CN112115011A - Method, device and system for testing automatic sleep function in Linux system - Google Patents

Abstract

The invention provides an automatic dormancy function testing method under a Linux system, which comprises the following steps: creating a sleep function module according to the type of the processor platform, wherein the sleep function module is used for realizing the sleep function of the Linux system; storing the dormancy function module and endowing the dormancy function module with automatic starting execution authority; setting the number of times of testing the dormant function, and configuring a system timing file; the programmable logic device sends a starting-up instruction when detecting that a first preset condition is met according to the configured system timing file; the invention also provides an automatic dormancy function testing device and system under the Linux system, and the efficiency and the test stability of the dormancy function test are effectively improved.

Description

Method, device and system for testing automatic sleep function in Linux system

Technical Field

The invention relates to the field of sleep function testing, in particular to an automatic sleep function testing method, device and system in a Linux system.

Background

As the performance and stability of the computers of the domestic processor platforms are gradually improved and slowly accepted by the market, the demand of the client group and the market is increasing.

S3 is the sleep function of the operating system, S4 is the sleep function of the operating system, S4 is the frequently used function of the computer, it is more energy-saving and power-saving, suitable for long-time computer not to use, and use this function when needing to keep the relevant working condition. According to the mainstream test standard of the current computer, S4 needs to test a plurality of machines for more than 500 times in a circulating way to ensure the functional stability of the product.

However, since the domestic processor platform is limited by hardware, an Operating System (OS) and the like, the conventional S4 script cannot be run conventionally, and only the S4 recovery test can be performed manually, and the test mode is low in efficiency and large in manpower occupation; and the test frequency can not meet the test requirement of stability far, and the risk is easily caused to the use of an end user.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and innovatively provides an automatic sleep function testing method, device and system in a Linux system, so that the problems of low sleep function testing efficiency and stability caused by the prior art are effectively solved, and the sleep function testing efficiency and testing stability are effectively improved.

The first aspect of the invention provides a method for testing an automatic sleep function in a Linux system, which comprises the following steps:

creating a sleep function module according to the type of the processor platform, wherein the sleep function module is used for realizing the sleep function of the Linux system;

storing the dormancy function module and endowing the dormancy function module with automatic starting execution authority;

setting the number of times of testing the dormant function, and configuring a system timing file;

the programmable logic device sends a starting-up instruction when detecting that a first preset condition is met according to the configured system timing file;

and after receiving the starting instruction, the server to be tested controls the dormant function module to carry out the dormant function test according to the times of setting the dormant function test.

Optionally, the first preset condition is that the duration of the system after power down is greater than the first time period.

Optionally, the method further comprises:

and monitoring the testing process of the sleep function, stopping testing if the testing process is abnormal, and recording an abnormal log.

Optionally, the number of times that the programmable logic device sends the boot instruction is correspondingly the same as the number of times that the sleep function test is performed.

Optionally, when the sleep function module is located in the test server, the test server controls sleep function tests of a plurality of servers to be tested.

Optionally, the programmable logic device is a CPLD.

The second aspect of the present invention provides an automatic sleep function testing apparatus in a Linux system, including:

the system comprises a creating unit, a judging unit and a judging unit, wherein the creating unit is used for creating a sleep function module according to the type of a processor platform, and the sleep function module is used for realizing the sleep function of the Linux system;

the storage unit is used for storing the dormancy function module and endowing the dormancy function module with automatic starting execution permission;

the setting unit is used for setting the times of the sleep function test and configuring a system timing file;

the programmable logic device sends a starting-up instruction when detecting that a first preset condition is met according to the configured system timing file;

and the test unit is used for controlling the dormant function module to carry out the dormant function test according to the times of setting the dormant function test after the server to be tested receives the starting instruction.

Optionally, the first preset condition is that the duration of the system after power down is greater than the first time period.

Optionally, the method further comprises:

and the monitoring unit is used for monitoring the testing process of the sleep function, stopping testing if the testing process is abnormal and recording an abnormal log.

The third aspect of the invention provides an automatic sleep function test system under a Linux system, which comprises a test server and a plurality of servers to be tested, wherein the test server comprises a sleep function module and a programmable logic controller, and is used for controlling the sleep function test of a plurality of servers to be tested; and the server to be tested is used for receiving the dormancy function module and carrying out the dormancy function test under the control of the test server.

The technical scheme adopted by the invention comprises the following technical effects:

1. the invention effectively solves the problem of lower testing efficiency and stability of the dormant function caused by the prior art, and effectively improves the testing efficiency and the testing stability of the dormant function.

2. According to the technical scheme, the first preset condition is that the time length of the system after power failure is longer than the first time period, and other function abnormity caused by premature dormancy due to incomplete entering of the operating system is prevented.

3. According to the technical scheme, the sleep function test of the sleep function module is monitored, if the sleep function module is abnormal, the test is stopped, and the abnormal log is recorded, so that the whole process monitoring in the test process is realized, the abnormal problem is found in time, and the test personnel can adjust the sleep function module in time.

4. According to the technical scheme, when the dormancy function module is located in the test server, the test server can control the dormancy function test of the servers to be tested, and the test efficiency of the dormancy function test is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present invention, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without any creative effort.

FIG. 1 is a schematic flow diagram of a process according to an embodiment of the present invention;

FIG. 2 is a schematic flow diagram of a second method embodiment of the present invention;

FIG. 3 is a schematic flow diagram of a third embodiment of a method according to aspects of the present invention;

FIG. 4 is a schematic structural diagram of a fourth apparatus according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a fifth embodiment of the apparatus according to the present invention;

fig. 6 is a schematic structural diagram of a sixth apparatus according to an embodiment of the present invention.

Detailed Description

In order to clearly explain the technical features of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings. The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. To simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. It should be noted that the components illustrated in the figures are not necessarily drawn to scale. Descriptions of well-known components and processing techniques and procedures are omitted so as to not unnecessarily limit the invention.

Example one

As shown in fig. 1, the present invention provides a method for testing an automatic sleep function in a Linux system, including:

s11, creating a sleep function module according to the type of the processor platform, wherein the sleep function module is used for realizing the sleep function of the Linux system;

s12, storing the dormancy function module and giving the dormancy function module a power-on automatic execution authority;

s13, setting the times of the sleep function test and configuring a system timing file;

s14, the programmable logic device sends a starting instruction when detecting that a first preset condition is met according to the configured system timing file;

and S15, after the server to be tested receives the starting instruction, controlling the dormancy function module to perform the dormancy function test according to the times of setting the dormancy function test.

In step S11, the hibernation function module may be implemented by a script program, and the operation principle is to store the operating/cache data of the operating system (Linux system) in the hard disk, and then the operating system is powered off, and the operating state is basically in the power-off state, and if it needs to be restored, the power-on function of the power-on key needs to be triggered normally. The sleep function modules are specifically in one-to-one correspondence with processor platform types (such as X86, soar, mega core, and the like), and different processor platform types correspond to different sleep function modules, so that the sleep function modules can be operated in different processor platforms, and sleep function tests in Linux system environments in different processor platforms are realized.

In step S12, the hibernation function module may be stored in the system/opt directory and be given the power-on automatic execution authority.

In steps S13-S14, the number of times of the sleep function test is set, a system timing file is configured, the number of times of the sleep function test may be 500, or may be flexibly selected according to an actual situation, and the configuration of the system timing file is mainly to configure a first preset condition, that is, to control the programmable logic device, so that the programmable logic device can trigger a corresponding mechanism when the first preset condition is satisfied, so that the programmable logic device sends a power-on instruction. The first preset condition is that the duration of the system after power down is longer than a first time period, the first time period may be two minutes, the programmable logic device may be a CPLD (complex programmable logic device), and may also be flexibly selected according to the actual situation, which is not limited herein.

The times of sending the starting-up instruction by the programmable logic device are correspondingly the same as the times of testing the dormancy function. Specifically, the system S4 functions to cache data on the hard disk, and when the system goes to sleep, the system power is cut off. The CPLD can control the power-on time sequence of the mainboard, starts timing when the voltage of the monitoring system is cut off by modifying the firmware of the CPLD, and modifies the power-on time sequence, so that the CPLD sends a starting instruction when meeting a first preset condition. The function of the programmable logic device can be realized by programming in the CPLD, the programming idea corresponds to the function steps realized by the programmable logic device, and the modified CPLD program can be written into the CPLD firmware through the BIOSsetup interface or can be burnt into the CPLD chip through a burner.

The system S4 functions to cache data on the hard disk, and when the system goes to sleep, the system is powered off. The CPLD can control the power-on time sequence of the mainboard, monitor the system voltage and modify the power-on time sequence by modifying the firmware of the CPLD, so that the CPLD sends a starting instruction when meeting a first preset condition,

the invention effectively solves the problem of lower testing efficiency and stability of the dormant function caused by the prior art, and effectively improves the testing efficiency and the testing stability of the dormant function.

According to the technical scheme, the first preset condition is that the time length of the system after power failure is longer than the first time period, and other function abnormity caused by premature dormancy due to incomplete entering of the operating system is prevented.

Example two

As shown in fig. 2, the technical solution of the present invention further provides a method for testing an automatic sleep function in a Linux system, including:

s11, creating a sleep function module according to the type of the processor platform, wherein the sleep function module is used for realizing the sleep function of the Linux system;

s12, storing the dormancy function module and giving the dormancy function module a power-on automatic execution authority;

s13, setting the times of the sleep function test and configuring a system timing file;

s14, the programmable logic device sends a starting instruction when detecting that a first preset condition is met according to the configured system timing file;

s15, after receiving the starting instruction, the server to be tested controls the dormancy function module to test the dormancy function according to the times of setting the dormancy function test;

and S16, monitoring the testing process of the sleep function, stopping testing if abnormal, and recording an abnormal log.

According to the technical scheme, the sleep function test of the sleep function module is monitored, if the sleep function module is abnormal, the test is stopped, and the abnormal log is recorded, so that the whole process monitoring in the test process is realized, the abnormal problem is found in time, and the test personnel can adjust the sleep function module in time.

EXAMPLE III

As shown in fig. 3, the technical solution of the present invention further provides an automatic sleep function testing method in a Linux system, where when a sleep function module is located in a test server, the test server controls sleep function tests of a plurality of servers to be tested, and the method specifically includes:

s21, the test server is in communication connection with a plurality of servers to be tested in a PXE (preboot execution environment) mode;

s22, the test server creates different dormancy function modules according to the processor platform type of the server to be tested, and the dormancy function modules are used for realizing the dormancy function of the Linux system in the server to be tested;

s23, the testing server stores the dormancy function module and gives the dormancy function module the automatic execution authority for starting up;

s24, the testing server sets the times of the dormancy function test and configures the system timing file;

s25, the programmable logic device in the test server detects each server to be tested according to the configured system timing file, and when detecting that the server to be tested meets a first preset condition, the programmable logic device sends a starting instruction to the corresponding server to be tested meeting the first preset condition;

s26, after receiving the starting instruction of the test server, the server to be tested controls the dormancy function module to test the dormancy function according to the number of times of setting the dormancy function test;

and S27, the testing server monitors the testing process of the dormancy function of each server to be tested, if abnormal, the testing of the corresponding server to be tested is stopped, and an abnormal log is recorded.

According to the technical scheme, when the dormancy function module is located in the test server, the test server can control the dormancy function test of the servers to be tested, and the test efficiency of the dormancy function test is improved.

Example four

As shown in fig. 4, the technical solution of the present invention further provides an automatic sleep function testing apparatus in a Linux system, including:

the system comprises a creating unit 101, a processing unit and a control unit, wherein the creating unit creates a sleep function module according to the type of a processor platform, and the sleep function module is used for realizing the sleep function of a Linux system;

the storage unit 102 is used for storing the dormant function module and endowing the dormant function module with automatic starting execution permission;

a setting unit 103, which sets the number of times of the sleep function test and configures a system timing file;

the detection sending unit 104 is used for sending a starting instruction when the programmable logic device detects that a first preset condition is met according to the configured system timing file;

and the test unit 105 controls the dormant function module to perform the dormant function test according to the number of times of the dormant function test after the server to be tested receives the starting instruction.

The first preset condition is that the duration of the system after power failure is longer than a first time period.

The invention effectively solves the problem of lower testing efficiency and stability of the dormant function caused by the prior art, and effectively improves the testing efficiency and the testing stability of the dormant function.

According to the technical scheme, the first preset condition is that the time length of the system after power failure is longer than the first time period, and other function abnormity caused by premature dormancy due to incomplete entering of the operating system is prevented.

EXAMPLE five

As shown in fig. 5, the technical solution of the present invention further provides an automatic sleep function testing apparatus in a Linux system, including:

the system comprises a creating unit 101, a processing unit and a control unit, wherein the creating unit creates a sleep function module according to the type of a processor platform, and the sleep function module is used for realizing the sleep function of a Linux system;

the storage unit 102 is used for storing the dormant function module and endowing the dormant function module with automatic starting execution permission;

a setting unit 103, which sets the number of times of the sleep function test and configures a system timing file;

the detection sending unit 104 is used for sending a starting instruction when the programmable logic device detects that a first preset condition is met according to the configured system timing file;

the test unit 105, after receiving the start-up instruction, the server to be tested controls the dormant function module to perform the dormant function test according to the number of times of setting the dormant function test;

and the monitoring unit 106 is used for monitoring the sleep function test of the sleep function module, stopping the test if the sleep function module is abnormal, and recording an abnormal log.

According to the technical scheme, the sleep function test of the sleep function module is monitored, if the sleep function module is abnormal, the test is stopped, and the abnormal log is recorded, so that the whole process monitoring in the test process is realized, the abnormal problem is found in time, and the test personnel can adjust the sleep function module in time.

EXAMPLE six

As shown in fig. 6, the technical solution of the present invention further provides an automatic sleep function testing system under a Linux system, including a testing server 21 and a plurality of servers 22 to be tested, where the testing server 21 includes a sleep function module 211 and a programmable logic controller 212, and is used to control sleep function tests of the plurality of servers 22 to be tested; the server under test 22 is configured to receive the sleep function module 211 and perform a sleep function test under the control of the test server 21.

According to the technical scheme, when the dormancy function module is located in the test server, the test server can control the dormancy function test of the servers to be tested, and the test efficiency of the dormancy function test is improved.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, it is not intended to limit the scope of the present invention, and it should be understood by those skilled in the art that various modifications and variations can be made without inventive efforts by those skilled in the art based on the technical solution of the present invention.

Claims (10)

1. A method for testing an automatic sleep function in a Linux system is characterized by comprising the following steps:

creating a sleep function module according to the type of the processor platform, wherein the sleep function module is used for realizing the sleep function of the Linux system;

storing the dormancy function module and endowing the dormancy function module with automatic starting execution authority;

setting the number of times of testing the dormant function, and configuring a system timing file;

the programmable logic device sends a starting-up instruction when detecting that a first preset condition is met according to the configured system timing file;

and after receiving the starting instruction, the server to be tested controls the dormant function module to carry out the dormant function test according to the times of setting the dormant function test.

2. The method for testing the auto-sleep function in the Linux system according to claim 1, wherein the first predetermined condition is that the duration of the system after power down is longer than a first time period.

3. The method for testing automatic sleep function in Linux system according to claim 1, further comprising:

and monitoring the testing process of the sleep function, stopping testing if the testing process is abnormal, and recording an abnormal log.

4. The method for testing automatic sleep function in Linux system according to claim 1, wherein the number of times the programmable logic device sends the power-on command is equal to the number of times the sleep function is tested.

5. The method for testing automatic sleeping function in Linux system according to any of claims 1-4, wherein when the sleeping function module is located in the test server, the test server controls the testing of sleeping function of the plurality of servers under test.

6. The method for testing automatic sleep function in Linux system according to any of claims 1-4, wherein the programmable logic device is a CPLD.

7. An automatic dormancy function testing device under a Linux system is characterized by comprising:

the system comprises a creating unit, a judging unit and a judging unit, wherein the creating unit is used for creating a sleep function module according to the type of a processor platform, and the sleep function module is used for realizing the sleep function of the Linux system;

the storage unit is used for storing the dormancy function module and endowing the dormancy function module with automatic starting execution permission;

the setting unit is used for setting the times of the sleep function test and configuring a system timing file;

the programmable logic device sends a starting-up instruction when detecting that a first preset condition is met according to the configured system timing file;

and the test unit is used for controlling the dormant function module to carry out the dormant function test according to the times of setting the dormant function test after the server to be tested receives the starting instruction.

8. The apparatus for testing auto-sleep function in Linux system of claim 7, wherein the first predetermined condition is that the duration of the system after power-down is greater than the first time period.

9. The apparatus for testing auto-sleep function in Linux system of claim 7, further comprising:

and the monitoring unit is used for monitoring the testing process of the sleep function, stopping testing if the testing process is abnormal and recording an abnormal log.

10. An automatic dormancy function test system under a Linux system is characterized by comprising a test server and a plurality of servers to be tested, wherein the test server comprises a dormancy function module and a programmable logic controller and is used for controlling dormancy function tests of the plurality of servers to be tested; and the server to be tested is used for receiving the dormancy function module and carrying out the dormancy function test under the control of the test server.

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