CN111966543B - System and method for testing stability of storage OSES system - Google Patents

Abstract

The invention provides a system and a method for testing the stability of a storage OSES system, wherein the system comprises a client, a power supply control module and a tested storage; the tested storage comprises an OSES system; the power supply control module is connected with the tested storage; the client is provided with a log generation module which is used for log files; the client is connected with the power supply control module and used for controlling the output end of the power supply control module to realize the power-on and power-off of the tested storage; the client is connected with the tested storage and used for writing the generated log file into the tested storage; and the device is also used for viewing the log file written by the tested storage. The stability of the OSES system is tested by simulating to generate a log file and periodically and repeatedly carrying out abnormal power failure on the OSES system, so that the robustness of the file system corresponding to the OSES record log is ensured. The stability of the OSES system can be well verified, and the storage related logs recorded by the OSES are ensured not to be lost.

Description

System and method for testing stability of storage OSES system

Technical Field

The invention relates to the technical field of storage system stability testing, in particular to a system and a method for testing the stability of an OSES system.

Background

With the continuous development of the technology in the IT field, the stability requirement of the traditional informatization service and the increasingly strong big data service on the storage oss (Organic SCSI enclosure service) management module is higher and higher. Management of the chassis, fans, power supplies, disks, etc. of the storage device all rely on the OSES management module. The OSES is used as a special processor and is used for monitoring storage, measuring the temperature, the power supply voltage, the fan rotating speed and the like in the storage through a sensor, recording the stored abnormal state in a system event log mode when the temperature, the humidity, the power supply voltage or the fan rotating speed in the storage exceeds a preset threshold value, and obtaining the stored state according to the system event log by a storage manager so as to repair the storage with faults. In order to ensure that the OSES can normally record abnormal conditions occurring in storage in a log recording manner, after the OSES design is completed, a stability test needs to be performed on a file system (a partition for storing logs) of the OSES, so that the file system is not damaged and the logs cannot be read.

At present, a great number of test methods and means exist for the accuracy and the capability of logging OSES, but there is no clear corresponding test method and means for the stability (whether the OSES file system is damaged or not) of the OSES file system. Once a corresponding partition of the OSES system storage log is corrupted, it is impossible to view both the own log of OSES records and the associated log of the storage it monitors.

Disclosure of Invention

The invention provides a system and a method for testing the stability of an OSES system, aiming at the problem that once a corresponding partition of the OSES system storage log is damaged, the own log of an OSES record and the monitored storage related log cannot be checked.

The technical scheme of the invention is as follows:

on one hand, the technical scheme of the invention provides a test system for storing the stability of an OSES system, which comprises a client, a power supply control module and a tested memory; the tested storage comprises an OSES system; the power supply control module is connected with the tested storage;

the client is provided with a log generation module which is used for log files;

the client is connected with the power supply control module and used for controlling the output end of the power supply control module to realize the power-on and power-off of the tested storage;

the client is connected with the tested storage and used for writing the generated log file into the tested storage; and the device is also used for viewing the log file written by the tested storage. The client controls the output end of the power supply control module to realize power-on and power-off of the tested storage OSES system, and further realizes abnormal power-off when the tested storage OSES system is written in, so that the stability of the tested storage OSES system is verified, and storage related logs recorded by the tested storage OSES system are not lost.

Further, the power supply control module is connected with an AC220V voltage power supply input and used for controlling the power supply input of the tested storage.

Further, the client is provided with an instruction issuing module, and the instruction issuing module is used for issuing a power-off instruction to the power control module to control the tested storage power-off in the log file writing process; and the power supply control module is also used for waiting for a set time interval to issue a power-on instruction to the power supply control module to control the tested storage to be powered on.

Further, the client is further provided with a detection module for detecting whether the OSES system network to be detected can communicate, and the detection module is specifically used for detecting whether the OSES system network to be detected can communicate by ping the IP address of the OSES system to be detected to judge whether the detected storage is powered on or powered off.

Further, the detection module is used for ping the IP address of the OSES system to be detected and stored after the instruction issuing module issues the power-off instruction, and if the IP address of the OSES system to be detected and stored cannot be ping, the detected storage power-off is judged to be completed; the power-on instruction issuing module is also used for ping the IP address of the OSES system to be tested and stored after the power-on instruction issuing module issues the power-on instruction, and if the ping is communicated with the IP address of the OSES system to be tested and stored, the fact that the power-on of the storage to be tested is completed is judged.

Furthermore, the client is also provided with a counting module, and the counting module is used for recording the frequency of the power-off instruction issued by the instruction issuing module. The circulation test is convenient to carry out.

On the other hand, the technical scheme of the invention also provides a method for testing the stability of the storage OSES system, which comprises the following steps:

generating a log file;

writing the generated log file into a tested storage;

in the log file writing process, a power-off command is issued to the power control module to control the tested storage power-off and record the power-off times;

after the tested storage is powered off successfully, a power-on instruction is issued to the power supply control module at a set time interval to control the power-on of the tested storage;

after the tested storage is successfully powered on, checking the log file written in the tested storage, if the log file written in the tested storage can be normally checked, judging whether the preset power-off times are reached, and if so, finishing the test; if not, executing the steps: and writing the generated log file into a storage to be tested.

Further, after the tested storage is powered off successfully, the step of waiting for a set time interval to issue a power-on command to the power control module to control the power-on of the tested storage comprises the following steps:

detecting whether the OSES system network to be tested can communicate; the method specifically comprises the following steps:

and ping the IP address of the OSES system to be tested and stored, and if the IP of the OSES system cannot be ping communicated, judging that the power-off of the OSES system to be tested and stored is finished.

Further, after the tested storage power-off is successful, the step of waiting for a set time interval to issue a power-on instruction to the power control module to control the tested storage power-on includes:

detecting whether the tested storage OSES system network can communicate; the method specifically comprises the following steps:

ping the IP address of the OSES system to be tested and stored, and if ping the IP address of the OSES system to be tested and stored, judging that the power-on of the OSES system to be tested and stored is completed.

Further, the method also comprises the following steps:

and if the log file of the OSES system cannot be checked or is lost, outputting prompt information.

According to the technical scheme, the invention has the following advantages: the stability of the OSES system is tested by simulating to generate a log file and periodically and repeatedly carrying out abnormal power-off on the OSES system, so that the robustness of the file system corresponding to the log recorded by the OSES system is ensured. The stability of the OSES system can be well verified, and storage-related logs recorded by the OSES system are ensured not to be lost.

In addition, the invention has reliable design principle, simple structure and very wide application prospect.

Therefore, compared with the prior art, the invention has prominent substantive features and remarkable progress, and the beneficial effects of the implementation are also obvious.

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 creative efforts.

FIG. 1 is a schematic block diagram of a system of one embodiment of the present invention.

FIG. 2 is a schematic flow diagram of a method of one embodiment of the invention.

Detailed Description

In order to make those skilled in the art better understand the technical solutions of the present invention, 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 only a part of the embodiments of the present invention, and not all of the embodiments. 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, shall fall within the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a test system for storing stability of an OSES system, including a client, a power control module, and a storage under test; the tested storage comprises an OSES system; the power supply control module is connected with the tested storage;

the client is provided with a log generation module which is used for log files;

the client is connected with the power supply control module and used for controlling the output end of the power supply control module to realize the power-on and power-off of the tested storage;

the client is connected with the tested storage and used for writing the generated log file into the tested storage; and the device is also used for viewing the log file written by the tested storage. The client controls the output end of the power control module to realize power-on and power-off of the OSES system to be tested, and further realizes abnormal power-off when the OSES system is written in, so that the stability of the OSES system to be tested is verified, and storage related logs recorded by the OSES system to be tested are ensured not to be lost.

It should be noted that the power control module is connected to the AC220V power supply input for controlling the power input of the storage under test.

In some embodiments, the client is provided with an instruction issuing module, and the instruction issuing module is used for issuing a power-off instruction to the power control module to control the tested storage power-off in the log file writing process; and the power supply control module is also used for sending a power-on instruction to the power supply control module to control the power-on of the tested storage at a set time interval.

In some embodiments, the client is further provided with a detection module for detecting whether the oss system network under test can communicate, where the detection module is specifically configured to detect whether the oss system network under test can communicate by using an IP address of the oss system under test for ping the storage under test to determine whether the storage under test is powered on or powered off.

The detection module is used for ping the IP address of the OSES system to be detected and stored after the instruction issuing module issues the power-off instruction, and judging that the detected storage is completed when the IP address of the OSES system to be detected and stored cannot be ping; the power-on instruction issuing module is also used for ping the IP address of the OSES system to be tested and stored after the power-on instruction issuing module issues the power-on instruction, and if the ping is communicated with the IP address of the OSES system to be tested and stored, the fact that the power-on of the storage to be tested is completed is judged.

In some embodiments, the client is further provided with a counting module, and the counting module is used for recording the number of times of issuing the power-off instruction by the instruction issuing module. The circulation test is convenient to carry out.

In some embodiments, the log generation module set by the client is an ose _ log.sh script, and the script continuously triggers storage to generate a large number of log files; wherein a script OSES _ log of an OSES system log file is repeatedly generated

The invention provides a system for testing the stability of an OSES file system, which comprises a client, a power supply control module and a tested memory (the default memory comprises an OSES system). The power supply control module is connected with AC220V voltage power supply input and is responsible for controlling the power supply input of the tested storage; the client is connected with the OSES system to be tested and continuously writes the log file of the OSES system; the client controls the output end of the power supply control module to realize power-on and power-off of the OSES system to be tested, and further realize abnormal power-off when the OSES system is being written in, so that the stability of the OSES system to be tested is verified, and storage related logs recorded by the OSES system are ensured not to be lost.

As shown in fig. 2, an embodiment of the present invention further provides a method for testing stability of an oss system, including the following steps:

s1: generating a log file;

s2: writing the generated log file into a tested storage;

s3: in the log file writing process, a power-off command is issued to the power control module to control the tested storage power-off and record the power-off times;

s4: after the tested storage power-off is successful, a power-on instruction is issued to the power control module to control the tested storage power-on at a set time interval;

s5: after the tested storage is successfully powered on, checking the log file written in the tested storage, if the log file written in the tested storage can be normally checked, judging whether the preset power-off times are reached, and if so, finishing the test; if not, executing step S2.

In some embodiments, step S4: after the tested storage is powered off successfully, the step of waiting for a set time interval to issue a power-on instruction to the power control module to control the tested storage to be powered on comprises the following steps:

s3-4: detecting whether the tested storage OSES system network can communicate; the method specifically comprises the following steps: and ping the IP address of the OSES system to be tested and stored, and if the IP of the OSES system cannot be ping communicated, judging that the power-off of the OSES system to be tested and stored is finished.

And step S4: after the tested storage is powered off successfully, the step of waiting for a set time interval to issue a power-on instruction to the power control module to control the power-on of the tested storage comprises the following steps:

s4-5: detecting whether the OSES system network to be tested can communicate; the method specifically comprises the following steps: ping the IP address of the OSES system to be tested and stored, and if ping the IP address of the OSES system to be tested and stored, judging that the power-on of the storage to be tested is finished.

In some embodiments, the method further comprises:

and if the log file of the OSES system cannot be checked or is lost, outputting prompt information.

Continuously writing the OSES system through the script; the client controls the output end of the power supply control module to realize the power-on and power-off of the OSES system to be tested, and further realize the abnormal power-off when the OSES system is being written in, so that the stability of the OSES system is verified, and the storage related logs recorded by the OSES system are ensured not to be lost.

The test method based on the test system in this embodiment specifically includes:

(1) The client is connected with the storage to be tested, the script OSES _ log.sh is operated to continuously trigger the storage to generate a large number of log files, the OSES system starts to record log contents, and the OSES system always has a write-in action at the moment;

(2) The client sends an instruction to the power control module to disconnect the tested and stored power;

(3) The client side is communicated with the OSES network to be tested and stored, the client side pings the IP address of the OSES system to be tested and stored, and if the IP address of the OSES system cannot be pinged, the power-off of the OSES system is indicated;

(4) Waiting for a set time interval, issuing a command to the power control module by the client, recovering the power stored in the tested state, enabling the Ping of the client to be communicated with the IP address of the OSES system, and electrifying and starting the surface OSES system;

(5) And accessing the OSES system through the client, checking logs recorded by the OSES system, if the logs can be checked normally, indicating that the OSES system is normal, and if the logs cannot be checked or the OSES logs are lost, indicating that the OSES system is damaged.

(6) If the OSES system is damaged, outputting prompt information; if the OSES system is intact, the loop test continues.

Although the present invention has been described in detail by referring to the drawings in connection with the preferred embodiments, the present invention is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present invention by those skilled in the art without departing from the spirit and scope of the present invention, and these modifications or substitutions are within the scope of the present invention/any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (9)

1. A test system for storing OSES system stability is characterized by comprising a client, a power supply control module and a tested storage; the tested storage comprises an OSES system; the power supply control module is connected with the tested storage;

the client is provided with a log generation module which is used for generating a log file;

the client is connected with the power supply control module and used for controlling the output end of the power supply control module to realize the power-on and power-off of the tested storage;

the client is connected with the tested storage and used for writing the generated log file into the tested storage; the log file is also used for checking the log file written in the tested storage;

the specific working process is as follows:

generating a log file; writing the generated log file into a tested storage; in the log file writing process, a power-off instruction is sent to the power control module to control the tested storage power-off and record the power-off times; after the tested storage power-off is successful, a power-on instruction is issued to the power control module to control the tested storage power-on at a set time interval; after the tested storage is electrified successfully, checking the log file written in the tested storage, and if the log file written in the tested storage can be normally checked, indicating that the OSES system is normal; judging whether the preset power-off times are reached, if so, finishing the test; if not, continuing to perform the cycle test, and executing the following steps: writing the generated log file into a storage to be tested; if the OSES log cannot be checked or the OSES log is lost, the OSES system is damaged, and prompt information is output.

2. The system for testing the stability of the storage OSES system as claimed in claim 1, wherein the power control module is connected to the AC220V power supply input for controlling the power input of the storage under test.

3. The system for testing the stability of the storage OSES system according to claim 1, wherein the client is provided with an instruction issuing module, and the instruction issuing module is used for issuing a power-down instruction to the power control module to control the power-down of the tested storage in the log file writing process; and the power supply control module is also used for waiting for a set time interval to issue a power-on instruction to the power supply control module to control the tested storage to be powered on.

4. The system for testing the stability of the storage OSES system as claimed in claim 3, wherein the client is further configured with a detection module for detecting whether the network of the storage OSES system under test can communicate, and the detection module is specifically configured to ping the IP address of the OSES system under test to detect whether the network of the storage OSES system under test can communicate to determine whether the storage under test is powered on or powered off.

5. The system for testing the stability of the OSES system, as claimed in claim 4, wherein the detecting module is configured to ping the IP address of the OSES system to be tested and stored after the command issuing module issues the power-down command, and if the IP address of the OSES system to be tested and stored cannot be ping, determine that the power-down of the OSES system to be tested and stored is completed; the power-on instruction issuing module is also used for ping the IP address of the OSES system to be tested and stored after the power-on instruction issuing module issues the power-on instruction, and if the ping is communicated with the IP address of the OSES system to be tested and stored, the fact that the power-on of the storage to be tested is completed is judged.

6. The system for testing the stability of the storage OSES system according to claim 3, wherein the client is further provided with a counting module, and the counting module is used for recording the number of times of the power-down command issued by the command issuing module.

7. A method for testing the stability of an oss storage system, the method comprising the steps of:

generating a log file;

writing the generated log file into a tested storage;

in the log file writing process, a power-off instruction is sent to the power control module to control the tested storage power-off and record the power-off times;

after the tested storage power-off is successful, a power-on instruction is issued to the power control module to control the tested storage power-on at a set time interval;

after the tested storage is electrified successfully, checking a log file written in the tested storage;

if the log file written in the tested storage can be normally checked, whether the preset power-off times are reached is judged, and if yes, the test is finished; if not, executing the following steps: writing the generated log file into a storage to be tested, and continuously performing a cycle test;

if the OSES system log file cannot be checked or the OSES system log file is lost, indicating that the OSES system is damaged, and outputting prompt information.

8. The method as claimed in claim 7, wherein the step of waiting for a set time interval to issue a power-on command to the power control module to control the power-on of the tested storage after the tested storage is powered off successfully comprises:

detecting whether the OSES system network to be tested can communicate; the method specifically comprises the following steps:

and ping the IP address of the OSES system to be tested and stored, and if the IP of the OSES system cannot be ping communicated, judging that the power-off of the OSES system to be tested and stored is finished.

9. The method as claimed in claim 8, wherein after the power down of the storage under test is successful, the step of waiting for a set time interval to issue a power up command to the power control module to control the power up of the storage under test comprises:

detecting whether the tested storage OSES system network can communicate; the method specifically comprises the following steps:

ping the IP address of the OSES system to be tested and stored, and if ping the IP address of the OSES system to be tested and stored, judging that the power-on of the storage to be tested is finished.

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