020400000000|1UB952D25J2620<>No<>N^M|w0000000011
!|#|#|#
} T Main menu exit: confirm logoff
This user has confirmed his desire to log off. He is
reminded of the name of your BBS (option BBSTTL). This
is the message the user gets right before he is logged
off.
SEEYA {
Ok, thanks for calling N+SYSTEM_NAME.
You were online this session for N+TIME_ONLINE.
Hope to see you back again real soon!!
Have a nice day...
},{
!|1K|*|=00000001|c09|R008DHR99|R0076HR8D|R0067HR76|R005EHR67|R004OHR5E
!|R0042HR4O|R003LHR42|R0037HR3L|R002VHR37|R002KHR2V|R002BHR2K|R0023HR2B
!|R001XHR23|R001SHR1X|R001PHR1S|R001MHR1P|R001KHR1I|s0K3M29162C3S1X1409
!|F7R8W09|s0K3M29022C3S1X1409|F6P7Y09|s0K3M290228081X1409|F5B6T09
!|s0K3M1T022808051409|F6B5U09|s0K3M1S022800051409|F5P5609
!|s0K3K1S022800011409|F6J4G09|s043K1S020G00011409|F593X09
!|s043K1S020G00010W09|F5C3H09|s043K00020G00010W09|F663109
!|s003K00040G00010W09|F5T2Q09|s003K00040000010W09|F602E09
!|s00001S000200000W09|F6Y2809|s000000020000000W09|F6X2009
!|s00001S000200000W09|F7J2009|F9T1U09|s003K00040000010W09|F8H2709
!|s00001S000200000W09|F7U1Q09|F7V1N09|F811L09|s000200000000000009|F7V1L09
!|a0D17|c0D|L8Z1I7499|L8Z1I3499|L8Y1I009B|L8X1I0075|L8U1I005T|L8R1I004T
!|L8R1I0044|L8M1I003N|L8H1I003A|L8A1I002Y|L841I002N|L7X1I002F|L7P1I0026
!|L7A1I0020|L6V1I001V|L731I001S|L6Q1I001P|L5E1I001N|L431I001L|L3U1I001J
!|L8Z1I8Z1I|L8Z1IBA99|L901IFB99|L931IHR94|L931IHR73|L951IHR5U|L971IHR4U
!|L991IHR44|L9C1IHR3N|L9H1IHR3A|L9N1IHR2Y|L9V1IHR2N|LA31IHR2F|LAD1IHR26
!|LAS1IHR20|LBB1IHR1V|LBS1IHR1S|LCG1IHR1Q|LCG1IHR1N|LDU1IHR1J|LCH1IHR1L
!|a0C12|a040W|1B0000020080030B060F080000000F07000000|Y01000200
!|1U0D0GHD0X0000<> CRSYSTEM_NAME<>|w050Y2D1311|c07|R0R7IGZ8X
!|s000200000000000000|B0S7JGY8W|Y00000200|c04|@4P3OThanks for calling\!
!|@2P48You were online this session|@5D4Sfor N+TIME_ONLINE.
!|@0H5CHope to see you back again real soon\!\!|c0C|@4O3NThanks for calling\
\!
!|@2O47You were online this session|@5C4Rfor N+TIME_ONLINE.
!|@0G5BHope to see you back again real soon\!\!|#|#|#
} T Logoff goodbye message
This message is given to users who are on your BBS at the
appointed hour (option MCUHR) for auto cleanup, and after
the grace period (option MCUMIN) has expired. The user
will be given only so many warnings like this (option
MCUWRN) before they are forcibly logged off, this time
without a message.
GOINGD2 {
***
Sorry to interrupt here, but the BBS will be shutting
down in %d minute%s for the nightly "auto-cleanup"
process. Please finish up and log off... thank you!
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`M$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z37Sorry to interrupt here, but the BBS will be shutting
!|@2Z3Hdown in %d minute%s for the nightly "auto-cleanup"
!|@2Z3Rprocess. Please finish up and log off... Thank you\!|#|#|#
} T Auto-cleanup warning message
This message is given to users who are on your BBS at
the appointed time (options MSHHR1, MSHHR2, MSHHR3, and
MSHHR4), after the grace period (option MCUMIN) has
expired. The user will be given only so many warnings
like this (option MCUWRN) before they are forcibly
logged off, this time without a message.
GOINGM {
***
Sorry to interrupt here, but the BBS will be shutting
down in %d minute%s for some specialized file transfers
associated with inter-system mail processing. Please
finish up and log off... thank you!
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2Q2SF24Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`M$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2V37Sorry to interrupt here, but the BBS will be shutting
!|@2V3Hdown in %d minute%s for some specialized file
!|@2T3Rtransfers associated with inter-system mail processing.
!|@2V41Please finish up and log off... Thank you\!|#|#|#
} T Auto-cleanup warning message
This message is issued to your users when you kill
the system with a time-delay specified. It is sent
once per minute, to all "online" users (not sign-ups
or people at the log-on or password prompts), until
system shutdown takes place.
GOING2 {
***
Sorry to interrupt here, but the BBS will be shutting
down in %d minute%s. Please finish up and log off...
Thank you!
},{
!|Y00000100|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`M$RTW$$RMF$$PCB$$RCB$|10$BEEP$|c0D
!|@2Z37Sorry to interrupt here, but the BBS will be shutting
!|@2Z3Hdown in %d minute%s.
!|@2Z3RPlease finish up and log off... Thank you\!|#|#|#
} T Shutdown warning message
This message is output as part of the logoff process
controlled by the IDLZAP parameter (the variable field
is filled in with the computed quantity IDLZAP/60).
NOTACV {
***
SESSION INACTIVE FOR MORE THAN %d MINUTES.
*** ONE MINUTE WARNING TO AUTO-LOGOFF ***
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`M$RTW$$RMF$$PCB$$RCB$|10$BEEP$|Y00000100|c0D
!|@3W3ISESSION INACTIVE FOR MORE THAN %d MINUTES.
!|@3X3S*** ONE MINUTE WARNING TO AUTO-LOGOFF ***|#|#|#
} T One-minute warning to auto-logoff
NAZAPM {
*** Session inactive, you have been automatically
*** logged off in order to save you unnecessary
*** connect time charges. Please feel free to
*** call back again whenever you like. Thank you!
} T Notification of auto-logoff
NOXREF {
Sorry, no such User-ID exists... maybe you mistyped it?
},{
!|10$STW$|10$SMF$|10$SCB$|w0000000000|1K|1C2F2AFD5Y0
!|1B00000200LC030F000F080700000F07005L00|1U2I2DFA5V0000<><>
!|1B00000200LC020F00080F0000000F07000000|1U2S2SF04Q0000<><>
!|1B00000201F6020F000F080100000B09005L00
!|1U80509X5M7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|10$BEEP$|Y00000100|c0D
!|@2Z3ISorry, no such User-ID exists. Maybe you mistyped it?|#|#|#
} T UID X-ref: no matches found for User-ID
XRFHDR {
No exact match found. Perhaps you meant one of these?
} T UID X-ref: header for closest-matches list
XRFHDM {
Perhaps you meant one of these? If not, just enter "
1
" to confirm your choice.
} T UID X-ref: hdr for closest-matches list (w/ a match)
XRFOOT {
Enter one of these digits (or another User-ID) at the following prompt...
},{
!|#|#|#
*** OUTPUT PAUSED ***
Click the text area (or hit RETURN) to continue, then enter one
of these digits (or another User-ID) at the next prompt...
} T UID X-ref: footer for closest-matches list
XRFLIN {
%3d
. %-29.29s
} T UID X-ref: one line of possible User-ID list
THSXRF {
...do you mean %s (y/n)? } T UID X-ref: use *this* User-ID?
ULSHDR {
LINE USER-ID ...... OPTION SELECTED
},{
!|c0F|Y01000200|10$STW$|10$SMF$|10$SCB$|1K|1C2F0LFD7T0
!|1B00000200LC030F000F080700000F07005L00|1U2I0OFA7Q0000<><>
!|1B00000201DS020F00080F0000000F07000000|1U2S1BF06Q0000<><>`M|w0F06230T11
!|@5D0MU S E R S O N L I N E|c01|@5C0LU S E R S O N L I N E|#|#|#
LINE USER-ID ...... OPTION SELECTED} T Header for list of users currently online
ULSLIN {
%02x %-31.31s... %s
},{
!|#|#|#
%02x %-31.31s %s} T One line for list of users currently online
ULSTRL {},{
!|Y00000100|1B00000207QQ020F000F080100000F07005L00
!|1U806Y9X7K7320<>OK<>`H$RTW$$RMF$$PCB$$RCB$|w0000000000|#|#|#
} T Trailer for list of users currently online
FRMSYS {
!!!
From Sysop:
%s
},{
!|10$BEEP$|10$STW$|10$SMF$|10$SCB$|10$MKILL$|1C0829HO6G0
!|Y00000100|1B00000200LC030F000F080700000F07005L00|1U0G2IHH6A0000<><>
!|1B00000206JK020B000F080700000F07000000|1U5D2KCK2Z0000<>From Sysop:<>
!|w050E2C0L11|1B00000201DS010F000F0F0000000F0F005L00|1U0U31H1520000<><>`M|#
!|#|#
%s} T Message to channel(s) from Sysop console
FSYSTRL {},{
!|Y00000100|w0000000000|1B00000207QQ020F000F080100000F07000000
!|1U7Z5E9W607320<>OK<>`M$RTW$$RMF$$PCB$$RCB$|#|#|#
} T Trailer for message from Sysop console
BGNCHT {
***
SYSOP CHAT MODE ACTIVATED
***
},{
!|1K|*|Y01000200|1B0000020PWG03010F0F080700000F07000000
!|1U0303HP0W0000<> S Y S O P C H A T M O D E A C T I V A T E D<>
!|w0005271410|1M000014HR930000000 `H|#|#|#
} T Sysop chat mode activated message
ENDCHT {
***
Leaving chat mode, returning to system...
},{
!|#|#|#
***
Leaving chat mode, returning to system...
} T Sysop end of chat mode message
Most high speed modems buffer data before transmitting.
Because of this, a disconnecting user's disconnect
message may be cut short. This message is padding that
will be added to all disconnect messages. The contents
of this message will generally be cut short in place of
the actual disconnect message. We recommend a
combination of spaces and backspaces (ASCII character 8).
BYEDLY {
} T Padding for disconnect messages