CN110399258B - Stability testing method, system and device for server system - Google Patents

Abstract

The invention discloses a stability test method of a server system, which comprises the steps of dividing the server system into a plurality of test module groups, and then respectively carrying out reset test on each test module group to detect whether each test module group has faults or not. Therefore, in the testing process of the application, if the server system cannot work normally after being restarted, the testing module group with a specific fault can be obtained, so that the fault positioning range is narrowed, and the system can conveniently perform fault positioning. The invention also discloses a system and a device for testing the stability of the server system, and the system and the device have the same beneficial effects as the stability testing method.

Description

Stability testing method, system and device for server system

Technical Field

The present invention relates to the field of server system testing, and in particular, to a method, a system, and an apparatus for testing stability of a server system.

Background

With the increasing data transmission rate, the increasing data storage capacity, the increasing number of peripheral devices and the increasing system scale of the server system, the requirement on the working stability of the server system is higher and higher. Therefore, in the design test stage of the server system, the stability test of the server system is very important. Currently, in a stability test of a server system, one of the test items is: and (4) testing whether the server system can continue to work normally after unexpected Reset. In the prior art, the test process of this test item includes: and testing whether the server system can work normally after being restarted or not by directly powering on or powering off the power supply of the server system. However, in the testing process, if the server system cannot work normally after being restarted, the conclusion that the whole server system has a fault can only be obtained according to the testing mode, so that it is difficult to locate the fault in the server system with a plurality of devices.

Therefore, how to provide a solution to the above technical problem is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide a method, a system and a device for testing the stability of a server system.

In order to solve the above technical problem, the present invention provides a method for testing stability of a server system, including:

dividing a server system into N test module groups in advance; wherein N is an integer greater than 1;

when a Reset test instruction of a target mapping test module group is received, generating a Reset signal to the target mapping test module group so that the target mapping test module group executes a restart operation after receiving the Reset signal; wherein the target testing module group is any one of the N testing module groups;

detecting whether the working state of the target mapping test module group after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target mapping test module group passes; if not, determining that the target test module group has a fault.

Preferably, the set of target testing modules comprises M testing modules; wherein M is a positive integer;

correspondingly, the process of generating a Reset signal to the target testing module group when receiving the Reset testing instruction of the target testing module group, so that the target testing module group performs a restart operation after receiving the Reset signal includes:

when a Reset test instruction of a target test module group is received, generating a target Reset signal to the digital integrated circuit, so that the digital integrated circuit generates M paths of Reset signals after receiving the target Reset signal, and outputting the M paths of Reset signals to the M test modules one by one to restart the M test modules.

Preferably, after determining that the target test module group has a fault, the method for testing stability of the server system further includes:

when a Reset test instruction of a target test module is received, controlling the digital integrated circuit to generate a Reset signal to the target test module so that the target test module executes a restart operation after receiving the Reset signal; the target test module is any one of the M test modules;

detecting whether the working state of the target test module after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target test module passes; if not, determining that the target test module has a fault.

Preferably, the process of partitioning the server system into N test module groups in advance includes:

determining the error rate of each test module in the server system in advance according to the historical operating condition of the server system;

dividing the server system into N test module groups containing test modules with different error rates;

correspondingly, after determining that the target test module group has a fault and before receiving a reset test instruction of the target test module, the stability test method of the server system further includes:

arranging the M test modules included in the target test module group according to a sequence from high error rate to low error rate, and displaying the arrangement sequence of the M test modules to a system interface so that the M test modules perform resetting test according to the arrangement sequence until the test modules with faults are determined.

Preferably, after determining that the target test module has a fault, the stability test method further includes:

and controlling a prompt device to send prompt information for representing the fault of the target test module so as to be referred by a tester.

Preferably, the prompting device is specifically an indicator light or a buzzer.

Preferably, the digital integrated circuit is embodied as a complex programmable logic device CPLD.

In order to solve the above technical problem, the present invention further provides a stability testing system of a server system, including:

the dividing module is used for dividing the server system into N test module groups in advance; wherein N is an integer greater than 1;

the Reset testing module is used for generating a Reset signal to the target mapping test module group when a Reset testing instruction of the target mapping test module group is received, so that the target mapping test module group executes restarting operation after receiving the Reset signal; wherein the target testing module group is any one of the N testing module groups;

the state detection module is used for detecting whether the working state of the target testing module group after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target testing module group is passed; if not, determining that the target test module group has a fault.

Preferably, the set of target testing modules comprises M testing modules; wherein M is a positive integer;

correspondingly, the Reset test module is specifically configured to generate a target Reset signal to the digital integrated circuit when receiving a Reset test instruction of the target test module group, so that the digital integrated circuit generates M paths of Reset signals after receiving the target Reset signal, and outputs the M paths of Reset signals to the M test modules one by one to restart the M test modules.

In order to solve the above technical problem, the present invention further provides a stability testing apparatus for a server system, including:

a memory for storing a computer program;

a processor for implementing the steps of any one of the above-mentioned stability testing methods of the server system when executing the computer program.

The invention provides a stability test method of a server system, which comprises the steps of dividing the server system into a plurality of test module groups, and then respectively carrying out reset test on each test module group to detect whether each test module group has faults or not. Therefore, in the test process of the application, if the server system cannot work normally after being restarted, the test module group with a fault can be obtained, so that the fault positioning range is reduced, and the system can perform fault positioning conveniently.

The invention also provides a system and a device for testing the stability of the server system, and the system and the device have the same beneficial effects as the stability testing method.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed in the prior art and the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a flowchart of a stability testing method for a server system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a server system stability test according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a stability testing system of a server system according to an embodiment of the present invention.

Detailed Description

The core of the invention is to provide a method, a system and a device for testing the stability of a server system, in the testing process of the application, if the server system cannot work normally after being restarted, a specific testing module group with faults can be obtained, thereby reducing the fault positioning range and facilitating the system to perform fault positioning.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a flowchart illustrating a stability testing method for a server system according to an embodiment of the present invention.

The stability test method of the server system comprises the following steps:

step S1: the server system is divided into N test module groups in advance.

It should be noted that N is an integer greater than 1, that is, the server system is divided into a plurality of test module groups.

Specifically, considering that a plurality of devices are included in the server system, and when the whole server system fails, the fault location range is too large, which is not beneficial to fault location analysis, the server system is divided into a plurality of test module groups in advance, and then each test module group is regarded as a test whole, so that a foundation is laid for performing individual reset test on each test module group in subsequent implementation.

Step S2: when a Reset test instruction of the target testing module group is received, a Reset signal is generated to the target testing module group, so that the target testing module group executes restarting operation after receiving the Reset signal.

It should be noted that the target testing module group is any one of the N testing module groups of step S1.

Specifically, since the plurality of test module groups divided in step S1 are individually subjected to the reset test, the tester needs to select one test module group from the N test module groups of step S1 as the target test module group to be currently subjected to the reset test. When a Reset test instruction of the target test module group sent by a tester is received, a Reset signal is generated to the target test module group. And the target mapping test module group executes restarting operation after receiving the Reset signal.

It is understood that, after the target testing module group currently prepared for the reset test completes the reset test, the tester needs to continue to select an untested testing module group from the N testing module groups of step S1 as the target testing module group to enter the reset test until all the N testing module groups of step S1 complete the reset test, that is, the server system portion completes the reset test.

Step S3: detecting whether the working state of the target mapping test module group after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target mapping test module group passes; if not, determining that the target test module group has a fault.

Specifically, considering that the system log of the server system is used for recording information of hardware, software and system problems in the server system, and meanwhile, events occurring in the server system can be monitored, the application can detect whether the working state of the target testing module group after the restart operation is performed is normal or not through the system log information.

If the working state of the target mapping test module group after the restarting operation is executed is normal, the target testing module group is considered to have no fault, namely the resetting test of the target mapping test module group passes; if the working state of the target testing module group after the restarting operation is executed is abnormal, the target testing module group is considered to have a fault, namely the resetting test of the target testing module group is failed, so that the specific testing module group with the fault is positioned.

The invention provides a stability test method of a server system, which comprises the steps of dividing the server system into a plurality of test module groups, and then respectively carrying out reset test on each test module group to detect whether each test module group has faults or not. Therefore, in the test process of the application, if the server system cannot work normally after being restarted, the test module group with a fault can be obtained, so that the fault positioning range is reduced, and the system can perform fault positioning conveniently.

On the basis of the above-described embodiment:

in an alternative embodiment, the target test module group includes M test modules; wherein M is a positive integer;

correspondingly, when a Reset test instruction of the target testing module group is received, a Reset signal is generated to the target testing module group, so that the target testing module group executes a process of restarting operation after receiving the Reset signal, which includes:

when a Reset test instruction of the target test module group is received, a target Reset signal is generated to the digital integrated circuit, so that the digital integrated circuit generates M paths of Reset signals after receiving the target Reset signal, and the M paths of Reset signals are output to the M test modules one by one to restart the M test modules.

Specifically, the stability testing method of the server system in the present application can be implemented by a controller (e.g., a CPU (Central Processing Unit)) of the server system, but the number of Reset signals output by the controller of the server system is limited, and further division of the test module group cannot be implemented, so that the present application implements further division of the test module group by using a digital integrated circuit whose output semaphore is greater than input semaphore, and the specific principle is (explained with a target test module group):

the target test module group comprises M test modules, for the target test module group, one input end of a digital integrated circuit is connected with a controller, and M output ends of the digital integrated circuit are connected with the M test modules one by one. When the controller of the application receives a Reset test instruction of the target test module group, a target Reset signal is generated to the digital integrated circuit. After receiving the target Reset signals, the digital integrated circuit generates M paths of Reset signals and outputs the M paths of Reset signals to the M test modules one by one. Each test module performs a restart operation upon receiving the Reset signal. As can be seen, the target testing module group is further divided into M testing modules, so that each testing module is regarded as a whole, and a foundation is laid for performing a separate resetting test on each testing module in a subsequent implementation.

For example, the controller of the present application can only output N Reset signals, and if the test module group is divided according to the following table 1 (table 1 is the input-output corresponding relationship of the digital integrated circuit): the test module group 1 includes a test module 1 and a test module 2, the test module group 2 includes a test module 3, the test module group 3 includes a test module 4, a test module 5, and a test module 6 … …, the test module group N includes a test module K (K > N, and K is a positive integer), and the digital integrated circuit needs to correspondingly output K paths of Reset signals (as shown in fig. 2) when inputting N paths of Reset signals.

TABLE 1

As an optional embodiment, after determining that the target test module group has a fault, the stability testing method of the server system further includes:

when a Reset test instruction of the target test module is received, controlling the digital integrated circuit to generate a Reset signal to the target test module so that the target test module executes restart operation after receiving the Reset signal; the target test module is any one of M test modules;

detecting whether the working state of the target testing module after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target testing module passes; if not, determining that the target test module has a fault.

Further, after determining that the target testing module group has a fault, the present application may perform an individual reset test on each testing module in the target testing module group, so as to locate the testing module having the fault, that is, gradually reduce the fault location range in a layer-by-layer advancing manner.

Specifically, the method sends the reset test instruction of the target test module to the digital integrated circuit when receiving the reset test instruction (which can be sent by a tester) of the target test module. The digital integrated circuit generates a Reset signal to the target test module after receiving the Reset test instruction of the target test module. The target test module performs a restart operation after receiving the Reset signal.

Similarly, the method and the device can detect whether the working state of the target test module after the restarting operation is executed is normal or not according to the system log information, and if the working state of the target test module after the restarting operation is executed is normal, the target test module is considered to have no fault, namely the resetting test of the target test module is passed; if the working state of the target test module after the restart operation is executed is abnormal, the target test module is considered to have a fault, namely the reset test of the target test module fails, so that the specific test module with the fault is positioned.

It can be understood that, when a specific test module with a fault is located, the application may stop the reset test of the remaining test modules, and the located test module with the fault is considered to be the cause of the fault of the target test module group.

As an optional embodiment, the process of partitioning the server system into N test module groups in advance includes:

determining the error rate of each test module in the server system in advance according to the historical operating condition of the server system;

dividing a server system into N test module groups containing test modules with different error rates;

correspondingly, after determining that the target test module group has a fault, before receiving a reset test instruction of the target test module, the stability test method of the server system further includes:

arranging the M testing modules included in the target testing module group according to the sequence of the error rate from large to small, and displaying the arrangement sequence of the M testing modules to a system interface so as to enable the M testing modules to carry out resetting testing according to the arrangement sequence until the testing modules with faults are determined.

Further, considering that the error rates of the test modules in the server system are different, it can be understood that when one test module group has a fault, the possibility that the fault of the test module group is caused by the test module with the higher error rate is higher, so that the application can preferentially perform the reset test on the test module with the higher error rate, and the specific test module with the fault is quickly located.

Specifically, the server system can be divided into K test modules in advance, the error rate of each test module in the server system is determined according to the historical operating conditions of the server system, and then in the division of the test module group, if one test module group comprises a plurality of test modules, the error rates of the plurality of test modules in the test module group are different from each other (preferably, the error rate difference between different test modules is greater than the error rate threshold value, that is, the difference is greater).

After the target testing module group is determined to have faults, the M testing modules included in the target testing module group are arranged according to the sequence of the error rate from high to low, and the arrangement sequence of the M testing modules is displayed on a system interface for the reference of a tester. It can be understood that the arrangement order of the M test modules is the test order of the M test modules, so that the reset test is preferentially performed on the test module with the higher error rate.

As an optional embodiment, after determining that the target test module has a fault, the stability test method further includes:

and controlling the prompting device to send out prompting information for representing the fault of the target test module so as to be referred by a tester.

Specifically, after the target test module is determined to have a fault, the control prompting device can be controlled to send out prompting information for representing the fault of the target test module, so that a tester can determine that the target test module has the fault in time based on the prompting information, and the target test module with the fault can be further analyzed.

As an optional embodiment, the prompting device is specifically an indicator light or a buzzer.

Specifically, the prompting device of the present application may be selected from, but not limited to, an indicator light (that represents the fault conditions of different test modules one by one through the flashing states or light colors of the indicator light) or a buzzer (that represents the fault conditions of different test modules one by one through different buzzing sounds of the buzzer), and the present application is not limited specifically herein.

As an alternative embodiment, the digital integrated circuit is embodied as a complex programmable logic device CPLD.

Specifically, the digital integrated circuit of the present application can be selected from, but not limited to, a CPLD (Complex Programmable Logic Device) with a powerful Logic control function, and the present application is not limited thereto.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a stability testing system of a server system according to an embodiment of the present invention.

The stability test system of the server system includes:

the dividing module 1 is used for dividing the server system into N test module groups in advance; wherein N is an integer greater than 1;

the Reset testing module 2 is used for generating a Reset signal to the target testing module group when receiving a Reset testing instruction of the target testing module group, so that the target testing module group executes restarting operation after receiving the Reset signal; the target testing module group is any one of the N testing module groups;

the state detection module 3 is used for detecting whether the working state of the target testing module group after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target testing module group is passed; if not, determining that the target test module group has a fault.

In an alternative embodiment, the target test module group includes M test modules; wherein M is a positive integer;

correspondingly, the Reset test module 2 is specifically configured to generate a target Reset signal to the digital integrated circuit when receiving a Reset test instruction of the target test module group, so that the digital integrated circuit generates M paths of Reset signals after receiving the target Reset signal, and outputs the M paths of Reset signals to the M test modules one by one to restart the M test modules.

For the introduction of the stability testing system provided by the present invention, reference is made to the above-mentioned embodiment of the stability testing method, and the present invention is not repeated herein.

The invention also provides a stability testing device of the server system, which comprises:

a memory for storing a computer program;

a processor for implementing the steps of any of the above described stability testing methods of the server system when executing the computer program.

For the introduction of the stability testing apparatus provided by the present invention, reference is made to the above-mentioned embodiments of the stability testing method, and the present invention is not described herein again.

It is further noted that, in the present specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A stability testing method of a server system is characterized by comprising the following steps:

dividing a server system into N test module groups in advance; wherein N is an integer greater than 1;

when a Reset test instruction of a target mapping test module group is received, generating a Reset signal to the target mapping test module group so that the target mapping test module group executes a restart operation after receiving the Reset signal; the target testing module group is any one of the N testing module groups;

detecting whether the working state of the target mapping test module group after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target mapping test module group passes; if not, determining that the target test module group has a fault;

the target mapping test module group comprises M test modules; wherein M is a positive integer;

correspondingly, the process of generating a Reset signal to the target testing module group when receiving the Reset testing instruction of the target testing module group, so that the target testing module group performs a restart operation after receiving the Reset signal includes:

when a Reset test instruction of a target test module group is received, generating a target Reset signal to a digital integrated circuit, so that the digital integrated circuit generates M paths of Reset signals after receiving the target Reset signal, and outputting the M paths of Reset signals to M test modules one by one to restart the M test modules;

after determining that the target test module group has a fault, the stability test method of the server system further includes:

when a Reset test instruction of a target test module is received, controlling the digital integrated circuit to generate a Reset signal to the target test module so that the target test module executes a restart operation after receiving the Reset signal; the target test module is any one of the M test modules;

detecting whether the working state of the target test module after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target test module passes; if not, determining that the target test module has a fault;

the process of pre-dividing the server system into N test module groups includes:

determining the error rate of each test module in the server system in advance according to the historical operating condition of the server system;

dividing the server system into N test module groups containing test modules with different error rates;

correspondingly, after determining that the target test module group has a fault and before receiving a reset test instruction of the target test module, the stability test method of the server system further includes:

arranging the M test modules included in the target test module group according to a sequence from high error rate to low error rate, and displaying the arrangement sequence of the M test modules to a system interface so that the M test modules perform resetting test according to the arrangement sequence until the test modules with faults are determined.

2. The stability testing method of the server system according to claim 1, wherein after determining that the target test module has a failure, the stability testing method further comprises:

and controlling a prompt device to send prompt information for representing the fault of the target test module so as to be referred by a tester.

3. The method for testing the stability of the server system according to claim 2, wherein the prompting device is specifically an indicator light or a buzzer.

4. A method for testing the stability of a server system according to any one of claims 1 to 3, characterized in that said digital integrated circuit is embodied as a complex programmable logic device, CPLD.

5. A stability testing system of a server system, comprising:

the dividing module is used for dividing the server system into N test module groups in advance; wherein N is an integer greater than 1;

the Reset testing module is used for generating a Reset signal to the target mapping test module group when a Reset testing instruction of the target mapping test module group is received, so that the target mapping test module group executes restarting operation after receiving the Reset signal; wherein the target testing module group is any one of the N testing module groups;

the state detection module is used for detecting whether the working state of the target testing module group after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target testing module group passes; if not, determining that the target test module group has a fault;

the target mapping test module group comprises M test modules; wherein M is a positive integer;

correspondingly, the Reset test module is specifically configured to generate a target Reset signal to the digital integrated circuit when receiving a Reset test instruction of the target test module group, so that the digital integrated circuit generates M paths of Reset signals after receiving the target Reset signal, and outputs the M paths of Reset signals to the M test modules one by one to restart the M test modules;

after determining that the target test module group has a fault, the stability test system of the server system is further configured to:

when a Reset test instruction of a target test module is received, controlling the digital integrated circuit to generate a Reset signal to the target test module so that the target test module executes a restart operation after receiving the Reset signal; the target test module is any one of the M test modules;

detecting whether the working state of the target testing module after the restarting operation is executed is normal or not according to the system log information, and if so, determining that the resetting test of the target testing module is passed; if not, determining that the target test module has a fault;

the dividing module is specifically used for determining the error rate of each testing module in the server system in advance according to the historical operating condition of the server system; dividing the server system into N test module groups containing test modules with different error rates;

correspondingly, after determining that the target test module group has a fault, before receiving a reset test instruction of the target test module, the stability test system of the server system is further configured to:

arranging the M test modules included in the target test module group according to a sequence from high error rate to low error rate, and displaying the arrangement sequence of the M test modules to a system interface so that the M test modules perform resetting test according to the arrangement sequence until the test modules with faults are determined.

6. A stability testing apparatus of a server system, comprising:

a memory for storing a computer program;

a processor for implementing the steps of the stability testing method of the server system according to any of claims 1-4 when executing the computer program.

Images