Intelligent Transport Systems Data Network Test Plan v1
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Transcript of Intelligent Transport Systems Data Network Test Plan v1
Intelligent Transport Systems Network Ready for Use Test Plan
Final Issue V1.2
Date 19th December 2011
Network Test Plan
Version 1.0 Page 2
Version Date Author Summary of Revision
Draft 14/11/2011 Karl Wraith Initial Draft for Comment 1.0 30/11/2011 Karl Wraith First Release for Approval 1.1 06/12/2011 Karl Wraith Minor Updates 1.2 19/12/2011 Karl Wraith Test Results Completed
Network Test Plan
Version 1.0 Page 3
Contents 1 Introduction .............................................................................................................................................................. 5
2 Definitions & Acronyms ......................................................................................................................................... 5
3 Overview .................................................................................................................................................................. 5
4 Network Diagram .................................................................................................................................................... 7
5 Stakeholders ........................................................................................................................................................... 8
6 Test Success Criteria ............................................................................................................................................. 8
7 Resources ............................................................................................................................................................... 8
8 Risks ......................................................................................................................................................................... 9
9 Program ................................................................................................................................................................... 9
9.1 Day 1 - 30th
November 2011 ............................................................................................................................. 9
9.2 Day 2 - 1st
December 2011 ................................................................................................................................ 9
10 Tools used in Testing ......................................................................................................................................... 9
11 Scope of Testing ............................................................................................................................................... 10
11.1 Part A Physical ................................................................................................................................................. 10
11.1.1 DEVICE TESTS .................................................................................................................................... 10
11.2 Part B Logical ................................................................................................................................................... 10
11.2.1 CIRCUIT TESTS .................................................................................................................................. 10
11.2.2 ROUTING TESTS ................................................................................................................................ 10
11.2.3 TRAFFIC TESTS .................................................................................................................................. 10
11.2.4 APPLICATION TESTS ........................................................................................................................ 10
11.2.5 MANAGEMENT TESTS ...................................................................................................................... 10
12 Test Cases PART A Physical ......................................................................................................................... 11
12.1 Field Cabinet Level Testing (Layer 2) ............................................................................................................... 11
12.2 Prerequisites ................................................................................................................................................... 11
12.3 Communications Link Testing (Layer 2) .......................................................................................................... 13
12.3.1 Prerequisites ......................................................................................................................................... 13
12.4 Node Cabinet Testing (Layer 3) ....................................................................................................................... 15
12.4.1 Prerequisites ......................................................................................................................................... 15
12.5 Communications Link Testing (Layer 3) .......................................................................................................... 17
12.5.1 Prerequisites ......................................................................................................................................... 17
13 Test Cases PART B ......................................................................................................................................... 19
13.1 CIRCUIT TESTS ................................................................................................................................................. 19
13.1.1 Throughput ............................................................................................................................................ 19
13.1.2 Latency ................................................................................................................................................... 19
13.1.3 Jitter ........................................................................................................................................................ 19
Network Test Plan
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13.2 ROUTING TESTS ............................................................................................................................................... 20
13.2.1 VLAN ...................................................................................................................................................... 20
13.2.2 RSTP ...................................................................................................................................................... 20
13.2.3 OSPF Adjacencies ............................................................................................................................... 21
13.2.4 TRAFFIC TESTS .................................................................................................................................. 21
13.2.5 Multicast ................................................................................................................................................. 21
13.2.6 QoS ......................................................................................................................................................... 21
13.3 APPLICATION TESTS ........................................................................................................................................ 21
13.3.1 DHCP & DNS ........................................................................................................................................ 21
13.3.2 NTP ......................................................................................................................................................... 22
13.3.3 STREAMS ............................................................................................................................................. 22
13.4 MANAGEMENT TESTS ..................................................................................................................................... 22
13.4.1 SNMP ..................................................................................................................................................... 22
13.4.2 Security .................................................................................................................................................. 22
14 APPENDIX A TEST REPORT SHEET TEMPLATES ................................................................................................... 23
15 APPENDIX 2 TEST RESULTS .................................................................................................................................. 31
16 APPENDIX 3 - 3rd Party Verification of Network ................................................................................................ 47
Network Test Plan
Version 1.0 Page 5
1 Introduction
This document details the test approach to be undertaken to test the Intelligent Transport System roadside
equipment from a major roads project.
This includes an overview of the network, test activities, scope, entry and exit criteria, test deliverables,
resources and risks.
2 Definitions & Acronyms Acronym Definitions
ANPR Automatic Number Plate Recognition CCTV Closed Circuit Television DEV (system) Development (system) DHCP Dynamic Host Control Protocol DNS Domain Name Server DUT Device Under Test FP Field Processor IGMP Internet Gateway Management Protocol ITS Intelligent transport Systems LAN Local Area Network MALT Managed Advanced Localised Testing NTP Network Time Protocol POTS Plain Old Telephone Service RM Ramp Metering STREAMS Transmax Intelligent Transport System VLAN Virtual LAN VCS Vehicle Classification System VMS Variable Message Sign VSLS Variable Speed Limit Sign VSLC or VSL/LCS Variable Speed Limit / Lane Control Sign
3 Overview This document details the test approach to be undertaken to test the Intelligent Transport System roadside
equipment from within the Managed Advanced Localised Testing (MALT) facility prior to transporting the
equipment to the permanent site locations. The reason behind the MALT facility is to be able to fully
construct and debug the equipment and devices in a controlled environment and then have confidence that
field implementation will be able to be completed with minimal or no rework and or revisits to site/s.
This practise is a sound and well proven strategy for the deployment of advanced systems across the full
spectra of IT based systems.
The Motorway ITS Network consists of a series of Layer 2 Ethernet Switches in Field Cabinets that have
various ITS field devices connected to them. These switches are geographically distributed on both sides
of the new motorway and their primary purpose is to connect field devices listed below back to the TMC for
monitoring and managing the motorway. The field devices include:-
• Variable Message Signs
• Variable Speed Limit Signs
• Variable Speed Limit & Lane Control Signs
• Closed Circuit Television Cameras (CCTV)
Network Test Plan
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• Vehicle Detection Systems for monitoring vehicle counts, speed and type
• Automatic Number Plate Recognition
• Road Weather Monitoring
• Traffic Signals on the motorway interchanges
• Ramp Metering Systems
• Web Cameras
Excluded from this list are the Help Telephones that do not use the data network for operation but rather
are connected to the TMC via leased telecommunications lines (POTS).
The Layer 2 switches are then connected to special purpose Layer 3 switches in Node Cabinets which form
a self healing fibre optic ring around the extremities of the road system. Each Layer 2 switch has a path to
2 of the layer 3 switches thus providing an alternate path should one path fail for any reason.
The Layer 3 switches are connected to each other on the fibre optic ring and provide the backbone of the
communications network that then connects to TMC's preferred point of interconnect. The 2 main reasons
behind the layer 3 switches are to provide geographical distribution of the communications system and a
self healing ring communications path.
The following section shows the network diagram for the data communications network as formed by the
Layer 2 and Layer 3 switches without showing the field devices. As this test plan is specific to the data
communications network, the field devices will be dealt with under separate test plan/s.
The diagram shows how the MOTORWAY network is connected back to the TMC, however the TMC
functionality has been largely replicated in the MALT facility to allow thorough testing to be performed on
comparable systems and those systems are:-
• Layer 3 switch for point of interconnection to the TMC network
• DHCP Server
• DNS Server
• NTP Server
• STREAMS Server
• STREAMS Workstation
A working model of the CCTV monitoring software is not available for the testing but a simulated
workstation will be in place to verify any reconvergence times for the images when a primary network path
is disabled/failed.
Some of this testing may be verified into TMC’s DEV or Production systems upon connection of the Fibre
Optic link from the MALT facility to the TMC network. The level of this testing is yet to be confirmed.
Network Test Plan
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4 Network Diagram
Sub-N
etw
ork Segment BS
ub-N
etw
ork Segment D
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5 Stakeholders Responsible Accountable Consulted Informed
6 Test Success Criteria • 100% of tests executed
• All hardware pass self diagnostics
• All devices have appropriate / latest firmware loaded
• No network crashes during tests
• All devices passing traffic error free during tests
• Test traffic reroutes around failures as per the design criteria
• All devices can be managed and monitored for the NMS and or relevant application
7 Resources The resources needed to complete the testing and the allocation of time are as follows:-
Role Name Resource allocation
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8 Risks The risks to the successful completion are detailed below:-
• Availability of resources
• Equipment Supply / availability
• Completion of configuration
9 Program The testing will take place over 2 days with the first day spent checking the test environment and that the
Low Level Design(LLD) has been implemented correctly. The schedule will be:-
9.1 Day 1 - 30th November 2011
ITC Network Engineer (Test Lead) to review LLD and the implementation / configuration of the network in
the MALT facility. Test Manager and Test Lead to review this test plan, plan for the testing commencement
and trial run of the tests to be undertaken. The official test will begin on the 1st of December.
9.2 Day 2 - 1st December 2011
Pres-start activities and the documented Network Testing.
10 Tools used in Testing Tools that will be used to verify the success or failure of each test will be setup in the MALT facility. These
will include:-
• MXview the Network Management Software (NMS) for monitoring the Layer 2 and Layer 3 switch
operation and health along with the individual link statuses between each switch in the network.
• STREAMS Workstation will be used to confirm that the field devices that connect to STREAMS are
still available during the simulated outages that will be performed during the testing.
• CCTV Monitoring via the Video Encoder web interface.
• Streaming Media Monitor to detect the presence of Multicast traffic.
• Windows Command Line Tools, Ping, Tracert etc
• Fluke Metroscope Service provider Assistant Network Test Unit and Link Runner Duo as a reflector.
• Test Records will be maintained in purpose test report sheets in APPENDIX A of this document.
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11 Scope of Testing Types of tests will include:-
11.1 Part A Physical
This testing phase will be a tiered approach starting at field cabinet level, this could be considered the
Layer 2 switch level. The second tier is Communications channels between adjacent field cabinets or field
cabinets and the node cabinets where they are adjacent to each other, and finally the third tier is Node
cabinet level, which can be considered as the Layer 3 switch level. These tests are physical only and
network convergence times will be tested and recorded in the following sections.
11.1.1 DEVICE TESTS
• Simulated device failure
• Simulated link failure
• Power failure
11.2 Part B Logical
Tests conducted under Part B will include the following:-
11.2.1 CIRCUIT TESTS
• Throughput
• Delay
• Jitter
11.2.2 ROUTING TESTS
• VLAN
• RSTP
• Adjacencies
11.2.3 TRAFFIC TESTS
• Multicast
• QoS
11.2.4 APPLICATION TESTS
• DHCP
• DNS
• NTP
• SREAMS
11.2.5 MANAGEMENT TESTS
• SNMP
• Security
Network Test Plan
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12 Test Cases PART A Physical
12.1 Field Cabinet Level Testing (Layer 2)
Each field cabinet contains a layer 2 switch that passes and distributes the data associated with the control
and monitoring of the field devices such as a VSLC sign or a camera. The Layer 2 switch is an essential
component in the chain for the connection to the TMC for control and monitoring of field devices. Each
switch has 2 independent power inputs with fully isolated power supplies and as described in the Overview
section has 2 alternate communication paths to the Layer 3 communications network.
12.2 Prerequisites
Ensure the switch under test has 1 STREAMS device and 1 CCTV camera connected and monitored.
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The tests performed at this stage are:-
Item Description Success Criteria Power Failures Test the operation of the switch upon
removing one of the 2 power sources.
1. Verify the switch continues to run without any interruption to service as noted in the NMS.
2. Verify STREAMS device statuses haven’t changed.
3. Verify the CCTV image and control is functioning.
Restore the power and test the operation of the switch upon removing the opposite power source.
1. Verify the switch continues to run without any interruption to service as noted in the NMS.
2. Verify STREAMS device statuses haven’t changed.
3. Verify the CCTV image and control is functioning.
Remove the power completely to the Layer 2 Switch.
1. Verify the switches downstream recover from a brief interruption in service.
2. Verify STREAMS device statuses return to OK except for devices on the switch under full power failure.
3. Verify the CCTV image and control is functioning except for the switch under full power failure.
Restore all power. 1. Verify the switch boots and restores to normal operation as noted in the NMS.
2. Verify STREAMS device statuses return to OK.
3. Verify the CCTV image and control is functioning.
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12.3 Communications Link Testing (Layer 2)
Each switch has 2 independent paths to the layer 3 backbone network and these tests are to test the
alternate routing should the primary communications path fail.
12.3.1 Prerequisites
Ensure the switch under test has 1 STREAMS device and 1 CCTV camera connected and monitored.
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The tests performed at this stage are:-
Item Description Success Criteria Communications Link Failures Layer 2
Test the operation of the switch upon removing Layer 2 fibre optic connection of the current routed Path.
1. Verify the blocked becomes active and switch reconverges as noted in the NMS.
2. Verify other switches downstream reconverge and upstream are not affected.
3. Verify STREAMS device statuses haven’t changed after reconvergence.
4. Verify the CCTV image and control is functioning after reconvergence.
Restore the upstream Layer 2 fibre optic connections and test the operation of the switch upon removing the downstream Fibre Optic Path.
1. Verify the switch continues to run with a brief interruption to service as noted in the NMS.
2. Verify switches in the downstream path experience a brief interruption in service.
3. Verify STREAMS device statuses return to OK.
4. Verify the CCTV image and control is functioning.
Remove both Layer 2 Fibre Optic connections.
1. Verify switches in the downstream path experience a brief interruption in service.
2. Verify STREAMS device statuses return to OK except for devices on the switch under full communications failure.
3. Verify the CCTV image and control is functioning except for the switch under full power failure.
Restore all Fibre Optic connections 1. Verify the switch boots and restores to normal operation as noted in the NMS.
2. Verify STREAMS device statuses return to OK.
3. Verify the CCTV image and control is functioning.
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12.4 Node Cabinet Testing (Layer 3)
Each node cabinet contains a layer 3 switch that passes and distributes the data from the field network
layer 2 switches. The Layer 3 switch is an essential component in the chain for the connection to the TMC
for control and monitoring of field devices but a single failure of a layer 2 switch should only result in a brief
outage for reconvergence of the data network routing, with one exception. As mentioned in the Overview
above “It must be noted though that while the MOTORWAY network as a whole has a redundant
architecture there is a single point of failure between this network and the point of interconnect (POI) to the
TMC network this being the link between the MOTORWAY node cabinet (W134) and the TMC Node used
as the Point of Interconnect.” Thus a full failure of the layer 3 switch in node cabinet W134 would mean a
total loss of the MOTORWAY network to the TMC network.
Each switch has 2 independent power inputs with fully isolated power supplies and as described in the
Overview section are connected to each other on a self healing fibre optic ring and provide the backbone of
the communications network that then connects to TMC’s preferred point of interconnect.
12.4.1 Prerequisites
Ensure a layer 2 switch that is connected to the layer 3 switch under test has 1 STREAMS device and 1
CCTV camera connected and monitored.
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The tests performed at this level will include:-
Item Description Success Criteria Power Failures Test the operation of the switch upon
removing one of the 2 power sources.
1. Verify the switch continues to run without any interruption to service as noted in the NMS.
2. Verify STREAMS device statuses haven’t changed.
3. Verify the CCTV image and control is functioning.
Restore the power and test the operation of the switch upon removing the opposite power source.
1. Verify the switch continues to run without any interruption to service as noted in the NMS.
2. Verify STREAMS device statuses haven’t changed.
3. Verify the CCTV image and control is functioning.
Remove the power completely to the Layer 3 Switch. (for this test only node W-134 (POI) will be excluded)
1. Verify network reconverges and all switches are back in service in NMS.
2. Verify STREAMS device statuses return to OK except for devices on the switch under full power failure.
3. Verify the CCTV image and control is functioning.
Restore all power. 4. Verify the switch boots and restores to normal operation as noted in the NMS.
5. Verify STREAMS device statuses return to OK.
6. Verify the CCTV image and control is functioning.
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12.5 Communications Link Testing (Layer 3)
Each switch sits on a redundant fibre optic ring has 2 independent paths to its neighbouring layer 3 node
switch and these tests are to test the alternate routing should the primary communications path fail.
12.5.1 Prerequisites
Ensure a layer 2 switch that is connected to the layer 3 switch under test has 1 STREAMS device and 1
CCTV camera connected and monitored.
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The tests performed at this stage are:-
Item Description Success Criteria Communications Link Failures Layer 3
Test the operation of the switch upon removing one Layer 3 fibre optic connection of the current routed Path. In the example remove the link in Segment A. Segment B should now become active.
1. Verify network reconverges and all switches are back in service in NMS.
2. Verify other switches in the network are not affected or reconverge.
3. Verify STREAMS device statuses reconverge.
4. Verify the CCTV image and control returns to OK.
Test the operation of the switch upon removing the 2nd Layer 3 fibre optic connection of the current routed Path. In the example remove the link in Segment B. (Segment B should have become active after step 1 above)
1. Verify the switch fails as noted in the NMS.
2. Verify L2 switches in the reconverge after a brief interruption in service.
3. Verify STREAMS device statuses return to OK.
4. Verify the CCTV image and control returns to OK.
Restore all Fibre Optic connections 1. Verify the restores to normal operation as noted in the NMS.
2. Verify the links return to service and that Segment B become the blocking link.
3. Verify STREAMS device statuses return to OK.
4. Verify the CCTV image and control is functioning.
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13 Test Cases PART B
13.1 CIRCUIT TESTS
L3-W134
Fluke Link
Runner
Fluke
MetroScope
Gateway
Router
L3 ITS Field
Router
Layer 2 Sub Network Switches
Circuit Tests Schematic
Figure 2 Circuit Tests Scenario
13.1.1 Throughput
Using the Fluke MetroScope the throughput between two endpoints will be measured. One endpoint
connected to a layer 2 switch in the midpoint of each of the 4 sub-networks will have the throughput test
completed between it and the gateway router with the results recorded. The throughput will be compared
to the expected values in the results.
Setup an endpoint on the midpoint switch and the MetroScope on the gateway router, then run the
Throughput tests for both TCP and UDP packets using packet sizes of 100 bytes and 1000bytes. 64, 128,
256, 512, 1024, 1280, 1518
This test may be repeated once connection to the TMC network is achieved.
13.1.2 Latency
Using the Fluke MetroScope the Round Trip Time (RTT) or latency between two endpoints will be
measured. One endpoint connected to a layer 2 switch in the midpoint in each of the 4 sub-networks will
have the RTT test completed between it and the gateway router with the results recorded. The RTT will be
compared to the expected values in the results.
Setup an endpoint computer on the midpoint switch and MetroScope on the gateway router, and run the
Response Time tests for both TCP and UDP packets with 10 iterations at a data size of 100bytes.
This test may be repeated once connection to the TMC network is achieved.
13.1.3 Jitter
From the above Latency test review the test results to compare the variance in response times. These
results will be captured in the test report sheets in Appendix A.
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13.2 ROUTING TESTS
Blocking Port
Break Link
Blocked Port
ReconvergesLink Disconnected
Figure 3 Routing Tests Scenario
13.2.1 VLAN
Ensure VLANs are configured on each port as per the design document. No Inter-VLAN routing has been
configured.
13.2.2 RSTP
Rapid Spanning Tree Protocol (RSTP) provides the mechanism for an alternate path for the layer 2
switches in the event of a path failure. Using the Moxa MXview application confirm that all switches are
present and all links operational and confirm the location of the blocked link. Fail an active link in the
selected network chain and confirm that
• The link shows failed
• The switches reconverge through the previously blocked link
• Capture and record the results via MXview Event/All export facility.
• Record Network Convergence Times through the MetroScope reports.
Restore the link and observe the reconvergence in MXview back to the Customeral state.
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13.2.3 OSPF Adjacencies
Using the MOXA MX View confirm that OSPF is configured correctly and review the OSPF Neighbour
Table Entries for each of the 4 Nodes.
13.2.4 TRAFFIC TESTS
13.2.5 Multicast
Confirm Multicast Filtering is enabled using IGMP snooping and that the Layer 3 switches are configured as
the querier.
Using Streaming Media Monitor test for Multicast streams on Channels 1 and 2.
The indicator lamp will show RED if the stream is in keep alive mode (about 2% bandwidth), YELLOW if the bandwidth has dropped below 80% of normal (indicates frozen or static image in streaming video), and GREEN if the bandwidth is normal, and DARK if no bandwidth is present. A Multicast Traffic Generator will inject into a switch port set for IGMP sufficient traffic to test the function and monitor the network response.
13.2.6 QoS
QoS will be tested using a Fluke Test Instrument and the result will be tabled directly from the unit into the
Report Sheets.
13.3 APPLICATION TESTS
13.3.1 DHCP & DNS
The Transmax Field Processors use DHCP to attain IP addresses and DNS name server settings.
Remove and restore the power from an FP and confirm the FP has received an IP address and name
server information. Use the following commands:-
IP Address - cat /etc/sysconfig/networking/ifcfg-eth0
DNS (name server) - cat /etc/sysconfig/network
Confirm that the FP has resolved the STREAMS server name and appears in the STREAMS explorer.
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13.3.2 NTP
NTP is used to synchronise all the network clocks and the operation can be confirmed from the Transmax
Field Processor.
Use the following command:-
ntpq –np
Confirm that the FP appears in STREAMS explorer and that the clock field is showing OK.
13.3.3 STREAMS
Confirm using the STREAMS workstation that:-
• all FPs have an IP address;
• all the FPs are available and in the OK state;
• that the clock state is OK;
• the correct package is installed.
13.4 MANAGEMENT TESTS
13.4.1 SNMP
SNMP monitoring is enabled through the MXView application which is used by the NMS to monitor the
network switches. At the time of writing there were no published Trap Server/s addresses, Authentication
or Encryption settings provided. Thus this test will be based on the availability of the network switches in
the MOXA MXview application.
13.4.2 Security
Ensure all switches have a password set as per the separately supplied details for username and
password.
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14 APPENDIX A TEST REPORT SHEET TEMPLATES
Test Report Sheets Templates are included for each generic Device Under Test (DUT). The reports will be printed out
separately and completed during the testing for later collection and verification. Copies will be scanned and
attached the QA system as project records.
Network Test Plan Motorway Upgrade - Motorway, Customer
Version 1.0 Page 24
For Contractor For Client
Inspector..............................................................................Date..................... Inspector..............................................................................Date.......................
Layer 2 Switch Physical Tests Report Sheet
Device Under Test Cabinet Results
12.0 Test Description Switch STREAMS CCTV Acc Rej N/A Comment Reject
Resolved Date
12.2 Prerequisites L2 Power
12.2a Test 1 – Remove PS1 Status unchanged
Devices unchanged
CCTV unchanged
12.2b Test 2 – Restore PS1 & Remove PS2
Status unchanged
STREAMS unchanged
CCTV unchanged
12.2c Test 3 – Remove PS1 & PS2 Downstream switch/es reconverge
Downstream Devices reconverge
Downstream CCTV reconverges
12.2d Restore PS1 & PS2 All status OK All status OK All status OK
12.3 Prerequisites L2 Comms
12.3a Comms Failure Test 1 – Remove L2 Link Upstream
Link Switch Downstream Devices reconverge
Downstream CCTV reconverges
Recon Recon
12.3b Comms Failure Test 2 – Remove L2 Link Downstream
Link Switch Downstream Devices reconverge
Downstream CCTV reconverges
Recon Recon
12.3c Comms Failure Test 3 – Remove both L2 Links
Link Switch Only non switch connected devices reconverge
Only non switch connected CCTV reconverge
Fail
12.3d Comms Failure Test 4 – Restore all L2 Links
All status OK All status OK All status OK
Network Test Plan Motorway Upgrade - Motorway, Customer
Version 1.0 Page 25
For Contractor For Client
Inspector..............................................................................Date..................... Inspector..............................................................................Date.......................
Layer 3 Switch Physical Tests Report Sheet
Device Under Test Cabinet Results
MIM767L301 W160 12.0 Test Description Switch STREAMS CCTV Acc Rej N/A Comment Reject
Resolved Date
12.4 Prerequisites L3 Power
12.4a Test 1 – Remove PS1 Status unchanged
Devices unchanged
CCTV unchanged
�
12.4b Test 2 – Restore PS1 & Remove PS2
Status unchanged
STREAMS unchanged
CCTV unchanged
�
12.4c Test 3 – Remove PS1 & PS2 L3 network reconverges
All devices reconverge
All CCTV reconverges
�
12.4d Restore PS1 & PS2 All status OK All status OK All status OK �
12.5 Prerequisites L3 Comms R=Recon F=Fail
12.5a Comms Failure Test 1 – Remove L3 Link Upstream
Link L3 L2 All Devices reconverge
All CCTV reconverges
�
Recon R R
12.5b Comms Failure Test 2 – Remove L3 Link Downstream
Link L3 L2 All Devices reconverge
All CCTV reconverges
�
Recon F R
12.5c Comms Failure Test 3 – Restore all L3 Links
All status OK All status OK All status OK �
Network Test Plan Motorway Upgrade - Motorway, Customer
Version 1.0 Page 26
For Contractor For Client
Inspector..............................................................................Date..................... Inspector..............................................................................Date.......................
Circuit Tests Report Sheet
Endpoints Results
13.0 Test Description 100 Bytes 1000 Bytes Expected
Value Acc Rej N/A Comment Reject
Resolved Date
13.1.1a Throughput TCP
13.1.1b Throughput UDP
100 Bytes (ms)
100 Bytes (ms)
Expected Value
13.1.2a Latency TCP
13.1.2b Latency UDP
% Variance (=H-L)
% Variance (=H-L)
Expected
13.1.3a Jitter TCP
13.1.3b Jitter UDP
Frame Size Frames Lost
13.1.3c Loss
Frame Size Bit Error Rate
13.1.3d BERT
Network Test Plan Motorway Upgrade - Motorway, Customer
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For Contractor For Client
Inspector..............................................................................Date..................... Inspector..............................................................................Date.......................
Routing Tests Report Sheet
Device Under Test Results
13.2 Test Description VLAN 500
(Mngmt vlan) VLAN 504 VLANs
501,502,503 Acc Rej N/A Comment Reject
Resolved Date
13.2.1 VLAN Switch Ports Switch Ports Trunked
2/1 2/2-2/8 1/1-1/2
13.2.2 RSTP Network Reconverge Y/N
Reconvergence time - link down
Reconvergence time – link up
Switch ID
Interface Name
IP address
13.2.3a OSPF
MIM755L301 OSPF1 10.1.1.1
MIM767L301 OSPF1 10.1.1.2
MIM781L301 OSPF1 10.1.1.3
MIM7 L301 OSPF1 10.1.1.4
Neighbour ID Address State
13.2.3b OSPF Neighbours MIM755L301
10.1.1.2 10.1.1.2 Full/Backup
10.1.1.3 10.1.1.3 2Way/DROther
10.1.1.4 10.1.1.4 Full/DR
Network Test Plan Motorway Upgrade - Motorway, Customer
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For Contractor For Client
Inspector..............................................................................Date..................... Inspector..............................................................................Date.......................
Traffic Tests Report Sheet
Device Under Test Results
..............................................................
13.2 Test Description Acc Rej N/A Comment Reject Resolved
Date
13.2.5 Multicast
Monitor for Multicast Traffic
Storm Protection
13.2.6 QoS
See results from Fluke Test Attached separately
Network Test Plan Motorway Upgrade - Motorway, Customer
Version 1.0 Page 29
For Contractor For Client
Inspector..............................................................................Date..................... Inspector..............................................................................Date.......................
Application Tests Report Sheet
Device Under Test Results
13.3
Test Description Field Processor IP Address Acc Rej N/A Comment Reject
Resolved Date
Application Query Used Result
13.3.1a DHCP address issued cat /etc/sysconfig/networking/ifcfg-eth0
13.3.1b DNS cat /etc/resolv.conf
13.3.2 NTP ntpq -np
13.3.3 STREAMS IP State Clock Pkg
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For Contractor For Client
Inspector..............................................................................Date..................... Inspector..............................................................................Date.......................
SNMP & Security Tests Report Sheet
Device Under Test Results
Full Networ 13.3
Test Description Result Y/N No of
Switches Acc Rej N/A Comment
Reject Resolved
Date
L3 L2
13.4.1a SNMP Switch availability in MXview
13.4.1b SNMP Settings correct
13.4.2 Security Password Audit L3 L2
Expected 4 30
Verified
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15 APPENDIX 2 TEST RESULTS
Completed test results and reports are to be attached in this section post completion of the works.
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Layer 2 Physical Tests
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Layer 3 Physical Tests
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Logical Tests – W199
Circuit Tests - Throughput, Latency, Frame Loss, Jitter and BERT
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Logical Tests – W153
Circuit Tests - Throughput, Latency, Frame Loss, Jitter and BERT
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Logical Tests – E196
Circuit Tests - Throughput, Latency, Frame Loss, Jitter and BERT
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Logical Tests – E161
Circuit Tests - Throughput, Latency, Frame Loss, Jitter and BERT
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Logical Tests – W199
Routing Tests – VLAN, RSTP and OSPF
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Logical Tests – W154
Routing Tests – VLAN, RSTP and OSPF
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Logical Tests – E167
Routing Tests – VLAN, RSTP and OSPF
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Logical Tests – E196
Routing Tests – VLAN, RSTP and OSPF
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Logical Tests – Convergence Times Summary
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Logical Tests – OSPF Neighbour Table
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Logical Tests
Traffic Tests – Multicast and QoS
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Logical Tests
Application Tests – DHCP, DNS, NTP and STREAMS
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Logical Tests
Security and SNMP
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16 APPENDIX 3 - 3rd Party Verification of Network