CN113992536A - Server testing method - Google Patents

Server testing method Download PDF

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Publication number
CN113992536A
CN113992536A CN202010662783.5A CN202010662783A CN113992536A CN 113992536 A CN113992536 A CN 113992536A CN 202010662783 A CN202010662783 A CN 202010662783A CN 113992536 A CN113992536 A CN 113992536A
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server
tested
test
testing
port
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CN202010662783.5A
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CN113992536B (en
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根志平
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Mitac Computer Shunde Ltd
Mitac Computing Technology Corp
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Mitac Computer Shunde Ltd
Mitac Computing Technology Corp
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L43/00Arrangements for monitoring or testing data switching networks
    • H04L43/08Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters
    • H04L43/0805Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters by checking availability
    • H04L43/0817Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters by checking availability by checking functioning
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F11/00Error detection; Error correction; Monitoring
    • G06F11/22Detection or location of defective computer hardware by testing during standby operation or during idle time, e.g. start-up testing
    • G06F11/2273Test methods
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L43/00Arrangements for monitoring or testing data switching networks
    • H04L43/50Testing arrangements
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D10/00Energy efficient computing, e.g. low power processors, power management or thermal management

Abstract

A server test method includes a receiving and comparing step, a testing device for judging the link needed by each port by a switching device comparing the media access control address received by each port, a judging and linking step, when the switching device judges that the first testing device needs to be linked, the switching device links the port corresponding to the media access control address to a first testing device, and when the switching device judges that the second testing device needs to be linked, the switching device links the port corresponding to the media access control address to a second testing device, and a test instruction transmitting step, the first testing device transmits a first test instruction to each first server device to be tested through the switching device for testing, the second testing device transmits a second test instruction to the second server device to be tested through the switching device for testing, the testing operation of the server devices to be tested of different models can be synchronously performed.

Description

Server testing method
Technical Field
The present invention relates to a testing method, and more particularly, to a server testing method.
Background
In recent years, servers have been widely used and developed, and before being shipped from a factory, the servers need to be tested and verified to ensure their functionality and stability. Generally, a common Test method is to connect a Server Unit Under Test (UUT) to be tested to a Test Server through a network for testing, and tests required for the Server units under Test of different models are different, so that each model of Server Unit under Test needs to be connected to a corresponding Test machine for testing.
In a factory test, a plurality of types of server units to be tested are often tested, so that the server unit to be tested of each type and a corresponding testing machine are required to be tested by performing independent network connection. However, the server units to be tested that are required to be tested are various, and often, a user needs to establish a hardware device system with an independent network online architecture between the server unit to be tested of each model and the testing machine corresponding to the server unit to be tested, which not only wastes time and labor, but also occupies a certain space, and indirectly affects the usage space and production line in a factory, causing inconvenience and trouble for the user, and greatly requiring research, discussion and improvement by a practitioner.
Disclosure of Invention
The technical problem to be solved by the invention is to provide a server testing method suitable for testing various server devices to be tested.
In order to solve the above technical problems, the server testing method of the present invention is applied to a server testing system. The server test system comprises a first test device, a second test device, a plurality of first server devices to be tested, a plurality of second server devices to be tested and an exchange device. The switching device links the first testing device, the second testing device, the first server device to be tested and the second server device to be tested. And the switching device is provided with a plurality of ports for linking the first server device to be tested and the second server device to be tested. The server testing method comprises an initial transmission step, a receiving and comparing step, a judging and linking step, a testing instruction transmission step and a testing step.
In the initial transmission step, each first server device under test and each second server device under test respectively transmit a corresponding MAC address to the switch device through the corresponding port.
In the receiving and comparing step, when the exchange device receives the MAC address received by each port through each port, the exchange device compares each received MAC address through a preset test table built in to judge the testing device required to be linked by each MAC address.
In the step of determining the link, when the switching device determines that the received mac address needs to be linked to the first testing device, the switching device links the port corresponding to the mac address to the first testing device, and when the switching device determines that the received mac address needs to be linked to the second testing device, the switching device links the port corresponding to the mac address to the second testing device.
In the test instruction transmitting step, when the first testing device is linked to the port of each first server device to be tested in the switching device, the first testing device transmits a first test instruction to each first server device to be tested through the port of each first server device to be tested in the switching device, and when the second testing device is linked to the port of each second server device to be tested in the switching device, the second testing device transmits a second test instruction to the second server device to be tested through the port of each second server device to be tested in the switching device.
In the testing step, each first server device to be tested executes the first testing instruction and transmits the executed testing data back to the first testing device through the corresponding port; each second server device to be tested executes the second test instruction and transmits the executed test data back to the second test device through the corresponding port.
Compared with the prior art, the invention judges the testing device to be linked by comparing each received media access control address through the preset test table by the exchange device in the receiving and comparing step, and matches with the judging and linking step and the test instruction transmitting step, when the exchange device judges that the first testing device needs to be linked, the exchange device links the port corresponding to the media access control address to the first testing device, and the first testing device transmits the first test instruction to each first server device to be tested through the exchange device for testing, when the exchange device judges that the second testing device needs to be linked, the exchange device links the port corresponding to the media access control address to the second testing device, and the second testing device transmits the second test instruction to the second server device to be tested through the exchange device for testing, the testing operation of the first server device to be tested and the second server device to be tested of different models can be synchronously performed, an independent network testing framework is not required to be additionally constructed, the time and the labor are effectively saved, and the testing efficiency is improved.
[ description of the drawings ]
Other features and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments with reference to the accompanying drawings, in which:
FIG. 1 is a block diagram illustrating a server testing system to which embodiments of the server testing method of the present invention are applied; and
FIG. 2 is a flow chart illustrating the steps of the embodiment.
[ detailed description ] embodiments
Before the present invention is described in detail, it should be noted that in the following description, similar components are denoted by the same reference numerals.
Referring to fig. 1 and fig. 2, the embodiment of the server testing method of the present invention is applied to a server testing system 1. The server test system 1 includes a first test apparatus 11, a second test apparatus 12, a plurality of first server apparatuses under test 13(UUT), a plurality of second server apparatuses under test 14(UUT), and a Switch apparatus 15 (Switch). The switching device 15 links the first testing device 11, the second testing device 12, the first server device under test 13 and the second server device under test 14. The switching device 15 has a plurality of ports 151 for linking the first device under test 13 with the second device under test 14. The server testing method comprises an initial transmission step 2, a receiving comparison step 3, a judgment connection step 4, a test instruction transmission step 5, a test step 6 and a completion step 7.
First, in the initial transmission step 2, each first dut 13 and each second dut 14 respectively transmit a corresponding media access control Address (MAC Address) to the switch device 15 through the corresponding port 151. Next, in the receiving and comparing step 3, when the switching device 15 receives the mac address received by each port 151 through each port 151, the switching device 15 compares each received mac address through a predetermined test table built in the switching device 15 to determine the testing device to be linked to each mac address. That is, when the first dut 13 and the second dut 12 start to be linked to the port 151 of the switch device 15, each first dut 13 and each second dut 14 will transmit a corresponding MAC Address (MAC Address), and the switch device 15 compares each MAC Address received through the predetermined test table to determine the testing device to which each MAC Address needs to be linked. In short, the switching device 15 determines that each mac address corresponds to the first dut 13 or the second dut 14 according to the mac address received by each port 151. In this embodiment, the first six codes of the mac address of each first dut 13 are the same codes, the first six codes of the mac address of each second dut 14 are the same codes, the predetermined test table of the switching device 15 records the first six codes corresponding to the mac address of the first server device under test 13 and the first six codes corresponding to the mac address of the second server device under test 14, therefore, in the receiving and comparing step 3, the switching device 15 compares the first six codes of each mac address received through the contents of the predetermined test table to determine whether each mac address corresponds to the first dut 13 or the second dut 14, and further determines whether the testing device to be linked is the first testing device 11 or the second testing device 12.
Then, in the connection determining step 4, when the switching device 15 determines that the received mac address needs to be linked to the first testing device 11, the switching device 15 indicates that the to-be-tested server device to be tested is one of the first to-be-tested server devices 13, the switching device 15 links the port 151 corresponding to the mac address to the first testing device 11, and when the switching device 15 determines that the received mac address needs to be linked to the second testing device 12, the switching device 15 indicates that the to-be-tested server device to be tested is one of the second to-be-tested server devices 14, and the switching device 15 links the port 151 corresponding to the mac address to the second testing device 12. In this embodiment, the switch device 15 only determines the mac address received by one of the ports 151 at a time, but not limited thereto. In other words, when the switching device 15 determines that the mac address received at present corresponds to the first dut 13, the switching device 15 links the port 151 corresponding to the mac address received at present to the first dut 11; or when the switching device 15 determines that the currently received mac address corresponds to the second server device under test 14, the switching device 15 links the port 151 corresponding to the currently received mac address to the second testing device 12. In addition, in this embodiment, when the switch device 15 links the port 151 corresponding to the mac address to the first testing device 11, a link channel between the first dut server corresponding to the mac address and the first testing device 11 via the corresponding port 151 is established, or when the switch device 15 determines that the received mac address needs to link the second testing device 12, a link channel between the second dut server corresponding to the mac address and the second testing device 12 via the corresponding port 151 is established.
Next, in the test command transmission step 5, when the first test device 11 is linked to the port 151 of the switch device 15 corresponding to each first dut 13, the first test device 11 transmits a first test command to each first dut 13 through the port 151 of the switch device 15 corresponding to each first dut 13, and when the second test device 12 is linked to the port 151 of the switch device 15 corresponding to each second dut 14, the second test device 12 transmits a second test command to the second dut 14 through the port 151 of the switch device 15 corresponding to each second dut 14. In brief, the first dut 13 needs to execute a first test command of the first testing device 11, and the second dut 14 needs to execute a second test command of the second testing device 12, and in the above step, after the switching device 15 establishes a link channel between the port 151 corresponding to each first dut and the first testing device 11, in the test command transmitting step 5, the first testing device 11 transmits the first test command to each first dut 13 through the port 151 corresponding to each first dut 13 in the switching device 15. And when the switch device establishes a link channel between each second server under test and the second testing device 12 through the corresponding port 151, the second testing device 12 transmits the second testing command to each second server under test 14 through the port 151 of the switch device 15 corresponding to each second server under test 14. In other words, each first dut 13 receives the first test command directly from the corresponding port 151 and each second dut 14 receives the second test command directly from the corresponding port 151 and the second test device 12 transmits the second test command.
Then, in the testing step 6, each first dut 13 executes the first testing command and transmits the executed testing data back to the first testing device 11 through the corresponding port 151; each second dut 14 executes the second test command and returns the executed test data to the second testing device 12 through the corresponding port 151. That is, each first dut 13 returns test data to the first testing device 11 for storage during testing, and each second dut 14 returns test data to the second testing device 12 for storage during testing. In this embodiment, when each first dut 13 executes the first test command, the first test device 11 sends a first reply command to each first dut 13 in a polling manner and enables each first dut to transmit the executed test data back to the first test device 11 through the corresponding port 151 for storage. When each second dut 14 executes the second test command, the second test device 12 sends a second reply command to each second dut 14 in a polling manner, and each second dut returns the executed test data to the second test device 12 through the corresponding port 151 for storage.
Finally, in the completing step 7, when each first dut 13 completes the execution of the first testing command, the switching device 15 interrupts the link between the port 151 corresponding to each first dut and the first testing device 11; when each second server under test device 14 finishes executing the second test command, the switching device 15 interrupts the link between the port 151 corresponding to each second server under test and the second test device 12. That is, when any one of the first dut devices 13 finishes testing, the switching device 15 will disconnect the port 151 corresponding to the first dut device that finishes testing from the first testing device 11, and when any one of the second dut devices 14 finishes testing, the switching device 15 will disconnect the port 151 corresponding to the second dut device that finishes testing from the second testing device 12.
Since the switching device 15 compares each received mac address through the predetermined test table in the receiving and comparing step 3 to determine the testing device to be linked, and in cooperation with the determining and linking step 4 and the test instruction transmitting step 5, when the switching device 15 determines that the first testing device 11 needs to be linked, the switching device 15 links the port 151 corresponding to the mac address to the first testing device 11, the first testing device 11 transmits the first test instruction to each first dut 13 through the switching device 15 for testing, when the switching device 15 determines that the second testing device 12 needs to be linked, the switching device 15 links the port 151 corresponding to the mac address to the second testing device 12, the second testing device 12 transmits the second test instruction to the second dut 14 through the switching device 15 for testing, therefore, the testing operation of the first server device to be tested 13 and the second server device to be tested 14 of different models can be synchronously performed, and a network hardware testing architecture does not need to be separately constructed according to the first server to be tested and the first testing device 11, or a network hardware testing architecture does not need to be separately constructed according to the second server to be tested and the second testing device 12, so that the occupied space in a factory is greatly reduced, the time and the labor are effectively saved, and the testing efficiency is improved.
In the completing step 7, when each first dut 13 completes the first testing command, it means that the testing is completed, and each first dut sends a first end message from the corresponding port 151 back to the first testing device 11 through the switching device 15, and the first testing device 11 receives each first end message and then sends a first complete command to the switching device 15, and the switching device 15 interrupts the link between the port 151 corresponding to each first dut and the first testing device 11; when each second dut 14 finishes executing the second test command, it means that the test is finished, each second dut sends a second end message from the corresponding port 151 back to the second testing device 12 through the switching device 15, and the second testing device 12 receives the second end message and then sends a second end command to the switching device 15, and the switching device 15 interrupts the link between the port 151 corresponding to each second dut and the second testing device 12. Specifically, when each first dut 13 completes the first test command, each first dut sends the first end message and the corresponding port 151 returns to the first testing device 11 through the switching device 15, and the first testing device 11 receives the first end message and then sends the first end command to the switching device 15, so that the switching device 15 interrupts the link between the port 151 corresponding to each first dut and the first testing device 11; when each second dut 14 finishes executing the second testing command, each second dut sends the second end message and the corresponding port 151 is returned to the second testing device 12 through the switching device 15, and the second testing device 12 receives the second end message and then transmits the second end command to the switching device 15, so that the switching device 15 interrupts the link between the port 151 corresponding to each second dut and the second testing device 12.
In this embodiment, in the completing step 7, when each first dut sends the first end message from the corresponding port 151 to the switching device 15, the switching device 15 records the address information received by which port 151 each first end message is received and transmits the address information to the first testing device 11, and the first testing device 11 receives each first end message and the corresponding address information and transmits the first completing command and the corresponding address information to the switching device 15, so that the switching device 15 interrupts the connection between the corresponding port 151 and the corresponding first dut according to the address information corresponding to the first completing command, and further interrupts the connection between each first dut and the first testing device 11; when each second server under test sends the second end message from the corresponding port 151 to the switching device 15, the switching device 15 records the address information received by which port 151 each second end message is received and transmits the address information to the second testing device 12, and the second testing device 12 receives each second end message and the corresponding address information and then transmits the second completion instruction and the corresponding address information to the switching device 15, and the switching device 15 interrupts the connection between the corresponding port 151 and the corresponding second server under test according to the address information corresponding to the second completion instruction, thereby interrupting the link between each second server under test and the second testing device 12 which have been tested.
In summary, in the server testing method of the present invention, since in the receiving and comparing step 3, the switching device 15 compares each received mac address to determine the testing device to be linked, and in cooperation with the determining and linking step 4 and the test instruction transmitting step 5, when the switching device 15 determines that the first testing device 11 needs to be linked, the switching device 15 links the port 151 corresponding to the mac address to the first testing device 11, the first testing device 11 transmits the first test instruction to each first dut 13 through the switching device 15 for testing, when the switching device 15 determines that the second testing device 12 needs to be linked, the switching device 15 links the port 151 corresponding to the mac address to the second testing device 12, the second testing device 12 transmits the second test instruction to the second dut 14 through the switching device 15 for testing, the testing operation of the first server device to be tested 13 and the second server device to be tested 14 of different models can be synchronously performed without additionally constructing an independent network testing architecture, thereby effectively saving time and labor and improving the testing efficiency.
However, the above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and all the simple equivalent changes and modifications made according to the claims and the contents of the patent specification should be included in the scope of the present invention.

Claims (7)

1. A server testing method is applied to a server testing system, the server testing system comprises a first testing device, a second testing device, a plurality of first server devices to be tested, a plurality of second server devices to be tested and a switching device, the switching device is linked with the first testing device, the second testing device, the first server devices to be tested and the second server devices to be tested, and the switching device is provided with a plurality of ports for linking the first server devices to be tested and the second server devices to be tested, the server testing method is characterized by comprising the following steps:
an initial transmission step, each first server device to be tested and each second server device to be tested respectively transmit a corresponding MAC address and transmit the MAC address to the switching device through the corresponding port;
a receiving and comparing step, when the exchange device receives the MAC address received by each port through each port, the exchange device compares each received MAC address through a built-in preset test table to judge the testing device which is linked with each MAC address;
a step of judging link, when the exchange device judges that the received media access control address needs to link the first test device, the exchange device links the port corresponding to the media access control address to the first test device, when the exchange device judges that the received media access control address needs to link the second test device, the exchange device links the port corresponding to the media access control address to the second test device;
a test instruction transmitting step, when the first test device is linked to the port of each first server device to be tested in the switching device, the first test device transmits a first test instruction to each first server device to be tested through the port of each first server device to be tested in the switching device, and when the second test device is linked to the port of each second server device to be tested in the switching device, the second test device transmits a second test instruction to the second server device to be tested through the port of each second server device to be tested in the switching device; and
a testing step, each first server device to be tested executes the first testing instruction and transmits the executed testing data back to the first testing device through the corresponding port; each second server device to be tested executes the second test instruction and transmits the executed test data back to the second test device through the corresponding port.
2. The method according to claim 1, wherein in the testing step, when each first server device under test executes the first test command, the first test device sends a first reply command to each first server device under test in a polling manner and causes each first server device under test to return the executed test data to the first test device through the corresponding port; when each second server device to be tested executes the second test instruction, the second test device sends a second reply instruction to each second server device to be tested in a polling mode, and each second server to be tested transmits the executed test data back to the second test device through the corresponding port.
3. The method according to claim 1, further comprising a completion step following the testing step, in which the switching device interrupts the link between the port corresponding to each first server under test and the first testing device when each first server under test device completes the execution of the first test command; when each second server device to be tested finishes the second test instruction, the exchange device interrupts the link between the port corresponding to each second server to be tested and the second test device.
4. The method according to claim 3, wherein in the completing step, when each first to-be-tested server device completes the execution of the first testing command, each first to-be-tested server device sends a first end message from the corresponding port back to the first testing device through the switching device, and the first testing device receives each first end message and then sends a first completing command to the switching device, so that the switching device interrupts the link between the corresponding port of each first to-be-tested server and the first testing device; when each second server device to be tested finishes executing the second test instruction, each second server to be tested sends a second end message to be transmitted from the corresponding port to the second test device through the switching device, and the second test device transmits a second end instruction to the switching device after receiving the second end message, so that the switching device interrupts the link between the port corresponding to each second server to be tested and the second test device.
5. The method as claimed in claim 4, wherein in the completing step, when each first DUT sends the first end message from the corresponding port to the switching device, the switching device records an address message received by which port each first end message is received and transmits the first end message to the first DUT, and the first DUT receives the first end message and the corresponding address message and transmits the first complete command and the corresponding address message to the switching device, and the switching device interrupts the connection between the corresponding port and the corresponding first DUT according to the address message corresponding to the first complete command, thereby interrupting the connection between the tested first DUT and the tested first DUT; when each second server to be tested sends the second end message to the exchange device from the corresponding port, the exchange device records an address message received by which port each second end message is received and transmits the address message to the second test device, and after the second test device receives each second end message and the corresponding address message, the second test device transmits the second completion instruction and the corresponding address message to the exchange device, and the exchange device interrupts the connection between the corresponding port and the corresponding second server to be tested according to the address message corresponding to the second completion instruction, thereby interrupting the link between each tested second server to be tested and the second test device.
6. The method for testing a server of claim 1, wherein in the step of determining connection, when the switching device links the port corresponding to the mac address to the first testing device, a link channel between the first to-be-tested server corresponding to the mac address and the first testing device via the corresponding port is established; when the exchange device judges that the received media access control address needs to be linked with the second test device, a link channel between a second server to be tested corresponding to the media access control address and the second test device through a corresponding port is established.
7. The server testing method as claimed in claim 1, wherein the first six codes of the mac address of each first dut and the first six codes of the mac address of each second dut are the same codes, the predetermined test table of the switch device records the first six codes corresponding to the mac address of the first dut and the first six codes corresponding to the mac address of the second dut, and in the receiving and comparing step, the switch device compares the received first six codes of each mac address with the contents of the predetermined test table to determine the testing device to be linked to each mac address.
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Citations (5)

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Publication number Priority date Publication date Assignee Title
CN1773942A (en) * 2004-11-10 2006-05-17 英保达股份有限公司 Testing apparatus and method
CN202455371U (en) * 2011-09-30 2012-09-26 深圳市共进电子股份有限公司 Multi-machine testing system
US20170337049A1 (en) * 2016-05-17 2017-11-23 David R. Hall Device To Hub Repair Of A Redundant Star Network
US20180287906A1 (en) * 2017-03-29 2018-10-04 Accenture Global Solutions Limited Enabling device under test conferencing via a collaboration platform
CN109766227A (en) * 2017-11-09 2019-05-17 环达电脑(上海)有限公司 The test method of server test system and its switch

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1773942A (en) * 2004-11-10 2006-05-17 英保达股份有限公司 Testing apparatus and method
CN202455371U (en) * 2011-09-30 2012-09-26 深圳市共进电子股份有限公司 Multi-machine testing system
US20170337049A1 (en) * 2016-05-17 2017-11-23 David R. Hall Device To Hub Repair Of A Redundant Star Network
US20180287906A1 (en) * 2017-03-29 2018-10-04 Accenture Global Solutions Limited Enabling device under test conferencing via a collaboration platform
CN109766227A (en) * 2017-11-09 2019-05-17 环达电脑(上海)有限公司 The test method of server test system and its switch

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