S5000T Test Proposal

Huawei OceanStor S5500T
Test Proposal
Huawei Technologies Co., Ltd.
2014-05
Copyright © Huawei Technologies Co., Ltd. 2014. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior
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and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other
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Notice
The information in this document is subject to change without notice. Every effort has been made in the
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Huawei Technologies Co., Ltd.
Address:
Huawei Industrial Base
Bantian, Longgang
Shenzhen 518129
People's Republic of China
Website:
http://enterprise.huawei.com
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Contents
About This Document ..................................................................................................................... 7
1 Test Environment .......................................................................................................................... 8
1.1 Test Network .................................................................................................................................................... 8
1.1.1 Basic Test Network Diagram .................................................................................................................. 8
1.1.2 FC/iSCSI Hybrid Test Network Diagram ............................................................................................... 9
1.1.3 Host Multipathing Test Network Diagram ............................................................................................ 10
1.1.4 Inter-Array Replication and Remote Replication Test Network Diagram............................................. 11
1.1.5 Performance Test Network Diagram ..................................................................................................... 12
1.2 Hardware and Software Configuration ........................................................................................................... 13
1.2.1 Storage System Configuration .............................................................................................................. 13
1.2.2 Delivery-Attached Hardware Configuration ......................................................................................... 13
1.2.3 Software and Tools ................................................................................................................................ 14
2 Test Methods ................................................................................................................................ 15
2.1 Test Categories ............................................................................................................................................... 15
2.2 Test Result Conventions ................................................................................................................................. 15
2.3 Test Case List ................................................................................................................................................. 15
3 Cases and Records ....................................................................................................................... 18
3.1 Basic Service Function Test ........................................................................................................................... 18
3.1.1 StoragePool and LUN Function Test..................................................................................................... 18
3.1.2 Online Capacity Expansion Function Test ............................................................................................ 21
3.1.3 Dual Controllers and Hybrid Network Test .......................................................................................... 23
3.1.4 Host Multipathing Function Test........................................................................................................... 25
3.2 Advanced Service Function Test .................................................................................................................... 26
3.2.1 Thin Provision ....................................................................................................................................... 26
3.2.2 SmartTier Function Test ........................................................................................................................ 27
3.2.3 SmartQoS Function Test ....................................................................................................................... 28
3.2.4 SmartMotion Function Test ................................................................................................................... 29
3.2.5 SmartPartition Function Test ................................................................................................................. 30
3.2.6 LUN Copy Function Test ...................................................................................................................... 31
3.2.7 Virtual Snapshot Function Test ............................................................................................................. 33
3.2.8 Remote Replication Function Test ........................................................................................................ 38
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3.2.9 HyperClone Function Test .................................................................................................................... 43
3.3 System Reliability Test ................................................................................................................................... 45
3.3.1 Redundancy Protection Test .................................................................................................................. 45
3.3.2 Offline Disk Roaming Test ................................................................................................................... 51
3.4 System Maintainability Test ........................................................................................................................... 52
3.4.1 Device Function Query Test.................................................................................................................. 52
3.4.2 System Management Test ..................................................................................................................... 54
3.5 System Performance Test ............................................................................................................................... 57
3.5.1 Read Performance Test ......................................................................................................................... 57
3.5.2 Write Performance Test ......................................................................................................................... 60
4 Test Result Analysis ................................................................................................................... 63
4.1 Basic Test Information ................................................................................................................................... 63
4.2 Test Result List ............................................................................................................................................... 63
4.3 Test Summary ................................................................................................................................................. 66
4.4 Result Confirmation ....................................................................................................................................... 66
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Figures
Figure 1-1 Basic test network diagram .................................................................................................................. 8
Figure 1-2 FC/iSCSI hybrid test network diagram ................................................................................................ 9
Figure 1-3 Host multipathing test network diagram ............................................................................................ 10
Figure 1-4 Inter-array replication and remote replication test network diagram ................................................. 11
Figure 1-5 Performance test network diagram .................................................................................................... 12
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Tables
Table 1-1 S5500T configuration .......................................................................................................................... 13
Table 1-2 Minimum hardware configuration ....................................................................................................... 13
Table 1-3 Recommended hardware configuration ............................................................................................... 14
Table 1-4 Software and tools ............................................................................................................................... 14
Table 2-1 List of test cases................................................................................................................................... 15
Table 4-1 Basic test information .......................................................................................................................... 63
Table 4-2 Test result list ....................................................................................................................................... 63
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About This Document
This document is intended for storage system engineers, storage test engineers, and other
professionals willing to learn about Huawei OceanStor S5500T storage system (the S5500T).
This document details the test methods of the S5500T, and aims to prove that the S5500T is
able to meet the storage requirement of XXX from the aspects of basic service function,
advanced service function, reliability, and maintainability. It also helps readers to better
understand the S5500T product features.
This document is written in Microsoft Office 2007.
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1
Test Environment
1.1 Test Network
1.1.1 Basic Test Network Diagram
Figure 1-1 Basic test network diagram
Ethernet Switch
PC Console
Server A
Server B
Ethernet
Fiber Channel
S5500T
Both Server A and Server B are test servers running Windows Server 2003 or Windows Server 2008.
console is a PC or laptop running Windows 7, XP or Vista. The Ethernet switch is a layer 2 or layer 3
switch.
For details on hardware requirements, see section 1.2.2 "Delivery-Attached Hardware Configuration".
The basic test network diagram is used to test the basic service functions, some advanced
service functions, reliability, and maintainability of the S5500T.
Server A is directly connected to controller A on the S5500T using optical fiber, and Server B
to controller B the same. Neither of the servers is running multipathing software.
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1.1.2 FC/iSCSI Hybrid Test Network Diagram
Figure 1-2 FC/iSCSI hybrid test network diagram
Ethernet Switch
PC Console
Server A
Server B
Ethernet
Fiber Channel
S5500T
Both Server A and Server B are test servers running Windows Server 2003 or Windows Server 2008.
The console is a PC or laptop running Windows 7, XP or Vista. The Ethernet switch is a layer 2 or layer
3 switch.
For details on hardware requirements, see section 1.2.2 "Delivery-Attached Hardware Configuration".
The FC/iSCSI hybrid test network diagram is used to test the hybrid network function of the
FC host ports and iSCSI host ports on the S5500T.
Server A is directly connected to the iSCSI host port module of controller A on the S5500T
using a Cat5 STP (or other cables supporting 1000BASE-T). Server B is directly connected to
the FC host port module of controller A on the S5500T using optical fiber.
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1.1.3 Host Multipathing Test Network Diagram
Figure 1-3 Host multipathing test network diagram
Ethernet Switch
Server A
PC Console
Ethernet
S5500T
Fiber Channel
Server A is a test server running Windows Server 2003 or Windows Server 2008. The console is a PC or
laptop running Windows 7,XP or Vista. The Ethernet switch is a layer 2 or layer 3 switch.
For details on hardware requirements, see section 1.2.2 "Delivery-Attached Hardware Configuration".
The host multipathing test network diagram is used to test the multipathing function of the
S5500T.
Server A is directly connected to controller A and controller B on the S5500T using optical
fiber. Server A is running a compatible multipathing software.
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1.1.4 Inter-Array Replication and Remote Replication Test
Network Diagram
Figure 1-4 Inter-array replication and remote replication test network diagram
Ethernet Switch
Server A
Server B
PC Console
FC switch
Ethernet
Fiber Channel
S5500T A
S5500T B
Both Server A and Server B are test servers running Windows Server 2003 or Windows Server 2008.
The console is a PC or laptop running Windows 7, XP or Vista. The Ethernet switch is a layer 2 or layer
3 switch.
For details on hardware requirements, see section 1.2.2 "Delivery-Attached Hardware Configuration".
The inter-array replication and remote replication diagram is used to test the replication and
remote replication function between the S5500T storage arrays.
Server A, Server B, S5500T A, and S5500T B are all connected to the FC switch and they are
in the same ZONE.
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1.1.5 Performance Test Network Diagram
Figure 1-5 Performance test network diagram
Ethernet Switch
PC Console
Server A
Server B
Server C
Server D
Ethernet
Fiber Channel
S5500T
Server A, Server B, Server C, and Server D are test servers running Windows Server 2003 or Windows
Server 2008. The console is a PC or laptop running Windows 7,XP or Vista. The Ethernet switch is a
layer 2 or layer 3 switch.
For details on hardware requirements, see section 1.2.2 "Delivery-Attached Hardware Configuration".
The performance test diagram is used to test the performance of the S5500T.
Server A and Server B are directly connected to controller A on the S5500T using optical fiber,
and Server C and Server D to controller B the same. None of the four servers is running
multipathing software.
.
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1.2 Hardware and Software Configuration
1.2.1 Storage System Configuration
Table 1-1 S5500T configuration
Name
Item
Quantity
S5500T controler
Huawei S5500T storage system
2
Disk enclosure
Huawei S5500T disk enclosure
4
FC front-end port
4*8Gbps FC front-end port
4
GE front-end port
4*1Gbps GE front-end port
4
SAS back-end port
2*6Gbps SAS back-end port
6
NL-SATA disk
2 TB 7200 rpm NL-SATA disk
24
SAS disk
600 GB 15,000 rpm SAS disk
60
SSD
200 GB Huawei SSD disk
12
This test requires two S5500T storage systems.
One S5500T storage system is used for the tests of basic service functions, advanced service functions,
system reliability, system maintainability, system security, system energy savings, system scalability, and
system performance, and is used as the primary storage for inter-array replication and remote replication.
The other S5500T storage system is used as the secondary storage for inter-array replication and remote
replication.
1.2.2 Delivery-Attached Hardware Configuration
Table 1-2 Minimum hardware configuration
Name
Item
Manufacturer
Quantity
Huawei/IBM/HP
/SUN/lenovo/Ins
pur/Dawning
4
X86 server
CPU is an Intel or AMD
dual-core server CPU.
Test server
Memory: 4 GB DDR2/DDR3
Available disk space: 40 GB
Two 8 Gbit/s or 4 Gbit/s FC
ports.
Two 1 Gbit/s RJ-45 port
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Name
Item
Manufacturer
Quantity
Huawei/IBM/HP
/SUN/lenovo/Ins
pur/Dawning
1
X86 desktop or laptop
CPU frequency > 1 GHz.
Console
Memory: 1 GB DDR2/DDR3.
Available disk space: 10 GB.
One 1 Gbit/s RJ-45 port
Brocade:
FC Switch
Cisco:
Sixteen 8 Gbit/s FC ports
1
Qlogic
Ethernet
switch
Eight 1000BASE-T ports
Optical fiber
5-m optical
connectors
fiber
with
Huawei
Cisco
SC
1
AMP
10
Manufacturer
Quantity
Huawei
4
Table 1-3 Recommended hardware configuration
Name
RH2285
Item
2 U X86 server
(with QLE2562 HBA inside)
D430
DELL laptop
DELL
1
200E
16-port FC switch
Brocade:
1
S5616
16-port Ethernet switch
Huawei
1
Optical fiber
5-m optical
connectors
AMP
10
fiber
with
SC
1.2.3 Software and Tools
Table 1-4 Software and tools
2014-05-29
Software Name
Item
Quantity
IOmeter
A performance test tool runs under Windows
or Linux. IOmeter is maintained by
Iometer.org.
1
iSCSI initiator
An iSCSI initiator runs under Windows.
1
SSH client software
A SSH tool for terminal connection.
1
Windows
server
2008 Enterprise R2
A server operating system released by
Microsoft
1
UltraPath
The multipathing software for the S5500T.
1
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2
Test Methods
2.1 Test Categories
The S5500T test items cover the basic service functions, advanced service functions,
reliability, maintainability, and performance. 
2.2 Test Result Conventions
The test result conventions that may be found in this document are defined as follows:

PASS: Based on the preset conditions and test steps, the actual test result is the same as
the expected result.

FAIL: Based on the preset conditions and test steps, the actual test result is different from
the expected result.

NT: The case has not been tested due to demand changes or test environment factors.
2.3 Test Case List
Table 2-1 List of test cases
Test
Category
Basic service
function test
2014-05-29
Case ID
Case Name
BF.01
RAID and LUN creating function test
BF.02
Hot spare and reconstruction function test
BF.03
Multi-tier storage pool function test
BF.04
Dynamic storage pool expansion function test
BF.05
Online LUN capacity expansion function test
BF.06
Active-active dual-controller function test
BF.07
FC/iSCSI hybrid network test
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Test
Category
Advanced
service
function test
System
reliability Test
System
maintainability
test
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Case ID
Case Name
BF.08
Host multipathing function test
AF.01
SmartThin function test
AF.02
Multi-tier storage pool test
AF.03
SmartQoS function test
AF.04
SmartMotion function test
AF.05
SmartPartition function test
AF.06
Full LUN copy function test
AF.07
Inter-array LUN copy function test
AF.08
Snapshot function test
AF.09
Snapshot copy function test
AF.10
Snapshot reactivate function test
AF.11
Snapshot rollback function test
AF.12
Snapshot LUN writability test
AF.13
Synchronous remote replication function test
AF.14
Asynchronous remote replication function test
AF.15
Remote replication master/slave switchover
function test
AF.16
Remote replication consistent group function test
AF.17
HyperClone function test
AF.18
Reverse clone synchronization function test
RB.01
Controller module fault test
RB.02
Expansion module fault test
RB.03
Expansion cable fault test
RB.04
Power supply module fault test
RB.05
BBU fault test
RB.06
Fan module fault test
RB.07
Offline disk roaming test
MB.01
Disk locating test
MB.02
Disk enclosure locating test
MB.03
Management board hot swapping function test
MB.04
System software power off test
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Test
Category
System
performance
test
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Case ID
Case Name
MB.05
Performance statistics function test
PF.01
Read IOPS test
PF.02
Read bandwidth test
PF.03
Write IOPS test
PF.04
Write bandwidth test
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3
Cases and Records
3.1 Basic Service Function Test
3.1.1 StoragePool and LUN Function Test
StoragePool and LUN creating function test
Case ID
BF.01
Objective
To verify that DiskDomain,StoragePool and LUNs can be
created
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
Remarks
2014-05-29
1. Log in to the ISM on the console.
2. Create a DiskDomain within 6 disks, keep other parameters
default.
3. Check if DiskDomain created successfully.
4. Create a storage pool and set the RAID level to 5. Keep
default settings for the other parameters of the storage pool.
5. Check whether the storage pool is successfully created on
the ISM.
6. Create a 10 GB LUN in the storage pool, and set controller
A as its owning controller. Keep default settings for the
other parameters.
7. Map the newly created LUN to a host, scan for the LUN on
the host, and run the IOmeter to access the LUN.
1. In step 3, the Diskdomain created successfully.
2. In step 4, the storage pool is successfully created.
3. In step 7, the LUN is detected by the host and can be
accessed normally
(Attached or test result descriptions)
PASS
FAIL
NT
The following RAID levels are supported: 0, 5, 6 and 10.
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Hot spare and reconstruction test
Case ID
BF.02
Objective
To verify the
DiskDomain.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
reconstruction
function
of
the
S5500T
1. The S5500T is running normally.
2. A six-disk DiskDomain is created. A storage pool whose
RAID level is 6 has been created on the S5500T. A 20 GB
LUN in the storage pool has been mapped to a host.
3. The LUN can be detected on the host and accessed using the
IOmeter.
1. Log in to the ISM on the console.
2. Remove a member disk from the DiskDomain. Query the
status of the storage pool on the ISM.
3. Two minutes later, check the status of the DiskDomain and
the progress of reconstruction on the ISM.
1. In step 2, the DIskDomain is in degraded state and an alarm
about the degraded storage pool is displayed on the ISM.
2. In step 3, the DiskDomain is in reconstruction state and the
hot spare space in the storage pool is used for the
reconstruction. In addition, after you choose Properties >
General > Task Progress, the reconstruction progress is
displayed.
(Attached or test result descriptions)
PASS
FAIL
NT
Remarks
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Multi-tier storage pool test
Case ID
BF.03
Objective
To verify that a multi-tier DiskDomain can be created on the
S5500T
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
1. Log in to the ISM on the console.
2. On the ISM, select four SSDs, six SAS disks, and eight
NL-SAS disks, and keep default settings for the other
parameters to create a three-tier DiskDomain named
DiskDomain1.
3. Create a storagepool named StoragePool1 with capacity of
three layers to be 100GB (high-performance layer), 200GB
(performance layer) and 300GB (capacity layer).
4. On the ISM, create four 10 GB LUNs, LUN 0, LUN1, LUN
2, and LUN 3. On the Advanced tab page, set Initial
capacity allocation policy of LUN 0, LUN1, LUN 2, and
LUN 3 to Automatic allocation, Allocate from the high
performance layer first, Allocate from the performance
layer first, and Allocate from the capacity layer first
respectively. Keep default settings for the other parameters.
5. Map LUN 0, LUN1, LUN 2, and LUN 3 to host A. Scan for
these LUNs on host A and use the IOmeter to access them.
1. In step 4, four LUNs on different layers are successfully
created.
2. In step 5, all LUNs can be detected on host A and accessed
using the IOmeter.
(Attached or test result descriptions)
PASS
FAIL
NT
Remarks
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3.1.2 Online Capacity Expansion Function Test
Dynamic storage pool expansion function test
Case ID
BF.04
Objective
To verify the dynamic expansion (DiskDomain, StoragePool)
function of the S5500T
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
1. Log in to the ISM on the console.
2. Use five SAS disks to create a DiskDomain named
DiskDomian1.
3. Created a storage pool named StoragePool1. Keep default
settings for the other parameters.
4. Use almost all available capacity of StoragePool 1 to create
LUN1.
5. Map LUN1 to host A. Scan for this LUN on host A and use
the IOmeter to access it.
6. On the ISM, select SAS disks and NL-SAS disks to expand
DiskDomain1.
7. Expand performance layer and capacity layer of
StoragePool1.
8. Create LUN 2 in the expanded StoragePool1.
9. Map LUN 2 to host B. Scan for this LUN on host B and use
the IOmeter to access it.
1. In step 6, services on LUN1 are not affected by the
expansion of DiskDomain1.
2. In step 7, services on LUN1 are not affected by the
expansion of StoragePool 1.
3. In step 9, LUN2 can be detected on host B and accessed
using the IOmeter.
(Attached or test result descriptions)
PASS
FAIL
NT
Remarks
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Online LUN capacity expansion function test
Case ID
BF.05
Objective
To verify the S5500T online capacity expansion function.
Test Network
Figure 2-1 Basic test network diagram
1.
Preset
Conditions
2.
1.
Test
Procedures
2.
3.
1.
2.
Expected
Results
3.
4.
The S5500T has a 5 GB LUN1 that is mapped to host A.
Host A has created an NTFS on LUN1, and LUN1 has been
formatted.
The IOmeter tool sends I/O requests to the NTFS on LUN1
persistently.
On the ISM, click the expand button, set the capacity of
LUN1 to 10GB.
After the capacity expansion succeeds, rescan for LUN1 on
host A. Check whether the capacity of LUN1 is the capacity
after expansion.
On host A, run the Diskpart tool to add the remaining
capacity of LUN1 to the file system.
In step 1, on the ISM, the capacity of LUN1 is expanded.
In step 2, host A detects that the capacity of LUN1 is 10
GB.
In step 3, the unpartitioned 5 GB capacity of LUN1 is
added to the NTFS partition of LUN1.
Throughout the test, the IOmeter reads and writes are
normal.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
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the Testing
Party
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Party
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3.1.3 Dual Controllers and Hybrid Network Test
Active-active dual-controller function test
Case ID
BF.06
Objective
To verify whether the S5500T dual controllers can work in
active state simultaneously.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
1.
2.
3.
Test
Procedures
4.
5.
Expected
Results
1.
2.
3.
Connect host A to controller A and host B to controller B of
the S5500T.
Create a RAID 5 group with six member disks. Keep the
rest settings default.
Create two 10 GB LUNs in the RAID group. Set the
owning controller of LUN1 to controller A and that of LUN
2 to controller B. Keep the rest setting default.
Map LUN1 to host A and LUN 2 to host B. Scan for the
LUNs from the two hosts, and run the IOmeter to
simultaneously read and write the detected LUN1 and LUN
2.
On the ISM, go to the Performance Monitoring page.
Check the traffic of the host ports that connect to the two
hosts.
In step 3, reads and writes to LUN1 and LUN 2 are normal.
In step 4, on the ISM, the owning controller of LUN1 is
controller A and that of LUN 2 is controller B.
In step 5, the two host ports have I/O traffic.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
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Party
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Party
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FC/iSCSI hybrid network test
Case ID
BF.07
Objective
To verify the S5500T FC/iSCSI hybrid network.
Test Network
Figure 2-2 FC/iSCSI hybrid network diagram
1.
Preset
Conditions
2.
1.
Test
Procedures
Expected
Results
2.
1.
2.
The network is an FC/iSCSI hybrid network. Host A
connects to the S5500T using FC, and host B connects to
the S5500T using iSCSI.
Two LUNs have been created on the S5500T. The owning
controller of LUN1 is controller A and that of LUN 2 is
controller B. The RAID group level and capacity can be
defined.
Map LUN1 to host A and LUN 2 to host B. Scan for the
LUNs from the two hosts, and run the IOmeter to
simultaneously read and write the detected LUN1 and LUN
2.
On the ISM, go to the Performance Monitoring page.
Check the traffic of the host ports that connect to the two
hosts.
In step 1, reads and writes to the LUN from the two hosts
are normal.
In step 2, the two LUNs have I/O traffic.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature of
the Testing
Party
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Party
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3.1.4 Host Multipathing Function Test
Host multipathing function test
Case ID
BF.08
Objective
To verify the host multipathing function on the S5500T.
Test Network
Figure 2-3 Host multipathing test network diagram
1.
2.
3.
Preset
Conditions
4.
1.
Test
Procedures
2.
1.
The S5500T is running normally.
The network is a multipathing network.
The host is running the UltraPath software. For the
compatibility mapping between the UltraPath software
versions and the host operation system versions, see the
UltraPath software compatibility list.
The S5500T has a RAID 5 group with six member disks.
The RAID group has a 5 GB LUN1 that is owned by
controller A and mapped to the host.
On the host, scan for LUN1, and run the IOmeter tool to
send I/O requests to LUN1. On the ISM, go to the
Performance Monitoring page and check the traffic of
LUN1.
Remove the optical fiber between the host and controller A
of the S5500T. On the host, check the IOmeter reads and
writes. On the ISM, check the owning controller change of
LUN1.
In step 1, the IOmeter reads and writes are normal. On the
Performance Monitoring page of the ISM, the host port
on controller A has I/O traffic but the host port on controller
B does not.
In step 2, the IOmeter has no error alarm. On the host, Use
the Ultrpath command to show the owning controller of
LUN1 is changed to controller B. On the Performance
Monitoring page of the ISM, the host port on controller B
has I/O traffic.
Expected
Results
2.
Actual Results
(Attached or test result descriptions)
Test
Conclusion
PASS
FAIL
NT
Remarks
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3.2 Advanced Service Function Test
3.2.1 Thin Provision
SmartThin function test
Case ID
AF.01
Objective
To verify the SmartThin function of the S5500T
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
1. Log in to the ISM on the console.
2. Create a 4 disk DiskDomain.
3. Create a storage pool and set the RAID level to 10. Set the
alarm threshold of the storage pool to 50%.
4. Create a thin LUN whose capacity is larger than available
capacity of the storage pool, and in the advanced page, set
the initial capacity of thin LUN.
5. Map the thin LUN to a host. Scan for the thin LUN on the
host and use the IOmeter to access it.
6. Check the alarm list on the ISM when data written into the
thin LUN occupies half of the total capacity of the storage
pool.
7. Check whether an alarm is generated indicating that the
remaining capacity of the storage pool is insufficient.
1. In step 3, the storage pool is successfully created.
2. In step 4, the thin LUN whose capacity is larger than
available capacity of the storage pool is successfully created.
3. In step 5, the capacity of the thin LUN detected on the host
is consistent with that of the thin LUN created in step 3.
4. In step 7, an alarm is generated indicating "The remaining
capacity of the storage pool is insufficient".
(Attached or test result descriptions)
PASS
FAIL
NT
Remarks
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3.2.2 SmartTier Function Test
SmartTier test
Case ID
AF.02
Objective
To verify the smartTier function test
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
Remarks
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1. Log in to the ISM on the console.
2. On the ISM, select four SSDs, six SAS disks, and eight
NL-SAS disks, on the service monitoring period page,start
I/O monitoring,and keep default settings for the others
parameters to create a three-tier storage pool named
StoragePool 1.
3. On the ISM, create four 50 GB LUNs, LUN 0, LUN1, LUN
2, and LUN 3.
4. On the Advanced tab page, set SmartTier Policy of LUN 0,
LUN1, LUN 2, and LUN 3 to Automatic allocation,
Allocate from the high performance layer first, Allocate
from the performance layer first, and Allocate from the
capacity layer first respectively. Keep default settings for
the other parameters.
5. Map LUN 0, LUN1, LUN 2, and LUN 3 to host A. Scan for
these LUNs on host A and use the IOmeter to access them.
6. On the SmartTier page of the ISM, Start the SmartTier
function and then set the data relocation time to relocate the
data.
7. Check diagrams following the SmartTier policy.
1. In step 3, Four LUNs with different SmartTier policy are
successfully created.
2. In step 4, all LUNs can be detected on host A and accessed
using the IOmeter.
3. In step 6, SmartTier was started successfully.
4. In step 7, the performance of LUN 0 and LUN1 had been
increased, the performance of LUN 2 had no change and the
performance of LUN 3 was decline
(Attached or test result descriptions)
PASS
FAIL
NT
Had better set the IOmeter read-write mode to 100 % random
and mix read-write
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3.2.3 SmartQoS Function Test
SmartQoS function test
Case ID
AF.03
Objective
To verify the SmartQoS function of the S5500T
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
In step 3, the IOPS of LUN1 is limited to half of the former
IOPS of LUN1.
Actual Results
(Attached or test result descriptions)
Test Conclusion
Remarks
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1. The S5500T is running normally.
2. The S5500T has two 10 GB LUNs, LUN1 and LUN 2,
which have been mapped to host A.
3. The real-time performance monitoring is enabled on the
ISM. In addition, sampling interval is set to 1 minute and
throughputs of all LUNs are being monitored.
4. Same access services are delivered to LUN1 and LUN 2 on
host A.
1. Obtain throughput statistics of LUN1 and LUN 2 using
real-time monitoring function.
2. On the SmartQoS page of the ISM, create a SmartQoS
policy that limits the maximum IOPS of LUN1 to half of the
former IOPS of LUN1.
3. Check diagrams following the SmartQoS policy.
PASS
FAIL
NT
To be more better show the function, the owning controller of
the two LUNs have better the same
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3.2.4 SmartMotion Function Test
SmartMotion Function Test
Case ID
AF.04
Objective
To verify the load balancing function of the S5500T after its
capacity is expanded
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
1. The S5500T is running normally.
2. A five-disk Diskdomain is created.
3. A storage pool whose RAID level is 5 has been created on
the S5500T. The storage pool has a 50 GB LUN that is
already mapped to a host.
4. The LUN can be detected on the host and accessed using the
IOmeter.
1. Stop the IOmeter after it has written data on the LUN for 10
minutes.
2. Log in to the ISM and choose Resource Allocation > Disk
Domain, select the DiskDomain and Right-click to choose
Expand. Check the running status of the storage pool.
3. Right-click the DiskDomain and choose Data Distribution
Status. Refresh on the ISM every 10 seconds and view the
capacity utilization of each disk.
1. In step 2, the running status of the DiskDomain is Load
Balancing on the ISM.
2. In step 3, the disk capacity utilization decreases before the
DiskDomain is expanded, whereas the disk capacity
utilization increases from zero after the DiskDomain is
expanded.
(Attached or test result descriptions)
PASS
FAIL
NT
Remarks
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3.2.5 SmartPartition Function Test
SmartPartition function test
Case ID
AF.05
Objective
To verify the S5500T SmartPartition function.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
1.
The S5500T is running normally.
2.
A five disk DiskDomain created.
1.
Login to ISM.
2.
Create a storage pool named StoragePool1 with capacity of
100GB.
3.
Created four LUNs named LUN0, LUN1, LUN2 and
LUN3with capacity to be 10GB.
4.
Create a SmartPartition on ISM and add the four LUNs to
it.
5.
Map the four LUNs to host A and access it.
1.
In step 4, SmartParition created successfully.
2.
In step 5, all LUNs can be accessed normally.
Test
Procedures
Expected
Results
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
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Party
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3.2.6 LUN Copy Function Test
Full LUN copy function test
Case ID
AF.06
Objective
To verify the S5500T full LUN copy function.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
The S5500T is running normally.
2.
The S5500T has a 10 GB LUN1 that is mapped to host A.
Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
1.
Create one 10 GB LUN 2 in a RAID group.
2.
On the ISM, create a full LUN copy. Set LUN1 as the
source LUN and LUN 2 as the target LUN.
3.
Start the full LUN copy.
4.
After the full LUN copy is complete, map LUN 2 to host B.
On host B, scan for disks and then check the contents on
LUN 2.
In step 4, host B can detect and access LUN 2. LUN 2 contains
three text files, A.txt, B.txt, and C.txt. The contents on these
files are the same as those on the corresponding text files on
LUN1.
Actual Results
Test
Conclusion
PASS
2014-05-29
NT
1.
When you perform a full LUN copy, the RAID groups
where the source LUN and target LUN reside can be in
Degrade state.
2.
Before you perform a full LUN copy, ensure that dirty data
on the host has been flushed to the S5500T.
Remarks
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Inter-array LUN copy function test
Case ID
AF.07
Objective
To verify the LUN copy function between two storage arrays.
Test Network
Figure 2-4 Inter-array replication and remote replication network
diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
Two S5500T storage arrays connect to the same FC switch
or reside on the same Santee two arrays are named as
S5500T_A and S5500T_B.
2.
The S5500T _A has a 10 GB LUN1 that is mapped to host
A. Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
1.
On the S5500T_B, create one 10 GB LUN 2 in a RAID
group.
2.
On the S5500T _A, create a full LUN copy. Set LUN1 on
the S5500T _A as the source LUN and LUN 2 on the
S5500T _B as the target LUN.
3.
Start the full LUN copy.
4.
After the full LUN copy is complete, map LUN 2 to host B.
On host B, scan for disks and then check the contents on
LUN 2.
In step 4, host B can detect and access LUN 2. LUN 2 contains
three text files, A.txt, B.txt, and C.txt. The contents on these
files are the same as those on the corresponding text files on
LUN1.
Actual Results
Test
Conclusion
PASS
2014-05-29
NT
1.
When you perform a full LUN copy, the RAID groups
where the source LUN and target LUN reside can be in
Degrade state.
2.
Before you perform a full LUN copy, ensure that dirty data
on the host has been flushed to the S5500T.
Remarks
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3.2.7 Virtual Snapshot Function Test
Snapshot function test
Case ID
AF.08
Objective
To verify the S5500T virtual snapshot function.
Test Network
Figure 2-1 Basic test network diagram
1.
The S5500T has a 10 GB LUN1 that is mapped to host A.
Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
2.
Resource pool A and resource pool B have one 2 GB
resource LUN respectively.
1.
Test
Procedures
On the ISM, create a virtual snapshot for LUN1. Name the
snapshot as LUN1-snapshot. Activate the snapshot.
2.
Delete A.txt from LUN1.
3.
Map LUN1-snapshot to host B. On host B, scan for disks
and check the contents on LUN1-snapshot.
Expected
Results
In step 3, LUN1-snapshot contains three text files, A.txt, B.txt,
and C.txt. The contents on these files are the same as those on
the corresponding files on LUN1 when the snapshot is activated.
Preset
Conditions
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
Before you perform a virtual snapshot, ensure that the dirty data
on the host has been flushed to the S5500T.
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Snapshot copy function test
Case ID
AF.09
Objective
To verify the S5500T snapshot copy function.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
The S5500T has a 10 GB LUN1 that is mapped to host A.
Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
1.
Create a snapshot for LUN1 named LUN1-snapshot and
activate it.
2.
Create a snapshot copy named LUN1-snapshot-copy for the
snapshot.
3.
Delete A.txt from LUN1.
4.
Map LUN-1snapshot-copy to host B and check the content.
In step 4, LUN1-snapshot-copy is detected and contains three
text files, A.txt, B.txt, and C.txt.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
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Party
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Snapshot reactivate function test
Case ID
AF.10
Objective
To verify the snapshot reactivate function.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
The S5500T has a 10 GB LUN1 that is mapped to host A.
Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
1.
On the ISM, create a virtual snapshot for LUN1. Name the
snapshot LUN1-snapshot. Activate the snapshot.
2.
Delete A.txt from LUN1.
3.
Reactivate LUN1-snapshot.
4.
Map LUN-1snapshotbak to host B and check the content.
1.
In step 4, LUN1-snapshotbak is detected and contains two
text files, B.txt, and C.txt.
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
Before you perform a virtual snapshot, ensure that the dirty data
on the host has been flushed to the S5500T.
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Snapshot rollback function test
Case ID
AF.11
Objective
To verify the S5500T snapshot rollback function.
Test Network
Figure 2-1 Basic test network diagram
5.
The S5500T has a 10 GB LUN1 that is mapped to host A.
Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
6.
A snapshot, LUN1-snapshot, has been created for LUN1
and activated.
7.
Delete A.txt from LUN1.
8.
Delete the mapping between LUN1 and host A.
9.
On the ISM, roll back the contents on LUN1 to those on
LUN1-snapshot.
Preset
Conditions
Test
Procedures
10. After the rollback is complete, map LUN1 to host A. On
host A, scan for disks and check the contents on LUN1.
Expected
Results
In step 4, LUN1 is detected and contains three text files, A.txt,
B.txt, and C.txt.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature of
the Testing
Party
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Snapshot LUN writability test
Case ID
AF.12
Objective
To verify the snapshot LUN writability.
Test Network
Figure 2-1 Basic test network diagram
2.
The S5500T has a 10 GB LUN1 that is mapped to host A.
Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
3.
Resource pool A and resource pool B have one 2 GB
resource LUN respectively.
5.
On the ISM, create a virtual snapshot for LUN1. Name the
snapshot LUN1-snapshot. Activate the snapshot.
6.
Map LUN1-snapshot to host B. On host B, scan for disks
and check the contents on LUN1-snapshot.
7.
On host B, write multiple files to LUN1-snapshot.
2.
In step 2, LUN1-snapshot contains three text files, A.txt,
B.txt, and C.txt. The contents on these files are the same as
those on the corresponding files on LUN1 when the
snapshot is activated.
3.
In step 3, files are successfully written to LUN1-snapshot.
Preset
Conditions
Test
Procedures
Expected
Results
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
Before you perform a virtual snapshot, ensure that the dirty data
on the host has been flushed to the S5500T.
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3.2.8 Remote Replication Function Test
Synchronous remote replication function test
Case ID
AF.13
Objective
To verify the synchronous remote replication function between
the S5500T storage arrays.
Test Network
Figure 2-4 Inter-array replication and remote replication network
diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
Two S5500T storage arrays connect to the same FC switch
or reside on the same Santee two arrays are named as
S5500T _A and S5500T _B.
2.
The S5500T _A has a 10 GB LUN1 that is mapped to host
A. Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
3.
The S5500T _B has a 10 GB LUN 2. LUN 2 has no
mapping or data.
1.
On the ISM, create a synchronous remote replication for
LUN1. Set the S5500T _B as the target device and LUN 2
as the target LUN. Keep the rest settings default.
2.
After the remote replication is created, start the initial
synchronization.
3.
During the synchronization process, on host A, write text
files, D.txt and E.txt, to LUN1.
4.
After the synchronous remote replication is complete,
create a snapshot, LUN2_snapshot1, for LUN 2. Map the
snapshot to host B. On host B, scan for disks and check the
contents on LUN2_snapshot1.
In step 4, LUN2_snapshot1 contains five files, A.txt, B.txt,
C.txt, D.txt, and E.txt.
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
Before you perform a virtual snapshot, ensure that the dirty data
on the host has been flushed to the S5500T.
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Asynchronous remote replication function test
Case ID
AF.14
Objective
To verify the asynchronous remote replication function between
the S5500T storage arrays.
Test Network
Figure 2-4 Inter-array replication and remote replication network
diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
Two S5500T storage arrays connect to the same FC switch
or reside on the same Santee two arrays are named as
S5500T _A and S5500T _B.
2.
The S5500T _A has a 10 GB LUN1 that is mapped to host
A. Host A has created an NTFS on LUN1. After LUN1 has
been formatted, three text files (A.txt, B.txt, and C.txt)
containing contents are written to it.
3.
The S5500T _B has a 10 GB LUN 2. LUN 2 has no
mapping or data.
1.
On the ISM, create an asynchronous remote replication for
LUN1. Set the S5500T_B as the target device and LUN 2
as the target LUN. Keep the rest settings default.
2.
After the creation, start the initial synchronization.
3.
During the synchronization process, on host A, write text
files, D.txt and E.txt, to LUN1.
4.
After the asynchronous remote replication is complete,
create a snapshot, LUN2_snapshot1, for LUN 2. Map the
snapshot to host B. On host B, scan for disks and check the
contents on LUN2_snapshot1.
5.
On the ISM, start the synchronization of the asynchronous
remote replication again.
6.
After the synchronization is complete, create a snapshot,
LUN2_snapshot2, for LUN 2. Map LUN2_snapshot2 to
host B, and check its contents.
1.
In step 4, LUN2_snapshot1 contains three files, A.txt,
B.txt, and C.txt.
2.
In step 6, LUN2_snapshot2 contains five files, A.txt, B.txt,
C.txt, D.txt, and E.txt.
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
I/O operations cannot be performed on the slave LUN of the
remote replication. To view the data on the slave LUN, create a
snapshot for the slave LUN and then view the snapshot data.
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Remote replication primary/secondary switchover function test
Case ID
AF.15
Objective
To verify the primary/secondary switchover for a remote
replication.
Test Network
Figure 2-4 Inter-array replication and remote replication network
diagram
1.
Two S5500T storage arrays connect to the same FC switch
or reside on the same Santee two arrays are named as
S5500T_A and S5500T_B.
2.
The S5500T_A has a 10 GB LUN1 that is mapped to host
A. Host A has created an NTFS on LUN1. After LUN1 has
been formatted, five text files (A.txt, B.txt, C.txt, D.txt,
and E.txt) containing contents are written to it.
3.
The S5500T_B has a 10 GB LUN 2.An asynchronous
remote replication is established between LUN1 and LUN
2. The name of the mirror pair is TESTMIRROR. LUN1 is
the master LUN and LUN 2 is the slave LUN.LUN1 and
LUN 2 have been initially synchronized.
1.
Log in to the S5500T_A on the ISM.
2.
Go to the Remote Replications page. Check the pair
information about TESTMIRROR.
3.
In the Status drop-down list, select Primary/Secondary
Switchover.
4.
After the switchover is complete, delete the mapping
between LUN1 and host A. Map LUN 2 to host B, and scan
for hard disks on host Bowie text files, F.txt and G.txt, to
LUN 2.
5.
Start the synchronization. After the synchronization is
complete, create a snapshot, LUN1_snapshot1, for LUN1.
Map LUN1_snapshot1 to host A, and check its contents.
1.
In step 3, the ISM prompts that the operation is successfully
performed, and LUN1 is displayed as the slave LUN.
2.
In step 5, LUN1_snapshot1 contains seven files, A.txt,
B.txt, C.txt, D.txt, E.txt, F.txt, and G.txt.
Preset
Conditions
Test
Procedures
Expected
Results
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
I/O operations cannot be performed on the slave LUN of the
remote replication. To view the data on the slave LUN, create a
snapshot for the slave LUN and then view the snapshot data.
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Remote replication consistent group function test
Case ID
AF.16
Objective
To verify the consistent group function for a remote replication
of the S5500T.
Test Network
Figure 2-4 Inter-array replication and remote replication network
diagram
Preset
Conditions
1.
Two S5500T storage arrays connect to the same FC switch
or reside on the same Santee two arrays are named as
S5500T_A and S5500T_B.
2.
The S5500T_A has three 10 GB LUNs, LUN1, LUN 2, and
LUN 3. The three LUNs are mapped to host A. Host A has
created an NTFS on each of the three LUNs. After the three
LUNs are formatted, three text files (A.txt, B.txt, and
C.txt) containing contents are written to them.
3.
The S5500T_B has three 10 GB LUNs, LUN 4, LUN 5, and
LUN 6. The three LUNs have no mapping or data.
1.
On the ISM, create asynchronous replications for LUN1,
LUN 2, and LUN 3. Select the S5500T_B as the target
device, and LUN 4, LUN 5, and LUN 6 as the target
LUNs.Keep the rest settings default.
2.
On the ISM, create a consistent group for the remote
replication. Add the three remote replications created in
step 1 to the consistent group.
3.
After the initial synchronization, create snapshots for LUN
4, LUN 5, and LUN 6 (LUN4_snapshot1,
LUN5_snapshot1, and LUN6_snapshot1). Map the
snapshots to host Boon host B, scan for hard disks, and
check the contents of the snapshots.
4.
On host A, write D.txt, E.txt, and F.txt respectively to
LUN1, LUN 2, and LUN 3.
5.
After the synchronization is complete, create snapshots for
LUN 4, LUN 5, and LUN 6 (LUN4_snapshot2,
LUN5_snapshot2, and LUN6_snapshot2). Map the
snapshots to host Boon host B, scan for hard disks, and
check the contents of the snapshots.
Test
Procedures
2014-05-29
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Expected
Results
1.
In step 3, LUN4_snapshot1 contains three files, A.txt,
B.txt, and C.txt.
2.
In step 3, LUN5_snapshot1 contains three files, A.txt,
B.txt, and C.txt.
3.
In step 3, LUN6_snapshot1 contains three files, A.txt,
B.txt, and C.txt.
4.
In step 5, LUN4_snapshot2 contains four files, A.txt, B.txt,
C.txt, and D.txt.
In step 5, LUN5_snapshot2 contains four files, A.txt, B.txt,
C.txt, and E.txt.
5.
6.
In step 5, LUN6_snapshot2 contains four files, A.txt, B.txt,
C.txt, and F.txt.
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
I/O operations cannot be performed on the slave LUN of the
remote replication. To view the data on the slave LUN, create a
snapshot for the slave LUN and then view the snapshot data.
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3.2.9 HyperClone Function Test
HyperClone function test
Case ID
AF.17
Objective
To verify the HyperClone function of the S5500T
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
1. The S5500T is running normally.
2. The S5500T has a 5 GB LUN named LUN1, which has been
mapped to host A.
3. The A.txt file has been written onto LUN1.
1. Create a 5 GB LUN 2 in any storage pool of the S5500T.
2. On the ISM, create a clone and set LUN1 as the primary
LUN and LUN 2 as the secondary LUN.
3. Write the B.txt file to LUN1 during the initial
synchronization of the clone.
4. After the initial synchronization of the clone is complete,
write the C.txt file to LUN1.
5. After the C.txt file is written to LUN1, perform
synchronization on the ISM.
6. Split clone pair.
7. Map LUN 2 to host B. Scan for LUN 2 on host B and check
contents on LUN 2.
In step 6, LUN 2 can be detected on host B and accessed
normally. Both LUN 2 and LUN1 contain the same files A.txt,
B.txt, and C.txt.
(Attached or test result descriptions)
PASS
FAIL
NT
Remarks
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Reverse clone synchronization function test
Case ID
AF.18
Objective
To verify the reverse clone synchronization function of the
S5500T
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
In step 7, LUN1 contains A.txt and C.txt and LUN 2 contains
only A.txt.
Actual Results
(Attached or test result descriptions)
Test Conclusion
Remarks
Signature of the
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1. The S5500T is running normally.
2. The S5500T has a 5 GB LUN named LUN1, which has been
mapped to host A.
3. The A.txt file has been written onto LUN1.
1. Create a 5 GB LUN 2 in any storage pool of the S5500T.
2. On the ISM, create a clone and set LUN1 as the primary
LUN and LUN 2 as the secondary LUN.
3. After the initial synchronization of the clone is complete,
manually split the clone on the ISM.
4. After the clone is split, write 500 MB B.txt onto LUN1.
5. Delete the mapping between two LUNs and host A.
6. Reverse the clone synchronization on the ISM, at the same
time, during synchronization, map the LUN1 to host A and
write C.txt into LUN1.
7. After the clone synchronization is reversed, map LUN 2 to a
host and check two LUNs contents.
PASS
FAIL
NT
Had better set the rate of synchronization to low or medium, this
will give a better operate.
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3.3 System Reliability Test
3.3.1 Redundancy Protection Test
Controller module fault test
Case ID
RB.01
Objective
To verify the S5500T operating status upon a controller failure.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally and both controllers are in
normal state.
Test
Procedures
Expected
Results
1.
Remove a controller. Check whether an alarm is generated.
2.
After three minutes, insert the controller that is removed
just now. Check whether the alarm is cleared and whether
the device status is recovered.
1.
In step 1, after the controller is removed, the other
controller is running normally. On the ISM, a controller
failure alarm is generated.
2.
In step 2, after the controller is inserted, the alarm is cleared
and the system recovers to the dual-controller state.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
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the Testing
Party
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Expansion module fault test
Case ID
RB.02
Objective
To verify the S5500T operating status upon an expansion
module failure.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
The S5500T controller enclosure connects to disk enclosure
A using dual links.
2.
A RAID group is created on the disk enclosure. A LUN
(LUN1) is created in the RAID group and mapped to a host.
1.
On the host, run the IOmeter to send I/O requests to LUN1.
2.
Remove an expansion module from disk enclosure A.
Check the system status on the ISM and IOmeter operating
status on the host.
3.
After three minutes, insert the expansion module. Check the
system status on the ISM and IOmeter operating status on
the host.
1.
In step 2, on the ISM, the status of hard disks in disk
enclosure A changes from normal to single-link. The host
accesses LUN1 normally.
2.
In step 3, on the ISM, the status of hard disks in disk
enclosure A changes from single-link to normal. The host
accesses LUN1 normally.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature
of
the
Testing
Party
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Expansion cable fault test
Case ID
RB.03
Objective
To verify the S5500T operating status upon an expansion cable
failure.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
The S5500T controller enclosure connects to disk enclosure
A using dual links.
2.
A RAID group is created on the disk enclosure. A LUN
(LUN1) is created in the RAID group and mapped to a host.
1.
On the host, run the IOmeter to send I/O requests to LUN1.
2.
Remove an expansion cable from disk enclosure A. Check
the system status on the ISM and IOmeter operating status
on the host.
3.
After three minutes, insert the expansion cable. Check the
system status on the ISM and IOmeter operating status on
the host.
1.
In step 2, on the ISM, the status of hard disks in disk
enclosure A changes from normal to single-link. The host
accesses LUN1 normally.
2.
In step 3, on the ISM, the status of hard disks in disk
enclosure A changes from single-link to normal. The host
accesses LUN1 normally.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature of
the Testing
Party
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the Tested
Party
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Power supply module fault test
Case ID
RB.04
Objective
To verify the S5500T operating status upon a power supply
module failure.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T has a RAID group, in which LUN1 is created.
LUN1 is mapped to the host.
Test
Procedures
Expected
Results
1.
On the host, run the IOmeter to send I/O requests to LUN1.
2.
Remove a power supply module A0 from the S5500T
controller A. Check the system status on the ISM and
IOmeter operating status on the host.
3.
Remove a power supply module B1 from the S5500T
controller B. Check the system status on the ISM and
IOmeter operating status on the host.
4.
After three minutes, insert the power supply modules.
Check the system status on the ISM and IOmeter operating
status on the host.
1.
In step 2, an alarm on the removal of the power supply
module A0 is generated on the ISM. The host accesses
LUN1 normally.
2.
In step 3, an alarm on the removal of the power supply
module B1 is generated on the ISM. The host accesses
LUN1 normally.
3.
In step 4, the alarms on the removal of the power supply
modules are cleared on the ISM. The host accesses LUN1
normally.
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
The controller enclosure of the S2600T has two power modules
for redundancy. The controller can work properly when only one
power module is running correctly.
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BBU fault test
Case ID
RB.05
Objective
To verify the S5500T operating status upon a BBU failure.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T has a RAID group, in which LUN1 is created.
LUN1 is mapped to the host.
Test
Procedures
Expected
Results
1.
On the host, run the IOmeter to send I/O requests to LUN1.
2.
Remove a BBU A0 from the S5500T controller enclosure.
Check the system status on the ISM and IOmeter operating
status on the host.
3.
After three minutes, insert the BBU. Check the system
status on the ISM and IOmeter operating status on the host.
1.
In step 2, an alarm on the removal of the BBU is generated
on the ISM. The host accesses LUN1 normally.
2.
In step 3, the alarms on the removal of the BBU is cleared
on the ISM. The host accesses LUN1 normally.
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
The BBU module and fan module of the S5500T are integrated.
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Fan module fault test
Case ID
RB.06
Objective
To verify the S5500T operating status upon a fan module failure.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T has a RAID group, in which LUN1 is created.
LUN1 is mapped to the host.
Test
Procedures
Expected
Results
1.
On the host, run the IOmeter to send I/O requests to LUN1.
2.
Remove a fan module A2 from the S5500T controller
enclosure. Check the system status on the ISM and IOmeter
operating status on the host.
3.
After three minutes, insert the fan module A2. Check the
system status on the ISM and IOmeter operating status on
the host.
1.
In step 2, an alarm on the removal of the BBU is generated
on the ISM. The host accesses LUN1 normally.
2.
In step 3, the alarms on the removal of the fan module is
cleared on the ISM. The host accesses LUN1 normally.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature of
the Testing
Party
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the Tested
Party
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3.3.2 Offline Disk Roaming Test
Offline disk roaming test
Case ID
RB.07
Objective
To verify the offline disk roaming function of the S5500T
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
Actual Results
Test Conclusion
Remarks
Signature of the
Testing Party
2014-05-29
1. The S5500T is running normally.
2. The S5500T has a multi-tier storage pool and the storage
pool contains a 5 GB LUN named LUN1.
3. LUN1 is mapped to server A and can be detected on the
host.
1. Power off the S5500T on the ISM.
2. Remove a member disk from the storage pool and insert the
disk to a slot on the S5500T disk enclosure.
3. Power on the S5500T.
4. After the S5500T is powered on, check the statuses of the
storage pool and LUNs and deliver I/Os to LUN 2 on server
A.
1. In step 1, the S5500T is successfully powered off.
2. In step 4, the S5500T is successfully powered on. The
statuses of the storage pool and LUNs are normal. LUN1
can be accessed from server A.
(Attached or test result descriptions)
PASS
FAIL
NT
Roaming is available for coffer disks in slots 0, 1, 2, and 3.
Coffer disks cannot be inserted to other disk slots.
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3.4 System Maintainability Test
3.4.1 Device Function Query Test
Disk locating test
Case ID
MB.01
Objective
To verify the S5500T function alocate a hard disk.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
1.
Test
Procedures
On the ISM, choose Device Info > Disks. Select a hard disk
from the list in the right function pane.
2.
Select Locate Disk above the list. View the indicator of the
selected hard disk on the S5500T disk enclosure.
Expected
Results
In step 2, the indicator of the hard disk selected on the ISM is
blinking in red. The disk slot is the same as the selected slot on
the ISM.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature of
the Testing
Party
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the Tested
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Disk enclosure locating test
Case ID
MB.02
Objective
To verify whether the enclosure ID displayed on the enclosure is
the same as that on the ISM.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
1.
Test
Procedures
On the Device Info page of the ISM, check the IDs of the
controller enclosure and disk enclosures.
2.
View the enclosure IDs displayed on the enclosures. Check
whether the IDs are the same as those on the ISM.
Expected
Results
In step 2, the enclosure IDs displayed on the enclosures are the
same as those on the ISM.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature of
the Testing
Party
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Party
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3.4.2 System Management Test
Controller board hot swapping function test
Case ID
MB.03
Objective
To verify the S5500T controller board hot swapping function.
Test Network
Figure 1-3 Host multipathing test network diagram
Preset
Conditions
Test
Procedures
Expected
Results
1.
The S5500T is running normally.
2.
The S5500T has two 10 GB LUNs (LUN1 and LUN 2) that
are mapped to host A.
3.
Run the IOmeter on host A to access LUN1 and LUN 2.
1.
Log in the ISM with the IP address of controller board B.
2.
Remove the controller board B. Check the I/O application
status on host A.
3.
Replace controller board B with a new controller board. On
the ISM, view the system status.
4.
Log in to the ISM with the original IP address of controller
board B.
1.
In step 2, on the ISM, a corresponding alarm is generated,
and the I/O application status is normal.
2.
In step 3, the alarm is cleared on the ISM.
3.
In step 3, the ISM can be logged in to with the original IP
address of controller board B.
Actual Results
Test
Conclusion
Remarks
Signature of
the Testing
Party
2014-05-29
PASS
FAIL
NT
The IP address of the new controller board is the same as that of
the original controller board A.
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System software power off test
Case ID
MB.04
Objective
To verify the system software power off function.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
The S5500T is running normally.
Test
Procedures
Expected
Results
1.
On the ISM, choose System Settings > Power Off System.
2.
Check whether the system is powered off normally.
3.
Press the Power On button on the S5500T.
1.
In step 2, the system is powered off.
2.
In step 3, the system is powered on.
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature of
the Testing
Party
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the Tested
Party
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Performance statistics function test
Case ID
MB.05
Objective
To verify the S5500T performance statistics function.
Test Network
Figure 2-1 Basic test network diagram
Preset
Conditions
1.
The S5500T is running normally.
2.
The performance statistics function is enabled.
1.
Log in to the ISM.
2.
Create a RAID group and then allocate a 10 GB LUN to the
RAID group. Keep the rest setting default.
3.
Map the newly created 10 GB LUN to a host, scan for the
LUN on the host, and run the IOmeter to access the LUN.
4.
Make LUN performance statistics on the ISM interface, and
view the statistics result.
1.
In step 3, the host I/O applications are normal.
2.
In step 4, the performance statistics curve meets the actual
situation.
Test
Procedures
Expected
Results
Actual Results
Test
Conclusion
PASS
FAIL
NT
Remarks
Signature of
the Testing
Party
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the Tested
Party
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3.5 System Performance Test
3.5.1 Read Performance Test
Read IOPS test
Case ID
PF.01
Objective
To verify the S5500T read IOPS.
Test Network
Figure 2-6 Performance test network diagram
Preset
Conditions
1.
The S5500T is in the performance test diagram.
2.
Each host is running the IOmeter software. All hosts reside
on the same LAN.
1.
Create four DisDomains, each contains six disks.
2.
Create four RAID 5 groups. Name the four RAID groups
RG1, RG2, RG3, and RG4.Create two 50 MB LUNs in
each RAID group, and name the eight LUNs RG1-1,
RG1-2, RG2-1, RG2-2, RG3-1, RG3-2, RG 4-1, and
RG4-2. Set the cache write policy to write back and not
mirroring. Keep the rest settings default.
3.
Specify controller A as the owning controller of RG1-1,
RG1-2, RG2-1, and RG2-2, and specify controller B as the
owning controller of RG3-1, RG3-2, RG4-1, and RG4-2.
4.
Map RG1-1 and RG2-1 to host A, RG1-2 and RG2-1 to
host B, RG3-1 and RG4-1 to host C, and RG3-2 and RG4-2
to host D.
5.
Scan for LUNs on the hosts. Set host A as the controlling
end and host B, host C, and host D as the controlled ends.
Run the dynamo -i primary control end IP address –m
local IP address command on the cmd of each controlled
end to connect the controlled ends to the controlling end.
6.
Set the IOmeter parameters on the controlling end and send
512 Bytes I/O requests to the eight LUNs simultaneously.
Test
Procedures
Expected
Results
The actual test result prevails.
Actual Results
Test
Conclusion
PASS
FAIL
NT
The parameters of the IOmeter are set as follows:
Remarks
Workers: 4 Outstanding: 64 Data size: 512B Read%: 100
Sequence%: 100
2014-05-29
Test time: 10 minutes
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Read bandwidth test
Case ID
PF.02
Objective
To verify the S5500T read bandwidth.
Test Network
Figure 2-6 Performance test network diagram
Preset
Conditions
1.
The S5500T is in the performance test diagram.
2.
Each host is running the IOmeter software. All hosts reside
on the same LAN.
1.
Create four DisDomains, each contains six disks.
2.
Create four RAID 5 groups. Name the four RAID groups
RG1, RG2, RG3, and RG4.Create two 50 MB LUNs in
each RAID group, and name the eight LUNs RG1-1,
RG1-2, RG2-1, RG2-2, RG3-1, RG3-2, RG 4-1, and
RG4-2. Set the cache write policy to write back and not
mirroring. Keep the rest settings default.
3.
Specify controller A as the owning controller of RG1-1,
RG1-2, RG2-1, and RG2-2, and specify controller B as the
owning controller of RG3-1, RG3-2, RG4-1, and RG4-2.
4.
Map RG1-1 and RG2-1 to host A, RG1-2 and RG2-1 to
host B, RG3-1 and RG4-1 to host C, and RG3-2 and RG4-2
to host D.
5.
Scan for LUNs on the hosts. Set host A as the controlling
end and host B, host C, and host D as the controlled ends.
Run the dynamo -i primary control end IP address –m
local IP address command on the cmd of each controlled
end to connect the controlled ends to the controlling end.
6.
Set the IOmeter parameters on the controlling end and send
256 KB I/O requests to the eight LUNs simultaneously.
Test
Procedures
Expected
Results
The actual test result prevails.
Actual Results
Test
Conclusion
PASS
FAIL
NT
The parameters of the IOmeter are set as follows:
Remarks
Workers: 4 Outstanding: 64 Data size: 256KB Read%: 100
Sequence%: 100 Test time: 10 minutes
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3.5.2 Write Performance Test
Write IOPS test
Case ID
PF.03
Objective
To verify the S5500T write IOPS.
Test Network
Figure 2-6 Performance test network diagram
Preset
Conditions
1.
The S5500T is in the performance test diagram.
2.
Each host is running the IOmeter software. All hosts reside
on the same LAN.
1.
Create four DisDomains, each contains six disks.
2.
Create four RAID 5 groups. Name the four RAID groups
RG1, RG2, RG3, and RG4.Create two 50 MB LUNs in
each RAID group, and name the eight LUNs RG1-1,
RG1-2, RG2-1, RG2-2, RG3-1, RG3-2, RG 4-1, and
RG4-2. Set the cache write policy to write back and not
mirroring. Keep the rest settings default.
3.
Specify controller A as the owning controller of RG1-1,
RG1-2, RG2-1, and RG2-2, and specify controller B as the
owning controller of RG3-1, RG3-2, RG4-1, and RG4-2.
4.
Map RG1-1 and RG2-1 to host A, RG1-2 and RG2-1 to
host B, RG3-1 and RG4-1 to host C, and RG3-2 and RG4-2
to host D.
5.
Scan for LUNs on the hosts. Set host A as the controlling
end and host B, host C, and host D as the controlled ends.
Run the dynamo -i primary control end IP address –m
local IP address command on the cmd of each controlled
end to connect the controlled ends to the controlling end.
6.
Set the IOmeter parameters on the controlling end and send
256 KB I/O requests to the eight LUNs simultaneously.
Test
Procedures
Expected
Results
The actual test result prevails.
Actual Results
Test
Conclusion
PASS
FAIL
NT
The parameters of the IOmeter are set as follows:
Remarks
Workers: 4 Outstanding: 64 Data size: 512B Read%: 0
Sequence%: 100 Test time: 10 minutes
Signature of
the Testing
Party
2014-05-29
Signature of
the Tested
Party
Huawei Confidential
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Write bandwidth test
Case ID
PF.04
Objective
To verify the S5500T write bandwidth.
Test Network
Figure 2-6 Performance test network diagram
Preset
Conditions
1.
The S5500T is in the performance test diagram.
2.
Each host is running the IOmeter software. All hosts reside
on the same LAN.
1.
Create four DisDomains, each contains six disks.
2.
Create four RAID 5 groups. Name the four RAID groups
RG1, RG2, RG3, and RG4.Create two 50 MB LUNs in
each RAID group, and name the eight LUNs RG1-1,
RG1-2, RG2-1, RG2-2, RG3-1, RG3-2, RG 4-1, and
RG4-2. Set the cache write policy to write back and not
mirroring. Keep the rest settings default.
3.
Specify controller A as the owning controller of RG1-1,
RG1-2, RG2-1, and RG2-2, and specify controller B as the
owning controller of RG3-1, RG3-2, RG4-1, and RG4-2.
4.
Map RG1-1 and RG2-1 to host A, RG1-2 and RG2-1 to
host B, RG3-1 and RG4-1 to host C, and RG3-2 and RG4-2
to host D.
5.
Scan for LUNs on the hosts. Set host A as the controlling
end and host B, host C, and host D as the controlled ends.
Run the dynamo -i primary control end IP address –m
local IP address command on the cmd of each controlled
end to connect the controlled ends to the controlling end.
6.
Set the IOmeter parameters on the controlling end and send
256 KB I/O requests to the eight LUNs simultaneously.
Test
Procedures
Expected
Results
The actual test result prevails.
Actual Results
Test
Conclusion
PASS
FAIL
NT
The parameters of the IOmeter are set as follows:
Remarks
Workers: 4 Outstanding: 64 Data size: 256KB Read%: 0
Sequence%: 100 Test time: 10 minutes
Signature of
the Testing
Party
2014-05-29
Signature of
the Tested
Party
Huawei Confidential
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Huawei OceanStor S5500T V2R2C00 Test Proposal
Huawei Confidential
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Huawei OceanStor S5500T V2R2C00 Test Proposal
4
Test Result Analysis
4.1 Basic Test Information
Table 4-1 Basic test information
Device Manufacturer
Huawei Technologies Co., Ltd.
Device Model
OceanStor S5500T
Test Location
Test Staff
Test Date
Other Information
4.2 Test Result List
Table 4-2 Test result list
Test
Category
SAN basic
service
function
test
2014-05-29
Case ID
Case Name
BF.01
RAID and LUN creating
function test
PASS
FAIL
NT
BF.02
Hot spare and
reconstruction function test
PASS
FAIL
NT
BF.03
Multi-tier storage pool
function test
PASS
FAIL
NT
BF.04
Dynamic storage pool
expansion function test
PASS
FAIL
NT
BF.05
Online LUN capacity
expansion function test
PASS
FAIL
NT
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Test Result
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Test
Category
Advanced
service
function
test
2014-05-29
Case ID
Case Name
Active-active
dual-controller function
test
PASS
FAIL
NT
BF.06
BF.07
FC/iSCSI hybrid network
test
PASS
FAIL
NT
BF.08
Host multipathing function
test
PASS
FAIL
NT
AF.01
SmartThin function test
PASS
FAIL
NT
AF.02
Multi-tier storage pool test
PASS
FAIL
NT
AF.03
SmartQoS function test
PASS
FAIL
NT
AF.04
SmartMotion function test
PASS
FAIL
NT
AF.05
Full LUN copy function
test
PASS
FAIL
NT
AF.06
Inter-array LUN copy
function test
PASS
FAIL
NT
AF.07
Snapshot function test
PASS
FAIL
NT
AF.08
Snapshot copy function test
PASS
FAIL
NT
AF.09
Snapshot reactivate
function test
PASS
FAIL
NT
AF.10
Snapshot rollback function
test
PASS
FAIL
NT
AF.11
Snapshot LUN writability
test
PASS
FAIL
NT
AF.12
Synchronous remote
replication function test
PASS
FAIL
NT
AF.13
Asynchronous remote
replication function test
PASS
FAIL
NT
Remote replication
master/slave switchover
function test
PASS
FAIL
NT
AF.14
Remote replication
consistent group function
test
PASS
FAIL
NT
AF.15
AF.16
HyperClone function test
PASS
FAIL
NT
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Test Result
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Test
Category
System
reliability
Test
System
maintaina
bility test
System
performan
ce test
2014-05-29
Case ID
Case Name
Reverse clone
synchronization function
test
PASS
FAIL
NT
AF.17
AF.18
Snapshot rollback function
test
PASS
FAIL
NT
RB.01
Controller module fault test
PASS
FAIL
NT
RB.02
Expansion module fault
test
PASS
FAIL
NT
RB.03
Expansion cable fault test
PASS
FAIL
NT
RB.04
Power supply module fault
test
PASS
FAIL
NT
RB.05
BBU fault test
PASS
FAIL
NT
RB.06
Fan module fault test
PASS
FAIL
NT
RB.07
Offline disk roaming test
PASS
FAIL
NT
MB.01
Disk locating test
PASS
FAIL
NT
MB.02
Disk enclosure locating test
PASS
FAIL
NT
MB.03
Controller board hot
swapping function test
PASS
FAIL
NT
MB.04
System software power off
test
PASS
FAIL
NT
MB.05
Performance statistics
function test
PASS
FAIL
NT
PF.01
Read IOPS test
PASS
FAIL
NT
PF.02
Read bandwidth test
PASS
FAIL
NT
PF.03
Write IOPS test
PASS
FAIL
NT
PF.04
Write bandwidth test
PASS
FAIL
NT
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Test Result
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4.3 Test Summary
4.4 Result Confirmation
Testing party:
Tested party:
(xxxxxxxxx)
Huawei Technologies Co., Ltd.
Signature of the Testing Party:
Signature of the Tested Party:
Date:
Date:
2014-05-29
Huawei Confidential
Page 66 of 66
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