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Nokia 9110 Communicator
Setting Up Dial-In Service
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1. OVERVIEW
This document explains the basic requirements for supplying Internet or Intranet connection for the Nokia 9110
Communicator, and can be used by Internet Service Providers as well as companies planning Intranet access for
the Nokia 9110 Communicator. This document does not cover all the possibilities for providing dial-in services for
the communicator, but it can be used as a guide when setting up these services. All trademarks used in this
document are the property of their respective owners.
2. ABOUT THE CONNECTION
Normal data transfer speed of the GSM network is 9600 bit/s. The communicator has a built in support for 14400
bit/s , and it can be used if it is supported by the GSM network.
The data transfer speed can be increased by using compression. The compression protocols supported by the
communicator are discussed in chapter 2.3.
2.1. Requirements
A dial-in server for the Nokia 9110 Communicator should have a dial-in telephone line(s) with a Point to Point
Protocol (PPP) service. There are also digital solutions available. Different methods for providing dial-in
communicator service are explained in the following chapters.
By default the communicator uses a dedicated Point to Point Protocol (PPP) service. The dedicated PPP service
means that the PPP state machine should be ready to receive PPP data before the username and password are
given to the system. The log-in sequence can be customised using scripts when needed. More information about
the scripts can be found in section 3 of this text.
The analogue modem access to Internet or Intranet with the communicator is shown in figure 2.1, below.
Figure 2.1, Analogue modem access with the communicator.
analogue modem pool
Internet/
Intranet
GSM Network
PSTN
cellular network’s
modem pool
Dial-in system
The analogue access requires data support from the cellular network. The dial-in system depends on the needs of
the organisation. It can be as simple a modem connected to a Microsoft RAS server. Of course in the bigger
organisations the dial-in system can be several modems attached to a PPP server with a separate server for user
authentication. The connection time is typically up to 40 seconds.
In figure 2.2, below, there is a description of digital ISDN connection. An ISDN connection provides shorter
connection times (typically up to 15 seconds) and more reliable connections. This requires V110 or V120 protocol
support from the GSM network operator and from the ISDN modem system. If the cellular operator does not have
an ISDN modem pool set up for wireless data users, the ISDN connection will not work.
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Figure 2.2, ISDN modem access with the communicator.
ISDN modem pool
Internet/
Intranet
GSM Network
cellular network’s
ISDN modem pool
Dial-in system
DaCS (Data Communication Server) in figure 2.3, below, enables the direct DDA (Direct Digital Access)
connection from the GSM network to the Internet or to an Intranet. DaCS also provides a possibility to use ISDN
connection instead of DDA. Nokia Telecommunications has a family of products, called the Nokia Artus family and
DaCS is one part of the family. More information about the Artus family can be found at http://www.nokia.com.
Figure 2.3, Direct digital access with the communicator.
Internet
DaCS (Data Communication Server) access
DDA connection
DDA connection
Intranet
GSM Network
Authentication server on both ends (optional)
The DaCS provides a fully digital and non-modem DDA connection to the Internet or Intranet. This makes the
connection reliable with short connection times (typically up to 15 seconds). The DaCS is ideal solution to big
Internet Service Providers and large companies. Also operators have a possibility to offer services to their
customers using the DaCS.
2.2. Configuring the TCP/IP
The TCP/IP configurations can be made manually to the communicator’s Internet access point settings.
Automating the configuration can make this set-up more user-friendly.
The communicator uses IPCP (rfc1332), DHCP (rfc1541), and /or BOOTP (rfc951) for IP-address negotiations.
The dial-in system should provide Microsoft extensions for IPCP DNS negotiation (MSIPCP), BOOTP-server, or
DHCP-server for automatically configuring the communicator’s other TCP/IP settings, such as the DNS server.
The TCP/IP settings can also be sent to the communicator using a special short message containing Internet
access information, such as username, password, phone number information and scripts. The format of these
special short messages is presented in Using the Special SMS Features at http://www.forum.nokia.com.
2.3. Compression
The communicator supports V.42bis, but requires support from the GSM network and the modem called. This
support is not yet commonly provided. If this support is provided, configure the communicator end for V.42bis
through Internet Settings => Modem Initialisation section => “Autobauding with V.42bis compression”. In the call-
in-modem end the V.42bis can be set with the at command: “at+ds=3,0”.
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The communicator also supports PPP Stac LZS Compression Protocol (and its following modes: LCB, CRC,
Sequence Number and Extended Mode) (RFC1974) and Microsoft Point-to-Point Compression (MPPC). To use
these compressions the dial-in system must be configured properly for the usage.
2.4. Secure Authentication and Connections
Secure connections and password protection help to prevent unauthorised access to sensitive information. The
communicator support’s some methods which will secure the authentication. In the PPP authentication the
communicator supports PAP and CHAP.
Third party authentication is one method for protecting passwords, for example, receiving a “one time” password
(e.g., TACACS and RADIUS based systems). In the communicator end, the users only needs to set the password
to be prompted at the Internet Access Point.
There are also some secure connection methods available. One of the most popular is SSL (Secure Socket
Layer). Some banks have established on-line banking over the Internet (i.e. they use an http connection). SSL can
also be used with Lotus Domino. SSL 3.0 software is available for the communicator. See the communicator
3. USING SCRIPTS
This chapter specifies how to define custom login sequences for the time frame between the data call
establishment (i.e. CONNECT response from the AT command interpreter) and the starting of the PPP protocol
negotiations in the communicator.
3.1. Handling Scripts in the communicator
In the Internet application, press Settings à choose Internet access à press New or Edit à choose Advanced
settings à choose Login customisation and enter your script as outlined in this document.
To add a script go to the Login customisation pop-up menu, press New, type the script and then press Close.
Scripts can also be added using special SMS messages. For SMS message formats, please see the The remote
To choose an existing script, select a script, the Login Customisation pop-up menu and press OK. The same
script can be chosen to be used with many Internet access points.
To Modify an existing script select a script in the Login Customisation pop-up menu, press Open, modify the script
and then press Close.
To Delete an existing script select a script in the Login Customisation pop-up menu, press Open, press Delete in
the editor and then press Delete in the confirmation dialog box.
3.2. Script Format
The communicator script language is a simple chat script language. It expects that the dial-in server sends a word
to the communicator and the response which the communicator should send is separated with a space. For
example:
Password: MyPassword
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where the "Password:" is what the server sends and "MyPassword" is what the user is supposed to input.
Unless the string which the communicator sends ends with /c, a carriage return character (ASCII 0x0d) is sent
after the string. If words contain spaces, they must be surrounded by "" quotation marks, e.g. "This word contains
spaces". There must not be any characters outside of the quotation marks.
Chat scripts are:
expect send
expect send...
where the communicator expects something from the dial-in server and after the server has sent something the
communicator sends something back.
or
expect1-send1-expect2 send2...
where if the "expect1" does not come from the server in TOUT (time out) time, "send1" is sent to the server. Then
the script waits for the "expect2" from the server, when that is received "send2" is sent. If "expect1" does come
then "send2" is sent. In the example scripts, case 2 and 3, these type of script conversations are used.
3.3. Script Features
Comments begin with the number sign (#), extend to the end of the line, and are ignored during script execution.
Scripts are case-sensitive and do not have a specified maximum length.
Because of some possible problems there are two words which define the behaviour of the script in problem
situations. ABT, the abort-string expects certain words coming from the server which would lead to abort the
connection. Such strings may be: NO CARRIER or BUSY. The ABT word has to be placed to "expect" part of the
script. If abort-string is seen in the incoming stream while executing the remainder of the chat script, the dialling
attempt is aborted and user receives an error note.
The other word is TOUT, timeout-time. While executing the current chat script, the communicator waits timeout-
time seconds for an expected response, before regarding the dialling attempt as failed. If no timeout-time is given
in the script, the default read timeout of 45 seconds is used.
There are two embedded programs which can be used in the scripts, "ask" and "askq". The percent character (%),
surrounds the name of an embedded program that is to be run before proceeding.
Program
Description
ask(<text>)
Shows user a text input dialog with title given in the paranthesis. Entered
characters are echoed normally. When the OK button is pressed, dialog is
dismissed and the entered text is sent onwards.
askq(<text>)
Same as ask(), but entered characters are echoed with asterisk characters ("*").
When the program has run the input will be sent to the dial-in server. "Ask" can be used when requesting for a
username and "askq" when requesting for a password.
Time spent waiting for user input in ask() and askq() does not count towards “expect” or “send” time-outs. If the
user doesn't dismiss the input dialog set up by ask() or askq() during the user timeout of 4 minutes, the operation
is continued as if the user has dismissed the dialog.
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There are several special character sequences which can be used with scripts. The table below will describe them.
Sequence
Description
""
/s
Expect or send nothing. The sequence will be followed by a carriage return.
Send or receive a space character (ASCII 0x20)
/t
/n
/r
//
Send or receive a horizontal tab character (ASCII 0x09)
Send or receive a line feed character (ASCII 0x0a)
Send or receive a carriage return character (ASCII 0x0d)
Send or receive a slash character (ASCII 0x5c)
/^
Send or receive a carat character (ASCII 0x5e)
^<character>
/ddd
/p
/d
/c
Send or receive the single character Ctrl-<character> (ASCII 0x00 through 0x1f)
Send or receive a character specified in octal digits
Pause for 0.25 seconds before proceeding (send only)
Delay for 2.00 seconds before proceeding (send only)
Don't append a carriage return character after sending the preceding string
(send only)
/q
Don't print following send strings (e.g. a password) in any debugging or logging
output. Subsequent /q sequences toggle `quiet' mode.
Parse the incoming string as an IP address, written as four decimal numbers
separated by periods, and use it for the local end of the point-to-point connection
(receive only).
/A
/D
Parse the incoming string as an IP address, written as four decimal numbers
separated by periods, and use it for the primary name resolver during this
connection (receive only).
3.4. How to Create a Script
If you do not know what kind of responses are requested by the dial-in server, there are few ways to find that out.
One can try out to make a Terminal call to the dial-in number and see what the server requests.
The other way is to go to the communicator Internet access settings where you can select a script (as described in
Handling scripts in the communicator). At the Login customisation screen, instead of picking a script you can
select "Manual". This option will bring up a terminal screen in the login sequence.
When you have found what the dial-in server requests then you can start building a script. First it is important to
add the ABT, abort strings, in case of problems. Then the timeout value should be set. After this it is time for the
server responses and what the communicator should reply. Let's take an example. This is what the server
requests:
Sender
IAP
User
IAP
Message
Welcome!<CR>
<CR>
Domain:
User
IAP
MyDomain
Login:
User
IAP
User
IAP
User
IAP
Myusername<CR>
Password:
2secret4u<CR>
Server-prompt>
PPP
(begins PPP)
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First the user has to send a carriage return to the server, to start the whole sequence. Then a domain has to be set
and after that a username and a password. First the abort and time out values.
ABT "NO CARRIER" ABT BUSY
TOUT 25
Then the communicator will start the script and send a carriage return, with out expecting anything from the
server.
"" /r
After that the communicator waits for "Domain:" word coming from the server and when it has received it the
selection "MyDomain" is sent to the server.
Domain: MyDomain
Then the communicator will ask for the user to insert username (Username: will appear on the user screen.) after
the string "name:" comes from the server. Note that expected string can be a part of a longer string which comes
from the server.
name: %ask(Username:)%
And the same thing with the password:
word: %askq(Password:)%
Then the server should give the prompt to the user, where the user should type in "PPP" in order to start PPP
session.
> PPP
The whole script will look like this after it has been inserted to the communicator:
ABT "NO CARRIER" ABT BUSY
TOUT 25
"" /r
Domain: MyDomain
name: %ask(Username:)%
word: %askq(Password:)%
> PPP
In the following chapter there are more examples on the scripts.
3.5. Example Scripts
Note: <CR> denotes a carriage return is entered.
Case 1:
The user must execute the following dialog with the IAP to start PPP negotiations:
Sender
IAP
Message
Welcome to our Great Access service,
Please enter your login name and password.<CR>
Login:
IAP
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User
IAP
Myusername<CR>
Password:
User
IAP
2secret4u<CR>
(begins PPP)
# Great Access service login script
# In case the line is busy
ABT "NO CARRIER" ABT BUSY
# Timeout should be set if there are problems
TOUT 25
# If the server sends a string with ':' the communicator will send the username
":" Myusername
# If the server sends a string with ':' the communicator will send the password
":" 2secret4u
# End of script, PPP starts
Case 2:
The User must execute the following dialog with the IAP to start PPP negotiations:
Sender
IAP
Message
Welcome to our Great Access service,
Please enter your login name and password.<CR>
IAP
Login:
User
IAP
Myusername<CR>
Password:
User
IAP
2secret4u<CR>
>
User
IAP
pppd -f xyz.opt<CR>
(begins PPP)
The following script will establish the connection:
# Great Access service login script
# In case the line is busy
ABT "NO CARRIER" ABT BUSY
# Timeout should be set if there are problems
TOUT 25
# Send CR if 'Login:' does not appear, if it does send the
# username 'Myusername'.
ogin:-""-ogin: Myusername
# Ask password from the user when the IAP sends a string
# containing 'ord:'-string.
ord: %askq(Give Password)%
# If the IAP does not send '>' send a CR, if or after it sends the '>'
# send a string 'pppd -f xyz.opt'.
>-""-> "pppd -f xyz.opt"
# End of script, PPP starts
Case 3:
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A more elaborate session. The user must execute the following dialog with the IAP to start PPP negotiations:
Sender
IAP
Message
Login:
User
IAP
Myusername<CR>
Password:
User
IAP
2secret4u<CR>
#
User
IAP
ppp<CR>
Your IP address is 123.132.123.123 and please
use 123.123.123.1 as your DNS server. <CR>
(begins PPP)
IAP
The following script will establish the connection:
Script sample for Case 2.
# Great Access service login script
# In case the line is busy
ABT "NO CARRIER" ABT BUSY
# Timeout should be set if there are problems
TOUT 25
# Send CR if Login: doesn't appear, and when it appears send
# the username
ogin:-""-ogin: Myusername
# Ask password from the user when the IAP sends a string with
# 'ord:' in it.
ord: %askq(Give Password)%
# When the IAP sends '#' send 'ppp' if it does not send '#' send a
# Carriage Return. '/' is required to distinguish the '#' character.
/#-""-/# "ppp"
# Wait for keyword " is " (/s is a space) and wait for the IP
# address (/A), then send nothing (/c)
/sis/s/A /c
# Wait for keyword " use " (/s is a space) and wait for the DNS
# address (/D), then send nothing (/c)
/suse/s/D /c
# End of script, PPP starts
3.6. Octal Values of Characters
If there are problems in transmitting some characters, you can always use the special sequence /ddd, where ddd is
the octal value of a character.
Here are the octal values:
Non-Printing Characters
Octal
000
Character
CTRL-@
CTRL-A
Remark
NUL (Null prompt)
SOH (Start of heading)
STX (Start of text)
001
002
CTRL-B
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003
004
005
006
007
008
009
010
011
012
013
014
015
020
021
022
023
024
025
026
Octal
027
030
031
032
033
034
035
036
037
177
CTRL-C
CTRL-D
CTRL-E
CTRL-F
CTRL-G
CTRL-H
CTRL-I
ETX (End of text)
EOT (End of transmission)
ENQ (Enquiry)
ACK (Acknowledge)
BEL (Bell)
BS (Backspace)
HT (Horizontal tab)O
LF (Linefeed)
CTRL-J
CTRL-K
CTRL-L
CTRL-M
CTRL-N
CTRL-O
CTRL-P
CTRL-Q
CTRL-R
CTRL-S
CTRL-T
CTRL-U
CTRL-V
Character
CTRL-W
CTRL-X
CTRL-Y
CTRL-Z
CTRL-[
VT (Vertical tab)
NP (New page) or FF (Form feed)
CR (Carriage return)
SO (Shift out)
SI (Shift in)
DLE (Data link escape)
DC1 (X-ON)
DC2
DC3 (X-OFF)
DC4
NAK (No acknowledge)
SYS (Synchronous idle)
Remark
ETB (End transmission blocks)
CAN (Cancel)
EM (End of medium)
SUB (Substitute)
ESC (Escape)
CTRL-
FS (File separator)
GS (Group separator)
RS (Record separator)
US (Unit separator)
DEL (Delete or rubout)
CTRL-]
CTRL-^
CTRL-_
Printing Characters
Octal
040
041
042
043
044
045
046
047
050
Character
Remark
Space
!
Exclamation Point
Double quote
Sharp Sign
Dollar Sign
Percent Sign
Ampersand
Apostrophe
Left Parenthesis
"
#
$
%
&
'
(
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051
052
053
054
055
056
057
060
061
062
063
064
065
066
067
070
071
072
073
074
075
076
077
Octal
100
101
102
103
104
105
106
107
110
111
112
113
114
115
116
117
120
121
122
123
)
Right Parenthesis
*
Asterisk
+
Plus Sign
Comma
,
-
Hyphen
.
Period
/
Slash (Virgule)
0
1
2
3
4
5
6
7
8
9
:
Colon
;
Semicolon
<
Left Angle Bracket
Equal Sign
=
>
Right Angle Bracket
Question Mark
Remark
?
Character
@
A
B
C
D
E
F
"At" Sign
G
H
I
J
K
L
M
N
O
P
Q
R
S
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124
125
126
127
130
131
132
133
134
135
136
137
140
141
142
143
144
145
146
147
150
151
152
153
154
155
Octal
156
157
160
161
162
163
164
165
166
167
170
171
172
173
174
175
176
T
U
V
W
X
Y
Z
[
Left Square Bracket
\
Back Slash
Right Square Bracket
Caret
]
^
_
Underscore
Back Quote
'
a
b
c
d
e
f
g
h
i
j
k
l
m
Character
Remark
n
o
p
q
r
s
t
u
v
w
x
y
z
{
Left Curly Brace
Vertical Bar
Right Curly Brace
Tilde
|
}
~
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4. EXAMPLE SYSTEMS
The dial-in system to the ISP or Intranet should be chosen carefully. Several manufacturers (such as Ascend,
Cisco, Hewlett Packard, Shiva, Digital, Sun and Morning Star) provide hardware and software dial-in solutions
which can be used with the communicator. Local computer dealers and manufacturers’ web sites may provide
additional information regarding dial-in solutions.
The following examples of dial-in system configurations can be used as guidelines when creating a new dial-in
system or configuring an existing one.
4.1. Microsoft RAS
This chapter will explain how to configure an existing Microsoft Windows NT 4.0 RAS service to work with the
Nokia 9110 Communicator.
Required configurations:
·
The TCP/IP settings must be configured properly on the RAS PC. These settings can vary so much that no
example can be given.
·
RAS must be set to “Allow any authentication including clear text”, in the encryption settings.
Note: If the “Allow any authentication including clear text” is not acceptable then the RAS can be configured to use
CHAP. This requires NT version 4.0 with Service Pack 2 or higher. The Service Pack information file (from
The configuration for part 2, can be found in the Control Panel’s Network settings. Choose Remote Access Service
(and its properties) to get to the Remote Access Setup window (Figure 4.1).
Figure 4.1 Remote Access Setup Window
Note: In this example the communicator is set up to be used as the dial-in modem via the cable.
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From the Remote Access Setup window, by choosing Network, one can find the Encryption settings in the
Network Configuration window. The communicator-supported settings for the encryption are illustrated in the
Network Configuration window (Figure 4.2). The Encryption settings are configured so that RAS does not require
encrypted password authentication. The dial-in client should support password encryption if encrypted passwords
are required.
Figure 4.2 Network Configuration Window
Usually these settings are adequate to get RAS working with the communicator. In some rare cases it is necessary
to remove all the settings which RAS makes to the dial-in modem when an incoming call is received. These
settings can be found in the modem.ini file. These settings are so case-dependent that no examples can be given.
4.2. Shiva Terminal Server Settings
The Shiva server uses SPAP as an authentication protocol by default, but the communicator does not support this
protocol. With Shiva, a TACACS server should be used (Nokia recommends the extended TACACS).
The following configuration is based on the Shiva Net Manager settings, with software version 4.0.1. When using
conventional modems, the PPP Restart Timer must be set to 10. Automatic disconnect time should be set to 15
minutes, especially if using international data calls. That is the only major configuration needed to make the Shiva
work. If using ISDN modems, then several other configuration changes are needed to make the system work. In
the [Serial *] category:
·
·
·
ISDNIncomingCallDefault = config
Rate adoption: V110
Rate: 9600
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·
·
Switch type: Euro-ISDN
Mode: Asynchronous
With these settings in the Shiva terminal server end, and AT+CBST=71 in the communicator’s modem
initialisation, the ISDN connection with Shiva works.
5. KNOWN PROBLEMS
This section presents the settings needed to solve some known connectivity problems. In some cases, it is
necessary to explain the situation further so that the problem case can be solved.
5.1. ISDN Connections
ISDN dial-in lines can create interesting problems. In most cases, when the dial-in system has been configured,
the only thing left to do is to set the communicator as a null modem. Thus the ISDN modem does not care about
the speed of the communicator. To set up the communicator as a null modem:
In the Internet application, choose Settings à choose Internet access à highlight the Internet
access point and press Edit à choose Advanced settings à and type “AT+CBST=71” into the
Modem initialisation field.
Note: The GSM network operator must support ISDN data calls.
5.2. Shiva Terminal Servers
The communicator supports PAP and CHAP protocols in PPP connection authentication. Shiva has its own
authentication protocol called SPAP that the communicator does not support. When using a Shiva terminal server
with the communicator, some configuration settings must be changed. Since SPAP cannot be used, a TACACS
server should be set-up and configured to the Shiva (extended TACACS is recommended). In the communicator,
the compression option must be off. The configurations are explained in more detail in section 3.
5.3. PPP Data Calls Over Long Distances
If some of the dial-up connections to the PPP service are made over exceptionally long delay links, if the PPP
server uses the default 3-second restart timer, the service provider’s PPP protocol state machine may be unable
to converge the option negotiations.
An example of a long delay link is a GSM data call from Hong Kong to Helsinki, Finland. The Radio Link Protocol
(RLP) of GSM that is used to provide reliable asynchronous data service over the wireless link adds more delay to
the satellite link delays. This problem can be avoided by configuring the PPP server to use a greater restart timer
value (e.g. 11 seconds) or to configure the PPP server to use some dynamic scheme for updating the restart timer
value if the server is capable of doing so.
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