TWI715481B - Server test method - Google Patents

Abstract

A server testing method, including a receiving and comparing step, a switching device compares the media access control address received by each port to determine the test device to be connected to each port, and a judgment link In the step, when the switching device determines that the first test device needs to be connected, the switching device connects the port corresponding to the media access control address to a first test device, and when the switching device determines that the first test device needs to be connected In the second test device, the switch device connects the port corresponding to the media access control address to a second test device, and in a test command transmission step, the first test device transmits a first test command through the switch The device is sent to each first server device under test for testing, and the second test device sends a second test command via the switching device to the second server device under test for testing, which can achieve simultaneous testing of different models Test operation of the server device under test.

Description

Server test method

The invention relates to a testing method, in particular to a server testing method.

In recent years, servers have been widely used and developed, and before they leave the factory, they need to be tested and verified to ensure their functionality and stability. Generally speaking, the common testing method is to connect the unit under test (UUT) to the test equipment (Test Server) through the network for testing, and different types of server units need to be tested. The test is also different, so when the server unit under test of each model is tested, it needs to be connected to the corresponding test machine to perform the correct test.

In the factory test, it is common to test the server unit under test of multiple models, so it is necessary to connect the server unit under test of each model and its corresponding test machine through independent network connection for testing. However, there are usually many types of server units under test that need to be tested, and users often have to establish a hardware device system with independent network connection architecture between the server unit under test of each model and its corresponding test machine. It is a waste of time and manpower, and each independent network connection system will take up a certain amount of space, which indirectly affects the use of space and production lines in the factory, causing inconvenience and trouble for users, and it is extremely necessary for practitioners to study improve.

Therefore, the purpose of the present invention is to provide a server testing method suitable for testing multiple server devices under test.

Therefore, the server testing method of the present invention is applied to a server testing system. The server test system includes 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 a switching device. The switching device connects the first test device, the second test device, the first server device under test and the second server device under test. And the switching device has a plurality of connection ports for connecting the first server device under test and the second server device under test. The server testing method includes an initial sending step, a receiving and comparing step, a judging connection step, a test command sending step, and a testing step.

In the initial transmission step, each first server device under test and each second server device under test respectively send a corresponding medium access control address and send it to the switching device via the corresponding port.

In the receiving and comparing step, when the switching device receives the media access control address received by each port through each port, the switching device compares the received media through a built-in predetermined test table. A media access control address is used to determine the test device to be connected to each media access control address.

In the judging connection step, when the switching device judges that the received media access control address needs to be connected to the first test device, it represents that the server device under test that needs to be tested is one of the first test devices. A server device that connects the port corresponding to the media access control address to the first test device when the switch device determines that the received media access control address needs to be connected to the second test device When, it means that the server device under test to be tested is one of the second server devices under test, and the switching device connects the port corresponding to the media access control address to the second test device.

In the test command transmission step, when the first test device is connected to the port corresponding to each first server device under test in the switching device, the first test device transmits a first test command through the switching device The connection port corresponding to each first server device under test is sent to each first server device under test when the second test device is connected to the switch device corresponding to the connection of each second server device under test When using a port, the second test device sends a second test command to the second server device under test via the connection port corresponding to each second server device under test in the switching device.

In the test step, each first server device under test executes the first test command and returns the executed test data to the first test device via the corresponding port; each second server device under test The device executes the second test command and returns the executed test data to the second test device via the corresponding port.

The effect of the present invention is that, in the receiving and comparing step, the switching device compares each media access control address received through the predetermined test table to determine the test device to be connected, and cooperates with In the determining connection step and the test command transmission step, when the switching device determines that the first test device needs to be connected, the switching device connects the port corresponding to the media access control address to the first test device, and the The first test device sends the first test command to each first server device under test via the switch device for testing. When the switch device determines that the second test device needs to be connected, the switch device accesses the medium The port corresponding to the control address is connected to the second test device, and the second test device sends the second test command via the switching device to the second server device under test for testing, which can achieve synchronization for different models The test operations of the first server device under test and the second server device under test do not need to construct an independent network test framework, which effectively saves time and effort and improves test efficiency.

Before the present invention is described in detail, it should be noted that in the following description, similar elements are represented by the same numbers.

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 device 11, a second test device 12, a plurality of first server devices under test 13 (UUT), a plurality of second server devices under test 14 (UUT), and A switching device 15 (Switch). The switching device 15 connects 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 connection ports 151 for connecting the first server device 13 under test and the second server device 14 under test. The server testing method includes an initial transmission step 2, a receiving and comparing step 3, a judging connection step 4, a test command transmission step 5, a test step 6, and a completion step 7.

First, in the initial transmission step 2, each first server device under test 13 and each second server device under test 14 respectively transmit a corresponding MAC address (MAC Address) and corresponding The connection port 151 is sent to the switching device 15. Then, in the receiving and comparing step 3, when the switching device 15 receives the media access control address received by each port 151 via each port 151, the switching device 15 uses a built-in predetermined test table Compare each received medium access control address to determine the test device to be connected to each medium access control address. In other words, when the first server device under test 13 and the second test device 12 are initially connected to the port 151 of the switching device 15, each first server device under test 13 and Each second server device under test 14 sends a corresponding MAC Address, and the switching device 15 compares each received MAC address through the built-in predetermined test table Address to determine the test device to be connected to each media access control address. To put it simply, the switching device 15 determines whether each MAC address corresponds to the first server device 13 under test according to the MAC address received by each port 151. The second server device 14 under test. In this embodiment, the first six codes of the media access control address of each first server device 13 under test are the same code, and the first six codes of the media access control address of each second server device under test 14 The six codes are the same code. The predetermined test table of the switching device 15 records the first six codes corresponding to the media access control address of the first server device 13 under test and the second server device 14 under test. The first six codes of the media access control address, so in step 3 of receiving and comparing, the switching device 15 compares the first six codes of each received media access control address through the content of the predetermined test table. Determine whether each media access control address corresponds to the first server device under test 13 or the second server device under test 14, and then determine that the test device to be connected is the first test device 11 Or the second testing device 12.

Then, in the determining connection step 4, when the switching device 15 determines that the received media access control address needs to be connected to the first test device 11, it means that the server device under test that needs to perform the test is among them A first server device 13 under test. The switch device 15 connects the port 151 corresponding to the media access control address to the first test device 11. When the switch device 15 determines the received media access When the control address needs to be connected to the second test device 12, it means that the server device under test to be tested is one of the second server devices under test 14, and the switching device 15 corresponds to the media access control address The connection port 151 is connected to the second test device 12. In this embodiment, the switching device 15 only determines the media access control address received by one of the ports 151 at a time, but it is not limited to this. In other words, when the switching device 15 determines that the media access control address currently received corresponds to the first server device 13 under test, the switching device 15 stores the media currently received. Take the port 151 corresponding to the control address to connect to the first test device 11; or when the switching device 15 determines that the media access control address currently received corresponds to the second server device under test 14 At this time, the switching device 15 connects the port 151 corresponding to the media access control address currently received to the second testing device 12. In addition, in this embodiment, when the switching device 15 connects the port 151 corresponding to the media access control address to the first test device 11, and establishes the corresponding port 151 of the media access control address The connection channel between the first server under test and the first test device 11 through the corresponding port 151, or when the switching device 15 determines that the received media access control address needs to be connected to the second test device 12 At this time, a connection channel between the second server under test corresponding to the media access control address and the second test device 12 via the corresponding port 151 is established.

Then, in the test command transmission step 5, when the first test device 11 is connected to the port 151 of the switching device 15 corresponding to each first server device 13 under test, the first test device 11 transmits a The first test command is sent to each first server device 13 under test through the port 151 corresponding to each first server device 13 under test in the switch device 15. When the second test device 12 is connected to the switch device 15 corresponds to the connection port 151 of each second server device 14 under test, the second test device 12 sends a second test command through the switch device 15 corresponding to the connection of each second server device 14 under test The port 151 is sent to the second server device 14 under test. To put it simply, the first server device under test 13 needs to execute the first test instruction of the first test device 11, and the second server device under test 14 needs to execute the second test instruction of the second test device 12. In the above steps, after the switching device 15 establishes a connection channel between the port 151 corresponding to each first server under test and the first test device 11, in the test command transmission step 5, The first test device 11 sends the first test command to each first server device 13 under test via the connection port 151 corresponding to each first server device 13 under test in the switching device 15. And when the switching device establishes a connection channel between each second server under test and the second testing device 12 via the corresponding port 151, the second testing device 12 sends the second test command via the switching device 15 The connection port 151 corresponding to each second server device 14 under test is sent to each second server device 14 under test. In other words, each first server device under test 13 can directly receive the first test command from the first test device 11 through the corresponding port 151, and each second server device under test 14 can The second test device 12 directly receives the corresponding connection port 151 and transmits the second test command.

Then, in the test step 6, each first server device 13 under test executes the first test command and returns the executed test data to the first test device 11 via the corresponding port 151; A second server device under test 14 executes the second test command and returns the executed test data to the second test device 12 via the corresponding port 151. That is to say, each first server device under test 13 will return test data to the first test device 11 for storage during the test, and each second server device under test 14 is performing the test. In the process, the test data is also sent back to the second test device 12 for storage. In this embodiment, when each first server device 13 under test executes the first test command, the first test device 11 sends a first reply command to each first test command in a polling manner. The server device 13 enables each first server under test to return the executed test data to the first test device 11 via the corresponding port 151 for storage. When each second server device under test 14 executes the second test command, the second test device 12 sends a second response command to each second server device under test 14 in a polling manner and uses Each second server under test returns the executed test data to the second test device 12 via the corresponding port 151 for storage.

Finally, in the completion step 7, when each first server device 13 under test finishes executing the first test command, the switching device 15 interrupts the connection port 151 corresponding to each first server device under test and the first test command. The connection of a test device 11; when each second server device under test 14 finishes executing the second test command, the switching device 15 interrupts the connection port 151 corresponding to each second server device under test and the second test Link to device 12. That is to say, when the test of any first server device 13 under test is completed, the switching device 15 will cut off the connection between the port 151 corresponding to the first server device under test that has completed the test and the first test device 11 , And when the test of any second server device 14 under test is completed, the switching device 15 will cut off the connection between the port 151 corresponding to the second server device under test that has completed the test and the second test device 12.

In the receiving and comparing step 3, the switching device 15 compares each media access control address received through the predetermined test table to determine the test device to be connected, and cooperates with the determining connection step 4. In step 5 of sending the test command, when the switching device 15 determines that the first test device 11 needs to be connected, the switching device 15 connects the port 151 corresponding to the media access control address to the first test device 11 , The first test device 11 transmits the first test command to each of the first server devices 13 under test via the switch device 15 for testing. When the switch device 15 determines that the second test device 12 needs to be connected, the The switching device 15 connects the port 151 corresponding to the media access control address to the second testing device 12, and the second testing device 12 sends the second test command to the second server under test via the switching device 15 The test of the first server device under test 13 and the second server device 14 under test of different models can be achieved synchronously, without the need for the first server under test And the first test device 11 independently construct a network hardware test framework, and there is no need to construct a network hardware test framework separately from the second server under test and the second test device 12, which greatly reduces Take up space, effectively save time and effort and improve test efficiency.

In addition, it should be particularly noted that in the completion step 7, when each first server device 13 under test has executed the first test command, it means that the test has been completed, and each first server under test will Send a first end message from the corresponding port 151 to the first test device 11 via the switching device 15, and the first test device 11 sends a first completion command after receiving each first end message To the switching device 15 and make the switching device 15 interrupt the connection between the port 151 corresponding to each first server under test and the first test device 11; when each second server under test 14 has finished executing the In the second test command, it means the test has been completed. Each second server under test will send a second end message from the corresponding port 151 to the second test device 12 via the switching device 15, and the first After receiving the second end message, the second test device 12 sends a second completion command to the switching device 15 and causes the switching device 15 to interrupt the connection port 151 corresponding to each second server under test and the second test device 12 links. In detail, when each first server device 13 under test finishes executing the first test command, each first server under test sends the first end message and the corresponding port 151 passes the exchange The device 15 returns to the first test device 11, and the first test device 11 receives each first end message and sends the first completion command to the switching device 15 and causes the switching device 15 to interrupt each The connection port 151 corresponding to the first server under test is connected to the first test device 11; when each second server device 14 under test finishes executing the second test command, each second server under test will The second end message is sent and returned from the corresponding port 151 to the second test device 12 via the switching device 15. The second test device 12 receives the second end message and sends the second completion command to The switching device 15 causes the switching device 15 to disconnect the connection port 151 corresponding to each second server under test with the second test device 12.

In this embodiment, in the completion step 7, when each first server under test sends the first end message from the corresponding port 151 to the switching device 15, the switching device 15 will record each An end message is the address information received by which port 151 and sent to the first test device 11, and the first test device 11 receives each first end message and its corresponding address information and then sends it The first completion command and the corresponding address information are sent to the switching device 15, and the switching device 15 interrupts the connection between the corresponding port 151 and the corresponding first server under test according to the address information corresponding to the first completion command , And then interrupt the connection between each first server under test and the first test device 11 that has been tested; when each second server under test sends the second end message from the corresponding port 151 to the switching device At 15:00, the switching device 15 will record the address information from which port 151 receives each second end message and transmit it to the second test device 12, and the second test device 12 receives each After the second end message and its corresponding address information, the second completion command and the corresponding address information are sent to the switching device 15, and the switching device 15 interrupts the corresponding port according to the address information corresponding to the second completion command 151 is connected with the corresponding second server under test, thereby interrupting the connection between each second server under test that has been tested and the second test device 12.

In summary, the server test method of the present invention determines the test device to be connected by comparing each media access control address received in the receiving and comparing step 3, And in conjunction with the judgment connection step 4 and the test command transmission step 5, when the switching device 15 determines that the first test device 11 needs to be connected, the switching device 15 connects the port 151 corresponding to the media access control address To the first test device 11, the first test device 11 sends the first test command to each first server device 13 under test via the switching device 15 for testing. When the switching device 15 determines that it needs to be connected to the When the second test device 12 is tested, the switch device 15 connects the port 151 corresponding to the media access control address to the second test device 12, and the second test device 12 transmits the second test command through the switch device 15 The second server device under test 14 is tested, and the test operation of the first server device under test 13 and the second server device 14 under test of different models can be performed simultaneously, without additional construction The independent network test framework effectively saves time and effort and improves test efficiency.

However, the above are only examples of the present invention. When the scope of implementation of the present invention cannot be limited by this, all simple equivalent changes and modifications made in accordance with the scope of the patent application of the present invention and the content of the patent specification still belong to This invention patent covers the scope.

1: Server test system 2: Initial transfer steps 11: The first test device 3: Receive and compare steps 12: The second test device 4: Determine the link step 13: The first server device under test 5: Test command transmission steps 14: The second server device under test 6: Test steps 15: Exchange device 7: Complete the steps 151: Port

Other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, in which: Figure 1 is a block diagram illustrating the application of an embodiment of the server testing method of the present invention to a server testing system; and Figure 2 is a flowchart illustrating the steps of this embodiment.

2: Initial transfer steps

3: Receive and compare steps

4: Determine the link step

5: Test command transmission steps

6: Test steps

7: Complete the steps

Claims (7)

A server testing method, applied to a server testing system, the server testing system includes a first testing device, a second testing device, a plurality of first server devices under test, and a plurality of second servers under test Device, and an exchange device connecting the first test device, the second test device, the first server device under test and the second server device under test, and the exchange device has a plurality of A port for connecting the first server device under test and the second server device under test. The server test method includes the following steps: In an initial transmission step, each first server device under test and each second server device under test respectively send a corresponding medium access control address and send it to the switching device via the corresponding port; A receiving comparison step. When the switching device receives the media access control address received by each port through each port, the switching device compares each received through a built-in predetermined test table Media access control address to determine the test device to be connected to each media access control address; A determining connection step. When the switching device determines that the received media access control address needs to be connected to the first test device, it represents that the server under test that needs to be tested is one of the first server under test Device, the switching device connects the port corresponding to the media access control address to the first test device, and when the switching device determines that the received media access control address needs to be connected to the second test device, Represents that the server device under test that needs to be tested is one of the second server devices under test, and the switching device connects the port corresponding to the media access control address to the second test device; A test command transmission step. When the first test device is connected to the port corresponding to each first server device under test in the switch device, the first test device transmits a first test command through the corresponding switch device The port of each first server device under test is sent to each first server device under test, when the second test device is connected to the port corresponding to each second server device under test in the switching device , The second test device sends a second test command to the second server device under test via the port corresponding to each second server device under test in the switching device; and A test step, each first server device under test executes the first test command and the executed test data is returned to the first test device via the corresponding port; each second server device under test executes The second test command returns the executed test data to the second test device via the corresponding port. The server test method according to claim 1, wherein, in the test step, when each first server device under test executes the first test command, the first test device sends in a polling manner A first reply command is sent to each first server device under test and makes each first server under test return the completed test data to the first test device via the corresponding port; when each second server device When the server device under test executes the second test command, the second test device sends a second response command to each second server device under test in a polling manner and makes each second server device under test The executed test data is returned to the second test device via the corresponding port. The server test method according to claim 1, which further includes a completion step following the test step, in the completion step, when each first server device under test has executed the first test command , The switch device interrupts the connection between the port corresponding to each first server under test and the first test device; when each second server device under test executes the second test command, the switch device interrupts the corresponding The connection port of each second server under test is connected with the second test device. The server test method according to claim 3, wherein, in the completion step, when each first server device under test finishes executing the first test command, each first server device under test sends a The first end message is returned from the corresponding port to the first test device via the switching device, and the first test device sends a first completion command to the switching device after receiving each first end message, and The switching device interrupts the connection between the corresponding port of each first server under test and the first test device; when each second server device under test executes the second test command, each second server under test The test server will send a second end message from the corresponding port to the second test device via the switching device, and the second test device will send a second completion command to the second test device after receiving the second end message Exchange device, and make the exchange device interrupt the connection between the corresponding port of each second server under test and the second test device. The server testing method according to claim 4, wherein, in the completion step, when each first server under test sends the first end message from the corresponding port to the switching device, the switching device will Record the address information from which port received each first end message and send it to the first test device, and the first test device receives each first end message and its corresponding address information Then, send the first completion command and corresponding address information to the switching device, and make the switching device interrupt the connection between the corresponding port and the corresponding first server under test according to the address information corresponding to the first completion command , And then interrupt the connection between each first server under test that has been tested and the first test device; when each second server under test sends the second end message from the corresponding port to the switching device, The switching device records the address information from which port received each second end message and transmits it to the second test device, and the second test device receives each second end message and its corresponding After the address information, the second completion command and the corresponding address information are sent to the switching device, and the switching device interrupts the corresponding port and the corresponding second under test according to the address information corresponding to the second completion command The connection of the server further interrupts the connection between each second server under test that has been tested and the second test device. The server testing method according to claim 1, wherein, in the connecting step, when the switching device connects the port corresponding to the media access control address to the first test device, the media storage is established The connection channel between the first server under test corresponding to the control address and the first test device through the corresponding port; when the switching device determines that the received media access control address needs to be connected to the second test device A connection channel between the second server under test corresponding to the media access control address and the second test device via the corresponding port is established from time to time. The server testing method according to claim 1, wherein the first six codes of the media access control address of each first server device under test are the same code, and the media storage of each second server device under test Take the first six codes of the control address as the same code, and the predetermined test table of the switching device records the first six codes corresponding to the media access control address of the first server under test and the second server under test In the receiving and comparing step, the exchange device compares the first six codes of each media access control address received through the content of the predetermined test table. Determine the test device to be connected to each media access control address.

Images