TW202402019A - Intelligent test configuration and download synchronization system and method thereof - Google Patents

Abstract

An intelligent test configuration and download synchronization system is disclosed in the present invention. The intelligent test configuration and download synchronization system includes a receiving module, a pairing module, a determination module, and a controlling module. The receiving module is utilized to receive a plurality of identification codes of a plurality of unit under test servers. The pairing module is utilized to pair the plurality of unit under test servers with a pairing rule. The determination module is utilized to determinate the plurality of unit under test servers are in a standby state of being network bandwidth testing assignment. At last, the controlling module is utilized to control the plurality of unit under test servers to execute a network bandwidth testing assignment synchronously. An intelligent test configuration and download synchronization method is also disclosed in the present invention.

Description

Intelligent automated pairing synchronization test system and method thereof

The present invention relates to a system and a method, and in particular, to an intelligent automated pairing synchronization test system and a method thereof.

The intelligent automated test system (Intelligent Test Configuration and Download; ITCnD) is used to perform performance testing on the server under test. Generally speaking, performance testing operations usually include memory testing operations, hard disk testing operations, central processing unit (Central Processing Unit; CPU) testing operations, network stress testing operations, heat dissipation combination testing operations, and board management controller (Board Management Controller) testing operations. ; BMC) test operations, etc. Each performance testing job has its corresponding performance testing tool. For example, network stress testing jobs are usually tested using network performance testing tools. A common network performance testing tool is Iperf.

However, in the prior art, when the intelligent automated testing system tests multiple servers under test and performs network stress testing operations in performance testing operations, the intelligent automated testing system cannot implement the single-machine network stress testing operations of the servers under test. A network performance testing tool that uses matching logic functions and needs to wait for multiple servers under test to simultaneously perform network stress testing operations before the next server under test can perform network stress testing operations. Therefore, there is room for improvement in prior art.

In view of the fact that in the previous technology, when the intelligent automated testing system tests multiple servers under test and performs network stress testing operations in performance testing operations, it can only perform network stress testing operations on one server under test at a time, and requires After the server under test completes the network stress test operation, the network stress test operation and various problems derived from it can be performed on the next server under test. One of the main purposes of the present invention is to provide an intelligent automated pairing synchronization test system and method thereof to solve at least one problem in the prior art.

In order to solve the problems of the prior art, the necessary technical means adopted by the present invention are to provide an intelligent automated pairing synchronization test system, which is used to perform multiple performance testing operations on multiple servers to be tested, and the performance testing operations include at least one For network stress testing operations, the intelligent automated pairing synchronization test system includes a receiving module, a pairing module, a status determination module and a control module. The receiving module is used to receive multiple server identification codes of the server under test. The pairing module is electrically connected to the receiving module to receive the server identification code, and uses a pairing rule to pair each server to be tested, and after detecting each server to be tested and its pairing When testing the server, a pairing success signal is generated. The status determination module is electrically connected to the receiving module to receive the server identification code, and generates a standby signal when determining that each server under test and its paired server under test are on standby for network stress testing operations. Success signal. The control module is electrically connected to the pairing module and the status determination module, and is used to control the server under test and its paired server under test to perform network stress testing operations at the same time when receiving the pairing success signal and the standby success signal. And complete the network stress test operation at the same time.

Based on the above necessary technical means, an ancillary technical means derived from the present invention is to make the receiving module in the intelligent automated pairing synchronization test system further include a receiving unit, and the receiving unit is used to passively receive the server identification code.

On the basis of the above necessary technical means, an ancillary technical means derived from the present invention is to enable the receiving module in the intelligent automated pairing and synchronization test system to further include an interrogation unit. The interrogation unit is used to actively interrogate the server under test. , to receive the server identifier.

Based on the above necessary technical means, an ancillary technical means derived from the present invention is to make the pairing module in the intelligent automated pairing synchronization test system further include a first time unit, and the first time unit is used to calculate a first time unit. time, and when the first time is calculated and each server under test and its paired server under test are not detected, the pairing module generates a pairing failure signal.

On the basis of the above necessary technical means, an ancillary technical means derived from the present invention is to enable the state determination module in the intelligent automated pairing synchronization test system to further include a second time unit, and the second time unit is used to calculate a first Two times, and after calculating the second time and determining that each server under test and its paired servers under test are not on standby for network stress testing operations, a standby failure signal is generated.

On the basis of the above necessary technical means, an ancillary technical means derived from the present invention is an intelligent automated pairing and synchronization test system, which further includes a warning module. The warning module is electrically connected to the control module for use in When the control module does not detect each server under test and its paired servers under test, or when the control module determines that each server under test and its paired servers under test are not in standby. When performing the network stress test operation, a warning signal is generated.

In order to solve the problems of the prior art, the necessary technical means adopted by the present invention are to provide an intelligent automated pairing synchronization test method, which is implemented using the above-mentioned intelligent automated pairing synchronization test system and includes the following steps: using a receiving module to receive Server identification code; use the pairing module to generate a pairing success signal when detecting each server to be tested and its paired server to be tested; use the status determination module to determine each server to be tested and its paired server When the paired servers under test are on standby for network stress testing, a standby success signal is generated; and the control module is used to control the server under test and its paired servers when receiving a pairing success signal and a standby success signal. The server under test simultaneously performs network stress testing operations and completes network stress testing operations at the same time.

Based on the above, the intelligent automated pairing synchronization test system and method provided by the present invention use the receiving module, the pairing module, the status determination module and the control module to conduct multiple performance tests on multiple servers to be tested. Homework. Compared with the prior art, the present invention can achieve the effect of controlling each server under test and its paired server under test to simultaneously perform the network stress test operation, and simultaneously complete and end the network stress test operation. In addition, the receiving unit and the querying unit of the receiving module can achieve the function of actively querying or passively receiving the server identification code. The warning module can also generate warning signals to remind users. Preferably, the present invention can also use the first time unit of the pairing module and the second time unit of the status determination module to match the warning module.

Specific embodiments of the present invention will be described in more detail below with reference to the schematic diagrams. The advantages and features of the present invention will become clearer from the following description and patent claims. It should be noted that the drawings are in a very simplified form and use imprecise proportions, and are only used to conveniently and clearly assist in explaining the embodiments of the present invention.

Please refer to the first and second figures. The first figure is a block diagram showing the intelligent automated pairing synchronization test system provided by the preferred embodiment of the present invention; and the second figure is a block diagram showing the intelligent automated pairing synchronization test system provided by the preferred embodiment of the present invention. Provides a flow chart of the intelligent automated pairing and synchronization test method. As shown in the figure, an intelligent automated pairing and synchronization testing system 1 is used to perform multiple performance testing operations on a plurality of servers to be tested S1, S2, and S3 (three diagrams are drawn), and includes a receiving module 11, A pairing module 12, a status determination module 13 and a control module 14. Among them, the performance test operation includes at least one network stress test operation.

Generally speaking, performance testing operations usually include memory testing operations, hard disk testing operations, central processing unit (Central Processing Unit; CPU) testing operations, network stress testing operations, heat dissipation combination testing operations, and board management controller (Board Management Controller) testing operations. ;BMC) test operations, etc. Each performance testing job has its corresponding performance testing tool. For example, network stress testing jobs are usually tested using network performance testing tools. A common network performance testing tool is Iperf.

An intelligent automated pairing synchronization test method is implemented using the intelligent automated pairing synchronization test system 1 and includes the following steps S101 to S104.

Step S101: Use the receiving module to receive the server identification code of the server to be tested.

The receiving module 11 is electrically connected to the servers to be tested S1, S2, and S3, and is used to receive each server identification code SC1, SC2, and SC3 of each of the servers to be tested S1, S2, and S3, thereby receiving a plurality of the above-mentioned The server identification codes SC1, SC2, SC3. Each server under test S1, S2, S3 will have its corresponding server identification code SC1, SC2, SC3 to correspond to its identity. The server identification codes SC1, SC2, and SC3 may be numbers, English, or a combination thereof, and correspond to the servers to be tested S1, S2, and S3 that they represent.

In this embodiment, the receiving module 11 further includes a receiving unit 111. The receiving unit 111 is used to passively receive the server identification codes SC1, SC2 and SC3 of the servers to be tested S1, S2 and S3.

In this embodiment, the receiving module 11 further includes an interrogation unit 112 . The query unit 112 is used to actively query the servers under test S1, S2, and S3, thereby receiving the server identification codes SC1, SC2, and SC3.

Although in this embodiment, the receiving module 11 includes both the receiving unit 111 and the query unit 112, it is not limited to this. The receiving module 11 may include only one of the receiving unit 111 and the query unit 112 .

Step S102: Use the pairing module to determine whether to pair.

The pairing module 12 is electrically connected to the receiving module 11 for receiving the server identification codes SC1, SC2 and SC3 of the servers to be tested S1, S2 and S3, and using a pairing rule to combine each of the servers to be tested S1, S2 and S3. S2 and S3 perform pairing, and when each server under test S1, S2, S3 and its paired server under test are detected, a pairing success signal is generated.

For example, if the number of servers to be tested is an odd number greater than 1 as shown in the figure, that is, the server to be tested S1, the server to be tested S2, and the server to be tested S3. The pairing rules of the pairing module 12 are that the server under test S1 is paired with the server under test S2, the server under test S2 is paired with the server under test S3, and the server under test S3 is paired with the server under test S1. Therefore, the pairing module 12 will generate a pairing success signal only after detecting the server under test S1, the server under test S2, and the server under test S3.

That is to say, if the pairing module 12 does not detect any one of the server under test S1, the server under test S2, or the server under test S3, it will not generate a pairing success signal. For example, if the pairing module 12 does not detect the server under test S2, it means that only the server under test S3 is paired with the server under test S1, and the server under test S1 and the server under test S2 are not paired. The server S2 under test is not paired with the server S3 under test, so the pairing module 12 does not generate a pairing success signal.

In addition, taking the server to be tested S1 and the server to be tested S2 as an example, the number of servers to be tested is an even number, that is, the server to be tested S1 and the server to be tested S2. The pairing rule of the pairing module 12 is the pairing of the server to be tested S1 and the server to be tested S2. Therefore, the pairing module 12 will generate a pairing success signal only after detecting the server S1 and the server S2 under test. That is to say, if the pairing module 12 does not detect either the server under test S1 or the server under test S2, it will not generate a pairing success signal.

To further explain, if the number of servers to be tested is ten, the pairing rules of the pairing module 12 will divide the ten servers to be tested into five groups, and the two servers to be tested in each group will be paired with each other; If the number of servers is eleven, the matching rules of the pairing module 12 will divide the eleven servers to be tested into five groups. The number of servers to be tested in each of the first four groups is two and Paired with each other, the number of servers to be tested in the fifth group is three and they are paired with each other.

Step S103: Use the status determination module to determine whether to be on standby for network stress testing operations.

The status determination module 13 is electrically connected to the receiving module 11 for receiving the server identification codes SC1, SC2, SC3 of the servers to be tested S1, S2, and S3, and determining each of the servers to be tested S1, S2, and S3. When both the server and its paired server under test are on standby for network stress testing, a standby success signal is generated. For example, when the status determination module 13 determines that the server under test S1, the server under test S2, and the server under test S3 are all on standby for network stress testing operations, the status determination module 13 will generate a standby success signal. Because the server under test S1 is on standby for network stress testing, the server under test S2 paired with server S1 is also on standby for network stress testing, and the server under test paired with server S2 is also on standby for network stress testing. The device S3 is also on standby to perform network stress testing operations, so the status determination module 13 will generate a standby success signal.

Similarly, as mentioned above, if the number of servers to be tested is an even number, that is, the server to be tested S1 and the server to be tested S2, then the status determination module 13 determines the server to be tested S1 and the server to be tested S2. They are all on standby for network stress testing operations and will generate a standby success signal.

Step S104: Use the control module to control the server under test and its paired server under test to perform network stress testing operations at the same time, and complete the network stress testing operations at the same time.

The control module 14 is electrically connected to the pairing module 12 and the status determination module 13, and is used to control the servers under test S1, S2, and S3 to simultaneously perform network stress testing operations when receiving the pairing success signal and the standby success signal. And complete the network stress test operation at the same time.

The control module 14 receives the pairing success signal and the standby success signal, indicating that the pairing module 12 has detected each server under test (such as the servers under test S1, S2, S3) and its paired server under test (such as the servers under test S1, S2, S3). Such as the paired servers under test S2, S3, S1), and the status determination module 13 has determined each server under test (such as the servers under test S1, S2, S3) and its paired servers under test (such as the servers under test S1, S2, S3). For example, the paired servers under test (S2, S3, S1) are all on standby for the network stress test operation. Therefore, the control module 14 can control each server under test (such as the servers under test S1, S2, S3) and its paired servers under test (such as the paired servers under test S2, S3, S1) simultaneously. The network stress test operation is completed and ended at the same time.

Therefore, compared with the previous technology that can only perform network stress testing operations on one server under test at a time, the intelligent automated pairing synchronization test system and method provided by the present invention can control each server under test (such as the server under test). Servers S1, S2, S3) and their paired servers under test (such as paired servers under test S2, S3, S1) simultaneously perform the network stress test operation, and complete and end the network stress test operation at the same time effect.

In this embodiment, the intelligent automated pairing synchronization test system 1 further includes a warning module 15 . The intelligent automated pairing synchronization test method further includes the following step S105.

Step S105: Use the control module to control the warning module to generate a warning signal.

The warning module 15 is electrically connected to the control module 14, and is used to detect each server under test (such as the servers under test S1, S2, S3) and its paired servers under test when the control module 14 does not detect it. (such as the paired servers under test S2, S3, S1), or when the control module 14 determines each server under test (such as the servers under test S1, S2, S3) and its paired server under test (such as the servers under test S1, S2, S3). If not all of the paired servers under test (S2, S3, S1) are on standby for the network stress test operation, a warning signal is generated. Therefore, the warning module 15 can achieve the effect of warning the user through the warning signal.

Preferably, in this embodiment, the pairing module 12 further includes a first time unit 121. The first time unit 121 is used to calculate a first time, and when the first time is calculated and each server under test and its paired server under test are not detected, the pairing module 12 generates a pairing Failure signal. After the control module 14 receives the pairing failure signal, it controls the warning module 15 to generate a warning signal. That is to say, when the determination in step S102 is No, step S105 may also be entered. In practice, the first time is usually 5 seconds or 10 seconds.

Preferably, in this embodiment, the status determination module 13 further includes a second time unit 131 . The second time unit 131 is used to calculate a second time, and after calculating the second time, determine each server to be tested (such as servers to be tested S1, S2, S3) and its paired server to be tested (such as When the paired servers under test (S2, S3, S1) are not all on standby for the network stress test operation, a standby failure signal is generated. After the control module 14 receives the standby failure signal, it controls the warning module 15 to generate a warning signal. That is to say, when the determination in step S103 is No, step S105 may also be entered. In practice, the second time usually ranges from 5 seconds to 10 seconds.

Therefore, compared with the previous technology that can only perform network stress testing operations on one server to be tested at a time, the intelligent automated pairing synchronization test system and method provided by the present invention can not only control each server to be tested (such as the server to be tested). The test servers S1, S2, S3) and their paired servers under test (such as the paired servers under test S2, S3, S1) perform the network stress test operation at the same time, and complete and end the network stress test at the same time. In addition to the function of operation, it can also generate a warning signal to remind the user when pairing fails or when standby fails.

In summary, the intelligent automated pairing synchronization test system and method provided by the present invention use the receiving module, the pairing module, the status determination module and the control module to conduct multiple performance tests on multiple servers to be tested. Homework. Compared with the prior art, the present invention can achieve the effect of controlling each server under test and its paired server under test to simultaneously perform the network stress test operation, and simultaneously complete and end the network stress test operation. In addition, the receiving unit and the querying unit of the receiving module can achieve the function of actively querying or passively receiving the server identification code. The warning module can also generate warning signals to remind users. Preferably, the present invention can also use the first time unit of the pairing module and the second time unit of the status determination module to match the warning module.

Through the above detailed description of the preferred embodiments, it is hoped that the characteristics and spirit of the present invention can be more clearly described, but the scope of the present invention is not limited by the above disclosed preferred embodiments. On the contrary, the intention is to cover various modifications and equivalent arrangements within the scope of the patent for which the present invention is intended.

1: Intelligent automated pairing and synchronization test system 11:Receive module 111: Receiving unit 112: Inquiry unit 12: Matching module 121: First time unit 13: Status determination module 131: Second time unit 14:Control module 15: Alert module S1, S2, S3: Server to be tested S101~S105: steps SC1, SC2, SC3: server identification code

The first figure is a block diagram showing an intelligent automated pairing synchronization test system provided by a preferred embodiment of the present invention; and The second figure is a flow chart showing an intelligent automated pairing synchronization test method provided by a preferred embodiment of the present invention.

1: Intelligent automated pairing and synchronization test system

11:Receive module

111: Receiving unit

112: Inquiry unit

12: Matching module

121: First time unit

13: Status determination module

131: Second time unit

14:Control module

15: Alert module

S1, S2, S3: Server to be tested

SC1, SC2, SC3: server identification code

Claims (7)

An intelligent automated pairing synchronization testing system is used to perform multiple performance testing operations on multiple servers to be tested, and the performance testing operations include at least one network stress testing operation. The intelligent automated pairing synchronization testing system includes : a receiving module for receiving a plurality of server identification codes of the servers under test; A pairing module is electrically connected to the receiving module to receive the server identification codes, and uses a pairing rule to pair each server to be tested, and after detecting each server to be tested When the server is paired with the server under test, a pairing success signal is generated; A status determination module is electrically connected to the receiving module for receiving the server identification codes and determining that each server under test and its paired server under test are on standby to perform the network pressure. When testing the operation, generate a standby success signal; and A control module is electrically connected to the pairing module and the status determination module, and is used to control the server under test and its paired server under test when receiving the pairing success signal and the standby success signal. The network stress test operation is performed at the same time, and the network stress test operation is completed at the same time. As claimed in claim 1, the intelligent automated pairing synchronization test system, wherein the receiving module further includes a receiving unit, the receiving unit is used to passively receive the server identification codes. The intelligent automated pairing synchronization test system as described in claim 1, wherein the receiving module further includes an interrogation unit, which is used to actively interrogate the servers under test to receive the server identification codes. . The intelligent automated pairing synchronization test system as described in claim 1, wherein the pairing module further includes a first time unit, the first time unit is used to calculate a first time, and after calculating the first time And when each server under test and its paired server under test are not detected, the pairing module generates a pairing failure signal. The intelligent automated pairing synchronization test system as described in claim 1, wherein the status determination module further includes a second time unit, the second time unit is used to calculate a second time, and after calculating the second time unit time and determine that each server under test and its paired server under test are not on standby to perform the network stress test operation, a standby failure signal is generated. The intelligent automated pairing synchronization test system as described in claim 1 further includes a warning module electrically connected to the control module to detect when the control module does not detect each test item. A warning signal is generated when the server and its paired server under test are not on standby for the network stress test operation, or when the control module determines that each server under test and its paired server under test are not on standby for the network stress test operation. . An intelligent automated pairing synchronization test method is implemented using the intelligent automated pairing synchronization test system described in claim 1, and includes the following steps: (a) Use the receiving module to receive the server identification codes; (b) Use the pairing module to generate the pairing success signal when detecting each server under test and its paired server under test; (c) Use the status determination module to generate the standby success signal when it is determined that each server under test and its paired server under test are on standby for the network stress test operation; and (d) Using the control module, when receiving the pairing success signal and the standby success signal, control the server under test and its paired server under test to simultaneously perform the network stress test operation, and complete the Network stress testing operations.

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