CN116841836A

CN116841836A - One-key log collecting tool

Info

Publication number: CN116841836A
Application number: CN202311120695.2A
Authority: CN
Inventors: 王祥
Original assignee: Sichuan Huakun Zhenyu Intelligent Technology Co ltd
Current assignee: Sichuan Huakun Zhenyu Intelligent Technology Co ltd
Priority date: 2023-09-01
Filing date: 2023-09-01
Publication date: 2023-10-03
Anticipated expiration: 2043-09-01
Also published as: CN116841836B

Abstract

The invention belongs to the technical field of information transmission, and provides a one-key log collection tool which comprises an active scanning module, a first data storage module, a passive scanning module, a second data storage module, a log collection module and a data analysis module; the log collection module calls the first data storage module and the second data storage module, processes the log of the BMC component and the log of the non-BMC component associated with the log into a data pair with a uniform format, and sends the data pair to the data analysis module; the data analysis module extracts the first data characteristic of the data pair, distributes a unique data characteristic identifier, generates a final log file of the corresponding component based on the data characteristic identifier, and transmits the final log file of the corresponding component to the operation and maintenance terminal based on the authority of the operation and maintenance terminal when receiving log collection instructions sent by different operation and maintenance terminals. The method and the system can automatically generate the needed log file by one key according to the log request requirements of different authorities.

Description

One-key log collecting tool

Technical Field

The invention relates to the technical field of information transmission, in particular to a one-key log collecting tool.

Background

When the existing server is maintained, all the component logs are collected independently, wherein independent tools are needed to collect the component logs, such as BMC logs, system logs, expander logs, raid card logs, hard disk logs and the like.

Because the logs of all the existing components are collected independently, when the logs meeting the permission requirements are requested by operation and maintenance personnel with different permissions, the logs returned after the requests are disordered due to the fact that the log request tools are different, the returned log information is possibly incomplete, so that research, development and maintenance and solution of all components in a server by the operation and maintenance personnel are greatly influenced, when the log request permissions of the operation and maintenance personnel are higher, various logs can be requested, if the log request tools are not uniform, or the requested log data formats are disordered, the operation and maintenance personnel can be seriously delayed to see effective log information, particularly BMC (baseboard management controller) logs, the BMC is a core component for managing the server, and if the BMC component is abnormal, the operation and maintenance personnel cannot acquire the effective log information in time, and the normal operation of the whole server can be influenced.

Disclosure of Invention

The invention aims to provide a one-key log collecting tool which can automatically generate log files in a unified format by one key according to log requests of operation and maintenance terminals with different authorities and can greatly shorten the time for operation and maintenance personnel to check effective log files.

The invention solves the technical problems and adopts the following technical scheme:

a one-touch log collection tool comprising:

the active scanning module is used for actively scanning the log of the BMC component in the server and sending the log to the first data storage module;

the first data storage module is used for storing the scanned log of the BMC component and is used for being called by the log collection module;

the passive scanning module is used for inquiring the first data storage module, and when the non-BMC component associated with the BMC component is inquired, starting the passive scanning function to scan the log of the non-BMC component and sending the log to the second data storage module;

the second data storage module is used for storing the scanned logs of the non-BMC component and is used for being called by the log collecting module;

the log collection module is used for calling the first data storage module and the second data storage module, processing the log of the BMC component and the log of the non-BMC component associated with the log into a data pair with a uniform format and sending the data pair to the data analysis module;

the data analysis module is used for extracting the first data characteristic of the data pair, distributing a unique data characteristic identifier, generating a final log file of the corresponding component based on the data characteristic identifier, and transmitting the final log file of the corresponding component to the operation and maintenance terminal based on the authority of the operation and maintenance terminal when receiving log collection instructions sent by different operation and maintenance terminals.

As a further optimization, the active scanning module is provided with a first scanning time period, the passive scanning module is provided with a second scanning time period, and the scanning interval time in the first scanning time period is smaller than the scanning interval time in the second scanning time period.

As a further optimization, the first data storage module and the second data storage module share one buffer storage module, and all kinds of non-BMC components associated with the BMC components are stored in the buffer storage module;

when the log of the BMC component is stored in the first data storage module, the buffer storage module extracts second data features of the log of the current BMC component and analyzes the category of the non-BMC component associated with the BMC component based on the extracted second data features;

after the buffer storage module analyzes the category of the non-BMC component associated with the BMC component, a scanning starting instruction is sent to the passive storage module, and the passive storage module is informed of starting a passive scanning function.

As further optimization, the buffer storage module also stores a log data storage list corresponding to the category of the non-BMC component;

when the passive scanning module starts the passive scanning function to scan the log of the non-BMC component and stores the log into the second data storage module, the buffer storage module extracts a third data feature of the log of the non-BMC component and judges whether the second data feature is consistent with the third data feature, if so, the scanned log of the non-BMC component is stored into a log data storage list corresponding to the category of the non-BMC component.

As a further optimization, the log of the non-BMC component includes: system log, expander log, raid card log, and hard disk log.

As further optimization, vendor types of all types of non-BMC components are pre-stored in the second data storage module, and logs of the non-BMC components are respectively stored in log storage lists of the non-BMC components of different vendor types based on the types of the non-BMC components;

when the passive scanning module starts the passive scanning function to scan the log of the non-BMC component, the manufacturer type of the non-BMC component is obtained, a log storage list of the non-BMC component of different manufacturer types is queried, whether the manufacturer type of the non-BMC component belongs to a prestored manufacturer type is judged, and if so, the scanned log of the non-BMC component is sent to a second data storage module.

As further optimization, the log collecting module processes the log of the BMC component and the log of the non-BMC component associated with the log into a data pair in a unified format, and then compresses the data pair and transmits the compressed data pair to the data analyzing module.

As a further optimization, the data analysis module decompresses the compressed data pairs prior to extracting the first data features of the data pairs.

The beneficial effects of the invention are as follows: firstly, actively scanning a log of a BMC component in a server by using an active scanning module, sending the log to a first data storage module for storage, secondly, inquiring the first data storage module by using a passive scanning module, starting a passive scanning function to scan the log of the non-BMC component when the non-BMC component associated with the BMC component is inquired, sending the log to a second data storage module for storage, then calling the first data storage module and the second data storage module by using the log collecting module, processing the log of the BMC component and the log of the non-BMC component associated with the first data storage module into a data pair in a unified format, sending the data pair to a data analysis module, finally, extracting a first data characteristic of the data pair by using the data analysis module, distributing a unique data characteristic identifier for matching the corresponding fault type identifier, generating a final log file of the corresponding component, and transmitting the final log file of the corresponding component based on the authority of the operation and maintenance terminal when receiving log collecting instructions sent by different operation and maintenance terminals. Therefore, the time for the operation and maintenance personnel with different authorities to see the effective log files can be greatly reduced.

Drawings

FIG. 1 is a block diagram of a one-touch log collection tool according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Examples

The embodiment provides a one-key log collection tool, the structural block diagram of which is shown in fig. 1, wherein the tool comprises:

In this embodiment, an active scanning module is first executed, and is configured to actively scan a log of a BMC component in a server, and send the log to a first data storage module; the first data storage module is used for storing the scanned log of the BMC component and is used for being called by the log collection module; for the passive scanning module, the scanning function cannot be actively started, the passive scanning module is used for inquiring the first data storage module, when the non-BMC component associated with the BMC component is inquired, the passive scanning function is started to scan the log of the non-BMC component and send the log to the second data storage module for storage, and because the passive scanned object is the non-BMC component, the non-BMC component is managed by the BMC component associated with the non-BMC component when the non-BMC component runs, if the BMC component runs, the non-BMC component associated with the BMC component can be necessarily scanned, and if the passive scanning module is consistent with the active scanning module, the scanning function is actively started, and the scanning range and the scanning time are wasted; after the passive scanning module starts the scanning function, the first data storage module and the second data storage module can be called through the log collecting module, logs of the BMC component and logs of the non-BMC component associated with the BMC component are processed into data pairs in a unified format, and the data pairs are sent to the data analysis module; and finally, extracting the first data characteristic of the data pair by utilizing the data analysis module, distributing a unique data characteristic identifier, generating a final log file of the corresponding component based on the data characteristic identifier and matching the fault type identifier corresponding to the data characteristic identifier, and transmitting the final log file of the corresponding component to the operation and maintenance terminal based on the authority of the operation and maintenance terminal when receiving log collection instructions sent by different operation and maintenance terminals.

Therefore, operation and maintenance personnel can quickly inquire the log file content conforming to the authority of the operation and maintenance personnel through the operation and maintenance terminal, and the log files are unified, so that the checking requirements of all the operation and maintenance personnel can be met.

In the above tool, the active scanning module is provided with a first scanning time period, the passive scanning module is provided with a second scanning time period, and the scanning interval time in the first scanning time period is smaller than the scanning interval time in the second scanning time period, and because the BMC component needs to be screened out first, the passive scanning module is started to scan the non-BMC component, the scanning interval time in the first scanning time period must be set to be smaller than the scanning interval time in the second scanning time period, and the two types of scanning periods can be set according to the use situation of the server.

It should be noted that, in this embodiment, the first data storage module and the second data storage module may share a buffer storage module, where all kinds of non-BMC components associated with a BMC component are stored in the buffer storage module; when the log of the BMC component is stored in the first data storage module, the buffer storage module extracts second data features of the log of the current BMC component and analyzes the category of the non-BMC component associated with the BMC component based on the extracted second data features; after the buffer storage module analyzes the category of the non-BMC component associated with the BMC component, a scanning starting instruction is sent to the passive storage module, and the passive storage module is informed of starting a passive scanning function.

As a supplement, the buffer storage module may further store a log data storage list corresponding to the category of the non-BMC component; when the passive scanning module starts the passive scanning function to scan the log of the non-BMC component and stores the log into the second data storage module, the buffer storage module extracts a third data feature of the log of the non-BMC component and judges whether the second data feature is consistent with the third data feature, if so, the scanned log of the non-BMC component is stored into a log data storage list corresponding to the category of the non-BMC component.

In practical applications, the non-BMC component may be configured by itself according to different server configurations, for example, the log of the non-BMC component may include: system logs, expander logs, raid card logs, hard disk logs, and so forth. Of course, other non-BMC components may be provided.

Because different non-BMC components only need to ensure that the functions of the different non-BMC components are realized when the different non-BMC components are applied and the different non-BMC components can be used in a compatible manner with other components in a server, manufacturers of the different non-BMC components may not be consistent, and therefore in the embodiment, manufacturer types of all types of non-BMC components can be stored in the second data storage module in advance, and logs of the non-BMC components are respectively stored in log storage lists of the non-BMC components of different manufacturer types based on the types of the non-BMC components; when the passive scanning module starts the passive scanning function to scan the log of the non-BMC component, the manufacturer type of the non-BMC component is obtained, a log storage list of the non-BMC component of different manufacturer types is queried, whether the manufacturer type of the non-BMC component belongs to a prestored manufacturer type is judged, and if so, the scanned log of the non-BMC component is sent to a second data storage module.

The number of the data pairs is directly affected by the number of the BMC components and the non-BMC components associated with the BMC components, when the number of the non-BMC components in the server is large and the number of the BMC components actively scanned is large, the formed data pairs are likely to be large, so that the data pairs can be compressed and decompressed and then extracted for data analysis, and therefore in the embodiment, the log collecting module can process the logs of the BMC components and the logs of the non-BMC components associated with the BMC components into the data pairs in a unified format, compress the data pairs and then transmit the compressed data pairs to the data analyzing module, and the data analyzing module decompresses the compressed data pairs before extracting the first data features of the data pairs.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A one-touch log collection tool, comprising:

2. The one-touch log collection tool of claim 1, wherein the active scanning module is provided with a first scanning time period and the passive scanning module is provided with a second scanning time period, the scanning interval time in the first scanning time period being less than the scanning interval time in the second scanning time period.

3. The one-touch log collection tool of claim 1, wherein the first data storage module and the second data storage module share a single buffer storage module, wherein all kinds of non-BMC components associated with a BMC component are stored in the buffer storage module;

4. The one-touch log collection tool of claim 3 wherein the buffer memory module further stores a log data store list corresponding to a category of non-BMC components;

5. The one-touch journaling tool according to claim 1, wherein the journaling of the non-BMC component comprises: system log, expander log, raid card log, and hard disk log.

6. The one-touch log collection tool according to claim 1, wherein vendor types of all types of non-BMC components are pre-stored in the second data storage module, and the logs of the non-BMC components are respectively stored in log storage lists of the non-BMC components of different vendor types based on the types of the non-BMC components;

7. The one-touch log collection tool of claim 1 wherein the log collection module processes the log of the BMC component and the log of the associated non-BMC component into a data pair in a unified format and then compresses the data pair for transmission to the data analysis module.

8. The one-touch log collection tool of claim 7 wherein the data analysis module decompresses the compressed data pairs prior to extracting the first data features of the data pairs.