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PROTOCOL
CONVERTER
VALIDATION
PROCEDURE
CONTRACT
SHNMO
85-9532/INF
LINE
ITEM
0001C…02…851207…02…
PC
T̲A̲B̲L̲E̲ ̲O̲F̲ ̲C̲O̲N̲T̲E̲N̲T̲S̲
1 GENERAL .......................................
1
1.1 PURPOSE ....................................
1
1.2 REFERENCED DOCUMENTS .......................
1
1.2.1 Baseline Documentation .................
1
1.2.2 Informational Documentation ............
2
1.3 APPLICABLE DOCUMENT ........................
2
2 TEST OVERVIEW .................................
3
2.1 TEST SETUP .................................
5
2.2 TEST GROUP A ...............................
8
2.2.1 Test Case A01: Normal Transmission
Control Signal Handling .
8
2.2.2 Test Case A02: Disconnection of
Data Signal .............
9
2.2.3 Test Case A03: Disconnection of Control
Signal CTS ..............
10
2.2.4 Test Case A04: Disconnection of Control
Signal DCD ..............
11
2.2.5 Test Case A05: Disconnection of Control
Signal DSR ..............
12
2.3 TEST GROUP B ...............................
13
2.3.1 Test Case B01: Log On Sequence .........
13
2.3.2 Test Case B02: Log Off Sequence ........
14
2.3.3 Test Case B03: Normal Transmission
CCIS to PC ..............
15
2.3.4 Test Case B04: Normal Transmission
PC to CCIS ..............
16
2.3.5 Test Case B05: Normal Transmission
PC to CCIS ..............
17
2.3.5.1 B05A: Normal Transmission
PC to CCIS ..............
17
2.3.5.2 B05B: Normal Transmission
PC to CCIS ..............
18
2.3.5.3 B05C: Normal Transmission
PC to CCIS ..............
19
2.3.6 Test Case B06: SUPERNAK Handling
CCIS to PC ..............
20
2.3.7 Test Case B07: SUPERNAK Handling
PC to CCIS ..............
21
2.3.8 Test Case B08: Timeout Handling
CCIS to PC ..............
22
2.3.9 Test Case B09: Timeout Handling
PC to CCIS ..............
23
2.3.10 Test Case B10: Wait Message Handling
CCIS to PC .............
24
2.3.10.1 B10A: Wait Message Handling
without Final Timeout ..
24
2.3.10.2 B10B: Wait Message Handling
with Final Timeout .....
25
2.3.11 Test Case B11: Wait Message Handling
PC to CCIS .............
26
2.3.11.1 B11A: Wait Message Handling
without Final Timeout ..
26
2.3.11.2 B11B: Wait Message Handling
with Final Timeout .....
27
2.3.12 Test Case B12: Premption of Message
CCIS to PC .............
28
2.3.13 Test Case B13: Preemption of Message
PC to CCIS .............
29
2.3.14 Test Case B14: Burst of Message
CCIS to PC .............
30
2.3.15 Test Case B15: Burst of Message
PC to CCIS .............
31
2.3.16 Test Case B16: Compression Handling
CCIS to PC ............
32
2.3.16.1 B16A: Compression Handling
with a Subsegment .....
32
2.3.16.2 B16B: Compression Handling
within a Segment ......
33
2.3.16.3 B16C: Compression Handling
within a Message ......
34
2.3.16.4 B16D: Compression Handling
Several Times within
a Segment .............
35
2.3.17 Test Case B17: Compression Handling
PC to CCIS ..........................
36
2.3.17.1 B17A: Compression Handling
a Subsegment ..........
36
2.3.17.2 B17B: Compression Handling
within a Segment ......
37
2.3.17.3 B17C: Compression Handling
within a Message ......
38
2.3.17.4 B17D: Compression Handling
Several Times within
a Segment .............
39
3 MESSAGES NEEDED FOR CCIS .....................
40
4 MESSAGES NEEDED FROM CAMPS ....................
41
5 RESPONSIBILITY FOR VALIDATION ACTIVITY
SUPPORT .......................................
42
5.1 SHAPE'S RESPONSIBILITY .....................
42
5.2 CR84'S RESPONSIBILITY ......................
42
1̲ ̲ ̲G̲E̲N̲E̲R̲A̲L̲
This Validation Procedure describes the different tests
activities performed in order to validate the interface
control document for the PC-CCIS Link according to
SHNMO's Contract 85-9532/INF.
1.1 P̲U̲R̲P̲O̲S̲E̲
The purpose of this procedure is:
a. To identify the tests needed to validate the different
levels of the ICD.
b. To identify the test setup for each test.
c. To identify the support from CCIS's and CAMPS's
side of the link.
1.2 R̲E̲F̲E̲R̲E̲N̲C̲E̲D̲ ̲D̲O̲C̲U̲M̲E̲N̲T̲S̲
1.2.1 B̲a̲s̲e̲l̲i̲n̲e̲ ̲D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲
1. SCARS/CAMPS INTERFACE
CPS/ICD/005, issue 3 to 1982-12-01.
Burroughs Corporation and Chr. Rovsing A/S
2. REMOTE TERMINAL SUPERVISOR (GRTS) DD40B
Revision 0 - 1976, July to Honeywell.
3. DINDAC CCTC TR-01
DCA. 1978-06-30.
4. 12 MIL-STD188C
1969-11-24.
5. WWMCCS ADP Telecom Standard Engineering Practices.
DCA, 1981-09-01.
1.2.2 I̲n̲f̲o̲r̲m̲a̲t̲i̲o̲n̲a̲l̲ ̲D̲o̲c̲u̲m̲e̲n̲t̲a̲t̲i̲o̲n̲
a. PROTOCOL CONVERTER SYSTEM SPECIFICATION.
PC/SDS/001, issue 2.1, 1982-08-10 Chr. Rovsing
A/S.
b. ACE Security Directive 70-1,
issue 2, 1981-02-06.
c. ACE ADP Standards Manual 96-1-1, part no. 007-3.
1980-01-14.
d. DINDAC-RCI Protocol Notes.
Handout from SHAPE/Mr. Novell, 1982-07-26.
e. Notes on SHAPE/JDSSC/CR84's meeting at Washington,
1985-09-23 to 25.
f. NAVCOMM Communication Line Protocol.
TR-05, February, 1975.
g. Remote Computer /DN355/NAVCOMM Line Protocol.
WWMCCS DN48, 1976-05-10.
h. WWMCCS/AMME/AUTODIN Interface.
Draft, 1985-07-19
i. NACE Protocol for Remote Computer Interface.
1979-05-31.
1.3 A̲P̲P̲L̲I̲C̲A̲B̲L̲E̲ ̲D̲O̲C̲U̲M̲E̲N̲T̲
- PC-CCIS Interface Study.
Contract SHNMO 85-9532/INF.
2̲ ̲ ̲T̲E̲S̲T̲ ̲O̲V̲E̲R̲V̲I̲E̲W̲
The test is divided into two groups: The first group
covers the Physical Link Level and the second the other
three levels. In order to minimize the support needed,
the different tests are used for the same test messages,
if applicable. The different test cases are:
Test Group A: Physical Link Level.
Test Case A01: Normal Transmission Control
Signal Handling.
Test Case A02: Disconnection of Data Signal.
Test Case A03: Disconnection of Control Signal
CTS.
Test Case A04: Disconnection of Control Signal
DCD.
Test Case A05: Disconnection of Control Signal
DSR.
Test Group B: Message Traffic Handling (Level 2 to
4).
Test Case B01: Log On Sequence.
Test Case B02: Log Off Sequence.
Test Case B03: Normal Transmission CCIS to
PC.
Test Case B04: Normal Transmission PC to CCIS.
Test Case B05: Normal Transmission PC to CCIS.
B05A: Two messages from CCIS and one
from PC.
B05B: Two messages from PC and one
from CCIS.
B05C: Ten messages from PC and ten
from CCIS.
Test Case B06: SUPERNAK Handling CCIS to PC.
Test Case B07: SUPERNAK Handling PC to CCIS.
Test Case B08: Timeout Handling CCIS to PC.
Test Case B09: Timeout Handling PC to CCIS.
Test Case B10: Wait message handling CCIS to
PC.
B10A: Wait message handling without
final timeout.
B10B: Wait message handling with final
timeout.
Test Case B11: Wait message handling PC to
CCIS.
B11A: Wait message handling without
final timeout.
B11B: Wait message handling with final
timeout.
Test Case B12: Preemption of messages CCIS
to PC.
Test Case B13: Preemption of messages PC to
CCIS.
Test Case B14: Burst of messages CCIS to PC.
Test Case B15: Burst of message PC to CCIS.
Test Case B16: Compression handling CCIS to
PC.
B16A: Compression within a subsegment.
B16B: Compression within a segment.
B16C: Compression within a message.
B16D: Compression several times within
a segment.
Test Case B17: Compression handling PC to CCIS.
B17A: Compression within a subsegment.
B17B: Compression within a segment.
B17C: Compression within a message.
B17D: Compression several times within
a segment.
2.1 T̲E̲S̲T̲ ̲S̲E̲T̲U̲P̲
The Test Set up consists primarily of the existing
equipment at SHAPE's site, but in order to get facilities
to change PC software, the PC is replaced by a PC Test
Computer. The Test Computer ommits the eprom bootloading
and instead bootloads the PC from a floppy drive. The
Test Computer is also be equipped with a SMD80 disk
drive and 256K RAM Boards.
In the test set up there is connected a line monitor
to the PC-CCIS Link. The Line Monitor has a printer
facility in order to get a hard copy of the link transmission.
The Line Monitor has also the ability of enabling collection
of data full duplex at 9600 baud and has at least 60
Kbytes of data capture buffer.
All test cases are performed with a link speed of 2400
baud.
The test set up is described in figure 2.2-1 and in
figure 2.2-2 the test computer is described on a module
basis.
FIGURE 2.1-1
TEST SET UP
FIGURE 2.1-2
PC TEST COMPUTER
2.2 T̲E̲S̲T̲ ̲G̲R̲O̲U̲P̲ ̲A̲
2.2.1 A̲0̲1̲:̲ ̲N̲o̲r̲m̲a̲l̲ ̲T̲r̲a̲n̲s̲m̲i̲s̲s̲i̲o̲n̲ ̲C̲o̲n̲t̲r̲o̲l̲ ̲S̲i̲g̲n̲a̲l̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲
The Test demonstrates the control signal handling under
normal message transmission handling:
Test Steps:
A01-1 Start up the line monitor.
A01-2 Connection of end-system CCIS.
A01-3 Connection of end-system CAMPS.
A01-4 Log on Sequence on the PC Consol.
A01-5 Transmission of message MCCIS1 from CCIS.
A01-6 Transmission of one message MCAMPS1 from CAMPS.
2.2.2 A̲0̲2̲:̲ ̲D̲i̲s̲c̲o̲n̲n̲e̲c̲t̲i̲o̲n̲ ̲o̲f̲ ̲D̲a̲t̲a̲ ̲S̲i̲g̲n̲a̲l̲
The test demonstrates both the control signal handling
under disconnection of the data signal (TX) and the
system reactions.
Test Steps:
A02-1 Connection of end-system CCIS.
A02-2 Connection of end-system CAMPS.
A02-3 Log on sequence on the PC Consol.
A02-4 Start up the line monitor.
A02-5 Start the log for CCIS system status.
A02-6 Transmission of message MCCIS3 from CCIS.
A02-7 During the transmission disconnect the data
signal.
2.2.3 A̲0̲3̲:̲ ̲D̲i̲s̲c̲o̲n̲n̲e̲c̲t̲i̲o̲n̲ ̲o̲f̲ ̲C̲o̲n̲t̲r̲o̲l̲ ̲S̲i̲g̲n̲a̲l̲ ̲C̲T̲S̲
The test demonstrates both the control signal handling
under disconnection of the control signal CTS and the
system reactions.
Test Steps:
A03-1 Connection of end-system CCIS.
A03-2 Connection of end-system CAMPS.
A03-3 Log on sequence on the PC Consol.
A03-4 Start up the line monitor.
A03-5 Start the log for CCIS system status.
A03-6 Transmission of message MCCIS3 from CCIS.
A03-7 During the transmission disconnect the control
signal CTS.
2.2.4 A̲0̲4̲:̲ ̲D̲i̲s̲c̲o̲n̲n̲e̲c̲t̲i̲o̲n̲ ̲o̲f̲ ̲C̲o̲n̲t̲r̲o̲l̲ ̲S̲i̲g̲n̲a̲l̲ ̲D̲C̲D̲
The test demonstrates both the control signal handling
under disconnection of the control signal DCD and the
system reactions.
Test Steps:
A04-1 Connection of end-system CCIS.
A04-2 Connection of end-system CAMPS.
A04-3 Log on sequence on the PC Consol.
A04-4 Start up the line monitor.
A04-5 Start the log for CCIS system status.
A04-6 Transmission of message MCCIS3 from CCIS.
A04-7 During the transmission disconnect the control
signal DCD.
2.2.5 A̲0̲5̲:̲ ̲D̲i̲s̲c̲o̲n̲n̲e̲c̲t̲i̲o̲n̲ ̲o̲f̲ ̲C̲o̲n̲t̲r̲o̲l̲ ̲S̲i̲g̲n̲a̲l̲ ̲D̲S̲R̲
The test demonstrates both the control signal handling
under disconnection of the control signal DSR and the
system reactions.
Test Steps:
A05-1 Connection of end-system CCIS.
A05-2 Connection of end-system CAMPS.
A05-3 Log on sequence on the PC Console.
A05-4 Start up the line monitor.
A05-5 Start the log for CCIS system status.
A05-6 Transmission of message MCCIS3 from CCIS.
A05-7 During the transmission disconnect the control
signal DSR.
2.3 T̲E̲S̲T̲ ̲G̲R̲O̲U̲P̲ ̲B̲
2.3.1 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲1̲:̲ ̲L̲o̲g̲ ̲o̲n̲ ̲S̲e̲q̲u̲e̲n̲c̲e̲
This test demonstrates the normal log on communication
between PC and CCIS. The test demonstrates levels 2,
3 and 4 handling of the link.
Test Steps:
B01-1 Connection of end-system CCIS.
B01-2 Connection of end-system CAMPS.
B01-3 Start up the line monitor.
B01-4 Start the log for CCIS system status.
B01-5 Log on Sequence on the PC Console.
B01-6 Await success completion of the log on sequence
on the PC Console.
2.3.2 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲2̲:̲ ̲L̲o̲g̲ ̲O̲f̲f̲ ̲S̲e̲q̲u̲e̲n̲c̲e̲
This test demonstrates the normal log off communication
between PC and CCIS. The test demonstrates levels 2,
3 and 4 handling of the link.
Test Steps:
B02-0 The start state is after a sucessful log on.
B02-1 Start up the line monitor.
B02-2 Start the log for CCIS System Status.
B02-3 Log Off sequence on the PC Console.
B02-4 Await success completion of the log off sequence
on the PC Console.
2.3.3 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲3̲:̲ ̲N̲o̲r̲m̲a̲l̲ ̲T̲r̲a̲n̲s̲m̲i̲s̲s̲i̲o̲n̲ ̲C̲C̲I̲S̲ ̲t̲o̲ ̲P̲C̲
This test demonstrates the normal data communication
between PC and CCIS. The messages is sent from CCIS.
The test demonstrates levels 2, 3 and 4 handling of
the link. The message sent is a standard message containing
1500 characters. The start situation for PC and CCIS
is with empty queues.
Test Steps:
B03-0 The start state is after a successful log on.
B03-1 Start up the line monitor.
B03-2 Start the log for CCIS system status.
B03-3 Send the message MCCIS2 from CCIS.
B03-4 Await success completion of the message on
the CCIS log.
2.3.4 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲4̲:̲ ̲N̲o̲r̲m̲a̲l̲ ̲T̲r̲a̲n̲s̲m̲i̲s̲s̲i̲o̲n̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
This test demonstrates the normal data communication
between PC and CCIS. The messages are sent from PC.
The test demonstrates levels 2, 3 and 4 handling of
the link. The message sent will be a standard message
containing 1500 characters. The start situation for
PC and CCIS is with empty queues.
Test Steps:
B04-0 The start state is after a successful log on.
B04-1 Start up the line monitor.
B04-2 Start the log for CCIS system status.
B04-3 Send the message MCAMPS2 from CAMPS.
B04-4 Await success completion of the message on
the PC Console.
2.3.5 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲5̲:̲ ̲N̲o̲r̲m̲a̲l̲ ̲T̲r̲a̲n̲s̲m̲i̲s̲s̲i̲o̲n̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
2.3.5.1 B̲0̲5̲A̲:̲ ̲N̲o̲r̲m̲a̲l̲ ̲T̲r̲a̲n̲s̲m̲i̲s̲s̲i̲o̲n̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
This test demonstrates the normal data communication
between PC and CCIS. The messages are sent from both
CCIS and PC. CCIS sends two messages and PC sends one.
The test demonstrates both the next ̲to ̲transmit handlings
and the half duplex link between PC and CCIS. The test
demonstrates levels 2, 3 and 4 handling of the link.
The messages sent are the same standard message containing
12000 characters. PC receives the message sent to CCIS
when receiving first message from CCIS. The start situation
for PC and CCIS is with empty queues.
Test Steps:
B05A-0 The start state is after a successful log on.
B05A-1 Start up the line monitor.
B05A-2 Start the log for CCIS system status.
B05A-3 Send the first message MCCIS3 from CCIS.
B05A-4 Send the second message MCCIS3 from CCIS.
B05A-5 When the first segment of the first message
is passing the line monitor then send the message
from CAMPS.
B05A-6 Await successful completion of all messages
on both the CCIS log and the CAMPS log.
2.3.5.2 B̲0̲5̲B̲:̲ ̲N̲o̲r̲m̲a̲l̲ ̲T̲r̲a̲n̲s̲m̲i̲s̲s̲i̲o̲n̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
This test demonstrates the normal data communication
between PC and CCIS. The messages are sent from both
CCIS and PC. PC sends two messages and CCIS sends one.
The test demonstrates both the next ̲to ̲transmit handling
and the half duplex link between PC and CCIS. The test
demonstrates levels 2, 3 and 4 handling of the link.
The messages sent will be the same standard message
containing 12000 characters. CCIS receives the message
to send to PC when receiving the first message sent
from PC. The start situation for PC and CCIS is with
empty queues.
Test Steps:
B05B-0 The start state is after a successful log on.
B05B-1 Start up the line monitor.
B05B-2 Start the log for CCIS system status.
B05B-3 Send the first message MCAMPS3 from CAMPS.
B05B-4 Send the second message MCAMPS3 from CAMPS.
B05B-5 When the first segment of the first message
is passing the line monitor then send the message
MCCIS3 from CCIS.
B05B-6 Await successful completion of all messages
on both the CCIS and CAMPS log.
2.3.5.3 B̲0̲5̲C̲:̲ ̲N̲o̲r̲m̲a̲l̲ ̲T̲r̲a̲n̲s̲m̲i̲s̲s̲i̲o̲n̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
This test demonstrates the normal data communication
between PC and CCIS. The messages is sent from both
CCIS and PC. Each side sends 10 messages in order to
get full queues next ̲to ̲transmit handling and the half
duplex link between PC and CCIS. The test demonstrates
levels 2, 3 and 4 handling of the link. The messages
sent are the same standard message containing 1500
characters. The start situation for PC and CCIS is
with empty queues.
Test Steps:
B05C-0 The start state is after a successful log on.
B05C-1 Start up the line monitor.
B05C-2 Start the log for CCIS system status.
B05C-3 Prepare 10 messages of type MCCIS2 to send
by the CCIS end-system.
B05C-4 Prepare 10 messages of type MCAMPS2 to send
by the CAMPS end-system.
B05C-5 Release and send the 10 messages by the CCIS
end-system.
B05C-6 Release and send the 10 messages by the CAMPS
end-system.
B05C-7 Await successful completion of all messages
on both the CCIS and CAMPS log.
2.3.6 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲6̲:̲ ̲S̲U̲P̲E̲R̲N̲A̲K̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲C̲C̲I̲S̲ ̲t̲o̲ ̲P̲C̲
This test demonstrates the normal message rejection
communication between PC and CCIS. The messages are
sent by CCIS and PC rejects to receive the message.
The test demonstrates levels 2, 3 and 4 handling of
the link. The message sends a standard message containing
1100 characters and with incorrect station channel
identifier. The start situation for PC and CCIS is
with empty queues.
Test Steps:
B06-0 The start state is after a successful log on.
B06-1 Start up the line monitor.
B06-2 Start the log for CCIS system status.
B06-3 Send the message MCCIS1A from CCIS.
B06-4 Await successful completion of the message
transmission on the CCIS Console.
2.3.7 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲7̲:̲ ̲S̲U̲P̲E̲R̲N̲A̲K̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
This test demonstrates the normal message rejection
communication between PC and CCIS. The messages are
sent from PC and CCIS will then reject reception of
message. The test demonstrates levels 2, 3 and 4 handling
of the link. The message sent is a standard message
containing 1100 characters and with incorrect station
channel identifier. The start situation for PC and
CCIS is with empty queues.
Test Steps:
B07-0 The start state is after a successful log on.
B07-1 Start up the line monitor.
B07-2 Start the log for CCIS system status.
B07-3 Enable the SCI change facility in the PC CLP
monitor.
B07-4 Send the message MCAMPS1 from CAMPS.
B07-5 Await successful completion of the message
trnsmission on the CAMPS Console.
2.3.8 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲8̲:̲ ̲T̲i̲m̲e̲o̲u̲t̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲C̲C̲I̲S̲ ̲t̲o̲ ̲P̲C̲
This test demonstrates the normal system communication
between PC and CCIS caused by timeout on response from
the other side. The messages is sent from CCIS and
PC halts the response back indicating that the first
subsegment received was OK. The test demonstrates levels
2, 3 and 4 handling of the link. The message sent is
a standard message containing 1100 characters. The
start situation for PC and CCIS is with empty queues.
Test Steps:
B08-0 The start state is after a successful log on.
B08-1 Start up the line monitor.
B08-2 Start the log for CCIS system status.
B08-3 Enable the halt facility in the PC CLP monitor.
B08-4 Send the message MCCIS1 from CCIS.
B08-5 Await successful completion of the disconnection
sequence on the CCIS Console.
2.3.9 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲0̲9̲:̲ ̲T̲i̲m̲e̲o̲u̲t̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
This test demonstrates the normal system communication
between PC and CCIS caused by timeout on response from
the other side. The messages are sent from PC and CCIS
halts the response back indicating that the message
received was OK. The test demonstrates that levels
2, 3 and 4 handling of the link. The message sent is
a standard message containing 1100 characters. The
start situation for PC and CCIS is with empty queues.
Test Steps:
B09-0 The start state is after a successful log on.
B09-1 Start up the line monitor.
B09-2 Start the log for CCIS system status.
B09-3 Send the message MCAMPS1 from CAMPS.
B09-4 Halt the SUPERACK response back from application.
B09-5 Await successful completion of the disconnection
sequence on the PC Console.
2.3.10 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲1̲0̲:̲ ̲W̲a̲i̲t̲ ̲M̲e̲s̲s̲a̲g̲e̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲C̲C̲I̲S̲ ̲t̲o̲ ̲P̲C̲
2.3.10.1 B̲1̲0̲A̲:̲ ̲W̲a̲i̲t̲ ̲M̲e̲s̲s̲a̲g̲e̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲o̲u̲t̲ ̲F̲i̲n̲a̲l̲ ̲T̲i̲m̲e̲o̲u̲t̲
N/A
2.3.10.2 B̲1̲0̲B̲:̲ ̲W̲a̲i̲t̲ ̲M̲e̲s̲s̲a̲g̲e̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲ ̲F̲i̲n̲a̲l̲ ̲T̲i̲m̲e̲o̲u̲t̲
N/A
2.3.11 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲1̲1̲:̲ ̲W̲a̲i̲t̲ ̲M̲e̲s̲s̲a̲g̲e̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
2.3.11.1 B̲1̲1̲A̲:̲ ̲W̲a̲i̲t̲ ̲M̲e̲s̲s̲a̲g̲e̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲o̲u̲t̲ ̲F̲i̲n̲a̲l̲ ̲T̲i̲m̲e̲o̲u̲t̲
This test demonstrates the normal system communication
between PC and CCIS caused by wait messages from one
end-system in response to the other side. The messages
are sent from CCIS and PC sends wait messages for approximately
5 minutes and then the SUPERACK message responds to
the message sent from CCIS. The test demonstrates levels
2, 3 and 4 handling of the link. The message sent is
a standard message containing 1500 characters. The
start situation for PC and CCIS is with empty queues.
Test Steps:
B11A-0 The start state is after a successful log on.
B11A-1 Start up the line monitor.
B11A-2 Start the log for CCIS system status.
B11A-3 Send the message MCCIS2 from CCIS.
B11A-4 Start the PC timer and send wait messages from
PC until timeout.
B11A-5 Send the SUPERACK response to the CCIS message.
B11A-6 Send message MCCIS2 from CCIS.
B11A-7 Send message MCAMPS2 from CAMPS.
B11A-8 Await successful completion of the message
transmission.
2.3.11.2 B̲1̲1̲B̲:̲ ̲W̲a̲i̲t̲ ̲M̲e̲s̲s̲a̲g̲e̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲ ̲F̲i̲n̲a̲l̲ ̲T̲i̲m̲e̲o̲u̲t̲
This test demonstrates the normal system communication
between PC and CCIS caused by wait messages from one
end-system in response to the other side. The messages
is sent from CCIS and PCC then sends wait messages
instead of the SUPERACK message response for the message
sent from CCIS. The test demonstrates both levels 2,
3 and 4 handling of the link. The message sent is a
standard message containing 1500 characters. The start
situation for PC and CCIS is with empty queues.
Test Steps:
B11B-0 The start state is after a successful log on.
B11B-1 Start up the line monitor.
B11B-2 Start the log for CCIS system status.
B11B-3 Send the message MCCIS2 from CCIS.
B11B-4 Enable the wait facility in the PC CLP monitor.
B11B-5 Send wait messages from PC.
B11B-6 Await successful completion of the disconnection
sequence on the PC Console.
2.3.12 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲1̲2̲:̲ ̲P̲r̲e̲m̲m̲p̲t̲i̲o̲n̲ ̲o̲f̲ ̲M̲e̲s̲s̲a̲g̲e̲s̲ ̲C̲C̲I̲S̲ ̲t̲o̲ ̲P̲C̲
This test demonstrates the normal system communication
between PC and CCIS caused by a preemption message
from CCIS during transmission of a message from PC
with low precedence. The messages are sent from PC
and CCIS preempt the message. The message sent from
PC is a standard message containing 12000 characters
with low precedence. The preemption message from CCIS
is a standard message containing 324 characters with
high precedence. The test demonstrates levels 2, 3
and 4 handling of the link. The start situation for
PC and CCIS is with empty queues.
Test Steps:
B12-0 The start state is after a successful log on.
B12-1 Start up the line monitor.
B12-2 Start the log for CCIS system status.
B12-3 Send the low precedence message MCAMPS3 from
CAMPS.
B12-4 After the first segment has passed the line
monitor then send the message MCCIS9 from CCIS.
B12-5 Await successful completion of the message
on both the CCIS and CAMPS log.
2.3.13 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲1̲3̲:̲ ̲P̲r̲e̲e̲m̲p̲t̲i̲o̲n̲ ̲o̲f̲ ̲M̲e̲s̲s̲a̲g̲e̲s̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
This test demonstrates the normal system communication
between PC and CCIS caused by a Preemption Message
from PC during transmission of a message from CCIS
with low precedence. The messages is sent from CCIS
and PC preempts the message. The message sent from
CCIS is a standard message containing 12000 characters
with a low precedence. The preemption message from
PC is a standard message containing 324 characters
with a high precedence that PC causes an override situation
to occur. The test demonstrates levels 2, 3 and 4 handling
of the link. The start situation for PC and CCIS is
with empty queues.
Test Steps:
B13-0 The start state is after a successful log on.
B13-1 Start up the line monitor.
B13-2 Start the log for CCIS system status.
B13-3 Send the low precedence message MCCIS3 from
CCIS.
B13-4 After the first segment has passed the line
monitor then send the message MCAMPS9 from
CAMPS.
B13-5 Await successful completion of the messages
on both the CCIS and CAMPS log.
2.3.14 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲1̲4̲:̲ ̲B̲u̲r̲s̲t̲ ̲o̲f̲ ̲M̲e̲s̲s̲a̲g̲e̲ ̲C̲C̲I̲S̲ ̲t̲o̲ ̲P̲C̲
This test demonstrates the normal system communication
between PC and CCIS caused by a burst message from
CCIS during transmission of a message from CCIS. The
message is sent from CCIS and CCIS will during the
transmission send a burst message informing PC that
all references to the message have to be cancelled.
The message sent from CCIS is a standard message containing
13000 characters. The test demonstrates levels 2, 3
and 4 handling of the link. The start situation for
PC and CCIS is with empty queues.
Test Steps:
B14-0 The start state is after a successful log on.
B14-1 Start up the line monitor.
B14-2 Start the log for CCIS system status.
B14-3 Send the oversized message MCCIS4 from CCIS.
B14-4 Await successful completion of the message
on the CCIS log.
2.3.15 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲1̲5̲:̲ ̲B̲u̲r̲s̲t̲ ̲o̲f̲ ̲M̲e̲s̲s̲a̲g̲e̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
This test demonstrates the normal system communication
between PC and CCIS caused by a burst message from
PC during transmission of a message from PC. The message
is sent from PC and PC will, during the transmission,
send a burst message informing CCIS that all references
to the message have to be cancelled. The message sent
from CAMPS will be a standard message containing at
least 13000 characters. The test demonstrates levels
2, 3 and 4 handling of the link. The start situation
for PC and CCIS is with empty queues.
Test Steps:
B15-0 The start state is after a successful log on.
B15-1 Start up the line monitor.
B15-2 Start the log for CCIS system status.
B15-3 Send the oversized message MCAMPS4 from CAMPS.
B15-4 Await successful completion of the message
on the CCIS log.
2.3.16 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲1̲6̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲C̲C̲I̲C̲ ̲t̲o̲ ̲P̲C̲
2.3.16.1 B̲1̲6̲A̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲i̲n̲ ̲a̲ ̲S̲u̲b̲s̲e̲g̲m̲e̲n̲t̲
This test demonstrates the normal data compression
communication between CCIS and PC. The message is sent
from CCIS. The test demonstrates levels 2, 3 and 4
handling of the link. The message sent is a standard
message containing 324 characters. The text part of
the E1 format contains one serie containing 100 of
the same data characters. The start situation for PC
and CCIS is with empty queues.
Test Steps:
B16A-1 Connect the CCIS end-system.
B16A-2 Connect the CAMPS end-system.
B16A-3 Set data compression in PC CLP monitor.
B16A-4 Log on the PC Console.
B16A-5 Start up the line monitor.
B16A-6 Start the log for CCIS system status.
B16A-7 Send the message MCCIS5 from CCIS.
B16A-8 Await successful completion of the message
on the CCIS log.
2.3.16.2 B̲1̲6̲B̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲i̲n̲ ̲a̲ ̲S̲e̲g̲m̲e̲n̲t̲
This test demonstrates the normal data compression
communication between CCIS and PC. The message is sent
from CCIS. The test demonstrates levels 2, 3 and 4
handling of the link. The message sent is a standard
message containing 1140 characters. The text part of
the E1 format contains one serie containing 800 of
the same data characters. The start situation for PC
and CCIS is with empty queues.
Test Steps:
B16B-0 The start state is after a log on sequence
on the PC Console with data compression set.
B16B-1 Start up the line monitor.
B16B-2 Start the log for CCIS system status.
B16B-3 Send the message MCCIS6 from CCIS.
B16B-4 Await successful completion of the message
on CCIS log.
2.3.16.3 B̲1̲6̲C̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲i̲n̲ ̲a̲ ̲M̲e̲s̲s̲a̲g̲e̲
This test demonstrates the normal data compression
communication between CCIS and PC. The message is sent
from CCIS. The test demonstrates levels 2, 3 and 4
handling of the link. The message sent will be a standard
message containing 2280 characters. The text part of
the E1 format contains one serie containing 1600 of
the same data character. The start situation for PC
and CCIS is with empty queues.
Test Steps:
B16C-0 The start state is after a log on sequence
on the PC Console with Data Compression Set.
B16C-1 Start up the line monitor.
B16C-2 Start the log for CCIS System Status.
B16C-3 Send the message MCCIS7 from CCIS.
B16C-4 Await successful completion of the message
on CCIS log.
2.3.16.4 B̲1̲6̲D̲.̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲S̲e̲v̲e̲r̲a̲l̲ ̲T̲i̲m̲e̲s̲ ̲w̲i̲t̲h̲i̲n̲ ̲a̲ ̲S̲e̲g̲m̲e̲n̲t̲
This test demonstrates the normal data compression
communication between CCIS and PC. The message is sent
from CCIS. The test demonstrates levels 2, 3 and 4
handling of the link. The message sent is a standard
message containing 1140 characters. The text part of
the E1 format contains several series containing 8
of the same data character. The start situation for
PC and CCIS is with empty queues.
Test Steps:
B16D-0 The start state is after a log on sequence
on the PC Console with Data Compression Set.
B16D-1 Start up the Line Monitor.
B16D-2 Start the log for CCIS System Status.
B16D-3 Send the message MCCIS8 from CCIS.
B16D-4 Await successful completion of the message
on CCIS log.
2.3.17 T̲e̲s̲t̲ ̲C̲a̲s̲e̲ ̲B̲1̲7̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲P̲C̲ ̲t̲o̲ ̲C̲C̲I̲S̲
2.3.17.1 B̲1̲7̲A̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲i̲n̲ ̲a̲ ̲S̲u̲b̲s̲e̲g̲m̲e̲n̲t̲
This test demonstrates the normal data compression
communication between CCIS and PC. The message is sent
from PC. The test demonstrates levels 2, 3 and 4 handling
of the link. The message sent is a standard message
containing 324 characters. The text part of the E1
formal contains one serie containing 100 of the same
data character. The start situation for PC and CCIS
is with empty queues.
Test Steps:
B17A-1 Connect the CCIS End-System.
B17A-2 Connect the CAMPS End-System.
B17A-3 Set Data Compression to PC CLP Monitor.
B17A-4 Log on the PC Console.
B17A-5 Start up the line monitor.
B17A-6 Start the log for CCIS System Status.
B17A-7 Send the message MCAMPS5 from CAMPS.
B17A-8 Await successful completion of the message
on the CAMPS log.
2.3.17.2 B̲1̲7̲B̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲i̲n̲ ̲a̲ ̲S̲e̲g̲m̲e̲n̲t̲
The test demonstrates the normal data compression communication
between CCIS and PC. The message is sent from PC. The
test demonstrates levels 2, 3 and 4 handling of the
link. The message sent is a standard message containing
1140 characters. The text part of the E1 format contains
one serie containing 800 of the same data character.
The start situation for PC and CCIS is with empty queues.
Test Steps:
B17B-0 The start state is after a log on sequence
on the PC Console with data compression set.
B17B-1 Start up the line monitor.
B17B-2 Start the log for CCIS system status.
B17B-3 Send the message MCAMPS6 from CAMPS.
B17B-4 Await successful completion of the message
on CAMPS log.
2.3.17.3 B̲1̲7̲C̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲w̲i̲t̲h̲i̲n̲ ̲a̲ ̲M̲e̲s̲s̲a̲g̲e̲
This test demonstrates the normal data compression
communication between CCIS and PC. The message is sent
from PC. The test demonstrates levels 2, 3 and 4 handling
of the link. The message sent is a standard message
containing 2280 characters. The text part of the E1
format contains one serie containing 1700 of the same
data character. The start situation for PC and CCIS
is with empty queues.
Test Steps:
B17C-0 The start state is after a log on sequence
on PC Console with Data Compression Set.
B17C-1 Start up the line monitor.
B17C-2 Start the log for CCIS system status.
B17C-3 Send the message MCAMPS7 from CAMPS.
B17C-4 Await successful completion of the message
on CAMPS log.
2.3.17.4 B̲1̲7̲D̲:̲ ̲C̲o̲m̲p̲r̲e̲s̲s̲i̲o̲n̲ ̲H̲a̲n̲d̲l̲i̲n̲g̲ ̲S̲e̲v̲e̲r̲a̲l̲ ̲T̲i̲m̲e̲s̲ ̲w̲i̲t̲h̲i̲n̲ ̲a̲ ̲S̲e̲g̲m̲e̲n̲t̲
This test demonstrates the normal data compression
communication between CCIS and PC. The message is sent
from PC. The test demonstrates levels 2, 3 and 4 handling
of the link. The messages sends a standard message
containing 1140 characters. The text part of the E1
format contains several series containing 8 of the
same data character. The start situation for PC and
CCIS is with empty queues.
Test Steps:
B17D-0 The start state is after a log on sequence
on the PC Console with Data Compression Set.
B17D-1 Start up the line monitor.
B17D-2 Start the log for CCIS System status.
B17D-3 Send the message MCAMPS8 from CAMPS.
B17D-4 Await successful completion of the message
on CAMPS log.
3̲ ̲ ̲M̲E̲S̲S̲A̲G̲E̲S̲ ̲N̲E̲E̲D̲E̲D̲ ̲F̲O̲R̲ ̲C̲C̲I̲S̲
All message are in the E1 format. The messages specified
below may all, in the E1 text field, contain a multiplum
of the same text except for the messages where series
of the same data characters have to be used.
Messages Used:
Character Same Data
Length: Characters: Special:
MCCIS1: 1100 N/A
MCCIS1A: 1100 N/A Wrong SCI
MCCIS2: 1500 N/A
MCCIS3: 12000 N/A
MCCIS4: 13000 N/A
MCCIS5: 324 100
MCCIS6: 1140 800
MCCIS7: 2280 1600
MCCIS8: 1140 100 x 8
MCCIS9: 324 N/A flash precedence
4̲ ̲ ̲M̲E̲S̲S̲A̲G̲E̲S̲ ̲N̲E̲E̲D̲E̲D̲ ̲F̲R̲O̲M̲ ̲C̲A̲M̲P̲S̲
All message are in the E1 format. The messages specified
below may all, in the E1 text field, contain a multiplum
of the same text except for the messages where series
of the same data characters have to be used.
Messages Used:
Character Same Data
Length: Characters: Special:
MCAMPS 1100 N/A
MCAMPS2: 1500 N/A
MCAMPS3: 12000 N/A
MCAMPS4: 13000 N/A
MCAMPS5: 324 100
MCAMPS6: 1140 800
MCAMPS7: 2280 1600
MCAMPS8: 1140 100*8
MCAMPS9: 324 N/A flash precedence
5̲ ̲ ̲R̲E̲S̲P̲O̲N̲S̲I̲B̲I̲L̲I̲T̲Y̲ ̲F̲O̲R̲ ̲V̲A̲L̲I̲D̲A̲T̲I̲O̲N̲ ̲A̲C̲T̲I̲V̲I̲T̲Y̲ ̲S̲U̲P̲P̲O̲R̲T̲
The Validation Procedure is based on the responsibility
for Validation Activity Support described below.
5.1 S̲H̲A̲P̲E̲'̲S̲ ̲R̲E̲S̲P̲O̲N̲S̲I̲B̲I̲L̲I̲T̲Y̲
The tests are based on CCIS and CAMPS at SHAPE as end-system.
The tests also require a direct communication facility
between the CCIS and CAMPS room. The tests require
access to the CCIS computer as specified in the CCIS
Machine Access Plan.
The specified test equipment, except for the test computer,
is delivered by SHAPE.
The preparation of test messages used by the end-systems
is SHAPE's responsibility.
The Test Case B15 requires that the CAMPS system is
running in the test mode. The other tests can use CAMPS
running in the operational mode.
The personnel needed to run the end-systems during
the validation activities, as specified in the CCIS
Machine Access Plan, will be SHAPE's personnel.
5.2 C̲R̲8̲4̲'̲S̲ ̲R̲E̲S̲P̲O̲N̲S̲I̲B̲I̲L̲I̲T̲Y̲
The validation Activities are conducted by CR84, therefore
CR84 will send two engineers to carry out the various
activities.
The Test Computer is delivered by CR84.
